Multiband Micro Antenna on Silicon Substrate

Nakul Haridas; Ran Zhang; Ahmed El-Rayis; Ahmet Erdogan; Tughrul Arslan; Andrew Bunting; Anthony J. Walton

Multiband Micro Antenna on Silicon Substrate

Nakul Haridas, Ran Zhang, Ahmed El-Rayis, Ahmet Erdogan, Tughrul Arslan, Andrew Bunting, Anthony J. Walton

School of Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The paper proposes a micromachined antenna on a silicon substrate for Aerospace applications. The research focuses on the feasibility of fabricating antennas using standard fabrication and 3D integration techniques to develop a single chip solution for wideband/multiband communication devices.

The antenna reported in this paper is designed to work between 30-150 GHz, for applications of high bandwidth point-to-point communication, radio astronomy and remote sensing for satellites. The antenna is specially developed as a payload for the ESPACENET [1, 2] sensor satellite, which is based around a CubeSat [3] nanosatellite frame.

The antenna is designed to operate with the objective being to achieve the smallest implementation with high efficiency, the minimum loss while accomplishing consistent performance over the prescribed range of frequencies. The 2 antenna design fits on a 4mm(2) die and has been simulated using MicroStripes, which predicts promising results for 7 different bands over the desired operating range of 30-150 GHz. For a majority of these bands the efficiency of the antenna is within 80-95%, whilst the directivity is 4.5-6.5dBi and the gain of 2.2-5.5dBi. The radiation patterns for the operating range vary within nominal parameters and had 8-16% bandwidth between the operating ranges. (12)

Original language	English
Title of host publication	2009 IEEE AEROSPACE CONFERENCE, VOLS 1-7
Place of Publication	NEW YORK
Publisher	Institute of Electrical and Electronics Engineers
Pages	717-723
Number of pages	7
ISBN (Print)	978-1-4244-2621-8
Publication status	Published - 2009
Event	2009 IEEE Aerospace Conference - Big Sky Duration: 7 Mar 2009 → 14 Mar 2009

Conference

Conference	2009 IEEE Aerospace Conference
City	Big Sky
Period	7/03/09 → 14/03/09

Cite this

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title = "Multiband Micro Antenna on Silicon Substrate",

abstract = "The paper proposes a micromachined antenna on a silicon substrate for Aerospace applications. The research focuses on the feasibility of fabricating antennas using standard fabrication and 3D integration techniques to develop a single chip solution for wideband/multiband communication devices.The antenna reported in this paper is designed to work between 30-150 GHz, for applications of high bandwidth point-to-point communication, radio astronomy and remote sensing for satellites. The antenna is specially developed as a payload for the ESPACENET [1, 2] sensor satellite, which is based around a CubeSat [3] nanosatellite frame.The antenna is designed to operate with the objective being to achieve the smallest implementation with high efficiency, the minimum loss while accomplishing consistent performance over the prescribed range of frequencies. The 2 antenna design fits on a 4mm(2) die and has been simulated using MicroStripes, which predicts promising results for 7 different bands over the desired operating range of 30-150 GHz. For a majority of these bands the efficiency of the antenna is within 80-95%, whilst the directivity is 4.5-6.5dBi and the gain of 2.2-5.5dBi. The radiation patterns for the operating range vary within nominal parameters and had 8-16% bandwidth between the operating ranges. (12)",

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T1 - Multiband Micro Antenna on Silicon Substrate

AU - Haridas, Nakul

AU - Zhang, Ran

AU - El-Rayis, Ahmed

AU - Erdogan, Ahmet

AU - Arslan, Tughrul

AU - Bunting, Andrew

AU - Walton, Anthony J.

PY - 2009

Y1 - 2009

N2 - The paper proposes a micromachined antenna on a silicon substrate for Aerospace applications. The research focuses on the feasibility of fabricating antennas using standard fabrication and 3D integration techniques to develop a single chip solution for wideband/multiband communication devices.The antenna reported in this paper is designed to work between 30-150 GHz, for applications of high bandwidth point-to-point communication, radio astronomy and remote sensing for satellites. The antenna is specially developed as a payload for the ESPACENET [1, 2] sensor satellite, which is based around a CubeSat [3] nanosatellite frame.The antenna is designed to operate with the objective being to achieve the smallest implementation with high efficiency, the minimum loss while accomplishing consistent performance over the prescribed range of frequencies. The 2 antenna design fits on a 4mm(2) die and has been simulated using MicroStripes, which predicts promising results for 7 different bands over the desired operating range of 30-150 GHz. For a majority of these bands the efficiency of the antenna is within 80-95%, whilst the directivity is 4.5-6.5dBi and the gain of 2.2-5.5dBi. The radiation patterns for the operating range vary within nominal parameters and had 8-16% bandwidth between the operating ranges. (12)

AB - The paper proposes a micromachined antenna on a silicon substrate for Aerospace applications. The research focuses on the feasibility of fabricating antennas using standard fabrication and 3D integration techniques to develop a single chip solution for wideband/multiband communication devices.The antenna reported in this paper is designed to work between 30-150 GHz, for applications of high bandwidth point-to-point communication, radio astronomy and remote sensing for satellites. The antenna is specially developed as a payload for the ESPACENET [1, 2] sensor satellite, which is based around a CubeSat [3] nanosatellite frame.The antenna is designed to operate with the objective being to achieve the smallest implementation with high efficiency, the minimum loss while accomplishing consistent performance over the prescribed range of frequencies. The 2 antenna design fits on a 4mm(2) die and has been simulated using MicroStripes, which predicts promising results for 7 different bands over the desired operating range of 30-150 GHz. For a majority of these bands the efficiency of the antenna is within 80-95%, whilst the directivity is 4.5-6.5dBi and the gain of 2.2-5.5dBi. The radiation patterns for the operating range vary within nominal parameters and had 8-16% bandwidth between the operating ranges. (12)

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M3 - Conference contribution

SN - 978-1-4244-2621-8

SP - 717

EP - 723

BT - 2009 IEEE AEROSPACE CONFERENCE, VOLS 1-7

PB - Institute of Electrical and Electronics Engineers

CY - NEW YORK

T2 - 2009 IEEE Aerospace Conference

Y2 - 7 March 2009 through 14 March 2009

ER -

Multiband Micro Antenna on Silicon Substrate

Abstract

Conference

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