SNOSDA7F September 2020 – August 2024 LMG3422R030 , LMG3426R030 , LMG3427R030
PRODUCTION DATA
Refer to the PDF data sheet for device specific package drawings
The slew rate of LMG342xR030 can be adjusted between approximately 20 V/ns and 150V/ns by connecting a resistor, RRDRV, from the RDRV pin to GND. The RDRV pin is a high-impedance node if a large RRDRV resistor is used. Therefore it can be susceptible to coupling from the drain or other fast-slewing high-voltage nodes if it is not well-shielded. This will manifest itself as an unstable switching dv/dt and in extreme cases transient faults due to the RDRV being detected as open. Shielding the pin in the layout should be a priority, however if this coupling is still a problem, a cap of up to 1nF from RDRV to GND can be added to stabilize the pin voltage.
The slew rate affects GaN device performance in terms of:
Generally, high slew rates provide low switching loss, but high slew rates can also create higher voltage overshoot, noise coupling, and EMI emissions. Following the design recommendations in this data sheet helps mitigate the challenges caused by a high slew rate. The LMG342xR030 offers circuit designers the flexibility to select the proper slew rate for the best performance of their applications.