Torsen
Torsen Torque-Sensing is a type of limited-slip differential used in automobiles.
It was invented by American Vernon Gleasman and manufactured by the Gleason Corporation. Torsen is a portmanteau of Torque-Sensing. TORSEN and TORSEN Traction are registered trademarks of JTEKT Torsen North America Inc. All Torsen differentials have their origin in the Dual-Drive Differential that was invented and patented by Gleasman in 1958.
Use
Torsen differentials can be used in one or more positions on a motor vehicle:- center — used to apportion appropriate torque distribution between front and rear axles on an all-wheel drive vehicle.
- rear — used to apportion appropriate torque distribution between left and right sides in rear axles. This may be on either a rear-wheel drive or four-wheel drive vehicle.
- front — used to apportion appropriate torque distribution between left and right sides in front axles. This may be on either a front-wheel drive or four-wheel drive vehicle.
Types
, there are three types of Torsen differentials.- The original Torsen T-1 uses crossed axis helical gears to limit torque split. The Type I can be designed for higher torque bias ratios than the Type II, but typically has higher backlash and the potential for Noise, Vibration, and Harshness issues, and requires a precise setup/installation.
- The later Torsen T-2 uses a parallel gear arrangement to achieve a similar effect. There is also a specialist application of the T-2, known as the T-2R .
- The latest Torsen T-3 is a planetary type differential, in that the nominal torque split is not 50:50. The Type C is available as single or twin version; the Torsen twin C differential has front and center differential in the same unit.
Behaviour of Torsen differentials
The Torsen differential works just like a conventional differential, but can lock up if a torque imbalance occurs, the maximum ratio of torque imbalance being defined by the Torque Bias Ratio. When a Torsen has a 3:1 TBR, that means that one side of the differential can handle up to 75% while the other side would have to only handle 25% of applied torque. During acceleration under asymmetric traction conditions, so long as the higher traction side can handle the higher percentage of applied torque, no relative wheelspin will occur. When the traction difference exceeds the TBR, the slower output side of the differential receives the tractive torque of the faster wheel multiplied by the TBR; any extra torque remaining from applied torque contributes to the angular acceleration of the faster output side of the differential.The TBR should not be confused with the uneven torque-split feature in the planetary-type Torsen III. The planetary gearset allows a Torsen III center differential to distribute torque unevenly between front and rear axles during normal operation without inducing wind-up in the drivetrain. This feature is independent of the Torque Bias Ratio.
Torsens in front and/or rear axles
When a vehicle is in a turn, the outer wheel will rotate faster than the inner wheel. Friction in the differential will oppose motion, and that will work to slow the faster side and speed up the slower/inner side. This leads to asymmetric torque distributions in drive wheels, matching the TBR. Cornering in this manner will reduce the torque applied to the outer tire, leading to possibly greater cornering power, unless the inner wheel is overpowered. When the inner tire is overpowered, it angularly accelerates up to the outer wheel speed and the differential locks, and if the traction difference does not exceed the TBR, the outer wheel will then have a higher torque applied to it. If the traction difference exceeds the TBR, the outer tire gets the tractive torque of the inner wheel multiplied by the TBR, and the remaining applied torque to the differential contributes to wheel spin up.When a Torsen differential is employed, the slower-moving wheel always receives more torque than the faster-moving wheel. The Torsen T-2R RaceMaster is the only Torsen to have a preload clutch. So, even if a wheel is airborne, torque is applied to the other side. If one wheel were raised in the air, the regular Torsen units would act like an open differential, and no torque would be transferred to the other wheel. This is where the parking brake "trick" can help out. If the parking brake is applied, assuming that the parking brake applies even resistance to each side, then the drag to the airborne side is "multiplied" through the differential, and TBR times the drag torque is applied to the other side. So, the ground side would see minus drag torque, and that may restore motion either forward or in reverse. In Hummer/HMMWV applications, there are both front and rear Torsen differentials, so the use of the main brakes will operate this "trick" on both axles simultaneously.
Torsen users
Torsen differentials are used in many of the various Audi Quattro models, excluding the A3 and S3 and TT, which have transverse-mounted engines and use Haldex Traction 4WD systems.It is also used in the third- and fourth-generation Toyota Supra and third-generation Toyota Soarer, the B5 platform revision of the Volkswagen Passat 4motion, Mazda MX-5/Miata 1994 to 1995 have a Torsen Type I and late 1995 to 2002 models have a Torsen Type II, the 2002-2003 model year of the Nissan Maxima SE 6 speed manual, the Honda S2000, and 1999-2002 S15 Nissan Silvia Spec R. The Lancia Delta Integrale, the Peugeot 405 T16, as well as the 1999-2002 model Pontiac Firebird and Chevrolet Camaro, had a Torsen differential. Rover group fitted Torsen type 1, and later type 2, units to their range of high performance front wheel drive turbo models. The use of the Torsen differential was preferred by Rover group; it is much better at controlling wheel spin on front wheel drive vehicles than electronic systems which reduce engine power and therefore performance.
The Humvee uses two Torsens, front and rear, with a normal manually lockable center differential in the center.
Other users of the Torsen limited-slip differential include the Toyota 86 and the Subaru BRZ, both released in 2012.
The first Ford company vehicle to use a Torsen differential was the 2002 Ford Ranger FX4, renamed in 2003+ years to FX4 Level II, all of which used T-2R in the rear differential only. Starting in 2012, the Ford F-150 SVT Raptor uses a front Torsen differential and the Ford Mustang Boss 302 uses a rear Torsen differential.
AMG offered Torsen differentials as an option as early as 1988 for new as well as for retrofitting for 107, 116, 123, 126 series Mercedes Benz cars.
Toyota Altezza came with a torsen differential. For Lexus models it was included with all models with manual transmission, optional factory equipped with automatic transmission. The Toyota Altezza was standard on all manual transmission SXE10 models.
Torsen applications
Center
- Alfa Romeo Q4 versions: 156 Crosswagon & Sportwagon, 159, Brera & Spider Q4
- quattro versions of Audi:
- *Audi Quattro
- *Audi 80 & 90, Audi S2, Audi RS2 Avant
- *Audi 100 / Audi 200 / Audi 5000
- *Audi Coupé quattro
- *Audi A4, Audi S4, Audi RS4
- *Audi A5, Audi S5, Audi RS5
- *Audi A6, Audi S6, Audi RS6
- *Audi A7, Audi S7, Audi RS7
- *Audi A8, Audi S8
- *Audi allroad quattro
- *Audi Q5, Audi SQ5
- *Audi Q7, Audi SQ7
- *Audi Q8, Audi SQ8, Audi RSQ8
- *Audi V8
- Chevrolet TrailBlazer SS
- Lexus GX, LS 600h / LS 600h L, LX
- Mitsubishi Triton 5th Generation
- Range Rover L322
- Saab 9-7X Aero
- Toyota: 4Runner Limited, FJ Cruiser 6-speed manual, Toyota Landcruiser 200, Toyota Landcruiser 120/150, Toyota Sequoia, Toyota Celica GT-Four/All-trac ST165, ST185, ST205, Toyota Caldina GTT and GT-Four
- Volkswagen: Passat , Amarok
Center and rear
- Audi V8 with manual transmission
Front and rear axles
- Humvee
- Mitsubishi Pajero Evolution
Front axle only
- Honda/Acura Integra Type R
- Alfa Romeo: GT, 147 Q2
- Honda Civic Si
- Honda Civic 1.8 VTi Europe & UK
- Ford Focus RS
- Mitsubishi Pajero
- Nissan Maxima SE 6 Speed manual
- Nissan Sentra SE-R Spec-V
- Oldsmobile Calais W41
- Oldsmobile Achieva W41
- Rover 200 Coupe Turbo, 200 BRM/LE, 220 Turbo, 420 Turbo, 620 Ti, 820 Vitesse
- Honda Accord Type R
- Subaru Impreza STI after 2005
- Ford F-150 SVT Raptor starting with the 2012 model year
- Renault Megane RS
- Peugeot RCZ R
- Peugeot 208 GTI by Peugeot Sport
- Peugeot 308 GTI by Peugeot Sport
Rear axle only
- AMG retro-fitted and optional for: 107, 116, 123, 126 Mercedes cars
- Audi V8 with automatic transmission
- Audi R8
- Alfa Romeo: 155 Q4, 164 Q4
- BMW Z3
- Citroën BX 4x4 with ABS
- Dodge/Ram Heavy Duty 2003-Present Equipped with 11.5 AAM Rear Axle
- Ford Ranger FX4 2002 only, Ranger FX4 Level II 2003-2009
- Honda S2000
- Hyundai Genesis Coupe
- Lancia Delta Integrale
- Lexus IS, Lexus IS F, Lexus LC, Lexus LFA
- Maserati Biturbo
- Mazda: Miata/MX-5, RX-7, RX-8
- Nissan Silvia S15 SpecR
- Nissan Skyline R34 GTT, 25GT-X, 25GT-V Manual
- Peugeot 405 4x4 with ABS
- Peugeot 505 turbo sedan
- Subaru Impreza WRX STI
- Toyota Caldina ST215-W only
- Toyota Celica GT-Four, Toyota Supra, Toyota Soarer, Toyota Aristo, Toyota Mark II, Toyota Chaser, Toyota Cresta, Toyota Verossa, Toyota Altezza, Toyota RAV4 Limited
- Pontiac Firebird 4th Generation, only years 1999-2002
- Chevrolet Camaro 4th Generation, only years 1999-2002
- Chevrolet Camaro SS, Pontiac Fire Hawk & Comp T/A 4th Generation, option in years 1996-1997
- Subaru Legacy spec. B
- 2012 and 2013 Ford Mustang Boss 302, option. Standard on Laguna Seca Edition.
- 2014 Ford Mustang Shelby GT500, option.
- 2014 Ford Mustang GT, included in GT Track Package.
- 2015-2017 Ford Mustang GT, included in Performance Package.
- Toyota GT86
- Super Duty F-450/550 99-Current Ford.