A 3V Low Power 156/622/1244 Mbps CMOS Parallel Clock and Data Recovery Circuit for Optical Communications
スポンサーリンク
概要
- 論文の詳細を見る
This paper presents the implementation of a 3V low power multi-rate of 156, 622, and 1244Mbps clock and data recovery circuit (CDR) for optical communications tranceiver using new parallel clock recovery architecture based on dual chargepump PLL. Designed circuit recovers eight-phase clock signals which are one-eighth frequency of the input signal. While the typical system uses the method that compares the input data with recovered clock, the proposed circuit compares a 1/2-bit delayed input data with the serial data generated by the recovered eighth-phase clock signals. The advantage of the circuit is that the implementation is easy, since each sub blocks have one-eighth frequency of the input data signal. Morevover, since the circuit works at one-eighth frequency of the input data, it dissipates less power than conventional CMOS recovery circuit. Simulation results show that this recovery circuit can work with power dissipation of less than 40mW with a single 3V supply. All the simulations are based on HYUNDAI 0.65μm N-Well CMOS double-poly double-metal technology.
- 社団法人電子情報通信学会の論文
- 2000-08-25
著者
-
CHOI Pyung
School of Electronic and Electrical Engineering, Kyungpook National University
-
WOO Chang-Gene
School of Electronic and Electrical Engineering at Kyungpook National University
-
Choi P
Kyungpook National Univ. Daegu Kor
-
Choi P
Kyungpook National Univ. Taegu Kor
-
Seo Hae-moon
The School Of Electronic And Electrical Engineering At Kyungpook National University
-
Oh Sang-won
The School Of Electronic And Electrical Engineering At Kyungpook National University
-
JUNG Sung-Wook
the School of Electronic and Electrical Engineering at Kyungpook National University
-
WOO Chang-Gene
the School of Electronic and Electrical Engineering at Kyungpook National University
-
CHOI Pyung
the Faculty of the School of Electronic and Electrical Engineering at Kyungpook National University
-
WOO Chag-Gene
the School of Electronic and Electrical Engineering at Kyungpook National University
関連論文
- Detection of Streptavidin-Biotin Protein Complexes Using Three-Dimensional MOSFET in the Si Micro-Fluidic Channel
- A Complementary Metal-Oxide-Semiconductor Vision Chip for Edge and Motion Detection with a Function for Output Offset Cancellation
- Characteristics and Modeling of a Nonplanar Nonrectangular Metal Oxide Semiconductor Field Effect Transistor for Charge Sensing in the Si Micro-Fluidic Channel
- Fabrication of a Microbiochemical Reactor with Thick Thermal Isolation Layer and Integrated Pt Heater/Sensor in the Microwell
- Field Effect Transistor-based Bimolecular Sensor Employing a Pt Reference Electrode for the Detection of Deoxyribonucleic Acid Sequence
- 3.3V 35mW Second-Order Three-Bit Quadrature Band-Pass ΔΣ Modulator for Digital Radio(Analog Signal Processing)
- 3.3V 35mW Second-Order Three-Bit Quadrature Band-Pass △Σ Modulator for Digital Radio
- Fabrication and Characteristics of a Field Effect Transistor-Type Charge Sensor for Detecting Deoxyribonucleic Acid Sequence
- Fabrication of 3-Dimensional Structure of Metal Oxide Semiconductor Field Effect Transistor Embodied in the Convex Corner of the Silicon Micro-Fluidic Channel
- Fabrication of Thick Silicon Dioxide Air-Bridge for RF Application Using Micromachining Technology
- Characteristics of Piezoresistive Mass Flow Sensors Fabricated by Porous Silicon Micromachining
- Design and Implementation of a Fourth-Order Quadrature Band-Pass Delta-Sigma Modulator for Low-IF Receivers
- A 3V Low Power 156/622/1244 Mbps CMOS Parallel Clock and Data Recovery Circuit for Optical Communications
- Pseudo 2-Transistor Active Pixel Sensor Using an N-well/Gate-Tied P-Channel Metal Oxide Semiconductor Field Eeffect Transistor-Type Photodetector with Built-in Transfer Gate
- Active Pixel Sensor Using a 1×16 Nano-Wire Photodetector Array for Complementary Metal Oxide Semiconductor Imagers
- Active Pixel Sensor Using a PMOSFET-Type Photodetector with a Transfer Gate for Variable Photosensitivity