A low-power high-speed optical receiver in 28nm CMOS is presented. The design features a novel architecture combining a low-bandwidth TIA front-end, double-sampling technique and dynamic offset modulation. The low-bandwidth TIA increases receiver's sensitivity while adding minimal power overhead. Functionality of the receiver was validated and the design is compared with a conventional 3-stage TIA receiver via actual measurements. The proposed receiver architecture achieves error-free operation (BER<;10^(-12)) at 25Gb/s with energy efficiency of 170fJ/b while the conventional receiver achieves error-free operation at 17.1Gb/s with energy efficiency of 260fJ/b
This paper describes a 1.25-Gb/s simplified CMOS optical receiver chipset for Gigabit Ethernet appli...
The design and measurement of a high-speed optical receiver is presented. The intrisically low speed...
© 2018 IEEE. This paper presents an optical receiver in 40 nm bulk CMOS for 1310 and 1550 nm light, ...
A low-power high-speed optical receiver in 28nm CMOS is presented. The design features a novel archi...
This paper describes a dense, high-speed, and low-power CMOS optical receiver implemented in a 65-nm...
Integrating optical receivers based on double-sampling architecture exhibit a low-power alternative ...
With the increasing bandwidth requirements of computing systems and limitations on power consumption...
We demonstrate an optical receiver front-end using a CMOS TIA with a germanium-on-silicon PD. The am...
A high-speed optical interface circuit for 850-nm optical communication is presented. Photodetector,...
The design of an analog frontend including a receiver amplifier (RX) and laser diode driver (LDD) fo...
This paper reports design of a CMOS optical receiver front-end using 0.18 μm technology. Design proc...
This paper describes an avalanche photodetector (APD)-based optical receiver, applicable to the burs...
The recent exponential increase in internet traffic has created the need for more powerful data cent...
A 30 Gb/s integrated receiver array for parallel optical interconnects with four channels have been ...
This paper presents a 4.8 Gbit/s optical receiver designed in a 0.13 μm CMOS process as part of the ...
This paper describes a 1.25-Gb/s simplified CMOS optical receiver chipset for Gigabit Ethernet appli...
The design and measurement of a high-speed optical receiver is presented. The intrisically low speed...
© 2018 IEEE. This paper presents an optical receiver in 40 nm bulk CMOS for 1310 and 1550 nm light, ...
A low-power high-speed optical receiver in 28nm CMOS is presented. The design features a novel archi...
This paper describes a dense, high-speed, and low-power CMOS optical receiver implemented in a 65-nm...
Integrating optical receivers based on double-sampling architecture exhibit a low-power alternative ...
With the increasing bandwidth requirements of computing systems and limitations on power consumption...
We demonstrate an optical receiver front-end using a CMOS TIA with a germanium-on-silicon PD. The am...
A high-speed optical interface circuit for 850-nm optical communication is presented. Photodetector,...
The design of an analog frontend including a receiver amplifier (RX) and laser diode driver (LDD) fo...
This paper reports design of a CMOS optical receiver front-end using 0.18 μm technology. Design proc...
This paper describes an avalanche photodetector (APD)-based optical receiver, applicable to the burs...
The recent exponential increase in internet traffic has created the need for more powerful data cent...
A 30 Gb/s integrated receiver array for parallel optical interconnects with four channels have been ...
This paper presents a 4.8 Gbit/s optical receiver designed in a 0.13 μm CMOS process as part of the ...
This paper describes a 1.25-Gb/s simplified CMOS optical receiver chipset for Gigabit Ethernet appli...
The design and measurement of a high-speed optical receiver is presented. The intrisically low speed...
© 2018 IEEE. This paper presents an optical receiver in 40 nm bulk CMOS for 1310 and 1550 nm light, ...