Microwave modulator having adjustable couplers
First Claim
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1. A multifunction modulator circuit comprising:
- means for splitting an electromagnetic signal into two component signals;
means for inducing a phase quadrature relationship between the two component signals;
means for adjusting the amplitude of each of the two component signals through a range of values including both positive and negative values; and
summing means for vectorially combining said two component signals to provide a modified signal;
wherein said adjusting means comprises a first circuit cell operative with a first of said component signals in response to a first control signal, and a second circuit cell operative with a second of said component signals in response to a second control signal, each of said circuit cells having a four-terminal device comprising;
a first terminal for receiving one of said component signals, a second terminal to be loaded with a load;
a third terminal for outputting a reflected signal to said summing means, and a fourth terminal to be loaded with a load, wherein a magnitude and a sense of said reflected signal depends on a loading of said second terminal and a loading of said fourth terminal, said reflected signal being proportional to said one of said component signals received at said first terminal; and
means responsive to one of said control signals for loading said second and said fourth terminals with a load to provide the magnitude and the sense of said reflected signal;
wherein in said first circuit cell said four-terminal device is a Lange coupler, said loading means comprises a first field effect transistor coupled to said second terminal and a second field effect transistor coupled to said fourth terminal, each of said transistors of said first circuit cell being biased with said first control signal to serve as a resistor, said first circuit cell having a first bias resistor and a second bias resistor connected respectively to gate terminals of said first and said second transistors for applying said first control signal to said first and said second transistors;
in said second circuit cell said four-terminal device is a Lange coupler, said loading means comprises a first field effect transistor coupled to said second terminal and a second field effect transistor coupled to said fourth terminal, each of said transistors of said second circuit cell being biased with said second control signal to serve as a resistor, said second circuit cell having a first bias resistor and a second bias resistor connected respectively to gate terminals of said first and said second transistors for applying said second control signal to said first and said second transistors; and
in each of said first and second circuit cells, resistances of said first and second bias resistors have values greater by an order of magnitude than a characteristic impedance of transmission lines of said first and second circuit cells.
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Abstract
A multifunction microwave modulator circuit has an input signal splitter to provide two equal amplitude signal components. A phase quadrature relationship between the two signal components is obtained by constructing the splitter as a Lange coupler. There is pair of circuit cells, each of which operates separately on one of the two signal components to electronically adjust a vector representation of the signal to provide a vector having a desired amplitude, ranging over both positive and negative values of amplitude, including zero amplitude. The signal vectors of the two cells are combined by means of a Wilkinson combiner to provide an output signal represented by a resultant vector which may have any direction within 360 degrees, and an amplitude scale factor which varies from unity to zero. Each circuit cell has a Lange coupler with output terminals terminated with an impedance, such as back-biased transistors, variable in response to a control voltage to reflect power via a second input terminal to the Wilkinson combiner. The circuit may be operated in reciprocal fashion by applying an input microwave signal to the Wilkinson combiner and extracting the output signal from the Lange coupler of the power splitter.
46 Citations
16 Claims
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1. A multifunction modulator circuit comprising:
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means for splitting an electromagnetic signal into two component signals; means for inducing a phase quadrature relationship between the two component signals; means for adjusting the amplitude of each of the two component signals through a range of values including both positive and negative values; and summing means for vectorially combining said two component signals to provide a modified signal; wherein said adjusting means comprises a first circuit cell operative with a first of said component signals in response to a first control signal, and a second circuit cell operative with a second of said component signals in response to a second control signal, each of said circuit cells having a four-terminal device comprising; a first terminal for receiving one of said component signals, a second terminal to be loaded with a load;
a third terminal for outputting a reflected signal to said summing means, and a fourth terminal to be loaded with a load, wherein a magnitude and a sense of said reflected signal depends on a loading of said second terminal and a loading of said fourth terminal, said reflected signal being proportional to said one of said component signals received at said first terminal; andmeans responsive to one of said control signals for loading said second and said fourth terminals with a load to provide the magnitude and the sense of said reflected signal; wherein in said first circuit cell said four-terminal device is a Lange coupler, said loading means comprises a first field effect transistor coupled to said second terminal and a second field effect transistor coupled to said fourth terminal, each of said transistors of said first circuit cell being biased with said first control signal to serve as a resistor, said first circuit cell having a first bias resistor and a second bias resistor connected respectively to gate terminals of said first and said second transistors for applying said first control signal to said first and said second transistors; in said second circuit cell said four-terminal device is a Lange coupler, said loading means comprises a first field effect transistor coupled to said second terminal and a second field effect transistor coupled to said fourth terminal, each of said transistors of said second circuit cell being biased with said second control signal to serve as a resistor, said second circuit cell having a first bias resistor and a second bias resistor connected respectively to gate terminals of said first and said second transistors for applying said second control signal to said first and said second transistors; and in each of said first and second circuit cells, resistances of said first and second bias resistors have values greater by an order of magnitude than a characteristic impedance of transmission lines of said first and second circuit cells. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A method of operating a multifunction modulator circuit comprising the steps of:
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splitting an electromagnetic signal into two component signals; inducing a phase quadrature relationship between the two component signals; adjusting the amplitude of each of the two component signals through a range of values including both positive and negative values; combining said component signals by a vectorial summation to provide a modified signal; wherein said adjusting step comprises applying a first of the component signals to a first circuit cell and a second of the component signals to a second circuit cell; and in each of the respective circuit cells, processing the respective component signal by transmitting the component signal through a Lange coupler, loading the Lange coupler with a field effect transistor which presents an impedance to the Lange coupler, and regulating the impedance by a control signal at a gate terminal of the transistor; wherein said step of regulating the impedance comprises a step of connecting the control signal via a bias resistor to the gate terminal of the transistor in a respective one of the circuit cells, and a further step of providing to the bias resistor a resistance having a value greater by an order of magnitude than a characteristic impedance of a transmission line in said respective one of the circuit cells.
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16. A multifunction modulator circuit comprising:
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means for splitting an electromagnetic signal into two component signals; means for inducing a phase quadrature relationship between the two component signals; means for adjusting the amplitude of each of the two component signals through a range of values including both positive and negative values; and summing means for vectorially combining said two component signals to provide a modified signal; wherein said adjusting means comprises a first circuit cell operative with a first of said component signals in response to a first control signal, and a second circuit cell operative with a second of said component signals in response to a second control signal, each of said circuit cells having a four-terminal device comprising; a first terminal for receiving one of said two component signals, a second terminal to be loaded with a load;
a third terminal for outputting a reflected signal to said summing means, and a fourth terminal to be loaded with a load, wherein a magnitude and a sense of said reflected signal depends on a loading of said second terminal and a loading of said fourth terminal, said reflected signal being proportional to said one of said two component signals received at said first terminal; andmeans responsive to one of said first and second control signals for loading said second and said fourth terminals with a load to provide the magnitude and the sense of said reflected signal; wherein in said first circuit cell said four-terminal device is a coupler for the electromagnetic signal, said loading means comprises a first transistor coupled to said second terminal and a second transistor coupled to said fourth terminal, each of said transistors of said first circuit cell being biased with said first control signal to serve as a resistor, said first circuit cell having a first bias resistor and a second bias resistor connected respectively to gate terminals of said first and said second transistors for applying said first control signal to said first and said second transistors; and in said second circuit cell said four-terminal device is a coupler for the electromagnetic signal, said loading means comprises a first transistor coupled to said second terminal and a second transistor coupled to said fourth terminal, each of said transistors of said second circuit cell being biased with said second control signal to serve as a resistor, said second circuit cell having a first bias resistor and a second bias resistor connected respectively to gate terminals of said first and said second transistors for applying said second control signal to said first and said second transistors; and in each of said cells, resistances of said first and second bias resistors have values greater by an order of magnitude than a characteristic impedance of transmission lines of said first and second circuit cells.
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Specification
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Current AssigneeSpace Systems/Loral Incorporated (Loral Space and Communications Incorporated)
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Original AssigneeSpace Systems/Loral Incorporated (Loral Space and Communications Incorporated)
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InventorsTownley, Elizabeth C., Kennedy, Andrew M. II, Albrecht, Bernard M. Jr., Yung, Ming L.
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Primary Examiner(s)Pascal, Robert
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Assistant Examiner(s)KINKEAD, ARNOLD M
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Application NumberUS08/293,796Time in Patent Office589 DaysField of Search332/103, 332/120, 332/146, 332/144, 332/105, 332/145, 333/81 R, 333/81 A, 333/117, 333/109, 333/116, 455/42, 455/110, 455/111, 455/325, 375/279, 375/308, 330/54US Class Current332/145CPC Class CodesH03C 3/00 Angle modulation H03C5/00, ...H04L 27/2064 using microwave technologyH04L 27/362 Modulation using more than ...
