Low radiation balanced microstrip bandpass filter
First Claim
Patent Images
1. A balanced microstrip bandpass filter having a centre frequency comprising:
- a dielectric substrate having a bottom surface and a top surface;
a ground plane on a bottom surface of the substrate;
on the top surface of the substrate, a first pair, a last pair, and M intermediate pairs of parallel microstrip resonant segments where M is an integer ≧
1;
each pair comprising two microstrip segments which are parallel, non-colinear, and coextensive with each other;
the pairs being arranged in sequence lengthwise such that each of said M intermediate pairs has an adjacent pair at each of its opposite ends with the spacing between the two microstrip segments in each of the pairs being alternately smaller and larger;
for each smaller spaced pair adjacent a larger spaced pair, a lengthwise portion of the smaller pair being disposed between the adjacent larger spaced pair;
the microstrip segments having lengths, lengthwise portions which collectively determine the frequency response of the filter;
input microstrip means for coupling a differential input signal to a first of said pairs of microstrip segments; and
output microstrip segments for coupling a differential output signal to a last of said pairs of microstrip segments.
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Abstract
A low-radiation balanced microstrip bandpass filter is provided. A series of microstrip segments are arranged on the surface of a substrate. The degree of coupling between adjacent pairs of segments is determined by the length of overlap between them. By always having pairs of segments, a very small far field radiation is achieved.
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Citations
19 Claims
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1. A balanced microstrip bandpass filter having a centre frequency comprising:
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a dielectric substrate having a bottom surface and a top surface; a ground plane on a bottom surface of the substrate; on the top surface of the substrate, a first pair, a last pair, and M intermediate pairs of parallel microstrip resonant segments where M is an integer ≧
1;each pair comprising two microstrip segments which are parallel, non-colinear, and coextensive with each other; the pairs being arranged in sequence lengthwise such that each of said M intermediate pairs has an adjacent pair at each of its opposite ends with the spacing between the two microstrip segments in each of the pairs being alternately smaller and larger; for each smaller spaced pair adjacent a larger spaced pair, a lengthwise portion of the smaller pair being disposed between the adjacent larger spaced pair; the microstrip segments having lengths, lengthwise portions which collectively determine the frequency response of the filter; input microstrip means for coupling a differential input signal to a first of said pairs of microstrip segments; and output microstrip segments for coupling a differential output signal to a last of said pairs of microstrip segments. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A microstrip bandpass filter having a centre frequency comprising:
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a dielectric substrate; a ground plane on a first surface of the substrate; N pairs of parallel microstrip resonant segments where N is an integer≧
2 including a first pair of microstrip segments and a last pair of microstrip segments, the parallel microstrip segments of a given pair being substantially coextensive, each pair located a spaced distance from the first surface, the N pairs of microstrip segments arranged in sequence lengthwise with each pair of segments coupled to any adjacent pairs of microstrip segments;input microstrip means for coupling an input line to the first pair of microstrip segments, and output microstrip means for coupling an output line to the last pair of microstrip segments; wherein the input microstrip means comprises a first transition for connecting the filter to a single ended microstrip input, the first transition comprising; a "T" junction for connection to the input; a pair of microstrip corner junctions for connection to the first pair of microstrips; a first microstrip segment approximately λ
/4 long connecting the "T" junction and one of the corner junctions and a second microstrip segment approximately 3λ
/4 long connecting the "T" junction and the other of the corner junctions, where λ
is the wavelength of the centre frequency of the filter. - View Dependent Claims (16)
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17. A slotline bandpass filter having a centre frequency comprising:
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a dielectric substrate having a surface; a conductive plane on the surface with N pairs of parallel balanced resonant slots therein where N is an integer≧
2 including a first pair of slots and a last pair of slots, the N pairs of parallel slots each being coextensive and arranged in sequence lengthwise with each pair of slots coupled to any adjacent pairs of slots;input means for coupling an input line to the first pair of slots; and output means for coupling an output line to the last pair of slots.
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18. A balanced microstrip bandpass filter having a centre frequency comprising:
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a dielectric substrate having a bottom surface; a ground plane on a bottom surface of the substrate; alternating between two planes in or on said substrate which are both parallel to the bottom surface, a first pair, a last pair, and M intermediate pairs of parallel microstrip resonant segments where M is an integer≧
1;each pair comprising two microstrip segments which are parallel, non-colinear, and coextensive with each other; the pairs being arranged in sequence lengthwise such that each of said M intermediate pairs has an adjacent pair in the other of the two planes at each of its opposite ends; a lengthwise portion of each pair in the first plane being broadside coupled to any adjacent pairs in the second plane; the microstrip segments having lengths, and lengthwise portions which collectively determine the frequency response of the filter; input microstrip means for coupling a differential input signal to a first of said pairs of microstrip segments; and output microstrip segments for coupling a differential output signal to a last of said pairs of microstrip segments.
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19. A CPW (coplanar waveguide) bandpass filter having a centre frequency comprising:
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a dielectric substrate having a surface; on the surface of the substrate, a first pair, a last pair, and M intermediate pairs of parallel balanced CPW conductor segments, where M is an integer≧
1;each pair comprising CPW segments which are parallel, non-colinear, and coextensive with each other; the pairs being arranged in sequence lengthwise such that each of said M intermediate pairs has an adjacent pair at each of its opposite ends with the spacing between the two CPW segments in each of the pairs being alternately smaller and larger; for each smaller spaced pair adjacent a larger spaced pair, a lengthwise portion of the smaller pair being disposed between the adjacent larger spaced pair; the CPW segments having lengths, lengthwise overlap portions which collectively determine the frequency response of the filter; ground regions on either side of the CPW conductor segments; input means for coupling a differential input line to the first pair of CPW segments; and output means for coupling a differential output line to the last pair of CPW segments.
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Specification