All trademarks are the property of their respective owners.
DescriptionThe TPS543C20RVFR employs an internally compensated emulatedpeak-current-mode control, with a clock synchronizable, fixed-frequency modulator for EMI-sensitivePOL. The internal integrator and directly amplifying ramp tracking loop eliminate the need forexternal compensation over a wide range of frequencies thereby making the system design flexible,dense, and simple. Optional API and body braking help improve transient performance bysignificantly reducing undershoot and overshoot, respectively. Integrated NexFET? MOSFETs with low-loss switching facilitate high efficiency anddeliver up to 40 A in a 5-mm × 7-mmPowerStack? package with a layout friendly thermal pad. TwoTPS543C20RVFR devices can be stacked together to provide up to80-A point-of-load.
Feature
- Internally-Compensated Advanced Current Mode Control 40-A POL
- Input Voltage Range: 4 V to 14 V
- Output Voltage Range: 0.6 V to 5.5 V
- Integrated 3/0.9-mΩ StackedNexFET? Power Stage With Lossless Low-Side CurrentSensing
- Fixed Frequency - Synchronization to an External Clock and/or Sync Out
- Pin Strapping Programmable Switching Frequency
- 300 kHz to 2 MHz for Standalone
- 300 kHz to 1 MHz forStackable
- Stack 2× for up to 80 A With Current Share, Voltage Share, andCLK Sync
- Pin Strapping Programmable Reference from 0.6 V to 1.1 V With 0.5%Accuracy
- Differential Remote Sensing
- Safe Start-Up intoPrebiased Output
- High-Accuracy Hiccup Current Limit
- Asynchronous Pulse Injection (API) and Body Braking
- 40-pin, 5-mm × 7-mm LQFNPackage with 0.5-mm Pitch and Single Thermal Pad
- Create a Custom Design Using the TPS543C20 WiththeWEBENCH? Power Designer
All trademarks are the property of their respective owners.
DescriptionThe TPS543C20 employs an internally compensated emulatedpeak-current-mode control, with a clock synchronizable, fixed-frequency modulator for EMI-sensitivePOL. The internal integrator and directly amplifying ramp tracking loop eliminate the need forexternal compensation over a wide range of frequencies thereby making the system design flexible,dense, and simple. Optional API and body braking help improve transient performance bysignificantly reducing undershoot and overshoot, respectively. Integrated NexFET? MOSFETs with low-loss switching facilitate high efficiency anddeliver up to 40 A in a 5-mm × 7-mmPowerStack? package with a layout friendly thermal pad. TwoTPS543C20 devices can be stacked together to provide up to80-A point-of-load.
