LMG3422R030
600-V 30-mΩ GaN FET with integrated driver, protection and temperature reporting
LMG3422R030
- Qualified for JEDEC JEP180 for hard-switching topologies
- 600V GaN-on-Si FET with integrated gate driver
- Integrated high precision gate bias voltage
- 200V/ns FET hold-off
- 2.2MHz switching frequency
- 20V/ns to 150V/ns slew rate for optimization of switching performance and EMI mitigation
- Operates from 7.5V to 18V supply
- Robust protection
- Cycle-by-cycle overcurrent and latched short-circuit protection with < 100ns response
- Withstands 720V surge while hard-switching
- Self-protection from internal overtemperature and UVLO monitoring
- Advanced power management
- Digital temperature PWM output
- LMG3426R030 includes zero-voltage detection (ZVD) feature that facilitates soft-switching converters
- LMG3427R030 includes zero-current detection (ZCD) feature that facilitates soft-switching converters
The LMG342xR030 GaN FET with integrated driver and protection is targeted at switch-mode power converters and enables designers to achieve new levels of power density and efficiency.
The LMG342xR030 integrates a silicon driver that enables switching speed up to 150V/ns. TI’s integrated precision gate bias results in higher switching SOA compared to discrete silicon gate drivers. This integration, combined with TI’s low-inductance package, delivers clean switching and minimal ringing in hard-switching power supply topologies. Adjustable gate drive strength allows control of the slew rate from 20V/ns to 150V/ns, which can be used to actively control EMI and optimize switching performance. The LMG3426R030 includes the zero-voltage detection (ZVD) feature which provides a pulse output from the ZVD pin when zero-voltage switching is realized.The LMG3427R030 includes the zero-current detection (ZCD) feature which provides a pulse output from the ZCD pin when a positive drain-to-source current is detected .
Advanced power management features include digital temperature reporting and fault detection. The temperature of the GaN FET is reported through a variable duty cycle PWM output, which simplifies managing device loading. Faults reported include overcurrent, short-circuit, overtemperature, VDD UVLO, and high-impedance RDRV pin.
Similar products you might be interested in
Pin-for-pin with same functionality to the compared device
Similar functionality to the compared device
Technical documentation
Design & development
For additional terms or required resources, click any title below to view the detail page where available.
LMG342X-BB-EVM — LMG342x evaluation module
The LMG342X-BB-EVM is an easy-to-use breakout board to configure any LMG342xR0x0 half-bridge boards, such as the LMG3422EVM-043, as a synchronous buck converter. By providing a power stage, bias power and logic circuitry, this evaluation module (EVM) allows for quick measurements of the gallium (...)
LMG3422EVM-043 — LMG3422R030 600-V 30-mΩ half-bridge daughter card
LMG3422R0x0 LMG3425R0x0 LMG3522R030 and LMG3522R030-Q1 PLECS Simulation Model
SNOR029 — GaN CCM Boost PFC Power Loss Calculation Excel Sheet
Supported products & hardware
Products
Gallium nitride (GaN) power stages
SNOR030 — GaN CCM Totem Pole PFC Power Loss Calculation Excel Sheet
Supported products & hardware
Products
Gallium nitride (GaN) power stages
PMP23338 — 3.6kW single-phase totem-pole bridgeless PFC reference design with e-meter functionality
TIDA-010255 — 230VAC, 2kW three-phase GaN inverter reference design for robotics and servo drives
TIDA-010210 — 11-kW, bidirectional, three-phase ANPC based on GaN reference design
TIDA-010203 — 4-kW single-phase totem pole PFC reference design with C2000 and GaN
Package | Pins | CAD symbols, footprints & 3D models |
---|---|---|
VQFN (RQZ) | 54 | Ultra Librarian |
Ordering & quality
- RoHS
- REACH
- Device marking
- Lead finish/Ball material
- MSL rating/Peak reflow
- MTBF/FIT estimates
- Material content
- Qualification summary
- Ongoing reliability monitoring
- Fab location
- Assembly location
Support & training
TI E2E™ forums with technical support from TI engineers
Content is provided "as is" by TI and community contributors and does not constitute TI specifications. See terms of use.
If you have questions about quality, packaging or ordering TI products, see TI support.