A reconfigurable frequency measurement (RFM) device operating from 1 to 4 GHz has been designed, simulated, fabricated and tested. The RFM device can identify an unknown signal by assigning it to one of the four sub-bands defined by a switched circuit. The 2-bit design is formed by switching between two branches, where each branch corresponds to one bit. The RFM device is made using PIN diodes and other surface mounted components, integrated on the same dielectric substrate in microstrip technology. Simulated and measured results are shown with a very good agreement
The main objective of this paper is comparative study of Reconfigurable antennas using RF MEMS. The ...
This project describes the operation, requirements and design of a microwave discriminator with 2 po...
In this letter, we propose a frequency discriminator design method with uniform frequency sub-bands....
This paper presents a novel 4-bit reconfigurable discriminator for frequency measurement, operating ...
This paper proposes a reconfigurable frequency receiver using a silicon MEMS phase shifter. The prop...
This paper presents a building block approach for the design of frequency identification receivers. ...
This paper presents a reconfigurable frequency measurement circuit that can reconfigure bandwidth an...
This letter presents a low-cost and compact reconfigurable frequency measurement circuit able to rec...
In this paper a comparison between fixed and reconfigurable circuits used for frequency measurement ...
This final degree project presents the design and integration of the components of a 2-port reconfig...
In this paper, we conducted a design and simulation for a reconfigurable frequency discriminator (RF...
This paper presents a building block approach to design a reconfigurable discriminator (RD), which i...
This project presents the concept and design of a 2-port reconfigurable microwave discriminator, mai...
This paper presents a comparison between fixed and reconfigurable 4-bit microwave discriminators. Th...
A 4-bit instantaneous frequency measurement (IFM) subsystem operating in the 1.5–4.66 GHz frequency ...
The main objective of this paper is comparative study of Reconfigurable antennas using RF MEMS. The ...
This project describes the operation, requirements and design of a microwave discriminator with 2 po...
In this letter, we propose a frequency discriminator design method with uniform frequency sub-bands....
This paper presents a novel 4-bit reconfigurable discriminator for frequency measurement, operating ...
This paper proposes a reconfigurable frequency receiver using a silicon MEMS phase shifter. The prop...
This paper presents a building block approach for the design of frequency identification receivers. ...
This paper presents a reconfigurable frequency measurement circuit that can reconfigure bandwidth an...
This letter presents a low-cost and compact reconfigurable frequency measurement circuit able to rec...
In this paper a comparison between fixed and reconfigurable circuits used for frequency measurement ...
This final degree project presents the design and integration of the components of a 2-port reconfig...
In this paper, we conducted a design and simulation for a reconfigurable frequency discriminator (RF...
This paper presents a building block approach to design a reconfigurable discriminator (RD), which i...
This project presents the concept and design of a 2-port reconfigurable microwave discriminator, mai...
This paper presents a comparison between fixed and reconfigurable 4-bit microwave discriminators. Th...
A 4-bit instantaneous frequency measurement (IFM) subsystem operating in the 1.5–4.66 GHz frequency ...
The main objective of this paper is comparative study of Reconfigurable antennas using RF MEMS. The ...
This project describes the operation, requirements and design of a microwave discriminator with 2 po...
In this letter, we propose a frequency discriminator design method with uniform frequency sub-bands....