Configuration Parameters
Configuration parameters concern various engine features. Some parameters can affect the performance of the engine. Most of the parameters may be programmed with an Electronic Technician (ET) service tool. Some of the parameters require a password in order to be programmed.
Note: For information on programming the parameters, use the appropriate ET service tool and see the Service Manual, "Troubleshooting" module.
Some parameters may not be available on all applications. If a parameter is not available the ET service tool will indicate that the parameter is "unavailable" when the parameter is selected.
Table 1 is a list of typical configuration parameters.
Typical Configuration Parameters     | |
---|---|
Parameter     | Programmability     |
"Air shutoff"     | Yes     |
CAT Datalink #2 identifier     | Yes     |
"Crank duration"     | Yes     |
"Crank terminate speed"     | Yes     |
"Cold cylinder cutout"     | Yes     |
"Cooldown speed"     | Yes     |
ECM serial number     | No     |
"Engine acceleration rate"     | Yes     |
"Engine cooldown duration"     | Yes     |
"Engine cooling system" (1)     | Yes     |
"Engine prelube duration"     | Yes     |
"Engine rated speed"     | Software dependent     |
"Engine rotation"     | Software dependent     |
"Engine serial number"     | Yes     |
Equipment ID     | Yes     |
"Ether control"     | Yes     |
Fuel correction factor     | Yes     |
"Fuel ratio control"     | Yes     |
"Low idle"     | Yes     |
"Maximum number of crank cycles"     | Yes     |
"Personality Module Part Number"     | Software dependent     |
"Personality module release date"     | Software dependent     |
"Rated fuel position"     | Yes     |
"Total fuel"     | Yes     |
"Total hours"     | Yes     |
"Total tattletale"     | No     |
( 1 ) | Jacket water aftercooling or separate circuit aftercooling |
The following parameters are programmed at the factory to "0":
- "Crank Duration"
- "Maximum Number Of Crank Cycles"
The "0" settings prevent the Electronic Control Module (ECM) from engaging the starting motors. The settings must be reprogrammed before the engine will crank.
Ensure that the "Air Shutoff" and the "Ether Control" parameters are "Enabled/ON" (if equipped). If the engine does not have these options, ensure that these two parameters are "DISABLED/OFF".
If the engine is equipped with Prelube, the "Engine Prelube Duration" must be programmed to a value that is greater than "0" seconds. Otherwise, the prelube pump will not cycle. If the engine is not equipped with Prelube, the parameter must be programmed to "0".
The engine has separate circuit aftercooling. The correct configuration of the aftercooling system must be programmed.
No password is required for programming a new ECM during the first 100 hours of service life. This 100 hour "free configuration" feature enables the customer to tailor the programmable setpoints to the requirements of the installation. Exceptions are "Fuel Limit" and "Personality Module Mismatch".
Air Shutoff (If Equipped)
The air shutoffs are activated by oil pressure when energy to a solenoid is interrupted. Earlier models use a plate that rotates on a shaft in order to shut off inlet air to the aftercooler. Later models use a plate that slides when the mechanism is activated in order to shut off inlet air to the aftercooler. The engine stops because of the restricted air supply to the combustion chamber. The air shutoffs will actuate for the following conditions:
Note: A switch may be supplied by the customer in order to activate the air shutoffs.
- The Emergency Stop button is pressed.
- An overspeed shutdown occurs.
- The operator manually activates the air shutoff with the emergency air shutoffs on the engine. It is necessary to activate both of the air shutoffs in order to shut down the engine.
Reset both of the air shutoffs before you restart the engine.
Illustration 1 | g00393147 |
Earlier models Reset for the air shutoff. |
Illustration 2 | g01164039 |
Later models Reset for the air shutoff. |
To reset the air shutoff on earlier models, turn the reset knob to the "OPEN" position. To reset the air shutoff on later models, turn the hex until the indicator is at the "OPEN" position.
Ensure that both of the air shutoffs are reset.
Power to the ECM must be cycled in order to restart the engine. Turn the battery disconnect switch to the OFF position for three seconds. Turn the battery disconnect switch back to the ON position. The engine may now be restarted.
Cold Cylinder Cutout
Note: This feature can be enabled or disabled with an electronic service tool.
The Cold Cylinder Cutout feature provides the following benefits:
- Reduction of white smoke during cold starting
- Reduction of the duration of advanced timing (cold mode)
- Reduction of ether injection
The ECM automatically turns off one electronic unit injector at a time during the following occurrences:
- Cold start-up
- Extended time at low idle
The ECM monitors the change of the fuel rack in order to determine if a cylinder is firing. If the cylinder is firing the ECM activates the electronic unit injector. If the cylinder is not firing the electronic unit injector remains deactivated. This reduces white smoke.
The following conditions must be met in order to activate the Cold Cylinder Cutout:
- The Cold Cylinder Cutout parameter is programmed to "ENABLE".
- The fuel rack is less than 13 mm (.5 inch).
- The jacket water coolant temperature is less than 63 °C (145 °F).
The Cold Cylinder Cutout strategy is activated under either of the following conditions:
- Ten seconds after the engine reaches the low idle rpm
- Three seconds after ether injection is completed
The following conditions will deactivate the Cold Cylinder Cutout:
- The Cold Cylinder Cutout parameter is programmed to "DISABLED".
- The jacket water temperature is more than 70 °C (158 °F).
- An ET service tool is used for the cold cylinder cutout test.
- The ether injection system is used.
- The coolant temperature sensor has failed.
- The engine is operating at a certain rpm when the Cold Cylinder Cutout is activated. If the engine rpm then varies by more than 50 rpm, the feature is deactivated for three seconds. A new engine speed is established when the feature is reactivated.
- The engine is at low idle rpm for ten seconds. If the engine speed is then reduced by more than 50 rpm, the Cold Cylinder Cutout is deactivated for 30 seconds.
- If the fuel rack is greater than 13 mm (.5 inch), the Cold Cylinder Cutout is deactivated for one second.
Ether Control
Note: This is an optional feature.
The ECM automatically injects ether into the air inlet manifold when the following conditions are met:
- The engine rpm is between 75 and 400 rpm.
- The jacket water temperature is between -40 to 30 °C (-40 to 86 °F).
The duration of ether injection varies linearly with the jacket water coolant temperature. The duration of ether injection varies within the following range:
- 10 seconds at the maximum temperature of 30 °C (86 °F)
- 130 seconds at the minimum temperature of -40 °C (-40 °F)
The longest duration of ether injection is 130 seconds even if the jacket water temperature is less than -40 °C (-40 °F). See Illustration 3.
Illustration 3 | g00575015 |
Jacket water coolant temperature and duration of ether injection (Y) Temperature in °C (X) Time in seconds |
A switch may be installed by the OEM of the rig. The switch enables the operator to inject ether manually under the following conditions:
- The switch for ether injection is in the manual position.
- The engine rpm is more than 50 rpm.
- The jacket water temperature is less than 30 °C (86 °F).
Fuel Correction Factor
When the engine is shipped from the factory, an estimate of the engine's fuel consumption is programmed into the ECM. The estimate is based upon the engine's performance specifications. The actual fuel consumption can be determined with a meter that measures the flow of the fuel. Customers are likely to find a slight difference between the estimate of fuel consumption that was programmed and the actual fuel consumption. An ET service tool can be used to program the ECM for the actual fuel consumption. A factory level security password is required in order to change this parameter.
To program the ECM for the actual fuel consumption, change the Fuel Correction Factor that is already programmed into the ECM. The Fuel Correction Factor can be programmed in increments of 0.5 percent. The Fuel Correction Factor can be increased or decreased by a maximum of 25 percent.
Display of Engine Performance
Histogramming
The ET service tool can display the trends of the engine performance. The information can be used to improve the overall performance of the engine. The historical information is stored in a format that can be used to construct histograms. Data is available for the following parameters:
- Engine rpm
- Percent of engine load
- Left side exhaust temperatures
- Right side exhaust temperatures
Incrementing the Hours of the ECM
A new ECM that is installed on an engine can be programmed to display the correct total number of operating hours for that engine. An ET service tool and a factory level security password are required.
Adjusting the Total Fuel Consumption for the ECM
A new ECM that is installed on an engine can be programmed to display the correct total fuel consumption for that engine. An ET service tool and a factory level security password are required.
Data Link Features
CAT Data Link Flash
Flash - This is a method of downloading or programming electronic information.
The CAT Data Link Flash provides the capability to flash the software for the engine control with the CAT Data Link.
Secondary CAT Data Link
The Secondary CAT Data Link provides the ability for each ECM to have a CAT Data Link that is "local" to that engine. This feature also provides a common data link to other engine controls. This enables the operator to communicate with multiple engines through a single Customer Communication Module (CCM).
The Secondary CAT Data Link provides the capability for two to eight engines to communicate via a single CCM.
CAN Data Link
The CAN Data Link is used to communicate information about engine operation to a monitoring system. The monitoring system must meet the "SAE J1939" specification. With the CAN Data Link, the customer can use more than one device for monitoring the engine operation. Table 2 lists the parameters that are required by the CAN Data Link.
Required Parameters for the CAN Data Link     |
Atmospheric pressure     |
Battery voltage     |
Boost pressure     |
Coolant temperature     |
Engine hours     |
Engine speed     |
Fuel pressure     |
Fuel rate     |
Oil pressure     |
Percent load     |
Throttle position     |