RC F automotive reviews thread
#1021
Forum Administrator
iTrader: (2)
Hey guys let's please move the Caddy talk to car chat please. This thread is about RC-F automotive reviews.
#1022
Instructor
iTrader: (6)
RCF doesn't get my blood boiling like the ISF did. It just wasn't that big of a jump from the ISF. Equip an ISF with an OS giken, and some suspension, and I wouldn't even consider the RCF a jump at all.
There's also the counter-argument: perform mods on the RCF. And this is where I'll say back to square one: it still isn't that big of a jump.
But irrespective of the ISF, the RCF is a pretty mean machine.
There's also the counter-argument: perform mods on the RCF. And this is where I'll say back to square one: it still isn't that big of a jump.
But irrespective of the ISF, the RCF is a pretty mean machine.
#1023
Lexus Test Driver
Drift king Tsuchiya drifting the RCF
#1025
Driver School Candidate
Join Date: Mar 2015
Location: MD
Posts: 4
Likes: 0
Received 0 Likes
on
0 Posts
I am not sure how this TVD quite works yet, but it appears that the electronics apply some level of retardation to the driven wheels at corner entry, either by greatly squeezing the clutch packs or applying the brakes at differing levels through the ABS system, to help the turn in.
BMW M has electronic locking differential, which is basically a 1.5-way LSD in which the lockup is determined by electronics, but there is no retardation on any wheel to my best knowledge. You may have additional information though, would you happen to have a link or name of the system?
TIA.
BMW M has electronic locking differential, which is basically a 1.5-way LSD in which the lockup is determined by electronics, but there is no retardation on any wheel to my best knowledge. You may have additional information though, would you happen to have a link or name of the system?
TIA.
#1026
Lexus Test Driver
I am not sure how this TVD quite works yet, but it appears that the electronics apply some level of retardation to the driven wheels at corner entry, either by greatly squeezing the clutch packs or applying the brakes at differing levels through the ABS system, to help the turn in.
BMW M has electronic locking differential, which is basically a 1.5-way LSD in which the lockup is determined by electronics, but there is no retardation on any wheel to my best knowledge. You may have additional information though, would you happen to have a link or name of the system?
TIA.
BMW M has electronic locking differential, which is basically a 1.5-way LSD in which the lockup is determined by electronics, but there is no retardation on any wheel to my best knowledge. You may have additional information though, would you happen to have a link or name of the system?
TIA.
Lexus did the proper and right way (albeit much more expensive way) of having motors on each driving wheel that provide extra torque to the outer wheel to make it spin faster in order to get the car to rotate quicker.
Anyway
Last edited by 05RollaXRS; 03-29-15 at 10:00 PM.
#1027
Driver School Candidate
Join Date: Mar 2015
Location: MD
Posts: 4
Likes: 0
Received 0 Likes
on
0 Posts
That is the cheap and pseudo approach brands like Acura employ where it applies brakes on the inner wheels to make the car turn.
Lexus did the proper and right way (albeit much more expensive way) of having motors on each driving wheel that provide extra torque to the outer wheel to make it spin faster in order to get the car to rotate quicker.
Lexus did the proper and right way (albeit much more expensive way) of having motors on each driving wheel that provide extra torque to the outer wheel to make it spin faster in order to get the car to rotate quicker.
#1028
Pole Position
Join Date: Jul 2013
Location: NSW, Australia
Posts: 240
Likes: 0
Received 0 Likes
on
0 Posts
Australian comparo of the M4 and RCF.
http://www.drive.com.au/new-car-comp...25-1m5uft.html
Similar points to other reviews:
M4: Very fast but twitchy. More fun track car (as compared with RCF). Narrow power band and difficult to modulate, leading to being difficult to drive at the limit. Expensive. Interior rattles/trim issues.
RCF: Better sound. More livable as a daily driver. More progressive handling. Much cheaper than M4. Good performance. Thirsty.
Overall, in the video, they gave it to the RCF as a more well rounded car.
http://www.drive.com.au/new-car-comp...25-1m5uft.html
Similar points to other reviews:
M4: Very fast but twitchy. More fun track car (as compared with RCF). Narrow power band and difficult to modulate, leading to being difficult to drive at the limit. Expensive. Interior rattles/trim issues.
RCF: Better sound. More livable as a daily driver. More progressive handling. Much cheaper than M4. Good performance. Thirsty.
Overall, in the video, they gave it to the RCF as a more well rounded car.
#1030
Lexus' own info shows the torque in reverse direction of travel under braking, they call it "coastal torque" supposedly, and it seems to be applied to the inner real wheel as well in the case of the RC-F too. What you describe happens once you get on the throttle, and all proper LSD's do that, not specific to Torsen or VTD. How is the reverse torque provided, that is what I am wondering.
I'm assuming that during the initial turn-in while/after braking, there is an eLSD effect with the rear brake being applied to the inner rear wheel in order to affect the cornering radius. The clutch packs of the TVD can then properly distribute torque to the outside rear wheel once the vehicle is ready to accelerate out of the corner beyond the apex. I'm able to duplicate this perceived effect with the combination of having an eLSD and an aftermarket LSD on my IS.
#1031
Remember torque is a rotational force, not a rotational motion. So adding negative torque to the inside wheel will just cause that shaft to decelerate, not all of a sudden go backwards. Brakes are essentially negative torque if you want to think about it that way.
I'm assuming negative torque in the TVD is created by electronically "ungripping" the clutch plates. Ie slow the inside wheel not by braking, but by using that electronic motor to disengage some of the torque on the inside. With the diff transferring less torque to the inside wheel than it was before (ie negative torque) you get a yaw force rotating the car in the direction of the turn.
That being said, this is all a guess and a little more info from Lexus would be nice.
#1032
The pursuit of F
#1033
Lexus Test Driver
#1034
Lead Lap
That is the cheap and pseudo approach brands like Acura employ where it applies brakes on the inner wheels to make the car turn.
Lexus did the proper and right way (albeit much more expensive way) of having motors on each driving wheel that provide extra torque to the outer wheel to make it spin faster in order to get the car to rotate quicker.
Anyway
BMW M4 Versus Lexus RCF Drag Race | PistonHeadsTV - YouTube
Lexus did the proper and right way (albeit much more expensive way) of having motors on each driving wheel that provide extra torque to the outer wheel to make it spin faster in order to get the car to rotate quicker.
Anyway
BMW M4 Versus Lexus RCF Drag Race | PistonHeadsTV - YouTube
#1035
Lexus Test Driver
Which part? For Lexus? (see above for the brochure picture on TVD) or the Honda/Acura one? (can be found all over the internet).
Like this one for example:
"like Acura’s own Super Handling All-Wheel-Drive system — this is accomplished by simply braking the inside wheel while sending more power to the outside."
http://driving.ca/acura/rlx/reviews/...-hybrid-sh-awd
Like this one for example:
"like Acura’s own Super Handling All-Wheel-Drive system — this is accomplished by simply braking the inside wheel while sending more power to the outside."
http://driving.ca/acura/rlx/reviews/...-hybrid-sh-awd