ADC compensation using a sinewave histogram method

Author

Larrabee, J.H. ; Hummels, D.M. ; Irons, F.H.

Author_Institution

Dept. of Electr. & Comput. Eng., Maine Univ., Orono, ME, USA

Volume

1

fYear

1997

Firstpage

628

Abstract

The need for high dynamic range analog to digital converters (ADCs) is strong due to the growing use of digital signal processing in communications applications. ADC performance has improved over the years due to advances in both design concepts and semiconductor technologies. However most ADCs still still exhibit undesirable distortion in addition to quantization error, thus limiting spurious free dynamic range, (SFDR), in digital receiver applications. This paper describes a new method for developing ADC error function models using standard sinewave histogram methods. The method provides better error representation by providing error basis functions for every state. Results show this method is capable of removing all slope dependent errors in complex ADC error models and application to a 200 MSPS ADC showed more than 10 dB improvement in SFDR over the full Nyquist band for the ADC

Keywords

analogue-digital conversion; calibration; compensation; ADC compensation; design concepts; digital receiver applications; digital signal processing; error basis functions; error function models; error representation; full Nyquist band; quantization error; sinewave histogram method; slope dependent errors; spurious free dynamic range; Analog computers; Analog-digital conversion; Circuit testing; Dynamic range; Histograms; Iron; Quantization; State estimation; Transfer functions; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Instrumentation and Measurement Technology Conference, 1997. IMTC/97. Proceedings. Sensing, Processing, Networking., IEEE

Conference_Location

Ottawa, Ont.

ISSN

1091-5281

Print_ISBN

0-7803-3747-6

Type

conf

DOI

10.1109/IMTC.1997.604027

Filename

604027