4959132 FILTER AS-FUEL Caterpillar parts
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Alternative (cross code) number:
CA4959132
495-9132
4959132
CA4959132
495-9132
4959132
Weight: 0.90 pounds 0 kg.
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C18 Engines
Illustration 1 g00897891
C18 Left side view
(1) Inlet manifold pressure sensor
(2) Unit injector connector
(3) Inlet manifold temperature sensor
(4) Ground connection for the OEM
(5) Speed/timing sensor for the crankshaft (lower left front of engine)
(6) Speed/timing sensor for the camshaft (upper left front of engine)
(7) Fuel temperature sensor
(8) Atmospheric pressure sensor (right side of the fuel filter and left of the oil pressure sensor)
(9) Oil pressure sensor (right side of the fuel filter and right of the atmospheric pressure sensor)
(10) Turbocharger wastegate solenoid (right side at fuel filter base)
Illustration 2 g00909650
(11) Coolant temperature sensor Coolant Temperature Sensor
The engine coolant temperature is measured by an electronic sensor that is mounted on the water outlet housing. The signal for the engine coolant temperature sensor is used to modify the engine fueling and the signal is used to modify the engine timing. By modifying the engine fueling and the engine timing, the engine will improve the following conditions: cold start capability and white smoke cleanup. The Engine Control Module (ECM) supplies the coolant temperature sensor with 5.0 .5 VDC. The sensor output voltage is 0.5 to 4.5 VDC. The sensor output voltage depends on the engine coolant temperature. Coolant temperature is used in order to indicate the Cold Mode Operation. Coolant temperature is also used for Engine Monitoring.Fuel Temperature Sensor
The fuel temperature is monitored in order to adjust the calculations for the fuel rate. The fuel temperature is monitored for the power correction when the fuel temperatures exceed 30 °C (86 °F) in order to provide constant power. The value for the power correction for the maximum power is 70 °C (158 °F). Fuel temperature that exceeds 90 °C (194 °F) for ten minutes causes a diagnostic code to be logged.Atmospheric Pressure Sensor
The atmospheric pressure sensor is an absolute pressure sensor that measures crankcase pressure. The atmospheric pressure sensor is used to calibrate the other pressure sensors on the engine. The values for these sensors that are communicated over the data link are calculated by subtracting the atmospheric pressure sensor reading. The atmospheric pressure sensor measures pressure from 0 kPa (0 psi) to 116 kPa (17 psi). The atmospheric pressure sensor is supplied with 5 VDC by the ECM.Inlet Manifold Temperature Sensor
The inlet manifold temperature sensor measures the temperature of the air in the inlet manifold. The ECM monitors the signal for the inlet manifold temperature sensor. The output of the ECM can indicate high inlet manifold air temperature through a relay or a lamp. The inlet manifold temperature sensor will not cause a shutdown of the engine or any horsepower change.Note: The sensor will be affected by the heat that is conducted from the air in the inlet manifold when the engine is idling, and after the engine is shut off. This warm-up is due to the lack of coolant circulation through the engine. The reading from the sensor for the inlet manifold temperature may be significantly higher than the actual temperature of the air inside the inlet manifold until the inlet manifold
Illustration 1 g00897891
C18 Left side view
(1) Inlet manifold pressure sensor
(2) Unit injector connector
(3) Inlet manifold temperature sensor
(4) Ground connection for the OEM
(5) Speed/timing sensor for the crankshaft (lower left front of engine)
(6) Speed/timing sensor for the camshaft (upper left front of engine)
(7) Fuel temperature sensor
(8) Atmospheric pressure sensor (right side of the fuel filter and left of the oil pressure sensor)
(9) Oil pressure sensor (right side of the fuel filter and right of the atmospheric pressure sensor)
(10) Turbocharger wastegate solenoid (right side at fuel filter base)
Illustration 2 g00909650
(11) Coolant temperature sensor Coolant Temperature Sensor
The engine coolant temperature is measured by an electronic sensor that is mounted on the water outlet housing. The signal for the engine coolant temperature sensor is used to modify the engine fueling and the signal is used to modify the engine timing. By modifying the engine fueling and the engine timing, the engine will improve the following conditions: cold start capability and white smoke cleanup. The Engine Control Module (ECM) supplies the coolant temperature sensor with 5.0 .5 VDC. The sensor output voltage is 0.5 to 4.5 VDC. The sensor output voltage depends on the engine coolant temperature. Coolant temperature is used in order to indicate the Cold Mode Operation. Coolant temperature is also used for Engine Monitoring.Fuel Temperature Sensor
The fuel temperature is monitored in order to adjust the calculations for the fuel rate. The fuel temperature is monitored for the power correction when the fuel temperatures exceed 30 °C (86 °F) in order to provide constant power. The value for the power correction for the maximum power is 70 °C (158 °F). Fuel temperature that exceeds 90 °C (194 °F) for ten minutes causes a diagnostic code to be logged.Atmospheric Pressure Sensor
The atmospheric pressure sensor is an absolute pressure sensor that measures crankcase pressure. The atmospheric pressure sensor is used to calibrate the other pressure sensors on the engine. The values for these sensors that are communicated over the data link are calculated by subtracting the atmospheric pressure sensor reading. The atmospheric pressure sensor measures pressure from 0 kPa (0 psi) to 116 kPa (17 psi). The atmospheric pressure sensor is supplied with 5 VDC by the ECM.Inlet Manifold Temperature Sensor
The inlet manifold temperature sensor measures the temperature of the air in the inlet manifold. The ECM monitors the signal for the inlet manifold temperature sensor. The output of the ECM can indicate high inlet manifold air temperature through a relay or a lamp. The inlet manifold temperature sensor will not cause a shutdown of the engine or any horsepower change.Note: The sensor will be affected by the heat that is conducted from the air in the inlet manifold when the engine is idling, and after the engine is shut off. This warm-up is due to the lack of coolant circulation through the engine. The reading from the sensor for the inlet manifold temperature may be significantly higher than the actual temperature of the air inside the inlet manifold until the inlet manifold
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