Open Access Open Access  Restricted Access Subscription Access

Performance Analysis of a High-Speed High-Precision Dynamic Comparator


Affiliations
1 Department of Electronics and Communication Engineering, National Institute of Technology Delhi, New Delhi –110 040, India

Comparators are the key structure of any analog-to-digital-converters (ADCs). In recent days various low power and high-speed comparators have been introduced and reported by many researchers. This paper presents an examination of various kinds of comparators which is the second most generally utilized hardware block. The preamplifier stage is mainly concerned with the power of the comparator, while latch structure defines the overall comparison speed. Hence, both the stages of dynamic comparator need to be designed efficiently for achieving optimized performance. Proper optimization of transistors in the comparator circuit helps to achieve low power dissipation and operate at a sufficiently low offset voltage. All the circuit has been implemented and simulated using cadence virtuoso tool in 180 nm technology and uses a clock of frequency 500 MHz to control the two stages of the comparator and provides rail to rail input common-mode voltage. The power and delay of different comparator circuits have been analyzed. The results obtained from the analysis show that there is a 32% reduction in power and the comparator design was 29% faster as compared to the conventional circuit.
User
Notifications
Font Size

Abstract Views: 141




  • Performance Analysis of a High-Speed High-Precision Dynamic Comparator

Abstract Views: 141  | 

Authors

Vaithiyanathan Dhandapani
Department of Electronics and Communication Engineering, National Institute of Technology Delhi, New Delhi –110 040, India
Ashish Mishra
Department of Electronics and Communication Engineering, National Institute of Technology Delhi, New Delhi –110 040, India
Ankit Kumar
Department of Electronics and Communication Engineering, National Institute of Technology Delhi, New Delhi –110 040, India
Alok Kumar Mishra
Department of Electronics and Communication Engineering, National Institute of Technology Delhi, New Delhi –110 040, India
Sachin Singh
Department of Electronics and Communication Engineering, National Institute of Technology Delhi, New Delhi –110 040, India
Baljit Kaur
Department of Electronics and Communication Engineering, National Institute of Technology Delhi, New Delhi –110 040, India

Abstract


Comparators are the key structure of any analog-to-digital-converters (ADCs). In recent days various low power and high-speed comparators have been introduced and reported by many researchers. This paper presents an examination of various kinds of comparators which is the second most generally utilized hardware block. The preamplifier stage is mainly concerned with the power of the comparator, while latch structure defines the overall comparison speed. Hence, both the stages of dynamic comparator need to be designed efficiently for achieving optimized performance. Proper optimization of transistors in the comparator circuit helps to achieve low power dissipation and operate at a sufficiently low offset voltage. All the circuit has been implemented and simulated using cadence virtuoso tool in 180 nm technology and uses a clock of frequency 500 MHz to control the two stages of the comparator and provides rail to rail input common-mode voltage. The power and delay of different comparator circuits have been analyzed. The results obtained from the analysis show that there is a 32% reduction in power and the comparator design was 29% faster as compared to the conventional circuit.