Isolated gate driver operates at up to 225°C

Isolated gate driver operates at up to 225°C

New Products |
By eeNews Europe

The gate driver HADES v2 brings high reliability and extended life time in harsh environments, available in hermetic packages for extreme temperature applications up to 225°C, as well as in plastic packages for systems where extended life time is the priority and temperature doesn’t exceed 175°C.

The HADES v2 gate driver includes all the functions to drive the gates of power switches in an isolated, high voltage half bridge. The chipset uses three integrated circuits: HADES2P on the primary side, HADES2S on the secondary, and the recently introduced quad-diode ELARA. Both primary and secondary chips come in ceramic QFP 32 pins or in plastic QFP 44 pins.

The primary side IC (HADES2P) embeds a current-mode fly-back controller with an integrated 0.8Ohm – 80V switch, configurable non-overlapping and Under-Voltage Lockout (UVLO) fault management. It also includes a four channels isolated signal transceiver (2 Tx and 2 Rx) for PWM and fault signals transmission towards or back from secondary side through tiny pulse transformers.

The two secondary side ICs (HADES2S), one for the high side and one for the low side, include a 12A driver, UVLO, Desaturation and Over Temperature Protection (OTP) fault detection circuits, as well as a two channels isolated signal transceiver.

An Evaluation Kit (EVK-HADES2) is also available, which demonstrates a half-bridge built on the HADES v2 gate driver and two CISSOID’s NEPTUNE, a 10A/1200V SiC Mosfet. The kit includes a 60x55mm demonstration board with the half-bridge and the full documentation.

The thermal robustness of HADES v2 offers designers the freedom to locate the gate driver next to the power transistors, minimizing parasitic inductances, allowing fast switching and low switching losses. Reduced switching losses allow higher operating frequencies and result in a dramatic reduction of the size and weight of the capacitors and magnetic components. Furthermore, high operating temperatures reduce the cooling requirements and hence size and weight of the system.

Visit Cissoid at

If you enjoyed this article, you will like the following ones: don't miss them by subscribing to :    eeNews on Google News


Linked Articles