With the increasing demand of bandwidth and data rate,
there is a dire need to implement antenna systems in mobile phones
which are able to fulfill user requirements. A monopole antenna
system with multi-antennas configurations is proposed considering
the feasibility and user demand. The multi-antenna structure is
referred to as multi-input multi-output (MIMO) antenna system. The
multi-antenna system comprises of 4 antennas operating below 6
GHz frequency bands for 4G/LTE and 4 antenna for 5G applications
at 28 GHz and the dimension of board is 120 × 70 × 0.8mm3.
The suggested designs is feasible with a structure of low-profile
planar-antenna and is adaptable to smart cell phones and handheld
devices. To the best of our knowledge, this is the first design
compared to the literature by having integrated antenna system
for two standards, i.e., 4G and 5G. All MIMO antenna systems
are simulated on commercially available software, which is high
frequency structures simulator (HFSS).
[1] X. Zhou, X. Quan, and R. Li, A Dual-Broadband MIMO Antenna
System for GSM/UMTS/LTE and WLAN Handsets, IEEE Antennas
and Wireless Propagation Letters, vol. 11, pp. 551-554, 2012.
doi=10.1109/LAWP.2012.2199459
[2] K. L. Wong and C. Y. Tsai and J. Y. Lu and D. M. Chian
and W. Y. Li, Compact eight MIMO antennas for 5G smartphones
and their MIMO capacity verification,” 2016 URSI Asia-Pacific
Radio Science Conference (URSI AP-RASC), pp. 1054-1056, 2016.
doi=10.1109/URSIAP-RASC.2016.7601145
[3] Mohammad S. Sharawi, Printed Multi-Band MIMO Antenna Systems and
Their Performance Metrics, IEEE Antennas and Propagation Magazine,
vol. 55, no. 5, pp. 219-232, Oct., 2013.
[4] A. Pattekar and M. Dhanvijay and V. Jadhav and A. Chaudhari and R. K.
Gupta, “Dual-band compact MIMO antenna for 3G,Wi-MAX and WLAN
applications,” 2017 Third International Conf. on Sens., Sign. Proc. and
Secur. (ICSSS), pp. 357-360, 2017. doi=10.1109/SSPS.2017.8071620
[5] Muhammad N. Khan and Umar H. Rizvi, Antenna Beam-Forming for a 60
GHz Transceiver System, Arab. J. Sci. Eng., vol. 38, no. 9, pp. 24512464,
2013. doi=10.1007/s13369-013-0555-8.
[6] M. S. Sharawi, Printed MIMO Antenna Engineering, 2nd ed. Norwood,
MA: Artech House, 2014.
[7] S. Shoaib and I. Shoaib and Xiaodong Chen and C. G. Parini,
“MIMO antennas for next generation mobile terminals,” 2016 10th
European Conf. on Ant. and Propag. (EuCAP), pp. 1-4, 2016.
doi=10.1109/EuCAP.2016.7481346
[8] Tang, T.C., and Lin, K.H., “An ultra-wideband MIMO antenna with dual
band-notched function,” IEEE Ant. Wirel. Propag. Lett., vol. 13, pp.
10761079, 2014.
[9] Andujar, A., and Anguera, J., “MIMO Multiband Antenna System with
Non- Resonant Elements,” Microw. Opt. Technol. Lett., vol. 57, no. 1, pp.
183190, Jan. 2015.
[10] Luo, C.M., Hong, J.S., and Zhong, L.L., “Isolation Enhancement of a
Very Compact UWB-MIMO Slot Antenna With Two Defected Ground
Structures,” IEEE Ant. Wirel. Propag. Lett., vol. 14, pp. 1766 - 1769,
2015.
[11] Khan, M.N. and Jamil, M., “Adaptive hybrid free space optical/radio
frequency communication system,” Telecommun. Syst., vol. 65, no. 1, pp.
117126, May 2017.
[12] Jun Suk Kim, Jae Sheung Shin, Sung-Min Oh, Ae-Soon Park
and Min Young Chung, “System coverage and capacity analysis on
Millimeter-wave band for 5G mobile communication systems with
massive antenna structure,” Intern. J. of Ant. and Propag., vol. 2014,
pp. 1-11, 2014.
[13] Yang, S.M., and Huang, C.H., “An Inductor Model for Analyzing the
Performance of Printed Meander Line Antennas in Smart Structures,” J.
Electromag. Analy. App., vol. 6, no. 4, pp. 244252, Aug. 2014.
[14] Zhaoliang Chen, Wen Geyi, Ming Zhang and Jun Wang, “A study of
antenna system for High order MIMO device”, Int. J. of Ant. and Propag.,
vol. 2016, pp. 1-14, 2016.
[15] Tavis Hall and Satish K. Sharma, “S- and C- band Omni-Directional
Antenna in MIMO Arrangement on Bent Ground Plane for A Conducting
Cylindrical Surface,” 2015 IEEE Int Symp. on Ant. and Propag., pp.
715-716, 2015.
[16] P. S. Kildal and A. A. Glazunov, “OTA testing of 3G-5G devices with
MIMO: From anechoic chambers to reverberation chambers and # x2026;
back again?,” 2017 IEEE Int. Symp. on Ant. and Propag., pp. 1697-1698,
2017. doi=10.1109/APUSNCURSINRSM.2017.8072891
[17] Soham Ghosh, Thanh-Ngon Tran and Tho Le-Ngoc, “Miniaturized
Four-Element Diversity PIFA,” IEEE ant. and wirel. propag. lett., vol.
12, pp. 396-400, 2013.
[18] S. s. Phule and A. Y. Kazi, “MIMO antenna system for LTE (4G),” 2012
1st Int. Conf. on Emerg. Techn. Trends in Electr., Commun. Netw., pp.
1-6, 2012. doi=10.1109/ET2ECN.2012.6470110
[1] X. Zhou, X. Quan, and R. Li, A Dual-Broadband MIMO Antenna
System for GSM/UMTS/LTE and WLAN Handsets, IEEE Antennas
and Wireless Propagation Letters, vol. 11, pp. 551-554, 2012.
doi=10.1109/LAWP.2012.2199459
[2] K. L. Wong and C. Y. Tsai and J. Y. Lu and D. M. Chian
and W. Y. Li, Compact eight MIMO antennas for 5G smartphones
and their MIMO capacity verification,” 2016 URSI Asia-Pacific
Radio Science Conference (URSI AP-RASC), pp. 1054-1056, 2016.
doi=10.1109/URSIAP-RASC.2016.7601145
[3] Mohammad S. Sharawi, Printed Multi-Band MIMO Antenna Systems and
Their Performance Metrics, IEEE Antennas and Propagation Magazine,
vol. 55, no. 5, pp. 219-232, Oct., 2013.
[4] A. Pattekar and M. Dhanvijay and V. Jadhav and A. Chaudhari and R. K.
Gupta, “Dual-band compact MIMO antenna for 3G,Wi-MAX and WLAN
applications,” 2017 Third International Conf. on Sens., Sign. Proc. and
Secur. (ICSSS), pp. 357-360, 2017. doi=10.1109/SSPS.2017.8071620
[5] Muhammad N. Khan and Umar H. Rizvi, Antenna Beam-Forming for a 60
GHz Transceiver System, Arab. J. Sci. Eng., vol. 38, no. 9, pp. 24512464,
2013. doi=10.1007/s13369-013-0555-8.
[6] M. S. Sharawi, Printed MIMO Antenna Engineering, 2nd ed. Norwood,
MA: Artech House, 2014.
[7] S. Shoaib and I. Shoaib and Xiaodong Chen and C. G. Parini,
“MIMO antennas for next generation mobile terminals,” 2016 10th
European Conf. on Ant. and Propag. (EuCAP), pp. 1-4, 2016.
doi=10.1109/EuCAP.2016.7481346
[8] Tang, T.C., and Lin, K.H., “An ultra-wideband MIMO antenna with dual
band-notched function,” IEEE Ant. Wirel. Propag. Lett., vol. 13, pp.
10761079, 2014.
[9] Andujar, A., and Anguera, J., “MIMO Multiband Antenna System with
Non- Resonant Elements,” Microw. Opt. Technol. Lett., vol. 57, no. 1, pp.
183190, Jan. 2015.
[10] Luo, C.M., Hong, J.S., and Zhong, L.L., “Isolation Enhancement of a
Very Compact UWB-MIMO Slot Antenna With Two Defected Ground
Structures,” IEEE Ant. Wirel. Propag. Lett., vol. 14, pp. 1766 - 1769,
2015.
[11] Khan, M.N. and Jamil, M., “Adaptive hybrid free space optical/radio
frequency communication system,” Telecommun. Syst., vol. 65, no. 1, pp.
117126, May 2017.
[12] Jun Suk Kim, Jae Sheung Shin, Sung-Min Oh, Ae-Soon Park
and Min Young Chung, “System coverage and capacity analysis on
Millimeter-wave band for 5G mobile communication systems with
massive antenna structure,” Intern. J. of Ant. and Propag., vol. 2014,
pp. 1-11, 2014.
[13] Yang, S.M., and Huang, C.H., “An Inductor Model for Analyzing the
Performance of Printed Meander Line Antennas in Smart Structures,” J.
Electromag. Analy. App., vol. 6, no. 4, pp. 244252, Aug. 2014.
[14] Zhaoliang Chen, Wen Geyi, Ming Zhang and Jun Wang, “A study of
antenna system for High order MIMO device”, Int. J. of Ant. and Propag.,
vol. 2016, pp. 1-14, 2016.
[15] Tavis Hall and Satish K. Sharma, “S- and C- band Omni-Directional
Antenna in MIMO Arrangement on Bent Ground Plane for A Conducting
Cylindrical Surface,” 2015 IEEE Int Symp. on Ant. and Propag., pp.
715-716, 2015.
[16] P. S. Kildal and A. A. Glazunov, “OTA testing of 3G-5G devices with
MIMO: From anechoic chambers to reverberation chambers and # x2026;
back again?,” 2017 IEEE Int. Symp. on Ant. and Propag., pp. 1697-1698,
2017. doi=10.1109/APUSNCURSINRSM.2017.8072891
[17] Soham Ghosh, Thanh-Ngon Tran and Tho Le-Ngoc, “Miniaturized
Four-Element Diversity PIFA,” IEEE ant. and wirel. propag. lett., vol.
12, pp. 396-400, 2013.
[18] S. s. Phule and A. Y. Kazi, “MIMO antenna system for LTE (4G),” 2012
1st Int. Conf. on Emerg. Techn. Trends in Electr., Commun. Netw., pp.
1-6, 2012. doi=10.1109/ET2ECN.2012.6470110
@article{"International Journal of Electrical, Electronic and Communication Sciences:77283", author = "Muhammad N. Khan and Syed O. Gillani and Mohsin Jamil and Tarbia Iftikhar", title = "Multi Antenna Systems for 5G Mobile Phones", abstract = "With the increasing demand of bandwidth and data rate,
there is a dire need to implement antenna systems in mobile phones
which are able to fulfill user requirements. A monopole antenna
system with multi-antennas configurations is proposed considering
the feasibility and user demand. The multi-antenna structure is
referred to as multi-input multi-output (MIMO) antenna system. The
multi-antenna system comprises of 4 antennas operating below 6
GHz frequency bands for 4G/LTE and 4 antenna for 5G applications
at 28 GHz and the dimension of board is 120 × 70 × 0.8mm3.
The suggested designs is feasible with a structure of low-profile
planar-antenna and is adaptable to smart cell phones and handheld
devices. To the best of our knowledge, this is the first design
compared to the literature by having integrated antenna system
for two standards, i.e., 4G and 5G. All MIMO antenna systems
are simulated on commercially available software, which is high
frequency structures simulator (HFSS).", keywords = "High frequency structures simulator (HFSS),
mutli-input multi-output (MIMO), monopole antenna, slot antenna.", volume = "12", number = "4", pages = "299-8", }
