ISSN 2278-9723
 

Research Article 


Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA.

Abstract
Wireless Communication has evolved over the past three to four decades, the evolution brought about major changes in the type of technology been used, the speed of data transfer, capacity latency, and network coverage, amongst several other key factors. In this paper we are going to design a microstrip patch antenna for 5G applications using 5G wave range of 24.5 to 50 GHz. This design is simulated and analyzed using HFSS software. The proposed antenna resonated at triple frequencies 31 GHz, 34.2 GHz and 38.4 GHz by using slotting techniques of good return loss, high gain and VSWR<2. This proposed design has benefit for the wireless communications and high-speed internet.

Key words: Capacity latency, microstrip antenna, Network coverage, return loss, wireless communications


 
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How to Cite this Article
Pubmed Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA. Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications. . 2022; 10(1): 11-17. doi:10.31838/ijccts/10.01.04


Web Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA. Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications. https://www.ijccts.org/?mno=128924 [Access: April 05, 2022]. doi:10.31838/ijccts/10.01.04


AMA (American Medical Association) Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA. Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications. . 2022; 10(1): 11-17. doi:10.31838/ijccts/10.01.04



Vancouver/ICMJE Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA. Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications. . (2022), [cited April 05, 2022]; 10(1): 11-17. doi:10.31838/ijccts/10.01.04



Harvard Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA (2022) Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications. , 10 (1), 11-17. doi:10.31838/ijccts/10.01.04



Turabian Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA. 2022. Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications. International Journal of Communication and Computer Technologies, 10 (1), 11-17. doi:10.31838/ijccts/10.01.04



Chicago Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA. "Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications." International Journal of Communication and Computer Technologies 10 (2022), 11-17. doi:10.31838/ijccts/10.01.04



MLA (The Modern Language Association) Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA. "Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications." International Journal of Communication and Computer Technologies 10.1 (2022), 11-17. Print. doi:10.31838/ijccts/10.01.04



APA (American Psychological Association) Style

MS.K.LEELA RANI, KOTA BHAGYASRI, KOTHA NAGA LAKSHMI MADHURI, KUNDHURU VENKATA LAKSHMI, MODUGULA HEMALATHA (2022) Design and implementation of Triple Frequency Microstrip patch antenna for 5G communications. International Journal of Communication and Computer Technologies, 10 (1), 11-17. doi:10.31838/ijccts/10.01.04