Claims
- 1. A voltage controlled oscillator comprising:
an input voltage supply; a first tuning capacitive element that receives a first control voltage from the input voltage supply, wherein the first tuning capacitive element produces a first capacitance that varies in response to variations of the first control voltage; a second tuning capacitive element that receives a second control voltage from the input voltage supply, wherein the second tuning capacitive element is coupled to the first tuning capacitive element such that variations in the second control voltage result in the second tuning capacitive element providing a second capacitance that, coupled to the first capacitance, defines an effective capacitance; an oscillation element coupled to the first and second tuning capacitive elements so as to produce a first oscillating signal; and a negative resistance element coupled to the first and second tuning capacitive elements and the oscillation element such that the negative resistance elements replenishes energy lost in the oscillating signal to thereby provide a sustained output oscillating signal.
- 2. The voltage controlled oscillator of claim 1, wherein the input voltage supply supplies a plurality of discrete voltages to the first tuning capacitive element and wherein the input voltage supply supplies an analog voltage to the second tuning capacitive element.
- 3. The voltage controlled oscillator of claim 2, wherein the combination of the plurality of discrete voltages being provided to the first tuning capacitive element and the analog voltage being provided to the second tuning capacitive element results in the voltage controlled oscillator provided a oscillating voltage signal defined by a plurality of curves when frequency is plotted versus supplied voltages wherein the plurality of discrete voltages define the curve and the analog voltage defines the location along the curve of the oscillating voltage signal.
- 4. The voltage controlled oscillator of claim 1, wherein the second tuning capacitive element comprises a first fine tuning capacitive element and a second fine tuning capacitive element and wherein the second control voltage comprises a differential signal such that the differential signal is applied between the first and second fine tuning capacitive elements.
- 5. The voltage controlled oscillator of claim 4, wherein the first and second fine tuning capacitive elements are configured such that converging or diverging differential signals with respect to a neutral reference changes the effective capacitance and wherein a simultaneous increase or decrease in the differential signals with respect to the neutral reference results in substantially offsetting changes in the first and second fine tuning capacitive elements so as to minimally change the effective capacitance.
- 6. The voltage controlled oscillator of claim 1, wherein the input voltage supply comprises a plurality of selectable voltage sources.
- 7. The voltage controlled oscillator of claim 6, wherein the plurality of selectable voltage sources comprises a plurality of transistors arranged in parallel in a common-emitter configuration.
- 8. The voltage controlled oscillator of claim 1, wherein the first and second tuning capacitive elements comprise varactors.
- 9. The voltage controlled oscillator of claim 1, wherein the negative resistance element comprises an active device.
- 10. The voltage controlled oscillator of claim 9, wherein the active device includes a transistor.
- 11. The voltage controlled oscillator of claim 1, wherein the oscillation element comprises an inductive element.
- 12. A voltage controlled oscillator that receives a plurality of control signals, the oscillator comprising:
a plurality of capacitive elements that are connected together so as to define an effective capacitance wherein each of the plurality of capacitive elements each receives a separate control signal from the plurality of control signals so as to adjust the effective capacitance; an oscillation element coupled to the plurality of capacitive elements so as to produce a first oscillating signal; and a negative resistance element coupled to the plurality of capacitive elements and the oscillation element such that the negative resistance elements replenishes energy lost in the oscillating signal to thereby provide a sustained output oscillating signal.
- 13. The voltage controlled oscillator of claim 12, wherein the plurality of capacitive elements, the oscillation element and the negative resistance element are connected in series with the oscillation element interposed between the plurality of capacitive elements and the negative resistance element.
- 14. The voltage controlled oscillator of claim 12, wherein the plurality of capacitive elements include a coarse tuning capacitive element and a fine tuning capacitive element.
- 15. The voltage controlled oscillator of claim 14, wherein the coarse tuning capacitive element receives a plurality of discrete voltage signals so as to produce a first capacitive value.
- 16. The voltage controlled oscillator of claim 15, wherein the fine tuning capacitive element comprises two separate capacitive elements wherein a differential analog signal is applied between the two separate capacitive elements such that the two separate capacitive elements adjust the first capacitive value to thereby define the effective capacitance.
- 17. The voltage controlled oscillator of claim 12, wherein the negative resistance element comprises a transistor.
- 18. The voltage controlled oscillator of claim 12, wherein the oscillation element comprises an inductive element.
- 19. A differential voltage controlled oscillator comprising of a plurality of varactors controlled by a plurality of respective input voltages to set an output signal frequency.
- 20. The differential voltage controlled oscillator of claim 19, wherein at least a pair of the varactors are controlled by a differential input voltage.
PRIORITY CLAIMS
[0001] The benefit under 35 U.S.C. §119(e) of U.S. Provisional Application No. 60/208,899, filed Jun. 2, 2000, and entitled “MIXED MODE TRANSCEIVER” and of U.S. Provisional Application No. 60/267,366, filed Feb. 7, 2001, and entitled “TRANSCEIVER,” is hereby claimed.
Provisional Applications (2)
|
Number |
Date |
Country |
|
60208899 |
Jun 2000 |
US |
|
60267366 |
Feb 2001 |
US |