INSTRUCTIONS

MODEL AVR-D2-C

HIGH SPEED PULSE GENERATOR

FOR MIL-PRF-19500

TRANSISTOR SWITCHING TIME TESTS

SERIAL NUMBER: ____________

A V T E C H E L E C T R O S Y S T E M S L T D .N A N O S E C O N D W A V E F O R M E L E C T R O N I C S

S I N C E 1 9 7 5

P.O. BOX 265OGDENSBURG, NYU.S.A. 13669-0265

TEL: 888-670-8729 (USA & Canada) or +1-613-226-5772 (Intl)FAX: 800-561-1970 (USA & Canada) or +1-613-226-2802 (Intl)

info@avtechpulse.com - http://www.avtechpulse.com/

X BOX 5120, LCD MERIVALEOTTAWA, ONTARIOCANADA K2C 3H4

WARRANTY

Avtech Electrosystems Ltd. warrants products of its manufacture to be free from defects in material and workmanship under conditions of normal use. If, within one year after delivery to the original owner, and after prepaid return by the original owner, this Avtech product is found to be defective, Avtech shall at its option repair or replace said defective item. This warranty does not apply to units which have been dissembled, modified or subjected to conditions exceeding the applicable specifications or ratings. This warranty is the extent of the obligation assumed by Avtech with respect to this product and no other warranty or guarantee is either expressed or implied.

TECHNICAL SUPPORT

Phone: 888-670-8729 (USA & Canada) or +1-613-226-5772 (Intl)Fax: 800-561-1970 (USA & Canada) or +1-613-226-2802 (Intl)

E-mail: info@avtechpulse.comWorld Wide Web: http://www.avtechpulse.com

2

TABLE OF CONTENTS

WARRANTY......................................................................................................................2TECHNICAL SUPPORT...................................................................................................2TABLE OF CONTENTS....................................................................................................3INTRODUCTION...............................................................................................................5SPECIFICATIONS............................................................................................................6EUROPEAN REGULATORY NOTES..............................................................................7

EC DECLARATION OF CONFORMITY.................................................................................. 7

DIRECTIVE 2002/95/EC (RoHS)............................................................................................. 7

DIRECTIVE 2002/96/EC (WEEE)............................................................................................ 7

INSTALLATION................................................................................................................9VISUAL CHECK...................................................................................................................... 9

POWER RATINGS.................................................................................................................. 9

CONNECTION TO THE POWER SUPPLY............................................................................. 9

PROTECTION FROM ELECTRIC SHOCK........................................................................... 10

ENVIRONMENTAL CONDITIONS......................................................................................... 10

FUSES.............................................................................................................................12AC FUSE REPLACEMENT................................................................................................... 12

DC FUSE REPLACEMENT................................................................................................... 13

FUSE RATINGS.................................................................................................................... 13

FRONT PANEL CONTROLS..........................................................................................14REAR PANEL CONTROLS............................................................................................17GENERAL INFORMATION............................................................................................18

BASIC TEST ARRANGEMENT............................................................................................. 18

TYPICAL TEST SETUPS....................................................................................................... 18

MINIMIZING WAVEFORM DISTORTIONS....................................................................20USE 50 OHM TRANSMISSION LINES AND LOADS............................................................ 20

USE LOW-INDUCTANCE LOADS........................................................................................ 20

PREVENTING DAMAGE................................................................................................20MECHANICAL INFORMATION......................................................................................21

TOP COVER REMOVAL....................................................................................................... 21

RACK MOUNTING................................................................................................................ 21

ELECTROMAGNETIC INTERFERENCE.............................................................................. 21

3

MAINTENANCE..............................................................................................................22REGULAR MAINTENANCE.................................................................................................. 22

CLEANING............................................................................................................................ 22

WIRING DIAGRAMS.......................................................................................................23WIRING OF AC POWER, 1/2................................................................................................ 23

WIRING OF AC POWER, 2/2................................................................................................ 24

PCB 158K - LOW VOLTAGE POWER SUPPLY, 1/3............................................................ 25

PCB 158K - LOW VOLTAGE POWER SUPPLY, 2/3............................................................ 26

PCB 158K - LOW VOLTAGE POWER SUPPLY, 3/3............................................................ 27

PCB 168B - HIGH VOLTAGE DC POWER SUPPLY............................................................ 28

PCB 152A - TIMING BOARD (1/2)........................................................................................ 29

PCB 152A - TIMING BOARD (2/2)........................................................................................ 30

MAIN WIRING....................................................................................................................... 31

PERFORMANCE CHECK SHEET.................................................................................32

Manual Reference: Z:\officefiles\instructword\avr-d2\AVR-D2-C,edition2.odt.Last modified May 23, 2007.Copyright 2007 Avtech Electrosystems Ltd, All Rights Reserved.

4

INTRODUCTION

The AVR-D2-C is a high performance pulse generator designed to provide waveforms required for a range of MIL-PRF-19500 transistor switching times tests.

The AVR-D2-C provides two output channels (A and B). Both channels have rise and fall times of less than 1 ns, and can operate at pulse repetition frequencies of up to 50 kHz. The active channel provided on the main output connector is switch-selectable.

Channel A has an amplitude adjustable from 0 to 30 Volts. The pulse width is adjustable from 200 ns to 20 us, subject to a 10% maximum duty cycle limit. An internally-generated DC offset in the range of -15V to +15V may be applied to the output waveform. An example of one application for this output is the Saturated turn-on switching time test circuit specified in MIL-PRF-19500/255V Figure 17 for 2N2222A and similar NPN silicon switching transistors.

Channel B has a amplitude of -2V or +2V. The polarity is switchable, but the amplitude is not adjustable. The pulse width 15 ns ( 1 ns), non-adjustable. An internally-generated DC offset in the range of -1V to +1V may be applied to the output waveform. An example of one application for this output is the Nonsaturated switching time test circuit specified in MIL-PRF-19500/177F Figure 2 for 2N1131 and similar PNP silicon low-power transistors.

This instrument is intended for use in research, development, test and calibration laboratories by qualified personnel.

5

SPECIFICATIONS

Model: AVR-D2-C1

Amplitude, into 50: Channel A: 0 to 30 VoltsChannel B: 0 to 2 Volts

Pulse width (FWHM): Channel A: 200 ns to 20 usChannel B: 15 ns (fixed)

Rise and fall times:(20%-80%) 1 ns

PRF: 5 Hz to 50 kHz

Duty Cycle: Channel A: 10% maximum (e.g., max PW = 2 us at 50 kHz, or 10 us at 10 kHz)Channel B: not applicable

Polarity: Positive or negative,switchable

DC offset, into 50: Channel A: 0 to 15 VoltsChannel B: 0 to 1 Volts

Sync output +3 Volts, 200 ns, will drive 50 Ohm loadsSync delay: Sync out to pulse out, variable 0 to 20 usTrigger required: Ext trig mode: + 5 Volts, 50 ns or wider (TTL)Propagation delay: 100 ns (Ext trig in to pulse out)Jitter: 100 ps 0.015% of sync delay (Ext trig in to pulse out)Connectors: BNCPower requirement: 100 - 240 Volts, 50 - 60 HzDimensions (H x W x D): 100 430 375 mm (3.9 17 14.8)Chassis material: cast aluminum frame & handles, blue vinyl on aluminum cover plates

Temperature range: +5C to +40C1) -C suffix indicates stand-alone lab instrument with internal clock and line powering.

6

EUROPEAN REGULATORY NOTES

EC DECLARATION OF CONFORMITY

We Avtech Electrosystems Ltd.P.O. Box 5120, LCD MerivaleOttawa, OntarioCanada K2C 3H4

declare that this pulse generator meets the intent of Directive 89/336/EEC for Electromagnetic Compatibility. Compliance pertains to the following specifications as listed in the official Journal of the European Communities:

EN 50081-1 Emission

EN 50082-1 Immunity

and that this pulse generator meets the intent of the Low Voltage Directive 72/23/EEC as amended by 93/68/EEC. Compliance pertains to the following specifications as listed in the official Journal of the European Communities:

EN 61010-1:2001 Safety requirements for electrical equipment for measurement, control, and laboratory use

DIRECTIVE 2002/95/EC (RoHS)

This instrument is exempt from Directive 2002/95/EC of the European Parliament and of the Council of 27 January 2003 on the Restriction of the use of certain Hazardous Substances (RoHS) in electrical and electronic equipment. Specifically, Avtech instruments are considered "Monitoring and control instruments" (Category 9) as defined in Annex 1A of Directive 2002/96/EC. The Directive 2002/95/EC only applies to Directive 2002/96/EC categories 1-7 and 10, as stated in the "Article 2 - Scope" section of Directive 2002/95/EC.

DIRECTIVE 2002/96/EC (WEEE)

European customers who have purchased this equipment directly from Avtech will have completed a WEEE Responsibility Agreement form, accepting responsibility for

7

WEEE compliance (as mandated in Directive 2002/96/EC of the European Union and local laws) on behalf of the customer, as provided for under Article 9 of Directive 2002/96/EC.

Customers who have purchased Avtech equipment through local representatives should consult with the representative to determine who has responsibility for WEEE compliance. Normally, such responsibilities with lie with the representative, unless other arrangements (under Article 9) have been made.

Requirements for WEEE compliance may include registration of products with local governments, reporting of recycling activities to local governments, and financing of recycling activities.

8

INSTALLATION

VISUAL CHECK

After unpacking the instrument, examine to ensure that it has not been damaged in shipment. Visually inspect all connectors, knobs, and handles. Confirm that a power cord and an instrumentation manual (this manual), are with the instrument. If the instrument has been damaged, file a claim immediately with the company that transported the instrument.

POWER RATINGS

This instrument is intended to operate from 100 - 240 V, 50 - 60 Hz.

The maximum power consumption is 57 Watts. Please see the FUSES section for information about the appropriate AC and DC fuses.

This instrument is an Installation Category II instrument, intended for operation from a normal single-phase supply.

CONNECTION TO THE POWER SUPPLY

An IEC-320 three-pronged recessed male socket is provided on the back panel for AC power connection to the instrument. One end of the detachable power cord that is supplied with the instrument plugs into this socket. The other end of the detachable power cord plugs into the local mains supply. Use only the cable supplied with the instrument. The mains supply must be earthed, and the cord used to connect the instrument to the mains supply must provide an earth connection. (The supplied cord does this.)

Warning: Failure to use a grounded outlet may result in injury or death due to electric shock. This product uses a power cord with a ground connection. It must be connected to a properly grounded outlet. The instrument chassis is connected to the ground wire in the power cord.

The table below describes the power cord that is normally supplied with this instrument, depending on the destination region:

9

Destination Region Description Manufacturer Part Number

Continental Europe European CEE 7/7 Schuko 230V, 50Hz Qualtek (http://www.qualtekusa.com) 319004-T01

United Kingdom BS 1363, 230V, 50Hz Qualtek (http://www.qualtekusa.com) 370001-E01

Switzerland SEV 1011, 230V, 50Hz Volex (http://www.volex.com) 2102H-C3-10

Israel SI 32, 220V, 50Hz Volex (http://www.volex.com) 2115H-C3-10

North America,and all other areas

NEMA 5-15, 120V, 60 Hz Qualtek (http://www.qualtekusa.com) 312007-01

PROTECTION FROM ELECTRIC SHOCK

Operators of this instrument must be protected from electric shock at all times. The owner must ensure that operators are prevented access and/or are insulated from every connection point. In some cases, connections must be exposed to potential human contact. Operators must be trained to protect themselves from the risk of electric shock. This instrument is intended for use by qualified personnel who recognize shock hazards and are familiar with safety precautions required to avoid possibly injury. In particular, operators should:

1. Keep exposed high-voltage wiring to an absolute minimum.

2. Wherever possible, use shielded connectors and cabling.

3. Connect and disconnect loads and cables only when the instrument is turned off.

4. Keep in mind that all cables, connectors, oscilloscope probes, and loads must have an appropriate voltage rating.

5. Do not attempt any repairs on the instrument, beyond the fuse replacement procedures described in this manual. Contact Avtech technical support (see page 2 for contact information) if the instrument requires servicing. Service is to be performed solely by qualified service personnel.

ENVIRONMENTAL CONDITIONS

This instrument is intended for use under the following conditions:

1. indoor use;2. altitude up to 2 000 m;3. temperature 5 C to 40 C;

10

4. maximum relative humidity 80 % for temperatures up to 31 C decreasing linearly to 50 % relative humidity at 40 C;

5. Mains supply voltage fluctuations up to 10 % of the nominal voltage;6. no pollution or only dry, non-conductive pollution.

11

FUSES

This instrument contains four fuses. All are accessible from the rear-panel. Two protect the AC prime power input, and two protect the internal DC power supplies. The locations of the fuses on the rear panel are shown in the figure below:

AC FUSE REPLACEMENT

To physically access the AC fuses, the power cord must be detached from the rear panel of the instrument. The fuse drawer may then be extracted using a small flat-head screwdriver, as shown below:

12

Fuses #1 and #2(AC fuses)

Fuse #4(DC fuse)

Fuse #3(DC fuse)

Fuse Drawer

Pry out the fuse drawer using a screwdriver.

DC FUSE REPLACEMENT

The DC fuses may be replaced by inserting the tip of a flat-head screwdriver into the fuse holder slot, and rotating the slot counter-clockwise. The fuse and its carrier will then pop out.

FUSE RATINGS

The following table lists the required fuses:

FusesNominal Mains

VoltageRating Case Size

Recommended Replacement PartLittelfuse Part

NumberDigi-Key Stock

Number

#1, #2 (AC) 100-240V 0.5A, 250V, Time-Delay 520 mm 0218.500HXP F2416-ND

#3 (DC) N/A 1.6A, 250V, Time-Delay 520 mm 021801.6HXP F2424-ND

#4 (DC) N/A 0.8A, 250V, Time-Delay 520 mm 0218.800HXP F2418-ND

The recommended fuse manufacturer is Littelfuse (http://www.littelfuse.com).

Replacement fuses may be easily obtained from Digi-Key (http://www.digikey.com) and other distributors.

13

FRONT PANEL CONTROLS

1. POWER Switch . This is the main power switch. When turning the instrument on, there may be a delay of several seconds before the instrument appears to respond.

2. OVERLOAD Indicator. When the instrument is powered, this indicator is normally green, indicating normal operation. If this indicator is yellow, an internal automatic overload protection circuit has been tripped. If the unit is overloaded (by operating at an exceedingly high duty cycle or by operating into a very low impedance), the protective circuit will disable the output of the instrument and turn the indicator light yellow. The light will stay yellow (i.e. output disabled) for about 5 seconds after which the instrument will attempt to re-enable the output (i.e. light green) for about 1 second. If the overload condition persists, the output will be disabled again (i.e. light yellow) for another 5 seconds. If the overload condition has been removed, the instrument will resume normal operation.

This overload indicator may flash yellow briefly at start-up. This is not a cause for concern.

Note that the output stage will safely withstand a short-circuited load condition.

3. REPETITION RATE Controls . When triggering internally, the range switch sets the pulse repetition frequency of the internal oscillator to one of four ranges:

RANGE 1 5 Hz - 50 HzRANGE 2 50 Hz - 500 HzRANGE 3 500 Hz - 5 kHzRANGE 4 5 kHz - 50 kHz

The FINE knob varies the frequency within each range.

14

2

1 7 9 8

5 4

61063

1113 12

14

4. DELAY Control . Controls the relative delay between the reference output pulse provided at the TRIG output (5) and the main output (14). This delay is variable over the range of 0.2 to 20 us. The TRIG output precedes the main output when the ADVANCE-DELAY switch is in the ADVANCE position and lags when the switch is in the DELAY position.

5. TRIG Connector . When the MODE switch (item 6) is set to the EXT position, a TTL-level pulse applied to this connector will trigger the instrument. The instrument triggers on the rising edge of this input. The input impedance of this input is 1 k. (Depending on the length of cable attached to this input, and the source driving it, it may be desirable to add a coaxial 50 Ohm terminator to this input to provide a proper transmission line termination. The Pasternack (www.pasternack.com) PE6008-50 BNC feed-thru 50 Ohm terminator is suggested for this purpose.)

When the MODE switch (item 6) is set to the INT position, this connector is used as an output that generates a 200 ns wide TTL-level pulse for each trigger event. This output can be used to trigger an oscilloscope, or other test equipment. The separation between the main output pulse and the TRIG output pulse is controlled by the DELAY controls and the ADVANCE/DELAY switch. For this output to operate correctly, the delay setting must be less than the period.

6. INT/MAN/EXT A/EXT B Mode Switch . With this switch in the INT position, the repetition rate of the unit is controlled by an internal oscillator, which in turn is controlled by the REPETITION RATE controls.

With the switch in the EXT position, the unit requires a 50 ns (or wider) TTL level pulse applied at the TRIG input in order to trigger the output stages.

For a single pulse output, the switch should be in the MAN position and then push the SINGLE PULSE pushbutton (10).

7. SINGLE PULSE Pushbutton . When the INT/MAN/EXT A/EXT B switch is in the MAN position, the instrument can be triggered by pressing this pushbutton. A single pulse is generated for each button press.

8. A/B CHANNEL Switch . This switch determines which channel (A or B) is provided on the main output connector (item 14).

9. PULSE WIDTH A Controls . This switch and ten-turn dial sets the pulse width of Channel A. (The pulse width of Channel B is not adjustable). The marked value of each switch position is the upper limit of the range, approximately. The vernier dial directly below the switch varies the delay within the set range.

10.AMPLITUDE A Control . This ten-turn locking dial varies the amplitude of Channel A. (The amplitude of Channel B is not adjustable).

15

11.POLARITY Switch . This switch determines the polarity (+ or -) of the output pulse. It is active for both Channels A and B.

12.OFFSET ON/OFF Switch . A DC offset (controlled by item 13) may be added to the output if this switch is set to ON. Otherwise, this feature is disabled.

13.OFFSET Control . If the OFFSET ON/OFF switch (item 12) is set to ON, this dial controls the DC offset added to the main output signal. When the CHANNEL A/B switch is set to A, the offset can be varied over a -15V to +15V range. When the CHANNEL A/B switch is set to B, the offset can be varied over a -1V to +1V range.

14.OUT Connector . This BNC output connector provides the main output signal. The load impedance must be 50 Ohms. If the test circuit specified by a particular standard does not have a 50 Ohm input impedance, you must add a shunt resistance at the circuit input such that the input impedance becomes 50 Ohms.

16

REAR PANEL CONTROLS

1. AC POWER INPUT . An IEC-320 C14 three-pronged recessed male socket is provided on the back panel for AC power connection to the instrument. One end of the detachable power cord that is supplied with the instrument plugs into this socket.

2. AC FUSE DRAWER . The two fuses that protect the AC input are located in this drawer. Please see the FUSES section of this manual for more information.

3. DC FUSES . These two fuses protect the internal DC power supplies. Please see the FUSES sections of this manual for more information.

4. M Connector . This monitor output provides an attenuated replica (11, or -20.8 dB) of the voltage on the main output. The monitor output is designed to operate into a 50 Ohm load.

M

17

2

314

GENERAL INFORMATION

BASIC TEST ARRANGEMENT

The AVR-D2-C should be tested with a sampling oscilloscope with a bandwidth of at least 2 GHz to properly observe the high-speed waveform. A typical test arrangement is shown below:

The attenuator is required to prevent damage to the sampling oscilloscope.

TYPICAL TEST SETUPS

18

AVTECHPULSER

MAIN OUTPUTCONNECTOR

TRIGCONNECTOR

ACPOWER

ALL CABLES: 50 OHM COAXIAL

SAMPLINGOSCILLOSCOPE

BW > 2 GHz

50 OHM INPUT

TRIGCONNECTOR

40 dBATTENUATOR

The figure above is taken from MIL-PRF-19500/177F, and is for testing the non-saturated switching time of PNP transistors.

The next figure is taken from MIL-PRF-19500/255V, and is for testing the saturated turn-on switching time of NPN transistors:

Both of the above circuits have 50 Ohm input impedance, so no additional shunt resistance is required. However, MIL-PRF-19500/255V also specifies a circuit for testing the saturated turn-off switching time of NPN transistors:

The input impedance of this circuit is 1 kilohm, so a 50 Ohm resistance (to ground) should be added at the input to this circuit, to avoid transmission line reflections.

Other circuits, specified in other MIL-PRF-19500 slash sheets can also be driven by the AVR-D2-C. The above circuits are only typical examples.

Avtech can provide test jigs (designed using proper high-speed construction techniques) to implement your required test circuitry. Contact Avtech (info@avtechpulse.com) with your test requirement!

19

MINIMIZING WAVEFORM DISTORTIONS

USE 50 OHM TRANSMISSION LINES AND LOADS

Connect the load to the pulse generator with 50 transmission lines (e.g. RG-58 or RG-174 cable).

This instrument requires a 50 load for proper operation. It will not properly drive a high-impedance load. The output stage will be damaged if it is operated into an open circuit (or any other high impedance). Failures due to improper output loading are not covered by the warranty.

USE LOW-INDUCTANCE LOADS

Lenzs Law predicts that for an inductive voltage spike will be generated when the current through an inductance changes. Specifically, VSPIKE = L dILOAD/dt, where L is the inductance, ILOAD is the load current change, and t is time. For this reason, it is important to keep any parasitic in the load low. This means keeping wiring short, and using low inductance components. In particular, wire-wound resistors should be avoided.

PREVENTING DAMAGE

The AVR-D2-C may fail if triggered at a PRF greater than 50 kHz.

This unit is designed to operate into a load impedance of 50 Ohms and the output stage will be damaged if it is operated into an open circuit (or any other high impedance). Failures due to improper output loading are not covered by the warranty.

The lifetime of the switching elements in the pulse generator module is proportional to the running time of the instrument. For this reason the prime power to the instrument should be turned off when the instrument is not in use.

20

MECHANICAL INFORMATION

TOP COVER REMOVAL

If necessary, the interior of the instrument may be accessed by removing the four Phillips screws on the top panel. With the four screws removed, the top cover may be slid back (and off).

Always disconnect the power cord and allow the instrument to sit unpowered for 10 minutes before opening the instrument. This will allow any internal stored charge to discharge.

There are no user-adjustable internal circuits. For repairs other than fuse replacement, please contact Avtech (info@avtechpulse.com) to arrange for the instrument to be returned to the factory for repair. Service is to be performed solely by qualified service personnel.

Caution: High voltages are present inside the instrument during normal operation. Do not operate the instrument with the cover removed.

RACK MOUNTING

A rack mounting kit is available. The -R5 rack mount kit may be installed after first removing the one Phillips screw on the side panel adjacent to the front handle.

ELECTROMAGNETIC INTERFERENCE

To prevent electromagnetic interference with other equipment, all used outputs should be connected to shielded loads using shielded coaxial cables. Unused outputs should be terminated with shielded coaxial terminators or with shielded coaxial dust caps, to prevent unintentional electromagnetic radiation. All cords and cables should be less than 3m in length.

21

MAINTENANCE

REGULAR MAINTENANCE

This instrument does not require any regular maintenance.

On occasion, one or more of the four rear-panel fuses may require replacement. All fuses can be accessed from the rear panel. See the FUSES section for details.

CLEANING

If desired, the interior of the instrument may be cleaned using compressed air to dislodge any accumulated dust. (See the TOP COVER REMOVAL section for instructions on accessing the interior.) No other cleaning is recommended.

22

WIRING DIAGRAMSWIRING OF AC POWER, 1/2

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

Title

RevisionDate22-Mar-2006

Z: \mjcfiles\pcb\158\switching60hz.ddb - USAGE\QC3 v5.sch

QC3 HARNESS, FOR PCB158K

5D

OV

TEM

P

AU

X

AK

YB

ROYG

TO LCD

TO PCB 108

TO ENCODERTO LCD

1 0 4D

BD2PCB104D KEYPAD BOARD (-B UNITS ONLY)

+1 0V+1 5V+1 5V-1 5 V-5 V+5 V+5 VGN D+2 4V , NO O LO+2 4V , NO O LO

+10V

+15V

-15V -5

V+5

VG

ND

GN

D+5

V+5

V

+2 4, NO OLOGN D

POS OLO

20 AWG

24 AWG

NEG O LO /+INGN D

OLO G ND

20 OR 24 AWG

CA

P B

AN

KG

ND

EXT

+PS

IN

-IN

/+O

UT

GN

D

GN

D

GREENGN DAMBER

S1A

S1B

DC

/S2A

DC

GN

DC

HS

GN

D

S2B

20 AWG

PCB 158K

+12V

OLO

GN

D

KA

- +

J1

J2 J3

J4

J5

J6

J7

J8

-+ J9 - FAN

J10

GN DGN DGN D

20 AWG

ENAU X

J11

BD1PCB 158K

Chassis ground post.

G1

G2

+V 3

G 5

N 3L 1

+V 2+V 1

-V 6-V 5-V 4

19002-0001

S- S+

22-01-1022,08-56-0110.RTV SEAL.

X3TPVP103-240042

B1

- R

ED

G4

G3

LN

G

X2CORCOM 6EGG1-2 POWER ENTRY MODULE

1

1 b

1 a

2

2 b

2 a

X1POWER SWITCH SW325-ND (CW INDUSTRIES GRS-4022-0013)

A1 - BROWNA2 - BLUE

A3 - BLACKA4 - WHITE

GR

N

AM

B

D1P395-ND LED

GR

N

AM

B

BLK

RED

WH

T X5VCC LED MOUNT

DC

FAN+ -

FAN1P9768-ND

FAN NOT

C1

- R

ED

C2

- G

RN

C3

- P

UR

A1 - BROWNA2 - BLUEA3 - BLACKA4 - WHITE

G1 - GREEN

G2 - GRN/YLWG3 - GRN/YLW

C1 - REDC2 - GRNC3 - PUR (-B)

B1 - RED

G4 - GREEN

20 AW G, ALPHA 3073, UL STYLE 1015 (600 Vrms)

24 AW G, BELDEN 83003, MIL-W -16878/4 (600 Vrms)

C4

- G

RN

C4 - GRN (-B)

Molex 19073-0013 ring terminal, #8.

Molex 19002-0001. 0.250" x 0.032".

Protective conductor terminal.

Molex 19002-0009. 0.187" x 0.032"

Mount with M2.5-0.45X12.

Primary earth ground /Safety earth ground /

Secondary earth ground.

Install green/yellow wires at bottom of stack, closest to wall.

20 AW G, BELDEN 83008, MIL-W -16878/4 (600 Vrms)

Mains circuits - hazardous live.

WARN ING

Do not attempt any repairs on this instrumentbeyond the fuse replacement procedures describedin the manual. Contact Avtech if the instrumentrequires servicing. Service is to be performedsolely by qualified service personnel.

W IRE LENGTHS (CM)

HARNESSED

USE TIE-DOWN POINT ON PCB 158J

48.546.53636

16

20.520.5

23.523.534

26

25

2U-13"

53.551.54141

16

20.520.5

23.523.539

26

25

2U-15"

58.556.54646

16

20.520.5

23.523.544

26

25

2U-17"

60.5614242

21

2823

252545

26.5

3U-13"

66.5664747

21

252550

27.5

3U-15"

71.5715252

21

252555

3U-17"

12" 18" 18" 18" 18" 24"LED ASSY

2823

2823

26.5

27.5

26.5

27.5

34 39 44 45 50 55

WIRING OF AC POWER, 2/2

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

RevisionPrinted23-May-2007

Z:\m jc f i les \c irc uits \ avr-N\avr-N.dd b - AV R-D2-C\D2-C UV v1 .s c h

AVR-D2-C HIGH VOLTAGE PS

1B

HVHV

GNDGND

GND+L V

SSRE NVC

J234-ND SPACERS X2

1 68

R1 = R2 = R3 =

R4 = R5 =

R6 = R7 = D2 =

D3 =D4 =D5 =

R8 =R9 =

UV21 /16 A24 -N3 0-M E , W IT H PCB 1 6 8B

HVHV

GNDGND

GND+L V

SSRE NVC

J2 34 -ND SPAC E R S X2

1 68

R1 = R2 = R3 =

R4 = R5 =

R6 = R7 = D2 =

D3 =D4 =D5 =

R8 =R9 =R10 =R11 =

UV31 /8A1 2-P4 -ME , W IT H PC B 16 8B

+10 V+15 V+15 V-1 5V-5 V+5V+5VGND+24 V, NO OL O+24 V, NO OL O

+10V

+15V

-15V -5

V+5

VG

ND

GN

D+5

V+5

V+24 , NO OL O

GNDPOS OL O

20 AWG

24 AWG

NE G OL O/ +INGND

OL O GN D

20 OR 24 AWG

CA

P B

AN

KG

ND

EX

T +

PS I

N

-IN

/+O

UT

GN

D

GN

DGR E E NGNDAM B E R

S1A

S1B

DC

/S2A

DC

GN

DC

HS

GN

D

S2B

20 AWG

PCB 15 8 K+1

2V O

LO

GN

D

KA

- +

J1

J2 J3

J4

J5

J6

J7

J8

-+ J9 - FAN

J10

GNDGNDGND

20 AWG

E NAUX

J11

HVHV

GNDGND

GND+L V

SSRE NVC

J234-ND SPACERS X2

1 68

R1 = R2 = R3 =

R4 = R5 =

R6 = R7 = D2 =

D3 =D4 =D5 =

R8 =R9 =

UV11 /16 A24 -P30 -ME , W IT H PC B 16 8 B

1N4937A1N4937A

NOT USEDNOT USED

CHS G ND

100 OY10K OY

NOT USEDZERONOT USED

NOT USED4.7K5K 3266W

NOT USED

HVHV

GNDGND

GND+L V

SSRE NVC

J234-ND SPACERS X2

1 68

R1 = R2 = R3 =

R4 = R5 =

R6 = R7 = D2 =

D3 =D4 =D5 =

R8 =R9 =

UV41 /16 A12 -N4 -ME , W IT H PCB 16 8 B

1N4937A1N4937ANOT USEDNOT USED

CHS G ND

100 OY10K OY

NOT USEDZERO

NOT USED

ZERONOT USED5K 3266W

NOT USED

1N4937A1N4937A

NOT USEDNOT USED

CHS G ND

100 OYNOT USED

NOT USEDZERONOT USED

NOT USED4.7K5K 3266W

NOT USED

1N4937A1N4937ANOT USEDNOT USED 100 OY

10K OY

NOT USED

ZERO OHM

NOT USED

NOT USED

NOT USEDNOT USED

NOT USED

OU

T

-15V

IN +15V

N/C

N/C

N/C

N/C

N/C

N/C

M 1-E AN

+15 V

-1 5V

UV SSR

-2 4V

+13 0VUV GND

0 T O +6 0 V

UV GND+60 V FIX E D

0 T O -60 V

UV GND-6 0V FIXE D

CC

W

CW

WR 1AM P, 1 0 T , 1K

+10 V

+ 3+1

-2- 5

C 4

U1

FDC 05 -2 4S12

C14 7u F,3 5V

+ 3+1

-2- 5

C4

U2

FDC 05 -2 4S12

L 1

4 34 -13 -1 01 MC44 7u F,3 5V

C 24 7u F, 3 5V

MAKE A MODEL

C 34 7u F,3 5V

-12V

-24V

22K OY22K OY

1

23

Q1IR F61 0

O N WALL,ISO LATE

TO THE TO P-SIDE TRACKJOINING R10 AND R11.

PCB 158K - LOW VOLTAGE POWER SUPPLY, 1/3

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

Title

Rev isionDate13-Sep-2005

Z: \mjcfiles\pcb\158\switching60hz.ddb - 158K\pcb158k.sch

LOW VOLTAGE DC/DC POWER SUPPLY

1 2 3

J56 4 04 5 6 -3

12345678

J4

6 4 04 4 5 -8

123456

J3

6 4 04 4 5 -6

+1 5V

+1 5V

BU+P-OU T # 1

+1 5VGN D-1 5 V

p cb 1 58 k _ ov pp cb 1 58 k _ ov p .sch

BU+P-OU T # 1

+1 5VGN D-1 5 V-1 5 V

BU+EXT

P-OU T # 2N- OUT

NEG IN CAPBANK

AMBERGREEN

+1 5VGN D-1 5 V

P-OU T # 3P-OU T # 1

p cb 1 58 k _ switchin gp cb 1 58 k _ switchin g .sch

BU+EXT

P-OU T # 2N- OUT

NEG IN CAPBANK

AMBERGREEN

+1 5VGN D-1 5 V

P-OU T # 3P-OU T # 1-1 5 V

1 2

J76 4 04 5 6 -2

PCB 158K - LOW VOLTAGE POWER SUPPLY, 2/3

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

Title

Rev isionDate13-Sep-2005

Z: \mjcfiles\pcb\158\switching60hz.ddb - 158K\pcb158k_ovp.sch

DC/DC, AND OVER-VOLTAGE PROTECTION

D71 .5 K E3 9 A

TP3TEST-LOO P

TP6TEST-LOO P

A1

A2

B3

X4

F38 3 08 3 5 FUSEHO LDER

C212 .2 u F

C2 04 7 uF,5 0V

L5

4 3 4- 13 -1 0 0 M BU+

C194 7uF,5 0V

123456

J66 4 044 5 -6

S1 AS1 B, OR D CS2 A, O R DCS2 B

Vin1

GN

D2

Vo u t 3

U57 8 24 (NO T NO RMALLY INSTALLED)

C1 34 7 uF,5 0V

C747 uF,5 0V

R50 , FOR 78 2 4 BYPA SS. N ORMA LLY IN STA LLED.

P-OU T # 1

Vin1

GN

D2

Vo u t 3

U27 8 10

1 2 3 4 5 6 7 8 9

J26 4 04 4 5 -9

+1 0V

-1 5 V

-5 V

+5 V

+ 3+1

-2- 5

C 4

U1

ASTRODY NE FEC1 5 -24 D 15 DC-D C

+ 3+1

-2- 5

C 4

U4

ASTRODY NE FEC1 5 -24 D 05 DC-D C

+1 5V

C1 12 .2 u F

L3

4 3 4- 13 -1 0 1 M C94 7 uF,3 5V

C62 .2 u F

L2

4 3 4- 13 -1 0 1 M C34 7 uF,3 5V

C14 7uF,3 5V

C82 .2 u F

L1

4 3 4- 13 -1 0 1 MC44 7 uF,3 5V

C1 22 .2 u F

L4

4 3 4- 13 -1 0 1 MC54 7 uF,3 5V

1 2 3 4 5 6 7 8 9 10

J11 -6 4 04 5 6-0

+10V

+15V

+15V

-15V

-5V

+5V

+5V

GN

D+2

4V+2

4V

+1 5V

GN D

+15V

-1 5 V -1 5 V

1 2

J82 2 -0 4- 10 2 1

C2 21 0 00 u F,3 5 V (P5 16 9 -ND )

C1 6

1 0 00 u F,3 5 V (P5 16 9-ND )

1 2

J96 4 04 4 5 -2

123

J1 0

6 4 04 5 6 -3

R2 01 0 K

X6TIE-DO WN-3 5 0

PCB 158K - LOW VOLTAGE POWER SUPPLY, 3/3

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

Title

Rev isionDate13-Sep-2005

Z: \mjcfiles\pcb\158\switching60hz.ddb - 158K\pcb158k_switching.sch

OVER-CURRENT PROTECTION

- 3

+2 - 1

+4K3

AQ Z10 2

D4

1 N5 3 0 5

R1 4

5 .1 K

D2

1N4 7 3 3A

R1 0

1 2 0 OY

EXT

A1

A2

B3

X4

F28 3 08 3 5 FUSEHO LDER

GN D1

I+2

I+3

GN D4 N/C 5

I- 6I- 7

OU T8

U6

MA X4 7 1

- 3

+2 - 1

+4K1

AQ Z102

-3

+ 2-1

+ 4

K2

OPT. A QZ10 2

D11 N4 7 3 6A

V+8

RESET4

TRIG2

THR6

CON T5

DI S7

GN D1

OU T 3

U7

MC1 4 5 5

R77 5 K

R1 14 .7 K

R9ROLO

+1 5V

R1 21 K

P-OU T # 2

810

Q1 DMPQ 22 2 2

13

Q1 AMPQ 22 2 2

N- OUTNEG IN

R1

0 , IF -1 5V SWITCHED BY OLO. N OT N ORMA LLY I NSTA LLED .

-1 5 V

CAPBANK

AMBERR1 9

6 8 0

75

Q1 BMPQ 22 2 2

R1 61 .2 K

+1 5V

R1 81 .2 K

GREEN

C1 04 7 uF,5 0V

TP5

TEST-LOO P

TP4

TEST-LOO P

1 234

K4RELA Y - PS7 200

+1 5V

TP2

TEST-LOO P

TP1

TEST-LOO P

C1 70 .1 u FC1 4

4 7 uF,3 5V

C1 5

0 .1u F

-1 5 V

X36 -3 2 MOUN T

X46 -3 2 MOUN T

X1 06 -3 2 MOUN T

(A NY 15V, NON-C MOS 555)

1412

Q1 CMPQ 22 2 2

DISAB LE OLO WHEN CH ARGIN G.

SHORTS OU T B ASE WHEN C HAR GING.

BU+

+1 5V

GN D

-1 5 V

X1KEY STON E 6 2 1 BRACKET

R1 5

0 , IF OLO USES IN T PS. NORMALLY I NSTALLED .

R1 7

0 , IF OLO USES EXT PS. N OT N ORMA LLY IN STA LLED.

C2 31 0 00 u F,3 5 V (P5 16 9 -ND )

C1 8

2 2 0u F,16 V (P5 1 39 -N D)

C2

OPT. 1 0 00u F,3 5 V (P5 16 9 -N D)

R2

OPT. 2 2 A Y

D8

1N5 3 0 5

D6

L6 27 1 1

X2

HV WA RN ING

D9

1 N4 1 4 8

D1 0

1 N4 1 4 8

+1 5V

DISAB LE AT POWER -OFF

DISAB LE AT POWER -ON

C244 7uF,3 5V

R41 5 0

(+15V LAGS HV BY 500 ms)

X5TRIMPOT ACCESS

Vin1

GN

D2

Vo u t 3

U37 8 12

C254 7uF,5 0V

R2 1

1 .5 K O Y

C2 6

0 .1u F

P-OU T # 3

P-OU T # 1

R3

3 0 0

R2 2

3 0 0

R8

NO T N ORMALLY USED (0 .0 2 5 O HM, WLA R02 5 FCT-N D)

43

2

15

K5

OPT. G 2RL-1 4 -DC2 4

1 2

3D5

25 CTQ 04 0 I N 29 4-1 0 51 -N D (S7 01 ) HEATSIN K

R6

4 7 0

R1 34 7 0, IF NO K 2 . NO RMALLY INSTALLED .

- 3

+2 - 1

+4K6

OPT. A QZ10 2

R2 4

4 7 0

R2 3

4 7 0, IF NO K 6 . NO RMALLY INSTALLED .

R2 5

51

12

J1 1

6 4 04 5 6 -2GR OU ND TOENA BLE OLO

TO AU X

R2 75 1

R2 61 .2 K

+1 5V

1 2 3+

4-

5+

6

K7OPT. A QV2 2 1

PCB 168B - HIGH VOLTAGE DC POWER SUPPLY

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

Title

Rev isionDate1-Apr-2005

P: \pcb\168\UV-A control\UV-A cont rol.ddb - 168B\PCB168B.sch

UV-A CONTROL PCB

1

GN

D1

+24V

IN

2

MO

N3

EN4

GN

D5

AD

JUST

6

REF

OU

T7

GN

D8

GN

D9

OU

T10

OU

T11

CASE 1 2

CASE 1 3

UV 11/8 A 24 -P2 0

D11N4 7 5 0 C1

2 .2 u F CER

CC

WC

W

W

TOP

VIE

W

R75 K, 3 2 6 6W

R81 0 0 OY

D3

1 N4 9 3 7

12

J1

6 4 04 4 5 -2

X1

HV WA RN ING

X2

HV WA RN ING

D2

1 N4 9 3 7

D4

1 N4 9 3 7

D5

1 N4 93 7 12

J4

6 4 04 4 5 -2

12

J3

64 04 4 5 -2

R5

R4

R2

R1

R6

123

J2

6 4 045 6 -3

ENA BLEAMP IN

+24V OLO

R3

R9

BLEED

R1 1

BLEED

R1 0

BLEED

PCB 152A - TIMING BOARD (1/2)

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

B

Title

Size Number Revision

DateFile

Other23-May-2007Z:\mjcfiles\pcb\152\tek-pcbm.ddb - Documents\ 152-OSC-DLY.sch

AVR-3-PW-C-P-TEK2 PCBM

E N5

R NG2

FC1 3

C X13

C X24

OSC VC C1 4

OSC GND1

Y 6

Z 8

U1

SN74 L S62 4

VC C

A1 0A9A8A7A6A5A4A3A2A1

W A

B 1 0B 9B 8B 7B 6B 5B 4B 3B 2B 1

W B

SW 17 1ADF36 -0 2-1

C C W

W

C W

1

2

3

R 1 15 K, PRF

VC C

1214

1 3

Q1 CM PQ6 00 2

2

13

Q1 AM PQ6 00 2

VC C

R 1 81 K

R 1 73 30

C 3 6

0 . 1u F

ADV

DL Y

A1 4

B2

1 G1

1 C O6

1 C 15

1 C 24

1 C 33

1 Y 7

2 G1 5

2 C O1 0

2 C 11 1

2 C 21 2

2 C 31 3

2 Y 9

U6

7 4AL S15 3B

5B

4B

3B

2B

1

WB

C5

C4

C3

C2

C1

WC

D5

D4

D3

D2

D1

WD

A5

A4

A3

A2

A1

WA

SW 47 1ADF36 -0 2-2

R 1

NOT USE D

R 2

NOT USE D

R 3

NOT USE DVCC

C C W

W

C W1

2

3R 1 62 5K, DE L AY

C3 0

UNUSE DR 1 44 . 7K

VCC

A1

B2

C L R3

C e xt1 4

R e xt /C e x t1 5

Q 1 3

Q 4

U5 A

7 4L S22 1

A9

B1 0

C L R1 1

C e xt6

R e xt /C e x t7

Q 5

Q 1 2

U5 B

7 4L S22 1

SW 2

9

1 08

U2 C

7 4AL S00

1 2

1 31 1

U2 D

7 4AL S00

C 4 01 20 pF

R 2 12 . 2K

VC C

A1

B2

C L R3

C e xt1 4

R e xt /C e x t1 5

Q 1 3

Q 4

U8 A

7 4L S22 1

R1 52 . 4K

C 1

C 2

C 3

C 4

C 6 C 7 C 8

INT T R I GGE R

T O SYNC SW

SW IT C HING

INT M ODE

2

31

U4 A

7 4AL S02

P5ADV

P2DL Y

P3

GND

C2 2

0 . 1u F

1 1

1 21 3

U4 D

7 4AL S02

SIMPLIFIED, COMPACTED VERSION OF PCB 80B

R 2 7

1 KVC C

PCB 152A - TIMING BOARD (2/2)

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

B

Title

Size Number Revision

DateFile

Other23-May-2007Z:\mjcfiles\pcb\152\tek-pcbm.ddb - Documents\ 152-PW .sch

AVR-3-PW-C-P-TEK2 PCBM

A1 0A9A8A7A6A5A4A3A2A1

W A

B 1 0B 9B 8B 7B 6B 5B 4B 3B 2B 1

W B

SW 57 1ADF36 -0 2-1

P7

OUT

P4

T R IG

C CW

C W

W

R 1 3PW , 20 K, 1 0T

VC C

6

75

Q1 BM PQ6 00 2

108

9

Q1 DM PQ6 00 2

VC C

1

23

U2 A

7 4AL S00

4

56

U2 B

7 4AL S00

A1 4

B2

1 G1

1 C O6

1 C 15

1 C 24

1 C 33

1 Y 7

2 G1 5

2 C O1 0

2 C 11 1

2 C 21 2

2 C 31 3

2 Y 9

U7

7 4AL S15 3

F1

T R 2 50 -0 80 UD31 N62 63

D11 N62 63

D21 N47 32 A

C 3 50 . 1u F

R 1 9

1 K

R 2 01 KVC C

A9

B1 0

C L R1 1

C e xt6

R e xt /C e x t7

Q 5

Q 1 2

U8 B

7 4L S22 1

01 011 121 231 341526

3 74

E I5 E O 1 5

A 9B 7C 6

GS 1 4

U9

7 4L S14 8

INTM ANE XT AE XT B

INT T R I GGE R

T O SYNC SW

SW IT C HING

INT M ODE

B5

B4

B3

B2

B1

WB

C5

C4

C3

C2

C1

WC

D5

D4

D3

D2

D1

WD

A5

A4

A3

A2

A1

WA

SW 67 1ADF36 -0 2-2

R 1 0

NOT USE D

R 9

NOT USE D

R 8

NOT USE D

R 2 3

2 . 4K

C1 1 C1 2 C 1 3

A1

B2

C L R3

C e xt1 4

R e xt / C e x t1 5

Q 1 3

Q 4

U3 A

7 4L S12 3

R 1 25 1K

VC C

C 2 72 2u F

A9

B1 0

C L R1 1

C e xt6

R e xt / C e x t7

Q 5

Q1 2

U3 B

7 4L S12 3

P6

+5VP8

GND

C 2 10 . 1u F

C2 30 . 1u F

C 2 40 . 1u F

C2 50 . 1u F

C 2 60 . 1u F

C 2 90 . 1u F

C 2 80 . 1u F

C 3 80 . 1u F

C 3 70 . 1u F

C 3 30 . 1u F

C 3 10 . 1u F

C 3 20 . 1u F

C3 92 2u F

VC C P9PAD-B OT

P10PAD-B OT

5

64

U4 B

7 4AL S02

CNC

NO

SW 3SW PUSHBUT T ON

C4 10 . 1u F

C3 40 . 1u F

P1T O FR ONT PANE L GND

8

91 0

U4 C

7 4AL S02

R 2 5

4 70

VC C

R 2 61 K

T P1T E ST -L OOP

P11

T R IG

P12

T O T RIG B NC GND

SIMPLIFIED, COMPACTED VERSION OF PCB 80B

MAIN WIRING

1 2 3 4 5 6

A

B

C

D

654321

D

C

B

A

Title

RevisionDate23-May-2007

Z:\m jc f i les \c irc uits \ avr-N \avr-N.dd b - AV R -D2-C\D 2-C wiring v1.s c h

AVR-D2-C

1B

T OP VIE W

B OT T OM VIE W

7 1ADF36 -0 2-1 -AJN

SW IT C H

7 1ADF36 -0 2-2 -AJN

SW IT CH

7 1ADF36 -0 2-1 -AJN

SW IT C H

7 1ADF36 -0 2-2 -AJN

SW IT C H

9 1C 1 A-D2 4-B1 3

5 K POT

9 1C1 A-D2 4-B 1 7

2 5K POT

8 A10 11 SW IT C H

M PA-1 03 F

PUSHBU T T ON

GN

D

+5V

GN

DO

UT

PC BM1PC BM - PC B 1 5 2

CONN1E XT T R IG

C 4 = 3 30 0 0 + 68 0 0 p FC 3 = 0 . 3 3+0. 0 68 u FC 2 = 3 . 3 uF T ANT + 0. 6 8 uF PO L YC 1 = 3 3 + 1 0 u F T ANT

R1 0 = NOT USE DR9 = NO T USE DR8 = NO T USE D

R 3 = NO T USE DR 2 = NO T USE DR 1 = NO T USE D

C 1 3 = NOT USE DC 1 2 = 33 0 pFC 1 1 = 82 p F

C8 = NO T USE DC7 = 5 60 + 56 0 pFC6 = 1 00 p F

R1 5, R2 3 =1 . 8K

CC

W

CW

W

R 2PW , 10 T , 2 0K

+5V

N/CHV

RE

F

SSR

GN

D-1

5V

+5V

+15

V

TR

IG

OU

T

TR

IG

M 2AVR-D2 -PG-P, M T A 9 9D

N/CHV

RE

F

SSR

GN

D+

24V

+5V

+15

V

-15V

OU

T

TR

IG

M 3AVR-D2 -PG-N, M T A 99 D

+HV

-2 4V

OU

T

GND

GND

GNDGND+24 V

N/C

T RIGGE R PN/C

T RIGGE R N

N/C+15 V-1 5V

OT OUTOT IN

R NG

M 1AVR-D2 -PG-B -OT

IN

M ON

OUT

LDC

K3AVR-D2 -OT

L 1

T OR OID

C ONN2

M ONCONN3

OUT

+-

N. O.

C OM

N. C

K2

C OAX R E L AY 4 01 -23 08 (2 4V)

+-

N. O.

C OM

N. C

K1

C OAX R E L AY 4 01 -23 08 (2 4V)

SW 1C HANNE L

A

A

B

B

SW 2POL ARIT Y

P

P

P

N

N

N+24 V, NO OL O

+15 V

A

B

CC

W

CW

WR 1OS, 10 T , 1 K

+10 V

SW 3OS

ON

OFF

UV SSR-1 5V+5V

+15 V

+24 V, NO OL OGND

-2 4V

CHS GND

+13 0VUV GND

0 T O +6 0 V

UV GND+60 V FIX E D

0 T O -60 V

UV GND-6 0V F IXE D

PERFORMANCE CHECK SHEET

32

WARRANTYTECHNICAL SUPPORTTABLE OF CONTENTSINTRODUCTIONSPECIFICATIONSEUROPEAN REGULATORY NOTESEC DECLARATION OF CONFORMITYDIRECTIVE 2002/95/EC (RoHS)DIRECTIVE 2002/96/EC (WEEE)

INSTALLATIONVISUAL CHECKPOWER RATINGSCONNECTION TO THE POWER SUPPLYPROTECTION FROM ELECTRIC SHOCKENVIRONMENTAL CONDITIONS

FUSESAC FUSE REPLACEMENTDC FUSE REPLACEMENTFUSE RATINGS

FRONT PANEL CONTROLSREAR PANEL CONTROLSGENERAL INFORMATIONBASIC TEST ARRANGEMENTTYPICAL TEST SETUPS

MINIMIZING WAVEFORM DISTORTIONSUSE 50 OHM TRANSMISSION LINES AND LOADSUSE LOW-INDUCTANCE LOADS

PREVENTING DAMAGEMECHANICAL INFORMATIONTOP COVER REMOVALRACK MOUNTINGELECTROMAGNETIC INTERFERENCE

MAINTENANCEREGULAR MAINTENANCECLEANING

WIRING DIAGRAMSWIRING OF AC POWER, 1/2WIRING OF AC POWER, 2/2PCB 158K - LOW VOLTAGE POWER SUPPLY, 1/3PCB 158K - LOW VOLTAGE POWER SUPPLY, 2/3PCB 158K - LOW VOLTAGE POWER SUPPLY, 3/3PCB 168B - HIGH VOLTAGE DC POWER SUPPLYPCB 152A - TIMING BOARD (1/2)PCB 152A - TIMING BOARD (2/2)MAIN WIRING

PERFORMANCE CHECK SHEET