第1 章 绪论·····················································································.1
1.1 滤波器与多工器·····································································.2
1.2 多功能集成滤波器件·······························································.9
1.2.1 滤波功分器··································································.11
1.2.2 滤波衰减器··································································.13
1.2.3 滤波放大器··································································.17
1.2.4 滤波耦合器··································································.19
1.2.5 滤波移相器··································································.22
1.3 滤波天线·············································································.26
1.4 本书主要内容·······································································.32
参考文献····················································································.32
第2 章 微波滤波器与多工器综合理论···················································.40
2.1 引言···················································································.40
2.2 广义切比雪夫滤波函数的综合··················································.40
2.3 N×N 型耦合矩阵的综合···························································.44
2.4 N+2 型耦合矩阵的综合···························································.45
2.4.1 N+2 型滤波网络的导纳参数矩阵·······································.45
2.4.2 N+2 型耦合矩阵的综合···················································.48
2.5 混合电磁耦合滤波器综合························································.49
2.5.1 混合电磁耦合矩阵的化简················································.49
2.5.2 梯度表达式··································································.52
2.6 多工器设计实现方法······························································.53
2.6.1 混合电桥耦合法····························································.53
2.6.2 环形器耦合法·······························································.54
2.6.3 定向滤波器法·······························································.54
2.6.4 多枝节耦合法·······························································.55
2.6.5 星点式耦合法·······························································.55
2.6.6 多模谐振器法·······························································.56
参考文献····················································································.57
第3 章 小型化多模微带滤波器····························································.59
3.1 引言···················································································.59
3.2 多模微带谐振器基础理论——奇偶模分析法································.59
3.2.1 奇偶模分析法的背景·····················································.59
3.2.2 奇偶模分析法的具体内容···············································.60
3.2.3 奇偶模分析法的应用·····················································.62
3.3 双端短路双模谐振器······························································.70
3.3.1 宽带双模微带滤波器设计···············································.71
3.3.2 双模双通带滤波器设计··················································.86
3.4 双端短路阶梯阻抗双模谐振器与滤波器设计································.98
3.4.1 双端短路阶梯阻抗双模谐振器的谐振特性分析····················100
3.4.2 滤波器设计和I/O 耦合特性分析·······································103
3.5 多模谐振器与滤波器设计························································113
3.5.1 新型枝节加载四模谐振器与双通带滤波器设计····················115
3.5.2 新型四模谐振器与双通带滤波器······································121
3.5.3 新型的三模谐振器和四模谐振器与滤波器设计····················126
3.6 基于双频阻抗变换器的微带多工器设计······································134
3.6.1 双频阻抗变换器的优化设计············································135
3.6.2 基于SIR 的多工器设计··················································137
参考文献····················································································146
第4 章 双通带/多通带微带滤波器与多工器············································150
4.1 引言···················································································150
4.2 双通带滤波器的综合······························································155
4.2.1 滤波器设计软件····························································155
4.2.2 双通带滤波器的综合技术···············································158
4.2.3 双通带滤波器设计软件··················································163
4.3 嵌套环高选择性双通带滤波器设计············································165
4.3.1 源与负载耦合的零度馈电环结构······································168
4.3.2 双零点双通带滤波器设计···············································170
4.3.3 五零点双通带滤波器设计···············································171
4.4 嵌套环高选择性多通带滤波器设计············································172
4.4.1 嵌套环谐振器设计·························································172
4.4.2 基于频率变换的嵌套环双通带滤波器·······························.174
4.4.3 嵌套环三通带滤波器····················································.177
4.4.4 嵌套环四通带滤波器····················································.179
4.5 小型化微带多通带多工器······················································.181
4.5.1 SIR 的特性分析··························································.181
4.5.2 奇偶模分析法·····························································.185
4.5.3 微带多通带多工器设计·················································.188
4.6 可调微波四通带双工器·························································.200
4.6.1 可调微波滤波器的几种实现形式·····································.200
4.6.2 变容二极管的特性分析·················································.202
4.6.3 短截线微带的分析·······················································.204
4.6.4 可调微带四通带双工器设计···········································.205
参考文献··················································································.208
第5 章 声表面波滤波器与双工器·······················································.212
5.1 引言·················································································.212
5.2 SAW 器件的基础理论与分析方法············································.213
5.2.1 IDT ··········································································.213
5.2.2 SAW 压电材料概论······················································.215
5.2.3 压电多层薄膜SAW 的设计模型与方法·····························.218
5.3 多层薄膜SAW 谐振器··························································.222
5.3.1 基于COMSOL 的单端SAW 谐振器仿真···························.222
5.3.2 多层薄膜单端SAW 谐振器············································.225
5.4 梯形SAW 滤波器与双工器····················································.229
5.4.1 梯形SAW 滤波器设计··················································.230
5.4.2 梯形SAW 滤波器的加工与测试······································.236
5.4.3 SAW 双工器设计·························································.239
5.4.4 SAW 双工器的实现与测试·············································.242
参考文献··················································································.248
第6 章 人工表面等离激元滤波器·······················································.250
6.1 引言·················································································.250
6.2 人工表面等离激元基础理论···················································.251
6.3 人工表面等离激元低通滤波器与带通滤波器······························.255
6.3.1 具有陷波特征的人工表面等离激元低通滤波器···················.255
6.3.2 扇形基片集成波导?人工表面等离激元带通滤波器··············.266
6.4 人工表面等离激元高阶模滤波器与柔性滤波器···························.276
6.4.1 人工表面等离激元高阶模滤波器······································276
6.4.2 柔性共面波导?人工表面等离激元低通滤波器······················287
参考文献····················································································290
第7 章 小型化悬置带线滤波器与双工器················································293
7.1 引言···················································································293
7.2 悬置带线结构·······································································293
7.3 高Q 值悬置带线滤波器··························································294
7.3.1 高Q 值悬置带线谐振器的谐振特性分析·····························294
7.3.2 高Q 值悬置带线谐振器的耦合特性分析·····························297
7.3.3 高Q 值悬置带线交叉耦合滤波器设计································299
7.4 高Q 值悬置带线双工器··························································304
7.5 高Q 值小型化悬置带线交叉耦合滤波器·····································307
7.5.1 高Q 值小型化悬置带线谐振器的谐振特性分析····················307
7.5.2 高Q 值小型化悬置带线交叉耦合滤波器设计·······················311
7.6 基片集成悬置带线混合电磁耦合滤波器······································315
7.6.1 基片集成悬置带线混合电磁耦合特性分析··························315
7.6.2 基片集成悬置带线混合电磁耦合滤波器设计·······················319
参考文献····················································································327
第8 章 小型化多模滤波器与三工器······················································331
8.1 引言···················································································331
8.2 基片集成波导与介质谐振器滤波器的发展历程·····························331
8.3 缝隙加载的扇形基片集成波导滤波器·········································334
8.3.1 扇形半模基片集成波导谐振器的谐振特性分析····················334
8.3.2 缝隙加载的扇形半模基片集成波导谐振器的耦合特性分析·····337
8.3.3 缝隙加载的扇形半模基片集成波导滤波器的实现·················339
8.4 缝隙加载的多模基片集成波导三工器·········································345
8.4.1 缝隙加载的多模基片集成波导谐振器的谐振特性分析···········346
8.4.2 缝隙加载的多模SIW 三工器的实现··································348
8.5 直线型介质谐振器滤波器························································351
8.5.1 非谐振模式的引入及理论分析·········································351
8.5.2 介质谐振器谐振及耦合特性分析······································354
8.5.3 直线型介质谐振器滤波器的实现······································357
8.6 小型化多模介质谐振器三工器··················································359
8.6.1 刻槽加载的三模介质谐振器的谐振特性分析·······················359
8.6.2 刻槽加载的三模介质谐振器的耦合特性分析·······················362
8.6.3 刻槽加载的三模介质谐振器三工器的实现·························.365
参考文献··················································································.367
第9 章 超宽带与多路滤波功分器·······················································.371
9.1 引言·················································································.371
9.2 滤波功分器的发展现状及实例················································.372
9.3 功分器的基本原理·······························································.381
9.3.1 Wilkinson 功分器························································.381
9.3.2 功分器的衡量指标·······················································.385
9.4 超宽带滤波功分器设计·························································.386
9.4.1 基于多模谐振器的超宽带滤波器设计·······························.387
9.4.2 微带?槽线耦合结构的特性分析······································.392
9.4.3 Wilkinson 功分器隔离电阻的放置方式······························.395
9.4.4 超宽带滤波功分器设计实例···········································.396
9.5 多路滤波功分器设计····························································.399
9.5.1 微波平面双工器设计方法··············································.400
9.5.2 基于阶梯阻抗谐振器的微带滤波器设计····························.400
9.5.3 微波平面双工器设计····················································.402
9.5.4 多路滤波功分器设计实例··············································.404
9.6 可调滤波功分器设计····························································.408
9.6.1 基于耦合滤波器的T 形功分原理····································.408
9.6.2 可调滤波功分器电路实现及外部耦合可调电路分析·············.413
9.6.3 功分比可调的T 形滤波功分器设计实例···························.418
参考文献··················································································.423
第10 章 基于石墨烯材料的可调滤波衰减器·········································.426
10.1 引言················································································.426
10.2 石墨烯加载的微带单模谐振器性能分析···································.429
10.3 基于GSS 加载微带谐振器的可调滤波衰减器···························.433
10.3.1 基于GSS 加载微带开路谐振器的可调滤波衰减器设计·······.433
10.3.2 基于新型耦合结构的GSS 加载微带开路可调滤波衰减器
设计········································································.434
10.3.3 零点耦合结构可调滤波衰减器设计································.440
10.4 石墨烯加载双模微带谐振结构的谐振性能分析·························.443
10.4.1 开路枝节开路谐振器加载石墨烯的谐振性能分析··············.443
10.4.2 短路枝节开路谐振器加载石墨烯的谐振性能分析··············.448
10.4.3 开路枝节短路谐振器加载石墨烯的谐振性能分析··············.450
10.4.4 短路枝节短路谐振器加载石墨烯的谐振性能分析················453
10.5 基于GSS 加载开路枝节开路谐振器双模结构的滤波衰减器···········455
10.5.1 GSS 加载开路枝节开路谐振器双模单通带滤波衰减器设计···455
10.5.2 GSS 加载开路枝节开路谐振双模双通带滤波衰减器设计······457
10.6 基于GSS 加载短路枝节开路谐振器双模结构的滤波衰减器···········460
10.6.1 GSS 加载短路枝节开路谐振器双模单通带滤波衰减器设计···460
10.6.2 GSS 加载短路枝节开路谐振器多模四通带滤波衰减器设计···461
10.6.3 GSS 加载短路枝节双模谐振结构的幅度可调双工滤波
衰减器设计································································462
参考文献··············································································463
第11 章 集成化滤波放大器································································465
11.1 引言··················································································465
11.2 滤波放大器的谐振耦合理论···················································466
11.2.1 基于LSE 的谐振结构的等效电路参数提取························466
11.2.2 耦合结构——阻抗/导纳倒置器·······································479
11.2.3 滤波器网络的耦合矩阵模型分析·····································480
11.2.4 全规范N+2 阶耦合矩阵的综合·······································485
11.3 一种基于滤波匹配电路的简便滤波放大器设计方法·····················488
11.3.1 单频放大器尺寸及性能·················································488
11.3.2 滤波放大器基本设计原理··············································489
11.3.3 放大器输入/输出阻抗确定·············································491
11.3.4 基于滤波器的匹配电路设计···········································494
11.3.5 构建滤波放大器··························································495
11.4 国内滤波放大器研究进展······················································496
11.4.1 宽频带和高效率的带通滤波功率放大器····························496
11.4.2 具有宽阻带和高带外抑制的带通滤波功率放大器················498
11.4.3 基于多功能电路的高效双频滤波多谐振器功率放大器··········500
11.4.4 滤波阻抗变换器及功率放大器在单端/差分滤波中的应用······501
参考文献····················································································503
第12 章 滤波天线基础理论································································505
12.1 引言·················································································505
12.2 滤波天线指标参数·······························································505
12.3 滤波天线集成化设计原理······················································506
12.3.1 滤波天线集成化设计方法··············································506
12.3.2 滤波天线综合流程·····················································.507
12.3.3 滤波天线等效电路及外部Q 值的提取·····························.507
12.4 滤波天线等效电路提取方法··················································.509
12.4.1 无耗滤波天线的耦合矩阵提取方法································.509
12.4.2 加载弱耦合端口滤波天线的耦合矩阵提取方法·················.514
参考文献··················································································.526
第13 章 高频率选择性滤波天线························································.529
13.1 引言················································································.529
13.2 多辐射零点基片集成波导缝隙滤波天线···································.529
13.2.1 滤波天线的整体结构分析············································.529
13.2.2 耦合系数分析及提取··················································.535
13.2.3 HFSS 仿真结果分析···················································.542
13.3 辐射零点可控的低剖面缝隙滤波天线······································.543
13.3.1 滤波天线整体结构分析···············································.544
13.3.2 仿真和实测结果分析··················································.548
13.4 基片集成波导双通带滤波天线···············································.551
13.4.1 天线整体结构分析·····················································.551
13.4.2 辐射零点及耦合分析··················································.553
13.4.3 HFSS 仿真结果分析···················································.556
13.5 高选择性高增益贴片滤波天线···············································.557
13.5.1 天线整体结构分析·····················································.558
13.5.2 辐射零点及耦合分析··················································.561
13.5.3 仿真与实测结果对比及MIMO 阵列的实现······················.567
13.6 双通带贴片滤波天线···························································.570
13.6.1 天线整体结构分析·····················································.570
13.6.2 滤波天线仿真结果分析···············································.572
13.7 基于并联架构的二元贴片滤波天线·········································.574
13.7.1 确定天线单元尺寸·····················································.575
13.7.2 单元间距的影响························································.576
13.7.3 馈电网络设计···························································.577
参考文献··················································································.579
第14 章 滤波阵列天线·····································································.581
14.1 引言················································································.581
14.2 基于高阶模基片集成波导谐振器馈电的偶极子滤波阵列天线·······.581
14.2.1 偶极子滤波阵列天线的设计·········································.581
14.2.2 端射偶极子滤波阵列天线加工与测试·······························593
14.3 基于交叉辐射的四元微带贴片滤波阵列天线······························596
14.3.1 基于等效电路的原理分析··············································596
14.3.2 四元微带贴片滤波阵列天线设计·····································601
14.3.3 四元微带贴片滤波阵列天线加工与测试····························610
14.3.4 滤波阵列天线拓展带宽的方法········································613
参考文献····················································································617
第15 章 微波滤波器件与滤波天线的发展趋势········································620
15.1 微波滤波器件的发展趋势······················································620
15.2 滤波天线的发展趋势····························································632
参考文献····················································································639