eMobility: Extend runtime with high density power conversion
Learn how to develop better power delivery networks to enhance the performance, efficiency, and reliability of eMobility products
Case study: Autonomous electric shuttle
Advanced power module packaging optimizes available power, reliability and safety
Customer’s challenge
Low-voltage (48V) autonomous electric shuttles have advanced self-driving systems that navigate complex urban environments. The GPU and sensors are vital components for autonomous operation and rely on high-performance ATX power supplies. These supplies must be compact and lightweight to fit in the vehicle, operate with high efficiency to minimize heat, and maintain exceptional reliability. To keep up with evolving needs, the power system must be scalable to accommodate increasing GPU power requirements and adapt to higher voltage batteries. The main challenges were:
- Avoid overheating and improve thermal management
- Efficiently power GPU to increase functionality and safety
- A versatile and scalable solution to adapt to evolving needs
The Vicor solution
Vicor high-efficiency power modules ensure minimal heat dissipation, reducing the need for complex cooling solutions and maximizing power. This translates into higher available power and increased system reliability critical for safety. The high power density of Vicor modules saves space and weight to enable improved vehicle run time and optimize space on board for additional GPU power and functions.
Key benefits
Key benefits
Advanced packaging and high efficiency reduce cooling needs
Easy to scale solution to support advanced GPUs and navigation systems
Highly efficient power modules optimize power consumption increasing range and functionality
Power delivery network
A combination of Vicor PRM and NBM modules – Factorized Power Architecture – efficiently steps down a 36-75V input to a stable 12V output. This solution offers scalable performance up to 1,200 watts, ensuring seamless adaptation to the increasing demands of evolving processors. Vicor Zero-Voltage Switching (ZVS) buck converters provide direct, high-current (10A+) conversion from the battery to standard 5V and 3.3V logic rails. This direct conversion minimizes losses and ensures reliable power delivery to critical system components. This power delivery network allows for the vehicle to be retrofitted with a 400V battery by simply adding a bus converter module upstream of the PRM module.
Non-isolated regulated
Input: 48V (36 – 75V)
Output: 48V (5 – 55V)
Power: Up to 600W
Peak efficiency: 98%
As small as 22.0 x 16.5 x 6.73mm
Non-isolated fixed-ratio
Input: 36 – 60V
Output: 7.2 – 15.3V
Power: Up to 2400W
Efficiency: Over 98%
As small as: 23 x 17 x 5.2mm
Non-isolated regulated
Inputs: 12V (8 – 18V), 24V (8 – 42V), 48V (30 – 60V)
Output: 2.2 – 16V
Current: Up to 22A
Peak efficiency: Up to 98%
As small as 10.0 x 10.0 x 2.56mm
Resources
Resources for the design engineer
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Advanced power module packaging optimizes available power, reliability and safety in autonomous electric shuttles
Vicor high-efficiency power modules ensure minimal heat dissipation, reducing the need for complex cooling solutions and maximizing power
Providing kilowatts of power for auxiliary systems to a fuel-cell eVTOL aircraft
Vicor high-density power modules effectively manage kilowatts of power and reduce the energy needed for flight