6 Channel High Speed SiC MOSFET/IGBT Gate Driver Board
GDX-4A6S1
Applications
✓ 6 Switch Isolated SiC/IGBT/MOSFET Gate Driver
✓ AC & Brushless DC Motor Drives
✓ 3 Phase PFC Rectifiers
✓ R&D Inverters
✓ 3 Phase PFC Rectifiers
✓ R&D Inverters
Features
✓ Suitable for 1200V SiCs, IGBTs & MOSFETs up-to 120A
✓ 30ns propagation delay, 100KV/us CMR
✓ 5MHz Max. Frequency Operation
✓ 20ns Min. Pulse Width
✓ 1200 Vdc working voltage with 3 KVac isolation
✓ Configurable dead-time, PWM/High-Low/Dual modes
Specifications
Parameter | Value | Unit | Parameter | Value | Unit |
---|---|---|---|---|---|
Output Channels | 6 | – | Output Voltage | +20/-5. +18/0, +15/0, +15/-5, +15/-15 | V |
Peak Output Current | 4 | A | Avg. Output Power per Channel | 500 | mW |
Input to Output Isolation | 3000 | Vac | Max. Working Insulation Voltage | 1200 | V |
Max. Propagation Delay | 30 | ns | Min. Common Mode Rejection (CMR) | 100 | kV/us |
Operating Temperature | -25 to +70 | °C | Maximum Frequency | 5 | MHz |
Input Modes | Configurable PWM / High-Low / Dual | – | Dead-Time | User Adjustable | – |
* Note 1: All ratings are given at Vs=15V and 25°C ambient temperature unless otherwise specified.
FAQs
How to choose gate resistance for my application?
Selecting the right value of the external gate resistance is essential in limiting the noise and energy loses in the switching operation and it’s selection may vary depending on the transistor being used. The data sheet of the transistor IC shows recorded test values of operation under optimal condition which also includes the value of external gate resistance (RGATE) which enables switching while minimizing turn on (Eon) and turn off (EOFF) loses.
How to select gate driver output voltage?
The optimal value of gate driver output voltage depends on the switch being used. Usually SiC FETs come in multiple recommended voltages such as +20/-5V, +18/0V and +15/-5V. You can find more information in Absolute Maximum Ratings table in switch datasheet.
What is the difference between IGBT & SiC gate driver?
SiC gate drivers have higher common mode rejection and low propagation delay as compared to IGBT gate drivers, making them suitable for higher speed applications while, at the same time, having all the advanced protection features.
How can I connect these gate driver boards to my circuit?
Each output channel of the gate driver board has a male plug connector which can be directly connected to the gate-source/emitter terminal with the selected gate resistance to provide with the required gate voltage for the switching operation.