Title    Control Driver Designing and Programming for   Very Large Order RF-MEMS Switch Matrices       
 Abstract For telecommunication systems in space very large order switching matrices are
needed, where a great number of inputs are connected with the corresponding outputs.
Requirements for such a switching matrix are low insertion loss, high isolation with
low coupling between the various transmission channels, low power consumption and a
symmetrical  transmission behavior.  Radio Frequency  Micro-electro-mechanical
Systems  (RF-MEMS)  represent an attractive technology for satellite applications
thanks to their low insertion loss in the transmission path, low power consumption,
compact size and weight and high integrality.4945
 
To control switching matrices, hundreds of RF-MEMS switches should be
simultaneously controlled according to the permutation.  In this paper,  the literature
research on state-of-the-art control algorithms for  Benes  networks  is done. Suitable
algorithms are realized for the normal RF-MEMS switch matrices and a new algorithm
is created for the potential  arbitrary  number of input-output Benes network  using
Matlab and its GUI (Graphical User Interface). Moreover, the layout for the complete
DC control network on a multilayer LTCC board is designed by ADS.
 Keywords  RF-MEMS  Switch matrices  Benes network  
 Contents
1 Introduction  . 2
1.1 Background  .. 2
1.2 Project Description .. 3
2 Looping Algorithm for 16×16 Benes Network  ... 5
2.1 Benes network.. 5
2.2 Advantages of using Benes network   6
2.3 Looping Algorit 6
2.4 Looping Algorithm for 16×16 Benes network  . 9
3 Looping Algorithm for 12×12 Benes Network   12
3.1 Construction Strategy  12
3.2 Looping Algorithm for 12×12 Benes network  ... 14
3.3 Another Switch control algorithm for 12×12 Benes network   16
3.3.1 Construction Strategy . 16
3.3.2 Switch control algorithm for 6×6 Benes network  ... 18
3.4 Compare two algorithms   18
4 Realization of Switch Control Algorithm Using Matlab GUI  .. 20
4.1 Description of program design .. 20
4.1.2 Determination of input-output connection requirement . 22
4.1.3 Switch control function  ... 23
4.1.4 Output the result.. 25
4.2 Examination of software for switch control .. 25
4.2.2 Examination of 16×16 Benes network switch contro1 GUI  ... 25
5.1.2 Examination of 12×12  Benes network switch contro1 GUI  .. 29
5 DC Layout Board Design . 33
5.1 The principle of DPDT  .. 33
5.2 The necessary of DC layout Board   34
5.3 The Design of DC layout Board  35
5.3.1 The Design of DC layout Board for part 1 . 36
5.3.2 The Design of DC layout Board for part 2 and 3   38
6 DC Layout Designed by ADS  ... 40
6.1 Design requirement   40
6.2 Design result  .. 40
7 Program Modification according to Switches Network Layout Board  43
Conclusion  ... 47
Acknowledgement  ... 48
Reference  . 49
Appendix  .. 51
 
1 Introduction
1.1 Background  
  Micro-electro-mechanical Systems (MEMS) is the integration of mechanical elements,
actuators, sensors and electronics, which is typically fabricated on a common substrate
through the micro-fabrication technology. A device with MEMS technology is relatively
small, has virtually no mass and is not sensitive to acceleration, consumes no DC power,
which can be manufactured on low-cost silicon or glass substrates. Compared with other Control Driver Designing and Programming for Very Large Order RF-MEMS Switch Matrices:http://www.youerw.com/yingyu/lunwen_1770.html