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 Signal: The scan tool displays Enabled or Disabled.
The transfer case should be in four wheel drive (4WD) when the scan tool
displays Enabled.
4WD Low Signal: The scan tool displays Enabled or Disabled.
The transfer case should be in four wheel drive (4WD) low when the scan tool
displays Enabled.
A/C Compressor Cycling Switch: The scan tool displays
Open or Closed. This parameter displays the state of the A/C compressor cycling
switch. The A/C compressor cycling switch is a normally closed switch.
A/C Relay Command: The scan tool displays ON or OFF.
This parameter displays the powertrain control module (PCM) commanded state
of the A/C clutch control relay. When the scan tool displays ON, the
A/C clutch should be engaged.
A/C Sec. High Press. Switch: The scan tool displays
Open or Closed. This parameter displays the state of the A/C secondary high
pressure switch. The A/C secondary high pressure switch is normally
open.
A/C Request: The scan tool displays Yes or No. The A/C
Request displays the state of the A/C request input circuit from the heating,
ventilation, and air conditioning (HVAC) controls. The powertrain control
module (PCM) uses the A/C request signal in order to determine
whether the A/C compressor operation is being requested.
Actual EGR Position: The scan tool displays a range
of 0-100 percent. The PCM supplies a pulse width modulated (PWM) duty
cycle to control the exhaust gas recirculation (EGR) valve. Zero percent
indicates no EGR flow. One hundred percent indicates full EGR flow.
Air Fuel Ratio: The scan tool displays the ratio of
the air to fuel. A typical ratio is about 14.7:1.
AIR Pump Relay Command: The scan tool displays ON or
OFF. The scan tool displays ON when the powertrain control module (PCM) grounds
the secondary air injection (AIR) pump relay control circuit. The scan
tool displays OFF when the PCM disables the ground circuit.
BARO: The scan tool displays a range of 10-105 kPa
and 0.00-5.00 volts. The barometric pressure (BARO) reading
is determined from the manifold absolute pressure (MAP) sensor signal.
The powertrain control module (PCM) monitors the MAP signal during
key up or wide-open throttle (WOT) conditions. The barometric
pressure compensates for altitude differences.
Brake Pedal Switch: The scan tool displays Applied or
Released. This parameter indicates the state of the brake switch circuit
input. The scan tool displays Applied when you apply the vehicle
brakes. The scan tool displays Released when you release the vehicle
brakes.
CMP Sensor High to Low: The scan tool displays 0-65,535 counts.
The counts increment as the powertrain control module (PCM) detects the camshaft
position (CMP) sensor signal voltage going from high to low.
CMP Sensor Low to High: The scan tool displays 0-65,535 counts.
The counts increment as the powertrain control module (PCM) detects the CMP
signal voltage going from low to high.
Clutch Pedal Switch: The scan tool displays Depressed
or Released. The scan tool displays Depressed when you apply the vehicle
clutch. The scan tool displays Released when you release the clutch
pedal.
Cold Start Up: The scan tool displays Yes or No. A cold
start-up is when the engine coolant temperature (ECT) rises above a predetermined
temperature during an ignition cycle. The next ignition cycle
the ECT should be below a predetermined temperature. Also the
ECT and the intake air temperature (IAT) are less than 50°C
(122°F) and are within 3°C (5°F) of each other
at start-up. When the above is true, the scan tool displays Yes.
Cruise On/Off Switch: The scan tool displays Yes/No.
When the cruise control module is enabled, the scan tool displays Yes.
Current Gear: The scan tool displays 0-4. The
scan tool displays which gear the transmission is in. An illegal transmission
position displays 9.
Cycles of Misfire Data: The scan tool displays a range
of 0-100. The powertrain control module (PCM) counts the number of
misfire tests during 200 engine revolutions.
Desired IAC Airflow: The scan tool displays a range
of 0-64 grams per second (g/s). This parameter displays a calculated
airflow within the idle air control (IAC) passage.
Desired IAC Position: The scan tool displays a range
of 0-255 counts. This parameter displays the desired idle air
control (IAC) position as requested by the powertrain control module (PCM).
Desired EGR Position : The scan tool displays 0-100
percent . This parameter displays the desired position of the exhaust gas
recirculation (EGR) pintle as requested by the powertrain control module
(PCM). This parameter should be very close to actual EGR position.
Desired Idle Speed: The scan tool displays a range of
0-3,187 RPM. The powertrain control module (PCM) commands the
desired idle speed. The PCM compensates for various engine loads
based on ECT in order to keep the engine at the desired speed.
DTC Set This Ignition: The scan tool displays Yes or
No. This parameter indicates if a diagnostic trouble code (DTC) set during
the current ignition cycle.
ECT Sensor: The scan tool displays a range of -39
to +140°C (-38 to +284°F). The powertrain control module (PCM)
applies 5.0 volts to the ECT sensor circuit. The sensor
is a thermistor which changes internal resistance as the engine
temperature changes. When the sensor is cold, internal resistance
high, the PCM senses a high signal voltage and interprets
the voltage as a cold engine. As the sensor warms, internal
resistance decreases, the voltage signal decreases and the PCM
interprets the lower voltage as a warm engine.
EGR Learned Minimum Position: The scan tool displays
0-5.0 volts. This display represents the voltage that the powertrain
control module (PCM) uses in order to determine whether or not the EGR
valve is closed. The voltage displayed will be the closed position
of the EGR pintle learned by the PCM.
EGR Position Sensor: The scan tool displays 0-5.0 volts.
This parameter displays the actual EGR pintle position in voltage.
Engine Load: The scan tool displays a range of 0-100
percent . The powertrain control module (PCM) calculates the engine load
from engine speed and mass air flow (MAF) sensor readings. The engine
load increases with an increase in RPM or airflow.
Engine Oil Life Remaining: The scan tool displays 0-100
percent . This display represents the engine oil life index that is calculated
and maintained by the powertrain control module (PCM).
Engine Run Time: The scan tool displays Hours, Minutes,
Seconds. This displays the amount of engine run time for the current ignition
cycle. When you cycle the ignition OFF, the timer resets to zero.
Engine Speed: The scan tool displays a range of 0-10,000 RPM.
The powertrain control module (PCM) computes engine speed from the ignition
reference pulses. The engine speed should remain close to desired
idle under various engine loads with the engine idling.
EVAP Purge Solenoid Command: The scan tool displays
a range of 0 -100 percent. The powertrain control module (PCM) supplies
a pulse width modulated (PWM) duty cycle to control the evaporative
emission (EVAP) purge solenoid valve. 0 percent indicates no purge.
100 percent indicates full purge.
EVAP Vent Solenoid Command: The scan tool displays Venting
or Not Venting. The evaporative emission (EVAP) canister vent valve is normally
open. The powertrain control module (PCM) commands the EVAP canister
vent valve closed, during testing of the EVAP system.
Fuel Level Sensor: The scan tool displays 0-5.00 volts.
The scan tool displays below 1.0 volt for an empty tank, and close
to 2.5 volts for a full tank.
Fuel Tank Level Remaining: The scan tool displays in
liters or gallons the amount of fuel remaining in the fuel tank.
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 in -32.7
to +13.96 mm/Hg or -17.4 to +7.5 inch H2O. This parameter indicates
the pressure vacuum inside of the fuel tank. A negative value
indicates a vacuum. A positive value indicates a pressure.
Fuel Tank Pressure Sensor: The scan tool displays 0-5.0
volts. The scan tool displays in voltage the pressure inside of the fuel
tank.
Fuel Tank Rated Capacity: The scan tool displays the
capacity of the fuel tank in liters or gallons.
Fuel Trim Cell: The scan tool displays a range of 0-23.
The powertrain control module (PCM) determines from the manifold absolute
pressure (MAP) and RPM inputs which fuel trim cell to operate the engine
in. The fuel trim cell displayed on the scan tool is the cell
that the engine is operating under.
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. This indicates that the long
term fuel trim is responding to the short term fuel trim.
If the scan tool displays Disabled, then long term fuel trim
will not respond to changes in short term fuel trim.
Generator L- Terminal Signal: The scan tool displays
Active or Inactive. The scan tool displays inactive if the powertrain control
module (PCM) does not detect a correct voltage on the L-terminal circuit.
The scan tool displays active under normal operating conditions.
Generator F- Terminal Signal: The scan tool displays
Active or Inactive. The scan tool displays inactive if the powertrain control
module (PCM) does not detect a correct voltage on the F-terminal circuit.
The scan tool displays active under normal operating conditions.
HO2S Bank 1 and Bank 2 Sensor 1: The scan tool displays
a range of 0-1,106 mV. The heated oxygen sensor (HO2S) bank
1 and bank 2 sensor 1 parameter represents the fuel control exhaust
oxygen sensor output voltage. The voltage fluctuates constantly
within a range between 10-1,000 mV, while operating
in Closed Loop.
HO2S Bank 1 and Bank 2 Sensor 2: The scan tool displays
a range of 0-1,106 mV. The HO2S bank 1 and bank 2 sensor 2
parameter represents the exhaust oxygen sensor (O2S) output voltage.
The voltage fluctuates constantly within a range between 10-1,000 mV,
while operating in Closed Loop.
IAC Position: The scan tool displays counts from 0-1,024.
The counts represent the commanded idle air control (IAC) position by the
powertrain control module (PCM). The scan tool displays 0 counts for
a fully seated IAC pintle. The counts increase as the idle
increases. The counts vary depending on the load placed on
the engine at idle.
IAT Sensor: The scan tool displays a range of -39°C
to +140°C (-38°F to +284°F). The powertrain control module
(PCM) converts the resistance of the intake air temperature (IAT)
sensor to degrees. The PCM uses the IAT in order to adjust fuel
delivery and spark timing according to incoming air density.
Ignition 1 Signal: The scan tool displays 0-25.5 volts.
The ignition 1 represents the system voltage measured by the powertrain control
module (PCM) at the ignition feed circuit.
Inj. PWM Bank 1 and Bank 2 Average: The scan tool displays
a range of 0-1,000 milliseconds. The injector average indicates
the amount of time the powertrain control module (PCM) commands each
injector ON during each engine cycle. A longer injector pulse
width causes more fuel to be delivered. The injector pulse width
increases with an increased engine load.
Knock Retard: The scan tool displays a range of 0.0-16
degrees. Knock retard indicates the amount of spark the powertrain control
module (PCM) removes from the ignition control (IC) spark advance
in response to the signal from the knock sensors (KS).
Long Term Average FT1 and FT2: The scan tool displays
percentage. This parameter indicates the average of all long term fuel trim
cells. The short term fuel trim cells are rated, for the amount
of which they are used. For example, an idle cell is rated higher
than a wide open cell. If a fueling malfunction occurs in
the idle cell and the wide open cell, the average would be more
affected by the idle cell than the wide open cell. A negative
value significantly below 0 percent indicates that the
fuel system is rich and fuel delivery is being reduced. A
positive value significantly more than 0 percent indicates
that a lean condition exists and the powertrain control module
(PCM) compensates by adding fuel. When the average of the
cells reach a predetermined high or low, a fuel trim DTC sets.
Long Term FT Bank 1 and Bank 2: The scan tool displays
percentage. The powertrain control module (PCM) derives the long term fuel
trim from the short term fuel trim value. The long term fuel trim represents
a long term correction of 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 the PCM is reducing the fuel delivery. A positive
value significantly more than 0 percent indicates that a lean
condition exists and the PCM compensates by adding fuel. Fuel
trim values at maximum authority indicates an excessively rich
or lean system.
Loop Status: The scan tool displays Open or Closed.
Closed Loop indicates that the powertrain control module (PCM) is controlling
fuel delivery according to oxygen sensor voltage. In Open
Loop, the PCM ignores the oxygen sensor voltage and bases the amount
of fuel to be delivered on throttle position (TP) sensor, engine
coolant, and MAF sensor inputs only.
MAF Sensor: The scan tool displays a range of 0.0-655 g/s.
The mass air flow (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 displays a range of 0-31,999 Hz.
The MAF sensor is a hot wire type air flow sensor. The powertrain control
module (PCM) converts current draw needed by the MAF to keep the
hot wires at a constant temperature into a frequency signal.
The scan tool displays this frequency in a hertz signal.
MAP Sensor: The scan tool displays a range of 10-105
kPa and 0.00-5.0 volts. The manifold absolute pressure (MAP)
sensor measures the absolute pressure in the intake manifold.
MIL Command: The scan tool displays On or Off. The scan
tool indicates if the powertrain control module (PCM) has commanded the malfunction
indicator lamp (MIL) ON.
Mileage Since DTC Cleared: The scan tool displays Kilometers
or Miles. This parameter indicates the mileage accumulated since an emission
diagnostic trouble code cleared. The powertrain control module (PCM) stores
this mileage in the Freeze Frame/Failure Records buffers.
Misfire Counter Status: The scan tool displays Normal
or Invalid. The scan tool displays Normal if the powertrain control module
(PCM) detects a true misfire. If the scan tool displays Invalid, the PCM
is detecting a rough road condition, or any condition that caused an abnormal
crankshaft speed other than a true misfire.
Misfire Current Cyl. #1 - #6: The scan tool displays
a range of 0-255 counts. The misfire current counters increment
at a rate according to the number of possible misfires the powertrain
control module (PCM) detects on each cylinder during the last 200 cylinder
firing events. The counters may normally display some activity,
but the activity should be nearly equal for all the cylinders.
Misfire History Cyl. #1 - #6: The scan tool displays
a range of 0-65,535 counts. The misfire history counters display
the total level of misfire that has been detected on each cylinder.
The misfire history counters will not update or show any activity
until a misfire DTC P0300 has become active. The misfire
history counters will update every 200 cylinder firing
events.
PCM Reset: The scan tool displays Yes or No. This parameter
indicates when the internal powertrain control module (PCM) resets. The scan
tool displays YES when an internal PCM reset occurred. The
scan tool displays NO under the normal operating conditions.
PCM in VTD Fail Enable: The powertrain control module
(PCM) displays Yes or No. The scan tool displays Yes if the body control
module (BCM) and the PCM 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.
SHRT Term FT Average Bn1 and Bn2: The scan tool displays
percentage. This parameter indicates the average of the short term fuel trim
cells. The short term fuel trim cells are rated for the amount
of which they are used. For example, the powertrain control
module (PCM) rates an idle cell higher than a wide open cell. If a fueling
malfunction occurs in the idle cell and the wide open cell,
the idle cell would affect more than then the wide open cell.
A negative value significantly below 0 percent indicates that
the fuel system is rich and the PCM is reducing the fuel delivery.
A positive value significantly more than 0 percent indicates that
a lean condition exists and the PCM is compensating by adding
fuel. When the average of the cells reach a predetermined high
or low, a fuel trim DTC sets.
Short Term FT Bank 1 and Bank 2: The scan tool displays
percentage. The short term fuel trim represents a short term correction to
fuel delivery by the powertrain control module (PCM) in response to the
amount of time the fuel control oxygen sensor voltage spends
above or below the 450 mV threshold. If the oxygen
sensor voltage mainly remains less than 450 mV, indicating
a lean air/fuel mixture, short term fuel trim increases into
the positive range above 0 percent. The PCM adds fuel. If the
oxygen sensor voltage stays mainly above the threshold, the short
term fuel trim decreases below 0 percent into the negative range.
The PCM reduces the fuel delivery in order to compensate for
the indicated rich condition. Under certain conditions such
as an extended idle and a high ambient temperature, the canister
purge may cause the short term fuel trim to read in the negative
range during normal operation. The fuel trim values at maximum
authority may indicate an excessively rich or lean system.
Spark: The scan tool displays a range of -64
to +64 degrees. The scan tool displays the amount of degrees the powertrain
control module (PCM) commands the spark advance on the ignition
control (IC) circuit. The PCM computes the desired spark advance using
the following:
(1) engine coolant temperature (ECT)
(2) engine speed (RPM)
(3) load
(4) vehicle speed
The PCM adjusts the timing.
Start Up ECT: The scan tool displays a range of -39°C
to +140°C (-38°F to +284°F). The scan tool displays the
engine ECT at the time the engine was started. The powertrain control
module (PCM) uses start-up ECT for certain DTCs.
TCC PWM Solenoid Command: The scan tool displays Disabled
or Enabled. This parameter is the commanded state of the torque converter
clutch (TCC) PWM solenoid. The scan tool displays Enabled when
the commanded state of the solenoid is ON. The scan tool displays
Disabled when the solenoid is OFF.
TCC Enable Solenoid Command: The scan tool displays
Enabled or Disabled. The scan tool displays Enabled when the electrical system
supplies a voltage to the TCC enable solenoid .
TP Sensor: The scan tool displays 0-100 percent.
The scan tool displays the amount of throttle opening in percentage. The
scan tool displays about 0 percent at closed throttle.
The scan tool displays about 100 percent at wide open throttle
(WOT).
TP Sensor: The scan tool displays 0-5 volts.
The scan tool displays the amount of throttle opening in voltage. When the
throttle is at a closed throttle the voltage is between 0.4-0.9 volts.
When the throttle is at WOT the voltage is above 4.0 volts.
TFP Switch: The scan tool displays the transmission
gear position.
Vehicle Speed Sensor: The scan tool displays km/h and
mph. The vehicle speed sensor signal is converted into km/h and mph for display
on the scan tool.
VTD Auto Learn Timer: The scan tool displays Active/Inactive.
The auto learn timer is the indication if the vehicle theft deterrent (VTD)
system is in the learn mode and has not timed out.
VTD Fuel Disable: The scan tool displays Active/Inactive.
If the powertrain control module (PCM) has not received the correct password
from the BCM, the PCM disables the fuel system and the scan tool
displays Active. The scan tool displays Inactive under normal operating
conditions.
VTD Fuel Disable Until Ignition Off: The scan tool displays
Yes or No. With the ignition ON and a VTD code present, the scan tool displays
Yes.
Warm Ups w/o Emission Faults: The scan tool displays
a range of 0-255. This parameter counts the number of warm up cycles
without an emission fault present. The counter increments to
255 and rolls back to 0 unless a fault occurs. If a fault occurs,
the counter reverts back to 0 until the fault is corrected.
Clearing the information with a scan tool or a loss of power
to the powertrain control module (PCM) also resets the counter to
0.
Warm Ups w/o Non - Emission Faults: The scan tool
displays a range of 0-255. This parameter counts the number of warm
up cycles without a non-emission fault present. The counter increments
to 255 and rolls back to 0 unless a fault occurs. If a fault
occurs, the counter reverts back to 0 until the fault is corrected.
Clearing information with a scan tool or a loss of power to the
powertrain control module (PCM) also resets the counter to 0.