![MP28160 | 5.5V/0.5A High-Efficiency Integrated Buck-Boost Converter with 3.3 V Fixed Output in 1.4x1.8mm CSP Package | MPS MP28160 | 5.5V/0.5A High-Efficiency Integrated Buck-Boost Converter with 3.3 V Fixed Output in 1.4x1.8mm CSP Package | MPS](https://media.monolithicpower.com/catalog/product/cache/ccb9ba928e4f463ae145b55d0127b66f/m/p/mp28160_tac.jpg)
MP28160 | 5.5V/0.5A High-Efficiency Integrated Buck-Boost Converter with 3.3 V Fixed Output in 1.4x1.8mm CSP Package | MPS
![MP2269 | Wide Input 3.3V - 30V, 1A, 12µA IQ , Synchronous, Step-Down Converter with External Soft Start and Power Good in Small 2x3mm QFN Package | MPS MP2269 | Wide Input 3.3V - 30V, 1A, 12µA IQ , Synchronous, Step-Down Converter with External Soft Start and Power Good in Small 2x3mm QFN Package | MPS](https://media.monolithicpower.com/catalog/product/cache/ccb9ba928e4f463ae145b55d0127b66f/M/P/MP2269__1109_1.jpg)
MP2269 | Wide Input 3.3V - 30V, 1A, 12µA IQ , Synchronous, Step-Down Converter with External Soft Start and Power Good in Small 2x3mm QFN Package | MPS
![ISL8105: 300kHz, Single-Phase Sync Buck Converter PWM Controller with Integrated MOSFET Gate Drivers _ BDTIC a Leading Distributor in China ISL8105: 300kHz, Single-Phase Sync Buck Converter PWM Controller with Integrated MOSFET Gate Drivers _ BDTIC a Leading Distributor in China](http://www.bdtic.com/image/intersil/isl8105-a.jpg)
ISL8105: 300kHz, Single-Phase Sync Buck Converter PWM Controller with Integrated MOSFET Gate Drivers _ BDTIC a Leading Distributor in China
![power - Choosing the correct Gate Driver for a MOSFET in a DC-to-DC Converter - Electrical Engineering Stack Exchange power - Choosing the correct Gate Driver for a MOSFET in a DC-to-DC Converter - Electrical Engineering Stack Exchange](https://i.stack.imgur.com/nMOAM.png)
power - Choosing the correct Gate Driver for a MOSFET in a DC-to-DC Converter - Electrical Engineering Stack Exchange
![Comparative efficiency analysis for silicon, silicon carbide MOSFETs and IGBT device for DC–DC boost converter | SpringerLink Comparative efficiency analysis for silicon, silicon carbide MOSFETs and IGBT device for DC–DC boost converter | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs42452-019-1778-4/MediaObjects/42452_2019_1778_Fig2_HTML.png)
Comparative efficiency analysis for silicon, silicon carbide MOSFETs and IGBT device for DC–DC boost converter | SpringerLink
![Energies | Free Full-Text | Multi-Objective Optimization of the Gate Driver Parameters in a SiC-Based DC-DC Converter for Electric Vehicles | HTML Energies | Free Full-Text | Multi-Objective Optimization of the Gate Driver Parameters in a SiC-Based DC-DC Converter for Electric Vehicles | HTML](https://www.mdpi.com/energies/energies-13-03720/article_deploy/html/images/energies-13-03720-g001-550.jpg)