32161-367-690 BAND, WIRE (Honda Code 0769224). Honda
BF15A1 LA, BF15A1 LAS, BF15A1 SA, BF15A1 SAS, BF15A1 XAS, BF15A2 LA, BF15A2 LAS, BF15A2 SA, BF15A2 SAS, BF15A2 XAS, BF9.9AY LA, BF9.9AY LAS, BF9.9AY SA, BF9.9AY SAS, BF9.9AY XA, BF9.9AY XAS
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Honda entire parts catalog list:
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
- CONTROL BOX SET » 32161-367-690
Information:
Fuel Actuator
Illustration 1 g03730696
Location of the fuel actuator (left side top engine view) (1) Fuel actuatorFuel actuator (1) is electronically controlled and electrically actuated. The fuel actuator and the ECM communicate via the CAN data link.Throttle Actuator
Illustration 2 g03730777
Location of the throttle actuator (right side top engine view) (2) Throttle actuatorThrottle actuator (2) is electronically controlled and electrically actuated. The ECM issues commands to the actuator via the CAN data link.Electronic System
The Cat Electronic System is a complete electronic control system for gas engines. The following benefits are the most significant advantages of the electronic system:
Air/Fuel ratio control
Extensive system diagnostics
Elimination of parts that are prone to mechanical wear
Precise control of engine operation
Engine protection
Timing control of individual cylinders
Illustration 3 g03659492
Electronic Control Module (ECM)Most of the functions of the electronic system are provided by the Electronic Control Module (ECM).Five primary functions are supported by the ECM:
Governing of the engine rpm
Control of ignition
Control of the air/fuel ratio
Start/stop control
Monitoring of engine operationGoverning of the Engine RPM
The ECM maintains the desired engine speed through electrical control of the throttle. The throttle regulates the throttle plate.For more information on the desired speed input, see the Systems Operation/Testing and Adjusting manual.Control of Ignition
An ignition harness connects each transformer to the ECM. The harness is routed outside the engine.Control of Air and Fuel
The ECM determines the desired volume for the flow rates of the air and fuel. The ECM sends information on the desired flow of air and fuel to the fuel metering valve. The ECM fine tunes the signal to the fuel metering valve in order to achieve the desired emissions. The process is repeated continuously during engine operation.Start/Stop Control
The ECM contains the logic and the outputs for controlling the starting and stopping of the engine. The logic for starting and stopping can be programmed by the customer.The engine uses an energize-to-run system. The gas shutoff valve must remain energized in order to supply fuel to the engine. If power is removed from the gas shutoff valve, the fuel is shut off.Monitoring Engine Operation
Sensors are used in order to monitor engine operation. Wiring harnesses connect the sensors to the ECM. The ECM uses information from the sensors in order to monitor the engine. The ECM also uses information from the sensors in order to control the engine. The information is also used to generate event codes, and diagnostic codes.Note: The codes can be read with Cat Electronic Technician (ET). The codes can also be read on the panel.Event - An event is a result of abnormal engine operation. If abnormal engine operation is detected, the ECM generates an event code. The ECM can generate an alarm or a shutdown for abnormal engine operation. These conditions are some examples of events: high inlet air temperature, low oil pressure and engine overspeed.Diagnostic - A diagnostic code is a result of a problem with the operating system or with the monitoring system. The ECM uses sensors and internal circuitry to monitor the system components. If a problem develops in a component or a wiring harness, the control system will sense the problem. The control system will notify the operator by creating a diagnostic code. Some examples of conditions that activate diagnostics are a short in a circuit for a sensor, an open circuit, or a noisy signal.Note: For detailed information on event codes and diagnostic codes, refer to Troubleshooting.Sensors
Sensors provide information to the ECM. The information enables the ECM to control the engine as efficiently as possible over a wide range of operating conditions. The information is used for monitoring engine operation and for engine protection.
Illustration 4 g03851518
View of the right side of a CG137-12 Petroleum Engine (1) Coolant temperature sensor (2) Inlet manifold air pressure sensor (3) Exhaust temperature sensor (4) Camshaft speed sensor (5) Filtered oil pressure sensor (6) Unfiltered oil pressure sensor (7) Oil temperature sensor
Illustration 5 g03851527
View of the left side of a CG137-12 Petroleum Engine (3) Exhaust temperature sensor (8) Fuel pressure sensor
Illustration 6 g03851533
Partial view of the rear of a CG137-12 Petroleum Engine (9) Turbocharger exhaust inlet temperature sensor (10) Speed sensor for the crankshaft (11) Inlet air differential pressure sensor
Illustration 7 g03851537
Partial view of the front of a CG137-12 Petroleum Engine (Control box and mounting group removed) (12) Inlet manifold temperature sensorEngine coolant temperature sensor - The temperature sensor is located in the water temperature regulator housing. To monitor the coolant temperature, the element m
Illustration 1 g03730696
Location of the fuel actuator (left side top engine view) (1) Fuel actuatorFuel actuator (1) is electronically controlled and electrically actuated. The fuel actuator and the ECM communicate via the CAN data link.Throttle Actuator
Illustration 2 g03730777
Location of the throttle actuator (right side top engine view) (2) Throttle actuatorThrottle actuator (2) is electronically controlled and electrically actuated. The ECM issues commands to the actuator via the CAN data link.Electronic System
The Cat Electronic System is a complete electronic control system for gas engines. The following benefits are the most significant advantages of the electronic system:
Air/Fuel ratio control
Extensive system diagnostics
Elimination of parts that are prone to mechanical wear
Precise control of engine operation
Engine protection
Timing control of individual cylinders
Illustration 3 g03659492
Electronic Control Module (ECM)Most of the functions of the electronic system are provided by the Electronic Control Module (ECM).Five primary functions are supported by the ECM:
Governing of the engine rpm
Control of ignition
Control of the air/fuel ratio
Start/stop control
Monitoring of engine operationGoverning of the Engine RPM
The ECM maintains the desired engine speed through electrical control of the throttle. The throttle regulates the throttle plate.For more information on the desired speed input, see the Systems Operation/Testing and Adjusting manual.Control of Ignition
An ignition harness connects each transformer to the ECM. The harness is routed outside the engine.Control of Air and Fuel
The ECM determines the desired volume for the flow rates of the air and fuel. The ECM sends information on the desired flow of air and fuel to the fuel metering valve. The ECM fine tunes the signal to the fuel metering valve in order to achieve the desired emissions. The process is repeated continuously during engine operation.Start/Stop Control
The ECM contains the logic and the outputs for controlling the starting and stopping of the engine. The logic for starting and stopping can be programmed by the customer.The engine uses an energize-to-run system. The gas shutoff valve must remain energized in order to supply fuel to the engine. If power is removed from the gas shutoff valve, the fuel is shut off.Monitoring Engine Operation
Sensors are used in order to monitor engine operation. Wiring harnesses connect the sensors to the ECM. The ECM uses information from the sensors in order to monitor the engine. The ECM also uses information from the sensors in order to control the engine. The information is also used to generate event codes, and diagnostic codes.Note: The codes can be read with Cat Electronic Technician (ET). The codes can also be read on the panel.Event - An event is a result of abnormal engine operation. If abnormal engine operation is detected, the ECM generates an event code. The ECM can generate an alarm or a shutdown for abnormal engine operation. These conditions are some examples of events: high inlet air temperature, low oil pressure and engine overspeed.Diagnostic - A diagnostic code is a result of a problem with the operating system or with the monitoring system. The ECM uses sensors and internal circuitry to monitor the system components. If a problem develops in a component or a wiring harness, the control system will sense the problem. The control system will notify the operator by creating a diagnostic code. Some examples of conditions that activate diagnostics are a short in a circuit for a sensor, an open circuit, or a noisy signal.Note: For detailed information on event codes and diagnostic codes, refer to Troubleshooting.Sensors
Sensors provide information to the ECM. The information enables the ECM to control the engine as efficiently as possible over a wide range of operating conditions. The information is used for monitoring engine operation and for engine protection.
Illustration 4 g03851518
View of the right side of a CG137-12 Petroleum Engine (1) Coolant temperature sensor (2) Inlet manifold air pressure sensor (3) Exhaust temperature sensor (4) Camshaft speed sensor (5) Filtered oil pressure sensor (6) Unfiltered oil pressure sensor (7) Oil temperature sensor
Illustration 5 g03851527
View of the left side of a CG137-12 Petroleum Engine (3) Exhaust temperature sensor (8) Fuel pressure sensor
Illustration 6 g03851533
Partial view of the rear of a CG137-12 Petroleum Engine (9) Turbocharger exhaust inlet temperature sensor (10) Speed sensor for the crankshaft (11) Inlet air differential pressure sensor
Illustration 7 g03851537
Partial view of the front of a CG137-12 Petroleum Engine (Control box and mounting group removed) (12) Inlet manifold temperature sensorEngine coolant temperature sensor - The temperature sensor is located in the water temperature regulator housing. To monitor the coolant temperature, the element m
Parts band Honda:
18222-ZV4-000
18222-ZV4-000 BAND, EX. SEAL (Honda Code 2795755).
BF15A1 LA, BF15A1 LAS, BF15A1 SA, BF15A1 SAS, BF15A1 XAS, BF15A2 LA, BF15A2 LAS, BF15A2 SA, BF15A2 SAS, BF15A2 XAS, BF15AM LA, BF15AM LAS, BF15AM SA, BF15AM SAS, BF15AM XAS, BF15AW LA, BF15AW LAS, BF15AW SA, BF15AW SAS, BF15AW XAS, BF15AX LA, BF15AX
32121-HA0-003
32121-HA0-003 BAND, WIRE (Honda Code 2087641).
BF15A1 LAS, BF15A1 SAS, BF15A1 XAS, BF15A2 LAS, BF15A2 SAS, BF15A2 XAS, BF15AM LAS, BF15AM SAS, BF15AM XAS, BF15AW LAS, BF15AW SAS, BF15AW XAS, BF15AX LAS, BF15AX SAS, BF15AX XAS, BF15AY LAS, BF15AY SAS, BF15AY XAS, BF15D3 LHGA, BF15D3 LHSA, BF15D3 L
35701-MG9-950
35701-MG9-950 BAND (Honda Code 1920370).
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,