16674-ZW1-000 ROD, CHOKE (Honda Code 4897872). 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
ROD
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Compatible models:
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
BF75AT LRTA
BF75AT XRTA
BF75AW LHTA
BF75AW LRTA
BF75AW XRTA
BF75AX LHTA
BF75AX LRTA
BF75AX XRTA
BF75AY LHTA
BF75AY LRTA
BF75AY XRTA
BF90A1 JHTA
BF90A1 JRTA
BF90A1 LHTA
BF90A1 LRTA
BF90A1 XRTA
BF90A2 JHTA
BF90A2 JRTA
BF90A2 LHTA
BF90A2 LRTA
BF90A2 XRTA
BF90A3 JHTA
BF90A3 JRTA
BF90A3 LHTA
BF90A3 LRTA
BF90A3 XRTA
BF90A4 JHTA
BF90A4 JRTA
BF90A4 LHTA
BF90A4 LRTA
BF90A4 XRTA
BF90A5 JHTA
BF90A5 JRTA
BF90A5 LHTA
BF90A5 LRTA
BF90A5 XRTA
BF90A6 JHTA
BF90A6 JRTA
BF90A6 LHTA
BF90A6 LRTA
BF90A6 XRTA
BF90AT LHTA
BF90AT LRTA
BF90AT XRTA
BF90AW JHTA
BF90AW JRTA
BF90AW LHTA
BF90AW LRTA
BF90AW XRTA
BF90AX JHTA
BF90AX JRTA
BF90AX LHTA
BF90AX LRTA
BF90AX XRTA
BF90AY JHTA
BF90AY JRTA
BF90AY LHTA
BF90AY LRTA
BF90AY XRTA
Honda
Honda entire parts catalog list:
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- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
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- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
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- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
- THROTTLE CAM » 16674-ZW1-000
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- THROTTLE CAM » 16674-ZW1-000
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- THROTTLE CAM » 16674-ZW1-000
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Information:
Electronic Controls
Electronic Control Module
The ECM consists of two main components, the control computer (hardware) and the flash file (software). The control computer consists of a microprocessor and electronic circuitry. The flash file contains the engines operational characteristics. The operating maps influence the engines performance.Engine Governor
The engine ECM governs engine speed. The engine ECM and the flash file work together by controlling the amount of fuel that is delivered by the injectors. Desired engine rpm is determined by the throttle position sensor signal and certain sensor readings. Diagnostic codes may derate the engine. Actual engine rpm is measured by the engine speed/timing signal.Fuel Injection
The engine ECM controls the timing and the duration of the fuel that is injected. The engine ECM varies the signals to the fuel injectors. Fuel is injected only while an injector solenoid is energized by a 105 V signal from the engine ECM. The timing of the injection signal determines the engine timing. The length of the injection signal determines engine speed. By controlling the timing and duration of the 105 V signal, the ECM controls the engine speed.Injection timing depends on the following conditions: desired engine rpm and load. The ECM detects the top center of each cylinder. The ECM sends an injection signal at the desired time.Cold Cylinder Cutout
During a cold start or extended periods at low idle, the engine ECM will automatically turn off one unit injector at a time in order to determine if the cylinder is firing. If the ECM determines that the cylinder is not firing, the ECM turns off the unit injector. If the ECM determines that the cylinder is firing, the ECM turns on the unit injector. This strategy improves engine starting. This strategy reduces the following: white smoke, the use of ether injection and warm-up time.Cold Mode Operation
Cold Mode operation automatically stops fuel injection to cylinders that are not firing. Cold Mode operation has the following benefits: increased startability, reduced warm-up period and reduced white smoke. The cold cylinder cutout strategy is activated whenever the engine coolant temperature falls below 63 °C (145 °F) and the following conditions are met:
An engine without the ether option has been running for ten seconds.
Ether injection has been completed for three seconds.
The engine has been idling for ten minutes.The engine will exit the cold cylinder cutout strategy for ten minutes under the following conditions:
Engine speed drops 50 rpm below low idle.
The throttle switch position is changed.The engine will exit the cold cylinder cutout strategy under the following conditions:
The coolant temperature rises above 70 °C (158 °F).
The Cylinder Cutout Test on the Caterpillar Electronic Technician (ET) is activated.FRC Limit
The flash file inside the engine ECM sets certain limits on the amount of fuel that can be injected. The FRC limit is a limit that is based on the boost pressure. The boost pressure is calculated as the difference in pressure between atmospheric pressure and turbocharger outlet pressure. The FRC limit is used to control the air/fuel ratio for control of emissions. When the engine ECM senses a higher boost pressure, the engine ECM increases the FRC limit. A higher boost pressure indicates that there is more air in the cylinder. When the engine ECM increases the FRC limit, the engine ECM allows more fuel into the cylinder.Rated Fuel Position
The rated fuel position is a limit that is based on the power rating of the engine. The rated fuel position is like the rack stops and the torque spring on a mechanically governed engine. The rated fuel position determines maximum power and torque values for a specific engine family and a specific rating. The rated fuel position is programmed into the flash file at the factory.Electronic Governor
Illustration 1 g00928043
Engine Wiring Diagram
Illustration 2 g03351695
Location Of The Engine Sensors
Illustration 3 g03351686
Left side view (1) Aftercooler coolant temperature (2) Crankcase pressure (3) Atmospheric pressure (4) Unfiltered fuel pressure (5) Filtered fuel pressure (6) Filtered oil pressure (7) Engine coolant temperature (8) Left turbo exhaust inlet temperature (9) Secondary speed/timing sensor (10) Primary speed/timing sensor
Illustration 4 g03351687
Right side view (11) Timing calibration probe (12) Right turbo exhaust inlet temperature
Illustration 5 g03351688
Front side view (13) Unfiltered oil pressure
Electronic Control Module
The ECM consists of two main components, the control computer (hardware) and the flash file (software). The control computer consists of a microprocessor and electronic circuitry. The flash file contains the engines operational characteristics. The operating maps influence the engines performance.Engine Governor
The engine ECM governs engine speed. The engine ECM and the flash file work together by controlling the amount of fuel that is delivered by the injectors. Desired engine rpm is determined by the throttle position sensor signal and certain sensor readings. Diagnostic codes may derate the engine. Actual engine rpm is measured by the engine speed/timing signal.Fuel Injection
The engine ECM controls the timing and the duration of the fuel that is injected. The engine ECM varies the signals to the fuel injectors. Fuel is injected only while an injector solenoid is energized by a 105 V signal from the engine ECM. The timing of the injection signal determines the engine timing. The length of the injection signal determines engine speed. By controlling the timing and duration of the 105 V signal, the ECM controls the engine speed.Injection timing depends on the following conditions: desired engine rpm and load. The ECM detects the top center of each cylinder. The ECM sends an injection signal at the desired time.Cold Cylinder Cutout
During a cold start or extended periods at low idle, the engine ECM will automatically turn off one unit injector at a time in order to determine if the cylinder is firing. If the ECM determines that the cylinder is not firing, the ECM turns off the unit injector. If the ECM determines that the cylinder is firing, the ECM turns on the unit injector. This strategy improves engine starting. This strategy reduces the following: white smoke, the use of ether injection and warm-up time.Cold Mode Operation
Cold Mode operation automatically stops fuel injection to cylinders that are not firing. Cold Mode operation has the following benefits: increased startability, reduced warm-up period and reduced white smoke. The cold cylinder cutout strategy is activated whenever the engine coolant temperature falls below 63 °C (145 °F) and the following conditions are met:
An engine without the ether option has been running for ten seconds.
Ether injection has been completed for three seconds.
The engine has been idling for ten minutes.The engine will exit the cold cylinder cutout strategy for ten minutes under the following conditions:
Engine speed drops 50 rpm below low idle.
The throttle switch position is changed.The engine will exit the cold cylinder cutout strategy under the following conditions:
The coolant temperature rises above 70 °C (158 °F).
The Cylinder Cutout Test on the Caterpillar Electronic Technician (ET) is activated.FRC Limit
The flash file inside the engine ECM sets certain limits on the amount of fuel that can be injected. The FRC limit is a limit that is based on the boost pressure. The boost pressure is calculated as the difference in pressure between atmospheric pressure and turbocharger outlet pressure. The FRC limit is used to control the air/fuel ratio for control of emissions. When the engine ECM senses a higher boost pressure, the engine ECM increases the FRC limit. A higher boost pressure indicates that there is more air in the cylinder. When the engine ECM increases the FRC limit, the engine ECM allows more fuel into the cylinder.Rated Fuel Position
The rated fuel position is a limit that is based on the power rating of the engine. The rated fuel position is like the rack stops and the torque spring on a mechanically governed engine. The rated fuel position determines maximum power and torque values for a specific engine family and a specific rating. The rated fuel position is programmed into the flash file at the factory.Electronic Governor
Illustration 1 g00928043
Engine Wiring Diagram
Illustration 2 g03351695
Location Of The Engine Sensors
Illustration 3 g03351686
Left side view (1) Aftercooler coolant temperature (2) Crankcase pressure (3) Atmospheric pressure (4) Unfiltered fuel pressure (5) Filtered fuel pressure (6) Filtered oil pressure (7) Engine coolant temperature (8) Left turbo exhaust inlet temperature (9) Secondary speed/timing sensor (10) Primary speed/timing sensor
Illustration 4 g03351687
Right side view (11) Timing calibration probe (12) Right turbo exhaust inlet temperature
Illustration 5 g03351688
Front side view (13) Unfiltered oil pressure
Parts rod Honda:
13210-PM6-000
13210-PM6-000 ROD, CONNECTING (Honda Code 2777621).
BF75AT LHTA, BF75AT LRTA, BF75AT XRTA, BF75AW LHTA, BF75AW LRTA, BF75AW XRTA, BF75AX LHTA, BF75AX LRTA, BF75AX XRTA, BF75AY LHTA, BF75AY LRTA, BF75AY XRTA, BF90AT LHTA, BF90AT LRTA, BF90AT XRTA, BF90AW JHTA, BF90AW JRTA, BF90AW LHTA, BF90AW LRTA, BF9
53238-ZW1-700
53238-ZW1-700 ROD, STEERING FRICTION (Honda Code 4900221).
BF75A1 LHTA, BF75A2 LHTA, BF75A3 LHTA, BF75A4 LHTA, BF75A5 LHTA, BF75A6 LHTA, BF75AT LHTA, BF75AW LHTA, BF75AX LHTA, BF75AY LHTA, BF75DK0 LHTA, BF75DK0 LRTA, BF75DK2 LRTA, BF90A1 JHTA, BF90A1 LHTA, BF90A2 JHTA, BF90A2 LHTA, BF90A3 JHTA, BF90A3 LHTA,
56110-ZW1-701
56110-ZW1-701 ROD, PISTON (B) (Honda Code 5300397).
BF115A1 LA, BF115A1 LCA, BF115A1 XA, BF115A1 XCA, BF115A2 LA, BF115A2 LCA, BF115A2 XA, BF115A2 XCA, BF115A3 LA, BF115A3 LCA, BF115A3 XA, BF115A3 XCA, BF115A4 LA, BF115A4 LCA, BF115A4 XA, BF115A4 XCA, BF115A5 LA, BF115A5 LCA, BF115A5 XA, BF115A5 XCA,
56120-ZW1-701
56120-ZW1-701 ROD, PISTON (Honda Code 5300421).
BF115A1 LA, BF115A1 LCA, BF115A1 XA, BF115A1 XCA, BF115A2 LA, BF115A2 LCA, BF115A2 XA, BF115A2 XCA, BF115AX LA, BF115AX LCA, BF115AX XA, BF115AX XCA, BF115AY LA, BF115AY LCA, BF115AY XA, BF115AY XCA, BF130A1 LA, BF130A1 LCA, BF130A1 XA, BF130A1 XCA,
24320-ZW1-B00
24320-ZW1-B00 ROD A, SHIFT (L) (Honda Code 5891718).
BF115A1 LA, BF115A1 LCA, BF115A1 XA, BF115A1 XCA, BF115A2 LA, BF115A2 LCA, BF115A2 XA, BF115A2 XCA, BF115A3 LA, BF115A3 LCA, BF115A3 XA, BF115A3 XCA, BF115A4 LA, BF115A4 LCA, BF115A4 XA, BF115A4 XCA, BF115A5 LA, BF115A5 LCA, BF115A5 XA, BF115A5 XCA,
13210-PLM-A00
13210-PLM-A00 ROD, CONNECTING (Honda Code 6552533).
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, BF90A1 JHTA, BF9
56120-ZW1-305
56120-ZW1-305 ROD, PISTON (Honda Code 8838641).
BF115A3 LA, BF115A3 LCA, BF115A3 XA, BF115A3 XCA, BF115A4 LA, BF115A4 LCA, BF115A4 XA, BF115A4 XCA, BF115A5 LA, BF115A5 LCA, BF115A5 XA, BF115A5 XCA, BF115A6 LA, BF115A6 LCA, BF115A6 XA, BF115A6 XCA, BF115AK0 LA, BF115AK0 XA, BF115DK1 LA, BF115DK1 XA
56120-ZW1-703
56120-ZW1-703 ROD, PISTON (Honda Code 8425662).
BF115A6 LA, BF115A6 LCA, BF115A6 XA, BF115A6 XCA, BF115AK0 LA, BF115AK0 XA, BF135A6 LA, BF135A6 XA, BF135A6 XCA, BF135AK0 LA, BF135AK0 XA, BF135AK0 XCA, BF150A6 LA, BF150A6 XA, BF150A6 XCA, BF150AK0 LA, BF150AK0 XA, BF150AK0 XCA, BF75A6 LHTA, BF75A6