Affiliation:
1. School of Microelectronics and School of Integrated Circuits (Provincial Key Laboratory of Semiconductor Devices and Integrated Circuit Design and Testing) Nantong University Nantong Jiangsu China
2. School of Information Science and Technology Nantong University Nantong Jiangsu China
3. Jiangsu Key Laboratory of Semiconductor Device and IC Design, Packaging and Testing Nantong University Nantong Jiangsu China
Abstract
AbstractAiming to address the timing skew mismatch in the time‐interleaved analog‐to‐digital converter (TIADC) system, this paper presents a timing skew mismatch calibration method based on a back propagation (BP) neural network optimized by an adaptive genetic algorithm (AGA). In this paper, a trained BP neural network is used to detect the timing skew mismatch in the TIADC system, and the variable delay line is used to calibrate it. In this paper, AGA is used to optimize the BP neural network, accelerating its training speed and improving the detection accuracy of timing skew mismatch in the system. The proposed approach boasts superior detection speed and accuracy compared to other methods. In this paper, an 18‐bit 1GS/S 4‐channel TIADC system is simulated and the timing skew mismatch in the system is corrected. Simulation results show that the proposed calibration method has fast detection speed, high detection accuracy, and calibration accuracy. After completing the timing skew mismatch correction, the performance of the TIADC system is dramatically improved. The effective number of bits (ENOB) of the system increases by 9.5 bits, and the spurious‐free dynamic range (SFDR) increases by 59.9 dB.
Funder
National Natural Science Foundation of China