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Title: Microwave hybrid network producing desired phase difference for use in Doppler radar systems
Claims: What is claimed is: 1. A microwave transmission-line circuit comprising a hybrid junction and four split-tee junctions, two of the split-tee junctions constituting power dividers and the other two constituting power combiners, wherein the inputs of the two dividers are respectively connected to two ports of the hybrid junction, wherein first outputs of the first and of the second of the dividers are respectively connected to first inputs of the first and of the second of the combiners, wherein the second outputs of the first and of the second dividers are respectively connected to the second inputs of the second and of the first combiners, and wherein the differences in lengths of the interconnections of the split-tee junctions are such that the net difference between, a phase angle x defined by the difference in phase between two signals appearing respectively at the outputs of the combiners when an input signal is applied to the first divider, and a phase angle y defined by the phase difference between two output signals of the combiners when an input signal is applied to the second divider, is substantially an odd multiple of 90.degree.. 2. A microwave circuit as claimed in claim 1 wherein the difference in phase between two signals appearing respectively at the outputs of the combiners when a signal is applied to the input of one of the dividers is substantially 45.degree.. 3. A microwave circuit as claimed in claim 1 wherein the net difference between the angles x and y is substantially 90.degree.. 4. A microwave circuit as claimed in claim 1 wherein the hybrid junction is a hybrid ring. 5. A microwave circuit as claimed in claim 1 wherein a D.C. path between live and earth conductors of the circuit is provided by a short-circuited quarter-wavelength high impedance transmission line. 6. A microwave circuit as claimed in claim 1 wherein the circuit is formed as microstrip on a single substrate. 7. A microwave circuit as claimed in claim 1 comprising a pair of first capacitors for respective connection through mixer diodes at the outputs of the two combiners. 8. A microwave circuit as claimed in claim 7 wherein each capacitor is in the form of a quarter-wavelength open-circuited transmission line. 9. A microwave circuit as claimed in claim 7 wherein each of the first pair of capacitors is connected to its respective combiner output by a respective mixer diode. 10. A microwave circuit as claimed in claim 7 comprising a pair of second capacitors for respective connection to the first pair. 11. A microwave circuit as claimed in claim 10 wherein the second capacitors are respectively connected to the first capacitors by respective high impedance transmission. 12. A microwave circuit as claimed in claim 11 wherein each high impedance transmission line is substantially a quarter-wavelength long. 13. A Doppler radar comprising a microwave transmission line circuit including a hybrid junction and four split-tee junctions, two of the split-tee junctions constituting power dividers and the other two constituting power combiners, wherein the inputs of the two dividers are respectively connected to two ports of the hybrid junction, wherein a first output of a first and of the second of the dividers are respectively connected to a first input of a first and of the second of the combiners, wherein the second outputs of the first and of the second dividers are respectively connected to the second inputs of the second and of the first combiners, and wherein the lengths of the interconnections of the split-tee junctions are such that the net difference between a phase angle x defined by the difference in phase between two signals appearing respectively at the outputs of the combiners when an input signal is applied to the first divider, and a phase angle y defined by the phase difference between two output signals of the combiners when an input signal is applied to the second divider, is substantially an odd multiple of 90.degree., and further comprising an R.F. oscillator connected to a third port of the hybrid junction, and an aerial connected to the fourth port of the hybrid junction. Other info: Inventors: Chua, Lye-Whatt (near Redhill, EN) Application Number: 521261 Filing Date: 1974-11-06 Publication_date: 1976-05-04 Assignee: U.S. Philips Corporation (New York, NY) Primary Class(es): 342/114 333/117, 333/120, 333/161, 455/326 Other Classes: US Patent Ref:
Other Refs: Primary Examiner: Gensler, Paul L. Assistant Examiner: Attorney: Trifari; Frank R., Berka; George B. |
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