PIN-FUEL PUMP 6V2112 - Caterpillar

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Typical Schematic of a PWM Sensor
PWM sensors produce a digital signal with a duty cycle that varies as the condition changes. The frequency remains constant. Temperature Sensor - Fluids And Ambient Air
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Fluid Temperature Sensor
(1) Schematic symbol
(2) Sensor Temperature sensor (2) reacts to the temperature of fluids such as hydraulic oil, power train oil, or engine coolant. The sensor receives operating power from the VIMS electronic control module. The sensor sends a signal that changes as the fluid temperature changes to the VIMS electronic control module. The VIMS measures the duty cycle of the sensor signal in order to determine the fluid temperature. Temperature Sensor - Engine Exhaust Gas
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Engine Exhaust Gas Temperature Sensor
(1) Schematic symbol
(2) Sensor Temperature sensor (2) reacts to the temperature of engine exhaust gas. The sensor receives operating power from the VIMS electronic control module. The sensor sends a PWM signal which changes as the temperature of the engine exhaust gas changes to the main module. The control measures the duty cycle of the sensor signal in order to determine the temperature. Pressure Sensor
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Pressure Sensor
(1) Schematic symbol
(2) Sensor Pressure sensor (2) reacts to system pressure such as system air pressure. The sensor receives operating power from the VIMS electronic control module. The sensor sends a PWM signal to the VIMS that changes in proportion to the air pressure. The VIMS measures the duty cycle of the sensor signal in order to determine the pressure. Analog Coolant Pressure Sensor
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Analog Coolant Pressure Sensor
The Coolant pressure sensor measures how efficiently the coolant system is functioning by measuring coolant pressure. The VIMS sends a +5 volt signal to the sensor and measures the return voltage in relation to the pressure in the system.Coolant Loss Sensor
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Coolant Loss Sensor
(1) Sensor
(2) Schematic symbol
(3) Plastic sleeve (“see note”) The coolant loss sensor is an electronic switch that is activated by coolant. During normal operation, coolant loss sensor (1) is closed to ground. The switch opens when the coolant level is too low. The VIMS electronic control module warns the operator of a very low coolant condition in the cooling system when the switch opens. The sensor has a connector with three contacts. Contact "A" connects to the +8 DCV sensor power from the VIMS electronic control module . Contact "B" connects to ground and contact "C" (switch output) connects to the input of the VIMS electronic control module . Off the machine (“on the bench”), when power and ground are disconnected the switch is open. The sensor cannot be tested in this state. Note: DO NOT remove plastic sleeve (3) from the probe. This plastic sleeve is required for proper switch operation. The internal electronic switch that is in this sensor functions as a mechanical switch. The switch is either open or the switch is closed to ground. (“connector contact C closed to contact B”). This sensor works with ONLY water or water/glycol solutions (“antifreeze”). The sensor will not work with oils, fuels, etc. A pull-up voltage must