How to decipher and eliminate error codes on Chevrolet


Every modern car owner knows about the existence of an on-board computer, which can not only indicate the basic parameters of the operating mode (speed, consumption, temperature), but also recognize errors caused by various malfunctions. Unfortunately, Chevrolet Niva error codes cannot be deciphered without additional tables, since there are too many of them. Let's consider various diagnostic methods.

We receive the first signal about the presence of a malfunction using the indicator on the “Check-Engene” panel.

After turning on the ignition, all systems are tested, and if no errors are detected, this indicator goes out. Otherwise it remains burning. Specialized centers will quickly identify the error and not for free, but the Chevrolet Niva has a built-in on-board computer that can allow you to deal with the problem yourself.

Self-diagnosis

Without going into details of the operation of all electronics, we note that the functioning of all vehicle systems is “monitored” by an electronic control unit (ECU).

It receives information from numerous sensors. Like any computer, the ECU requires software called firmware. This firmware is capable of analyzing indicators received from sensors, comparing them with normal parameters, identifying errors and storing these errors in memory.

Carrying out self-diagnosis

In the Chevrolet Niva, as in some other cars of the VAZ family, some parameters can be displayed on the VDO dashboard. It is often called an integrated on-board computer.

Testing is started by first pressing the daily mileage reset button and simultaneously turning the ignition key.

All instrument needles begin to move, which indicates the beginning of the testing process. Pressing the same button once will cause the firmware version to appear on the display, and pressing it again will give us a reading called an error code.

Panel codes should not be confused with ECU codes, which are diagnosed by external devices.

Error codeDecoding
1Processor faults
2No signal from the fuel level sensor
4Increased voltage of the on-board network (exceeds 16 V)
8Reduced voltage on-board network
12Control indicator malfunction
13No signal LAMDA probe
14Increased coolant temperature
5Reduced coolant temperature
19Error from HF sensor
21-22Error with TPS
24Error from speed sensor
27 — 28Incorrect CO potentiometer parameters
23 — 25Error from intake air temperature sensor
33 — 34Error from the MAF sensor
35Error from sensor XX
41Error from phase sensor
42Ignition system malfunction
43Error from knock sensor
44 — 45Rich/lean fuel mixture
49Loss of vacuum
51 — 52ROM/RAM errors
53No signal from CO potentiometer
54No signal from the octane corrector
55Load on the power unit

The operation of the on-board computer cannot be called flawless, since many errors arise as a result of software failure. You have to reset the errors by holding down the daily mileage reset button in testing mode. This diagnostic method is not entirely convenient for the reason that the error code can be the result of the sum of two codes at the same time (10=8+2).

Check engine error

If a check light comes on on a Niva Chevrolet car, this warns that there are malfunctions associated with the operation of the engine. The light comes on at the moment when the engine begins to detect a failure or error and writes a specific code into its memory.

Let's look at the main reasons why this warning may appear:

  • The air/fuel mixture is incorrect. This problem is eliminated by filling the tank with higher quality gasoline.
  • Low engine oil level
  • Engine overheated
  • There are problems with the ignition system, which may be due to a faulty spark plug or ignition coil
  • The power system is faulty. It is possible that fuel injection into one of the cylinders has stopped.
  • Lambda probe faulty
  • A separate sensor in the ECM system has failed

We can conclude that in some cases, when the engine starts and the check light is on, this may indicate that the engine is operating in emergency mode and the problem is not very critical. If the engine starts and stalls, then this is most likely a problem with the fuel supply or the crankshaft sensor has failed.

In any case, it is better not to use the car until you find out the exact reason.

Diagnostics with a scanner

The information in this section is quite extensive, since there are many types of scanners.

The basic principle of their operation is that all data, including errors, is transmitted from the ECU to a special diagnostic connector, which in a Chevrolet Niva is located on the driver's side under the steering wheel.

The scanner's job is to read and decode these messages.

Note that there are dealer scanners, that is, those that are designed for a given car. For Chevrolet Niva this is BC State.

It is inserted into the panel instead of the signaling device, and the information loop is prepared from the factory.

Universal scanners should be connected to the diagnostic connector. The most popular scanners today are models that allow you to transmit information via Bluetooth.

To do this, you need to install the appropriate application on your smartphone, for example, OpenDiag, and connect it to the scanner.

The program interface allows you not only to read the parameters, but also to manage some of them. You can also reset all errors from your smartphone. There are scanners with their own display. All error information in the form of codes is displayed on this display.

Decoding codes

Now we suggest that you familiarize yourself with the decoding of the combinations. Why errors may occur and how to eliminate them can only be found out as a result of diagnostics.

The elm327 channel published a video showing the diagnostic procedure for a Chevrolet Niva using a special adapter and an Android-based mobile phone.

Common mistakes

First, let's look at deciphering frequently occurring problems that occur in the Chevrolet Aveo in the back of the T250, T300, Niva and other models.

Chevrolet Niva error codes

Errors transmitted through the diagnostic connector are displayed on an external device as a four-digit code. There are special tables that allow you to decipher these codes.

CodeExplanation
P0102Low signal level of the mass air flow sensor (MAF).
P0103High signal level of the mass air flow sensor (MAF).
P0112low signal level of the intake manifold temperature sensor (ITM).
P0113High signal level of the intake manifold temperature sensor (IMT).
P0116The signal from the coolant temperature sensor (TTOZH) is out of the permissible range.
P0117Low signal level of the coolant temperature sensor (DTOZH).
P0118High signal level of the coolant temperature sensor (DTOZH).
P0122Low signal level of the throttle position sensor (TPS).
P0123High signal level of the throttle position sensor (TPS).
P0130Incorrect signal from oxygen sensor No. 1 to the converter.
P0131Low level signal from oxygen sensor No. 1 to the converter.
P0132High level signal from oxygen sensor No. 1 to the converter.
P0133Slow response to enrichment or depletion of oxygen sensor No. 1 to the converter.
P0134Lack of signal (open circuit) of oxygen sensor No. 1 to the converter.
P0135Malfunction of the oxygen sensor heater circuit No. 1 to the converter.
P0136Short circuit to ground in the N9 oxygen sensor circuit 2.
P0137Low level signal from oxygen sensor No. 2 after the converter.
P0138High level signal from oxygen sensor No. 2 after the converter.
P0140Lack of signal (open circuit) of oxygen sensor No. 2 after the converter.
P0141Malfunction of the heater circuit of the oxygen sensor No. 2 after the converter.
P0171The fuel supply system (fuel-air mixture) is too lean.
P0172The fuel system (air/fuel mixture) is too rich.
P0201Open circuit for controlling the injector of the 1st cylinder.
P0202Open circuit in the 2nd cylinder injector control circuit.
P0203Open circuit in the 3rd cylinder injector control circuit.
P0204Open circuit in the 4th cylinder injector control circuit.
P0261Short circuit to ground in the 1st cylinder injector control circuit.
P0262Short circuit to the source of the on-board network of the injector control circuit of the 1st cylinder.
P0264Short circuit to ground in the 2nd cylinder injector control circuit.
P0265Short circuit to the source of the on-board network of the injector control circuit of the 2nd cylinder.
P0267Short circuit to ground in the 3rd cylinder injector control circuit.
P0268Short circuit to the source of the on-board network of the injector control circuit of the 3rd cylinder.
P0270Short circuit to ground in the 4th cylinder injector control circuit.
P0271Short circuit to the source of the on-board network of the injector control circuit of the 4th cylinder.
P0300Random/multiple misfires detected.
P0301Misfire detected in cylinder N91.
P0302Misfire detected in cylinder N9 2.
P0303Misfire detected in cylinder N9 3.
P0304Misfire detected in cylinder N9 4.
P0327Low signal level of the knock sensor (DS).
P0328High signal level of the knock sensor (DS).
P0335There is no signal from the crankshaft position sensor (CPS).
P0336The crankshaft position sensor (CPS) signal is outside the permissible limits.
P0337Short circuit to ground in the crankshaft position sensor (CPS) circuit.
P0338Open circuit of the crankshaft position sensor (CPS).
P0340Malfunction of the camshaft position sensor (CPS) circuit.
P0342Low signal level of the camshaft position sensor (DPRV).
P0343High signal level of the camshaft position sensor (CPS).
P0422The efficiency of the neutralizer is below the permissible threshold.
P0441Incorrect air flow through the valve.
P0443The canister purge valve control circuit is faulty.
P0480Cooling fan N91 relay control circuit malfunction.
P0481Cooling fan N9 2 relay control circuit malfunction.
P0500Incorrect vehicle speed sensor signal.
P0503Intermittent signal from the vehicle speed sensor.
P0506Low idle speed (idle speed control blocked).
P0507High idle speed (idle speed control blocked).
P0560The on-board network voltage is below the system operability threshold.
P0562Reduced voltage of the on-board network.
P0563Increased voltage of the on-board network.
P0601Controller ROM checksum error.
P0603Error writing/reading external RAM of the controller.
P0604Error writing/reading internal RAM of the controller.
P0615Open starter relay control circuit.
P0616Short circuit to ground in the starter relay control circuit.
P0617Short circuit to the on-board supply source of the starter relay control circuit.
P1135Malfunction of the oxygen sensor heater circuit No. 1 to the converter.
P1140The signal from the mass air flow sensor (MAF) is incorrect; the measured load parameter differs from the calculated one.
P1141Malfunction of the heater circuit of the oxygen sensor No. 2 after the converter.
P1386The test pulse or controller knock channel integrator is out of tolerance.
P1410Short circuit to the on-board power source of the canister purge valve control circuit.
P1425Short circuit to ground in the canister purge valve control circuit.
P1426Open circuit for controlling the canister purge valve.
P1501Short circuit to ground in the electric fuel pump relay control circuit.
P1502Short circuit to the on-board supply source of the electric fuel pump relay control circuit.
P1509Overload of the idle air regulator (IAC) control circuit.
P1513Short circuit to ground in the idle air regulator (IAC) control circuit.
P1514Short circuit to the on-board power source (or open circuit) of the idle air regulator (IAC) control circuit.
P1541Open circuit in the electric fuel pump relay control circuit.
P1570There is no response from the car anti-theft system (ATS) or the circuit is open.
P1602Loss of on-board power supply voltage in the controller.
P1606Incorrect rough road sensor signal.
P1616Low level of rough road sensor signal.
P1617High level of rough road sensor signal.
P1640Error writing/reading internal flash RAM (EEPROM) of the controller.
P1689Incorrect code values ​​in the controller fault memory.

Video “Resetting Airbag Error”

If malfunctions are found in the operation of certain systems, then the first thing to do is to correct them. If after repair the codes remain in memory and do not disappear, then you can eliminate them yourself.

There are several options for resetting errors:

If the Chevrolet car was diagnosed using the Chevrolet Explorer program, then information about faults can be deleted through the utility.

In addition, there are other options for resetting codes:

User Alex Moss talked about self-resetting an Airbag fault using the example of a Chevrolet Epica.

Computer diagnostics

The most complete diagnosis is possible with a computer or laptop. In order to use this method, you must purchase an adapter. This adapter performs two functions at once. It is an adapter from a K-line port to a USB port or to a COM port. It also acts as a decoder, which allows you to transmit signals from the ECU to the PC. You will also need to install the appropriate software on your laptop. There are a lot of free versions on the Internet. There are universal programs, as well as programs written for a specific car. After connecting to the computer, you will need to turn on the ignition and launch the program. The connection will happen automatically.

The interface of the computer program is very convenient and allows even an inexperienced user to navigate intuitively. All functionality can be divided into several sections. These are parameters, errors and settings. If the first two sections are informational, then using the third section you can control the vehicle systems.

Self-diagnosis procedure for Chevrolet Niva via OBD2 connector

Determine where the OBD2 connector is located

The location of the connector also depends on the type of connector. You can study this issue in the article: “Location of the diagnostic connector on the Chevrolet Niva”

Determine which scanner is suitable for your car

The selection of a scanner (adapter) for a Chevrolet Niva depends on the connector, as well as on the needs of the diagnostician / car owner.

To select diagnostic equipment, use the calculator: “Scanner selection for Chevrolet Niva”

Download the diagnostic program for the scanner

The diagnostic adapter requires software that can be installed on a laptop or smartphone/tablet. Auto scanners with their own software shell and display do not require software.

To select a program for the adapter, go to the section: “Programs”

Use the instructions and carry out diagnostics

When you purchase an adapter, instructions are included with the adapter. More detailed instructions on diagnostic scanners and descriptions of their operation are posted in the section: “OBD2 car scanner reviews”

Identify errors and decipher them

Error codes and their interpretation are displayed in the scanner program interface. You can also study the complete database of errors for your car in the section: “OBD2 error codes for Niva Chevrolet”

Make repairs according to the error code

The unit is repaired according to the decoding of the error (problem) or contact a car service to eliminate a particular malfunction.

Check errors again

A good choice for a novice diagnostician

By following the link on the right you can get acquainted with the scanner for autodiagnostics “Scan Tool Pro”. This is an official dealer website that provides a 12 month warranty.

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    ECU errors. Check-Engine - the light came on!

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    Check-Engine - the light came on!

    Post by ILIA » 13 Dec 2010, 16:14

    Re: Injector light came on!

    Post by Anton » 13 Dec 2010, 16:16

    Re: Injector light came on!

    Post by Captain » Dec 13, 2010, 6:30 pm

    Re: Injector light came on!

    Post by ILIA » 13 Dec 2010, 18:40

    Re: Injector light came on!

    Post by Magellan » Dec 13, 2010, 07:54 pm

    Re: Injector light came on!

    Post by ILIA » 14 Dec 2010, 13:12

    Re: Injector light came on!

    Post by ALK » Dec 14, 2010, 01:27 pm

    Who knows what's going on behind the fence of the zoo? ©

    Re: Check-Engine - the light came on!

    Post by Portada » Dec 14, 2010 6:35 pm

    ECU errors. Check-Engine - the light came on!

    Post by Axen » Mar 19, 2011, 03:24 pm

    All ECU errors and symptoms are malfunctions. It is known that it is difficult to identify some faults even when identifying an error. The error must match the classifier. (for all types of ECU.

    specify) First position: B — is for body codes P — is for powertrain codes C — is for chassis codes

    Second position: 0—code common to OBD-II 1—manufacturer code

    Third position - type of malfunction: 1 - fuel system or air supply 2 - fuel system or air supply 3 - ignition system 4 - auxiliary control 5 - idle speed 6 - ECU (ECU) or its circuits 7 - transmission 8 - transmission

    The fourth and fifth positions are the serial number of the error.

    Here are several types of ECUs installed on AvtoVAZ: https://www.chipautovaz.ru/Article06.aspx PS: Before asking questions, visiting the link is required! In the question, indicate the model and modification of the ECU. etc.

    Re: ECU errors

    Post by Axen » Mar 19, 2011, 4:30 pm

    Re: ECU errors

    Post by dimanoff2007 » Mar 19, 2011, 4:54 pm

    Re: ECU errors

    Post by Xavi » Mar 19, 2011 5:27 pm

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