Series Fed Designs of Planar Circular and Hexagonal Microstrip Antenna Arrays for High Gain and Reduced First Side Lobe Level Radiation

Deshmukh, Sanjay B.; Deshmukh, Amit A.

doi:10.1590/2179-10742022v21i11398

Sanjay B. Deshmukh

EXTC Department, SVKM's DJSCE, Mumbai, India vs_deshmukh@rediffmail.com, amitdeshmukh76@rediffmail.com

https://orcid.org/0000-0001-7962-0250

Amit A. Deshmukh

EXTC Department, SVKM's DJSCE, Mumbai, India vs_deshmukh@rediffmail.com, amitdeshmukh76@rediffmail.com

https://orcid.org/0000-0001-8299-5758

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Fig. 1
Linear series fed 7 × 1 binomial CMSA array (dimensions in mm).

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Fig. 2
(a) Planar binomial CMSA array with ‘λ_g/2’ spacing, (b) gain plots for 5 × 1 and 5 × 3 CMSA array.

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Fig. 3
(a) Reflection coefficient plots for the planar binomial CMSA array with λ_g/2 spacing and its (b) gain plots.

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Fig. 4
(a), (b) Radiation pattern at the center frequency of the BW for 5 × 5 planar binomial CMSA array with λ_g/2 spacing.

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Fig. 5
(a) Planar CMSA array using λ_g spacing and (b) gain plots with λ_g spacing for 5 × 3 CMSA array.

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Fig. 6
(a) S₁₁ with λ_g spacing for 5 x 5 CMSA array and its (b) gain plots.

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Fig. 7
(a), (b) Radiation pattern at the center frequency of BW for 5 × 3 and (c), (d) for 5 × 5 CMSA arrays.

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Fig. 8
Fabricated prototype of (a) 5 × 5 and (b) 5 × 3 CMSA arrays.

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Fig. 9
Linear series fed 7 × 1 binomial HMSA array.

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Fig. 10
Planar binomial HMSA array employed with λ_g/2 spacing along the H-plane.

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Fig. 11
(a) Gain plots for 5 × 1 and 5 × 3 binomial HMSA array with λ_g/2 spacing (b), (c) S₁₁ and gain plots for 5 × 5 planar binomial HMSA array with λ_g/2 spacing .

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Fig. 12
(a), (b) Radiation pattern plots for 5 x 5 planar binomial HMSA array with λ_g/2 spacing.

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Fig. 13
(a) Planar HMSA array using λ_g spacing (b) gain plots with λ_g spacing for 5 × 3 HMSA array.

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Fig. 14
(a) S₁₁ plots for 5 x 5 HMSA array with λ_g spacing and its (b) gain plots.

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Fig. 15
(a), (b) Radiation pattern at the center frequency of the impedance BW for 5 × 3 and (c), (d) for 5 × 5 planar HMSA binomial array.

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Fig. 16
Fabricated prototype of (a) 5 × 5 and (b) 5 × 3 HMSA arrays

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Table I
COMPARISON FOR SERIES FED CMSA ARRAYS FOR LINEAR AND BINOMIAL DISTRIBUTION

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TABLE II
COMPARISON AMONGST ALL SERIES FED PLANAR BINOMIAL CMSA AND HMSA ARRAYS

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TABLE III
COMPARISON OF PLANAR 5 × 5 HMSA ARRAY AGAINST REPORTED CONFIGURATIONS

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(1)

Configuration	Amplitude Distribution	Peak gain (dBi)	FSLL (dB)
3 × 1	Linear	10.8	-13
3 × 1	Binomial	10.6	-14
5 × 1	Linear	12.8	-13
5 × 1	Binomial	11.6	-22
7 × 1	Linear	14.0	-14
7 × 1	Binomial	12.7	-25

Configuration	Spacing along H-plane	Gain (dBi)	E-plane FSLL (dB)	H- plane FSLL (dB)
5 × 3 CMSA	λ_g/2	15.2	-21	-14.5
5 × 5 CMSA	λ_g/2	15.6	-26	-22
5 × 3 CMSA	λ_g	16.2	-24	-16
5 × 5 CMSA	λ_g	17.7	-29	-14
5 × 3 HMSA	λ_g/2	14.9	-24	-14
5 × 5 HMSA	λ_g/2	16.4	-20	-27
5 × 3 HMSA	λ_g	17.4	-22	-23
5 × 5 HMSA	λ_g	18.9	-26	-17

Reference	Frequency (MHz)	Array elements	Gain (dBi)	E- plane FSLL (dB)	H- plane FSLL (dB)
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[⁸[8] K. Wincza and S. Gruszczynski, “Microstrip Antenna Arrays Fed by a Series-Parallel Slot-Coupled Feeding Network,” IEEE Antennas Wirel. Propag. Lett., vol. 10, pp. 991-994, Sep. 2011.]	24150	8 × 8	18	-17	-23
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[¹³[13] W. Yang, Y. Yang, W. Che, L. Gu and X. Li, “A novel 24-GHz Series-fed Patch Antenna Array for Radar System,” in Proc. IEEE Int. Workshop Electromagn. Appl. Student Innov. (iWEM), Nanjing, 2016, pp. 1-4.]	24000	8 × 8	20.9	-20	-20
[¹⁴[14] Y. L. Chang, Y. C. Jiao, L. Zhang, G. Chen and X. Qiu, “A K-Band Series-Fed Microstrip Array Antenna with Low Sidelobe for Anticollision Radar Application,” Asia-Pacific Antennas and Propag. Conf. (APCAP), Xi'an, 2017.]	24500	8 × 6	19.9	-23	-23
[¹⁵[15] W. Wei and X. Wang, “A 77 GHz Series Fed Weighted Antenna Arrays with Suppressed Sides-Lobes in E- and H- Planes,” Prog. In Electromagn. Res. Lett., vol. 72, pp. 23-28, Jan. 2018.]	77000	6 × 8	-	-20	-15
[¹⁶[16] R. Chopra and G. Kumar, “Series- and Corner-Fed Planar Microstrip Antenna Arrays,” IEEE Trans. Antennas and Propag., vol. 67, no. 9, pp. 5982-5990, Sep. 2019.]	5800	9 × 9	22.2	-15	-15
[¹⁷[17] B. Singh, N. Sarwade and K.P. Ray, “Compact Planar Antenna Array with Tapering in Both Planes for Desired First Sidelobe Reduction,” IEEE Antennas Wirel. Propag. Lett., vol. 18, no. 3, pp. 531-535, Mar. 2019.]	10100	5 × 5	-	-18	-15
[¹⁸[18] R. Chopra and G. Kumar, “Series Fed Binomial Microstrip Arrays for Extremely Low Side Lobe Level,” IEEE Trans. Antennas and Propag., vol. 67, no. 6, pp. 4275-4279, Jun. 2019.]	5760	3 × 3	12.8	-28	-28
[¹⁹[19] S. Yasini, K. M. Aghdam and M. M. Taheri, “Low-Cost Comb-Line-Fed Microstrip Antenna Arrays with Low Sidelobe Level for 77 GHz Automotive Applications”, Prog. in Electromagn. Res. M, vol. 94, pp. 179-187, Jul. 2020.]	77000	32 × 16	24.6	-20.8	-16.4
Fig. 13(a)	3180	5 × 5	18.9	-26	-17

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Series Fed Designs of Planar Circular and Hexagonal Microstrip Antenna Arrays for High Gain and Reduced First Side Lobe Level Radiation

Abstract