DTC P1133 O2S Insufficient Switching Sensor 1. GMC Truck Sonoma Pickup

For 1990-2009 cars only

Makes 🢒 GMC_Truck 🢒 2000 🢒 Sonoma Pickup - 2WD 🢒 Engine 🢒 Engine Controls - 2.2L (L43) 🢒 DTC P1133 O2S Insufficient Switching Sensor 1

Refer to

Oxygen Sensors

Engine Controls Components
Information Sensors/Switches Description
Secondary A.I.R. Pump Control
MAP, IAT, TPS, and ECT Sensors
OBD II Symbol Description Notice
Ign RUN and START Bus Bar
Power and Grounding Connector End Views
Powertrain Control Module Connector End Views
Handling ESD Sensitive Parts Notice
G102 (Except Export)
.

The powertrain control module (PCM) continuously monitors the oxygen sensor 1 (O2S 1) activity for 100 seconds. During the monitor period, the PCM counts the number of times that the O2S 1 switches from rich to lean and from lean to rich. You can determine a total for all of the switches with this information. If the number of switches is too low, a DTC P1133 will set.

Conditions For Running The DTC

•	DTCs P0105, P0107, P0108, P0112, P0113, P0117, P0118, P0122, P0123, P0171, P0200, P0300, P0301, P0302, P0303, P0304, P0335, P0440, P0442, P0446, P0506, P0507, P0601, P0602, or P1441 are not set.

•	ECT is more than 75°C (167°F).

•	Engine speed is between 1800-2300 RPM.

•	Engine is operating in Closed Loop.

•	The throttle position (TP) angle is between 8-15 percent.

•	Evaporative emissions control system is commanded open for more than 80 percent.

•	Purge learned memory is more than approximately 0.86.

•	Diagnostic completes when 30 seconds accumulated time has been spent in the above conditions.

Conditions for Setting the DTC

The number of rich to lean counts is less than 1 or the lean to rich counts is less than 1.

Action Taken When the DTC Sets

•	The malfunction indicator lamp (MIL) will illuminate after two consecutive ignition cycles in which the diagnostic runs with the malfunction present.

•	The PCM will record the operating conditions at the time that the diagnostic fails. This information will store in the Freeze Frame and Failure Records buffers.

•	A history DTC stores.

Conditions for Clearing the MIL/DTC

•	The MIL will turn OFF after three consecutive ignition cycles in which the diagnostic runs without a fault.

•	A history DTC will clear after 40 consecutive warm up cycles without a fault.

•	The MIL/DTCs can be cleared by using the scan tool.

Diagnostic Aids

DTC P1133 is most likely caused by one of the following:

•	Fuel pressure--The system will go rich if fuel pressure is too high. The PCM can compensate for some increase, however, if pressure gets too high a DTC P0172 will be set. Refer to Fuel System Diagnosis .

•	Leaking injector-- A leaking or malfunctioning injector can cause the system to go rich.

•

MAP sensor --An output that causes the PCM to sense a higher than normal manifold pressure (low vacuum) can cause the system to go rich. Disconnecting the MAP sensor will allow the PCM to set a fixed value for the MAP sensor. Substitute a different MAP sensor if the rich condition is gone while the sensor is disconnected.

•	Pressure regulator --Check for a leaking fuel pressure regulator diaphragm by checking for the presence of liquid fuel in the vacuum line to the regulator.

•	TP sensor --An intermittent TP sensor output will cause the system to go rich due to a false indication of the engine accelerating.

•

O2S 1 contamination --Inspect O2S 1 for silicone contamination from fuel or use of improper RTV sealant. The sensor may have a white powdery coating and result in a high but false voltage signal (rich exhaust indication). The PCM will then reduce the amount of fuel delivered to the engine causing a severe surge or driveability problem.

Test Description

The numbers below refer to the step numbers on the diagnostic table:

This step tests for proper sensor activity. When in Closed Loop fuel control the HO2S voltage should rapidly swing above and below the bias voltage.

This step tests the PCM and the HIGH and LOW circuits between the PCM and the HO2S connector for proper operation.

This step tests for proper HO2S heater circuit operation up to the HO2S connector.

This step tests for proper circuit resistance between the HO2S LOW circuit and PCM ground.

Probable causes include the following: poor O2S LOW terminal contact at PCM, poor PCM ground connection, high PCM ground circuit resistance, and an ungrounded exhaust system.

This step tests for proper circuit resistance between the HO2S LOW circuit and PCM ground with a cold sensor. A loose HO2S or poor tread to exhaust electrical contact will cause higher resistance when the HO2S is cold. Although 500 ohms is allowed, typical resistance should be less than 50 ohms.

Step	Action	Values	Yes	No
1	Did you perform the Powertrain On-Board Diagnostic (OBD) System Check?	--	Go to Step 2	Go to Powertrain On Board Diagnostic (OBD) System Check
2	Clear the DTC information from the PCM. Reset the fuel trim values. Start and idle the engine until normal operating temperature is reached. With the scan tool, monitor the O2S voltage for the sensor that applies to this DTC. Does the O2S voltage read fixed within the specified value?	300-600 mV	Go to Step 4	Go to Step 3
3	Were any other DTCs set?	--	Go to applicable DTC	Go to Diagnostic Aids
4	Inspect the exhaust system for leaks upstream of the suspect O2S. The leak may be very small and typically be within 12 inches of the suspect O2S. If a condition is found, repair as necessary. Refer to Exhaust System Inspection in Engine Exhaust. Did you find and correct the condition?	--	Go to Step 14	Go to Step 5
5	Turn OFF the ignition. Disconnect the O2S connector for the sensor that applies to this DTC. Jumper the O2S HIGH signal circuit to a known good ground. Turn ON the ignition, with the engine OFF. With the scan tool, monitor the O2S voltage for the sensor that applies to this DTC. Does the voltage read less than the specified value?	20 mV	Go to Step 7	Go to Step 6
6	Turn OFF the ignition. Remove the jumper from the O2S terminal. Disconnect the PCM connector containing the O2S HIGH circuit. Use a DMM in order to measure the continuity of the HO2S HIGH signal circuit between the PCM connector and the O2S connector. Does the resistance read less than the specified value?	5 ohms	Go to Step 7	Go to Step 10
7	Inspect for a poor connection at the PCM. If a condition is found, repair as necessary. Refer to Connector Repairs in Wiring Systems. Did you find and correct the condition?	--	Go to Step 14	Go to Step 8
8	Remove the jumper from the O2S terminal. Disconnect the PCM connector containing the O2S LOW circuit . Connect a test lamp between the O2S LOW circuit at the PCM and battery positive. Does the test lamp illuminate?	--	Go to Step 12	Go to Step 9
9	Turn OFF the ignition. Reconnect the O2S connector. Disconnect the PCM connector containing the PCM ground circuits if not already removed. With a DMM, measure the resistance between the O2S LOW circuit at the PCM connector and engine ground. Does the resistance measure less than the specified value?	5 ohms	Go to Step 13	Go to Step 11
10	Repair the circuit that measured high resistance. Refer to Wiring Repairs in Wiring Systems. Did you complete the repair?	--	Go to Step 14	--
11	Repair the high resistance between the O2S LOW circuit and engine ground. Refer to Wiring Repairs in Wiring Systems. Did you complete the repair?	--	Go to Step 14	--
12	Replace the O2S sensor. Refer to Oxygen Sensor Replacement . Did you complete the replacement?	--	Go to Step 14	--
13	Important: The replacement PCM must be programmed. Replace the PCM. Refer to Powertrain Control Module Replacement/Programming . Did you complete the replacement?	--	Go to Step 14	--
14	Use a scan tool in order to clear the DTCs. Operate the vehicle, within the Conditions for Setting the DTC as specified in the supporting text. Does the DTC reset?	--	Go to Step 2	System OK