TM

LOFA EL240
Panel Operation and Troubleshooting Manual
9M02-0240-A001-EN
 LOFATM EL240
Panel Operation and Troubleshooting Manual

Revision History
VERSION DATE NOTES
10/2006 Initial Release
A 01/2007 Updated schematics, removed Power Box information
A.1 02/2007 Added part numbers
B 09/2013 Updated format and schematics
A 05/2015
C 11/2020 Document rebranded and contact information updated

Any information furnished by Cattron™ and its agents is believed to be accurate and reliable. All specifications are subject to change without notice.
Responsibility for the use and application of Cattron products rests with the end user since Cattron and its agents cannot be aware of all potential uses.
Cattron makes no warranties as to non-infringement nor as to the fitness, merchantability, or sustainability of any Cattron products for any specific
or general uses. Cattron Holdings, Inc., or any of its affiliates or agents shall not be liable for incidental or consequential damages of any kind. All
Cattron products are sold pursuant to the Terms and Conditions of Sale, a copy of which will be furnished upon request. When used as a tradename herein,
Cattron means Cattron Holdings, Inc. or one or more subsidiaries of Cattron Holdings, Inc. Cattron™, corresponding logos, and other marks are
trademarks or registered trademarks of Cattron Holdings, Inc. Other marks may be the property of third parties. Nothing herein provides a license under
any Cattron or any third party intellectual property right.

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Contents

1 Introduction...........................................................................................................................................................5
2 Important Safety Information ................................................................................................................................6
3 Operation..............................................................................................................................................................7
3.1 Preheat Options ........................................................................................................................................8
3.1.1 Preheat Output ............................................................................................................................8
3.1.2 Preheat Indication Input ...............................................................................................................8
3.2 Indicators ..................................................................................................................................................8

3.2.1 Battery LED (Red) .............................................................................................................8

3.2.2 Oil Pressure LED (Red) ................................................................................................8

3.2.3 Temperature LED (Red) ........................................................................................................9

3.2.4 AUX 1 LED (Red) .............................................................................................................9

3.2.5 AUX 2 LED (Red) ..............................................................................................................9

3.2.6 Preheat LED (Red)........................................................................................................... 10

3.3 Gauges .................................................................................................................................................. 10
3.3.1 Voltmeter .................................................................................................................................. 10
3.3.2 Tachometer ............................................................................................................................... 10
3.3.3 Oil Pressure Gauge .................................................................................................................. 10
3.3.4 Temperature Gauge ................................................................................................................. 11
3.3.5 Hourmeter ................................................................................................................................. 11
3.3.6 Additional Gauges .................................................................................................................... 11
3.4 Harness.................................................................................................................................................. 11
3.4.1 Sealed Connectors ................................................................................................................... 11
3.4.2 Unsealed Connectors ............................................................................................................... 12
3.4.3 Harness Routing ....................................................................................................................... 12
3.5 Battery Circuit Requirements ................................................................................................................. 12
3.5.1 Battery Positive Connection ..................................................................................................... 12
3.5.2 Battery Negative Connection (Grounding) ............................................................................... 13
3.5.3 Voltage Drop ............................................................................................................................. 13
3.6 Suppression of Voltage Transients (Spikes) ......................................................................................... 13
3.7 Welding on Equipment with Electronic Controls .................................................................................... 14
4 Troubleshooting ................................................................................................................................................ 15

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4.1 General Troubleshooting ....................................................................................................................... 15

4.2 Fuel Run/Stop Solenoid Troubleshooting .............................................................................................. 16
4.3 Preheat Troubleshooting ....................................................................................................................... 17
4.4 Panel Troubleshooting ........................................................................................................................... 17
4.4.1 Testing Shutdown Inputs .......................................................................................................... 18
5 Typical Schematics ........................................................................................................................................... 19
6 Additional Information ....................................................................................................................................... 21
6.1 Products/Deliverables ............................................................................................................................ 21
7 Technical Support ............................................................................................................................................. 22

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1 Introduction
This document provides general information on LOFA™ EL240 panel operation and troubleshooting. EL240
control panels are a flexible platform for diesel engine control, monitoring and protection, featuring LOFA™’s
powerful First Fault Diagnostics (FFD). After pinpointing the initial failure, FFD stores it in memory and alerts the
end user via a single bright LED. FFD monitors battery charge, low oil pressure, high temperature and up to two
additional contact closure inputs. The microprocessor-based solid-state design uses high-power semiconductors
instead of outdated electromechanical relays to ensure reliable high-current switching.
The EL240 can be factory configured with specific preheat and afterglow requirements. Alternatively, preheat can
be factory configured for indication from external preheat control. If preheat is not required, this output can
function as an alarm.
All standard panels feature a 12-inch wiring harness terminating into a sealed weather-proof plug. This
robust universal wiring connection performs well in harsh environments and allows interchanging a number
of different panels and harnesses. This design allows for simplified installation as well as a flexible means to
incorporate custom plug-and-play engine wiring harnesses and standard harness extensions.

Note: The engine harness is not included with the panel.

A number of standard engine harnesses are available, or Cattron can develop a custom harness for
your exact needs.
Generic harnesses in various lengths are available for field customization.

WARNING
WHEN REPLACEMENT PARTS ARE REQUIRED, CATTRON RECOMMENDS USING
REPLACEMENT PARTS SUPPLIED BY CATTRON OR PARTS WITH EQUIVALENT
! SPECIFICATIONS.
FAILURE TO HEED THIS WARNING CAN LEAD TO PREMATURE FAILURE, PRODUCT DAMAGE,
PERSONAL INJURY OR DEATH.

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2 Important Safety Information

Please note the following important safety information:
• The warnings in this publication are not all inclusive
• Cattron cannot anticipate every potential hazard
• Appropriate safety rules and precautions should be followed with any tool, work method or operating
procedure
• Improper procedures, tools and materials may cause damage or make the equipment unsafe to operate
• Only persons with appropriate training, skills and tools should perform these functions
• Improper operation, maintenance or repair of this product can be dangerous and may result in injury or
death
• Do not operate or perform any maintenance or repair on this product until all operation, maintenance and
repair information is read and understood
• The information, specifications and illustrations in this publication are based on information available at
the time of publication
• All items are subject to change at any time without notice

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3 Operation
Turning the panel key to the run position starts a self-test which causes all LEDs to illuminate once and enables
the fuel run/stop solenoid output. After self-test, the LEDs indicate the state of the inputs they monitor. The normal
indications are battery charge and oil pressure on most applications. If these LEDs are not illuminated at this time,
it may indicate the inputs are not properly connected.
The Preheat LED is illuminated when the key switch is turned to the run position if automatic preheat is configured
or if an external preheat control is connected (see the Preheat Options section). Preheat time varies from
application to application. After waiting for the Preheat LED to extinguish, the engine is cranked by turning and
holding the key switch in the start position until the engine starts. The key switch is spring loaded to return
automatically to the run position when released. The Preheat LED is illuminated during afterglow if enabled.

Note: The key switch is equipped with a mechanical start locking device.
An attempt to crank the engine again can only be made by turning the key switch to the off position to
reset the start locking mechanism.

If the engine is not started within 10 seconds of turning on the panel, the fuel run/stop solenoid output is turned off
to prevent battery discharge when the key switch is left in the run position. The fuel run/stop solenoid output is
turned off after 10 seconds even during preheating. As soon as the key switch is turned to the start position, the
solenoid output is enabled. The afterglow cycle begins when the key switch returns to the run position.

Note: If conditions do not warrant preheat, the engine may be started by turning the key to the start position
without waiting for the preheat time to expire.

Panel instrument power, including the hourmeter and voltmeter, is provided by the fuel run/stop solenoid output. If
the instruments do not power up when the key is turned to the run position, this indicates a problem with the
solenoid circuit (see the Fuel Run/Stop Solenoid Troubleshooting section).
After the engine starts, the panel electronics ignore all shutdown conditions for the first 10 seconds. This delay
eliminates the requirement to hold a by-pass override button during starting and allows the engine conditions such
as oil pressure to normalize. The 10-second timer starts when the key switch returns to the run position.

Note: Starter input is required for correct panel operation. If the starter motor input is not activated (connected
to battery positive) and the engine is started through another means (i.e., air starter) the engine will
shutdown 10 seconds after the key switch is turned to the run position.

To prevent unintentional engine shutdowns caused by intermittent conditions (for example, pressure spikes or
coolant movement), the panel requires a constant 1-second fault input to cause engine shutdown.

WARNING
WHEN USED IN COMBINATION WITH MECHANICAL FLOAT TYPE SWITCHES, ENGINE
! VIBRATIONS MAY PREVENT CONSTANT CONTACT CLOSURE.
THE PANEL IS FACTORY CONFIGURED TO SHUTDOWN WITH NO DELAY FOR THE AUXILIARY
SHUTDOWN INPUTS.

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3.1 Preheat Options

3.1.1 Preheat Output
Preheat is a 750 mA output for control of an external power relay with predetermined preheat and afterglow
times. A relay should be selected with appropriate amperage capacity for the installed cold starting aid
(glowplug, intake air heater, etc.). Applications using multiple cold starting aids may require multiple relays. This
output provides low side (ground) preheat control.

Note: Consult engine documentation when selecting cold starting aid, power relay and heating specifications.

3.1.2 Preheat Indication Input

This is an optional factory configuration. With it, the preheat LED provides indication for an external preheat
control. This input accepts high side (battery positive) control to indicate preheat.

3.2 Indicators

3.2.1 Battery LED (Red)

A solidly illuminated Battery LED indicates a battery charge failure. A battery charge failure may be caused by
a faulty alternator, broken drive belt or the alternator not excited. A battery voltage reading of approximately
14 V on 12 V systems (28 V on 24 V systems) while the engine is running indicates the battery is charging
properly. Irregular blinking of the Battery LED may indicate a failing charge circuit. The panel can be factory
configured to indicate only battery charge failure.

3.2.2 Oil Pressure LED (Red)

A solidly illuminated Oil Pressure LED indicates low oil pressure failure. The panel typically senses low oil
pressure from a ground contact switch on the engine. When a sender/switch combination is used on the engine,
the marking WK generally indicates the switch terminal. This input typically expects a normally closed switch
(ground contact when oil pressure is low). A defective switch or shorting the shutdown input to ground can cause
low pressure fault indication. Additionally, when using sender/ switch combinations, swapping the WK and G
terminal can cause unintended shutdowns. The panel can be factory configured to indicate only oil pressure
failure.

WARNING
LOW OIL PRESSURE IS NOT AN INDICATION OF LOW OIL LEVEL.
! FOR THE BEST POSSIBLE PROTECTION, CATTRON RECOMMENDS USING OUR SOLID-STATE
OIL LEVEL SHUTDOWN SWITCH.

Note: Most shutdown switches are grounded through the switch body.
Do not use insulating sealant (i.e., Teflon tape) when installing switches.

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3.2.3 Temperature LED (Red)

A solidly illuminated Temperature LED indicates high engine temperature failure. The panel typically senses high
temperature from a ground contact switch on the engine. When a sender/switch combination is used on the
engine, the marking WK or W generally indicates the switch terminal. This input typically expects a normally open
switch (ground contact when engine temperature is too high). A defective switch or shorting the shutdown input to
ground can cause an over temperature fault indication. Additionally, when using sender/switch combinations,
swapping the WK or W and G terminal can cause unintended shutdowns. The panel can be factory configured to
indicate only temperature failure.

WARNING
IF THE TEMPERATURE SWITCH IS NOT IN CONTACT WITH COOLANT DUE TO COOLANT LOSS,
! THE ENGINE IS NOT PROTECTED FROM OVERHEATING.
FOR THE BEST POSSIBLE PROTECTION, CATTRON RECOMMENDS USING OUR SOLID-STATE
COOLANT LEVEL SHUTDOWN SWITCH.

Note: Most shutdown switches are grounded through the switch body.
Do not use insulating sealant (i.e., Teflon tape) when installing switches.
Some thermostat housings are composites and do not provide ground for the switch.

3.2.4 AUX 1 LED (Red)

A solidly illuminated AUX 1 LED indicates auxiliary 1 failure (i.e., coolant level, oil level, belt breakage, hydraulic
pressure, etc.). The panel typically senses failure using a ground contact switch. Auxiliary inputs are equipment
specific and determined by the equipment manufacturer. A defective switch or shorting the shutdown input to
ground can cause fault indications. The panel can be factory configured to indicate only AUX 1 failure.

3.2.5 AUX 2 LED (Red)

A solidly illuminated AUX 2 LED indicates auxiliary 2 fault (i.e., air flow restriction, fuel level, etc.). The panel
typically senses failure using a ground contact switch. Auxiliary inputs are equipment specific and determined by
the equipment manufacturer. A defective switch or shorting the shutdown input to ground can cause fault
indications. The panel can be factory configured so that AUX 2 causes a shutdown.

WARNING
WHEN USED IN COMBINATION WITH MECHANICAL FLOAT TYPE SWITCHES, ENGINE
! VIBRATIONS MAY PREVENT CONSTANT CONTACT CLOSURE. THE PANEL IS FACTORY
CONFIGURED TO SHUTDOWN WITH NO DELAY FOR THE AUXILIARY SHUTDOWN INPUTS.

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3.2.6 Preheat LED (Red)

A solidly illuminated Preheat LED is the panel preheat indication. When the LED extinguishes, the preheat period
is complete and the engine may be cranked. The LED illuminates again to indicate afterglow.

3.3 Gauges
3.3.1 Voltmeter
The voltmeter is connected to the fuel run/stop solenoid output. If the voltmeter does not indicate with the solenoid
in the run position, this indicates a problem with the solenoid circuit. A battery voltage reading of approximately
14 V on a 12 V system (28 V on a 24 V system) while the engine is running indicates the battery is charging
properly.

3.3.2 Tachometer
The tachometer indicates engine RPM using a frequency signal derived from the engine. This signal may be
provided by an alternator frequency tap or proximity switch. An optional amplifier/divider can be added for use
with a magnetic pickup.

Note: If the alternator is not excited (not charging), no frequency is generated and the tachometer will indicate
0 RPM.

The tachometer must be calibrated to accurately indicate RPM. See the included Tachometer Calibration
Instructions, Part Number 463-1000-35, for more details.

3.3.3 Oil Pressure Gauge

The gauge measures oil pressure with a resistance sender on the engine referenced to ground. When a
sender/switch combination is used on the engine, the marking G generally indicates the gauge terminal. The
gauge expects a low resistance for low pressure and a higher resistance for higher pressure. If a powered gauge
is not connected to the sender, the gauge will read full scale (pegged). A defective sender or shorting the gauge
input to ground will cause the gauge to read no pressure. When using sender/switch combinations, swapping the
WK and G terminal prevents the gauge from working and may cause unintended shutdowns.

WARNING

! LOW OIL PRESSURE IS AN INDICATION OF ENGINE WEAR, NOT AN ACCURATE INDICATION

OF LOW OIL LEVEL.

Note: Senders and gauges must be matched to indicate correctly.

Most senders are grounded through the sender body.
Do not use insulating sealant (i.e., Teflon tape) when installing senders.

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3.3.4 Temperature Gauge

The gauge measures engine temperature with a resistance sender on the engine referenced to ground. When a
sender/switch combination is used on the engine, the marking G generally indicates the gauge terminal. The
gauge expects a high resistance for low temperatures and a lower resistance for higher temperatures. If the
gauge is not connected to the sender, this will read the minimum reading. A defective sender or shorting the
gauge input to ground will cause the gauge to read full scale (pegged). When using sender/switch combinations,
swapping the WK and G terminal prevents the gauge from working and may cause unintended shutdowns.

WARNING

! IF THE TEMPERATURE SENSOR IS NOT IN CONTACT WITH COOLANT DUE TO COOLANT

LOSS, THE GAUGE WILL NOT ACCURATELY INDICATE ENGINE TEMPERATURE.

Note: Senders and gauges must be matched to indicate correctly.

Most senders are grounded through the sender body.
Do not use insulating sealant (i.e., Teflon tape) when installing senders.
Some thermostat housings are composites and do not provide ground for the sender.

3.3.5 Hourmeter
The hourmeter is connected to the fuel run/stop solenoid output. If the hourmeter does not count with the solenoid
in the run position, this may indicate a faulty hourmeter or a problem with the solenoid circuit. If the engine shuts
down or it is not started within 10 seconds, the hourmeter stops counting.

3.3.6 Additional Gauges

Additional gauges can be added by removing blind covers and installing the gauge. Power connections are
provided with the standard configuration.

3.4 Harness
3.4.1 Sealed Connectors
The provided sealed weather-proof plug includes a grey locking device which must be released to separate the
connectors. Press the tab on the connector housing to release the connectors.

WARNING
CATTRON DOES NOT RECOMMEND USING DIELECTRIC GREASE OR SEALANT WITH SEALED
! CONNECTORS. THESE CHEMICALS MAY CAUSE SEAL DAMAGE AND ALLOW WATER ENTRY.
USE CATTRON PROVIDED CAVITY PLUGS TO SEAL THE CONNECTOR IF WIRES ARE
REMOVED.

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3.4.2 Unsealed Connectors

For unsealed connectors exposed to the elements, Cattron recommends using dielectric grease to protect
contacts.

WARNING

! CATTRON DOES NOT RECOMMEND USING SEALANT WITH UNSEALED CONNECTORS.

SEALANT TRAPS MOISTURE IN THE CONNECTOR AND ENCOURAGES CORROSION.

3.4.3 Harness Routing

The minimum routing radius of the wiring harnesses should be at least two times the diameter of the wiring
harness. Bends should be avoided within 1 inch (25 mm) of any connector in order to avoid seal distortion and
potentially allowing moisture to enter the connector.

Note: For a harness length in excess of 10 ft, a relay must be added to the start solenoid circuit.
A relay may also be required for the fuel run/stop solenoid.
Cattron offers starter relay kits for mounting near the engine.

3.5 Battery Circuit Requirements

3.5.1 Battery Positive Connection
The electronic panel operates on either 12 VDC or 24 VDC electrical systems. The unswitched battery positive
connection to the panel is made at the weather-proof connector. The panel provides switched positive battery
protected by a 15 A fuse (12 V or 24 V systems).
Protection for the unswitched battery positive circuit is dependent on specific equipment configuration. The
overload protection should not exceed 125% of the sum of all output currents plus 5 A for the panel. Powering the
panel through dedicated circuits with appropriate overload protection reduces the possibility of panel damage.
Circuit breakers are preferred over in-line fuses for circuit protection. Overcurrent protection devices should
ideally be located in a central location. If automatic reset circuit breakers are used, consideration of the
environment of the breaker is critical and may affect the trip point. The trip point of some circuit breakers can be
significantly reduced below the rated trip point if the circuit breaker is exposed to high temperatures.

WARNING
DISCONNECTING THE BATTERY WHILE THE ENGINE IS RUNNING MAY DAMAGE ELECTRICAL
! COMPONENTS.
WHEN USING A BATTERY DISCONNECT SWITCH, CATTRON RECOMMENDS USING A 2-POLE
SWITCH TO DISCONNECT BOTH THE BATTERY AND ALTERNATOR OUTPUT.

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3.5.2 Battery Negative Connection (Grounding)

WARNING
IMPROPER GROUNDING CAN CAUSE ELECTRICAL NOISE OR UNRELIABLE OPERATION AND
MAY DAMAGE THE PANEL OR OTHER COMPONENTS. ALL GROUND CONNECTIONS MUST BE
FREE FROM FOREIGN MATERIALS, INCLUDING PAINT, WHICH MAY INTERFERE WITH PROPER
GROUNDING.

! A RELIABLE GROUND MUST BE PROVIDED FOR THE PANEL. CATTRON RECOMMENDS

THE GROUND CONNECTION BE MADE DIRECTLY TO THE BATTERY NEGATIVE.
GROUNDING THROUGH FRAME MEMBERS IS NOT RECOMMENDED.
ALL GROUND PATHS MUST BE CAPABLE OF CARRYING ANY LIKELY FAULT CURRENTS.
DO NOT REVERSE THE BATTERY POLARITY. ATTEMPTING TO CRANK THE ENGINE WHEN
THE POLARITY OF THE BATTERY CONNECTIONS IS REVERSED MAY DAMAGE THE PANEL.

Note: A maximum of three ring terminals should be connected to a ground stud to ensure integrity of the
ground connection. The use of more than three terminals can cause the connection to become loose.

3.5.3 Voltage Drop

If panel voltage drops below 6 V for more than 0.1 seconds, the panel may reset, causing the self-test to
reactivate and the engine to shut down after 10 seconds. Resetting the panel is equivalent to quickly turning the
key switch to off and back to run without starting the engine. Since the panel did not sense a start signal, the fuel
run/stop solenoid deactivates after 10 seconds. Voltage drops can be caused by external equipment inrush
current, improper wire sizes or faulty wiring. Relays may be needed for long wire runs.

3.6 Suppression of Voltage Transients (Spikes)

WARNING
THE INSTALLATION OF VOLTAGE TRANSIENT SUPPRESSION AT THE TRANSIENT SOURCE IS
! REQUIRED.
CATTRON FOLLOWS SAE RECOMMENDED ELECTRICAL ENVIRONMENT PRACTICES.

Inductive devices such as relays, solenoids and motors generate voltage transients and noise in electrical circuits.
Unsuppressed voltage transients can exceed SAE specifications and damage electronic controls.
Relays and solenoids with built-in voltage transient suppression diodes are recommended whenever possible.
Refer to the illustration on the following page for proper installation of diodes when built-in voltage transient
suppression is not available.
Locate inductive devices as far as possible from the components of the electronic panel. When using electric
motors, it may also be necessary to add isolation relays to eliminate voltage transients and noise and to prevent back
feed.

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Note: Cattron harness assemblies typically include all required engine control suppression devices.
Added equipment will require additional protection.

3.7 Welding on Equipment with Electronic Controls

Proper welding procedures are required to avoid damage to electronic controls, sensors and associated
components. The component should be removed for welding if possible.
The following procedure must be followed if the component must be welded while installed on equipment with
electronic controls. This procedure will minimize the risk of component damage.

WARNING
DO NOT GROUND THE WELDER TO ELECTRICAL COMPONENTS SUCH AS THE CONTROL
GROUND OR SENSORS. IMPROPER GROUNDING CAN CAUSE DAMAGE TO ELECTRICAL
! COMPONENTS.
CLAMP THE GROUND CABLE FROM THE WELDER TO THE COMPONENT BEING WELDED.
PLACE THE CLAMP AS CLOSE AS POSSIBLE TO THE WELD TO REDUCE THE POSSIBILITY OF
DAMAGE.

1. Stop the engine. Turn the key switch to the OFF position.
2. Disconnect the negative battery cable from the battery.
3. Open any installed battery disconnect switch.
4. Unplug the panel if possible.
5. Connect the welding ground cable as close as possible to the area to be welded.
6. Protect the wiring harness from welding debris and spatter.
7. Use standard welding methods to weld the materials.

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4 Troubleshooting
4.1 General Troubleshooting
For additional information, refer to the engine manufacturer troubleshooting guide.

No response from starter motor

Possible Cause Possible Remedy

No battery voltage to starter Verify wiring and battery connection (power and ground)
Battery discharged Charge or replace battery; verify alternator charging
Tripped overcurrent protection Correct fault; replace or reset overcurrent protection
No signal from panel No power to panel (see Panel Troubleshooting section)
Defective starter solenoid Replace starter solenoid
Defective starter motor Replace starter motor

Engine will crank but not start

Possible Cause Possible Remedy

Engine not getting fuel Check fuel level, filter, fuel pump; verify no air in fuel lines
Fuel run/stop solenoid not engaged See Fuel Run/Stop Solenoid Troubleshooting section
Tripped overcurrent protection Correct fault, replace or reset overcurrent protection
No preheat (cold condition) See Preheat Troubleshooting section

Engine runs for 10 seconds and shuts down

Possible Cause Possible Remedy

Shutdown switch input active Verify shutdown source exists; correct condition or correct faulty
circuit
Battery not charging Verify alternator charging (see Alternator not charging battery table)
Control board did not sense start Engine started through alternate method (i.e., manual air start, push
signal start, etc.)
Defective panel See Panel Troubleshooting section

Engine runs longer than 10 seconds and shuts down

Possible Cause Possible Remedy

Shutdown switch input active Correct engine fault; verify shutdown switch wiring
Circuit overload protection tripped Correct overload; keep panel from overheating (over 185°F/85°C)
Add suppressor diodes; protect from nearby lightning strikes; shield
Voltage transients (spikes) induced spikes from other equipment; add electric motor control
relay push start, etc.
Defective panel See Panel Troubleshooting section

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Alternator not charging battery

Possible Cause Possible Remedy

Broken or slipping alternator drive belt Adjust or replace alternator drive belt
Alternator not excited Verify excitation circuit connected; replace faulty regulator; add
additional excitation resistor
Alternator output not connected Install charge wire
Alternator not grounded Clean or add ground connection
Alternator faulty Replace faulty alternator

4.2 Fuel Run/Stop Solenoid Troubleshooting

Engine does not stop immediately

Possible Cause Possible Remedy

Back feed from motor (i.e., cooling fan) Add relay or blocking diode
Sticking solenoid linkage Repair or replace solenoid linkage
Fuel valve without check valve Install or repair check valve

Fuel run/stop solenoid does not engage

Possible Cause Possible Remedy

No power to solenoid Locate reason for lack of power and correct (Circuit overloaded?
Failed suppressor diode? Faulty wiring?)
No power to solenoid pull coil Correct faulty wiring; check pull control circuit
Incorrect linkage adjustment Adjust solenoid linkage
Faulty solenoid Replace solenoid
Failed suppressor diode Correct wiring (diode reversed?); replace suppressor diode
Optional e-stop engaged Disengage e-stop

Engine not getting fuel

Possible Cause Possible Remedy

Empty fuel tank Fuel engine
Clogged filter Replace filter
Air in fuel lines Bleed fuel lines
Low fuel pressure Replace faulty fuel pump and/or clogged filter
Faulty fuel pump Replace fuel pump; correct wiring fault (electric fuel pump)

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4.3 Preheat Troubleshooting

Engine is hard to start in cold conditions

Possible Cause Possible Remedy

Start attempt before preheat complete Wait for preheat time to elapse, and crank as soon as time elapses
Incorrect preheat specification Correct panel configuration; install correct panel
Heater faulty Replace heater
Heater relay faulty Replace relay
Preheat control not functioning Correct wiring; correct panel configuration
Faulty panel See Panel Troubleshooting section

Engine produces excessive white smoke after starting

Possible Cause Possible Remedy

Afterglow not enabled Reconfigure panel
Heater faulty Replace heater
Heater relay faulty Replace relay
Preheat control not functioning Correct wiring; correct panel configuration
Faulty panel See Panel Troubleshooting section

4.4 Panel Troubleshooting

Panel does not perform self-test

Possible Cause Possible Remedy

Tripped overcurrent protection Correct fault; replace or reset overcurrent protection
Faulty connection to battery Correct battery connections (see Battery Circuit Requirements
section)

Panel performs normal self-test, engine cranks, runs and shuts down

Possible Cause Possible Remedy

Only Battery LED Illuminated Correct battery charge failure (see Battery not charging item)
Only Oil Pressure LED Illuminated Correct low oil pressure condition or faulty switch; correct wiring fault
Only Temperature LED Illuminated Correct overheating condition or faulty switch; correct wiring fault
Only Aux LED Illuminated Correct fault condition (i.e., v-belt, coolant level) or faulty switch;
correct wiring fault
All normally closed shutdowns Add suppressor diodes; protect from nearby lightning strikes; shield
illuminate for one second (panel reset) induced spikes from other equipment; add electric motor control
relay

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4.4.1 Testing Shutdown Inputs

Shutdown switches signal a fault by ground contact in most systems. Shutdown operation can be verified by
grounding the shutdown inputs individually. It may be necessary to remove the wire from the shutdown switch to
perform this test.

Note: Most shutdown switches are grounded through the switch body.
Do not use insulating sealant (i.e., Teflon tape) when installing switches.
Some thermostat housings are composites and do not provide ground for the switch.

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5 Typical Schematics
The following figures show typical schematics. The details will vary from installation to installation. Please see the
specific schematics for the particular installation for details.

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6 Additional Information
6.1 Products/Deliverables
Licensed Product Information
• Software codes with product numeric values equal to 001-xxxx-yyyy-zzz; where xxxx, yyyy, and zzz equal
(0000...9999)
• Software codes qualified under the same numeric regimen detailed above or including the verbal
description of “CANPlus™” products and/or the “CANPlus Suite” of products

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7 Technical Support
For remote and communication control systems support, parts and repair, or technical support, visit us online at:
www.cattron.com/contact.

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Due to continuous product improvement, the information provided in this document is subject to change without notice.

Cattron Support
For remote and communication control systems support, parts and repair, or technical support, visit us online at:
www.cattron.com/contact

Cattron North America Inc., 655 N River Rd NW, Suite A, Warren, OH 44483

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