The Electrician
Well-Known Member
- Joined
- February 4, 2011
- Messages
- 505
- Reaction score
- 16
- City, State
- Makkah
- Year, Model & Trim Level
- 2008 XLT 4WD V6
Hi every one
The main challenge that I had when I went through this project is: What is the type of the front end of the explorer?
After asking lots of people and after buying and retuning lots of LDS's (the Shipping and returning charges from USA to Saudi Arabia were killing me) finally I found that the 3rd and 4th Gen of the explorer shares the same type of front end (at least internal parts)
I found that the front end of the Explorer 3rd & 4th is: 27 spline Standard Rotation Dana Super 30/186 IFS Check Dana SPICER Light Axle Parts for Ford Applications - page 9
Dead Link Removed
And in the rear end it is: 31 spline Standard Rotation Ford 8.8 IRS
In the following a list contains the front and rear ends components with parts numbers, you just need to Google the part number that you like.
_ _ _ _ _ _ _ _ _ _
Carriers
Front End Carrier:
Carrier: 27 spline Dana 30 Carrier (Dana Super 30 carrier is a 30 spline)
Ring Gear Bolts: 10
Axle Shaft Spline Quantity: 27
Pinion Spline Count: 26
Ring Gear Rotation: Standard
Ring Gear Diameter: 7.200 in.
Pinion Shaft Diameter: 1.375 in.
Carrier Breaks: 3.54 ratio and numerically lower / 3.73 ratio and numerically higher
Carrier Breaks means that you need to change the carrier if you changed the gear ratio between the diff break ratio due to the deference of the thickness of the ring-gears which is compensated by the dimension of the carrier
Helical LSD Carrier
Available from TORSEN®
TORSEN® Dana 30 HN T-2 27T (3.73 Ratio and numerically higher) #975420-0831A
2.4:1 Bias Ratio
Also from Eaton
Truetrac Dana 30 (3.54 ratio and numerically lower) #912A584
3.0:1 Bias Ratio
Truetrac Dana 30 (3.73 ratio and numerically higher) #912A585
3.0:1 Bias Ratio
Note: The higher bias ratio, means more the torque available to the front axle can be transferred to the respective wheel with the most traction, to eliminate the open diff behavior on slippery coditions
Selectable Diff-Lock Carrier
Available from Eaton
ELocker Dana 30 (3.54 ratio and numerically lower) #19817-010
ELocker Dana 30 (3.73 ratio and numerically higher) #19818-010
Also from ARB Asp lynchy wa
Air Locker Dana 30 (3.54 ratio and numerically lower) #RD101
Air Locker Dana 30 (3.73 ratio and numerically higher) #RD100
Dead Link Removed
_ _ _ _ _ _ _ _ _ _
Rear End Carrier:
Carrier: 31 spline Standard Rotation Ford 8.8 Carrier
Ring Gear Bolts: 10
Axle Shaft Spline Quantity: 31
Pinion Spline Count: 30
Ring Gear Rotation: Standard
Ring Gear Diameter: 8.800 in.
Pinion Shaft Diameter: 1.626 in.
Carrier Breaks: N/A
There is no carrier break which means that the carrier is usable for all gear ratio and there is no need to change the carrier if you want to change the gear ratio unless you want to install a selectable locker or helical LSD or any type of full carrier locker
Helical LSD Carrier
Available form TORSEN® / Ford Racing
TORSEN® Ford 8.8" 31T T-2 #409200-0204G / Ford Racing Ford 8.8" TORSEN T-2 #M-4204-T31
2.2:1 Bias Ratio
TORSEN® Ford 8.8" 31T T-2R #975420-0200L / Ford Racing Ford 8.8" TORSEN T-2R #M-4204-T31H
4.0:1 Bias Ratio
Also form Eaton
TrueTrac Ford 8.8" #913A561
3.5:1 Bias Ratio
Note: The higher bias ratio, means more the torque available to the rear axle can be transferred to the respective wheel with the most traction, to eliminate the open diff behavior on slippery coditions
Selectable Diff-Lock Carrier
Available from Eaton
ELocker Ford 8.8 31T #19660-010
Also from ARB
Air Locker Ford 8.8 31T #RD81
_ _ _ _ _ _ _ _ _ _
My recommendations and conclusions regarding carrier:
The best helical LSD combination would be:
TrueTrac in front end, and Torsen T-2R in rear end.
The best price VS. function compromise would be:
TrueTrac in front end, and in rear end.
_ _ _ _ _ _ _ _ _ _
Ring and Pinion Gears set
Front End Ring and Pinion Gears set
Ring and Pinion Gears set: Standard Rotation Dana Super 30 Ring and Pinion Gears set (which is used for Jeep KJ Liberty (front): 2003 - 2011 and Jeep Grand Cherokee (front): 1999 - 2004)
Ring Gear Bolts: 10
Pinion Spline Count: 26
Ring Gear Rotation: Standard
Ring Gear Diameter: 7.200 in.
Pinion Shaft Diameter: 1.375 in.
Carrier Breaks: 3.54 ratio and numerically lower / 3.73 ratio and numerically higher
Carrier Breaks means that you need to change the carrier if you changed the gear ratio between the diff break ratio due to the deference of the thickness of the ring-gears which is compensated by the dimension of the carrier
Available ratio from Dana SPICER
3.55 - D30KJ-355LIB
3.73 - D30KJ-373LIB
4.10 - D30KJ-410LIB
Also from Yukon Gear & Axle
3.73 - YG D30HD-373L
Also from Nitro Gear
3.55 - D30KJ-355LIB-NG
3.73 - D30KJ-373LIB-NG
4.10 - D30KJ-410LIB-NG
Also As per Ronin8002 and as per Dead Link Removed: Standard Rotation Dana Super 30 and Standard Rotation Dana 30 (original design) utilize similar ring and pinion gears, the deference is in the bearings
Standard Rotation Dana 30 (original design) Ring and Pinion Gears set (which is used for Jeep CJ, Bronco: 1966-1970 and Scout: 1967-1974)
Ring Gear Bolts: 10
Pinion Spline Count: 26
Ring Gear Rotation: Standard
Ring Gear Diameter: 7.200 in.
Pinion Shaft Diameter: 1.375 in.
Carrier Breaks: 3.54 ratio and numerically lower / 3.73 ratio and numerically higher
Carrier Breaks means that you need to change the carrier if you changed the gear ratio between the diff break ratio due to the deference of the thickness of the ring-gears which is compensated by the dimension of the carrier
Available ratio from Yukon Gear & Axle
3.54 - YG D30-354
3.73 - YG D30-373
4.10 - YG D30-411
4.56 - YG D30-456
4.88 - YG D30-488
Also from Nitro Gear
3.54 - D30-354-NG
3.73 - D30-373-NG
4.10 - D30-411-NG
4.56 - D30-456-NG
4.88 - D30-488-NG
Also From Motive Gear
3.54 - D30-354
3.73 - D30-373
4.10 - D30-410
4.56 - D30-456
4.88 - D30-488
Also from Richmond Gear
3.54 - SD3002
3.73 - SD3003
4.10 - SD3004
4.56 - SD3005
4.88 - SD3006
_ _ _ _ _ _ _ _ _ _
Rear End Ring and Pinion Gears set
Ring and Pinion Gears set: Standard Rotation Ford 8.8 Ring and Pinion Gears Set
Ring Gear Bolts: 10
Pinion Spline Count: 30
Ring Gear Rotation: Standard
Ring Gear Diameter: 8.800 in.
Pinion Shaft Diameter: 1.626 in.
Carrier Breaks: N/A
There is no carrier break which means that the carrier is usable for all gear ratio and there is no need to change the carrier if you want to change the gear ratio unless you want to install a selectable locker or helical LSD or any type of full carrier locker
Available ratio From Ford Racing
3.55 - M-4209-G355A
3.73 - M-4209-F373N
4.10 - M-4209-G410A
4.56 - M-4209-G456
Also from Yukon Gear & Axle
3.55 - YG F8.8-355
3.73 - YG F8.8-373
4.11 - YG F8.8-411
4.56 - YG F8.8-456
4.88 - YG F8.8-488
Also from Nitro Gear
3.55 - F8.8-355-NG
3.73 - F8.8-373-NG
4.11 - F8.8-411-NG
4.56 - F8.8-456-NG
4.88 - F8.8-488-NG
Also From Motive Gear
3.55 - F888355
3.73 - F888373
4.10 - F888410
4.56 - F888456
4.88 - F888488
Also from Richmond Gear
3.55 - 49-0103-1
3.73 - 49-0104-1
4.10 - 69-0310-1
4.56 - 69-0312-1
4.88 - 69-0382-1
_ _ _ _ _ _ _ _ _ _
Overhaul & Installation Kits:
Front End Overhaul & Installation Kits:
Available from Yukon Gear & Axle
YK D30-SUP-FORD
Also From Motive Gear
R30LRAMKT
_ _ _ _ _ _ _ _ _ _
Rear End Overhaul & Installation Kits:
Available Kit From Ford Racing
M-4210-B2
_ _ _ _ _ _ _ _ _ _
Note: 3rd & 4th Gen axle shafts for both ends (front & rear) utilize a snap ring clip "Circlip" instead of C-Clip
_ _ _ _ _ _ _ _ _ _
The Project - Maximum Traction Solution - 4th Gen
Although, my Explorer become more capable off-roader after lifting it using the combination of Turxxx lift kit, Rancho QuickLift Loaded suspensions and a set of 32" LT265/70R17 Yokohama GeoLander A/T-S All Terrain Tires (Total Lift 3.8 inch after settling down)
Still I was looking for a way to improve the traction control system that is factory equipped in the 4th gen. Explorers
For a better understanding for my needs, let me review the traction control system in the Explorer
AdvancedTrac® with RSC consist of 4 systems working together and accumulating each other:
You can disable the AdvancedTrac® with RSC completely (by keep pressing "AdvancedTrac® with RSC button" located in the middle of the dashboard for more than 5 sec) till you reach the safety speed limit (25 mph) then all systems will be enabled and active
or disable systems 1, 2 and 3 only and keep Brake Traction Control working like an auto diff-lock either by engaging 4x4 low range or pressing "AdvancedTrac® with RSC button" momentarily (once for less than 1 sec.) till you reach the safety speed limit (25 mph) then all systems will be enabled and active
check page 274 in the owner manual in the following link:
http://www.motorcraftservice.com/?link=002&urlfile=/pubs/content/%7EWO8EXP/%7EMUS%7ELEN/41/08expog2e.pdf
This a video clip of my truck with stock open diff and AdvancedTrac® with RSC in action
Important Note: Brake Traction Control requires maintaining a consent accelerator application even with a spinning wheel
"Brake Traction Control" is great for passing axle twisters with ease (when a tire or even two become airborne)
The downside of "Brake Traction Control" are:
Combined with the need to drive - not tow - my Explorer to the trail heads and dunes, I was looking for a traction adding differential that would balance good on-road manners while still provinding a marked improvement in off-road traction. A selectable locker such as ARBs and ELockers were a possibility but struck me as too complex and especially too expensive. And autolockers held no interest for me due to their poor on-road handling characteristics. Not to mention that installing lockers in the rear axle is a very poor idea as it overloads the axle. This pointed me to a limited slip differential which would be much easier on the drivetrain and axles and offer much better road manners.
Clutch Pack Based LSD vs. Helical LSD:
Limited Slip Differentials or LSDs get a bad rap in the off-roading community for good reason. Often, they too easily allow wheel slippage and are a very minor improvement to an open diff. These LSDs have a pair of internal clutch packs under a pre-load to evenly split the torque to the left and right wheels. Offroad driving can easily overcome the clutch packs causing wheel slipage which can wear out or over heat the clutches. These LSDs require special friction modifiers and maintenance at servicing intervals. And typically don't hold up well to the rigors of the trail. In addition, LSDs depend on speed sensing to activate, resulting in a temporary loss of traction. and combine LSDs with Traction Control System yields a redundant configuration where each system is independent of the other and does not enhance the other's traction control capability in any way.
The Helical LSDs, however are a gear-type limited slip. That is, rather than relying on pre-loaded clutch packs the diff only transfer power to a non-slipping wheel when it senses a change in resistance torque (or tire traction). Instead of a series of clutch packs the torsen LSD has a set of internal helical gears that reside in special pockets within the differential case. The instant there is a torque imbalance these helical gears are forced out against the case which binds it up and transfers up to 2.2 - 3 times the available torque to the wheel with traction. With such an LSD there are no clutch packs to wear out, no special friction modifiers to add or anything. Also, helical LDSs are full-time, continuous-duty units, bearing the brunt of the traction management work while Traction Control System kicks in only under extreme conditions. Each system enhances the other, providing the ultimate Traction system.
And here are the most helpful reviews about helical LSD
http://www.fourwheeler.com/projectbuild/129_0608_2002_ford_ranger_fx4_differential_install/index.html
Here is the Technical specifications of the helical LSD:
Dead Link Removed
Dead Link Removed
Dead Link Removed
TORSEN Applications as OEM and after-market
Dead Link Removed
Eaton Differentials Application Guide
http://www.eaton.com/ecm/groups/public/@pub/@eaton/@per/documents/content/ct_128302.pdf
_ _ _ _ _ _ _ _ _ _
In the front end I used TORSEN T-2 helical LSD #975420-0831A
many thanks to Ranger Rick of Torsen.com for his help
and in the rear end I used Eaton TrueTrac helical LSD #913A561
In addition, I upgraded the axle ratio (changed the ring and pinion front and rear) from 3.55 into 3.73 in order to compensate the big tires that I use (32" LT265/70R17)
In the front end I used Dana SPICER Super 30 Standard Rotation 3.73 Ring & Pinion Set #D30KJ-373LIB
In the rear end I used Ford Racing Ford 8.8" Standard Rotation 3.73 Ring and Pinion Set #M-4209-F373N
and I used OEM bearings and installation hardware from ford dealer
The installation was a direct bolt on with out any problem
Here are some photos regarding installations:
The Front End
The components of the front end before installation:
and after installation
Now the rear end
and here are the components of the rear end before installation:
During break-in period (625 mile) I used cheep regular 90w140 diff oil for both ends
after that I exchange the regular oil with Motorcraft Synthetic Oil #XY-75w140-QL
The result was really fantastic, and the traction control does not bothering me any more, and this was a great upgrade for the Traction control system.
On-road Handling:
Because the Helical LSD acts as an open diff until there's a torque imbalance on-road driving characteristics are very benign. There is no understeer or pushing through corners as with an autolocker. Nor is there any chirping, racheting, popping or other harsh engagement/disengagement characteristics. For all intents and purposes it feels as if you're driving an open diff rig.
"Subtle" Traction Improvement:
Due to how the Helical LSD "engages" the way it works offroad is very subtle. Again, there are no theatrics when the Helical LSD engage and disengage. There are no buttons to push, no compressors to activate, no clanking or racheting. The Helical LSD simply transfers torque instantly and seemlessly from one wheel to the other all the time while AdvancedTrac® with RSC system kicks in only under extreme conditions (airborne tire for example), all that without affecting the Explorer ability to turn. The first time I took the Explorer off-road after the install I had a hard time determining if the LSDs were working, except that I wasn't getting any wheel spin and the Explorer kept going.
That's all guys and thanks for reading
The main challenge that I had when I went through this project is: What is the type of the front end of the explorer?
After asking lots of people and after buying and retuning lots of LDS's (the Shipping and returning charges from USA to Saudi Arabia were killing me) finally I found that the 3rd and 4th Gen of the explorer shares the same type of front end (at least internal parts)
I found that the front end of the Explorer 3rd & 4th is: 27 spline Standard Rotation Dana Super 30/186 IFS Check Dana SPICER Light Axle Parts for Ford Applications - page 9
Dead Link Removed
And in the rear end it is: 31 spline Standard Rotation Ford 8.8 IRS
In the following a list contains the front and rear ends components with parts numbers, you just need to Google the part number that you like.
_ _ _ _ _ _ _ _ _ _
Carriers
Front End Carrier:
Carrier: 27 spline Dana 30 Carrier (Dana Super 30 carrier is a 30 spline)
Ring Gear Bolts: 10
Axle Shaft Spline Quantity: 27
Pinion Spline Count: 26
Ring Gear Rotation: Standard
Ring Gear Diameter: 7.200 in.
Pinion Shaft Diameter: 1.375 in.
Carrier Breaks: 3.54 ratio and numerically lower / 3.73 ratio and numerically higher
Carrier Breaks means that you need to change the carrier if you changed the gear ratio between the diff break ratio due to the deference of the thickness of the ring-gears which is compensated by the dimension of the carrier
Helical LSD Carrier
Available from TORSEN®
TORSEN® Dana 30 HN T-2 27T (3.73 Ratio and numerically higher) #975420-0831A
2.4:1 Bias Ratio
Also from Eaton
Truetrac Dana 30 (3.54 ratio and numerically lower) #912A584
3.0:1 Bias Ratio
Truetrac Dana 30 (3.73 ratio and numerically higher) #912A585
3.0:1 Bias Ratio
Note: The higher bias ratio, means more the torque available to the front axle can be transferred to the respective wheel with the most traction, to eliminate the open diff behavior on slippery coditions
Selectable Diff-Lock Carrier
Available from Eaton
ELocker Dana 30 (3.54 ratio and numerically lower) #19817-010
ELocker Dana 30 (3.73 ratio and numerically higher) #19818-010
Also from ARB Asp lynchy wa
Air Locker Dana 30 (3.54 ratio and numerically lower) #RD101
Air Locker Dana 30 (3.73 ratio and numerically higher) #RD100
Dead Link Removed
_ _ _ _ _ _ _ _ _ _
Rear End Carrier:
Carrier: 31 spline Standard Rotation Ford 8.8 Carrier
Ring Gear Bolts: 10
Axle Shaft Spline Quantity: 31
Pinion Spline Count: 30
Ring Gear Rotation: Standard
Ring Gear Diameter: 8.800 in.
Pinion Shaft Diameter: 1.626 in.
Carrier Breaks: N/A
There is no carrier break which means that the carrier is usable for all gear ratio and there is no need to change the carrier if you want to change the gear ratio unless you want to install a selectable locker or helical LSD or any type of full carrier locker
Helical LSD Carrier
Available form TORSEN® / Ford Racing
TORSEN® Ford 8.8" 31T T-2 #409200-0204G / Ford Racing Ford 8.8" TORSEN T-2 #M-4204-T31
2.2:1 Bias Ratio
TORSEN® Ford 8.8" 31T T-2R #975420-0200L / Ford Racing Ford 8.8" TORSEN T-2R #M-4204-T31H
4.0:1 Bias Ratio
Also form Eaton
TrueTrac Ford 8.8" #913A561
3.5:1 Bias Ratio
Note: The higher bias ratio, means more the torque available to the rear axle can be transferred to the respective wheel with the most traction, to eliminate the open diff behavior on slippery coditions
Selectable Diff-Lock Carrier
Available from Eaton
ELocker Ford 8.8 31T #19660-010
Also from ARB
Air Locker Ford 8.8 31T #RD81
_ _ _ _ _ _ _ _ _ _
My recommendations and conclusions regarding carrier:
The best helical LSD combination would be:
TrueTrac in front end, and Torsen T-2R in rear end.
The best price VS. function compromise would be:
TrueTrac in front end, and in rear end.
_ _ _ _ _ _ _ _ _ _
Ring and Pinion Gears set
Front End Ring and Pinion Gears set
Ring and Pinion Gears set: Standard Rotation Dana Super 30 Ring and Pinion Gears set (which is used for Jeep KJ Liberty (front): 2003 - 2011 and Jeep Grand Cherokee (front): 1999 - 2004)
Ring Gear Bolts: 10
Pinion Spline Count: 26
Ring Gear Rotation: Standard
Ring Gear Diameter: 7.200 in.
Pinion Shaft Diameter: 1.375 in.
Carrier Breaks: 3.54 ratio and numerically lower / 3.73 ratio and numerically higher
Carrier Breaks means that you need to change the carrier if you changed the gear ratio between the diff break ratio due to the deference of the thickness of the ring-gears which is compensated by the dimension of the carrier
Available ratio from Dana SPICER
3.55 - D30KJ-355LIB
3.73 - D30KJ-373LIB
4.10 - D30KJ-410LIB
Also from Yukon Gear & Axle
3.73 - YG D30HD-373L
Also from Nitro Gear
3.55 - D30KJ-355LIB-NG
3.73 - D30KJ-373LIB-NG
4.10 - D30KJ-410LIB-NG
Also As per Ronin8002 and as per Dead Link Removed: Standard Rotation Dana Super 30 and Standard Rotation Dana 30 (original design) utilize similar ring and pinion gears, the deference is in the bearings
Standard Rotation Dana 30 (original design) Ring and Pinion Gears set (which is used for Jeep CJ, Bronco: 1966-1970 and Scout: 1967-1974)
Ring Gear Bolts: 10
Pinion Spline Count: 26
Ring Gear Rotation: Standard
Ring Gear Diameter: 7.200 in.
Pinion Shaft Diameter: 1.375 in.
Carrier Breaks: 3.54 ratio and numerically lower / 3.73 ratio and numerically higher
Carrier Breaks means that you need to change the carrier if you changed the gear ratio between the diff break ratio due to the deference of the thickness of the ring-gears which is compensated by the dimension of the carrier
Available ratio from Yukon Gear & Axle
3.54 - YG D30-354
3.73 - YG D30-373
4.10 - YG D30-411
4.56 - YG D30-456
4.88 - YG D30-488
Also from Nitro Gear
3.54 - D30-354-NG
3.73 - D30-373-NG
4.10 - D30-411-NG
4.56 - D30-456-NG
4.88 - D30-488-NG
Also From Motive Gear
3.54 - D30-354
3.73 - D30-373
4.10 - D30-410
4.56 - D30-456
4.88 - D30-488
Also from Richmond Gear
3.54 - SD3002
3.73 - SD3003
4.10 - SD3004
4.56 - SD3005
4.88 - SD3006
_ _ _ _ _ _ _ _ _ _
Rear End Ring and Pinion Gears set
Ring and Pinion Gears set: Standard Rotation Ford 8.8 Ring and Pinion Gears Set
Ring Gear Bolts: 10
Pinion Spline Count: 30
Ring Gear Rotation: Standard
Ring Gear Diameter: 8.800 in.
Pinion Shaft Diameter: 1.626 in.
Carrier Breaks: N/A
There is no carrier break which means that the carrier is usable for all gear ratio and there is no need to change the carrier if you want to change the gear ratio unless you want to install a selectable locker or helical LSD or any type of full carrier locker
Available ratio From Ford Racing
3.55 - M-4209-G355A
3.73 - M-4209-F373N
4.10 - M-4209-G410A
4.56 - M-4209-G456
Also from Yukon Gear & Axle
3.55 - YG F8.8-355
3.73 - YG F8.8-373
4.11 - YG F8.8-411
4.56 - YG F8.8-456
4.88 - YG F8.8-488
Also from Nitro Gear
3.55 - F8.8-355-NG
3.73 - F8.8-373-NG
4.11 - F8.8-411-NG
4.56 - F8.8-456-NG
4.88 - F8.8-488-NG
Also From Motive Gear
3.55 - F888355
3.73 - F888373
4.10 - F888410
4.56 - F888456
4.88 - F888488
Also from Richmond Gear
3.55 - 49-0103-1
3.73 - 49-0104-1
4.10 - 69-0310-1
4.56 - 69-0312-1
4.88 - 69-0382-1
_ _ _ _ _ _ _ _ _ _
Overhaul & Installation Kits:
Front End Overhaul & Installation Kits:
Available from Yukon Gear & Axle
YK D30-SUP-FORD
Also From Motive Gear
R30LRAMKT
_ _ _ _ _ _ _ _ _ _
Rear End Overhaul & Installation Kits:
Available Kit From Ford Racing
M-4210-B2
_ _ _ _ _ _ _ _ _ _
Note: 3rd & 4th Gen axle shafts for both ends (front & rear) utilize a snap ring clip "Circlip" instead of C-Clip
_ _ _ _ _ _ _ _ _ _
The Project - Maximum Traction Solution - 4th Gen
Although, my Explorer become more capable off-roader after lifting it using the combination of Turxxx lift kit, Rancho QuickLift Loaded suspensions and a set of 32" LT265/70R17 Yokohama GeoLander A/T-S All Terrain Tires (Total Lift 3.8 inch after settling down)
Still I was looking for a way to improve the traction control system that is factory equipped in the 4th gen. Explorers
For a better understanding for my needs, let me review the traction control system in the Explorer
AdvancedTrac® with RSC consist of 4 systems working together and accumulating each other:
- RSC Roll Stability Control – helps avoid vehicle rollover (system 1)
- ESC Electronic Stability Control – helps avoid skids or lateral slides (system 2)
- Traction control – Helps avoid drive-wheel-spin and loss of traction by using 2 deferent systems:
- Engine Traction Control (which kills the engine torque when a tire spins hard and dangerously) (system 3)
- Brake Traction Control (which will apply the break individually on a spinning tire) (system 4)
You can disable the AdvancedTrac® with RSC completely (by keep pressing "AdvancedTrac® with RSC button" located in the middle of the dashboard for more than 5 sec) till you reach the safety speed limit (25 mph) then all systems will be enabled and active
or disable systems 1, 2 and 3 only and keep Brake Traction Control working like an auto diff-lock either by engaging 4x4 low range or pressing "AdvancedTrac® with RSC button" momentarily (once for less than 1 sec.) till you reach the safety speed limit (25 mph) then all systems will be enabled and active
check page 274 in the owner manual in the following link:
http://www.motorcraftservice.com/?link=002&urlfile=/pubs/content/%7EWO8EXP/%7EMUS%7ELEN/41/08expog2e.pdf
This a video clip of my truck with stock open diff and AdvancedTrac® with RSC in action
Important Note: Brake Traction Control requires maintaining a consent accelerator application even with a spinning wheel
"Brake Traction Control" is great for passing axle twisters with ease (when a tire or even two become airborne)
The downside of "Brake Traction Control" are:
- The wheel needs to spin first before the system works
- The system over heats brake pads (show a warning on Instrument Cluster) and stops working till the pads cool down
- In soft sand or mud were momentum is needed at most the system slows the truck and lets it lose momentum
- The safety speed limit (25 mph) is very low and easily can be exceeded and all systems will be enabled and active. "AdvancedTrac® with RSC" will kill the engine torque when it detect a hard tire spin <---- this is what really bugges me off
- The system is very sensitive for bad driving techniques (Jerky accelerator application, too low gear selection, insufficient momentum)
Combined with the need to drive - not tow - my Explorer to the trail heads and dunes, I was looking for a traction adding differential that would balance good on-road manners while still provinding a marked improvement in off-road traction. A selectable locker such as ARBs and ELockers were a possibility but struck me as too complex and especially too expensive. And autolockers held no interest for me due to their poor on-road handling characteristics. Not to mention that installing lockers in the rear axle is a very poor idea as it overloads the axle. This pointed me to a limited slip differential which would be much easier on the drivetrain and axles and offer much better road manners.
Clutch Pack Based LSD vs. Helical LSD:
Limited Slip Differentials or LSDs get a bad rap in the off-roading community for good reason. Often, they too easily allow wheel slippage and are a very minor improvement to an open diff. These LSDs have a pair of internal clutch packs under a pre-load to evenly split the torque to the left and right wheels. Offroad driving can easily overcome the clutch packs causing wheel slipage which can wear out or over heat the clutches. These LSDs require special friction modifiers and maintenance at servicing intervals. And typically don't hold up well to the rigors of the trail. In addition, LSDs depend on speed sensing to activate, resulting in a temporary loss of traction. and combine LSDs with Traction Control System yields a redundant configuration where each system is independent of the other and does not enhance the other's traction control capability in any way.
The Helical LSDs, however are a gear-type limited slip. That is, rather than relying on pre-loaded clutch packs the diff only transfer power to a non-slipping wheel when it senses a change in resistance torque (or tire traction). Instead of a series of clutch packs the torsen LSD has a set of internal helical gears that reside in special pockets within the differential case. The instant there is a torque imbalance these helical gears are forced out against the case which binds it up and transfers up to 2.2 - 3 times the available torque to the wheel with traction. With such an LSD there are no clutch packs to wear out, no special friction modifiers to add or anything. Also, helical LDSs are full-time, continuous-duty units, bearing the brunt of the traction management work while Traction Control System kicks in only under extreme conditions. Each system enhances the other, providing the ultimate Traction system.
And here are the most helpful reviews about helical LSD
http://www.fourwheeler.com/projectbuild/129_0608_2002_ford_ranger_fx4_differential_install/index.html
Here is the Technical specifications of the helical LSD:
Dead Link Removed
Dead Link Removed
Dead Link Removed
TORSEN Applications as OEM and after-market
Dead Link Removed
Eaton Differentials Application Guide
http://www.eaton.com/ecm/groups/public/@pub/@eaton/@per/documents/content/ct_128302.pdf
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In the front end I used TORSEN T-2 helical LSD #975420-0831A
many thanks to Ranger Rick of Torsen.com for his help
and in the rear end I used Eaton TrueTrac helical LSD #913A561
In addition, I upgraded the axle ratio (changed the ring and pinion front and rear) from 3.55 into 3.73 in order to compensate the big tires that I use (32" LT265/70R17)
In the front end I used Dana SPICER Super 30 Standard Rotation 3.73 Ring & Pinion Set #D30KJ-373LIB
In the rear end I used Ford Racing Ford 8.8" Standard Rotation 3.73 Ring and Pinion Set #M-4209-F373N
and I used OEM bearings and installation hardware from ford dealer
The installation was a direct bolt on with out any problem
Here are some photos regarding installations:
The Front End
The components of the front end before installation:
and after installation
Now the rear end
and here are the components of the rear end before installation:
During break-in period (625 mile) I used cheep regular 90w140 diff oil for both ends
after that I exchange the regular oil with Motorcraft Synthetic Oil #XY-75w140-QL
The result was really fantastic, and the traction control does not bothering me any more, and this was a great upgrade for the Traction control system.
On-road Handling:
Because the Helical LSD acts as an open diff until there's a torque imbalance on-road driving characteristics are very benign. There is no understeer or pushing through corners as with an autolocker. Nor is there any chirping, racheting, popping or other harsh engagement/disengagement characteristics. For all intents and purposes it feels as if you're driving an open diff rig.
"Subtle" Traction Improvement:
Due to how the Helical LSD "engages" the way it works offroad is very subtle. Again, there are no theatrics when the Helical LSD engage and disengage. There are no buttons to push, no compressors to activate, no clanking or racheting. The Helical LSD simply transfers torque instantly and seemlessly from one wheel to the other all the time while AdvancedTrac® with RSC system kicks in only under extreme conditions (airborne tire for example), all that without affecting the Explorer ability to turn. The first time I took the Explorer off-road after the install I had a hard time determining if the LSDs were working, except that I wasn't getting any wheel spin and the Explorer kept going.
That's all guys and thanks for reading