An Enhanced Strong ARM Comparator Circuit for Analog to Digital Converter Architectures

Abstract

Abstract: Technological innovations in the current century period have motivated professionals to make electronic gadgets smarter. These advancements are progressing at a brisk pace, facilitating faster changes and increase in computing power. Various technologies such as virtual reality, augmented reality, mobile internet, artificial intelligence, cloud computing, biometric devices, 3D printing machines, genomics, quantum computing, block-chain, industrial automation and robotics. In all these technologies, communications with nearby devices play a major role in its effective functioning. The demand for realizing a smart and better usage experience puts forth strict requirements on the design aspects of next-generation high speed low power CMOS receiver design. One of the major modules in the implementation of high speed low power CMOS receiver device is the analog to digital converter (ADC) architecture. In the process of conversion from analog to digital signals, Quantization and sampling operations are vital and are realized using comparator circuits. The comparator design has a significant role in the design of data converter architecture. Several comparator architectures exist, but StrongARM topology is discussed and implemented in this work due to its negligible static power dissipation and rail to rail output voltages. The proposed novel comparator architecture is designed and simulated in 180nm CMOS process using Cadence Virtuoso tool and operated at supply voltage of VDD=1.8V, a clock frequency of 50MHz