High-Resistance Resistor Consisting of a Subthreshold CMOS Differential Pair
スポンサーリンク
概要
- 論文の詳細を見る
- 2010-06-01
著者
-
AMEMIYA Yoshihito
Department of Electrical Engineering, Hokkaido University
-
Amemiya Yoshihito
Graduate School Of Information Sci. & Technol. Hokkaido Univ.
-
Ueno Ken
Department of Electrical Engineering, Hokkaido University
-
Asai Tetsuya
Department of Electrical Engineering, Hokkaido University
-
Asai Tetsuya
Graduate School Of Information Science And Technology Hokkaido University
-
Asai Shin'ichi
Department Of Electrical Engineering Hokkaido University
-
Amemiya Yoshihito
Department Of Electrical Engineering Faculty Of Engineering Hokkaido University
-
Asai Tetsuya
Department Of Electrical And Electronic Engineering Toyohashi University Of Technology
-
Ueno Ken
Department Of Electrical Engineering Hokkaido University
-
Amemiya Yoshihito
Graduate School Of Information Science And Technology Hokkaido University
関連論文
- A1-μW 600-ppm/℃ Current Reference Circuit Consisting of Subthreshold CMOS Circuits
- An On-Chip PVT Compensation Technique with Current Monitoring Circuit for Low-Voltage CMOS Digital LSIs
- High-Resistance Resistor Consisting of a Subthreshold CMOS Differential Pair
- Photon Position Detector Consisting of Single-Electron Devices
- A behavioral model of unipolar resistive RAMs and its application to HSPICE integration
- Ultralow-Power Current Reference Circuit with Low Temperature Dependence(Building Block, Analog Circuit and Device Technologies)
- An On-Chip PVT Compensation Technique with Current Monitoring Circuit for Low-Voltage CMOS Digital LSIs
- High-Resistance Resistor Consisting of a Subthreshold CMOS Differential Pair
- High-Resistance Resistor Consisting of a Subthreshold CMOS Differential Pair
- Low-Voltage Process-Compensated VCO with On-Chip Process Monitoring and Body-Biasing Circuit Techniques
- Stochastic Resonance in an Array in Locally-Coupled McCulloch-Pitts Neurons with Population Heterogeneity
- A Highly Sensitive Thermosensing CMOS Circuit Based on Self-Biasing Circuit Technique
- Threshold-Logic Devices Consisting of Subthreshold CMOS Circuits
- Noise-Induced Synchronization among Sub-RF CMOS Analog Oscillators for Skew-Free Clock Distribution
- An Inhibitory Neural-Network Circuit Exhibiting Noise Shaping with Subthreshold MOS Neuron Circuits(Neuron and Neural Networks,Nonlinear Theory and its Applications)
- CMOS Voltage Reference Based on the Threshold Voltage of a MOSFET
- Spiking neuron devices consisting of single-flux-quantum circuits
- A CMOS Watchdog Sensor for Certifying the Quality of Various Perishables with a Wider Activation Energy(Selected Papers from the 18th Workshop on Circuits and Systems in Karuizawa)
- Critical temperature sensor based on oscillatory neuron models (Special issue on nonlinear circuits and signal processing)
- Neuromorphic MOS Circuits Exhibiting Precisely Timed Synchronization with Silicon Spiking Neurons and Depressing Synapses (Special Issue on Nonlinear Circuits and Signal Processing)
- An Insect Vision-based Single-electron Circuit Performing Motion Detection(Session5B: Emerging Devices III)
- An Insect Vision-based Single-electron Circuit Performing Motion Detection(Session5B: Emerging Devices III)
- A νMOS Vision Chip Based on Cellular-Automaton Processing
- A υMOS Vision Chip Based on the Cellular-Automaton Processing
- Cellular vMOS Circuits Performing Edge Detection with Difference-of-Gaussian Filters
- Stochastic Resonance in GaAs-based Nanowire Field-Effect Transistors and Their Summing Network
- Stochastic Resonance in GaAs-based Nanowire Field-Effect Transistors and Their Summing Network
- Analog Metal-Oxide-Silicon IC Implementation of Motion-Detection Network Based on a Biological Correlation Model
- Analog MOS Circuits for Motion Detection Based on Correlation Neural Networks
- An Analog Integrated Circuit for Motion Detection Based on Biological Correlation Model
- Characteristics of Schottky Contacts on n-InP and n-GaAs by a Novel in situ Electrochemical Process
- Schottky Contacts on n-InP with High Barrier Heights and Reduced Fermi-Level Pinning by a Novel In Situ Electrochemical Process
- CMOS phase-shift oscillator using the conduction of heat(Session8A: Si Devices III)
- CMOS phase-shift oscillator using the conduction of heat(Session8A: Si Devices III)
- Reaction-Diffusion Devices Using Minority-Carrier Transport in Semiconductors
- Stochastic Resonance in Schottky Wrap Gate-controlled GaAs Nanowire Field-Effect Transistors and Their Networks
- On the sign problem of Dedekind sums
- Quantum Cellular Automaton Device Using the Image Charge Effect
- A vMOS Cellular-Automaton Device for Differential-of-Gaussian Filtering
- Directional Single-Electron-Tunneling Junction
- Properties of High Heat-Resistance μc-SiC_x:H Emitter Silicon HBT's
- Silicon HBT with a Low-Resistivity Amorphous SiC_x Emitter
- Single-Electron Logic Systems Based on a Graphical Representation of Digital Functions(Novel Device Architectures and System Integration Technologies)
- Quantum-Dot Logic Circuits Based on the Shared Binary-Decision Diagram
- An Adaptive Silicon Retina Performing an Edge Extraction with a MOS-Type Spatial Wiring and Smart Pixel Circuits
- A neuromorphic MOS circuit imitating jamming avoidance response of Eigenmannia
- Array-enhanced stochastic resonance in a network of locally-coupled excitable neuron circuits (非線形問題)
- Array-enhanced stochastic resonance in a network of locally-coupled excitable neuron circuits (ニューロコンピューティング)
- Mixed Crystal Tunnel Diode
- Multiple-Valued Inverter Using a Single-Electron-Tunneling Circuit (Special Issue on Integrated Electronics and New System Paradigms)
- A Multiple-Valued Hopfield Network Device Using Single-Electron Circuits (Special Issue on Integrated Electronics and New System Paradigms)
- Special Section on New System Paradigms for Integrated Electronics
- Cellular-Automaton Circuits Using Single-Electron-Tunneling Junctions
- Some arithmetic on Dedekind sums
- On the Fourier coefficients of automorphic forms at various cusps and some applications to Rankins convolution
- Quantum-Dot Logic Circuits Based on the Shared Binary-Decision Diagram
- Quantum Cellular Automaton Device Using the Image Charge Effect
- High-fidelity pulse density modulation in neuromorphic electric circuits utilizing natural heterogeneity
- Reaction-diffusion chip implementing excitable lattices with multiple-valued cellular automata
- Self-organizing striped and spotted patterns on a discrete reaction-diffusion model
- FPGA-Based Design for Motion Vector Estimation Exploiting High-Speed Imaging and Its Application to Motion Classification with Neural Networks