Losi LOSB0126 User Manual

15

Inboard Camber Location: The Ten-T has two different inner

locations with vertical adjustment for the front camber tie

rod. In general, the lower or further out the inside position is,

relative to the outside, the more camber gain (total camber

change through the total throw of the suspension) is present.

This is an adjustment that is difficult to make a generic

statement as it can have slightly different results in various

conditions. The following is a summary of how this adjustment

will usually impact the handling of the Ten-T. A longer front

camber link will usually make the Ten-T feel stiffer. This will help

keep the Ten-T flatter with less roll, but can make the Ten-T

handle worse in bumpy conditions, it also will make the Ten-T

easier to drive. A shorter front camber link will result in more

front end roll, which will provide more steering on tighter turns

with the loss of some stability. You will also lose some high-

speed steering but might gain some more steering response.

Too short of a front link may make the Ten-T feel “twitchy” or

“wandery” meaning that it may be difficult to drive straight at

high speed.

Inboard Camber Vertical Adjustment: Washers are often

used under the inner ball stud mounting location; this is one

of the most important adjustments on the Ten-T. You should

get a feel for how the number of washers affects the handling.

Adding washers will make the Ten-T more stable and keep the

front end flatter. This works well on higher traction surfaces.

Removing washers will make the steering more aggressive,

which works well on lower traction surfaces. This can be good

in some conditions, but can also make the Ten-T difficult

to drive in others. The best all-around adjustment is with

three washers as the vehicle comes built. The washers that

are used are included in an assortment package of washers

(LOSA6350). In general the upper hole will make the Ten-T

more stable and keep the front end flatter. This works well

on higher traction surfaces. The lower location will make the

steering more aggressive which works well on lower traction

surfaces. This can be good in some conditions but can also

make the Ten-T difficult to drive in others.

Toe-In/Out: This is the parallel relationship of the front tires to

one another. Toe-in/out adjustments are made by changing the

overall length of the steering tie rods. Toe-in (the front of the

tires point inward, to a point in front of the front axle) will make

the Ten-T react a little slower, but have more steering from the

middle of the turn, out. The opposite is true with toe-out (the

front of the tires point outward, coming to a point behind the

front axle), the Ten-T will turn into the corner better but with

a decrease in steering from the middle of the turn, out. Toe-in

will help the Ten-T to “track” better on long straight high-speed

runs, where toe-out has a tendency to make the Ten-T wander.

We recommend to run between 0-degree of toe-in/out to 1

degree of toe-in.

Tuning the Rear End of the Ten-T

Shock Location: Moving the shocks out on the arm will result

in less forward traction and let the Ten-T make more of an arc

through the exit of the turn. In general, when changing shock

locations on the arm, it will be necessary to go down one spring

rate when moving out on the arm.

Static Camber: Having the same definition as for the front end

and measured in the same fashion, rear camber can also be a

critical tuning feature. Testing has shown that running a small

amount of negative camber (.5-1 degree) is best. Increasing

negative rear camber (in the range of 1.5-3 degrees) will

increase stability and traction in corners, but decrease high-

speed stability. Decreasing rear camber (in the range of 0-1.5

degrees) will decrease stability and traction in corners, but will

increase high-speed stability.

Inboard Camber Location: The Ten-T has two inner camber

link locations. These locations work in the same fashion and

have the same effect as noted for the front. You will find that

you will get more noticeable changes with the outer locations

in the hub. In general the upper hole will make the Ten-T more

stable and keep the front end flatter. This works well on higher

traction surfaces. The lower location will make the steering

more aggressive which works well on lower traction surfaces.

This can be good in some conditions but can also make the

Ten-T difficult to drive in others.

Outboard Camber Location: Running the camber link in the

inside position on the hub will generate more rotation entering

a turn, but decrease steering on exit. Running the camber link

in the furthest outer position on the hub will generate more

stability entering a turn and increase steering on exit.

Toe-In: Having the same definition as for the front end, the toe-

in can be adjusted on the Ten-T with the rear hubs. The stock

toe-in is 3 degrees of inboard per side and 0 degrees in the hub.

Increasing rear toe-in will increase forward traction and initial

steering, but reduce straightaway speed. Decreasing rear toe-in

will decrease forward traction and “free-up” the Ten-T. Less toe-

in can be used to gain top speed.

Ride Height: This is the height of the chassis in relation to the

surface. It is an adjustment that affects the way your Ten-T

jumps, turns and goes through bumps. To check the ride

height, drop one end (front or rear) of the Ten-T from about a

5 to 6-inch height onto a flat surface. Once the Ten-T settles

into a position, check the height of that end of the Ten-T in

relationship to the surface. To raise the ride height, lower the

shock adjuster nuts on the shock evenly on the end (front or

rear) of the Ten-T that you are working on. To lower the ride

height, raise the shock adjuster nuts. Both left and right nuts

should be adjusted evenly. Check the setup sheet included and

for additional setup information visit www.losi.com.