15655-ZW1-000 Honda DIPSTICK, OIL (Honda Code 4897674).


15655-ZW1-000 DIPSTICK, OIL (Honda Code 4897674). Honda BF75A1 LHTA, BF75A1 LRTA, BF75A1 XRTA, BF75A2 LHTA, BF75A2 LRTA, BF75A2 XRTA, BF75A3 LHTA, BF75A3 LRTA, BF75A3 XRTA, BF75A4 LHTA, BF75A4 LRTA, BF75A4 XRTA, BF75A5 LHTA, BF75A5 LRTA, BF75A5 XRTA, BF75A6 LHTA, BF75A6 LRTA, BF75A6 XRTA, BF75AT LHTA, BF7 DIPSTICK
15655-ZW1-000 DIPSTICK, OIL (Honda Code 4897674). Honda
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Number on catalog scheme: 3
 

Honda entire parts catalog list:

BF75A1 LHTA 2001
BF75A1 LRTA 2001
BF75A1 XRTA 2001
BF75A2 LHTA 2002
BF75A2 LRTA 2002
BF75A2 XRTA 2002
BF75A3 LHTA 2003
BF75A3 LRTA 2003
BF75A3 XRTA 2003
BF75A4 LHTA 2004
BF75A4 LRTA 2004
BF75A4 XRTA 2004
BF75A5 LHTA 2005
BF75A5 LRTA 2005
BF75A5 XRTA 2005
BF75A6 LHTA 2006
BF75A6 LRTA 2006
BF75A6 XRTA 2006
BF75AT LHTA 1997
BF75AT LRTA 1997
BF75AT XRTA 1997
BF75AW LHTA 1998
BF75AW LRTA 1998
BF75AW XRTA 1998
BF75AX LHTA 1999
BF75AX LRTA 1999
BF75AX XRTA 1999
BF75AY LHTA 2000
BF75AY LRTA 2000
BF75AY XRTA 2000
BF90A1 JHTA 2001
BF90A1 JRTA 2001
BF90A1 LHTA 2001
BF90A1 LRTA 2001
BF90A1 XRTA 2001
BF90A2 JHTA 2002
BF90A2 JRTA 2002
BF90A2 LHTA 2002
BF90A2 LRTA 2002
BF90A2 XRTA 2002
BF90A3 JHTA 2003
BF90A3 JRTA 2003
BF90A3 LHTA 2003
BF90A3 LRTA 2003
BF90A3 XRTA 2003
BF90A4 JHTA 2004
BF90A4 JRTA 2004
BF90A4 LHTA 2004
BF90A4 LRTA 2004
BF90A4 XRTA 2004
BF90A5 JHTA 2005
BF90A5 JRTA 2005
BF90A5 LHTA 2005
BF90A5 LRTA 2005
BF90A5 XRTA 2005
BF90A6 JHTA 2006
BF90A6 JRTA 2006
BF90A6 LHTA 2006
BF90A6 LRTA 2006
BF90A6 XRTA 2006
BF90AT LHTA 1997
BF90AT LRTA 1997
BF90AT XRTA 1997
BF90AW JHTA 1998
BF90AW JRTA 1998
BF90AW LHTA 1998
BF90AW LRTA 1998
BF90AW XRTA 1998
BF90AX JHTA 1999
BF90AX JRTA 1999
BF90AX LHTA 1999
BF90AX LRTA 1999
BF90AX XRTA 1999
BF90AY JHTA 2000
BF90AY JRTA 2000
BF90AY LHTA 2000
BF90AY LRTA 2000
BF90AY XRTA 2000

Information:


Table 1
Diagnostic Codes Table
Description Conditions which Generate this Code System Response
632-5
Engine Fuel Shutoff Valve #1 : Current Below Normal The Electronic Control Module (ECM) detects a low current in the circuit for the GSOV for 2 seconds.
The output driver must be off for 5 seconds in order for this code to become active. The code is logged.
The amber warning lamp is illuminated.
The service tool displays "Error Indicator" on the status screen for this parameter.
632-6
Engine Fuel Shutoff Valve #1 : Current Above Normal While the output driver is on for 5 seconds, the ECM detected a high current in the circuit for the GSOV for one second. The code is logged.
The amber warning lamp is illuminated.
The service tool displays "Error Indicator" on the status screen for this parameter.
The output driver automatically resets and the output driver continues to try to activate the circuit component.
632-7
Engine Fuel Shutoff Valve #1 : Not Responding Properly The Engine Control Switch (ECS) is placed in the STOP position. The ECM has shut off fuel, but the pressure sensor before the fuel valve still reads pressure. The code is logged.
The red stop lamp is illuminated.
The power to the GSOV remains in the de-energized state and the ECM inhibits cranking. The ECM contains the logic and the outputs for control of starting the engine and stopping the engine. Some of the logic for starting the engine and for stopping the engine is customer programmable. The logic responds to inputs from the following components: ECS, emergency stop switch, remote start switch, data link and other inputs.The ECM outputs a signal in order to control the solenoid for the GSOV. To enable gas flow to the engine, the GSOV must be energized.The most likely cause of a diagnostic code is a poor electrical connection or a problem in a wiring harness. The next likely cause may be a problem with the solenoid. The least likely cause is a problem with the ECM.When the 632-7 Engine Fuel Shutoff Valve #1 : Failure occurs, the ECM assumes that the GSOV did not close. If the GSOV does not respond to the ECM command, unburned gas will remain in the air inlet and exhaust system.Note: Ensure that the unburned gas is purged from the exhaust before restarting the engine. Failure to purge the unburned gas from the engine may result in an explosion in the exhaust piping.The following information describes the systems operation when the GSOV is controlled by the ECM:The ECM controls the solenoid for the GSOV. This output is energize-to-run. When gas blending turns on, the ECM opens the GSOV. When gas blending turns off, the ECM closes the GSOV.
Illustration 1 g03323629
Schematic of the circuit for the GSOV
Illustration 2 g03324932
Location of the connectors at the ECM
(1) J1/P1 ECM connectors for the GSOV
(2) J2/P2 ECM connectors for the GSOV
Illustration 3 g03324931
Location of the components that are for control of the GSOV
(3) Solenoid for the GSOV
(4) Gas shutoff valve
Illustration 4 g03324927
Terminal location at the P1 connector for the gas shutoff valve
(P-65) - Battery
(P-69) - Battery
Illustration 5 g03324923
Terminal location at the P2 connector for the gas shutoff valve
(P2-5) Gas shutoff valve
Illustration 6 g03324922
(Terminal 1) Sensor signal
(Terminal 2) Sensor return
Gaseous fuel is present. Personal Injury or Death can result from an open flame or spark igniting the gaseous fuel causing an explosion and/or fire. Always use a gas detector to determine the presence of gaseous fuel when maintaining and servicing. Contact your local gas provider immediately for assistance in the event of a leak.
Table 2
Troubleshooting Test Steps Values Results
1. Inspect the Electrical Connectors and the Wiring
A. Ensure that the electrical power has been removed from the engine.
B. Thoroughly inspect connectors (1) and (2). Also, inspect the connectors for solenoid (3). Refer to Testing and Adjusting, "Electrical Connectors - Inspect" for details.
C. Perform a 45 N (10 lb) pull test on each of the wires that are associated with the circuit for the GSOV.
D. Check the wiring harnesses for abrasion, for corrosion and for pinch points.
Connectors and Wiring
Result: The electrical connectors and the wiring are OK.
Proceed to Test Step 2.
Result: The electrical connectors and the wiring are NOT OK.
Repair: Repair the connectors and/or the wiring. Replace parts, if necessary. Ensure that all of the seals are properly in place and ensure that the connectors are coupled.
Verify that the repair eliminated the problem.
2. Check for Active Codes and Logged Codes
A. Remove the electrical power from the engine.
B. Connect Caterpillar Electronic Technician (ET) to the service tool connector. Refer to Troubleshooting, "Electronic Service Tools", if necessary.
C. Restore electrical power to the ECM. Set the engine control to STOP.
Note: The 632-5 Engine Fuel Shutoff Valve #1 : Current Below Normal can only be detected when the output for the start command is off. The output is normally off when the engine control


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