Packaging information
| Package | Pins QFM (MOF) | 9 |
| Operating temperature range (°C) -40 to 125 |
| Package qty | Carrier 250 | SMALL T&R |
Features for the LMG5200
- Integrated 15-mΩ GaN FETs and Driver
- 80-V Continuous, 100-V Pulsed Voltage Rating
- Package Optimized for Easy PCB Layout, Eliminating Need for Underfill, Creepage, and Clearance Requirements
- Very Low Common Source Inductance to Ensure High Slew Rate Switching Without Causing Excessive Ringing in Hard-Switched Topologies
- Ideal for Isolated and Non-Isolated Applications
- Gate Driver Capable of Up to 10 MHz Switching
- Internal Bootstrap Supply Voltage Clamping to Prevent GaN FET Overdrive
- Supply Rail Undervoltage Lockout Protection
- Excellent Propagation Delay (29.5 ns Typical) and Matching (2 ns Typical)
- Low Power Consumption
Description for the LMG5200
The LMG5200 device, an 80-V, 10-A driver plus GaN half-bridge power stage, provides an integrated power stage solution using enhancement-mode Gallium Nitride (GaN) FETs. The device consists of two 80-V GaN FETs driven by one high-frequency GaN FET driver in a half-bridge configuration.
GaN FETs provide significant advantages for power conversion as they have near zero reverse recovery and very small input capacitance CISS. All the devices are mounted on a completely bond-wire free package platform with minimized package parasitic elements. The LMG5200 device is available in a 6 mm × 8 mm × 2 mm lead-free package and can be easily mounted on PCBs.
The TTL logic compatible inputs can withstand input voltages up to 12 V regardless of the VCC voltage. The proprietary bootstrap voltage clamping technique ensures the gate voltages of the enhancement mode GaN FETs are within a safe operating range.
The device extends advantages of discrete GaN FETs by offering a more user-friendly interface. It is an ideal solution for applications requiring high-frequency, high-efficiency operation in a small form factor. When used with the TPS53632G controller, the LMG5200 enables direct conversion from 48-V to point-of-load voltages (0.5-1.5 V).