Add to ORKGAbstract—This paper describes a 20-Gb/s continuous-time adaptive passive equalizer utilizing on-chip lumped RLC components. Passive equalizers offer the advantages of higher bandwidth and lower power consumption compared with conventional designs using active filter. A low-power, continuous-time servo loop is designed to automatically adjust the equalizer frequency response for the optimal gain compensation. The equalizer not only adapts to different channel characteristics, but also accommodates temperature and process variations. Implemented in a 0.25-µm, 1P6M BiCMOS process, the equalizer can compensate up to 20 dB of loss at 10 GHz while only consumes 32 mW from a 2.5-V supply. Figure 1. System-level block diagram of the adaptive passiv...
grantor: University of TorontoThis thesis deals with the design and implementation of an ...
Abstract — A 40-Gb/s equalizer incorporates a one-stage CTLE with 5.5-dB boost, a one-tap discrete-t...
As the speed of communication systems increases into the gigabits per second range, new applications...
This paper presents a frequency-domain adaptive passive equalizer for high-speed receivers. A local ...
This paper presents the design and implementation of an integrated tunable passive filter for low-po...
This book introduces readers to the design of adaptive equalization solutions integrated in standard...
A low power passive equalizer using RL terminator is pro-posed and optimized in this work. The equal...
Abstract — Several types of low-power passive equalizer are investigated and optimized in this paper...
This paper presents an adaptive equalizer for shorthaul gigabit optical communications. It includes ...
With the rapid growth of technology in areas such as the internet-of-things (IOT), network infrastru...
Abstract—The power consumption of wireline circuits has become increasingly more critical as the pin...
This paper describes a 12.5 Gb/s low-power receiver design with equalizer adaptation. The receiver a...
Next generation communication systems are reaching 110Gbps rates. At these frequencies, the skin eff...
Next generation communication systems are reaching 110Gbps rates. At these frequencies, the skin eff...
grantor: University of TorontoThis thesis deals with the design and implementation of an ...
grantor: University of TorontoThis thesis deals with the design and implementation of an ...
Abstract — A 40-Gb/s equalizer incorporates a one-stage CTLE with 5.5-dB boost, a one-tap discrete-t...
As the speed of communication systems increases into the gigabits per second range, new applications...
This paper presents a frequency-domain adaptive passive equalizer for high-speed receivers. A local ...
This paper presents the design and implementation of an integrated tunable passive filter for low-po...
This book introduces readers to the design of adaptive equalization solutions integrated in standard...
A low power passive equalizer using RL terminator is pro-posed and optimized in this work. The equal...
Abstract — Several types of low-power passive equalizer are investigated and optimized in this paper...
This paper presents an adaptive equalizer for shorthaul gigabit optical communications. It includes ...
With the rapid growth of technology in areas such as the internet-of-things (IOT), network infrastru...
Abstract—The power consumption of wireline circuits has become increasingly more critical as the pin...
This paper describes a 12.5 Gb/s low-power receiver design with equalizer adaptation. The receiver a...
Next generation communication systems are reaching 110Gbps rates. At these frequencies, the skin eff...
Next generation communication systems are reaching 110Gbps rates. At these frequencies, the skin eff...
grantor: University of TorontoThis thesis deals with the design and implementation of an ...
grantor: University of TorontoThis thesis deals with the design and implementation of an ...
Abstract — A 40-Gb/s equalizer incorporates a one-stage CTLE with 5.5-dB boost, a one-tap discrete-t...
As the speed of communication systems increases into the gigabits per second range, new applications...