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Menu "Activation"

Menu "Activation"

Activation Activation applicable to Description Use
AC Relay

When crankshaft is stationary

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator operation. When the output is active, the electromagnetic clutch should engage. Otherwise, use a test lamp to find the defective lead and/or component.

The refrigerant circuit must also be OK.

Main Relay

When crankshaft is stationary

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the pump should be heard. Otherwise, use a test lamp to find the defective lead/component. Also check the fuel pressure if necessary.

Fuel Pump Relay

When the crankshaft is stationary. Activation time is limited to 30 seconds.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the pump should be heard. Otherwise, use a test lamp to find the defective lead/component.

Also check the fuel pressure if necessary.

Preheating O2S 1

When crankshaft is stationary

Processor control of the transistor that grounds the circuit.

Checking control module output and electric circuitry. When the output is active, pin 1 of the sensor should be grounded. Otherwise, use a test lamp to find the defective lead/component. Connect the test lamp to pin 2 and B+ when performing this test.

Note: The preheating element is supplied with current from the fuel pump relay. On activation of preheating, the fuel pump relay is not active and therefore the sensor will not be warm. If necessary, the pump circuit can be supplied with current via fuse 19 during activation.

Preheating O2S 2

When crankshaft is stationary

Processor control of the transistor that grounds the circuit.

Checking control module output and electric circuitry. When the output is active, pin 1 of the sensor should be grounded. Otherwise, use a test lamp to find the defective lead/component. Connect the test lamp to pin 2 and B+ when performing this test.

Note: The preheating element is supplied with current from the fuel pump relay. On activation of preheating, the fuel pump relay is not active and therefore the sensor will not be warm. If necessary, the pump circuit can be supplied with current via fuse 19 during activation.

Injector Cyl 1

When the crankshaft is stationary. Activation time is limited to 30 seconds.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the valve should be heard. Otherwise, use a test lamp to find the defective lead/component.

Also check the fuel flow if necessary.

Injector Cyl 2

When the crankshaft is stationary. Activation time is limited to 30 seconds.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the valve should be heard. Otherwise, use a test lamp to find the defective lead/component.

Also check the fuel flow if necessary.

Injector Cyl 3

When the crankshaft is stationary. Activation time is limited to 30 seconds.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the valve should be heard. Otherwise, use a test lamp to find the defective lead/component.

Also check the fuel flow if necessary.

Injector Cyl 4

When the crankshaft is stationary. Activation time is limited to 30 seconds.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the valve should be heard. Otherwise, use a test lamp to find the defective lead/component.

Also check the fuel flow if necessary.

Injector Cyl 5

When the crankshaft is stationary. Activation time is limited to 30 seconds.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the valve should be heard. Otherwise, use a test lamp to find the defective lead/component.

Also check the fuel flow if necessary.

Injector Cyl 6

When the crankshaft is stationary. Activation time is limited to 30 seconds.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. When the output is active, the valve should be heard. Otherwise, use a test lamp to find the defective lead/component.

Also check the fuel flow if necessary.

Ignition Coil Cyl 1

When the crankshaft is stationary. If an injector has been activated, the engine must be started and then switched off before activation will be allowed.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. Connect test spark plug. When the output is active a spark should be ignited. Otherwise, use a test lamp to find the detective lead/component. Also check the spark if necessary.

Ignition Coil Cyl 2

When the crankshaft is stationary. If an injector has been activated, the engine must be started and then switched off before activation will be allowed.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. Connect test spark plug. When the output is active a spark should be ignited. Otherwise, use a test lamp to find the detective lead/component. Also check the spark if necessary.

Ignition Coil Cyl 3

When the crankshaft is stationary. If an injector has been activated, the engine must be started and then switched off before activation will be allowed.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. Connect test spark plug. When the output is active a spark should be ignited. Otherwise, use a test lamp to find the detective lead/component. Also check the spark if necessary.

Ignition Coil Cyl 4

When the crankshaft is stationary. If an injector has been activated, the engine must be started and then switched off before activation will be allowed.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. Connect test spark plug. When the output is active a spark should be ignited. Otherwise, use a test lamp to find the detective lead/component. Also check the spark if necessary.

Ignition Coil Cyl 5

When the crankshaft is stationary. If an injector has been activated, the engine must be started and then switched off before activation will be allowed.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. Connect test spark plug. When the output is active a spark should be ignited. Otherwise, use a test lamp to find the detective lead/component. Also check the spark if necessary.

Ignition Coil Cyl 6

When the crankshaft is stationary. If an injector has been activated, the engine must be started and then switched off before activation will be allowed.

Processor control of the transistor that grounds the circuit.

Checking control module output, electrical circuitry and actuator function. Connect test spark plug. When the output is active a spark should be ignited. Otherwise, use a test lamp to find the detective lead/component. Also check the spark if necessary.

Throttle Motor PWM Test (30s)

When the crankshaft is stationary, the control module input for pedal position sensor 1 is grounded and the input for pedal position sensor 2 is open (connect a jumper lead between pins 4 and 1 in the throttle body's connector).

The main relay must also supply control module pin 1 with current.

Each motor lead can be supplied with B+ or ground to change the polarity. The processor reverses the polarity of the motor leads alternately at 50% PWM.

Checking control module output and electrical circuitry. Connect the test lamp to pins 5 and 10 of the throttle body's connector. During the test the lamp should show a green and red light alternately.

Fuel Pump Flow Test (30s).

When crankshaft is stationary

The fuel pump is activated for 30 seconds. For reasons of safety, a button on the diagnostic tool must be held down throughout the test.

Checking that the flow rate is within the prescribed limits at high fuel adaptation values and that the pressure and the fuel pressure regulator's pressure response are OK at high or low fuel adaptation values.

Injector 1 Flow Test (30s).

When crankshaft is stationary

The injector is activated for 30 seconds. For reasons of safety, a button on the diagnostic tool must be held down throughout the test. The fuel pump must first be started by connecting diagnostics cable 83 93 886 between fuse 8 upper pin and 19 lower pin.

WARNING. This test must NEVER be activated with the injectors mounted in the intake manifold. Checking that the flow rate is within the prescribed limits if uneven fuel distribution between the cylinders is suspected or in connection with high fuel adaptation values.

Injector 2 Flow Test (30s).

When crankshaft is stationary

The injector is activated for 30 seconds. For reasons of safety, a button on the diagnostic tool must be held down throughout the test. The fuel pump must first be started by connecting diagnostics cable 83 93 886 between fuse 8 upper pin and 19 lower pin.

WARNING. This test must NEVER be activated with the injectors mounted in the intake manifold. Checking that the flow rate is within the prescribed limits if uneven fuel distribution between the cylinders is suspected or in connection with high fuel adaptation values.

Injector 3 Flow Test (30s).

When crankshaft is stationary

The injector is activated for 30 seconds. For reasons of safety, a button on the diagnostic tool must be held down throughout the test. The fuel pump must first be started by connecting diagnostics cable 83 93 886 between fuse 8 upper pin and 19 lower pin.

WARNING. This test must NEVER be activated with the injectors mounted in the intake manifold. Checking that the flow rate is within the prescribed limits if uneven fuel distribution between the cylinders is suspected or in connection with high fuel adaptation values.

Injector 4 Flow Test (30s).

When crankshaft is stationary

The injector is activated for 30 seconds. For reasons of safety, a button on the diagnostic tool must be held down throughout the test. The fuel pump must first be started by connecting diagnostics cable 83 93 886 between fuse 8 upper pin and 19 lower pin.

WARNING. This test must NEVER be activated with the injectors mounted in the intake manifold. Checking that the flow rate is within the prescribed limits if uneven fuel distribution between the cylinders is suspected or in connection with high fuel adaptation values.

Injector 5 Flow Test (30s).

When crankshaft is stationary

The injector is activated for 30 seconds. For reasons of safety, a button on the diagnostic tool must be held down throughout the test. The fuel pump must first be started by connecting diagnostics cable 83 93 886 between fuse 8 upper pin and 19 lower pin.

WARNING. This test must NEVER be activated with the injectors mounted in the intake manifold. Checking that the flow rate is within the prescribed limits if uneven fuel distribution between the cylinders is suspected or in connection with high fuel adaptation values.

Injector 6 Flow Test (30s).

When crankshaft is stationary

The injector is activated for 30 seconds. For reasons of safety, a button on the diagnostic tool must be held down throughout the test. The fuel pump must first be started by connecting diagnostics cable 83 93 886 between fuse 8 upper pin and 19 lower pin.

WARNING. This test must NEVER be activated with the injectors mounted in the intake manifold. Checking that the flow rate is within the prescribed limits if uneven fuel distribution between the cylinders is suspected or in connection with high fuel adaptation values.

Canister Purge Valve

When the crankshaft is stationary. Activation time is limited to 60 seconds.

Processor control of the transistor that grounds the circuit with 8 Hz PWM. The pulse ratio is adjustable.

Checking control module output, electrical circuitry and actuator function. When the output is active, the valve should be heard. Otherwise, use a test lamp to find the defective lead/component.

Canister Close Valve

When crankshaft is stationary

Processor control of the transistor that grounds the circuit.

Control of control module output, electric circuit and actuator operation. When the output is active, the valve should be heard operating. Otherwise, use a test lamp to locate the faulty lead/component. For integrity check of EVAP system.

EVAP Integrity Diagnose

When crankshaft is stationary

The cold start diagnosis is initiated irrespective of the engine coolant temperature when starting.

For integrity check of EVAP system.

Reset Misfire Counters

When crankshaft is stationary

The Misfire and Knock counters are set to 0 for all cylinders.

Set to zero before road test.