This paper proposes cylindrical low temperature cofired ceramic (LTCC) resonator configurations as a means of achieving high-Q values at millimetric frequencies in a reduced-size structure. Cylindrical resonator geometries with via walls are compared with rectangular structures, showing a nearly 50% saving in circuit area. A design strategy for obtaining high-Q factors using appropriate loss-reduction and feeding techniques is described. A novel high-Q cylindrical resonator implementation is then carried out, yielding an unloaded Q of 840 at K-band. which is among the highest values ever reported using a standard LTCC process. Excellent agreement was obtained between EM modeling and measurements
In this paper a design of millimeter-wave six-port device for LTCC (Low Temperature Cofired Ceramic)...
In this paper, a novel wideband transition from a laminated waveguide (LWG) to an air-filled rectang...
Low Temperature Co-fired Ceramic (LTCC) is a proven packaging technology for microwave and millimetr...
International audienceThis paper presents a novel topology for the conception of millimeter-wave (60...
In this paper, we propose a low temperature co-fired ceramic (LTCC) U-shape /spl lambda//sub g//2 re...
In this paper, we propose a low temperature co-fired ceramic (LTCC) U-shape /spl lambda//sub g//2 re...
Multilayer Ceramic in Low Temperature Co-Fired Ceramics (LTCC) is an excellent substrate for highly ...
Effective media are shown to be created by patterning a material to overcome inherent material losse...
Effective media are shown to be created by patterning a material to overcome inherent material losse...
International audienceTelecommunication and automotive industry requires high volume and low cost ci...
Dielectric materials with high dielectric constant contrast (68.7/6.37) are cofired inside low tempe...
International audiencePassive components integrated in Low Temperature Co-fired Ceramics (LTCC) are ...
In this work, implementation possibilities of millimetre-wave antennas fabricated with low temperatu...
General considerations of the characterization of material properties of low temperature co-fired ce...
This paper presents the electromagnetic modelling and design of several millimetre wave components a...
In this paper a design of millimeter-wave six-port device for LTCC (Low Temperature Cofired Ceramic)...
In this paper, a novel wideband transition from a laminated waveguide (LWG) to an air-filled rectang...
Low Temperature Co-fired Ceramic (LTCC) is a proven packaging technology for microwave and millimetr...
International audienceThis paper presents a novel topology for the conception of millimeter-wave (60...
In this paper, we propose a low temperature co-fired ceramic (LTCC) U-shape /spl lambda//sub g//2 re...
In this paper, we propose a low temperature co-fired ceramic (LTCC) U-shape /spl lambda//sub g//2 re...
Multilayer Ceramic in Low Temperature Co-Fired Ceramics (LTCC) is an excellent substrate for highly ...
Effective media are shown to be created by patterning a material to overcome inherent material losse...
Effective media are shown to be created by patterning a material to overcome inherent material losse...
International audienceTelecommunication and automotive industry requires high volume and low cost ci...
Dielectric materials with high dielectric constant contrast (68.7/6.37) are cofired inside low tempe...
International audiencePassive components integrated in Low Temperature Co-fired Ceramics (LTCC) are ...
In this work, implementation possibilities of millimetre-wave antennas fabricated with low temperatu...
General considerations of the characterization of material properties of low temperature co-fired ce...
This paper presents the electromagnetic modelling and design of several millimetre wave components a...
In this paper a design of millimeter-wave six-port device for LTCC (Low Temperature Cofired Ceramic)...
In this paper, a novel wideband transition from a laminated waveguide (LWG) to an air-filled rectang...
Low Temperature Co-fired Ceramic (LTCC) is a proven packaging technology for microwave and millimetr...