Design and performance analysis of uniform meander structured RF MEMS capacitive shunt switch along with perforations

This paper presents design and simulation of uniform structured RF MEMS capacitive shunt switch using FEM tool and HFSS software. The switches with different shaped meanders and perforations which result in less spring constant, less pull-in voltage, high isolation loss, high switching speed and low insertion loss have been designed. From the simulated results it is observed that the rectangular perforations gives the better results, when compared with square and cylindrical shaped perforations. Comparative study is done for zigzag, plus and three square shaped meander along with rectangular perforations on each structure. When the gap between the dielectric and the movable beam is 0.8 µm, the up state capacitance for HfO2 is 4.06fF and for Si3N4 is 3.80fF. The downstate capacitance for HfO2, Si3N4 is 49fF, 26.9fF respectively. The capacitance ratio is 120.6. Poly-tetra-fluoro-ethylene material is given for the movable beam whose young’s modulus is 0.4 GPa and the spring constant is calculated theoretically for each structure; by using this the pull in voltage and the settling time are calculated. Step switch with three square Meander has switching time 10.25 µs, pull in voltage as 2.45 V. By using HFSS 3-D electromagnetic model we observed the return loss (S11) is less than −60 dB, the insertion loss is less than −0.07 dB in the range of 1–40 GHz frequency and switch isolation (S21) is −61 dB at 28 GHz frequency.

[1]  Yasser Mafinejad,et al.  Design and simulation of high isolation RF MEMS shunt capacitor switch for C-K band , 2013, ICEE 2013.

[2]  D. Balaraman,et al.  Low-cost low actuation voltage copper RF MEMS switches , 2002, 2002 IEEE MTT-S International Microwave Symposium Digest (Cat. No.02CH37278).

[3]  M. Bachman,et al.  High-Power Magnetically Actuated Microswitches Fabricated in Laminates , 2012, IEEE Electron Device Letters.

[4]  Z. Lv,et al.  Electrothermally actuated RF MEMS capacitive switch with atomic layer deposited (ALD) dielectrics , 2011, 2011 16th International Solid-State Sensors, Actuators and Microsystems Conference.

[5]  Mahesh Angira,et al.  Design and investigation of a low insertion loss, broadband, enhanced self and hold down power RF-MEMS switch , 2015 .

[6]  Gabriel M. Rebeiz RF MEMS: Theory, Design and Technology , 2003 .

[7]  Somayye Molaei,et al.  Design and simulation of a novel RF MEMS shunt capacitive switch with low actuation voltage and high isolation , 2017 .

[8]  Gajanan D. Patil,et al.  A Review Paper on RF MEMS Switch for Wireless Communication , 2013 .

[9]  Surjeet Singh,et al.  Design and Simulation of RF MEMS Capacitive type Shunt Switch & its Major Applications , 2013 .

[10]  K. J. Vinoy,et al.  Design, fabrication and characterization of capacitive RF MEMS switches with low pull-in voltage , 2014, 2014 IEEE International Microwave and RF Conference (IMaRC).

[11]  Mahesh Angira On the investigation of an interdigitated, high capacitance ratio shunt RF-MEMS switch for X- band applications , 2013 .

[12]  Koushik Guha,et al.  Performance analysis of RF MEMS capacitive switch with non uniform meandering technique , 2016 .