射频电路设计：理论与应用

第1章  引言                        
 11  射频设计的重要性                    
 12  量纲和单位                    
 13  频谱                    
 14    无源元件的射频特性                    
 〖DW〗141  高频电阻                    
 〖DW〗142  高频电容                    
 〖DW〗143  高频电感                    
 15    片状元件及对电路板的考虑                    
 151  片状电阻                    
 152  片状电容                    
 153  表面安装电感                      
 16  小结                    
 参考文献                    
 习题                    
                   
 第2章  传输线分析                    
 21  传输线理论的实质                    
 22    传输线举例                    
 221  双线传输线                    
 222  同轴线                    
 223  微带线                      
 23  等效电路表示法                    
 24    理论基础                    
 241  基本定律                      
 25  平行板传输线的电路参量                    
 26  各种传输线结构小结                    
 27    一般的传输线方程                    
 271  基尔霍夫电压和电流定律表示式                   
 272  行进的电压和电流波                    
 273  阻抗的一般定义                    
 274  无耗传输线模型                      
 28  微带传输线                    
 29    端接负载的无耗传输线                    
 291  电压反射系数                    
 292  传播常数和相速                    
 293  驻波                      
 210    特殊的终端条件                    
 2101  端接负载无耗传输线的输入阻抗                   
 2102  短路传输线                    
 2103  开路传输线                    
 2104  1/4波长传输线                      
 211    信号源和有载传输线                    
 2111  信号源的相量表示法                    
 2112  传输线的功率考虑                    
 2113  输入阻抗匹配                    
 2114  回波损耗和插入损耗                      
 212  小结                    
 参考文献                    
 习题                    
                   
 第3章  Smith圆图                  
 31    从反射系数到负载阻抗                    
 311  相量形式的反射系数                    
 312  归一化阻抗公式                    
 313  参数反射系数方程                    
 314  图形表示法                      
 32    阻抗变换                    
 321  普通负载的阻抗变换                    
 322  驻波比                    
 323  特殊的变换条件                    
 324  计算机模拟                      
 33    导纳变换                    
 331  参数导纳方程                    
 332  叠加的图形显示                      
 34    元件的并联和串联                    
 341    R和L元件的并联                    
 342    R和C元件的并联                    
 343    R和L元件的串联                      
 344    R和C元件的串联                  
 345    T形网络的例子                  
 35  小结                    
 参考文献                    
 习题                    
                   
 第4章  单端口网络和多端口网络                  
 41  基本定义                    
 42    互联网络                    
 421  网络的串联                    
 422  网络的并联                    
 423  级连网络                      
 424    ABCD网络参量小结                  
 43    网络特性及其应用                    
 431  网络参量之间的换算关系                    
 432  微波放大器分析                      
 44    散射参量                    
 441  散射参量的定义                    
 442  散射参量的物理意义                    
 443  链形散射矩阵                    
 444    Z参量与S参量之间的转换                    
 445  信号流图模型                    
 446    S参量的推广                    
 447  散射参量的测量                      
 45  小结                    
 参考文献                    
 习题                    
                   
 第5章  射频滤波器设计                  
 51    谐振器和滤波器的基本结构                   
 511  滤波器的类型和技术参数                    
 512  低通滤波器                    
 513  高通滤波器                    
 514  带通和带阻滤波器                    
 515  插入损耗                      
 52    特定滤波器的实现                    
 521  巴特沃斯滤波器                    
 522  切比雪夫滤波器                    
 523  标准低通滤波器设计的反归一化                   
 53    滤波器的实现                    
 531  单位元件                    
 532  Kuroda 规则                    
 533  微带线滤波器的设计实例                    
 54    耦合微带线滤波器                    
 541  奇模和偶模的激励                    
 542  带通滤波器单元                    
 543  级连带通滤波器单元                    
 544  设计实例                      
 55  小结                    
 参考文献                    
 习题                    
                   
                   
 第6章  有源射频元件                   
 61    半导体基础                    
 611  半导体的物理特性                    
 612    PN结                    
 613  肖特基(Schottky)接触                  
 62    射频二极管                    
 621  肖特基二极管                    
 622  PIN二极管                    
 623  变容二极管                    
 624  IMPATT二极管                    
 625  隧道二极管                    
 626  TRAPATT, BARRITT和Gunn二极管                    
 63    BJT双极结晶体管（BipolarJunction Transistor)                      
 631  结构                    
 632  功能                    
 633  频率响应                    
 634  温度性能                    
 635  极限值                      
 64    射频场效应晶体管                    
 641  结构                    
 642  功能                    
 643  频率响应                    
 644  极限值                      
 65    高电子迁移率晶体管                    
 651  结构                    
 652  功能                    
 653  频率响应                      
 66  小结                    
 参考文献                    
 习题                  
                   
                   
 第7章  有源射频电路器件模型                  
 7.1    二极管模型                    
 7.1.1  非线性二极管模型                    
 7.1.2  线性二极管模型                      
 7.2    晶体管模型                    
 7.2.1  大信号BJT模型                    
 7.2.2  小信号BJT模型                    
 7.2.3  大信号FET模型                    
 7.2.4  小信号FET模型                      
 7.3    有源器件的测量                    
 7.3.1  双极结晶体管的DC特性                    
 7.3.2  双极结晶体管的AC参量的测量                    
 7.3.3  场效应晶体管参量的测量                    
 7.4  用散射参量表征器件特性                    
 7.5  小结                    
 参考文献                    
 习题                    
                   
                   
 第8章  匹配网络和偏置网络                  
 81    分立元件的匹配网络                    
 811  双元件的匹配网络                    
 812  匹配禁区. 频率响应以及品质因数                   
 813  T形匹配网络和π形匹配网络                  
 82    微带线匹配网络                    
 821  从分立元件到微带线                    
 822  单节短截线匹配网络                    
 823  双短截线匹配网络                      
 83    放大器的工作状态和偏置网络                    
 831  放大器的工作状态和效率                    
 832  双极结晶体管的偏置网络                    
 833  场效应晶体管的偏置网络                  
 84  小结                    
 参考文献                    
 习题                  
                   
                   
 第9章  射频晶体管放大器设计                  
 91  放大器的特性指标                    
 92    放大器的功率关系                    
 921  射频源                    
 922  转换功率增益                    
 923  其他功率关系                      
 93    稳定性判定                    
 931  稳定性判定圆                    
 932  绝对稳定                    
 933  放大器的稳定措施                      
 94    增益恒定                    
 941  单向化设计法                    
 942  单向化设计误差因子                    
 94３  双共轭匹配设计法                    
 944  功率增益和资用功率增益圆                  
 95  噪声系数圆                    
 96  等驻波比圆                    
 97    宽带. 高功率. 多级放大器                    
 971  宽带放大器                    
 972  大功率放大器                    
 973  多级放大器                      
 98  小结                    
 参考文献                    
 习题                    
                   
                   
 第10章  振荡器和混频器                  
 101    振荡器的基本模型                    
 1011  负阻振荡器                    
 1012  反馈振荡器的设计                    
 1013  振荡器的设计步骤                    
 1014  石英晶体振荡器                      
 102    高频振荡器电路                    
 1021  固定频率振荡器                    
 1022  介质谐振腔振荡器                    
 1023  YIG调谐振荡器                    
 1024  压控振荡器                    
 1025  耿氏二极管（Gunn diode）振荡器                    
 103    混频器的基本特征                    
 1031  基本原理                    
 1032  频域分析                    
 1033  单端混频器设计                    
 1034  单平衡混频器                    
 1035  双平衡混频器                      
 104  小结                    
 参考文献                    
 习题                    
                   
 附录A  常用物理量和单位                  
 附录B  圆柱导体的趋肤公式                    
 附录C  复数                    
 附录D  矩阵变换                  
 附录E  半导体的物理参量                    
 附录F  长和短的二极管模型                  
 附录G  耦合器                  
 附录H  噪声分析                      
 附录I*$  MATLAB简介                   
 附录J  本书中英文缩写词