Advanced Tuning Adjustments - Traxxas E Revo 5605 Owner's Manual

28 • E-Revo

Advanced Tuning Adjustments

This advanced tuning guide will take you one step further into the
cutting edge technology that has been designed into E-Revo. Follow
the instructions provided here to take advantage of E-Revo's maximum
performance potential.
SUSPEnSIon AnD AlIGnMEnT SETTInGS
Caster adjustment shims (2 front, 2 rear)
Caster Adjustment
The caster angle of the front
suspension may be used to adjust
the understeer (push)/oversteer
handling characteristics of the
model. Generally, increasing the
caster angle will move the truck
towards an oversteer condition
(more traction on the front tires, less
on the rear tires). Decreasing the
caster angle will create a tendency
towards understeer (pushing in the
turns). From the factory, the front
suspension is set to a caster angle of
Ground plane
10-degrees. The rear caster angle is
not adjustable. The caster angle
of the front suspension can be
adjusted from 5° to 15°. Adjust
Caster
the caster by positioning the
5.0°
caster adjustment shims on the
7.5°
upper control arms of the front
10.0°
suspension as shown in the
12.5°
table to the right.
15.0°
Caster Angle, and Bump Steer
Bump steer is unwanted change in the steering angle of the front wheels
as the suspension travels up and down. It can result in unstable and
unpredictable handling. Bump steer is affected by the position of the
outer toe link end on the axle carrier. From the factory, the toe links are
positioned so that bump steer is virtually eliminated (about 3/100 of
a degree through the entire range of travel). When the caster angle is
changed, the outer toe link end should be repositioned on the axle carrier
to maintain zero bump steer geometry. Adjustment is achieved using the
shims and hollow balls provided with the vehicle. Refer to the Bump Steer
Elimination chart on page 29, and look up your caster angle setting to
find the correct position for the outer toe links. Positioning the toe-links
correctly will maintain the original factory geometry and eliminate the
unwanted steering angle changes caused by bump steer.
Roll Center
There are two holes on the
bulkheads to mount each upper
suspension arm. The roll center
of the vehicle can be raised by
mounting the upper control arm in
the lower of the two holes. This will
effectively increase the roll stiffness
of the vehicle (similar to installing
swaybars). Adding roll resistance to
one end of the vehicle will tend to
add traction to the opposite end. For example, increasing roll resistance in
the rear by installing the upper arms in the lower holes will provide more
traction for the front wheels and potentially more steering. Installing the
upper arms in the lower holes on the front and rear will increase overall
roll resistance without changing the handling balance. The arms are
installed in the upper position from the factory to make the truck easier
and more forgiving to drive and less likely to traction roll in turns. The
10°
lower holes should be reserved for track tuning. Note: When the upper
suspension arms are moved to the lower holes, the front outer toe link
ends and the rear toe control links should be repositioned to eliminate
bump steer. Refer to the Bump Steer Elimination chart on page 29,
Number & Position of Caster Adjustment
Shims (Front Upper Control Arm)
and look up your suspension combination (caster angle and roll center
In Front of Behind Hinge
position) to find the correct position for the front outer toe links and the
Hinge Pin Boss Pin Boss
rear toe control links. Adjustment is achieved using the shims and hollow
None Four
balls provided with the vehicle.
One Three
Rockers (Progressive Rate/ Suspension Travel)
Two Two
One of the most exciting aspects of E-Revo's suspension is the inboard
Three One
shock (damper) arrangement that uses pivoting rockers to translate
Four None
vertical wheel travel into linear shock motion. The rockers can be changed
to increase or decrease the maximum wheel travel and also to change the
progressive rate of the suspension.
The progressive rate determines how much the force at the wheel
produced by the springs being compressed (wheel force) will vary with
suspension travel (or vertical travel of the wheel). On a progressive
suspension arrangement, the wheel force will increase at a faster and
faster rate as the suspension is compressed. It feels as though the shock
spring gets progressively stiffer the more you compress the suspension.
On a linear suspension arrangement, the wheel force increases linearly as
the suspension is compressed. The spring does not feel any stiffer, even
when the suspension is fully compressed. This provides a very "plush"
feeling suspension with seemingly bottomless suspension travel.
Upper Control Arm
Upper Mounting Holes
Upper Control Arm
Lower Mounting Holes