Quote:
|
Originally Posted by MadMax
he just backed up my argument - the braking REDUCES power to the individual spinning wheel meaning it matches the wheel speed of the spinning wheel to that of the wheel that isnt spinning enabling both wheels to gain traction and eliminating wheel spin. a traditional limited slip doesnt decrease power to one wheel it distributes power to both wheels - the abls will work beneficially in all situations excepting when you want to spin both wheels - i do believe the system COULD be set up looser enabling wheel spin on both wheels but as Nissan has it set up in trucks it acts as a poor man's traction control. Maybe your truck has slightly different programming - I have read elsewhere in TitanTalk that the earlier release models 'feel' a bit more powerful and also tend to get better gas mileage - I dunno if they made any changes but there are variances between trucks for no easily apparent reason - Some people have trucks which will break loose and others don't - unfortunately for me - I fall into the category of trucks that dont break loose. Maybe I just got a dog - I cant hold 90 mph in 5th in gentle terrain easily either ......
|
When talking differentials, it's important to not confuse torque distribution and power distribution.
The brake action ABLS uses to limit wheel spin does not, in any way, reduce power or torque to the spinning wheel.
Here is something I posted in an earlier thread:
To say it more precisely, an open differential will deliver equal amounts of torque to both sides.
This means it's important to understand torque - torque is a twisting or turning force.
For torque to be generated, there must be something to push against. If there is no resistance to turning a wheel, then very little torque is generated to turn the wheel - effectively none. With an open differential, the equal amount of torque is applied to the other wheel - effectively none.
That means that when one wheel leaves the ground or is in a zero traction situation, that wheel requires effectively zero torque to turn it. An open differential delivers exactly that amount of torque - effectively none - and it delivers that amount of torque to both sides.
Remember, to generate torque, there must be some resistance to turning or twisting.
Active Brake Limited Slip simply gives the open differential something to push against. When one wheel leaves the ground or is in a zero traction situation and begins to spin, ABLS will act to apply brake force to that wheel and that wheel only. To the open differential, this has the same effect as having traction with that wheel - there is now something to push against, allowing torque to be produced and delivered equally to both wheels.
Most reports of ABLS I've read indicate it works as designed. My truck's ABLS works just as designed, and it's the neatest thing since sliced bread. The driveability and low maintenance of an open differential with the traction of a limited slip differential. You get to have your cake and eat it, too.
That's how ABLS and open differentials work.
VDC is the system responsible for reducing engine output to limit wheelspin.
When you mash the gas and one rear wheel begins to spin (begins to lose traction), ABLS acts to apply brake force to that wheel - allowing the open differential to generate torque and be delivered equally to both wheels - giving torque back to the wheel with traction.
At this point, if both wheels spin and VDC is turned on, VDC will act to reduce engine output to reduce wheel spin. If VDC is turned off, you'll sit and spin both rear wheels.