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Diesel chip tuning 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.

The moment you have carried out the modification you should purge out existing data in your ECU’s memory. You should then feed in fresh data pertaining to the conditions that have come into existence post modification. The ECU has to operate on the newly acquired data as this new data reflects the true conditions post modification. You should be well versed with the vital art of resetting the ECU of your car. You have to let your ECU adapt itself to the new situation arising out of the modification. Allow your ECU to relearn and perform. See extra info on rimappatura centralina.

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.

Chip tuning: That is how it reduces fuel consumption ! Again, you must first understand how the manufacturers of engines plan and proceed: Legally defined driving cycles determine the fuel consumption. But the real fuel consumption depends on many factors – among other things, on the injection quantity stored in the map of the engine control unit. When a new engine is being designed, the manufacturers create the injection map on a roller chassis dynamometer, i.e. with a vehicle on the roller. In this process, quite unrealistic conditions are simulated, e.g. extremely small and thin tires, to keep the rolling resistance as low as possible. Unfortunately, these conditions have no basis in reality, and that is exactly where the potential for savings lies in the mapping at real conditions. On our MAHA roller dynamometer, we can simulate a very real environment and thus tune the engine optimally. We see exactly the operating mode in which the engine consumes more fuel than is actually necessary. In the medium term, this can even save cash! This type of tuning pays off for companies that have a sizable fleet, e.g. of company cars. With our optimization under real test conditions, costs can amortize within a short time. Money is saved, and it’s good for the environment as well!

The cost of tuning your auto with chip tuning files will be influenced by various components. These incorporate things, for example, how old the auto is, whether it has a PC or not, regardless of whether it has a merchant and whether it is carbureted or infused, among different factors. Beneath you will discover normal expenses for full tune ups. It ought to be noted you can settle the cost of tuning your auto by buying an engine manual and doing a significant part of the work yourself.

The engine can be tuned for conditions that you set, like better fuel, removing or raising the rev limiter, increasing boost in turbo charged engines, increasing or decreasing air to fuel ratios for more horse power. Tuning can remove barriers that can limit the benefits of other modifications to an engine. It can also be a good value for horsepower per dollar spent. Read extra info at drakebox.