Analytical model and analysis of RF MEMS switch for Ka-band applications
Author:
Publisher
Springer Science and Business Media LLC
Subject
Electrical and Electronic Engineering,Hardware and Architecture,Condensed Matter Physics,Electronic, Optical and Magnetic Materials
Link
https://link.springer.com/content/pdf/10.1007/s00542-023-05581-z.pdf
Reference31 articles.
1. Ahmadpour SS, Navimipour NJ, Mosleh M, Bahar AN, Yalcin S (2023a) A nano-scale n-bit ripple carry adder using an optimized XOR gate and quantum-dots technology with diminished cells and power dissipation. Nano Commun Netw 36:100442
2. Ahmadpour SS, Heidari A, Navimpour NJ, Asadi MA, Yalcin S (2023b) An efficient design of multiplier for using in nano-scale IoT Systems using atomic silicon. IEEE Internet Things J 10:14908
3. Ahmadpour SS, Navimipour NJ, Bahar AN, Mosleh M, Yalcin S (2023c) An energy-aware nano-scale design of reversible atomic silicon based on miller algorithm. IEEE Des Test 40:62–69
4. Ansari HR, Khosroabadi S (2019) Design and simulation of a novel RF MEMS shunt capacitive switch with a unique spring for Ka-band application. Microsyst Technol 25(2):531–540
5. Bansal D, Kumar A, Sharma A, Kumar P, Rangra KJ (2014) Design of novel compact anti-stiction and low insertion loss RF MEMS switch. Microsyst Technol 20(2):337–340
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