In this paper we present duobinary signaling as an alternative for signaling schemes like PAM4 and Ensemble NRZ that are currently being considered as ways to achieve data rates of 56 Gb/s over copper. At the system level, the design includes a custom transceiver ASIC. The transmitter is capable of equalizing 56 Gb/s non-return to zero (NRZ) signals into a duobinary response at the output of the channel. The receiver includes dedicated hardware to decode the duobinary signal. This transceiver is used to demonstrate error-free transmission for different PCB channel lengths including a state-of-the-art Megtron 6 backplane demonstrator
Highly integrated electronic driver and receiver ICs with low-power consumption are essential for th...
Abstract—High-speed electrical data transmission through low-cost backplanes is a particularly chall...
We investigate, by means of simulations, polarization-multiplexed (PolMux) quadrature duobinary (QDB...
In this paper we present duobinary signaling as an alternative for signaling schemes like PAM4 and E...
At last year’s DesignCon we presented duo-binary signaling as an alternative for PAM4 for data rates...
The increasing demand for bandwidth fuels the development towards high data rate electrical serial l...
Increasing line rates beyond 56Gb/s is a big challenge for transceiver front-ends. We discuss recent...
Duobinary modulation is a robust and attractive coding format for high-speed serial data transmissio...
Increasing data rates over electrical channels with significant frequency-dependent loss is difficul...
In recent chip-to-chip and backplane data transfers on printed circuit boards, data-rates are limite...
High-speed serial I/O links are limited in throughput due to intersymbol interference (ISI) and nois...
Recent advances in integrated opto-electronic devices and frontend circuits have made it possible to...
An integrated 2 x 28 Gb/s dual-channel duobinary driver IC is presented. Each channel has integrated...
The ever-increasing demand for more efficient data communication calls for new, advanced techniques ...
Transmission beyond 40 Gbit/s across a commercial Megtron 6, 11.5-inch electrical backplane is explo...
Highly integrated electronic driver and receiver ICs with low-power consumption are essential for th...
Abstract—High-speed electrical data transmission through low-cost backplanes is a particularly chall...
We investigate, by means of simulations, polarization-multiplexed (PolMux) quadrature duobinary (QDB...
In this paper we present duobinary signaling as an alternative for signaling schemes like PAM4 and E...
At last year’s DesignCon we presented duo-binary signaling as an alternative for PAM4 for data rates...
The increasing demand for bandwidth fuels the development towards high data rate electrical serial l...
Increasing line rates beyond 56Gb/s is a big challenge for transceiver front-ends. We discuss recent...
Duobinary modulation is a robust and attractive coding format for high-speed serial data transmissio...
Increasing data rates over electrical channels with significant frequency-dependent loss is difficul...
In recent chip-to-chip and backplane data transfers on printed circuit boards, data-rates are limite...
High-speed serial I/O links are limited in throughput due to intersymbol interference (ISI) and nois...
Recent advances in integrated opto-electronic devices and frontend circuits have made it possible to...
An integrated 2 x 28 Gb/s dual-channel duobinary driver IC is presented. Each channel has integrated...
The ever-increasing demand for more efficient data communication calls for new, advanced techniques ...
Transmission beyond 40 Gbit/s across a commercial Megtron 6, 11.5-inch electrical backplane is explo...
Highly integrated electronic driver and receiver ICs with low-power consumption are essential for th...
Abstract—High-speed electrical data transmission through low-cost backplanes is a particularly chall...
We investigate, by means of simulations, polarization-multiplexed (PolMux) quadrature duobinary (QDB...