Dielectric filter with inductive coupling electrodes formed on an adjacent insulating layer
First Claim
1. A radio frequency filter comprising:
- a dielectric block having first and second opposed end faces and a side face, the dielectric block defining a plurality of axially aligned resonance apertures extending between said opposed end faces, each of the plurality of resonance apertures being coated on an internal surface with a conductive layer;
an external conductive layer disposed on the dielectric block whereby a transmission line resonator is provided for each aperture, and one of the first and second end faces of the dielectric block being covered by the external conductive layer;
an insulating layer having a facing surface arranged adjacent said side face of the dielectric block, said insulating layer facing surface extending to said one of the first and second end faces of the dielectric block which is covered by the external conductive layer; and
first and second conductive coupling electrodes disposed respectively on the side face of the dielectric block and the facing surface of the insulating layer for affecting at least the inductive coupling between resonators from the side face of the dielectric block adjacent the insulating layer.
6 Assignments
0 Petitions
Accused Products
Abstract
The present invention relates to a radio frequency filter, comprising a block(1) of a dielectric agent and an insulation sheet (2) attached to a side surface thereof. From the top surface of the block to the undersurface, at least two holes (3,4,5) coated with a conductive agent extend. At least most of the surface of the body, with the exception of one side surface, as well as the surfaces of the holes have been coated with a conductive agent, whereby a transmission line resonator is produced for each hole. The surface of the insulation sheet (2) fixed against the uncoated side surface but not facing the block has also been coated with a conductive agent. The coupling pattern formed by the metallic electrodes is located between the opposite surfaces. The unevenness of the surfaces placed against each other and the defects in adjusting the pieces cause great divergence in the response curves of the filters. This can be reduced in that prior to attaching the insulation sheet (2) part (14,15,16,17,115) of the electrodes of the coupling pattern have been arranged on the uncoated side surface of the insulation sheet (2) and the rest (7,8,9,10,11,12,13,114) of the electrodes of the coupling pattern have been arranged on the other side surface of the body.
60 Citations
10 Claims
-
1. A radio frequency filter comprising:
-
a dielectric block having first and second opposed end faces and a side face, the dielectric block defining a plurality of axially aligned resonance apertures extending between said opposed end faces, each of the plurality of resonance apertures being coated on an internal surface with a conductive layer; an external conductive layer disposed on the dielectric block whereby a transmission line resonator is provided for each aperture, and one of the first and second end faces of the dielectric block being covered by the external conductive layer; an insulating layer having a facing surface arranged adjacent said side face of the dielectric block, said insulating layer facing surface extending to said one of the first and second end faces of the dielectric block which is covered by the external conductive layer; and first and second conductive coupling electrodes disposed respectively on the side face of the dielectric block and the facing surface of the insulating layer for affecting at least the inductive coupling between resonators from the side face of the dielectric block adjacent the insulating layer. - View Dependent Claims (2, 3, 4, 5)
-
-
6. A radio frequency filter, comprising:
-
a block of a dielectric agent, having opposed top and bottom surfaces, opposed first and second end surfaces extending between said top and bottom surfaces, and opposed first and second side surfaces, the block defining at least two holes extending through the block from the top surface to the bottom surface, an electrically conductive layer on the bottom surface of the block, on said first and second end surfaces and on said first side surface, and on an inner surface of each said hole, whereby a transmission line resonator is produced for each hole, an insulation sheet, attached against the second side surface of the block having surfaces with a particular surface area with a particular shape, said sheet having a side surface that is substantially coated with a conductive layer and an uncoated side surface that is uncoated and is attached against the second side surface of the block, a coupling pattern formed by conductive coupling electrodes to be at least inductively coupled to the resonators from the second side of the dielectric block facing the insulation sheet when said coupling pattern is located mainly between the insulation sheet and the block, and part of the electrodes of the coupling pattern are arranged on the uncoated side surface of the insulation sheet and the rest of the electrodes of the coupling pattern are arranged on the second side surface of the block, and the surface area and shape of the insulation sheet, and the surface area and shape of the second side surface of the block being substantially similar, and the uncoated side surface of the insulation sheet extending to the bottom surface of the block while being attached against the second side surface of the block. - View Dependent Claims (7, 8, 9, 10)
-
Specification