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Design and Development of MIMO Reconfigurable Antenna System Based on MEMS Technology / Muhammad Mateen Hassan

By: Hassan, Muhammad Mateen Contributor(s): Supervised by Dr. Adnan Ahmed Khan Material type: Text

TextPublisher: Rawalpindi, MCS (NUST), 2021Description: xiv, 119 pSubject(s): PhD Electrical Engineering Thesis | PhD EE ThesisDDC classification: 621.382,HAS

Contents:

Modern wireless communication systems demand multi–band operation, higher data rate, channel capacity and better link reliability. Such requirements can be met by the usage of multiple input multiple output (MIMO) antenna system. The complexity of the MIMO antenna system has been reduced by the implementation of frequency reconfiguration approach. The frequency reconfiguration characteristics has been achieved by introducing radio frequency micro–electro– mechanical–system (RF MEMS) switches in the antenna system. The features of RF MEMS switch that distinguish it from other existed active switches include low power loss, wide impedance bandwidth, low insertion loss and high isolation. The thesis presents a novel design of two element MIMO frequency reconfigurable antenna system consisting of two semi–circular ring–shaped strip–lines with a rectangular slot on the top conducting layer and a U–shaped slot on the bottom side of the substrate. The dimensions of the proposed antenna system are 32 × 98 × 1 mm3. Frequency reconfigurable characteristics of the proposed MIMO antenna system has been achieved by using single pole four throw (SP4T) RF MEMS switch. To achieve the better performance from the proposed antenna system, the SP4T switch has been used in the U–shaped slot etched in the ground plane of the substrate. The frequency reconfigurability of antenna system has been switched at the frequencies of 600 MHz, 1.8 GHz, 2.4 GHz, 3.5 GHz and 5.5 GHz bands. Isolation greater than 15 dB has been achieved at all the operating bands without addition of any decoupler structure. The measured peak gains of 3.4 dB, 3.8 dB, 4.3 dB, and 4.4 dB have been achieved at 1.8 GHz, 2.45 GHz, 3.5 GHz, and 5.5 GHz respectively. Average peak radiation efficiency of 59% has been observed at all operating bands of MIMO frequency reconfigurable antenna system. The calculated envelop correlation coefficient (ECC) less than 0.04, diversity gain (DG) greater than 9.8 dB and total active reflection coefficient (TARC) less than –10 dB have been observed at all operating bands during operation.

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Item type	Current location	Home library	Shelving location	Call number	Status	Notes	Date due	Barcode	Item holds
Thesis	Military College of Signals (MCS)	Military College of Signals (MCS)	Thesis	621.382,HAS (Browse shelf)	Available	Almirah No.68, Shelf No.6		MCSPhD EE-16

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Previous	621.382,FAR Neurasense /	621.382,GAH Resource Allocation in 5G/IoT Networks /	621.382,GUL Brain - Bolt (EEG Based Mind Aid) /	621.382,HAS Design and Development of MIMO Reconfigurable Antenna System Based on MEMS Technology /	621.382,HUS Advance Food Grading System (AFG) /	621.382,HUS AI-Based Digital WSI Scanner for Cancer Detection (CANCERSCOPEX) /	621.382,IMR Development of Model Order Reduction Techniques /	Next

Modern wireless communication systems demand multi–band operation, higher data rate, channel
capacity and better link reliability. Such requirements can be met by the usage of multiple input
multiple output (MIMO) antenna system. The complexity of the MIMO antenna system has been
reduced by the implementation of frequency reconfiguration approach. The frequency
reconfiguration characteristics has been achieved by introducing radio frequency micro–electro–
mechanical–system (RF MEMS) switches in the antenna system. The features of RF MEMS
switch that distinguish it from other existed active switches include low power loss, wide
impedance bandwidth, low insertion loss and high isolation.
The thesis presents a novel design of two element MIMO frequency reconfigurable antenna
system consisting of two semi–circular ring–shaped strip–lines with a rectangular slot on the top
conducting layer and a U–shaped slot on the bottom side of the substrate. The dimensions of the
proposed antenna system are 32 × 98 × 1 mm3. Frequency reconfigurable characteristics of the
proposed MIMO antenna system has been achieved by using single pole four throw (SP4T) RF
MEMS switch. To achieve the better performance from the proposed antenna system, the SP4T
switch has been used in the U–shaped slot etched in the ground plane of the substrate. The
frequency reconfigurability of antenna system has been switched at the frequencies of 600 MHz,
1.8 GHz, 2.4 GHz, 3.5 GHz and 5.5 GHz bands. Isolation greater than 15 dB has been achieved at
all the operating bands without addition of any decoupler structure. The measured peak gains of
3.4 dB, 3.8 dB, 4.3 dB, and 4.4 dB have been achieved at 1.8 GHz, 2.45 GHz, 3.5 GHz, and 5.5
GHz respectively. Average peak radiation efficiency of 59% has been observed at all operating
bands of MIMO frequency reconfigurable antenna system. The calculated envelop correlation coefficient (ECC) less than 0.04, diversity gain (DG) greater than 9.8 dB and total active reflection
coefficient (TARC) less than –10 dB have been observed at all operating bands during operation.

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