This paper presents a reconfigurable micromachined antenna for radiation pattern diversity. It consists of two elements, whose relative excitation phases can be adjusted using a number of delay lines and switches. The beam of the proposed antenna can be switched among three different angles: -25°, 0°, and 25°. Optimization has been carried out using HFSS and results are verified using CST. The good agreement between the two packages validates the presented results. The proposed antenna has reasonable working bandwidth, high directivity, and high radiation efficiency. The overall size of this antenna excluding the ground plane is 2.44 mm-by-2.26 mm.status: publishe
In this paper, we have proposed a reconfigurable antenna using micro mechanical actuation switches f...
International audienceIn this paper, an antenna with reconfigurable radiation pattern in H-plan at 2...
This paper presents a novel ultra-compact (0.17 x 0.17 x 0.05 wavelengths) reconfigurable antenna eq...
In this paper a novel MEMS antenna with reconfigurable polarization operating at 60 GHz is presented...
International audienceThis work describes the design of a radiation pattern reconfigurable microstri...
The main objective of this paper is comparative study of Reconfigurable antennas using RF MEMS. The ...
Abstract-- We present a new reconfigurable broadband miniature antenna architecture that is able to ...
In this paper, a compact microstrip antenna with radiation pattern reconfigurable characteristic emp...
In this paper, a silicon-based radio frequency micro-electromechanical systems (RF MEMS) pattern rec...
Abstract:The reconfigurable antenna based on RF-MEMS is hot researching direction in recent years,it...
This paper presents a novel ultra-compact (0.17 x 0.17 x 0.05 wavelengths) reconfigurable antenna eq...
International audienceThe purpose of this paper is to report on two microstrip reconfigurable antenn...
International audienceIn this paper, an antenna with reconfigurable radiation pattern in H-plane at ...
Problem statement: In this study Microelectrical Mechanical System (MEMS) switches were proposed to ...
We present a novel broad-band miniature antenna and employ it in a multi-element geometry with diver...
In this paper, we have proposed a reconfigurable antenna using micro mechanical actuation switches f...
International audienceIn this paper, an antenna with reconfigurable radiation pattern in H-plan at 2...
This paper presents a novel ultra-compact (0.17 x 0.17 x 0.05 wavelengths) reconfigurable antenna eq...
In this paper a novel MEMS antenna with reconfigurable polarization operating at 60 GHz is presented...
International audienceThis work describes the design of a radiation pattern reconfigurable microstri...
The main objective of this paper is comparative study of Reconfigurable antennas using RF MEMS. The ...
Abstract-- We present a new reconfigurable broadband miniature antenna architecture that is able to ...
In this paper, a compact microstrip antenna with radiation pattern reconfigurable characteristic emp...
In this paper, a silicon-based radio frequency micro-electromechanical systems (RF MEMS) pattern rec...
Abstract:The reconfigurable antenna based on RF-MEMS is hot researching direction in recent years,it...
This paper presents a novel ultra-compact (0.17 x 0.17 x 0.05 wavelengths) reconfigurable antenna eq...
International audienceThe purpose of this paper is to report on two microstrip reconfigurable antenn...
International audienceIn this paper, an antenna with reconfigurable radiation pattern in H-plane at ...
Problem statement: In this study Microelectrical Mechanical System (MEMS) switches were proposed to ...
We present a novel broad-band miniature antenna and employ it in a multi-element geometry with diver...
In this paper, we have proposed a reconfigurable antenna using micro mechanical actuation switches f...
International audienceIn this paper, an antenna with reconfigurable radiation pattern in H-plan at 2...
This paper presents a novel ultra-compact (0.17 x 0.17 x 0.05 wavelengths) reconfigurable antenna eq...