Chip-to-Chip Half Duplex Spiking Data Communication over Power Supply Rails
スポンサーリンク
概要
- 論文の詳細を見る
Chip-to-chip serial data communication is superposed on power supply over common Vdd/Vss connections through chip, package, and board traces. A power line transceiver demonstrates half duplex spiking communication at more than 100Mbps. A pair of transceivers consumes 1.35mA from 3.3V, at 130Mbps. On-chip power line LC low pass filter attenuates pseudo-differential communication spikes by 30dB, purifying power supply current for internal circuits. Bi-directional spiking communication was successfully examined in a 90-nm CMOS prototype setup of on-chip waveform capturing. A micro controller forwards clock pulses to and receives data streams from a comparator based waveform capturer formed on a different chip, through a single pair of power and ground traces. The bit error rate is small enough not to degrade waveform acquisition capability, maintaining the spurious free dynamic range of higher than 50dB.
- 2010-06-01
著者
-
Hashida Takushi
Graduate School Of System Informatics Kobe University
-
Nagata Makoto
Graduate School Of System Informatics Kobe University
関連論文
- A Mixed Circuit and System Level Simulation Technique of Collision-Resistant RFID System(Analog Circuits and Related SoC Integration Technologies)
- Back-End Design of a Collision-Resistive RFID System through High-Level Modeling Approach(Novel Device Architectures and System Integration Technologies)
- Communication Scheme for a Highly Collision-Resistive RFID System( Analog Circuit Techniques and Related Topics)
- Image Segmentation/Extraction Using Nonlinear Cellular Networks and Their VLSI Implementation Using Pulse-Modulation Techniques(Special Section on Analog Circuit Techniques and Relate)
- A 1-D CMOS PWM Cellular Neural Network Circuit and Resistive-Fuse Network Operation
- Chip-to-Chip Half Duplex Spiking Data Communication over Power Supply Rails
- An Hadamard Transform Chip Using the PWM Circuit Technique and Its Application to Image Processing(Special Issue on High-Performance Analog Integrated Circuits)
- Bio-Inspired VLSIs Based on Analog/Digital Merged Technologies
- New Non-Volatile Analog Memory Circuits Using PWM Methods (Special Issue on Integrated Electronics and New System Paradigms)
- An Arbitrary Digital Power Noise Generator Using 65nm CMOS Technology
- Measurement-Based Analysis of Electromagnetic Immunity in LSI Circuit Operation
- Experimental Verification of Power Supply Noise Modeling for EMI Analysis through On-Board and On-Chip Noise Measurements(Analog Circuits and Related SoC Integration Technologies)
- An Integrated Timing and Dynamic Supply Noise Verification for Multi-10-Million Gate SoC Designs(Novel Device Architectures and System Integration Technologies)
- Design of RFID Front-end Circuitry Enabling CDMA-based Collision Resistance
- Asymmetric Slope Dual Mode Differential Logic Circuit for Compatibility of Low-Power and High-Speed Operations(Digital,Low-Power, High-Speed LSIs and Related Technologies)
- Logic Synthesis Technique for High Speed Differential Dynamic Logic with Asymmetric Slope Transition(Logic Synthesis, VLSI Design and CAD Algorithms)
- Dynamic Power-Supply and Well Noise Measurements and Analysis for Low Power Body Biased Circuits(Digital, Low-Power LSI and Low-Power IP)
- A Continuous-Time Waveform Monitoring Technique for On-Chip Power Noise Measurements in VLSI Circuits
- On-Chip Single Tone Pseudo-Noise Generator for Analog IP Noise Tolerance Measurement
- On-Chip Multi-Channel Monitoring for Analog Circuit Diagnosis in Systems-on-Chip Integration(Analog Circuits and Related SoC Integration Technologies)
- A Diagnosis Testbench of Analog IP Cores for Characterization of Substrate Coupling Strength
- On-Chip In-Place Measurements of V_ and Signal/Substrate Response of Differential Pair Transistors
- Co-simulation of On-Chip and On-Board AC Power Noise of CMOS Digital Circuits
- FOREWORD
- False Operation of Static Random Access Memory Cells under Alternating Current Power Supply Voltage Variation
- Design of Effective Supply Voltage Monitor for Measuring Power Rails of Integrated Circuits
- Measurements and Simulation of Sensitivity of Differential-Pair Transistors against Substrate Voltage Variation
- False Operation of Static Random Access Memory Cells under Alternating Current Power Supply Voltage Variation (Special Issue : Solid State Devices and Materials)
- A Fast Power Current Simulation of Cryptographic VLSI Circuits for Side Channel Attack Evaluation
- Performance Evaluation of Probing Front-End Circuits for On-Chip Noise Monitoring