Temperature compensated high power bandpass filter
First Claim
1. A temperature-compensated bandpass filter for terrestrial television broadcast communications comprising a thin-walled waveguide cavity in which an input electrical signal resonates at a desired resonant frequency, the cavity comprising a body having an open end with a radial outward lip which extends radially outwardly from the side walls of said body and is closed by an end plate having a peripheral rim which mates with said lip, said body being composed of a first material having a first coefficient of thermal expansion and said end plate being composed of a second material having a lower coefficient of thermal expansion than said first material, the end plate having a central convex portion that projects in a direction away from an interior of the cavity, said cavity body responding to temperature increases by expanding in dimension, such expansion causing a flattening of the central convex portion of the end plate toward the interior of the cavity, said lip having both radial and axial thicknesses which are significantly greater than the wall thickness of said peripheral rim and said cavity body, and thereby being effective to provide primary resistance to radial forces created in said end plate.
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Accused Products
Abstract
A bandpass filter makes use of at least one waveguide cavity that is thermally compensated to minimize drift of a resonant frequency of the cavity with thermal expansion of cavity components. The compensation relies on deformation of the shape of at least one cavity surface in response to thermally induced dimensional changes of the cavity. A control rod is used to limit the movement of a point on the deformed surface, while the rest of the surface moves with the thermal expansion. The control rod is made of a material having a coefficient of thermal expansion that is significantly different than that of other filter components. The rod may also be arranged to span more thermally expandable material than defines the filter such that, as the filter expands, the point of deflection is moved toward the interior of the filter beyond its original position. In an alternative embodiment, an end plate of each cavity is secured to the rest of the cavity along its periphery, and has a convex shape facing away from an interior of the cavity. As the cavity expands radially, it forces the convexity of the end plate inward, compensating for the expansion in other cavity dimensions.
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Citations
43 Claims
- 1. A temperature-compensated bandpass filter for terrestrial television broadcast communications comprising a thin-walled waveguide cavity in which an input electrical signal resonates at a desired resonant frequency, the cavity comprising a body having an open end with a radial outward lip which extends radially outwardly from the side walls of said body and is closed by an end plate having a peripheral rim which mates with said lip, said body being composed of a first material having a first coefficient of thermal expansion and said end plate being composed of a second material having a lower coefficient of thermal expansion than said first material, the end plate having a central convex portion that projects in a direction away from an interior of the cavity, said cavity body responding to temperature increases by expanding in dimension, such expansion causing a flattening of the central convex portion of the end plate toward the interior of the cavity, said lip having both radial and axial thicknesses which are significantly greater than the wall thickness of said peripheral rim and said cavity body, and thereby being effective to provide primary resistance to radial forces created in said end plate.
- 2. A bandpass filter comprising a waveguide cavity for terrestrial television broadcast communications in which an input electrical signal resonates at a desired resonant frequency, the cavity having thin walls and a plurality of surfaces each with a predetermined geometric shape, said surfaces comprising an end plate connected along its periphery to an adjacent portion of the cavity by a ring structure having both radial and axial thicknesses which are significantly greater than the wall thickness of said cavity, and thereby being effective to provide resistance to radial forces created in said end plate, the end plate having a preformed convex portion that projects in a direction away from an interior of the cavity relative to the connection plane, the waveguide cavity comprising a first waveguide cavity, and the filter further comprising a second waveguide cavity coupled with the first waveguide cavity so as to receive a filtered version of the input signal via coupling with the first waveguide cavity.
- 6. A bandpass filter comprising a waveguide cavity for terrestrial broadcast communications in which an input electrical signal resonates at a desired resonant frequency, the cavity having thin walls and a plurality of surfaces each with a predetermined geometric shape, at least one of the surfaces being subject to thermal expansion upon an increase in the filter temperature, said thermal expansion resulting in an increase in dimensions of the cavity, the cavity further comprising a convex end plate connected along its periphery to an adjacent portion of the cavity along a connection plane, the end plate having a preformed convex portion that projects away from an interior of the cavity relative to the connection plane and is distorted by said dimensional increase of the cavity such as to inhibit any change in the desired resonant frequency due to said increase in cavity dimensions, said end plate being secured around said periphery to the cavity by a robust retaining ring having both radial and axial thicknesses which are significantly greater than the wall thickness of the thin-walled cavity which is adapted to withstand the radial forces produced by said end plate during temperature-induced increases in cavity dimensions.
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7. A bandpass filter comprising a waveguide cavity for terrestrial broadcast communications in which an input electrical signal resonates at a desired resonant frequency, the cavity having thin walls and a plurality of surfaces each with a predetermined geometric shape, at least one of the surfaces being subject to thermal expansion upon an increase in the filter temperature, said thermal expansion resulting in an increase in dimensions of the cavity, the cavity further comprising an end plate connected along its periphery to an adjacent portion of the cavity along a connection plane by an end plate contraction-resisting and plate-retention structure, the end plate having a preformed convex portion that projects away from an interior of the cavity relative to the connection plane and is distorted by said dimensional increase of the cavity such as to inhibit any change in the desired resonant frequency due to said increase in cavity dimensions, the waveguide cavity comprising a first waveguide cavity, and the filter further comprising a second waveguide cavity coupled with the first waveguide cavity so as to receive a filtered version of the input signal via coupling with the first waveguide cavity, said structure having both radial and axial thicknesses which are significantly greater than the wall thickness of the thin-walled cavity to provide resistance to radial forces created in said end plate when it is distorted.
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9. A bandpass filter for terrestrial broadcast communications comprising:
- at least one pair of coaxial waveguide cavities in which an input electrical signal resonates at a desired resonant frequency, each cavity having a thin wall and a plurality of surfaces each with a predetermined geometric shape, surfaces of the cavities being subject to thermal expansion upon an increase in filter temperature, said thermal expansion resulting in an increase in dimensions of each cavity, each cavity further comprising an end plate connected along its edge to an adjacent portion of the cavity along a connection plane by an end plate contraction-resisting and plate-retention structure, each end plate having a convex central region that projects away from an interior of the cavity relative to the connection plane and is distorted by said dimensional increase of the cavity such as to inhibit any change in the desired resonant frequency due to said increase in cavity dimensions, said structure having both radial and axial thicknesses which are significantly greater than the wall thickness of the thin-walled cavity to provide resistance to radial forces created in said end plate when it is distorted.
- View Dependent Claims (10)
- 42. A temperature-compensated bandpass filter for terrestrial television broadcast communications comprising a waveguide cavity in which an input electrical signal resonates at a desired resonant frequency, the cavity comprising a thin-walled body having an open end which is closed by an end plate having a rim portion, said body being composed of a first material having a first coefficient of thermal expansion and said end plate being composed of a second material having a lower coefficient of thermal expansion than said first material, the end plate having a central convex portion that projects in a direction away from an interior of the cavity, said cavity body responding to temperature increases by expanding in dimension, such expansion causing a flattening of the central convex portion of the end plate toward the interior of the cavity, said filter including an end plate contraction-resisting-and-retention structure positioned at the end of the cavity at which said end plate is located which affixes the rim portion of said end plate to said cavity body, said structure having a rim-engaging portion with both radial and axial thicknesses which are significantly greater than the wall thickness of said thin-walled cavity body to provide resistance to radial forces created in said end plate as a result of the difference in coefficients of thermal expansion of said end plate and said cavity body.
Specification