18131-96301 Suzuki Ratchet


18131-96301 Ratchet Suzuki 30ELE, 30ESE, 30MLE, DT20ELG, DT20ELH, DT20ELJ, DT20ESG, DT20ESH, DT20ESJ, DT20MLG, DT20MLH, DT20MLJ, DT20MSG, DT20MSH, DT20MSJ, DT25ELF, DT25ELG, DT25ELH, DT25ELJ, DT25ESG, DT25ESH, DT25ESJ, DT25MLD, DT25MLE, DT25MLF, DT25MLG, DT25MLH, DT25MLJ, DT25 Ratchet
18131-96301 Ratchet Suzuki
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Buy Ratchet 18131-96301 Suzuki genuine, new aftermarket parts with delivery
Number on catalog scheme: 3
 

Suzuki entire parts catalog list:

30ELE 1984
30ESE 1984
30MLE 1984
DT20ELG 1986
DT20ELH 1987
DT20ELJ 1988
DT20ESG 1986
DT20ESH 1987
DT20ESJ 1988
DT20MLG 1986
DT20MLH 1987
DT20MLJ 1988
DT20MSG 1986
DT20MSH 1987
DT20MSJ 1988
DT25ELF 1985
DT25ELG 1986
DT25ELH 1987
DT25ELJ 1988
DT25ESG 1986
DT25ESH 1987
DT25ESJ 1988
DT25MLD 1983
DT25MLE 1984
DT25MLF 1985
DT25MLG 1986
DT25MLH 1987
DT25MLJ 1988
DT25MSD 1983
DT25MSE 1984
DT25MSF 1985
DT25MSG 1986
DT25MSH 1987
DT25MSJ 1988
DT25SF 1985
DT30ELD 1983
DT30ESD 1983
DT30LF 1985
DT30MLD 1983
DT30MSD 1983
DT30MSE 1984
DT30SF 1985
DT40ECLE 1984
DT40ECLF 1985
DT40ECSE 1984
DT40ECSF 1985
DT40MCLE 1984
DT40MCLF 1985
DT40MCSE 1984
DT40MCSF 1985

Information:


Table 1
J1939 Code and Description CDL Code and Description Comments
91-3
Accelerator Pedal Position #1 : Voltage Above Normal 91-3
Throttle Position Sensor : Voltage Above Normal The Electronic Control Module (ECM) detects signal voltage that is not in the acceptable range.
The code is logged. The ECM flags the throttle position as invalid data and a default value is used. The engine speed is limited to high idle.
91-4
Accelerator Pedal Position #1 : Voltage Below Normal 91-4
Throttle Position Sensor : Voltage Below Normal The ECM detects signal voltage that is not in the acceptable range.
The code is logged. The ECM flags the throttle position as invalid data and a default value is used. The engine speed is limited to high idle. Note: Performing steps within this procedure requires the use of a multimeter capable of measuring a PWM duty cycle and frequency. Refer to Table 2 for the tools recommended for the procedure.
Table 2
Recommended Tools
146-4080 Digital Multimeter Gp
7X-1710 Multimeter Probe
326-4904 Adapter Cable As The Electronic Control Module (ECM) can be configured to receive two different types of throttle signals for the engine throttle control:
CAN Input - A J1939 signal is received via the CAN data link.
PWM - The Pulse Width Modulated signal (PWM) must be received via terminal P1-66 at the ECM connector. If direct fuel control mode is used on the engine, the PWM signal must be received via terminal P1-66 at the ECM connector.The ECM also allows a primary throttle and a secondary throttle to be configured for the engine if direct fuel control mode is disabled. The type of signal that will be used for the primary throttle is configured by setting the "Desired Speed Input Configuration" parameter. The type of signal that will be used for the secondary throttle is configured by setting the "Secondary Desired Speed Input Configuration" parameter. Configuring both of these parameters to the same setting will invalidate the setting for the secondary throttle.The ECM will utilize the signal that is defined as the primary throttle as long as a valid signal is available from the expected source. If the signal from the primary throttle becomes unavailable, the ECM will use the signal that is defined as the secondary throttle. If both throttle signals become unavailable, the ECM uses the rated speed of the engine as the setpoint for the desired engine speed.For using an electronic external governor for engine control, the "Direct Fuel Control Mode" parameter must be enabled. The ECM input at P1-66 must be used for direct fuel control of the engine. Refer to Troubleshooting, "Direct Fuel Control Mode - Test" for additional information.
Illustration 1 g03889309
Table 3
Troubleshooting Test Steps Values Results
1. Inspect the Electrical Connectors and the Wiring
A. Turn the main disconnect switch to the OFF position.
B. Thoroughly inspect the connectors. Refer to Troubleshooting, "Electrical Connectors-Inspect" for additional information.
C. Perform a 45 N (10 lb) pull test on the connector wires.
D. Check the harness for abrasions and pinch points.
Connectors and Wiring
Result: The connectors and wiring appear to be OK.
Proceed to Test Step 2.
Result: There is a problem with the connectors and/or wiring.
Repair: Repair or replace the connectors or wiring. Ensure that all the seals are properly in place and ensure that the connectors are coupled.
If the problem is not resolved, proceed to Test Step 2.
2. Check for Codes
A. Connect Cat® Electronic Technician (ET) to the service tool connector.
B. Determine if a code is active or logged.
Codes
Result: A -4 code is active or logged.
Proceed to Test Step 3.
Result: A -3 code is active or logged.
Proceed to Test Step 7.
3. Check the Wiring for an Open Circuit
A. Turn the main disconnect switch to the OFF position.
B. Disconnect the J1 connector from the electronic Control Module (ECM).
C. Remove the signal wire at terminal 66 of the Engine Interface Connector (EIC).
D. Measure the resistance between the following terminals:
- P1-66 (ECM) and P1-66 (EIC)
Open Circuit
Result: There were less than 10 ohms of resistance.
Proceed to Test Step 4.
Result: There were more than 10 ohms of resistance.
Repair: An open circuit has been detected. Repair or replace wiring harness.
Verify that the repair eliminated the problem.
4. Check the Wiring Harness for a Short Circuit to Ground
A. Turn the main disconnect switch to the OFF position.
B. Disconnect the J1 connector from the ECM.
C. Measure the resistance between the following terminals:
- P1-66 (ECM) and known good ground.
Short Circuit
Result: There were less than 100 K ohms of resistance between P1-66 and a known good ground.
Proceed to Test Step 5.
Result: There were more than 100 K ohms of resistance on each wire and a known good ground.
Repair: A short circuit to ground has been detected. Repair or replace the wiring harness.
Verify that the repair eliminated the problem.
5. Check the Wiring Harness for a Pin to Pin Short Circuit
A. Turn the main disconnect switch to the OFF position.
B. Disconnect the J1 connector from the ECM.
C. Measure the resistance between the following terminals:
- Pin 66 on the J1 ECM connector and all the other pins in the J1 ECM connector.
Short Circuit
Result: There were less than 100 K ohms of resistance between the pin 66 and all the pins in the J1 ECM connector.
Repair: A short circuit to ground has been detected. Repair or replace the wiring harness.
Verify that the repair eliminated the problem.
Result: There were more than 100 K ohms of resistance between the pin 66 and all the pins in the J1 ECM connector.
Repair: The problem is located outside the Cat system wiring circuit. There is an open circuit or short to ground with the wiring or a problem with the speed control device after the EIC.
Proceed to Test Step 6.
6. Check the Device that Provides the Desired Engine Speed Signal
A. Measure the desired engine speed signal, refer to the Original Equipment Manufacturers (OEM) service information.
B. Verify that the correct signal is being provided from the device as close to the device as possible.
C. Verify that the correct signal is present at Terminal 66 of the EIC.
Desired Speed Signal
Result: The speed control device is not providing the correct desired speed input signal.
Repair: Repair or replace the device


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