So which is best, BHP or torques?
As you'd expect, there is only one way to find out
Stupidity aside, the point I want to raise / question is this.
In the average car, BHP has always been one of the key headline 'Top Trump' figures alongside 0-60mph times, top speed, and more lately (god forbid) MPG. Only people with Tefal shaped heads or car manufacturer logo'd anoraks
hide would even dare to bring the word torques into a public conversation for fear of alienation or loss of lifelong friends.
Hoooo-ever, one thing that has become apparent to me as I've crashed through the 300bhp barrier is that a bit more bhp seems to make VERY little difference in the real world. You need 40-50bhp increases to make a noticable difference now. And gone are the days where I'd quote BHP figures down to an exact figure (eg. 296bhp); now I tend to use figures rounded to the nearest 10bhp (eg. 350bhp for anything between 346 and 354).
The Dyno lottery has pretty much eradicated much in the way of outright credibility for BHP claims, providing purely a rough estimate (if the operator can select the right gear). With Haldex cars come ever more RR issues when using bhp as a measure as Dyno's don't like the Haldex system much giving slightly odd power results at times.
So back to torques. We've seen in diesel cars of late that astronomic torque figures mean you can set the world rolling in an opposing direction, and accelerate quickly in almost any gear / any time. High compressions help, but diesel's petrol supping cousins have been trying hard to play catch up since newer injection/turbo systems and head technology have been been developed. Honda, the masters of high bhp, and diddy torques show V-Tec lumps can deliver staggering performance from a small number of torques, as long as you have revs. So is there a magical equation which optimises the balance between torques and BHP's, or are they both purely arbitrary figures that shift in the sand as you optimise a remaps parameters? I appreciate the higher both figures the better, but do you ever have to compensate one for the other, and what are the pro's and cons?
So the big question I have is this:
1) When a remapping agent remaps, what determines how much torque / bhp they build into the 'maps' parameters,
and
2) at what point does one (BHP or torques) become more valuable than the other in outright performance terms? - is it about optimizing performance for ancillaries like clutch / turbo etc., or around managing issues like heat soak / timing?
3) Which would be the better overall map, one majoring on BHP or one majoring on torque?
I want to be absolutely clear here, I'm not quitting work and setting up a remapping service next week offering bedroom conceived remaps from a 286 desktop computer I bought from a car boot sale. I'm just fascinated to learn more about the science of how engines work. I don't get out much so humour me ;-)
Any knowledge greatly appreciated.
As you'd expect, there is only one way to find out
Stupidity aside, the point I want to raise / question is this.
In the average car, BHP has always been one of the key headline 'Top Trump' figures alongside 0-60mph times, top speed, and more lately (god forbid) MPG. Only people with Tefal shaped heads or car manufacturer logo'd anoraks
hide would even dare to bring the word torques into a public conversation for fear of alienation or loss of lifelong friends. Hoooo-ever, one thing that has become apparent to me as I've crashed through the 300bhp barrier is that a bit more bhp seems to make VERY little difference in the real world. You need 40-50bhp increases to make a noticable difference now. And gone are the days where I'd quote BHP figures down to an exact figure (eg. 296bhp); now I tend to use figures rounded to the nearest 10bhp (eg. 350bhp for anything between 346 and 354).
The Dyno lottery has pretty much eradicated much in the way of outright credibility for BHP claims, providing purely a rough estimate (if the operator can select the right gear). With Haldex cars come ever more RR issues when using bhp as a measure as Dyno's don't like the Haldex system much giving slightly odd power results at times.
So back to torques. We've seen in diesel cars of late that astronomic torque figures mean you can set the world rolling in an opposing direction, and accelerate quickly in almost any gear / any time. High compressions help, but diesel's petrol supping cousins have been trying hard to play catch up since newer injection/turbo systems and head technology have been been developed. Honda, the masters of high bhp, and diddy torques show V-Tec lumps can deliver staggering performance from a small number of torques, as long as you have revs. So is there a magical equation which optimises the balance between torques and BHP's, or are they both purely arbitrary figures that shift in the sand as you optimise a remaps parameters? I appreciate the higher both figures the better, but do you ever have to compensate one for the other, and what are the pro's and cons?
So the big question I have is this:
1) When a remapping agent remaps, what determines how much torque / bhp they build into the 'maps' parameters,
and
2) at what point does one (BHP or torques) become more valuable than the other in outright performance terms? - is it about optimizing performance for ancillaries like clutch / turbo etc., or around managing issues like heat soak / timing?
3) Which would be the better overall map, one majoring on BHP or one majoring on torque?
I want to be absolutely clear here, I'm not quitting work and setting up a remapping service next week offering bedroom conceived remaps from a 286 desktop computer I bought from a car boot sale. I'm just fascinated to learn more about the science of how engines work. I don't get out much so humour me ;-)
Any knowledge greatly appreciated.
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interested to hear some responses from mappers 
