Your search keyword '"ring amplifier"' showing total 2 results

1. A Pipelined Noise-Shaping SAR ADC Using Ring Amplifier

Author

Seung Jun Lee, Ki-Hyun Kim, Ju Yong Lee, and Hyungil Chae

Subjects

Comparator, TK7800-8360, Computer Networks and Communications, Computer science, Analog-to-digital converter, Noise shaping, law.invention, law, Electronic engineering, Hardware_INTEGRATEDCIRCUITS, Oversampling, Electrical and Electronic Engineering, filter mismatch, noise-shaping, pipelined SAR ADC, Amplifier, Successive approximation ADC, pipelined noise-shaping SAR ADC, ring amplifier, analog-to-digital converter, Hardware and Architecture, Control and Systems Engineering, Integrator, Signal Processing, Electronics, Electrical efficiency

Abstract

In this study, a pipelined noise-shaping successive-approximation register analog-to-digital converter (PLNS-SAR ADC) structure was proposed to achieve high resolution and to be free from comparator design requirements. The inter-stage amplifier and integrator of the PLNS-SAR ADC were implemented through a ring amplifier with high gain and speed. The ring amplifier was designed to improve power efficiency and be tolerant to process–voltage–temperature (PVT) variation, and uses a single loop common-mode feedback (CMFB) circuit. By processing residual signals with a single ring amplifier, power efficiency can be maximized, and a low-power system with 30% lower power consumption than that of a conventional PLNS-SAR ADC is implemented. With a high-gain ring amplifier, noise leakage is greatly suppressed, and a structure can be implemented that is tolerant of mismatches between the analog loop and digital correction filters. The measured signal to noise distortion ratio (SNDR) is 70 dB for a 5.15 MHz bandwidth (BW) at a 72 MS/s sampling rate (Fs) with an oversampling ratio (OSR) of 7, and the power consumption is 2.4 mW. The FoMS,SNDR&nbsp, (= SNDR + 10log10BW/Power) is 163.5 dB. The proposed structure in this study can achieve high resolution and wide BW with good power efficiency, without a filter calibration process, through the use of a ring amplifier in the PLNS-SAR ADC.

Published

2021

2. 2nd-Order Pipelined Noise-Shaping SAR ADC Using Error-Feedback Structure

Author

Jihyun Baek, Juyong Lee, Jintae Kim, and Hyungil Chae

Subjects

Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Signal Processing, analog-to-digital converter, noise-shaping, pipelined SAR ADC, pipelined noise-shaping SAR ADC, ring amplifier, Electrical and Electronic Engineering

Abstract

This paper presents a pipelined noise-shaping SAR (PLNS-SAR) ADC for high SNDR, wide bandwidth, and low power consumption. The proposed design achieves a sharp second-order NTF of an error feedback structure, without a multi-input comparator and additional residue amplifier. Additionally, the SNDR is improved via zero optimization. Additionally, the speed is enhanced via prediction logic and alternately using the passive switched capacitor FIR filter. This consequently achieves the high-power efficiency of the ADC. The simulated SNDR is 79.97 dB; it achieves a 12.5-MHz BW at a 175-MHz sampling rate, with OSR of 7. The total power consumption of the ADC is 4.27 mW at a 1.1-V supply. The FoMS,SNDR is 174.6 dB. The proposed structure achieves high resolution and wide bandwidth with good energy efficiency.

Published

2022