Injection tuned resonant circuits
First Claim
1. A tunable oscillator comprising:
- an LC tank circuit comprising an inductor, a capacitor, and a negative resistance in parallel with at least one of said inductor and said capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit; and
a first flip/flop clocked by a frequency signal output from said LC tank circuit.
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Accused Products
Abstract
An AC tuning signal is injected into an LC tank circuit oscillator through an impedance (either reactive, inductive, capacitive and/or resistive) to tune the phase and/or frequency of the LC tank circuit oscillator. A negative resistance is included in parallel with the LC tank circuit oscillator to compensate for losses in the LC tank circuit, and a bias signal is provided to power the operation of the LC tank circuit. The AC tuning signal may be injected into the LC tank circuit using capacitors, resistors, FET or bipolar transistors, and/or inductors. Multiple LC tank circuit oscillators may be used to provide stable multiplied or divided frequencies. In this case, the output of one LC tank circuit oscillator may be used to tune another LC tank circuit oscillator. In another embodiment, the nominal frequency of the LC tank circuit oscillator may be adjusted using a varactor or other voltage-controlled element in the LC tank circuit oscillator under the control of, e.g., the output of a separate PLL loop including another LC tank circuit oscillator.
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Citations
45 Claims
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1. A tunable oscillator comprising:
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an LC tank circuit comprising an inductor, a capacitor, and a negative resistance in parallel with at least one of said inductor and said capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit; and
a first flip/flop clocked by a frequency signal output from said LC tank circuit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 12, 41, 42, 43, 44, 45)
a bias signal to provide power to said LC tank circuit.
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3. The tunable oscillator according to claim 1, wherein:
said impedance is connected to a node between said inductor and said capacitor.
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4. The tunable oscillator according to claim 1, wherein said impedance comprises:
a capacitor.
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5. The tunable oscillator according to claim 1, wherein said impedance comprises:
a transistor.
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6. The tunable oscillator according to claim 5, wherein:
said transistor is a bipolar transistor.
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7. The tunable oscillator according to claim 5, wherein:
said transistor is a field effect transistor.
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8. The tunable oscillator according to claim 1, wherein:
a representation of said AC signal is injected into each of at least two nodes of said tunable oscillator.
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9. The tunable oscillator according to claim 8, wherein:
each of said representations of said AC signal is phase shifted from another of said representations of said AC signal.
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12. The tunable oscillator according to claim 1, further comprising:
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a phase locked loop adapted to provide a frequency control signal;
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal.
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41. The tunable oscillator according to claim 1, wherein:
said first flip/flop receives a signal containing digital data information, and outputs a recovered data signal.
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42. The tunable oscillator according to claim 41, wherein:
said output recovered data signal contains approximately half of said digital data information contained in said received signal.
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43. The tunable oscillator according to claim 1, further comprising:
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a second flip/flop clocked by an inverse of said frequency signal;
said first flip/flop receiving a signal containing digital data information, and outputting a first recovered data signal containing a first portion of said digital data information contained in said received signal; and
said second flip/flop receiving said signal containing digital data information, and outputting a second recovered data signal containing a second portion of said digital data information contained in said received signal.
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44. The tunable oscillator according to claim 43, wherein:
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said first portion of said digital data information is one half of said digital data information; and
said second portion of said digital data information is a second half of said digital data information.
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45. The tunable oscillator according to claim 44, wherein:
said first half and said second half are interleaved.
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10. A tunable oscillator, comprising:
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an LC tank circuit comprising an inductor and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit; and
an inductive element coupled with said inductor adapted and arranged to inject said AC signal from said inductive element into said inductor;
wherein said impedance is formed by an insulating material.
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11. A tunable oscillator, comprising:
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an LC tank circuit comprising an inductor and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit; and
a band pass filter to isolate a tuning frequency for injection into said inductor and said capacitor.
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13. A tunable oscillator, comprising:
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an LC tank circuit comprising an inductor, a capacitor, and a negative resistance in parallel with at least one of said inductor and said capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal; and
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal;
whereinsaid LC tank circuit is not within a loop of said phase locked loop.
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14. A tunable oscillator, comprising:
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an LC tank circuit comprising an inductor, a capacitor, and a negative resistance in parallel with at least one of said inductor and said capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal; and
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal;
whereinsaid phase locked loop comprises a second LC tank circuit.
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15. A tunable oscillator, comprising:
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an LC tank circuit comprising an inductor, a capacitor, and a negative resistance in parallel with at least one of said inductor and said capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal; and
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal;
whereina directional coupler between said AC signal and said LC tank circuit to limit a signal flow back from said LC tank circuit.
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16. A tunable oscillator comprising:
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an LC tank circuit comprising an inductor and a capacitor;
a plurality of impedances in communication with said LC tank circuit, each of said plurality of impedances being adapted and arranged to allow injection of a respective phase of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit, wherein said AC signal has a plurality of phases greater than two. - View Dependent Claims (17, 18, 19)
said plurality is greater than two.
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18. The tunable oscillator according to claim 16, wherein:
each of said plurality of impedances is a transistor.
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19. The tunable oscillator according to claim 17, wherein:
each of said plurality of impedances is a capacitor.
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20. A tunable quadrature oscillator comprising:
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a quadrature LC tank circuit comprising an inductance and a capacitance, said quadrature LC tank circuit having at least four nodes;
at least four impedances corresponding to said at least four nodes of said quadrature LC tank circuit, each of said plurality of impedances being adapted and arranged to allow injection of a respective phase of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit. - View Dependent Claims (21)
each respective phase of said AC signal is separated by 90°
from another phase of said AC signal.
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22. A method of tuning an oscillator, comprising:
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injecting an AC signal corresponding to a desired oscillation frequency into an oscillator circuit;
injecting a phase-shifted representation of said AC signal into said oscillator circuit, wherein said phase-shifted representation of said AC signal is shifted 90°
with respect to said AC signal, and said AC signal, and said phase-shifted representation of said AC signal are each presented to a common node of said oscillator circuit; and
whereby said oscillator circuit is tuned to said desired oscillation frequency. - View Dependent Claims (23, 24, 25, 26)
said oscillator circuit is an LC tank circuit oscillator.
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24. The method of tuning an oscillator according to claim 22, wherein:
said phase-shifted representation of said AC signal is shifted 180°
with respect to said AC signal.
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25. The method of tuning an oscillator according to claim 24, wherein:
said oscillator circuit is an LC tank circuit oscillator.
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26. The method of tuning an oscillator according to claim 22, wherein:
said oscillator circuit is an LC tank circuit oscillator.
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27. Apparatus for tuning an oscillator, comprising:
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means for injecting an AC signal corresponding to a desired oscillation frequency into an oscillator circuit, wherein said oscillator circuit is an LC tank circuit oscillator;
whereby said oscillator circuit is tuned to said desired oscillation frequency; and
a first flip/flop clocked by a frequency signal output from said LC tank circuit. - View Dependent Claims (28, 29, 30, 31, 32)
said first flip/flop receives a signal containing digital data information, and outputs a recovered data signal.
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29. The apparatus for tuning an oscillator according to claim 27, wherein:
said output recovered data signal contains approximately half of said digital data information contained in said received signal.
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30. The apparatus for tuning an oscillator according to claim 27, further comprising:
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a second flip/flop clocked by an inverse of said frequency signal;
said first flip/flop receiving a signal containing digital data information, and outputting a first recovered data signal containing a first portion of said digital data information contained in said received signal; and
said second flip/flop receiving said signal containing digital data information, and outputting a second recovered data signal containing a second portion of said digital data information contained in said received signal.
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31. The apparatus for tuning oscillator according to claim 30, wherein:
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said first portion of said digital data information is one half of said digital data information; and
said second portion of said digital data information is a second half of said digital data information.
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32. The apparatus for tuning oscillator according to claim 31, wherein:
said first half and said second half are interleaved.
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33. A data communication device, comprising:
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a data receiver; and
a tuned oscillator, said tuned oscillator comprising;
an LC tank circuit comprising an inductor, a capacitor, a negative resistance in parallel with at least one of said inductor and said capacitor, and a first flip/flop clocked by a frequency signal output from said LC tank circuit, and an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit. - View Dependent Claims (34)
said data receiver is a modem.
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35. A tunable oscillator comprising:
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an LC tank circuit comprising an inductor and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal; and
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal, wherein said LC tank circuit is not within a loop of said phase locked loop.
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36. A tunable oscillator comprising:
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an LC tank circuit comprising an inductor and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal; and
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal, wherein said phase locked loop comprises a second LC tank circuit.
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37. A tunable oscillator comprising:
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an LC tank circuit comprising an inductor and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal;
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal; and
a directional coupler between said AC signal and said LC tank circuit to limit a signal flow back from said LC tank circuit.
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38. A data communication device, comprising:
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a data receiver; and
a tuned oscillator, said tuned oscillator comprising;
an LC tank circuit comprising an inductor, and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal; and
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal, wherein said LC tank circuit is not within a loop of said phase locked loop.
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39. A data communication device, comprising:
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a data receiver; and
a tuned oscillator, said tuned oscillator comprising;
an LC tank circuit comprising an inductor, and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal; and
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal, wherein said phase locked loop comprises a second LC tank circuit.
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40. A data communication device, comprising:
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a data receiver; and
a tuned oscillator, said tuned oscillator comprising;
an LC tank circuit comprising an inductor, and a capacitor;
an impedance in communication with said LC tank circuit, said impedance being adapted and arranged to allow injection of an AC signal corresponding to a desired oscillation frequency of said LC tank circuit;
a phase locked loop adapted to provide a frequency control signal;
at least one component in said LC tank circuit being adjustable under the control of said frequency control signal; and
a directional coupler between said AC signal and said LC tank circuit to limit a signal flow back from said LC tank circuit.
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Specification