General Technologies ST05 Oxygen Sensor Tester and Simulator User Manual

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3.5 Oxygen sensor response test

1- Select the sensor type to test and connect the test leads following the steps described

in “3.4.1 Setting the type of sensor” and “3.4.2 Sensor signal measurement”

2- Make sure that the engine and the oxygen sensor are at normal operating temperature,

by running the engine at around 2500 RPM for 3 minutes

3- Insure the engine is running at approximately 2500 RPM, and press the

(TEST)

button once, the alphanumeric display will flash

for approximately 20 seconds.

During this period the instrument will continuously monitor the sensor response.

4- While the display is still flashing

, release the throttle and wait for the bargraph to

show a lean signal, then snap the throttle and release. You may repeat this procedure

at 2 to 3 seconds intervals while still in test mode.

5- The result will be shown on the alphanumeric display :

PASS

A sensor signal response time from < 175 mV to > 800 mV in less than 100 ms,

will end the test automatically, and the display will show the sensor passed the

response test.

FAIL

If the signal does not cross both the 175 mV and 800 mV thresholds, or if it takes

longer than 100 ms to do so, the test will continue for the entire 20 seconds, and

the display will show the sensor failed the response time test.

•

This test can be ended at any time by pressing the

(Test) button again.

3.6 Oxygen sensor simulation

1- Select the sensor type to test and connect the test leads following the steps described

in “3.4.1 Setting the type of sensor” and “3.4.2 Sensor signal measurement”

Simulate Rich

To simulate a rich fuel mixture condition for the Powertrain Control Module (PCM),

press the

(Rich) button once, the alphanumeric display will then show

flashing during the simulation period.

Simulate Lean

To simulate a lean fuel mixture condition for the PCM, press the

(Lean) but-

ton once, the alphanumeric display will then show

flashing during the

simulation period.

•

If when pressing either of the simulation buttons, the alphanumeric display shows a

flashing

(Low battery) code, it indicates that the battery is too low to operate this

function, and should be replaced.

•

The simulation times are limited to 4 seconds maximum, and there is a time delay of 4

seconds before the instrument is able to repeat the same simulation. These time limits are

safety features designed to avoid damage to the engine and/or catalytic converter.

•

The simulation can be ended at any time by pressing the button corresponding to

the simulation in progress, or it can be switched from Lean to Rich or from Rich to

Lean at any time.

3.7 Additional Functions

3.7.1 Accessing Demo mode

Demo mode

This mode is intended to show how the instrument works, without the need to be

connected to an actual oxygen sensor or any external signal. Upon entering this

mode the bargraph and the alphanumeric display will show a simulated measure-

ment of a working oxygen sensor. It also allows you to change the sensor type,

test for response time and to use the simulate rich and lean functions.

1- To enable this function, the instrument should be off, if is not, turn it off by pressing

and holding the Power ON/OFF button until the displays turn off.

2- Press and hold the (Test) button, then turn the instrument on by pressing the Power

ON/OFF button until the alphanumeric and bargraph displays turn on, while still

pressing the Test button.

3- When entering the demo mode, the alphanumeric display will momentarily show

and then displays the simulated signal.

4- While in the demo mode, you may demo all the functions of the ST05.
5- To exit the Demo Mode, turn off the unit by pressing and holding the Power ON/OFF

button until the displays turn off.

3.7.2 Error and warning codes

Heater wire

The instrument test leads are connected to a heater wire(s) or a circuit with more

than 6 Vdc. To correct this error, attach the test leads to the signal and ground
wire of the oxygen sensor (Fig. 3).

Overload current

Overload current was detected when trying to simulate a Rich or Lean condi-

tions. This condition will not damage the instrument. It could be caused by incor-

rect connections of the test leads, faulty oxygen sensor or wiring, or by a sensor

with an impedance (resistance) below the minimum allowed by the instrument.

Reverse polarity

Test leads connected with reverse polarity. Reconnect test leads observing the

polarity: red clip -> signal wire, black clip -> ground or common (Fig. 3).

Open connection

Test leads are not connected, the connection is not good or the sensor

wiring is faulty.

Ground

The red clip (Signal) is connected to ground. This error could be caused by

a connection to the wrong (ground) wire, or by a faulty (short circuit) oxygen
sensor or wiring.