LS Mikroelektronik
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This paper presents the design of a high-voltage driver with an adapted level shifter for switching converters. The proposed HV-driver and level shifter are based on stacked standard CMOS, therefore the design is technology independent. The circuit is designed in 65-nm TSMC technology with a nominal voltage of 2.5 V and optimized for arbitrary supply voltages from 2.6 V to 6.0 V. This range is extended by 41.7% when compared against common drivers and level shifters with the circuit being suitable for a supply voltage range of 2.4 V between 2.6 V and 5.0 V. The total area of the designed level shifter is about 3.8% of that required for similar circuit in previous work.
This paper presents two high-voltage circuits used in power management, a switching driver for buck converter with optimized on-resistance and a low dropout (LDO) voltage regulator with 2-stacked pMOS pass devices. The circuit design is based on stacked MOSFETs, thus the circuits are technology independent.
This paper presents the design of a high-voltage differential amplifier using six different pre-input stage circuits to reduce high-voltage input levels to low-voltage signals. The proposed circuits are designed using 65 nm CMOS process technology with a nominal voltage of 2.5 V and a supply voltage of 5 V. The designs are based on stacked low-voltage standard CMOS transistors. The different pre-input stage circuits are compared to each other in terms of their circuit description, drawbacks, advantages and simulation results. The principle of the five designed pre-input stage circuits can be applied to higher voltage range input signals as well.
Design of high speed high-voltage drivers based on stacked standard CMOS for various supply voltages
(2013)
An efficiency-enchanced asynchronous buck converter with threshold compensated freewheeling diode
(2013)
A current mode 6-bit self-clocked tracking ADC with adaptive clock frequency for DC-DC converters
(2013)
Sigma-delta modulator
(2006)