TI introduces the industry's fastest isolated gate driver for high-voltage applications
Texas Instruments (TI) introduced the industry's fastest 5.7-kVRMS isolated dual-channel gate driver, the first of a new gate driver family in TI's isolation portfolio. The UCC21520's flexible, universal compatibility enables its use as an isolated driver in low-side, high-side, high-side/low-side or half-bridge power management designs. With its integrated components, advanced protection features and optimized switching performance, the UCC21520 enables designers to build smaller, more robust designs for enterprise, telecommunications, automotive and industrial applications. For more details, see www.ti.com/UCC21520-pr.
Developed for high-voltage applications where system protection and reliability are critical, the UCC21520 provides reinforced isolation of 5.7 kVRMS and surge immunity tested up to 12.8 kV, along with common-mode transient immunity greater than 100 V/ns. By delivering the industry's fastest propagation delay of 19 ns and the tightest channel-to-channel delay matching of less than 5 ns, the device enables high power density and efficiency, resulting in smaller solution size and reliable operation over end equipment lifetimes.
Key features and benefits of the UCC21520
- Higher power density for smaller solutions: The 4-A source and 6-A sink current of the UCC21520 reduce switching losses via faster rise times of 6 ns and fall times of 7 ns for a 1.8-nF load in high-frequency switch-mode power applications.
- Isolation robustness: With its surge protection that has been tested up to 12.8 kV and its noise immunity of greater than 100 V/ns, the new gate driver helps protect end equipment from conditions commonly found in data centers, factories and other high-voltage environments.
- Flexibility: With a wide input voltage of 3 V to 18 V, programmable dead-time control, and dual channeling and paralleling of outputs, the UCC21520 gives designers a single, flexible device for multiple applications.
- Low power consumption: The device's standby power, as low as 1 mA per channel, helps increase energy efficiency.
Complete power management design to maximize system performance
Engineers can pair the UCC21520 isolated gate driver with a TI controller to optimize their system performance. Analog controllers include the UCC28950 for phase-shifted full bridge designs, the UCC25600 for resonant mode power supplies and the UCC28070 for power factor correction (PFC). TI digital power controllers include the UCD3138 and C2000™ 32-bit microcontroller.
More details are available here.
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