Metal contact RF MEMS switch design for high performance in Ka band

Aim:: Computation of loss factors for one-bit RF MEMS switch over Ku, K and Ka-band for two different insulating substrates. Objective:: Numerical investigation of return loss, insertion loss, isolation loss are computed under both actuated and unactuated states for two different insulating substrates of the 1-bit RF MEMS switch, and corresponding up and down-capacitances are obtained. Methods:: The unique characteristics of a 1-bit RF MEMS switch of providing higher return loss under both actuated and unactuated states and also of isolation loss with negligible insertion loss makes it as a prime candidate for phase shifter application. This is presented in this manuscript with a keen focus on improvement capability by changing transmission line width, and also of overlap area; where dielectric constant of the substrate also plays a vital role. Results:: The present work exhibits very low down-capacitance over the spectrum whereas considerable amount of up-capacitance. Also when overall performance in terms of all loss parameters are considered, switch provides very low insertion loss, good return loss under actuated state and standard isolation loss. Conclusion:: Reduction of transmission line width of about 33% improved the performance of the switch by increasing isolation loss. Isolation loss of -40 dB is obtained at actuated condition in higher microwave spectra for SiO 2 at higher overlap area. Down capacitance of ~ 1dB is obtained which is novel as compared with other published literature. Moreover, a better combination of both return loss, isolation loss and insertion loss are reported in this present work compared with all other published data so far.

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A high-force and high isolation metal-contact RF MEMS switch

Microsystem Technologies ◽

10.1007/s00542-017-3302-3 ◽

2017 ◽

Vol 23 (10) ◽

pp. 4699-4708 ◽

Cited By ~ 6

Author(s):

Peigang Deng ◽

Ning Wang ◽

Feng Cai ◽

Longquan Chen

Keyword(s):

Rf Mems ◽

Metal Contact ◽

Rf Mems Switch ◽

High Isolation ◽

Mems Switch

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A micro level electrostatically actuated cantilever and metal contact based series RF MEMS switch for multi-band applications

Cogent Engineering ◽

10.1080/23311916.2017.1323367 ◽

2017 ◽

Vol 4 (1) ◽

pp. 1323367 ◽

Cited By ~ 11

Author(s):

T. Lakshmi Narayana ◽

K. Girija Sravani ◽

K. Srinivasa Rao ◽

Kun Chen

Keyword(s):

Rf Mems ◽

Metal Contact ◽

Rf Mems Switch ◽

Electrostatically Actuated ◽

Mems Switch ◽

Micro Level ◽

Multi Band

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Cantilever Beam Metal-Contact MEMS Switch

Conference Papers in Engineering ◽

10.1155/2013/265709 ◽

2013 ◽

Vol 2013 ◽

pp. 1-4 ◽

Cited By ~ 2

Author(s):

Adel Saad Emhemmed ◽

Abdulmagid A. Aburwein

Keyword(s):

Cantilever Beam ◽

Rf Mems ◽

Spring Constant ◽

Metal Contact ◽

Rf Mems Switch ◽

Microelectromechanical System ◽

Mems Switch ◽

Integrated Method ◽

Beam Geometry ◽

Contact Switch

We present a new design of a miniature RF microelectromechanical system (MEMS) metal-contact switch and investigate various aspects associated with lowering the pull-down voltage and overcoming the stiction problem. Lowering the pull-down voltage in this design is based on reducing the spring constant by changing the cantilever beam geometry of the RF MEMS switch, and the stiction problem is overcome by a simple integrated method using two tiny posts located on the substrate at the free end of the cantilever beam.

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A high performance tunable RF MEMS switch using barium strontium titanate (BST) dielectrics for reconfigurable antennas and phased arrays

IEEE Antennas and Wireless Propagation Letters ◽

10.1109/lawp.2005.851065 ◽

2005 ◽

Vol 4 ◽

pp. 217-220 ◽

Cited By ~ 32

Author(s):

Guoan Wang ◽

T. Polley ◽

A. Hunt ◽

J. Papapolymerou

Keyword(s):

Strontium Titanate ◽

Barium Strontium Titanate ◽

High Performance ◽

Rf Mems ◽

Phased Arrays ◽

Reconfigurable Antennas ◽

Rf Mems Switch ◽

Mems Switch ◽

Barium Strontium

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Optimization of shunt capacitive RF MEMS switch by using NSGA-II algorithm and uti-liti algorithm

Informacije MIDEM - Journal of Microelectronics Electronic Components and Materials ◽

10.33180/infmidem2019.106 ◽

2019 ◽

pp. 43-50

Keyword(s):

Return Loss ◽

Rf Mems ◽

Actuation Voltage ◽

Design System ◽

Nsga Ii ◽

Rf Mems Switch ◽

Mems Switch ◽

Axial Residual Stress ◽

Switch Design ◽

Design Requirements

The present paper aimed at designing, optimizing, and simulating the RF MEMS Switch which is stimulated electrostatically. The design of the switch is located on the CoplanarWaveguide (CPW) transmission line. The pull-in voltage of the switch was 2V and the axial residual stress of the proposed design was obtained at 23MPa. In order to design and optimize the geometric structure of the switch, the desired model was extracted based on the objective functions of the actuation voltage and the return loss up-state and also the isolation down-state using the mathematical programming. Moreover, the model was solved by the NSGA-II meta-heuristic algorithm in MATLAB software. In addition, the design requirements and the appropriate levels for designing the switch were obtained by presenting the Pareto front from the beam actuation voltage and also the return loss up-state and isolation down-state. Finally, the RF parameters of the switch were calculated as S11=-2.54dB and S21=-33.18dB at the working frequency of 40GHz by extracting the appropriate parameters of the switch design through simulating a switch designed by the COMSOL Multiphysics software 4.4a and the advanced design system (ADS).

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Design and Fabrication of a Ka Band RF MEMS Switch with High Capacitance Ratio and Low Actuation Voltage

Micromachines ◽

10.3390/mi13010037 ◽

2021 ◽

Vol 13 (1) ◽

pp. 37

Author(s):

Kun Deng ◽

Fuxing Yang ◽

Yucheng Wang ◽

Chengqi Lai ◽

Ke Han

Keyword(s):

Rf Mems ◽

Dielectric Material ◽

Actuation Voltage ◽

Rf Mems Switch ◽

Ka Band ◽

High Capacitance ◽

Mems Switch ◽

Capacitance Ratio ◽

Metal Insulator Metal ◽

State Capacitance

In this paper a high capacitance ratio and low actuation voltage RF MEMS switch is designed and fabricated for Ka band RF front-ends application. The metal-insulator-metal (MIM) capacitors is employed on a signal line to improve the capacitance ratio, which will not degrade the switch reliability. To reduce the actuation voltage, a low spring constant bending folding beam and bilateral drop-down electrodes are designed in the MEMS switch. The paper analyzes the switch pull-in model and deduces the elastic coefficient calculation equation, which is consistent with the simulation results. The measured results indicated that, for the proposed MEMS switch with a gap of 2 μm, the insertion loss is better than −0.5 dB and the isolation is more than −20 dB from 25 to 35 GHz with an actuation voltage of 15.8 V. From the fitted results, the up-state capacitance is 6.5 fF, down-state capacitance is 4.3 pF, and capacitance ratios is 162. Compared with traditional MEMS capacitive switches with dielectric material Si3N4, the proposed MEMS switch exhibits high on/off capacitance ratios of 162 and low actuation voltage.

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