Promotion! When ordering a service for replacing a catalyst with a turnkey flame arrester, a discount on an electronic snag of a lambda probe is 50%.
Electronic blende of the AIS catalyst - buy directly from the manufacturer!
DISTINCTIVE FEATURES OF OUR DEVICE
- small sizes (1 by 2 cm)
- reliable design solution with a minimum of elements (high fault tolerance)
- factory version
- 100% compatibility with all types of ECUs for gasoline engines (each manufacturer has its own version (in the same package) taking into account the software and hardware features of the central control unit)
- support Euro 3, 4, 5, 6
- no intervention in the software part of the computer
ADVANTAGES OF WORKING WITH OUR DEVICE
- 2 versions: for indoor and outdoor installation
- complete kit for quick installation: wiring, emulator, protective cover
- free technical support directly from the developer (help, etc.)
- Warranty - 1 year
ADDITIONAL INFORMATION
The AIS emulator is an electronic device based on the PIC12F629 microcontroller, which works according to a certain algorithm, simulating the correct signal for the ECU. Mechanical "tricks" that are offered in most workshops have a slightly lower cost, but they only work on machines of the past and beginning of this century. On more modern ones, this “whistle” will not work! And even if the Check Engine malfunction lamp does not light up, this does not mean at all that the engine management system is working correctly. Most likely, it will work in emergency mode, warming up the missing converter with exhaust gases due to more fuel and reducing the driving performance of the car. This threatens with increased consumption of gasoline and other disorders. The emulator developed by us works correctly on all modern cars (including the latest ones). It is installed in the gap of the oxygen sensor, or connected to the corresponding wires in the car's wiring.
In this form they come from the factory. In this form, it is sent to you (without a lighter). Complete kit - all that remains is to connect the wires.
QUICK REFERENCE
The 2nd lambda probe after the catalyst, on cars manufactured from 1998, means that your car complies with the Euro-3 and higher environmental program and makes it impossible to drive without a catalyst or replace it with a flame arrester. It requires reprogramming to Euro-2 or installation of a controller (of our own production, designed and developed by our employees, with intelligible technical support in which case) and a sensor that corrects information. In this case, the ECU will be sure that there is a catalyst that performs all its functions properly.
An electronic lambda probe trick + a flame arrester that works as quietly as a regular one is the best solution to the problem with your car's catalysts today.
You can buy an electronic snag of a lambda probe separately and install it on your car yourself, or you can do the whole range of work using the action (the essence of which is indicated at the top of the page) with us.
I collect questions about installing a lambda probe emulator in a piggy bank, answering them along the way 🙂
Lambda probe emulator. Location of 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 components are signed, the polarity is indicated (when it is required) and the values \u200b\u200bof the components of the lambda emulator are indicated.
It is in this form that the board will appear before you after etching. Naturally, this is a rear view, from the side of the tracks, keep this in mind, because. components on this side will be soldered, and on the front side they will be :)
2. Which lambda should I choose to install it with the lambda probe emulator?
This topic is up to you to choose. You need zirconium, i.e., the one that is in any auto parts store. On the specialized forums of each machine, there are entire topics with the 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 blende.
3. How to install lambda snag correctly?
At the time of writing this article, there were two image-instructions for connection. The first is a photo of an unknown author, the second is mine) I enclose.
Lambda probe emulator. Connection diagram.
Looking ahead, I’ll say, the idea arose to record a video with the emulator installation process and comments. So far, I do not promise anything in terms of timing, but I really hope that the video will be recorded with the arrival of summer heat) We are waiting, we are monitoring)
Yes, by the way, the scheme above will be supplemented well, just one of these days ...
4. Cars that can be equipped with a lambda probe emulator.
At this point there will be an updated list. Supplemented with feedback 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 stray, "sniffing" the lambda and see the numbers or graphs of the lambda. Titanium lambda ranges from 0 to 5 volts, zirconium from 0 to 1 volt.
- Jeep Cherokee XJ. 1987-1991 years of release (year of production)
- Opel Vectra. ????-???? year of age
- Hyundai V6 - ?????
The most important thing is feedback! If you have any questions, write them in the comments, in the feedback form, on the Drive, I will supplement the article for future readers)
Catalyst removal is a topic of concern to many car owners, often instead of catalytic converters, car owners install flame arresters, stingers ("spiders"), this solution allows you to avoid buying expensive parts, spend less time repairing the exhaust system. But on machines with two oxygen sensors, the physical exclusion of the catalytic element does not give the desired results, and in order to get rid of errors in the engine control system, an electronic lambda probe snag is often used.
In this article, we will look at how you can deceive the control unit, which methods are most effective. It should be noted right away that not all methods are suitable for a specific car model; each car must be approached individually.
Mechanical snag lambda probe
Any automotive catalyst is a muffler jar with metal or ceramic honeycombs located in it, coated with a precious metal (gold, platinum, etc.). Due to the oxidation reaction, exhaust gases passing through such a device are cleaned of harmful impurities, and the level of exhaust toxicity is reduced.
The catalytic converter (KN) operates at high temperatures, so its resource is relatively small. The service life of the part is further reduced when using low-quality fuel - the honeycombs are clogged with soot resulting from incomplete combustion of the fuel mixture. Buying a new KN is quite expensive, and since it has to be changed quite often, many car owners are trying to get rid of this element of the exhaust system by installing a flame arrester or stinger.
The simple removal of KH has a side effect: on cars with Euro-4 and higher engines, an oxygen sensor installed behind the catalyst detects an excess of exhaust toxicity, as a result, the Check Engine lamp lights up on the instrument panel. There are three ways to get rid of the error:
- install an additional mechanical spacer;
- make changes to the electrical circuit of the oxygen sensor;
- reprogram the engine control unit.
A mechanical snag is a metal sleeve of a certain length, with a small diameter hole inside. Also in the inside of this device is a ceramic chip with a catalytic coating. In fact, the sleeve is a mini-catalyst, but only those exhaust gases that enter the oxygen sensor are cleaned here. It should be noted that there are also simple snags, made in the form of an ordinary sleeve with a hole, inside of which there are no elements. Any turner can make an elementary spacer, in this case it is not necessary to buy a factory product. The advantages of such devices:
- inexpensive price (on average from 400 to 1000 rubles);
- ease of installation;
- reliable and simple design.
However, the mechanical snag also has its drawbacks - it is not possible to install the device on some car models (there is not enough space due to design features), the device does not always give the desired effect (the error does not completely disappear). It should also be noted that on machines with Euro-5 engines, the electronic system cannot be deceived with the help of an additional spacer, the Check Engine still continues to light up here.
Do-it-yourself electronic "fraudulent" scheme
The electronic snag of the oxygen sensor is a circuit included in the electrical circuit of the ECM. By installing additional components, the signal supplied to the control unit is corrected, and the ECU receives such data from the sensor, as if a catalyst was installed on the machine, and there are no changes in the exhaust system.
Usually, four-pin lambda probes with an electric heater are upgraded with their own hands, the heating element is necessary to warm up the oxygen sensor on a cold engine - the thing is that the catalyst starts working only after the exhaust system is heated to at least 360 degrees Celsius. The heating of the oxygen sensor is powered by the ECU (control unit), while the polarity of the wires does not matter (usually white wires are connected to the heater).
In the electronic blende, the electric heater is not subject to modernization, all changes relate only to the signal contact. In the simplest circuit, there are two main components - a high-resistance resistor and a capacitor with a capacity of about 1 microfarad, and it usually looks like this:
- the resistor is included in the break of the signal wire;
- a capacitor is installed between the ground connector and the signal.
The capacitance of the capacitor and the resistance of the resistor can be different, their value depends to a large extent on the model of the car and the type of engine installed.
How to make an electronic snag on an Opel Zafira car
A deceptive circuit on an Opel Zafira car is compiled according to the same principle as described above; to install a snag, you will need a non-polar capacitor of 1 μF and a resistance of 1 mΩ 0.5 W. We perform the installation of a simple device in the following order:
Before starting the test, it is necessary to reset all ECU errors. It should be noted that the installation of a blende does not always give positive results, in some cases the error may reappear. The most reliable way is to reprogram the control unit, but here it is important to find the correct firmware version.
Oxygen sensor emulator
The lambda probe simulator is effectively used on cars with a remote catalyst or on cars with gas-balloon equipment installed, the device is connected to the engine control circuit, and emulates the operation of a real lambda probe quite reliably. Ready-made factory emulators can be found in retail, the basis of the simulator circuit is an electronic timer, in the role of which the popular NE555 chip is most often used.
Basically, industrial emulators are installed after the car is switched to gas - after the installation of gas-balloon equipment (LPG), the composition of the fuel mixture changes, so the lambda probe detects an increased content of toxic substances in the exhaust gases, an error appears. Let's consider how to install the Zond-4 model oxygen sensor simulator on a car with LPG.
Probe-4 is equipped with a three-color LED indicator that indicates the state of the fuel mixture (lean or rich). The glow of the indicator means:
- green color - poor mixture;
- yellow glow - fuel / air ratio is normal;
- red indication - the mixture is over-enriched.
The emulator is mounted in the engine compartment, connected to the electrical circuit of the car using four wires. Using Zond-4 is very simple, we connect the wires like this:
After connecting, you should check the operation of Zond-4: on gasoline, the indicator should not light up, when working on gas, it should glow green, yellow or red.
Scheme for deceiving a lambda probe with a diode
It is possible to deceive the second oxygen sensor on a car in another way, only in this circuit, instead of a resistor, you need to install a diode, for example, brand 1N4148. The trick here is done as follows (using the example of a Mazda 323 car with a 2.0 L gasoline engine):
- cut the signal wiring (on Mazda it is black);
- we connect the anode of the diode to the lambda probe;
- the other signal output going to the control unit is connected to the cathode;
- we also connect one of the terminals of a non-polar capacitor with a capacity of 4.7 microfarads to the cathode;
- we connect the second capacitor tap to the ground wire (on Mazda it is gray), of course, we solder all the wires.
Such a scheme allows you to effectively get rid of errors in the oxygen sensor circuit, but you need to keep in mind that the lambda probe itself must be serviceable.
Quick Oxygen Sensor Performance Check
Many car owners have repeatedly confirmed that the electronic snag works fine only if the lambda probes on the car are working. It is quite simple to quickly check the performance of the sensors; for diagnostics, you only need a multimeter. We check in the following order:
But it is worth noting that such a check does not give an idea of \u200b\u200b100% serviceability of the sensor, it only confirms that the lambda probe is in working order.
A fairly common occurrence for car owners with HBO installed is the “Check Engine” button that lights up, we figured out in detail what this inscription means and why this happens. Today, the topic of our article will be a consideration of a solution to one of the most common problems that can cause the “Check Engine” inscription - lambda failure. 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 "trick" help the owner of a car with LPG?
What is a lambda probe
To understand why using a lambda snag (catalyst emulator), you must first understand the principle of operation of the probe itself. Often, today's car owners are not aware of the fact how "smart" (computerized) their cars have become. This process proceeded gradually, from subsystem to subsystem - for example, the lambda probe appeared in mass-produced machines back in the last century. In fact, lambda is such a specialized oxygen measurement sensor that allows you to determine its residual amount in the exhaust of a car engine.
Based on the signal from this sensor, modern car electronic control units (ECUs) decide how “poor” or “rich” (supersaturated with oxygen or fuel) the air-fuel mixture entering the internal combustion engine cylinders is. At the factory setting of modern power units, manufacturers usually focus on the so-called "stoichiometric" ratio of air and fuel:
- for petrol ~14.7:1,
- for liquefied gas ~15.4-15.6:1,
- for methane ~17.2:1
This value provides the most complete combustion and the minimum content of associated harmful gases in the exhaust.
When using HBO, the problem lies in the fact that the car is already running on a different fuel, and for its most complete and efficient combustion, a different ratio of components (gas and air) in the air-fuel mixture is required.
Thus, when installing gas-balloon 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 setting up the car's ECU, informing it about the installed HBO. After several tens of kilometers, the lambda probe, reacting to a change in the amount of oxygen in the exhaust, gives a signal about a malfunction that does not know anything about the installed HBO electronic control unit of the car. And he, in turn, to the car owner, through the “Check Engine” indicator that lights up on the instrument panel.
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. And emulated behavior should be as close as possible to the behavior of the original device.
Thus, the lambda probe electronic emulator intercepts and corrects the existing signal from the original oxygen sensor so that the injection engine ECU does not give errors when the vehicle is running on gas. Usually, the lambda probe emulator is installed on the car either immediately during the installation of HBO, or a little later, after an engine error is detected.
Emulators "good" and "bad"
It is important to understand that there are both simple lambda probe emulators and quite complex systems that correct the readings of a standard oxygen sensor. The task of the first, most simple tricks of the lambda 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 snag of the lambda probe 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, correcting it in the right direction, according to the algorithms programmed in the emulator. Also, the specifics of the original sensor used and the manufacturer are taken into account.
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. In addition, this place should simultaneously provide ease of subsequent access to the device, because the operation of the device will need to be monitored, and if necessary, then adjustments should be made. Typically, manufacturers/installers adhere to the following connection color scheme:
- the blue conductor is connected to the gas / gasoline switch or relay (+ 12v must be supplied to the wire when the car is running on gas);
- the white conductor is connected to the car's ECU;
- the blue-white conductor is connected directly to the lambda probe;
- the black conductor is connected to ground;
This device is 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 gasoline. Such an overrun is due to the fact that when working on gas, the auto-regulation circuit for the amount of injected fuel (i.e. 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, the "Check Engine" light comes on. If at this moment the equipment is switched to gasoline, then the emergency operation mode will be stored in the ECU memory and gasoline consumption will increase. To prevent this from happening, while working on gas, the operation of a 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 gas equipment. And when switching back to gasoline, it will allow your car to avoid increased fuel consumption.
LED indication displays the state of the fuel-air mixture:
Green- Lean mixture;
Yellow- Optimal mixture;
Red- Rich blend.
Characteristics:
Supply voltage: 12 V;
Consumption current: 20 mA;
Output signal: 1V.
Scheme, appearance and printed circuit board of the emulator
The Emulator contacts are connected to a 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;
Pin 4 - To Lambda probe.
Note: This device can be purchased as a kit (PCB and parts kit)
