1140127 Volvo.Penta Coolant inlet

Table 1
Diagnostic Codes Table
Code and Description Conditions which Generate this Code System Response
94-3 Fuel Delivery Pressure Sensor voltage above normal The Electronic Control Module (ECM) detects signal voltage that is above normal for 8 seconds.
The ECM has been powered for at least 2 seconds. The code is logged.
The value of the parameter is set to a gauge pressure of 500 kPa (75 psi).
94-4 Fuel Delivery Pressure Sensor voltage below normal The ECM detects signal voltage that is below normal for 8 seconds.
The ECM has been powered for 2 seconds.
100-3 Engine Oil Pressure Sensor voltage above normal The ECM detects signal voltage that is above normal for 8 seconds.
The ECM has been powered for at least 2 seconds. The code is logged.
The value of the parameter is set to a gauge pressure of 500 kPa (75 psi).
100-4 Engine Oil Pressure Sensor voltage below normal The ECM detects signal voltage that is below normal for eight second.
The ECM has been powered for 2 seconds.
274-3 Atmospheric Pressure Sensor voltage above normal The ECM detects signal voltage that is above normal for 30 seconds.
The ECM has been powered for at least 2 seconds. The code is logged.
The value of the parameter is set to 100 kPa (14.5 psi).
274-4 Atmospheric Pressure Sensor voltage below normal The ECM detects signal voltage that is below normal for 30 seconds.
The ECM has been powered for 2 seconds.
1589-3 Turbocharger Inlet Air Pressure Sensor voltage above normal The ECM detects signal voltage that is above normal for one second.
The ECM has been powered for at least 3 seconds. The code is logged.
The value of the parameter is set to zero.
1589-4 Turbocharger Inlet Air Pressure Sensor voltage below normal The ECM detects signal voltage that is below normal for one second.
The ECM has been powered for 3 seconds.
1785-3 Intake Manifold Pressure Sensor voltage above normal The ECM detects signal voltage that is above normal for 2 seconds.
The ECM has been powered for at least 2 seconds. The code is logged.
The value of the parameter is set to a gauge pressure of zero.
1785-4 Intake Manifold Pressure Sensor voltage below normal The ECM detects signal voltage that is below normal for 2 seconds.
The ECM has been powered for 2 seconds.
1785-10 Intake Manifold Pressure Sensor abnormal rate of change The ECM detects signal voltage that is not changing at a normal rate for 30 seconds. Engine speed must be above 1000 rpm.
The ECM has been powered for 2 seconds. System OperationUse this procedure to troubleshoot any suspect problems with the following sensors:
Fuel pressure sensor
Engine oil pressure sensor
Atmospheric pressure sensor
Turbocharger inlet pressure sensor
Intake manifold pressure sensorThe supply voltage is routed to terminal A of each sensor connector. The sensor return is routed to terminal B of each sensor connector. The sensor signal is routed to terminal C of each sensor connector. The ECM provides short circuit protection for the internal power supply. A short circuit to the battery will not damage the internal power supply.The ECM performs an automatic calibration of these sensors whenever the ECM is powered and the engine is off for at least 5 seconds. During an automatic calibration, the ECM calibrates pressure sensors to the value of the atmospheric pressure sensor and against an acceptable offset pressure range.The ECM continuously outputs a pull-up voltage on the input terminal from an analog sensor. The ECM uses this pull-up voltage in order to detect an open or a short in the signal circuit. When the ECM detects the presence of a voltage that is above the normal range of the sensor on the signal circuit, the ECM will generate an open circuit diagnostic code 3 for that sensor. When the ECM detects the absence of the pull-up voltage on the signal circuit, the ECM will generate a short circuit diagnostic code 4 for that sensor. The presence of pull-up voltage at the sensor connector indicates that the wires from the sensor connector to the ECM are not open or shorted to ground.
Illustration 1 g03805054
Schematic for the active analog sensors
Test Step 1. Check for "Active" or "Logged" Diagnostic Codes
Connect Caterpillar Electronic Technician (ET) to the service tool connector.
Turn the keyswitch to the START position.
Monitor the diagnostic codes on Cat ET. Check and record any diagnostic codes.Note: Wait at least 30 seconds in order for the diagnostic codes to become active.
Determine if a diagnostic code has occurred several times.Note: A diagnostic code that is logged several times is an indication of an intermittent problem. Most intermittent problems are the result of a bad connection between a socket and a pin in a connector or a bad connection between a wire and a terminal. The problem may be caused by moisture, corrosion, or wear.
Determine if the problem is active and related to one of the following diagnostic codes:
3
4
10Expected Result:A diagnostic code is not active.Results:
OK - A diagnostic code is not active.Repair: The problem may be intermittent. If the problem is intermittent, refer to Troubleshooting, "Electrical Connectors - Inspect".STOP
Not OK - A 10 diagnostic code is active.Repair: A 10 diagnostic code indicates an open in the voltage supply to a sensor. If the code is only present for one sensor, the open will be between the sensor connector and a splice. If the open is for two or more sensors the open will be before the splice for the voltage supply to those sensors. Repair the open in the wiring or connectors. Refer to the electrical schematic for the locations of splices in the harness.STOP
Not OK - A 3 code or a 4 code is active. Proceed to Test Step 2.Test Step 2. Check the 5 V Supply Voltage at the Sensor Connector
Do not disconnect the suspect connector.
Connect a voltmeter between pin A and pin B on the sensor side of the connector for the suspect sensor.
Measure the voltage between pin A and pin B for the suspect sensor.
Wiggle the harness while you monitor the voltage on the voltmeter. Perform the 45 N (10 lb) pull test on each wire in the circuit. Each terminal and