The Engine Scan Tool Data Definitions contains a brief description of all engine
related parameters available on the scan tool. The list is in alphabetical order.
A given parameter may appear in any one of the data lists. In some cases, the parameter
may appear more than once or in more than one data list in order to group certain
related parameters together.
4WD Low Signal: This parameter displays the state of the transfer
case based on the signal from the four wheel drive (4WD) low switch. The scan tool
will display Enabled or Disabled. Enabled indicates the transfer case is in 4WD low
gear and the 4WD low switch is closed, completing the low signal circuit. Disabled
indicates the transfer case is not in 4WD low gear and the 4WD low switch is open.
4WD Signal: This parameter displays the state of the transfer
case based on the signal from the front axle indicator switch. The scan tool will
display Enabled or Disabled. Enabled indicates the front axle is locked in four wheel
drive and the front axle indicator switch is closed, supplying voltage to the controller
on the axle switch signal circuit. Disabled indicates the transfer case is not in
four wheel drive and the front axle indicator switch is open.
5 Volts Reference 1: This parameter displays the voltage sensed
on the 5-volt reference 1 circuit at the control module. The scan tool will
display a higher value at higher voltage. The scan tool will display a lower value
at lower voltage.
5 Volts Reference 2: This parameter displays the voltage sensed
on the 5-volt reference 2 circuit at the control module. The scan tool will
display a higher value at higher voltage. The scan tool will display a lower value
at lower voltage.
A/C Compressor Cycling Switch: This parameter displays the state
of the air conditioning (A/C) compressor cycling switch as determined by the control
module. The scan tool will display Normal or Low Pressure. Normal indicates the A/C
system has enough refrigerant to close the A/C compressor cycling switch, allowing
the A/C compressor to engage. Low Pressure indicates the A/C refrigerant system has
low pressure and the A/C compressor cycling switch is open.
A/C Relay Command: This parameter displays the commanded state
of the air conditioning (A/C) clutch relay control circuit. The scan tool will display
ON or OFF. ON indicates the A/C clutch relay control circuit is being grounded by
the control module, allowing voltage to the A/C compressor clutch. OFF indicates the
A/C clutch relay is not being commanded on by the control module.
A/C Request Signal: This parameter displays the state of the
air conditioning (A/C) request input to the control module from the heating, ventilation,
and air conditioning (HVAC) controls. The scan tool will display Yes or No. Yes indicates
the control module is receiving a request from the HVAC system to ground the A/C
clutch relay control circuit, engaging the A/C compressor clutch. No indicates the
control module is not receiving a request from the HVAC system to ground the A/C clutch
relay control circuit.
Air Fuel Ratio: This parameter displays the ratio of air to
fuel as calculated by the control module based on various sensor inputs. The scan
tool will display a lower air fuel ratio when a richer air to fuel mixture is commanded.
The scan tool will display a higher air fuel ratio when a leaner air to fuel mixture
is commanded. In closed loop operation the air fuel ratio should normally be around
14.2-14.7 to 1.
Air Flow Calculated: This parameter displays the air flow of
the engine as calculated by the control module using information from the manifold
absolute pressure (MAP) sensor. The scan tool will display a range of values indicating
a high air flow when MAP pressure is high and a low air flow when MAP pressure is
low. This value is listed in grams per second (g/s).
AIR Indicated Pressure: This parameter displays the Secondary
Air Injection (AIR) system pressure above barometric pressure as calculated based
on a signal sent to the control module from the sensor used to monitor the pressure
inside the AIR injection system. The scan tool will display a low value when the pressure
in the AIR system pressure is low. The scan tool will display a high value when the
pressure in the AIR system is high.
AIR Pressure Sensor: This parameter displays the voltage signal
sent to the control module from the sensor used to monitor the pressure inside the
AIR injection system. The scan tool will display a low voltage when the pressure in
the AIR system is high. The scan tool will display a high voltage when the pressure
in the AIR system is low.
AIR Pressure Sensor: This parameter displays the actual AIR
system pressure as calculated based on a signal sent to the control module from the
sensor used to monitor the pressure inside the AIR injection system. The scan tool
will display a low value when the pressure in the AIR system is low. The scan tool
will display a high value when the pressure in the AIR system is high.
AIR Pressure Sensor Variance: This parameter displays the difference
between the desired AIR pressure calculated by the control module and the actual AIR
pressure. The scan tool will display a higher value if the difference is large, and
a lower value if the difference is small.
AIR Pump Relay Circuit Status: This parameter displays the status
of the output driver for the AIR pump relay control circuit. The scan tool will display
OK , Indeterminate, Short B+, Short Gnd, or Open. OK indicates that no circuit faults
are detected during the current test. The different faults will indicates that a short
or open circuit/component exists, electronically disconnecting the circuit/component
from the control module.
AIR Pump Relay Command: This parameter displays the commanded
state of the secondary air injection (AIR) pump relay control circuit. The scan tool
will display ON or OFF. ON indicates the AIR pump relay control circuit is being grounded
by the control module, allowing voltage to the AIR pump. OFF indicates the AIR pump
relay is not being commanded on by the control module.
AIR Solenoid Circuit Status: This parameter displays the status
of the output driver for the AIR solenoid control circuit. The scan tool will display
OK , Incomplete, Short B+, Short Gnd, or Open. OK indicates that no circuit faults
are detected during the current test. The different faults will indicates that a short
or open circuit/component exists, electronically disconnecting the circuit/component
from the control module.
AIR Solenoid Command: This parameter displays the commanded
state of the AIR solenoid control circuit. The scan tool will display ON or OFF. ON
indicates the AIR solenoid control circuit is being grounded by the control module,
opening the AIR solenoid and allowing vacuum to the shutoff or combination valve(s).
OFF indicates the AIR solenoid is not being commanded on by the control module.
APP Indicated Angle: This parameter displays the angle of the
accelerator pedal as calculated by the control module using the signals from the accelerator
pedal position sensors. The accelerator pedal position (APP) indicated angle is a
range of values indicating a low percentage when the accelerator pedal is not depressed
to a high percentage when the accelerator pedal is fully depressed.
APP Sensor: This parameter displays the average of the APP sensors
as calculated by the throttle actuator control (TAC) module. The APP average is a
range of values indicating a low number when the accelerator pedal is not depressed
to a high number when the accelerator pedal is fully depressed. This value is listed
in counts.
APP Sensor 1: This parameter displays the voltage signal sent
to the control module from APP sensor 1 of the APP sensor assembly. APP sensor 1 is
a range of values indicating a low voltage when the accelerator pedal is not depressed
to a high voltage when the accelerator pedal is fully depressed.
APP Sensor 1 Indicated Position: This parameter displays the
angle of the APP sensor 1 as calculated by the control module using the signal from
the APP sensor 1. APP sensor 1 is a range of values indicating a low percentage when
the accelerator pedal is not depressed to a high percentage when the accelerator pedal
is fully depressed.
APP Sensor 1 and 2: This parameter displays the results of a
control module test that compares the signals from the APP sensors 1 and 2 . The scan
tool will display Agree or Disagree. Agree indicates that APP sensor 1 and APP sensor
2 voltages correspond to the same accelerator pedal position. Disagree indicates that
APP sensor 1 and APP sensor 2 voltages correspond to different accelerator pedal positions.
APP Sensor 2: This parameter displays the voltage signal sent
to the control module from APP sensor 2 of the APP sensor assembly. APP sensor 2 is
a range of values indicating a low voltage when the accelerator pedal is not depressed
to a high voltage when the accelerator pedal is fully depressed.
APP Sensor 2 Indicated Position: This parameter displays the
angle of the APP sensor 2 as calculated by the control module using the signal from
the APP sensor 2. APP sensor 2 is a range of values indicating a low percentage when
the accelerator pedal is not depressed to a high percentage when the accelerator pedal
is fully depressed.
BARO (Gasoline): This parameter displays the barometric pressure
as calculated by the control module using the signal from the manifold absolute pressure
(MAP) sensor measured when the ignition is turned on with the engine not running.
The control module will update the barometric pressure during wide-open throttle
(WOT) conditions. The scan tool will display a low value when the barometric pressure
is low, and a high value when the barometric pressure is high.
BARO (Gasoline): This parameter displays the voltage signal
received by the control module from the manifold absolute pressure (MAP) sensor measured
when the ignition is turned on with the engine not running. The control module will
update the barometric pressure during wide-open throttle (WOT) conditions. The scan
tool will display a low value when the barometric pressure is low, and a high value
when the barometric pressure is high.
BPP Signal: This parameter displays the state of the brake pedal
position switch as determined by the brake pedal switch. The scan tool will display
Applied when the brake pedal is depressed, and Released when the brake pedal is not
depressed.
Catalytic Converter Protection Active: This parameter indicates
the status of the control module control for catalytic converter protection. The scan
tool will indicate YES if the control module is adjusting fuel and ignition quantity
and timing to protect the catalytic converter from damage. The scan tool will indicate
NO if the control module is in a normal fuel and ignition control mode.
CKP Active Counter: This parameter displays an incrementing
counter when the control module receives a signal from the crankshaft position (CKP)
sensor.
CKP Resync Counter: This parameter displays the number of times
the control module has to resynchronize the CKP sensor.
CKP Sensor: This parameter displays the engine speed as calculated
by the control module using the signal from the CKP sensor.
Clutch Pedal Switch: This parameter displays the current state
of the clutch pedal as determined by the control module.
CMP Active Counter: This parameter displays an incrementing
counter when the control module receives a signal from the camshaft position (CMP)
sensor.
CMP Sensor: This parameter displays the engine speed as calculated
by the control module using the signal from the CMP sensor.
CMP Sensor - High To Low: This parameter displays the number
of times the signal voltage from the camshaft position (CMP) sensor changes from high
to low. The scan tool will display these transitions as counts.
CMP Sensor - Low To High: This parameter displays the number
of times the signal voltage from the camshaft position (CMP) sensor changes from low
to high. The scan tool will display these transitions as counts.
Cold Startup: This parameter displays whether the engine meets
the conditions for a cold startup during the present ignition cycle. The scan tool
displays Yes when the conditions for a cold startup are met during this ignition cycle.
The scan tool displays No when the conditions for a cold startup are not met during
the present ignition cycle. Conditions for a cold startup require the coolant temperature
and the intake air temperature to be below a predetermined temperature and within
a certain range of each other. These conditions must occur after the engine was warmed
up to a specific temperature during the previous ignition cycle.
Coolant Level Switch: This parameter displays the level of engine
coolant as determined by the control module. The control module determines the level
of the coolant using the signal from a switch used to monitor the engine coolant level.
The scan tool will display low when the engine coolant level is low. The scan tool
will display OK when the coolant level is correct.
Cruise Control Active: This parameter displays the status of
the cruise control system as determined by the control module. The scan tool will
display Yes when the cruise control system is in control of vehicle speed. The scan
tool will display No when the cruise control system is not operating.
Cruise Inhibit Signal Command: This parameter displays the commanded
state of the cruise inhibit signal circuit. The scan tool will display On when the
control module is inhibiting cruise control operation. The scan tool will display
Off when the control module is allowing cruise control operation.
Current Gear: This parameter displays the transmission gear
commanded by the control module. The scan tool will display 1 when the control module
has commanded first gear regardless of the gear selector position. The scan tool will
display up to 6 depending upon which gear is commanded and what transmission is in
the vehicle. The scan tool will display 9 if the transmission gear is not known.
Cycles Of Misfire Data: This parameter displays the number of
cylinder firing events that were recorded as misfires as determined by the control
module.
Cylinder 1-8 Injector Circuit Status: This parameter displays
the current diagnostic state of the output driver for the injector control circuit.
The scan tool will display OK if the circuit is operating correctly. The scan tool
will display Fault if there is an open, short to ground or a short to voltage on the
circuit.
Decel. Fuel Cutoff: This parameter displays the status of the
operating mode used to turn off the fuel injectors during certain deceleration conditions.
When the scan tool displays Active, the control module has turned off the fuel injectors.
When the scan tool displays Inactive, the fuel system is operating normally.
Desired EGR Position: This parameter displays the position of
the exhaust gas recirculation (EGR) valve commanded by the control module. The scan
tool will display 0 percent when the control module is commanding the EGR valve closed.
Desired IAC Airflow: This parameter displays the desired airflow
in the idle air control (IAC) passage as calculated by the control module.
Desired Idle Speed: This parameter displays the engine idle
speed in RPM commanded by the control module. The control module compensates for various
engine loads in order to maintain the desired engine RPM at idle. This parameter is
not valid unless the engine is running.
Distance Since DTC Cleared: This parameter displays the distance
accumulated since an emission diagnostic trouble code was cleared. The scan tool will
display increasing distance as the vehicle is driven.
DTC Set This Ignition: This parameter displays if a diagnostic
trouble code (DTC) set during the current ignition cycle. The scan tool will display
YES if a DTC is stored this ignition cycle.
EC Ignition Relay Circuit Status: This parameter displays the
status of the output driver for the engine control (EC) Ignition Relay control circuit.
The scan tool will display OK if the circuit is operating correctly. The scan tool
will display Fault if there is an open, short to ground or a short to voltage on the
circuit.
EC Ignition Relay Command: This parameter displays the commanded
state of the EC Ignition relay control circuit. The scan tool will display ON or OFF.
ON indicates the EC ignition relay control circuit is being grounded by the control
module, allowing voltage to other control module circuits and systems. OFF indicates
the EC ignition relay is not being commanded on by the control module.
EC Ignition Relay Feedback Signal: This parameter displays the
voltage signal sent to the control module from the engine control ignition relay.
The scan tool will display battery voltage when the engine is running. The scan tool
will display no voltage when the relay is OFF.
ECM Reset: The scan tool displays Yes or No. This parameter
indicates when the internal ECM resets. The scan tool displays YES when an internal
ECM reset occurred. The scan tool displays NO under the normal operating conditions.
ECT Sensor: This parameter displays the temperature of the engine
coolant based on a voltage input from the engine coolant temperature (ECT) sensor
to the control module. The scan tool will display a low value when the coolant temperature
is low, and a high value when the coolant temperature is high.
EGR Learned Minimum Position: This parameter displays the voltage
from the EGR valve that the control module uses to determine that the EGR valve is
closed. The voltage displayed will be the closed position of the EGR pintle learned
by the control module.
EGR Flow Test Count: This parameter indicates the number of
EGR flow test samples collected during the current ignition cycle.
EGR Position Sensor: This parameter displays the voltage signal
received from the EGR valve position sensor by the control module. The scan tool will
display a lower value when the EGR valve is closed, and a higher value when the EGR
valve is open.
EGR Position Sensor: This parameter displays EGR valve position
as calculated by the control module based on an input from the EGR valve position
sensor. The scan tool will display a lower value when the EGR valve is closed, and
a higher value when the EGR valve is open.
EGR Position Variance: This parameter displays the difference
between the desired EGR valve position calculated by the control module and the actual
EGR position input from the EGR valve position sensor. The scan tool will display
a higher value if the difference is large, and a lower value if the difference is
small.
EGR Solenoid Circuit Status: This parameter displays the status
of the output driver for the EGR solenoid control circuit. The scan tool will display
OK if the circuit is operating correctly. The scan tool will display Fault if there
is an open, short to ground or a short to voltage on the circuit.
EGR Solenoid Command: This parameter displays the duty cycle
commanded by the control module for the EGR valve. The scan tool will display a high
percentage when the EGR valve is commanded open. The scan tool will display a low
percentage when the EGR valve is commanded closed.
Engine Load: This parameter displays the engine load in percent
based on inputs to the control module from various engine sensors. The scan tool will
display a low percentage when the engine is at idle with little or no load. The scan
tool will display a high percentage when the engine is running at a high RPM under
a heavy load.
Engine Oil Level Switch: This parameter displays the state of
the engine oil level switch as determined by the control module. The scan tool will
display OK or Low. OK indicates that the engine oil level is not too low for safe
operation of the engine. Low indicates the engine oil level is abnormally low and
has closed the engine oil level switch.
Engine Oil Life Remaining: This parameter displays the amount
of engine oil life remaining before requiring an oil change. This number is calculated
by the control module based on many inputs and is displayed as a percent. The lower
the percentage, the sooner the next oil change will be required.
Engine Oil Pressure Sensor: This parameter displays the pressure
of the engine oil as calculated by the control module using a signal from the engine
oil pressure (EOP) sensor. The scan tool will display oil pressure when the engine
is running. The engine oil pressure sensor has a range of values indicating a low
value when the oil pressure is low to a high value when the oil pressure is high.
Engine Oil Pressure Switch: This parameter displays the state
of the EOP as determined by the control module. The control module monitors the EOP
switch to determine if the EOP is sufficient. The scan tool will display low when
the EOP is below a predetermined value.
Engine Run Time: This parameter displays the time elapsed since
the engine was started. The scan tool will display the time in hours, minutes and
seconds. The engine run time will reset to zero as soon as the engine stops running.
Engine Speed: This parameter displays the speed of the crankshaft
as calculated by the control module based on inputs from the Crankshaft Position (CKP)
Sensor. The scan tool will display the engine speed in revolutions per minute (RPM).
EVAP Fault History: This parameter displays the result of the
evaporative emission (EVAP) system diagnostic as determined by the control module.
The scan tool will display various messages, depending on the result of the test.
EVAP Purge Solenoid Command: This parameter displays the commanded
state of the EVAP purge solenoid control circuit. The scan tool will display 0-100%.
A high value indicates the purge solenoid control circuit is being commanded more
by the control module, opening the EVAP purge solenoid. A low value indicates the
purge solenoid is being commanded on less by the control module.
EVAP Purge Solenoid Circuit Status: This parameter displays
the diagnostic state of the output driver for the evaporative emission purge solenoid
control circuit as determined by the control module. The scan tool will display OK
if the circuit is operating correctly. The scan tool will display the appropriate
fault if there is an open, short to ground or a short to voltage on the circuit. The
scan tool will display Incomplete if the diagnostic has not completed.
EVAP Test Result: The scan tool displays No Result, Passed,
Aborted, Fail-DTC P0440, Fail-DTC P0442, Fail-DTC P0446, or Fail-DTC P1441. The scan
tool displays PASS if the control module determines that the EVAP test has passed.
EVAP Test State: The scan tool displays Waiting For Purge, Test
Running, or Test Completed. This parameter indicates the state of the EVAP service
bay test.
EVAP Vent Solenoid Command: This parameter displays the commanded
state of the EVAP vent solenoid control circuit. The scan tool will display venting
or not venting. Not venting indicates the purge solenoid control circuit is being
commanded ON by the control module, closing the EVAP vent solenoid. Venting indicates
the vent solenoid is not being commanded by the control module, allowing the solenoid
to remain open.
EVAP Vent Solenoid Circuit Status: This parameter displays the
diagnostic state of the output driver for the evaporative emission vent solenoid control
circuit as determined by the control module. The scan tool will display OK if the
circuit is operating correctly. The scan tool will display the appropriate fault if
there is an open, short to ground or a short to voltage on the circuit. The scan tool
will display Incomplete if the diagnostic has not completed.
Fail Counter: The scan tool displays the number of times that
a diagnostic has failed.
Fuel Alcohol Content: This parameter displays the percentage
of alcohol in the fuel. This value is calculated by the control module using the frequency
signal from the fuel composition sensor. The scan tool will display a low percentage
when there is very little alcohol in the fuel. The scan tool will display a high percentage
when the alcohol content of the fuel is high.
Fuel Composition Sensor Frequency: This parameter displays the
frequency from the sensor used to monitor the concentration of alcohol in the fuel.
The fuel composition sensor measures the fuel capacitance, temperature, and fuel conductance
to determine the amount of alcohol contained in the fuel. The scan tool will display
a low frequency reading when the alcohol concentration of the fuel is low. The scan
tool will display a high frequency reading when the alcohol concentration of the fuel
is high.
Fuel Composition Sensor On Time: This parameter displays the
pulse width signal of the fuel composition sensor as received by the control module.
The scan tool will display a lower value at colder fuel temperatures. The scan tool
will display a higher value at higher fuel temperatures.
Fuel Level Sensor: This parameter displays the voltage from
the signal produced by the sensor used to monitor the fuel level inside the fuel tank.
The scan tool will display a low voltage reading when the fuel level in the tank is
low or near empty. The scan tool will display a high voltage reading when the fuel
level in the tank is high or near full.
Fuel Level Sensor Rear Tank: This parameter displays the voltage
from the signal produced by the sensor used to monitor the fuel level inside the rear
fuel tank. The scan tool will display a low voltage reading when the fuel level in
the rear tank is low or near empty. The scan tool will display a high voltage reading
when the fuel level in the tank is high or near full.
Fuel Pump Relay Command: This parameter displays the commanded
state of the fuel pump relay control circuit. The fuel pump relay should be on when
the scan tool indicates the Fuel Pump Relay Command is On. The fuel pump relay should
be off when the scan tool indicates the Fuel Pump Relay Command is Off.
Fuel Pump Relay Circuit Status: This parameter displays the
diagnostic state of the output driver for the fuel pump relay control circuit. The
scan tool will display OK if the circuit is operating correctly. The scan tool will
display the appropriate fault if there is an open, short to ground or a short to voltage
on the circuit.
Fuel Tank Level Remaining: This parameter displays the amount
of fuel remaining in all fuel tanks of the vehicle as measured in liters or gallons.
The control module calculates the amount of fuel remaining in the tank by using information
from the fuel level sensors.
Fuel Tank Level Remaining: This parameter displays the amount
of fuel remaining in all of the fuel tanks of the vehicle as a percentage. The control
module calculates this level using the signals from the sensors used to monitor the
fuel level in the fuel tanks. The scan tool will display a low reading when the total
fuel level in the vehicle is low or near empty. The scan tool will display a high
reading when the fuel level in the tank is high or near full.
Fuel Tank Pressure Sensor: This parameter displays the voltage
signal sent to the control module from the sensor used to monitor the pressure inside
the fuel tank. The scan tool will display a low voltage when the pressure in the fuel
tank is high. The scan tool will display a high voltage when the pressure in the fuel
tank is low or in a vacuum.
Fuel Tank Pressure Sensor: This parameter displays the fuel
tank pressure as calculated based on a signal sent to the control module from the
fuel tank pressure (FTP) sensor. The scan tool will display a low value when the pressure
in the fuel tank is low or a vacuum. The scan tool will display a high value when
the pressure in the fuel tank is high.
Fuel Tank Rated Capacity: The scan tool displays Liters or gallons.
This parameter displays the fuel tank capacity as determined by the calibrations of
the vehicle.
Fuel Temperature: This parameter displays the current fuel temperature
as calculated by the control module based on input from the fuel composition sensor.
The scan tool will display a higher value at higher fuel temperatures. The scan tool
will display a lower value at lower fuel temperatures.
Fuel Trim Cell: This parameter displays the fuel trim cell as
calculated by the control module based on many sensor inputs. The fuel trim cell indicates
which cell is currently active.
Fuel Trim Learn: The scan tool displays Enabled or Disabled.
When conditions are appropriate for enabling long term fuel trim corrections, the
scan tool displays Enabled. If the scan tool displays Disabled, then long term fuel
trim will not respond to changes in short term fuel trim.
Fuel Trim System Test State: This parameter indicates the status
of the Fuel Trim System Test. The scan tool will display Disabled, Enabled, Monitoring,
or Run Purge Test.
Generator F-Terminal Signal : This parameter displays the commanded
state of the generator by the control module. A High value indicates a high charging
command, and a low value indicates a low charging command.
Generator L-Terminal Signal Command: This parameter displays
if the control module is allowing the generator to operate. The scan tool displays
ON if the generator is allowed to operate. The scan tool displays OFF if the control
module is disabling the generator.
HO2S Bank 1 Sensor 1: This parameter displays the voltage from
the signal produced by the heated oxygen sensor used to monitor fuel trim for cylinder
bank 1. The scan tool will display a low voltage reading when that cylinder bank is
running lean. The scan tool will display a high voltage reading when that cylinder
bank is running rich.
HO2S Bank 1 Sensor 2: This parameter displays the voltage from
the signal produced by the heated oxygen sensor used to monitor catalyst efficiency
for cylinder bank 1. The scan tool will display a low voltage reading when that cylinder
bank is running lean. The scan tool will display a high voltage reading when that
cylinder bank is running rich.
HO2S Bank 2 Sensor 1: This parameter displays the voltage from
the signal produced by the heated oxygen sensor used to monitor fuel trim for cylinder
bank 2. The scan tool will display a low voltage reading when that cylinder bank is
running lean. The scan tool will display a high voltage reading when that cylinder
bank is running rich.
HO2S Bank 2 Sensor 2: This parameter displays the voltage from
the signal produced by the heated oxygen sensor used to catalyst efficiency for cylinder
bank 2. The scan tool will display a low voltage reading when that cylinder bank is
running lean. The scan tool will display a high voltage reading when that cylinder
bank is running rich.
HO2S Heater Bn 1 Sen. 1: This parameter displays the current
through the control module when the bank 1 sensor 1 HO2S heater is commanded ON by
the control module. HO2S Heater Bn 1 Sen. 1 is a range of values indicating a low
current when the heater circuit resistance is high to a high current when the heater
circuit resistance is low.
HO2S Heater Bn 1 Sen. 2: This parameter displays the current
through the control module when the bank 1 sensor 2 HO2S heater is commanded ON by
the control module. HO2S Heater Bn 1 Sen. 2 is a range of values indicating a low
current when the heater circuit resistance is high to a high current when the heater
circuit resistance is low.
HO2S Heater Bn 2 Sen. 1: This parameter displays the current
through the control module when the bank 2 sensor 1 HO2S heater is commanded ON by
the control module. HO2S Heater Bn 2 Sen. 1 is a range of values indicating a low
current when the heater circuit resistance is high to a high current when the heater
circuit resistance is low.
HO2S Heater Bn 2 Sen. 2: This parameter displays the current
through the control module when the bank 2 sensor 2 HO2S heater is commanded ON by
the control module. HO2S Heater Bn 2 Sen. 2 is a range of values indicating a low
current when the heater circuit resistance is high to a high current when the heater
circuit resistance is low.
HO2S Bank 1 Sensor 1 Heater Command: This parameter displays
the commanded state of the Bank 1 Sensor 1 heater by the control module. The scan
tool will display a higher value as the heater command is increased, and a lower value
if the heater is not commanded ON.
HO2S Bank 1 Sensor 1 Heater Command: This parameter displays
the commanded state of the Bank 1 Sensor 1 heater by the control module. The scan
tool will display ON when the heater is commanded on. The scan tool will display OFF
when the heater is commanded off.
HO2S Bank 1 Sensor 2 Heater Command: This parameter displays
the commanded state of the Bank 1 Sensor 2 heater by the control module. The scan
tool will display a higher value as the heater command is increased, and a lower value
if the heater is not commanded ON.
HO2S Bank 1 Sensor 2 Heater Command: This parameter displays
the commanded state of the Bank 1 Sensor 2 heater by the control module. The scan
tool will display ON when the heater is commanded on. The scan tool will display OFF
when the heater is commanded off.
HO2S Bank 2 Sensor 1 Heater Command: This parameter displays
the commanded state of the Bank 2 Sensor 1 heater by the control module. The scan
tool will display a higher value as the heater command is increased, and a lower value
if the heater is not commanded ON.
HO2S Bank 2 Sensor 1 Heater Command: This parameter displays
the commanded state of the Bank 2 Sensor 1 heater by the control module. The scan
tool will display ON when the heater is commanded on. The scan tool will display OFF
when the heater is commanded off.
HO2S Bank 2 Sensor 2 Heater Command: This parameter displays
the commanded state of the Bank 2 Sensor 1 heater by the control module. The scan
tool will display a higher value as the heater command is increased, and a lower value
if the heater is not commanded ON.
HO2S Bank 2 Sensor 2 Heater Command: This parameter displays
the commanded state of the Bank 2 Sensor 1 heater by the control module. The scan
tool will display ON when the heater is commanded on. The scan tool will display OFF
when the heater is commanded off.
Hot Open Loop: This parameter indicates the status of the fuel
delivery system. The scan tool will display Active if the fuel system is running in
open loop due to a temperature concern. The scan tool will display Inactive if the
fuel system is operating normally.
IAC Position: This parameter displays the position of the Idle
Air Control (IAC) motor pintle as commanded by the control module. The scan tool will
display a high count for a higher idle speed command, and a low count for a lower
idle speed command.
IAT Sensor: This parameter displays the temperature of the intake
air calculated by the control module based on the input from the intake air temperature
(IAT). The scan tool will display a low value for a low intake air temperature, and
a high value for a high intake air temperature.
Ignition Accessory Signal: This parameter displays the state
of the ignition 0 input to the control module from the ignition switch. The
scan tool will display On when the ignition switch is in the ignition accessory position.
The scan tool will display Off when the ignition switch is in any other position.
Ignition 1 Signal: This parameter displays the voltage measured
at the ignition 1 circuit of the control module. Voltage is applied to the
control module when the ignition switch is in the ignition 1 position. The
scan tool will display a higher value with a higher system voltage, and a lower value
with a lower system voltage.
Injector PWM Bank 1 Average: The scan tool displays in milliseconds.
This parameter is the average time the control module turns on each fuel injector
on that bank. The scan tool will display a higher value with a longer pulse width,
or a lower value with a shorter pulse width.
Injector PWM Bank 2 Average: The scan tool displays in milliseconds.
This parameter is the average time the control module turns on each fuel injector
on that bank. The scan tool will display a higher value with a longer pulse width,
or a lower value with a shorter pulse width.
Injector 1-8 Disabled Due to Misfire: This parameter displays
the status of the fuel injector driver by the control module. The scan tool will display
YES if the fuel injector is being disabled due to a misfire detection. The scan tool
will display NO if the fuel injector is not being disabled by the control module due
to a misfire.
Intake Manifold Pressure: This parameter displays the pressure
difference between the MAP and the barometric pressure (BARO) as calculated by the
control module. The scan tool will display a higher value during high vacuum conditions,
such as idle or deceleration. The scan tool will display a lower value during low
vacuum conditions, such as wide open throttle or low load cruising.
Knock Detected Cyl.1-8: This parameter displays the status
of each cylinder for knock detection by the control module. The scan tool will display
YES if a knock condition has been detected related to that cylinder combustion event.
The scan tool will display NO if there is no knock condition detected related to that
cylinder combustion event.
Knock Retard: The scan tool displays in degrees. This parameter
indicates the amount of timing retard commanded by the control module. The scan tool
will display a lower value if no knock is detected, and a higher value as more knock
is detected and the control module retards the ignition timing.
KS Bank 1 Circuit Status: This parameter displays the diagnostic
state of the output driver for the knock sensor circuit. The scan tool will display
OK if the circuit is operating correctly. The scan tool will display Fault if there
is an open, short to ground or a short to voltage on the circuit. The scan tool will
display incomplete if the circuit test has not run.
KS Bank 2 Circuit Status: This parameter displays the diagnostic
state of the output driver for the knock sensor circuit. The scan tool will display
OK if the circuit is operating correctly. The scan tool will display Fault if there
is an open, short to ground or a short to voltage on the circuit. The scan tool will
display incomplete if the circuit test has not run.
KS Module Status: This parameter displays the status of the
internal module tests on the knock sensor module. The scan tool will display OK if
there is no fault detected. The scan tool will display Fault if a fault is detected.
The scan tool will display incomplete if the diagnostics have not been completed.
Long Term FT Avg. Bn1: The scan tool displays in percentage.
This parameter is the average long term fuel trim for this bank as calculated by the
control module. The scan tool will display of more than 0 percent indicating that
time is being added to the injector pulse width, increasing the amount of fuel to
this bank of the engine. The scan tool will display a value of less than 0 indicating
time is being subtracted from the injector pulse width, reducing the amount fuel to
this bank of the engine. A value of 0 percent indicates no compensation is required
to operate the engine at the desired air/fuel ratio.
Long Term FT Avg. Bn2: The scan tool displays in percentage.
This parameter is the average long term fuel trim for this bank as calculated by the
control module. The scan tool will display of more than 0 percent indicating that
time is being added to the injector pulse width, increasing the amount of fuel to
this bank of the engine. The scan tool will display a value of less than 0 indicating
time is being subtracted from the injector pulse width, reducing the amount fuel to
this bank of the engine. A value of 0 percent indicates no compensation is required
to operate the engine at the desired air/fuel ratio.
Long Term FT Bank 1: The scan tool displays in percentage. This
parameter is the long term fuel trim for this bank as calculated by the control module.
The scan tool will display of more than 0 percent indicating that time is being added
to the injector pulse width, increasing the amount of fuel to this bank of the engine.
The scan tool will display a value of less than 0 indicating time is being subtracted
from the injector pulse width, reducing the amount fuel to this bank of the engine.
A value of 0 percent indicates no compensation is required to operate the engine at
the desired air/fuel ratio.
Long Term FT Bank 2: The scan tool displays in percentage. This
parameter is the long term fuel trim for this bank as calculated by the control module.
The scan tool will display of more than 0 percent indicating that time is being added
to the injector pulse width, increasing the amount of fuel to this bank of the engine.
The scan tool will display a value of less than 0 indicating time is being subtracted
from the injector pulse width, reducing the amount fuel to this bank of the engine.
A value of 0 percent indicates no compensation is required to operate the engine at
the desired air/fuel ratio.
Loop Status: The scan tool displays Open Loop or Closed Loop.
The scan tool displays Closed Loop if the control module is controlling the fuel delivery
according to the heated oxygen sensor (HO2S) voltages. The scan tool displays open
loop if the control module is not adjusting for HO2S inputs. In open loop the control
module bases fuel deliver on throttle position, engine coolant temperature, and mass
airflow sensor inputs.
Low Oil Lamp Command: This parameter displays the commanded
state of the low oil lamp control circuit by the control module. The scan tool will
display ON if the lamp is commanded ON by the control module. The scan tool will display
OFF if the lamp is not being commanded by the control module.
MAF Performance Test: This parameter displays the status of
the mass air flow (MAF) performance test by the control module. The scan tool will
display OK if no fault is found. The scan tool will display Fault if the control module
detects a fault during the test.
MAF Sensor: The scan tool displays g/s. This parameter indicates
the airflow into the engine as calculated by the control module based on mass airflow
(MAF) sensor inputs. The scan tool will display a high value at higher engine speeds,
and a low value at idle.
MAF Sensor: The scan tool displays in Hz. This parameter indicates
the frequency signal sent from the MAF sensor to the control module. the scan tool
will display a high value indicates a higher engine speed. The scan tool will display
a low value at idle.
MAP Performance Test 1: This parameter displays the status of
the MAP performance test 1 by the control module. The scan tool will display OK if
no fault is found. The scan tool will display Fault if the control module detects
a fault during the test.
MAP Performance Test 2: This parameter displays the status of
the MAP performance test 2 by the control module. The scan tool will display OK if
no fault is found. The scan tool will display Fault if the control module detects
a fault during the test.
MAP Sensor: The scan tool displays kPa. This parameter displays
the pressure inside of the intake manifold as calculated by the control module based
on the input from the MAP sensor. The scan tool will display a high value at cruising
speed or wide open throttle (WOT). The scan tool will display a low value at idle
speed.
MAP Sensor: This parameter displays the voltage signal from
the MAP sensor to the control module. The scan tool will display a high value at cruising
speed or wide open throttle (WOT). The scan tool will display a low value at idle
speed.
MIL Circuit Status: This parameter displays the diagnostic state
of the output driver for the malfunction indicator lamp control (MIL) circuit. The
scan tool will display OK if the circuit is operating correctly. The scan tool will
display the appropriate fault if there is an open, short to ground or a short to voltage
on the circuit. The scan tool will display Incomplete if the diagnostic has not completed.
MIL Command: This parameter displays the commanded state of
the malfunction indicator lamp (MIL) control circuit. The malfunction indicator lamp
should be on when the scan tool indicates the MIL Command is On. The malfunction indicator
lamp should be off when the scan tool indicates the MIL Command is Off. The control
module will command the MIL On when the ignition is ON with the engine OFF in order
to perform a bulb check.
MIL Requested by DTC: This parameter indicates the reason the
control module illuminated the MIL. The scan tool will display YES when the MIL is
requested as a result of an A or B type DTC. The scan tool will display NO if the
MIL is illuminated for another reason, such as transmission DTCs.
Mileage Since DTC Cleared: The scan tool displays km or miles.
This parameter indicates the mileage accumulated since an emission diagnostic trouble
code cleared.
Misfire Current Cyl. #1-8: The scan tool will display in counts.
This parameter indicates the number of cylinder firing events detected as possible
misfires on each cylinder during the last 200 crankshaft revolutions as calculated
by the control module. The scan tool will display a low number for a low number of
cylinder misfire events. The scan tool will display a high number for a high number
of cylinder misfire events.
Misfire History Cyl. #1-8: The scan tool displays in counts.
This parameter displays the total level of cylinder misfires that have been calculated
for each cylinder by the control module. This parameter will not update or show activity
until a misfire DTC has become active. The misfire history counters will update every
200 cylinder firing events.
Not Run Counter: The scan tool displays the number of times
a DTC diagnostic has not reached the predetermined criteria in order to run since
the first DTC run failure.
Pass Counter: The scan tool displays the number of times a
DTC has run and passed.
PCM Reset: The scan tool displays Yes or No. This parameter
indicates when the internal PCM resets. The scan tool displays YES when an internal
PCM reset occurred. The scan tool displays NO under the normal operating conditions.
PCM/VCM in VTD Fail Enable: The scan tool displays Yes or No.
The scan tool displays Yes if the body control module (BCM) and the control module
lose communications with each other after the BCM sends the correct password. The
scan tool displays No if the BCM is communicating the correct password to the PCM.
Power Enrichment: Scan tool displays ACTIVE or INACTIVE. ACTIVE
displayed indicates that the control module has detected conditions appropriate to
operate in Power Enrichment mode. The control module commands Power Enrichment mode
when a large increase in throttle position and load is detected. While in Power Enrichment,
the control module will increase the amount of fuel delivered by entering Open Loop
and increasing the injector pulse width.
Reduced Engine Power: The scan tool displays Active or Inactive.
The scan tool displays Active when the control module receives a signal from the throttle
actuator control (TAC) module that a TAC system fault is occurring. The scan tool
displays inactive when the engine is operating normally.
Short Term FT Avg. Bn1: The scan tool displays percentage.
This parameter indicates the average short term fuel trim for this bank. The scan
tool will display a value higher than 0 if the time is being added to the injector
pulse width, increasing the amount of fuel to that bank of the engine to compensate
for a lean condition sensed by the oxygen sensors on that bank. The scan tool will
display a value lower than 0 if time is being subtracted from the injector pulse width,
reducing the amount of fuel to the engine to compensate for a rich condition sensed
by the oxygen sensors on that bank. A value of 0 percent indicates no compensation
is required to operate the engine at the desired air/fuel ratio.
Short Term FT Avg. Bn2: The scan tool displays percentage.
This parameter indicates the average short term fuel trim for this bank. The scan
tool will display a value higher than 0 if the time is being added to the injector
pulse width, increasing the amount of fuel to that bank of the engine to compensate
for a lean condition sensed by the oxygen sensors on that bank. The scan tool will
display a value lower than 0 if time is being subtracted from the injector pulse width,
reducing the amount of fuel to the engine to compensate for a rich condition sensed
by the oxygen sensors on that bank. A value of 0 percent indicates no compensation
is required to operate the engine at the desired air/fuel ratio.
Short Term FT Bank 1: The scan tool displays percentage. This
parameter indicates the current short term fuel trim for this bank. The scan tool
will display a value higher than 0 if the time is being added to the injector pulse
width, increasing the amount of fuel to that bank of the engine to compensate for
a lean condition sensed by the oxygen sensors on that bank. The scan tool will display
a value lower than 0 if time is being subtracted from the injector pulse width, reducing
the amount of fuel to the engine to compensate for a rich condition sensed by the
oxygen sensors on that bank. A value of 0 percent indicates no compensation is required
to operate the engine at the desired air/fuel ratio.
Short Term FT Bank 2: The scan tool displays percentage. This
parameter indicates the current short term fuel trim for this bank. The scan tool
will display a value higher than 0 if the time is being added to the injector pulse
width, increasing the amount of fuel to that bank of the engine to compensate for
a lean condition sensed by the oxygen sensors on that bank. The scan tool will display
a value lower than 0 if time is being subtracted from the injector pulse width, reducing
the amount of fuel to the engine to compensate for a rich condition sensed by the
oxygen sensors on that bank. A value of 0 percent indicates no compensation is required
to operate the engine at the desired air/fuel ratio.
Spark: This parameter is the desired spark advance calculated
by the control module based on many sensor inputs. The scan tool will display a lower
value at idle speed, and a higher value under heavy acceleration and load conditions.
Start Up ECT: This parameter indicates the engine coolant temperature
at startup, as calculated by the control module based on the input from the engine
coolant temperature sensor. The scan tool will display a higher value at higher engine
startup temperatures, and a lower value at lower startup temperatures.
Stop Lamp Pedal Switch: This parameter displays the state of
the brake pedal as determined by the control module based on an input from the stop
lamp pedal switch. This switch turns on the stop lamps when the brake pedal is depressed.
The scan tool will display Applied when the brake pedal is depressed.
Start Up IAT: This parameter Indicates the intake air temperature
at engine start up as calculated by the control module based on the signal from the
IAT sensor. The scan tool will display a higher value during warmer underhood temperatures,
and a lower value during colder underhood temperatures.
TAC Forced Engine Shutdown: This parameter indicates the status
of TAC control by the control module. The scan tool will display YES if the engine
has been shut down due to a throttle control fault. The scan tool will display NO
if the engine has not been shut down by a throttle control fault.
TAC Motor: This parameter indicates the status of the TAC motor
driver by the ECM. The scan tool will display Enabled if TAC motor operation is allowed.
The scan tool will display disabled if the TAC motor is disabled.
TAC Motor Command: This parameter indicates the required duty
cycle to maintain a desired throttle position. The scan tool will display a higher
value if more effort is required to move the throttle to the desired position, such
as physical resistance. The scan tool will display a lower value if less effort is
required to move the throttle to the desired position.
TCC Enable Solenoid Command: This parameter displays the commanded
state of the torque converter clutch (TCC) solenoid control circuit. The scan tool
will display Enabled or disabled. Enabled indicates the TCC solenoid control circuit
is being grounded by the control module, operating the torque converter. Disabled
indicates the TCC solenoid is not being commanded on by the control module.
TCC PWM Solenoid Command: This parameter indicates the commanded
state of the TCC PWM Solenoid by the control module. The scan tool displays ON or
OFF. The scan tool displays ON when the commanded state of the solenoid is ON. The
scan tool displays OFF when the solenoid is OFF.
TCS Torque Request Signal: This parameter indicates the percentage
of available torque requested from the engine to the transmission as calculated by
the control module. The scan tool will display a higher value for higher torque, and
a lower value for lower torque.
TCS Torque Request Signal: This parameter indicates the torque
requested from the engine to the transmission as calculated by the control module.
The scan tool will display a higher value for higher torque, and a lower value for
lower torque.
TFP Switch: This parameter displays the state of the Transmission
Internal Mode Switch based on the signal from the IMS inside the transmission. The
scan tool will display Drive 1, Drive 2, Drive 3, Drive 4, Park, Reverse, or Neutral.
Drive 1 indicates the Transmission Range switches C and P are closed, connecting
these circuits to ground. Drive 2 indicates the Transmission Range switches A and
C are closed, connecting these circuits to ground. Drive 3 indicates that all of the
Transmission Range switches are closed, connecting all four circuits to ground. Drive
4 indicates the Transmission Range switches B and C are closed, connecting these circuits
to ground. Park indicates the Transmission Range A switch is closed, connecting the
circuit to ground. Reverse indicates the Transmission Range switches A, B, and P are
closed, connecting these circuits to ground. Neutral indicates the Transmission Range
switches B and P are closed, connecting these circuits to ground.
Torque Delivered Signal: This parameter indicates the torque
delivered from the engine to the transmission as calculated by the control module.
The scan tool will display a higher value for higher torque, and a lower value for
lower torque.
Torque Management Spark Retard: This parameter indicates how
much the ignition spark timing is being retarded to control torque by the control
module. The scan tool will display a higher value under extreme torque control conditions
such as spinning wheels. The scan tool will display a lower value under low torque
control conditions such as light driving.
Total Knock Retard: This parameter indicates how much ignition
spark timing is being retarded due to all control systems monitored by the control
module. The scan tool will display a high value during extreme conditions such as
high temperatures and antilock braking. The scan tool will display a lower value during
lighter driving conditions.
Total Misfire: This parameter displays the number of possible
misfires during the last 200 cylinder firing events detected on all cylinders
as calculated by the control module. The misfires are calculated based on engine crankshaft
rotation speed variations. The scan tool displays an incrementing counter.
TP Desired Angle: This parameter indicates the desired throttle
angle calculated by the TAC module as commanded by the vehicle operator. The scan
tool will display a higher value when the accelerator pedal is depressed, and a lower
value as the accelerator pedal is released.
TP Indicated Angle: This parameter displays the angle of the
throttle plate as calculated by the control module using the signals from the throttle
position (TP) sensor(s). The TP indicated angle is a range of values indicating a
low percentage when the throttle is closed to a high percentage when the throttle
is wide open.
TP Performance Test: This parameter displays the status of the
TP performance test by the control module. The scan tool will display OK if no fault
is found. The scan tool will display Fault if the control module detects a fault during
the test.
TP Sensor: This parameter displays the voltage signal sent to
the control module from the sensor used to monitor the position of the throttle plates.
The scan tool will display a low voltage when the throttle plates are at rest. The
scan tool will display a high voltage when the throttle plates are fully open.
TP Sensor: This parameter displays the angle of the throttle
position (TP) sensor in percent. This information is calculated by the control module
using the signal from the throttle position sensor. The scan tool will display a low
percentage when the throttle plates are closed. The scan tool will display a high
percentage when the throttle plates are fully open.
TP Sensor 1 Learned Min.: This parameter displays the learned
minimum voltage for TP sensor 1 as determined by the control module this ignition
cycle.
TP Sensor 2 Learned Min.: This parameter displays the learned
minimum voltage for TP sensor 2 as determined by the control module this ignition
cycle.
TP Sensor 1: This parameter displays the voltage signal sent
to the control module from TP sensor 1 of the throttle assembly. The TP sensor 1 is
a range of values indicating a high voltage when the throttle is closed to a low voltage
when the throttle plate is fully open.
TP Sensor 1 Indicated Position: This parameter displays the
angle of the throttle position (TP) sensor 1 as calculated by the control module using
the signal from the TP sensor 1. The TP sensor 1 is a range of values indicating a
low percentage when the throttle is closed to a high percentage when the throttle
is fully open.
TP Sensor 2: This parameter displays the voltage signal sent
to the control module from TP sensor 2 of the throttle assembly. The TP sensor 2 is
a range of values indicating a low voltage when the throttle is closed to a high voltage
when the throttle plate is fully open.
TP Sensor 2 Indicated Position: This parameter displays the
angle of the TP sensor 2 as calculated by the control module using the signal from
the TP sensor 2. The TP sensor 2 is a range of values indicating a low percentage
when the throttle is closed to a high percentage when the throttle is fully open.
TP Sensors 1 and 2: This parameter displays the results of a
control module test that compares the signals from the TP sensors 1 and 2 . The scan
tool will display Agree or Disagree. Agree indicates that TP sensor 1 and TP sensor
2 voltages correspond to the same throttle position. Disagree indicates that TP sensor
1 and TP sensor 2 voltages correspond to different throttle positions.
TR Switch: This parameter indicates the current state of the
gear select switch on the transmission/transaxle as calculated by the control module
based on the TR switch. The scan tool status will switch from High to Low as different
combinations are met. On the scan tool in Park, the PRNDL would read P and A will
be Low, and B and C will be High.
Vehicle Speed Sensor: This parameter indicates the vehicle speed
calculated by the control module based on an input from the vehicle speed sensor (VSS).
the scan tool will display a high value at higher vehicle speeds, and a low value
at lower vehicle speeds.
VTD Auto Learn Timer: The scan tool displays Active/Inactive.
This parameter indicates if the control module is ready to learn the theft deterrent
password. The scan tool will display active if the system is ready to learn. The scan
tool will display inactive if the system has timed out or is not ready to learn the
password.
VTD Fuel Disable: This parameter Indicates if the VTD system
has received proper information to enable or disable fuel. The scan tool will display
Active or Inactive. The scan tool will display Active if the control module does not
receive the correct password from the BCM. The scan tool will display Inactive if
the control module receives the correct password from the BCM. If the system is Active,
the engine will not start.
VTD Fuel Disable Until Ign. Off : The scan tool will display
Yes or No. This parameter indicates if the VTD is disabled until the ignition is turned
OFF. The scan tool will display Yes if the ignition is ON and a theft deterrent DTC
is present. The scan tool will display off if the system is OK and the theft deterrent
system is inactive.
Warm-ups Since DTC Cleared: This parameter indicates the number
of warm up cycles that have occurred Since DTCs were cleared. The scan tool will display
a higher counts as more warm up cycles have occurred since the DTCs were cleared.
Warm-ups w/o Emission Faults: The scan tool displays in counts.
This parameter counts the number of warm up cycles without an emission fault present.
The parameter increments until a fault occurs. If a fault occurs, the counter reverts
to 0 until the fault is corrected. Clearing information with a scan tool or a loss
of power to the PCM also resets the counter to 0.
Warm-ups w/o Non-Emission Faults: The scan tool displays in
counts. This parameter counts the number of warm up cycles without a non-emission
fault present. The parameter increments until a fault occurs. If a fault occurs, the
counter reverts to 0 until the fault is corrected. Clearing information with a scan
tool or a loss of power to the PCM also resets the counter to 0.
Wide Open Throttle: This parameter indicates the throttle status
commanded by the control module. The scan tool will display YES is the vehicle throttle
is commanded to wide open. The scan tool will display NO if the vehicle throttle is
commanded to an amount less than 100%.