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VSC/TC/BA/EBD/ABS/etc, were all already integrated by necessity.
http://www.lexus-europe.com/technology_explorer/vehicle_dynamics_integrated_mana- gement_VDIM.asp?model=All
For Lexus' discussion of VDIM. As it notes, VDIM is available on 5 car models, including the RX 400h but not the RX 350.
There are reviews on caranddriver, motortrend and other sites in which they test drive lexus/toyota cars with VDIM as compared to VSC. One of the principle differences noted by the testers is that VSC has the traditional grinding sound/vibration feeling when it kicks in, which is not present with VDIM.
As I noted before, some serious drivers really dislike VDIM. On the other hand, the testers do state their view that VDIM provides a higher degree of safety through more effective stability control. VDIM has also led to some issues that aren't present in VSC -- an early version made it in some cases impossible to move the car on slippery surfaces (that has since been fixed).
Also, what is a reasonable price to pay for the permaplating that dealerships offer, which usually included a detailing once a year? Thanks!!
We just purchased our 2007 4000h yesterday from Sterling McCall Lexus in Houston, Texas. I paid $1650 for a 6 year/100000 extended warranty. I believe that was $200 over invoice. I hope that helps you. Good luck!
JB
A few years ago one of the european marques, MB or BMW, developed a system which allows their "VSC" to counter-stear against the driver in order to prevent under or overstearing. It looks as if Toyota/Lexus has adopted that technique using the electric power stearing, eliminating the need for VSC braking...
I recently got a much better price for an extended warranty on my wife's Chrysler T&C for a dealer in another state that I found through the web but I have not been able to find the same kind of deal on Lexus.
He also said the Goodyear tires on the 400h make for a softer ride, better handling, better braking, but don't expect more than 22K miles out of them.
Any counter comments?
Internal belt slipped during manufacturing...?
I was just searching the net to find out if I could find out any info on the 2008 hybrid and came across this forum. I will keep you posted as to when your car will be here and if I find out of any changes.
thanks
Ken
Mill the heads to raise the compression ratio to ~13:1 and then custom grind the intake cams so the intake valves remain open for ~30% of the compression stroke.
The trade-off is that in SOME cases, SOME of the LRR tires have low mileage ratings. Not every one of them does.
If you want to go with a different tire next time, look around on these boards and you can find a good replacement tire that is a better compromise of low rolling resistance and long life.
And with the hybrids, the brakes last much longer than a regular car, so you are getting extra value from the brakes to counteract anything you are losing with the low rolling resistance tires.
Maybe do more frequent tire rotations to even out the damage?
Tip:
Go to google.com and search this:
"uneven wear" +rx400h
and go look at the first result. There are several other owners there with similar "inside wear" on their RX400h.
Seems to be an issue with these vehicles. Maybe further down in the information someone will have a solution for you.
Well, if that were indeed the case, it would mean that EVERY Toyota Highlander and RX400h would be having this issue, and we know that is not happening.
Good luck on the Michelins, and keep an eye on them. If you rotate them at every oil change, you are very unlikely to have further issues.
"We" are the people like me (and maybe you) who frequent hybrid car forums.
I know for a fact this is not a widespread problem on the Lexus/Toyota hybrid SUVs. One of my best friends has a Highlander Hybrid with about 17K miles on it and he does not have the problem. It's not been reported as a major issue affecting dozens of cars at other mainstream hybrid websites.
It has indeed been reported by a few owners, and that's probably because of some sort of equipment malfunction specific to those vehicles.
I would urge owners with this problem to take it up with their Toyota/Lexus dealer and get it resolved.
My only contentious issue is that one cannot blanketly say "This is for sure a design problem caused by the hybridization of the vehicle."
Because if that were true, then there would have been a recall for this problem.
I just looked on the NTHSA complaint site and there is one single complaint of this type of inboard tire wear.
That's not to diminish your or anyone else's issues - it's merely to point out that this has no indications of being a widespread issue.
PS. No, I'm not associated with Lexus or Toyota other than being a fan of their cars. I own a 2007 TCH and have previously owned several other Toyota vehicles, none of which had design problems.
Mill the heads to raise the compression ratio to ~13:1 and then custom grind the intake cams so the intake valves remain open for ~30% of the compression stroke."
You forgot about modifying the engine CU software to account for the change in cycle.
Ok, take a 45K car, void the warranty on the engine and hybrid components. Not recommended.
I don't see it.
In probably well over a million Lexus miles the only abnormal failure I've experienced is the alternator slip ring early wear at ~100,000+ miles in my 92 LS.
I stopped buying the extended warranty after about the third Lexus.
I don't see it. "
The HSD has two parts that must work in tandem; the electric motors and the ICE engine. If either is changed the ECU software needs to be adjusted.
The electric motors are run by the ECU based on the OTTO cycle. The software would be different for the Atkinson cycle. Different engine power curves. Without modified software, you might very well have worse mileage, performance, or who knows what. It's a great unknown. I would expect (without having access to the Lexus software) that such a system would be very underpowered. The electric motors are programmed to assist based on the higher power of the Atkinson cycle, and would not supply adequate electric propulsion at slower speeds.
As I said, I don't think anyone is going to crack open the engine to attempt such a thing anyway...
Not really...
The factory supplied software must be, and IS, designed to continuously "learn" and relearn the most optimal operational parameters for any given engine.
If you doubt this then put a flow restrictor, a rather SERIOUS flow restrictor, just downstream of the MAF/IAT sensor module in ANY modern day engine. You'll find the engine performance quite seriously degraded but no complaints from the ECU.
Or even simpler, maybe. Disconnect the battery and then mechanically block the throttle butterfly valve from opening beyond, say, 70%, reconnect the battery and drive away with a seriously derated engine from a torque/HP performance standpoint.
What do you think the torque/HP output, performance, of one of these engines would be at 200,000 miles vs fresh out of the factory? How do you think the firmware might be written in order to "handle" that transition.
The Atkinson cycle, nor even the Miller cycle if it should come to that, does not change nor interfere with the idle, cruise, or POWER band A/F mixture ratios.
So the MAF/IAT sensors have no effect one way or another, nor does the "front" oxygen sensor. The only affect I might see/forecast is the impact on the operating temperature of the catalyst in the converter.
There would be a much more complete "burn" of the A/F mixture within the combustion chamber resulting in lowering the temperature of the gasses entering the exhaust manifold.
Can you provide links to the information about exactly what the ECU software does in the Toyota HSD system? I can't.
I stand by my statement - the electric system would not match the ICE anymore. It's not a matter of running the ICE, it is a matter of running the HSD, in which the ICE and electric are combined into one smooth, continuously-operated transmission system. You should not change the ICE component without changing the electric components. I suspect Toyota spent a lot of time designing, testing, and optimizing the software to account for this first implementation of Atkinson cycle ICE (the Prius uses OTTO) with HSD.
Of course, I also don't have access to HSD firmware or software code, so in theory either of us could be right.
I think we must agree to disagree here... :shades:
Oh, if you buy the factory shop/repair manuals and read and comprehend the diagnostics section concerning each and every sensor you end up understanding pretty much how the software "fits" together.
Unless Toyota comes up with an emtirely new, more efficient method, in which case a higher capacity battery might be required.
My guess would be that the greatest advantage of an LI battery would be in weight reduction.
Everything I have seen/read about the LI, suggests that it will revolutionize the hybrid vehicles. I remember an article a few months ago quoting a very high ranking executive with Toyota confidently speaking about the next generation of hybrid batteries and how they will be much smaller, more powerful, and greatly increase fuel efficiency.
There is an old joke about stock brokers that seemingly applies here...
"If his mouth was moving then he was lying."
(Apologies to Jim Marolich.)
Unless more ways, methods, are found to recover energy that would otherwise be lost, what purpose would a higher capacity battery serve(***)?
In point of fact the effort seems to be in reverse at the moment.
While it is undoubtedly most appropreate to use, primarily, the front tires' higher traction coefficient for regenerative braking, that brings up questions of overall safety.
Ford was recently granted a US patent that directly addresses the potential safety issues that arise from regenerative braking on FWD or front torque biased AWD vehicles.
The Ford hybrid patent implementation requires monitoring the OAT sensor and significantly reducing the level of regenerative braking to be used if the OAT is near or below freezing. The second aspect of the patent calls for immediate disabling of the regenerative braking capability the INSTANT ABS activates during actual brake application.
Obviously the industry is becoming concerned, FINALLY, about the potential wintertime use hazards of FWD and front torque biased AWD vehicles.
Personally I would be for adding a "clutch" function to all of the current crop of hybrids now in the market place. Almost all of these, maybe ALL, use regenerative braking to SIMULATE engine compression braking.
Wouldn't the best FE be attained if I, as the driver, could decide whether coasting or regenerative braking would be the more effective mode?
When I let up on the Prius' gas pedal, currently, it goes immediately into regenerative braking mode. There are quite clearly times, via the advantage granted by human visual resources, that I KNOW simply coasting would be more advantagous.
My lawn tractor has one pedal for both declutching the engine and braking. The first bit of travel declutches the engine and thereafter the brakes are increasingly applied.
Or in the case of hybrid vehicles why not give me the option of "arming", enabling, regenerative braking via a light touch of the brake pedal. Simply lifting the gas pedal would put me in "coasting" mode and if I wanted to slow down via simulated engine braking just a light touch of the brake pedal would be required.
*** And by-the-by you may want to take note of the current "crop" of Toyota hybrid vehicles. With the exception of the Prius and Camry Toyota seems to be heading toward satisfying the rich boy-racer segment of the buying public via use of hybrid capability for SUPER-CHARGING.
If your desire is to own a 600HP LEXUS LS then you will not be unduly concerned that most of the energy being put into that high capacity, efficient, and lightweight LI battery comes directly from MG2, itself directly driven by the ICE.
But then yes, all-in-all, when compared to a 600HP regular gasoline engined car and the LS hybrid I have no doubt that the hybrid will come out on top insofar as FE is concerned.
And what about that? What would be the public, stegma, feeling, attached/surrounding a 600HP Lexus LS with purely gasoline power? Are Toyota/Lexus executives pulling a "fast" one.
But is that truly where the general public wishes the hybrid market to be...??
While it is true that Toyota has strived for more power rather than fuel efficiency with the luxury sector hybrids to this point, common sense would dictate that in the future, fuel efficiency will become more of a priority as well. Otherwise, you may as well kiss the hybrids "good-bye". There comes a point when there is a complete overkill with power/performance. The public will demand better fuel efficiency. I believe that we can have both good fuel efficiency and good power in the luxury field.
And BTW, I do not believe that the high ranking Toyota executive was lying. I would expect that an American executive would lie before a Japanese executive would.
A unique drawback of the Li-ion battery is that its life span is dependent upon aging from time of manufacturing (shelf life) regardless of whether it was charged, and not just on the number of charge/discharge cycles. So an older battery will not last as long as a new battery due solely to its age, unlike other batteries. This drawback is not widely publicized.[6]
At a 100% charge level, a typical Li-ion laptop battery that is full most of the time at 25 degrees Celsius or 77 degrees Fahrenheit, will irreversibly lose approximately 20% capacity per year. However, a battery stored inside a poorly ventilated laptop may be subject to a prolonged exposure to much higher temperatures than 25 °C, which will significantly shorten its life. The capacity loss begins from the time the battery was manufactured, and occurs even when the battery is unused. Different storage temperatures produce different loss results: 6% loss at 0 °C(32 °F), 20% at 25 °C(77 °F), and 35% at 40 °C(104 °F)
Lithium-ion batteries can easily rupture, ignite, or explode when exposed to high temperatures,[12]. They should not be stored in a car during hot weather. Short-circuiting a Li-ion battery can cause it to ignite or explode. Never open a Li-ion battery's casing. Li-ion batteries contain safety devices that protect the cells inside from abuse. If damaged, these can also cause the battery to ignite or explode.
http://en.wikipedia.org/wiki/Lithium_ion_battery#Disadvantages
Now let's fill it ONLY with "free", otherwise lost, energy recovered via regenerative braking...
Can anyone think of another readily available energy source that would result in the new Prius attaining more than the current 42MPH city.
You are referring to a 5000 lb vehicle, right? With a V6 engine, correct? A Luxury model?
That combination is not going to get "superb" gas mileage, except in comparison to a V8 SUV. The only way to get significantly better MPG is to use a smaller engine, which will result in less performance. I don't think Lexus will go for this concept.
Better batteries and larger electric motors will benefit MPG, but not to the extent that it would benefit a smaller, lighter vehicle.
A bigger fuel tank does no good unless you can find gas for $1.00/gallon.
Take a look at this brand new article from May 29? Does it not make sense that if the Prius is testing out at 125 mpg, that something like the RX400H (2009) could get at least 35 mpg with this new technology?
http://www.businessweek.com/autos/content/may2007/bw20070529_034748.htm
Nope. If you want 35 MPG, try a Ford Escape Hybrid. They are about 3400 lbs, and use an I4 engine. The Prius is designed from the ground up as a hybrid. The 400h is a converted vehicle. But in any case really high MPG is a bit incompatible with larger SUVs.
I simply don't think that Toyota is going to go to an I4, or smaller 6, or even Atkinson cycle vice Otto cycle. In my opinion, luxury buyers are not necessarily in the vehicle for the MPG anyway.
Physics, physics, it always comes back to how heavy the hunk of metal gets to be. Heavy generally means larger, with worse cross section cD, and a larger engine. Someone driving a 26K Ford Escape Hybrid might not care about "zoom, zoom", but someone laying out 46K for a luxury model certainly expects a kick in the seat when the accelerator is pressed.
Yes, it is true that luxury buyers are not buying for fuel efficiency. However, for luxury HYBRID buyers like myself, fuel efficiency is EXTREMELY important. Otherwise, why would I want to pay more for a HYBRID? Yes, there are environmental concerns, but there will be many other clean burning (non hybrid) vehicles in the future.
I still maintain that if you guys are right, then you can kiss the hybrid luxury vehicles good-bye. But somehow, I don't think this is what Toyota has in mind. They are in it for the long haul to constantly improve the hybrid technology. Along the way, ever improving fuel efficiency (even for luxury hybrid vehicles) will be one of the benefits. Otherwise, it makes NO logical sense to continue.
That's why the Prius' highway FE is actually less than an equivalent ICE only vehicle. No, or little ability to recover kinetic energy, use the ICE (high loss path/mode) to re(charge) the hybrid battery.
Absent finding another source of "FREE" energy a bigger, higher capacity, battery will do no good.
Not free energy, but certainly CHEAPER. At least until the FEDs figure out how to add road taxes, etc, to the fuel cost at the generating plant. Can you imaging the number of Nuclear power plants that would need to be brought on line...?
Well, besides the fact that this one advantage is a HUGE thing, I see at least 1 other very obvious advantage..
1. The ability to automatically shut off at stops and automaticslly start back up instantly upon demand from the right foot.
I'll give you the benefit of doubt in regards to the Akinsin cycle savings in the TCH, as example, as you did say "against equivalent ICE only vehicles"
"...That's why the Prius' highway FE is actually less than an equivalent ICE only vehicle. No, or little ability to recover kinetic energy, use the ICE (high loss path/mode) to re(charge) the hybrid battery."
This is not so with the TCH, as the TCH is rated higher on the highway than the 4cyl ICE only Camry. 4cyl LE ICE, 33 highway, TCH, 38 highway.
You might see a couple of MPG improvement, but even that is doubtful. From what I have read, the Highlander Hybrid and 400h don't even run on pure electric very much, which is where the next generation Prius expects to get much of it's benefit.
It simply takes a lot of power to get a large vehicle moving from a standing stop. This, and the "luxury" requirement for plenty of pep, limit what Toyota can do.
My real beef with Toyota is that there is no I4 option on the Highlander Hybrid.