Isuzu D-Max / Isuzu Rodeo (TFR/TFS). Manual - part 206

ENGINE DRIVEABILITY AND EMISSIONS

6E–65

A/C Request

Yes/No

Off

This displays the air conditioner request signal. This
should display “On” when the air conditioner switch is
switched on.

EVAP Purge Solenoid
(Evaporative
Emission)

0 - 10

This displays the duty signal from the ECM to control the
canister purge solenoid valve.

Deceleration Fuel
Cutoff

Active/
Inactive

Inactive

The ECM reduces the amount of fuel injected when it
detects a decrease in the throttle position and the air flow.
When deceleration is very fast, the ECM may cut off fuel
completely. Until enable conditions meet the engine
revolution less than 1000rpm or MAP less than 10KPa.

Fuel Pump

On/Off

This displays operating status for the fuel pump main
relay. This should display “On” when the key switch is
turned on and while engine is running.

Idle Air Control

Steps

20 - 30

65 - 75

This displays the ECM commanded position of the idle air
control valve pintle. A larger number means that more air
is being commanded through the idle air passage.

Idle Speed Variation

rpm

-25 - 0

1125 - 1225

Vehicle Speed

km/h or
mph

This displays vehicle speed. The vehicle speed is
measured by ECM from the vehicle speed sensor.

Ignition Voltage

11.0 - 14.5

This displays the system voltage measured by the ECM
at ignition feed.

Reference Voltage

5.00

Malfunction Indicator
Lamp

On/Off

Off

This displays operating status for the Check Engine
Lamp. This should display “On” when the Check Engine
Lamp is turned on.

Time From Start

This displays the engine time elapsed since the engine
was started. If the engine is stopped, engine run time will
be reset to 00:00:00

Tech 2 Parameter

Units

Idle

2000rpm

Description

6E–66

ENGINE DRIVEABILITY AND EMISSIONS

TYPICAL SCAN DATA & DEFINITIONS (O

SENSOR DATA)

Use the Typical Values Table only after the On-Board Diagnostic System Check has been completed, no DTC(s) were
noted, and you have determined that the on-board diagnostics are functioning properly. Tech 2 values from a
properly-running engine may be used for comparison with the engine you are diagnosing.
Condition : Vehicle stopping, engine running, air conditioning off & after warm-up (Coolant temperature approximately
80 deg.)

Tech 2 Parameter

Units

Idle

2000rpm

Description

Engine Speed

rpm

710 - 860

1950 - 2050

The actual engine speed is measured by ECM from the
CKP sensor 58X signal.

Desired Idle Speed

rpm

800 - 850

800

850

The desired engine idle speed that the ECM
commanding. The ECM compensates for various engine
loads.

Engine Coolant
Temperature

°C or °F

80 - 90

The ECT is measured by ECM from ECT sensor output
voltage. When the engine is normally warm upped, this
data displays approximately 80 °C or more.

Start Up ECT (Engine
Coolant Temperature)

°C or °F

Depends on engine

coolant temp. at

time of start-up

Depends on engine

coolant temp. at

time of start-up

Start-up ECT is measured by ECM from ECT sensor
output voltage when engine is started.

Intake Air
Temperature

°C or °F

Depends on

ambient temp.

Depends on

ambient temp.

The IAT is measured by ECM from IAT sensor output
voltage. This data is changing by intake air temperature.

Start Up IAT (Intake
Air Temperature)

°C or °F

Depends on

ambient temp. at

start-up

Depends on

ambient temp. at

start-up

Start-up IAT is measured by ECM from IAT sensor output
voltage when engine is started.

Manifold Absolute
Pressure

Kpa

33 - 38

26 - 30

The MAP (Kpa) is measured by ECM from MAP output
voltage. This data is changing by inlet manifold pressure.

Barometric Pressure

Kpa

Depends on

altitude

Depends on

altitude

The barometric pressure is measured by ECM from the
MAP sensor output voltage monitored during key up and
wide open throttle. This data is changing by altitude.

Throttle Position

2 - 5

Throttle position operating angle is measured by the
ECM from throttle position output voltage. This should
display 0% at idle and 99 - 100% at full throttle.

Calculated Air Flow

g/s

4.0 - 5.0

8.0 - 10.0

This displays intake air amount. The mass air flow is
measured by ECM from the MAF sensor output voltage.

Air Fuel Ratio

14.6:1

This displays the ECM commanded value. In closed loop,
this should normally be displayed around 14.2:1 - 14.7:1.

Fuel System Status

Open Loop/
Close Loop

Close Loop

When the engine is first started the system is in “Open
Loop” operation. In “Open Loop”, the ECM ignores the
signal from the oxygen sensors. When various conditions
(ECT, time from start, engine speed & oxygen sensor
output) are met, the system enters “Closed Loop”
operation. In “Closed Loop”, the ECM calculates the air
fuel ratio based on the signal from the oxygen sensors.

Engine Load

2 - 5

5 - 10

This displays is calculated by the ECM form engine
speed and MAF sensor reading. Engine load should
increase with an increase in engine speed or air flow
amount.

B1 O

Sensor Ready

(Bank 1)

Yes/No

Yes

This displays the status of the exhaust oxygen sensor.
This display will indicate “Yes” when the ECM detects a
fluctuating oxygen sensor output voltage sufficient to
allow closed loop operation. This will not occur unless the
oxygen sensor is warmed up.

B1S1 Status
(Bank 1 Sensor 1)

Rich / Lean

This displays dependent on the exhaust oxygen sensor
output voltage. Should fluctuate constantly “Rich” and
“Lean” in closed loop.

Fuel Trim Learned

Yes/No

Yes

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 lean displays “No”,
then long term fuel trim will not respond to changes in
short term fuel trim.

ENGINE DRIVEABILITY AND EMISSIONS

6E–67

Fuel Trim Cell

15 - 20

This displays dependent on engine speed and calculated
intake air flow reading. A plot of engine speed versus
intake air flow amount is divided into the cells. Fuel trim
cell indicates which cell is currently active.

B1S1 O

Sensor

(Bank1 Sensor 1)

50 - 950

50 -950

This displays the exhaust oxygen sensor output voltage.
Should fluctuate constantly within a range between 10mV
(lean exhaust) and 1000mV (rich exhaust) while
operating in closed loop.

B1 Short Term Fuel
Trim (Bank 1)

-3 - 0

-10 - 14

The short term fuel trim to a bank represents a short term
correction to the bank fuel delivery by the ECM in
response to the amount of time the bank fuel control
oxygen sensor voltage spends above or below the
450mV threshold. If the oxygen sensor voltage has
mainly remained less than 450mV, indicating a lean air/
fuel, short term fuel trim will increase into the positive
range above 0% and the ECM will pass fuel. If the
oxygen sensor voltage stays mainly above the threshold,
short term fuel trim will decrease below 0% into the
negative range while the ECM reduces fuel delivery to
compensate for the indicated rich condition. Under
certain conditions such as extended idle and high
ambient temperatures, canister purge may cause short
term fuel trim to read in the negative range during normal
operation. Fuel trim values at maximum authority may
indicate an excessively rich or lean system.

B1 Long Term Fuel
Trim (Bank 1)

-10 - 0

The long term fuel trim is delivered from the short term
fuel term values and represents a long term correction of
fuel delivery for bank in question. A value of 0% indicates
that fuel delivery requires no compensation to maintain
the ECM commanded air fuel ratio. A negative value
indicates that the fuel system is rich and fuel delivery is
being reduced (decreased injector pulse width). A
positive value indicates that a lean condition exists and
the ECM is compensating by add 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
canister purge at idle should not be considered unusual.
Fuel trim values at maximum authority may indicate an
excessively rich or lean system.

Power Enrichment

Yes/No

The ECM provides the extra amount of fuel when it
detects a rapid increase in the throttle position and air
flow (Power Enrichment). Under this condition the ECM
should detect a “rich condition (high oxygen sensor
voltage).

Time From Start

This displays the engine time elapsed since the engine
was started. If the engine is stopped, engine run time will
be reset to 00:00:00

Tech 2 Parameter

Units

Idle

2000rpm

Description

6E–68

ENGINE DRIVEABILITY AND EMISSIONS

MISCELLANEOUS TEST

The state of each circuit can be tested by using
miscellaneous test menus. Especially when DTC cannot
be detected, a faulty circuit can be diagnosed by testing
each circuit by means of these menus.
Even DTC has been detected, the circuit tests using
these menus could help discriminate between a
mechanical trouble and an electrical trouble.
Connect Tech 2 and select “Powertrain”, “2.XL L4
HV240” & “Miscellaneous Test”.

F0: Lamps
F0: Malfunction Indicator Lamp
When the Tech 2 is operated, “Malfunction Indicator
Lamp (Check Engine Lamp)” is turned on or off.
The circuit is normal if the “Malfunction Indicator Lamp
(Check Engine Lamp)” in the instrument panel is turned
on or off in accordance with this operation.

F1: Relays
F0: Fuel Pump Relay
When the Tech 2 is operated, fuel pump relay signal
turns ON or OFF.
The circuit is normal if fuel pump sound is generated in
accordance with this operation when key switch is
turned ON.

F1: A/C Clutch Relay
When the Tech 2 is operated, A/C clutch relay signal
turns ON or OFF.
The circuit is normal if A/C compressor clutch is
energized in accordance with this operation when the
engine is running.

F2: EVAP
F0: Purge Solenoid
When the Tech 2 is operated, duty ratio of EVAP purge
solenoid is changed 10%-by-10%.

– Press “Increase” key.

Then, EVAP Purge Solenoid is increases 10%-by-
10%.

– Press “Quit” Key.

F3: IAC System
F0: IAC Control
When the Tech 2 is operated, “Idle Air Control”
increases or decreases 5steps-by-5steps up to
150steps.
The circuit is normal if idle engine speed is changed in
accordance with this operation.

– Press “Increase” key.

Then, Idle Air Control is increases 1osteps-by-
10steps up to 160steps. Engine speed is also
changed by this operation.

– Press “Quit” Key.

F1: IAC Reset
When the Tech 2 is operated, “Idle Air Control” resets.
The circuit is normal if idle engine speed is droped in
accordance with this operation.

– Press “Increase” key.

Then, Desired Idle speed is increases 50rpm-by-
50rpm up to 1550rpm. Engine speed is also changed
by this operation.

– Press “Quit” Key.

Purge Solenoid

Engine Speed

800 RPM

Desired Idle Speed

762 RPM

Engine Coolant Temperature

80 °C

Start Up ECT

50 °C

Intake Air Temperature

30 °C

Start Up IAT

25 °C

Manifold Absolute Pressure

35KPa

EVAP Purge Solenoid

30 %

IAC Control

Engine Speed

800 RPM

Desired Idle Speed

762 RPM

Engine Coolant Temperature

80 °C

Start Up ECT

50 °C

Intake Air Temperature

30 °C

Start Up IAT

25 °C

Manifold Absolute Pressure

35KPa

Idle Air Control

30 Steps

IAC Reset

Engine Speed

800 RPM

Desired Idle Speed

762 RPM

Engine Coolant Temperature

80 °C

Start Up ECT

50 °C

Intake Air Temperature

30 °C

Start Up IAT

25 °C

Manifold Absolute Pressure

35KPa

Idle Air Control

30 Steps

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