Standard on-board computer VAZ 2110 – instructions, installation

Almost all modern cars are equipped with an on-board unit. This device provides the machine with many useful functions. With its help, you can find out the car’s daily mileage, instantaneous fuel consumption, air temperature, and fuel reserves in the tank. Other functions include additional operating parameters - air flow, crankshaft and damper position, and other data.

However, the most useful function of an on-board or trip computer is the provision of error information. The device can find out the error number that occurs during engine operation and display it on the screen without additional diagnostics. This allows you to troubleshoot problems without having to pay for diagnostics or unexpected repairs.

Some car models released from the factory do not have this useful device, which makes servicing the car difficult. Therefore, owners strive to carry out their own tuning of vases. Installing an on-board computer on a VAZ 2110 with your own hands will not pose any special problems. If connected correctly, operating time will not take more than an hour. The article will show you how to install and configure the device on a VAZ 2110-2111, and will also tell you about the models and prices of on-board computers.

Types of on-board computers

There are quite a few types of on-board computers VAZ-2110. The price of all devices is different - from 1,200 rubles to 20,000. It all depends on the type and manufacturer. For example, devices that are installed in standard places are low cost and are not very convenient to use. But there are on-board computers that are installed instead of the standard dashboard. Large selection of instruments, various color schemes, display layout, etc.

Such devices include on-board computers VAZ-2110 “Gamma”, “Multitronics”. But they also cost a lot - over 10,000 rubles. Installing such a device in a service center will cost another half the cost. But you can do all the work yourself if you know how to read diagrams and understand them. But the main thing is that for ease of use it is necessary to calibrate the sensors.

Meaning of errors

The meaning of errors on the BMW E39 instrument panel is the key to correcting car breakdowns. Below are the main error codes that occur on the BMW E39. It is worth adding that this is not a complete list, since the automaker either adds or removes some of them every year:

P0103 is an error indicating a critical excess air flow, as evidenced by an excessive warning signal coming from the device that monitors the level of air flow. P0105 is an error that indicates that the device that determines the air pressure level is faulty. P0106 ​​is an error indicating that the signals emitted by the air pressure sensor have exceeded the permissible range. P0107 is an error indicating that the output signal coming from the air pressure sensor is low. P0108 is an error that indicates that the air pressure sensor is emitting an excessively high signal level. P0110 is an error indicating that the sensor responsible for reading the intake air temperature is faulty. P0111 is an error that indicates that the signal readings coming from the incoming air temperature sensor are outside the permissible range. P0112 – the level of readings from the incoming air temperature sensor is quite low. P0113 - an error “opposite” to the previous one, shows that the level of readings from the incoming air sensor is quite high. P0115 – if this error occurs, you should pay attention to the readings of the coolant temperature sensor; most likely, the sensor has failed. P0116 – coolant temperature has exceeded the permissible range. P0117 – the signal coming from the sensor responsible for the coolant temperature is quite low. P0118 – the signal coming from the coolant temperature sensor is quite high.

It is important to add that not all error codes are presented above; a complete list of decodings can be found on the official website of the car manufacturer. If a code appears that is not in the list of decryptions, you must immediately contact the service center to fix the problem

On-board computer options

On-board computer STATE X1M-station wagon.

Regular BC.

BK-40.

BK-10.

The main differences between a BC injector and a carburetor

The main differences between the bk, depending on the type of power supply, are the on-board capabilities for the VAZ 2110. The carburetor type is the simplest. The main reason is that carburetors are largely controlled mechanically, and electronics play a secondary role. Therefore, its standard set of functions is extremely small. You can find out about:

  • time of day or set an alarm;
  • current and average fuel consumption, as well as power reserve;
  • average speed and driving mode;
  • engine or outside air temperature;
  • diagnostic information that allows you to find out about an engine operation error and decode it.

ADJUSTING THE COMPUTER FUNCTION

Clock correction

Press button 4 in the “Current time” mode. At the sixth signal of the exact time, press button 1, this resets the seconds and rounds the clock readings.

Setting the current time (calendar)

  • Press button 4 in the “Current time” (“calendar”) mode.
  • Use buttons 5, 6 to set the desired hour (day).
  • Press button 4.
  • Use buttons 5, 6 to set the desired value for minutes (month).
  • Press button 4 to complete the time (calendar) setting.
  • Advantages of injection engines

    The engine designs are the same, only the following systems differ significantly:

    1. Fuel mixture injection.
    2. Ignition.
    3. Engine control.

    The main advantages of injection engines:

    1. If faults occur, diagnostic tools will provide an accurate diagnosis in a matter of minutes. In rare cases, it becomes necessary to take the car to a service center for servicing.
    2. Ideal operation at idle speed, provided that all sensors function stably. Starting the engine in winter is much easier.
    3. Fuel consumption (depending on the firmware, however) is significantly less than that of carburetor engines.
    4. Injection systems require virtually no intervention. Sensors and actuators rarely fail.

    The cost of spare parts is significantly higher than for carburetor engines. But they also break less often. If the injector is new or has just been serviced, then with proper use it will last for more than one year without breakdowns. If the sensors break down, they can be replaced within a few minutes. And some devices can be repaired.

    Benefits of using on-board computers

    On VAZ-2110 cars, the on-board computer (instructions are included with the device) has several functions:

    1. Visual notification of current and average fuel consumption.
    2. Accurate tachometer and voltmeter.
    3. There is a function that allows you to remind about a scheduled oil change.

    On-board computers can notify the driver of the following faults:

    1. A lamp lights up, indicating engine failure. If the motor operates normally and there are no symptoms of breakdowns, then most likely the power circuit of the lamp itself is faulty.
    2. Excessive gasoline consumption. In some cases the value exceeds 12 l/100 km. A complete diagnosis of the injection system and flashing of the electronic control unit controller will help.

    Pros of bookmaker

    Installing a computer on a VAZ 2110 will open up a lot of good options and has a huge number of advantages:

    • the presence of a trip computer allows you to find out about the power reserve;
    • the ability to combine a computer and a navigator;
    • option for heating the spark plugs of a disabled vehicle;
    • the ability to check errors and eliminate them immediately. Replacing the bearing that caused the malfunction significantly
    • cheaper than subsequent extensive repairs.

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    Translation from English

    Optional BMW E39 errors translated from English look like this:

    • TIRE DEFECT – an error indicating problems with the car’s tire; it is recommended to immediately slow down and stop.
    • EDC INACTIVE is an error that indicates that the system responsible for electronically adjusting the stiffness of shock absorbers is in an inactive state.
    • SELFLEVEL SUSP. INACT is an error that indicates that the self-levelling system is inactive.
    • FUEL INJECT. SYS. – an error indicating injector problems. If such an error occurs, it is necessary to have the vehicle inspected by an authorized BMW dealer.
    • SPEED LIMIT - an error that indicates that the speed limit set in the on-board computer has been exceeded.
    • PRE-HEATING – an error indicating that the pre-heater is working, and it is not recommended to start the car’s power unit.
    • FASTEN SEAT BELTS – a message advising you to fasten your seat belts.

    In order to translate error messages on the BMW E39, it is not at all necessary to be fluent in English or German; it is enough to know which error corresponds to a particular code, and also use a dictionary or online translator.

    Disadvantages of injection systems

    Among the negative qualities are the following:

    1. The on-board computer “State” of the VAZ-2110 provides complete information, but it is inconvenient to perceive it. The display is located to the side, under the tape panel. Therefore, in order to consider any data, you will need to stop.
    2. A very expensive catalyst, located literally 10 cm from the road surface, is easily damaged. Repairing it is not always possible, and the cost is very high. In the event of a breakdown, not only fuel consumption will increase, but also the level of CO in the exhaust.
    3. Initially, only carburetors were installed on the “ten” engines. Later, the engines were sharpened for the installation of injection systems. Consequently, dismantling some sensors and devices turns out to be problematic due to their inconvenient location.

    Troubleshooting VDO Instrument Panel Resistor

    The problem described below appears only on VDO dashboards manufactured in 2006-2007 under article number 1118-3801010. It was installed from 2004 to 2011 on the Kalina, VAZ 2110, 2111, 2112, 2113 and 2114 models. We can recognize the manufacturer by its logo located under the inscription “km/h”:

    Removed VDO instrument panel

    This is due to a manufacturing error . On the dashboard board there are two resistors labeled “E6E”. One of these resistors was soldered crookedly . As a result of such defects, over time, cracks form in the solder due to which contact is lost and the on-board computer stops responding to the joystick of the steering column switch.

    If the steering column switch is working properly, then this is definitely a problem in the “E6E” resistor!

    What is needed to eliminate the VDO instrument disease

    To complete the work you need:

    To diagnose this problem, you need to disassemble the dashboard. To do this, the dashboard is removed from the car and disassembled. And then the problem area on the board is inspected and soldered.

    Disassembling the VDO dashboard

    To disassemble the VDO panel, you need to snap off the front transparent plastic part of the panel, which is held on by six clips along the contour. Afterwards, the four star bolts are unscrewed and then the back cover is removed. After this, you need to snap off the black casing that remains on the front of the instrument panel. It is also held in place by plastic clips. This will allow you to remove the top glass and bottom cover from the dashboard.

    Instrument panel with glass and bottom cover removed

    To disassemble completely, remove the arrows and then unclip the latches from the board.

    You can use a table fork to remove the arrows on the instrument panel from their seats. Before shooting, it is important to remember their location! The fork must be inserted under the arrow and, by gently pressing and rocking, tear it out of its seat.

    The location of metal clamps in the center of the board and plastic ones at the edges

    Then we proceed directly to removing the board from the remaining part of the instrument panel. To do this, you need to snap off the four metal clips in the center, as well as the four plastic clips along the contour. In the photo, these fasteners are circled in black.

    How to fix a glitch with switching on-board computer readings on the panel

    On the board you can see two resistors “E6E”. One of them, the one the arrow points to (circled), is located crookedly. This is the reason for the failure to switch between on-board computer data readings.

    Crooked resistor on VDO panel board

    It is necessary to heat the solder with a soldering iron and move the resistor with tweezers, then thoroughly solder the resistor contacts to the tracks. The result should look like this:

    Result of soldering resistor E6E

    Then we assemble everything in the reverse order and check its functionality. If everything is done correctly, the on-board computer will begin to respond to the joystick of the steering column switch.

    Source

    Operation of injection cars

    It is imperative to comply with the requirements that will facilitate the operation of the car. In order for the on-board computer “State” of the VAZ-2110 to produce errors as little as possible, and to increase comfort, be sure to adhere to the following recommendations:

    1. Carry out soundproofing - this will get rid of unnecessary noise. For example, the fuel pump is quite loud. And it can be inconvenient.
    2. Be sure to treat all body elements with anti-corrosion compounds.
    3. The vehicle should only be refueled with recommended brands of fuel. If you fill with low-octane gasoline, the engine will not work properly.
    4. Timely maintenance will solve any problems regarding the operation of the motor.

    Typical faults

    The need for replacement, as a rule, arises in the event of malfunctions in the operation of the device. If the computer begins to show incorrect data, the cause of the problem may lie in the contacts. Usually the contacts come off as a result of off-road driving and frequent vibrations. In this case, the problem can be resolved by reconnecting the devices.

    In some cases, incorrect data is caused by glitches. If this is the case, then you won’t be able to solve the problem on your own - only specialists with the necessary equipment can help. In practice, the bookmaker can be reflashed, that is, the software can be reinstalled. In the event that the demonstration of incorrect parameters is associated with damage to the electronics, then the only correct solution is to replace the BC. Usually in this case, if there is mechanical damage to the system elements, the on-board computer does not work, which is the reason for its replacement (the author of the video is the IZO)))LENTA channel).

    Electrical connections

    During the preparation stage, you must perform the following steps:

    1. Disconnect the negative terminal from the battery.
    2. The VAZ-2110 on-board computer is connected to the alarm block. Find it and position it as conveniently as possible.
    3. You will need to first locate the orange wire (at pin seven).
    4. Connect the red-white wire to it, which is located in the computer connection harness.
    5. To the red-black wire installed in the tenth pin, connect the red one from the harness coming from the trip computer.
    6. And connect the red on the block with the red-black coming from the BC harness.
    7. Find the black wire on the fifth pin. And you connect the same one from BC to it.
    8. A white wire is installed on the eighth contact, which you connect to a similar one going to the BC.

    instruction manual on how to connect and configure the BC

    The VAZ-2110 on-board computer is used to control vehicle systems. In its original configuration, the car leaves the factory without a smart gadget, but this does not prevent the driver from purchasing it. Before this, it is necessary to evaluate the technical characteristics of the models on the market. Each of them is designed for specific operating conditions of the VAZ-2111, 10 or 12.

    Functional purpose of the device

    The development of the technical component of vehicles has led to an abundance of electronic and mechanical devices that control the operation of the car. Each of them reflects one or another indicator, which a person does not always have time to analyze. This is where the VAZ on-board computer will help, taking control of what is happening. In addition to monitoring the operation of vehicle systems, it will promptly inform the owner about a failure.

    Another advantage is that the standard on-board computer analyzes the technical condition of the car within the specified parameters. In practice, this means that the driver can ask a question regarding the presence of components or assemblies whose performance exceeds the technical norm. Preventative analysis reduces the likelihood of downtime due to technical failure. The VAZ trip computer differs in the available options depending on the configuration:

    Installation recommendations

    The efficiency of the device is determined at the stage of selection and subsequent installation. An on-board computer (BC) is selected for the VAZ-2112, which collects and analyzes incoming information. Regardless of the model, it is equipped with a Check Engine light. When it is triggered, the bookmaker will independently determine that it is not working.

    What does the on-board computer notify?

    1. When the car is moving, a light comes on, indicating a malfunction of the power unit. It is possible that there really are problems with the engine. It's easy to notice by the sound. If the light is on, but the engine behaves normally, do not rush to go to a car service center. A common problem with the BC on the VAZ 2110 is a small short circuit. Carry out diagnostics - cheaply and effectively.
    2. Fuel consumption is too high, it has even exceeded the maximum limit of 12 liters. If such a problem is detected, it can only be solved by flashing the controller firmware. Doing this on your own is difficult and sometimes impossible. Trust exclusively highly qualified specialists.

    Setting an alarm

    • Press button 4 in Alarm mode.
    • Use buttons 5, 6 to set the desired hour value.
    • Press button 4. Use buttons 5, 6 to set the desired minute value.
    • Press button 4 to complete the alarm setting.
    • In the “Current time” mode, the alarm symbol will light up (the alarm is on).

    * If the counter of any of the accumulated parameters (“Travel time”, “Travel time with stops”, “Total consumption”, “Trip mileage”) overflows, all accumulated ones, as well as calculated ones (“Average fuel consumption”, “Forecast”) are reset mileage on remaining fuel", "Average speed") parameters, with the appearance of a two-tone sound signal.

    Turning off the alarm

    • Press button 4 in Alarm mode.
    • Press button 1 to turn off the alarm. “—.—” will appear in the digital digits, and in the “Current time” mode the alarm symbol will not light up (the alarm is turned off).

    Rules for driving a car with an injector

    A car equipped with an injector is less susceptible to ambient temperatures. However, in severe frost, the injection Lada also experiences difficulty starting. Here it is worth using the on-board computer with the function of heating spark plugs. Every time the temperature drops below a certain value and the car is turned off, a special heating of the tips is carried out to ensure a stable engine start.

    Also, the VAZ engine sometimes overheats, which can cause valve burnout and costly overhauls. However, this is possible if the cooling system is faulty. If necessary, you can activate the Tropic function for the on-board computer of the VAZ 2110. When the temperature reaches more than the value set by the owner, the forced cooling fan turns on.

    Installing an on-board computer on a VAZ 2110 with detailed instructions

    Each standard on-board computer on the VAZ 2110 is accompanied by instructions , according to which you can dismantle the old computer and put a new one in its place. Therefore, first of all, arm yourself with this guide.

    It’s not difficult to figure out for yourself how to connect an on-board computer to a domestically produced VAZ 2110 car . It is necessary to act consistently and follow stages.

    • First, remove the terminal that comes from the battery.
    • Find the alarm block and remove it. The on-board computer is connected to it.
    • The orange wire should be removed from the seventh contact.
    • In its place, a red and white wiring is attached, which is pulled from the on-board computer harness.
    • Disconnect the orange wire and install it in the connector from which you previously removed the wire.
    • The red wire with black stripes will be disconnected from the tenth contact. The red wire from the BC harness is attached here. Instead of red, connect red-black. Essentially, you are swapping wires.
    • Disconnect the black wire from the fifth contact. A wire of the same black color from the on-board computer harness is connected to it. This is a very important point, don't miss it.
    • The black wire from the block is connected here.
    • Now it’s the turn of the eighth contact. The white wire is removed from it, and the white wire from the harness is connected in its place. That is, a change of places occurs again.
    • Make sure there is contact between the wires.
    • Check the quality of fixation of each disconnected and connected wiring. Use insulating tape in areas where they are curled.
    • The harness is pulled through the internal section of the console to the site for subsequent installation of the on-board computer.
    • Next, you should carefully and firmly connect it to the sensor, which is responsible for adjusting the fuel level in the car.
    • Remove the instrument panel to give yourself access to the gray block.
    • Disconnect the fuse box. It is located to the left of the driver.
    • From the gray block, remove the pink wire that transmits the signal to the fuel level sensor. The pink wire from the harness of your on-board computer is connected to it.
    • Install the sideboard in its rightful place.
    • Reconnect the battery terminal to turn the ignition on. Start the engine and check if everything works on the installed on-board computer.

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    By following fairly simple instructions, you should be able to connect the VAZ 2110 BK to your car without any problems. Carefully study each point, think about whether you can really do everything yourself.

    As we have already noted, the approximate cost of a new on-board computer intended for installation on a VAZ 2110 car is 2 thousand rubles. There is no need to purchase additional tools or materials for self-installation, that is, the whole process will cost you 2 thousand.

    When you contact a service station, you will be asked for about 2 thousand rubles more to connect the on-board computer. This is the best case scenario.

    Considering the relative simplicity of the work, there is no need to trust it to car mechanics. By consistently performing each step and following the instructions, you will be able to equip your VAZ 2110 with an on-board computer with your own hands.

    Checking the steering column switch

    Checking the contacts in the steering column switch housing

    In those cases, switching between the BC readings on the panel should be done with a switch on the steering wheel, but this cannot be done - you should make sure that it is working. This steering column switch is used on the panels: “VDO” 1118-3801010, “Schetmash” 2170-3801010-01 and “Avtopribor” 1118-3801010-02. To check whether the steering column switch is working properly, it must be removed and disassembled.

    Disassembling the switch consists only of removing the cover, which is held in place by a small metal latch in the form of a bracket. There are 4 contacts under the cover, which are connected to the Reset button and to the switches. There are yellow and black wires coming from the “Reset” button. There are green and red wires coming from the top switch button. All these contacts must be checked with a multimeter for resistance.

    If it is, then everything is fine with the switch and you need to disassemble the dashboard to inspect the contacts and tracks. On VDO panels with one window produced in 2006-2007, there is a factory defect - poor contact of one of the resistors, which, during driving, cracks and interrupts the connection between the steering column switch and the panel board.

    Connection diagram

    The process of diagnosing an ECU using a special scanner.

    Electronic control units of the VAZ-2110 are the main tool for controlling and automating most processes in the car. To adjust the software, they often resort to replacing the “brains” with more “flexible” ones and reflashing the ECU.

    First of all, it is necessary to clarify several terms that will be required when considering questions about changing the electronic control unit:

    • Wiring compatibility . To replace it, the connectors on the old ECU and the new one will need to match.
    • Software is a predetermined algorithm that can change depending on the needs or desires of the motorist.
    • The hardware component is the electronic control unit itself, boards or other components that allow the systems associated with the ECU to function normally.

    For the VAZ-2110 family there were two types of connectors. So, for the “brains” January 5.1.x, Bosch M1.5.4, Bosch MP7.0, and VS 5.1 there was a 51-pin connector, but for January 7.2(+), Bosch M7.9.7(+) and M73 - 81 -pin.

    That is, the interchangeability of control units is caused by the pinout of the unit.

    ECU January 7.2.

    Differences

    Fundamental differences between 81-pin blocks and blocks of previous generations:

    1. Overall body dimensions and weight have been reduced.
    2. New, more modern connectors with improved connection reliability.
    3. The controllers have built-in switches, therefore, instead of ignition modules, ignition coils can be used, which increase the reliability of the ECM as a whole.
    4. There is no software or hardware compatibility with any of the previously released units.

    Even electronic control units from the same manufacturer will differ significantly in pinout. Therefore, the interchangeability of the “brains” will depend on the number of connector pins. Also, it is worth understanding that the firmware will play a big role. When changing the ECU, the motorist will have to reflash the unit for the correct operation of all vehicle devices.

    ECU January 5.1.

    A very important nuance remains that the software of the control unit must be compatible and comply with the type of injection, as well as the toxic standards laid down by the manufacturer.

    Assignment of contacts of ECU Bosch M1.5.4, MP7.0 and January-5.1

    Pinout of 55-pin ECU.

    Let's look at the pinout of control units with 55-pin “brains”:

    Bosch M1.5.4 (1411020 and 1411020-70) January 5.1.1 (71)Bosch M1.5.4 (40/60) January-5.1 (41/61) January 5.1.2 (71)Bosch MP7.0
    1Ignition 1-4 cylinders.Ignition 1-4 cylinders.Ignition 1-4 cylinders.
    2.Ground ignition wire..
    3Fuel pump relayFuel pump relayFuel pump relay
    4Stepper motor PXX(A)Stepper motor PXX(A)Stepper motor PXX(A)
    5Canister purge valve.Canister purge valve.
    6Cooling fan relayCooling fan relayLeft fan relay (only on Nivas)
    7Air flow sensor input signalAir flow sensor input signalAir flow sensor input signal
    8.Phase sensor input signalPhase sensor input signal
    9Speed ​​sensorSpeed ​​sensorSpeed ​​sensor
    10.General. Oxygen sensor weight Oxygen sensor weight
    11Knock sensorKnock sensorKnock sensor input 1
    12Power supply for sensors. +5 Power supply for sensors. +5 Power supply for sensors. +5
    13L-lineL-lineL-line
    14Weight of injectorsWeight of injectorsWeight of injectors. Power "ground"
    15Control of injectors 1-4Oxygen sensor heaterCheck Engine Light
    16.Injector 2Injector 3
    17.Recirculation valveInjector 1
    18Power supply +12V non-switchablePower supply +12V non-switchablePower supply +12V non-switchable
    19Common wire. Weight of electronics Common wire. Weight of electronics Common wire. Weight of electronics
    20Ignition 2-3 cylindersIgnition 2-3 cylinders
    21Stepper motor PXX©Stepper motor PXX©Ignition 2-3 cylinders
    22Check Engine LightCheck Engine LightStepper motor PXX(B)
    23.Injector 1Air conditioner relay
    24Stepper motor weightWeight of stepper motor output stagesPower grounding
    25Air conditioner relayAir conditioner relay.
    26Stepper motor PXX(B)Stepper motor PXX(B)Weight of sensors TPS, DTOZH, DMR
    27Ignition switch terminal 15Ignition switch terminal 15Ignition switch terminal 15
    28.Oxygen sensor inputOxygen sensor input
    29Stepper motor PXX(D)Stepper motor PXX(D)Oxygen sensor 2 input signal
    30Weight of sensors MAF, DTOZH, DPS, DD, DPKVWeight of sensors MAF, DTOZH, DPS, DD, DPKVKnock sensor input 2
    31.Reserve output high currentRough road sensor input signal
    32..Fuel consumption signal
    33Control of injectors 2-3Oxygen sensor heater..
    34.Injector 4Injector 4
    35.Injector 3Injector 2
    36.Exit. Intake pipe length control valve. Main relay
    37Nutrition. +12V after the main relay Nutrition. +12V after the main relay Nutrition. +12V after the main relay
    38.Low-current backup output.
    39..Stepper motor РХХ ©
    40.Reserve input discrete high.
    41Request to turn on the air conditionerRequest to turn on the air conditionerOxygen sensor heater 2
    42.Reserve input discrete low.
    43Signal to tachometerSignal to tachometerSignal to tachometer
    44CO - potentiometerAir temperature sensor.
    45Coolant temperature sensorCoolant temperature sensorCoolant temperature sensor
    46Main relayMain relayCooling fan relay
    47Programming permissionProgramming permissionAir conditioner request signal input
    48Crankshaft position sensor. Low level Crankshaft position sensor. Low level Crankshaft position sensor. Low level
    49Crankshaft position sensor.High levelCrankshaft position sensor.High levelCrankshaft position sensor.High level
    50.Recirculation valve position sensorProgramming permission
    51.Request to turn on the power steeringDC heater
    52.Reserve input discrete low.
    53Throttle position sensorThrottle position sensorThrottle position sensor
    54Fuel consumption signalFuel consumption signalStepper motor IAC (D)
    55K-lineK-lineK-line

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    Description of contacts ECU M7.9.7 / January 7.2

    Let's look at the pinout of control units with 81-pin “brains”:

    Compound
    121114 - Not used / 21124 - Ignition coil 2 cylinders.
    221114 - Ignition 2-3. Control of the primary winding of the ignition coil, act. level is low. / 21124 — Ignition coil 3 cylinders.
    3Ignition circuit weight
    421114 - Not used / 21124 - Ignition coil 4 cylinders.
    521114 - Ignition 1-4. Control of the primary winding of the ignition coil, act. level is low. / 21124 - Ignition coil of cylinder 1.
    6Injector 2. Active level low
    7Injector 3. Active level low
    8Output to tachometer.
    9Not used
    10Fuel consumption signal
    11Not used
    12Battery, terminal 30 of the ignition switch.
    13Nutrition. Ignition switch terminal 15
    14Main relay
    15Contact "A" DPKV
    16TPDZ
    17TPS mass / TPS mass, DND
    18Input - oxygen sensor
    19Input - knock sensor
    20Knock sensor weight
    21Not used
    22Not used
    23Not used
    24Not used
    25Bosch Only - High Current Output, Reserved
    26Bosch Only - High Current Output, Reserved
    27Injector 1. Active level low
    28Not used / DK2 heater control output
    29Not used / Engine cooling fan control output 2
    30Not used
    31CE lamp, act. level low
    32Power supply TPDZ / Power supply TPDZ, DND
    33Power supply for mass air flow sensor
    34DPKV input, contact “B”
    35Weight of DTOZH / Weight of DTOZH, mass air flow sensor, 1 DC (UDK), 2 DC (DDK)
    36Mass of the mass air flow sensor
    37Signal input from mass air flow sensor
    38Not used
    39Signal input from DTOZH
    40Signal input from intake air temperature sensor
    41Not used
    42Not used / DND signal input
    43Not used
    44On-board voltage input at the main relay output
    45Phase sensor power output
    46Canister purge valve control output
    47Injector 4. Active level low
    48Oxygen sensor heater control output
    49Not used
    50Additional starter relay control output
    51Controller weight
    52Not used
    53Controller weight
    54Not used
    55Not used / Signal input DK2 (DDK)
    56Not used
    57Input for encoding calibration data options. The controller memory can contain 2 sets of calibration data; switching is performed by shorting to ground.
    58Not used
    59Speed ​​sensor
    60Not used
    61Weight of output stages
    62Not used
    63On-board voltage input at the main relay output
    64Output “D” IAC
    65Output “C” IAC
    66Output “B” IAC
    67Output “A” IAC
    68Engine cooling fan relay control output, act. level - low
    69Air conditioner relay control output, act. level - low
    70Fuel pump relay control output, act. level - low
    71K-Line
    72Not used
    73Not used
    74Not used
    75Input request to turn on the air conditioner, act. level - high
    76Power steering request input, act. level - high
    77Not used
    78Not used
    79Phase sensor signal input
    80Weight of output stages
    81Not used

    Choice of "Brains"

    AvtoVAZ Lada 2110 cars have been equipped with several electronic control units throughout their production history. Thus, the following ECUs can be found on vehicles:

    • January 4 - the cost of such an electronic control unit is 4,000 rubles.
    • Bosch M1.5.4 - the average price will be 5,500 rubles.
    • January 5.1 - the market price will be about 6,000 rubles.
    • VS 5.1 - cost 5,000 rubles.
    • Bosch MP7.0 - the cost of the control unit will be around 6,000 rubles.
    • Bosch M7.9.7 is a little more expensive than its brother, the price ranges from 6000-6500 rubles.
    • January 7.2 and January 7.2+ - these blocks will cost the car owner 5000-5500 rubles.

    According to the experience of motorists and the recommendations of specialists, it is best to take electronic control units marked Bosch MP7.0, January 7.2+ and January 5.1.

    If you have to change the remaining blocks, it is recommended to take an ECU with these markings, since they are more “flexible” for changing the software.

    On-board computer diagnostics

    Faulty sensors can be determined using ECU diagnostics.

    To identify faults in the electronic control units of the VAZ-2110, diagnostic equipment is used. Usually they use a tablet or laptop with special software. Also, the motorist, if the operation is performed independently, will need a special OBD II cable.

    The process of diagnosing an ECU using a laptop.

    Diagnostics are carried out to determine errors in the electronic control unit and troubleshoot problems in on-board systems, especially on engines. After identifying the error, it is necessary to decipher and find the cause of the malfunction in order to eliminate it.

    conclusions

    Determining the compatibility of the electronic engine control unit is quite simple; to do this, you should look at the pinout of the connectors, and also read the technical specifications. You can replace the “brains” yourself.

    Sources

    • https://MasteraVaza.ru/salon/bortovoj-kompyuter/kolodka-bortovogo-kompyutera-vaz-2110-583
    • https://FB.ru/article/342090/bortovyie-kompyuteryi-na-vaz—podklyuchenie-bortovogo-kompyutera-vaz—instruktsiya
    • https://carfrance.ru/zamena-bortovoj-kompyuter-vaz-2110/
    • https://DaciaClubmd.ru/repair/elektrika/bortovoj-kompyuter-vaz-2110
    • https://luxvaz.ru/vaz-2110/17-podklyuchnie-bortovogo-kompyutera.html
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