Datasheet GS66508T (GaN Systems) - 10
Fabricante | GaN Systems |
Descripción | 650V Enhancement Mode GaN Transistor |
Páginas / Página | 17 / 10 — Application Information Gate Drive. Parallel Operation |
Formato / tamaño de archivo | PDF / 1.0 Mb |
Idioma del documento | Inglés |
Application Information Gate Drive. Parallel Operation
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GS66508T Top-side cooled 650 V E-mode GaN transistor Preliminary Datasheet
Application Information Gate Drive
The recommended gate drive voltage is 0 V to + 6 V for optimal RDS(on) performance and long life. The absolute maximum gate to source voltage rating is specified to be +7.0 V maximum DC. The gate drive can survive transients up to +10 V and – 20 V for pulses up to 1 µs. These specifications allow designers to easily use 6.0 V or even 6.5 V gate drive settings. At 6 V gate drive voltage, the enhancement mode high electron mobility transistor (E-HEMT) is fully enhanced and reaches its optimal efficiency point. A 5 V gate drive can be used but may result in lower operating efficiency. Inherently, GaN Systems E-HEMT do not require negative gate bias to turn off. Negative gate bias ensures safe operation against the voltage spike on the gate, however it increases the reverse conduction loss. For more details, please refer to the gate driver application note "GN001 How to Drive GaN Enhancement Mode Power Switching Transistors” at www.gansystems.com. Similar to a silicon MOSFET, the external gate resistor can be used to control the switching speed and slew rate. Adjusting the resistor to achieve the desired slew rate may be needed. Lower turn-off gate resistance, RG(OFF) is recommended for better immunity to cross conduction. Please see the gate driver application note (GN001) for more details. A standard MOSFET driver can be used as long as it supports 6V for gate drive and the UVLO is suitable for 6V operation. Gate drivers with low impedance and high peak current are recommended for fast switching speed. GaN Systems E-HEMTs have significantly lower QG when compared to equally sized RDS(on) MOSFETs, so high speed can be reached with smaller and lower cost gate drivers. Many non-isolated half bridge MOSFET drivers are not compatible with 6 V gate drive for GaN enhancement mode HEMT due to their high under-voltage lockout threshold. Also, a simple bootstrap method for high side gate drive will not be able to provide tight tolerance on the gate voltage. Therefore, special care should be taken when you select and use the half bridge drivers. Alternatively, isolated drivers can be used for a high side device. Please see the gate driver application note (GN001) for more details.
Parallel Operation
The dual gate drive pins are used to achieve balanced gate drive, especially useful in parallel GaN transistors operation. Both gate drive pins are internally connected to the gate, so only one needs to be connected. Connecting both may lead to timing improvements at very high frequencies. The two gates on the GS66508T top-side cooled device are not designed to be used as a signal pass-through. When multiple devices are used in parallel, it is not recommended to use one gate connection to the other (on the same transistor) as a signal path for the gate drive to the next device. Design wide tracks or polygons on the PCB to distribute the gate drive signals to multiple devices. Keep the drive loop length to each device as short and equal length as possible. GaN enhancement mode HEMTs have a positive temperature coefficient on-state resistance which helps to balance the current. However, special care should be taken in the driver circuit and PCB layout since the device switches at very fast speed. It is recommended to have a symmetric PCB layout and equal gate drive loop length (star connection if possible) on all parallel devices to ensure balanced dynamic current sharing. Adding a small gate resistor (1-2 Ω) on each gate is strongly recommended to minimize the gate parasitic oscillation. Rev 180424 © 2009-2018 GaN Systems Inc. 10 This information pertains to a product under development. Its characteristics and specifications are subject to change without notice. Submit datasheet feedback