3X Crank Sensor: The scan tool range is 0-9999.
This parameter displays engine speed.
24X Crank Sensor: The scan tool range is 0 to approximately
1,700 RPM.
This parameter displays the engine speed calculated from the 24 X Reference
signal powertrain control module (PCM) input. Should nearly match engine speed up
to approximately 1,700 RPM limit.
A/C High Side Pressure Sensor: The scan tool displays 0-459 kPa.
This parameter represents the A/C refrigerant pressure sensor signal. The amount
of pressure indicates the amount of load that the A/C compressor is placing on
the engine. The PCM uses this information in order to adjust idle
and in order to control the cooling fans.
A/C OFF For WOT: The scan tool displays YES or NO.
YES displayed indicates that the PCM has commanded the A/C compressor clutch
relay OFF cause the throttle position (TP) is more than the threshold
for A/C compressor operation, TP angle more than 90 percent.
A/C Pressure Disable: The scan tool displays YES or NO.
YES displayed indicates that the PCM is monitoring an A/C refrigerant pressure
signal voltage which is too high or too low in order to allow the A/C compressor
clutch to engage.
A/C Relay Circuit Status: The scan tool displays Fault or OK.
This parameter indicates the state of the driver circuit for this device.
A/C Relay command : The scan tool displays ON or OFF.
This parameter represents the PCM commanded state of the A/C compressor clutch
relay driver circuit. The A/C compressor clutch should be engaged when commanded
A/C displays ON.
A/C Request Signal: The scan tool displays YES or NO.
This parameter indicates the state of the A/C request input circuit from the
HVAC controls. The PCM uses the A/C request signal in order to determine whether
A/C compressor operation is being requested.
Air Fuel Ratio: The scan tool range is 0.0-25.5.
The air fuel ratio indicates the PCM commanded value. In a Closed Loop, the
air fuel ratio should normally be around 14.2-14.7. A lower air fuel ratio
indicates a richer commanded mixture, which may be seen during
Power Enrichment or three-way catalytic converter (TWC) protection
modes. A higher air fuel ratio indicates a leaner commanded
mixture. This can be seen during Decel Fuel Mode.
BARO: The scan tool range is 10-105 kPa.
The barometric pressure (BARO) reading is determined from the manifold absolute
pressure (MAP) sensor signal monitored during key up and wide-open throttle (WOT)
conditions. The BARO is used in order to compensate for altitude differences.
CMP Sensor Signal Present: The scan tool displays YES or NO.
This parameter indicates whether or not the correct CAM signal has been received
by the PCM during the last six 3X reference pulses. NO displayed indicates no
CAM signal received. A toggling display indicates an intermittent CAM
signal.
Crank Request Signal: The scan tool displays YES or NO.
YES is displayed when the key is in crank position.
Cruise Control Active: The scan tool displays YES or NO.
This parameter represents the state of the Cruise Status Input from the cruise
control module. CRUISE ENGAGED should not display YES unless the vehicle is operating
in a cruise control mode.
Cruise Inhibit Reason: The scan tool displays various terms
related to cruise control operation.
Cruise Inhibit Signal Circuit Status: The scan tool displays
Fault or OK.
This parameter indicates the state of the driver circuit for this device.
Cruise Inhibit Signal Command: The scan tool displays ON or
OFF.
ON displayed indicates that the PCM is commanding the cruise control module
in order to inhibit cruise control operation. Should display ON at idle.
Current Gear: The scan tool displays numbers 1, 2, 3, or 4.
The PCM looks at the trans range position and the gear commanded by the PCM.
The actual forward gear that the transaxle is in will be the lower of
the two because the manual valve can override the PCM commanded
gear.
Cycles of Misfire Data: The scan tool range is 0-99 Counts.
This parameter indicates the total number of cylinder firing events that were
detected as being misfires during the last 200 crankshaft revolution sample
period.
Cylinder 1 through 6 Injector Circuit Status: The scan tool
displays Fault or OK.
This parameter indicates the state of the driver circuit for this device.
Cylinder 1 through 6 Injector Circuit History: The scan tool
displays Fault or OK.
This parameter saves the state of the driver circuit for this device.
Decel Fuel Cutoff: The scan tool displays ACTIVE or INACTIVE.
ACTIVE displayed indicates that the PCM has detected conditions appropriate
in order to operate in deceleration fuel mode. The PCM will command deceleration
fuel mode when a sudden decrease in TP has been detected while
the vehicle is traveling over 40 km/h (25 mph). While in deceleration
fuel mode, the PCM will decrease the amount of fuel delivered by entering
an Open Loop and decreasing the injector pulse width.
Desired EGR Position: The scan tool range is 0-100 percent.
This parameter represents the exhaust gas recirculation (EGR) pintle position
that the PCM is commanding. The desired EGR position should stay close to the actual
EGR position.
Desired Idle Speed: The scan tool range is 0-3187 RPM.
The idle speed that is commanded by the PCM. The PCM will compensate for various
engine loads based on engine coolant temperature (ECT) in order to keep the engine
at the desired speed.
Driver Module 1 Status: The scan tool displays Enabled or Disabled.
This parameter indicates the state of the driver circuit for this device.
Driver Module 2 Status: The scan tool displays Enabled or Disabled.
This parameter indicates the state of the driver circuit for this device.
Driver Module 3 Status: The scan tool displays Enabled or Disabled.
This parameter indicates the state of the driver circuit for this device.
Driver Module 4 Status: The scan tool displays Enabled or Disabled.
This parameter indicates the state of the driver circuit for this device.
ECT Sensor: The scan tool range is -40 to +151°C (-40 to
+304°F).
The ECT sensor is mounted in the coolant stream. The sensor sends the engine
temperature information to the PCM.
EGR Flow Test Count: The scan tool range is 0-255.
This parameter indicates the number of EGR flow test samples collected during
the current ignition cycle.
EGR Learned Minimum Position: The scan tool range is 0.0-5.0 volts.
This parameter represents the learned voltage that the PCM uses in order to
determine whether or not the EGR valve is fully closed.
EGR Position Sensor: The scan tool range is 0-100 percent
or 0.00-5.00 volts.
This parameter represents the actual position of the EGR pintle in percent.
0 percent or 0 volts displayed indicates a fully extended pintle, EGR
valve closed.
EGR Position Variance: The scan tool range is 0-100 percent.
This parameter indicates the difference between the desired EGR position and
the actual EGR position currently being monitored by the PCM.
EGR Solenoid Command: The scan tool range is 0-100 percent.
Displays the pulse width modulated (BWM) duty cycle that the PCM is applying
to the EGR solenoid. 0 percent indicates no EGR is commanded.
Engine Load: The scan tool range is 0-100 percent.
The engine load is calculated by the PCM from engine speed and mass air flow
(MAF) sensor readings. The engine load should increase with an increase in RPM or
air flow.
Engine Oil Level Switch: The scan tool displays OK or Not OK.
This parameter indicates the oil level as determined by the engine oil level
sensor.
Engine Oil Life Remaining: The scan tool range is 0-100 percent.
This display represents the engine oil life index that is calculated and maintained
by the PCM.
Engine Oil Pressure Switch: The scan tool displays OK or Low.
This parameter displays whether or not sufficient engine oil pressure is present.
Engine Run Time: The scan tool range is 00:00:00-99:99:99 Hrs:Min:Sec.
This parameter indicates the time elapsed since the engine was started. If the
engine is stopped, ENGINE RUN TIME will be reset to 00:00:00.
Engine Speed: The scan tool range is 0-9999 RPM.
The engine speed is computed by the PCM from the 3 X reference input.
The engine speed should remain close to desired idle under various engine loads with
the engine idling.
EVAP Fault History: The scan tool displays No Fault, Excess
Vacuum, Purge Valve Leak, Small Leak or Weak Vacuum.
This parameter displays the result of the evaporative emission (EVAP) system
diagnostic.
EVAP Purge Solenoid Circuit Status: The scan tool displays
Fault or OK.
This parameter indicates the state of the driver circuit for this device.
EVAP Purge Solenoid Command: The scan tool range is 0-100 percent.
This parameter represents the PCM commanded pulse width modulation (PWM) duty
cycle of the EVAP purge solenoid valve. 0 percent displayed indicates no purge.
100 percent displayed indicates full purge.
EVAP Vent Solenoid Circuit Status: The scan tool displays Fault
or OK.
This parameter indicates the state of the driver circuit for this device.
EVAP Vent Solenoid Command: The scan tool displays Venting or
Closed.
This parameter indicates the commanded state of the driver circuit for this
device.
FC Relay 1 Circuit Status: The scan tool displays Fault or OK.
This parameter indicates the state of the driver circuit for this device.
FC Relay 1 Command: If applicable, The scan tool displays ON
or OFF.
This parameter represents the PCM commanded state of the low speed and high
speed fan relay drivers.
FC Relay 2 and 3 Circuit Status: The scan tool displays Fault
or OK.
This parameter indicates the state of the driver circuit for this device.
FC Relay 2 and 3 Command: If applicable, The scan tool displays
ON or OFF.
This parameter represents the PCM commanded state of the low speed and high
speed fan relay drivers.
Fuel Level Sensor: The scan tool displays 0-5.00 volts.
The PCM converts the signal voltage to a fuel level value. The scan tool displays
close to 0.8 volts for an empty tank, and close to 2.5 volts for
a full tank.
Fuel Pump Relay Circuit Status: The scan tool displays Fault
or OK.
This parameter indicates the state of the driver circuit for this device.
Fuel Pump Relay Circuit History Status: The scan tool displays
Fault or OK.
This parameter saves the state of the driver circuit for this device.
Fuel Pump Relay Command: The scan tool displays ON or OFF.
This parameter indicates the PCM commanded state of the fuel pump relay driver
circuit.
Fuel Tank Level Remaining: The scan tool displays 0-100 percent
The scan tool displays in percentage the amount of fuel remaining in the fuel
tank.
Fuel Tank Pressure Sensor: The scan tool displays 0-5 volts
or -17.5 to +7.5 in of H2O
The fuel tank pressure (FTP) is used extensively for EVAP purge control and
EVAP system diagnostics.
Fuel Trim Cell: The scan tool displays the cell number.
The fuel trim cell is dependent upon the engine speed and the MAF sensor readings.
A plot of RPM vs. MAF is divided into 10 cells. 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,
fuel trim learn will display YES. This indicates that the long term fuel trim
is responding to the short term fuel trim. If the fuel trim learn
displays NO, the long term fuel trim will not respond to the changes in the short
term fuel trim.
Gen L Terminal Signal Command: The scan tool displays ON or
OFF.
OFF displayed indicates that the PCM has commanded the generator L terminal
OFF.
HO2S 1: The scan tool range is 0-1132 mV.
This parameter represents the fuel control exhaust oxygen sensor (O2S) output
voltage. Should fluctuate constantly within a range between 10 mV, lean exhaust,
and 1000 mV, rich exhaust, while operating in Closed Loop.
HO2S 2: The scan tool range is 0-1132 mV.
This parameter represents the catalyst monitor exhaust oxygen sensor output
voltage. If the catalyst is operating efficiently, the heated oxygen sensor (HO2S) 1
signal will be far more active than that produced by the HO2S 2
sensor. If the PCM detects a level of HO2S 2 activity
that indicates the catalyst is no longer operating efficiently,
DTC P0420 will be set.
HO2S 1 Heater Command: The scan tool displays ON or OFF.
This parameter displays the PCM commanded state of the HO2S heater.
IAC Position: Range 0-255 counts.
This parameter displays the commanded position of the idle air control (IAC)
pintle in counts. A larger number of counts means that more air is being commanded
through the idle air passage. IAC position should respond
fairly quickly to changes in the engine load in order to maintain
the desired idle RPM.
IAT Sensor: The scan tool range is -40 to +151°C (-40 to
+304°F).
The PCM converts the resistance of the intake air temperature (IAT) sensor to
degrees. The IAT is used by the PCM in order to adjust the fuel
delivery and the spark timing according to the incoming air density.
Ignition 1 Signal: The scan tool displays 0-25.5 volts.
The ignition 1 represents the system voltage measured by the PCM at the
ignition feed.
Ignition Mode: The scan tool displays Bypass/IC.
The bypass indicates the ignition control module (ICM) is keeping the spark
advance at a fixed 10 degrees before top dead center (BTDC), bypass mode. The
ICM determines the correct operating mode based on the level of the voltage that
the PCM sends to the ICM on the bypass circuit. If the PCM does not turn ON the
5 volts, or if the ICM does not receive the voltage, the module will
control spark timing.
The ignition control (IC) indicates that the PCM has signaled the ignition module
that the PCM is going to control the spark advance, IC mode. The ICM determines the
correct operating mode based on the level of voltage that the
PCM sends to the ICM on the bypass circuit. The PCM provides 5 volts
to the ICM bypass circuit if the PCM is going to control
spark timing, IC mode. If the PCM does not turn ON the 5 volts,
or if the ICM does not receive the voltage, the module will control
spark timing, bypass mode.
IMS: This parameter displays the state of the transmission internal
made 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.
Injector PWM: The scan tool range is 0-1000 ms.
This parameter indicates the amount of time the PCM is commanding each injector
ON during each engine cycle. A longer injector pulse width will cause more fuel
to be delivered. Injector pulse width should increase with
increased engine load.
Knock Retard: The scan tool range is 0.0-25.5 degrees.
This parameter indicates the amount of spark the PCM is removing from IC spark
advance in response to the signal from the knock sensors (KS). The traction control
system desired torque signal from the electronic brake and traction
control module (EBTCM) may cause knock retard to display a value
more than 0.0 degrees if the traction control is active.
Long Term FT: The scan tool range is -23 to +16 percent.
The long term fuel trim is derived from the short term fuel trim value. This
represents a long term correction of the fuel delivery. A value of 0 percent
indicates that fuel delivery requires no compensation in order
to maintain the PCM commanded air/fuel ratio. A negative value
significantly below 0 percent indicates that the fuel
system is rich and fuel delivery is being reduced, decreased injector
pulse width. A positive value significantly more than 0 percent
indicates that a lean condition exists and the PCM is compensating
by adding fuel, increased injector pulse width. Because long
term fuel trim tends to follow short term fuel trim, a value
in the negative range due to the canister purge at idle should
not be considered unusual. The PCMs maximum authority to control
long term fuel trim allows a range between -23 to +16 percent.
Fuel trim values at maximum authority may indicate an excessively
rich or lean system.
Loop Status: The scan tool displays OPEN or CLOSED.
Closed Loop indicates that the PCM is controlling fuel delivery according to
O2S voltage. In open loop, the PCM ignores the O2S voltage and
bases the amount of fuel to be delivered on TP sensor, ECT, and MAF
sensor inputs only.
MAF Sensor: The scan tool range is 0.0-512 g/s.
The MAF is the MAF input frequency converted to grams of air per second. This
indicates the amount of air entering the engine.
MAF Sensor: The scan tool range is 0-32000 Hz.
The mass air flow sensor input signal to the PCM is a frequency which varies
from around 3000 Hz at idle to above 7000 Hz at WOT. The PCM converts
this frequency signal to grams per second in order to be displayed
as MAF.
MAP Sensor: The scan tool range is 10-105 kPa (0.00-4.97 volts).
The MAP sensor measures the change in the intake manifold pressure from engine
load, EGR flow, and speed changes. As the intake manifold pressure increases, the
intake vacuum decreases. This results in a higher MAP sensor voltage and kPa
reading. The MAP sensor signal is used in order to monitor intake
manifold pressure changes during the EGR flow test, in order to
update the BARO reading, and as an enabling factor for several
of the diagnostics.
MIL Circuit Status: The scan tool displays Fault or OK.
This parameter indicates the state of the driver circuit for this device.
MIL Command: The scan tool displays ON or OFF.
This parameter indicates the PCM commanded state of the malfunction indicator
lamp (MIL).
Misfire Current Cyl #1 / Misfire Current Cyl #2 / Misfire Current Cyl #3 / Misfire
Current Cyl #4 / Misfire Current Cyl #5 / Misfire Current Cyl
#6: The scan tool range is 0-198 Counts.
The misfire current counters indicate the number of cylinder firing events detected
as possible misfires on each cylinder during the last 200 crankshaft revolutions.
The number that the counters display are twice the actual number
of misfire events detected. The counters may normally display
some activity, but the activity should be very low and nearly
equal for all the cylinders.
Misfire History Cyl #1 / Misfire History Cyl #2 / Misfire History Cyl #3 / Misfire
History Cyl #4 / Misfire History Cyl #5 / Misfire History Cyl
#6: The scan tool range is 0-65535 Counts.
The misfire history counters indicate the total level of misfire that has been
detected on each cylinder. The number that the counters display are
twice the actual number of misfire events detected. The misfire
history counters will not update or show any activity until a
misfire DTC P0300 has become active. The misfire history
counters will be updated every time a 200 crankshaft revolution
misfire test failure is detected.
Number of DTCs: The scan tool displays a number.
This parameter displays the quantity of active DTCs.
O2 Heater Current: The scan tool displays amps
The scan tool displays HO2S heater current in amps. This parameter displays
the current draw of the HO2S 1 heater only. Typically, the HO2S heater current
stabilizes at about 0.50-0.60 amps after operating temperature is
reached. Initial current draw is slightly higher.
PCM/VCM in VTD Fail Enable: The scan tool displays ACTIVE or
INACTIVE.
If applicable, the theft deterrent fuel enable is an input from the vehicle
theft deterrent (VTD) system that signals the PCM in order to enable
the injectors and the crank relay if the proper signal is received. The scan
tool will normally display INACTIVE. If the VTD system does
not send the correct theft deterrent fuel enable signal to the PCM,
the display will switch to ACTIVE and the fuel system and starter control
may be disabled. Refer to VTD diagnosis for further information.
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.
Power Enrichment: The scan tool displays ACTIVE or INACTIVE.
ACTIVE displayed indicates that the PCM has detected conditions appropriate
to operate in power enrichment (PE) mode.
Short Term FT: The scan tool range is -10 to +10 percent.
The short term fuel trim represents a short term correction to fuel delivery
by the PCM.
Spark: The scan tool range is -64 to +64 degrees.
This parameter displays the spark timing being commanded by the PCM on the IC
circuit. A negative (-) value indicates degrees before top dead center (BTDC) or
spark advance; a positive value indicates degrees after top
dead center (ATDC) or spark retard.
Start-Up ECT: The scan tool range is -40 to +151°C (-40
to +304°F).
This parameter indicates the ECT at the time that the vehicle was started.
Start-Up IAT: The scan tool range is -40 to +151°C (-40
to +304°F).
This parameter indicates the IAT at the time that the vehicle was started.
Starter Enable Relay Circuit Status: The scan tool displays
Fault or OK.
This parameter indicates the state of the driver circuit for this device.
Starter Relay Command: The scan tool displays ON or OFF.
Off indicates that the PCM is not allowing starter operation due to the engine
running, excessive cranking time, trans not in P/N or other factors.
TCC Brake Pedal Switch: The scan tool displays RELEASED or APPLIED.
This input to the PCM represents the state of the vehicle brake pedal. When
the brake switch indicates that the brake pedal is APPLIED, the PCM will
command the transaxle torque converter clutch (TCC) to disengage.
TCC PWM solenoid Command: The scan tool displays ON or OFF.
This parameter indicates the commanded state of the transaxle TCC.
TFP Sw.: The scan tool displays PARK/NEUTRAL, REVERSE, DRIVE
4, DRIVE 3, DRIVE 2, or LOW.
Trans range represents the decoded status of the four inputs from the transaxle
internal mode switch assembly. The combination of transaxle inputs
indicates the position of the transaxle manual valve.
Torque Delivered Signal: The scan tool range is 0-100 percent.
This parameter indicates the amount of available engine torque.
Torque Request Signal: The scan tool range is 0-100 percent.
This parameter indicates the desired amount of torque requested by the EBTCM.
TP Sensor: The scan tool range is 0-100 percent
or 0.00-5.00 volts.
The voltage being monitored by the PCM on the TP sensor signal circuit.
Traction Control Status: The scan tool displays Active or Inactive
The scan tool displays active if the PCM receives a signal from the EBTCM requesting
torque reduction during a traction control event.
Vehicle Speed Sensor: The scan tool range is 0-255 km/h
(0-155 mph).
The vehicle speed sensor signal is converted into km/h and mph for display.
VTD Auto Learn Timer: The scan tool displays ACTIVE or INACTIVE.
The auto learn timer is the indication if the VTD system is in the learn mode
and has not timed out.
VTD Fuel Disable : The scan tool displays ACTIVE or INACTIVE.
If applicable, the theft deterrent fuel enable is an input from the vehicle
theft deterrent system that signals the PCM in order to enable the
injectors and the crank relay if the proper signal is received. The scan tool
will normally display INACTIVE. If the VTD system does not send
the correct theft deterrent fuel enable signal to the PCM, the display
will switch to ACTIVE and the fuel system and starter control may be
disabled. Refer to VTD diagnosis for further information.
VTD Fuel Disable Until Ign. OFF.: The scan tool displays YES
or NO
With the ignition ON and a VTD code present, the scan tool displays YES.