Chip Tuning Skoda
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.
However if you are going to change the operating conditions on medium or long-term basis then you should reset your ECU. One such instance could be when you think of boosting octane. Resetting the ECU when you choose to boost Octane becomes necessary because your ECU has a memory bank for octane. This means that if you’ve been using lower octane, the response of ECU will correspond to lower octane with the booster matching lower octane performance.
Chip tuning or remapping tips? Generally speaking any car will see a benefit but the larger gains are from turbocharged applications. In a NASP (Naturally Aspirated) engine power gains are around 10-20%, but in a turbo engine the power gains are typically around 40% for a petrol and 30% for a turbo diesel. Even a car getting a relatively low power gain from a remap will actually be more lively to drive. The peak power gain figure is only a very small part of the equation. The engines response under acceleration and its torque curve are the primary reasons for getting into chip tuning. Find extra details on Chiptuning Audi.
With chip tuning, we change the parameters of the engine control in order to achieve extra performance from the engine. We optimize the special maps, e.g. the boost map, the ignition map or the fuel map. What is of great importance here is that we leave the safety functions of the engine control switched on. With us, this component protection is fully functional – something you unfortunately cannot say of many “tuning boxes” or amateur tuners. When the component protection is deactivated, severe engine damage can be the consequence.
Manufacturers generally sell one vehicle that covers various markets, with different tax and emissions regulations; different climates with extremes of heat, cold, humidity; different fuel quantities; different operating altitudes, etc. A manufacturer has to take all of these factors into consideration and make substantial compromises in the vehicles operation. Sales and marketing also have a big affect on the way an engine is mapped. If you look the in manufacturer brochure at the engine specs, the torque graph will rise, then flatten out on a straight line, and then drop off. This obviously isn’t how an engine breathes, and it’s the request of sales and marketing to produce this flat lining of the torque.
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 extra details at Chip Tuning Nissan.