Ampel Technologies made this project successful, in part because of the significant cost reduction and an improvement in performance and reliability. This electronic control of fuel switching between gasoline and gas has been an important contribution to the development of efficient hybrid cars. The conceptual design was carried out by a team of engineers with expertise in automotive electronics. The schematic design was carried out by a software tool for designing electrical schematics. The PCB layout was devised using a CAD tool for designing printed circuit boards. The production was carried out by a company that specializes in the production of electronic components for the automotive industry.
Results:
- 600% cost reduction
- Ultra cheap LIN controller design
- State-of-the-art components
- Two Layer PCB
An important goal of the project was to reduce the costs of the electronic control of the combustion metabolism. This has been achieved by using state-of-the-art components and an efficient design. Costs have been reduced by 600% compared to the previous solution. The control of the fire metabolism is carried out by a LIN interface. This is a simple and cost-effective way to communicate data between different electronic components. The LIN interface is designed to meet the specific requirements of the roasting metabolism. The electronic circuit is mounted on a two-layer PCB. This is a simple and cost-effective way to produce the circuit. The PCB is designed to properly connect the components and to protect the circuit from shock and vibration.