Add to ORKGA digital transmitter pre-emphasis technique is presented that is based on pulse-width modulation, instead of finite impulse response (FIR) filtering. The technique fits well to future high-speed low-voltage CMOS processes. A 0.13 /spl mu/m CMOS transmitter achieves more than 5 Gb/s (2-PAM) over 25 m of standard RG-58U low-end coaxial copper cable. The test chip compensates for up to 33 dB of channel loss at the fundamental signaling frequency (2.5 GHz), which is the highest figure compared to literature
A four-level pulse-amplitude modulation (PAM-4) transceiver operating up to 64 Gb/s in 28-nm CMOS fu...
Recently, there is growing interest in high speed circuits for broadband communication, especially i...
A 10-Gb/s serial link transceiver is demonstrated using double-edged pulsewidth modulation (DPWM) to...
A digital transmitter pre-emphasis technique is presented that is based on pulse-width modulation, i...
A digital transmitter pre-emphasis technique is presented that is based on pulse-width modulation, i...
Abstract—A transmitter pre-emphasis technique for copper cable equalization is presented that is bas...
A digital transmitter pre-emphasis technique is presented that is based on pulse-width modulation, i...
Abstract-High-speed data links over copper cables can be effectively equalized using pulse-width mod...
A novel approach to equalization of high-speed serial links combines both amplitude pre-emphasis to ...
A novel approach to equalization of high-speed serial links combines both amplitude pre-emphasis to ...
With the recent surge in the demand for high data rates, communication over copper media faces new c...
In this paper the innovative time-domain pre-distortion method is proposed. This method (PWM-RC) use...
A 20Gb/s transmitter employing an analog filtering pre-emphasis equalization technique is presented....
A 20Gb/s transmitter employing an analog filtering pre-emphasis equalization technique is presented....
Global on-chip data communication is becoming a concern as the gap between transistor speed and inte...
A four-level pulse-amplitude modulation (PAM-4) transceiver operating up to 64 Gb/s in 28-nm CMOS fu...
Recently, there is growing interest in high speed circuits for broadband communication, especially i...
A 10-Gb/s serial link transceiver is demonstrated using double-edged pulsewidth modulation (DPWM) to...
A digital transmitter pre-emphasis technique is presented that is based on pulse-width modulation, i...
A digital transmitter pre-emphasis technique is presented that is based on pulse-width modulation, i...
Abstract—A transmitter pre-emphasis technique for copper cable equalization is presented that is bas...
A digital transmitter pre-emphasis technique is presented that is based on pulse-width modulation, i...
Abstract-High-speed data links over copper cables can be effectively equalized using pulse-width mod...
A novel approach to equalization of high-speed serial links combines both amplitude pre-emphasis to ...
A novel approach to equalization of high-speed serial links combines both amplitude pre-emphasis to ...
With the recent surge in the demand for high data rates, communication over copper media faces new c...
In this paper the innovative time-domain pre-distortion method is proposed. This method (PWM-RC) use...
A 20Gb/s transmitter employing an analog filtering pre-emphasis equalization technique is presented....
A 20Gb/s transmitter employing an analog filtering pre-emphasis equalization technique is presented....
Global on-chip data communication is becoming a concern as the gap between transistor speed and inte...
A four-level pulse-amplitude modulation (PAM-4) transceiver operating up to 64 Gb/s in 28-nm CMOS fu...
Recently, there is growing interest in high speed circuits for broadband communication, especially i...
A 10-Gb/s serial link transceiver is demonstrated using double-edged pulsewidth modulation (DPWM) to...