Three improved operational amplifiers with low power low voltage

Kuo, Huan-Chou

10 July 2001

Three improved operational amplifiers with low voltage and rail-to-rail constant are proposed. Two of the amplifiers are modified from the amplifier with a level shifting circuit. One improved amplifier has fewer devices, higher speed, and reduced area and the other improved amplifier is added an additional adjustable gain. The third amplifier is a floating voltage controlled voltage source (FVCVS) amplifier, which has reduced area and improved frequency response. The first two level shifting operational amplifiers are designed in a 0.5£gm UMC CMOS process. They use about half number of devices. The supply voltage is 1.3V, and the current consumes just only 22.6¢H of the original circuits. The unity gain frequency increases 56.8%. The slew rate, CMRR and PSRR are higher. The 2nd amplifier still has a rail-to-rail constant gm; however, the gm can be adjusted. The third amplifier uses the 0.35£gm UMC CMOS process with 1.2V operating voltage. The gain-bandwidth product is 53.8¢H larger than the original circuits. No frequency compensation is used and the devices are fewer. The results are obtained in HSPICE simulation.

low power low voltage

CMOS operational amplifier

rail-to-rail

Návrh operačního zesilovače s nízkým napájecím napětím a nízkým příkonem / Design of low voltage low power Op-Amp

Kužílek, Jakub

January 2011

This work deals with issues of design and optimize of an operational amplifiers using CMOS transistor models. The main focus of work is to propose a circuit suitable for low voltage applications with low power. The proposed circuit consists of sub-circuits, each of which must operate in the desired voltage range. Detailed design of input and output stages will reach range of rail-to-rail type with a minimum quiescent current.