A Fundamental Consideration for Phase Noise Measurement of Extremely Low Phase Noise Oscillator
スポンサーリンク
概要
- 論文の詳細を見る
Since the phase noise of an oscillator is determined by the ratio of signal power to noise power, it should technically be possible to design an ultralow-phase-noise oscillator with an extremely high output power level. When the phase noise of an oscillator is evaluated, therefore, adjustment of the output power level is needed to match the dynamic range of the measurement system. However, the target—how the phase noise is to be measured while influenced by this level adjustment—has not been elucidated.We make clear in this report that several patterns can be expected for observed phase-noise distributions that depend on the relative magnitude of phase noise and thermal agitation noise and methods for level setting. The perspective was also obtained that phase-noise measurement of an extremely low phase noise oscillator can be made by utilizing the above.
- 社団法人 電気学会の論文
- 2006-06-01
著者
-
Sakuta Yukinori
Department Of Electronics And Computer Science College Of Science And Technology Nihon University
-
Sekine Yoshifumi
Department Of Electronics And Computer Science College Of Science And Technology Nihon University
-
Sekine Yoshifumi
Department Of Electronic Engineering College Of Science And Technology Nihon University
-
SEKINE Yoshifumi
Deparement of Electronics and Computer Science,College of Science and Technology,Nihon University
関連論文
- A Consideration on Very Low Phase Noise Oscillator Circuit
- A Consideration on Numerical Processing of the Cross-Correlation Method for Extremely Low Phase Noise Measurement
- Pulse-Type Bursting Neuron Model Using Enhancement Mode MOSFETs
- Noise Reduction Approach of Range Image Using Nonlinear 2D Kalman Filter(Special Section of Selected Papers from the 14th Workshop on Circuits and Systems in Karuizawa)
- CMOS Implementation of a Multiple-Valued Memory Cell Using Λ-Shaped Negative-Resistance Devices(Selected Papers from the 16th Workshop on Circuits and Systems in Karuizawa)
- CMOS Implementation of Neuron Models for an Artificial Auditory Neural Network
- A Fundamental Consideration for Phase Noise Measurement of Extremely Low Phase Noise Oscillator
- Pulse-type hardware chaotic neuron model and its bifurcation phenomena
- A Minimal Modeling of Neuronal Burst-Firing Based on Bifurcation Analysis