An Error Amplifier With a Low Power Multi-Mode Voltage Clamper for Transient Enhancement and High Reliability

Abstract

This paper proposes a low power area-efficient multi-mode voltage clamper circuit called pseudo differential pair and applies it into an error amplifier (EA) which can be used in DC-DC converters as a practical design example. In addition to a normal amplifying mode, the error amplifier has two extra operation modes with the help of the voltage clamper, which can limit the maximum output voltage and the maximum sink current, respectively. By inserting this pseudo differential pair of only three transistors in the intermediate stage of the amplifier, a voltage-current feedback is introduced to achieve the voltage limiting function without bringing resistive load to the output stage or unwanted effects to the input stage. The frequency compensation of the EA is also reused in the voltage limiting loop to make the whole block more compact. The circuit is implemented in a $0.35~\mu \text{m}$ BCD process. The verification results match the theoretical analysis very well, which proves that the proposed voltage clamper can effectively enhance transient response of the converter control loop and improve system reliability. Only additional 0.001689 mm2 active area is occupied for about 2X transient speed improvement with fair open loop amplifying performance.