Harmonic distortion correction for 8-bit delay line ADC using gray code

Author

Hsun-Cheng Lee ; Abraham, J.A.

Author_Institution

Comput. Eng. Res. Center, Univ. of Texas at Austin, Austin, TX, USA

fYear

2014

fDate

12-15 March 2014

Firstpage

1

Lastpage

4

Abstract

Harmonic distortion correction (HDC) is an effective digital calibration technique to estimate and correct errors and distortions in an analog circuit. However, the convergence time is still a concern. In this paper, we propose the injection of a periodic 3-bit gray code sequence for HDC to digitally calibrate an 8-bit delay line ADC. In our simulation results, digital calibration with the gray code injection improves SNDR and SFDR to 42.5 dB and 45.4 dB, respectively, compared with the original SNDR of 25.6 dB and the original SFDR of 25.7 dB, with a 13.5 milliseconds calibration time, which is 64X faster than with injection of pseudorandom numbers (860 milliseconds). Also the SNDR converges to 41.6 dB after averaging 2²⁴ samples, while the SNDR with injection of pseudorandom numbers converges to 41.5 dB after 2³⁷ samples.

Keywords

Gray codes; analogue integrated circuits; analogue-digital conversion; calibration; delay lines; harmonic distortion; integrated circuit design; random number generation; HDC; SFDR; SNDR; analog circuit; delay line ADC; digital calibration technique; error correction; error estimation; gray code injection; harmonic distortion correction; periodic 3-bit gray code sequence; pseudorandom numbers; time 13.5 ms; Calibration; Convergence; Delay lines; Delays; Harmonic distortion; Reflective binary codes; Simulation; Analog-to-digital converter (ADC); calibration; delay line ADC;

fLanguage

English

Publisher

ieee

Conference_Titel

Test Workshop - LATW, 2014 15th Latin American

Conference_Location

Fortaleza

Type

conf

DOI

10.1109/LATW.2014.6841928

Filename

6841928