- Eliminates engine-shutdown-induced cabin vibration
- Faster transition from eMotor to ICE in hybrid vehicles
- Improves driver satisfaction
- Increases engine cranking speed for easier start-up
- Improves cold start
- Lowers cranking torque & current draw
- Reduces starter system wear
- Reduces crank and bearing starting loads and wear
- Simple, cost-effective design
- Compliments start-stop fuel savings strategies
- Increases driver willingness to use optional start-stop
During Start-up
When the engine is turned on, the ECU automatically activates the device to keep the engine valve open. This keeps the engine in a decompressed state, which decreases the cranking torque and allows the starter to spin the engine at a higher speed.
During Shutdown
Upon shutdown, the ECU activates the device to keep the engine valve open. By keeping the valve open, the engine is able to coast to a smooth shutdown without causing the cab to shake.
Cold Start Up
In cold temperatures when an inlet air heater is used, the engine can be turned over while decompressed. This allows pre-warming the inlet air and engine cylinders without the engine load from compression. This is especially important when battery levels are low due to freezing temperatures. After the warm-up period is completed, the engine compression can be reactivated and fueling can begin.
Active Decompression Technology is just one of the technologies touring the United States as part of our demonstration vehicle.
For a deeper dive into Active Decompression Technology, watch our Tech Talk video.