KW electronic damping shutdown kit
Reliable deactivation of the standard electronic damper control – for the flawless operation of sport and coilover suspension systems.
Description
The KW electronic damping deactivation kit was specifically developed for vehicles with factory-installed, electronically controlled damping technology. When converting to a mechanical sport or coilover suspension, the deactivation kit simulates the original dampers, thus preventing error messages in the instrument cluster and entries in the fault memory. The system enables a clean, OEM-like suspension conversion without affecting the vehicle's electronics.
Chassis characteristics
- Flawless operation after chassis modification
- No warning messages in the instrument cluster
- Unchanged function of other vehicle systems
- Stable communication with the vehicle control unit
- OEM-like integration without interfering with the vehicle software
Settings
- Automatic simulation of the original damper signals
- No manual adjustment required
- Direct adaptation to the respective vehicle concept
- Ideal conditions for mechanical chassis without electronics
Technical Highlights
- Vehicle-specific electronics
- Plug-and-play connection to the standard wiring harness
- High-quality, durable components
- Discreet integration into the vehicle
- Designed for use with performance suspension systems
Advantages over simple resistor solutions
- No implausible error signals
- Long-term stable function
- Clean communication with the vehicle electronics
- No restrictions on other driver assistance systems
- Professional solution for high-quality chassis modifications
Scope of delivery
- Disablement modules for electronic dampers
- Vehicle-specific connection cables
- Assembly instructions
Notes
The deactivation kit is intended exclusively for vehicles with factory-installed electronic damper control. Installation should be carried out by qualified personnel. Recommended for use in combination with sport or coilover suspension systems.
© Kraftfahrzeug Technik Hannover (KTH)
