WCDMA射频光模块的设计
摘要
随着WCDMA在全球范围内的铺开,其网络覆盖问题已经成为运营商不容忽视的一个问题。光纤直放站在GSM、CDMA和PHS系统中得到了广泛的应用,较好的解决以上通信网络的覆盖问题。因此,毫无疑问光纤直放站在WCDMA系统中会起到重要的作用。而射频光模块是光纤直放站的核心组成部分,它的工作性能直接影响网络覆盖的质量。本论文的研究目的就是设计一种WCDMA射频光模块,以满足WCDMA光纤直放站的设计需求,实现通信网络的覆盖。
本文在深入分析了GSM、CDMA射频光模块的基础上,阐述了RF信号在光纤链路中应用的工作原理,从而提出了WCDMA射频光模块的解决方案并详细介绍了关键电路的实现原理及方式。首先,提出了使用PIN二极管构成的π型压控衰减器。该衰减器的优点是成本低,动态范围大,线性好等。其次,讨论了耦合微带线带通滤波器的设计理论,设计实现了一种之字形微带滤波器用来抑止模块的杂散发射,可以节约PCB空间提高产品性能的一致性。然后,在数传控制模块的输入和输出端加入了滤波器,使用1片FSK芯片完成了原来2片芯片才能实现的功能,大大节约了成本的同时提高了模块的集成度。最后,从系统角度分析了射频光模块的电磁兼容问题,设计了模块的腔体,解决了模块的电磁兼容问题。
本文在介绍了射频光模块的各组成部分设计原理和全部硬件实现的同时,使用仿真软件ADS(Advanced Designing System)和HFSS(High FrequencyStructure Simulator)进行了设计仿真,极大的简化了电路的设计过程。通过仿真所设计的模块具有独特的双腔结构和可插拔的数传控制模块,实现了模块的模块化设计和灵活配置的改造能力。该WCDMA射频光模块已参加了直放站厂家的现场测试,各项指标都满足WCDMA的入网标准,取得了较满意的结果。
As the construction of WCDMA network in the world, the network coverage becomes an inevitable issue for operators. Fiber optic repeater is widely applied in GSM, CDMA and PHS communication systems, which resolves the coverage problem well. Therefore the fiber optic repeater will play an important role in WCDMA system. As the key part of the repeater, the quality of the coverage network is directly affected by the performance of RF optical module. The purpose of this paper is to design a WCDMA RF optical module, which can fulfill the need of WCDMA fiber optic repeater and realize the coverage of WCDMA network.
On the base of analysis of the GSM and CDMA RF optical module, this paper expatiates the theory of RF optical link and proposes a solution for WCDMA RF optical module. At first this paper brings forward a voltage control attenuator composed by PIN diode, which has good linearity, wide dynamic range and low cost. Then it discusses the theory for coupled line micostrip BPF and realizes a zig-zag micostrip BPF to attenuate spurious emission. After that this paper introduce a method using only one FSK chip to fulfill the function that was achieved by two chips in the past. This way is costly and develops the integration of this module. At last a cavity is designed to solve the EMC/EMI problem of the module.
This paper introduces the design theory for each part and realization of the whole hardware. During this period, ADS and HFSS are applied to optimize the design, which predigests the design greatly. The WCDMA RF optical module has unique dual cavity construction and pluggable data transmission module, which realizes the modularization and flexible update ability of the module. This WCDMA RF optical module has passed the filed test for repeater supplier, all the parameters meet the access standard for WCDMA and achieves good performance.
本文在深入分析了GSM、CDMA射频光模块的基础上,阐述了RF信号在光纤链路中应用的工作原理,从而提出了WCDMA射频光模块的解决方案并详细介绍了关键电路的实现原理及方式。首先,提出了使用PIN二极管构成的π型压控衰减器。该衰减器的优点是成本低,动态范围大,线性好等。其次,讨论了耦合微带线带通滤波器的设计理论,设计实现了一种之字形微带滤波器用来抑止模块的杂散发射,可以节约PCB空间提高产品性能的一致性。然后,在数传控制模块的输入和输出端加入了滤波器,使用1片FSK芯片完成了原来2片芯片才能实现的功能,大大节约了成本的同时提高了模块的集成度。最后,从系统角度分析了射频光模块的电磁兼容问题,设计了模块的腔体,解决了模块的电磁兼容问题。
本文在介绍了射频光模块的各组成部分设计原理和全部硬件实现的同时,使用仿真软件ADS(Advanced Designing System)和HFSS(High FrequencyStructure Simulator)进行了设计仿真,极大的简化了电路的设计过程。通过仿真所设计的模块具有独特的双腔结构和可插拔的数传控制模块,实现了模块的模块化设计和灵活配置的改造能力。该WCDMA射频光模块已参加了直放站厂家的现场测试,各项指标都满足WCDMA的入网标准,取得了较满意的结果。
As the construction of WCDMA network in the world, the network coverage becomes an inevitable issue for operators. Fiber optic repeater is widely applied in GSM, CDMA and PHS communication systems, which resolves the coverage problem well. Therefore the fiber optic repeater will play an important role in WCDMA system. As the key part of the repeater, the quality of the coverage network is directly affected by the performance of RF optical module. The purpose of this paper is to design a WCDMA RF optical module, which can fulfill the need of WCDMA fiber optic repeater and realize the coverage of WCDMA network.
On the base of analysis of the GSM and CDMA RF optical module, this paper expatiates the theory of RF optical link and proposes a solution for WCDMA RF optical module. At first this paper brings forward a voltage control attenuator composed by PIN diode, which has good linearity, wide dynamic range and low cost. Then it discusses the theory for coupled line micostrip BPF and realizes a zig-zag micostrip BPF to attenuate spurious emission. After that this paper introduce a method using only one FSK chip to fulfill the function that was achieved by two chips in the past. This way is costly and develops the integration of this module. At last a cavity is designed to solve the EMC/EMI problem of the module.
This paper introduces the design theory for each part and realization of the whole hardware. During this period, ADS and HFSS are applied to optimize the design, which predigests the design greatly. The WCDMA RF optical module has unique dual cavity construction and pluggable data transmission module, which realizes the modularization and flexible update ability of the module. This WCDMA RF optical module has passed the filed test for repeater supplier, all the parameters meet the access standard for WCDMA and achieves good performance.
引文
[1] 信息产业部电信研究院.趋势2007之二一移动通信发展分析.通信世界,2007.1:11~12
[2] 高健,罗华斌.直放站的原理与应用.中国无线电,2005.5:30~33
[3] 马小丽.2GHz WCDMA数字蜂窝移动通信网直放站技术要求介绍.电信网技术,2005.5:29~31
[4] 吴泽民.3G数字直放站的研究与设计.移动通信,2005.7:74~78
[5] 李军,徐铁峰,彭涛.光纤直放站用光发射模块的设计.光电子技术与信息,2005.3:22~25
[6] EMCORE. RF and Microwave Fiber-Optic Design Guide. EMCORE, 2003.7:1~40
[7] 高建平.光纤通信.西安:西北工业大学出版社,2005.38~47
[8] 吴翼平.现代光纤通信技术.北京:国防工业出版社,2004.45~57
[9] 高劭宏,黄德修,高彦锟,杨新民,刘德明.用于光通信系统的可调谐半导体激光器.半导体光电,2005.1:75~79
[10] 丁炜.PIN光探测器的性能及应用.中国有线电视,2005.18:51~55
[11] 赵长水.非线性失真产物及其特性指标.西部广播电视,2005,5:8~10
[12] R. D. Joos, W. E. Doherty, Jr. THE PIN DIODE CIRCUIT DESIGNERS' HANDBOOK, USA, California: 1998.34~45
[13] 顾晓春,王康金.Ku波段电调衰减器模块研究.半导体技术,2000.04:25~26
[14] Eric Chart Tiara Hual.用于1900 MHz的平衡式PIN二极管衰减器的设计.电子设计技术,2003.06:10~13
[15] Kae-Oh Sun, Min Ki Choi, and Daniel van der Weide. A PIN Diode Controlled Variable Attenuator Using a 0-dB Branch-Line Coupler. IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, VOL. 15, NO. 6, JUNE 2005.45~47
[16] AN-584 Application Note.Agilent Technologies.2000
[17] Reinhold Ludwig, Pavel Bretchko. RF Circuit Design: Theory and Applications, 北京:电子工业出版社,2002.67~77
[18] 范寿康,卢春兰,李平辉.微波技术与微波电路.北京:机械工业出版社,2003.85~95
[19] Zhu Li, Bu H. Broadband and compact multipole microstrip bandpass filters using ground plane aperture technique. IEE Proc2Microw. Antennas Propag, 2002,149 (1): 71~77
[20] 李明洋,郭陈江.微带抽头线发夹型滤波器设计.微电子与基础产品,2003.9:57~60
[21] Toledo N. Practical Techniques for Designing Microstrip Tapped Hairpin Resonator Filters on FR4 Laminates. In 2nd National ECE Conference. Manila (Philippines): 2001.44~46
[22].程健,姜立新.微带线梳状带通滤波器设计.空军雷达学院学报,2004.10:52~54
[23] 纪磊.WCDMA无线直放站的射频关键技术研究.[硕士学位论文].浙江:浙江大学,2006
[24] Brady D. The design, fabrication and measurement of microstrip filter and coupler circuits. High Frequency Electronics, 2002(4):22~26
[25] 王亚丽.直放站网管系统的现状与发展分析.移动通信,2004.5:98~100
[26] 柳利军.光模块模拟量的监测电路设计.自动化与仪器仪表,2005.4:13~15
[27] 孙汝建.多路RS232、RS485通信的单片机扩展方法.自动化与仪器仪表,2003.1:51~52
[28] 李广弟,朱月秀,王秀山.单片机基础.北京:航空航天大学出版社,2000.57~65
[29] 阔建浩,陈健.基于nRF403无线传输系统的设计与实现.计算机与数字工程,2004.9:121~125
[30] 黄智伟.基于射频收发芯片nRF403的无线接口电路设计.电子技术,2002.4:59~60
[31] Smithson, G. Practical RF printed circuit board design. How to Design RF Circuits (Ref. No. 2000/027, IEE Training Course.5 April 2000 Page(s): 11/1~11/6.
[32] Ulrich L.Rohde, David RNewkirk, RF/Microwave Circuit Design for Wireless Applications.北京:电子工业出版社,2004.50~60
[33] 川黄迟,孙承缓,来金梅.降低射频电路串扰噪声的布线方法.半导体技术,2002.10:29~33
[34] 刘鹏程,邱扬,《电磁兼容原理及技术》,第一版,北京:高等教育出版社,1993
[35] 杨继深.《电磁兼容技术之产品研发与认证》.北京.电子土业出版社.2004
[36] Marshall, Richard. EMC above 1 GHz.IET Communications Engineer, V 4,n1,2006,p30-33
[37] 刘鲭洁.刘晓方.陈桂明.屏蔽在电磁兼容设计中的应用.山西电子技术.2006.1 p25-26
[38] 徐福平.冯晨.电磁屏蔽技术与结构设计.应用科技.2005.11 p28—33
[39] Tafjord, Kjartan. Design for electromagnetic compatibility (EMC). Ericsson Review (English Edition), v 70, n 3, 1993.93~99
[40] Gordon. Techniques of robust electrical package design using HFSS. Proceedings of SPIE-The International Society for Optical Engineering, v 5288, 2003 International Symposium on Microelectronics, 2003. 998~1002
[41] 颉晨,程丽丽.PCB电磁辐射预实验技术研究.电子质量,2006.5:25~27
[42] 张翼.电磁屏蔽材料的研究现状与进展.安全与电磁兼容,2006.6:77~80
[43] 齐美清.基于HFSS的波导裂缝有源导纳的计算方法.雷达科学与科技,2006.2:121~125
[2] 高健,罗华斌.直放站的原理与应用.中国无线电,2005.5:30~33
[3] 马小丽.2GHz WCDMA数字蜂窝移动通信网直放站技术要求介绍.电信网技术,2005.5:29~31
[4] 吴泽民.3G数字直放站的研究与设计.移动通信,2005.7:74~78
[5] 李军,徐铁峰,彭涛.光纤直放站用光发射模块的设计.光电子技术与信息,2005.3:22~25
[6] EMCORE. RF and Microwave Fiber-Optic Design Guide. EMCORE, 2003.7:1~40
[7] 高建平.光纤通信.西安:西北工业大学出版社,2005.38~47
[8] 吴翼平.现代光纤通信技术.北京:国防工业出版社,2004.45~57
[9] 高劭宏,黄德修,高彦锟,杨新民,刘德明.用于光通信系统的可调谐半导体激光器.半导体光电,2005.1:75~79
[10] 丁炜.PIN光探测器的性能及应用.中国有线电视,2005.18:51~55
[11] 赵长水.非线性失真产物及其特性指标.西部广播电视,2005,5:8~10
[12] R. D. Joos, W. E. Doherty, Jr. THE PIN DIODE CIRCUIT DESIGNERS' HANDBOOK, USA, California: 1998.34~45
[13] 顾晓春,王康金.Ku波段电调衰减器模块研究.半导体技术,2000.04:25~26
[14] Eric Chart Tiara Hual.用于1900 MHz的平衡式PIN二极管衰减器的设计.电子设计技术,2003.06:10~13
[15] Kae-Oh Sun, Min Ki Choi, and Daniel van der Weide. A PIN Diode Controlled Variable Attenuator Using a 0-dB Branch-Line Coupler. IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, VOL. 15, NO. 6, JUNE 2005.45~47
[16] AN-584 Application Note.Agilent Technologies.2000
[17] Reinhold Ludwig, Pavel Bretchko. RF Circuit Design: Theory and Applications, 北京:电子工业出版社,2002.67~77
[18] 范寿康,卢春兰,李平辉.微波技术与微波电路.北京:机械工业出版社,2003.85~95
[19] Zhu Li, Bu H. Broadband and compact multipole microstrip bandpass filters using ground plane aperture technique. IEE Proc2Microw. Antennas Propag, 2002,149 (1): 71~77
[20] 李明洋,郭陈江.微带抽头线发夹型滤波器设计.微电子与基础产品,2003.9:57~60
[21] Toledo N. Practical Techniques for Designing Microstrip Tapped Hairpin Resonator Filters on FR4 Laminates. In 2nd National ECE Conference. Manila (Philippines): 2001.44~46
[22].程健,姜立新.微带线梳状带通滤波器设计.空军雷达学院学报,2004.10:52~54
[23] 纪磊.WCDMA无线直放站的射频关键技术研究.[硕士学位论文].浙江:浙江大学,2006
[24] Brady D. The design, fabrication and measurement of microstrip filter and coupler circuits. High Frequency Electronics, 2002(4):22~26
[25] 王亚丽.直放站网管系统的现状与发展分析.移动通信,2004.5:98~100
[26] 柳利军.光模块模拟量的监测电路设计.自动化与仪器仪表,2005.4:13~15
[27] 孙汝建.多路RS232、RS485通信的单片机扩展方法.自动化与仪器仪表,2003.1:51~52
[28] 李广弟,朱月秀,王秀山.单片机基础.北京:航空航天大学出版社,2000.57~65
[29] 阔建浩,陈健.基于nRF403无线传输系统的设计与实现.计算机与数字工程,2004.9:121~125
[30] 黄智伟.基于射频收发芯片nRF403的无线接口电路设计.电子技术,2002.4:59~60
[31] Smithson, G. Practical RF printed circuit board design. How to Design RF Circuits (Ref. No. 2000/027, IEE Training Course.5 April 2000 Page(s): 11/1~11/6.
[32] Ulrich L.Rohde, David RNewkirk, RF/Microwave Circuit Design for Wireless Applications.北京:电子工业出版社,2004.50~60
[33] 川黄迟,孙承缓,来金梅.降低射频电路串扰噪声的布线方法.半导体技术,2002.10:29~33
[34] 刘鹏程,邱扬,《电磁兼容原理及技术》,第一版,北京:高等教育出版社,1993
[35] 杨继深.《电磁兼容技术之产品研发与认证》.北京.电子土业出版社.2004
[36] Marshall, Richard. EMC above 1 GHz.IET Communications Engineer, V 4,n1,2006,p30-33
[37] 刘鲭洁.刘晓方.陈桂明.屏蔽在电磁兼容设计中的应用.山西电子技术.2006.1 p25-26
[38] 徐福平.冯晨.电磁屏蔽技术与结构设计.应用科技.2005.11 p28—33
[39] Tafjord, Kjartan. Design for electromagnetic compatibility (EMC). Ericsson Review (English Edition), v 70, n 3, 1993.93~99
[40] Gordon. Techniques of robust electrical package design using HFSS. Proceedings of SPIE-The International Society for Optical Engineering, v 5288, 2003 International Symposium on Microelectronics, 2003. 998~1002
[41] 颉晨,程丽丽.PCB电磁辐射预实验技术研究.电子质量,2006.5:25~27
[42] 张翼.电磁屏蔽材料的研究现状与进展.安全与电磁兼容,2006.6:77~80
[43] 齐美清.基于HFSS的波导裂缝有源导纳的计算方法.雷达科学与科技,2006.2:121~125
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