guru511

guru511 • Joined 3 months ago

Projects

3 Projects
guru511/BGR
further implementation of a sub-1V current-mode bandgap reference (BGR), focus will be on reducing the circuit area and supply voltage, enhancing integration in compact and low-power applications. By employing advanced layout techniques and optimized transistor sizing, the design will minimize silicon footprint while maintaining performance. Additionally, precision trimming and temperature compensation methods will be integrated to improve the stability and accuracy of the reference voltage, ensuring robust performance in varying conditions.
guru511/Current_Mode_BGR
For implementation of a sub-1V current-mode bandgap reference (BGR), focus will be on reducing the circuit area and supply voltage, enhancing integration in compact and low-power applications. By employing advanced layout techniques and optimized transistor sizing, the design will minimize silicon footprint while maintaining performance. Additionally, precision trimming and temperature compensation methods will be integrated to improve the stability and accuracy of the reference voltage, ensuring robust performance in varying conditions.
guru511/UNIC-CASS-Current-Mode-Bgr
further implementation of a sub-1V current-mode bandgap reference (BGR), focus will be on reducing the circuit area and supply voltage, enhancing integration in compact and low-power applications. By employing advanced layout techniques and optimized transistor sizing, the design will minimize silicon footprint while maintaining performance. Additionally, precision trimming and temperature compensation methods will be integrated to improve the stability and accuracy of the reference voltage, ensuring robust performance in varying conditions.