A novel jitter equalization circuit is presented that addresses crosstalk-induced jitter in high-speed communication links. A simplified model of electromagnetic coupling demonstrates the generation of crosstalk-induced jitter. This model suggests an equalizer that compensates for the data-induced electromagnetic coupling between adjacent links. Additionally, a data-dependent jitter equalizer that provides separate adjustments of rising and falling edge deviations is presented. The circuits are implemented using 130 nm MOSFETs and operate at 5-10Gb/s. The results demonstrate reduced deterministic jitter and lower bit-error rate. At 10Gb/s, the crosstalk-induced jitter equalizer opens the eye at BER of 10^(-12) from 17ps to 45ps
This paper presents an adaptive far-end crosstalk cancellation scheme for a single-ended parallel re...
Both channel loss and crosstalk present system-level bottlenecks to high-speed wireline transceivers...
A small amount of jitter can quickly eat up timing budgets and create timing issues. Precise charact...
A novel jitter equalization circuit is presented that addresses crosstalk-induced jitter in high-spe...
This paper resolves the jitter impairment of non-return-to-zero data in transmission lines. The limi...
DoctorIn this thesis, transmitter circuits to compensate for the Crosstalk-induced jitter (CIJ) in p...
An equalization circuit is presented that reduces data-dependent jitter by aligning data transition ...
University of Minnesota Ph.D. dissertation. April 2009. Major: Electrical Engineering. Advisor: Rame...
As data rates move towards the Gbps regime, effects that may have been ignored at lower data rates a...
Data-dependent jitter limits the bit-error rate (BER) performance of broadband communication systems...
Abstract- This paper resolves the jitter impairment of non-return-to-zero data in transmission lines...
An equalization circuit is presented that reduces data-dependent jitter by aligning data transition ...
A novel approach to equalization of high-speed serial links combines both amplitude pre-emphasis to ...
A single-ended transmitter (Tx) is proposed to compensate for the crosstalk-induced jitter (CIJ) of ...
Data transfer rates on printed circuit boards are quickly approaching speeds that challenge the limi...
This paper presents an adaptive far-end crosstalk cancellation scheme for a single-ended parallel re...
Both channel loss and crosstalk present system-level bottlenecks to high-speed wireline transceivers...
A small amount of jitter can quickly eat up timing budgets and create timing issues. Precise charact...
A novel jitter equalization circuit is presented that addresses crosstalk-induced jitter in high-spe...
This paper resolves the jitter impairment of non-return-to-zero data in transmission lines. The limi...
DoctorIn this thesis, transmitter circuits to compensate for the Crosstalk-induced jitter (CIJ) in p...
An equalization circuit is presented that reduces data-dependent jitter by aligning data transition ...
University of Minnesota Ph.D. dissertation. April 2009. Major: Electrical Engineering. Advisor: Rame...
As data rates move towards the Gbps regime, effects that may have been ignored at lower data rates a...
Data-dependent jitter limits the bit-error rate (BER) performance of broadband communication systems...
Abstract- This paper resolves the jitter impairment of non-return-to-zero data in transmission lines...
An equalization circuit is presented that reduces data-dependent jitter by aligning data transition ...
A novel approach to equalization of high-speed serial links combines both amplitude pre-emphasis to ...
A single-ended transmitter (Tx) is proposed to compensate for the crosstalk-induced jitter (CIJ) of ...
Data transfer rates on printed circuit boards are quickly approaching speeds that challenge the limi...
This paper presents an adaptive far-end crosstalk cancellation scheme for a single-ended parallel re...
Both channel loss and crosstalk present system-level bottlenecks to high-speed wireline transceivers...
A small amount of jitter can quickly eat up timing budgets and create timing issues. Precise charact...