Transphorm eval board for single-phase AC-DC conversion

Author: EIS Release Date: Sep 10, 2020


Transphorm has launched an evaluation board for single-phase AC-to-DC power conversion up to 4kW using  bridgeless totem-pole power factor correction (PFC) topology with a traditional analogue control.

This pairing provides fast and easy access to the top-notch conversion efficiency made possible by Transphorm’s latest SuperGaNTM FETs without the need for firmware development required when using digital signal controllers (DSCs).

Transphorm’s innovation path for its high voltage GaN platform and related design tools centers on delivering best-in-class GaN Reliability, ease of Designability, ease of Drivability and high-volume Reproducibility (RDDR).

To that end, the TDTTP4000W065AN offers power systems engineers an upgrade in efficiency over standard CCM Boost PFC designs that use superjunction MOSFETs.

The evaluation kit is rated at 4 kW highline (180-260 V) and 2 kW lowline (90-120 V).

The main advantages of the analog totem-pole solution follow:

• Maintenance power—power required to support basic functionality such as powering up and supplying chipsets—is a relatively fixed amount in any system. Therefore, as an application’s power level decreases, the maintenance power becomes a larger percentage of the system’s overall power loss. When compared to a DSP solution, Transphorm’s analog board requires lower maintenance power at the onset, thereby increasing overall system efficiency.
• No DSP firmware programming is needed, suitable for standard CCM boost AC-to-DC PFC power stages.

For engineers requiring more design flexibility, Transphorm released the TDTTP4000W066C earlier this year. This DSC-based 4 kW AC-to-DC board also uses the bridgeless totem-pole PFC with the company’s SuperGaN FETs. However, it integrates a dsPIC33CK DSC board from Microchip that has been preprogrammed and is backed by dedicated firmware support.

The TDTTP4000W065AN employs Transphorm’s SuperGaN Gen IV TP65H035G4WS FETs in the board as the fast-switching leg with low-resistance Silicon MOSFETs in the slow-switching leg.

The resulting performance is similar to that of its digitally controlled counterpart, the TDTTP4000W066C.

The TP65H035G4WS is a 650-volt device with a 35 milliohm on-resistance in a TO-247 through-hole package with an inherently high thermal dissipation ability.

This feature eliminates the need to parallel devices for higher power output; a design method required by competitive surface-mount GaN solutions.

And, as with all other Transphorm GaN devices, the SuperGaN FETs can be driven with a threshold voltage (Vth) of 4 volts and standard off-the-shelf gate driver operating from 0 to 12 volts