International Journal of Microwave Engineering and Technology

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This paper gives a brief review of the past work in the Antenna field. The hypothetical and exploratory work in various sorts of microstrip patch around the globe is delineated. The primary area quickly portrays different improvements in the microstrip patch antenna innovation with accentuation to printed monopole receiving antenna. The second area manages the patterns in double band printed monopole receiving antenna while the third part portrays different CPW receiving antenna outlines utilized as of advanced communication and military frameworks. This part additionally outlines systematic and full wave arrangements of microstrip antenna with uncommon accentuation based on various parameters on Finite difference time domain (FDTD) examination of different receiving antennas.

S. Germeny. Designed conformal antenna for multiband feeding frequency for satellite communication links with L-band at 1GHz to Ka-band at 44GHz used for multiple frequencies.

S. Nath, et al. Proposed a microstrip patch antenna at 10.65GHz frequency at TM10 mode, gain is 8 to 9dBand impedance 50Ω for easy to integrate with accompanying electronics 3D in structure for field anechoic chamber.

A.B. Mutiara, et al. Proposed broad band microstrip rectangular patch antenna at frequency 2.4GHz with gain 11dB with impedance matching 50Ω, high power bandwidth 30 degree for client antenna in computer.

G. Cakir, et al. Proposed microstrip patch antenna array of frequency 1.8GHz, 35degree to 60 degree beamwidth with finite difference time domain, operating resonance frequency 7.5 GHz for cellular wireless communication system.

N. Kalambe, et al. Microstrip patch antenna of frequency 3.1–10.6GHz, gain 5–6dB, beamwidth 70degree –90degree for review for ultra wideband frequency.

T.S.P. See, et al. Proposed anti phase mode for microstrip antenna, frequency 3.962–4.076GHz, gain 5.1–5.5dBi, resonance frequency 4.01GHz, impedance -10Db for bio telemetry.

X.M. Yang, et al. Proposed a microtrip patch antenna by embedded meander line array, 77.7–42 MHz bandwidth, works at TM10 dominant mode at 3.5GHz frequency, -10dB impedance bandwidth for improves the impedance bandwidth for wireless and mobile communication.

A.A. Deshmukh, et al. Proposed a rectangular patch microstrip antenna with bandwidth of 350 MHz, gain 7dBi in 800 to 1200MHz for proximity fed gap coupled half E shaped antenna.

J.L.V. Roy, et al. Proposed microstrip patch antenna array of 435 MHz frequency, bandwidth 85MHz for developed a P-band POLarimetric airborne radar Ice Sounder.

S. Weigand, et al. Proposed rectangular microstrip patch antenna of frequency 4GHz, impedance bandwidth is 9% for broad band communication in wirless, WLAN and Bluetooth applications.

S.K. Manjhi, et al. Proposed microstrip antenna frequency of 22.61-22.17GHz, bandwidth increases upto 4.3-4.6% and radiation efficiency increased 30% using defective ground structure proximity fed stacked circular disk in MEMS, WLAN WiMAX.

J.C. Rao, et al. Proposed microstrip antenna of frequency 4.2GHz, impedance bandwidth of 110% and VSWR ≤ 1.02 of wideband multi U slotted for WLAN, WiMAX and wireless communication.

N.M. Shetti, et al. Proposed microstrip patch antenna of frequencies 11.335GHz- 9.499GHz, bandwidth 2.29 – 2.63dB return loss -48.3 to -43.67 for analyzing the waveguide.

P. Sikarwar, et al. Microstrip patch antenna with cutting slot of frequency 2GHz, bandwidth 23%-53.38% and return loss -37dBto -30dB, analyzed frequency 1GHz-3GHz for modern communication development.

X. Zhu, et al. Proposed dual band microstrip antenna, frequency 2.45-5.8GHz, bandwidth 115-928 MHz, gain 1.37-4.37dBi for diverse wireless communication.

P.Y. Chen, et al. Circular patch metamateial microstrip antenna, frequency 0.5 GHz, bandwidth 3.94%-2.83%, gain 2.83dBi-1.73dBi for reduce size in elliptical form.

S. Wi, et al. Wideband U patch microstrip antenna, frequency is 5.12 GHz & 6.08 GHz, impedance bandwidth of 27.3 % with 5.5 Ghz at center frequency, gain 6.4Db and 5.2dB for the multifunctional system.

J.L.M. Campos, et al. Parallel plate microstrip patch antenna of frequency 12.4GHz, gain 27dBi for the broadband applications.

J. Liang, et al. A mushroom type electromagnetic bandgap structure tunable meta material integrated microstrip patch antenna at 1.86GHz at on state and 2.52GHz at off state, efficiency at on state 38.7% and off state 55.2%, maximum gain 2.2dBi from simulation and 1.1dBi from measurement for “on” state and 4.40dBi from simulation and 3.2dBi from measurement for the “off” state to tune.

S.B. Yeap, et al. A microstrip patch antenna for enhance the gain upto 6.7 dBupto 5.2dB2.4GHz-2.7GHz by partially removing the substrate surrounding the patch and wavelength has been reduced by 6.9dBfor maintain mechanical robustness of patch antennas.

M.W., et al. A wide-bandwidth aperture-coupled microstrip patch antenna fed by substrate integrated waveguide of frequency 60GHz to enhance the efficiency upto 98%, bandwidth of 22% and gain upto 6.8 Db for short range wireless applications with a data rate 1.5 Gb/s.

R. Bancroft, et al. Microstrip omnidirectional antenna of frequency 2.45GHz, gain 5dBi of coaxial – collinear antenna, diectivity 30 degree, beamwidth 5.5Db for 802.11 applications.

Y.P. Zhang, et al. Differentially driven microstrip antennas at frequency 5.25 GHz, axial ratio 3dB, bandwidth is 0.96% in different mode TM10,TM01 and both to improve cavity model to expand the input impedance and radiation characteristics in antenna.

G.R. Dejem, et al. Bi-Yagi and Quad-Yagi microstrip antenna array frequency 5.2GHz, gains 13dBi and 15.5dBi, bandwidth 6.9% and 5.2%, F/B ratio 10Db for wireless local area network and millimeter wave frequencies.

H. Boutayeb, et al. Microstrip patch antenna of frequency 2.6 GHz, gain enhance 2.9 dB, return loss -9Db for using a cylindrical electromagnetic crystal substrate of compact, conformal wireless communication.

P. Mankal, et al. Truncated square patch microstrip antenna of frequency 9.4GHz, bandwidth 58.75% - 26.41%, return loss -10Db and gain 8.02 Db for radar application.

H. Gu, et al. Circular polarized microstrip patch antenna from 1.92 to 2.51 GHz for the stable broadside radiation patterns, efficiency rises from about 47 % to about 61%, gain enhance 4.67 to 5.91dBi, bandwidth 26.6% for wireless communication.

X. Zhang, et al. proposed high gain microstrip antenna of frequency 2.3–2.7 GHz, bandwidth of 19.6 & gain of 9.71 dBi for high selectivity filtering response by stacked patch of antenna.

A. Albino, et al. Substrate design microstrip patch antenna of frequency5.8GHz, bandwidth 7.8%-6.7%, gain 4dB-9.4dB for gain enhancement using hybrid substrates in communication.

K.M.A. Jayanthi, et al. Design and simulate microstrip square patch array antenna for beam forming technique in the range of 1.8-2.4GHz frequency, spacing 0.5λ, RL 18dBreference centre frequency 1.85 GHz, gain 15dBwith 58%more directivity compare with conventional patches and also develop NLVFF-RLS algorithm and desire to nullify direction and power with HPBW of 13degree.

C. Kiirnfelt, et al. Microstrip array antenna of frequency 60 GHz, gain 18dB, Directivity single array 13.4dBiand double array 14.6dBi, losses 1-2Db of 12-13dBi for access networks with very high capacity for wireless communication.

R.S. Babu, et al. Rectangular microstrip patch antenna array frequency 947.5MHz, bandwidth 25MHz, gain 13.8 and 14.4dBi and directivity 12.8dBi to 15.4dBi for prescribed range of frequency in GSM application.

J. Rajendran, et al. Square patch microstrip CP antenna of frequency 1.147GHz, gain 5dB narrow bandwidth 0.9% and efficiency 65% and a high Q factor for better directivity to improve bandwidth in mobile satellite, cellular and personal communication.

M. Abbak, et al. Microstrip patch antenna array of frequency 867MHz, directivity of 9.5 Db, beamwidth is 3dB, bandwidth is 15MHz and return loss 20dBand 30dBfor RFID applications.

S. Bhunia, et al. Designed a slot loading of single layer and single probe fed rectangular microstrip patch antenna with decrease the efficiency and 10dBBW to reduce resonance frequency of 36% and size reduction of about 60% in comparison of conventional patch antenna.Due to slot which means the half wave length along the radiating edge increasing gradually.

R. Sreekrishna, et al. A wideband conformal antenna of frequency range 1.3GHz-2.5GHz, BW of 4GHz with BW 125%, copolarized component of radiation pattern is nearly omnidirectional for sharp nulls in radiation pattern.

A. Azari, et al. Ultrawideband microstrip patch antenna used frequency 10GHz-50GHz range for 40GHz bandwidth of input impedance 50Ω for modern communication systems require antennas with more bandwidth and smaller dimension.

E. Alboni, et al. A low profile CP microstrip patch antenna, maximum gain is 3.8db at 1570MHz frequency while ceramic patch maximum gain is 5.2dB, dual feed is used to excite two orthogonal TM01mode for GPS automotive application.

F. Farzami, et al. A compact and thin metamaterial compact magneto-dielectric substrate microstrip antenna using 2.4GHz frequency reduced upto 65% compared to conventional dielectric microstrip antenna to increase quality factor.

K.T. Ahmed, et al. Microstrip patch antenna of frequency 3-5.5 GHz, resonant frequency 4GHz, bandwidth 1.6 GHz for size reduction and enhance bandwidth for satellite communication.

Nasimuddin, et al. A cross shaped square asymmetric slotted patched CP antenna with 3dBAR, BW 6Mz with 18MHz, 2.07%, 10dB return loss bandwidth, measured boresight gain is more than 3.8dBic with operating frequency 910MHz for the proper impedance matching.

P. Mankal, et al. Truncated square patch microstrip antenna of frequency 9.4GHz, bandwidth 58.75% - 26.41%, return loss -10Db and gain 8.02 Db for radar application.

P. Sikarwar, et al. Microstrip patch antenna with cutting slot of frequency 2GHz, bandwidth 23%-53.38% and return loss -37dBto -30dB, analyzed frequency 1GHz-3GHz for modern communication development.

M. Khodaee, et al. Microstrip antenna of aperture coupled frequency 9.5GHz, return loss 10Db and bandwidth 21% for mutual coupling effect between the array elements for orthogonal method.

R. Rajoria, et al. Microstrip rectangular patch antenna with resonant frequency 2.41GHz of return loss-34dB with normal microstrip patch antenna with return loss -29Db for modern wireless communication.

A. Rajhi, et al. Microstrip patch antenna of dual band frequency 50Hz and 3.2GHz, return loss -10dB, functioning in second and third generation mobile telecommunication system.

H. Naimul. A microstrip rectangular patch antenna array operating at 2.4GHz frequency, gain 5.199dB and 7.86dB return loss 18.809 at 2.360GHz for designing, measuring and testing an antenna to capture electromagnetic energy from the RF signals that have been radiated by communication and broadcasting system at ISM band.

R.H. Chen, et al. A single-fed reconfigurable microstrip patch with switchable antenna used in CP and LP with 3dB AR, for RHCP BW 2.2% of centre frequency 2457MHz, for LHCP BW 4.5% and centre frequency 2445MHz to reduce overlapping frequencies.