RF and Microwave Transistor Oscillator Design (Hardcover)
暫譯: 射頻與微波晶體管振盪器設計 (精裝版)
Andrei Grebennikov
- 出版商: Wiley
- 出版日期: 2007-06-01
- 售價: $6,630
- 貴賓價: 9.5 折 $6,299
- 語言: 英文
- 頁數: 458
- 裝訂: Hardcover
- ISBN: 0470025352
- ISBN-13: 9780470025352
-
相關分類:
微波工程 Microwave
海外代購書籍(需單獨結帳)
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商品描述
Description
The increase of consumer electronics and communications applications using Radio Frequency (RF) and microwave circuits has implications for oscillator design. Applications working at higher frequencies and using novel technologies have led to a demand for more robust circuits with higher performance and functionality, but decreased costs, size and power consumption. As a result, there is also a need for more efficient oscillators.This book presents up to date information on all aspects of oscillator design, enabling a selection of the best oscillator topologies with optimized noise reduction and electrical performance. RF and Microwave Transistor Oscillator Design covers:
- analyses of non-linear circuit design methods including spectral-domain analysis, time-domain analysis and the quasilinear method;
- information on noise in oscillators including chapters on varactor and oscillator frequency tuning, CMOS voltage-controlled oscillators and wideband voltage-controlled oscillators;
- information on the stability of oscillations, with discussions on the stability of multi-resonant circuits and the phase plane method;
- optimized design and circuit techniques, beginning with the empirical and analytic design approaches, moving on to the high-efficiency design technique;
- general operation and design principles of oscillators, including a section on the historical aspects of oscillator configurations.
A valuable reference for practising RF and Microwave designers and engineers, RF and Microwave Transistor Oscillator Design is also useful for lecturers, advanced students and research and design (R&D) personnel.
Table of Contents
JWBK153-FM JWBK153-Grebennikov March 13, 2007 23:46About the Author.
Preface.
Acknowledgements.
1 Nonlinear circuit design methods.
1.1 Spectral-domain analysis.
1.2 Time-domain analysis.
1.3 Newton–Raphson algorithm.
1.4 Quasilinear method.
1.5 Van der Pol method.
1.6 Computer-aided analysis and design.
References.
2 Oscillator operation and design principles.
2.1 Steady-state operation mode.
2.2 Start-up conditions.
2.3 Oscillator configurations and historical aspects.
2.4 Self-bias condition.
2.5 Oscillator analysis using matrix techniques.
2.6 Dual transistor oscillators.
2.7 Transmission-line oscillator.
2.8 Push–push oscillator.
2.9 Triple-push oscillator.
2.10 Oscillator with delay line.
References.
3 Stability of self-oscillations.
3.1 Negative-resistance oscillator circuits.
3.2 General single-frequency stability condition.
3.3 Single-resonant circuit oscillators.
3.4 Double-resonant circuit oscillator.
3.5 Stability of multi-resonant circuits.
3.6 Phase plane method.
3.7 Nyquist stability criterion.
3.8 Start-up and stability.
References.
4 Optimum design and circuit technique.
4.1 Empirical optimum design approach.
4.2 Analytic optimum design approach.
4.3 Parallel feedback oscillators.
4.4 Series feedback bipolar oscillators.
4.5 Series feedback MESFET oscillators.
4.6 High-efficiency design technique.
4.7 Practical oscillator schematics.
References.
5 Noise in oscillators.
5.1 Noise figure.
5.2 Flicker noise.
5.3 Active device noise modelling.
5.4 Oscillator noise spectrum: linear model.
5.5 Oscillator noise spectrum: nonlinear model.
5.6 Loaded quality factor.
5.7 Amplitude-to-phase conversion.
5.8 Oscillator pulling figure.
References.
6 Varactor and oscillator frequency tuning.
6.1 Varactor modelling.
6.2 Varactor nonlinearity.
6.3 Frequency modulation.
6.4 Anti-series varactor pair.
6.5 Tuning linearity.
6.6 Reactance compensation technique.
6.7 Practical VCO schematics.
References.
7 CMOS voltage-controlled oscillators.
7.1 MOS varactor.
7.2 Phase noise.
7.3 Flicker noise.
7.4 Tank inductor.
7.5 Circuit design concepts and technique.
7.6 Implementation technology issues.
7.7 Practical schematics of CMOS VCOs.
References.
8 Wideband voltage-controlled oscillators.
8.1 Main requirements.
8.2 Single-resonant circuits with lumped elements.
8.3 Double-resonant circuit with lumped elements.
8.4 Transmission line circuit realization.
8.5 VCO circuit design aspects.
8.6 Wideband nonlinear design.
8.7 Dual mode varactor tuning.
8.8 Practical RF and microwave wideband VCOs.
References.
9 Noise reduction techniques.
9.1 Resonant circuit design technique.
9.2 Low-frequency loading and feedback optimization.
9.3 Filtering technique.
9.4 Noise-shifting technique.
9.5 Impedance noise matching.
9.6 Nonlinear feedback loop noise suppression.
References.
Index.
商品描述(中文翻譯)
**描述**
隨著消費電子產品和通訊應用中使用無線頻率(RF)和微波電路的增加,這對振盪器設計產生了影響。在更高頻率下運作並使用新技術的應用,導致對更具穩健性、性能和功能更高的電路的需求,同時降低成本、尺寸和功耗。因此,對於更高效的振盪器的需求也隨之增加。
本書提供了有關振盪器設計各方面的最新資訊,使讀者能夠選擇最佳的振盪器拓撲,並優化噪聲降低和電氣性能。《RF和微波晶體管振盪器設計》涵蓋了:
- 非線性電路設計方法的分析,包括頻譜域分析、時域分析和準線性方法;
- 有關振盪器中的噪聲資訊,包括有關變容二極體和振盪器頻率調整、CMOS電壓控制振盪器和寬頻電壓控制振盪器的章節;
- 有關振盪穩定性的資訊,討論多共振電路的穩定性和相位平面方法;
- 優化設計和電路技術,從經驗和分析設計方法開始,進而探討高效率設計技術;
- 振盪器的一般操作和設計原則,包括有關振盪器配置歷史方面的部分。
《RF和微波晶體管振盪器設計》是RF和微波設計師及工程師的寶貴參考資料,對於講師、高級學生以及研究和設計(R&D)人員也非常有用。
**目錄**
JWBK153-FM JWBK153-Grebennikov 2007年3月13日 23:46
**關於作者**
**前言**
**致謝**
**1 非線性電路設計方法**
1.1 頻譜域分析
1.2 時域分析
1.3 牛頓-拉夫森算法
1.4 準線性方法
1.5 范德波爾方法
1.6 電腦輔助分析和設計
參考文獻
**2 振盪器的操作和設計原則**
2.1 穩態操作模式
2.2 啟動條件
2.3 振盪器配置及歷史方面
2.4 自偏置條件
2.5 使用矩陣技術的振盪器分析
2.6 雙晶體管振盪器
2.7 傳輸線振盪器
2.8 推-推振盪器
2.9 三重推振盪器
2.10 帶延遲線的振盪器
參考文獻
**3 自振盪的穩定性**
3.1 負阻抗振盪器電路
3.2 一般單頻穩定性條件
3.3 單共振電路振盪器
3.4 雙共振電路振盪器
3.5 多共振電路的穩定性
3.6 相位平面方法
3.7 奈奎斯特穩定性準則
3.8 啟動和穩定性
參考文獻
**4 最佳設計和電路技術**
4.1 經驗最佳設計方法
4.2 分析最佳設計方法
4.3 並聯反饋振盪器
4.4 串聯反饋雙極振盪器
4.5 串聯反饋MESFET振盪器
4.6 高效率設計技術
4.7 實用振盪器原理圖
參考文獻
**5 振盪器中的噪聲**
5.1 噪聲指數
5.2 低頻噪聲
5.3 主動元件噪聲建模
5.4 振盪器噪聲頻譜:線性模型
5.5 振盪器噪聲頻譜:非線性模型
5.6 載入品質因數
5.7 振幅到相位轉換
5.8 振盪器拉動指數
參考文獻
**6 變容二極體和振盪器頻率調整**
6.1 變容二極體建模
6.2 變容二極體的非線性
6.3 頻率調變
6.4 反串聯變容二極體對
6.5 調整線性度
6.6 反應補償技術
6.7 實用VCO原理圖
參考文獻
**7 CMOS電壓控制振盪器**
7.1 MOS變容二極體
7.2 相位噪聲
7.3 低頻噪聲
7.4 Tank電感
7.5 電路設計概念和技術
7.6 實施技術問題
7.7 CMOS VCO的實用原理圖
參考文獻
**8 寬頻電壓控制振盪器**
8.1 主要要求
8.2 使用集中元件的單共振電路
8.3 使用集中元件的雙共振電路
8.4 傳輸線電路實現
8.5 VCO電路設計方面
8.6 寬頻非線性設計
8.7 雙模式變容調整
8.8 實用RF和微波寬頻VCO
參考文獻
**9 噪聲降低技術**
9.1 共振電路設計技術
9.2 低頻載入和反饋優化
9.3 過濾技術
9.4 噪聲轉移技術
9.5 阻抗噪聲匹配
9.6 非線性反饋迴路噪聲抑制
參考文獻
**索引**
