Chip tuning car includes adjustments that enhance the execution, the care of, and presentation of a vehicle. Tuning is an approach to customize a car and is a side interest for some. The territories of adjustment incorporate sound, inside, motor, suspension, and body. Every one of these ranges makes an interminable number of particular auto adjustments and can incorporate expanding efficiency, enhancing taking care of, or changing the outside.
Now therefore the step to be performed is to purge the old data and reset your ECU. Doing this allows it to adapt itself to new parts and efficiently perform post modification also. To reset the ECU you simply have to unplug the negative battery cable connection. Theoretically it is best to leave it in this disconnected condition for as long as you can. Practically leaving it disconnected overnight is more than enough. After having left the cable disconnected for sufficient time you have to connect back the cable. Start the car and keep it running so that it warms up. This would not take more than 10 minutes at the most in summers. Once you have done this you have accomplished the ECU resetting. Shut off the engine.
Tuning box advices? The days of fiddling around in the engine bay with a spanner to make the car go faster are numbered. Modern engine computers (ECU’s) have taken over many of the controls of all aspects of engine management from timing to fuelling and more. This actually means you get better power, a cleaner burn and more reliable engine but it does not mean the end of tuning as this program or map can be easily upgraded in most cars. See our article on remapping the ecu for more information about how the engine management maps work. Chip tuning is a term used very loosely to describe any process of remapping the cars engine. Discover additional info at Chiptuning Iveco.
How do we change the parameters in the software? We work with leading-edge and efficient programs for the mapping and changing of the engine software. These programs allow us to detect all necessary parameters and change them accordingly. The knowledge and experience in handling this technical issue play a decisive part here. As mentioned above, we leave the component protection of the engine and the peripherals, e.g. the turbocharger, activated. You can see how the map of the boost looks like here. By changing the duty cycle, we can increase or lower the boost. Even very small changes can have a big impact, so special caution is absolutely necessary here! If the boost is too high, the turbocharger might speed excessively and disintegrate into pieces. It is awfully important to know which bolt to turn in order to get the desired result.
Ease of Installation: Unlike performance parts, engine chip tuning is done with a single chip. This means that a mechanic can provide the service to you very easily and quickly, with very little manual labor. Not only does this result in a quicker installation time, it can help save you money on the installation process itself. Cons: Engine Stress: Because it removes the limits that the manufacturer has placed on the engine, tuning your engine chip can result in a greater amount of stress on the engine. Over time, this can lead to greater amounts of wear and tear and increases the risk of something becoming damaged within the engine, which can be extremely expensive to replace. Additionally, even if the engine does not become damaged, increased horsepower and greater engine stress also places greater stress on other parts of your vehicle, such as the air filter or coolant system, which can result in a greater amount of maintenance.
OEM clutch – for VW 2.0TDi 103kW engine – is designed for 400Nm torque. VW Q02 six-speed gearbox is rated for max. 500Nm. Factory engine calibration data allow 320Nm @ 1800-2500rpm. Bad standard remap can easily go over 400Nm right from 1800rpm. What do you think happen to OEM dual-mass clutch? It reminds me few years ago…we replaced friend’s clutch after one bad ECU remap combined with bad driver mentioned earlier. All piston heads love motorsport…we all watched Walter Roehrl, Ari Vatanen, Stig Blomqvist, Juha Kankunnen, Colin McRae, Ayrton Senna or Schumi…did you also noticed they never used low revs, rarely used mid range revs and most of time spent in high revs where optimal power and torque is. One wonders why so many drivers try to push it hard in low revs and chiptuners support this stupidity. Power = Torque x RPM. More engine revs less torque you need. Why do you need 96HP@380Nm@1800rpm if you can have 170HP@3500rpm where is the optimal place to shift gears. See more info on Chip de Potencia Mercedes.