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Table of Contents - Book 1Revised 1-03
BOOK ONE INTRODUCTION . . . . . . . . . . 1
GENERAL. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
THE HUMAN BODY AND ELECTRICALSHOCK . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
GENERAL. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
OHM’S LAW and ELECTRICAL CIRCUITS 5
OHM’S LAW (DC CURRENT) . . . . . . . . . . . . . . . . . . . . . . 5
ELECTRICAL CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . 6
FUNDAMENTALS OF ELECTRICITY. . . . 7
GENERAL. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
COMPONENT LOCATION . . . . . . . . . . . . 9
CRAWLER MACHINE GENERAL OVERVIEW . . . . . . . . . 9
OPERATOR CONSOLE OVERVIEW. . . . . . . . . . . . . . . . 10
OPERATOR CAB POSITION. . . . . . . . . . . . . . . . . . . . . . 10
ENGINE POSITION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
COMPRESSOR POSITION . . . . . . . . . . . . . . . . . . . . . . . 12
MAST AND COMPONENTS. . . . . . . . . . . . . . . . . . . . . . . 12
ELECTRONIC ENGINES. . . . . . . . . . . . . 13
GENERAL. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
CATERPILLAR 3406E EUI ENGINE DATA 15
SENSOR DESCRIPTIONS . . . . . . . . . . . . . . . . . . . . . . . 15
FAULT CODES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
3408E - 3412E FAULT CODES. . . . . . . . . . . . . . . . . . . . 19
CUMMINS QSK19 SERIES CELECT ELEC-TRONIC CONTROLS. . . . . . . . . . . . . . . . 21
DESCRIPTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
FAULT CODES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
ELECTRIC SCHEMATIC SYMBOLS. . . . 25
CIRCUIT SCHEMATICS . . . . . . . . . . . . . 27
GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
DESCRIPTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
ELECTRICAL COMPONENT SPECIFICA-TIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35
ELECTRICAL SYSTEMS COMPONENT DE-SCRIPTIONS . . . . . . . . . . . . . . . . . . . . . . 37
Table of Contents - Book 1 Page iii
Page iv
BOOK ONEINTRODUCTION
GENERAL
The Driltech Mission electrical system trainingmodule consists of book one electrical circuits.Training module book two testing and adjust-ing relates to the Gator, D55SP and D90KS,1190E series electronic controls.
These manuals are to be used in factoryapproved drill clinic training programs and elec-trical specialty training programs.
This book will be the final manual completingthe drill clinic training module program.
• Book oneIntroductionElectrical safetyOHM’S law and electrical circuitsFundamentals of electricityComponent locations (general)Electronic engines, Caterpillar and CumminsEngine specifications and diagnostic codesElectrical ISO symbolsCircuit schematicsElectrical component specificationsElectrical system terminologyFormulas and conversions
• Book twoGator electrical component locatorElectrical components testsElectrical component adjustmentsComponent specifications
D90KS electrical component locatorElectrical components testsElectrical component adjustmentsComponent specifications
DESCRIPTION
This manual will enable electric system identifi-cation and supply generic drawings for DriltechMission drilling equipment electrical systems.
Please refer to machine specific electric groupand electric system schematics by machineserial number.
Driltech Mission machine specific electricalschematic drawings are provided in the servicemanual and supplied with each new machine.
Component descriptions will be abbreviated,such as ACB alternator circuit breaker, MR mainrelay, VC voltage converter.
See section 14 of the Service Manual for a copyof the electrical schematic.
It may be helpful to use the rig Parts Manual tolocate other electrical components.
Introduction - Book One Page 1
Published by Driltech Mission, LLC - USA
All rights reserved. No part of this manual may be repro-duced in any form without the prior written consent fromDriltech Mission, LLC.
Part No. 023501-033
Page 2
THE HUMAN BODY ANDELECTRICAL SHOCK
GENERAL
Personnel safety should be the main concernwhen working with any electrical system or cir-cuit.
DESCRIPTION
Most circuits in any surface mine are of suffi-cient voltage to overcome your body’s resis-tance. Therefore the miner must be able torecognize and avoid coming into contact with anelectrical source.
When a person is electrocuted, he/shebecomes the path of least resistance for theelectrical source to ground and in effectbecomes the part of the circuit.
Properly grounded equipment is the best way toprevent electrical shock. Another effectivemeans is insulation by means of rubber glovesand boots, rubber mats, insulated platforms andguards around cables.
Handling electrical equipment with wethands or while standing in water will causeelectrocution. Handle all electrical equip-
ment in a dry environment.
The killing factor in electrical shocks is current.Current is measured in amps and is determinedby voltage. Ordinary household appliancesrequire currents high enough to kill a person.Current necessary to operate a 100 watt lightbulb is (eight 8) to (ten 10) times the fatalamount.• 5 milliamp (safe)• 8 milliamp (slight shock)• 20 milliamp painful shock• 50 milliamp (very painful shock)• 100 milliamp (possible fatal shock)
One milliampere (ma) is 1/1000 of an amp.
If a fellow worker becomes part of an electricalcircuit and cannot let go of the source, DO NOTrush over and grab him/her. You can becomepart of the electrical shock as well. Instead, dis-connect the power to the circuit. If this is notpossible, remove the person from contact byusing something insulated to PUSH or PULL theperson away while protecting yourself.
In the event of accidental electrical contact callfor help and apply the appropriate first aid mea-sures.
Federal law requires that any repair, installation,or testing of electrical equipment be done by orunder the supervision of a qualified electrician.
DANGER!
Electrical Safety Page 3
All disconnecting devices must be tagged out ofservice prior to work being performed.
Follow any lock out and tag out procedures rec-ommended by the mine site. Do not attempt tooperate the equipment until all lockout devicesare cleared by a shift supervisor(s).
HIGH VOLTAGE powered equipment should bede-energized before and during maintenancework is performed on the electrical systems.
Only electricians specifically trained to workwith high voltage circuits should be permitted toperform electrical maintenance.
Appropriate ground fault management systemsshould be employed at the mine and madeavailable to the specific machine.
Driltech Mission mandates that each minerresponsible to perform maintenance or operat-ing duties on a drill machine utilize the appropri-ate personnel protective equipment - PPEdeemed necessary to perform the duties of thejob or task assigned.
Page 4
OHM’S LAW and ELECTRICAL CIRCUITS
OHM’S LAW (DC CURRENT)
E = voltsI = amperesR = ohms
Amperes = volts Eohms R
Volts = amperes x ohms E = IR
Ohms = volts R = Eamperes I
ONE MILLIAMPERE = 1/1000 AMP
Ohm’s Law Page 5
ELECTRICAL CIRCUITS
-+
-+
-+
SERIES
PARALLEL
SERIES PARALLEL
G R
Page 6
FUNDAMENTALS OFELECTRICITY
GENERAL
Basic electrical terms mentioned in the DriltechMission training module are common to theindustry.
DESCRIPTION
The following terms apply to basic electric sys-tems.
• VOLTAGE
• ELECTRONS
• RESISTANCE
• OHMS
• CURRENT
• AMPERES
The following terms are common electrical sys-tem tools used to diagnose electrical compo-nents and the overall system performance:
• VOLTMETER
• AMMETER
• OHMMETER
In simple terms:
VOLTAGEVoltage provides the electrical pressure, orforce that causes the current or electrons toflow. The voltage is the difference in electricalpressure between two points in a circuit. Electri-cal voltage is measured in “volts”.
CURRENTElectrical current is the flow, or movement ofelectrons. This movement can be compared tothe flow of water through a pipe. Without pres-sure (voltage) the current will not flow. Electricalcurrent is measured in amperes or “amps”.
RESISTANCEResistance is simply a restriction of current flow.Increasing resistance reduces current flowwhich can be detected by voltage decreases orloss in the electrical circuit. Electrical resistanceis measured in “ohms”.
VOLTAGE = ELECTRICAL PRESSURE
CURRENT = ELECTRON FLOW
RESISTANCE“OHMS”
CURRENT“AMPS”
Fundamentals of Electricity Page 7
MAGNETIC FIELDA magnetic field is produced when current isforced through a conductor. The magnetic fieldand direction of flow are factors to considerwhen using test equipment such as ammeters.
TEST EQUIPMENTThe use of test meters is an invaluable andessential aid in diagnosing troubles in an electri-cal circuit. If values of voltage, current and resis-tance are not measured with suitable testmeters, only a guess can be made as to whattype of defect exist in the circuit.
VOLTMETERThe voltmeter is used to measure the electricalpressure in the circuit. Analog and digital mod-els are available. It is suggested to use the digi-tal type.
Voltmeters are always connected across (in par-allel with) a part of the circuit.
Voltmeters measure the difference in electricalpotential or pressure between the points wherethe voltmeter leads are attached.
Common 24 volt systems may read (0 - 32)volts.
Common 12 volt systems may read (0 - 16)volts.
AMMETERThe ammeter is used to measure the amount ofcurrent flow. It is suggested to use a digital typeammeter.
Ammeters generally require opening the circuitso the ammeter can be connected in series tomeasure the current flow.
Amps and milliampere are two common circuitflows concerning Driltech Mission products.
OHMMETERThe ohmmeter is used to measure resistance inthe circuit.
Ohmmeters are connected across the unit orportion of the circuit of which the resistance is tobe measured.
The ohmmeter has it’s own power source, usu-ally a small battery or fuse which forces currentthrough the circuit to be measured.
Never connect a ohmmeter to an externalsource of voltage. Battery, fuse or meter move-ment damage may occur.
+
-
VM
VOLTMETER
AM
AMMETER
Page 8
COMPONENT LOCATION
CRAWLER MACHINE GENERAL OVERVIEW
Typical crawler mounted machines use com-mon electrical component locations. Howeverthere are minor variations for some of the optionelectric coil-hydraulic venting components.
Maintenance for electrical systems include:
• learn the equipments electrical system priorto performing any electrical service
• follow electrical safety guidlines respectiveto company policy
• keeping the junction box doors closed andsealed from moisture
• periodic checks inside the junction box forterminal wire connections, tighten compo-nents as needed
• clean inside junction boxs with low pressuredry compressed air
• replace corroded wire terminals
• replace corrosion inhibitors 015411-001annually
• maintain a good seal for the wire bundleentering the cab through the fire wall
• eliminate any wire harness contact piontsthat rub against hard surfaces
• when applicable locate wire harnesses awayfrom contaminating fluids, (oils and fuels)
• test each battery, battery cables and thecharging system annually using approvedtest equipment and skilled personnel
(DCTJB)
LRP
FRP
RRP FFV HFP
FL4-6
FRSHVS HOT
DHP
ESSCSP
CFP
EFP
FL3
CITCATCOP
FOS FVS HOL
FL1
(LJB) (CJB 3)(EJB 2)
(CJB 1)
BAT*BDS*
ACC
(TIJB)
ESPB
FL2
FPS
PVS*LBS*RBS*
CAC
CFP
CLOCHI
ECL
LPS
ECF
VSS
EOTLT LS
EFL
(MJB)
CIS
BAT*BDS*
* ALTERNATE LOCATIONS
CBS
PLP
HWP
WIVAPSTCS
MCSMDS
( ) JUNCTION BOXES
Component Location Page 9
OPERATOR CONSOLE OVERVIEW OPERATOR CAB POSITION
Circuit breaker 1 through 13 are common. Addi-tional options may require extra circuit breakers.
Confirm wire numbers with machine specificelectrical group and schematics.
Circuit breakers 015178-0 - - have a 0 to 30VDC. Current capacity are 10, 15, 20, 25, 30,35, 40, and 50 amp breaker. They are normalclosed and will open under high electric loadsas well as electrical short circuits.
Each circuit breaker has a manual reset func-tion. Inspect each circuit breaker individually asthey are dedicated to specific circuits.
Typical wire and applications:
KS BPSSPB FPLEPB IRSMLS
LTCRTC
(CJB 1)(TIJB)
ESMWTG ATGOPG VM
RSM FLGMLE MLDLRL FRL RRL
FFS
POS
EDC
TFS
DMS
VSS LSWCSW CFL
BMS
CKE DIA
PITH BUZ
PL1-2PLS
ESPB1
CB1-13TIBPTPL MR VC HIR
TAR FSPCR1-4
VC*DPS
TB
SPB
BPS
EPB
KS
ESM
RSM
MLS
VM
ATG
FG
WTG
OPG
DMS*
OPERATOR STATION MONITORING
WIRE/SIZE APPLICATION
B 2/4/6/10 STARTING/SUPPLY
L 10/14 NIGHT LIGHTING
K 10/14 AIR CONDITIONING
A 14/16 OPERATOR MONITORING
H 14 CAB ACCESSORIES
INSIDE DOOR PANEL CAB JUNCTION BOX 1
CB1
CB8
CB9
CB13
CB8
CB9
Page 10
There are some variations between machinemodels. Verify wire and application withmachine specific electrical group and schemat-ics.
Electrical schematics and assembly drawingsare available for each model of Driltechmachine.
Electric schematics are used in conjunction withthis manual for training purposes. Electric sche-matics show all options available to the endproduct.
Each machine is customer specific and may notrequire all options available. When using electri-cal schematics it will be necessary to under-stand the machine specification. This isachieved by the machine serial number.
Machine features such as tram interloc, jackbrake tram interloc and rotary head - jack brakeinterloc will require a junction box positioned inthe operator cab lower left side under the opera-tor console.
Switches, relays and a floor mounted foot pedalenable the tram feature. The tram interoc com-ponents have a power indicator and a bypassfeature for diagnostic purpose.
E 14/16 12 VDC CONTROLS (EDC D90KS)
B 3/0 BATTERY POWER
S 14/16 CAB STARTING ENGINE RUNCIRCUIT PROTECTION
M 14/16 (16) DRILL MONITOR SYSTEM (DMS)
R 14/16 MACHINE TRAM/DRILL FEATURES
J 14 OPERATOR FEATURES ANDOPERATING OPTIONS
F 14/16 (16) MACHINE LEVELING DRILLINGFEATURES/OPTIONS
D 14 COLD WEATHER OPTIONS
C 14 DRILL/PROPEL FEATURE*
C 14 DRILL AUTOMATION*
N 14/16 24/12 ACCESSORIES*
P 14/16 24/12 ACCESSORIES*
T 14/16 (16) DEPTH COUNTER OPTIONS
G 3/0 2/4/6 BATTERY/ALTERNATOR GROUND
G 10/14/16 GROUND
WIRE/SIZE APPLICATION
VC*
TB
HIR TAR
MR
FFR
LOWER RIGHT SIDE DRILL CONSOLE PANEL
G
A1A2D1E1
L3
R3S1
CR1 CR2 CR3 CR4
TIBP
OPTIONAL TRAM INTERLOC JUNCTION BOX
Component Location Page 11
ENGINE POSITION
The engine junction box will support the enginestarting, engine run and circuit protection com-ponents.
The machine frame is the ground. All DC powerhappens due to selected components having aconstant ground to the machine frame.
SMS are magnetic solenoids that actuate withkey switched power from the starter pushbutton.One magnetic solenoid per engine starter. Thecontacts allow battery current from B6 wire toB3 and B4 wires to the engine starter solenoid.
ACB is a circuit breaker from the engine sup-plied alternator. They are 105 amp or 80 amprated.
MCB is the main circuit breaker for the entiremachine supply current. If the main circuitbreaker opens all machine power is lost.
COMPRESSOR POSITION
MAST AND COMPONENTS
Wires from switches positioned inside the mastshould have power and ground contactsbrought back to the operator cab junction box orequivalent for proper frame grounding.
INSIDE ENGINE JUNCTION BOX 2
ES
PB
MC
B
AC
B
SM
S2
SM
S1
ER
SD
R
AC
B
MC
BES
PB
2T
BTB
INSIDE COMPRESSOR JUNCTION BOX
ENC
RHU
FCS
HPP1
HPP2
PLP
PPSCIP
(MJB)
HWP
ROPRIPMLP
LOPLIP
FL2
Page 12
TRUCK MACHINE GENERAL OVERVIEW
Truck model drill machines may be mounted tovarious manufacturer truck assemblies.
• Crane Carrier Corp (CCC)
• Ford Motor Company
• Sterling
Truck carrier service literature is manufacturespecific. This manual does not give carrier spe-cific data.
(EJB)*
(EJB)*(LJB)
FL1-4
FL1-4
KS BPSSPB IRSEPB MLSOPG WTGATG VM
HFPCFP
CLOCHI
FIP
T25KW WATERWELL APPLICATION
FOS
ORS LSWFIS JBL
CIT CATCOP
JBP
Component Location Page 13
Truck mounted operator panel
Operator controls may vary between Driltechtruck mounted equipment. Electrical switches,lights and gauges are common where locationsmay differ.
Maintenance for electrical systems include:
• learn the equipments electrical system priorto performing any electrical service
• follow electrical safety guidlines respectiveto company policy
• keeping the junction box doors and coversclosed and sealed from moisture
• periodic checks inside the junction box forterminal wire connections, tighten compo-nents as needed
• clean inside junction boxs with low pressuredry compressed air
• replace corroded wire terminals
• replace corrosion inhibitors 015411-001annually
• maintain a good seal for the wire bundleentering panels and junction boxes
• eliminate any wire harness contact piontsthat rub against hard surfaces
• when applicable locate wire harnesses awayfrom contaminating fluids, (oils and fuels)
• test each battery, battery cables and thecharging system annually using approvedtest equipment and skilled personnel
Engine junction box, circuit breaker and wireapplications information in this section apply.
Refer to applicable electrical system schematicsor wire assembly drawings as they apply tomachine specific serial numbers.T25KW OPERATOR ELECTRIC PANEL
022529
CFL HFL OPGWTG ATG
KSIRS VMCSW
MLS
EPBFIS
LSW SPBBPS
LL FC RCS
Page 14
ELECTRONIC ENGINES
GENERAL
Driltech Mission uses two quality engine manu-facturers:
• Caterpillar
• Cummins
Both suppliers provide service through compe-tent world-wide distributor networks.
DESCRIPTION
The Driltech Mission products require enginehorsepowers that both manufactures are capa-ble of delivering.
Engines manufactured from 1993 to 1995 mayhave been served with either the Woodward orBarber Coleman type speed controls.
In 1995 and early 1996 to present the enginemanufacturers converted to electronically con-trolled engines with high pressure fuel systems
At present all Driltech Mission equipment uti-lizes the electronic fuel systems.
Light indicators at the operator station allow theoperator a means to monitor the engine ECM. Adata link connection enables diagnostic testequipment installation.
In the event that the check engine light is onand the diagnostic indicator light is flashing theoperator should take appropriate measures.
Refer to engine data section of this manual orthe engine specific diagnostic code retrievalspecs.
Crawler mounted operator controls are a desktype panel with hydraulic and electrical systems.
CATERPILLAR APPLICATION
CUMMINS APPLICATION
Electronic Engines Page 15
Truck model equipment operator controls are averticle panel with hydraulic and electrical sys-tems.
T25KW CATERPILLAR APPLICATION
DIAGNOSTICLIGHTS
Page 16
CATERPILLAR 3406E EUIENGINE DATA
SENSOR DESCRIPTIONS
EUI = electronic unit injection fuel system.
HEUI = hydraulic electronic unit injection fuelsystem.
ATMOSPHERIC PRESSURE SENSORMeasures crankcase pressure 0-116 kpa or 0-17 psi (5vdc)Atmospheric pressure sensing is used toreduce smoke emissions at high altitudes.
BOOST PRESSURE SENSORMeasures intake manifold pressure 20-340kpaor 3-49psi (5vdc)Boost pressure is used to reduce smoke emis-sions during acceleration.
COOLANT LEVEL SENSOROptional customer parameter selected.
COOLANT TEMPERATURE SENSORMounted on water outlet housing measures thetemperature of the engine coolant. Coolant tem-perature sensing is used to determine a coldmode operation for 6 cylinder engines. In coldmode timing is advanced and fuel delivery islimited. 3406E engines also have a three-cylin-der cutout feature during cold mode operation.Cold mode operation is activated whenever thecoolant temperature is below 63° F (17° C) andthe engine is not cranking. Cold mode remainsactive until the coolant temperature rises above63° F (17° C) or until the engine has been run-ning for 5 minutes.
FUEL TEMPERATURE SENSORMonitored to adjust fuel rate calculations and forfuel temp power corrections when fuel tempsexceed 86° F (30° C). Max power correction isat 158° F (70° C). Fuel temps exceeding 194° F(90° C) for ten minutes log a diagnostic code.
FUEL PRESSURE SENSORMonitors fuel pressure following engine startfrom 0-690 kpa (0-100psi). With the engine atoperating temperature, typical fuel pressurecan vary from 310 kpa (45 psi) at low idle to 448kpa (65psi) at rated rpm. The fuel check valve isdesigned to open between 413 and 438 kpa,(60-65 psi) to control fuel pressure. The fueltransfer pump has a internal relief valvedesigned to open around 620 kpa (90 psi) Thisvalve will not be open during normal operation.
INTAKE MANIFOLD AIR TEMPERATURESENSORAdjusts injection timing. High intake manifoldtemp warning diagnostic code is triggered at176° F (80° C). Very high temp warning diag-nostic code is at 230° F (110° C).
OIL PRESSURE SENSORMonitors oil pressure in the gallery followingengine start. Pressures from 0-690kpa or 0-100psi. (5vdc)
SPEED/TIMING SENSORDetermines both engine speed and fuel injec-tion timing by magnetic sensor to camshaft con-nection. Primary and secondary units apply(12vdc). If one sensor fails replace both units.
DIAGNOSTIC LAMPCommunicates engine status or operationalproblems. Two digit diagnostic codes are givenwith one-second pauses between code digits. Athree-second pause occurs between codes.Additional diagnostic codes may follow after the3-second pause.
ETHER INJECTION SYSTEMThe engine ECM controls the ether system toimprove the cold starting capability. The ECMuses the Coolant Temperature Sensor to controlether injection. The ECM uses actual enginerpm to determine if ether should be injected.The ether control logic assumes a “continuous”ether system is being utilized and the durationof injection is a linear function of coolant tem-perature. The automatic ether injection circuitturns ON the relay driver when the followingconditions are met. The engine speed must be
Caterpillar Engine Data Page 17
between 30 rpm and 1500 rpm and the coolanttemperature is between –40° to +50° F (-40° to+10° C). The ether injection time is selectedfrom a linear relationship between these tem-peratures. The end points of this function are –40° F (-40° C) for 130 seconds, 50° F (+10° C)for 15 seconds.
Manual ether injection can occur between 30and 1500 rpm if the coolant temperature isbelow 150° F (+60°C) for maximum time dura-tion of 2 minutes. This function is a customersupplied override switch.
CATERPILLAR PART NUMBERS (registeredas of 8/15/1999)
Troubleshooting the engine requires a skilledengine technician familiar electronic fuel sys-
SENSOR DESCRIPTION CAT. PART No.
Engine Oil Pressure 11 2350
Engine Coolant Temperature 102 2240
Atmospheric Pressure 111 8125
Inlet Air Temperature 107 8618
Engine Fuel Temperature 102 2240
Boost Pressure 11 2351
Engine Speed 129 6628
A
B
C
D
EF
GH
I
J
3406E CATERPILLAR ENGINE SENSORS (LEFT)
A CUSTOMER CONNECTORB TOP SPEED/TIMING SENSORC INLET AIR MANIFOLD PRESSURE SENSORD BOTTOM SPEED/TIMING SENSORE FUEL PRESSURE SENSORF FUEL TEMPERATURE SENSORG INLET AIR TEMPERATURE SENSORH TIMING CALIBRATION SENSORI ELECTRONIC CONTROL MODULE (ECM)J ATMOSPHERIC PRESSURE SENSOR
K COOLANT TEMPERATURE SENSORL OIL PRESSURE SENSOR
K
L
3406E CATERPILLAR ENGINE SENSORS (RIGHT)
SPECS
Page 18
tems and the computer program Cat (ET)Engine Technician.
A check engine and diagnostic light installed onthe machine operator panel will enable activefault codes to be seen when they occure. Thesequence of flashes represents the systemdiagnostic message.
The first sequence of flashes represents the firstdigit of the diagnostic code. After a two secondpause a second sequence of flashes will occurwhich represent the second digit of the diagnos-tic code.
Active diagnostic flash codes may be displayedwith the engine running or with the ignition keyin the on position, engine off.
Operators should take appropriate measureswhen a diagnostic light is flashing a two digitcode.
FAULT CODES
Engines are factory programed to shutdownunder common Caterpillar switch parameters.
• high coolant temperature approximate range221° F (105° C)
• water temp regulator fully open @ 208° F(98° C).
FLASHCODE DESCRIPTION SHUT
DOWN SER SCHSER
72 CYLINDER 1 FAULT X
72 CYLINDER 2 FAULT X
73 CYLINDER 3 FAULT X
73 CYLINDER 4 FAULT X
74 CYLINDER 5 FAULT X
74 CYLINDER 6 FAULT X
21 8 VOLT SUPPLY ABOVENORMAL
X
21 8 VOLT SUPPLY BELOWNORMAL
X
47 IDLE SHUTDOWN OCCUR-RENCE
46 LOW OIL PRESSUREWARNING
X X
24 OIL PRESSURE SENSOROPEN CIRCUIT
X
24 OIL PRESSURE SENSORSHORT CIRCUIT
X
46 VERY LOW OIL PRES-SURE
X X
25 BOOST PRESSURE READ-ING STUCK HIGH
X
25 BOOST PRESSURE SEN-SOR OPEN CIRCUIT
X
25 BOOST PRESSURE SEN-SOR SHORT CIRCUIT
X
64 HIGH INTAKE MANIFOLDTEMP WARNING
X
38 INTAKE MANIFOLD TEMPSENSOR OPEN CIRCUIT
X
38 INTAKE MANIFOLD TEMPSENSOR SHORT CIRCUIT
X
64 VERY HIGH INTAKE MANI-FOLD TEMPERATURE
X
26 ATMOSPHERIC PRESSSENSOR SHORT CIRCUIT
X
26 ATMOSPHERIC PRESSSENSOR OPEN CIRCUIT
X
61 HIGH COOLANT TEMPWARNING
X
27 COOLANT TEMP SENSOROPEN CIRCUIT
X
27 COOLANT TEMP SENSORSHORT CIRCUIT
X
61 VERY HIGH COOLANTTEMPERATURE
X
51 INTERMITTENT BATTERY X
65 HIGH FUEL TEMPERA-TURE WARNING
X
13 FUEL TEMPERATURESENSOR OPEN CIRCUIT
X
13 FUEL TEMPERATURESENSOR SHORT CIRCUIT
X
35 ENGINE OVERSPEEDWARNING
34 LOSS OF ENGINE RPMSIGNAL
X
21 5 VOLT SUPPLY ABOVENORMAL
X
21 5 VOLT SUPPLY BELOWNORMAL
X
53 ECM FAULT X
72 PERSONALITY MODULEFAULT
X
FLASHCODE DESCRIPTION SHUT
DOWN SER SCHSER
Caterpillar Engine Data Page 19
• low oil pressure is dependent on engine idlespeed, the approximate range is 32 psi @1200 rpm and 43 psi @ 2000 rpm.
• engine oil temperature should not exceed239° F (115° C).
Additional reference materials:
Caterpillar Electronic Troubleshooting GuideSENR 1012 and Troubleshooting manual SENR1073 for industrial engines.
Caterpillar 3406E Industrial engine, SystemsOperation Testing and Adjusting manual SENR1067 has necessary information for trouble-shooting and maintaining the engine systems.
Page 20
3408E - 3412E FAULT CODES
If an engine misfires and a loss of power occursa fault code should be displayed on the opera-tors panel. This situation may require machineshutdown and diagnostic tools to be attached tothe ECM for analysis.
FLASHCODE DESCRIPTION SHUT
DOWN SER SCHSER
71 CYLINDER 1 FAULT X
72 CYLINDER 2 FAULT X
73 CYLINDER 3 FAULT X
74 CYLINDER 4 FAULT X
75 CYLINDER 5 FAULT X
76 CYLINDER 6 FAULT X
77 CYLINDER 7 FAULT X
78 CYLINDER 8 FAULT X
81 CYLINDER 9 FAULT X
82 CYLINDER 10 FAULT X
83 CYLINDER 11 FAULT X
84 CYLINDER 12 FAULT X
14 INJECTION ACTUATIONPRESSURE CONTROLVALVE OPEN CIRCUIT
X
14 INJECTION ACTUATIONPRESSURE CONTROLVALVE SHORT TOGROUND
X
21 ANALOG SUPPLY OPEN/SHORT TO GROUND
X
21 ANALOG SUPPLY SHORTTO + BATTERY
X
21 DIGITAL SUPPLY SHORTTO + BATTERY
X
21 DIGITAL SUPPLY SHORTTO GROUND
X
22 INJECTION ACTUATIONPRESSURE SIGNAL OPEN/SHORT TO + BATTERY
X
22 INJECTION ACTUATIONPRESSURE SIGNALSHORT TO GROUND
X
42 ATMOSPHERIC SPRES-SURE SENSOR CALIBRA-TION
X
42 SPEED/TIMING SENSORCALIBRATION
X
42 BOOST PRESSURE SEN-SOR CALIBRATION
X
24 OIL PRESSURE SIGNALOPEN/SHORT + BATTERY
X
24 OIL PRESSURE SIGNALSHORT TO GROUND
X
25 BOOST PRESSURE SIG-NAL ABOVE NORMAL
X
25 BOOST PRESSURE SIG-NAL OPEN SHORT TO +BATTERY
X
25 BOOST PRESSURE SIG-NAL SHORT TO GROUND
X
38 INTAKE MANIFOLD TEMPSENSOR OPEN CIRCUIT
X
38 INTAKE MANIFOLD TEMPSENSOR SHORT CIRCUIT
X
26 ATMOSPHERIC PRES-SURE SIGNAL OPEN/SHORT + BATTERY
X
26 ATMOSPHERIC PRES-SURE SIGNAL SHORT TOGROUND
X
27 COOLANT TEMP SIGNALOPEN/SHORT TO + BAT-TERY
X
27 COOLANT TEMP SIGNALSHORT TO GROUND
X
27 FUEL TEMPERATURE SIG-NAL OPEN/SHORT TO +BATTERY
X
27 FUEL TEMPERATURE SIG-NAL SHORT TO GROUND
X
27 OIL TEMP SIGNAL OPEN/SHORT TO + BATTERY
X
27 OIL TEMP SIGNAL SHORTTO GROUND
X
34 LOSS OF PRIMARYSPEED/TIMING SIGNAL
X
34 PRIMARY SPEED/TIMINGSIGNAL OPEN/SHORT TO+ BATTERY
X
34 PRIMARY SPEED/TIME-ING SIGNAL ABNORMAL
X
34 LOSS OF SECONDARYSPEED/TIMING SIGNAL
X
34 SECONDARY SPEED/TIMIMG SIGNAL OPEN/SHORT TO + BATTERY
X
34 SECONDARY SPEED/TIM-ING SENSOR SHORT TOGROUND
X
37 FUEL PRESSURE SIGNALOPEN SHORT TO + BAT-TERY
X
37 FUEL PRESSURE SIGNALSHORT TO GROUND
X
53 INTERNAL ECM FAULT X
FLASHCODE DESCRIPTION SHUT
DOWN SER SCHSER
Caterpillar Spec Suppliment Page 21
Engines are factory programed to shutdownunder common Caterpillar switch parameters.
• high coolant temperature approximate range
• water temp regulator fully open
• low oil pressure is dependent on engine idlespeed, the approximate range is 32 psi @1200 rpm and 43 psi @ 2000 rpm.
• engine oil temperature should not exceed
3408E and 3412E HEUI fuel systems
1. cylinder head grounding stud
2. customer connector with Driltech wires
3. injection actuation pressure control valve
4. oil temperature sensor
5. oil pressure sensor
6. atmospheric pressure sensor
7. secondary speed/timing sensor
8. fuel temperature sensor
9. primary speed/timing sensor
10.coolant temperature sensor
11. tc probe connector
12.electronic control module (ECM)
13.coolant flow switch connector
14. injection actuation pressure sensor
15. turbocharger outlet pressure sensor
Additional reference materials:
Caterpillar operation and maintenance manualSEBU6960-003.Caterpillar Electronic Troubleshooting GuideSENR 1012 and Troubleshooting manual SENR1073 for industrial engines.
3408E - 3412E SERIES
Page 22
CUMMINS QSK19 SERIESCELECT ELECTRONIC
CONTROLS
DESCRIPTION
Cummins engines detect two types of faultcodes.
There are engine electronic fuel system faultcodes and engine protection system faultcodes.
All fault codes recorded will either be
• active (fault code is presently active onengine) or
• inactive (fault code was active at some time,but is not presently active).
Active fault codes may be read using the checkengine (amber) and diagnostic light (red) on thedrill console. Inactive fault codes may be readwith a laptop only.
To check for active fault codes:
• Turn the key switch to the off position.
• Move the diagnostic switch to the on posi-tion.
• Turn the key switch to the on position.
• If active fault codes are available the checkengine light will begin flashing a three digitcode with one second pauses between dig-its.
The lights will remain off during normal engineoperation.
• Red light on while engine is running, stopthe engine in a safe manner as soon as pos-sible. This fault may be engine disabling.
• Amber light on the engine can still be run butmay loose some system features which may
result in a power loss condition. The failuremust be repaired as soon as convenient.
Cummins engine protection system monitorsthe QSK series engines for:
• High coolant temperature
• Low coolant level (optional)
• Low coolant pressure
• High fuel temperature
• High intake manifold temperature
• Low/very low oil pressure
• High blow by pressure
SENSORS POSITIONED ON THE ENGINE
Some external components will be at differentlocations for different engine models.
A
BC D
E
FG
QSK CUMMINS ENGINE SENSORS (LEFT)
A COOLANT TEMPERATURE SENSORB OIL PRESSURE SENSORC INTAKE MANIFOLD TEMPERATURE SENSORD INTAKE MANIFOLD PRESSURE SENSORE ENGINE SPEED SENSORF AMBIENT AIR PRESSURE SENSORG ENGINE CONTROL MODULE
Cummins Engine Data Page 23
Troubleshooting the engine requires a skilledengine technician familiar with electronic fuelsystems.
Three lights positioned on the machine operatorpanel will enable active fault codes to be seenwhen they occur. The sequence of flashes rep-resents the system diagnostic message.
The first sequence of flashes represents the firstdigit of the diagnostic code. There will be a 1second pause between flashes. Codes are in athree digit numeric sequence.
Diagnostic retrieving may be performed usingthe toggle switch labeled increment/decrement.
H
H COOLANT PRESSURE SENSOR
I
I STARTER MOTOR
QSK CUMMINS ENGINE SENSOR (RIGHT)
Page 24
FAULT CODES
Reference material Quantum wiring diagrambulletin no. 3666133-02, Operator and mainte-nance manual QSK19 series engine bulletin no.3666120-02 (publication 020235-000)
FAULTCODE
DESCRIPTION EFFECT
111 ELECTRONIC CONTROL MODULE - MEM-ORY FAILED
RED LIGHT
115 ENGINE SPEED SENSOR - BOTH SIGNALSLOST
RED LIGHTSHUTDOWN
122 BOOST PRESSURE SENSOR - COMPO-NENT SHORT HIGH (> 4.72 VDC)
AMBER LIGHT
123 BOOST PRESSURE SENSOR - COMPO-NENT SHORT LOW ( < 0.33 VDC)
AMBER LIGHT
135 OIL PRESSURE SENSOR - COMPONENTSHORT HIGH ( > 4.88 VDC)
AMBER LIGHT
141 OIL PRESSURE SENSOR - COMPONENTSHORT LOW (< 0.31 VDC)
AMBER LIGHT
143 OIL PRESSURE SENSOR - DATA BELOWNORMAL RANGE
ENGINE PRO-TECTION
144 ENGINE COOLANT TEMP SENSOR - COM-PONENT SHORT HIGH ( . 4.95 VDC)
AMBER LIGHT
145 ENGINE COOLANT TEMP SENSOR - COM-PONENT SHORT LOW ( < 0.21 VDC)
AMBER LIGHT
151 ENGINE COOLANT TEMP SENSOR - DATAABOVE NORMAL ( 212° f 100° c)
ENGINE PRO-TECTION
153 iNTAKE MANIFOLD TEMP SENSOR - COM-PONENT SHORT HIGH ( > 4.88 VDC)
AMBER LIGHT
154 INTAKE MANIFOLD TEMP SENSOR - COM-PONENT SHORT LOW ( < 0.08 VDC)
AMBER LIGHT
155 INTAKE MANIFOLD TEMP SENSOR - DATAABOVE NORMAL (220° f 104° c)
ENGINE PRO-TECTION
221 AMBIENT AIR PRESSURE SENSOR - COM-PONENT SHORT HIGH (> 4.78 VDC)
AMBER LIGHT
222 AMBIENT AIR PRESSURE SENSOR - COM-PONENT SHORT LOW ( < 0.20 VDC)
AMBER LIGHT
234 ENGINE SPEED - DATA ABOVE NORMAL RED LIGHT
254 FUEL SHUT OFF VALVE - COMPONENTSHORT LOW ( < 17 VDC)
RED LIGHT
261 FUEL TEMPERATURE SENSOR - DATAABOVE NORMAL ( > 160° f 71° c)
ENGINE PRO-TECTION
263 FUEL TEMPERATURE SENSOR COMPO-NENT SHORT HIGH ( > 4.94 VDC)
AMBER LIGHT
265 FUEL TEMPERATURE SENSOR COMPO-NENT SHORT LOW ( < 0.21 VDC)
AMBER LIGHT
343 ELECTRONIC CONTROL MODULE - INTER-NAL COMMUNICATOR ERROR
AMBER LIGHT
346 ELECTRONIC CONTROL MODULE -POWER ERROR
AMBER LIGHT
415 OIL PRESSURE SENSOR - DATA INDI-CATES VERY LOW OIL PRESSURE
ENGINE PRO-TECTION
441 BATTERY VOLTAGE UNSWITCHED - DATABELOW NORMAL (12VDC)
AMBER LIGHT
442 BATTERY VOLTAGE UNSWITCHED - DATAABOVE NORMAL (38 VDC)
AMBER LIGHT
451 FUEL PRESSURE SENSOR - COMPONENTSHORT HIGH ( > 4.78 VDC)
RED LIGHT
452 FUEL PRESSURE SENSOR - COMPONENTSHORT LOW (< 0.15 VDC)
RED LIGHT
554 FUEL PRESSURE SENSOR - IN RANGEFAILURE (< 0.50 / > 1.83 VDC)
AMBER LIGHT
555 HIGH BLOW BY PRESSURE( > 14.5 IN H2O)
ENGINE PRO-TECTION
719 BLOW BY PRESSURE SENSOR - COMPO-NENT SHORT HIGH ( > 4.94 VDC)
AMBER LIGHT
729 BLOW BY PRESSURE SENSOR - COMPO-NENT SHORT LOW ( < 0.29 VDC)
AMBER LIGHT
FAULTCODE DESCRIPTION EFFECT
Cummins Engine Data Page 25
Page 26
ELECTRIC SCHEMATIC SYMBOLS
Electrical ISO Symbols Page 27
FUSETHERMAL OVERLOAD
CIRCUIT BREAKER(BREAKER)
PUSH BUTTON (N.O.) PUSH BUTTON (N.C.) SWITCH (N.O.)
PRESSURE SWITCH (N.O.)
FLOW SWITCH (N.O.) DIODE RHEOSTAT
BATTERY (MOTOR/GENERATOR)GAUGE
LIMIT SWITCH (N.O.) LIMIT SWITCH (N.C.)
LEVEL SWITCH (N.C.)TEMPERATURE SWITCH (N.C.)
RESISTORVARIABLE
FLOW
ALTERNATOR/
(TYPICAL SYMBOLS USED ON DRILTECH MISSION DRAWINGS)
COIL SOLENOID LIGHT
CONTACT (N.O.) CONTACT (N.C.)
PLUG & SOCKET
GROUND
COIL (INDUCTOR) CAPACITOR
I =RE
E = IR R =IE
I = AMPERES E = VOLTS R = OHMS
STRANDED WIRE
SOLID WIRE
Page 28
CIRCUIT SCHEMATICS
GENERAL
Driltech Mission equipment use common electri-cal components and similar design circuits.
DESCRIPTION
This section will show specific systems that arecurrently used across the product line.
When ever possible the wire number will beshown in this section training schematics. If thewire number is not shown the circuit is not com-mon across the product line.
Typical charging and starting circuits consist ofthe following components:
• 2 ea. 12 volt batteries in series to enable a24 volt circuit. (BAT, BDS, RS)
• Alternators are 75, 100 and 175 amp capac-ity, with circuit protection. (ALT, ACB)
• Main circuit breaker enables 80, 105or 180amp overload protection. (MCB)
• Key switch that enables operator monitoringand main relay power for the machine runmode. (KS)
• Neutral safety switches interrupt the startmode if propel levers are off neutral. (LTC,RTC)
• Bypass and start push buttons allow themachine operator starting control. (BPS,SPB)
• Manual ether injection for cold weather start-ing. Engine parameters enable or interruptthis feature. (EPB)
• Starter magnetic switches, one for eachstarter motor circuit. (SMS)
• Starter solenoids, one for each starter motor(STS).
• 50MT starter motors one or two dependingon operating condition. (STR) Pre-lube typestarter motors are available for special oper-ating conditions.
The components in this charging and start cir-cuit are positioned on the engine, in the enginejunction box (EJB2), in the operator cab (CJB1)and operator panel (OPJB).
Maintain the battery and charging system andrelated cables per 250 hour service instructions.
CC
CC
CCCC
CC
(
CHARGING AND STARTING CIRCUIT
KSCB
CB
TAR
TAR
SPBBPS
ACB
MC
B
STR
SMS
SMS STS
ALT
BAT
MR
MR
CB TA
B1
B1
B1
B6
B7
B2
B3
A1
LTC RTCB7 S1 S3
R1 R3
G
Circuit Schematics Page 29
The specific gravity of the batteries should bechecked between seasons. Ambient conditionswill effect battery capacity when a load isinduced.
Battery life may be affected by:
• dirt
• corrosion
• frayed cables
• overfilling
• loose hold down
• cell connector corrosion
• sealing compound defect
• cracked cell cover
• cracked case
• low electrolyte
Battery test equipment includes a hydrometer.When possible maintain battery electrolyte in a1.270 specific gravity range.
This may be achieved with 64% H2O and 36%acid H SO. Use distilled water as the filling solu-tion.
When replacing a battery cable, cut the cablelength as short as possible and route as directas allowable. Avoid sharp turns and bending.
Pre-lube starter may be fitted to the engine forcold weather operating conditions. The startersolenoid operates a gear pump. Engine oil willcirculate through the engine block to a normalclosed 4 psi (.3 bar) oil pressure switch.
When the start button is actuated prelube willoccur until engine oil pressure opens the switch.There will be a two second pause prior toengine start mode.
Neutral safety and tram alarms are manda-tory for crawler mounted drill machines. Due tothe cable or electronic controls that commandpump displacement a safety interlock is placedon the left and right tram controls that will inter-rupt the machines starting system.
Neutral safety switches are a component of alltram control levers.
Cable operated tram levers have the neutralswitches positioned on the center cam frameand a square pin is positioned on the rotatingcam of the same lever.
Electronic tram controls have a microswitchpositioned on the frame near the rotating cam.
CC
CC
TAR
TAR
ALM
LTC RTC
BPS
CB
CB
SPB SMS
NEUTRAL SAFETY AND TRAM ALARM
PROPEL NEUTRALSWITCH (5) ANDCONTACT PIN (F)
Page 30
Due to operating conditions and operator com-fort drill machines may be fitted with specificelectrical systems.
These options are a mix of proximity switches,magnetic switches, control relays, and hydraulicsolenoid valves.
The following will be the most common optionsfitted to machine applications.
• Feed override (POS, FRS, FOS)
• Fast feed (FFS)
• Tram interlock (TFS, PVS, LBS, RBS)
• Head/jack/brake interlock (LRP, RRP, FRP,RHU, CR1-4, PVS, LBS, RBS)
• Head loader interlock (FCS, PLP, HIR, FVS)
Options listed are customer specific. Theseoptions may be fitted to machines in the field bycompetent mechanical persons. Installationsmay require minor welding common hand tools,basic hydraulic and electrical system experi-ence.
Feed override
The feed override operating principal is toenable maximum feed pump pressure whenretracting drill pipe from a drilled blasthole.
Dependant on the type of feed pump the maxi-mum pressure allows the pump to be controlledfrom 0 through it’s specific output flow ratewhen maximum pressure is achieved.
Operators select the feed override mode. Thesequence shall start with the feed pump in neu-tral
• apply the pressure override toggle switch
• move the feed control valve to the hoist posi-tion
• select the appropriate feed pump speed withthe feed pump control
Note!When stopping the feed system the feed speedmust be slowed prior to centering the feed con-trol valve or switching the pressure overrideswitch.
The hydraulic valves are situated inside thehydraulic cabinet lower left side corner.
CC
FOSPOS FRSCB
G
FEED OVERRIDE SYSTEM
POS
FOS
FRS
Circuit Schematics Page 31
The hydraulic systems for feed vary slightlybetween machine applications. This exampleshows the most common open loop application.
It is preferred that the feed override solenoid beadded after the remote pressure control valve inopen loop piston pump applications.
Confirm feed override solenoid placement onD25KS, D245 and all 90 series machines.
Fast feed
Fast feed is a systems designed to increase thefeed cycle time when extending the feed cylin-der(s) and lowering the rotary head for multi-pass drilling applications.
Operators select this feature with a thumb con-trolled switch attached to top of the feed controlhandle.
Note!The application shall be used to lower the rotaryhead when it is empty of drill pipe.
The sequence for fast feed operation shall be
• select the feed control handle to the downposition
• set the feed pump control to the desiredspeed value from zero through full controlforward
• actuate the thumb control for fast feed
• release the thumb control to resume normalfeed speed
• center the feed pump control to slow thefeed system when preparing to stop orchange directions
• place the feed control handle in the centerposition
Do not use fast feed with drill pipe connected tothe rotary head.
FOS
OPEN LOOP FEED SYSTEM
*FVS*CIS
CC
FFI FFVFFS
CB
w
FAST FEED SYSTEM
FFS
SINGLE OR DUALCYLINDERS
COOLINGFAN SYSTEMPILOTFFV
FAST FEEDREGEN
Page 32
Tram interlock(s)
Crawler mounted equipment that are subjectedto varying ground terrains may require a sec-ondary operator control as a safety feature.
In the drill machine applications the terms dead-man and tram interlocks refer to the secondaryoperator control system.
Most often the tram interlock is a combination ofelectrical and hydraulic valves that enable thepropel pump and final drive brake systems tooperate when conditions are correct.
Components of the tram interlock consist of
• pump vent solenoid
• left brake solenoid*
• right brake solenoid*
• tram foot switch*
• tram interlock junction box*
• control relays*
• proximity switches
Tram interlock may be a basic system or addi-tional relays and switches may be attached foradded machine component safety
The sequence of operating the basic tram inter-lock system
• step on the tram foot switch (TFS)
• operate the tram control levers (LTC/RTC)forward or reverse as needed
• center the tram control levers to neutral posi-tion to stop the machine travel
• step off the tram foot switch
When stepping on the tram foot switch 24 VDCpower will energize the pump vent solenoid andwhen applicable the left and right brake sole-noids.
As the solenoid coils energize the hydraulicspools move, propel pump main pressure isblocked and the servo pressure can release thetrack brake enabling the tram mode.
Tram foot switches and terminal contact pinsare subject to corrosion from work shoes andenvironmental conditions. Clean or replace ter-minal contacts and wire ends as needed.
Applications used with leveling jacks may bejack/brake interloc.
Applications used to protect drill pipe and level-ing jacks may be head/jack/brake interloc.
RBS
LBS
PVSTFS
DEADMAN/TRAM INTERLOCK
TIJB
TFS
LTC RTC
Circuit Schematics Page 33
A tram interlock junction box supports 4 controlrelays, terminal strips a power light and bypassswitch.
Control relays are connected in series with lev-eling jack proximity switches and a rotary headposition switch. The bypass feature may beused during system diagnostic or troubleshoot-ing.
All leveling jacks shall be in the retracted posi-tion and the rotary head shall be up or near thecrown of the mast to enable tram interloc.
With head/jack/brake interloc the sequence ofoperating remains the same as long as thehead and jacks are up.
Hydraulic systems that use independant propelpumps need to supply servo oil to the trackbrake and deadhead system pressure to enablethe machine tram mode.
Tram interlocks may be configured differentlyaccording to machine model and machineoptions. Confirm machine specific serial numberto verify exact electrical and hydraulic connec-tions.
Specific to D25KS and D245S machines theelectrical system is powered through the drillpropel selector switch.
Hydraulic systems that use dual purpose pumps(propel/drill functions) do not supply servo oil to
PVS
LBSRBS
CR4
PVS
LBS
RBS
TIBPTPL
TFS
JACK/BRAKE INTERLOCHEAD/JACK/BRAKE INTERLOC
BRAKE
T T
TT
w
w
TT
TFS
PROPELPUMP
V
Z
P T
A B
P
T
A
24 VDC POWER IN
PVS
LBS
CRPVS
TIBP
TPL
TFS
DPS
Page 34
the track brake meaning brake solenoids arenot required. The pump vent solenoid has todeadhead system pressure to enable themachine tram mode.
If electrical systems cannot apply the hydrauliccomponents the hydraulic system may be termi-nated momentarily for diagnostic purpose. Pres-sure type #4 series hydraulic caps, plugs andunions are required.
Head loader interloc
A feature to protect the rotary head from con-tacting drill pipe loaders is referred to as headloader interloc.
Proximity switches are place in the mast frame,one for each drill pipe loader. The loader bottomsection seat plate will make contact with theproximity switch. Proximity switches are mag-netic sensing and offer a LED light to checksensitivity.
Sensing distance is 3/8 inch (10mm). Wirelength may be cut to fit the application. Deutchconnectors are used to connect switches intothe wire harness.
Proximity switches have three 18 gage wires.One each brown power in, black output to relayor control and blue ground.
The proximity switch black output wire actuatesa control relay circuit that enables or disablesthe hydraulic system feed pump pressure.
The left and/or right loader switch are normalclosed until it senses metal. Upon sensing metalthe loader proximity switch goes open. The feedcarrier switch and head interloc relay are notenergized.
When the feed vent solenoid becomes ener-gized via loader proximity switch and head inter-loc relay, hydraulic pressure through the feedvent solenoid dumps feed pump pressure todrain. This principal stops the feed mode.
TT
T T
w
P T
A B
V
TFS24 VDC POWER IN
DPS
PVS
LLS
RLS
HIRFCS
FVS
PLS
*HVS
*OPTIONAL
OPEN LOOP FEED PUMP
FVS
FOS
Vw
w
w
TT
TTX
Circuit Schematics Page 35
Centralizer, vee block and pipe positioner
Machines with extended masts and angle drilloptions use drill pipe guides. The guides areoperator selected. Use the pipe guide or cen-tralizer in full extend or retract positions only.
A drill pipe centralizer is used to stabilize twopiece drill pipe connections when used in a sin-gle pass drill method. The centralizer is placedmid section of a single pass mast assembly.
Vee block and pipe positioner are angle drillaccessories. The intended use is to stabilizedrill pipe during the change procedure.
When the operators use these items for theirintended principal drill pipe alignment will beproper for connecting drill pipe threads.
Caution:The rotary head may come in contact with thepipe guide or centralizer if not full retract orextend position.
A combination of proximity switches, controlrelays and solenoid valves may be used as asafety to protect these items. This circuit willgive notice to the operator that the guides are inposition.
The safety circuit may be a visual indicator lightor it may vent the feed pump to stop hydraulicsystem operation.
Hydraulic systems will vent the feed pump to anear zero pressure and stop the feed downmode until the centralizer position is corrected.
Note!:When the feed pump pressure is near zero thefeed and hoist circuits and lower stacker circuitsare affected.
CLSHIR
CIS
HPP2
HPP1
COL
HEAD CENTRALIZER INTERLOC
w
w
w
TT
T
X
T
CIS
FOS
D55SP FEED SYSTEM
V
Page 36
ELECTRICAL COMPONENTSPECIFICATIONS
GENERAL
Electrical components are purchased parts fromvarious vendors. Driltech Mission engineersdetermine ratings and capacities required forthe dedicated circuits.
DESCRIPTION
The following table may not show every compo-nent and may be modified on a as neededbasis.
Driltech Mission reserves the right to changeelectrical components on a as needed basiswhen new or improved components becomeavailable.
Component abbreviations and descriptions willbe shown and the specifications will be given fortroubleshooting purpose only.
ABREVIATION AC/DC VOLTAGE RESISTANCE
FLS 24/ 28VDC FULL 33.5 + 6EMPTY 240 + 20
ATS 0 - 24VDC 25OHM
WTS 0 - 24VDC 2 OHM
ESS
RSS
BAT 8D/12VDC/1400CCA
CR 0 24VDC 51 MA/472OHM
FOS 0 - 24VDC 33 - 45OHM
LTR
CLO
CHI
EDC
LRP 12/48 - 24VDC 200MA/200Hz
MR 12/36 - 24VDC 53OHM/25°C
OPS
RHU
RPC
STS
SMS
FLG 0 - 24VDC 33.5 - 240OHM
CB 0 - 30VDC
CR 12/24VDC
LTPS (500) 0 - 12VDC 25 - 29OHM
RTPS (500) 0 - 12VDC 25 -29OHM
FPV
RPV
LTPS (900) 0 - 24VDC 11OHM
RTPS (900) 0 - 24VDC 11 OHM
QB1COMMAND SIGNAL
15 - 24VDC0 - 10VDC
250 mA4 - 20 mA
CBS
CS
MCS 0 - 24VDC 33 - 45OHM
TCS 0 - 24VDC 33 - 45OHM
MDS 0 - 24VDC 33 - 45OHM
FVS 0 - 24VDC 33 - 45OHM
RRP 12/48VDC 200MA/200Hz
FRP 12/48VDC 200MA/200Hz
PVS (19.2/28.8) 24VDC 20MA/31W
LBS 0 - 24VDC 33 - 45OHM
RBS 0 - 24VDC 33 - 45OHM
ABREVIATION AC/DC VOLTAGE RESISTANCE
Component Specifications Page 37
Page 38
ELECTRICAL SYSTEMS COMPONENT DESCRIPTIONS
Driltech Mission abbreviated nomenclature and components for 12, 24 vdc and (AC ) systems.
ABREVIATION/COMPONENT ABREVIATION/COMPONENT ABREVIATION/COMPONENT
A B COP COMPRESSOR OIL PRESSURE SW.
ACB ALTERNATOR CIRCUIT BREAKER BAT BATTERY CP CONTROL PANEL
ACC AIR CONDITIONING CLUTCH BCH BOOM CONTROL HORIZONTAL CPM CIRCULATING PUMP/MOTOR
ACH AUXILLARY CAB HEATER BCV BOOM CONTROL VERTICLE CPS CENTRALIZER PROXIMITY SWITCH
ACT ACTUATOR 3508 BDS1 BATTERY DISCONNECT SWITCH 1 CR CONTROL RELAY
ACT ANALOG COOLANT TEMPERATURE BDS2 BATTERY DISCONNECT SWITCH 2 CSP COMPRESSOR SEPERATOR PRESS.
ACV AIR CONTROL VALVE BL BOOM LOWER CSW COMPRESSOR HI/LO SWITCH
AD ANGLE DISPLAY BMS BLOWER MOTOR SWITCH CTS COMPRESSOR TEMPERATURE SW.
ADH ANGLE DISPLAY HORIZONTAL BPS BYPASS SWITCH CUP CAB RAMP UP PUSHBUTTON
ADV ANGLE DISPLAY VERTICLE BR BOOM RAISE D
AET ANALOG ENGINE TEMPERATURE BS BASE STACKER DCP DUST COLLECTOR PURGE SWITCH
AJO ANTI JAM ON SWITCH BS BOTTOM STACKER DCS DUST COLLECTOR SOLENOIDS
AJP ANTI JAM PRESSURE SWITCH BSL BOOM SWING LEFT DCT DUST COLLECTOR TIMER
ALB AUTO LEVEL BOX BSR BOOM SWING RIGHT DH DOG HOUSE
ALC AUTO LEVEL CONTROLS C DHL DUST HOOD LIGHT
ALF AUTO LEVEL OFF SWITCH CAC CAB AIR CONDITIONER DHU DUST HOOD UP PROXIMITY SW.
AJP ANTI JAM PRESSURE SWITCH CAP CAPACITOR DI DIODE
ALT ALTERNATOR CAT COMPRESSOR AIR TEMPERATURE DIA DIAGNOSTIC LIGHT
AOF AIR VALVE OFF CB CIRCUIT BREAKER(S) DIS DIAGNOSTIC SWITCH
AON AIR VALVE ON CBD COMPRESSOR BLOWDOWN SWITCH DL DOME LIGHT
APS1 AIR PRESSURE SWITCH 2 CBS COMPRESSOR BYPASS SOLENOID DLD DOME LIGHT DIMMER
APS2 AIR PRESSURE SWITCH 2 CBV COMPRESSOR BLOWDOWN VALVE DLS DOME LIGHT SWITCH
AR AUTO LEVEL RELAY CC COMMON CONNECTOR DMS DRILL MONITOR SYSTEM
AS ANGLE SENSOR CDN CAB RAMP DOWN PUSHBUTTON DNR DOWN RELAY
ASI AUTO TONG SWING IN CFL COMPRESSOR FILTER LIGHT DP DRILLER PANEL
ASO AUTO TONG SWING OUT CFP1 COMPRESSOR AIR FILTER PRESS. DPH DIESEL PREHEATER
ASW AIR ON/OFF SWITCH CFP2 COMPRESSOR OIL FILTER PRESS. DPL DIESEL PREHEATER LIGHT
ATC AUTO TONG CLAMP CFS CONTROL OFF SWITCH DPS DIESEL PREHEATER SWITCH
ATG AIR TEMPERATURE GAUGE CHI COMPRESSOR HIGH SOLENOID DPS DRILL PROPEL SELECTOR SWITCH
ATR ANTI JAM TIMER RELAY CIT COMPRESSOR INTERSTAGE TEMP DR DRILL RELAY(S)
ATS AIR TEMPERATURE SENSOR CKE CHECK ENGINE LIGHT DSW DUST/WATER SOLENOID
ATU AUTO TONG UNCLAMP CLO COMPRESSOR LOW SOLENOID E
AVC AIR VALVE CONTROLER COL CONSOLE ON LIGHT ECF ENGINE COOLANT FLOW SW.
AVS AIR VALVE SWITCH CON CONNECTOR ECL ENGINE COOLANT LEVEL SW
Component Descriptions Page 39
ECM ENGINE CONTROL MODULE FECV FEED EXT CONT VERTICLE FTR FEED TILT RIGHT CONTROLLER
ECP ENGINE COOLANT PREHEATER FED FEED EXTEND DOWN STROKER FVS FEED VENT SOLENOID
ECT ENGINE COOLANT TEMPERATURE FEU FEED EXTEND UP STROKER G
EDC ELECTRONIC DEPTH COUNTER FFR FAST FEED RELAY GCS GROUND/CAB SELECTOR SWITCH
EFFL ENGINE FUEL FILTER LIGHT FFS FAST FEED SWITCH GDN GRND/RAMP DOWN PUSHBUTTON
EFFS ENGINE FUEL FILTER SWITCH FFV FAST FEED SOLENOID VALVE GEN GENERATOR SWITCH
EFL ENGINE FUEL LEVEL FIL FOAM INJECTION LIGHT GL GAUGE LIGHT
EFP ENGINE AIR FILTER PRESSURE FIP FOAM INJECTION PUMP GLS GAUGE LIGHT SWITCH
EIS ETHER INJECTION SWITCH FIS FOAM INJECTION SWITCH GOV ELECTRONIC GOVERNOR MODULE
EMB ENGINE MODULE BREAKER FJC FRONT JACK CONTROLLER GP GAUGE PANEL
ENC ENCODER FJL FRONT JACK LIGHT GS GENERATOR SOLENOID
EOP ENGINE OIL PRESSURE FJS FRONT JACKS PRESSURE SWITCH GUP GRND/RAMP UP PUSHBUTTON
EOT ENGINE OIL TEMPERATURE FL FLOOD LIGHT H
EP ENGINE PANEL FLG FUEL LEVEL GAUGE HBS HOLDBACK SOLENOID
EPB ETHER PUSHBUTTON FLS FUEL LEVEL SENDER HC HOIST CONTROL
EPS ENGINE PRESSURE SWITCH FOR FEED OVERRIDE RELAY HDS HOOD DOOR SWITCH
ER ETHER RELAY FOS FEED OVERRIDE SOLENOID HFP HYD FILTER PRESSURE SWITCH
ESL ENGINE STOP LIGHT FPA FEED PRESSURE AMPLIFIER BOARD HIR HEAD INTERLOC RELAY
ESM ENGINE SPEED METER FPC FEED PRESSURE CONTROL HMS HOUR METER SENDER
ESO ETHER SOLENOID FPD FEED PUMP DOWN COIL HOL HYDRAULIC OIL LEVEL
ESPB EMERGENCY STOP PUSHBUTTONS FPL FRONT JACK PRESSURE LIGHT HOT HYDRAULIC OIL TEMPERATURE
ESS ENGINE SPEED SENSOR FPL FILTER PRESSURE LIGHT HPP HEAD POSITION PROXIMITY
ETR ETHER TIMER RELAY 3508 FPS FILTER PRESSURE SWITCH HPP1 HEAD POSITION PROXIMITY 1
ETS1 ENGINE TEMPERATURE SWITCH FPS FEED PUMP STROKER HPP2 HEAD POSITION PROXIMITY 2
ETS2 ENGINE TEMPERATURE SWITCH FPU FEED PUMP UP COIL HRS HOOD RETRACT SWITCH
F FPV FEED PRESSURE VALVE HSW HOLDBACK SWITCH
FBPB FAN BYPASS PUSHBUTTON FRF FEED REPLENISHMENT FILTER HWI HOLDING WRENCH IN CONTROL
FBS FAN BYPASS SOLENOID FRHL FRONT/REAR HI/LO LEVEL SENSOR HWO HOLDING WRENCH OUT CONTROL
FC FEED CONTROLLER FRL FRONT JACK LIGHT HWS HOLDING WRENCH SWITCH
FCH FEED CONTROLLER HORIZONTAL FRP FRONT JACK PROXIMITY SWITCH HVS HOLDING VALVE SOLENOID
FCM FEED CONTROL MODULE FRS FEED RETRACT SWITCH HWI HOLDING WRENCH IN CONTROL
FCS FEED CYLINDER SWITCH FS FUEL SOLENOID I
FCV FEED CONTROLLER VERTICLE FS FEED STACKER IL INSTRUMENT LIGHT
FDF FEED DUMP FORWARD SOLENOID FSP FIRE SUPPRESSION PRESSURE SW. ILS INSTRUMENT LIGHT SWITCH
FDR FEED DUMP REVERSE SOLENOID FSR FUEL SOLENOID RELAY INC INCREMENT/DECREMENT SWITCH
FEC FEED EXTEND CONTROLLER FTC FEED TRAM CONTROLLER IP INSTRUMENT PANEL
FECH FEED EXT CONT HORIZONTAL FTL FEED TILT LEFT CONTROLLER IRS IDLE RUN SWITCH
ABREVIATION/COMPONENT ABREVIATION/COMPONENT ABREVIATION/COMPONENT
Page 40
IL INSTRUMENT LIGHT LT LUBE TIMER P
ILS INSTRUMENT LIGHT SWITCH LTC LEFT TRAM CONTROLLER PBI POWER BREAK IN CONTROL
INC INCREMENT/DECREMENT SWITCH LTPS LEFT TRAM PUMP STROKER PBC POWER BREAKOUT CLAMP
IP INSTRUMENT PANEL LTR LUBE TIMER RELAY PBL PLUGGED BIT LIGHT
IRS IDLE RUN SWITCH LTS LUBE TIMER SOLENOID PBS PLUGGED BIT SOLENOID
ITR IDLE TIMER RELAY LU LOADER UNLOCK CONTROL PBU POWER BREAKOT UNCLAMP
J M PGI PIPE GUIDE IN CONTROL
JB JUNCTION BOX 1 (CAB) MCB MAIN CIRCUIT BREAKER PGO PIPE GUIDE OUT CONTROL
JB JUNCTION BOX 2 (ENGINE) MCS MODE CONTROL SOLENOID PGS PIPE GUIDE SWITCH
JB JUNCTION BOX 3 (COMPRESSOR) MDS MOTOR DISPLACEMENT SOLENOID PHDL PRESET HOLE DEPTH LIGHT
JB JUNCTION BOX (MAST) MJB MAST JUNCTION BOX PITH PIPE IN THE HOLE SWITCH/LIGHT
K ML MAP LIGHT PL PANEL LIGHTS
KS KEY SWITCH MLC MAST LOCK CONTROLLER PL1 PANEL LIGHT1
L MLD MAST LOCK DISENGAGE LIGHT PL2 PANEL LIGHT 2
LBS LEFT BRAKE SOLENOID MLE MAST LOCK ENGAGE LIGHT PLC PROGRAM LOGIC CONTROLLER
LEL LEVEL LIGHT MLS MAIN LIGHT SWITCH PLP PIPE LOADER PROXIMITY
LFP LEFT FRONT PROXIMITY SWITCH MP MONITOR PANEL (DMS) PLS PANEL LIGHT SWITCH
LFS LEFT FRONT JACK LIMIT SWITCH MR MAIN RELAY PM PRESSURIZATION MOTOR
LIP LEFT INSIDE PROXIMITY SWITCH MRC MAST RAISE/LOWER CONTROLLER POS PRESSUR OVERRIDE SWITCH
LL LOADER LOCK CONTROLLER MS MIDDLE STACKER PPD PICKUP POT DOWN CONTROL
LLS LOADER LOCK SWITCH MS MICROSWITCH PPU PICKUP POT UP CONTROL
LLT LUBRICATOR LIGHT MSS MODE SELECTOR SOLENOID PS PRESSURE SWITCH
LOP LEFT OUT PROXIMITY SWITCH MSW MODE SELECTOR SWITCH PTS PRELUBE TIMER SOLENOID
LPS LUBE PRESSURE SWITCH O PVS PUMP VENT SOLENOID
LRHL LEFT/RIGHT HI/LO LEVEL SENSOR OFS ON/OFF SOLENOID R
LRJC LEFT REAR JACK CONTROLLER OPG OIL PRESSURE GAUGE RAD RADIO
LRL LOADER ROTATE LEFT CONTROL OPS OIL PRESSURE SENDER RBS RIGHT BRAKE SOLENOID
LRL LEFT REAR JACK LIGHT ORS OVERRIDE SWITCH RC ROTATION CONTROLLER
LRP LEFT REAR PROXIMITY SWITCH OTA OVER TILT ALARM RCS ROTARY CONTROL SWITCH
LRR LOADER ROTATE RIGHT CONTROL OTL OVER TILT LIGHT RDS REMOTE DEADMAN SWITCH
LRS LEFT REAR JACK LIMIT SWITCH OTM OVER TILT MODULE RES RESISTER
LS LUBE SOLENOID OTP OVER TILT PRESSURE SWITCH RFL RIGHT FRONT JACK LIGHT
LSB LIGHT SWITCH BREAKER OTR OVER TILT RELAY RFP RIGHT FRONT PROXIMITY SWITCH
LSI LOADER SWING IN CONTROL OTS OVER TILT SENSOR RFS RIGHT FRONT JACK LIMIT SWITCH
LSO LOADER SWING OUT CONTROL RHE RHEOSTAT
LSS LOAD SENCE SOLENOID RHM ROTARY HOUR METER
LSW LUBRICATOR SWITCH RHU ROTARY HEAD UP PROXIMITY SW.
ABREVIATION/COMPONENT ABREVIATION/COMPONENT ABREVIATION/COMPONENT
Component Descriptions Page 41
RIP RIGHT INSIDE PROXIMITY SWITCH STS1 STARTER SOLENOID 1 WAL WARNING ALARM
RJL RIGHT JACK UP LIGHT STS2 STARTER SOLENOID 2 WAM WASHER MOTOR
RLS RAISE/LOWER SELECTOR SWITCH SS SEAT SWITCH WAS WASHER SWITCH
RMS ROTARY MOTOR SOLENOID T WCS WINCH CONTROL SWITCH
ROP RIGHT OUSIDE PROXIMITY SWITCH TA1 TRAM ALARM WGB WINCH GROUND CONTROL BOX
ROS ROTATION OVERRIDE SOLENOID TA2 TRAM ALARM WIA WATER INJECTION AMPLIFIER
RPA ROTATION PRESSURE AMPLIFIER TAL TRAM ALARM WAL WARNING ALARM
RPC ROTATION PRESSURE CONTROL TAR TRAM ALARM RELAY WAM WASHER MOTOR
RPF ROTATION PUMP FORWARD COIL TB TERMINAL BOARD WS WIPER SWITCH
RPR ROTATION PUMP REVERSE COIL TCS TORQUE CONTROL SOLENOID WSW WARNING ALARM SWITCH
RPS ROTARY PRESSURE SWITCH TFS TRAM FOOT SWITCH WTG WATER TEMPERATURE GAUGE
RPV ROTARY PRESSURE VALVE TGS THREAD GREASE SOLENOID WTS WATER TEMPERATURE SENDER
RRA ROTATION RATE AMP BOARD TGSW THREAD GREASE SWITCH
RRJC RIGHT REAR JACK CONTROLLER TIBP TRAM INTERLOC BYPASS
RRL RIGHT REAR JACK LIGHT TIJB TRAM INTERLOC JUNCTION BOX
RRP RIGHT REAR PROXIMITY SWITCH TIM TAMROCK INTEGRATED MEASURING ELECTRIC MACHINE APPLICATION (DC)
RRS RIGHT REAR JACK LIMIT SWITCH TOL TIMER ON LIGHT B
RS REMOTE START TPB TEST PUSHBUTTON BB BUS BAR
RSD RIGHT STRUT DISENGAGE TPL TRAM POWER LIGHT C
RSE RIGHT STRUT ENGAGE TR TRAM RELAY(S) CC COMMON CONNECTOR
RSM ROTARY SPEED METER TS TIMER SWITCH CDI CABINET DOOR INTERLOC SWITCH
RSS ROTARY SPEED SENSOR U CIG CIGARETTE LIGHTER
RTC RIGHT TRAM CONTROLLER UPR UP RELAY CPT CONTROL POWER TRANSFORMERS
RTPS RIGHT TRAM PUMP STROKER V CRB CABLE REEL BYPASS SWITCH
RTS REMOTE TRAM SELECTOR VC VOLTAGE CONVERTER CRH CABLE REEL HEATER
S VM VOLT METER CRI CABLE REEL INTERLOC RELAY
SDR SHUTDOWN RELAY VSF VARIABLE SPEED FAN SWITCH CRJB CABLE REEL JUNCTION BOX
SJB STROKER JUNCTION BOX VSS VARIABLE SPEED SOLENOID CRM CABLE REEL MOTOR
SL STROBE LIGHT VVS1 VARIABLE VOLUME SOLENOID 1 CROT CABLE REEL OVER TRAVEL SW.
SLS STROBE LIGHT SWITCH VVS2 VARIABLE VOLUME SOLENOID 2 CRSS CABLE REEL SLACK SWITCH
SMS1 STARTER MAGNETIC SWITCH W CT CURRENT TRANSFORMER
SMS2 STARTER MAGNETIC SWITCH WAL WARNING ALARM D
SPB STARTER PUSH BUTTON WAM WASHER MOTOR DH DOG HOUSE
SPS STACKER PRESSURE SWITCH WAS WASHER SWITCH DJB DOG HOUSE JUNCTION BOX
STB SOLENOID TERMINAL BOARD WCS WINCH CONTROL SWITCH E
STR1 STARTER MOTOR WGB WINCH GROUND CONTROL BOX EL ELECTRIC LIGHT
STR2 STARTER MOTOR WIA WATER INJECTION AMPLIFIER ELP ELECTRIC LIGHTING POWER SUPPLY
ABREVIATION/COMPONENT ABREVIATION/COMPONENT ABREVIATION/COMPONENT
Page 42
EMH ELECTRIC MOTOR HEATER S
EMJB ELECTRIC MOTOR JUNCTION BOX SH SPACE HEATER
F SI SAFETY INTERLOC
FJB FRONT JUNCTION BOX T
FLU FLUORESCENT LIGHT TC THERMOSTAT CONTROL
FLUS FLUORESCENT LIGHT SWITCH THER THERMOSTAT
G U
GFM GROUND FAULT MONITOR UVR UNDER VOLTAGE RELAY
H
HBB HEATER BREAKER BOX
HF HOUSE FAN 1-3
HVJB HIGH VOLTAGE JUNCTION BOX
L
LCB LOAD CENTER BOX
LJB LIGHTING JUNCTION BOX
LLC LIGHTIN LOAD CENTER
LML LEFT MAST JUNCTION BOX
M
MCC MOTOR CONTROLLER CABINET
MCP MOTOR CONTROL POWER
MD MAIN DISCONNECT SWITCH
MH MACHINE HOUSE
MM MOTOR MANAGER
MMF MOTOR MONITOR FAULT
MMS MAIN MOTOR STOP 1-3
MPS MAIN POWER SWITCH
MWT MOTOR WINDING TEMPERATURE
R
REC RECEPTACLE
RPH REVERSE PHASE SEQUENCE
RSP REMOTE START PANEL
RST REMOTE START PUSHBUTTON
RTD MOTOR TEMP SENSORS 1-6
RTR REEL TIMING RELAY
ABREVIATION/COMPONENT ABREVIATION/COMPONENT ABREVIATION/COMPONENT
Component Descriptions Page 43
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