816R-2C
TECHNICAL MANUALOPERATION AND MAINTENANCE INSTRUCTIONS
TYPE 816R-2C FM TRANSMITTER21.5 kW, 88-108 MHz
(PIN 180295-2)
Serial No. 369 and Above'
COPYRIGHT © 2005 byCONTINENTAL ELECTRONICS
4212 S. BUCKNER BLVD.DALLAS, TEXAS 75227
(214) 381-7161 [email protected] FAX: (214) 381 ..4949
ISSUED - 10 APRIL 1995CHANGE 6 - 30 JUNE 2005
816R-2C
PREFACE
This Operation and Maintenance manual gives the physical and functional description, installation, operation, theory ofoperation, maintenance, parts lists, and diagrams for the identified equipment. Operator and service personnel shouldbecome familiar with the manual contents before attempting to install, operate, or maintain the equipment. In addition to theSafety Summary which follows the Table of Contents, specific WARNINGS, CAUTIONS and NOTES are locatedthroughout this manual where they apply. Continental Electronics (CE) manufactured this equipment to conform withcurrent electrical, radiation, and safety codes of the United States to the extent that they apply. It is the user's responsibilityto comply with all local and national codes during installation and operation of the equipment.
CE reserves the right to make any changes, without notice, to this or any of CE's products to improve reliability,performance, function, or design.
CE does not assume any liability resulting from the application or use of any product or circuit described herein; nor does CEconvey any license under its patent rights or the rights of others.
The information in this document has been carefully checked and is believed to be entirely reliable. While all reasonableefforts to ensure accuracy have been taken in the preparation of this manual, CE assumes no responsibility resulting fromomissions or errors in this manual, or from the use of information contained herein.
These instructions do not purport to cover all details or variations in equipment nor to provide for every possible contingencythat might be met during installation, operation, or maintenance. Should further infonnation be desired or should particularproblems arise which are not covered sufficiently for the user's purpose, the matter should be referred to CEo
All Rights Reserved
This document contains proprietary information ofContinental Electronics and shall not be duplicated,nor its contents used for any purpose, unless expresswritten permission is obtained from ContinentalElectronics .
CUSTOMER SERVICE
Continental Electronics customer service is available for assistance at any time, 24 hours a day, weekends and holidaysincluded. Call anytime day or night:
Parts ServicesEngineering ServicesMain OfficesWeb Address
(214) 388-3737(214) 388-5800(214) 381-7161 (8:00 am-5:00 pm CT)
You may write to any of these services at 4212 S. Buckner Blvd, Dallas, Texas 75227-0879, or FAX (214) 381-4949.
Change 6
816R-2C
INSERT LATEST CHANGE PAGES. DESTROY SUPERSEDED PAGES.
ILIST OF EFFECTIVE PAGES IDates of original and change pages are:Original. 0 .., .. , 19 August 1995Change 1 9 July 1996Change 2 9 September 1997Change 3 15 May 1998Change 4 10 January 2000Change 5 24 January 2003Change 6 30 June 2005
NOTE: The portion of text affected by the changes isindicated by a change number located in the footer ofeach changed page.
TOT.!~NUMBER OF PAGES IN THIS PUBLICATION IS 235 CONSISTING OF THE FOLLOWING:
Page No. *Change Page No *Change Page No 0 •••••••••• *Change
Titie? .pret'J.ce .A
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*Zero in the column indicates an original page.
6-88 .6-89 - 6-90 .6-91 Blank .6-92 - 6-96 _ .6-97 Blank .6-98 - 6-101 .6-102 Blank .7-1 .7-2 Blank .7-3 .7-4 Blank .7-5 ., .7-6 Blank , ,7-7 .7-8 Blank .7-9 .7-10 Blank .7-11 .7-12 Blank .7-13 .7-14 Blank .7-15 .7-16 Blank .7-17 .7-18 Blank .7-19 .7-20 Blank , .7-21 .7-22 Blank , ., .,7-23 .7-24 Blank .7-25 .7-26 Blank " .7-27 .7-28 Blank .7-29 .7-30 Blank .7-31 .7-32 Blank .
454444254oo3ooooooo4o4o4o5o4ooo33333353
A Change 6
816R-2C
Paragraph Title
SECTION 1 - GENERAL
TABLE OF CONTENTS
Page
1-1.1-2.1-3.1-4.
Introduction .Functional Description .Physical Description .Technical Characteristics .
SECTION 2 - INSTALLATION
1-11-11-11-1
2-1.2-1.12-1.22-1.32-1.3.12-1.3.22-1.3.32-2.2-2.12-2.22-3.
Pre-Installation Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1AC Power. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1RF Output Power 2-1Transmitter Cooling .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1Exhaust Fans 2-1Positive Pressure 2-2Transmitter Exhaust Duct. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6Unpacking and Inspecting 2-6Domestic Shipments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6International Shipments 2-6Assembly 2-7
SECTION 3 - OPERATION
3-1.3-2.3-3.3-4.3-5.3-6.3-7.3-8.
4-1.4-2.4-3.4-3.14-3.24-3.2.14-3.2.24-3.2.34-3.2.3.14-3.2.3.24-3.34-3.44-3.5
Change 4
General .Controls and Indicators .Initial Turn-On Procedure .Remote Operation .2nd Power Level (Low Pwr) Adjustment .Automatic Recycle Resetting .Nonnal Tum-Off (Local) .Emergency Tum-Off .
SECTION 4 - THEORY OF OPERATION
General 0 ••••••
Functional Description 0 ••••••••••
RF Circuits .Exciter, A4. . .IPA, A3 .IPA Metering, A3A1 .IPA Status, A3A2 .Amplifier Assembly, A3A3. . .RF Amplifier, Al .Control Assembly .RF Power Amplifier, A12 .Low-Pass Filter, A7 .Directional Coupler, DCl .
3-13-13-13-153-153-153-153-15
4-14-14-14-14-14-14-14-14-24-24-24-2.14-2.1
I
TABLE OF CONTENTS
Paragraph Title
SECTION 4 - THEORY OF OPERATION - Continued
816R-2C
Page
4-4.4-4.14-4.24-4.34-4.44-4.54-4.64-4.74-4.84-4.94-4.104-5.4-5.14-5.24-5.34-5.44-5.4.14-5.4.24-5.54-5.64-5.74-5.84-5.94-5.1 0
Power Supplies and Power Control Circuits , .General 0 ••• 0 0 ••••••
24 V dc Power Supply, PIO A10 .Power Amplifier Bias Power Supply, PIO A10 0 ••••••
PA Plate Supply .Power Control Unit, A9 .Power Control Regulator, PIO A2A6. . .PA Screen Power Supply 0 ••••••••••••••
Driver Power Supply, PIO A5 .Filament Voltage Regulator, A2A4 .Filament Voltage Distribution 0 •
Primary Power Distribution Control and Overload Circuits .Primary Power Distribution .Transmitter Turn-On. . 0 ••••••••••••• 0 •••••••••••••••••••••••••••••
Exciter Power Control Override. . 0 •
FWDIREFL Calibrate and Auto Power Control Unit, A2A6. . .Functions. . 0 •••••• 0 •
Theory of Operation. . .Overload Protection 0 ••••••••••••••
Overload and Recycle Board, A2A5 0 ••••••••
Power Failure Recycle Board, A8A 1. . 0
Auto-Manual Power Control Latching Relay and Transmitter Status Indicators. . .Power Control Relays, PIO A 1OA2 0
Remote Relays, PIO A10A2 .
SECTION 5 - MAINTENANCE
4-2.14-2.14-2.1 I4-2.14-104-104-104-104-104-104-134-134-134-134-164-164-164-164-174-174-184-184-184-18
5-1.5-2.5-2.15-2.25-2.35-3.5-4.5-5.5-5.15-5.25-6.5-6.15-6.25-6.35-7.5-7.15-7.1.15-7.1.2
ii
Routine Maintenance 0 ••••••••••••••••••••••••• 0 • • • • • • • • • • • • • • • • • • 5-1Cleaning 0 •••• o. . . 5-1General Cleaning Procedures. . 0 • • • • • • • • • • • • • • • • • • 5-1Air Filter. 5-1Tube Cleaning. 5-1Inspection . . . . . . . . 5-1Lubrication 5-1Parts Replacement 5-1PA Tube, VI 0 • • 5-2Fuse Replacement. 5-2Troubleshooting 0 • • • • • • • 5-2Access Panel Interlock Switch. 5-2Test Equipment. . 0 5-2Troubleshooting the Power Controller. 0 • • • • • • • • • 5-2Adjustments 5-3Switch Adjustments. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3Air Interlock Switch, AI2S1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-3Tuning Motor Limit Switches, AI2S 11-S 14 0 • • 5-3
Change 5
816R-2C
Paragraph Title
SECTION 5 - MAINTENANCE - Continued
TABLE OF CONTENTS
Page
5-7.25-7.35-7.3.15-7.3.25-7.45-7.55-7.65-7.6.15-7.6.25-7.6.35-7.75-7.7.15-7.7.25-7.7.35-7.7.45-7.85-8.5-9.5-9.15-9.1.15-9.1.25-9.1.35-9.1.45-9.1.55-9.1.65-9.1.75-9.1.85-9.1.95-9.1.105-9.25-9.3
6-1.6-2.6-3.6-4.6-5.6-6.
7-1.
Change 3
Filament Voltage Adjustment. .DC Overload Adjustment. .PA Plate Overload Adjustment. . .PA Screen Overload Adjustment. .PA Grid Current. . .High Voltage Power Supply Static Check (no drive) .IPA Metering Board Calibration .General Information. . .Setup Procedures .Calibration Procedures. . .FWDIREFL CAL and Power Control Card, A2A6. . .Offset Nulls. . .Forward Power Calibration .Reflected Power and VSWR Protection Calibration .VSWR Foldback Adjustment. .Phase Monitor Adjustment. .Changing Power .Changing Frequency .Frequency Change Adjustments. . .Shorting Plane .PA Neutralization. . .PA Grid Tuning Slider .PA Grid Swamping Capacitor. .Cathode Return Capacitor. .Efficiency Capacitor. .Coupling Capacitor. .PA Bias .IPA to PA Cable Length. . .PA Grid Circuit. . .PA Tuning and Loading. . .PA Neutralization. . .
SECTION 6 - PARTS LISTS
Introduction .Reference Designations (Ref Des) .Description .Part Number .Illustrations .Index of Parts Lists 0 •••••••••••••••
SECTION 7 - DIAGRAMS
Introduction
5-35-65-65-65-75-75-75-75-75-85-95-95-105-105-105-115-115-115-115-115-125-125-125-125-125-125-125-215-215-225-23
6-16-16-16-16-16-1
7-1
iii
TABLE OF CONTENTS
LIST OF ILLUSTRATIONS
816R-2C
Figure
1-1.
2-1.2-2.2-3.2-4.2-5.2-6.2-7.2-8.
3-1.3-2.3-2.3-3.3-4.3-5.3-6.3-7.3-8.
4-1.4-2.4-3.4~4.
4-5.4-6.4-7.4-8.4-9.4-10.
Title
SECTION 1 - GENERAL
816R-2C FM Transmitter.
SECTION 2 - INSTALLATION
FM Transmitter Outline and Installation Drawing .FM Transmitter Nominal Heat Balance .Remote Control Connections .Transmitter Controller (377D-l or -2) Connections .Remote Plate Current Sample Circuit .Transformer Connection Schedule .IPA Transformer (T3) Connection .Secondary Tap Configuration, T2 .
SECTION 3 - OPERATION
Transmitter Control Panels. . .Control Panel, AI, Controls (Sheet 1 of 2). . .Control Panel, AI, Status Indicators (Sheet 2 of 2) .Card Cage Assembly, A2, Controls and Indicators .
IPA, A3, Controls and Indicators .Circuit Breaker Panel, A6, Controls and Indicators .PA Tuning and Loading .Amplifier Efficiency vs. Frequency and Po .Power to VSWR Conversion Graph .
SECTION 4 - THEORY OF OPERATION
FM Transmitter 816R-2C, Block Diagram .RF Drive Path. . .IPA Block Diagram, A3. . .SCR Power Control, Simplified Diagram. . .Power Amplifier DC Bias Circuitry Simplified Schematic .PA Cavity, A12 .PA Tuning Circuit, Simplified .Power Control Circuits, Simplified Diagram. . .Filament Voltage Distribution .AC Power Distribution. . .
Page
1-2
2-32-52-82-92-102-122-132-15
3-23-33-43-83-83-103-143-183-19
4-34-44-54-64-74-84-94-114-144-15
I
iv Change 3
816R-2C TABLE OF CONTENTS
LIST OF ILLUSTRATIONS - Continued
Figure
4-11.4-12.
5-1.5-2.5-3.5-4.5-5.5-6.5-7.5-8.5-9.5-10.
6-1.6-1.6-2.6-3.6-4.6-5.6-6.6-7.6-8.6-9.6-10.6-11.6-12.6-13.6-14.6-156-166-176-18.6-19.6-20.6-21.6-22.6-23.6-24.
Change 3
Title
SECTION 4 - THEORY OF OPERATION - Continued
Latching Relay Simplified Schematic .Power Control Relays Simplified Schematic. . .
SECTION 5 - MAINTENANCE
Primary AC Wiring, Power Control. .PA Plate Tuning Cavity Slider, Coarse Adjustment. .PA Neutralizing Adjustment. .Graph for Coarse Setting of PA Grid Tuning Inductors. . .Power Amplifier Tube Socket (Bottom View), A12A3 .PA Grid Swamping Capacitor. .PA Socket, Cathode Return Capacitors .Adjustment of Cathode Return Capacitors. . .Cathode Return Capacitor Position vs. Frequency .IPA to PA Cable Length. . .
SECTION 6 - PARTS LISTS
816R-2C FM Transmitter (Sheet 1 of2) .816R-2C FM Transmitter (Sheet 2 of2) .Control Panel, AI .Control Panel Circuit Card Assembly, A1A1. . .Card Cage, A2 .Filament Regulator Circuit Card Assembly, A2A4. . .Overload/Recycle Circuit Card Assembly, A2A5 .Power Monitor/Control Circuit Card Assembly, A2A6 .Card Cage Component Circuit Card Assembly, A2A7 .Backplane Circuit Card Assembly, A2A8. . .Power Control Assembly, A2A9 .Intermediate Power Amplifier Assembly, A3 .IPA Metering Circuit Card Assembly, A3A1 .LED Assembly, A3A2. . .Amplifier Assembly, A3A3 .Amplifier Module, A3A3A1-A2 .RF Circuit Card Assembly, A3A3A1-A2A1 .Control Circuit Card Assembly, A3A3A1-A2A2 .Component Shelf Assembly, AS .IPA Metering Circuit Card Assembly, ASA1 .Circuit Breaker Assembly, A6. . .Low Pass Filter Assembly, A7 .Component Panel Assembly, A8. . .Power Failure Recycle Circuit Card Assembly, A8A 1 .Variac Driver Assembly, A8A2 .
Page
4-194-20
5-45-135-145-155-165-175-185-195-205-21
6-36-46-86-106-186-206-266-306-366-406-426-446-466-506-526-546-566-586-626-666-686-726-746-766-78
v
TABLE OF CONTENTS
LIST OF ILLUSTRATIONS - Continued
816R-2C
Figure
6-25.6-26.6-27.6-28.6-29.6-29.6-30.6-31.6-32.6-33.
17-1.7-1.7-2.7-3.7-4.7-5.7-6.7-6.
17-7.7-8.7-9.
17-107-117-127-13
vi
Title
SECTION 6 - PARTS LISTS - Continued
SCR Assembly, A9 .Power Supply Assembly, A10 .Bias Component Circuit Card Assembly, AlOAl .Remote Control Circuit Card Assembly, AlOA2 .PA Cavity Assembly (Front View), A12. (Sheet 1 of2) .PA Cavity Assembly (Rear View), A12. (Sheet 2 of 2) .Metering Multiplier Circuit Card Assembly, A12Al .Metering Multiplier Circuit Card Assembly, A12A2 .PA Tube Socket Assembly, A12A3 .Bleeder Resistor Assembly, A13 .
SECTION 7 - DIAGRAMS
Control Panel (Sht. 1 of 2) .Control Panel (Sht. 2 of 2) .Filament Regulator Schematic Diagram. . .Overload/Recycle Schematic Diagram. . .Power Monitor/Control Schematic Diagram .Card Cage Components .Backplane Schematic Diagram (Sheet 1 of 2) .Backplane Schematic Diagram (Sheet 2 of 2) .Intermediate Power Amplifier (IPA) 816R Schematic Diagram .Driver Metering Schematic Diagram .IPA Status Schematic Diagram. . .Amplifier Module Schematic Diagram .Control Circuit Card Assembly .RF Circuit Card Assembly Schematic Diagram .Remote Control Schematic Diagram .
Page
6-806-826-846-866-896-906-946-966-1006-102
7-37-57-77-97-117-137-157-177-197-217-237-257-277-297-31
Change 3
816R-2C TABLE OF CONTENTS
LIST OF TABLES
Table
1-1.
2-1.
3-1.3-2.3-3.3-4.3-5.3-6.
5-1.
6-1.
7-1.
Change 3
Title
SECTION 1 - GENERAL
Technical Characteristics
SECTION 2 - INSTALLATION
Screen Voltage Transfonner Tap Schedule .
SECTION 3 - OPERATION
Control Panel, A1, Controls and Indicators .Card Cage Assembly, A2, Controls and Indicators .IPA, A3, Controls and Indicators .
Circuit Breaker Panel, A6, Controls and Indicators .Nominal Operating Parameters vs. Power Levels .Nominal Operating Parameters vs. Frequency .
SECTION 4 -THEORY OF OPERATION
(No Tables In This Section)
SECTION 5 -MAINTENANCE
Required Test Equipment .
SECTION 6 -PARTS LISTS
Index of Parts Lists .
SECTION 7 -DIAGRAMS
Index of Schematic Diagrams .
Page
1-3
2-14
3-53-93-93-113-163-17
5-2
6-1
7-1
vii
TABLE OF CONTENTS
viii
(This Page Intentionally Left Blank)
816R-2C
Change 3
816R-2C
I GENERAL
SAFETY INFORMATION
SAFETY SUMMARY
This safety summary is intended for trained and qualifiedpersonnel who are aware of the dangers inherent in handlingpotentially hazardous electrical circuits. It is not intended asa complete or authoritative medical treatment course, butshould serve as a reminded of accepted emergencytechniques. The equipment documentation must be reviewedfor familiarization with safety markings and instructionsbefore operation or maintenance activities are attempted.Know where and how to tum off main electrical power tothe equipment. User personnel should have training in firstaid and cardiopulmonary resuscitation (CPR) techniques.Emergency medical, fire, and ambulance telephone numbersshould be posted in clear view adjacent to each telephone.Make a note if 911 service is available.
II ELECTRICAL SHOCK TREATMENT
In case of an electrical shock the A-B-Cs of basic lifesupport treatment may be used while medical assistance isbeing summoned.
WARNINGHIGH VOLTAGE/RF HAZARD
WHEN A VICTIM IS IN CONTACT WITHHIGH VOLTAGE OR RF, ENSURE SOURCEPOTENTIAL IS REMOVED AND CIRCUITGROUNDED BEFORE ATTEMPTINGARTIFICIAL RESPIRATION. FAILURE TOCOMPLY MAY RESULT IN PERSONALINJURY OR DEATH.
1. If the victim is not responsive follow the A-B-Cs ofbasic life support. Place victim face-up on a flat hardsurface. Three critical areas (Airway, Breathing, andCirculation) need immediate attention:
WARNINGBITE HAZARD
USE CAUTION WHEN PLACINGFINGERS IN VICTIMS MOUTH, MUSCLESPASMS CAN CAUSE THE MOUTH TOCLOSE WITH FORCE SUFFICIENT TOSEVER YOUR FINGERS. FAILURE TOCOMPLY MAY RESULT IN LOSS OFFINGERS.
a. Airway - If victim is unconscious, open airwayby lifting up the neck while pushing back on thevictims forehead. Refer to Figure 1A. Clearmouth of obstructions and observe for breathing.
WARNINGRESCUER KEEP CALM
EXCESSIVELY DEEP AND RAPIDBREATHING BY THE RESCUER MAYRESULT IN RESCUER BECOMINGFAINT, TO TINGLE, AND EVEN LOSECONSCIOUSNESS. BREATHING SHOULDBE NORMAL IN RATE WITH ONLYMODERATE INCREASE IN VOLUME.FAILURE TO COMPLY MAY RESULT INRESCUE BEING PREMATURELYSTOPPED DUE TO FATIGUE.
b. Breathing - If victim is not breathing beginartificial breathing. Tilt head, pinch nostrils,make airtight seal with your mouth, and blow 4quick full breaths into the victims lungs. Refer toFigure lB.
c. Circulation - If victim does not have a pulse, seeFigure 1C, begin artificial circulation. Depresssternum 1Y2 to 2 inches then release. Refer toFigures ID and IE. WITH ONE rescuer:Perform 15 compressions and 2 quick breaths atthe rate of 80 per minute. WITH TWO rescuers:Perform 5 compressions and 1 breath at the rateof 60 per minute.
ix
SAFETY SUMMARY 816R-2C
94G0309
•••••••• fit...-.
Figure 1. Artificial Breathing and Circulation.
2. If the victim is responsive treat for shock in thefollowing way:
a. Keep victim warm.
1. In case of extensive electrical bums and broken skin:
a. Cover area with clean sheet or cloth. (Cleanestavailable cloth article.)
b. Keep victim as quite as possible.
c. Loosen victims clothing.
b. Do Not break blisters, remove tissue, removeadhered particles of clothing, or apply any salveor ointment.
d. Place victim in a reclining position if possible. c. Treat victim for shock as follows: Keep victimwarm, quite, reclined, and loosen clothing.
III FIRST-AID
Users of this equipment are urged to become familiar withfirst-aid theory and practices. The following information isintended for reference only. It is important that all personnelusing this equipment be prepared to give adequateEmergency First-Aid to fellow users.
d. Arrange transportation to a hospital as quickly aspossible.
x
816R-2C
III FIRST-AID - Continued
e. If arms or legs are affected keep them elevated.
NOTE
If medical help will not be available within anhour and the victim is conscious and notvomiting, give him a weak solution of salt andsoda: 1 level teaspoon of salt and 1/2 levelteaspoon of baking soda to each quart ofwater (neither hot nor cold). Allow victim tosip slowly about 4 ounces (a half glass) over aperiod of 15 minutes. Discontinue fluid ifvomiting occurs. (Do Not give alcohol.)
2. In case of less severe electrical burns (1 st. or 2nd.degree) with no broken skin:
a. Apply cool (not ice cold) compresses using thecleanest available cloth article.
b. Do Not break blisters, remove tissue, removeadhered particles of clothing, or apply any salveor ointment.
c. Apply clean dry dressing if necessary.
d. Treat victim for shock as follows: Keep victimwarm, quite, reclined, and loosen clothing.
e. Arrange transportation to a hospital as quickly aspossible.
f. If arms or legs are affected keep them elevated.
IV SAFETY SYMBOLS
Safety symbols shown below are typical of those used in theoperation and maintenance manual:
WARNING
The WARNING sign as shown above, denotes apersonal hazard. It calls attention to a procedure,practice, or the like, which, if not correctlyperformed or adhered to, may result in personalinjury. Do not proceed beyond a WARNINGsign until the indicated conditions are fullyunderstood and met.
SAFETY SUMMARY
CAUTION
The CAUTION sign as shown above, denotes anequipment hazard. It calls attention to anoperating procedure, practice, or the like, which,if not correctly performed or adhered to, mayresult in damage to or destruction of part or all ofthe equipment. Do not proceed beyond aCAUTION sign until the indicated conditionsare fully understood and met.
V SAFETY PRECAUTIONS
Follow the safety precautions listed below in addition to anysite safety precautions when servicing this equipment.Failure to observe these safety precautions may result inserious injury or death.
WARNING
DEATH OR SERIOUS INJURY MAYRESULT IF PERSONNEL FAIL TOOBSERVE THE FOLLOWING SAFETYPRECAUTIONS.
1. Never work on electronic equipment unless there isanother person present who is familiar with theoperation and hazards of the equipment and who iscompetent in administering first aid. When theengineer or technician is aided by operators, he mustwarn them about dangerous areas.
2. Do not contact high voltage or current connectionswhen power is applied to this equipment.
3. Whenever the nature of the procedure permits, keepone hand away from the equipment to reduce thehazard of current flowing through vital organs of thebody.
xi
SAFETY SUMMARY
V SAFETY PRECAUTIONS - Continued
4. Make sure that all rings, watches, necklaces, metallicear-rings, and other similar items are removed beforeworking with this equipment.
5. Whenever possible, the power supply to the equipmentmust be turned-off and tagged or locked beforebeginning work on the equipment.
6. Extremely high current, low voltage, dc is used inportions of the equipment. Do not be misled by thelow voltage rating (5 to 30 V dc) of the currentsources. Severe injury to personnel and damage to theequipment can occur if the voltage sources are shorted(directly connected) to ground or ground returns bytools or test equipment.
VI VOLTAGE, CURRENT, and LIGHTNINGHAZARDS
The voltage, current, and lightning hazards listed in 1through 3 below exist for the equipment. For hazardsassociated with vendor equipment, refer to appropriatemanuals furnished with the item.
816R-2C
a. Proper precautions shall be taken to protectcardiac pacemaker users.
b. Ensure that radiation restrictions for nearbyequipment or other high power rf radiationsources are observed before performingmaintenance on this equipment.
c. Prior to and during operation and maintenance,observe all radiation restrictions in effect at thesite.
d. If personnel are suspected or known to have beenexposed to rf radiation in excess of rf radiationprotection guidelines, consult medical personnelimmediately.
VIII TOXIC MATERIAL/ENVIRONMENTALHAZARDS
The hazards listed in 1 and 2 below may exist whenperforming maintenance of the equipment. For hazardsassociated with vendor equipment, refer to appropriatemanuals furnished with the item.
1. The dc voltage hazards consist of potentials of 5 V dcto 10kV dc between power supply lines within theequipment.
2. High voltage, high current, 50/60 Hz ac power issupplied to the equipment.
3. Antenna systems acting as an attracting devicepresents a lightning hazard to personnel performingmaintenance on the equipment. No maintenanceshould be performed on the unit when thunderstormsare imminent or in progress, while the antenna isconnected.
1. Toxic or flammable solvents and corrosive chemicalsused in cleaning operations may involve the use ofcaustic or acid solutions, skin irritants, and organicsolvents that are flammable and/or toxic. Thefollowing precautions, as a minimum, must beobserved by personnel using such materials.
a. Work only in well ventilated areas.
b. Wear organic vapor respirators when usingorganic solvents or corrosive chemicals.
c. Wear chemical safety goggles, gloves and apronswhen using corrosive chemicals.
VII RF RADIATION HAZARDS
The rf radiation hazards listed in 1 and 2 below exist for theequipment. For hazards associated with vendor equipment,refer to appropriate manuals furnished with the item.
1. RF radiation from the equipment could present apotential hazard to personnel wearing cardiacpacemakers.
d.
e.
f.
Do not use flammable chemicals near or insidethe equipment while power is applied to thesystem.
Maintain a fully stocked first aid cabinet nearbyfor emergency treatment of scalds, burns, etc.
Flush away coolant or cleaning solventcontamination from any part of the body.
2. The following rf radiation hazard precautions shall beobserved when operating or performing maintenanceon the equipment:
xii
2. Benzene, Carbon Tetrachloride, Freon,andTrichloroethane based Solvents should only be used inwell ventilated areas. The fumes are toxic and may behazardous to your health or can cause death bysuffocation.
816R-2C
IX MAJOR EMPLACEMENT ANDMAINTENANCE HAZARDS
The precautions given in 1 and 2 below must be observed toprevent injury or death to personnel:
1. Installation and assembly hazards associated with theequipment are as follows:
a. After performing maintenance ensure the doorsand covers are installed prior to attempting toreturn the equipment to service.
b. On all electrolytic capacitors, make sure terminalpolarity markings [positive (+) and negative (-)]are observed when connecting capacitors to ± dcbuses.
2. While performing maintenance on the equipment,observe the following precautions:
SAFETY SUMMARY
2. Electrostatic handling of MOS devices is of primeimportance. Stati~ electricity is always present in anywork environment. It is generated when ever twodifferent materials are rubbed together. A personwalking across the floor can generate a charge ofthousands of volts. A person working at a bench,sliding around on a stool, or rubbing his arms on thework bench can develop a high static potential. Forpreventing damage to devices due to ESD, use thefollowing precautions:
a. Table tops or work areas should be covered withgrounded conductive tops. Test areas shouldhave conductive floor mats.
b. Tools and test equipment used in protected workareas shall be properly grounded. Ensure thatsoldering-iron tips are grounded. If plastichandled tools must be used, they shall be treatedwith a topical antistat.
STATIC SENSITIVE DEVICES
b. When performing maintenance on the equipmentmake sure all ac power to the unit is removed.
X
a. Maintenance of equipment shall not beperformed when thunderstorms and lightning areimminent or in progress.
c.
d.
Devices, or circuit cards with devices, should notbe inserted into or removed from circuits withthe power on because transient voltages maycause permanent damage.
Use a conductive wrist strap when removing acircuit card containing MaS/CMOS devicesfrom a card cage or when removing a devicefrom a circuit card.
There are some circuits throughout the equipment usingmetal-oxide-semiconductor (MaS) and complementaryMaS (CMOS) integrated circuits. This requires stringentattention to handling techniques due to the sensitivity tostatic electricity. The following paragraphs outline theprocedures to use when handling MaS or CMOS devices.
1. Electrostatic discharge hazards in MaS/CMOSdevices are prevalent. Such damage can be producedby Electrostatic Discharge (ESD) due to improperhandling or installation. All MaS/CMOS devices aresusceptible to damage by the discharge of electrostaticenergy between any two pins. This sensitivity to staticcharge is due to the fact that gate input capacitance (5picofarads typical) in parallel with an extremely highinput resistance (1012 ohms typical) lends itself to ahigh input impedance and hence readily builds up theelectrostatic charges.
3.
e. The devices are to be stored or transported instatic shielding bags, anti-static rails, orconductive foam.
ESD grounding is critical to safe handling of ESDsensitive devices. Earth ground rods for ESDprotection shall be solid copper or copper jacketedsteel and shall be driven six to eight feet into the earthbeyond the work area floor slab with approximatelysix inches exposed for making connection. Dry soilconditions may require a copper sulfate drip. Electricalgrounds shall be isolated from static grounds.
Water pipes offer convenient grounds; however, theymay not be connected to earth ground. Thesetechniques are for minimizing the difference ofpotential between separate grounds, and not forreducing the ohmic resistance to earth.
xiii
SAFETY SUMMARY
xiv
(This Page Intentionally Left Blank)
816R-2C
816R-2C
SECTION 1 - GENERAL DESCRIPTION
GENERAL DESCRIPTION
WARNING
DISCONNECT PRIMARY POWERBEFORE SERVICING THISTRANSMITTER. SHORT ALLCAPACITORS AND POWERSUPPLIES WITH GROUNDINGSTICK. VOLTAGES IN THISTRANSMITTER ARE DEADLY TOHUMAN LIFE.
1-1. INTRODUCTION
The 816R-2C transmitter operates in the FM broadcastrange (88-108 MHz) with an RF output power 01'21.5 kW.Reduced power is available by tap changes of the plate andscreen transformer to meet customer requirements. Whenthe exciter receives input from the optional stereo generatorand SCA generator, the transmitter provides continuousmonaural, stereophonic, and SCA (subsidiarycommunication authorization) frequency-modulatedprograms.
1-2. FUNCTIONAL DESCRIPTION
The transmitter consists of an exciter, a solid-state driver,and a power amplifier. The output of the exciter is applied
Ito the driver. The driver consists of two 400-watt modulescombined. The input to the driver is amplified toapproximately 500 watts and applied to the power amplifierthat contains one
Change 5
4CXI5,OOOA tube operated class C. The output of thepower amplifier is applied to a 50-ohm unbalanced load.Power control circuits monitor the RF output power level.When a change in output power is detected, these circuitschange the plate voltage to compensate. Other controlcircuits within the transmitter monitor reflected power,forward power, operating voltage, air pressure and exhaustair temperature within the power amplifier section. Theyprotect the transmitter by removing power when excessivecurrents, VSWR, loss of air pressure, or excessive airexhaust temperature occur.
1-3. PHYSICAL DESCRIPTION
The transmitter is housed in a unistrut cabinet that containsall transmitter components. Refer to Figure 1-1. Thetransmitter contains three sections. The section on the left inFigure 1-1 contains the power amplifier. The center sectionhouses the control panel, control circuits, exciter, and drivercircuits. The section on the right contains the powersupplies, the circuit breakers, and fuse panel.
1-4. TECHNICAL CHARACTERISTICS
Table 1-1 contains the mechanical, environmental, andelectrical specifications for the 816R-2C Transmitter.
1-1
GENERAL DESCRIPTION
o
Cl Cl «) .:) Cl«) C)
Cl«)«)«)«JCl4[)
95G0192
816R-2C
1-2
Figure 1-1. 816R-2C FM Transmitter.
Change 5
816R-2C
Function
Weight
Size - Transmitter
Finish:
Ventilation:
Ambient Temperature Range:
Relative Humidity Range:
Altitude:
Shock and Vibration:
Frequency Range:
Output Power:
Output Impedance:
Standing Wave Ratio:
Power Source:
Power Line Variations:
Change 3
GENERAL DESCRIPTION
TABLE 1-1. TECHNICAL CHARACTERISTICS
Characteristic
MECHANICAL
1,962 lbs (890 kg)
Height: 73 in (188 em) with directional couplerWidth: 70.7 in (180 em)Depth: 28 in (71 em)
Front Panel: GreyCabinet: Black
ENVIRONMENTAL
Squirrel cage type blower mounted under the cavity. Axial fan in the rightsection that provides positive air pressure within the entire cabinet
-4°F to + 122°F operating(-20°C to +50°C)
°to 950/0 relative humidity
Up to 7,500 ft (2,285m) at 95°F (+35°C)Up to 10,000 ft (3,046m) at 104°F (+40°C) with optional high altitude blower
Normal handling & transportation
ELECTRICAL
88 to 108 MHz
10,000 watts to 21,500 watts
50 ohms, unbalanced
2: 1 Maximum (Refer to Figure 3-8)
200 to 250 volts, 60 Hz, 3 phase.Available voltage taps on plate & screen transformers: 200, 210, 220, 230, 240and 250. (50 Hz operation available on special order)
±5% overall power line variations; in addition, the phase angle and voltageunbalance shall be within 5% of the average of all three phases
1-3
GENERAL DESCRIPTION
TABLE 1-1. TECHNICAL CHARACTERISTICS - Continued
816R-2C
Function
Harmonic & SpuriousRadiation:
Modulation Characteristics:
Input Power Requirements:(at 21.5 kW output)
Excitation Source:
Output Impedance:
Carrier Frequency Stability:
Modulation Input:
Audio Frequency Response:
Audio Frequency Distortion:
FM Noise Level:
AM Noise Level:
1-4
Characteristic
ELECTRICAL - Continued
Any emission appearing on a frequency removed from the carrier bybetween 120 kHz and 240 kHz inclusive is attenuated at least 25 dB belo\v thelevel of the unmodulated carrier.
Any emission appearing on a frequency removed from the carrier by more than240 kHz and up to and including 600 kHz is attenuated at least 35 dB below thelevel of the unmodulated carrier.
Any emission appearing on a frequency removed from the carrier by more than600 kHz is attenuated at least 80 dB below the level of the unmodulated carrier.
Wideband direct FM
34.5 kW at 0.9 Power Factor
Continental 802B Exciter
50 Ohms, unbalanced
Frequency will not vary more than ±250 Hz for an ambient temperature range of+32°F to +131°F (0 to +55°C).
Monaural - 600 Ohms, balanced, +1°dBm ±2 dB, for ±75kHz deviation
Composite - 5,000 Ohms, switchable balanced or unbalanced, 1.25 Vrms, for±75 kHz deviation
SCA: 3 adjustable, 15,000 Ohms, unbalanced, 1.25 Vrms, for 100/0 injection
Monaural - ±0.5 dB; flat, 25,50,75 microsecond pre-emphasis, 20 Hz to 15kHz.
Monaural- Not more than 0.08%,20 Hz to 15 kHz (Measured with spectrumanalyzer)
75 dB below 100% modulation (±75 kHz)
Asynchronous - 55 dB below equivalent 100% AM modulation
Synchronous - 50 dB below equivalent 1000/0 AM modulation
816R-2C
SECTION 2 - INSTALLATION
INSTALLATION
2-1. PRE-INSTALLATION INFORMATION
The transmitter requires three phase 200 to 250 volts, 50 or60 Hz, AC primary power of either Wye or closed Deltaconfiguration. Line-to-line balance must be within fivepercent both for voltage and phase.
Refer to Figure 2-1 for location of air ports, wire ports, andcabinet dimensions. The transmitter should be located toallow access to front and rear.
2-1.1 AC Power.
Figure 2-1 shows the location of the openings in the top andfloor of the transmitter that can be used to bring the powercables into the transmitter. Power cables may be broughtthrough either a two-inch (5 em) knockout in the top of thecabinet or through a two-inch round opening in the floor ofthe transmitter. The size of the power wiring is determinedby local electrical code and good engineering practice. In nocase should the wiring be smaller than number #1/0 AWGwire where the wire length is up to 100 feet (31 m). Thedisconnect fuses should be 150 ampere slo-blow. Thetransmitter has a 150 ampere primary power disconnectbreaker.
AC line transient suppressors are suggested for the primaryI lines. For recommendation of suppressors, call CE Field
Service.
2-1.2 RF Output Power.
The RF output power termination is a 3-1/8" EIA flangelocated at the top of the directional coupler just above thePA cavity.
2-1.3 Transmitter Cooling.
In many locations ventilating a building is preferred over airconditioning. Air conditioning equipment is mechanical andcan break down, is initially expensive, and is expensive tomaintain and operate. The 816R-2C transmitter can operatein a room environment where temperatures can be as low as-4 0 F to as high as 122 0 F. There are several different waysto ventilate a room that will be discussed in followingparagraphs. Refer to Figure 2-2 for nominal heat balancevalues.
Change 5
2-1.3.1 Exhaust Fans. There are times when exhaust fansare the best means of ventilating a transmitter space. If theroom is large and it is not possible to locate the transmitter
near an outside wall, exhaust fans may be the onlyreasonable way to ventilate a room. It is better in thissituation to vent the transmitter directly to the room orthrough a short duct to the attic and use exhaust fans in theroom or the attic. It is important to arrange the transmitterexhaust so that there is no chance of recirculation of exhaustair back into the transmitter.
There are many good ways to make an installation utilizingexhaust fans and one method will be described here. If theroom has a high ceiling (more than 10 feet), install a dropceiling about eight feet from the floor. Vent the transmitterexhaust directly into the space above the drop ceiling. Letthe transmitter take air from the room. At the four corners ofthe drop ceiling install air registers that will allow air fromthe room to escape into the area above the drop ceiling.Install an exhaust fan that will evacuate the area above thedrop ceiling. This method will not have the exhaust fancompeting with the transmitter fan and blower, will preventrecirculation (providing exhaust fan does not fail), and \villprovide ventilation for the transmitter space. There arevariations of this scheme that will allow recirculation(controlled by a thermostat) in the winter to heat thetransmitter space.
Although exhaust fans and blowers are the most commonmethod ofventilating transmitter spaces they are not the bestin some cases. The three cautions listed below are somereasons for choosing another method when there is a choice.
1. An exhaust fan allows unfiltered air into the transmitterby expelling air from the room or building and pullingair into the room through any and all openings in theroom. The transmitter space should be as clean and dustfree as possible. It is not likely that the transmitter spacecan be air tight except for the filtered air intake. Theunfiltered openings will allow dust and dirt into thetransmitter space.
2. An exhaust fan results in dead air spaces since it doesnot "stir" the air in a room which makes "dead airspaces" possible. There is usually only one intended airinlet to a transmitter space and the air movement is fromthat inlet directly to the exhaust fan.
2-1
INSTALLATION
2-1.3.1 Exhaust Fans. - Continued
3. In installations where the transmitter is ducted to theoutside and takes air from the room, the exhaust fan iscompeting with the transmitter cabinet fan and cavityblower for air through the same room air inlet. In thissituation, the greater capacity of the exhaust fan willreduce the transmitter cooling if the room air inlet is notlarge in size. Where exhaust fans or blowers are used,the room air intake must be large enough so that theroom in not under negative pressure. Negative pressureat the transmitter air inlet has the same detrimental effectas back pressure of the same amount at the transmitterair exhaust.
2-1.3.2 Positive Pressure. Positive pressure ventilationforces air into the room and the air escapes throughopenings in the room. The air may be forced into the roomwith propeller type fans or with centrifugal blo\vers.Propeller type fans move more air with smaller motors thanwill centrifugal blowers. A 30 or 36 inch fan is quiet andcan move more than 3000 cfm of air into a room and useonly a 1/4HP motor. Some of the advantages of positivepressure ventilation are:
1. All the air entering the room comes through one openingwhich can be easily filtered. When doors or windows areopened, air moves out through the opening.
2. A fan blowing air into a room will "stir" the room airreducing the risk of dead air space. Deflectors at the fancan be used to direct air into areas that might nototherwise have moving air.
3. All fans aid each other. The fan that is forcing air into aroom is aiding the transmitter fans in cooling thetransmitter. All the fans, the room fan, the transmittercabinet fan, and the power amplifier cavity blower aremoving the air in the same direction through thetransmitter.
4. Like the exhaust system, the pressure system will alsoventilate the room. The transmitter will exhaust about500 cu-ft/min. of air to the outside. If the room fan iscapable of moving three or four thousand cu- ft/min. ofair into the room, another opening in the room must beprovided for room ventilation.
An example of positive room ventilation will be describedhere. This is intended only as an example and can bemodified to meet your particular requirements.
Locate the left end or the rear of the transmitter near anoutside wall in order to keep the exhaust ductwork as shortas possible. Position the transmitter so that the exhaust ductwill not interfere with the coaxial RF output line. If the total
2-2
816R-2C
duct run is eight feet or less and there are no more than twoelbows, 16 inch round or the equivalent square duct can beconnected directly over the transmitter exhaust output usingsheet metal screws. (Dse care when drilling holes for sheetmetal screws so as to avoid metal shavings falling into thetransmitter.) The duct will have to be turned down at theoutside to prevent rain and snow from getting into it. A belltype transition should be used at the end of the duct toreduce turbulence.
The duct above the transmitter will have two dampers andan opening to the room. The dampers will be motorcontrolled and mechanically linked together so that theopening to the room will be closed off at the same time thatthe air from the transmitter will be directed to the outside.With the dampers in the second position, the air from thetransmitter will be directed to the room instead of outside.The mechanical linkage is necessary to prevent thepossibility of both dampers being closed at the same time.This arrangement will allow the transmitter to exhaust to theoutside in the summer and recirculate to the inside in thew·inter.
A fan that has enough capacity to change the room air atleast once each minute is installed in the wall. This fan pullsfiltered air into the room through motor controlled louvers.A 3000 cfm fan will change the air once a minute in a15X20 foot room having a 10 foot ceiling.
An opening with motor controlled louvers is provided in thesame wall where the fan is mounted. The reason for intakefan and room air outlet being on the same wall is tominimize the effects of wind on the ventilation system. Ifboth inlet and outlet are on the same wall, the effects ofwind, regardless of direction, is neutralized since the windpressure is the same on both. The transmitter air exhaustshould be on this wall also. The transmitter exhaust shouldnot be positioned so that there is a risk of recirculation.
With motor control on inlet and outlet louvers andtransmitter duct dampers, it is possible to control theoperation of louvers, dampers, and the ventilation fan withthermostats. Set the thermostats, based on environmentalconditions, to maintain the required equipment operatingtemperature at all times. Three conditions are describedbelo\v that will give different results:
·816R-2C INSTALLATION
r- ~.906
2.00 rrP
SlOT FORGROUND STRAP
-rCONDUIT flTTlN(;
fOR WJN POWER
f/4-20 CNO HOltS,6 PlACES
++
1:==27.0~14.406-1 I
L ~i-------r+-+-----~-----+-t--r'14.00
HOlES If ROOf" fOR POWER AND REMOTE WIRES
00000 0
3-1/8 fUNGEO OUTP\IT l"RANSUlSSlON UN( CONNECTION
7.O\f 0tA. ruoc EXHAUSTNOT£: Nf(. DUCT WORK MUST NOT REPRES£NT
IAOR( THAN 0.1- WATER 8N)( PRESSURE
9.000
20.375
26.625
~12.656!----H.031
TOP VIEW OF TRANSMITTERSEE 0(T,6JL A fOR OIUENS1QNS
FLOOR OF TRANSMITIER
t~.620 -j 11.-406 ($lOE: PANEl.)
"l~
OJ OJ a ;:; n~ 10 (0 (0~ C'( ('f ('f V'! n
~~ ~ ~ ~ ..; "l
- ....: -i-
-4-__--+--+-- 4.312
r----yL.-.-------"'r-;----t---i~-6.625
CfRCUrr BREAKER ASSY.812 0tA
1.062 OtA. 3 HOlES 2.375 0lA. 2 HOLESPA CAVl1Y /4SSY
CONTROl P,A.NU ASSY
68.875'------------'---+--1-- 23.1 ..... 1
DETAIL A
lPA ASS'(
r -.-----,I :II Il .J
o.alNET AIR EXHAUST ON REAR PANEl.
~--------------m~~~~~--------------.~1FRONT. ·VIEW OF TRANSMITIER
Figure 2-1. FM Transmitter Outline and Installation Drawing
:~2-3/(2.4 Blank).
816R-2C
CFM
HEAT
\T7 RFi OUTPUTt POWER
INSTALLATION
CABINET
AIR
LEAKAGE
(CAL)
~AIR-IN
TRANSMITTER
INPUT
POWER
CABINET
HEAT
RADIATION
(CHR)
STRAY HEAT TO ROOM
~ (CAL) + (CHR)
Power and Cooling 816R-2C
Pwr Out Pwr In Input Stack Stack Stray RoomkW kW kVa Heat, BTU *Temp~ F Heat, BTU
21.5 34.5 36.7 38,560 71.4 5,66620.0 32.1 34.9 36,519 67.4 5,17118.0 28.75 31.25 32,424 60.2 4,43716.0 26.25 27.9 30,717 56.9 4,25014.0 23.5 24.9 28,328 52.4 4,09612.0 20.5 22.8 25,598 50.2 3,41310.0 18.75 20.4 26,280 48.3 3,413
* Rise Above Ambient
Air Input at Cabinet Fan
Stack Air Output
Optimum Ambient Temperature
Maximum Ambient Temperature
815 cfm
500 cfm
72 0 F122 0 F
93G0280A
Figure 2-2. FM Transmitter Nominal Heat Balance
2-5
INSTALLATION
2-1.3.2 Positive Pressure. - Continued
1. A condition of maximum ventilation and cooling willresult during the hottest periods. The transmitter will beducted to the outside and the intake fan will be running.The outlet wall louvers will also be opened to permitroom ventilation.
2. A condition of minimum ventilation will exist at timeswhen it is not necessary to run the room intake fan, butthe transmitter should be vented to the outside. Underthese conditions the transmitter exhaust dampers willdirect the transmitter exhaust to the outside, the outletwall louvers will be closed, the fan will be off, and theinlet fan louvers will be open to allow fresh filtered airinto the room and transmitter.
3. A condition of recirculation for heating will exist duringcold periods. The transmitter exhaust dampers will bepositioned to allow transmitter exhaust air into the roomand all outside outlets and inlets will be closed.
The system described will require two heating typethermostats and control relays. One will be set toapproximately 65 ° F and the second will be set toapproximately 85° F.
At temperatures above 85 ° F, the first condition describedabove will exist.
For temperatures between 65 ° F and 85 ° F the secondcondition described above will exist.
For temperatures below 65 ° F the third condition describedabove will exist.
The thermostats should be mounted approximately sevenfeet off the floor and in an area of the room where thetemperature is not influenced by heat radiated by thetransmitter or by direct air flow from the room intake fan.
The transmitter space should also be provided with athermostatically controlled heater that can be set toapproximately 50° F. This will provide heat duringmaintenance periods or during times that the transmitter isoff-the-air, if not a 24 hour operation.
2-1.3.3 Transmitter Exhaust Duct. Regardless which airsystem is used, careful consideration must be given tolocation of transmitter, air intake, and air outlet vent whenusing outside air for cooling room and equipment. First,consider where to place the transmitter. The transmitter
2-6
816R-2C
exhaust will be vented to the outside and transmitter willtake air from the room. Since the transmitter will exhaust tothe outside, the exhaust vent on the transmitter should beplaced as close as possible to an outside wall. Although it ishighly undesirable, it is possible to exhaust through the roofbut extreme care must be used to weatherproof and leakproof the ductwork above the transmitter. Since water thatmay leak at the ductwork will likely get into the transmitter,it is absolutely necessary to check for leak proofing often. Inany case the ducts must be kept as short as possible tominimize back pressure at the transmitter outlet. Rememberthat elbows, vent caps, and hoods all add extra resistance toair flow through the transmitter. In most installations, thetransmitter can be placed so that no more than eight feet ofexhaust duct is needed. If this is possible, 16 inch roundduct or the equivalent rectangular duct will be acceptable.Do not use more than two elbows. It is not a good practiceto connect more than one transmitter to the same exhaustduct. Let each transmitter have its own individual exhaustduct.
Where possible use large ductwork instead of duct fans.Duct fans may be required if the duct run is long but ductfans increase air resistance if they fail; therefore, somemethod of monitoring and interlocking to the transmittermust be used if there is no alternative to the use of duct fans.
2-2. UNPACKING AND INSPECTING
2-2.1 Domestic Shipments.
The uncrated transmitter cabinet is shipped on a shippingskid. The transmitter is attached to the skid by shippingbands. Inspect for loose screws and fasteners. Ensure allcontrols operate freely. Examine the cabinet for dents orscratches. Ensure cable and wiring connections are tight andsituated clear of obstructions.
If any item is freight damaged, the customer should acceptthe equipment, note the damage on the shipping documentsand immediately file a freight claim. All boxes and packingmaterial should be retained for the freight inspector. Refusalto accept delivery of damaged equipment removes theevidence and makes freight damage reimbursementcomplicated or impossible.
2-2.2 International Shipments.
The transmitter is shipped in a skid type crate withunpacking instructions stenciled on the side. Heavy ironcomponents are crated separately, bolted down to a 2-inch
816R-2C
2-2.2 International Shipments. - Continued
(5 cm) solid base. Uncrate the transmitter carefully to avoiddamage. Inspect for loose screws and fasteners. Ensure thatall controls operate freely. Examine the cabinet for dents orscratches. Ensure cable and wiring connections are tight,and situated clear of obstructions.
File any damage claims properly with the transportationcompany. Retain all packing material if a claim is filed.
2-3. ASSEMBLY
The transmitter has been tested and prepared for shipment atthe factory. Perform the following steps to reduceinstallation time.
1. Plan the placement of the transmitter and its externalwiring carefully before beginning installation. Refer toFigure 2-1. Six knockout holes are located on the top ofthe transmitter section that contains the power supplies.The holes accommodate cabling for 3-phase inputvoltage and the remote control wiring. A 2-inch (5 cm)conduit entry is also provided in the floor of the powersupply section.
WARNING
ALWAYS CONNECT THE TRANSMITTERTO STATION GROUND PRIOR TOCONNECTING AC VOLTAGE TO THE UNIT.FAILURE TO COMPLY WITH THISWARNING MAY RESULT IN PERSONNELINJURY.
2. Connect the transmitter to the station ground systemusing 4-inch copper strap. Holes are provided for thispurpose in the floor of the transmitter.
3. Connect the input power wiring from the customersupplied fuse or circuit breaker panel with a 150 ampererating. Using a #1/0 AWG cable, (follow local"Electrical Code" to determine wire size for a 150ampere fused service) connect 3-phase power totransmitter terminal board A8TB 1. Connect the powerAC GND to the GND terminal adjacent to A8TBI. Donot tum on power at this time.
INSTALLATION
4. Install the 802B Exciter by performing the followingsteps:
a. If the 802B Exciter was not factory installed, mountit in the area provided in the transmitter centersection. Connect an RF cable from the exciteroutput to the driver input (A3ARl). Attach theMUTE voltage leads to A4TB 1-9 and attach powercontrol leads to TB 1-8 with shield connected toTB 1-4.. Connect the ac power cable to the exciter.Refer to the 802B Exciter instruction book forinstallation of audio input cables.
b. If the 802B Exciter is to be mounted separately fromthe transmitter, make sure the voltage sourcematches the voltage on the voltage selector card atthe rear of the exciter. Refer to the 802B Excitermanual for ac power installation. rrhe exciter mutevoltage must also be connected to the 802B ExciterTB 1-9 and attach power control leads to TB 1-8 withshield connected to TB 1-4. The RF output from J3of the 802B Exciter will be connected to the DriverRF input (A3AR1) using RG-223 cable orequivalent.
5. Transformers T1 and T2, filters L1 and L2, and filtercapacitor C1 may have been removed to facilitateshipping. Install these components if they were shippedseparately.
6. Install the PA tube using the procedure outlined inparagraph 5-5.1
7. If remote control is used, run the external wiring fromthe remote unit into the transmitter and connect it asshown on Figures 2-3 and 2-4.
NOTE
The positive plate current sample, AIOTB2-9must be connected to the ground side of theremote metering circuits if one side of the remotemetering is grounded. The negative plate currentsample AIOTB2-8 will then be connected to theremote metering input. The open circuit voltageat AIOTB2-8, -9 will be approximately 7.2 V dcwhen plate current is 3.0 amperes. An externalvoltage divider may be required to obtain asample that is within allowable limits for theremote control. Refer to Figure 2-5.
2-7
INSTALLATION 816R-2C
TRANSMITTER
CUSTOMER CUSTOMERFURNISHED FURNISHED
REMOTE CONTROL CABLE
~A-----... _-_A_-_ ~A-/' THIS SWITCH MUST REMAIN '"~ ~./ ~
CLOSED TO MAINTAINSECOND POWER LEVEL
REMOTE PANELCONNECTIONSFOR LAMP MAY
BE RELAYCIRCUITS
RMTMETERING
A10TB2
2nd PWR LVL
FIL ON IND
FIL OFF IND
RMT INTLK
RMT INTLK
PLT ON IND
RMT COM
PA Ip (-)
PA Ip(+)
10 PA Ep (-)
11 PA Ep(+)
12 REFL PWR
13 FWD PWR
14 GND
15 GND
16 +24
17 +24
A10A2TB1
PLT OFF
PLT ON
FIL OFF
---------&---------+-------~4 FIL ON
GND
6 +24
FAILSAFE
MAN. PWR R
MAN. PWR L
---------=:.----------------., 10 AUTO PWR CO NT
--------=:..----------------., 11 MAN. PWR CO NT
12 NOT USED
CONTROL METERCHANNEL FUNCTIONFUNCTION
1 FIL OFF/ON
2 PLATE OFF/ON PLATE VOLTS
3 MANUAL/AUTO PLATE CURRENT
4 PWR RAISE/LOWER FWDPWR
5 REFL PWR
93G0281A
2-8
TYPICAL REMOTE CONTROL CHANNEL ASSIGNMENT
Figure 2-3. Remote Control Connections
Change 5
816R-2C
TB3*
CUSTOMERFURNISHED
CABLETRANSMITTER
A10TB1
INSTALLATION
3770-1
3770-2
*
1, 11 1'lI1
2, 12 23, 13 34, 14 45, 15 56, 16 67, 17 ~ 7..l-8, 18 - 89, 19 910,20 10
} PLATE ON
} EXT INTLK
PL ON TALLY
PL OFF TALLY
GNO
+24V
} PL OFF
93G0239
Change 5
TERMINALS 1 - 10 ARE FOR TRANSMITTER NO.1TERMINALS 11 -20 ARE FOR TRANSMITTER NO.2
Figure 2-4. Transmitter Controller (377D-l or -2) Connections
2-9
INSTALLATION 816R-2C
2-10
0.25 OHMA10TB2 1.2K 10W
*6.8K A5A 1R 11 A5A1R9
8 1W-
REMOTE 36KCONTROL * 1W2.7KMETERING A5A1R12
9
~+ 1.2K 4 OHM1W 100W 36W
A5A1R13 A5R8 A5R6
10HM*CUSTOMER SUPPLIED A5R5
93G0283
Figure 2-5.. Remote Plate Current Sample Circuit
816R-2C
2-3. ASSEMBLY - Continued
CAUTION
ENSURE THAT THE TRANSMISSION LINEAND ANTENNA PRESENT A 50 OHMIMPEDANCE AND A VSWR NOT GREATERTHAN 2:1 TO THE TRANSMITTER AT THEOPERATING FREQUENCY. DAMAGE MAYRESULT FROM AN IMPROPER IMPEDANCEMATCH BETWEEN THE TRANSMITTERAND THE RF SWITCH, TEST LOAD, ORTRANSMISSION LINE.
8. Connect the customer-supplied, 50-ohm transmissionline to the RF output connector mounted on top of thetransmitter cabinet.
CAUTION
FOR 60 HZ OPERATION ONLY, THETRANSFORMER PRIMARY TAPS MUSTNOT BE SET MORE THAN TWO TAPSLOWER THAN THE HIGHEST LINEVOLTAGE EXPECTED. FOR EXAMPLE, IFLINE VOLTAGE IS 245 VOLTS, THE SCREENTRANSFORMER PRIMARY TAPS CAN BESET TO THE 230, 240, OR 250 VOLT TAPS. IFLINE VOLTAGE IS 240 VOLTS, THE SCREENTRANSFORMER COULD BE SET TO THE 220VOLT TAPS IF NECESSARY TO INCREASETRANSMITTER POWER. TRANSFORMERTAPS SHALL NOT BE SET TO LOWER TAPSTHAN THE HIGHEST EXPECTED LINEVOLTAGE WHERE 50 HZ PRIMARY POWERSOURCE IS USED. FAILURE TO COMPLYMAY RESULT IN DAMAGE TO EQUIPMENT.
INSTALLATION
9. The transmitter is shipped with all transformers on thehighest voltage taps unless specific instructions aregiven regarding source line voltage. This is done toprevent damage where line voltage may be higher thantransformers are tapped for and power is appliedwithout changing taps.
The broad range of allowable voltage sources (200 to250 volts) is made possible by the availability ofdifferent primary tap connections of power transformersT1, T2, T3, and A 1OTl. Figures 2-6 and 2-7, and Table2-1 show the details of the proper primary lineconnections for various source line voltages. Figures 2-8shows the proper T2 secondary line connections forvarious input line voltages.
In addition to the primary taps, the screen transfonner(T2) has three sets of secondary taps. These secondarytaps are identified as 1000/0, 850/0, and 700/0. The DCscreen voltage will be 800 volts when the primary tapsmatch the source line voltage and the secondary leadsare connected to the 1000/0 taps. For example if thesecondary leads are moved to the 700/0 taps the DCscreen voltage will be lowered to 560 volts.
2-11
INSTALLATION
A8TB1A6
CB6
816R-2C
3PiaCB5 3
r
5
2-12
LINE T1,T2 A10T1 TERM.VOLTAGE TERMINALS CONNECTION
200V 2&3, 7&8, 12&13 1 &2210V 2&4,7&9, 12&14 1 &2220V 2&5,7&10,12&15 1 &2
230V 1&3, 6&8, 11 &13 1 &3
240V 1&4,6&9,11&14 1 &3250V 1&5,6&10,11&15 1 &3
T1 - PLATE TRANSFORMER
T2 - SCREEN TRANSFORMER
A1OT1 - PA BIAS SUPPLY
Figure 2-6. Transformer Connection Schedule.
94G0051
816R-2C INSTALLATION
EBEBEB 24 Volt Power Supply
EB A10PS1
EBEB
NOTE: Depending on supply voltage,EB{f)
connect AC voltage to A10PS1
I as shown.rI\ov I ~
0 190V rI\OV to
I
Q7
I 220VI
22t
25
AC Voltage Connections
T3
-o00------~ ~o:~~.&
3 6 2 ~ 5 2 ~ [} --.,
~ 10
-00 .:0 ~ ~------0 :~: .2 ~ 5 3 ~6 3 ~
A6CB6 A6CB3 ~ 11
AC LINE DRIVER
POWER IA5K1 ISUPPLY
00G0007
Figure 2-7. Driver Transformer (T3) Connection.
Change 4 2-13
INSTALLATION 816R-2C
TABLE 2-1. Screen Voltage Transformer Tap Schedule
Primary Line VoltageConfiguration Taps 200 210 220 230 240 250
DC SCREEN VOLTAGE
100 % WYE 200 800 840 880210 762 800 838 876220 727 764 800 836 873230 696 730 765 800 835 870240 667 700 733 767 800 833250 640 672 704 736 768 800
85 % WYE 200 680 714 748210 648 680 712 745220 618 649 680 711 742230 591 621 650 680 710 739240 567 595 623 652 680 708250 544 571 598 625 653 680
70 % WYE 200 560 588 616210 533 560 587 613220 509 535 560 585 611230 487 511 536 560 584 609240 467 490 513 537 560 583250 448 470 493 515 538 560
100% DELTA 200 462 485 508210 440 462 484 506220 420 441 462 483 504230 402 422 442 462 482 502240 385 404 424 443 462 481250 370 388 407 425 444 462
2-14
816R-2C INSTALLATION
TO SCREEN RECTIFIER
/0 0 0/ /
/ / \ / / \ / / \/ / \ / / \ / / / \/ /
008 000 000100% 85% 70% 100% 85% 70% 100% 85% 70%
JUMPER JUMPER
SCREEN SECONDARY WYE CONNECTION
TO SCREEN RECTIFIER
100% 85% 70% 100% 85% 70% 100% 85% 70%
00cp 41 000 33 000 37
\ , \ I / \ I /\ I / \ I / \ I /\ / \ / \ /0 a 0
SCREEN SECONDARY DELTA CONNECTION
95G0242
Figure 2-8. Secondary Tap Configuration, T2.
2-15
INSTALLATION
2-16
(This Page Intentionally Left Blank)
816R-2C
816R-2C
SECTION 3 - OPERATION
OPERATION
3-1. GENERAL
The transmitter may be operated from the local controlpanel or by remote control. Once the transmitter has beeninstalled and properly tuned, it is only necessary to monitormeter indications and to make periodic minor tuning andloading adjustments. Instructions for the 802B exciter arefound in the Exciter Instruction Manual.
3-2. CONTROLS AND INDICATORS
Refer to the following figures and tables for a generaldescription of the operating controls found on the frontpanels of the transmitter. Figure 3-1 shows the location ofthe control and indicator panels. Figures 3-2 through 3-5show details of each panel. Tables 3-1 through 3-4supplement Figures 3-2 through 3-5.
The PA grid tuning control is part of Power AmplifierCavity A 12. The control shaft extends through a hole in astructural panel. The control knob is shown in Figure 3-1.This control allows adjustment ofPA grid circuit resonance.
3-3. INITIAL TURN-ON PROCEDURE
WARNING
DISCONNECT PRIMARY POWER BEFORESERVICING THIS TRANSMITTER. SHORTALL CAPACITORS AND POWER SUPPLIESWITH GROUNDING STICK. VOLTAGES INTHIS TRANSMITTER ARE DEADLY.
1. Ensure transmitter has been assembled and connectedaccording to instructions in Paragraphs 2-1 through 2-3.
2. Remove access panel of Card Cage Assembly foraccess to the control circuit cards. Check the circuitcards for proper installation.
3. Install Card Cage access panel and ensure all doors andpanels are properly closed or installed.
4. Ensure all transmitter circuit breakers on A6 panel areOFF.
5. Connect primary power to transmitter and set AC LINEcircuit breaker to ON.
Change 5
6. Set the 24 VDC POWER SUPPLY and BLOWERS Icircuit breakers to ON. Check the PHASE LOSSindicator on the Al Control Panel (see Figure 3-2). Ifthis indicator is not on, set AC LINE circuit breaker toOFF. Remove the right front bay access panel. LocateA8K5 (the phase loss/phase rotation monitor) and tumits control to minimum (full counterclockwise). Installthe access panel and restore primary power. If thePHASE LOSS indicator is still not on, shut off primarypower and disconnect power from power input lines.Interchange any two primary input leads at A8TB 1(Figure 6-18). Restore primary power and checkindicator.
7. Adjust the Phase Monitor A8K5 phase loss threshold.
WARNING
HIGH VOLTAGES ARE EXPOSED WHENCABINET DOORS OR ACCESS PANELS AREOPENED. DEATH ON CONTACT MAYOCCUR. BE CAREFUL WHENPERFORMING THE FOLLOWINGPROCEDURES.
a. Set AC LINE circuit breaker to OFF and removethe right front bay access panel.
b. Block the interlock grounding switch, on the rightfront bay access panel, in the open position.
NOTE
The phase loss/phase rotation monitor will shutthe transmitter off when phase loss or incorrectsequence is detected. A phase loss will bedetected if the line voltage drops below thethreshold voltage level which is set by turningthe control on K5. The threshold voltage range is190-270V and it must be set below the lowestexpected line voltage. To accomplish this, theline voltage should be at the lowest expectedlevel when performing the following adjustmento
Continued on Page 3-12.
3-1
OPERATION
CONTROLPANEL, A1
FIG. 3-2
816R-2C
CIRCUITBREAKER
CARD CAGE, A2 PANEL, A6FIG. 3-3 FIG 3-5
/
[
// o
o
I
I
• • • • 0 • •![Jrn~QiJJ 0 •• 0 • 0 0 0 0
i 0- IF?? ~o
~ ~ I~~
~
\I
I
IPA GRID TUNINGPIa PA CAVITY,
A12C2
3-2
IPA, A3
FIG. 3-4
Figure 3-1. Transmitter Control Panels.
\
\EXCITER, A4
(REF 802B)
93G0286
Change 5
816R-2C OPERATION
2 3 4
MULTIMETER PLATE VOLTAGE PLATE CURRENTPOVVER OUTPUT
0- UMrrO
RAISE LOWER
- LOADING -
-- POWER-
o
RAISE lOWER
POWER ADJUST
G-UMrr-O
00
RAISE lOWER
- TUNING-
FWD
2312
REFL
131415161722
o PASCREENVOLTAGE1lOO'IF8
o PA SCREEN CURRENTIlOOIoIN'll
o PA GRID CURRENT
o PABlAS
o 28VSUPPLY4O'1F8
10POWER ADJUST -- POWER --
5
11
21
18
6
9
19 20 8 7 93G0287
Figure 3-2. Control Panel, AI, Controls (Sheet 1 of 2).
3-3
OPERATION 816R-2C
o~~~~o
[ ~2 9~~ 9~~ ]~ :-0-:0"....
(0 .....-
0.-- 0 _
0........... 0 .........0-- 0 __
0- =00-- ) _
o-lIlIf""0 0-LMr0
DD DD_ l-'-_~
- -- -~- <:::)
STATUS
OVLD DSTATUSRESET
o R REAR DOOR INTLK 0 PA SCRN OVLDo RMT PLT OFF INTLK
o PA GRID DOOR INTLK 0 C FRONT PNL INTLK 0 PA PLATE OVLD
OVSWROVLDo PA DOOR INTLK o R FRONT PNL INTLK
o L REAR DOOR INTLK o REMOTE INTLK
o C REAR DOOR INTLK o FAILSAFE INTLK
( o LOCAL CONTROL o REMOTE CONTROL Jo READY
o TEMP INTLK
o PHASE LOSS
o CARD CAGE INTLK
o AIR INTLK
93G0288A
Figure 3-20 Control Panel, AI, Status Indicators (Sheet 2 of 2)$
3-4
816R-2C OPERATION
Table 3-1. Control Panel, AI, Controls and Indicators
IndexNo.
2
3
4
5
6
7
8
9
10
11
12
13
14
Control orIndicator
TEST METER AIMI
PLATE VOLTAGE AIM2
PLATE CURRENT meter Al M3
POWER OUTPUT meter AIM4
POWER FWD-REFLswitch AIAlS9
LOADING LOWER LIMITindicator AIAIDS29
LOADING RAISE LIMITindicator AIAIDS28
LOADING RAISEswitch AIAlS12
LOADING LOWER switchAIAlS13
POWER ADJUST RAISEswitch AIAlS7
POWER ADJUST LOWERswitch AIAlS8
PLATE ON switch AIA1S6
PLATE OFF switch A1A1S5
FILAMENT ON switch AIAlS4
Function
Displays voltages and currents selected by meter select switches.
Displays power amplifier plate voltage.
Displays power amplifier plate current.
Displays power amplifier forward or reflected power as selected byPOWER switch.
Allows selection of power amplifier forward power at 120% full scaleor reflected power at 120/0 full scale for display on POWER OUTPUTmeter.
Lights when lower limit is reached with LOADINGLOWER switch being held.
Lights when upper limit is reached with LOADING RAISEswitch being held.
Pushbutton momentary switch that allows the variable PAloading capacitance to be raised.
Pushbutton momentary switch that allows the variable PAloading capacitance to be lowered.
Pushbutton momentary switch that allows the power amplifier outputto be raised.
Pushbutton momentary switch that allows the power amplifier outputto be lowered.
Pushbutton switch-indicator for application of plate voltage to poweramplifier.
Pushbutton switch-indicator for removal of plate voltage from poweramplifier.
Pushbutton switch-indicator for application of filament voltage topower amplifier.
15 FILAMENT OFF switch A 1A 1S3 Pushbutton switch-indicator for removal of filament voltage from poweramplifier.
16 POWER CONTROL MANswitch A1A1S2
Pushbutton switch-indicator that allows selection of manualpower amplifier output control.
3-5
OPERATION 816R-2C
Table 3-1. Control Panel, AI, Controls and Indicators - Continued
Index Control orNo. Indicator
17 POWER CONTROL AUTOswitch AIAlSl
18 TUNING RAISEswitch AIAlSI0
19 TUNING LOWERswitch AIAlS11
20 TUNING LOWER LIMITindicator AIAIDS27
21 TUNING UPPER LIMITindicator AIAIDS26
22 METER SELECTswitches AIA1S14 & SIS
23 RESET switch AIAlS16
STATUS Indicators:
PHASE LOSS, AIA1DS6
Function
Pushbutton switch-indicator that allows selection of automaticpower amplifier output control.
Pushbutton momentary switch that allows the variable PAtuning capacitance to be raised.
Pushbutton momentary switch that allows the variable PAtuning capacitance to be lowered.
Lights when lower limit is reached with TUNING LOWERswitch being held.
Lights when upper limit is reached with TUNING RAISEswitch being held.
Allows selection of voltages and currents to be displayed on TESTMETER. Value listed below each selection is full scale value.
Pushbutton momentary switch that resets fault indicators.
(See Figure 3-2, Sheet 2 for close-up of status section of panel)
NOTE: During normal operating conditions "OVLD" indicatorsare OFF. READY, PHASE LOSS, and all INTLKindicators are ON.
Lights when all phases, phase sequence, and phase balance is correct.
CARD CAGE INTLK, AIAIDS7 Lights when interlock circuit is normal.
3-6
AIR INTLK, A 1A 1DS8
TEMP INTLK, AIAIDS9
READY, AIAIDSI0
RMT PLT OFF INTLK,AIAIDSII
PA GRID DOOR INTLK,AIAIDS12
PA DOOR INTLK, AIAIDS13
L REAR DOOR INTLK,AIAIDS14
Lights when there is adequate air pressure.
Goes out when exhaust temperature is too hot.
Lights to indicate completion of PA filament warmup time delay.
Remote plate off relay indicator.
PA grid door interlock indicator.
PA door interlock indicator.
Left rear door interlock indicator.
816R-2C
Table 3-1. Control Panel, AI, Controls and Indicators - Continued
OPERATION
IndexNo.
Control orIndicator Function
C REAR DOOR INTLK, Center rear door interlock indicator.AIAIDS15
R REAR DOOR INTLK, Right rear door interlock indicator.AIAIDS17
C FRONT PNL INTLK, Center front panel interlock indicator.AIAIDS18
R FRONT PNL INTLK, Right front panel interlock indicator.AIAIDS19
REMOTE INTLK, AIDS20 Remote interlock indicator.
FAILSAFE INTLK, A 1A 1DS21 Remote failsafe relay interlock indicator.
PA SCRN OVLD, AIAIDS23 PA screen fault indicator.
PA PLATE OVLD, AIAIDS24 PA plate fault indicator.
VSWR OVLD, AIAIDS25 VSWR fault indicator.
LOCAL CONTROL, AIAIDS16 A2S2locai control position indicator.
MANUALPWRCONTROLAIAIDS22
A2S 1 Remote control position indicator.
3-7
OPERATION
2
VOLTS
AC VOLTMETER
o FIL
OA-B
OB-C
OC-AMETER LOCAL REMOTESELECT
5
FILAMENT HOURS
816R-2C
Figure 3-3. Card Cage Assembly, A2, Controls and Indicators
6
93G0288
2 3 4 5 6 7
3-8
POWER
VSWR Ee Ie FWD REFL
60 30 1200 1200
VFS AFS WFS WFS
Figure 3-4. IPA, A3, Controls and Indicators
" \ I
AMPERES
/ /
93G0289A
Change 5
816R-2C OPERATION
Table 3-2. Card Cage Assembly, A2, Controls and Indicators
IndexNo.
2
3
4
5
6
Control orIndicator
AC VOLTS meter A2Ml
AC volt meter switch A2A7S3
LOCAL switch A2A782
REMOTE switch A2A7S 1
HOURS meter A2M2
Door Interlock SwitchA2S2
Function
Display voltage selected by AC VOLTMETER switch.
Selects line voltage or filament voltage displayed on AC volt meter.
Allows selection of local control of power amplifier operations.
Allows selection of remote control of power amplifier operation.
Transmitter operation elapse time recorder.
Indicates the card cage door is open and prevents application offilament voltage to the tube stage.
IndexNo.
Control orIndicator
Table 3-3. IPA, A3, Controls and Indicators
Function
2
3
4
5
6
7
Change 5
VSWR indicator A3A2DS2
POWER indicator A3A2DS 1
Meter function selector s\vitchplo A3AlSl
Meter function selector switchplo A3AISI
Meter function selector switchplo A3AISI
Meter function selector switchplo A3AISI
Multiple display meterA3Ml
Lights to show high reflected power on IPA.
Lights to show that IPA is on.
Pushbutton switch allows selection of IPA collector voltageto be displayed on panel meter A3Ml.
Pushbutton switch allows selection of IPA collector currentto be displayed on panel meter A3Ml.
Pushbutton switch allows selection of IPA FWD powerto be displayed on panel meter A3Ml.
Pushbutton switch allows selection of IPA REFL powerto be displayed on panel meter A3M 1.
Displays voltage, current, or power selected at panel's selectorswitch.
3-9
OPERATION 816R-2C
20
3
2
C)
4
C)AC LINE
93G0290
5
PA PLATEPOWER SUPPLY
28V DC DRIVER PA SCREENPOWER SUPPLY BLOWERS POWER SUPPLY POWER SUPPLY (9 (9
e ~ e e ~ e ~ e
H8B$ CD
C) C)
6
PA BIAS PA BIASFAN FAN POWER SUPPLY POWER SUPPLY FILAMENTS
((J) (0) (Q)F7 F1
7
C)
19
18 17 16 15 14 13 12 11 10 9 8
Figure 3-5.. Circuit Breaker Panel, A6, Controls and Indicators
3-10
816R-2C OPERATION
Table 3-4. Circuit Breaker Panel, A6, Controls and Indicators
IndexNo.
2
3
4
5
6
7
8
Control orIndicator
28 VDC POWER.. SUPPLYcircuit breaker A6CB 1
BLOWER circuit breakerA6CB2
DRlVER POWER SUPPLYcircuit breaker A6CB3
PA SCREEN POWER SUPPLYcircuit breaker A6CB4
PA PLATE POWER SUPPLYcircuit breaker A6CB5
FILAMENTS fuse A6Fl
CONTROLS fuse A6F14
FILAMENTS fuse A6F3
Function
ON/OFF control and protection for 24V de power supply.
ON/OFF control and protection for transmitter cavity blowerand cabinet fan.
ON/OFF control and protection for driver (IPA) power supply.
ON/OFF control and protection for power amplifier screen powersupply.
ON/OFF control and protection for power amplifier plate powersupply.
Power amplifier filament circuit protector.
Control motors circuit protector.
Power amplifier filament circuit protector.
9
10
11
12
13
14
15
16
17
18
19
20
Change 5
FILAMENT METER fuse A6F 13 'Power amplifier filament current metering circuit protector.
PA BIAS POWER SUPPLY Power amplifier grid bias power supply circuit protector.fuse A6F5
EXCITER fuse A6F2 Exciter power circuit protector.
EXCITER fuse A6Fl1 Exciter power circuit protector.
PA BIAS POWER SUPPLY Power amplifier grid bias power supply circuit protector.fuse A6F4
POWER CONTROL Protection for primary circuit of A2Tl, T2, and T3.AMPLIFIER fuse A6FI0
FAN fuse A6F12 Protection for cabinet fan AC power circuit.
POWER CONTROL Protection for primary circuit of A2Tl, T2, and T3.AMPIJFIER fuse A6F6
FAN fuse A6F9 Protection for cabinet fan AC power circuit.
POWER CONTROL Protection for primary circuit of A2Tl, T2, and T3.AMPLIFIER fuse A6F8
FAN fuse A6F7 Protection for cabinet fan AC power circuit.
AC LINE circuit breaker A6CB6 ON/OFF control for AC input power to transmitter.
3-11
OPERATION 816R-2C
3-3. INITIAL TURN-ON PROCEDURE - Continued ANTENNA WITH A 50-OHM IMPEDANCE OR Afrom Page 3-1 DUMMY LOAD CAPABLE OF DISSIPATING AT
LEAST THE RATED RF OUTPUT OF THEc. Restore primary power. TRANSMITTER.
d. Increase the phase loss threshold voltage by 11. Set all circuit breakers to ON and apply primary power.turning the control on A8K5 cw until the LED on Press FILAMENT ON switch.K5 goes out. Tum the control ccw slightly past thepoint where the LED comes back on. 12. Set the METER SELECT switches, AIA1S14 & SIS,
to 24V SUPPLY (40V SCALE). The test meter will INOTE indicate 24 ±2.0 V de.
To avoid nuisance phase loss relay activations: 13. Set the METER SELECT switch, A2A7S3, to FIL. The(a.) On 208 Vac sites adjust K5 completely ccw test meter should indicate 6.0 ±O.l volts. Adjustto its limit. (b.) On 240 Vac sites adjust K5 filament voltage if it is not correct. Use procedure inapproximately half way between the lamp turn Paragraph 5-7.2. These adjustments are required to beon and the ccw limit. made at customer's normal line voltage.
e. Remove primary power. NOTE
f. Remove block from interlock grounding switch. Refer to 802B Exciter Instruction Manual forexciter details.
g. Install access panel.14. Verify that the exciter is on.
WARNING NOTE
HIGH VOLTAGES ARE EXPOSED WHEN The transmitter is adjusted and pre-tuned atCABINET DOORS ARE OPENED OR the factory for specific customer power outputACCESS PANELS ARE REMOVED. DEATH and frequency requirements. In normalON CONTACT MAY OCCUR. BE CAREFUL applications, the fine-tuning and adjustmentWHEN PERFORMING THE FOLLOWING procedures provided in Steps 14 through 27 arePROCEDURES. adequate to ensure proper transmitter
operation. However, if the transmitter is to be8. Loosen the two retaining bolts at the bottom of the left operated at a frequency or power output
cabinet side panel. Grip the panel securely and lift it different from the frequency or power outputoff. designated in the factory test data supplied
with the transmitter, perform the complete RF9. Apply primary power and press FILAMENT ON tuning and power adjustment procedures listed
switch on PA Power Control Panel. in Paragraphs 5-8 and 5-9.
10. Remove primary power and observe direction of 15. Press the PO\\lER CONTROL switch MANUAL forrotation of the PA cavity blower and the cabinet fan as manual power control operation.they come to a stop. Cabinet fan rotation may beobserved by lifting the foam filter from the top right 16. Press the POWER switch to FORWARD.side of the cabinet. PA cavity blower rotation should becounterclockwise when viewed from the shaft end. 17. Press the LOCAL switch, A2A7S2. The LOCALCabinet fan rotation should be counterclockwise when CONTROL LED will light.viewed from the top. Install cabinet side panel.
18. Press the PLATE ON switch. The PLATE ON switchCAUTION lamp will light.
DO NOT PERFORM THE REMAINDER OF 19. Adjust PA GRID TUNING for minimum IPA reflectedTHIS PROCEDURE IF THE TRANS- power.MITTER IS NOT CONNECTED TO AN
3-12 Change 5
816R-2C
3-3. INITIAL TURN-ON PROCEDURE - Continued
20. Slightly adjust the PA LOADING and PA TUNINGcontrols until maximum power output is displayed onthe POWER OUTPUT meter.
21. As the transmitter warms up, the IPA reflected powerwill rise. Re-tune the PA GRID TUNING as needed tokeep the reflected power below 75 watts (final value isless than 20 watts). Once the IPA reflected powerappears stabilized, repeat Steps 19 & 20. The finalsetting should be established after the transmitter hasbeen on for at least 30 minutes. Do not re-tune the gridafter the final setting has been established.
NOTE
Operating parameters will become stable within15-20 minutes. All fine tuning and recording ofoperating parameters should be performed onlyafter the transmitter has stabilized.
22. RAISE or LOWER the POWER ADJUST control untilthe POWER OUTPUT meter displays the station'sauthorized power level. If specified by the customer,the meter was calibrated at the factory to indicate 100%at this power.
23. Compare meter readings with those listed in the factorytest data located at the back of this manual. If additionaltuning or transformer tap adjustment is required, referto the adjustment procedures listed in Paragraph 5-7.
24. Set POWER CONTROL switch to AUTOMATIC.Adjust the power monitor/control card A2A6R8,located in the card cage, for 1000/0 output power ifnecessary.
25. PA TUNING AND LOADING (For best efficiency).There is not likely to be a plate current dip within thenormal range of tuning control. There are, however,three indicators to be observed for proper PA TUNE.Power output and screen current will be maximum. PAplate current will change as the tuning is changed. Platecurrent will increase when the tuning control is held inthe raise position. When the shorting plane ispositioned correctly, the PA screen current and poweroutput will go through a peak. Refer to Figure 3-6 foran indication of what to expect as the tuning control isrun through its total mechanical range, from one limitto the other. Notice that power output is the same atpoint A and point B, but that plate current is greater atpoint B. The proper tuning point is at point A whichresults in maximum output and also the least amount of
OPERATION
plate current (not plate current dip). The loading controlis adjusted for maximum RF output. PA screen currentdecreases when loading is raised and increases whenloading is lowered. Normally, screen current is between300 - 600 rnA. The screen current is dependent uponloading, power output requirements, plate and screenvoltage, and individual tube characteristics. When thePA tube is replaced, screen voltage may have to bechanged in order to obtain the desired power output.
26. MAXIMUM POWER OUTPUT ADJUSTMENT.
NOTE
This procedure is intended to maintainauthorized station maximum power output withline voltage variations.
a. Press the RAISE switch of the POWER ADJUSTcontrol until maximum power output is displayedon the POWER OUTPUT METER.
b. If the maximum power output is not more than 5%above the authorized station maximum output, skipto Step h. If the maximum power output is morethan 5% above the authorized station maximumoutput, proceed to Step c.
c. Press the PLATE OFF and FILAMENT OFFswitches on control panel AI.
d. Tum off primary power to the transmitter.
e. Refer to Figure 2-5 and Table 2-1, and changewires to the screen transformer terminals todecrease screen voltage.
f. Reapply primary power and press the FILAMENTON and PLATE ON switches on control panel AI.
g. Repeat Steps c through f until the maximumtransmitter output is approximately 5% above theauthorized station maximum output.
h. Compare the PLATE VOLTAGE reading with theplate voltage listed in Tables 3-5 and 3-6 for theauthorized station maximum power output. (Linearinterpolation of tabulated values may benecessary.) If the compared voltages differ bymore than 100/0, proceed to Step i. If the comparedvoltages differ by less than 10%, skip to Step n.
3-13
OPERATION 816R-2C
A B
l-::J0....l-::J00:WS00....
LOWER PA TUNING RAISE
l- A BzW0:a::J0ZWwa:UCf)
<{0....
LOWER PA TUNING RAISE
lZW0:a:::JoWl-
:50....<{0....
LOWER PA TUNING RAISE
93G0291
Figure 3-6. PA Tuning and Loading
3-14
816R-2C
3-3. INITIAL TURN-ON PROCEDURE - Continued
OPERATION
1. Press the PLATE OFF and FILAMENT OFFswitches on control panel AI.
J. Tum off primary power to the transmitter.
k. Refer to Figure 2-5. If the transmitter plate voltageexceeds the tabulated voltage, change wires ontransformer T1 to the terminals listed for the nexthigher line voltage. If the tabulated voltageexceeds the transmitter plate voltage, change wireson transformer T1 to the terminals listed for thenext lower line voltage.
1. Repeat Steps h through k until the transmitter andthe tabulated plate voltages differ by less than100/0.
ill. Repeat Step a.
n. Adjust the POWER ADJUST controls until thePOWER OUTPUT meter displays the authorizedstation maximum power output.
NOTEUse curves and equations in Figure 3-7 forindirect power output determination.
27. ANTENNA SYSTEM VSWR CHECK. The POWEROUTPUT meter and the graph in Figure 3-8 can beused for this purpose if other means are not available.Typically, VSWR is less than 1.1: 1 and it must notexceed 2:1.
3-4. REMOTE OPERATION
1. S\vitch transmitter to AUTO POWER CONTROLmode.
2. Apply 24 V dc to Al OTB2-1, Remote Control, toactivate relay A2A6KI.
3. Adjust Power Monitor (Control Card) A2A6R7 for thedesired power level.
3-6. AUTOMATIC RECYCLE RESETTING
Automatic transmitter shutdown occurs when PA Screen,PA Plate, or VSWR is overloaded. An overload indicator,AIAIDS23 through AIAIDS25, illuminates on ControlPanel A 1. The automatic recycling circuits, when enabled,restart the transmitter. The indicator lamp remains on untilthe transmitter operator presses the FAULT RESET switchon the main control panel. The fault indicator lamp cannotbe RESET from Remote Control location.
The fault recycling circuits may be tested by using switchA2A5SI or disabled by switching the AUTO RECYCLEswitch A2A5S2 to OFF.
3-7. NORMAL TURN-OFF (Local)
1. Press the PLATE OFF pushbutton and allo\v a fewseconds for the voltage to decrease.
2. Press the FILAMENT OFF pushbutton.
3-8. EMERGENCY TURN-OFF
In the event of an emergency, remove power in any of thefollowing ways:
I
Press the REMOTE switch of A2 to begin remote operation.The REMOTE CONTROL LED on Al will light. Whenoperating at the transmitter, the LOCAL switch on A2 mustbe pressed.
3-5. 2nd POWER LEVEL (low pwr) ADJUSTMENT
NOTE
Perform this step only if using a second powerlevel.
Change 5
1. Press the FILAMENT OFF pushbutton.
2. Turn 28V POWER SUPPLY circuit breaker CBI OFF.
3. Turn AC LINE circuit breaker A6CB6 OFF.
4. Open the Primary Disconnect switch.
3-15
OPERATION
TABLE 3-5. Nominal Operating Parameters vs. Power Levels(99.7 MHz)
816R-2C
Operating Parameters RF Operating Power - kW10 15 20 21.5
Plate Voltage (kV) 7.82 8.40 8.50 8.48Plate Current (Amps) 1.60 2.21 2.92 3.19Screen Voltage (V) 375 500 610 710Screen Current (rnA) 190 298 400 510Grid Bias Voltage (V) -608 -607 -585 -566Grid Current (rnA) 106 107 100 118Forward Power (%) 47.0 70.0 93.0 100.0Reflected Power (0/0) <0.2 <0.2 <0.2 <0.2Filament Voltage (VRMS) 6.0 6.0 6.0 6.0PA Efficiency Factor F (%) 79.9 80.8 80.5 79.5
IPA
IPA Voltage (Volts) 44 44 44 44IPA Current (Amps) 17 17 17 17FWD Power (watts) 500 500 500 500RFL Power (watts) <10 <10 <10 <10
AC LINE VOLTAGE
Phase A-B (VRMS)Phase B-C (VRMS)Phase C-A (VRMS)
3-16
210204208
207203206
206202205
205202206
816R-2C OPERATION
TABLE 3-6. Nominal Operating Parameters vs. Frequency
Operating Parameters Frequency (MHz)88.1 92.1 96.1 99.7 104.1 107.9
Plate Voltage (kV) 8.48 8.41 8.40 8.48 8.40 8.41Plate Current (Amps) 3.19 3.20 3.21 3.19 3.24 3.26Screen Voltage (V) 710 740 730 710 700 700Screen Current (rnA) 450 482 510 510 450 490Grid Bias Voltage (V) -515 -556 -574 -566 -488 -535Grid Current (rnA) 110 115 115 118 95 103Forward Power (0/0) 100 100 100 100 100100Reflected Power (%) <0.2 <0.2 <0.2 <0.2 <0.2 <0.2Filament Voltage (VRMS) 6.0 6.0 6.0 6.0 6.0 6.0
Power Output (KW) 21.5 21.5 21.5 21.5 21.5 21.5PA Efficiency Factor !IF" (%) 79.5 79.8 79.7 79.5 79.0 78.5
IPA
IPA Voltage (V) 44 44 44 44 4444.0IPA Current (A) 17 17 17 17 1722.0FWD Power (W) 500 500 500 500 500 500RFL Power (W) <10 <10 <10 <10 <10 <10
3-17
OPERATION
0.82
¥:a: 0.800r-0<{LL
>- 0.780zw(3u: 0.76LLwwr-<t:.-JCL
~ ---------.DATA DATE- OCTOBER 1993
I I
816R-2C
88 90 92 94 96 98 100 102 104 106 108
~ 0.82a:0r-0« 0.80LL
>-0zw
0.78(3u:u..ww~ 0.76:5CL
FREQUENCY (MHz) (AT 21.5KW)
POWER OUTPUT = Ip Ep "K"WHERE lp = PLATE CURRENT IN AMPSEp = PA PLATE VOLTAGE IN VOLTS"K" = EFFICIENCY FACTOR FROM CHART
~--- - ------~ -..........
DATA DATEOCTOBER 1993
I I I8 10 12 14 16 18 20 22 24 26 28
3-18
POWER OUTPUT - KW (99.7 MHz)
Figure 3-7. Amplifier Efficiency vs. Frequency and Power
93G0292
816R-2C
0.5
1,0
1.5
2.0
2.5
3.0
F0 4.0R 5,0WAR0
P 10
0WE 15
R 20
• 25
K 30IL0 40WA 50TTS
100
150
200
300
500
OPERATION
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REVERSE POWER - KILOWATTS
Figure 3-8. Power to VSWR Conversion Graph
93G0373
3-19
OPERATION
3-20
(This Page Intentionally Left Blank)
816R-2C
816R-2C
4-1. GENERAL
THEORY OF OPERATION
SECTION 4 - THEORY OF OPERATION
following paragraphs. Refer to Figure 4-3 and Schematic195125.
The FM Transmitter, 816R-2C, operates in the 88 to l08MHz range at a maximum rated RF output of21.5 kW. ACEC 802B solid state, wideband, FM exciter providesexcitation. The transmitter is equipped with circuits thatmaintain constant power output and protect the transmitterfrom overload conditions. A control panel providescomplete transmitter metering and tuning controls. Refer tothe overall schematic diagrams for detailed circuitinformation.
4-2. FUNCTIONAL DESCRIPTION
Refer to Figure 4-1, an input signal (monaural, stereocomposite, or SCA is supplied to the exciter. The exciter'sRF output drives a two stage power amplifier. The firststage, the intermediate power amplifier (IPA), raises theoutput to a level of 500 Watts. The last stage, the RF poweramplifier, raises the output to the transmitter's rated poweroutput. The power amplifier is followed by a low pass filterand a directional coupler which is connected to the station'santenna system. A dc sample of the forward power from thedirectional coupler (DC l) is monitored by the auto powercontrol circuit. If a change in output power is detected, asignal is sent to the power control board that increases ordecreases the plate and screen power supply input voltage tocompensate. A sample of the reflected power is alsomonitored by the power control circuits. If an excessiveamount of reflected power is detected, the control circuits
I remove the transmitter plate voltage. The 24 Vdc powersupply provides power for the control circuits.
4-3. RF CIRCUITS
Refer to Figure 4-2 for a simplified diagram of the RF drivepath. The drive path consists of the exciter A4, intermediatepower amplifier (IPA) A3ARl with its directional couplerA3DCI, coupling capacitor AI2CI, and power amplifier(PA) VI with its grid tuning components A12C3, A12LlL3, and A12C2. IPA metering and 3-phase power supplycontrol circuits are also shown in Figures 4-2 and 4-4.
4-3.1 Exciter, A4.
Refer to the 802B instruction manual, principles ofoperation.
4-3.2 IPA, A3.
The IPA consists of a Metering Assembly, StatusAssembly, and Amplifier Assembly as described in the
Change 5
4-3.2.1 Metering Card, A3A 1.
The IPA Metering Card permits measurement andcalibration of IPA supply voltage, current, forward RFpower, and reflected RF power. The metering circuitry cardis powered from the 50 Vdc IPA supply through VRIproviding 12 Vdc. Switch SI-A, -B, -C and -D selectswhich signal the external meter is monitoring. ResistorsR31 and R32 adjust the voltage sample. Op-amp U2-B andresistor R27 control the current sample. Op-amp U1-B andresistor R23 control the forward power sample. Op-ampU2-A and resistor R14 control the reflected power sample.Comparator U1-A and R22 set the VSWR trip level.Transistors Ql drives the VSWR LED while Q2 providesan excess-VSWR status output. Refer to Block DiagramFigure 4-3 and Schematic 195080 Figure 7-8.
4-3.2.2 Status Card, A3A2
The Status Card is a passive circuit consisting ot two LEDsdriven by signals from the Metering Card A3A 1. TheLEDs indicate power ON and high VSWR. Refer to BlockDiagram Figure 4-3 and Schematic 189626 Figure 7-9.
4-3.2.3 Amplifier Assembly, A3A3. The AmplifierAssembly consist of an RF splitter, two RF amplifiers, anRF combiner, and a 50 Vdc power supply. The splitterconsists of two quarter wave lengths 75 ohm line and a 100ohm balancing resistor. The input to the splitter, from theexciter, is equally divided and impedance transformed to theinput of each of the two RF amplifiers. Each amplifier hasa power gain of approximately 16 dB and the outputs ofboth amplifiers are summed together by the con1biner toprovide an output of 500-600 watts. The combiner is thereverse of the splitter and consists of the same parts, onlywith greater power handling capability. The IPA isfollowed by directional coupler A3DC 1. The couplerdrives the IPA RF power meter and a VSWR warningindicator. The IPA receives its dc power from a 50 Vdcsupply, part of which is on the AS assembly. The AmplifierModules, A3AI and A3A2, consist of two circuit cardassemblies mounted on a common heat sink, refer toSchematic 189397. The two circuit card assemblies are RFAmplifier and Control Assembly.
4-1
THEORY OF OPERATION
4-3.2.3.1 RF Amplifier. The RF Amplifiers use a systemof lumped coaxial lines to match the drain-to-drainimpedance of 12.5 Ohms, balanced, to 50 Ohms, balanced.See Schematic 189214. Transmission lines TL101 andTL 102, which have a characteristic impedance of 25 Ohms,are seriesed at their output connection to TL 103 (for 50Ohms) and are paralleled at their input connection to theamplifier transistor, Ql, to present a 12.5 Ohm impedance.The balanced 50 Ohm output impedance at the junction ofTL 1Oland 102 must be converted to a unbalanced outputsignal for coaxial transmission. This is accomplished byTL 103. The length of this line is just long enough topresent a large impedance to the unbalance current in itsshield. This type of current balun results is excellentbalance to the transistor drains.
The amplifier module is untuned. The operation of thetransformers and the balun serve to limit the operating rangeto 80-120 MHz. The input of the amplifier is similarlybroadband. Capacitor C 101 is adjusted to insure thatvariations in such things as the gate capacity of theamplifier FET transistor and the leakage reactance of theinput transformer are balanced out to provide a good inputmatch to drive the Splitter over the operating range.
The output transistors of the PA Modules operate insaturated push-pull, Class BC, with an operating angle ofapproximately 150 degrees and a drive level, at full output,of up to 20 Watts. This results in a conversion efficiency inexcess of 750/0. The bias adjustment for the RF transistor,R220, is adjusted to give an operating bias of + 1.5 to 3.5Vdc. This bias adjustment also serves as a gain control.During final testing, slight adjustment of the bias control ismade to insure that the gain of both RF amplifiers are equal.
There is an optimum drive level for the PA Modules. Asthe amplifiers are under-driven, they go into a linear modeand conversion efficiency drops. Over driving theamplifiers results in excessive harmonic content at theamplifier drains which also causes a drop in conversionefficiency. Drive level is adjusted by varying the exciteroutput to obtain the desired drive power to the finalamplifier tube.
4-3.2.3.2 Control Assembly. The Amplifier ModuleControl Assembly is an on-board protection system toprotect the module from over-current and over-temperature.The Schematic Diagram, 189211, shows that the operatingvolt..ge for the protection circuitry, +15 Vdc, can be derivedfrom either the +24 Vdc Control Power Supply of thetransmitter or from the +50 Vdc supply through theisolation diodes, CR201 and CR202. Voltage for the RF
4-2
816R-2C
transistor flows through the over-current shunt, R209, andthe ON/OFF switch, Q203. Switching transistor Q203 iseither ON or OFF in this circuit. The voltage on either sideof the over-current shunt, R209, is reduced to +8 Vdc by thebridge circuit. As the current flow, the over-current shuntcauses a voltage drop, 0.5 Vdc when the current is 10amperes. The voltage differential is amplified by a bufferamplifier so that the output of buffer, U201 A is 6.4 Vdc,when the current through the amplifier is 10 amperes. Thisvoltage appears on Jl-2 and is used to monitor the current ineach module. This current-related voltage is also bufferedand divided and feeds the non-inverting input ofU201B. Apreset reference voltage of +4 Vdc is applied to theinverting input ofU20 lB. When the current through theamplifier exceeds 12.5 amperes, the output ofU201 goeshigh and fires the SCR, Q202. This, in turn, pulls the baseof the switch driver, Q201 low. This turns Q201 ON whichcauses the gate voltage of Q203 to rise to input voltagevalue. Unless the gate ofQ201 is low, the switch turns OFFand removes voltage from the amplifier. Each RF Module isalso protected with a 12 ampere fast-acting fuse.
Over-temperature operation is detected by the thermalswitch, S1, on the amplifier assembly. This switch ismounted in contact with heat sink close to the attachmentpoint of the amplifier transistor. Closure of the switch dueto over-temperature (80 degrees C.) causes current to flowin the opto-isolator U202. This causes the voltage across theopto-isolator output transistor to fall to zero. Again, theswitch, Q203 opens and removes voltage from theamplifier. Operation of the thermal switch is throughresistor R223.
4-3.3 RF Power Amplifier, A12.
The RF power amplifier is driven by the IPA through amatching network consisting of the COUPLING control(C1), the PA GRID TUNE control (C2), and L1, 2, 3 (SeeFigure 4-2). Capacitor C3 and resistor R1 swamps thepower amplifier grid circuit and provide a more uniformimpedance to the IPA under varying drive conditions.Inductor L14 and the distributed capacity of resistor R75couple R75 to the cavity, forming a suppressor thatdampens the higher order cavity resonances that can occurnear the third harmonic of the output frequency. Cathodetuning (or peaking) capacitor C39 improves the bypassaction at the operating frequency. Inductor L5 is the poweramplifier grid bias feed choke.
The power amplifier is a plate tuned 4CX15,000.A. tube thatis operated as Class C. The tube screen is grounded and the
Change 3
816R-2C
cathode is placed 750 Volts (nominal) below ground toprovide screen voltage, as shown in Figure 4-5. A fixed biasfrom the power amplifier bias power supply is applied to thecontrol grid through terminal A5E12, resistor A5R13, andterminal A5E 13. When an input signal is present, gridcurrent flows and develops grid leak bias across resistorsR35 and R36. The increased negative potential on the gridcauses the diode in the power amplifier bias supply toreverse bias, preventing grid current flow through thesupply. Hall effect probe A5Z1 monitors the amount of gridcurrent for control panel metering.
The power amplifier plate circuit is coarse-tuned from 88 to108 MHz by resonating adjustable coaxial resonators,Figure 4-6. The resonators are in the area between the tubeshelf and the sliding shorting plane. Two motor-drivencapacitors permit more precise tuning (capacitor C51) andloading (capacitor C50). RAISE or LOWER switches S10or SII (PA TUNING) and S12 or S13 (PA LOADING) oncontrol panel A 1AI, control the capacitor drive motors. Thedc blocking capacitor C2 is located between the top ofpower amplifier tube and input to the air chimney. Figure4-7 shows the electrical equivalence of the plate tuningcircuit.
4-3.4 Low-Pass Filter, A7.
Low Pass filter A7 (Figures 6-1, sheet 2) consists of twocoaxial filters in tandem. The first filter has a cutofffrequency of 130 MHz, while the second has a cutofffrequency of300 MHz.
4-3.5 Directional Coupler, DC I.
The directional coupler provides a proportional dc voltageto both the forward and reflected circuits of A2A6. Theoutput of each is then routed to, and can be displayed on,the Forwardl Reflected Meter (AIM4).
Change 5
THEORY OF OPERATION
4-4. POWER SUPPLIES AND POWER CONTROLCIRCUITS
4-4.1 General.
Refer to transmitter schematic 189632 for the followingdiscussion. There are five separate power supplies in thetransmitter. Three of the five, the plate, screen and poweramplifier bias power supplies provide voltages to the poweramplifier. The Driver supply, furnishes voltage to the IPAstage. The 24 Vdc power supply provides power to the Icontrol circuits.
4-4.2 24 Vdc Power Supply, PIO A10. I
The 24 Vdc supply is a fully self-contained power supply. IA parts list and schematic diagram is included in thismanual.
4-4.3 Power Amplifier Bias Power Supply, PIO Al O.
The power amplifier bias power supply provides the poweramplifier with fixed grid bias that holds the tube near cutoffwhen no signal is present on the grid. Single-phase primarypower is applied through contactor A8K1 and step-uptransformer T1 to a bridge rectifier network. An L-sectionfilter is formed by inductor L 1 and capacitor C2.
The power supply output is applied to the grid of the poweramplifier through diode CR5. Diode CR5 blocks gridcurrent flow through the supply when the grid leak biasexceeds the fixed bias. A sample of the bias voltage isapplied through resistor R3 to front panel meter A1M1 formonitoring.
4-2.1
THEORY OF OPERATION
4-2.2
(This Page Intentionally Left Blank)
816R-2C
Change 3
816R-2C THEORY OF OPERATION
MONAURAL, {ISTEREO FM EXCITER
COMPOSITE, 4 802B
SCA
::, 1-------..[----.....1 I' IRF POWERIPA __ DIRECTIONAL
COUPLER ---:-+ AMPLIFIER, A12I '-----t--
I----'
:A3
ILOW PASS I.
FILTER --+A7
I IPA ISUPPLYA5
I FILAMENT.- +--..1
1
SUPPLY
J PABIASSUPPLY I ----L
~
rA 1-4 PLATE3 POWER SUPPLYPHASE / CONTROL
LI NE lB -------+---+1 UNIT
VOLTAGE C A9*~~..1 SCREEN
-\ SUPPLY
t24V DC
CONTROLSUPPLY
A10PS1
* INPUT TO PLATE AND SCREENPOWER SUPPLIES IS 3-PHASECONTROLLED VOLTAGE.
FORWARDPOWERSAMPLE
CONTROL VOLTAGE
REFLECTEDPOWERSAMPLE
VSWRCALIBRATE
ANDAUTO POWER
CONTROLCIRCUITS
A2A6
95G0196d
Figure 4-1. FM Transmitter 816R-2C, Block Diagram.
Change 5 4-3
THEORY OF OPERATION 816R-2C
EXCITER
A4
A3AR1
IPA
FWD
A3DC1COUPLING
REFL
A12C1
V1
A12C2
IPAMETERING
A3
A3R4
A3R1
A12C3
A12R1
/
A12A3I C4-12
I
PAGRIDTUNE
A3R3
3 PH
POWER
SUPPLY
AS
TO: 0---. DRIVER
SUPPLY: 0---. CIRCUIT
. 0---. BREAKER
TOPLATE-ON
CIRCUITRY
4-4
Figure 4-2. RF Drive Path"
93G0294
816R-2C
A3
AMPLIFIER ASSEMBLY
A1
THEORY OF OPERATION
RF INPUTFROM
EXCITERSPLITIER
• DC1
DIRECTIONALCOUPLER
RF OUTPUTTOFINALAMPLIFIER
A2
A1
o3:u.
>wa:
IPAMETERINGASSEMBLY
A2
IPASTATUS
ASSEMBLY
98G0092
Change 3
Figure 4-35 IPA Block Diagram, A3.
4-5
THEORY OF OPERATION
AC VOLTAGEAPPLIED TOPLATE ANDSCREENTRANSFORMERS
SCR's
rv0v.../ ~
-~
816R-2C
FULLPOWER
REDUCEDPOWER
GREATLYREDUCEDPOWER
240 VACINPUT ONEOF THREEPHASES
GATINGCARD
CTRL SIG. 0-5 VDC
ONE OF THREEPLATETRANSFORMERSECTIONS
ONE OF THREESCREENTRANSFORMERSECTIONS
DIRECTIONALCOUPLER
POWERCONTROL
CARD
PIO A2A6
PLATE....----- ON/OFF
CONTROL
CONTROLCARD
PIO A2A6
A10A2K~MAN.
'-------0---
AUTO.
MOTORDRIVENMANUALPOWERCONTROL
93G0296
Figure 4-4. SCR Power Control, Simplified Diagram.
4-6
816R-2C THEORY OF OPERATION
A5K3PLATE
OVERLOAD
PLATECURRENT
+
SCREENSUPPLY
A5
SCREENOVLDA5K2
A12L6
nA12T1
A12 R352.5Kfl
A12R5522fl
A12 LS4.7 uH
A10A1CR5 PA
BIAS
PA BIASSUPPLY
A10+
HALLEFFECTDEVICE
A5Z1
GRIDCURRENT
A12R363Kfl A5R13
10 n.
93G0297
Figure 4-5. Power Amplifier DC Bias Circuitry Simplified Schematic.
Change 4 4-7
THEORY OF OPERATIONC52
816R-2C
C 2
TUBECHIMNEY
P5,J5
S15
C49
C48
C84C85
S7
P4,J4
SLIDERDECK
PATUNING
(C51)
R75 -
TUBESHELF
C83
S6
4-8
" I /
-·D-
C2
Figure 4-6. PA Cavity, A12.
BLOCKINGCAPACITOR
C2 (REF)
PA LOADING(C50)
TUBE
A3
93G0340A
Change 3
816R-2C THEORY OF OPERATION
C50
(ltL13{)_ i2:< MONITOR.::L.:::r:: L.<J6 SAMPLE
LR
o £~V (Lt2 -=- : MONITORLOADING .::L : J2 SAMPLE
B3 _-
C51
eTUNING
B2
C2
V1
Eor LOW
'--_.--- --_A_---l ~---------__t_--- ------___I ~------+. PASS
FILTER
A12L6B+ ....- t---'
: PLATE TANK CIRCUIT
: PIO A12
NOTE:
C2 IS THE CAPACITANCE BETWEEN TUBE ANODE AND THE CAVITY CENTER CONDUCTOR
A12C50 IS THE CAPACITANCE BETWEEN MOVABLE PLATE 1 AND THE TUBE ANODE
A12C51 IS THE CAPACITANCE BETWEEN MOVABLE PLATE 2 AND THE TUBE ANODE
LR IS THE LUMPED CONSTANT EQUIVALENT OF THE SHORTENED 1/4 WAVE RESONATOR
93G0299A
Figure 4-7.. PA Tuning Circuit, Simplified.
4-9
THEORY OF OPERATION
4-4.4 PA Plate Power Supply.
The power amplifier plate power supply provides platevoltage to the power amplifier. Primary components of thesupply are transformer T1, 3-phase bridge rectifier assemblyZ 1, filter choke L 1, and filter capacitor C1. A metermultiplier board, A 12A 1, samples plate voltage and allowsconstant monitoring. Input power to transformer T 1 iscontrolled by SCR (silicon-controlled rectifier) powercontrol unit A9. This unit, connected as a closed loopregulator, maintains constant power output to offsetconditions of varying line voltage.
4-4.5 Power Control Unit, A9.
Power control unit A9 regulates the 3-phase ac power inputto the power amplifier plate and the power amplifier screentransformer. SCR assembly Z 1 has three SCR pairs; onepair in series with each primary \vinding of the 3-phasepower transformers. Each pair is connected within the deltacircuit of the transformer primaries. Three control cards arelocated within the A2 card cage. Each control card controlsthe firing (tum-on) point of one SCR pair (Refer to Figures4-4 and 4-8).
A common dc control signal from power control regulatorA2A6 is fed simultaneously to each control card. Thiscontrol signal governs the firing of the SCR pairs thatregulate the input power applied to the power supplies.Upon receipt of a PLATE OFF control signal, a ground isplaced across the inputs of each card.
4-4.6 Power Control Regulator, PIO A2A6.
The power control regulator located on A2A6 provides thenecessary control signals to operate power SCR control unitA9. Assembly A2A6 supplies a soft-start power amplifierplate supply tum-on signal, a negative voltage for manualpower control, and amplifier mixer functions for automaticpower control.
IWhen the PLATE ON switch is pressed, 24 Vdc is suppliedto A2A6J 1-30. The 24 Vdc activates transistor Q1 to tumon relay A8K6. Relay A8K6 in tum supplies 3-phase accontrol power to A2TI-3. An RC time delay circuit formedby resistor R41 and capacitor C12 maintains A8K6 closedfor a short interval after the PLATE OFF switch is pressed.
ITransistors Q2, Q3, and Q4, also energized by the 24 Vdc,provide the dc tum-on signal to the gate cards. ResistorsR34 and R35, and capacitor CII modify this signal tosoft-start the high voltage power amplifier plate powersupply. Zener regulator VR4 provides -10 Vdc toMANUAL power adjust resistor A2A9RI. Transistors Q4
4-10
816R-2C
and Q5 amplify the control signal and apply the signal tothe gating cards. Capacitor C5 and resistor R36 phasecompensate the power control servo loop.
4-4.7 PA Screen Power Supply.
The 3-phase regulated voltage from the power control unitis applied through transformer T2 to a silicon 3-phasefull-wave bridge rectifier assembly A5CR1in the poweramplifier screen power supply. The output of A5CRI isfiltered and applied to the cathode circuit of the poweramplifier at the secondary center tap of filament transformerAI2Tl.
4-4.8 Driver Power Supply, PIO A5.
The driver power supply is a 3-phase, full-wave, type usinga single section choke input filter. It nominally delivers 45Vdc at 25 amperes to its load. The supply's primary poweris switched through relay A5KI which is operated by thePLATE ON circuitry. The supply is protected throughcircuit breaker A6CB3.
4-4.9 Filament Voltage Regulator, A2A4.
When the Filament Regulator Card is in the automaticmode, the filament voltage regulator detects andcompensates for sustained fluctuations in the input acvoltage (Refer to Schematic Diagram Figure 7-2). Thefluctuations are detected by a true rms detection circuitwhich in conjunction with associated circuitry, includingmotor control circuits, adjusts the setting of variabletransformer A8A2Tl. The output voltage of the variabletransformer is then applied to the primary of poweramplifier filament transformer A 12T1. The variabletransformer voltage is also applied to the primary ofdetector circuit transformer A2T4.
Voltage for the power supply circuits on the filamentregulator board is derived from sampling transformer A2T4.This ac voltage is rectified and applied to voltage droppingresistor R33. Capacitor C24 provides filtering. Athree-terminal 15 Vdc regulator U9 supplies voltage to the15 Vdc circuits with additional stabilization povided bycapacitors C27 and C28. Voltage dropping resistor R34feeds three-terminal 5 Vdc regulator UI0 while capacitorsC29 and C30 provide additional voltage stabilization. LEDDS5 indicates voltage present on the 5 Vdc line whichimplies that the 15 Vdc circuits are also powered.
Change 5
816R-2C THEORY OF OPERATION
FORWARDPOWER
DIRECTIONALCOUPLER
DC1
POWER CONTROLA1A1S1 PS
IAUTO 1~32> Ihe
MANUAL J NOl ~3S>------'A1A1S2
1----------1I +10Y I
1 11 os 1
- 10 - - - - - - - i I 04 2N2222A II if R48 J1 I - - - - . I 2N2222A ~ 1I +U4 6 38 )- K2 I I _ R22 I
I o-RESET I ~-R24 4.7K II I 12f- +24 I 47 22)
I I I. I I C6 I
1 ~-----'\.24 >-~--< . L- : ~14)-<261 T 0.1 I---"7 13~. I" 1 C7-=
I I I: 1 I T O.1 -10Y IL P/O A2A_6 1 I· I -= q I
D-SET I PIO A2A6 ~
--<1if- +24 I L.: ~----J
LOA10A2_y--l , _ ~t
"A14T1, T2
IPRIMARIESII (2 PLACES)
A
C
IN
PU
T
P0
A9Z1-B WER
J93G0300
8 8
8 2A3 A9Z1-A
14~
8014
08 f----+---------::'f'---J
TO K2
+24
POWER ADJUSTA1A1S7 PI6J0-73S>--------4-----------/·'1
RAISE I I~34> )----
LOWE R 10-736>_!-t----f---i---.,.---__--'
A1A1S8
120VAC FROM ------------~ 1A6XF14-2 P4 ~--
6-- (16~-----6
8-Sl
K~ y ~.. lB..9••• 1~1 :
8 (1 ~ II P4
" I-------+---~ 3 /
I
(1:~ ~ ~ .9•.C11:
~ y 4 13 I1~ I
---~O)-
I II i7)-T-- PS-3S(A1A1J1-3S)
LP/O ~OA2 I
POWERLOWER
POWERRAISE
Figure 4-8. Power Control Circuits, Simplified Diagram..
Change 5 4-11
THEORY OF OPERATION
4-4.9 Filament Voltage Regulator, A2A4. - Continued
Negative supply voltage is provided via diodes CRI andCR2 via resistor R3 and capacitor C24 to card edgeconnection 38 for distribution to other circuit cards in thetransmitter.
A sample of the voltage feeding the power amplifier tubefilament transformer is applied via transfonner A2T4. Thisac signal is applied to RF filtering components inductor L 1and capacitor C14. Inductor L1 has a 4.7 j.lh parallelresonance which falls in the FM broadcast band providing ahigh impedance path for frequency modulated RF signals.Capacitor C14 is a 100 pf capacitor whoseseries resonance falls in the FM broadcast band providing alow impedance shunt path for frequency modulated RFsignals. These filtering components are used in severallocations in the filament regulator card, and provide thesame filtering functions as described here.
The filament voltage sample signal is then applied to theRMS-to-dc converter circuit via voltage divider resistors RIand R2, and through capacitor C15. This RMS-to-dcconverter circuit is based around U7, a true nns-to-dcconverter integrated circuit. The converter directlycomputes the true RMS of any complex input waveformcontaining ac components. It has crest factor compensationwhich allows very accurate measurements up to 300 kHz.The crest factor of a wavefonn is the ratio of the peak signalswing to the RMS value. Components C17, R17, R 18, C18,RI9, and C20 provide time constant and filtering functionsfor the converter.
Test point 3 (TP3) provides easy access to the dc voltagerepresentation of the filament RMS voltage. During nonnaloperation of the filament voltage regulator, resistor R2 isadjusted so the output of the RMS-to-dc converter circuit is5.00 Vdc when the filament voltage has been preset to thenominal value by the operator. The output voltage is thenfed to window comparator composed ofU8 and relateddevices. The voltage references for the window comparatorare provided by UII, a very high precision IO-Voltregulator, and voltage divider components R20, R21, R22,and R23. In normal operation, resistor R20 is adjusted toprovide 5.00 Vdc at TP2. The corrected reference voltagesare then applied to their respective comparators. Pin 5 of U8has 5.05 Vdc applied, and pin 10 ofU8 has 4.95 Voltsapplied. These voltages will be correct if resistor R20 hasbeen properly adjusted for 5.00 Vdc on TP2. The 50 mVvoltage drops are provided by voltage divider resistors R21and R22. This 100 mV total window provides a total ± 10/0window for the voltage comparator, and hence for thevoltage regulator circuitry.
4-12
816R-2C
If the voltage from the RMS-to-dc converter circuit iswithin the 4.95 to 5.05 Vdc windo\v, the outputs of thecomparators will both be high and the output of AND gateU4C will go high illuminating green LED DS4 indicatingproper filament voltage is present. If the voltage from theRMS-to-dc converter is not within the 4.95 - 5.05 Vdcwindow, the circuit \vill then operate to make the necessarycorrections if switch S2 is in the AUTO position.
Assuming that switch S2 is in the AUTO position, if thefilament voltage rises above +1% of the nominal valuesetting, the following actions are taken. The output of the5.05 Vdc comparator will go low at U8-2 causing the outputofU4 to go low and DS4, the LOCK LED, will extinguish.Device U8-Il will go high bringing the input ofUI-13high. When either of the comparators goes low, indicating acorrection is necessary, U2B, U2D, and U2C incombination act as an OR gate forcing U 1-10 high which inturn triggers timer, U6. When U6 is timing, the output pin 3goes high illuminating yellow LED DS 1. At the same time,UI-3 output goes low which takes the input ofU4-1 low.This output is fed through switch S IA to inputs UI-9, Ul12 and U2-1 bringing them all low. Hence, while the timeris in its timing state, the outputs ofUIC, UID, and U2A areall high, inhibiting the actuation of relays Kl, K2, and K3respectively. Once the timer U6 has timed out, the inputs ofUIC, UID, and U2A fed from s\vitch SIA are broughthigh. At this point if the filament voltage is still above the+1% nominal value, both inputs of U 1 will be high,enabling actuation of relay Kl and the clutch assembly onthe filament voltage adjust variac motor. Simultaneously,both inputs ofUID will go high forcing its output pin 11 togo low. The LOWER LED (DS2) will be illuminated andrelay K2 will be activated which in turn actuates the lowerwinding in the motor driving the filament voltage controlvariac. Once the variac brings the filament voltage backinside the range of nominal operation, the comparatoroutput ofU8-2 will go high, and the above logic actions arereversed removing power from the filament voltageregulator variac motor.
The raise function operates just as the lower functiondescribed above, but instead activates the raise circuits. Itmay be noted that if future adjustments by the operator arerequired in the automatic mode, resistor R2 may be used asa simple filament voltage adjustment control.
The timing period of timer U6 is provided to guard againstconstantly correcting momentary excursions in the filamentvoltage. This delay timing period is adjustable from 0 to 12seconds with resistor R7.
816R-2C
4-4.9 Filament Voltage Regulator, A2A4. - Continued
If automatic operation of the filament voltage regulatorcircuit is not desired, switch S1 can be put in the MAN(manual) position. This effectively takes the regulator out ofthe circuit, but the green LED lock indicator will still showif the filament voltage is within nominal range.
While in the manual mode, momentary switches S2 and S3can be used to manually activate the clutch and raise orlower circuits respectively. Other than the timer not beingactive in this mode, these switches simulate the output ofthe comparators per the operator's command, thus manuallyraising or lowering the filament voltage. This provides aconvenient way to determine ifmost of the digital logic andthe solid state relay are functioning properly should aproblem occur. Devices U3A and U3B are provided toinsure that the raise and lower functions are not activatedsimultaneously by circuit failure or accidentally by theoperator using the manual controL
While in the manual mode, the operator may depress boththe raise and lower switches simultaneously and the onlyaction to take place is the timing of U6 as noticed by theillumination of yellow LED DS 1. This allows the operator aconvenient way to set the time delay ofU6 withoutaffecting the other circuits.
Solid state relays K 1, K2 and K3 provide a return for the acvoltages already on the windings of the clutch, and thelower and raise circuits of the variac drive motor. Relays K2and K3 also have the return path for the ac voltages routedthrough micro-switches S1 and S2 on the variac assembly.This provides a secondary measure against operating thefilament voltage regulator outside of the prescribed rangeprovided by the mechanical stops on the variac drive motor.
4-4.10 Filament Voltage Distribution.
The filament voltage distribution is shown in Figure 4-9.Filament voltage regulator A2A4 maintains a constant rmsvoltage on the filaments as discussed in Paragraph 4-4.9.
4-5. PRIMARY POWER DISTRIBUTION CONTROLAND OVERLOAD CIRCUITS
4-5.1 Primary Power Distribution.
The 60 Hz, 3-phase primary power is distributed to thevarious circuits of the transmitter via circuit breakers andfuses mounted on circuit breaker panel A6. Refer to
Change 5
THEORY OF OPERATION
Figure 4-10. Circuit breaker A6CB5 is connected inside thedelta of plate transformer T1. It also serves to interruptprimary power to the PA screen transformer T2 throughassociated circuit breaker A6CB4. Circuit breaker A6CB3controls power to driver power supply (IPA) transformerT5. AC line voltage metering is provided by ac meterA2M 1. In addition to the three phase-to-phase voltages,A2M1 can monitor the power amplifier filament voltage.BLOWERS circuit breaker A6CB2 controls application ofprimary power to cavity blower Bland FAN fuses A6F7,F9, and FI2 through filament-on relay A8K2. Relay A8K2is energized when the filament switch (S2) is turned on.Application of primary power to the filament circuits, theexciter, the power amplifier bias power supply, and thepower amplifier tuning and loading motors is relaycontrolled. Filament-on relay A8KI and blower-on relayA8K2 control application of power to the regulated filamentcircuit through auto-transformer A8A2TI. Relay A8K1 alsocontrols application of power to 802B exciter A4, to poweramplifier bias power supply, PIO A10, and to the poweramplifier tuning and loading motors B2 and B3respectively. Power to the exciter and the motors is throughisolation transformer T4. Time totalizing meter A2M2 isplaced across the load side of filament-on relay A8Kl.
The filament, exciter, and power amplifier bias supply inputpower circuits are protected by associated fuses. Thesecircuits receive power from the blowers circuit breaker,A6CB2.
4-5.2 Transmitter Tum-On.
The transmitter is energized by pressing FILAMENT ONswitch AIAIS4 on the Al control panel. Relay A8K2 isenergized and is applied to the blower motors. Aftersufficient air pressure is created in the power amplifiercabinet, air switch A I2S 1 is closed and relay A8K 1 isenergized.
After a 30-second delay, relay A8K4 is energized. ThePLATE ON switch is pressed energizing relay A8K3 whichapplies 24 Vdc to the base of transistor A2A6Q3. This turnson the control amplifier, which applies input voltage to theplate and power supplies.
The transmitter may also be energized by pressing thePLATE ON switch which latches relay A8K3, andenergizes relay A8K2 through contacts 8 and 5. Pressingthis single switch (PLATE ON) enables the transmitter togo through the above sequence of blower, filament, timedelay and plate on.
4-13
THEORY OF OPERATION 816R-2C
A2T4
A2A4FILAMENTVOLTAGE
REGULATOR
GRNvia
13 <I
25 <
Lv--v--V--V--V46 2 42 1 6
V V V
ORG BLU lj
I29 <
I
WHT
~
115VAC
0
RED··
WHT BLK
FILAMENTS
R175K
R209.09K
R199.09K
P7 -1---
t 3 J1
~ I :
A8K1A8K2B
2
~t.61 2fG~. .... 4 ~12 C552
1 3
~.~~_FI~E~ ~~~~~~1!-2~-2JII~1v~L~~'13 A8A2 I' A12C56 A12T1
-~-T T1 2
A6F13
-~-~
P/OA2A7CARD CAGE CaMP. ASSY : 93G0301
Figure 4-9. Filament Voltage Distribution.
4-14
816R-2C THEORY OF OPERATION
-------------------------------1
~,----- -----------------------1
200-250 VAC60 Hz 3 PHASE
A8TB1
illC- {- ( A6CB6
A6CB5~
F6 --.t:B~ ---,--:
F8 --.t:C~_:
A~:24 VDC n
ON RELAY UA8K6
: T1 PRJ WINDINGS
REGULATED DCOPERATING/CaNT
VOLTAGE FROMREGULATOR A2A8
POWERCONTROL
A2A8
.~
'------_w~1IPA
A5K1
24VDC
A6CB4 : T2 PRI WINDINGS
-----------------------------~ ~--'-------_->..--t--------------------__---+-----~-.....---
a--+-+------------------ -+--+----~:..-~.--~-----------'DR IVER - - - - - - - - - - - - - - -
PWRSUPPLY ~A6CB3
l.-- ~--o-L-~ ~
.------ . --D~ ~,---- ~OO
A6F1
I PHASE~ONITORVm
VOLTMETERSWITCH
A6F13
FILAMENT
AC LINE
A2A7
CAVITYBLOWER
B1
VARIAC DRIVEMOTORA8A2 B1 FILAMENT
_ VOLTAGE
REG
A2A4
DB C BL~~~RS
ON RELAY
A
A6CB2
~----+-+--
~---t-1.-+---
B
~()-- ---t..--+--------+-----------+---
PA BIAS
POWERSUPPLY
PIO A10
DFIL ON
RELAY
A8K1
II
B>--~~v--__---'--.,.J
A6F2
C >--~~(}----~-------A6F3 .
A~-tr}-------.A6F4
Figure 4-10. AC Power Distribution.
Change 5 4-15
THEORY OF OPERATION
4-5.3 Exciter Power Control Override.
An output override voltage is supplied to the 802B exciterwhen the plate voltage is turned OFF. This mutes the outputof the exciter while the power amplifier plate voltage isturned OFF (Figure 4-11). The voltage is applied from the
124 Vdc power supply through contacts 3 and 9 of relayA8K4 to the 802B exciter power supply regulator.
4-5.4 FWDIREFL Calibrate and Auto Power Control Unit,A2A6.
4-5.4.1 Functions. The FWDIREFL CALIBRATE ANDAUTO POWER CONTROL portion of the A2A6 cardperforms these functions (Refer to Schematic 180162):
1. The forward power signal from the directional coupleris buffered and amplified to provide a panel powermeter reading of 1000/0 at the customer's specifiedtransmitter power output (TPO). Full scale meterindication is 120% in the FORWARD POWERposition.
2. The forward power signal from the directional coupleris compared against either of two internal, adjustablevoltages for automatic power control. Two discretelevels of power control are remotely selectable andmaintain the desired power to within 10/0.
3. The reflected power signal from the directional coupleris buffered and amplified to provide a full scale readingof 12% of the customer's specified TPO on the panelpower meter in the REFLECTED POWER position.
4. The reflected power signal from the directional coupleris compared against an internal limit to smoothly foldthe forward power level back when a slowly risingVSWR level is detected. Forward power is reduced tokeep the reflected power at 5 to 60/0 of the customer'sspecified TPO.
5. A reflected power signal from the directional couplercan remove power from the transmitter and light theVSWR tally LED when a rapidly rising reflected powerlevel greater than 100/0 of the customer's specified TPOis detected.
4-16
816R-2C
4-5.4.2 Theory of Operation.
The forward power signal from the directional coupler,DC 1, is amplified and buffered by U4. Resistor R9 is anoffset null adjusted for zero output at TP 1 when no inputsignal is present. Resistor RIO is adjusted to provide a1000/0 forward power indication on the panel power meter(AIM4) at the customer's specified TPO.
The output ofU4 is also present on terminal boardAl OTB2-13, through a 2.2K ohm isolation resistor, R53, toprovide remote metering of forward power.
The positive output ofU4 is coupled through diode CRl1and compared at the inverting input ofU3 against thenegative voltage from either resistor R8 (Normal Power) orresistor R7 (Second Power) in the automatic mode. Theoutput ofU3 is used to raise or lower the transmitter platevoltage, as necessary, to maintain the selected power level.The input to U3 is switched from resistor R8 to resistor R7by relay Kl which is activated by applying +24 Vdc to relay!KI coil through terminal board AIOTB2-1. Normally,resistor R8 sets the normal operating TPO reference whileresistor R7 is adjusted for some lower value, perhapsnecessary during emergency operation with a generatorunable to supply the full power load.
The reflected power signal from directional coupler DC 1 isamplified and buffered by UI. Resistor Rl is an offset nulladjustment for zero output at TP2 when no input signal ispresent. Resistor R2 is adjusted to cause a 100/0 reflectedpower indication on the panel power meter AIM4 when thereflected power reaches 100/0 of the customer's specifiedTPO. Resistor R3 is adjusted to simulate that 100/0 reflectedpower level when the TEST switch S1 is depressed. Thisallows testing of the VSWR protection and meteringcircuits. The output ofUl is fed through resistor R43 to thegate of the VSWR overload SCR A2A5Q4 when theVSWR protect is in the enable position. Resistor R4 isadjusted to fire SCR A2A5Q4 when the reflected powerreaches 10% of the customer's specified TPO. When SCRQ4 fires, VSWR overload relay AIIK9 activates, removingpower from the transmitter and illuminating the VSWROVERLOAD LED.
The output of U 1 is also present on terminal boardAI0TB2-12 through 2.2K ohm resistor R46 to provideremote metering of reflected power.
Change 5
816R-2C
4-5.4.2 Theory of Operation. - Continued
Devices U2 and U3 form the VSWR foldback circuit. Asample of the buffered reflected power signal from U 1 isfed to U2 through resistor R5. Resistor R6 is the offset nulladjustment for U2 and is adjusted to give zero output at U26 when no input signal is present. The output of U2 iscoupled through diode CR6 to the automatic powercomparator, U3. Resistor R5 sets the level so that the outputvoltage ofU2 will exceed that ofU4, causing the power tobe reduced, when the reflected power exceeds 5-60/0 of thenormal TPO. The VSWR foldback circuit is defeated by thecircuitry of the ten second timer U5. The timer is triggeredby sampling the anode voltage ofVSWR overload SCRA2A5Q4. The response time of the VSWR foldback circuitis relatively slow. A sudden significant increase in VSWR,as in an arc, would cause the VSWR overload SCR to fire.Power to the transmitter is removed, the VSWROVERLOAD LED is illuminated and the VSWR foldbackcircuit is disabled for ten seconds. The VSWR foldbackcircuit is disabled to allow the VSWR overload circuit tosample the VSWR at full power thereby preventingoperation into a dangerously deficient load.
4-5.5 Overload Protection.
Relays A5K2, A5K3, and A5K4 are adjusted to energizeand remove power from the transmitter when an overloadoccurs in the plate or screen supply or when the VSWRexceeds a preset level. Screen current through resistor A5R8produces a voltage that is applied to relay A5K2 throughresistor A5R15. The plate current through resistor A5R7produces a voltage that is applied to relay A5K3 throughresistor A5R16. When SCR A2A2Q5 is gated on, a groundis applied and relay A5K4 is energized. Each relay isadjusted to trip at a factory preset current level. The relaycontacts are in series with plate control relay A8K3. If anoverload occurs, the corresponding relay trips andde-energizes relay A8K3, removing plate power from thetransmitter.
4-5.6 Overload and Recycle Board, A2A5.
Overload and recycle board A2A5 contains circuits thatprovide overload indication and memory, automatic poweron recycling, and filament control circuit interlock status(Refer to Schematic 180167).
When an overload occurs in the PA plate, PA screen, orIvsWR circuits, a 24 Vdc pulse is supplied to theappropriate SCR Q4, Q7, or Q8. The SCR latches and lightsits associated LED indicator on the A 1 panel to indicatewhich overload has occurred. All indicators that have beenlighted by an overload function remain lighted until OVLD
Change 5
THEORY OF OPERATION
FAULT RESET s\vitch AIAlS16 on the main control panelis pressed. Plate voltage is removed by overload relaysA5K2, A5K3, or A5K4. The 24 Vdc pulse that triggers the ISCR is simultaneously routed to the recycle circuit viadiodes CR9, CRIl, or CRl2 to be used to automaticallyrestart the transmitter.
The automatic recycle circuit provides a timed restart pulsefor up to four overload occurrences within a 30-secondperiod. The card as shipped will allow only two restartpulses in a 30-second period. However, it may bereconfigured to allow four restart pulses in a 30-secondperiod by removing the jumper between terminals A and Bon the card and replacing it between A and C.
The auto recycle begins when the 24 Vde pulse is applied talthe base of transistor Q2 causing it to conduct. The outputofQ2 is fed to timers UI and U4. Timer Ul provides a0.5-second delay, then triggers timer U3 which generates a0.5-second output pulse. This pulse is fed through gate U2Ato inverter Q3 which causes Q6 to conduct and chargecapacitor C22. The charging current of capacitor C22momentarily energizes relay Kl which closes the PLATEON circuit through switch S2. The charging current ofcapacitor C22 also flows through RECYCLE PULSEindicator LED CR6 giving an indication of the recyclecircuit operation.
Gate U2D conducts the output pulse from timer U 1 tocounter U5. Counter U5 counts the number of recyclepulses and provides a logic 1 output at terminal C \vhen fourpulses have been received. Depending on which terminalhas been strapped to terminal A, two or four recycleattempts in a 30-second period will close gates U2A, U2B,U2C, and U2D and prevent any further attempts by the cardto restart the transmitter. RECYCLE LOCKOUT indicatorLED CR2 will light to indicate this condition. When the30-second period of time has elapsed, a pulse is generated,inverted by tramsistor Q1, and applied to U5 to reset it tozero. This clears the memory and allows another sequenceto begin. If the maximum count of two or four pulses hasnot been received in the 30-second period, the timer willalso reset the counter automatically.
AUTO-RECYCLE switch S2 may be used to disable theauto recycle card when desired. This is usually done duringtune-up or maintenance procedures. RECYCLE TESTswitch S1 may be used to test the automatic recycle circuitduring maintenance procedures by simulating an overloadpulse at the input to the recycle circuit.
4-17
THEORY OF OPERATION
4-5.7 Power Failure Recycle Board, A8Al.
In the event of momentary loss of primary power, the powerfailure recycle circuit restores the transmitter to operationalstatus. Capacitor C3 maintains current flow through timedelay relay A8K4 keeping the time delay circuit active forshort term power outages and a separate circuit provides amomentary ground at pin 10 when power is restored. Themomentary ground is applied to capacitor A2A5C22 and thecharging current of this capacitor pulls relay A2A5K8 inand initiates the power ON command.
4-5.8 Auto-Manual Power Control Latching Relay andTransmitter Status Indicators.
The latching relay permits local or remote selection ofmanual or automatic power control (Refer to Figure 4-11and Status and Interlock Simplified Schematic, 189579, inpouch at rear of manual).
The latching relay is connected to the remote control panelI through terminal board A10A2. A 24 Vdc signal applied by
manual control switch A 1A 1S2 or through remote controlinterface board will latch relay Al OA2K2 in one of twostable states. AUTO PWR CONTROL switch LEDA 1A 1S1 indicates automatic power control is selected andMAN PWR CONTROL switch LED AIAlS2 indicatesmanual power control is selected.
Visual indication of TRANSMITTER CONTROLREMOTE/LOCAL switches A2A7S 1 or A2A7S2 are givenby status indicator LEDs A1AIDS22 and AIA1DSI6.
Plate control circuit interlock status indicators are providedon the Control Panel AI. RMT PLT OFF INTLK indicatorLED AIAIDSII is lighted when remote relay AI0A2K8 isde-energized. PA GRID DOOR INTLK indicator LEDAIA1DS12 is lighted when the PA grid compartment dooris closed. PA DOOR INTLK indicator LED AIAIDS13 islighted when the power amplifier plate compartment door is
4-18
816R-2C
closed. L REAR DOOR INTLK indicator LED A1A1DSI4,C REAR DOOR INTLK indicator LED A1AIDSI5, RREAR DOOR INTLK indicator LED AIA1DSI7, C FRPNL INTLK indicator LED AIAIDS18, and R FR PNLINTLK indicator LED AIAIDS19 are panel interlock statusindicators that are lighted when the respective panels are inplace. Panel designations refer to the three bays of thetransmitter cabinet (left, center and right) as viewed fromthe front of the transmitter. REMOTE INTLK indicatorLED AIAIDS20 is lighted when continuity exists betweenremote control interface terminal board A 1OTB 1-3 and -4.FAILSAFE INTLK indicator LED A 1A 1DS29 is lightedwhen remote relay Al OA2K8 is energized. Indicator LEDsAIAIDSl1 through AIAIDS21, except for AIA1DS16,are in series and in sequence as they are connected in thecircuit. Therefore, an interlock must be satisfied before itsstatus indicator LED will light.
4-5.9 Power Control Relays, PIO AI0A2.
Assembly AI0A2 provides remote manual power lower andraise control. When power is decreased at the remotecontrol panel, relay K4 is energized (see Figures 4-8 and4-12). Closed contacts provide 115 Vac to motor A2A9Blwhich adjusts the resistance of A2A9R1 to decrease thetransmitter power output. When the power is increased atthe remote control panel, relay K6 is energized and closedcontacts provide 115 Vac to motor A2A9B 1 which adjuststhe resistance of A2A9R 1 to increase the transmitter poweroutput.
4-5.10 Remote Relays, PIO A10A2.
Remote relays in Al OA2 parallel the front panel controloperations. Failsafe relay K8 is energized only when 24 IVdc is present in the control circuit. If the 24 Vdc is lost,the relay de-energizes and removes plate power from thetransmitter. Second power level (low power) relay K7 mustalso be energized continuously (24 Vdc) to maintain this Ifunction.
Change 5
816R-2C THEORY OF OPERATION
RELAY SHOWN IN MANUAL(SET) POSITION
RESET AUTOA1A1S1
--L-
O~
11POWERMON/CTRL--(14 ~---+---~
A2A6 13
MAN. PWR.A2A9R1
9
11(17m I '
6
4
8 IIAUTO IPIa A1A1S1
+24V
~---t----~18
IMANUAL IPIa A1A1S2
I
94G0028
--l-t------+- ~19 )>---------'0 a----,
MANUAL mA1A1S2
16
SET
: PIa A10A2K2 PIa TB1 10
R~~~~E';'~U'T'~' , , , , , , , , • • , , , • , , , • , , , r.,r',,·,"CONTROL 1MAN.
Figure 4-11. Latching Relay Simplified Schematic.
Change 5 4-19
THEORY OF OPERATION 816R-2C
POWER CONTROL
RESISTOR
PIO•••• II •••••••••• ••••••••• III
POWER ADJUST A 1A 1J2 .A1A1S7 I R2 : 0.01 uf
1~35
I~
RAISE 2 · 100 C 1
~34 81
IC2 9
1~36 · 0.1 uf-
LOWERPIO A2A9
A1A1S8 ••••••••••••• It ••• IJ ••••• .,
120VAC FROMA6XF11-2
•• ""." •• II II II •••••••••••••••••• " 6 ... II 5 ..
1
+24
POWERRAISE
6
------+-----~ 3
POWERLOWER
9 I--+----< 1
8 6 9 11
13
TO K2----¥I 0
""--------l7 >-- A1A1J1-35· PIO A10A2
93G0304
Figure 4-12. Power Control Reiays Simplified Schematic.
4-20 Change 5
816R-2C
5-1. ROUTINE MAINTENANCE
MAINTENANCE
SECTION 5 - MAINTENANCE
1. Remove the cross-wire brace that holds the filter in place.
The transmitter is carefully inspected and adjusted at thefactory to reduce maintenance to a minimum. To ensurepeak performance, adhere to a regular schedule of periodicchecks and maintenance procedures. Refer to the parts lists,Section 6, for component location in the transmitter.
WARNING
HIGH VOLTAGES ARE EXPOSED WHENCABINET DOORS OR ACCESS PANELS AREOPENED. WHEN WORKING INSIDE THEEQUIPMENT, BE SURE THAT ALL CIRCUITBREAKERS ARE OFF AND THAT PRIMARYPOWER IS DISABLED AT THE WALLDISCONNECT OR CIRCUIT BREAKERUNLESS OTHERWISE DIRECTED. ALWAYSSHORT ALL HIGH VOLTAGE TERMINALS TOGROUND WITH THE GROUNDING STICKPROVIDED. FAILURE TO COMPLY MAYRESULT IN DEATH ON CONTRACT.
5-2. CLEANING
Clean the transmitter when dust accumulation occursanywhere inside the equipment. A solvent oftrichlorethylene may be used as a cleaning material.
5-2.1 General Cleaning Procedures.
1. Remove dust from chassis, panels, and components witha soft-bristled brush.
2. Remove foreign matter from flat surfaces and accessible, areas with a lintless cloth moistened with solvent. Dry
with a clean, dry, lintless cloth.
3. Wash switch and relay contacts with relay contactcleaner. Wash less accessible areas with solvent lightlyapplied with a small soft-bristled brush.
5-2.2 Air Filter.
The air filter should be cleaned whenever a perceptiblequantity of dust and dirt accumulates on the filter element.Remove and clean the filter as follows:
Change 5
2. Remove the filter.
3. Use a vacuum cleaner to remove heavy dustaccumulation from the filter.
4. Blow a stream of air through the filter in a directionopposite to normal air flow.
5. Wash the filter in a solution of hot water and detergent.
6. Reinstall the filter when dry.
5-2.3 Tube Cleaning.
The power amplifier tube should be cleaned when a visiblequantity of dust accumulates on the cooling fins of the tube.Carefully remove the tube from the socket and clean with adry, oil free jet of air.
5-3. INSPECTION
Inspect the transmitter at least once a week. Check all metalparts for corrosion and general deterioration. Examinewiring and components for signs of overheating. Ensure thatall controls are operating smoothly. Inspect all connectionsand tighten any loose nuts, screws, or bolts. Examine theblower and cabinet fans for normal operation.
5-4. LUBRICATION
The tuning and loading motor and the manual powerincrease/ decrease motor are sealed and do not requirelubrication. The cabinet inlet fan motor (B2) and the PAcavity blower motor (B 1) bearings should be lubricated withSAE 10 oil as necessary or if required. I
5-5. PARTS REPLACEMENT
The following paragraphs present general descriptions forthe removal and replacement of certain component parts.
5-1
MAINTENANCE
5-5.1 PA Tube, VI.
816R-2C
TABLE 5-1. REQUIRED TEST EQUIPMENT
1. Remove air guides (tube chimney) between the PAblocker and the cabinet base. Loosen the two bands(top and bottom only, never 106sen the center band) onPA blocking capacitor and slide it down over the PAtube.
2. Remove the anode lead.
Name
Volt-ohmmilliammeter
AC Voltlneter
Power Supply
Description
Test Meter
oto 10 volts, 1% to 1
oto 28 volts DC, 6 amps
Manufacturerand Model
Fluke 77
Weston 433(true RMS)
Any
CAUTION
BE CAREFUL TO NOT BEND OR BREAKTHE SOCKET'S FINGER CONTACTS.FAILURE TO COMPLY MAY RESULT INDAMAGE TO THE TUBE SOCKET.
RF Wattmeter
Thruline
Wattmeter
2.5 kW and 25 kW elements, Bird Thruline50 to 125 MHz (or equivalent)
0-1 kW element, 0-100 W Bird 43 (or
equivalent)
3. Carefully lift the tube (4CXI5,OOOA), and PAblocking capacitor, out of its socket.
4. Reverse the procedure to install the replacement.
DC Voltmeter
DC Ammeter
Otol0kV,I%tol
oto 5 amperes, 1% to I
any
any
5-5.2 Fuse Replacement.
Tum AC line breaker off before removing or installingfuses.
5-6. TROUBLESHOOTING
If the transmitter fails to operate properly, check eachcircuit in the order that it is made operative. Use thesimplified schematics and the overall schematic in Section 4when needed. Normal control panel meter readings areprovided in Tables 3-5 and 3-6. Efficiency graphs areprovided in Figure 3-7.
5-6.1 Access Panel Interlock Switch.
The access panel interlock switches must be blocked opento perform certain adjustment procedures. To block thepanel switch to open, push in on the plunger and insert twoinsulated blocks between the switch contactors. Remove theinsulated blocks before reinstalling the panel.
5-6.2 Test Equipment.
Table 5-1 lists the test equipment necessary to maintain thetransmitter.
5-2
5-6.3 Troubleshooting the Power Controller.
1. Remove primary power from the transmitter and groundhigh voltage components (Refer to Figure 5-1).
WARNINGVOLTAGE HAZARD
USE CARE WHEN SERVICING GATINGCARDS A2AI, A2, AND A3. 250 VAC ISPRESENT ON CARDS WHEN MAIN CIRCUITBREAKER A6CB6 IS ON. FAILURE TOCOMPLY MAY RESULT IN SERIOUSPERSONAL INJURY.
2. Remove two of the three gating cards from the A2assembly.
3. Restore the primary power to the transmitter and tumFIL ON.
4. Place the transmitter in MANUAL POWER CONTROLand after the time delay has expired, turn PLATES ON.
816R-2C
5-6.3 Troubleshooting the Power Controller. - Continued
MAINTENANCE
NOTE
NOTE
The transmitter plate and screen power supplieswill be operating with only one power phaseapplied in the following tests. The plate voltage,screen voltage, and RF power output will be lowerthan usual. Exact voltages in these tests areunimportant.
The 24 V dc power supply is ON when both the24V supply breaker and ac line breaker are ON.Unless otherwise indicated, the POWERCONTROL switch is set to MANUAL, thePOWER switch is set to FORWARD, the AUTORECYCLE switch is set to OFF, and all circuitbreakers are set to ON during adjustmentprocedures.
I
5. Operate POWER CONTROL ADJUST and observe thatthe plate voltage, plate current, and RF power outputchange smoothly. Note the maximum plate voltage. Ifthe power controller phase under test is good, thereshould be no breaker trips, no unusual noise from thepower transformers and no building lights blinking.
CAUTION
REMOVE PRIMARY POWER FROM THETRANSMITTER EACH TIME A GATINGCARD IS REMOVED. FAILURE TO COMPLYMAY RESULT IN CARD DAMAGE.
If none of the cards operate properly in the selected powercontroller receptacle, use a different card receptacle andrepeat the test. Perform the same test with each of theremaining gating cards in the same power controller cardreceptacle. The results should be the same for each card ifthe card is good. If all the cards operated properly, use oneof the cards to test each of the two remaining receptacles.This will check the other two power controller phases.
If all cards operate properly in one or two receptacles butnot in another, it can safely be assumed that the cards aregood but either an A2 control transformer or one of theSCR banks are defective. Experience indicates that theSCRs are least likely to fail.
5-7. ADJUSTMENTS
All transmitters are factory adjusted and pre-tuned tospecific customer requirements. No adjustments arerequired by the customer unless a broken part is replaced, aspecific assembly does not display meter readings withinallowable tolerances, or the transmitter is operated at afrequency or power output different from the frequency orpower output specified in the production test data suppliedwith the transmitter.
Change 5
5-7.1 Switch Adjustments.
5-7.1.1 Air Interlock Switch, AI2SI.
1. Press the PLATE OFF and FILAMENT ON switches oncontrol panel AI.
2. Remove the rear panel behind the PA cavity.
3. Adjust the tension bolt on switch A 12S 1 so that thegreen filament light goes out when the PA gridcompartment door is opened approximately one inch.
5-7.1.2 Tuning Motor Limit Switches, A12S II-S 14.
1. Press the PLATE OFF and FILAMENT OFF switcheson control panel AI.
2. Remove the rear panel behind the PA cavity, or the sidepanel next to the cavity.
3. Loosen the mounting screws on the limit switch.
4. Position the limit switch so that the peg mounted to therack gear causes the switch to trip before the peg runsinto either end-stop. The tuning and loading paddlesmust never be closer than 5/8 inch from the blockingcapacitor.
5-7.2 Filament Voltage Adjustment.
1. Press the PLATE OFF and FILAMENT OFF switcheson the control panel Al 0
5-3
MAINTENANCE 816R-2C
3 PHASEACINPUT
F10
A2E1-3
•A6CB2•A6CB3
*REAR VIEW OFBREAKERS SHOWN
•A6CB4
:EJZ1C
TRANSMITTER
POWER ENTRY BLOCK
Z1B
•A6CB5
•A6CB6
Z1A
AC1
A2E1-1
A2E1-2
2 7 12PA PLATE
TRANSFORMER
2 7 12PA SCREEN
TRANSFORMER
POWERTRANSFORMERTAPS SHOWNFOR 210 VAC 4 9 14
T1
4 9 14
T2
93G0305A
Figure 5-1 .. Primary AC Wiring, Power Control.
5-4
816R-2C
5-7.2 Filament Voltage Adjustment. - Continued
WARNINGVOLTAGE HAZARD
HIGH VOLTAGES ARE EXPOSED WHENCABINET DOORS OR ACCESS PANELSARE OPENED. THE SHAFT OFVARIABLE TRANSFORMER A8A2Tl HASHAZARDOUS VOLTAGE TO GROUNDWHEN FILAMENT CONTACTOR ISENERGIZED. USE CARE WHENPERFORMING THE FOLLOWINGPROCEDURES. FAILURE TO COMPLYMAY RESULT IN PERSONAL INJURY.
2. Open the power amplifier grid compartment andconnect a 0 to 10 volt, true RMS ac, one percentmeter, to the power amplifier filament rings on thetube socket.
3. Run the meter leads through the comer of thecompartment and close the power amplifiercompartment door.
4. Remove the cover from the control circuits card cageand pull the plunger on the card cage interlock all theway out. Tum main circuit breaker A6CB6 OFF.
WARNINGVOLTAGE HAZARD
GROUND VARIABLE TRANSFORMER(A8A2Tl) SHAFT AND CONTACT BRUSHASSEMBLY BEFORE TOUCHING ANYPART OF VARIABLE TRANSFORMER.REPEAT THIS PROCEDURE EACH TIMEPOWER IS REMOVED. FAILURE TOCOMPLY MAY RESULT IN PERSONALINJURY.
5. Loosen motor coupling setscrews on variabletransformer A8A2Tl (Right side panel) end ofcoupling, and turn the main circuit breaker ON.
6. Press FILAMENT ON switch on control panel AI.
MAINTENANCE
7. With S1 of the filament regulator card A2A4 inMANUAL position, depress RAISE switch, A2A4S3,and run variable transformer drive motor until limitswitch actuator arm is against the upper clockwise(CW) limit switch.
8. Adjust variable transformer A8A2TI with an insulatedrod for an indication of 6.4 V ac. Note the filamentmeter reading. If filament meter does not agree withcalibration meter, adjust filament meter calibrationA2A7RI until it does.
9. Press FILAMENT OFF switch on control panel AI.Tum OFF main circuit Breaker A6CB6.
10. Tighten setscrews on variable transformer end ofmotor coupling.
11. Place switch A2A4S 1 on the filament regulator card inMANUAL position.
12. Turn main breaker A6CB6 back on. Press FILAMENTON switch on control panel AI.
13. Use the RAISE or LOWER switches, A2A4S2 and S3,on the filament regulator card to adjust the filamentvoltage to the desired voltage, 6.0 V ac rms is therecommended operating voltage for 48 hours, asindicated on the true rms voltmeter.
14. Check the comparator window voltag~ on the filamentregulator card. It should be preset to 5.00 volts. If it isnot, adjust resistor R20 observing the voltage onBLUE test point 2 (TP2) and adjust for 5.00 volts.Once this voltage is set, it should not need to be resetunless a component change is made.
15. Adjust resistor R2 for 5.00 volts by observing thevoltage on RED test point 3 (TP3). At this point thegreen LOCK LED DS4 should illuminate.
16. To adjust the timer, while still in the MANUALposition of switch S1, push both RAISE and LOWERswitches (S3 and S2) simultaneously and time howlong the timer yellow indicator, DS 1, stays on: Thisdelay is normally set for 5 seconds at the factory toprevent momentary changes in the power line voltagefrom constantly effecting a correction. To increasetime delay adjust resistor R7 counter clockwise(CCW); to decrease time delay adjust resistor R7 CWoRepeating the above will verify your action. The timedelay range is approximately 0 to 12 seconds.
5-5
17. Once the above adjustments are made, activate theautomatic mode of filament voltage regulation byplacing switch SI in the AUTO position. RAISE andLOWER switches S3 and S2 only operate in the MAN(manual) mode of operation.
18. The life of the PA tube can be greatly enhanced bycorrectly adjusting the filament voltage required toproduce the emission needed for your rated outputpower. To obtain the optimum tube life you shouldadopt the following procedure.
19. First stabilize a new tube's emission by operating it atthe recommended filament voltage for 48 hours.
20. Place the transmitter power control in the MANUALposition. Also place the filament voltage regulator inthe MANUAL position.
21. Raise the transmitter output power to 105% of normalrated power.
22. Carefully lower the filament voltage in 0.2 volt steps,pausing about 30 seconds after each step, look for agreater than 20/0, change in output power or platecurrent. This is the filament emission knee. Now raisethe filament voltage 0.2 volts above this voltage. Thisis the correct filament voltage for your output power.
WARNING
REMOVE ALL POWER FROM THETRANSFORMER BEFORE WORKING ONTHE VARIABLE TRANSFORMER LIMITSWITCHES. FAILURE TO COMPLY MAYRESULT IN PERSONAL INJURY.
23. It may be necessary to adjust the lower limit of thefilament voltage variable transformer to find the kneeand/or operate at the correct filament voltage.
24. After the correct voltage for desired operating powerhas been established, repeat Steps 13 through 17 andreset the"desired voltage" to the correct leveL
25. Check for a change in the filament voltage knee oneweek later. Keep the operating voltage 0.2 volts abovethe emission knee. Repeat this check monthlythroughout the life of the tube.
5-6
816R-2C
26. After the filament voltage has been set, return thetransmitter output power control to the AUTO position.Ensure that the filament voltage regulator is also inAUTO.
5-7.3 DC Overload Adjustment.
1. Press the PLATE OFF and FILAMENT OFF switcheson control panel AI. Turn DRIVER POWER SUPPLY,PA SCREEN POWER SUPPLY and PA PLATEPOWER SUPPLY circuit breakers OFF.
2. Remove the front panel beneath the PA gridcompartment door.
5-7.3.1 PA Plate Overload Adjustment.
1. Connect an ammeter from the positive terminal of anadjustable 28 V de power supply to resistor A5R8-1.
2. Connect the negative terminal of the de power supply toresistor A5R5.
3. Raise the de power supply current to 4.3 amperes.
NOTEThe plate supply current is rated at 3.5 amperes.This measurement point is the sum of the plateand screen supplies and 4.3 amperes allows forthe 0.8 ampere screen supply.
4. If overload does not occur, then adjust PA PLATEOVLD ADJ resistor A5RI6 to trip relay A5K3 at thiscurrent. (The PA PLATE OIL fault indicator on theoverload/recycle board lights when the relay trips.) Ifoverload trip occurs at less than 4.3 A, adjust resistorA5RI6 to raise trip point to 4.3 amperes.
5. Disconnect the ammeter and remove the jumper fromthe de power supply to resistor A5R5.
5-7.3.2 FA Screen Overload Adjustment.
1. Connect a milliammeter from the positive terminal of anadjustable 28 V de power supply to terminal 3 ofA5R15.
2. Connect the negative terminal of the de power supply toterminal 1 of A5R15.
816R-2C
5-7.3.2 PA Screen Overload Adjustment. - Continued
3. Raise the power supply current to 800 rnA.
4. If overload does not occur, then adjust PA SCREENOVLD ADJ resistor A5RIS to trip relay A5K2 at thiscurrent. The PA SCRN OIL, fault indicator LED on Allights when the relay trips. If overload trip occurs at lessthan 800 rnA, adjust resistor A5RI5 to raise trip pointto 800 rnA.
5. Disconnect the milliammeter and remove the jumpersfrom the dc power supply to ASRI5.
6. Press the FAULT RESET switch on control panel AI.
5-7.4 PA Grid Current Meter Calibratiion.
1. Press PLATE OFF and FILAMENT OFF switches oncontrol panel AI. Tum DRIVER POWER SUPPLY,PA SCREEN POWER SUPPLY and PA PLATEPOWER SUPPLY circuit breakers OFF.
2. Remove the front panel beneath the PA gridcompartment door.
3. Connect the negative terminal of an adjustable 28 V dcpower supply to ASEI3 and the positive terminal toASEI2.
4. Adjust the dc power supply current to 100 rnA.
5. Set the TEST METER selector switch to PA GRID 400rnA.
6. Adjust PA GRID MTRG CAL CONTROL resistorA5RI8 for a 100 rnA reading on the test meter.
7. Remove the dc power supply test leads.
5-7.5 High Voltage Power Supply Static Check (no drive).
WARNING
HIGH VOLTAGES ARE EXPOSED WHENCABINET DOORS OR ACCESS PANELS AREOPENED OR REMOVED. FAILURE TOCOMPLY MAY RESULT IN PERSONALINJURY.
10 Remove the lower front panel below the exciter andblock open the interlock switch.
2. Press the MUTE button on the exciter.
MAINTENANCE
3. Press the FILAMENT ON and PLATE ON switches oncontrol panel AI.
4. Raise or lower the POWER ADJUST control untilapproximately 8000 volts is indicated on the PLATEVOLTAGE meter.
5. Set TEST METER select switch to PA SCREEN 800 V.Observe that approximately 750 Volts is indicated onthe TEST METER.
6. Press the PLATE OFF and FILAMENT OFF switcheson control panel A1 and Mute on the exciter.
7. Replace all panels and close all compartment doors.
5-7.6 IPA Metering Board Calibration.
5-7.6.1 General Information. Necessary equipment for thiscalibration includes: Bird Thruline wattmeter with SOO-wattand lOa-watt elements, ammeter with a to 30 A dc ratingand inductive sensor, digital voltmeter, Bird SaO-wattdummy load, 50-ohm coaxial cable with Type N cableconnector and adapters: male-to-male andfemale-to-female.
WARNING
TURN TRANSMITTER POWER OFF ORDISCONNECT IT WHEN CONNECTING ORREMOVING TEST EQUIPMENT ANDOTHER TEST COMPONENTS. HIGHVOLTAGES AND HIGH POWER RFSIGNALS ARE PRESENT. FAILURE TOCOMPLY MAY RESULT IN PERSONALINJURY.
5-7.6.2 Setup Procedures.
1. Refer to FM Broadcast Exciter 802B InstructionManual and adjust exciter power output to 15 watts.
2. Set PA SCREEN and PA PLATE POWER SUPPLYcircuit breakers on Circuit Breaker Panel (Figure 3-5) toOFF.
5-7
MAINTENANCE
5-7.6.2 Setup Procedures. - Continued
3. Set AC LINE circuit breaker on circuit breaker panel(Figure 3-5) to OFF.
4. Remove lower front access panel of center cabinet.Block interlock switch for the panel so that it isbypassed.
5. Remove four retaining screws and slide the IPA drawerand attached cables out from front of cabinet.
6. Set IPA metering assembly controls (Figure 6-11) asfollows:
R22 VSWR THRESHOLD INDICATOR Fully CWR27 COLLECTOR CURRENT CAL Fully CCWR32 COLLECTOR VOLTAGE CAL Fully CCWR23 FORWARD POWER CAL Fully CCWR14 REFLECTED POWER CAL Fully CCW
7. Disconnect coaxial cable from output of the IPA.
NOTE
In the following step, the DC coupler (A3DCl) isto remain in place at the IPA output.
8. Connect input of Thruline wattmeter with 500 Welement to IPA. Use appropriate coaxial adapter(s) and50 ohm cable. Connect input of Bird 500 W dummy loadto output of wattmeter with appropriate adapter(s) andcable.
5-7.6.3 Calibration Procedures.
I. Set AC LINE circuit breaker Figure 3-5 to ON.
2. Set BLOWERS circuit breaker, and 28 V de andDRIVER POWER SUPPLY circuit breakers, on circuitbreaker panel (Figure 3-5) to ON.
3. Press POWER CONTROL MAN and FILAMENT ONswitch/indicators on control panel (Figure 3-2).
4. When READY indicator on PA control panelilluminates, set PA SCREEN and PA PLATE POWERSUPPLY circuit breakers on circuit breaker panel toON.
5. Press PLATE ON switch-indicator on control panel toON (lighted) condition.
5-8
816R-2C
WARNING
HIGH VOLTAGE MAY BE PRESENT ONEXPOSED ELECTRICAL TERMINALS ORCONDUCTORS OF THE TRANSMITTER.USE CAUTION WHEN WORKING NEAREXPOSED TERMINALS OR CONDUCTORS.FAILURE TO COMPLY MAY RESULT INPERSONAL INJURY.
6. Use digital voltmeter to measure voltage atA3ARI TB 1-6. Record measurement.
7. Press Ee 60 VFS switch on IPA metering board A3AI.
8. Adjust A3AIR32 on IPA metering board so thatvoltage shown on meter matches that measured in step I6 above.
9. Slowly adjust exciter output so that power output ofIPA as shown on Thruline wattmeter is 500 W.
10. Press FWD 1,200 WFS switch on IPA metering boardA3Al.
11. Adjust A3AIR23 on the IPA metering board so that Ipower output shown on the meter is 500 W (forwardpower meter scale is 0 to 1,200 W).
WARNING
DANGEROUS VOLTAGES AND RF SIGNALSARE PRESENT IN THE TRANSMITTER.AVOID CONTACT WITH TERMINALS ORCONDUCTORS. FAILURE TO COMPLYMAY RESULT IN PERSONAL INJURY.
12. Press Ie 30 AFS switch on the IPA metering board.
13. Position inductive sensor of 0 to 30 ampere ammeteraround the wire attached to terminal A3ARITBI-6.Record this measurement.
14. Adjust A3AIR27 on IPA metering board (Figure 6-28) Iso that current measurement shown on the metermatches that recorded in Step 13 above.
Change 5
816R-2C
5-7.6.3 Calibration Procedures. - Continued
15. Adjust exciter output until a measurement of 100 wattsin shown on Thruline wattmeter.
16. Press PLATE OFF switch on PA control panel (Figure3-2). Press FILAMENT OFF switch.
17. Set PA PLATE, PA SCREEN, DRIVER, and 28 V dcPOWER SUPPLY circuit breakers on circuit breakerpanel (Figure 3-5) to OFF.
18. Disconnect cable and adapter from IPA.
19. Disconnect directional coupler A3DCl from the IPA.Reverse coupler and use appropriate adapter to reinstallit in the reverse mode.
20. Reconnect Thruline wattmeter cable and adapter to theIPA.
21. Perform Steps 2 through 5, above, to re-power thetransmitter.
22. Verify that output of IPA is still 100 watts asestablished in Step 15 above.
23. Press REFL 1,200 WFS switch on IPA metering board.
124. Adjust A3AIR14 on IPA metering assembly (Figure6-28) until a measurement of 100 watts is shown on themeter.
25. Press FWD 1,200 WFS switch on IPA metering board.
126. Adjust A3AIR22 on IPA metering board CCW until theVSWR light on the IPA metering board just comes on.
27. Perform Steps 16 through 21 above.
28. Adjust exciter output (Figure 6-28) until the Trulinewattmeter indicates 500 watts.
29. Perform Steps 16 and 17 above.
30. Disconnect Thruline wattmeter and dummy load fromoutput of IPA.
31. Reconnect coaxial cable so that grid input circuit ofpower amplifier is connected to output of driver. Besure directional coupler A3DC1 is still in configuration
Change 5
MAINTENANCE
established in Step 28 above. Directional coupler is to be inits normal forward configuration.
32. Perform Steps 2 through 5 above.
33. Verify that output of IPA as shown on meter of IPAmetering board (Figure 3-6) is 500 ±50 watts. Slightadjustments may be made to the exciter output ifnecessary.
34. Perform Steps 16 and 17 above. Then set AC LINEcircuit breaker on the circuit breaker panel (Figure 3-5)to OFF.
WARNING
GROUND ALL CAPACITORS ANDCONDUCTORS IN THE TRANSMITTERBEFORE PERFORMING THE FOLLOWINGSTEPS. FAILURE TO COMPLY MAYRESULT IN PERSONAL INJURY.
35. Slide the IPA drawer (Figure 3-1) into transmitter.Attach with four screws.
36. Unblock interlock switch for access panel of lowercompartment of transmitter center cabinet. Install accesspanel.
5-7.7 FWDIREFL CAL and Power Control Card, A2A6.
NOTE
Maintenance is required only if major partdamage has occurred. Adequate test equipmentis required for proper, accurate alignment.
5-7.7.1 Offset Nulls.
WARNING
USE CARE WHEN SERVICING GATINGCARDS A2AI, A2, AND A3. 250 VAC ISPRESENT ON CARDS WHEN MAINCIRCUIT BREAKER A6CB6 IS ON. FAILURETO COMPLY MAY RESULT IN SERIOUSPERSONAL INJURY.
5-9
5-7.7.1 Offset Nulls. - Continued
1. Place the A2A6 card on the extender board. Tum ONonly the transmitter filaments and allow the componentsto temperature stabilize for at least 15 minutes.
2. Use a high impedance dc voltmeter to measure thevoltage at test point TPI. Adjust resistor R9, FWDOFFSET, set for zero voltage at test point TPI.
3. Use a high impedance dc voltmeter to measure thevoltage at test point TP2. Adjust resistor RI, REFLOFFSET, for zero voltage at test point TP2.
4. Use a high impedance dc voltmeter to measure thevoltage at U2-6, most easily accessible at either end ofresistor R27. Adjust resistor R6, OFFSET ADJUST, forzero voltage at U2-6.
5-7.7.2 Forward Power Calibration.
1. Adjust the transmitter to normal power output using themanual power control. An indirect power calculationmay be used if an external power meter is not available.
2. Adjust resistor RIO, FWD CAL, to indicate 100% onthe OUTPUT POWER meter AIM4. DO NOTADJUST THIS CONTROL AGAIN. Increase thepower control to maximum output power. Refer to thetest data for proper plate screen and driver transformertaps if the maximum power output exceeds 1050/0. Themaximum power should not exceed 105% unlessunusual circumstances exist.
3. Switch to AUTO power control and adjust resistor R8,PWR CNTRL ADJ, for 100% power in the AUTOmode.
14. Apply 24 V dc to terminal board AIOTB2-1 to activaterelay AIOA2K7.
5. Adjust resistor R7, LP ADJUST, to the desired secondpower level.
5-7.7.3 Reflected Power and VSWR Protection Calibration.
1. Use the manual power control to reduce the poweroutput to 10% of the desired operating TPO.
2. Pull the VSWR PROT jumper OFF and reverse thedirection of the top element in the directional coupler9
DCI.
5-10
816R-2C
NOTE
Reflected Power (VSWR) trip point is factoryadjusted to 100/0 of rated transmitter power or100/0 of TPO if factory is advised of TPO. Thislevel may not be desired and must be set bystation engineer to the desired safe level.
3. Adjust resistor R2, REFL CAL, to indicate 10%reflected power. Full scale is 120/0 when reflected poweris selected. DO NOT ADJUST THIS CONTROLAGAIN.
4. With plates OFF, depress TEST switch, SI, and adjustresistor R3, REFL ADJ, for desired reflected (VSWR)level indication on panel power meter AIM4. Full scaleis 12%. Nuisance trips may occur if the trip level is setfor less than 5%.
5. Place VSWR PROT jumper ON and adjust resistor R4VSWR PROT CAL until a VSWR Overload occurs.
6. Remove all voltage, return the top element and VSWRPROT switch to normal.
5-7.7.4 VSWR Foldback Adjustment.
NOTE
The Foldback Circuit is not enabled when thetransmitter is shipped from our factory . Thereis the possibility of additional damage to apreviously damaged antenna system where theFoldback circuit is in use. The Foldback levelshould be set to the fully CCW position unlessantenna icing conditions are likely.
1. Pull VSWR PROT jumper OFF. Switch to AUTOpower control, and depress the REFL switch.
2. Remove the low power element from the top, reflectedpower position of the directional coupler, DCI.
3. Remove the high power element from the bottom,forward power position of the directional coupler, DCI,and install it in the reflected power position with theelement arrow pointing toward the load.
Change 5
816R-2C
5-7.7.4 VSWR Foldback Adjustment. - Continued
4. Tum the plate voltage ON, and in AUTO power mode,adjust R5 VSWR FOLDBACK LEVEL to the desiredfoldback level. Read the reflected power on the 120/0scale. Disregard the fact that the forward element is notcalibrated for the reflected power meter. This test onlyrequires a voltage that is controlled by the powercontroller and represents some amount of reflectedpower. Foldback level must be approximately halfVSWR trip level or less.
5. Remove plate voltage, return the high power and lowpower directional coupler elements to their propersockets and direction. Return the VSWR PROT jumperto ON and resume normal transmitter operation.
5-7.8 Phase Monitor Adjustment.
WARNING
HIGH VOLTAGES ARE EXPOSED WHENCABINET DOORS OR ACCESS PANELS AREOPENED. USE EXTREME CARE WHENPERFORMING THE FOLLOWINGPROCEDURES. FAILURE TO COMPLY MAYRESULT IN PERSONAL INJURY.
1. Remove primary power and the right front bay accesspanels. Locate phase loss relay A8K5.
2. The phase loss/phase rotation monitor will shut off thetransmitter when phase loss or incorrect sequence isdetected. A phase loss will be detected if the linevoltage drops below the threshold voltage level which isset by turning the control on relay K5. The thresholdvoltage range is 190 to 270 volts. Set control to 190volts, full counterclockwise (CCW).
30 Replace primary power and right front access panels.
5-8. CHANGING POWER
The power output is adjusted by changing taps on the screentransformer T2. The PA plate voltage is maintained high(8.2 to 8.7 kV) to keep efficiency high. Use the followingdata supplied in Sections 2 and 3 as a guide: Tables 2-1, 3-5and 3-6, and Figure 2-5. Adjust the screen voltage to obtain
MAINTENANCE
the desired output power. To complete the power change,refer to Paragraphs 5-7.7, 5-9.3, and 3.3, Step 25.
5-9. CHANGING FREQUENCY
NOTE
If power and frequency are to be changed, referto Power Change, Paragraph 5-8, and changetransformer taps as directed, then return to thisparagraph to complete the frequency changeprocedure. Major RF tuning is required onlywhen components in the RF circuit are replacedor when the operating frequency is changed.Refer to the initial turn-on procedures(Paragraph 3-3 Steps 19 through 27) for minortuning instructions.
The following paragraphs provide procedures for major RFtuning of the transmitter. If the operating frequency is thesame as the frequency specified in the production test datasupplied with the transmitter, perform the procedures inParagraphs 5-9.2, Steps 1 through 10. If the operatingfrequency is different from the frequency specified in theproduction test data supplied with the transmitter, performthe procedures in Paragraphs 5-9.1 through 5-9.3.
NOTE
The data presented in the graphs (Figures 5-2,5-3 and 5-4) is approximate and is intended onlyto get the transmitter tuning close.
5-9.1 Frequency Change Adjustments.
NOTE
These adjustments are not necessary if therelated components have not been replaced andthe operating frequency is the same as thefrequency specified in the production test datasupplied with the transmitter.
5-9.1.1 Shorting Plane.
1. Press the PLATE OFF and FILAMENT OFF switcheson control panel AI.
5-11
MAINTENANCE
5-9.1.1 Shorting Plane. - Continued
2. Open the plate cavity doors.
3. Adjust the plate cavity slider deck (Figure 4-7) to thedesired frequency in accordance with the graph inFigure 5-2.
5-9.1.2 PA Neutralization. Adjust the PA neutralizationbars to the desired frequency in accordance with the graphin Figure 5-3.
5-9.1.3 PA Grid Tuning Slider.
10 Open the PA grid compartment door.
20 Adjust the PA grid tuning sliders (Figures 5-4 and 5-5,Ll, 2, 3) in accordance with the graph shown in Figure5-4 for the desired frequency.
5-9.1.4 PA Grid Swamping Capacitor.
10 Swamping capacitor A12C3 consists of two aluminumplates separated by some distance. The position of theplate nearest the front of the transmitter is adjustable,thus making it possible to set the distance between thetwo plates. Referring to Figure 5-6, loosen the screw onthe adjustable plate and position it to obtain the plate toplate spacing indicated in Figure 5-6 for the desiredoperating frequency. The spacing may be checked byusing a drill bit or a similar device inserted between theplates.
5-12
816R-2C
2. Tighten the screw on the adjustable plate.
5-9.1.5 Cathode Return Capacitor. Cathode capacitor slotposition definition: There are seven capacitor positionsdefined for each side of the four cathode return capacitors.The seven positions are chosen to be easily identified byeye. The positions are described below and in Figures 5-7,5-8, and 5-9.
Initially set the capacitor to the nearest whole positionindicated above. The final position of the capacitor may befine adjusted for improved efficiency after the transmitter isoperating.
5-9.1.6 Efficiency Capacitor. Preset the efficiencycapacitor A12A3C39 for minimum capacitance. Thecapacitor plates should be completely unmeshedo
5-9.1.7 Coupling Capacitor. Preset the coupling capacitor(Cl) for minimum capacitance. The capacitor plate shouldbe completely unmeshed. Close the grid compartment door.
5-9.1.8 PA Bias. Preset the bias resistor (R35), locatedbehind the power amplifier cavity, to the middle of its range.
(Continued on Page 5-21)
816R-2C MAINTENANCE
18
(f)WI17()ZZ 16
~
X'-"15W()Z«14J-(f)
0 13
~~
~~
~~
I'~
"'~I'~
"', "'~""'" "'~DATA DATE
DECEMBER 1993
88 90 92 94 96 98 100 102
FREQUENCY IN MHz
104 106
TUBE SHELF
SLIDER DECKv/
"I IV
/
r(X)
l93G0306
Figure 5-2. PA Plate Tuning Cavity Slider, Coarse Adjustment.
5-13
MAINTENANCE
SCREEN RINGPA CAVITY FLOOR
o
816R-2C
TUBE SOCKET
o o
o
NEUTRALIZING CLAMPS
3(J)wIU~ 20-wuz 1«t-C/)
o
DATA DATE"'----
DECEMBER 1993
102
5-14
o88 90 92 94 96 98 100
FREQUENCY (MHz)
Figure 5-3. PA Neutralizing Adjustment.
104 106 108
93G0307
816R-2C MAINTENANCE
-.....................
.............--- ................... ............. ..............
~ .......................... -.--. ............. ............. .............
~ ............. ............. -.-~
~ ............
DATA DATEDECEMBER 1993
I I I I
3
CJ)
~2ozz0-woz~ 1CJ)
(5
o88 90 92 94 96 98 100
FREQUENCY IN MHz102 104 106 108
C7, 8,9
•(D),
C10,11,12C4, 5,6r--------------I-:---~~....-------------.
•(D)
t
9380308
Figure 5-4.. Graph for Coarse Setting of PA Grid Tuning Inductors.
5-15
MAINTENANCE
C39
C6 C5 L1 C4
C58
816R-2C
C7
ED FILAMENT- LEAD
C8 -(±)
L2ED-
C9
C60@
FILAMENTLEAD
C10 L3 C11 C1293G0309
5-16
Figure 5-50 Power Amplifier Tube Socket (Bottom View), A12A3.
816R-2C
0.6
0.5
(j) 0.4wI0z
0.30
0.2
0.1
~~
~,,-
../
/~
DATA DATEDECEMBER 1993
MAINTENANCE
o85 90 95 100
FREQ MHz
D
105 110
Figure 5-6. PA Grid Swamping Capacitor.
o
93G0310
5-17
MAINTENANCE
C53
C59
D
o
Q
C58
816R-2C
PA SOCKETBOTTOM VIEWSIMPLIFIED
e60
5-18
FRONT OF TRANSMITTER
Figure 5-7.. PA Socket, Cathode Return Capacitors.
93G0311
816R-2C
SCREW HEAD
MAINTENANCE
OUTSIDESLOT ________
~INSIDESLOT
C53, C58, C59, C60DOOR KNOB TYPECATHODE BYPASS
CAPACITORS
CENTEROF SOCKET
93G0312
Figure 5-8. Adjustment of Cathode Return Capacitors.
5-19
MAINTENANCE 816R-2C
7
6
a:~ 5~~Z
z 4oi=Cf)
o 30...
2
"'"~is/O~
'~/-<S'0~
"~-INSIDE- - - I
'"~f----- DATA DATE
/-00~
DECEMBER 1993
I85 90 95 100 105
FREQUENCY MHz
TOP (INSIDE)
11093G0313
-I \
I
-I \,
2 3
BonOM (OUTSIDE)
POSITION NUMBER
4 5 6 7
93G0314
5-20
Figu~e 5-9" Cathode Return Capacitor Position vs. Frequency"
816R-2C
5-9.1.9 IPA to PA Cable Length. The length of the coaxialcable between the IPA directional coupler (A3DC 1) and thePA cavity input connector shall be cut to a specific lengthbased on the desired operating frequency. The cable must
Ibe type RG-142. It can be obtained from CE by ordering artnumber M17/60-RG142. Use the illustration in Figure 5-10to calculate the cable length.
MAINTENANCE
procedure allows you to tune the grid circuit using theoutput of the exciter.
10 Use a coax cable and BNC to Type-N adapter toconnect the exciter RF output directly to the grid inputcircuit. This bypasses the IPA.
o85
I
" IPA COAX LENGTH
" 816R-1C, 2C. 3C & 4C,,\ (DUAL 400W MODULES)
I'~~
"'\,\.
"'" ,r,
r\.~
"""r\.
\.'-
""
45
40
35
30
25
20
90 95 100FREQUENCY (MHz)
105 110
2. Tum the transmitter plate breaker CBS OFF.
3. Tum filament and plate control ON. After the filamenttime delay, there will be IPA collector voltage but noIPA collector current. There will be no PA platevoltage or screen voltage since the plate breaker isOFF.
4. Set the exciter RF output level to approximately 15watts.
5. Adjust the PA grid TUNING and COUPLINGcontrols for minimUITI indication on the exciterreflected power meter.
6. Increase the exciter RF output to approximately 40watts and repeat Step 5.
7. Tum plate and filament control OFF and removeprimary power from the transmitter. Restore theexciter and IPA to original configuration. Tum platebreaker CB5 ON.
NOTE
Figure 5-10. IPA to PA Cable Length.
5-9.1.10 P.lL\. Grid Circuit. There are several reasons foradjustment of the PA grid tuning and coupling circuits, forexample:
Ao When the IPA module fails and is replaced.
Bo When the tube is replaced.
C. If there is any reason to suspect that there may be abad load on the IPA or if changes have been made inthe PA grid circuit.
When the IPA internal VSWR protection circuits are active,the IPA output power will be reduced and the fault lampilluminated. This can make grid tuning difficult if the grid isfar out of tune. The 802B Exciter can be used to adjust thegrid circuit to approximately correct tuning and couplingpositions. The 802B Exciter has a reflected power foldbackcircuit that limits the reflected power to a safe level for theexciter regardless of the VSWR presented to the exciter bythe PA grid circuit. The first six steps of the following
Change 5
The PA tube input impedance decreases asthe grid input power is increased. The gridtuning and coupling must be readjusted whenthe IPA is reconnected and the IPA outputpower is increased to normal.
The following steps shall be performed starting with lowIPA output power and zero or minimum plate voltage.Adjust grid tuning and coupling as drive power is slowlyincreased until normal drive power is reached and thenslowly increase plate voltage while adjusting the grid tuningand coupling until normal operating plate voltage isreached. Keep the IPA reflected power to a minimum whilemaking adjustments to IPA power output and plate voltage.
8. Restore primary power to the transmitter and tum thefilament control ON.
9. Set the exciter power output adjustment fully CCWo
5-21
MAINTENANCE
5-9.1.1 0 PA Grid Circuit. - Continued
10. Mute the exciter. Turn ON the plate control andreduce the plate voltage to zero or minimum with themanual power control.
11. Dnmute the exciter. Slowly increase the exciter outputwhile watching the IPA reflected power. Do not let theIPA reflected power exceed 60 watts.
12. Adjust the PA grid tuning and coupling for minimumIPA reflected power as the exciter output is increasedto normal. DO NOT exceed 35 watts of output powerfrom the exciter. The normal range of IPA collectorcurrent is 15 to 20 amperes.
816R-2C
(See Figure 4-7.) Adjust the PA TUNING control on thecontrol panel until the capacitor is positioned approximatelymid-range. Close the plate cavity door.
NOTE
An easier way to determine position ofcapacitors Al2CSl and A12C50 is to look atthe capacitor motor drive units. Each has alimit switch actuator bar that travels with thecapacitor plate. When it is in the middle of itsrange so are the capacitors. Left side andcenter rear covers must be removed.
CAUTION
DO NOT EXCEED THE FOLLOWINGMAXIMUM RATINGS, FAILURE TOCOMPLY MAY RESULT IN DAMAGE TOTHE TRANSMITTER:
13. Slowly increase the plate voltage with the manualpower control. Notice that the IPA reflected powerwill increase as the plate voltage is increased. Adjustthe grid tuning and coupling to keep the IPA reflectedpower at minimum and IPA forward power atmaximum as the plate voltage is increased towardmaximum. PA SCREEN CURRENT:
PA PLATE CURRENT:600mA3.5 A
14. This completes the adjustment procedure. Restore thetransmitter to normal configuration.
5-9.2 PA Tuning and Loading.
1. Press PLATE OFF and FILAMENT OFF switches oncontrol panel AI.
2. If possible, connect the transmitter to an RFWattmeter/dummy load combination or a calorimetercapable of measuring and dissipating 21.5 kW at 88 to108 MHz. If these devices are unavailable, refer to theRF OUTPUT on the control panel for measurement.
June 1, 1995CAUTION
DO NOT PERFORM THE REMAINDER OFTHIS PROCEDURE IF THETRANSMITTER IS NOT CONNECTED TOAN ANTENNA WITH A 50-OHMIMPEDANCE OR A DUMMY LOADCAPABLE OF DISSIPATING AT LEAST 35KILOWATTS. FAILURE TO COMPLYMAY RESULT IN DAMAGE TO THETRANSMITTER.
3. Open the plate cavity access door and observe PAtuning and loading capacitors A12C51 and A12C50.
5-22
4. Place power control in MANUAL mode.
5. Press the FILAMENT ON and PLATE ON switcheson control panel AI.
CAUTION
MAXIMUM PA TUBE PLATEDISSIPATION IS 15 KW. PROLONGEDTRANSMITTER OPERATION WITH THEPLATE IMPROPERLY TUNED MAYDAMAGE THE POWER AMPLIFIER.CALCULATE THE PLATE DISSIPATIONUSING THE FORMULA BELOW. FAILURETO COMPLY MAY RESULT IN POWERAMPLIFIER DAMAGE.
Where: Dpis plate dissipation in WattsIpis DC plate current in amperesEpis DC plate voltage in voltsOp is RF output power in Watts
816R-2C
5-9.2 PA Tuning. - Continued
6. Alternately adjust the PA GRID TUNING (Al2C2)and COUPLING (AI2Cl) capacitors for minimumreflected IPA reflected power. The power amplifiergrid current should be at least 80 rnA.
A.
B.
C.
MAINTENANCE
REGENERATIVE (Positive Feedback)
PERFECTLY NEUTRALIZED (NoFeedback)
DEGENERATIVE (Negative Feedback)
7. Adjust the PA TUNING and PA LOADING controlsfor a maximum output power indication.
The state of neutralization can be identified by observing thecontrol grid current while raising the plate tuning.
8. Repeat Steps 6 and 7 until maximum output power isobtained. If the PA TUNING control encounters anend-stop while in the LOWER position, lower theshorting plane and retune. If an end-stop is encounteredin the RAISE position, raise the shorting plane andretune.
NOTE
If Grid Current
RisesDoesn't changeDrops
State Of Neutralization
RegenerativePerfectDegenerative
Because of the relatively high output capacityof the 4CX15,OOOA tube and the resulting lowcavity inductance, no plate current dip will benoted at higher power levels. Tuning andloading should be adjusted in steps formaximum output power. Perform procedure inParagraph 3-3, Step 25, for best efficiency.
9. Check for power amplifier neutralization. Refer toParagraph 5-9.3.
NOTE
Compare the transmitter operatingparameters with those in Tables 3-5 and 3-6.Some fine tuning of the previously presetadjustments may be needed to bring operatingparameters into agreement with those found inthe data. If efficiency needs improvement,adjustment of the efficiency capacitor(A12A3C39) may be needed.
10. Press the PLATE OFF and FILAMENT OFF switcheson control panel AI.
11. Determine if plate tuning capacitor A 12C50 isapproximately halfway between its limits.
12. If plate tuning capacitor A12C50 is not approximatelyhalf way between its limits, adjust the PA plate cavityshorting plane (Paragraph 5-9.1, Step 1) and repeatSteps 3 through 12 of this paragraph.
5-9.3 PA Neutralization.
The power amplifier of the transmitter can be found in oneof three possible states of neutralization (neut). These are:
Experience has shown that it is best to adjust theneutralization slightly beyond the point of perfectneutralization into the region of degeneration. Moving theneutralization bars out slightly, 1/16" to 1/8", from the pointof perfect neutralization will place the PA into thedegenerative region.
NOTE
Check the transmitter for proper neutralization.If neutralization is correct, do not perform thisprocedure.
1. Press the PLATE OFF and FILAMENT OFF switcheson control panel AI.
2. Open the PA cavity door. Short all high voltageterminals with grounding stick.
3. Remove front half of tube air guide to gain access toscreen sliders.
4. Refer to Figure 5-3 and adjust the screen sliders ~1 andLN2 • The sliders should not require an adjustment greaterthan ±1/4 inch from the initial setting. (A setting on theplus side is preferred.)
5. Install the tube air guide.
6. Close the cavity door and apply power to thetransmitter.
7. Check for proper neutralization again. If incorrect,repeat Steps 2 through 6.
5-23
MAINTENANCE
5-24
(This Page Intentionally Left Blank)
816R-2C
816R-2C
6-10 INTRODUCTION
SECTION 6 - PARTS LISTS
6-4. PART NUlVIBER
PARTS LISTS
This section contains a list of repairable/replaceableelectrical, and selected mechanical parts for the 816R-2C,FM Transmitter. Paragraphs 6-2 through 6-4 describe thethree columns in the parts lists.
6-2. REFERENCE DESIGNATIONS (REF DES)
This column contains the electrical reference designators ofparts that have been assigned on schematics or wiringdiagrams, and/or index numbers for parts which have notbeen assigned reference designators. When a referencedesignator within a series of designators has not beenassigned a part number, the unassigned reference designatorwill be omitted from the list.
6-3. DESCRIPTION
The identifying noun or item name followed by a briefdescription such as size, color, rating or specialcharacteristics will be listed in this column. Thedescription for electrical/electronic parts includes theapplication ratings and tolerances.
Continental Electronics (CE) specification or drawingcontrol numbers for each item in the parts listings, arereilected in this column.
6-5. ILLUSTRATIONS
Parts listed in the REF DES column are located oncorresponding illustrations. The illustration always precedesthe parts list. More than one illustration may be required toidentify all items in an assembly. When a replaceable itemis hidden from view by structural parts or wiring, a dottedleader line is used to show the items location on theillustration.
6-6. INDEX OF PARTS LISTS
Table 6-1 is an index of major subassemblies used in thetype 816R-2C Transmitter. The subassemblies aresequentially listed. The flfst parts list will cover items notincluded in a specific subassembly.
I
Table 6-1. Index of Parts Lists..
Ref. Des. Description/Title Part No. Rev. Page
Transmitter, 816R-2C, 21.5 kW FM 180295-2 N 6-5 IMain Cable 180328-1 B 6-7
Al Control Panel 189638-1 6-9AlAI Control Panel Circuit Card Assembly 189668-1 D 6-11A2 Card Cage Assembly 180299-2 F 6-19A2A4 Filament Regulator Circuit Card Assembly 182901-1 E 6-21 IA2A5 OverloadlRecycle Circuit Card Assembly 180166-1 G 6-27A2A6 Power Monitor/Control Circuit Card Assembly 180161-1 G 6-31A2A7 Card Cage Component Circuit Card Assembly 189620-1 E 6-37A2A8 Backplane Circuit Card Assembly 180194-1 G 6-41A2A9 Power Control Assembly 172715-1 B 6-43 IA3 Intermediate Power Amplifier Assembly. 180302-2 G 6-45A3Al Metering Card Circuit Card Assembly 195079-1 A 6-47A3A2 IPA Status Assembly 189625-1 A 6-49A3A3 Amplifier Assembly 193773-1 H 6-51 IA3A3AI-A2 Amplifier Module 189215-1 D 6-53A3A3AI-A2A1 RF Circuit Card Assembly 189213-1 E 6-55A3A3AI-A2A2 Control Circuit Card Assembly 189210-1 C 6-57
Change 5 6-1
PARTS LISTS 816R-2C
Table 6-1 .. Index of Parts Lists. - Continued
Ref. Des. Description/Title Part No. Rev. Page
A4 (See 802B FM Exciter Manual)A5 Component Shelf Assembly 180317-3 P 6-61A5A1 IFA Metering Circuit Card Assembly 180386-1 A 6-65A6 Circuit Breaker Assembly 180303-1 6-67A7 Low Pass Filter Assembly 786-3451-003 F 6-71A8 Component Panel Assembly 180320-1 E 6-73A8AI Power Failure Recycle Circuit Card Assembly 640-3466-001 B 6-75A8A2 Variac Driver Assembly 648-8104-001 E 6-77A9 SCR Assembly 180304-1 6-79AID Power Supply Assembly 180318-1 H 6-81AIOA1 Bias Component Circuit Card Assembly 180383-1 A 6-83AIOAl Remote Control Circuit Card Assembly 180310-3 A 6-85All NOT-USEDAl2 PA Cavity Assembly 786-3335-005 AR 6-89A12Al Metering Multiplier Circuit Card Assembly 643-7445-001 C 6-93A12Al Metering Multiplier Circuit Card Assembly 643-7446-001 B 6-95A12A3 PA Tube Socket Assembly 786-3686-002 H 6-99AI3 Bleeder Resistor Assembly 180394-1 6-101
6-2 Change 6
816R-2C PARTS LISTS
A6
81
A10(REF)
AS
-00G0005
T1
A4
0000000F7 Fe F12 F4 F5 Fl
000 0 0 000 0F8 Fe FlO Fll F2 F13 FH
T2(REF)
L2 82
C1-B
DC1-A (DIODE PIN: 353-5376-010)
T4 C1 (REF)
P
DC1
A12
.~~~EmBC2 A8
B1 (REF)
V1-.
Figure 6-1. 816R-2C FM Transmitter (Sheet 1 of 2)
Change 5 6-3
PARTS LISTS 816R-2C
83
B1
T3
84
95G0253C1L1
DC1
(REF)
85T2
FAN BLADE PIN- 009 3118 030- -
\\\\ A13 A9 ~ A7~
\ / /\\ \ / /
"'" L/
V~O / 0 ~Oc:l
""'- c< n )
C~ \-
'" \ _0 ~O ~O<::
/
~ /""'-
~~'" ~~/A"--..
~ ~~ I Ir----.
1Mr~ 0 f~~v I
I I II[7'"
~0
c==J0
IiI!
§ I""'-"
~~c:J
4[~ po
~~)'~po
~~ 0ti. ~po
~llllllllllllllllill.lllll.---'),.,,.-00 00
00 00
~00 00
00 00
rt~~oc ocQ.2 Q.2 .....-~
I~/ ~0 0 ---/~~ ~v....-
[IErnln n ~~~G: ~ DI lorn /
~ v/\
I -.. ....... I/'
~/v~
h\~--~ ~===-- ~
~ ~~~~~ ~\\
I I\ 1\ ---::;; ---::;;~L -.. \ _"'-.1\~ .l-an-J
\ \ '\ ""-\ \ '\ '"\ \ \ ~ ~
r--
\ \ \ "" ""
Z1
T1(REF)
A1
B2
Z1
Z1
Figure 6-1. 816R-2C FM Transmitter (Sheet 2 of 2)
6-4 Change 5
816R-2C
PL180295-2 TRANSMITTER, 816R-2C, 21.5KW FM
PARTS LISTS
Rev.M
Ref. Des. Part No.
Al *189638-1A2 *180299-2A3 *180302-2A4 NOT-USEDA5 *180317-3A6 *180303-1A7 *786-3451-003A8 *180320-1A9 *180304-1A10 *180318-1All NOT-USEDA12 *786-3335-005A13 *180394-1B1 009-0167-010
B2 230-0593-010
C1 930-0781-040
C2 *159422-1DCI 277-5052-010
L1 668-0199-010L2 668-0200-030
Sl *627-9743-004S2 *627-9743-004S3 *627-9743-008S4 *627-9743-008S5 *627-9743-008T1 664-0124-030T2 664-5003-010T3 662-6024-010T4 662-6270-010
VI 256-0157-000ZlA 353-6596-030
ZlB 353-6596-030
ZlC 353-6596-030
Change 5
Description
CONTROL PANELCARD CAGE ASYIPA ASSY
COMPONENT SHELF ASSYCIRCUIT BREAKER ASSYASSEMBLY, LOW PASS FILTERCOMPONENT PANEL ASSYSCRASSYPOWER SUPPLY ASSY
POWER AMPLIFIER CAVITY ASSEMBLYBLEEDER RESISTOR ASSYFAN, CENTRIFUGAL: 800CFM@4"SP, 220/440V, 50/60HZ, IHP 3PH, 3450RPMMOTOR, DIRECT DRIVEMOTOR, ALTERNATING CURRENT: 1/4HP, 1725RPM, 230/460V 60HZ, 3PH,NEMA FRAME 48, SEALED BALL BEARINGS, OPENCAPACITOR, FIXED, PAPER: 20 UF, ±10%, 10K WVDC OIL FILLED, 1/2-13TERMINALSCAP, BLOCKINGCOUPLER, DIRECTIONAL: W/CRYSTAL DETECTORS&RF MONITOR PORT,lKWT035KW, 1: 05: 1 VSWRMAXREACTOR: 4 HENRIES MIN @ 4.00 ADC, 400 VRMS RIPPLE 300-360 HZREACTOR: 1.0 HENRIES MIN.@ 6.0 ADC, 38VRMS/2500 V, WITHSTANDING, 400HZSWITCH ASSEMBLY, SHORTINGSWITCH ASSEMBLY, SHORTINGSWITC1I ASSEMBLY, SHORTINGSWITCH ASSEMBLY, SHORTINGSWITCH ASSEMBLY, SHORTINGTRANSFORMER, POWER: STEP-UP, 200-250 V/8000 VDCTRANSFORMER, POWER: STEP-UP, 250 V/800 VDCTRANSFORMER, POWER: STEP-DOWN, 250 VOLT/45 VOLT, 3 PHTRANSFORMER, POWER: STEP-DN, PRI=230/460V, 50/60HZ, IPH SEC=115V,2.17AMP, 250VA, OPEN, DRY TYPE CONTROL XFMRELECTRON TUBE: POWERTETRODERECTIFIER, SEMICONDUCTOR DEVICE: SILICON, HIGH VLTG DOUBLERASSY, 16KV PRY, 4AMP EACH LEGRECTIFIER, SEMICONDUCTOR DEVICE: SILICON, HIGH VLTG DOUBLERASSY, 16KV PRY, 4AMP EACH LEGRECTIFIER, SEMICONDUCTOR DEVICE: SILICON, HIGH VLTG DOUBLERASSY, 16KV PRY, 4AMP EACH LEG
6-5
PARTS LISTS
6-6
(This Page Intentionally Left Blank)
816R-2C
Change 4
CONNECTOR BODY, PLUG, ELECTRlCAL: 60 POSITIONS, 2 ROW, INDENTLATCHING, 0.100 X 0.100 CENTERSCONNECTOR BODY, PLUG, ELECTRlCAL: 60 POSITIONS, 2 ROW, INDENTLATCHING, 0.100 X 0.100 CENTERSCONNECTOR BODY, PLUG, ELECTRICAL: 20 POSITIONS, PLZD 1 ROWCONTACT HOUSING, 0.1 "CENTERS, WIDETENT LATCHCONNECTOR BODY, PLUG, ELECTRlCAL: 20 POSITIONS, PLZD 1 ROWCONTACT HOUSING, O. 1"CENTERS, WIDETENT LATCHCONNECTOR BODY, PLUG, ELECTRlCAL: 40 CAVITY, 2 ROW DETENTLATCHING, WIO STRAIN RELIEF, .1"X.l"CENTERSCONNECTOR BODY, PLUG, ELECTRlCAL: 40 CAVITY, 2 ROW DETENTLATCHING, WIO STRAIN RELIEF, .1 I X.l"CENTERSCONNECTOR BODY, PLUG, ELECTRlCAL: 20 POSITIONS, PLZD 1 ROWCONTACT HOUSING, 0.1 "CENTERS, WIDETENT LArrCH
816R-2C
PL180328-1
Ref. Des. Part No.
PI 372-9755-010
P2 372-9755-010
P3 372-9766-020
P4 372-9766-020
P5 372-9761-030
P6 372-9761-030
P7 372-9766-020
MAIN CABLE
Description
PARTS LISTS
Rev.B
Change 4 6-7
PARTS LISTS 816R-2C
M1, C1 M2, C2 M3, C3 M4,C4
o o
MUlTIMETER PlATE VOLTAGE PlATE CURRENT POWER OUTPUT
,--------------------------------------------------------------------------------------------------------------------------------
0- uMrr-()
- POWER-
0- uMrr-Q
DD DO
D D REFLUFWD
O"'ecMCM.D
°"'P'LATECM.D
STATUS
[__~_2_9_..-.rD.ON_=-g~_~_Jo PA SCREEN CURRENT1llD",,"
o PABIM
o PA GIW CURRENT........o PA SCREEN VOLTAGE
1lIllI .....
o 2BVSUPPlY40....,..
o AlUI1lK 0 MOOOIU'T\JC OI\P'IQIf..... NJUC 0 V8W!'1.<MJ) RAISE LOWER RAISE LOWER
q METER SB.ECT 0 ~NJUC 0 lJllEtol\DOOftNTUC 0 Il&loTENTUC - TUNING - - lOAOWG - • 0
: DD °~ 0 CJIl!MOOO!\1I1lJ( 0 r1IILAIftNTUC ST.RESETC:S D :: ~ UP (0 .......... .......- :: . ~~.~ O~~ :. .------------------------------------------------------------------------------------------.------------------------------------_.,
9380318
A1
Figure 6-2. Control Panel, At
6-8Change 4
CCA, CONTROL PANELCAPACITOR, FIXED, MICA: 100 PicaF, ±5%, 500 WVDCCAPACITOR, FIXED, MICA: 100 PicaF, ±5%, 500 WVDCCAPACITOR, FIXED, MICA: 100 PicaF, ±50/0, 500 WVDCCAPACITOR, FIXED, MICA: 100 PicaF, ±5%, 500 WVDCMETER, ARBITRARY SCALE: 1MADC SENS, 0-8/0-4 SCALES 100 OHM INT RES,3-1/2" RECT, PANEL MT, PVT AND JWLVOLTMETER: DC, 2MADC SENS, 0-10 DC KILOVOLTS SCALE 1000 OHM INRES, 3-1/2" RECT, PANEL MT, PVT AND JWLAMMETER: DC, 1MADC SENS, 0-5 DC AMPERES SCALE 1250 OHM !NT RES,3-1/2" RECT, PANEL MT, PVT AND JWLMETER, SPECIAL SCALE: DC, 100UADC SENS, 0-120%/0-120/0 SCALE, 1750OHM INT RES, 3-1/2"RECT, PANEL MT, PVT AND JWL
816R-2C
PL189638-1
Ref. Des. Part No.
Al *189668-1C1 CM05FD101J03C2 CM05FD101J03C3 CM05FD101J03C4 CM05FD101J03M1 458-5005-060
M2 458-5005-070
M3 458-5005-050
M4 458-5005-100
CONTROL PANEL
Description
PARTS LISTS
Rev. -
Change 4 6-9
PARTS LISTS 816R-2C
0 [C][C] DJ DJ 8 0CJ OS1
S1 S2 S3
0S4 S5 S6 S7 S8 S9
CJ OS2
CJ OS3 OS26 OS27 OS28 OS29
CJ
CJ OS4 CJOS6 CJ OS11 CJ OS17 CJ OS23 ODJ [J DJo CJDS7 CJ OS12 CJ OS18 CJ OS24
CJ OS5CJOS8 CJ OS13 CJ OS19 CJ OS25 S10 S11 S12 S13
CJOS9 CJ OS14 CJ OS20
B DS10 CJ OS15 CJ OS21 BCJ OS16 CJ OS22
00 S14 S15 S16
FRONT VIEW
C5
R8R7
R9
~~ fu~ ~~ b
8888:::~ 0-e::=:r R30a -e::=:r R31R39 -c=J- (J)
o 0 -e::=:r R32
~ $~ ~ -u- -e=J- R33
n rP-n nCR5 -e::=:r R34
~ -e::=:r R35VR3
R24 -c=:J
R25 -c=J
R26 -c:::=J
R27 -c:::=J
R28 -c:::=J-
R29 -c=J-
R20 -c:=J-
R21 -c=J-
R22 -c=J-
R23 -c=J-
R57R48R47R45R46
6-10
REAR VIEW
Figure 6-3 .. Control Panel Circuit Card Assembly, AlAI
95G0180
Change 4
CAPACITOR, FIXED, ELECTROLYTIC: 1 MicroF, ±10%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 1 MicroF, ±10%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 10,000 PicaF, ±5%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 100 MicroF, ±10%, 6.3 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10o~, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 4.7 MicroF, ±10%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 4.7 MicroF, ±lO%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 1000 PicaF, ±10%, 200 WVDC FR=1.0%/1000 HRCAPACITOR, FIXED, CERAMIC: 1000 PicaF, ±10%, 200 WVDC FR=1.0%/1000 HRCAPACITOR, FIXED, ELECTROLYTIC: 4.7 MicroF, ±10%, 35 \VVDC DIPPEDTANTALUMCAPACITOR, FIXED, ELECTROLYTIC: 4.7 MicroF, ±10%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, FILM: 1.0 MicroF, ±10%, 200 WVDCCAPACITOR, FIXED, FILM: 1.0 MicroF, ±10%, 200 WVDCCAPACITOR, FIXED, FILM: 1.0 MicroF, ±10%, 200 WVDCCAPACITOR, FIXED, FILM: 1.0 MicroF, ±10%, 200 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 10 MicroF, ±10%, 25 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, ELECTROLYTIC: 10 MicroF, ±10%, 25 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCSEMICONDUCTOR DEVICE, DIODE: SILICON, 100V PlY, 300M.A FASTRECOVERY, DO-35 PKG (TYPE IN4148)SEMICONDUCTOR DEVICE, DIODE: SILICON, 150MA, 75V PIV 500MILLIWATTS, AXIAL LEADS, DO-35 PKG (lN4454-1)SEMICONDUCTOR DEVICE, DIODE: SILICON, 150MA, 75V PIV 500MILLIWATTS, AXIAL LEADS, DO-35 PKG (lN4454-1)
816R-2C
PL189668-1
Ref. Des. Part No.
C1 183-5018-070
C2 CK05BX104KC3 CK05BX104KC4 CK05BX104KC5 183-5018-070
C6 CK05BX104KC7 913-7016-510C8 184-9612-010C9 CK05BX104KC10 CK05BX104KC11 CK05BX104KC12 183-5018-110
C13 CK05BXI04KC14 CK05BX104KCIS 183-5018-110
C16 M39014/01-1237C17 M39014/01-1237C18 183-5018-110
C19 183-5018-110
C20 CK05BXI04KC21 CK05BX104KC22 933-1059-050C23 933-1059-050C24 933-1059-050C25 933-1059-050C26 CK05BX104KC27 CK05BX104KC28 CK05BX104KC29 183-5017-070
C30 183-5017-070
C31 CK05BX104KC32 CK05BX104KC33 CK05BX104KC34 CK05BX104KC35 CK05BX104KCR1 353-3763-010
CR2 353-3644-010
CR3 353-3644-010
CCA, CONTROL PANEL
Description
PARTS LISTS
Rev.D
Change 4 6-11
SEMICONDUCTOR DEVICE, DIODE: SILICON, 150MA, 75V PIV500MILLIWATTS, AXIAL LEADS, DO-35 PKG (lN4454-l)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, lOOOV PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, lOOOV PRY DO-4l EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-4l EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)DISPLAY, OPTOELECTRONIC: LED, GREEN, .5 I X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5 I X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5 I X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5 I X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5 I X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINE
PARTS LISTS
PL189668-1
Ref. Des. Part No.
CR4 353-3644-010
CR5 353-6442-070
CR6 353-6442-070
CR7 353-6442-070
CR8 353-6442-070
CR9 353-6442-070
DS1 419-0089-010
DS2 419-0089-010
DS3 419-0089-010
DS4 419-0089-010
DS5 419-0089~010
DS6 419-0089-010
DS7 419-0089-010
DS8 419-0089-010
DS9 419-0089-010
DS10 419-0089-010
DS11 419-0089-010
DS12 419-0089-010
DS13 419-0089-010
DS14 419-0089-010
DS15 419-0089-010
DS16 419-0089-010
DS17 419-0089-010
DS18 419-0089-010
DS19 419-0089-010
CCA, CONTROL PANEL - Continued
Description
816R-2C
Rev.D
6-12 Change 4
DISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5 "X.25 "LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINECONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 40 PINS 2 ROW,STRAIGHT, O.IOO"CTRS, SHROUDED, 0.066"END DIMCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 40 PINS 2 ROW,STRAIGHT, O.IOO"CTRS, SHROUDED, 0.066"END DIMCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 40 PINS 2 ROW,STRAIGHT, 0.1 OO"CTRS, SHROUDED, 0.066"END DIMCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 40 PINS 2 ROW,STRAIGHT, 0.100"CTRS, SHROUDED, 0.066"END DIMRESISTOR, FIXED, FILM: 82.5KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: I2100HM, ±l%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 12100HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 12100HM, ±1%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 121OOHM, ±loAJ, 1/4\VATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 82.5KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 75KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: lOOOOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47.5KOHM, ±I%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 4750HM, ±15, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDED
816R-2C
PL189668-1
Ref. Des. Part No.
DS20 419-0089-010
DS21 419-0089-010
DS22 419-0089-010
DS23 419-0089-020
DS24 419-0089-020
DS25 419-0089-020
DS26 419-0089-020
DS27 419-0089-020
DS28 419-0089-020
DS29 419-0089-020
Jl 372-9754-040
J2 372-9754-040
J3 372-9754-040
J4 372-9754-040
R1 724-5052-780
R2 724-5055-380
R3 724-5052-410
R4 724-5052-410
R5 724-5052-410
R6 724-5052-410
R7 724-5052-780
R8 724-5052-775
R9 724-5052-400
RIO 724-5052-740
RII 724-5052-285
CCA, CONTROL PANEL - Continued
Description
PARTS LISTS
Rev.D
Change 4 6-13
RESISTOR, FIXED, FILM: 4750HM, ±15, I/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1%, 1/4WATT@70CMETAL FILM,TC=IOOPPMIDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 20K OHM, ±10/0, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 20K OHM, ±1 0/0, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22.10HM, ±1%, I/4WATT@70C METAL FILM,TC=IOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22.10HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPMlDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±50/0, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C ~1ETAL FILM,TC=250PPMlDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±50/o, 2 WATT @ 70C METAL FILM,TC=250PPMlDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, WIRE WOUND: 33 OHMS, ±50/0, 6.5 WATT
PARTS LISTS
PL189668-1
Ref. Des. Part No.
R12 724-5052-285
R13 724-5052-520
R14 724-5052-520
RI5 724-5052-660
R16 724-5052-660
R17 724-5052-050
RI8 724-5052-050
R19 724-5055-380
R20 724-5055-380
R21 724-5055-380
R22 724-5055-380
R23 724-5055-380
R24 724-5055-380
R25 724-5055-380
R26 724-5055-380
R27 724-5055-380
R28 724-5055-380
R29 724-5055-380
R30 724-5055-380
R31 724-5055-380
R32 724-5055-380
R33 724-5055-380
R34 724-5055-380
R35 724-5055-380
R36 747-5491-000
CCA, CONTROL PANEL - Continued
Description
816R-2C
Rev.D
6-14 Change 4
RESISTOR, VARIABLE, NONWIRE WOUND: 20K OHMS, ±100/0 1/2 WATT,CERMETRESISTOR, FIXED, COMPOSITION: 1.2M OHM, ±50/0, 1/4 WATTRESISTOR, FIXED, FILM: 10KOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPMIDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 10K OHMS, ±100/0 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 47.5KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1000HM, ±l%, 1/4WATT@70CMETALFILM,TC=100PPM/DEGC, COLOR BANDEDSWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNTSWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNTSWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, GREEN LED, GREEN LENS/CAP, PC MOUNTSWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, RED LED, RED LENS/CAP, PC MOUNT
RESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±50/0, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1500HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 20K OHMS, ±100/0 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 68100HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDED
816R-2C
PL189668-1
Ref. Des. Part No.
R37 724-5055-380
R38 724-5055-380
R39 724-5055-380
R40 724-5055-380
R41 724-5055-380
R42 724-5055-380
R43 724-5055-380
R44 724-5052-225
R45 724-5052-400
R46 382-1405-080
R47 724-5052-545
R48 724-5052-400
R49 NOT-USEDR50 NOT-USEDR51 382-1405-080
R52 RCR07G125JSR53 724-5052-600
R54 724-5052-600
R55 382-1405-070
R56 724-5052-740
R57 724-5052-800
R58 724-5052-200
SI 266-9981-020
S2 266-9981-020
S3 266-9981-030
S4 266-9981-010
CCA, CONTROL PANEL - Continued
Description
PARTS LISTS
Rev.D
Change 4 6-15
SWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, GREEN LED, GREEN LENS/CAP, PC MOUNTSWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, RED LED, RED LENS/CAP, PC MOUNTSWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNTSWITCH, PUSH: SPDT, ON-MOM ON, 5AMP, 125/250\TAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNT'SWITCH, PUSH: SPDT, MOMENTARY, BLACK KEYCAP, W/GRN LEDS 60 VDC,10 MADC MAX, GOLD PLATED CONTACTSSWITCH, PUSH: DPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNTSWITCH, PUSH: DPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNTSWITCH, PUSH: DPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNTSWITCH, PUSH: DPDT, ON-MOM ON, 5AMP, 125/250VAC CONTACTILLUMINATED, YELLOW LED, YELLOW LENS/CAP, PC MOUNTSWITCH, PUSH: SPDT, MOMENTARY, BLACK KEYCAP, 60 VDC MAX, 10MADCMAXSWITCH, PUSH: SPDT, MOMENTARY, BLACK KEYCAP, 60 VDC MAX, 10MADCMAXSWITCH, PUSH: SPDT, MOMENTARY, BLACK KEYCAP, 60 VDC MAX, 10MADCMAXTERMINAL BOARD: 8 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRE SIZE,PWB MOUNTING, BLUE, 300V, lOA RTGMICROCIRCUIT, LINEAR: TRANSISTOR ARRAY, HIGH VOLTAGE, HIGH CUR,DARLINGTON PAIRS, 7 CKT, 16 PIN PLASTIC DIPMICROCIRCUIT, LINEAR: QUAD SPDT JFET ANALOG SWITCH NORMALLYOPEN, 16 PIN DIPMICROCIRCUIT, LINEAR: QUAD SPDT JFET ANALOG SWITCH NORMALLYOPEN, 16 PIN DIPMICROCIRCUIT, DIGITAL: LOW POWER SCHOTTKY, DIVIDE BY 12COUNTER, 14 PIN DIP, PLASTIC PACKAGEMICROCIRCUIT, LINEAR: DUAL TIMER, +16 ·V, 600 MWRESISTOR NETWORK: 8 RESISTORS, 47 OHM, ±2% 1/4 WATT/RESISTOR, 16PIN DIP PACKAGE, 2.4 WATT/PKGMICROCIRCUIT, DIGITAL: DECODER, 3 LINE TO 8 LINE, TTL, LOW POWERSCHOTTKY, 16 PIN PLASTIC DIP PKGMICROCIRCUIT, DIGITAL: LOGIC GATEMICROCIRCUIT, DIGITAL: TTL/MSI, 4 BIT BINARY UP/DOWN COUNTER,DUAL CLOCK W/CLEAR, 16 PIN PLASTIC DIP PKGMICROCIRCUIT, DIGITAL: LSTTL, QUAD 2-INPUTNAND GATE SCHMITTTRIGGER INPUT, 14 PIN PLASTIC DIP PKGMICROCIRCUIT, LINEAR: QUAD OP AMP, DIFF INPUTS 14 PIN PLASTIC DIPPKG, 0-70DEG CMICROCIRCUIT, LINEAR: CMOS, VOLTAGE CONVERTER, +5VDC TO +/-5VDC,8 PIN PLASTIC DIP PKG, 0-70CSEMICONDUCTOR DEVICE, DIODE: ZENER, 5.1V, ±5%, 1WATT AXIAL LEADS,MOLDED BODY
PARTS LISTS
PL189668-1
Ref. Des. Part No.
S5 266-9981-030
S6 266-9981-010
S7 266-9981-020
88 266-9981-020
S9 266-9952-070
S10 266-9981-040
S11 266-9981-040
S12 266-9981-040
813 266-9981-040
814 266-9952-020
S15 266-9952-020
816 266-9952-020
TB1 306-3051-010
Ul 351-4864-010
U2 351-5298-010
U3 351-5298-010
U4 351-5305-010
U5 351-4706-010U6 736-7026-040
1)7 351-4750-010
U8 351-7630-010U9 351-9005-020
UI0 351-1728-020
Ul1 351-4768-010
U12 351-5367-010
VRI 353-6481-11 0
CCA, CONTROL PANEL - Continued
Description
816R-2C
Rev.D
6-16 Change 4
SEMICONDUCTOR DEVICE, DIODE: SILICON, 1 WATT, 5.6 VOLTMICROCIRCUIT, LINEAR: +5 V @ 1 A VOLTAGE REGULATOR TO-220PLASTIC PACKAGESOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE'PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 8 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACING
816R-2C
PL189668-1
Ref. Des. Part No.
VR2 353-6481-130VR3 351-1120-010
XUl 220-6017-040
XU2 220-6017-040
XU3 220-6017-040
XU4 220-6017-030
XU5 220-6017-030
XU6 220-6017-040
XU7 220-6017-040
XU8 220-6017-030
XU9 220-6017-040
XUI0 220-6017-030
XUII 220-6017-030
XU12 220-6017-020
CCA, CONTROL PANEL - Continued
Description
PARTS LISTS
Rev.D
Change 4 6-17
PARTS LISTS
T3
IIIII
E3 T2
A7 CR1
T1 A8
o
A9 E1
E2
T4
816R-2C
M1 M2
~ ~
~o FIL
D D D0OA-B ~o B-C
0METER LOCAL REMOT
OC-ASELECT
FILAMENT Hou:::JAC VOLTMETER
I tI LJ J LI J lnJ lnJ LJ J LJ ~ IJ J
// 52
[
A1 A2 A3
o
6-18
/
//
/hl Irl ~l
0
M
/ / /
II 93G0319
A4 A5 A6
Figure 6-4. Card Cage, A2.
Change 4
CIRCUIT CARD ASSEMBLY: GATING, 3 PHASE, FULL WAVE HARD FIRING,PLUG IN, USING AMP 534204-1 CONNECTORCIRCUIT CARD ASSEMBLY: GATING, 3 PHASE, FULL WAVE HARD FIRING,PLUG IN, USING AMP 534204-1 CONNECTORCIRCUIT CARD ASSEMBLY: GATING,3 PHASE, FULL WAVE HARD FIRING,PLUG IN, USING AMP 534204-1 CONNECTORCCA, FILAMENT REGULATORCCA, OVERLOAD/RECYCLECCA, POWER MONITOR/CONTROLCCA, CARD CAGE COMPONENTCCA, BACKPLANEPOWER CONTROL ASSEMBLYSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRV DO-41 EPOXYPKG, AXIAL LEADS (lN4007)POST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSPOST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSTERMINAL BOARD: 3 TERMINAL, SOLDER LUG, SNGL MTG FOOT PHENOLICBASEPOST, ELECTRICALIMECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSPOST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSPOST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSAMMETER, AC: 10 MA, SENS, 0-9,0-300 SCALES VOLTS AC, 3-1/2"RECTANGLE, PIVOT & JEWEL MOVEMENT, IRON VANEMETER, TIME TOTALIZING: 99999.9 HR, 0.1 HR, INCREMENTS 230 VOLT, 60HZ, 3-1/2" RECT BEZEL, NO RESETRESISTOR, VOLTAGE DEPENDENT: 2000 AMPS, 0.6 WATT 500 PF, METALOXIDE VARISTORSWITCH ASSEMBLY, INTERLOCK: SPDT, 5 AMP @ 28 VDC, PULL TOMAINTAIN CONNECTIONTRANSFORMER, POWER: STEP-DOWN, PRI=230/460V, 50/60HZ IPH,SEC#I=24VCT@40MA, SEC#2&3=18V@400MA, OPEN, DRYTRANSFORMER, POWER: STEP-DOWN, PRI=230/460V, 50/60HZ IPH,SEC#1=24VCT@40MA, SEC#2&3=18V@400MA, OPEN, DRYTRANSFORMER, POWER: STEP-DOWN, PRI=230/460V, 50/60HZ 1PH,SEC#1=24VCT@40MA, SEC#2&3=18V@400MA, OPEN, DRYTRANSFORMER, POWER: STEP-DOWN, 166 VRMS/24-56 VRMS
816R-2C
PL180299-2
Ref. Des. Part No.
Al 270-3253-010
A2 270-3253-010
A3 270-3253-010
A4 *182901-1A5 *180166-1A6 *180161-1A7 *189620-1A8 *180194-1A9 *172715-1CR1 353-6442-070
E1 306-0234-000
E2 306-0234-000
E3 306-2230-000
E4 306-0234-000
E5 306-0234-000
E6 306-0234-000
Ml 458-5006-020
M2 458-5007-010
RVI 714-3258-250
SI 266-8000-000
T1 270-0313-020
T2 270-0313-020
T3 270-0313-020
T4 662-0898-010
CARD CAGE ASSEMBLY
Description
PARTS LISTS
Rev.F
Change 4 6-19
PARTS LISTS 816R-2C
[~
U?, XU?
I U4, XU4 (J fOlL.---------,'l QL] ~~
U8, XU8
1L----_U3, X_U3----IS rsu rnJ ~
LBiiJ
IU2,XU2 ~ rn~ :~~: :
. 'I [ill] V ~~
l""-----U1'X----'U1S
8I R34
L3RV4 =:::>
C:-RV-3-=:::>
R33
o ~S5 ~ ~ [@ r)~S~
~ ~8 ~ ~@]~
P1
93G0320
Figure 6-5Q Filament Regulator Circuit Card Assembly, A2A4Q
6-20 Change 4
816R-2C
PL182901-1 CCA, FILAMENT REGULATOR
PARTS LISTS
Rev.E
Ref. Des. Part No.
C1 NOT-USEDC2 NOT-USEDC3 NOT-USEDC4 184-9102-110
C5 CK05BX104KC6 CK05BX104KC7 CK05BX104KC8 CK05BX104KC9 CK05BX104KC10 CK05BX104KC11 CM05FD101J03C12 CM05FD101J03C13 CM05FD101J03C14 CM05FD101J03C15 913-3279-270C16 183-5016-070
C17 184-9102-370
C18 184-9102-370
C19 CK05BX104KC20 CK05BXI04KC21 CK05BX104KC22 CK05BX104KC23 CK05BX104KC24 183-5031-030
C25 NOT-USEDC26 CK05BX104KC27 CK05BX104KC28 184-9102-200
C29 CK05BX104KC30 184-9102-100
C31 CM05FD101J03C32 CM05FDI01J03CRI 353-6442-070
CR2 353-6442-070
DS1 419-0095-020
DS2 419-0095-030
DS3 419-0095-030
Change 5
Description
CAPACITOR,FIXED,ELECTROLYTIC:220 UF,+-200/0, 10 WVDC DIPPEDTANTALUMCAPACITOR,FIXED,CERAMIC:O.l UF,+-100/0,50 WVDCCAPACITOR,FIXED,CERAMIC:0.1 UF,+-100/0,50 WVDCCAPACITOR,FIXED,CERAMIC:O.l UF,+-100/0,50 WVDCCAPACITOR,FIXED,CERAMIC:O.l UF,+-10%,50 WVDCCAPACITOR,FIXED,CERAMIC:O.l UF,+-100/0,50 WVDCCAPACITOR,FIXED,CERAMIC:O.l UF,+-l 00/0,50 WVDCCAPACITOR,FIXED,MICA: 100 PF,+-5%,500 WVDCCAPACITOR,FIXED,MICA:100 PF,+-50/0,500 WVDCCAPACITOR,FIXED,MICA: 100 PF,+-50/0,500 WVDCCAPACITOR,FIXED,MICA:100 PF,+-50/0,500 WVDCCAPACITOR,FIXED,CERAMIC:l UF,+-20%,50 WVDCCAPACITOR,FIXED,ELECTROLYTIC:33 UF.,+-100/0,20 WVDC DIPPEDTANTALUMCAPACITOR,FIXED,ELECTROLYTIC:2.2 UF,+-200/0,35 WVDC DIPPEDTANTALUMCAPACITOR,FIXED,ELECTROLYTIC:2.2 UF,+-20%,35 WVDC DIPPEDTANTALUMCAPACITOR,FIXED,CERAMIC:O.l UF,+-100/0,50 WVDCCAPACITOR,FIXED,CERAMIC:O.l UF,+-l 00/0,50 WVDCCAPACITOR,FIXED,CERAMIC:0.1 UF,+-100/0,50 WVDCCAPACITOR,FIXED,CERAMIC:0.1 UF,+-lO%,50 WVDCCAPACITOR,FIXED,CERAMIC:O.l UF,+-l 00/0,50 WVDCCAPACITOR,FIXED,ELECTROLYTIC:100 UF,+-200/0,63 WVDC WITHINSULATING SLEEVE
CAPACITOR,FIXED,CERAMIC:0.1 UF,+-l 00/0,50 WVDCCAPACITOR,FIXED,CERAMIC:0.1 UF,+-100/0,50 WVDCCAPACITOR,FIXED,ELECTROLYTIC:IOO UF,+-20%,20 WVDC DIPPEDTANTALUMCAPACITOR,FIXED,CERAMIC:0.1 UF,+-100/0,50 WVDCCAPACITOR,FIXED,ELECTROLYTIC:IOO UF,+-20%,10 WVDC DIPPEDTANTALUMCAPACITOR,FIXED,MICA:IOO PF,+-5%,500 WVDCCAPACITOR,FIXED,MICA: 100 PF,+-50/0,500 WVDCSEMICONDUCTOR DEVICE,DIODE:SILICON, lAMP, 1OOOV PRY DO-41 EPOXYPKG,AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE,DIODE:SILICON, lAMP, 1OOOV PRY DO-41 EPOXYPKG,AXIAL LEADS (lN4007)LIGHT EMITTING DIODE:YELLOW DIFFUSED,BLOCK FORM RTANGLE,WITHOUT RESISTOR,3 VDC MAX,30 MALIGHT EMITTING DIODE:RED DIFFUSED,BLOCK FORM RT ANGLE,WITHOUTRESISTOR,2 VDC MAX,50 MALIGHT EMITTING DIODE:RED DIFFUSED,BLOCK FORM RT ANGLE,WITHOUTRESISTOR,2 VDC MAX,50 MA
6-21
PARTS LISTS
PL182901-1 CCA, FILAMENT REGULATOR - Continued
816R-2C
Rev.E
Ref. Des. Part No.
DS4 419-0095-010
DS5 419-0095-020
K1 410-6009-010
K2 410-6009-010
K3 410-6009-010
L1 MS91189-21
L2 MS91189-21
L3 MS91189-21
L4 MS91189-21
PI 372-9739-010
Rl 724-5053-440
R2 382-1405-210
R3 724-5054-310
R4 724-5052-265
R5 724-5052-400
R6 724-5052-520
R7 382-1405-250R8 724-5052-400
R9 724-5052-265
RIO 724-5052-275
R11 724-5052-275
R12 724-5052-265
R13 724-5052-265
R14 724-5052-265
R15 724-5052-265
6-22
Description
LIGHT EMITTING DIODE:GREEN DIFFUSED,BLOCK FORM RTANGLE,WITHOUT RESISTOR,3 VDC MAX,60 MALIGI-IT EMITTING DIODE:YELLOW DIFFUSED,BLOCK FORM RTANGLE,WITHOUT RESISTOR,3 VDC MAX,30 MARELAY,SOLID STATE:VOLTAGE 20-140 VAC,1.0 AMP LOAD CURRENT AT 40DEG C,3.5 VDC ACTUATINGRELAY,SOLID STATE:VOLTAGE 20-140 VAC,1.0 AMP LOAD CURRENT AT 40DEG C,3.5 VDC ACTUATINGRELAY,SOLID STATE:VOLTAGE 20-140 VAC,1.0 AMP LOAD CURRENT AT 40DEG C,3.5 VDC ACTUATINGCOIL,RADIO FREQUENCY:4.7 UH,+-100/0,860 DCMA,Q=60MIN 90 MHZ SELFRESONANT FREQ,0.560 DCR MAXCOIL,RADIO FREQUENCY:4.7 UH,+-100/0,860 DCMA,Q=60MIN 90 MHZ SELFRESONANT FREQ,0.560 DCR MAXCOIL,RADIO FREQUENCY:4.7 UH,+-100/0,860 DCMA,Q=60MIN 90 MHZ SELFRESONANT FREQ,0.560 DCR MAXCOIL,RADIO FREQUENCY:4.7 UH,+-10%,860 DCMA,Q=60MIN 90 MHZ SELFRESONANT FREQ,0.560 DCR MAXCONNECTOR,RECEPTACLE,ELECTRICAL:2 ROW CLOSED ENTRY BOARDMTD,50 POSN,0.100"CTR,W/BD RETENTION POSTSRESICTOR,FIXED,FILM:221 OOHM,+-l 0/0, 1/2WATT@70C METALFILM,TC=1 OOPPMIDEGC,COLOR BANDEDRESISTOR,VARIABLE,NONWIRE WOUND:5000 OHMS,+-l 00/0 1/2WATT,CERMETRESISTOR,FIXED,FILM:330 OHM,+-50/0,1 WATT @ 70C METALFILM,TC=250PPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3320HM,+-1 0/0, 1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:10000HM,+-10/0,1/4WATT@70C METALFILM,TC=l OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:47500HM,+-10/0,1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,VARIABLE,NONWIRE WOUND:50K OHMS,+-100/0 1/2 WATT,CERMETRESISTOR,FIXED,FILM:10000HM,+-I%,1/4WATT@70C METALFILM,TC=l OOPPMlDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3320HM,+-10/0,1/4WATT@70C METALFILM,TC=1OOPPMlDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3920HM,+-1%,1/4WATT@70C METALFILM,TC=l OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3920HM,+-10/0,1/4WATT@70C METALFILM,TC=100PPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3320HM,+-1 0/0,1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3320HM,+-1 0/0, 1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3320HM,+-1%,1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3320HM,+-1 %,1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDED
Change 5
816R-2C
PL182901-1 CCA, FILAMENT REGULATOR - Continued
PARTS LISTS
Rev.E
Ref. Des. Part No.
R16 724-5052-265
R17 724-5052-665
R18 724-5052-660
R19 724-5052-600
R20 382-1405-250R21 724-5052-200
R22 724-5052-200
R23 724-5052-600
R24 724-5052-600
R25 724-5052-600
R26 724-5052-600
R27 724-5052-600
R28 RLR07C2204GSR29 RLR07C2204GSR30 724-5052-400
R31 724-5052-400
R32 724-5052-265
R33 724-5055-230
R34 724-5054-230
RVI 714-7015-010
RV2 714-7008-010
RV3 714-7008-010
RV4 714-7008-010
Sl 266-5415-670
S2 266-5404-190
S3 266-5404-190
Change 5
Description
RESISTOR,FIXED,FILM:3320HM,+-10/0,1/4WATT@70C METALFILM,TC= 1OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:22.1KOHM,+-10/0,1/4WATT@70C METALFILM,TC=1 OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:20K OHM,+-1 0/0, 1/4 WATT @ 70C METALFILM,TC=1OOPPM/DEGC,COLOR BANDEDRESISTOR,FIXED,FILM:10KOHM,+-10/0,1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,VARIABLE,NONWIRE WOUND:50K OHMS,+-1 00/0 1/2 WATT,CERMETRESISTOR,FIXED,FILM: 1OOOHM,+-l 0/0, 1/4WATT@70C METALFILM,TC=1 OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:1000HM,+-10/0,1/4WATT@70C METALFILM,TC=1 OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:10KOHM,+-10/0,1/4WATT@70C METALFILM,TC=1OOPPM/DEGC,COLOR BANDEDRESISTOR,FIXED,FILM:I0KOHM,+-10/0,1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:10KOHM,+-1%,1/4WATT@70C METALFILM,TC=1OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:10KOHM,+-10/0,1/4WATT@70C METALFILM,TC=l OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:10KOHM,+-10/0,1/4WATT@70C METALFILM,TC=1OOPPM/DEGC,COLOR BANDEDRESISTOR,FIXED,FILM:2.2M OHM,+-20/0, 114 WATT FR=.OO 10/0/1 OOOHRRESISTOR,FIXED,FILM:2.2M OHM,+-20/0, 1/4 WATT FR=.OO 10/0/1 OOOHRRESISTOR,FIXED,FILM:10000HM,+-10/0,1/4WATT@70C METALFILM,TC= 1OOPPMlDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:IOOOOHM,+-10/0,1/4WATT@70C METALFILM,TC=l OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:3320HM,+-1 0/0, 1/4WATT@70C METALFILM,TC=l OOPPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:68 OHM,+-50/0,2 WATT 2 70C METALFILM,TC=250PPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:68 OHM,+-5%,1 WATT @ 70C METALFILM,TC=250PPMIDEGC,COLOR BANDEDRESISTOR,VOLTAGE SENSITIVE: 1000 AMPS,0.50 WATT 3500 PF,METAL OXIDEVARISTORRESISTOR,VOLTAGE SENSITIVE:4000 AMPS,0.85 WATT 1000 PF,METAL OXIDEVARISTORRESISTOR,VOLTAGE SENSITIVE:4000 AMPS,0.85 WATT 1000 PF,METAL OXIDEVARISTORRESISTOR,VOLTAGE SENSITIVE:4000 AMPS,0.85 WATT 1000 PF,METAL OXIDEVARISTORSWITCH,TOGGLE:3PDT,5 AMP @ 28VDC/120 VAC ON-NONE-ONACTION,RIGHT ANGLE,PC MOUNTSWITCH,PUSH:SPDT-MOM,lAMP,28VDC/120VAC CONT RATING BUTTONCOLOR-NONE,EDGE MT,RT ANGLE PC TERMINATIONSSWITCH,PUSH:SPDT-MOM,lAMP,28VDC/120VAC CONT RATING BUTTONCOLOR-NONE,EDGE MT,RT ANGLE PC TERMINATIONS
6-23
PARTS LISTS
PL182901-1 CCA, FILAMENT REGULATOR - Continued
816R-2C
Rev.E
Ref. Des. Part No.
TP1 360-0495~0 1OTP2 360-0495-170TP3 360-0495-030Ul 351-7629-010
U2 351-7629-010
U3 351-7629-010
U4 351-7634-010
U5 NOT-USEDU6 351-1137-020U7 351-4714-020U8 351-1122-010
U9 351-1120-050
U10 351-1120-010
Ul1 351-4801-010
XKl 220-6017-040
XK2 220-6017-040
XK3 220-6017-040
XU1 220-6017-030
XU2 220-6017-030
XU3 220-6017-030
XU4 220-6017-030
XU5 NOT-USEDXU6 220-6017-020
XU7 220-6017-030
XU8 220-6017-030
6-24
Description
JACK,TIP:BLACK,NYLON INSULATED,PWB MOUNTING HIGH PROFILEJACK,TIP:BLUE,NYLON INSULATED TIP,PWB MOUNTING LOW PROFILEJACI(,TIP:RED,NYLON INSULATED,PWB MOUNTING HIGH PROFILEMICROCIRCUIT,DIGITAL:QUAD 2 INPUT NAND GATE,TTL, 14 PIN DIP,PLASTICPACKAGEMICROCIRCUIT,DIGITAL:QUAD 2 INPUT NAND GATE,TTL, 14 PIN DIP,PLASTICPACKAGEMICROCIRCUIT,DIGITAL:QUAD 2 INPUT NAND GATE,TTL, 14 PIN DIP,PLASTICPACKAGEMICROCIRCUIT,DIGITAL:TTL,QUAD 2 INPUT AND GATE 14 PIN PLASTIC DIPPKG
MICROCIRCUIT,LINEAR:TIMER,+18V,600 MWMICROCIRCUIT,LINEAR:30 VOLT,1000 OHMS IMPEDANCEMICROCIRCUIT,LINEAR:QUAD COMPARATOR,LOW OFFSET LOW POWER,14PIN PLASTIC DIP PKGMICROCIRCUIT,LINEAR:15V POSITIVE VOLTAGE REGULATOR 1.5AMP,TO-220PLASTIC PACKAGEMICROCIRCUIT,LINEAR:+5 V @ 1 A VOLTAGE REGULATOR TO-220 PLASTICPACKAGEMICROCIRCUIT,LINEAR:PRECISION BCD BUFFERED REFERENCE,TO-5PACKAGESOCKET,PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACING
SOCKET,PLUG-IN ELECTRONIC COMPONENT:8 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACINGSOCKET,PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3"WIDE PIN SPACING
Change 5
816R-2C
Change 4
(This Page Intentionally Left Blank)
PARTS LISTS
6-25
PARTS LISTS 816R-2C
o
---D- VR1
---D- CR4
DC10
s~D~C6
c=J--1 R6 ~DC7
DC8
0+
~
C1
D CR1--rr=J-
-1 R1 t--1 R2 ~
gQ]D~C3
c=J~ R3 ~
60§
I I I
<:::0N
(@
~[DD2
+O~~CR6
G-1 R11 f--1 R12
-c=J-- R7
DC12
E2E3[[JJE1
-c=J-- R9
OC14
-cJ}-
CR5C20
o
0)--GiU~
CR9 ---rr:=J-DC21
~~~~
-1 R13 ~
-1 R14 ~OC17
@®CR10
---D-
@-1 R18 tOC19
~
-1 R16 lCR7 -cJ}--
-CEiD-CR8 --rr=J-
C23
o
G~
~CR11 ---rr:=J-
OC24
G-CR2LJ-~
i~ ~:II..-..- FR_ON_T_= 1:
o
93G0321
Figure 6-6., OverloadlRecycle Circuit Card Assembly, A2A5 ..
6-26 Change 4
CAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 UF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 UF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 2.2 UF, ±20%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 10 UF, ±20%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 UF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 UF, ±10%, 100 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 4.7 UF, ±10%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 10 UF, ±20%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 330 UF, ±20%, 50 WVDC ALUMINUM,SINGLE ENDEDCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCSEMICONDUCTOR DEVICE, DIODE: SILICON, 100V PIV, 300MA FASTRECOVERY, DO-35 PKG (TYPE 1N4148)SEMICONDUCTOR DEVICE, ASSEMBLY: LED, YELLOWSEMICONDUCTOR DEVICE, DIODE: SILICON, 100V PIV, 300MA FASTRECOVERY, DO-35 PKG (TYPE 1N4148)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4004)SEMICONDUCTOR DEVICE, DIODE: SILICON, 100V PIV, 300MA FASTRECOVERY, DO-35 PKG (TYPE 1N4148)SEMICONDUCTOR DEVICE, ASSEMBLY: LED, YELLOWSEMICONDUCTOR DEVICE, DIODE: SILICON, 100V PIV, 300MA FASTRECOVERY, DO-35 PKG (TYPE 1N4148)SEMICONDUCTOR DEVICE, DIODE: SILICON, 100V PIV, 300MA FASTRECOVERY, DO-35 PKG (TYPE 1N4148)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4004)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4004)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4004)
816R-2C
PL180166-1
Ref. Des. Part No.
C1 CK05BX104KC2 CK05BX103KC3 CK06BX105KC4 CK05BX104KC5 CK05BX103KC6 CK06BX105KC7 CK05BX104KC8 CK05BX104KC9 184-9102-370
C10 CK05BX104KC11 184-9102-410
C12 CK05BX104KC13 CK05BX103KC14 CK05BX104KC15 CK05BX103KC16 183-5018-110
C17 CK05BX104KC18 184-9102-410
C19 CK05BX104KC20 CK05BX104KC21 CK05BX104Ke22 183-5103-050
C23 CK05BX104KC24 CK05BX104KCR1 353-3763-010
CR2 353-0293-020CR3 353-3763-010
CR4 353-6442-040
CR5 353-3763-010
CR6 353-0293-020CR7 353-3763-010
CR8 353-3763-010
CR9 353-6442-040
CR10 353-6442-040
CR11 353-6442-040
CCA,OVERLOADffiECYCLE
Description
PARTS LISTS
Rev.G
Change 4 6-27
SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRY DO-41 EPOXYPKG, AXIAL LEADS (IN4004)C01\TNECTOR, RECEPTACLE, ELECTRICAL: 2 ROW CLOSED ENTRY BOARDMTD, 50 POSN, 0.100"CTR, W/BD RETENTION POSTSRELAY, REED: SPDT, 0.25AMP, 4 WATT, 100VDC CONTACTRTG 24VDC, 2200OHM COIL, PC MOUNT, DUAL-IN-LINE PKGCOIL, RADIO FREQUENCY: 100.0UH, 160MADC, 3.12 OHMSTRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-18 PKG (2N2222A)TRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-18 PKG (2N2222A)TRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-18 PKG (2N2222A)SEMICONDUCTOR DEVICE, THYRISTOR: 1.6AMP, 400V, SCR TO-5 PKGSEMICONDUCTOR DEVICE, THYRISTOR: 1.6AMP, 400V, SCR TO-5 PKGTRANSISTOR: NPN, SILICON, 4AMP, 100V, 1.5 WATT DISS PLASTIC PKG,CHASSIS MT, (MJE243)SEMICONDUCTOR DEVICE, THYRISTOR: 1.6AMP, 400V, SCR TO-5 PKGSEMICONDUCTOR DEVICE, THYRISTOR: 1.6AMP, 400V, SCR TO-5 PKGRESISTOR, FIXED, FILM: 22100HM, ±l%, 1/4WATT@70CMETALFILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22100HM, ±1%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 475KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 4750HM, ±15, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±l%, 1/2WATT@70C METAL FILM,TC=100PPM/DEG C, COLOR BANDEDRESISTOR, FIXED, FILM: 475KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 2.2M OHM, ±2%, 1/4 WATT FR=.OOI%/lOOOHRRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 2.2M OHM, ±2%, 1/4 WATT FR=.OOI %/1 OOOHRRESISTOR, FIXED, FILM: 475KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 2700 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, WIRE WOUND: 150 OHMS, ±5%, 6.5 WATTRESISTOR, FIXED, FILM: 10KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEG C, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±lo~, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1 %, 1/2WATT@70C METAL FILM,TC=100PPM/DEG C, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDED
PARTS LISTS
PL180166-1
Ref. Des. Part No.
CR12 353-6442-040
Jl 372-9739-010
Kl 410-0572-010
Ll MS75089-11Ql 352-0661-020Q2 352-0661-020Q3 352-0661-020Q4 353-6468-060Q5 353-6468-060Q6 352-1104-010
Q7 353-6468-060Q8 353-6468-060R1 724-5052-460
R2 724-5052-460
R3 724-5052-905
R4 724-5052-285
R5 724-5053-485
R6 724-5052-905
R7 RLR07C2204GSR8 724-5052-400
R9 RLR07C2204GSRIO 724-5052-905
R11 724-5054-420
R12 747-5498-000R13 724-5052-600
R14 724-5052-400
R15 724-5053-485
R16 724-5052-600
R17 724-5053-485
R18 724-5052-400
CCA, OVERLOADfRECYCLE - Continued
Description
816R-2C
Rev.G
6-28 Change 4
RESISTOR, FIXED, FILM: 2210HM, ±l%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEG C, COLOR BANDEDRESISTOR, FIXED, FILM: 100HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±l%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, WIRE WOUND: 560 OHMS, ±5%, 6.5 WATTRESISTOR, FIXED, FILM: 2210HM, ±1%, 1/2WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±l%, 1/2WATT@70C METAL FILM,TC=lOOPPM/DEG C, COLOR BANDEDRESISTOR, FIXED, FILM: 2210HM, ±l%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±l%, l/2WATT@70C METAL FILM,TC=100PPM/DEG C, COLOR BANDEDSWITCH, PUSH: SPDT-MOM, lAMP, 28VDC/120VAC CONT RATING BUTTONCOLOR-NONE, EDGE MT, RT ANGLE PC TERMINATIONSSWITCH, TOGGLE: SPD1', ON-NONE-ON, 5 AMP CONTACT RATINGMICROCIRCUIT, LINEAR: TIMER, +18V, 600 MWMICROCIRCUIT, DIGITAL: QUAD 2 INPUT NAND GATE, TTL, 14 PIN DIP,PLASTIC PACKAGEMICROCIRCUIT, LINEAR: TIMER, +18V, 600 MWMICROCIRCUIT, LINEAR: TIMER, +18V, 600 MWMICROCIRCUIT, DIGITAL: LOW POWER SCHOTTKY, DIVIDE BY 12COUNTER, 14 PIN DIP, PLASTIC PACKAGEMICROCIRCUIT, LINEAR: TIMER, +18V, 600 MWSEMICONDUCTOR DEVICE, DIODE: SILICON, 1 WATT, 30 VOLTMICROCIRCUIT, LINEAR: +5 V @ 1 A VOLTAGE REGULATOR TO-220PLASTIC PACKAGESOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 14 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 14 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 14 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTS
816R-2C
PL180166-1
Ref. Des. Part No.
R19 724-5053-240
R20 724-5053-485
R21 724-5053-010
R22 724-5053-600
R23 724-5053-600
R24 747-5455-000R25 724-5053-240
R26 724-5053-485
R27 724-5053-240
R28 724-5053-485
SI 266-5404-190
S2 266-5321-980Ul 351-1137-020U2 351-7629-010
U3 351-1137-020U4 351-1137-020U5 351-5305-010
U6 351-1137-020VRI 353-6481-470VR2 351-1120-010
XKl 220-0049-010XUl 220-0049-100XU2 220-0049-010XU3 220-0049-100XU4 220-0049-100XU5 220-0049-010XU6 220-0049-100
CCA, OVERLOADIRECYCLE - Continued
Description
PARTS LISTS
Rev.G
Change 4 6-29
PARTS LISTS
o ® C3 ~~DG D CR1 ~ ~~~~ XU5 -e::n- N XU2~ ~CJet: ~~~ ~C4 -g-0~~~~0~ tc~o () [E[] ~
o XK1 Q K1 S~~:;; [[]~ XU3
CR2 CR8o ---CJl- ---CJl-~
OE3 ITJJ E1 --rr=J-
R7 E2 CR9
~o G)-3-0IR9l ~ VR1C=--.J~ -C@J- --[]E]- --rr=J-
G -rnD- -1 R37 ~~ CL:Bb- ---cmu-~~ R22 ® ~t::\
~ ~Q®~\.J~ CR4 ---CJl- ---CJl- CR10 ---CJl-
~ --[]3I]- CR5 @ ~~ C12 ~o QL] +-{§D-
~c==:J
XU10 C13
C14 C15~ c==:J c==:J
~~~
CR11 ~-rr::J- R48
XU4~ C16~ c=JC17
~~~~
816R-2C
~
tt:JCAUTION
SENSI n YE ELECTnNI CDEVICES
J1
49
93G0322
Figure 6-7. Power Monitor/Control Circuit Card Assembly, A2A6
6-30 Change 4
CAPACITOR, FIXED, ELECTROLYTIC: 10 MicroF, ±20%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 47 MicroF, ±10%, 20 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, +_20%,50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, +_20%,50 WVDCCAPACITOR, FIXED, CERAMIC: 1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 220 MicroF, ±20%, 35 WVDCALUMINUM, RADIAL LEADSCAPACITOR, FIXED, ELECTROLYTIC: 100 MicroF, ±20%, 50 WVDC RADIALLEADSCAPACITOR, FIXED, CERAMIC: 1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 4.7 MicroF, ±10%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, ELECTROLYTIC: 10 MicroF, ±20%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, ELECTROLYTIC: 150 MicroF, ±20%, 15 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, ELECTROLYTIC: 100 MicroF, ±20%, 20 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, ELECTROLYTIC: 100 MicroF, ±20%, 20 WVDC DIPPEDTANTALUMSEMICONDUCTOR DEVICE, DIODE: SILICON, HOT CARRIER 70V, 250MW,2PicaF NOM, GLASS PKG, AXIAL LEADS (lN5711)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-4l EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, HOT CARRIER 70V, 250MW,2PicaF NOM, GLASS PKG, AXIAL LEADS (lN571l)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (IN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)
816R-2C
PL180161-1
Ref. Des. Part No.
C1 184-9102-410
C2 CK05BXl04KC3 CK05BX104KC4 CK05BX104KC5 183-5016-080
C6 913-3813-000C7 913-3813-000C8 CK06BXl05KC9 CK06BXl05KC10 CK06BX105KCl1 183-5111-080
C12 183-5031-080
C13 CK06BX105KC14 CK06BXl05KCIS CK06BX105KC16 CK06BXl05KC17 CK05BXl04KC18 183-5018-110
C19 184-9102-410
C20 184-9102-160
C2l 184-9102-200
C22 184-9102-200
CR1 353-3691-010
CR2 353-6442-070
CR3 353-6442-070
CR4 353-6442-070
CR5 353-6442-070
CR6 353-3691-010
CR7 353-6442-070
CR8 353-6442-070
CR9 353-6442-070
CCA, POWER MONITOR/CONTROL
Description
PARTS LISTS
Rev.G
Change 4 6-31
SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (IN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, HOT CARRIER 70V, 250MW,2PicaF NOM, GLASS PKG, AXIAL LEADS (INS711)CONNECTOR, RECEPTACLE, ELECTRICAL: 2 ROW CLOSED ENTRY BOARDMTD, 50 POSN, 0.100"CTR, W/BD RETENTION POSTSRELAY, REED: SPDT, 0.25AMP, 4 WATT, 100VDC CONTACT RTG 24VDC, 2200OHM COIL, PC MOUNT, DUAL-IN-LINE PKGTRANSISTOR: NPN, SILICON, VCEO=40 VDC, IC=0.7 AMP 5 WATT, TO-SPACKAGETRANSISTOR: NPN, SILICON, VCEO=40 VDC, IC=0.7 AMP 5 WATT, TO-5PACKAGETRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-18 PKG (2N2222A)TRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-18 PKG (2N2222A)TRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-I8 PKG (2N2222A)RESISTOR, VARIABLE, NONWlRE WOUND: 10K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWlRE WOUND: 50K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWlRE WOUND: 20K OHM, ± 10%, 112 WATT,CERMET, 25 TURNRESISTOR, VARIABLE, NONWlRE WOUND: 10K OHMS, ± 10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWlRE WOUND: 20K OHM, ±10%, 1/2 WATT,CERMET, 25 TURNRESISTOR, VARIABLE, NONWlRE WOUND: 10K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWlRE WOUND: 10K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWlRE WOUND: 10K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWIRE WOUND: 10K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWIRE WOUND: 50K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 3320HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ± 1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 30.1KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 3320HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 30.1KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDED
PARTS LISTS
PL180161-1
Ref. Des. Part No.
CRIO 353-6442-070
CR1I 353-3691-010
11 372-9739-010
K1 410-0572-010
Q1 352-0613-010
Q2 352-0613-010
Q3 352-0661-020Q4 352-0661-020Q5 352-0661-020R1 382-1405-220
R2 382-1405-250
R3 382-1405-230
R4 382-1405-220
R5 382-1405-230
R6 382-1405-220
R7 382-1405-220
R8 382-1405-220
R9 382-1405-220
RIO 382-1405-250
R11 724-5052-265
R12 724-5052-400
R13 724-5052-200
R14 724-5052-695
R15 724-5052-010
R16 724-5052-265
R17 724-5052-695
CCA, POWER MONITOR/CONTROL - Continued
Description
816R-2C
Rev.G
6-32 Change 4
RESISTOR, FIXED, FILM: 68100HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22100HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: lOOOOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 27400HM, ±10/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±I%, 1/2WATT@70C METAL FILM,TC=100PPM/DEG C, COLOR BANDEDRESISTOR, FIXED, FILM: 27400HM, ±I%, I/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47.50HM, ±l %, I/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: IMEGOHM, ±I%, I/4WATT@70CMETALFILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 162KOHM, ±l 0/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 2000HM, ±10/0, I/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 30.IKOHM, ±I%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: I5KOHM, ±I%, I/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±I 0/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: I5KOHM, ±I%, I/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 475KOHM, ±I 0/0, I/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 68100HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPMIDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47.50HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22.1KOHM, ±10/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 15KOHM, ±10/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 820 OHM, ±50/0, 1 WATT @70CC METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEG C, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22. 1KOHM, ±I%, I/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/2WATT@70CMETAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: I5KOHM, ±10/0, I/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDED
816R-2C
PL180161-1
Ref. Des. Part No.
RI8 724-5052-545
RI9 724-5052-460
R20 724-5052-400
R21 724-5053-450
R22 724-5053-485
R23 724-5053-450
R24 724-5053-090
R25 724-5052-995
R26 724-5052-840
R27 724-5052-240
R28 724-5052-695
R29 724-5052-645
R30 724-5052-600
R3I 724-5052-645
R32 724-5052-905
R33 724-5052-545
R34 724-5053-090
R35 724-5053-650
R36 724-5053-630
R37 724-5054-360
R38 724-5053-485
R39 724-5053-400
R40 724-5053-650
R41 724-5053-400
R42 724-5053-630
CCA, POWER MONITOR/CONTROL - Continued
Description
PARTS LISTS
Rev.G
Change 4 6-33
RESISTOR, FIXED, FILM: 2000HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 162KOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 43200HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22100HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 20K OHM, ±1%, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 2000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 15KOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPMIDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 162KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 20K OHM, ±1%, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 15KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22100HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 82500HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 470 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPMlDEGC, COLOR BANDEDSWITCH, PUSH: SPDT-MOM, lAMP, 28VDC/120VAC CONT RATING BUTTONCOLOR-NONE, EDGE MT, RT ANGLE PC TERMINATIONSJACK, TIP: RED, NYLON INSULATED TIP, PWB MOUNTING LOW PROFILEJACK, TIP: ORANGE, NYLON INSULATED TIP, PWB MOUNTING LOWPROFILEJACK, TIP: YELLOW, NYLON INSULATED TIP, PWB MOUNTING LOWPROFILEJACK, TIP: BROWN, NYLON INSULATED TIP, PWB MOUNTING LOW PROFILEJACK, TIP: BLACK, NYLON INSULATED TIP, PWB MOUNTING LOW PROFILEMICROCIRCUIT, LINEAR: OPERATIONAL AMPLIFIER, ±18 VOLTS SUPPLY, 8LEAD PLASTIC DUAL IN-LINE PKGMICROCIRCUIT, LINEAR: OPERATIONAL AMPLIFIER, ±18 VOLTS SUPPLY, 8LEAD PLASTIC DUAL IN-LINE PKGMICROCIRCUIT, LINEAR: OPERATIONAL AMPLIFIER, ± 18 VOLTS SUPPLY, 8LEAD PLASTIC DUAL IN-LINE PKGMICROCIRCUIT, LINEAR: OPERATIONAL AMPLIFIER, ±18 VOLTS SUPPLY, 8LEAD PLASTIC DUAL IN-LINE PKGMICROCIRCUIT, LINEAR: TIMER, +18V, 600 MWSEMICONDUCTOR DEVICE, DIODE: SILICON, 1 WATT, 10 VOLT
PARTS LISTS
PL180161-1
Ref. Des. Part No.
R43 724-5052-240
R44 724-5052-840
R45 724-5052-515
R46 724-5052-460
R47 724-5052-660
R48 724-5052-240
R49 724-5052-645
R50 724-5052-840
R51 724-5052-660
R52 724-5052-645
R53 724-5052-460
R54 724-5054-250
R55 724-5053-515
R56 724-5054-380
R57 724-5054-330
SI 266-5404-190
TP1 360-0495-130TP2 360-0495-140
TP3 360-0495-150
TP4 360-0495-120TP5 360-0495-110Ul 351-1110-020
U2 351-1110-020
U3 351-1110-020
U4 351-1110-020
U5 351-1137-020VR1 353-6481-260
CCA, POWER MONITOR/CONTROL - Continued
Description
816R-2C
Rev.G
6-34 Change 4
MICROCIRCUIT, LINEAR: VOLTAGE REGULATOR -12 INPUT -35 VOLTS,TO-220 PKGMICROCIRCUIT, LINEAR: +12 V @ 1 A VOLTAGE REGULATOR TO-220PLASTIC PACKAGESEMICONDUCTOR DEVICE, DIODE: SILICON, 1 WATT, 10 VOLTSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 14 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 8 POSTS
816R-2C
PL180161-1
Ref. Des. Part No.
VR2 351-1124-130
VR3 351-1120-040
VR4 353-6481-260XK1 220-0049-010XUl 220-0049-100XU2 220-0049-100XU3 220-0049-100XU4 220-0049-100XU5 220-0049-100
CCA, POWER MONITOR/CONTROL - Continued
Description
PARTS LISTS
Rev.G
Change 4 6-35
B Bo
t=J DS1 I::Jc=J DS2 Uc=J DS3 S3
c=J D8482 81
FRONT VIEW
~ EFJEJ EJBBfB ~~ VR1 ~8~~~~: 8o 5U~~D C10 C11
R6 ~ uQ4
REAR VIEW
I A2A? ... C rd Assemb y,onent CircuIt ad Cage CompFigure 6-8. Car
95G0182
CAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±100/0, 50 WVDCCAPACITOR, FIXED, CERAMIC: 10,000 PF, ±5%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 100 UF, ±100/0, 6.3 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 1 UF, ±100/0, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 1 UF, ±10%, 35 WVDC DIPPEDTANTALUMCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±100/0, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±100/0, 50 WVDCSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, 100V PlY, 300MA FASTRECOVERY, DO-35 PKG (TYPE lN4148)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)DISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25 "LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINECONNECTOR, RECEPTACLE, ELECTRICAL: 20 POSITIONS SINGLE ROW,SHROUDED HEADER, SQ STRAIGHT POSTRELAY, SOLID STATE: VOLTAGE 20-140 VAC, 1.0 AMP LOAD CURRENT AT 40DEG C, 3.5 VDC ACTUATINGRELAY, SOLID STATE: VOLTAGE 20-140 VAC, 1.0 AMP LOAD CURRENT AT 40DEG C, 3.5 VDC ACTUATINGRELAY, ELECTROMAGNETIC: 4PDT, 2AMP, 28VDC/120VAC CONT 24VDCCOILS, DUAL COIL LATCHING, PC MOUNTRELAY, SOLID STATE: VOLTAGE 20-140 VAC, 1.0 AMP LOAD CURRENT AT 40DEG C, 3.5 VDC ACTUATINGRELAY, SOLID STATE: VOLTAGE 20-140 VAC, 1.0 AMP LOAD CURRENT AT 40DEG C, 3.5 VDC ACTUATINGRELAY, SOLID STATE: VOLTAGE 20-140 VAC, 1.0 AMP LOAD CURRENT AT 40DEG C, 3.5 VDC ACTUATINGRELAY, SOLID STATE: VOLTAGE20-l40VAC, 1.0 AMP LOAD CURRENT AT 40DEG C, 3.5 VDC ACTUATINGRESISTOR, FIXED, WIRE WOUND: 8870 OHM, ±10/0, 3 WATT INDUCTIVEWOUND, SILICONE-CERAMIC COATING
816R-2C
PL189620-1
Ref. Des. Part No.
C1 CK05BX104KC2 CK05BX104KC3 913-7016-51 0C4 184-9612-010C5 183-5018-070
C6 CK05BX104KC7 CK05BX104KC8 183-5018-070
C9 CK05BX104KC10 CK05BX104KC11 CK05BX104KC12 CK05BX104KCR1 353-6442-070
CR2 353-6442-070
CR7 353-6442-070
CR8 353-3763-010
CR9 353-6442-070
DS1 419-0089-010
DS2 419-0089-010
DS3 419-0089-010
DS4 419-0089-010
J1 372-9765-020
K1 410-6009-010
K2 410-6009-010
K3 410-6204-030
K4 410-6009-010
K5 410-6009-010
K6 410-6009-010
K7 410-6009-010
R1 747-0998-950
CCA, CARD CAGE COMPONENT
Description
PARTS LISTS
Rev.E
Change 4 6-37
RESISTOR, FIXED, WIREWOUND: 6190 OHMS, ±l%, 3 WATT INDUCTIVEWOUND, SILICONE-CERAMIC COATINGRESISTOR, FIXED, FILM: 6200 OHM, ±50/0, 1 WATT, 350 WVDC METAL FILMOXIDERESISTOR, VARIABLE, NONWIRE WOUND: 5000 OHMS, ±100/0 1/2 WATT,CERMETRESISTOR, FIXED, WIRE WOUND: 8870 OHM, ± 1%, 3 WATT INDUCTIVEWOUND, SILICONE-CERAMIC COATINGRESISTOR, FIXED, WIRE WOUND: 33 OHMS, ±50/0, 6.5 WATTRESISTOR, FIXED, WIREWOUND: 6190 OHMS, ± 10/0, 3 WATT INDUCTIVEWOUND, SILICONE-CERAMIC COATINGRESISTOR, FIXED, WIREWOUND: 6190 OHMS, ±10/0, 3 WATT INDUCTIVEWOUND, SILICONE-CERAMIC COATINGRESISTOR, FIXED, FILM: 6200 OHM, ±5%, 1 WATT, 350 WVDC METAL FILMOXIDERESISTOR, FIXED, FILM: 6200 OHM, ±50/0, 1 WATT, 350 WVDC METAL FILMOXIDERESISTOR, FIXED, FILM: 75KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 82.5KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 82.5KOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDSWITCH, PUSH: SPDT, MOMENTARY, BLACK KEYCAP, 60 VDC MAX, 10MADCMAXSWITCH, PUSH: SPDT, MOMENTARY, BLACK KEYCAP, 60 VDC MAX, 10MADCMAXSWITCH, PUSH: SPDT, MOMENTARY, BLACK KEYCAP, 60 VDC MAX, 10MADCMAXMICROCIRCUIT, LINEAR: DUAL TIMER, +16 V, 600 MWMICROCIRCUIT, DIGITAL: LOW POWER SCHOTTKY, DIVIDE BY 12COUNTER, 14 PIN DIP, PLASTIC PACKAGEMICROCIRCUIT, DIGITAL: DECODER, 3 LINE TO 8 LINE, TTL, LOW POWERSCHOTTKY, 16 PIN PLASTIC DIP PKGMICROCIRCUIT, DIGITAL: LOGIC GATERESISTOR NETWORK: 8 RESISTORS, 47 OHM, ±20/o 1/4 WATT/RESISTOR, 16PIN DIP PACKAGE, 2.4 WATT/PKGMICROCIRCUIT, LINEAR: TRANSISTOR ARRAY, HIGH VOLTAGE, HIGH CUR,DARLINGTON PAIRS, 7 CKT, 16 PIN PLASTIC DIPMICROCIRCUIT, DIGITAL: TTL QUAD 2 INPUT OR GATE, 14 LEAD PLASTICDUAL IN-LINE PACKAGEMICROCIRCUIT, LINEAR: +5 V @ 1 A VOLTAGE REGULATOR TO-220PLASTIC PACKAGESEMICONDUCTOR DEVICE, DIODE: SILICON, 1 WATT, 5.6 VOLTSEMICONDUCTOR DEVICE, DIODE: ZENER, 5.1 V, ±5%, 1WATT AXIAL LEADS,MOLDED BODYSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACING
PARTS LISTS
PL189620-1
Ref. Des. Part No.
R2 747-0998-800
R3 724-5070-010
R4 382-1405-210
R5 747-0998-950
R6 747-5491-000R7 747-0998-800
R8 747-0998-800
R9 724-5070-010
RIO 724-5070-010
Rll 724-5052-775
R12 724-5052-400
R13 724-5052-780
R14 724-5052-780
SI 266-9952-020
S2 266-9952-020
S3 266-9952-020
Ul 351-4706-010U2 351-5305-010
U3 351-4750-010
U4 351-7630-010U5 736-7026-040
U6 351-4864-010
U7 351-7740-010
VRI 351-1120-010
VR2 353-6481-130VR3 353-6481-11 0
XKl 220-6017-040
CCA, CARD CAGE COMPONENT Continued
Description
816R-2C
Rev.E
6-38 Change 4
SOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 28 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 16 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 14 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACING
816R-2C
PL189620-1
Ref. Des. Part No.
XK2 220-6017-040
XK3 220-6017-160
XK4 220-6017-040
XK5 220-6017-040
XK6 220-6017-040
XK7 220-6017-040
XUl 220-6017-030
XU2 220-6017-030
XU3 220-6017-040
XU4 220-6017-030
XU5 220-6017-040
XU6 220-6017-040
XU7 220-6017-030
CCA, CARD CAGE COMPONENT Continued
Description
PARTS LISTS
Rev.E
Change 4 6-39
PARTS LISTS 816R-2C
J9
-c=J-R6
1
Jf1 602 2
J8 J7 J6 15:: 16 J3
F'-0:::
(J)0 00::: a: J10
0 4 0 4 ~ Q 8~~50
60
8 T85 1 8 T84 1 8 T83 1 8 T82 1 8 T81 1
IfTTll-llllfT11l-llllfTTll-llllfTTll-llllfTTll-,llI I I I I I I I II I I I I I I I II I I I I I I I II I I I I I I I I I I I I I I I I ILLl~~~_LL~LLli~~_LL~LLl~~~_LL~LLLi~~_LL~LLli~~_LL~16 9 16 9 16 9 16 9 16 9
93G0324
JUMPERS LOCATED AT: J115T069 TO 10
13 TO 1415 TO 16
J12 7 TO 89 TO 10
J133T045 TO 67 TO 8
Figure 6-9.. Backplane Circuit Card Assembly, A2A8 ..
6-40 Change 4
CAPACITOR, FIXED, ELECTROLYTIC: 100 UF, +85-10%, 50WVDC ALUMINUM,INSULATED, AXIAL LEADS, .385" D, 1.536" LCAPACITOR, FIXED, ELECTROLYTIC: 100 UF, +85-10%, 50WVDC ALUMINUM,INSULATED, AXIAL LEADS, .385" D, 1.536" LSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 200V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4003)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 200V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4003)CONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 50 PINS, 2 ROW,STRAIGHT, 0.100 CENTERSCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 50 PINS, 2 ROW,STRAIGHT, 0.100 CENTERSCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 50 PINS, 2 ROW,STRAIGHT, 0.100 CENTERSCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 50 PINS, 2 ROW,STRAIGHT, 0.100 CENTERSCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 50 PINS, 2 ROW,STRAIGHT, 0.100 CENTERSCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 50 PINS, 2 ROW,STRAIGHT, 0.100 CENTERSCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 60 PINS, 2 ROW, RTANGLE, 0.100 CTRS, SHROUDED, 0.150 END DIMCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 60 PINS, 2 ROW, RTANGLE, 0.100 CTRS, SHROUDED, 0.150 END DIMCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 16 PINS, 2 ROW,STRAIGHT, 0.100 X 0.100 CENTERS, UNSHROUDEDCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 16 PINS, 2 ROW,STRAIGHT, 0.100 X 0.100 CENTERS, UNSHROUDEDCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 16 PINS, 2 ROW,STRAIGHT, 0.100 X 0.100 CENTERS, UNSHROUDEDRESISTOR, FIXED, FILM: 22.lKOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 4750HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 4750HM, ±l%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1000HM, ±l%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 3320HM, ±l%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 2740HM, ±1%, 1/2WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDTERMINAL BOARD: 8 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRE SIZE,PWB MOUNTING, BLUE, 300V, lOA RTGTERMINAL BOARD: 8 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRE SIZE,PWB MOUNTING, BLUE, 300V, lOA RTGTERMINAL BOARD: 8 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRE SIZE,PWB MOUNTING, BLUE, 300V, lOA RTGTERMINAL BOARD: 8 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRE SIZE,PWB MOUNTING, BLUE, 300V, lOA RTGTERMINAL BOARD: 8 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRE SIZE,PWB MOUNTING, BLUE, 300V, lOA RTG
816R-2C
PL180194-1
Ref. Des. Part No.
C1 183-1281-080
C2 183-1281-080
CR1 353-6442-030
CR2 353-6442-030
J1 372-9753-010
J2 372-9753-010
J3 372-9753-010
J6 372-9753-010
J7 372-9753-010
J8 372-9753-010
J9 372-9754-010
J10 372-9754-010
J11 372-9756-010
J12 372-9756-010
J13 372-9756-010
R5 724-5052-665
R6 724-5053-280
R7 724-5053-280
R8 724-5052-200
R9 724-5053-260
RIO 724-5053-250
TBI 306-3051-010
TB2 306-3051-010
TB3 306-3051-010
TB4 306-3051-010
TB5 306-3051-010
CCA, BACKPLANE
Description
PARTS LISTS
Rev.G
Change 4 6-41
PARTS LISTS 816R-2C
o
o
~
0000
o
81 C1 E3
00
R1
R2
93G0325
Figure 6-10. Power Control Assembly, A2A9.
6-42 Change 4
816R-2C
PL172715-1 POWER CONTROL ASSEMBLY Rev.B
PARTS LISTS
Ref. Des. Part No. Description
B1 230-5006-010 GEARCASE-MOTOR: 10RPM, 5 OZ-IN OUTPUT TORQUE, 120V 60HZ, REVERSIBLE, 30:1 GEAR RATIO, BRASS GEARS
C1 CK63AW103M CAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±20%, 500 WVDCC2 933-5005-010 CAPACITOR, FIXED, FILM: 0.1 MicroF, ±10%, 600 WVDC POLYPROPYLENE FILM,
RADIAL LEADS, 0.75"DIA, 1.30"LGCR1 353-6442-070 SEMICONDUCTOR DEVICE,DIODE:SILICON,lAMP,1000V PRY DO-41 EPOXY
PKG,AXIAL LEADS (IN4007)E1 306-0234-000 POST, ELECTRICALIMECHANICAL EQUIPMENT: 4-40 THREADS, 0.625 LENGTH, 6500
VOLTS AC-RMSE2 306-0234-000 POST, ELECTRICALIMECHANICAL EQUIPMENT: 4-40 THREADS, 0.625 LE,NGTH, 6500
VOLTS AC-RMSE3 306-0234-000 POST, ELECTRICALIMECHANICAL EQUIPMENT: 4-40 THREADS, 0.625 LENGTH, 6500
VOLTS AC-RMSE4 306-0234-000 POST, ELECTRlCAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625 LENGTH, 6500
VOLTS AC-RMSR1 381-1648-020 RESISTOR, VARIABLE, WIRE WOUND: 5000 OHM, ±5%, 2 WATT LINEAR TAPER, 10
TURN, PRECISION, BUSHING MOUNTR2 724-5054-250 RESISTOR, FIXED, FILM: 100 OHM, ±5%, 1 WATT @ 70C METAL FILM,
TC=250PPMIDEGC, COLOR BANDED
Change 5 6-43
PARTS LISTS 816R-2C
DC1 R1 R3 R5
C2
F1o XF1
M1
o
A1B1
9!F
~ $
0 0
¥ + ~ @ @
®oo® $ E1 E2
~~Ieea : G3'" S"... ' (Do G>~SG~ gi ..
DD ~ Q~§!OM ~ G3o f:J 88~
~ 000
A2
0
+
R2A3 0
0
. C1$ 0
TB1
Figure 6-11. Intermediate Power Amplifier Assembly, A3.
6-44 Change 4
CCA, METERING CARDIPA STATUS BOARDAMPLIFIER ASSYFAN, CENTRIFUGAL: DOUBLE, 185 CFM, 230 VAC, 60 HZ, UL/CLA BALLBEARING MOTORCAPACITOR, FIXED, ELECTROLYTIC: 120000 UF, +75-10%,60 WVDC,ALUMINUM DIELECTRIC, 1/4-28 TERMINALSCAPACITOR, FIXED, MICA: 100 PF, ±5%, 500 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 UF, ±20%, 500 WVDCCOUPLER, DIRECTIONAL: 88-108 MHZ, 1.20: 1 VSWR MAX POWER 1000WATTS MAX, DIRECTIVITY 30 DB MIN, CUSTOMPOST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSPOST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSFUSE: 30 AMPS, 125 VOLTSPOWER METER, RF: 3-1/2", RECTANGULAR, FLANGE, PANEL MOUNT,RANGE-0-120%, 0-3 AMPSSHUNT ASSEMBLYRESISTOR, ADJUSTABLE, WIRE WOUND: 50 OHM, ±10%, 100 WATT, 1.41 MAXAMP .RESISTOR, FIXED, FILM: 1000 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDTERMINAL BOARD: 20 TERMINALS, 20 AMP, 3000 VOLTS, #6-32 X 1/4 BRASS,NP SCREWS, 16-14 AWG, PHENOLICFUSEHOLDER, BLOCK: 30 AMP, SCREW TERMINALS, RATED @ 600 VOLTS, 1POSITION
816R-2C
PL180302-2
Ref. Des. Part No.
Al *195079-1A2 *189625-1A3 *193773-1Bl 009-5057-010
Cl 183-1278-660
C2 CM05FD101J03C3 CK63AW103MDC1 277-3039-010
E1 306-0234-000
E2 306-0234-000
F1 264-5209-010Ml 450-8023-010
R1 *159682-1R2 716-0060-080
R4 724-5054-370
TB1 367-0926-000
XF1 265-9514-020
IPA ASSEMBLY
Description
PARTS LISTS
Rev.G
Change 4 6-45
PARTS LISTS
o51
816R-2C
o
[j-1 R3i ~
R2 R3 [:][:J~ -1 R2i ~ - ~ -
~ -1 l-- -cg- -
- R2020 - ~
Q2] ~- -- ......
80 ~ - ......XU2
VRi- ~
~ -1 R24 r- - -
~ L:]( I I I
JE2
~C3
0
I~ ~~IJi
P1 0 -1 Ri9 ~ G~ ---c=IJ-- CRi
I~ IJ2R23
Ei -1 Ri8 ~ ~ -[0---
G ~ -1 ~R17VR2
( J~ [§] [£] C4 R33XUi
8 -1 R9 ~ -1 Ri6 r- ( C5 )-1 c::;J-1 R8 ~ Ri5 r-
~1 ~-
OOGOOO2
Figure 6-12e IPA Metering Circuit Card Assembly, A3Al.
6-46 Change 4
CAPACITOR, FIXED, CERAMIC: 0.1 UF, ±20%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±20%, 50 WVDCCAPACITOR, FIXED, MICA: 100 PF, ±50/0, 500 WVDCCAPACITOR, FIXED, MICA: 100 PF, ±50/0, 500 WVDCCAPACITOR, FIXED, MICA: 100 PF, ±50/0, 500 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±20%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±20%, 50 WVDCSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)CONNECTOR, RECEPTACLE, ELECTRICAL: PWB MOUNT, 3 PIN, SINGLEROW, STRAIGHT, 0.100 CENTER, GOLD PLATEDCONNECTOR, RECEPTACLE, ELECTRICAL: PWB MOUNT, 3 PIN, SINGLEROW, STRAIGHT, 0.100 CENTER, GOLD PLATEDCONNECTOR, RECEPTACLE, ELECTRICAL: HEADER, 20 PINS 1 ROW, RTANGLE, 0.1" CENTERS, SHROUDED PROFILETRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-18 PKG (2N2222A)TRANSISTOR: NPN, SILICON, 800MA, 70V, 500MW DISS TO-18 PKG (2N2222A)RESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22.1KOHM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 75000HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPMIDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 39200HM, ±1 0/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1000HM, ±10/0, 1/4WATT@70C 1t1ETAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22100HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22100HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 33200HM, ±1 %, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 20K OHMS, ±100/0 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 47500HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1 %, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±l%, 1/4WATT@70CMETAL FILM,TC=100PPM/DEGC, COLOR BANDED
816R-2C
PL195079-1
Ref. Des. Part No.
C1 913-3279-200C2 913-3279-200C3 CM05FD101J03C4 CM05FD101J03C5 CM05FDI01J03C6 913-3279-200C7 913-3279-200CR1 353-6442-070
J1 372-9643-040
J2 372-9643-040
PI 372-9754-260
Q1 352-0661-020Q2 352-0661-020R1 724-5052-400
R2 724-5053-650
R3 724-5053-510
R4 724-5052-400
R5 724-5052-400
R6 724-5052-510
R7 724-5052-400
R8 724-5052-200
R9 724-5052-460
RIO 724-5052-460
R11 724-5052-200
R12 724-5052-400
R13 724-5052-490
R14 382-1405-080
R15 724-5052-520
R16 724-5052-520
R17 724-5052-400
CCA, METERING CARD
Description
PARTS LISTS
Rev. A
Change 4 6-47
RESISTOR, FIXED, FILM: 39200HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 39200HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47.5KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 20K OHMS, ±10% 1/2 WATT,CERMETRESISTOR, VARIABLE, NONWIRE WOUND: 20K OHMS, ±10O/o 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPMlDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 2000 OHMS, ±10O/o 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPMIDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPMlDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 46.4K OHM, ±1%, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 50K OHMS, ±10o/~ 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 1000 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDSWITCH ASSEMBLY, PUSHBUTTON: 4 PDT, 4 POSITION, 12 CONTACTS,INTERLOCKMICROCIRCUIT, LINEAR: DUAL OP-AMP 8 PIN PLASTIC DIP PKGMICROCIRCUIT, LINEAR: DUAL OP-AMP 8 PIN PLASTIC DIP PKGMICROCIRCUIT, LINEAR: +12 V @ 1 A VOLTAGE REGULATOR TO-220PLASTIC PACKAGESEMICONDUCTOR DEVICE, DIODE: ZENER, 15 VDC, 1 WATT, COMMERCIALSOCKET, PLUG-IN ELECTRONIC COMPONENT: 8 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 8 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACING
PARTS LISTS
PL195079-1
Ref. Des. Part No.
R18 724-5052-510
R19 724-5052-510
R20 724-5052-740
R21 724-5052-400
R22 382-1405-080
R23 382-1405-080
R24 724-5052-400
R25 724-5052-800
R26 724-5052-400
R27 382-1405-050
R28 724-5052-400
R29 724-5052-400
R30 724-5052-800
R31 724-5052-735
R32 382-1405-100
R33 724-5055-370
Sl 266-9731-010
U1 351-1211-040U2 351-1211-040VR1 351-1120-040
VR2 353-6481-330XU1 220-6017-020
XU2 220-6017-020
CCA, METERING CARD - Continued
Description
816R-2C
Rev. A
6-48 Change 4
816R-2C
PL189625-1
Ref. Des. Part No.
IPA STATUS BOARD
Description
PARTS LISTS
Rev. A
DS 1 419-0089-010
DS2 419-0089-020
DISPLAY, OPTOELECTRONIC: LED, GREEN, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINEDISPLAY, OPTOELECTRONIC: LED, RED, .5"X.25"LIGHTED AREA, 4.5MCDINTENSITY, RECT, PC MOUNT, DUAL-IN-LINE
It II DS1
Q II DS2
o o
0080003
Change 4
Figure 6-13. LED Assembly, A3A2.
6-49
PARTS LISTS
T81 CR1 CR2
F1 tt> <f>XF1
F2XF2
P1J2
J1
P2
tt> (f) <±)
R2
816R-2C
A1 -4---H+---A2
(f)<±>
0 0 R1
¥TP2 TP1
tt> <f>
98GOO88
Figure 6-14. Amplifier Assembly, A3A3 ..
6-50 Change 4
816R-2C
PL193773-1 AMPLIFIER ASSEMBLY
PARTS LISTS
Rev.H
Ref. Des. Part No.
Al *189215-1A2 *189215-1CRI 353-6442-070
CR2 353-6442-070
Fl 264-5224-040
F2 264-5224-040
PI 361-5028-060
P2 361-5028-060
Rl 714-7039-070
R2 714-7051-020
TBI 367-0910-000
TPI 306-0976-000TP2 306-0976-000WI *195442-1W2 *195443-1W3 *195443-1W4 *195444-1W5 *195444-1W6 *195445-1W7 *195445-1W8 *195446-1W9 *195446-1WI0 *195447-1Wl1 *195373-1W12 *195373-1XFl 265-9534-010XF2 265-9534-010
Change 5
Description
AMPLIFIER MODULEAMPLIFIER MODULESEMICONDUCTOR DEVICE,DIODE:SILICON,lAMP,1000V PRY DO-41 EPOXYPKG,AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE,DIODE:SILICON,lAMP,1000V PRY DO-41 EPOXYPKG,AXIAL LEADS (lN4007)FUSE,CARTRIDGE:12AMP,60V,CERAMIC BODY,1/4"Xl-1/4" VERY FASTACTING,SEMICONDUCTOR PROTECTIONFUSE,CARTRIDGE:12AMP,60V,CERAMIC BODY,1/4"Xl-l/4" VERY FASTACTING,SEMICONDUCTOR PROTECTIONCONNECTOR,PLUG,ELECTRICAL:5 #20 SOCKET & 2 #8 CAVITIES,"D"SUBTYPE, 15 CONT SHELL SZ,SOLDER TERMCONNECTOR,PLUG,ELECTRICAL:5 #20 SOCKET & 2 #8 CAVITIES,"D"SUBTYPE, 15 CONT SHELL SZ,SOLDER TERMRESISTOR,FIXED,FILM:I00 OHM,+-5%,40 WATT CHIP TYPE,DOUBLE FLANGEMOUNTRESISTOR,FIXED,FILM:100 OHM,+-5%,250 WATT CHIP TYPE,DOUBLE FLANGEMOUNTTERMINAL BOARD:4 TERMINALS,20 AMP,3K VRMS, #6-32 X 1/4 BRASS,NPSCREWS,16-14 AWG,PHENOLICTERMINAL,STUD:6K VOLT,5/8 X 4-40UNC-2B THDTERMINAL,STUD:6K VOLT,5/8 X 4-40UNC-2B THDCABLE,INLETCABLE ASSEMBLYCABLE ASSEMBLYCABLE ASSEMBLYCABLE ASSEMBLYCABLE ASSEMBLYCABLE ASSEMBLYCABLE ASSEMBLYCABLE ASSEMBLYCABLE ASSEMBLYBUS CABLE ASSEMBLYBUS CABLE ASSEMBLYFUSEHOLDER:SINGLE POLE,FOR 1/4 X 1-1/4 FUSESFUSEHOLDER:SINGLE POLE,FOR 1/4 X 1-1/4 FUSES
6-51
PARTS LISTS 816R-2C
P1 51
A1 A2
o
ooo
o ~J2J1 o
@
lo~~: 00C1 ....· +..... 0:
C2····· t:O'- 0R2 1- ~
R3····· u..i -t::==::!-J
96G0264
Figure 6-15. Amplifier Module, A3A3A1-A2.
6-52 Change 4
RESISTOR, FIXED, FILM: 100HM, ±l%, 1/4WATT@70C METAL FILM,TC=lOOPPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDSWITCH, THERMOSTATIC: 80C, ±5DEG, CLOSE ON TEMP RISE BIMETALLIC,SNAP ACTION, TO-220 TYPE PKG
CCA, RFCCA, CONTROLCAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±lO%, 100 WVDCCONNECTOR, RECEPTACLE, ELECTRICAL: 5 #20 PINS AND 2 #8 CAVITIES,"D"SUB TYPE, 15 CONT SHELL SZ, SOLDER TERMCONNECTOR, RECEPTACLE, ELECTRICAL: BNC, BULKHEAD JACKSHIELDING BEAD, ELECTRONIC: FERRITE, 5-30MHZ OPER FRE 0.385"OD,0.193"ID, 0, 410"LO, Z=80 OHM@100MHZ@25CTRANSISTOR: FET, DUAL, RF, 300W, 2-175 MHZ, N CHANNEL TAB LEADS,CHASSIS MOUNT
816R-2C
PL189215-1
Ref. Des. Part No.
Al *189213-1A2 *189210-1C1 CK05BX103KC2 CK05BX103KJ1 361-5028-050
J2 361-5065-010L1 288-4029-020
Q1 352-5134-010
R1 NOT-USEDR2 724-5052-010
R3 724-5052-010
Sl 267-5022-010
AMPLIFIER MODULE
Description
PARTS LISTS
Rev.D
Change 4 6-53
PARTS LISTS
96G0500
816R-2C
6-54
Figure 6-16. CCA, RF, A3A3A1-A2A1.
Change 4
CAPACITOR, VARIABLE, CERAMIC: 8-50PF, 250WVDC STRIPLINE LEADS,TC=-1500±900PPM/DEGCCAPACITOR, FIXED, CERAMIC: 120 PF, ±10%, 50 WVDC, CHIP TYPE, COGTEMP CHAR, WRPRND TERM, SURF MT, EIA SZ 1206CAPACITOR, FIXED, CERAMIC: 0.01 UF, ±10%, 50 WVDC, CHIP TYPE, X7RTEMP CHAR, WRPRND TERM, SURF MT, EIA SZ 1206CAPACITOR, FIXED, CERAMIC: 1 UF, ±10%, 50 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 UF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 1000PF, ±5%, 50WVDC, CHIP TYPE SURFACEMT, TC=P90±30PPM/DEGC, CASE SIZE BCAPACITOR, FIXED, CERAMIC: 1000PF, ±5%, 50WVDC, CHIP TYPE SURFACEMT, TC=P90±30PPM/DEGC, CASE SIZE BCAPACITOR, FIXED, CERAMIC: 0.01 UF, ±10%, 50 WVDC, CHIP TYPE, X7RTEMP CHAR, WRPRND TERM, SURF MT, EIA SZ 1206CAPACITOR, FIXED, ELECTROLYTIC: 10UF, +75-10%, 150WVDC ALUMINUM,INSULATED, AXIAL LEADS, +105C, LONG LIFESHIELDING BEAD, ELECTRONIC: FERRITE, 5-30MHZ OPER FRE 0.385"OD,0.193"ID, 0, 410"LG, Z=80 OHM@100MHZ@25CSHIELDING BEAD, ELECTRONIC: FERRITE, 5-30MHZ OPER FRE 0.385"OD,0.193"ID, 0, 410"LG, Z=80 OHM@100MHZ@25CRESISTOR, FIXED, FILM: 330 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 22 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 7.5 OHM, ±1%, 20 WATT @ 25C TO-220 TYPE PKG,METAL TAB, NON-INDUCTIVERESISTOR, FIXED, FILM: 39200HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 39200HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 5000 OHMS, ±1 0% 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 1500 OHM, ±l%, 1/2 WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 330 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDCORE, ELECTROMAGNET: BALUN, TWO HOLE, 125MHZ MAX FREQ FERRITE,0.295"THK, 0.525"W, 0.565"LG
816R-2C
PL189213-1
Ref. Des. Part No.
C101 917-2006-010
C102 913-7144-510
C103 913-7143-650
C104 CK06BX105KC105 CK06BX104KC106 CK06BX104KC107 913-7135-030
C108 913-7135-030
C109 913-7143-650
ClIO 183-5106-040
LI02 288-4029-020
LI03 288-4029-020
R101 724-5054-310
R102 724-5055-170
RI03 724-5055-170
RI04 724-5055-170
RI05 724-5055-170
RI06 714-7059-030
RI07 724-5053-475
RI08 724-5053-475
RI09 382-1405-060
R110 724-5053-420
RIll 724-5054-310
R112 724-5055-130
TI01 288-4020-020
CCA,RF
Description
PARTS LISTS
Rev.E
Change 4 6-55
PARTS LISTS 816R-2C
<JJI\)o
R2~
R204 r-----
Cf) --~--~
I---,o -E)l----~ R201 0C204
R202
o
~o
D~
-----------J ~ I 6 ~--:--f21t~~ : g 0~I I
m ~F 0 ~O-~~~-.., --J 0G~___________J--r- £)~ a5
~C20~R223 C201 :~~~r ~ jT6(j) K5 R216 0 R215 ~ K5
m ~Gr5l 0 ~"" 0 6 CR203 ~DG-R224
o X c
g ~ 2 ~2~ (,)g209o ~OY-E) ~'r~
R222 <D 0
96G0311
Figure 6-17~ Control Circuit Card Assembly, A3A3Al-A2A2.
6-56 Change 4
CAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.022 MicroF, ±10%, 50 VOLTSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4004)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4004)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 400V PRV DO-41 EPOXYPKG, AXIAL LEADS (lN4004)
CAPACITOR, FIXED, CERAMIC: O.lMicroF, ±10%, 50WVDC, CHIP TYPE, SURFMT, X7R TEMP CHAR, WRPRND TERM, EIA SZ 1206CAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: O.lMicroF, ±10%, 50WVDC, CHIP TYPE, SURFMT, X7R TEMP CHAR, WRPRND TERM, EIA SZ 1206CAPACITOR, FIXED, CERAMIC: .010 MicroF, ±10%, 100WVDC, CHIP TYPE,SURF MT, X7R TEMP CHAR, WRPRND TERM, EIA SZ 1206CAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDC
TRANSISTOR: SILICON, PNP, 200MADC, 40V C-E, 350 MW 250MHZ, TO-92PLASTICPKGSEMICONDUCTOR DEVICE, THYRISTOR: SCR, 100V PRY, 0.8AMP TO-226AAPLASTICPKGTRANSISTOR: POWER MOSFET, P-CHANNEL, -1 00 VOLTS VDS RDS=0.20HM,ID=21AMP, PD=150WATTS, TO-247AC(TO-3P)PKGRESISTOR, FIXED, FILM: 100HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 2000 OHMS, ±10% 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 1620HM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1100 OHM, ±1%, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 32.4KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 0.05 OHM, ±l%, 20 WATT @ 25C TO-220 TYPE PKG,METAL TAB, NON-INDUCTIVE
816R-2C
PL189210-1
Ref. Des. Part No.
C201 913-7143-770
C202 CK05BX103KC203 913-7143-770
C204 913-7145-210
C205 CK06BX104KC206 CK06BX104KC207 NOT-USEDC208 CK05BX103KC209 CK05BX223KCR201 353-6442-040
CR202 353-6442-040
CR203 353-6442-040
E1 REFERENCEE2 REFERENCEE3 REFERENCEE4 REFERENCEE5 REFERENCEE6 REFERENCEE7 REFERENCEQ201 352-5104-010
Q202 353-5356-010
Q203 352-5188-010
R201 724-5052-010
R202 724-5052-010
R203 382-1405-050
R204 724-5052-230
R205 724-5052-405
R206 724-5053-600
R207 724-5052-600
R208 724-5052-595
R209 714-7059-040
CCA, CONTROL
Description
PARTS LISTS
Rev.C
Change 4 6-57
RESISTOR, FIXED, FILM: 24.9K OHM, ±l%, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 24.9K OHM, ±1%, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 47500HM, ±1%, 1/4WATT@70CMETAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 51100HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 500 OHMS, ±10% 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 332KOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 2000HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPMIDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±10/0, 114WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 332KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, VARIABLE, NONWIRE WOUND: 5000 OHMS, ±10% 1/2 WATT,CERMETRESISTOR, FIXED, FILM: 10KOHM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1100 OHM, ±l%, 1/4 WATT @ 70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 3010HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 6810HM, ±1%, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 4750HM, ±15, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100HM, ±10/0, 1/4WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100KOHM, ±l%, 1/4WATT@70C METAL FILM,TC=lOOPPMIDEGC, COLOR BANDEDMICROCIRCUIT, LINEAR: DUAL OP AMPS, WIDE BAND, 5 MHZ SINGLESUPPLY, 8 PIN PLASTIC DIP PKGCOUPLER, OPTOELECTRONIC: SNGL CHANNEL, NPN TRANSISTOR OUT,VCE=70V MIN, LED IN, STD 6 PIN PLASTIC DIP PKGMICROCIRCUIT, LINEAR: VOLTAGE REGULATOR, ADJ, POS OUT 1.2-57V,1.5AMP, 3 TERMINAL, TO-220 PLASTIC PKGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 8 CONTACTS OPEN FRAME,0.3" WIDE PIN SPACINGSOCKET, PLUG-IN ELECTRONIC COMPONENT: 6 CONTACTS, OPEN FRAME,0.3"WIDE PIN SPACING, 0.4"WIDE BODY
PARTS LISTS
PL189210-1
Ref. Des. Part No.
R210 724-5052-675
R211 724-5052-675
R212 724-5052-520
R213 724-5052-530
R214 382-1405-030
R215 724-5052-880
R216 724-5052-240
R217 724-5052-600
R218 724-5052-880
R219 724-5052-600
R220 382-1405-060
R221 724-5052-600
R222 724-5052-405
R223 724-5052-260
R224 724-5052-310
R225 724-5052-285
R226 724-5052-010
R227 724-5052-800
U201 351-5402-010
U202 419-0121-010
VR201 351-5403-010
XU201 220-6017-020
XU202 220-6017-010
CCA, CONTROL - Continued
Description
816R-2C
Rev.C
6-58 Change 4
816R-2C
Change 4
(This Page Intentionally Left Blank)
PARTS LISTS
6-59
PARTS LISTS 816R-2C
T3(REF)
54(REF) C4 R12 CR2 VR2 C6 CR3 R10 C1
R1
51(REF)
55(REF)
/ C3
R9
R11
L----R4
R3
R13
C5
93G0329R7 52 R5 R6
(REF)R8
\\
\\
\\
\\\
i \.
R15 R16 R18 A1R14
R17
53(REF)
Figure 6-18. Component Shelf Assembly, AS.
6-60 Change 4
CCA,IP METERING ASSEMBLYCAPACITOR,FIXED,PAPER:0.03 VF,+/-l 00/0, 15K WVDCCAPACITOR,FIXED,PAPER:25 VF,+/-10%,2000 WVDC METAL CAN,WITHTERMINALSCAPACITOR,FIXED,PAPER:0.05 UF,+-100/0,2000 WVDCCAPACITOR,FIXED,PAPER:0.68 UF,+-200/0,200 WVDCCAPACITOR,FIXED,CERAM:IC:1000 PF,+-20%,1000 WVDC DISC TYPECAPACITOR,FIXED,CERAMIC:O.l UF,+80 -20%,500 WVDC DISC TYPE,Z5U TEMPCOEFFICIENT
RECTIFIER,SEMICONDUCTOR DEVICE:OUTPUT CURRENT 30A FORWARDVOLTAGE 1.30 VOLTS MAX,3 AC INPUT
RECTIFIER,SEMICONDUCTOR DEVICE:OUTPUT CURRENT 30A FORWARDVOLTAGE 1.30 VOLTS MAX,3 AC INPUTSEMICONDUCTOR DEVICE,DIODE:SILICON, 1AMP, 1000V PRY DO-41 EPOXYPKG,AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE,DIODE:6 AMP,1000 VOLTSENIICONDUCTOR DEVICE,DIODE:6 AMP, 1000 VOLTRELAY,ELECTROMAGNETIC:24 VDC COIL,20 VDC PULL-IN, 15 VDC DROPOUT,132 OHMS,+-15%,COIL RESISTANCERELAY,ELECTROMAGNETIC:SPDT,2AMP@28VDC CONTACT RTGSENSITIVE,3VDC-20MW COIL,PLASTIC ENCLOSURE,SKT MT
RELAY,ELECTROMAGNETIC:SPDT,2A1vlP@28VDC CONTACT RTGSENSITIVE,3VDC-20MW COIL,PLASTIC ENCLOSURE,SKT MT
RELAY,ELECTROMAGNETIC:SPDT,2AMP@28VDC CONTACT RTGSENSITIVE,3VDC-20:rvlW COIL,PLASTIC ENCLOSURE,SKT MT
REACTOR:5 MH,25 AMP DC,DCR=0.025 OHM,100-360 HZ OPEN FRMlIE,DRYCONSTRUCTION,CHASSIS MOUNT
RESISTOR,FIXED,FILM:200K OHMS,+-} 0/0,3 WATTRESISTOR,FIXED,FILM:200K OHMS,+-10/0,3 WATTRESISTOR,FIXED,FILM:200K OHMS,+-10/0,3 WATTRESISTOR,FIXED,FILM:200K OHMS,+-10/0,3 WATTRESISTOR,FIXED,WlRE WOUND:! OHMS,+-l%,36 WATTRESISTOR,FIXED,WIRE WOUND:0.50HM,+-1 O%,35WATT MIN EDGEWOUNDCORRUGATED RIBBON,
RESISTOR,FIXED,WlRE WOUND:4 OHMS,+-10%,100 WATT WITH ADJUSTABLETAP
RESISTOR,FIXED,WIRE WOUND:4 OHMS,+-l 0%,1 00 WATT WITH ADJUSTABLETAP
RESISTOR,FIXED,WlREWOUND:300 OHM,+-5%.12 WATTRESISTOR,FIXED,WlRE WOUND:300 OHM,+-5%,25 WATTRESISTOR,FIXED,COMPOSITION:47K OHMS,+-5%,1 WATTRESISTOR,FIXED,FILM:47 OHM,+-50/o,2 WATT @ 70C METALFILM,TC=250PPMlDEGC,COLOR BANDED
RESISTOR,FIXED,WIRE WOUND: 10 OHMS,+-5%,3 WATTRESISTOR,FIXED,WIRE WOUND: 150 OHMS,+-5%,12 WAlTRESISTOR,VARIABLE,WIRE WOUND:50 OHM,+-10%,2 WATT, LINEARRESISTOR,VARIABLE,WIRE WOUND:50 OHM,+-10%,2 WATT, LINEARRESISTOR,FIXED,WIRE WOUND:60.4 OHM,+-l%,30 WATT, CHASSIS MT,10WFREE AIR,FR+O.O 1%/1 OOOHR,IND
816R-2C
PL180317-3
Ref. Des. Part No.
Al *180386-1Cl 930-5070-010C2 930-5040-020
C3 933-5016-010C4 951-0118-000C5 913-1186-000C6 913-3152-000
CRI 353-5281-010
CR2 353-5281-010
CR3 353-6442-070
CR4 353-5224-010CR5 353-5224-010Kl 970-2426-070
K2 970-3508-010
K3 970-3508-010
K4 970-3508-010
L1 240-4007-020
Rl 705-1493-050R2 705-1493-050R3 705-1493-050R4 705-1493-050R5 710-5076-010R6 710-5076-030
R7 710-5076-060
R8 710-5076-060
R9 746-6070-000RIO 716-5014-010R11 RCR32G473JSR12 724-5055-210
R13 747-5320-000R14 746-6145-000R15 377-0619-000R16 377-0619-000R17 RER75F60R4R
COlVIPONENT SHELF ASSEMBLY
Description
PARTS LISTS
Rev.P
Change 6 6-61
PARTS LISTS 816R-2C
PL180317-3 COlVIPONENT SHELF ASSEl\1BLY - Continued Rev. P
Ref. Des. Part No. Description
RI8 377-0716-040VR1 353-6230-000XK2 220-9037-010
XK3 220-9037-010
XK4 220-9037-010
Zl 270-0080-040
6-62
RESISTOR,VARIABLE,WIRE WOUND:50 OHMS,+-l 0%,4 WATT LINEAR TAPERSEMICONDUCTOR DEVICE,DIODE:SILICON,MEDIUM POWER VOLTAGE REGULATORSOCKET,PLUG-IN ELECTRONlC COMPONENT: 10 CONTACT SCREW TERMINALS,FOR 2POLE RIO RELAY,TRACK MOUNTSOCKET,PLUG-IN ELECTRONlC COMPONENT: 10 CONTACT SCREW TERMINALS,FOR 2POLE RIO RELAY,TRACK MOUNTSOCKET,PLUG-IN ELECTRONlC COMPONENT: 10 CONTACT SCREW TERMINALS,FOR 2POLE RIO RELAY,TRACK MOUNT
MAGNETIC CIRCUlT,HALLTRON:250MA,20 OHMS,360MH IN 250MV@2 OHMSOUT,[email protected] OHMS CONTROL
Change 6
816R-2C
Change 4
(This Page Intentionally Left Blank)
PARTS LISTS
6-63
PARTS LISTS
N
o
816R-2C
(Y)
0:::>
~
0::>
6-64
95G0188
Figure 6-19. Plate Current Metering Circuit Card Assembly, ASA1"
Change 4
CAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±20%, 500 WVDCRESISTOR, FIXED, WIRE WOUND: 0.25 OHMS, ±l%, 10 WATTRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 3600 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1200 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDTERMINAL BOARD: 12 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRESIZE, PWB MOUNTING, BLUE, 300V, lOA RTGSEMICONDUCTOR DEVICE, DIODE: ZENER, 6.8V, ±5%, 1 WATT SILICON,VOLTAGE REGULATOR, AXIAL LEADSSEMICONDUCTOR DEVICE, DIODE: ZENER, 6.8V, ±5%, 1 WATT SILICON,VOLTAGE REGULATOR, AXIAL LEADS
816R-2C
PL180386-1
Ref. Des. Part No.
C5 CK63AW103MR9 747-9451-000R11 724-5054-380
R12 724-5054-435
R13 724-5054-380
TB1 306-3051-020
VR3 353-3121-000
VR4 353-3121-000
CCA, IP METERING ASSEMBLY
Description
PARTS LISTS
Rev. A
Change 4 6-65
PARTS LISTS 816R-2C
CBG
e eCB3
0 AC LINE0CB2
CB4
CB1
PA PLATE CBS28VOC BLOWERS DRIVER PASCREEN
POWER SUPPLYPOWER SUPPLY POWER SUPPLY POWER SUPPLY
e m(! e (! e e (! e (!
BBB 8BB(I $ (I e (I (i Ql (J)
0 0
PA BIAS PA BIASFAN FAN FAN POWER SUPPLY POWER SUPPLY FILAMENTS FILAMENTS
0 0 0 0 0 0 0F7 F9 F12 F4 F5 F3 F1
C)
-- POWER CONTROLAMPUFIER --
000EXCITERo EXCITER
oFILAMENT METERo CONTROLSo C)
F8 F6 F10 F11 F2 F13 F14
93G0330
Figure 6-20. Circuit Breaker Assembly, A6.
6-66 Change 4
CIRCUIT BREAKER: 3 POLE, 5 AMP, 250 VAC, 50/60 HZ STD INRUSH, SHORTDELAY, CURVE 3CIRCUIT BREAKER: 3 POLE, 15 AMP, 240 VAC, 50/60 HZ HIGH INRUSH, LONGDELAY, CURVE 10CIRCUIT BREAKER: 3 POLE, 10 AMP, 240 VAC, 50/60 HZ NORM INRUSH,MEDIUM DELAY, CURVE 2CIRCUIT BREAKER: 3 POLE, 15 AMP, 240 VAC, 50/60 HZ NORM INRUSH,MEDIUM DELAY, CURVE 2CIRCUIT BREAKER: 3 POLE, 70 AMP, 480 VAC, 50/60 HA NORM INRUSH,SHORT DELAY, CURVE 3CIRCUIT BREAKER: 3 POLE, 150 AMP, CURVE 1, SERIES TRIP MAGNETIC,PRESSURE TERMINALSFUSE, CARTRIDGE: 250 VOLT, 10 AMP, SMALL, CERAMIC TUBEFUSE, CARTRIDGE: 3 AMPS, 250V, GLASSFUSE, CARTRIDGE: 250 VOLT, 10 AMP, SMALL, CERAMIC TUBEFUSE, CARTRIDGE: 1/4AMP, 250V, SLO-BLO TYPE, GLASS 1/4" X 1-1/4", DUALELEMENT TIME DELAY, HIGH INRUSHFUSE, CARTRIDGE: 1/4AMP, 250V, SLO-BLO TYPE, GLASS 1/4" X 1-1/4", DUALELEMENT TIME DELAY, HIGH INRUSHFUSE, CARTRIDGE: 1 AMP, 250 VOLT, HIGH TIME LAGFUSE, CARTRIDGE: 2 AMPS, 250V, GLASSFUSE, CARTRIDGE: 1 AMP, 250 VOLT, HIGH TIME LAGFUSE, CARTRIDGE: 2 AMPS, 250V, GLASSFUSE, CARTRIDGE: 1 AMP, 250 VOLT, HIGH TIME LAGFUSE, CARTRIDGE: 3 AMPS, 250V, GLASSFUSE, CARTRIDGE: 2 AMPS, 250V, GLASSFUSE, CARTRIDGE: 2 AMPS, 250V, GLASSFUSE, CARTRIDGE: 2 AMPS, 250V, GLASSFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEON
816R-2C
PL180303-1
Ref. Des. Part No.
CBl 260-5043-040
CB2 260-5071-010
CB3 260-4011-320
CB4 260-5076-010
CB5 260-5074-010
CB6 260-4060-080
Fl 264-0912-330F2 264-0009-000F3 264-0912-330F4 264-0291-000
F5 264-0291-000
F6 264-0295-000F7 264-0008-000F8 264-0295-000F9 264-0008-000FlO 264-0295-000F11 264-0009-000F12 264-0008-000F13 264-0008-000F14 264-0008-000XFl 265-1241-090
XF2 265-1241-090
XF3 265-1241-090
XF4 265-1241-090
XF5 265-1241-090
XF6 265-1241-090
XF7 265-1241-090
XF8 265-1241-090
XF9 265-1241-090
XF10 265-1241-090
XFll 265-1241-090
CIRCUIT BREAKER ASSEMBLY
Description
PARTS LISTS
Rev. -
Change 4 6-67
PARTS LISTS
PL180303-1
Ref. Des. Part No.
CIRCUIT BREAKER ASSEMBLY - Continued
Description
Rev.-
816R-2C
XF12 265-1241-090
XF13 265-1241-090
XF14 265-1241-090
6-68
FUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEONFUSEHOLDER: LAMP EXTRACTOR, POST TYPE, 1-1/4" X 1/4" FUSE, 90-250VOLT, BLACK, 470K OHMS, KNOB CLEAR, NEON
Change 4
816R-2C
Change 4
(This Page Intentionall Left Blank)
PARTS LISTS
6-69
PARTS LISTS 816R-2C
12 23
22
21
16 L--~-- 11
-------7 (COIL ASSY-NO.3)
25 (4 PLACES)
1014
4 9
....17............
20
81
8
5
93G0331
....';============:=:::::::::::s:;=====--I ........
............ 3......... .....
......T81
18
2
13
15
Figure 6-21. Low Pass Filter Assembly, A7.
6-70 Change 4
816R-2C
PL786-3451-003 ASSEIVIBLY, LOW PASS FILTER Rev.F
PARTS LISTS
Ref. Des.
2345678910111213141516171819202122
232425B1
SI
TB1
Change 6
Part No.
172139-1172170-1
*172171-1*786-3367-001*786-3369-001*786-3371-001786-3372-001786-3373-001786-3374-001786-3375-001*786-3379-001786-3388-001786-3388-002786-3388-003786-3388-004786-3435-001786-3437-001*786-3443-001*786-3445-002*786-3448-001786-3449-001
786-3468-001786-3469-001786-3535-001009-5014-010
267-5023-010
367-0908-000
Description
COVER,LP FILTERFILTER,BLOWER TNTAKEBOX,LP FILTERCOIL ASSY-NO 1COIL ASSY-NO 2COIL ASSY-NO 3CAPACITOR-NO 1: ALUMINUM,6061-T651,1 THICKCAPACITOR-NO 2: ALUMINUM,6061-T6 ROD,6.500 DIACAPACITOR-NO 3: ALUMINUM,6061-T6 ROD,6.500 DIACAPACITOR-NO 4: ALUMINUM,6061-T6 ROD,6.500 DIARECEPTACLE,BULLETSPACER-NO l:TEFLON,I.OOO OD X 0.750 ill TUBE 1.663 INCHSPACER-NO 2:TEFLON,1.000 OD X 0.750 ill TUBE 3.125 INCHSPACER-NO 3:TEFLON,I.000 OD X 0.750 ID TUBE 2.725 INCHSPACER-NO 4:TEFLON,1.000 OD X 0.750 ID TUBE 3.025 INCHROD,CAPACITOR:SILICON GSG-7,0.750 OD X 1/8 WALLPLATE,BASE:ALUMINUM,6061-T6,0.75 THICKINLETCONDUCTOR,OUTERCAPACITOR NO.5SUPPORT,INNER CONDUCTOR-TV 1 FILTER: 1/2 THICK, TYPE GEE-7,FIBERGLASS
FLANGE,TVI FILTER:ALUMINUM,606i-T6,0.500 THICKINSULATOR DISC:TEFLON SH,0.250 THICKSPACER,CAPACITOR:1/2 DIA ROD,TEFLON PLASTICFAN,CENTRIFUGAL:148 CFM FREE AIR,3160 RPM FREE AIR 1 PHASE,115 VAC,50160 HZ,DIRECT DRIVESWITCH,THERMOSTATIC:BI-METALLIC,SNAP ACTION, 175DEG F,OPEN ONTEMP RISE,15DEG F DIFF,15AMP/120VAC CONT
TERMINAL BOARD:2 TERMINALS,20 AMPS,3000V RMS, #6-32 X 1/4 BRASS,NPSCREWS,16-14 AWG,PHENOLIC
6-71
PARTS LISTS
GND
@@@@@@
TB1
E6 P1 A1
816R-2C
3 2 1
.. K3~
~
~~O~ K6
bOx 0 K7DOK4
K5
R3
R2
o
R1
CR3
93G0332
A2 K2A K2B K1AK1B
6-72
Figure 6-22. Component Panel Assembly, AS.
Change 4
816R-2C
PL180320-1 COMPONENT PANEL ASSEMBLY
PARTS LISTS
Rev.E
Ref. Des. Part No.Al *640-3466-001A2 *648-8104-001CR1 353-2607-000CR2 353-2607-000CR3 353-3718-040CR4 353-2607-000CR5 353-2607-000CR6 353-2607-000CR7 353-2607-000CR8 353-6442-070
El 306-0234-000
E2 306-0234-000
E3 306-0234-000
E4 306-0234-000
E5 304-7015-010J1 372-9717-010
KIA 410-6144-010KIB 410-6144-020
K2A 41 0-6216-010
K2B 401-5040-020
K3 970-0007-180
K4 410-6173-010
K5 403-0038-010
K6 970-0007-180
K7 970-0007-180
R1 724-5055-360
R2 724-5055-360
R3 710-5076-050TB1 367-5600-010XK3 220-0010-010XK4 220-6036-080
XK5 220-6036-060
XK6 220-0010-010XK7 220-0010-010
Change 5
DescriptionCCA,POWER FAILURE RECYCLEVARIAC DRIVER ASSYSEMICONDlJCTOR DEVICE,DIODE:SIIJCON GLASS DIODESEMICONDUCTOR DEVICE,DIODE:SILICON GLASS DIODESEMICONDUCTOR DEVICE,DIODE:HIGH CURRENTSEMICONDUCTOR DEVICE,DIODE:SILICON GLASS DIODESEMICONDUCTOR DEVICE,DIODE:SILICON GLASS DIODESEMICONDUCTOR DEVICE,DIODE:SILICON GLASS DIODESEMICONDUCTOR DEVICE,DIODE:SILICON GLASS DIODESEMICONDUCTOR DEVICE,DIODE:SILICON,IAMP,1000V PRY DO-41 EPOXYPKG,AXIAL LEADS (IN4007)POST,ELECTRICALIMECHANICAL EQUIPMENT:4-40 THREADS, 0.625LENGTH,6500 VOLTS AC-RMSPOST,ELECTRICALIMECHANICAL EQUIPMENT:4-40 THREADS, 0.625LENGTH,6500 VOLTS AC-RMSPOST,ELECTRICALIMECHANICAL EQUIPMENT:4-40 THREADS, 0.625LENGTH,6500 VOLTS AC-RMSPOST,ELECTRICALIMECHANICAL EQUIPMENT:4-40 THREADS, 0.625LENGTH,6500 VOLTS AC-RMSTERMINAL LUG:SINGLE CABLE,#14 SOLID-1/0 STRANDEDCONNECTOR,RECEPTACLE,ELECTRICAL: 10 CONTACTS,DOUBLEROW,EDGEBOARD,SINGLE READOUT,.200 ROW,EYELETRELAY,ELECTROMAGNETIC:4P,NO,10 AMP,17 VOLT CONTACT 24 VDC COILRELAY,ELECTROMAGNETIC:AUXILIARY CONTACT,2 POLES, 1 NO,l NC,6AMP,17 VOLT CONTACT,24 VDC COILRELAY,ELECTROMAGNETIC:DPDT,30AMP@277VAC CONTACTS 24VDCCOIL,PANEL MT,PLASTIC DUST COVERCONTACTOR,MAGNETIC:4P-NO,CONTACTS RATED 30A@600VACCOIL-220VAC,50HZ,OPEN STYLE,PRESSURE CONTACTSRELAY,ELECTROMAGNETIC:3PDT,5AMP@28VDC/240VAC CONT 24VDCCOIL,PLAIN PLASTIC CASE,SOCKET MOUNTTIMER,SEQUENTIAL:PROGRAMMABLE,8 FUNCTIONS, 24-240V AC/DCINPUT,O.1 SEC TO 100 MIN RANGERELAY,ELECTROMAGNETIC:PHASE MONITOR, LOW VOLTAGEIPHASEREVERSALRELAY,ELECTROMAGNETIC:3PDT,5AMP@28VDC/240VAC CaNT 24VDCCOIL,PLAIN PLASTIC CASE,SOCKET MOUNTRELAY,ELECTROMAGNETIC:3PDT,5AMP@28VDC/240VAC CONT 24VDCCOIL,PLAIN PLASTIC CASE,SOCKET MOUNTRESISTOR,FIXED,FILM:820 OHM,+-5%,2 WATT @ 70C METALFILM,TC=250PPMIDEGC,COLOR BANDEDRESISTOR,FIXED,FILM:820 OHM,+-5%,2 WATT @ 70C METALFILM,TC=250PPMIDEGC,COLOR BANDEDRESISTOR,FIXED,WlRE WOUND:O.5 OHMS,+-10%,100 WATTTERMINAL BLOCK,ELECTRICAL:3 POLE,600 VOLT,31 0 AMPS PER POLESOCKET,RELAY:CHASSIS MTD FOR WIRED ASSEMBLYSOCKET,PLUG-IN ELECTRONIC COMPONENT:ll CONTACT,STD 11 PIN TUBESKT,PHENOLIC,W/GROUND LUGS,W/O SHIELDSOCKET,PLUG-IN ELECTRONIC COMPONENT:8 CONTACT,STD OCTAL TUBESKT,PHENOLIC,W/GROUND LUGS,W/O SHIELDSOCKET,RELAY:CHASSIS MTD FOR WIRED ASSE~IBLYSOCKET,RELAY:CHASSIS MTD FOR WIRED ASSEMBLY
6-73
PARTS LISTS 816R-2C
C3
+
~
~
G-i R3 K>G-i R5 K>
~+ C2
~ ~f
!~C1
+
w ~~2 E~01 g
~..-- ..-- i~ ~ 6
XK2 XK1K2 K1
93G0333
Figure 6-23. Power Failure Recycle Circuit Card Assembly, A8At.
6-74 Change 4
CAPACITOR, FIXED, ELECTROLYTIC: 68 MicroF, ±200/0, 40 WVDCCAPACITOR, FIXED, ELECTROLYTIC: 100 MicroF, +85-10%, 50WVDCALUMINUM, INSULATED, AXIAL LEADS, .385" D, 1.536" LCAPACITOR, FIXED, ELECTROLYTIC: 5500 MicroF, +100-100/0, 40 WVDC,ALUMINUM DIELECTRICSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)RELAY, ELECTROMAGNETIC: 4PDT, 3AMP, 30VDC CONTACT RTG 24VDCCOIL, PLASTIC ENCLOSURE, SOLDER TERMSRELAY, ELECTROMAGNETIC: 4PDT, 3AMP, 30VDC CONTACT RTG 24VDCCOIL, PLASTIC ENCLOSURE, SOLDER TERMSTRANSISTOR: NPN, SILICON, 4AMP, 100V, 1.5 WATT DISS PLASTIC PKG,CHASSIS MT, (MJE243)TRANSISTOR: NPN, SILICON, 4AMP, 100V, 1.5 WATT DISS PLASTIC PKG,CHASSIS MT, (MJE243)RESISTOR, FIXED, FILM: 2210HM, ±10/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 100KOHM, ±1 0/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESICTOR, FIXED, FILM: 22100HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESICTOR, FIXED, FILM: 22100HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESICTOR, FIXED, FILM: 22100HM, ±1%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10KOHM, ±10/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESICTOR, FIXED, FILM: 22100HM, ±10/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESICTOR, FIXED, FILM: 22100HM, ±l%, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDSEMICONDUCTOR DEVICE, DIODE: SILICON, 1 WATT, 6.2 VOLTSEMICONDUCTOR DEVICE, DIODE: TRANSIENT SUPPRESSOR, 34.2-37.8VOLTAGE BREAKDOWNSEMICONDUCTOR DEVICE, DIODE: TRANSIENT SUPPRESSOR, 34.2-37.8VOLTAGE BREAKDOWNSOCKET,RELAY: 14CONTACTSOCKET,RELAY: 14CONTACT
816R-2C
PL640-3466-001
Ref. Des. Part No.
Cl 184-6330-360C2 183-1281-080
C3 183-1278-180
CRl 353-6442-070
CR2 353-6442-070
CR3 353-6442-070
CR4 353-6442-070
CR5 353-6442-070
CR6 353-6442-070
K1 970-0002-030
K2 970-0002-030
Q1 352-1104-010
Q2 352-1104-010
Rl 724-5053-240
R2 724-5053-800
R3 724-5053-440
R4 724-5053-440
R5 724-5053-440
R6 724-5053-600
R7 724-5053-440
R8 724-5053-440
VR1 353-6481-160VR2 353-0221-360
VR3 353-0221-360
XKl 220-1582-010XK2 220-1582-010
CCA, POWER FAILURE RECYCLE
Description
PARTS LISTS
Rev.B
Change 4 6-75
PARTS LISTS 816R-2C
* (FURNISHED WITH 81) CEC # 933-5053-010
81 E1 C1 T81
S1
* C4
S2 E2 C3 C2
6-76
Figure 6-24. Variac Driver Assembly, A8A2.
Change 4
MOTOR, ALTERNATING CURRENT: 1RPM OUT, 1000Z-IN TORQUE115V-60HZ-IPH, REVERSIBLE, W/CLUTCH, BRAKE AND CAPACITORCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, +80 -20%,500 WVDC DISC TYPE,Z5U TEMP COEFFICIENTCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, +80 -20%,500 WVDC DISC TYPE,Z5U TEMP COEFFICIENTCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, +80 -20%, 500 WVDC DISC TYPE,Z5U TEMP COEFFICIENTPOST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSPOST, ELECTRICAL/MECHANICAL EQUIPMENT: 4-40 THREADS, 0.625LENGTH, 6500 VOLTS AC-RMSSWITCH, SENSITIVE: SUBMINIATURE, SPDTSWITCH, SENSITIVE: SUBMINIATURE, SPDTTRANSFORMER, POWER: VARIABLE, INPUT=240V, 50/60HZ, IPHOUTPUT=0-280V, 7.5AMP, 2.1KVA, MANUAL, OPEN FRAMETERMINAL, BOARD: 8 TERMINALS, 20 AMP, 3000 VRMS, #6-32 X 1/4 BRASS,NP SCREWS, 16-14 AWG, PHENOLIC
816R-2C
PL648-8104-001
Ref. Des. Part No.
Bl 230-0581-010
Cl 913-3152-000
C2 913-3152-000
C3 913-3152-000
E1 306-0234-000
E2 306-0234-000
Sl 260-2293-000S2 260-2293-000T1 664-4010-020
TB1 367-0914-000
VARIAC DRIVER ASSEMBLY
Description
PARTS LISTS
Rev.D
Change 4 6-77
PARTS LISTS 816R-2C
AC1 L1
o
AC2 L2 AC3 L3 05 (REF)
o
01 (REF)
03 (REF)
04 (REF)
02 (REF)
Z1A
o
Z1B Z1C
o
L4 L5 L6 06 (REF)
95G0098
6-78
Figure 6-25. SCR Assembly, A9.
Change 4
816R-2C
PL180304-1
Ref. Des. Part No.
SCR ASSEMBLY
Description
PARTS LISTS
Rev. -
ZIA 353-6551-010
ZIB 353-6551-010
ZIC 353-6551-010
Change 4
SEMICONDUCTOR DEVICE, SCR ASSEMBLY: 3 PHASE, FULL-WAVERECTIFIERSEMICONDUCTOR DEVICE, SCRASSEMBLY: 3 PHASE, FULL-WAVERECTIFIERSEMICONDUCTOR DEVICE, SCR ASSEMBLY: 3 PHASE, FULL-WAVERECTIFIER
6-79
PARTS LISTS 816R-2C
T1(BACK SIDE)
A2 A1 R2 R1
PS1
C1
o
o
r=-____.@ DO D~o
o
o
.------.I II II II II II II II II II I
IttItIIIII,,,,,II
: 0
--- - - - ---- -- -------- -- --- ---_.!
OOG0006
TB2(BACK SIDE)
TB1(BACK SIDE)
Figure 6-26. Power Supply Assembly, AIO.
6-80 Change 4
CCA, BIAS COMPONENTCCA, REMOTE CONTROLCAPACITOR, FIXED, PAPER: 10 MicroF, ±10%, 1000 WVDCPOWER SUPPLY: DC, 1 OUTPUT, 28V, 7 AMP@50C, 200 WATT 207-250V,50-420HZ IN, LINEAR, REG=.Ol% LINE, .1% LOADRESISTOR, FIXED, WIREWOUND: 10K OHM, ±5%, 12 WATTRESISTOR, FIXED, WIRE WOUND: 1000 OHMS, ±5%, 26 WATTTRANSFORMER, POWER: STEP-UP, 208-230 VRMS/300 VOLTTERMINAL BOARD: 18 TERMINALS, 20 AMP, 3000 VRMS, #6-32 X 1/4 BRASS,NP SCREWS, 16-14 AWG, PHENOLICTERMINAL BOARD: 18 TERMINALS, 20 AMP, 3000 VRMS, #6-32 X 1/4 BRASS,NP SCREWS, 16-14 AWG, PHENOLIC
816R-2C
PL180318-1
Ref. Des. Part No.
Al *180383-1A2 *180310-3C1 930-0038-000PSI 270-3177-010
R1 746-6172-000R2 747-1686-000T1 662-0218-010TB1 367-0924-000
TB2 367-0924-000
POWER SUPPLY ASSEMBLY
Description
PARTS LISTS
Rev.H
Change 4 6-81
PARTS LISTS
('CO--- -.@$8 GlI 6~UQ~ ~
: ~~ ~: 00 •ITIIIO].""I II 0 II II II II II I1 : .1 0
r-IIII.
:0o
816R-2C
M ,...a: a:u u
Ma:
0,....,... a:uIt)
a:~ C\I ua: a:u u
TB1
1 8
93G0337
Figure 6-27. Bias Component Circuit Card Assembly, AIOA1 ..
6-82 Change 4
CAPACITOR, FIXED, PAPER DIELECTRlC: 0.047 MicroF, ±20%, 600 WVDCSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PIV GLASS PKG,HERMETICALLY SEALED, AXIAL LEADS (lN4586)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PIV GLASS PKG,HERMETICALLY SEALED, AXIAL LEADS (lN4586)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PIV GLASS PKG,HERMETICALLY SEALED, AXIAL LEADS (lN4586)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PIV GLASS PKG,HERMETICALLY SEALED, AXIAL LEADS (lN4586)SE:NIICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PIV GLASS PKG,HERMETICALLY SEALED, AXIAL LEADS (lN4586)RESISTOR, FIXED, FILM: 330 OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1 MEGOHM, ±l%, 3 WATTRESISTOR, VARlABLE, WIRE WOUND: 2000 OHM, ±5%, 1 WATT SINGLETURN, 310 DEG, PC PINS, TOP ADJTERMINAL BOARD: 8 POLES, 2 PINS/POLE, 0.2" PITCH 26-14 AWG WIRE SIZE,PWB MOUNTING, BLUE, 300V, lOA RTG
816R-2C
PL180383-1
Ref. Des. Part No.
C1 931-8592-000CR1 353-6467-050
CR2 353-6467-050
CR3 353-6467-050
CR4 353-6467-050
CR5 353-6467-050
R1 724-5054-310
R3 705-4254-000R4 377-5034-010
TB1 306-3051-010
CCA, BIAS COMPONENT
Description
PARTS LISTS
Rev. A
Change 4 6-83
r--
:0PARTS LISTS
6-84
o.Co---- _.@~ rJ rJn: ®~~~O@0: 00 ,lIIIITIl:"'I II 0 II I
: I
II I1_- _ : I
I 12
TB1
¢5 K2K1, XK2XK1
l 1 C1c:=J C2 c:=J10 G D 206
~
QgC00co
K3 K4~
XK3 >-XK4 en
enJ1 <{
~ J2lO~
C4 c:=J C5 c:=J NlO
K5 Qg~
K6XK5 XK6
20J
C6c:=J C7 c:=J
K7 ¢¢B K8XK7 XK8
-.:::t0:::0
1C8 c:=J C9 c:=J
93G0338
Figure 6-28. Remote Control Circuit Card Assembly, AIOA2.
816R-2C
Change 4
CAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCCAPACITOR, FIXED, CERAMIC: 0.1 MicroF, ±10%, 100 WVDCSEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-4l EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-4l EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-41 EPOXYPKG, AXIAL LEADS (lN4007)SEMICONDUCTOR DEVICE, DIODE: SILICON, lAMP, 1000V PRY DO-4l EPOXYPKG, AXIAL LEADS (lN4007)CONNECTOR, RECEPTACLE, ELECTRICAL: 20 POSITIONS SINGLE ROW,SHROUDED HEADER, SQ STRAIGHT POSTCONNECTOR, RECEPTACLE, ELECTRICAL: 20 POSITIONS SINGLE ROW,SHROUDED HEADER, SQ STRAIGHT POSTRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, PLSTC ENCL, SEALED, PWB MTRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, DUAL COIL LATCH, PLSTC ENCL, SEALED, DILRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, PLSTC ENCL, SEALED, PWB MTRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, PLSTC ENCL, SEALED, PWB MTRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, PLSTC ENCL, SEALED, PWB MTRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, PLSTC ENCL, SEALED, PWB MTRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, PLSTC ENCL, SEALED, PWB MTRELAY, ELECTROMAGNETIC: DPDT, 2AMP@28VDC CONTACT RTG 24VDCCOIL, PLSTC ENCL, SEALED, PWB MTRESISTOR, FIXED, COMPOSITION: 33 OHMS, ±5%, 1/2 WATTRESISTOR, FIXED, COMPOSITION: 33 OHMS, ±5%, 1/2 WATTTERMINAL BOARD: 12 POSITIONS, 20 AMPS, 300 VOLTS, #3-48 UNC, 12-22AWGSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTSSOCKET, INTEGRATED CIRCUIT: DUAL IN-LINE, 16 POSTS
816R-2C
PL180310-3
Ref. Des. Part No.
C1 CK06BX104KC2 CK06BX104KC3 CK06BX104KC4 CK06BX104KC5 CK06BX104KC6 CK06BX104KC7 CK06BX104KC8 CK06BX104KC9 CK06BX104KCR1 353-6442-070
CR2 353-6442-070
CR3 353-6442-070
CR4 353-6442-070
CR5 353-6442-070
J1 372-9765-020
J2 372-9765-020
K1 410-6098-010
K2 410-6109-030
K3 410-6098-010
K4 410-6098-010
K5 410-6098-010
K6 410-6098-010
K7 410-6098-010
K8 410-6098-010
R1 RCR20G330JSR2 RCR20G330JSTB1 367-5566-110
XKl 220-0049-020XK2 220-0049-020XK3 220-0049-020XK4 220-0049-020XK5 220-0049-020XK6 220-0049-020XK7 220-0049-020XK8 220-0049-020
CCA, REMOTE CONTROL
Description
PARTS LISTS
Rev. A
Change 4 6-85
PARTS LISTS
6-86
(This Page Intentionally Left Blank)
816R-2C
Change 4
816R-2C
C92
TUBECHIMNEY
P5, J5
786-3029-001FINGER CONTACT
PATUNING
(C51)
786-3029-002FINGER CONTACT
R75
TUBESHELF
52S15
PARTS LISTS
C48
C84
C85
S7
P4, J4
~ 786-3029-002
FINGERCONTACT
SLIDERDECKFINGER STOCK180028-(4PCS)
BLOCKINGCAPACITOR
C2 (REF)
/786-3029-001FINGERCONTACT
PA LOADING(C50)
TUBE
C82
C83
S6
A3
786-3032-001FINGERCONTACT
03G103
Change 5
Figure 6-29. PA Cavity Assembly (Front View), A12. (Sheet 1 of 2)
6-87
PARTS LISTS 816R-2C
512
511"
C87,,"'"
C89
C32
C54
C90/91
S13
82
514
C86
C42 (CEC # 933-5053-010FURNISHED WITH 82)
oo
R36
o
........ T1E> E> E> ...........
r------.-.....-......-....-.I ••••••••••••••••••••••••••••••
I~ I I~ I@] @]
o
o
o
o
,,,:,",/,
t
,./t
C41 (CEC # 933-5053-010FURNISHED WITH 83)
o
o
,: 0
",,,,," 0,,
",,,,
",,
A1
....................
............
..........
A2
83 ..............
....
caa
®R35 o
C55
C56
93G0341
(REAR VIEW)
Figure 6-29. PA Cavity Assembly (Rear Vie)v), A12. (Sheet 2 of 2)
6-88 Change 4
816R-2C
PL786-3335-005 POWER AMPLIFIER CAVITY ASSEMBLY Rev. AR
PARTS LISTS
Ref. Des. Part No. Description
AlA2A3B2
B3
C1C2C32
C40
C46C48C49C52C54
C55C56C82
C83
C84
C85
C86
C87
C88
C89
C90
C91
C92
C93
J1
12
J4
J5
Change 6
643-7445-001 CCA,METERING MULTIPLIER643-7446-001 CCA,METERING MULTIPLIER786-3686-002 SOCKET ASSEMBLY,ELECTRON TUBE230-0581-010 MOTOR,ALTERNATING CURRENT: 1RPM OUT,1000Z-IN TORQUE 115V-60HZ
1PH,REVERSIBLE,W/CLUTCH,BRAKE&CAPACITOR230-0581-010 MOTOR,ALTERNATING CURRENT: 1RPM OUT,1000Z-IN TORQUE 115V-60HZ-
IPH,REVERSIBLE,W/CLUTCH,BRAKE&CAPACITOR922-8011-010 CAPACITOR,VARIABLE,AIR:5.5-10.2 PF,3 PLATES,180322-1 CAPACITOR MODIFICATION241-1031-010 FILTER,RADIO FREQUENCY INTERFERENCE:1500PF MIN 2500WVDC,PI TYPE
FEEDTHRU,W-3/8-32 MTG HARDWARE913-0845-000 CAPACITOR,FIXED,CERAMIC:31 OPF,+-50/0,2500WVDC TRANSMITTING TYPE,
6-32 THD TERM,1.8AMP@lMHZ930-0038-000 CAPACITOR,FIXED,PAPER:10 UF,+-100;O,1000 \VVDC913-7150-010 CAPACITOR,FIXED,CERAMIC:500 PF,+80-200/0,20K WVDC WITHOUT ADAPTER913-7150-010 CAPACITOR,FIXED,CERAMIC:500 PF,+80-200/0,20K WVDC WITHOUT ADAPTER913-5113-050 CAPACITOR,FIXED,CERAMIC: 100 PF,+-l 00/0, 15K WVDC241-1031-010 FILTER,RADIO FREQUENCY INTERFERENCE:1500PF ~1IN 2500WVDC,PI TYPE
FEEDTHRU,W-3/8-32 MTG HARDWARE241-0090-000 CAPACITOR,FIXED,PAPER:O.l UF,+-10%,600 WVDC241-0090-000 CAPACITOR,FIXED,PAPER:0.1 UF,+-100/0,600 WVDCCK70AWI 02M CAPACITOR,FIXED,CERAMIC: 1000 PF,+-20%,500 WVDC FEEDTHRU TYPE,WIRE
LEADSCK70AWI 02M CAPACITOR,FIXED,CERAMIC: 1000 PF,+-20%,500 WVDC FEEDTHRU TYPE,WIRE
LEADSCK70AWI 02M CAPACITOR,FIXED,CERAMIC: 1000 PF,+-200/0,500 WVDC FEEDTHRU TYPE,WIRE
LEADSCK70AWI 02M CAPACITOR,FIXED,CERAMIC: 1000 PF,+-200/0,500 WVDC FEEDTHRU TYPE,WIRE
LEADS913-3152-000 CAPACITOR,FIXED,CERAMIC:O.1 UF,+80 -20%,500 \VVDC DISC TYPE,Z5U TEMP
COEFFICIENT913-3152-000 CAPACITOR,FIXED,CERAMIC:0.1 UF,+80 -200/0,500 WVDC DISC TYPE,Z5U TEMP
COEFFICIENT913-3152-000 CAPACITOR,FIXED,CERAMIC:0.1 UF,+80 -20%,500 WVDC DISC TYPE,Z5U TEMP
COEFFICIENT913-3152-000 CAPACITOR,FIXED,CERAMIC:O.l UF,+80 -200/0,500 WVDC DISC TYPE,Z5U TE11P
COEFFICIENT913-3152-000 CAPACITOR,FIXED,CERAMIC:O.l UF,+80 -20%,500 WVDC DISC TYPE,Z5U TEMP
COEFFICIENT913-3152-000 CAPACITOR,FIXED,CERAMIC:O.l UF,+80 -200/0,500 WVDC DISC TYPE,Z5U TEMP
COEFFICIENTCK70AWI 02M CAPACITOR,FIXED,CERAMIC: 1000 PF,+-20%,500 WVDC FEEDTHRU TYPE,WIRE
LEADSCK70AW102M CAPACITOR,FIXED,CERAMIC:IOOO PF,+-20%,500 WVDC FEEDTHRU TYPE,WIRE
LEADSM39012/04-0002 CONNECTOR,RECEPTACLE,ELECTRICAL:SERIES N, TEFLON
DIELECTRIC,PANEL MOUNTM39012/19-0101 CONNECTOR,RECEPTACLE,ELECTRICAL:BNC BULKHEAD TYPE (TYPE
UG909/U)M39012/21-0001 CONNECTOR,RECEPTACLE,ELECTRICAL:BNC,FEMALE JAM NUT MOUNTED
(OLD UG-625B/U)M390 12/21-0001 CONNECTOR,RECEPTACLE,ELECTRICAL:BNC,FEMALE JAM NUT MOUNTED
(OLD UG-625B/U)
6-89
PARTS LISTS
PL786-3335-005 POWER AlVIPLIFIER CAVITYASSEMBLY - Continued Rev. AR
816R-2C
Ref. Des.
J6
L5
L6P4
P5
RI
R35
R36
R55R75SlS6S7SI1
S12
S13
S14
SI5
T1
6-90
Part No.
M39012/19-0101
MS91189-21
786-3548-001M39012/16-0101
M39012/I6-0101
745-8013-010
749-1028-000
710-9294-000
RCR42G220JS712-0070-000266-9960-010627-9743-004627-9743-004266-3081-000
266-3081-000
266-3081-000
266-3081-000
267-5023-020
662-0410-020
Description
CONNECTOR,RECEPTACLE,ELECTRICAL:BNC BULKHEAD TYPE (TYPEUG909/U)COIL,RADIO FREQUENCY:4.7 UH,+-10%,860 DCMA,Q=60MIN 90 MHZ SELFRESONANT FREQ,0.560 DCR MAXCHOKERFCONNECTOR,PLUG,ELECTRICAL:BNC,COAXIAL,PIN CONTACT (TYPE UG88E/U)CONNECTOR,PLUG,ELECTRICAL:BNC,COAXIAL,PIN CONTACT (TYPE UG88E/U)RESISTOR,FIXED,COMPOSITION:50 OHMS,+-20%,100 WATT @40 DEG C,4KVPEAK,NON-INDUCTIVE,l "OD,6"LONGRESISTOR,VARlABLE,WIRE WOUND:2500 OHM,+-10,50 WATT 0.14 MAXAMPERES,7/8" LONG SHAFT,SLOTfEDRESISTOR,FIXED,WIRE WOUND:3000 OHM,+-5%,100 WATT VITREOUSENAMEL COATING,RADIAL LUG TERMINALSRESISTOR,FIXED,COMPOSITION:22 OHMS,+-5%,2 WATTSRESISTOR,FIXED,COMPOSITION:50 OHMS,+-20%,60 WATTSWITCH,FLOW:SPDT AIR SWITCH ADJUSTABLE FROM 0.05" TO 12" WCSWITCH ASSEMBLY,SHORTINGSWITCH ASSEMBLY,SHORTINGSWlTCH,SENSITIVE:SINGLE POLE,DOUBLE THROW SNAP SOLDER LUGTERMINAL,MAX OPER FORCE,6SWlTCH,SENSITIVE:SINGLE POLE,DOUBLE THROW SNAP SOLDER LUGTERMINAL,MAX OPER FORCE,6SWITCH,SENSITIVE:SINGLE POLE,DOUBLE THROW SNAP SOLDER LUGTERMINAL,MAX OPER FORCE,6SWlTCH,SENSITIVE:SINGLE POLE,DOUBLE THROW SNAP SOLDER LUGTERMINAL,:lvIAX OPER FORCE,6SWITCH,THERMOSTATIC:BI-METALLIC,SNAP ACTION 224/256DEGF,NC,30DEG DIFF,15AMP/120VAC CONTRANSFORMER,POWER:STEP-DOWN,208 VRMS/7.5 VRMS
Change 6
816R-2C
Change 4
(This Page Intentionally Left Blank)
PARTS LISTS
6-91
PARTS LISTS
12
R3R4
R5
R6
R7
R8
R9
R10
811
R12
R13
R14
R15
R16
R17
R18
I R19R20
R21
R22
R23
816R-2C
C1
37
C2
43
VR3
R24
38
VR1
1----...,.-- R27
R29
45
93G0342
6-92
Figure 6-30. Metering Multiplier Circuit Card Assembly, A12Al.
Change 4
CAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±20%, 500 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±200/0, 500 WVDCRESISTOR, FIXED, FILM: 750K OHMS, ±1%, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1%, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1%, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1%, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1%, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1 0/0,3 WATTRESISTOR, FIXED, FILM: 750K OI-IMS, ±1 0/0,3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1 0/0,3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ± 10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1%, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1 %,3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±1 0/0,3 WATTRESISTOR, FIXED, FILM: 750K OHMS, ±10/0, 3 WATTRESISTOR, FIXED, FILM: 180K OHM, ±50/0, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 51100HM, ±10/0, 1/2WATT@70C METAL FILM,TC=100PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1 MEGOHM, ±1 0/0, 3 WATTRESISTOR, FIXED, FILM: 1 MEGOHM, ±1%, 3 WATTSEMICONDUCTOR DEVICE, DIODE: ZENER, 100V, ±50/0, 1 WATT METALCASE, AXIAL LEADSSEMICONDUCTOR DEVICE, DIODE: ZENER, 100V, ±50/0, 1 WATT METALCASE, AXIAL LEADS
816R-2C
PL643-7445-001
Ref. Des. Part No.
C1 CK63AW103MC2 CK63AW103MR1 705-1493-020R2 705-1493-020R3 705-1493-020R4 705-1493-020R5 705-1493-020R6 705-1493-020R7 705-1493-020R8 705-1493-020R9 705-1493-020RIO 705-1493-020R11 705-1493-020R12 705-1493-020R13 705-1493-020R14 705-1493-020R15 705-1493-020R16 705-1493-020R17 705-1493-020R18 705-1493-020R19 705-1493-020R20 705-1493-020R21 705-1493-020R22 705-1493-020R23 705-1493-020R24 705-1493-020R27 724-5055-640
R29 724-5053-490
R30 705-4254-000R31 705-4254-000VR1 353-1339-000
VR3 353-1339-000
CCA, METERING MULTIPLIER
Description
PARTS LISTS
Rev.C
Change 4 6-93
PARTS LISTS
C1
C2
o
o
93G0343
VR1
R27
R32
VR3
816R-2C
6-94
Figure 6-310 Metering Multiplier Circuit Card Assembly, A12A20
Change 4
CAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±20%, 500 WVDCCAPACITOR, FIXED, CERAMIC: 0.01 MicroF, ±20%, 500 WVDCRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPMlDEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDED
816R-2C
PL643-7446-001
Ref. Des. Part No.
Cl CK63AW103MC2 CK63AW103MRl 724-5055-640
R2 724-5055-640
R3 724-5055-640
R4 724-5055-640
R5 724-5055-640
R6 724-5055-640
R7 724-5055-640
R8 724-5055-640
R9 724-5055-640
RIO 724-5055-640
Rl1 724-5055-640
R12 724-5055-640
R13 724-5055-640
R14 724-5055-640
R15 724-5055-640
R16 724-5055-640
R17 724-5055-640
R18 724-5055-640
R19 724-5055-640
R20 724-5055-640
R21 724-5055-640
R22 724-5055-640
R23 724-5055-640
CCA, METERING MULTIPLIER
Description
PARTS LISTS
Rev.B
Change 4 6-95
RESISTOR, FIXED, FILM: 180K OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 1800 OHM, ±5%, 2 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDRESISTOR, FIXED, FILM: 10K OHM, ±5%, 1 WATT @ 70C METAL FILM,TC=250PPM/DEGC, COLOR BANDEDSEMICONDUCTOR DEVICE, DIODE: ZENER, 100V,±5%, 1 WATT METALCASE, AXIAL LEADSSEMICONDUCTOR DEVICE, DIODE: ZENER, 6.8V, ±5%, 1 WATT SILICON,VOLTAGE REGULATOR, AXIAL LEADS
PARTS LISTS
PL643-7445-001
Ref. Des. Part No.
R24 724-5055-640
R27 724-5055-400
R32 724-5054-490
VR1 353-1339-000
VR3 353-3121-000
CCA, METERING MULTIPLIER - Continued
Description
816R-2C
Rev.B
6-96 Change 4
816R-2C
Change 4
(This Page Intentionally Left Blank)
PARTS LISTS
6-97
PARTS LISTS 816R-2C
A12R1 (REF)
C39
A12C1 (REF)
*A12C3 (REF)
A12J1 (REF)
C53
C7
*'C38 C58 C4 L1 C5 CG
* MECHANICAL ASSEMBLIES
A12T1 (REF)FILAMENTLEAD
XV1
NEUTRALIZATION CLAMPS (2)CONSISTING OF CEC #786-3236-001 AND CEC #786-3237-001
*C12 C11 L3 C10 C59 C13 A12C2 (REF) C9 C8
A12L5 (REF)
A12C40 (REF)
A12R55 (REF)
CGO
LIST OF REPLACEABLE PARTS OF XV1
C43
C44
220-1500-000
SAME AS C43220-1494-000220-1495-000
220-1497-000
220-1496-000
220-1498-000
220-1500-000
220-1502-000
220-1506-000
FILAMENT BYPASS CAPACITOR (BUILT INTO TUBE SOCKET)
OUTER FILAMENT COLLETINNER FILAMENT COLLET
INSULATOR POST (8 REQUIRED)
CONTROL GRID COLLET
INSULATOR SLEEVE (8 REQUIRED)
SCREEN GRID COLLET
INSULATOR WASHER, SPACER FOR SCREWS THAT GOTHRU FILAMENT COLLETS (14 REQUIRED)SCREEN COLLET SPRING
BRASS SCREWS (14 REQUIRED) 93G0344
Figure 6-32. PA Tube Socket Assembly, A12A3.
6-98 Change 4
CAPACITOR, FIXED, CERAMIC: 100PicaF, ±10%, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±100/0, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±10%, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±100/0, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±100/0, 5000WVDC TRANSl\1ITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±10%, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±100/0, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±10%, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±10%, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 500 PicaF, ±20%, 5000 WVDCCAPACITOR, FIXED, CERAMIC: 1000PicaF, -20+400/0, 3500V PKWKG PLATECAPACITOR, CONTOURED RIM, CLASS 2 CERAMICCAPACITOR, VARIABLE, AIR: 8.5 TO 32 PicaF, 1 SECTION, 11 PLATES, 0.0715INCH AIR GAPCAPACITOR, FIXED, CERAMIC: 100PicaF, ±100/0, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 100PicaF, ±10%, 5000WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 1.8AMP@lMHZCAPACITOR, FIXED, CERAMIC: 75PicaF, ±5%, 3500WVDC TRANSMITTINGTYPE, 6-32 THD TERM, 2AMP@lMHZCAPACITOR, FIXED, CERAMIC: 500 PicaF, ±20%, 5000 WVDCSOCKET, ELECTRON TUBE: 4CX5000 AND 4CX15000
816R-2C
PL786-3686-002
Ref. Des. Part No.
C4 913-0821-000
C5 913-0821-000
C6 913-0821-000
C7 913-0821-000
C8 913-0821-000
C9 913-0821-000
C10 913-0821-000
C11 913-0821-000
C12 913-0821-000
C13 913-5113-250C38 913-7096-020
C39 922-8010-010
C53 913-0821-000
C58 913-0821-000
C59 913-0830-000
C60 913-5113-250XVI 220-1491-000
SOCKET ASSEMBLY, ELECTRON TUBE
Description
PARTS LISTS
Rev.H
Change 4 6-99
PARTS LISTS
E1
816R-2C
R1
R2
o
R3
R4
6-100
o o93G0345
Figure 6-33. Bleeder Resistor Assembly, A13.
Change 4
ARRESTER, LIGHTNING: 150-300 OPERATING VDC, GREENRESISTOR, FIXED, WIRE WOUND: 18 OHMS, ±5%, 210 WATT SILICONECOATED, 3/8"TAB TERM, TIN PLTDRESISTOR, FIXED, WIRE WOUND: lOOK OHM, ±5%, 210 WATT SILICONECOATED, 3/8" TAB TERM, TIN PLTDRESISTOR, FIXED, WIRE WOUND: lOOK OHM, ±5%, 210 WATT SILICONECOATED, 3/8" TAB TERM, TIN PLTDRESISTOR, FIXED, WIRE WOUND: 5100 OHM, ±5%, 210 WATT SILICONECOATED, 3/8" TAB TERM, TIN PLTD
816R-2C
PL180394-1
Ref. Des. Part No.
El 013-1332-020Rl 746-6662-000
R2 746-6737-000
R3 746-6737-000
R4 746-6817-000
BLEEDER RESISTOR ASSEMBLY
Description
PARTS LISTS
Rev. -
Change 4 6-101
PARTS LISTS
6-102
(This Page Intentionally Left Blank)
816R-2C
Change 4
816R-2C
7-1. INTRODUCTION
SECTION 7 - DIAGRAMS
DIAGRAMS
This section of the Operation and Maintenance manualcontains schematic diagrams for the 816R-2C, FMTransmitter. Drawings have been reduced from large formatengineering drawings.
Schematics are arranged in ascending reference designator(Ref. Des.) number order. An index of schematics isprovided in Table 7-1, the table is in Ref. Des. order.
TABLE 7-1. Index of Schematic Diagrams
Schematic Ref. PageNo. Rev. Description Des. No.
*193794 C Transmitter 816R-2C I
*189579 B Status and Interlock Simplified Diagram
189667 B Control Panel AlAI 7-3
182902 Filament Regulator A2A4 7-7
180167 Overload/Recycle A2A5 7-9
180162 A Power Monitor/Control A2A6 7-11
189621 C Card Cage Components A2A7 7-13
180196 A Backplane A2A8 7-15
195125 IPA 816R A3 7-19 I
195080 E Metering Card Circuit Card Assembly A3Al 7-21
189626 IPA Status A3A2 7-23
189397 A Amplifier Module A3A3A1 - A2 7-25
189211 C Control Circuit Card Assembly A3A3A1-A2A1 7-27
189214 B RF Circuit Card Assembly A3A3A1-A2A2 7-29
194874 Remote Control A10A2 7-31 I
* Located in envelope at rear of manual.
Change 5 7-1
DIAGRAMS
7-2
(This Page Intentionally Left Blank)
816R-2C
Change 4
816R-2C DIAGRAMS
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816R-2C DIAGRAMS
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816R-2C DIAGRAMS
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816R-2C DIAGRAMS
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816R-2C DIAGRAMS
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PRODUCT SERVICE BULLETIN
EIMAC 4CX15000A, 4CX20000E, 4CX25000C AND 4CW30000A TUBES JUNE 22, 2007
EIMAC has learned more about the best way to operate these tubes with regard to filament management. These operating instructions can be found in EIMAC Application Bulletin AB-18. Specifically, you should lower the filament voltage after the first 200 hours of operation. After operating a new tube for 200 hours, the filament voltage should be reduced to the power emission knee required for your output power.
WARNING
HIGH VOLTAGE IS USED IN HIGH POWER EQUIPMENT. HIGH VOLTAGE CAN CAUSE SEVERE INJURY OR DEATH. INSURE THAT ALL CIRCUIT BREAKERS
ARE OFF AND PRIMARY POWER IS DISABLED WHEN MAKNG ADJUSTMENTS INSIDE THE TRANSMITTER.
DISCHARD ALL POWER SUPPLIES BEFORE MAKING ANY ADJUSTMENTS.
INSTRUCTIONS First, stabilize the new tube emission by operating it a rated filament voltage for a minimum of 200 hours. With the transmitter in manual power control at 100% power, carefully lower the filament voltage in 0.2 volts steps, pausing for at least 30 seconds after each decrement, until you see a significant (greater than 2%) change in power output or plate current. This is the filament emission knee. Now raise the filament voltage 0.2 volts above the knee voltage. This is the correct filament operating voltage for your power output. Operation at this reduced filament voltage insures maximum possible tube life. Recheck the filament knee voltage again after 24 hours to determine if the emission is stable. If not repeatable, repeat the derating procedure again.
Please contact Continental Electronics Field Service with any questions or comments.
214-388-5800