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After the introduction of the Euro system standards in the European Union, all manufacturers have undertaken to establish optional equipment to control and reduce the level of toxic waste. Gasoline units were equipped with standard catalysts and oxygen sensors, diesel motors particulate filters. The system has repeatedly proven its efficiency and effectiveness. Of course, for this, a number of conditions must be met, including the consumption of high-quality fuel.

After purchasing a car and its further operation on the territory of the CIS leads to premature failure of sections of the exhaust system and catalytic filler. The main reason is the low quality fuel used in the car. Moreover, this does not happen with a one-time use, but only on an ongoing basis. The increase in malfunctions leads to frequent visits to the service station to carry out repairs. Of course, all of these services are far from free. In order to save money, reduce the cost of maintenance of a technical facility, an effective solution has been found - an emulator of a lambda probe.

What is a lambda probe emulator?

The lambda probe emulator is a third-party equipment that is installed on a technical device in order to change the indicators of the toxicity level of the gas stream.

There are only two options for trickery:

  1. Metal spacer for lambda probe: is a threaded connection at both opposite ends of the product. Moreover, on the one hand, it is internal, on the other, external. Accordingly, for screwing onto the intake pipe and fitting the oxygen sensor into a metal case.
  2. Electronic emulator: installed near the location of the electronic motor control unit. Efficiency is ensured due to power supply from the ECU through electrical wiring.

Despite the fact that both products have different structures, technical characteristics, each of them is installed on the exhaust system of the car to "bring" the readings in accordance with the norms of the Euro standard.

Emulator 2 lambda probe and its characteristics

After removing the standard catalyst from the exhaust system of the car, its absence needs to be filled with something, since the system has data on its presence. The diagnostic second oxygen sensor will transmit incorrect composition data to the ECU exhaust gases... There is one condition - the car must have two lambda probes (upper and lower). They are often called monitoring and diagnostic. The performance of the entire system depends on the readings of the second (lower) sensor.

An electronic emulator consists of a microprocessor, a number of transistors, resistors, and other parts. Firmware is embedded inside the processor with data on toxicity level, fuel consumption and other characteristics. The product is not afraid of critical temperatures. Its working range is from -40 ° С to + 105 ° С. The duration of operation is virtually unlimited, provided the second oxygen sensor is used properly and is actually operational.

Electronic snag is installed on:

  • cars from 2007 to 2012 of Euro standard - 4 and 5;
  • auto from 1998 to 2007 of Euro - 3 standard;
  • absolutely all Lexus, Toyota models;
  • German and Korean concerns Mercedes, Hyundai, Suzuki;
  • all BMW, Audi models of Euro 4 and 5 standards.

In all other cases, a metal spacer is installed. From the list it follows that electronic emulator almost universal tool for every transport mechanism.

How to install the emulator of the second lambda probe?

NOTE TO THE DRIVER: The emulator of the second lambda umbrella is recommended to be installed in the service station with the assistance of specialists. The mechanisms are so complex that sometimes experienced workers cannot always correctly diagnose a breakdown the first time. Third-party intervention from handicraftsmen will not give the desired positive result. There is a high probability of rendering the mechanism unusable. Craftsmen often have to eliminate the consequences of unprofessionalism.

Before starting work, you need to clearly know the structure and location of each unit in exhaust system... Make sure that there are two oxygen sensors in the structure, both of them are in good working order. An important point: the location of the diagnostic connector in the car. It is found in each brand differently. European brands install it under the steering column, Japanese brands between the seats, under the central torpedo on the passenger side. There are models with mounting under the rear row of seats. You need to know this, since electrical wiring will be connected to the contact socket for powering the blende current.

Installation work can be carried out without lifting the machine with an electric lift, the engine compartment and the passenger compartment are enough. Depending on the modification and technical characteristics equipment, the connection may not always work the first time. The main wires on the wiring of the second lambda probe: red, black or blue, white. The connection takes place by means of a conventional insert followed by soldering of the contacts.

You can check the performance of the equipment by looking at dashboard, namely the readings of the voltmeter. In the process of working on idle the data should be 0.6 Volts, this is the average. Each brand may have a minor branch. With a sharp press on the pedal, the data increases to 0.75 V, with a cut-off - 0.15 V. If you see a discrepancy, then the problem is in the connection itself or the sensor is working properly.

Do not forget that the ratio of the mixture: enriched or depleted depends on the performance of the second emulator. Because modern motors are adjusted to the lean mixture, the emulator also adjusts the ratio.

Signs of a malfunction of the oxygen sensor and its emulator


Other modification of electronic emulators

  1. SK-02: if the first zirconia lambda probe is installed. As practice shows, these are mostly vehicles produced in 2003-2004, with the exception of some models Ssang yong, Honda.
  2. SK-02a: modified version with additional adjustment for cars during the production period from 2005 to 2007.
  3. SK-06: the rest of the Vehicle not included in the above list.
  4. SK-05: purely diesel option with Euro standards of the third generation, not lower.

In order to properly carry out the installation and adjustment work, it is necessary to fully make sure that there are two oxygen sensors on the exhaust system of the car. Otherwise, nothing will work with one lambda probe.

This device represents lambda probe emulator for cars with injection engine and installed gas equipment... Using this device will avoid an increase in fuel consumption when switching to petrol. This overrun is due to the fact that when operating on gas, the circuit for automatic regulation of the amount of injected fuel (ie, gasoline) becomes open and the Electronic Control Unit (ECU) of the engine, without receiving a signal from the lambda probe, switches to the "emergency" operation mode, at the same time the light comes on " Check Engine". If at this moment switch the equipment to gasoline, then emergency mode work will be saved in the memory of the ECU and the consumption of gasoline will increase. To prevent this from happening, during operation on gas, the operation of the lambda probe should be emulated.
The proposed emulator signals the quality of the mixture with three LEDs and does not affect the mixture itself in any way, since its consumption is determined by the settings of the LPG equipment. And when switching back to petrol, it will allow your car to avoid increased consumption fuel.

LED indication displays the state of the fuel-air mixture:
Green- Poor mixture;
Yellow- Optimal mix;
Red- Rich mix.

Specifications:
Supply voltage: 12V;
Consumption current: 20 mA;
Output signal: 1 V.

Scheme, appearance and emulator pcb

The Emulator contacts are connected to the wire break from the Lambda probe to the engine ECU as follows:
Pin 1 - To fuel switch;
Contact 2 - To the car body;
Contact 3 - To the injector control unit;
Contact 4 - To the Lambda probe.

Note: This unit can be purchased as a kit (PCB and parts kit)

Quite a frequent occurrence for owners of cars with LPG installed is the "Check Engine" button that lights up, about what this inscription means and why this is happening, we figured out in detail. Today, the topic of our article will be to consider a solution to one of the most common problems that can cause the inscription "Check Engine" - a failure of the lambda. The cheapest and most common solution to this problem is to install a lambda probe emulator. What is a lambda emulator and how does the "snag" help the owner of a car with LPG?

What is a lambda probe

To understand why to use a lambda blende (catalyst emulator), you must first understand the principle of operation of the probe itself. Often, modern car owners do not realize how “smart” (computerized) their cars have become. This process went gradually, from subsystem to subsystem - for example, the lambda probe appeared in serial cars in the last century. In fact, lambda is such a specialized sensor for measuring oxygen, which allows you to determine its residual amount in the exhaust of a car engine.

Based on the signal from this sensor, modern electronic vehicle control units (ECUs) decide how “lean” or “rich” (supersaturated with oxygen or fuel) the air-fuel mixture entering the internal combustion engine cylinders is. Factory configured with modern power units manufacturers usually focus on the so-called "stoichiometric" ratio of air to fuel:

  • for gasoline ~ 14.7: 1,
  • for liquefied gas ~ 15.4-15.6: 1,
  • for methane ~ 17.2: 1

This value ensures the most complete combustion and the minimum content of associated harmful gases in the exhaust.

When using LPG, the problem is that the car already runs on a different fuel, and for its most complete and efficient combustion, a different ratio of components (gas and air) in the fuel-air mixture is required.

Thus, when installing gas equipment, not only the fuel on which the car moves, but also the oxygen content in the exhaust changes.

Of course, most HBO installers do not bother with setting up the car's ECU, informing him about the installed HBO. After several tens of kilometers, the lambda probe, responding to a change in the amount of oxygen in the exhaust, gives a signal about a malfunction, which does not know anything about the electronic control unit of the car installed by the LPG. And that, in turn, to the car owner, through the "Check Engine" indicator on the dashboard.

What is a lambda emulator for?

An emulator is a system or device designed to copy (or emulate) the functions of one system to another. Moreover the emulated behavior should be as close as possible to the behavior of the original device.

Thus, the electronic emulator of the lambda probe intercepts and corrects the existing signal from the original oxygen sensor in such a way that the ECU injection engine did not give an error when the car was running on gas. Usually, a lambda probe emulator is installed on a car either immediately during the installation of LPG, or a little later, after an engine error has been detected.

Emulators "good" and "bad"

It is important to understand that there are both simple emulators of lambda probe trickery and quite complex systems that adjust the readings of a standard oxygen sensor. The task of the first, most simple lambda trickery, is to prevent the appearance of the inscription "Check Engine" on the indicator, and to create the appearance of the correct operation of the system. But more advanced representatives of lambda emulators are designed to intercept the signal of the original sensor, correct it, and transmit the already corrected signal to the standard ECU, thereby improving the operation of the entire car.

Of course, the lambda probe blende is made from some general considerations, so that the engine operating modes are more or less close to optimal. But a "good" emulator does this based on the real signal from the sensor, adjusting it in the right direction, according to the algorithms programmed in the emulator. It also takes into account the specifics of the original sensor used and the manufacturer.

Installing the lambda emulator

Installation and connection of the lambda probe emulator is done in the engine compartment of the car, in places that are protected from high temperatures and moisture ingress. In addition, this place should at the same time ensure the ease of subsequent access to the device, because the operation of the device will need to be monitored, and if necessary, then adjustments. Typically, manufacturers / installers use the following connection color scheme:

  • the blue conductor is connected to a gas / petrol switch or a relay (+ 12v must be supplied to the wire when the car is running on gas);
  • the white conductor is connected to the vehicle ECU;
  • blue and white conductor connects directly to the lambda probe;
  • black conductor is connected to ground;

I am collecting questions about installing a lambda probe emulator, answering them along the way 🙂

  1. Lambda probe emulator. The location of the components on the board.

In order to avoid brainstorming, loss of time and errors in wiring the circuit, I give an image on which all the components are signed, the polarity is indicated (when it is required) and the values ​​of the components of the lambda emulator are indicated.

It is in this form that the board will appear in front of you after etching. Naturally, this is a rear view, from the side of the tracks, keep this in mind, because the components on this side will be soldered, and on front side to be 🙂

2. What lambda should I choose to install it with a lambda probe emulator?

It's up to you to choose on this topic. You need a zirconium one, that is, one that is in any auto parts store. On the specialized forums of each machine, there are whole topics with an answer to this question. But I will write a few numbers later, these are the lambdas that people have and work in conjunction with the lambda probe trick.

3. How to properly install lambda snag?

At the time of this writing, there are two connection instruction images. The first is a photo of an unknown author, the second is mine) I am attaching.

Lambda probe emulator. Connection diagram.

Looking ahead, I'll say, the idea arose to record a video with the installation process of the emulator and comments. So far I do not promise anything on the timing, but I really hope that the video will be recorded with the arrival of the summer heat) We are waiting, monitoring)

By the way, the above scheme will be supplemented well, just the other day ...

4. Cars on which it is possible to install a lambda probe emulator.

At this point, there will be a supplemented list. Supplemented by feedback, it means slow) You can always help if your car is not on the list.

How to determine the lambda on the car? Get into the car with any pribluda, "sniffing" lambda and see the numbers or lambda graphs. Titanium lambda ranges from 0 to 5 volts, zirconium from 0 to 1 volts.

  • Jeep Cherokee XJ. 1987-1991 years of release (onwards)
  • Opel Vectra. ???? - ???? G.V.
  • Hyundai V6 - ?????

The most important thing is feedback! If you have questions, write them in the comments, in the feedback form, on Drive, I will supplement the article for future readers)

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