Single-ended signals to differential signals converter
First Claim
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1. A single-ended signals to differential signals converter formed within a monolithic integrated circuit formed by integrating circuit elements on a semiconductor substrate, comprising:
- a first circuit formed within the integrated circuit, the first circuit comprising a transistor outputting single ended signals and a first spiral inductor connected to an output terminal of either one of higher voltage side and lower voltage side of the transistor as an inductor for load use that contributes in determining frequency characteristics of the first circuit; and
a second circuit formed within the integrated circuit, the second circuit comprising a pair of differential input terminals for inputting differential signals and a second spiral inductor that is magnetically coupled to the first spiral inductor and both ends thereof are connected to the respective differential input terminals, wherein to both ends of the second spiral inductor, each one end of a first condenser and a second condenser of substantially equal capacitance is connected, respectively, and each other end of he first condenser and the second condenser is grounded.
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Abstract
The present invention discloses a single-ended signals to differential signals converter. In this invention, a first circuit comprising a transistor outputting single-ended signals and a first spiral inductor connected as an inductor for load use that contributes in determining frequency characteristics of a first circuit to either one of output terminals of higher voltage side and lower voltage side of the transistor, and a second circuit comprising a pair of differential input terminals for inputting differential signals and a second spiral inductor that is magnetically coupled with the first spiral inductor, and both ends thereof are connected to the differential input terminals, respectively, are formed within a monolithic integrated circuit.
41 Citations
38 Claims
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1. A single-ended signals to differential signals converter formed within a monolithic integrated circuit formed by integrating circuit elements on a semiconductor substrate, comprising:
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a first circuit formed within the integrated circuit, the first circuit comprising a transistor outputting single ended signals and a first spiral inductor connected to an output terminal of either one of higher voltage side and lower voltage side of the transistor as an inductor for load use that contributes in determining frequency characteristics of the first circuit; and
a second circuit formed within the integrated circuit, the second circuit comprising a pair of differential input terminals for inputting differential signals and a second spiral inductor that is magnetically coupled to the first spiral inductor and both ends thereof are connected to the respective differential input terminals, wherein to both ends of the second spiral inductor, each one end of a first condenser and a second condenser of substantially equal capacitance is connected, respectively, and each other end of he first condenser and the second condenser is grounded. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 19)
wherein the first spiral inductor is formed within a first layer of the integrated circuit, and the second spiral inductor is formed within a second layer of the integrated circuit.
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3. The single-ended signals to differential signals converter as set forth in claim 1:
wherein the first and second spiral inductors are formed as windings wound so as to adjoin to each other within the same wiring layer in the integrated circuit.
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4. The single-ended signals to differential signals converter as set forth in claim 1:
wherein a first spiral inductor is formed within a first wiring layer in the integrated circuit, and a second spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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5. The single-ended signals to differential signals converter as set forth in claim 4:
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wherein the second spiral inductor is formed within the second and third wiring layers;
wherein the second wiring layer and the third wiring layer are disposed with approximately equal distances sandwiching the first wiring layer.
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6. The single-ended signals to differential signals converter as set forth in claim 5:
wherein winding numbers of the second spiral inductors formed within the respective second and third wiring layers are equal to each other.
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7. The single-ended signals to differential signals converter as set forth in claim 1:
wherein a second spiral inductor is formed within a first wiring layer in the integrated circuit, and a first spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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8. The single-ended signals to differential signals converter as set forth in claim 1:
wherein a lead is given to the second spiral inductor and thereto a direct-current voltage bias is supplied.
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9. The single-ended signals to differential signals converter as set forth in claim 1:
wherein the first circuit is a low noise amplifier, and the second circuit is a double balanced mixer.
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19. A single-ended signals to differential signals converter as set forth in claim 1:
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wherein the first circuit further comprises a third spiral inductor connected to the remaining output terminal of the higher voltage side and the lower voltage side of the transistor as an inductor for load use that contributes in determining frequency characteristics of the first circuit, and the first and the third spiral inductors are disposed so as to strengthen generated magnetic fluxes to each other, and wherein the second spiral inductor is magnetically coupled to the third spiral inductor.
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10. A single-ended signals to differential signals converter formed within a monolithic integrated circuit formed by integrating circuit elements on a semiconductor substrate, comprising:
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a first circuit formed within the integrated circuit, the first circuit being a resonant circuit in which a first spiral inductor is used as a resonator and that outputs a single-ended signal; and
a second circuit formed within the integrated circuit, the second circuit comprising a pair of differential input terminals for inputting differential signals and a second spiral inductor that is magnetically coupled to the first spiral inductor and both ends thereof are connected to the respective differential input terminals, wherein to both ends of the second spiral inductor, each one end of a first condenser and a second condenser of substantially equal capacitance is connected, respectively, and each other end of the first condenser and the second condenser is grounded. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
wherein the first spiral inductor is formed within a first layer of the integrated circuit, and the second spiral inductor is formed within a second layer of the integrated circuit.
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12. The single-ended signals to differential signals converter as set forth in claim 10:
wherein the first and second spiral inductors are formed as windings wound so as to adjoin to each other within the same wiring layer in the integrated circuit.
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13. The single-ended signals to differential signals converter as set forth in claim 10:
wherein a first spiral inductor is formed within a first wiring layer in the integrated circuit, and a second spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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14. The single-ended signals to differential signals converter as set forth in claim 13:
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wherein the second spiral inductor is formed within the second and third wiring layers;
wherein the second wiring layer and the third wiring layer are disposed with approximately equal distances sandwiching the first wiring layer.
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15. The single-ended signals to differential signals converter as set forth in claim 14:
wherein winding numbers of the second spiral inductors formed within the respective second and third wiring layers are equal to each other.
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16. The single-ended signals to differential signals converter as set forth in claim 10:
wherein a second spiral inductor is formed within a first wiring layer in the integrated circuit, and a first spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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17. The single-ended signals to differential signals converter as set forth in claim 10:
wherein a lead is given to the second spiral inductor and thereto a direct-current voltage bias is supplied.
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18. The single-ended signals to differential signals converter as set forth in claim 10:
wherein the first circuit is a Colpitts oscillator, and the second circuit is a double balanced mixer.
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20. A single-ended signals to differential signals converter formed within a monolithic integrated circuit formed by integrating circuit elements on a semiconductor substrate, comprising:
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a first circuit formed within the integrated circuit, the first circuit comprising a transistor outputting single-ended signals and a first spiral inductor connected to an output terminal of either one of higher voltage side and lower voltage side of the transistor as an inductor for load use that contributes in determining frequency characteristics of the first circuit; and
a second circuit formed within the integrated circuit, the second circuit comprising a pair of differential input terminals for inputting differential signals and a second spiral inductor that is magnetically coupled to the first spiral inductor and both ends thereof are connected to the respective differential input terminals, wherein a lead is given to the second spiral conductor and thereto a direct-current voltage bias is supplied. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 38)
wherein the first spiral inductor is formed within a first layer of the integrated circuit, and the second spiral inductor is formed within a second layer of the integrated circuit.
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22. The single-ended signals to differential signals converter as set forth in claim 20:
wherein to both ends of the second spiral inductor, each one end of a first condenser and a second condenser of substantially equal capacitance is connected, respectively, and each other end of the first condenser and the second condenser is grounded.
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23. The single-ended signals to differential signals converter as set forth in claim 20:
wherein the first and second spiral inductors are formed as windings wound so as to adjoin to each other within the same wiring layer in the integrated circuit.
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24. The single-ended signals to differential signals converter as set forth in claim 20:
wherein a first spiral inductor is formed within a first wiring layer in the integrated circuit, and a second spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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25. The single-ended signals to differential signals converter as set forth in claim 24:
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wherein the second spiral inductor is formed within the second and third wiring layers;
wherein the second wiring layer and the third wiring layer are disposed with approximately equal distances sandwiching the first wiring layer.
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26. The single-ended signals to differential signals converter as set forth in claim 25:
wherein winding numbers of the second spiral inductors formed within the respective second and third wiring layers are equal to each other.
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27. The single-ended signals to differential signals converter as set forth in claim 20:
wherein a second spiral inductor is formed within a first wiring layer in the integrated circuit, and a first spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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28. The single-ended signals to differential signals converter as set forth in claim 20:
wherein the first circuit is a low noise amplifier, and the second circuit is a double balanced mixer.
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38. A single-ended signals to differential signals converter as set forth in claim 20:
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wherein the first circuit further comprises a third spiral inductor connected to the remaining output terminal of the higher voltage side and the lower voltage side of the transistor as an inductor for load use that contributes in determining frequency characteristics of the first circuit, and the first and the third spiral inductors are disposed so as to strengthen generated magnetic fluxes to each other, and wherein a second spiral inductor is magnetically coupled to the third spiral inductor.
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29. A single-ended signals to differential signals converter formed within a monolithic integrated circuit formed by integrating circuit elements on a semiconductor substrate, comprising:
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a first circuit formed within the integrated circuit, the first circuit being a resonant circuit in which a first spiral inductor is used as a resonator and that outputs a single-ended signal; and
a second circuit formed within the integrated circuit, the second circuit comprising a pair of differential input terminals for inputting differential signals and a second spiral inductor that is magnetically coupled to the first spiral inductor and both ends thereof are connected to the respective differential input terminals, wherein a lead is given to the second spiral inductor and thereto a direct-current voltage bias is supplied. - View Dependent Claims (30, 32, 33, 34, 35, 36, 37)
wherein the first spiral inductor is formed within a first layer of the integrated circuit, and the second spiral inductor is formed within a second layer of the integrated circuit.
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32. The single-ended signals to differential signals converter as set forth in claim 29:
wherein the first and second spiral inductors are formed as windings wound so as to adjoin. to each other within the same wiring layer in the integrated circuit.
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33. The single-ended signals to differential signals converter as set forth in claim 29:
wherein a first spiral inductor is formed within a first wiring layer in the integrated circuit, and a second spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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34. The single-ended signals to differential signals converter as set forth in claim 33:
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wherein the second spiral inductor is formed within the second and third wiring layers;
wherein the second wiring layer and the third wiring layer are disposed with approximately equal distances sandwiching the first wiring layer.
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35. The single-ended signals to differential signals converter as set forth in claim 34:
wherein winding numbers of the second spiral inductors formed within the respective second and third wiring layers are equal to each other.
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36. The single-ended signals to differential signals converter as set forth in claim 29:
wherein a second spiral inductor is formed within a first wiring layer in the integrated circuit, and a first spiral inductor is formed separated within a plurality of wiring layers different from the first wiring layer within the integrated circuit.
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37. The single-ended signals to differential signals converter as set forth in claim 29:
wherein the first circuit is a Colpitts oscillator, and the second circuit is a double balanced mixer.
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31. The single-ended signals to differential signals converter as set forth in claim 31:
wherein to both ends of the second spiral inductor, each one end of a first condenser and a second condenser of substantially equal capacitance is connected, respectively, and each other end of the first condenser and the second condenser is grounded.
Specification
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Current AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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Original AssigneeKabushiki Kaisha Toshiba (Toshiba Corporation)
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InventorsIshizuka, Shinʼichiro, Miyahara, Yasunori
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Primary Examiner(s)Pascal, Robert
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Assistant Examiner(s)Choe, Henry
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Application NumberUS09/448,442Time in Patent Office594 DaysField of Search330/165, 330/171, 330/301, 330/307, 327/359US Class Current330/301CPC Class CodesH01F 17/0006 Printed inductances printed...H01F 2017/0093 Common mode choke coilH03D 2200/0023 Balun circuitsH03D 2200/0084 Lowering the supply voltage...H03D 7/1433 using bipolar transistors H...H03D 7/1458 Double balanced arrangement...
