Equalization for Electrical Links: Current Design Techniques and Future Directions

Equalization for Electrical Links: Current Design Techniques and Future Directions

Another article in this issue, the introductory article by Tony Chan Carusone, discussed how the limited bandwidth of an electrical channel causes distortion (e.g., broadening) of the pulses traveling from transmitter to receiver. Without compensating for such distortion, the maximum data rate of a...

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Veröffentlicht in:IEEE solid state circuits magazine 2015, Vol.7 (4), p.23-31
1. Verfasser: Bulzacchelli, John F.
Format: Artikel
Sprache:eng
Schlagworte:
Bandwidth
Channels
Circuits
Crosstalk
Decision feedback equalizers
Distortion
Equalization
Equalizers
Intersymbol interference
Links
Receivers
Transmitters
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Zusammenfassung:Another article in this issue, the introductory article by Tony Chan Carusone, discussed how the limited bandwidth of an electrical channel causes distortion (e.g., broadening) of the pulses traveling from transmitter to receiver. Without compensating for such distortion, the maximum data rate of a typical electrical link would be limited to only a few gigabits per second to avoid excessive intersymbol interference (ISI). The key to achieving dramatically higher data rates (up to 56 Gb/s in the latest proposed standards) is to employ channel equalization. This article describes the most common types of equalizers used in electrical links today.
ISSN:1943-0582
1943-0590
DOI:10.1109/MSSC.2015.2475996