Diagnostics of Lada Kalina, error codes and methods for eliminating them

DmitryCorsten Blog Error codes for on-board computers of the Samara-2 family VAZ 2113, VAZ 2114, VAZ 2115

With the introduction by a special commission of the European Union of the mandatory characteristics of Euro-2 and Euro-3 in vehicle electronics, the misfire (ignition) system became mandatory for use as a function when programming the ECU.
Methods for its diagnostics were also integrated into the “brains” of the on-board vehicle. With its help, to prevent unnecessary toxicity of unused fuel, a program was installed to turn off cylinders with deficiencies in the injection system. This occurs by blocking the fuel supply through the injector system. With the help of preventive blocking of this function, the release of unburned fuel into the environment is stopped, and the functionality of the rather expensive complex of catalyst parts is not affected. On vehicles equipped with a set of additional electrical devices included in Euro-3 and subsequent generations, a VAZ rough road sensor is added to the ignition system interval control complex.

This indicator is positioned as the only device in the vehicle electronics that does not directly influence the management function of the Priora from the electrical on-board complex. When the question is posed this way, Russian car owners often ask why a rough road sensor is needed in a car.

Such a device has the function of protection when moving along sections of the roadway with obvious unevenness (bumps, ruts, etc.). Based on the pulses emitted by the device, the controller can temporarily stop the process of identifying intervals and turning off idle cylinders.

The standard device is located in the power compartment on the wing mudguard on the right side. Usually, it is mounted on a special protrusion and connected to the side panel via a three-pin contact. Finding a rough road sensor and replacing it is not particularly difficult.

Lada KalinaDND rough road sensor malfunction

the engine starts and stalls, elimination of error codes P1606/P1616/P1617, description of the cause of the error and its elimination.

It operates on the basis of the introduction of the piezoelectric effect by analogy with the knock sensor of the power plant, i.e., the acceleration signals that arise in the system when driving on an uneven road surface are transformed. Such a pulse is converted into a constant current voltage value, which is in direct proportion to the previous signal. This is how the controller identifies the position when the vehicle is moving along a road with difficult terrain and gives a command to disable the function of stopping the ignition of a flammable mixture.

When moving on a road surface with unevenness and potholes, the variable load effect of a variable type significantly affects the angular speed of rotation of the crankshaft of the technical device. Frequency pulses transmitted during rotation of the crankshaft of a technical device act as an analog signal, which appear during intervals of ignition of the air-fuel mixture.

The electrical rough road sensor in Priora measures the amount of vibration of the vehicle body and transmits the acquired impulse to the controller. If the permissible level of impulse characteristics is exceeded, the controlling sensor disables the characteristics of the combustion intervals of the injection system.

Replacement

Installing a new sensor is not a difficult job. To carry it out you will need a minimum of tools, as well as a little time:

Thus, work to replace the sensor is carried out on Lada Kalina and Lada Priora. On machines of other brands and models, this work may be performed differently.

Manufacturers

. If you have a foreign car, then it is better to purchase an original sensor from official suppliers. Even the most expensive models will cost relatively little. You shouldn’t save money and buy a Chinese “pig in a poke”; no one will guarantee the service life of the part.

Several of our companies produce DND for domestic production. The most famous are Kaluga sensors and those produced in Zelenograd. Connoisseurs of German quality can purchase a device manufactured by BOSCH.

p0504

Also, many owners of a Lada Priora with 16 valves have questions about the appearance of error p0504. She tells the owner that there is a malfunction in the brake pedal sensor. To find out the exact reason for the appearance of p0504, you need to remove the sensor and disassemble it

Pay attention to its springs, one of them could burst - replace the damaged part

Another reason is copper contacts, which can burn. Inspect them and clean them if necessary. Sometimes error p0504 pops up due to the incorrect position of the brake pedal sensor on Priora 16. Twist it and check whether codes p0504 remain on the screen or not.

Replacing the device

Technical properties of the sensor:

Checking the ADC pulse of the VAZ rough road sensor can be carried out using the DST-2M device or its analogues. The BSMW indicator is analyzed and diagnosed in the form of acceleration configuration g. If the sensor is subjected to a slight impact with a click or knock, then there is a change in acceleration values ​​with a different spectrum, from instantaneous to small values. In principle, this device is very sensitive, changes are observed even by the body's rocking.

Error codes for VAZ rough road sensor:

To dismantle the Priora rough road sensor you will need a Phillips head screwdriver:

Error codes for Lada Priora 8 and 16 valves with and without air conditioning: decoding

0102 Low level of mass air flow sensor signal 0103 High level of mass air flow sensor signal 0112 Low level of intake air temperature sensor 0113 High level of intake air temperature sensor 0115 Incorrect signal of coolant temperature sensor 0116 Incorrect signal of coolant temperature sensor 0117 Low level of temperature sensor coolant 0118 Coolant temperature sensor signal high 0122 Throttle position sensor signal low 0123 Throttle position sensor signal high 0130 Oxygen sensor signal 1 incorrect 0131 Oxygen sensor signal low 1 0132 Crankshaft sensor signal high 1 0133 Slow response oxygen sensor 1 0134 No signal from oxygen sensor 1 0135 Malfunction of oxygen sensor 1 heater 0136 Short circuit to ground of oxygen sensor 2 0137 Low level of oxygen sensor 2 0138 High level of high signal of oxygen sensor 2 0140 Open circuit of oxygen sensor 2 0141 Malfunction of oxygen sensor 2 heater 0171 Too lean mixture 0172 Mixture too rich 0201 Injector 1 control circuit open 0202 Injector 2 control circuit open 0203 Injector 3 control circuit open 0204 Injector 4 control circuit open 0261 Injector 1 circuit short to ground 0264 Injector 2 circuit short to ground 0267 Injector circuit short to ground sunki 3 0270 Short to ground in the injector 4 circuit 0262 Short to 12V in the injector 1 circuit 0265 Short to 12V in the injector 2 circuit 0268 Short to 12V in the injector 3 circuit 0271 Short to 12V in the injector 4 circuit 0300 Many misfires 0301 Misfires in cylinder 1 0302 Misfire in cylinder 2 cylinder 0303 Misfire in cylinder 3 0304 Misfire in cylinder 4 0325 Open circuit of knock sensor 0327 Low level of knock sensor signal 0328 High level of knock sensor signal 0335 Incorrect crankshaft position sensor signal 0336 Crankshaft position sensor signal error 0340 Phase sensor error 0342 Neither low signal level phase sensor 0343 High signal level of the phase sensor 0422 Low efficiency of the converter 0443 Malfunction of the canister purge valve circuit 0444 Short circuit or break in the canister purge valve 0445 Short to ground of the canister purge valve 0480 Malfunction of the cooling fan circuit 1 0500 Incorrect speed sensor signal 0501 Not correct speed sensor signal 0503 Interrupt speed sensor signal 0505 Idle speed control error 0506 Low idle speed 0507 High idle speed 0560 Incorrect on-board power supply voltage 0562 Low on-board power supply voltage 0563 High on-board power supply voltage 0601 ROM error 0603 External RAM error 0604 Internal RAM error 0607 Knock Channel Malfunction 1102 Low Oxygen Sensor Heater Resistance 1115 Faulty Oxygen Sensor Heater Circuit 1123 Rich Idle 1124 Lean Idle 1127 Rich Partial Load 1128 Lean Partial Load 1135 Oxygen Sensor Heater Circuit 1 open, short circuit 1136 Rich mixture in Light Load mode 1137 Lean mixture in Light Load mode 1140 Measured load differs from calculation 1171 CO potentiometer low level 1172 Potentiometer CO level high 1386 Knock channel test error 1410 Canister purge valve control circuit short circuit to 12V 1425 AD purge valve control circuit sorber short short to ground 1426 Control circuit of the canister purge valve open 1500 Open circuit of the control circuit of the fuel pump relay 1501 Short to ground of the control circuit of the fuel pump relay 1502 Short circuit to 12V of the control circuit of the fuel pump relay 1509 Overload of the control circuit of the idle speed regulator 1513 Circuit of the idle speed regulator short circuit to ground 1514 Idle air control circuit short circuit to 12V, open 1541 Fuel pump relay control circuit open 1570 Incorrect APS signal 1600 No communication with APS 1602 Loss of on-board voltage to the ECU 1603 EEPROM error 1606 Rough road sensor incorrect signal 1616 Rough road sensor low signal 1612 Reset error ECU 1617 Rough road sensor high signal 1620 EPROM error 1621 RAM error 1622 EPROM error 1640 EEPROM Test error 1689 Incorrect error codes 0337 Crankshaft position sensor, short to ground 0338 Crankshaft position sensor, open circuit 0441 Air flow through the valve is incorrect 0 481 Cooling fan circuit malfunction 2 0615 Starter relay circuit open 0616 Starter relay circuit short circuit to ground 0617 Starter relay circuit short circuit to 12V 1141 Malfunction of the oxygen sensor 1 heater after the converter 230 Malfunction of the fuel pump relay circuit 263 Malfunction of the injector driver 1 266 Malfunction of the force driver nki 2 269 Malfunction of injector driver 3 272 Injector driver fault 4 650 CheckEngine lamp circuit fault

Table with errors

A complete list of faults with explanations and recommendations for troubleshooting:

Engine malfunctions

Possible causes of the problem:

  • regular use of low-quality fuel;
  • violation of air intake tightness;
  • lack of spark;
  • damage or physical wear of cylindrical devices.

If replacing the fuel does not help, it is necessary to diagnose the air intake system. You should tighten the fastening clamps, change the air filter element and check the pressure in the rail (the normalized value is no more than 2.8 atm).

It is also necessary to perform diagnostics:

  • high-voltage wires connected to the defective cylinder;
  • spark plugs;
  • check for possible oxidation at the cable connection points.

Diagnostics of high-voltage wires is carried out using a tester; it is necessary to check the resistance. If the obtained value is more than 10 kOhm, then the cables must be replaced. You also need to check the integrity of the spark plugs and make sure there is no carbon deposits on their tips.

Possible causes of the problem:

  • breakdown of the mass air flow sensor;
  • lean or enriched air-fuel mixture in the engine cylinders;
  • malfunction of the electronic engine control system unit.

To fix the problem, you can try to relearn the throttle valve, to do this, perform the following steps:

Possible solutions to the problem:

Electrical faults

When this combination appears, the following problems are possible:

Possible signs of problems:

  • the car engine does not start or stalls for no reason;
  • fuel consumption increased;
  • electronic devices and mechanisms do not work correctly;
  • the power of the power unit is lost, etc.

If you do not have the appropriate equipment and skills, you can follow these steps to resolve:

Composite Combinations

Decoding of VAZ error codes is presented for the following models:

  • 1118 Kalina (Kalina);
  • 2104;
  • 21041;
  • 2105;
  • 2107;
  • 21074;
  • 2109;
  • 21093;
  • 21099;
  • 2110;
  • 21102;
  • 21103;
  • 2111;
  • 2112;
  • 2113;
  • 2114;
  • 21114;
  • 21124;
  • 2115 with engine injector 8 and 16 valves;
  • 21150;
  • 21154;
  • 2131;
  • 2170 Priora (Priora);
  • 2190 Granta (Grant);
  • 2123, 21214, 2131 Niva (Niva);

Indications for self-diagnosis and contacting specialized service stations will be different, error codes are also displayed differently. Therefore, today we will consider two options.

It is not at all necessary to use the on-board computer to diagnose problems with the car. Not all VAZ 2114 owners know about this method, so we will definitely tell you about it.

It consists of the following steps.

  1. Sit in the driver's seat and hold down the odometer button.
  2. Then turn the ignition key to the first position.
  3. Release the odometer button. After this, the arrows will start moving.
  4. Press the button again and turn it off. This will allow you to see which firmware version is used in your case.
  5. Press and release the button a third time. So you will see codes indicating the presence of certain errors in the operation of the car.

Let's now look at the most popular errors that occur during such diagnostics and figure out what the code means. Even without an on-board computer, you can detect faults on the VAZ 2114 using the odometer codes.

We suggest you familiarize yourself with them in the table.

CodeDescription
1Problems with the microprocessor
2There are problems in the fuel level indicator sensor circuit in the tank.
4The power supply voltage is too high
8Voltage too low
13There is no signal from the oxygen sensor
14Coolant temperature sensor signal level is very high
15Coolant temperature sensor signal level is very low
16The voltage in the on-board network is too high
17Very low voltage in the on-board network
19The crankshaft position sensor is sending an incorrect signal.
24Vehicle speed sensor is faulty
41Phase sensor sends incorrect signals
51Problems detected with the persistent storage device
52Problems detected with the random access memory device
53CO potentiometer does not work
61Lambda probe sensor does not work
  • VAZ repair.
    Check all sensors! Plus, all fault codes will be stored in memory until you manually reset them. To do this, you need to disconnect the terminals from the battery while keeping the ignition on, wait a few seconds and connect it back. Don’t forget to do this, especially if you are going to go to a service station for diagnostics. They will find these errors and will eliminate them, although in fact you have already done everything yourself before. Pay extra money? No, it's not worth it.

Errors in the idle system and ecu of the Lada Priora

P0500 - a malfunction in the sensor that is responsible for speed. When the last digit is 6, the speed is low, and when 7 is high. At 11 the regulator is broken, and at 60 the voltage is low, and at code 62 it is too low. Code 63 numbers indicate high voltage. 0601 - checksum malfunction. Code 0627 indicates tears in the fuel pump cables. With code 0645, 46 and 47 - problems with the air conditioner.

This is the main list of problems and malfunctions that occur in the car. If you decipher them correctly, then it will be much easier to repair the car and correct Priora errors. But even with the most effective equipment, you need to remember that a good auto mechanic cannot be replaced by any testing device.

Description and meaning of error P0422

This diagnostic trouble code (DTC) is a generic powertrain code, which means it applies to OBD-II equipped vehicles. While general, specific repair steps may vary depending on the make/model. A vehicle's catalytic converter (catalyst) helps improve tailpipe emissions by oxygenating the exhaust gases. It helps convert carbons (HC), carbon monoxide (CO), and oxides of nitrogen (NOx) into water vapor (H20), carbon dioxide (CO2), and nitrogen (N). The PCM (Powertrain Control Module) monitors catalyst efficiency through the catalyst post oxygen sensor. This sensor is mainly used for this purpose. It should shift much slower than the front oxygen sensors. If at any time the PCM detects that the catalytic converter O2 sensor is switching too quickly (without indicating any change between the input and output of the catalytic converter), then it interprets this as the catalyst not functioning properly. Bank 1 is the side of the engine with cylinder number 1.

The process of diagnosing a car using a tester or a connected computer

Much more accurate and reliable data when checking a car for malfunctions can be obtained if you use separately connected equipment. But the introduction of such tools and devices gives encrypted readings, therefore, in order to correctly understand and find all the faults in the car, you need to decrypt the data received from diagnostic devices. Of course, manufacturers could have done things easier for Russian-speaking car enthusiasts. It would be possible to write “replace the canister valve” on the device screen after diagnostics, but instead, only a code in the form of p0441 can be found on the display, and code p0130 will appear only due to problems with the oxygen sensor.

But the problem is that Lada Priora is produced not only for the domestic market, it is also produced for sale in other countries. Therefore, such a classification of automobile problems and their code on the testing device was created.

It is easier to enter only a certain number of universal codes into the program than to enter your own language data for each national market. As a result, you can look at a specific code on the display and easily determine the essence of the problem in the car using a list that lists all encrypted codes. A special code is used to indicate error codes on the Lada Priora car. This cipher includes:

On the Lada Priora, all gap codes in the vehicle's operation will have five digits. Here is a complete list of Priora designations. The first character of the code will be a Latin letter. The letter “P” indicates problems with the engine, or more precisely with its electronic system. The letter “B” indicates problems with the interior electronics.

The letter “C” is present on the screen only if there are failures in the electronic system of the vehicle chassis. If combined errors occur in several operating systems of the vehicle, the letter “U” will appear on the display. The letter designation is followed by a number.

The zero indicator is indicated by the OBD-2 code. Numbers 1 and 2 show the company code, and the third digit is responsible for the backup code. The subsequent set of numbers conditionally shows the place where errors were detected during diagnostics. A zero code indicates the exhaust system. Number 1 indicates the fuel system, number 2 indicates the air supply system.

If there is a malfunction in the ignition, then the number 3 will appear. If there are problems with additional control, the number 4 will appear. If there are malfunctions in the idle speed, then the number 5 is responsible for this, and if there are problems in the ECU, the number 6 will appear. Numbers 7 and 8 are associated with the transmission In the general code, the very last two digits indicate the error number in the operation.

What does code P0507 mean?

Trouble code P0507 is triggered when the engine idle speed is higher than expected. All modern engines have a desired idle speed - usually between 600-1000 rpm.

The control unit uses position sensing and throttle adjustment to achieve these speeds. If the idle speed exceeds these set values ​​and the maximum adjustment zone, the control unit will generate this error code.

Code P0507 is a common code for vehicles equipped with Electronic Throttle (E-Gas). Newer vehicles usually use E-gas.

The throttle valve is only called electronic. It replaces the old throttle body with a cable between the gas pedal and the throttle body.

The electronic throttle body uses sensors on the gas pedal and an electric motor in the throttle body to provide the desired acceleration. But this does not mean that this error code must necessarily be related to a faulty throttle valve. It can also have many other causes.

Self-diagnosis of the instrument cluster Kalina/Priora

Decoding error codes in the dashboard:

How to reset errors on Kalina? You can reset the errors yourself using the on-board computer, or contact a service station with special diagnostic equipment.

Let us remind you that you can find detailed photo reports in the Lada Kalina repair category.

Keywords: instrument panel Lada Kalina | dashboard of Lada Priora | on-board computer Lada Kalina | on-board computer Lada Priora | Lada Kalina engine | Lada Priora engine | ECM Lada Kalina | ECM Lada Priora

Found an error? Select it and press Ctrl Enter..


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How to Troubleshoot or Reset Trouble Code P0222

Some suggested steps to troubleshoot and fix error code P0222:

  1. Read all stored data and error codes using an OBD-II scanner. To find out when and under what circumstances the P0222 error appeared.
  2. Clear the error codes from your computer's memory and test drive the vehicle to see if P0222 appears again.
  3. Visually inspect the electrical wires and connections related to the throttle position sensor “A” for looseness or damage.
  4. Compare the readings of the throttle position sensors “A” and “B” using a scanner, and if necessary, replace the faulty sensor.
  5. Clear the error code from your computer memory again and test drive the vehicle to find out if the problem is resolved.

Diagnosis and problem solving

Carefully check the Throttle Position Sensor (TPS), wiring connector and wiring for opens, etc. Repair or replace as necessary to resolve P0222.

Check the voltage at the TPS (see your vehicle's service manual for more information). If the voltage is too low, this indicates a problem. Replace the sensor if necessary.

If recently replaced, the TPS may need to be adjusted. On some vehicles, installation instructions require proper alignment or alignment (see repair manual for details).

If there are no symptoms, the problem may be intermittent and cleaning the code may temporarily resolve it. In this case, you should definitely check the wiring to make sure that it is not rubbing, worn out, etc.

Self-diagnosis

Let's look at the decoding of combinations of faults that you can read when checking the Lada Priora yourself.

NumberMalfunction
2When independently checked, this code indicates an increased voltage level in the on-board network. It is recommended to check the main electrical circuits.
3Errors have been reported in the operation of the gasoline level control sensor in the fuel tank.
4This code indicates a malfunction in the refrigerant temperature level control sensor.
5Malfunction of the ambient temperature sensor. The information sent to your device may not be accurate.
6The engine is reported to be overheating, and antifreeze may boil.
7The BC informs the car owner about the emergency lubricant pressure.
8Malfunctions in the brake system were detected. This may indicate defects that may subsequently affect the safety of the driver and passengers.
9Low battery reported.
E (EEPROM)Faults have been detected in the data packet.

The arrows on the dashboard move to maximum values ​​when performing self-diagnosis of the vehicle, and all icons on the panel are lit.
Please note: if the button for switching functions of the on-board computer is not pressed for more than 10 seconds, the dashboard will return to the operating state.

Symptoms of malfunction

The main driver symptom of P0222 is the MIL (Malfunction Indicator Light) illumination. It is also called Check engine or simply “check light”.

They can also appear as:

  1. The “Check engine” warning light on the control panel will light up.
  2. Unstable or low idle speed.
  3. Increased engine speed at idle.
  4. The engine stalls or has trouble starting.
  5. The motor runs unevenly (pulsates).
  6. There is no response to the gas pedal.

Other symptoms may also be present.

Prior error codes on the dashboard

Using the built-in controller, drivers can identify the main error codes for Priors 8 and 16 valves on their own. The procedure is carried out using a built-in computer or a connected device. Almost all modern cars are equipped with a system of various sensors that monitor the condition of automotive components. The bottom line is that the functionality of many working units directly depends on the correct functioning of the existing sensors.

On the other hand, turning off some indicators may not affect the operation and movement of the car, and malfunctions are detected much later, when the negative consequences of deactivating the sensors appear. Symptoms of the indicators turning off include unstable engine operation, excessive fuel consumption, and excessive wear of parts.

Description of error P0480

The cooling fan is electrically controlled by the engine control unit via a relay based on sensor readings:

  • — Engine Coolant Temperature (ECT) Sensor
  • — Incoming air temperature (IAT) sensor
  • — Air conditioning selector switch
  • — Air conditioning refrigerant pressure sensor A/C
  • — Vehicle Speed ​​Sensor (VSS)

The ECM controls the fan by completing a control circuit that turns on the fan relay. The cooling fan relay turns on when the following conditions are met:

  • Engine coolant temperature reaches 106°C (223°F) or more.
  • The air conditioner clutch engages.
  • The vehicle speed is less than 60 km/h.

The cooling fan relay turns on regardless of vehicle speed when the following conditions are met:

  • -Engine coolant temperature has reached 151°C (304°F) or more.
  • High refrigerant pressure in the air conditioning system.

Self-diagnosis using BC

The owner can identify the main error codes of Priora 8 and 16 valves using the built-in controller and on-board computer (BC), without resorting to the services of car service diagnosticians. To do this, you must activate the vehicle testing option. The arrows on the instrument panel move to the maximum possible position. Further manipulations are performed in the following sequence:

On which cars is this problem most common?

The problem with code P0222 can occur on different machines, but there are always statistics on which brands this error occurs more often. Here is a list of some of them:

  • Chevrolet (Chevrolet Aveo, Cruze, Lacetti)
  • Daewoo (Daewoo Matiz)
  • Ford (Ford Ranger, Focus)
  • Hyundai (Hyundai Solaris)
  • Jeep (Jeep Grand Cherokee)
  • Kia (Kia Sid)
  • Land Rover (Land Rover Range Rover)
  • Mazda (Mazda 6)
  • Mercedes
  • Mitsubishi (Mitsubishi Lancer)
  • Nissan (Nissan Pathfinder)
  • Opel
  • Peugeot
  • Skoda (Skoda Octavia)
  • Ssangyong
  • Subaru
  • Toyota
  • Volkswagen (Volkswagen Passat, Polo Sedan, Tiguan)
  • VAZ 2114
  • Gazelle
  • Lada Granta, Kalina, Niva, Priora
  • UAZ Patriot

With fault code P0222, you can sometimes encounter other errors. The most common are the following: P0121, P0122, P0123, P0221, P2100, P2105, P2106, P2135, P2160, U0151, U1900.

Checking with a plug-in tester

More accurate and comprehensive diagnostics can be performed using a connected computer or a special tester. However, the data displayed on the screen is alphanumeric. The letters have the following meaning:

In addition, the number 0 means OBD code 2, numbers 1 and 2 indicate the enterprise code, and 3 is the backup password.

Basic ignition system

(the letter P precedes the digital designation):

Fuel-air system

(the letter P is located before the numbers):

In principle, diagnostics using BC makes it possible to identify the main faults. Basic error codes for Priora 8 and 16 valves using a plug-in tester provide significantly more information. To understand it, you should study the decoding of indicators, which is not so difficult.

Modern Lada model

Like any modern foreign car, the Lada Priora has many different sensors installed. The condition of important vehicle systems depends on their correct operation. The problem is that if some sensors fail, the Priora can continue to move. Faults of this kind can lead to increased fuel consumption, unstable engine operation, and increased wear of parts, but the car will drive, and you will only find out about the fault when it means you have to make expensive repairs.

In order not to go into the engine compartment with a multimeter, the Priora has a controller that allows you to check faults using a special tester, a plug-in or built-in on-board computer. In order to diagnose the systems, just press 2 buttons and look at the error codes.

DESCRIPTION


The two sensing chambers of the differential pressure sensor are mounted to monitor the pressure before and after the DPNR (*2) catalytic converter.
The sensor itself is not located on the engine assembly in order to reduce the influence of vibration. The sensor is a semiconductor-type that is not influenced by exhaust gases. The ECM compares the exhaust gas pressure in front of and behind the DPNR catalytic converter by monitoring the pressure using the upstream and downstream sensing chambers of the differential pressure sensor. If the difference between the pressure before and after the catalytic converter exceeds a predetermined level, the ECM judges that the catalytic converter has clogged with particulate matter (PM). When the ECM judges that a partially clogged condition exists, the ECM begins to perform DPNR catalyst regeneration. *1: Diesel Clean Advanced Technology *2: Diesel Particulate-NOx Reduction system NOTE: If the vacuum hoses of the differential pressure sensor are incorrectly connected (crossed), the ECM interprets this as abnormal pressure difference, DTC P1426 (Differential Pressure Sensor) will be set and the MIL will illuminate.

DTC No.DTC Detection ConditionTrouble Area
P1426When output voltage from the differential pressure sensor indicates positive pressure as negative pressure (and vice versa)(1-trip detection logic)
  1. Incorrect arrangement differential pressure sensor hose routing
  2. Differential pressure sensor vacuum hose is clogged
  3. Blockage in vacuum transmitting pipe sub-assembly
  4. Differential pressure sensor
  5. ECM

NOTE:

  1. DTC P1425 (Differential pressure sensor circuit), DTC P1427 (Differential pressure sensor circuit low) and/or DTC P1428 (Differential pressure sensor circuit high) will be present if there is an open or short in the differential pressure sensor circuit.
  2. After confirming DTC P1426, check the differential pressure by selecting the following menus on the intelligent tester: “Powertrain / Engine and ECT / Data List / DPF Differential Pressure”.

Reference:

ConditionDifferential Pressure OutputSensor Condition
Ignition switch on (IG)Approximately 0 kPaNormal
Always3 kPaOpen or short circuit
3000 rpm (No engine load)Negative outputIncorrect arrangement of hose piping

Diagnostics using the built-in BC

To view the error codes, you need to find the daily mileage reset button on the dashboard, press it and, holding it, turn the ignition key. The self-diagnosis mode will turn on. All arrows on the instruments should move from minimum to maximum values ​​and back, and all positions on the LCD display should light up. You need to look: if any position does not light up or the arrow on any device does not move, then you should check the corresponding sensors, their networks or display for malfunctions.

Priora on-board computer

In the same mode, press any button for switching modes of the built-in BC 2 times, after which digital codes may appear on the liquid crystal display:

Many drivers ask how to reset error codes on a Lada Priora. Perhaps their built-in BC is faulty, since a working on-board computer automatically exits the diagnostic mode after 30 seconds if you do not press any control buttons.

Error P0123 - what it means, symptoms, causes, diagnosis, solution

Trouble code P0123 indicates a problem with the throttle/pedal position sensor. When the engine control module (ECM) detects that the rated output voltage of the throttle position sensor exceeds the manufacturer's specification, it generates trouble code P0123.

The throttle position sensor (TPS) is another name for a potentiometer. It is located on the throttle body while the pedal position sensor is connected to the accelerator pedal.

The throttle position sensor monitors the movement of the accelerator pedal and determines how much power the engine requires. Code P0123 is triggered when the TPS voltage value is outside the specified range.

Checking using a connected computer or tester

Driver Information Panel

Checking system malfunctions using connected devices gives more accurate results, but at the same time requires deciphering special codes. For example, the monitor displays code p0441 or p0130 or error p0422. Oh, these car manufacturers, in human language they could write “replace the oxygen sensor” instead of P0130 or “check the canister valve” instead of P0441. But nothing can be done, the Lada Priora is also intended for export, so it is easier to write p0441 in the program than to give explanations in Russian, Kazakh, Arabic, Armenian and 10 other languages. And then attach special tables that indicate the meaning of certain codes. Just look at them and everything will become clear. But these tables are not included with the operating instructions. Either way, you can check them out below.

All fault codes for Lada Priora car systems consist of 5 characters. Here is a breakdown of Prior's errors.

The Latin letter comes first:

The system indicates an error

The next digit indicates the system in which the malfunction was found:

The last 2 digits indicate the serial number of the fault.

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Car Scanner ELM OBD2 (beta version) for those who have an ELM 327 Bluetooth v1.5 scanner Better than Torque Pro (OBD2 / car) and OpenDiag Mobile, don’t believe me - look at the rating on the play market. The program really works - thanks to the developer. The best application for diagnosing and monitoring a car using your phone or tablet.

Monitor the operating parameters of your car in real time, read and reset errors and freeze frames, monitor the results of ECU self-diagnosis, measure vehicle acceleration, keep fuel consumption statistics and much more: 1) Tired of searching for buggy plugins for Torque? Then welcome to Car Scanner! Many additional sensors for various brands are already integrated into the program. 2) Set up the dashboard the way you want. You can customize multiple pages by choosing different types of pointers (arrow pointer, text, graph) and customizing the appearance of each one. 3) Add additional sensors to get what the car manufacturer hid from you. 4) Read and reset errors. Car Scanner includes an extensive database of error codes. 5) Read freeze frames (the state of the sensors at the time the error was saved). 6) Observe the ECU self-diagnosis results. 7) Check if the car is ready for emissions tests.

PLEASE NOTE: The list of displayed parameters is different for each vehicle and is 100% dependent not on the Car Scanner program, but on the vehicle control unit

IMPORTANT! Working with old AvtoVAZ ECUs is possible, but not guaranteed!

IMPORTANT! Working with old AvtoVAZ ECUs is possible, but not guaranteed!

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