12892-73G01-264 Suzuki SHIM, TAPPET (T:2.64)

Electronic Control Circuit Diagram
Illustration 1 g02435517
Electronic control circuit diagramBlock Diagram
Illustration 2 is a block diagram of the control system.
Illustration 2 g02534516
Block diagram (1) Air cleaner (2) Air inlet pressure sensor (3) Air inlet temperature sensor (4) Low-pressure turbocharger (5) Spark plug (6) NRS cooler (7) Ignition coil (8) Flame detection temperature sensor (9) ARD combustion air valve (10) ARD combustion head (11) Diesel Oxidation Catalyst (DOC) and Diesel Particulate Filter (DPF) (12) High-pressure turbocharger (13) DPF inlet pressure sensor (14) DPF inlet temperature sensor (15) NRS temperature sensor (16) NRS valve (17) NRS inlet pressure sensor (18) Soot sensor (19) ARD heater wire (20) NRS mixer (21) Air-to-air aftercooler (22) ARD body (23) Heater relay (24) Intake throttle valve (25) Wastegate regulator (26) NRS differential pressure sensor (27) Air-to-air aftercooler temperature sensor (28) Pilot fuel pressure sensor (29) Pilot fuel control valve (30) Engine (31) Coolant temperature sensor (32) ARD fuel pump (33) Primary speed/timing sensor (34) Fuel injectors (35) Return fuel cooler (36) Secondary speed/timing sensor (37) High-pressure fuel pump/transfer pump/fuel temperature sensor (38) Fuel rail pressure sensor (39) Oil pressure sensor (40) Barometric pressure sensor (41) ECM (42) Secondary fuel filter air purge restrictor (43) Electric fuel lift pump (44) Primary fuel filter (45) Fuel strainer (46) Intake manifold pressure sensor (47) Intake manifold air temperature sensor (48) Transfer pump inlet regulator (49) Secondary fuel filter (50) Fuel tankSystem Operation
Engine Governor
The ECM governs the engine. The ECM determines the timing, the injection pressure, and the amount of fuel that is delivered to each cylinder. These factors are based on the actual conditions and on the desired conditions at any given time during starting and operation.The governor uses the throttle input signal to determine the desired engine speed. The governor compares the desired engine speed to the actual engine speed. The actual engine speed is determined through interpretation of the signals that are received by the ECM from the engine speed/timing sensors. If the desired engine speed is greater than the actual engine speed, the governor injects more fuel in order to increase engine speed.
Illustration 3 g02414657
Typical exampleTiming Considerations
Once the governor has determined the amount of fuel that is required, the governor must determine the timing of the fuel injection. Fuel injection timing is determined by the ECM after considering input from the following components:
Coolant temperature sensor
Intake manifold air temperature sensor
Intake manifold pressure sensor
Barometric pressure sensorThe ECM adjusts timing for optimum engine performance and for fuel economy. Actual timing and desired timing cannot be viewed with the electronic service tool. The ECM determines the location of top center of the number one cylinder from the signals that are provided by the engine speed/timing sensors. The ECM determines when injection should occur relative to top center. The ECM then provides the signal to the injector at the desired time.Fuel Injection
The ECM sends a high voltage signal to the injector solenoids in order to energize the solenoids. By controlling the timing and the duration of the high voltage signal, the ECM can control the following aspects of injection:
Injection timing
Fuel deliveryThe flash file inside the ECM establishes certain limits on the amount of fuel that can be injected. The "FRC Fuel Limit" is a limit that is based on the intake manifold pressure. The "FRC Fuel Limit" is used to control the air/fuel ratio for control of emissions. When the ECM senses a higher intake manifold pressure, the ECM increases the "FRC Fuel Limit". A higher intake manifold pressure indicates that there is more air in the cylinder. When the ECM increases the "FRC Fuel Limit", the ECM allows more fuel into the cylinder.The "Rated Fuel Limit" is a limit that is based on the power rating of the engine and on the engine rpm. The "Rated Fuel Limit" is like the rack stops and the torque spring on a mechanically governed engine. The "Rated Fuel Limit" provides the power curves and the torque curves for a specific engine family and a specific engine rating. All of these limits are determined at the factory. These limits cannot be changed. Customer Parameters and Engine Speed Governing
A unique feature with electronic engines is customer specified parameters. These parameters allow the owner of the machine to fine-tune the ECM for engine operation. Fine-tuning the ECM allows the machine owner to accommodate the typical usage of the machine and the power train of the machine.Many of the customer parameters provide additional restrictions on the actions that will be performed by the ECM in response to input from the operator.Some parameters are intended to notify the operator of potential engine damage (engine monitoring parameters). Some parameters enhance fuel economy (machine speed, engine speed limit, and idle shutdown). Other parameters are used to enhance the engine installation into the machine. Other parameters are used to provide engine operating information to the owner of the machine.Other ECM Functions for Performance
The ECM also provides enhanced control of the engine for machine functions such as controlling the cooling fan. Refer to Troubleshooting, "Customer Specified Parameters" for additional information .ECM Lifetime Totals
The ECM maintains total data of the engine for the following parameters:
"Total Operating Hours"
"Engine Lifetime Hours"
"Total Idle Time"
"Total Idle Fuel"
"Total Fuel"
"Total Max Fuel"
"Engine Starts"
"Lifetime Total Engine Revolutions"
"Average Load Factor"The "Total Operating Hours" is the operating hours of the engine. The operating hours do not include the time when the ECM is powered but the engine is not running.The "Engine Lifetime Hours" is the number of hours when electrical power has been applied to the engine. These hours will include the time when the ECM is powered but the engine is not running."Total Idle Time" and "Total Idle Fuel" can include operating time when the engine is not operating under a load.Fuel Information can be displayed in US gallons or in liters."Total Fuel" is the total amount of fuel that is consumed by the engine during operation."Total Max Fuel" is the maximum amount of fuel that could have been consumed by the engine during operation."Engine Starts" is the total number of times when