Paired disparity code
In this article, we will explore Paired disparity code and its impact on today's society. Paired disparity code has been a topic of interest and debate for a long time, and its relevance continues to be evident in various areas. Different perspectives and approaches that have emerged around Paired disparity code will be analyzed, as well as its evolution over time. In addition, the implications that Paired disparity code can have in different contexts will be addressed, from everyday life to the global level. This article will provide an exhaustive analysis of Paired disparity code and its influence on various aspects of society, with the aim of offering a comprehensive and enriching vision of this broad and significant topic.
In telecommunications, a paired disparity code is a line code in which at least one of the data characters is represented by two codewords of opposite disparity that are used in sequence so as to minimize the total disparity of a longer sequence of digits.
A particular codeword of any line code can either have no disparity (the average weight of the codeword is zero), negative disparity (the average weight of the codeword is negative), or positive disparity (the average weight of the codeword is positive).
In a paired disparity code, every codeword that averages to a negative level (negative disparity) is paired with some other codeword that averages to a positive level (positive disparity).
In a system that uses a paired disparity code, the transmitter must keep track of the running DC buildup – the running disparity – and always pick the codeword that pushes the DC level back towards zero. The receiver is designed so that either codeword of the pair decodes to the same data bits.
Most line codes use either a paired disparity code or a constant-weight code.
The simplest paired disparity code is alternate mark inversion signal. Other paired disparity codes include 8b/10b, 8B12B, the modified AMI codes, coded mark inversion, and 4B3T.
The digits may be represented by disparate physical quantities, such as two different frequencies, phases, voltage levels, magnetic polarities, or electrical polarities, each one of the pair representing a 0 or a 1.
References
This article incorporates public domain material from Federal Standard 1037C. General Services Administration. Archived from the original on 2022-01-22. (in support of MIL-STD-188).
