Installation and connection diagram of BSZ, electronic contactless ignition module VAZ 2107 injector and carburetor, instructions with photos and videos

The ignition coil on the VAZ-2107 with an injector provides the formation of current pulses responsible for the formation of a spark between the electrodes of the spark plugs. If the element is damaged, the system’s performance is disrupted and fuel consumption increases. The driver can carry out initial diagnostics of the coil independently.

Ignition coil for VAZ-2107.

Design and principle of operation of the ignition module

Some old-school motorists call the modules double-spark coils, which makes sense. After all, the coil is the predecessor of the ignition module in the technical evolutionary chain. The module is a paired design consisting of two pairs of windings (primary and secondary) and a switch that alternately switches low-voltage current from one coil to another. In some models of double-spark coils, the commutator is structurally located outside the block .

The operation of the module is controlled from an electronic unit that collects and analyzes information from various working components of the engine. The block, unlike the classic coil, has 4 sockets for connecting high voltage wires going to the spark plugs. The pulse occurs in pairs, first at terminals 1 and 4, then 2 and 3. That is, each of the built-in coils is responsible for the operation of two cylinders. A spark occurs simultaneously, as a pair.

This is what one of the ignition module models looks like. The connector for connecting incoming wires is visible at the top.

At the input, the ignition module has a connector with four terminals. Usually most models have markings opposite them. Pulses from the Hall sensor alternately arrive at contacts A and B, serving as a signal to switch the commutator from one primary winding to another. C and D – ground and power supply (12 V), respectively.

Location of the ignition module VAZ 2107

The ignition module is located on the front side of the cylinder block above the oil filter. It is secured to a specially designed metal bracket using four screws. It can be identified by the high-voltage wires coming out of the housing.

The ignition module is located on the front of the cylinder block above the oil filter

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How to Check the Ignition Coil of a VAZ 2107 Injector

How to check the ignition module of a VAZ 2107 injector

Section 11: Description of the engine control system Car VAZ 2107

Ignition coil of the VAZ 2107 car. Check. replacement

To check the ignition coil of a VAZ 2107, a multimeter is required.

Sequence of work for checking the ignition coil on a VAZ 2107 car

1. Prepare your VAZ 2107 for work (see “Preparing your VAZ 2107 for maintenance and repair”). 2. When removing the clamp, disconnect the wiring block from the ignition coil.

3. Connect the negative voltage measuring sensor of the VAZ 2107 automobile engine and, turning on the ignition, measure the supply voltage at terminal “15” (in the middle) of the ignition wiring harness,

The voltage at the end of the ignition coil gasket should be at least 12 V. If the voltage does not reach the terminal block, or it is below 12 V, there is a fault in the power circuit, a low battery level, or a computer fault. 4. Turn off the ignition on the VAZ 2107. 5. Remove the air filter housing (see “Air filter housing. Removal. Installation”). 6. Clean the ignition coil of dirt. 7. Disconnect the high voltage wires from the ignition coil. 8. Alternatively, connect an ohmmeter to the ignition coil high voltage terminals 1-4 and 2-3 and measure the resistance of the secondary windings. With the ignition coil it should be within 5.0. 6.0 ohms. 9. To check the primary winding for ground, connect the ohmmeter sensors to the middle terminal “15” of the connector and to the metal part of the ignition coil housing. If the resistance tends to infinity, the circuit does not occur. 10. To check for an open circuit in the primary winding, connect ohmmeter probes to terminals “1a” and “1b” of the ignition coil connector. If the resistance tends to infinity, then in the circuit

A breakdown occurred and the ignition coil on the VAZ 2107 had to be replaced. 11. To remove the ignition coil using a 5mm wrench, loosen the four mounting screws and remove the ignition coil. Installing an ignition coil on a VAZ 2107 car

Installing the ignition coil on a VAZ 2107 car is carried out in the reverse order. In this case, the high voltage wires are connected to the ignition coil in accordance with the cylinder numbers printed on the ignition coil housing next to the terminals.

When should you turn on the ignition?

The first thing you should know is that there are no regulations for this operation, since the ignition timing is set or adjusted only if necessary. It may be caused by the following reasons:

• You recently purchased a “Seven” on the secondary market and are trying to “bring it to mind.”
• After engine repair, accompanied by its disassembly.
• After unscrewing or removing the main ignition distributor (distributor), regardless of the reason why this was done.
• When switching from high-octane fuel to gasoline with a lower octane number and vice versa.
• After replacing the contact group or bearing in the distributor (in cars with an old ignition system).

Note. On VAZ 2107 vehicles equipped with an electronically controlled injector, the reason for checking the spark generation system may be the flashing of the Check Engine display on the instrument panel. True, it behaves in a similar way when a dozen more malfunctions occur. So ignition problems must first be diagnosed by contacting a service station.

In the vast majority of cases, the sparking moment is set as a result of a violation of the settings after disassembling or repairing the engine. A separate issue is the transition to high-octane gasoline, which requires ignition with greater advance, for which adjustments are being made.

It is advisable to check the timely formation of a discharge on the electrodes of the spark plugs in cases where unstable engine operation is observed, popping noises are heard in the carburetor and exhaust pipe, accompanied by an increase in fuel consumption. If you have not yet discovered the “gluttony” of the car, then pay attention to the color of the smoke; with high gasoline consumption, it is black, as is the carbon deposits on the electrodes of the spark plugs.

Types of systems

For decades, until the release of the VAZ 2107 (from 1982 to 2012), it was equipped with three types of ignition systems:

• mechanical with contacts. switches;
• contactless;
• controlled by an electronic unit (ECU).

The note. The first 2 grades were placed on the “seven” of the carburetor, the latter is represented by an injector.

In the mechanical embodiment, the contacts opened by the camshaft cam open the low voltage circuit, initiating the formation of a powerful pulse in the secondary coil winding. This discharge is directed to the fuel spark plug electrodes in the cylinder, where the piston rises to top dead center (TDC) and the compression stroke is completed.

The contactless circuit works on the same principle, only the Hall sensor signals an open circuit, and its switch implements this. Therefore, the ignition settings on the “seven” carburetor are almost identical. One more thing. These are nozzle machines that have a new system that not only has the contacts, but also the distributor and any moving parts. Here, the spark torque is determined by the ECU controller by focusing on the signals from different sensors.

Prerequisites for failure

Please note that the engine management system malfunction warning lamp, located on the instrument panel in the indicator block, is the first indicator of deviations in the operation of the VAZ 2107, which uses an injector. Some modifications of the VAZ 2107 provide for the location of the warning lamp on the upper insert of the radio panel. By starting the ignition, a system malfunction is tested, which means the lamp lights up and goes out after the engine starts. A prerequisite for diagnosing the ignition system is that the lamp does not go out while the engine is running.

In situations where there is a malfunction, VAZ 2107 owners replace the spark plugs. Old factory spark plugs are usually replaced with iridium spark plugs from NGK or Denzo. Do not forget that only those spark plugs that are designed for the appropriate type of injection are suitable here.

The type of ignition system is no less important in determining the parameters of the spark plug. Often such manipulation does not provide much improvement (plugs have a fairly long service life), so the non-contact ignition system undergoes a full diagnosis.

Preparatory stage

To set the ignition on a VAZ 2107 car, no special conditions are required; the operation can be done both in the garage and on the street, including in winter. For work, prepare the following set of tools:

• flat screwdriver;
• metal probe 0.35 mm thick;
• open-end wrench size 13 mm;
• a car light bulb designed for a voltage of 12 V with wires soldered to it;
• a wrench with a long handle designed to turn the crankshaft;
• key for unscrewing spark plugs.

Ignition tuning tool

Note. Instead of a special key to rotate the crankshaft, you can use a regular open-end wrench measuring 36 mm. If you don’t have such a key, then you will have to set the marks in the old proven way: by engaging 4th gear and raising the rear wheel, turn it manually, thereby turning the crankshaft.

Ideally, it is better to have in your arsenal a device for setting the ignition on a running engine - a strobe light. It is equipped with a lamp that flashes simultaneously with the moment of spark formation in the cylinder, which allows you to see the position of the notch on the crankshaft pulley at idle speed and clearly adjust the advance angle.

This is what a strobe looks like, which is convenient for adjusting ignition timing

Important point. The ignition is set in order to ensure that the spark appears in a timely manner and the engine starts, after which additional adjustments will be required. But the latter will not bring you the desired result when there is no compression in the cylinders or problems with the carburetor make themselves felt. If these faults are not eliminated, the engine operation will remain unstable, no matter how you configure the spark generation system.

Hence the conclusion: you can set the ignition correctly at any time, but to set it well - only on a working engine and carburetor.

Fuse box VAZ-21074 injector

• 1-Rear window heating relay
• 2-Relay for headlight cleaners and washers (if equipped)
• 3-relay or signal jumper (if there is no external relay)
• 4-relay or jumper for cooling fan
• 5-high beam relay
• 6-low beam relay
• F1-F17-Fuses
• 1 (8A) Rear lights (reversing light). Heater electric motor. Warning lamp and rear window heating relay.
• 2 (8A) Electric motors for windshield wiper and washer. Electric motors for headlight cleaners and washers. Windshield wiper relay. Wiper relay and
• headlight washer (contacts).
• 3 (8A) Reserve.
• 4 (8A) Reserve.
• 5 (16A) Rear window heating element and heating relay (contacts)
• 6 (8A) Cigarette lighter. Portable lamp socket. Watch. Front door open warning lamps
• 7 (16A) Sound signals and relay for turning on sound signals. Engine cooling fan electric motor and motor activation relay.
• 8 (8A) Direction indicators in hazard warning mode. Switch and relay-interrupter for direction indicators and hazard warning lights in emergency mode.
• 9 (8A) Generator voltage regulator.
• 10 (8A) Direction indicators in turn indication mode and the corresponding warning lamp. Fan motor activation relay (winding). Control devices. Battery charge indicator lamp. Indicator lamps for fuel reserve, oil pressure, parking brake and brake fluid level. Parking brake warning light relay. Carburetor pneumatic valve control system
• 11 (8A) Rear lights (brake lamps). Body interior lighting lamp.
• 12 (8A) Right headlight. Coil of the relay for turning on the headlight cleaners (with the high beams on)
• 13 (8A) Left headlight. Indicator lamp for turning on the high beam headlights.
• 14 (8A) Left headlight (side light). Right rear light (side light). License plate lights. Engine compartment lamp. Indicator lamp for turning on the side light.
• 15 (8A) Right headlight (side light). Left rear light (side light). Cigarette lighter lamp. Instrument lighting lamps. Glove compartment lamp
• 16 (8A) Right headlight (low beam). Coil of the relay for turning on the headlight cleaners.
• 17 (8A) Left headlight (low beam).

Tuning on carburetor modifications of the VAZ 2107

All old textbooks on servicing classic Zhiguli models describe a method for setting the moment of spark formation using a light bulb, although experienced motorists can easily do without it. You will understand why this happens as you read this material, but for beginners it will be useful to familiarize yourself with the old proven technique.

To correctly set the ignition of the “seven”, you need to ensure that the following conditions are met simultaneously:

• the notch on the crankshaft pulley is opposite the long mark on the timing cover;
• in this case, the round mark marked on the camshaft chain drive gear coincides with the boss on its body;
• the piston of the 4th cylinder has completed the compression stroke and is at top dead center;
• the contacts inside the distributor are open;
• The movable contact of the slider faces the fixed contact on the distributor cover, where the wire from the spark plug of the 4th cylinder is connected.

Note. On non-contact systems, at this moment the Hall sensor sends a signal to the switch to break the low voltage electrical circuit, which leads to the appearance of a high voltage pulse on the wire leading to the spark plug of the 4th cylinder.

The diagram shows what happens in the cylinders when the marks are aligned

The light bulb is used to control the ignition timing, for which it must be connected with one wire to the “K” contact of the high-voltage coil, and with the second to the vehicle ground. You should know that at the same moment the piston of the first cylinder is also in the TDC position, only there the air-fuel mixture is not compressed, but exhaust gases are released after its combustion. This is why ignorant car enthusiasts often confuse the first cylinder with the fourth when installing the ignition.

Layout of marks on the timing cover

When the above actions occur simultaneously, a spark discharge occurs on the electrodes of the spark plug of the 4th cylinder, as evidenced by the flash of the connected light bulb. To achieve these conditions and set the ignition correctly, follow the instructions:

The marks must be aligned by turning the crankshaft with a wrench

Note. The instructions imply that before starting work the distributor was removed from the engine without aligning the marks.

The ignition is considered to be set correctly if, after installing the distributor cap and connecting the wires, you manage to start the engine, and then you need to adjust the timing. The non-contact system is installed in the same way, with the exception of checking the gap in the contact group due to its absence.

The mark on the camshaft gear is aligned with the boss on the body

Important point. In most cases, the ignition is set without removing the valve cover, which is why the position of the mark on the gear is not visible. You have done everything according to the instructions, but the engine does not start. This means that a spark is supplied to the 4th cylinder during the exhaust stroke, and compression at this moment occurs in the first cylinder. The problem can be solved simply:

• remove the distributor cover;
• unscrew the nut securing it;
• pull the distributor out of the socket, turn the slider exactly 180° and insert the element back;
• Press the distributor skirt with the nut and install the cover.

Advice. If the engine does not start after these steps, but begins to show signs of life, then the problem lies not in the ignition setting, but in a malfunction of one of the system elements.

Photo instructions for setting up

First of all, the marks on the pulley and timing cover are aligned

The distributor is inserted into the hole so that the slider points to cylinder 4

The distributor skirt is pressed against the block with a 13 mm nut

The gap is checked with a feeler gauge with the contacts open. The gap is corrected by unscrewing the 2 screws securing the contact group.

The light will light up when a spark appears

Checking and adjusting the lead angle

To check whether the ignition is set correctly, just align the marks on the crankshaft pulley and the timing cover. In this case, the slider should be directed to the 4th cylinder, and the contacts should be open. If the slider “looks” towards the first cylinder and the car does not start, then turn it 180° as described above.

To create optimal fuel combustion conditions in the chamber, the flash should occur a little earlier than the piston reaches TDC. There are 3 ways to achieve this:

1. when installing the ignition, align the notch on the pulley not with the first long mark, but with the second, indicating an advance angle of 5°;
2. determine the amount of advance “by ear” by loosening the nut securing the distributor and turning it by the housing at idle engine speed;
3. connect a strobe light to the system, start the engine and by turning the distributor, adjust the position of the notch by pointing the flashing lamp of the device at it.

Reference. The second method is most often used by experienced drivers, since it gives a positive result without any instruments. The ignition distributor is turned until the position of the most stable engine operation is found. That is why the use of a light bulb does not play a big role, because the real advance angle at which the engine operates in optimal mode lies in the range of 5-10° and is determined individually in each car experimentally.

Once the settings are complete, press the gas pedal sharply several times. If you can hear the piston pins knocking (a ringing sound is clearly audible from the engine), then the advance angle is too large. Loosen the distributor and turn it 1-2° clockwise, then check again by pressing the accelerator.

Advice. Finger tapping is often heard when you fill with low octane fuel. Then it is necessary to reduce the advance angle so that detonation (which causes knocking) does not destroy the piston group. When using high-quality fuel, the angle should be increased in order to improve the dynamic characteristics of the VAZ 2107.

Contactless (electronic) ignition, carburetor

Many car owners are switching to a more accurate (electronic) type of ignition. To adjust the device yourself, you need to have skills in working with the electrical part of a car. If you do not have sufficient knowledge, entrust the work to experienced specialists.

Prepare the instrument for tuning. You will need keys (for “eight”, “ten” and “thirteen”), a Phillips screwdriver, a drill and a pair of self-tapping screws.

Pre-install the contactless system itself, consisting of the following elements:

• Trambler. Start by replacing the distributor by lifting the cover of the latter (this is how you gain access to the “slider”). Place the slider in a position that can be easily adjusted during installation. It is desirable that the notch be on the block opposite the middle mark of the device scale.

  Use a “thirteen” wrench to tighten the fastening nut, and then dismantle the assembly. Now disconnect the central wire connecting the coil and the distributor. Mount the non-contact type sensor and adjust the slider taking into account the previously made mark. Align the distributor body along the notches. Replace the cover and return the wires to their place.

• Coil. In the next step, move on to the ignition coil. Take the eight key and twist the wires that are connected to the device. Now use the key to “ten” to push the assembly away from the car body.

  Install the new coil taking into account the position of contacts “B” and “K”.

  Fix the coil and connect the discarded and new wires to the contact group. Pay attention to the colors of the latter (as a rule, they are identical for the old and new devices). Connect the brown wire to terminal “K” and the blue wire to “B”. Now connect the center wire.

• Switch. Start by choosing a location for this node. In the "seven" the best point for installation is between the headlight on the left side and the washer. In this area there is a flat area on which the device is placed. To begin, lean the switch and mark the mounting locations. After this, screw in the screws. Do not rush to tighten the second fastener - place a black wire under it.

As soon as the described work is completed, check the quality of the connection of the wiring elements and start the engine. The next stage is installing the ignition of the VAZ-2107, which will be discussed below.

Priora, 2170-2173

The Lada Priora is equipped with the same ignition coils as the Kalina. The coil is marked 2112-3705010-12. Just as in the case of Kalina, Priora is equipped only with injection engines, so carburetor ignition coils or “bobbins” cannot be installed on the car.

To summarize, it is worth saying that when choosing an ignition coil for a car, it is necessary to take into account the marking of the part, its compatibility with a particular model of the domestic automobile industry. Despite the high interchangeability, attention is also paid to the overall dimensions of the part and the type of fastening in the engine compartment of the car. You can purchase coils or ignition modules for domestic “classics”, “Samara” and “Sputniks” in our online store with a few clicks of a computer mouse.

Ignition adjustment in static position:

1. Find a strobe light. If this is not the case, do the work by ear.
2. Loosen the nut holding the ignition coil.
3. Start the engine and warm it up.
4. Rotate the distributor housing left and right.
5. Command your assistant to watch the speed (they should be at 2000 rpm).
6. Listen to the engine noise. Try to catch the moments when there are “dips” or changes in rotation speed.
7. Achieve a situation where the engine runs smoothly and produces the highest speed. In this case, the work should be as rhythmic as possible.
8. Tighten the distributor nut and operate the car.

Setting the ignition timing of the VAZ-2107 in motion:

• Warm up the engine to a temperature of 80-95 degrees Celsius.
• Accelerate to a speed of 40-45 km/h, then move the gearbox selector to the fourth speed position.
• Step on the gas and listen to the engine. If the ignition is set correctly, detonation appears, and after a while the engine speed increases. If you hear a clear knocking of the valves, turn the distributor as the clock hand rotates by about 1-1.5 degrees.
• Perform the manipulations described above until the extraneous sound disappears completely.
• If the speed decreases sharply after pressing the gas, turn the distributor to the same angle, but in the opposite direction.

Remember that adjusting the advance angle may not be enough - often the carburetor itself needs to be adjusted. To do this, find a couple of screws. With one of them you regulate quality, and with the other you regulate quantity. Also clean the carburetor from time to time.

As can be seen from the described technique, setting up electronic ignition on the “seven” is not difficult. At the same time, you can count on serious savings, because at the service station this service will cost a considerable amount.

Electrical equipment VAZ-21074

• 1- block headlights;
• 2- side direction indicators;
• 3- rechargeable battery;
• 4- starter activation relay;
• 5- carburetor electro-pneumatic valve;
• 6- carburetor microswitch;
• 7- generator 37.3701;
• 8- gearmotors for headlight cleaners*;
• 9- fan motor activation sensor;
• 10- electric motor of the engine cooling system fan;
• 11- sound signals;
• 12- ignition distributor;
• 13- spark plugs;
• 14- starter VAZ-21074;
• 15- coolant temperature indicator sensor;
• 16- engine compartment lighting lamp;
• 17- low oil pressure indicator sensor;
• 18- low brake fluid level indicator sensor;
• 19- windshield wiper gearmotor;
• 20- carburetor electro-pneumatic valve control unit;
• 21- ignition coil;
• 22- electric motor of the headlight washer pump*;
• 23- electric motor of the windshield washer pump;
• 24- mounting block;
• 25- windshield wiper relay;
• 26- hazard warning and direction indicator relays;
• 27- brake light switch;
• 28- reversing light switch;
• 29- ignition relay;
• 30- ignition switch;
• 31- three-lever switch;
• 32- alarm switch;
• 33-plug socket for a portable lamp**;
• 34- heater fan switch;
• 35 - additional resistor of the heater electric motor;
• 36 - indicator lamp for turning on the heated rear window;
• 37 - indicator lamp for insufficient brake fluid level;
• 38 - signaling unit;
• 39- heater fan electric motor;
• 40 - glove box lighting lamp;
• 41 - lamp switch on the front door pillars;
• 42- switch for alarm lights of open front doors***;
• 43- alarm lights for open front doors***;
• 44- connecting block;
• 45- cigarette lighter;
• 46- watch VAZ-21074;
• 47- switch for instrument lighting lamps;
• 48- diode for checking the serviceability of the warning lamp for insufficient brake fluid level;
• 49 - fuel level indicator;
• 50 - fuel reserve indicator lamp;
• 51- speedometer;
• 52 - turn signal indicator lamp;
• 53- indicator lamp for closing the carburetor air damper;
• 54 - battery charging indicator lamp;
• 55- carburetor air damper closed warning switch;
• 56 - instrument cluster;
• 57- econometrician;
• 58- courtesy light switches on the rear door pillars;
• 59 - coolant temperature indicator;
• 60 - tachometer 21074;
• 61- parking brake indicator lamp;
• 62 - low oil pressure indicator lamp;
• 63- high beam indicator lamp;
• 64- indicator lamp for turning on external lighting;
• 65-voltmeter;
• 66- parking brake indicator switch;
• 67- switch for external lighting lamps;
• 68- rear window heating element switch with backlight;
• 69- switch for rear fog lights with on/off indicator*;
• 70 - fog light circuit fuse;
• 71- lampshade;
• 72 - rear lights VAZ 21074;
• 73 - level indicator and fuel reserve sensor;
• 74- pads for connecting to the rear window heating element*;
• 75 - license plate lights.

How to set the ignition on a VAZ 2107 with an injector?

The ignition system of the “Seven” with direct fuel injection operates under the control of an ECU that receives signals from the following sensors:

• crankshaft position;
• air flow;
• throttle position;
• lambda probe.

Multimeter for checking the ignition module

Based on the readings of these sensors, the controller itself determines the moment of spark formation, so the system is not configured in the usual sense. If any problems occur, the driver can only independently check the functionality of the ignition module, to which the high voltage wires from the cylinders are connected. To do this, you need to take a multimeter (ohmmeter) and perform the following steps:

1. Disconnect all wires from the module.
2. Set the maximum measurement value on the multimeter to 20 kOhm.
3. Measure the resistance between the following pairs of terminals: 1 and 4, 2 and 3.
4. If the measurement results fall outside the range of 3.6-4 kOhm, then the module is faulty and must be replaced.

The seven with an injector has an ignition module, which you can check yourself

Types of systems

For decades, while the VAZ 2107 model was produced (from 1982 to 2012), it was equipped with three types of ignition systems:

• mechanical with contacts - breakers;
• contactless;
• controlled by an electronic unit (ECU).

Contact ignition circuit installed in the first VAZ 2107 models

Note. The first 2 varieties were installed on the “seven” with a carburetor, the latter was introduced together with an injector.

In the mechanical version, the contacts opened by the cam of the distributor shaft break the low voltage circuit, initiating the formation of a powerful pulse in the secondary winding of the coil. This discharge is directed to the electrodes of the spark plug, which ignites the fuel in the cylinder where the piston has risen to top dead center (TDC) and the compression stroke is completed.

Scheme of non-contact ignition of the seven with a carburetor

The contactless circuit operates on the same principle, only the signal to break the circuit is supplied by the Hall sensor, and it is implemented by the switch. Therefore, setting the ignition on carburetor “sevens” is done almost identically. Another thing is cars with an injector, where a new system has been introduced that does not have not only contacts, but also a distributor and any moving parts. Here, the moment of spark formation is determined by the ECU controller, which is guided by the signals of various sensors.

Ignition system VAZ 2107 with injector

The principle of operation of the VAZ 2107 injection engine

The injection system's operating methods are fundamentally different from the operating principles of the carburetor system, in which the air-fuel mixture is prepared in the carburetor chamber. In the VAZ 2107 injection engine, the fuel mixture is injected directly into the cylinders. For this, it received the name “distributed injection system”.

Injection systems are characterized by their operating principle and the presence of different numbers of injectors. The “seven” is equipped with a separate injection system with 4 nozzles. That is, injection occurs in each cylinder, which is controlled by a microcontroller of the electronic engine control unit. Using special-purpose sensors, information about the operating mode, gas pedal position and other important parameters is read. Based on this, there is a controlled flow of fuel into the cylinders.

Photo of ECU VAZ 2107

Not only the quantitative proportionality of fuel and air entering the engine combustion chamber, but also control over the creation of a spark on the spark plugs depends on the electronic control unit (ECU).

Article: 2111-3705-03, additional articles: 2111-3705010-03, 2111-3705010

Order code: 115487

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The ignition system is one of the main control systems of the vehicle's power unit. It is designed for timely ignition of the fuel mixture.

Ignition of the fuel-air mixture in the combustion chamber of a gasoline engine is carried out using a spark that jumps between the electrodes of the spark plug. The electrical impulse required to produce a spark is created using a fairly simple device - an ignition coil. This component of the ignition system will be discussed in this article.

Today, in the next article in the series “Crystal VAZs or typical breakdowns of domestic cars,” we will talk about the latest developments of the Volzhsky Automobile Plant: Lada Grante and Lada Largus. Let's talk about the history of the creation of these models, as well as their characteristic malfunctions.

Disadvantages of injection models of the VAZ 2107 engine

Of course, as usual, in addition to the advantages of the injection “seven”, there are also negative aspects, which consist in the following situations:

• Problematic access to some components due to the location of the engine and other mechanisms under the hood in the same format as in older models. Although at the same time, the system providing fuel injection is reliable and does not require frequent maintenance during operation.

Photo of VAZ 2107 under the hood

• The injection VAZ 2107 is equipped with a catalyst, which is very easy to damage when driving on a bad road with large bumps and obstacles. In such cases, of course, you need to be careful when driving on problematic roads.

Photo of VAZ 2107 catalyst

• The presence of an injection engine increases the requirements for fuel quality, in contrast to the carburetor version. If you use low-quality gasoline, you cannot avoid clogging the fuel system. This leads to unplanned vehicle maintenance.

• If the injection system breaks down, it is not possible to repair it yourself in a garage. Here you only need to contact professionals at a specialized service station.

We check the ignition module on the injection VAZ-2110 8 valves with our own hands

At different times, different engines were installed on the VAZ-2110 car, both carburetor and injection. However, regardless of the type of power system and the number of valves (8 or 16), all engines are assembled on the unit base of the old engine 21083 and 21093. The most progressive of these engines is the 16-valve 1.6-liter VAZ 21124 engine with a power of 89 horsepower. Today we will touch on the ignition module for 8-valve engines 2111 and 21114 (1.6 l), check its performance and find a suitable replacement for the failed module.

What are the advantages of VAZ 2107 injection models?

• The VAZ 2107 injection engine consumes less fuel. At the same time, it is more powerful than a carburetor engine with the same volume. This is achieved through the optimal formation of the qualitative and quantitative composition of the fuel mixture. Accordingly, the efficiency of an injection engine is higher than that of a carburetor.

• Thanks to electronic speed control, the engine runs more reliably at idle, stalls less when starting, and starts well at low ambient temperatures.

• Compared to a carburetor engine, an injection engine does not require frequent adjustments to the ignition and fuel supply systems.

• The air-fuel mixture that enters the cylinders has the most favorable composition. And the existing catalyst controls the minimum amount of harmful exhaust gases. This plays a big role in preserving the environment and taking care of health.

• There is no need to manually adjust the mechanism, since this is done by the hydraulic chain tensioner and hydraulic valve clearance compensators. They also guarantee less noise (noise insulation) when the engine is running.

• Torque graphics are “smooth”, a larger rpm range allows high torque to be achieved.

WORTH NOTICE! On an engine with an injection system, it is possible to install gas-cylinder equipment not only of the 2nd, but also of the 4th generation. This is a more modern and attractive option, since the installation of the 4th generation of gas equipment provides greater savings and reduces the occurrence of “pops” in the engine to zero.

Diagnostics of malfunctions of the ignition module of injection VAZ 2107

The ignition of the injection VAZ 2107 is completely electronic and is considered quite reliable. However, problems can arise with it too. The module plays an important role in this.

Signs of a malfunctioning ignition module

Symptoms of a faulty module include:

• the Check engine warning light on the dashboard lights up;
• floating idle speed;
• engine tripping;
• dips and jerks during acceleration;
• change in sound and color of exhaust;
• increased fuel consumption.

However, these signs can also appear in case of other malfunctions - for example, in case of problems with the fuel system, as well as in case of failure of some sensors (oxygen, mass air flow, detonation, crankshaft position, etc.). If the engine starts to operate incorrectly, the electronic controller puts it into emergency mode, using all available resources. Therefore, when the engine operation changes, fuel consumption increases.

In such cases, you should first of all pay attention to the controller, read information from it and decipher the error code that has occurred. To do this, you will need a special electronic tester, available at almost any service station. If the ignition module fails, error codes in engine operation may be as follows:

• P 3000 - no sparking in the cylinders (for each cylinder the code may look like P 3001, P 3002, P 3003, P 3004);
• P 0351 - break in the winding or windings of the coil responsible for cylinders 1–4;
• P 0352 - a break in the winding or windings of the coil responsible for 2–3 cylinders.

At the same time, the controller can produce similar errors in the event of a malfunction (break, breakdown) of high-voltage wires and spark plugs. Therefore, before diagnosing the module, you should check the high voltage wires and spark plugs.

Main malfunctions of the ignition module

The main malfunctions of the VAZ 2107 ignition module include:

• a break or short to ground in the wiring coming from the controller;
• lack of contact in the connector;
• short circuit of the device windings to ground;
• break in the module windings.

Purpose and characteristics

Coil 2111-3705010 is intended for:

• formation of high-voltage pulses;
• distribution of signals between the spark plugs in accordance with the firing order of the cylinders.

Main technical parameters of the unit:

• operating voltage – 12 V;
• current in the primary circuit – 6.4 A;
• voltage in the secondary circuit – 28 kV;
• spark duration – at least 1.5 ms;
• discharge energy – 50 MJ.

Read, it may come in handy: How to replace the mass air flow sensor on the “seven”

Possible causes of failure

The weak point of the ignition coils and modules is the secondary winding, which generates a high voltage pulse. A coil break or breakdown may occur in it. The following factors lead to this phenomenon:

• use of low-quality or unsuitable candles;
• operation with non-functioning high voltage wires;
• frequent attempts to check the spark.

The high-voltage pulse arising in the secondary winding must be realized (spent). If this does not happen (if the integrity of a high voltage wire is broken, for example), a high-energy electrical pulse seeks an outlet. He will find it, with a high degree of probability, in the thin secondary winding.

Often, a module malfunction occurs when the integrity of poor-quality factory soldering of wires going to the switch elements is violated. This happens from vibration. Also, the cause of non-working coils can be a banal contact failure in the incoming connector. Another factor leading to a malfunction of the ignition unit is often moisture that gets on the device during washing or driving in unusual conditions.

Checking the ignition module

Checking the ignition module for functionality is carried out in the following ways:

Replacing the ignition module with a known good one

1. The easiest way is to connect a known working module. In this case, the devices must be completely identical, the high-voltage wires are in good condition, and the reliability of the contacts has been checked.

Checking the contacts on the ignition module

2. Moving the module, which allows you to identify unreliable contacts. To do this, move the wire block and the module itself. If during exposure the engine reacts by changing its operation, then the cause of the problem lies in poor contact.

Measuring resistance at the terminals of the ignition module

3. Resistance measurement. To do this, you will need a tester switched to ohmmeter mode. Measurements are carried out on the paired terminals of the module between cylinders 1 and 4, as well as cylinders 2 and 3. The resistance value should be the same and approach 5.4 kOhm.

Checking the ignition module using a tester

4. Check the voltage with a tester. One probe of the device is applied to contact A of the block, the second to ground. After turning on the ignition, take readings from the device. If the wire is in good condition, it will show a voltage of 12 V; if it is missing, check the fuse protecting the ignition module. Then check the continuity of the circuit with a 12 V test lamp. Apply one end of the wire to contact A and rotate the starter. If the lamp does not blink, the circuit is broken. The procedure is repeated in a similar way with other contacts.

Diagnostics of the ignition module with professional equipment

5. Diagnostics at a service station by connecting a computer with special software to the computer. Malfunctions are detected in the form of errors indicated by an alphanumeric code, after which a more in-depth diagnosis of the malfunction is carried out to make a decision - repair the ignition module or replace it. A similar check is carried out at a specialized service station using an oscilloscope.

Checking the ignition system elements

A broken high-voltage wire can be easily determined with an ohmmeter. The resistance should be between 3-10 kOhm. The spread of indicators between the wires should be no more than 1-2 kOhm.

You can check the operation of the candle visually. To do this, you need to unscrew the spark plug, apply it to ground and connect the high-voltage wire. If you start turning the starter, you should see a clearly visible spark between the electrodes on the spark plug. If it is missing or it breaks in a different place, the spark plug needs to be replaced.

Ignition module wiring checks

Procedure:

1. Disconnect the block with wires from the ignition module.
2. Turn on the ignition.
3. Using a multimeter in voltmeter mode, check the voltage between terminal 15 and the ground of the block with wires.

The voltage must be at least 12 V. If it is less or absent, the battery is dead or the ECU circuit is faulty.

Version of the module on the 8-valve VAZ-2110

Ignition module 2111-3705010 (Stary Oskol).

Ignition module 2112-3705010 for a one and a half liter engine.

The top ten was equipped with two 8-valve engines of different sizes - 1.5 (2111) and 1.6 liters (21114). The ignition modules for these engines are different.

1. The one and a half liter engine has a module with article number 2112-3705010,
2. and the 1600 cc engine is equipped with module 2111-3705010.

A module for a 1.5 liter engine costs about 1500-2100, and the second one is 500 rubles cheaper.

Removing the ignition module VAZ 2107

1. Remove the air filter housing.
2. Disconnect the negative terminal from the battery.
3. Remove the high-voltage wires from the ignition module cover.
4. Unscrew the three nuts securing the VAZ 2107 ignition module and disconnect it from the bracket.

Before dismantling the ignition module, you don’t have to bother remembering the location of the high-voltage wires. On the body of the device there are numbers indicating the numbers of the cylinders to which each of the terminals of the module should be connected.

Practical recommendations for working with the ignition module

The ignition module is one of those mechanisms in which it is quite difficult to determine the presence of malfunctions. They pay attention to it when serious deviations in the operation of the car are observed. If the VAZ 2107 engine does not start immediately, it is recommended to adjust the ignition, and if the engine is running unevenly, a proper check is required. The main thing here is not to forget that the ignition module of an injection engine is a system that, using coils, generates electrical energy to generate a spark and further start the vehicle.

Checking the ignition coil

The coil is checked based on two indicators: the presence of a short circuit and an open circuit. Before diagnostics, the ignition coil must be disconnected. After this, one probe of the device is connected to the central contact of the coil, the second to the body (ground). If the display shows resistance equal to infinity, there is no short circuit.

The primary winding of the coil for a break occurs differently. The probes of the device must be connected to the right and left contacts. The resistance between them should be within 3-3.5 Ohms.

If the resistance of the primary winding does not correspond to the norm or there is a short circuit in the coil to the housing, it must be replaced.

Checking the secondary windings of the module

First, disconnect the wire ends from it. If you have already done this, then place it exactly in front of you. Then install the device to the upper and lower right outputs and carefully monitor the indicators that the device will display in a second.

After this, we perform exactly the same actions with the upper and lower left exits. Naturally, the ohmmeter readings should change and ideally be at least 7 ohms.

If at least one coil does not meet the standards, then in order to avoid unforeseen situations with your VAZ 2107, we recommend replacing the entire module.

Repair

Ignition module VAZ 2107

The design of the ignition module is quite complex: it includes one or more coils, a board, contacts and wires. Of all the above elements, only contact connections can be repaired; in some cases, replacement of parts (transistors, coils) is possible.

The module is dismantled and opened for repair purposes. For this you will need:

1. Socket wrenches with heads 1, 13 and 17.
2. Hexagon 5.
3. Screwdriver.
4. Soldering iron.
5. Flux for aluminum.
6. Stranded wire.
7. Nail polish.

Opening the ignition module

Repair of the ignition module is carried out in the following order:

1. On the removed device, open the case by prying it off with a screwdriver.
2. Remove the silicone film covering the board.
3. All aluminum is removed from the explosive contacts.
4. On the board, new wires are soldered in place of all the dismantled old ones. To do this, the surface of the collector is cleaned of deposits, after which the board is heated to 180°C (a characteristic smell will indicate when the desired temperature has been reached). During the soldering process, the ends of the wires are connected to the module.
5. At the end of the operation, all contacts, the board and the module are covered with nail polish.
6. The device is assembled in the reverse order, installed on the car and the engine is started. In case of normal operation, the ignition module is sealed tightly with sealant, while the wires are tucked inside the cavity so that they are not pinched at the edges by the plate.

If the device does not work, then a breakdown inside the module should be looked for more carefully. The transistor, electronic component may have failed, or there may be a break in the coil. Such a repair makes sense only if its price is significantly lower than the cost of a new part.

Preparation stage

Diagnostics of how the ignition module and each individual coil operates is carried out using a special device called a multimeter or ohmmeter. Its functional task is to show the voltage value supplied by the ignition module. As a result of diagnostics, it is possible to identify the source of current loss in the circuit and, accordingly, the nature of the malfunction. To facilitate painstaking work, it is recommended to dismantle the module outward before starting the process.

Replacing the ignition module of a VAZ 2107

In case of malfunction, it is better to replace the ignition module with a new one. Repair is possible only if the breakdown is not a break or short circuit of the windings, but a visible violation of any connection. Since all the conductors in the module are aluminum, you will need special solder and flux, as well as certain knowledge from the field of electrical engineering. However, no one can guarantee that the device will work flawlessly. Therefore, it is better to buy a new product that costs about a thousand rubles and be sure that the problem with the ignition module has been solved.

Even an inexperienced car enthusiast can replace the module independently. The only tools you will need is a 5mm hex wrench. The work is performed in the following order:

1. Open the hood and disconnect the negative terminal from the battery.
2. Remove the air filter housing, find the ignition module and disconnect the high voltage wires and the wiring harness block from it.
3. Use a 5mm hex to unscrew the four screws securing the module to its bracket and remove the faulty module.
4. We install the new module and secure it with screws. We connect the high-voltage wires and the wire block.
5. We connect the terminal to the battery and start the engine. We look at the instrument panel and listen to the sound of the engine. If the Check engine light goes out and the engine runs stably, everything is done correctly.

Sources

• https://motorltd.ru/sposobyi-samostoyatelnoy-proverki-modulya-zazhiganiya/
• https://bumper.guru/klassicheskie-modeli-vaz/elektrooborudovanie/zazhiganie/zazhiganie-2107/modul-zazhiganiya-vaz-2107-inzhektor.html
• https://hitmind.ru/275-kak-vystavit-zazhiganie-na-vaz-2107-instruktsiya-po-ustanovke-na-karbyuratore-i-inzhektore.html
• https://sis26.ru/ustanovka-zazhiganija-vaz-2107-inzhektor/
• https://mashinapro.ru/1470-zajiganie-vaz2107.html
• https://vazweb.ru/desyatka/elektrooborudovanie/instruktsiya-po-nastroyke-sistemyi-zazhiganiya-vaz-2107-svoimi-rukami.html
• https://VazNeTaz.ru/publ/stati_o_vaz_2101_2115/inzhektornyj-dvigatel-vaz-2107.html
• https://voditelauto.ru/kak-proverit-modul-zagiganiya/
• https://ladafakt.ru/kak-proverit-modul-zazhiganiya-vaz-2107-inzhektor.html
• https://kalina-2.ru/remont-vaz/porjadok-zazhiganija-vaz-2107-inzhektor