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Comments
- The Mazda has a switch on the dashboard that distributes the torque 50/50 between the front and the rear, and apparently can be used at all speeds. Does that mean this switch turns the car from full-time AWD to permanent AWD?
-Why wouldn't you just leave this switch turned on all the time? I've read that Mazda does not recommend it be turned on on dry pavement - can anyone confirm this? Does anyone know why?
- How the technology used (Rotary Blade Coupling) compare to the Torsen differentials and viscous couplings discussed earlier in this board? How does the AWD system in general compare to other systems, such as Audi/VW and Subaru?
- Will the car be able to move if it loses traction on one side (both wheels)? Will it move if it loses traction on three wheels?
Thanks,
Jim
Anyone want to elaborate?
-juice
PS I believe both front and rear axles have open differentials. Car & Driver's got stuck during one of their SUV comparos.
http://www.edmunds.com/chat/brauerchat022701.html
Drew
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Vans, SUVs, and Aftermarket and Accessories message boards
If you haven't read Edmunds.com's confessions of a car salesman, I highly recommend you do so. I found it very entertaining, and yet enlightening as to what goes in the auto sales business.
Drew
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Vans, SUVs, and Aftermarket and Accessories message boards
Wanted your opinion regarding the AWD on GMC Denali vs. the "Auto 4WD" offered on Yukon/Tahoe. I live in Mass. and do need to go out in all kinds of weather (snow/rain) as I work in public safety, but do not plan to go real off-roading other than some beach travel. I'd welcome your thoughts as well as any one elses.
Thanks
Auto-4wd on GM (yukon/tahoe/suburban): This waits until there is significant slipage on the rear wheels and only then will engage the front axle. This system doesn't provide any power to the front axle under normal conditions and is better for off-road use because it can be locked in 4wd lo, 4wd hi, or can use 4wd auto.
Have you looked at any other vehicles? I know drew is partial to the ML series which are great vehicles and provide a better AWD system IMHO than either of the GM ones. I own an Isuzu Trooper which also has a variation of AWD that under normal conditions splits power @ 15% front and 85% rear, and has a guage that shows how much torque is going to each axle, this system can be left engaged all the time, and uses speed and weight sensors to change the torque up to 50/50 split depending on conditions. The best part of troopers is their price. I paid last May/June for a fully loaded trooper w/moonroof and no leather $27K before TTL. Definitely worth looking at the ML and Trooper as alternatives.
-mike
Thanks for the info. I will look at the ML and Troopers as well but I must say I'm smitten by the looks of the Yukon. Who says people have to make rational decisions when it comes to cars!
-Jack
-mike
Thanks
Nick
Front wheels are on ice, the front axle will spin at say 20mph on the ice, the rear axle is on solid ground only spinning at 5mph, the AWD system (viscous center differential IIRC) will move power from the front axle to the rear axle until the front and rear axles are both spinning @ the same speed, in this case 5mph. The locking rear diffy, will do the same as described above, except that it does it from side to side on the rear axle.
This AWD system is basically what I call a First generation "reactive" AWD system. It's one of the best ones for your purposes (on-road, wet/snowy conditions) vehicles with similar systems include:
Subaru (manual transmissions)
Chevy Astro/Safari
Caddy Escalade
Oldsmobile Bravada
There is no driver input at all on these systems and requires no "thinking" or anticipating. I hope this helps. Post up any other questions you have.
-mike
I am concerned that this type of drive might not be adequate. I do a lot of outdoor type activities. I have a house in Vermont and frequently find myself in snowy conditions, sometimes deep, and fairly steep hills. Mud and sand might also be a concern. I am getting the feeling that AWD is useless for anything other then a wet road.
I currently have a 4Ruunner and it is almost always in 4hi when I am up there. I have found myself in situations where one side of my car was in deep snow and it was a little tuff getting out even with the 4WD.
One of the only AWD vehicles on the market that also gives you 4wd Lo range, and 2wd options.
-mike
-mike
Is the 4WD on the Yuk Full or Part time - does it have a locking center diff? Can you drive it in
4 Hi on a paved road?
Correct me if I am wrong, the Toyota Seq has a locking center diff, so this is a full time 4WD.
As long as the center diff is not locked, you can drive in 4 hi on a paved road, is that right?
If a full Time 4WD Vehicle is in 4 Hi, is it basically like a Perm 4WD vehicle?
What is Active TRAC 4-wheel Traction Control on the Toyota is that similar to the ESP system on the ML? Do any of the GM products have similar functionality?
Thanks
Nick
2wd
Auto-4wd
4wd Hi
4wd Lo
You can use 2wd and auto-4wd on dry pavement. The Auto-4wd is a reactive system, basically once the rear wheels are spinning, it will push power to the front. Not a bad system, but not one of the better ones for on-road traction. 4wd Hi cannot be used on dry pavement because it locks in 50/50 power.
Toyo:
The Sequioa can be driven IIRC in the following settings:
2wd
4wd Auto/AWD
4wd Hi
4wd Lo
Basically you can run on dry pavement with the 2wd and 4wd auto/awd setting. I'm not sure of the torque spilt but it's probably at least 10%Fwd/90%rwd to start with, it may be 50/50. 4wd Hi and Lo are off-pavement only settings.
You can lock the center Diffy which can only be used off-road. The Active trac 4wheel tractions is similar to the ESP on the ML, Good system to have. The only GM product I know that has anything remotely similar would be the Escalade "stabilitrac" but that has the same AWD system as the denali. Hope this helps.
-mike
I have been reading up on differentials I think this is the way they are supposed to work - correct me if I am wrong.
In a standard Perm 4WD vehicle, there are 3 diff's - front center and rear. The center diff regulates torque to the front and rear axles and the front and rear diff regulate torque to the left and right wheels.
Differentials allow the wheels to spin at different rates.
If the center diff is locked, the power is split 50/50 front to rear.
If say 1 of the rear wheels is slipping, the rear diff will send all the rear power to that wheel. But because the center diff is locked the front wheels can pull.
If the rear diff is locked, the the rear wheels are forced to spin at the same rate an the wheel with traction gets used.
If no diff is locked, the only wheel that is spinning is the one with no traction.
The viscous center differential IIRC works by sensing slippage. The slippage causes the viscosity of the fluid in the c diff to change an that acts like a center diff lock.
The active trac on the Toyota and the ESP system act like front and rear differental locks. By applying breaking to the wheel that is spinning, it simulates traction and the causes the differential to send power to the wheel that has traction.
Is that right?
I have a question, when say the toyota is in 4 hi, does that cause the center differential to lock? If the center diff is not locked, why is it not recomended to drive on pavement?
The Sequoia to my knowledge does have a dry version of the 4wd system that provides power to both axles normally, whereas the GM systems on the Yukon do not normally provide any power to the front axles when in "auto-4wd"
-mike
Do you know what kind of diffs the Denali has on the rear and front? Also, is the center a Viscous Coupling Locking Center Differential or an LSD?
Thanks
Nick
I know the center is not a Locking Center Diffy.
The rear *may* have an LSD but I'm not positive on that.
-mike
I think I got the lo down on the Seq. It has three open diffs. The modes are 2 wd, 4 Hi, and
4 Lo. When in 4 hi the Center diff sends power to the front and rear axles. The TRACS system monitors for slippage and makes adjustments. VCS can be engaged.
When in 4 Lo and low gear, the center diff locks and the TRACS and VCS are automatically disengaged.
Do you think this system is superior to the center LSD and locking rear diff on the Denali?
Thanks
Nick
-mike
Will the AWD Mountain function on a beach?
Will a limited slip differential help on the beach?
Will driving on a beach once in a while put excessive wear and tear on the AWD system.
Thank You
please email me at
sirknightd@aol.com
-mike
In regard to Drew's previous post #83 about beach driving:
"BTW, with the way the Highlander's AWD system is set up, it is possible to get stuck even with the rear LSD."
Is this just because of the HL's limited slip center diffy?
Tom
1) It's 100% FWD until slippage occurs, so basically it's like driving your camary around the beach. Once you are spinning the front wheels the rears kick in and by that time you are probably already dug into a rut.
2) You can't turn off the traction control on it. What happens is that once you are spinning the wheels, and the rear wheels kick in, it will apply the brakes onto any one or all the wheels that are spinning so that they won't spin, this will lead you to getting stuck as well.
The Highlander is not really designed as any kind of off-road vehicle, IMHO. I'm not a fan of the Mountaineer either. For my $27.5K, I'd buy a trooper (AWD, 2wd, 4wd Lo, more room than the highlander and mountaineer, 10/120K warranty, etc.etc.)
-mike
I'll admit I got a lot of shocked looks from the Suburban owners out there, though!
I did feel that a low range would have helped, and I hope Subaru brings their low range tranny offered in Australia to the US. Deep sand eats up torque, so it feels like you're driving a Geo Metro with 5 big people in it!
Never got stuck, though.
-juice
When the fluid is in a solid state, there is no friction so wont it go become a fluid again, and the whole process repeat?
-mike
Which is just plain wrong on the AWD version, which is permanent AWD. This is straight from Edmunds: "The Highlander's 4WD operation is similar to the RX 300's and RAV4's, with a 50/50 front-to-rear torque split on a full time basis. Unless there is tire slippage, then the viscous coupling will apply torque as necessary, front to rear, depending on which wheels are slipping. Four-wheel-drive models can be equipped with an optional limited-slip differential to further improve traction in slippery conditions."
-mike
I'd like to see if I can get a Highlander to join the increasing number of Outbacks I see on the beach, all of which seem to do just fine. My days of part-time shift on the fly are done.
Mike's point #2 of there being no VSC-off switch is well taken, and I have ruled out getting the VSC on the HL because of this.
I'm still trying to decide whether the optional Limited-slip rear would be advantageous in the sand. Drew doesn't think so but apparently it's because of something specific to the HL's AWD system.
Tom
What Mike said is true (about the wheels braking). However, if they keep spinning, you'll loose power anyway since with an open differential, it goes to the wheel that has the least resistance (read: the one with no traction).
I guess the only way you can test this out is to actually take the vehicle down to the beach and try it out. However, I'm not sure if the saleguy will be happy with you airing the tires down to 20psi (which you should on sand to get a wider footprint) :-)
What is the difference between permanent AWD and full time AWD?
Drew does an excellent job of describing this at the beginning of the discussion here drew_ Feb 5, 2001 8:24pm
-mike
AFAIK, the '02 GMC Envoy/Chevy Trailblazer/Olds Bravada all have the same auto 4WD system (AutoTrac). In the past, the Bravada had an permanent AWD system, which was later substituted for a full-time AWD system. See my post #2 in this topic if you're unsure about the terminology.
As for the MDX vs. the Bravada/Envoy/Trailblazer, the main difference is that the Acura MDX lacks a low range. The MDX is also FWD based, whereas the GM trucks are primarily RWD.
IMHO, both of these systems' main disadvantage is that they're not permanent systems. That is to say, not all 4 wheels are powered at the same time. The MDX has the advantage over the GM trucks here because it does transfer power to the rear wheels upon acceleration (depending on the speed) and a few other situations. In contrast, the GM trucks only transfer power forward when rear wheel slippage is detected (read: it is purely a reactive system; the MDX is also reactive when coasting and at higher speeds though - FWD-only till wheel slippage is detected).
VTM-4 utilises a sophisticated, but pricey rear differential that can transfer power side to side, sort of like the GM's locking rear differential. However, the MDX's rear differential requires maintenance (basically a fluid change) every 7500 miles or so, I believe.
Hope this helps!
I can't recall if the Tribute/Escape offers a rear limited slip differential. I don't think it does. If so, the answer to your question is yes, the vehicle will get stuck if there is no traction on one side of the vehicle, and also if 3 wheels do not have traction. The only way to get around this is with locking front/centre/rear differentials, or with 4 wheel traction control.
The auto 4WD system (AutoTrac) actually does react quite quickly to rear wheel slippage - its RWD based, and transfers power to the front when needed. However, I like the fact that the permanent AWD system is helping out, regardless of slippage or no slippage, dry or snowy roads. There should be little if any fuel consumption difference between the two different systems.
Drew
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Vans, SUVs, and Aftermarket & Accessories message boards
Check out the new C&D, for the wagon comparo in snow. The Subaru Outback VDC was the only one that did NOT plow into a snow bank, and require a tow truck to yank it out.
The VDC finished 4th out of 4, but that's probably because they like the smaller, sportier wagons (some with manual trannies). More importantly, they don't own the cars or pay those carsh-into-a-snow-bank repair bills!
-juice
Sometimes wheel spin can help to get out of a stuck situation by rocking or sliding.
Subaru says it's system isn't that intrusive; that it lets the AWD system act first. A rep from Subaru (who participates in the Subaru Crew forums under Owners Clubs) took a demo VDC to some soft sand (volleyball courts) and couldn't get it stuck no matter what she did.
Even though C&D felt it was intrusive and reduced their lap times, they also said it was best in the snow (and safest), so this is consistent with her testing.
I think the sensors work by comparing wheel speed, so brakes are applied if one wheel is spinning faster than the others. If all four wheels spin, the sensors would not not a difference in speed and probably would just let all tires spin, or at least cycle through them one by one.
-juice
An open differential will always keep torque balanced between the two outputs. When you get one wheel in snow and one on pavement, you don't go anywhere b/c the snow wheel has little traction and does not accept much torque. Hence, the other wheel cannot receive much torque (must be balanced). Traction control works by adding drag to the low traction side, absorbing more torque, and allowing the other side to get more torque.
A locked diff forces equal rotational speed regardless of torque or power. In fact, it works for us because it does not require a 50/50 torque split. In the above example, locking the diff prevents one wheel from overspeeding by putting more torque to the traction side. However, the forced speed matching prevents locked diffs from utilizing all traction in many situations.
A limited slip diff usually starts with an open diff. When it sees slip, it tries to couple the two outputs, once again to allow a torque imbalance. The mechanics then approach a locked unit.
While appearing similar, a Torsen is not a limited slip. Its bevahior is controlled by available traction and not on output shaft speed. It works by allowing a torque imbalance between outputs, regardless of speed, and not by preventing speed differences. It is done in such a way that the side with more traction has more torque. Torsens are characterized by a bias or torque ratio, for example 2:1. An open diff has a 1:1 ratio. Since it is biased, it is limited in cases of extreme torque imbalances (2x of 0 is still 0). However they also maximize the benefit of traction control b/c the require the least amount of drag.
And finally, there is a difference between a viscous limited slip center differential and a viscous (center) coupling. The former is a limited slip version of an open diff and the latter is used for full-time awd (using this forum's terminology) to redirect torque only with slippage.
Sorry for the long post.
Imagine a bump in the road under one side of the vehicle. That tire must roll farther to go up and over as opposed to the other side which is flat. With a locked diff, one tire must loose traction and slip to go over the bump.
Another example is just plain going around a corner. One side or the other must slip even through both sides may have equal traction.
These examples may sound trival but they are a huge factor in mobility for everything except rock crawling.
"... The RX300 gets the Lexus Vehicle Skid Control (VSC) system for the 2001 model year. This computer-controlled system replaces the mechanical limited-slip center differential on four-wheel-drive models. Besides saving more than 50 pounds of the performance-robbing weight of the differential, VSC improves traction and cornering grip by monitoring speed, yaw rate and steering angle, selectively applying one or more brakes, and automatically reducing the throttle to keep the RX300 on its intended course. This sophisticated technology is also included on front-wheel-drive models, ...."
Edmund's information on the 2001 RX300 seems inconsistent.
Excerpt from Edmund's Review: ".... the RX 300 can be had with your choice of front-wheel drive or full-time four-wheel drive. Not only does the FWD version perform better and get better fuel economy, but it benefits from standard electronic traction control to improve poor weather performance. Four-wheelers include a viscous center differential that directs torque to the wheels with the most traction whenever slippage occurs. For 2001, Lexus has added Vehicle Skid Control (VSC -- a stability control system) and Brake Assist (which applies full braking pressure in panic situations quicker than your feet can) as standard equipment on all RX 300s."
I'm not sure the viscous center differential is still present or needed. Could it be the 50 pound differential weight which was eliminated? Does anyone know for certain?
Incidentally, I recently drove aggressively around an off-vehicle road area in the California desert (near Ridgecrest) and had no problems.
The bump in the road scenario; so say my front locker is engaged and I go up over the bump on the drivers side and the suspension is compressed. The drivers side tire (more traction) climbs up and over while the pass side must "skid" along a bit. Is that what you consider loosing traction? Seems like a moot point if forward progress was not sacrificed.
The corner scenario; You shouldn't be going around corners on dry pavement with the diff (any) locked. Again I fail to see the logic or application of it.
My truck has three (front,center,rear) normally open diffs. It drives with normal mobility in this mode. If slip is a possibility the diffs can be locked to raise the number of wheels with maximum torque, increasing availible traction, up to and including true fully locked 4wd. Admittedly steering is difficult in this mode, but the truck is nearly unstoppable as well.
I have never found locking diffs to do anything but increase traction, the ability to produce progress along a given surface. Just because one tire sacrifices some grip to allow the opposite one to maintain progress does not to me constitute an under utilization of traction. The slipping tires traction was not required, and if the gripping tire begins to slip, with the locker, the other side immediately takes over and progress continues.
Excellent example. On my way home from work every day I have a slippery corner to turn where there is a bump under one wheel. My 97 Pathfinder with Limited Slip rear always seems to spin the rear wheels a little and then "jump" as I make that turn even though the bump is not that big. I think it is because the Limited Slip rear is trying to simulate a locked diff. Thanks.