Torque maps explained by Renault Sport
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After the German GP we were left with the issue of the torque maps being investigated on the Red Bull cars, which have now been policed by the FIA. But Renault Sport F1 deputy managing director, Rob White, sums up engine mapping and the latest developments, in an effort to bring some more clarity.
Is this a logical AND?bhallg2k wrote:And that's where the real rub starts here. Despite everything else in the regulations, they explicitly allow a reduction of cylinder pressure, for "reliability," when the engine is between 15,000 - 18,000 RPM and accelerator travel is between 80 - 100%.
Emphasis mine..."Why would would you want to generate less torque in the mid revs range?
"The trade-offs concern driveability (the response of the engine to the driver requested torque), acceleration (less torque = less acceleration, except if grip limited) and fuel consumption. In general, reducing the torque is achieved by igniting the fuel later in the cycle by means of the ignition map. This may improve driveability smoothing out the torque curve which may help the driver manage his tyres. This is not in any way a forbidden driver aid or an attempt to mimic the behaviour of a forbidden system (eg closed loop traction control)
Reducing the maximum torque curve increases the amount of exhaust gas produced at lower torque levels very, very slightly, but does not change the exhaust gas flow at full throttle. Furthermore the scope to use the engine to generate exhaust gas is extremely limited by the specific mapping restrictions introduced for the 2012 season also by the performance trade-offs mentioned above."
You have to take that with a grain or 12 of salt. A representative from Renault Sport is not going to give away too much information one way or the other, and he's also not going to spell out the obvious conclusion from such changes: if there was no clear benefit to making them, they would not have gone through the hassle.rjsa wrote:Emphasis mine..."Why would would you want to generate less torque in the mid revs range?
"The trade-offs concern driveability (the response of the engine to the driver requested torque), acceleration (less torque = less acceleration, except if grip limited) and fuel consumption. In general, reducing the torque is achieved by igniting the fuel later in the cycle by means of the ignition map. This may improve driveability smoothing out the torque curve which may help the driver manage his tyres. This is not in any way a forbidden driver aid or an attempt to mimic the behaviour of a forbidden system (eg closed loop traction control)
Reducing the maximum torque curve increases the amount of exhaust gas produced at lower torque levels very, very slightly, but does not change the exhaust gas flow at full throttle. Furthermore the scope to use the engine to generate exhaust gas is extremely limited by the specific mapping restrictions introduced for the 2012 season also by the performance trade-offs mentioned above."
No, that's not what the rules say. You can have 50% throttle and only 20% max torque and you'd be fine. The issue was at WOT(100% throttle) torque was reduced by a good margin.rjsa wrote:The rules expect that any given time, let's say 50% throttle position will deliver close to 50% of the maximum torque possible at that given RPM.
I guarantee you every team uses/used this kind of system. It's due to the combination of a large change from one race to the next and the current "whipping boy" status of Red Bull.strad wrote:OK,,During practice they were discussing this and where the problem arose was that the teams discussed this map thing at the end of last year and agreed not to use this kind of mapping, but then Red Bull double crossed everyone and proceeded to use it.
Please expand.... I thought the pneumatic system dealt with valve closing.Raptor22 wrote:Altering the torque is fairly simple with a pneumatic valve train. simply drop the exhaust valve for a microsecond and bleed off cyclinder pressure.
But isn't this just the traditional anti knock system? I would say that you would have to demonstrate 'abnormal' cylinder pressures to use this feature. Failing that you would be in violation.bhallg2k wrote:And that's where the real rub starts here. Despite everything else in the regulations, they explicitly allow a reduction of cylinder pressure, for "reliability," when the engine is between 15,000 - 18,000 RPM and accelerator travel is between 80 - 100%.
The pneumatic system does deal with closing. I think Raptor22 meant you could reduce the pressure to let the valve open and bleed off some compression. Emphasis "I think"hardingfv32 wrote:Please expand.... I thought the pneumatic system dealt with valve closing.Raptor22 wrote:Altering the torque is fairly simple with a pneumatic valve train. simply drop the exhaust valve for a microsecond and bleed off cyclinder pressure.
Brian
It's a conditional and. RPM and accelerator travel must each be within a specified range concurrently in order to legally reduce cylinder pressure.Dragonfly wrote:Is this a logical AND?bhallg2k wrote:And that's where the real rub starts here. Despite everything else in the regulations, they explicitly allow a reduction of cylinder pressure, for "reliability," when the engine is between 15,000 - 18,000 RPM and accelerator travel is between 80 - 100%.
I dunno. You tell me.hardingfv32 wrote:But isn't this just the traditional anti knock system? I would say that you would have to demonstrate 'abnormal' cylinder pressures to use this feature. Failing that you would be in violation.bhallg2k wrote:And that's where the real rub starts here. Despite everything else in the regulations, they explicitly allow a reduction of cylinder pressure, for "reliability," when the engine is between 15,000 - 18,000 RPM and accelerator travel is between 80 - 100%.
Brian
hardingfv32 wrote:There is a little more to it than just reducing wear. The engine could clearly be designed with less cylinder pressure if the teams thought that was required. This has to do with reducing cylinder pressure on a non-routine basis. I am not sure that anti knock systems are in use. They should be able to stop knock before it even starts.thearmofbarlow wrote:Reducing cylinder pressure means less wear on the engine over a stretch. It could also improve fuel efficiency.
Brian
I'm sure you weren't referring explicitly to Red Bull with this. Their map, it was revealed by Rob White today, had lower than normal torque between 10,000 and 14,000RPM, at 100% throttle. The 100% throttle part is what it governed by the regulations, so is where the problem was. This rev range is what is normally used for accelerating out of low-ish speed corners in the wet, as can be seen from the recently uploaded video on the F1 website (Vettel's onboard from Hockenheim).bhallg2k wrote:And that's where the real rub starts here. Despite everything else in the regulations, they explicitly allow a reduction of cylinder pressure, for "reliability," when the engine is between 15,000 - 18,000 RPM and accelerator travel is between 80 - 100%.