Design and Performance Analysis of Low Pull-In Voltage of Dimple Type Capacitive RF MEMS Shunt Switch for Ka-Band

This paper deals with the study of dimple type RF MEMS capacitive shunt switch using different meandering techniques for high isolation and low actuation voltage. The novelty of the proposed RF MEMS switch is it incorporates the meanders and dimples, which help to reduce the actuation voltage. The proposed switch structure is optimized, designed, and simulated with FEM analysis such as electromechanical and electromagnetic by using COMSOL and HFSS tools respectively. The best performance of the switch is observed by varying different parameters such as beam material, beam thickness, dielectric thickness, and airgap. The proposed switch with different meandering techniques attains the pull-in voltage in the range of 10.3–46 V, particularly the three uniform meander technique has low actuation voltage of 10.3 V. The RF performance of the device is particularly tuned in the range of 26.5–40 GHz frequency range and it is analyzed for all types of meanders. Among them, the non-uniform single meander has attained the best isolation of −54.13 dB at 40 GHz in the off state. The insertion and return losses of the device are −0.514 dB and −17.35 dB over 1–40 GHz frequency in on state.

[1]  Xiuhan Li,et al.  Effect of etch holes on the capacitance and pull-in voltage in MEMS tunable capacitors , 2010 .

[2]  Z. Milosavljevic RF MEMS Switches , 2004 .

[3]  H. Ansari,et al.  Design and simulation of a novel RF MEMS shunt capacitive switch with a unique spring for Ka-band application , 2018, Microsystem Technologies.

[4]  K. L. Baishnab,et al.  Design and simulation of fixed–fixed flexure type RF MEMS switch for reconfigurable antenna , 2018, Microsystem Technologies.

[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]  A. M. Ionescu,et al.  RF MEMS Shunt Capacitive Switches Using AlN Compared to $\hbox{Si}_{3}\hbox{N}_{4}$ Dielectric , 2012, Journal of Microelectromechanical Systems.

[7]  Neela Chattoraj,et al.  RF MEMS Capacitive Type Shunt Switch , 2013, 2013 IEEE Applied Electromagnetics Conference (AEMC).

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

[9]  S. Eshelman,et al.  Performance of low-loss RF MEMS capacitive switches , 1998 .

[10]  T. L. Narayana,et al.  Role of dielectric layer and beam membrane in improving the performance of capacitive RF MEMS switches for Ka-band applications , 2018, Microsystem Technologies.

[11]  Jiahao Zhao,et al.  Design and experimental validation of a restoring force enhanced RF MEMS capacitive switch with stiction-recovery electrodes , 2017 .

[12]  A. Kouzani,et al.  Low insertion loss and high isolation capacitive RF MEMS switch with low pull-in voltage , 2017 .

[13]  B. S. Sreeja,et al.  Multiport RF MEMS switch for satellite payload applications , 2018 .

[14]  Srinivasa Rao Karumuri,et al.  Design and performance analysis of uniform meander structured RF MEMS capacitive shunt switch along with perforations , 2018 .

[16]  K. J. Vinoy,et al.  Low-voltage high-reliability MEMS switch for millimeter wave 5G applications , 2018 .

[17]  Othman Sidek,et al.  A comprehensive study on RF MEMS switch , 2014 .

[18]  J. Bu,et al.  Monolithically integrated micromachined RF MEMS capacitive switches , 2001 .

[19]  Dharti Raj Shah Study of RF-MEMS Capacitive Shunt Switch for Microwave Backhaul Applications , 2017 .

[20]  Euisik Yoon,et al.  Design and fabrication of a single membrane push-pull SPDT RF MEMS switch operated by electromagnetic actuation and electrostatic hold , 2010 .

[21]  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).

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

[23]  Yucheng Wang,et al.  Design, Analysis, and Verification of Ka-Band Pattern Reconfigurable Patch Antenna Using RF MEMS Switches , 2016, Micromachines.

[24]  Tejinder Singh,et al.  Stress Analysis Using Finite Element Modeling of a Novel RF Microelectromechanical System Shunt Switch Designed on Quartz Substrate for Low-voltage Applications , 2013 .