New-Tech Europe Magazine | Q4-2020 | Digital Edition

possible charge and discharge voltages at all times while communicating with the motor-inverter controller. It continuously calculates and updates the controller on how much current the battery can supply or accept, based on its state of charge (SoC). Power demand must be reduced at a low SoC, while regeneration must be limited at a higher SoC. The system also monitors the temperatures of all available cells in real time and feeds the results into the available power calculations. Additionally, it can open contactors to isolate the battery pack safely if a problem arises. The battery management system supports data logging and diagnostics, to log the DC-DC converter’s performance. This is not only to check fault status but also to provide feedback on the exact amount of current being delivered on all vehicles. Vicor DC-DC converter power modules The DC-DC converter power system uses four Vicor DCM3623 isolated, regulated DC-DC converter ChiP power modules to deliver a regulated 13.8V output from the battery pack with current levels up to 92 amps. Due to their low profile and small footprint, they are mounted in direct thermal contact with the micro- bore cooling plates that extend between the battery cells. Vicor power delivery network as designed by Delta Motorsport This was a critical advantage, as it was essential to devote maximum volume to the productive battery cells rather than on power electronics ‘overhead’. The DCM modules’ scalability and ease of paralleling enabled the modular power architecture, allowing Delta to customise the DC-DC PDN to the small footprint they needed without sacrificing power.

Image: Delta Motorsport was given the responsibility to design a new battery pack and associated electronics for the “tactical boost” for the British Touring Car Championship. Using a modular power delivery network (PDN), the system delivers high performance using 48VDC power source.

Delta Motorsport also used a Vicor PI3105, a small 60W isolated converter for an uninterruptable power supply (UPS), which supplies power to the battery pack electronics in order to maintain the safety systems when isolated from the vehicle power supply. The UPS also allows the electronics to be powered independently of the vehicle, enabling remote connection for systems checks. “British Touring Car Championship… Start your HYBRID engines”!

Vicor modular power components excelled during initial battery pack tests, with no de-rating necessary and no voltage sags. Future electric vehicles will inevitably need smaller, lighter and higher-efficiency power electronics to handle increasing performance demands. As manufacturers migrate to 48V batteries to handle this elevated power, the Vicor modular approach can improve power delivery network efficiency, reducing power losses and weight with smaller, lighter cable and connectors.

Image: Delta Motorsport designed a power delivery network that uses a 48VDC power source feeding four DC-DC converters connected in parallel, which together supply regulated 13.8V power at up to 92 amps (approximately 1.2 kilowatts of power). The load is shared by the four converters, although it can be fully supported by just three, i.e., N+1, or aviation-level redundancy.

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