Static calibration – is a calibration that is performed in a controlled environment (Indoor shop with good lighting, level ground, and required space) with special targets placed in specific locations in front and around the vehicle. Also a scanner is required to communicate with the modules of that vehicle.
Dynamic calibration – also referred to as mobile calibration, is performed by driving your car for a prescribed distance, at a prescribed speed and in optimum weather conditions. A handheld device (scanner) that aids the process is attached to the car during the test. The purpose of this type of calibration is for the systems to get accustomed to the road so that they can be ready for all the functions they’re expected to perform.
The increase in complexity has brought about a challenge in the auto industry. You can no longer perform basic procedures or replace components and not worry about it affecting these driver assist systems. And if you happen to unplug or replace a component that is attached to these systems you will find that it will require a recalibration to clear a warning or check engine light. You can’t just clear the code. Here is a list of the most common procedure that require a recalibration:
The X-431 ADAS is the latest automotive calibration equipment. It works in conjunction with the LAUNCH scanners for calibration of camera- and radar-based ADAS systems. The X-431 ADAS allows the operator to locate the camera calibration panels and the radar reflector panel in the correct position to ensure the system calibration can be carried out quickly and accurately.
The X-431 ADAS is used to recalibrate the ADAS camera and radar, when the sensors have been removed, replaced or repaired.
ADAS stand for Advanced Driver Assist Systems- These systems are designed to create a safer environment for the driver and those around him. These systems help reduce the possibility of an accident or collision. They have been around since the late 1990’s but used in the early to mid 2000’s in the US with the use of Adaptive Cruise Control or ACC. These vehicle’s made use of LiDAR distance detection but only offered a warning to the driver. Those systems would be classified as a passive system. Todays systems are more advanced and integrated. They use multiple sensor inputs such as cameras and radar to assist and warn the driver of surrounding danger.
GM, Ford, Chrysler
Mercedes-Benz, BMW, Audi, Volkswagen,
MINI, Jaguar, Volvo, Fiat, SEAT, Skoda, SMART,
Renault, Land Rover, Opel, Citroen
Toyota, Lexus, Honda, Acura, Kia, Hyundai,
Nissan, Infiniti, Subaru, Suzuki, Mitsubishi,