Add to ORKGGap waveguide technology represents an interesting alternative as low-loss, cost-effective and high-performance transmission line and package of microwave and millimeter-wave systems. A Ka-band coupled-resonator filter for a radio link diplexer, which requires high selectivity to isolate transmit and receiving channels, is proposed and realized using gap waveguide technology. The band-pass filter, which has a central frequency of 37.37 GHz and a pass bandwidth of 560 MHz, is fabricated between two metal parallel plates leaving an air gap between them. Measurements show a minimum in-band insertion loss of 1 dB and agree quite well with simulations
The heavy congestion at the existing radio frequency spectrum allocated for the today’s wireless com...
The overall goal of this thesis is to validate the low loss performance of recently evolved gap wave...
The overall goal of this thesis is to validate the low loss performance of recently evolved gap wave...
Gap waveguide technology represents an interesting alternative as low-loss, cost-effective, and high...
Gap waveguide technology represents an interesting alternative as low-loss, cost-effective, and high...
Gap waveguide technology represents an interesting alternative as low-loss, cost-effective and high-...
Abstract A low‐loss Ka‐band coupled‐resonator bandpass filter based on the printed ridge gap wavegui...
This article belongs to the Special Issue Millimeter and Terahertz Wireless CommunicationsA new cost...
This article belongs to the Special Issue Millimeter and Terahertz Wireless CommunicationsA new cost...
This article belongs to the Special Issue Millimeter and Terahertz Wireless CommunicationsA new cost...
The gap waveguide technology is a promising candidate as a cost-effective and low-loss platform for ...
The gap waveguide technology is a promising candidate as a cost-effective and low-loss platform for ...
Design of passive components (couplers, filters and antennas) and MMIC packaging validation intended...
A multilayer integrated diplexer-antenna array module for Ka-band high capacity point-to-point backh...
Design of passive components (couplers, filters and antennas) and MMIC packaging validation intended...
The heavy congestion at the existing radio frequency spectrum allocated for the today’s wireless com...
The overall goal of this thesis is to validate the low loss performance of recently evolved gap wave...
The overall goal of this thesis is to validate the low loss performance of recently evolved gap wave...
Gap waveguide technology represents an interesting alternative as low-loss, cost-effective, and high...
Gap waveguide technology represents an interesting alternative as low-loss, cost-effective, and high...
Gap waveguide technology represents an interesting alternative as low-loss, cost-effective and high-...
Abstract A low‐loss Ka‐band coupled‐resonator bandpass filter based on the printed ridge gap wavegui...
This article belongs to the Special Issue Millimeter and Terahertz Wireless CommunicationsA new cost...
This article belongs to the Special Issue Millimeter and Terahertz Wireless CommunicationsA new cost...
This article belongs to the Special Issue Millimeter and Terahertz Wireless CommunicationsA new cost...
The gap waveguide technology is a promising candidate as a cost-effective and low-loss platform for ...
The gap waveguide technology is a promising candidate as a cost-effective and low-loss platform for ...
Design of passive components (couplers, filters and antennas) and MMIC packaging validation intended...
A multilayer integrated diplexer-antenna array module for Ka-band high capacity point-to-point backh...
Design of passive components (couplers, filters and antennas) and MMIC packaging validation intended...
The heavy congestion at the existing radio frequency spectrum allocated for the today’s wireless com...
The overall goal of this thesis is to validate the low loss performance of recently evolved gap wave...
The overall goal of this thesis is to validate the low loss performance of recently evolved gap wave...