This paper proposes a reconfigurable frequency receiver using a silicon MEMS phase shifter. The proposed Reconfigurable Frequency Measurement (RFM) receiver has lower power consumption and smaller size than conventional IFM and RFM receiver using PIN diodes. We designed a MEMS phase shifter that produces a phase difference of 180°at 35 GHz. The RF simulation results show that the MEMS phase shifter has a phase difference of 180.2°at 35 GHz and can be used as a reconfigurable delay line. The RFM discriminator shows that 2-bit identification is possible in the 30-40 GHz frequency band. We obtain a uniform frequency division between 32 GHz and 40 GHz by tuning the length of reference line and short stub.Grant numbers : miniFIDS - Compact Senso...
Tremendous advancement in the field of Radio-frequency were developed through Micro-fabrication tech...
This project presents the concept and design of a reconfigurable microwave discriminator with two po...
This paper presents a building block approach for the design of frequency identification receivers. ...
In this paper, we conducted a design and simulation for a reconfigurable frequency discriminator (RF...
This final degree project presents the design and integration of the components of a 2-port reconfig...
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...
This project presents the concept and design of a 2-port reconfigurable microwave discriminator, mai...
A reconfigurable frequency measurement (RFM) device operating from 1 to 4 GHz has been designed, sim...
In this letter, we propose a frequency discriminator design method with uniform frequency sub-bands....
This paper presents a 500-600 GHz submillimeterwave MEMS-reconfigurable phase shifter. It is the fir...
This paper presents a novel 4-bit reconfigurable discriminator for frequency measurement, operating ...
Micro-electro-mechanical systems (MEMS) actuators are a key technology that have been utilized in ma...
This paper presents a submillimeter-wave 500–550-GHz MEMS-reconfigurable phase shifter, which is bas...
Els articles incorporats als appendix B-H són escrits en anglèsThis thesis presents reconfigurable m...
Tremendous advancement in the field of Radio-frequency were developed through Micro-fabrication tech...
This project presents the concept and design of a reconfigurable microwave discriminator with two po...
This paper presents a building block approach for the design of frequency identification receivers. ...
In this paper, we conducted a design and simulation for a reconfigurable frequency discriminator (RF...
This final degree project presents the design and integration of the components of a 2-port reconfig...
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...
This project presents the concept and design of a 2-port reconfigurable microwave discriminator, mai...
A reconfigurable frequency measurement (RFM) device operating from 1 to 4 GHz has been designed, sim...
In this letter, we propose a frequency discriminator design method with uniform frequency sub-bands....
This paper presents a 500-600 GHz submillimeterwave MEMS-reconfigurable phase shifter. It is the fir...
This paper presents a novel 4-bit reconfigurable discriminator for frequency measurement, operating ...
Micro-electro-mechanical systems (MEMS) actuators are a key technology that have been utilized in ma...
This paper presents a submillimeter-wave 500–550-GHz MEMS-reconfigurable phase shifter, which is bas...
Els articles incorporats als appendix B-H són escrits en anglèsThis thesis presents reconfigurable m...
Tremendous advancement in the field of Radio-frequency were developed through Micro-fabrication tech...
This project presents the concept and design of a reconfigurable microwave discriminator with two po...
This paper presents a building block approach for the design of frequency identification receivers. ...