Bendix Commercial Vehicle Systems EC-60 ESP Controllers (Advanced Models) User Manual

11

To Maximize The Effectiveness Of ESP:

• Loads must be properly secured at all times.
• Drivers need to exercise extreme caution at all times,

and avoid sharp turns, sudden steering inputs or abrupt

lane changes at high speeds, particularly if:

› the vehicle hauls loads that could shift,

› the vehicle or load has a high or off-set center of

gravity (CG) when loaded, or

› the vehicle tows doubles or triples.

Truck Chassis Modifications

If the vehicle’s chassis components are altered (for example,

a wheel base extension or reduction, tag axle addition or

removal, a major body change such as conversion of a

tractor into a truck, or an axle, suspension, or steering system

component modification) the Bendix

®

ESP

®

system must be

disabled. Have a qualified mechanic replace the Advanced

EC-60 ECU with a Premium EC-60 ECU and secure the

X4 connector which will no longer be used. The ATC/ESP

indicator lamp would continue to function as an ATC indicator

lamp, and should be designated as ATC only.
WARNING: If a modified vehicle does not have

the ESP system disabled, serious vehicle braking

and performance issues could result, including

unnecessary ESP system interventions. This can lead

to a loss of control of the vehicle. In addition, remove

all cab signage (e.g. visor labels, etc.) used to show

that Bendix ESP was installed and make any necessary

notations in the vehicle manual(s), so that drivers do

not misunderstand which ABS options are installed

on the vehicle.

Sensor Location Modifications

The location and orientation of the Steering Angle Sensor

and Yaw Rate Sensor must not be altered. When servicing,

an identical component must be used in the same

orientation (using OEM brackets & torque requirements).

During installation follow the OEM leveling guidelines.

Steering Angle Sensor Re-Calibration

Whenever maintenance or repair work is performed to the

steering mechanism, linkage, steering gear, adjustment of

the wheel track, or if the steering angle sensor is replaced,

a recalibration of the Steering Angle Sensor must be

performed.
WARNING! If the Steering Angle Sensor is not

recalibrated, the yaw control system may not function

properly, which can result in incidents leading to loss

of vehicle control. See page 14 of this document for

more details on this procedure.

Dynamometer Test Mode

CAUTION: ATC and ESP must be disabled prior to

conducting any dynamometer testing. When the

Dynamometer Test Mode is engaged, ATC brake control

and engine control along with drag torque control and ESP

are turned off. This test mode is used to avoid torque

reduction or torque increase and brake control activation

when the vehicle is operated on a dynamometer for testing

purpose.

The Dynamometer Test Mode may be activated by pressing

and releasing the diagnostic blink code switch five times or

by using a hand-held or PC-based diagnostic tool.
Advanced EC-60

™

Contollers will remain engaged in the

Dynamometer Test Mode even if power to the ECU is

removed and re-applied. To exit the test mode, press and

release the blink code switch three times, or use a hand-

held or PC-based diagnostic tool.

Automatic Tire Size Calibration

The ECU requires a precise rolling circumference ratio

between steer axle and drive axle tires in order for ABS,

ATC, and ESP to perform in an optimal manner. For this

reason, a continuously monitoring process takes place

in which the precise ratio is calculated. This calculated

value is stored in the ECU memory provided the following

conditions are met:
1. Rolling-circumference ratio is within the permissible

range.

2. Vehicle speed is greater than approximately 12 MPH.
3. No acceleration or deceleration is taking place.
4. There are no active speed sensor diagnostic trouble

codes.

The ECU is provided with a ratio value of 1.00 as a default

setting. If the automatic tire size alignment calculates a

different value, this is used to overwrite the original figure

in the memory. This process adapts the ABS and ATC

function to the vehicle.

Acceptable Tire Sizes

The speed calculation for an exciter ring with 100 teeth is

based on a default tire size of 510 revolutions per mile.

This figure is based on the actual rolling circumference of

the tires, which varies with tire size, tire wear, tire pressure,

vehicle loading, etc.
The ABS response sensitivity is reduced when the actual

rolling circumference is excessive on all wheels. For a 100

tooth exciter ring, the minimum number of tire revolutions

per mile is 426, and the maximum is 567. The ECU will

set diagnostic trouble codes if the number of revolutions

is out of this range.
In addition, the size of the steer axle tires compared to

the drive axle tires also has to be within the ABS system

design. To avoid diagnostic trouble codes, the ratio of the

effective rolling circumference of the steer axle, divided by

the effective rolling circumference of the drive axle, must

be between 0.85 to 1.15.
CAUTION: The ESP system effectiveness relies on the

accuracy of vehicle speed. If a major change on the

tire sizes occurs such that odometer setting needs to

be changed, the Advanced ABS controller's setting of

tire sizes must be reprogrammed to new values at the

same time by a certified mechanic.