Title :
Computationally Efficient Determination of D/A and A/D Noise in Digital Transmultiplexers
Author_Institution :
Bell Labs., MA
fDate :
7/1/1982 12:00:00 AM
Abstract :
Component inaccuracies in the D/A and A/D converters found in digital transmultiplexers introduce noise to the signals being converted. When the imperfections considered include finite impedances of current sources in switched current source R/2R ladders (equivalent to nonzero impedances in switched voltage source converters), the number of computations needed to find the error at every level increases greatly. This paper presents a method to calculate error at every level with a reasonable amount of computer time by use of multidimensional Taylor series. In addition, an example of computing noise in 13 bit offset binary converter using statistics of group signals is given.
Keywords :
multiplexing equipment; transmultiplexing; 13 bit offset binary converter; A/D converters; D/A; accuracy noise; computations; computing noise; digital transmultiplexers; error; finite impedances; gain; group signal bandpass filters; group signals; mean square error probability distribution; multidimensional Taylor series; noise; nonzero impedances; quantization noise; statistics; switched current source R/2R ladders; switched voltage source converters; Circuit analysis; Circuit noise; Computer errors; Impedance; Multidimensional systems; Noise level; Resistors; Statistics; Taylor series; Voltage;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOM.1982.1095650
