Coaxial to dual co-planar waveguide launcher for microwave bolometry
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01J-005/34
G01K-007/08
G01K-007/22
출원번호
US-0983526
(2011-01-03)
등록번호
US-8610069
(2013-12-17)
발명자
/ 주소
Swank, John D.
Lexa, Jefferson D.
Brush, Andrew S.
출원인 / 주소
Tegam, Inc.
대리인 / 주소
Buckingham, Doolittle & Burroughs, LLC
인용정보
피인용 횟수 :
1인용 특허 :
7
초록▼
A dual-coplanar sensor architecture is constructed by launching from coaxial airline to a unique arrangement of coplanar waveguides, arranged symmetrically on both sides of a thin dielectric substrate. The center conductor of the coaxial airline makes electrical contact with the middle conductor of
A dual-coplanar sensor architecture is constructed by launching from coaxial airline to a unique arrangement of coplanar waveguides, arranged symmetrically on both sides of a thin dielectric substrate. The center conductor of the coaxial airline makes electrical contact with the middle conductor of both the top and bottom coplanar waveguides. The characteristic impedance of the top and bottom coplanar waveguides is designed to be approximately twice the characteristic impedance of the coaxial airline, such that the parallel combination of the two coplanar waveguides is the characteristic impedance of the coaxial airline. Further, steps in both the ground planes and center conductor at the point of transition from coaxial to coplanar are used to tune the launch and minimize reflection at the launch.
대표청구항▼
1. A thermistor bolometer comprising: a front connector block comprising bellows springs utilized for DC and low frequency ground connection;a bottom housing; anda substrate, wherein the substrate rests in the bottom housing and is pressed into a slot in the front connector block;the substrate compr
1. A thermistor bolometer comprising: a front connector block comprising bellows springs utilized for DC and low frequency ground connection;a bottom housing; anda substrate, wherein the substrate rests in the bottom housing and is pressed into a slot in the front connector block;the substrate comprising at least two coplanar waveguides arranged symmetrically on both sides of the substrate, and a center conductor that makes electrical contact with a middle conductor of the at least two coplanar waveguides; andwherein a termination resistance of each of the at least two coplanar waveguides is provided by at least two thermistors, with one thermistor per coplanar waveguide; andwherein the at least two thermistors are held at a desired resistance by application of DC current from an external source, forming a sensor of a DC substitution bolometer. 2. The bolometer of claim 1, wherein the at least two coplanar waveguides terminate with equal resistances, such that an impedance at a launch matches a co-axial airline impedance. 3. The bolometer of claim 2, wherein the at least two coplanar waveguides are tapered, while maintaining the impedance. 4. The bolometer of claim 3, wherein a circuit path from the at least two thermistors to an outer conductor comprises at least one capacitor, resulting in a DC circuit path through the at least two thermistors that is isolated from the outer conductor. 5. The bolometer of claim 4, wherein the DC circuit path is used to apply DC energy to the thermistors independent of radio frequency (RF) energy supplied through the co-axial airline. 6. The bolometer of claim 5, comprising more than two one thermistors in series, isolated from the outer conductor. 7. The bolometer of claim 6, wherein the at least two thermistors are constructed in a planar form with at least one conductor, such that the at least one conductor has a width and thickness that results in an RF match when placed in series with the center conductor as the termination resistance. 8. The bolometer of claim 7, further comprising at least one bypass capacitor, operating in a current loop, in parallel with at least one higher-value capacitor for bypassing lower-frequency current in a path with higher inductance. 9. The bolometer of claim 8, wherein the substrate is a dielectric substrate. 10. The bolometer of claim 9, wherein the dielectric substrate comprises amorphous Quartz. 11. A method of utilizing a thermistor bolometer, comprising: providing a front connector block comprising bellows springs utilized for DC and low frequency ground connection;resting a substrate in a bottom housing;pressing the substrate into a slot in the front connector block;symmetrically arranging at least two coplanar waveguides on both sides of the substrate,providing a center conductor that makes electrical contact with a middle conductor of the at least two coplanar waveguides;terminating the at least two coplanar waveguides with equal resistances; andproviding at least two thermistors for the termination resistances of the at least two coplanar waveguides, with one thermistor per coplanar waveguide; andholding the at least two thermistors at a desired resistance by application of DC current from an external source, and forming a sensor of a DC substitution bolometer. 12. The method of claim 11, wherein the at least two thermistors are constructed in a planar form with at least one conductor, such that the at least one conductor has a width and thickness that results in an RF match when placed in series with the center conductor as the termination resistance. 13. A structure in which RF energy from a coaxial air-line is launched to a unique dual coplanar waveguide launcher for microwave bolometry, comprising: a front connector block;a bottom housing; anda substrate, wherein the substrate rests in the bottom housing and is pressed into a slot in the front connector block;the substrate comprising at least two coplanar waveguides arranged symmetrically on both sides of the substrate, a center conductor that makes electrical contact with a middle conductor of the at least two coplanar waveguides, and at least two thermistors that provides termination resistance to the at least two coplanar waveguides, with one thermistor per coplanar waveguide; andwherein the at least two thermistors are held at a desired resistance by application of DC current from an external source, forming a sensor of a DC substitution bolometer. 14. The structure of claim 13, wherein the at least two coplanar waveguides terminate with equal resistances, such that an impedance at a launch matches a co-axial airline impedance. 15. The structure of claim 14, wherein the at least two thermistors are constructed in a planar form with at least one conductor, such that the at least one conductor has a width and thickness that results in an RF match when placed in series with the center conductor as the termination resistance. 16. The structure of claim 15, wherein a circuit path from the at least two thermistors to an outer conductor comprises at least one capacitor, resulting in a DC circuit path through the at least two thermistors that are isolated from the outer conductor. 17. The structure of claim 16, wherein the DC circuit path is used to apply DC energy to the thermistors independent of radio frequency (RF) energy supplied through the co-axial airline.
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