Wide frequency deviation voltage controlled crystal oscillator having plural parallel crystals

US 5,229,735 A
Filed: 03/30/1992
Issued: 07/20/1993
Est. Priority Date: 03/30/1992
Status: Expired due to Term

First Claim

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1. A wide frequency deviation oscillator for providing an output signal throughout a continuous range of frequencies, said oscillator comprising:

a crystal or ceramic bandpass filter, said bandpass filter containing a plurality of crystals or ceramic resonators and a plurality of parallel conduction paths, one of said crystals or ceramic resonators being connected in each of said parallel conduction paths, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals and each of said resonant frequencies lying within said continuous range of frequencies;

a phase shifting means; and

an amplifier;

said bandpass filter, said phase shifting means and said amplifier being connected in series in a loop.

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Abstract

A wide frequency deviation voltage controlled crystal oscillator includes a multiple section bandpass filter containing a plurality of crystal or ceramic elements. One embodiment includes a plurality of crystals which are connected into parallel conduction paths. The crystals have resonant frequencies which are separated by small, selected intervals so that the oscillator may be adjusted to a wider range of frequencies than prior art oscillators. Alternatively, the same result may be achieved by using crystals with the same resonant frequency and connecting each crystal to a capacitor having a selected value. In another embodiment a multiple section crystal or ceramic bandpass filter is substituted for the parallel conduction paths. The principles of the invention are applicable to a number of different devices, including the ringing circuits used in color televisions to perpetuate the color bursts which appear in the blanking intervals of the incoming TV signals.

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57 Claims

1. A wide frequency deviation oscillator for providing an output signal throughout a continuous range of frequencies, said oscillator comprising:
- a crystal or ceramic bandpass filter, said bandpass filter containing a plurality of crystals or ceramic resonators and a plurality of parallel conduction paths, one of said crystals or ceramic resonators being connected in each of said parallel conduction paths, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals and each of said resonant frequencies lying within said continuous range of frequencies;
  
  a phase shifting means; and
  
  an amplifier;
  
  said bandpass filter, said phase shifting means and said amplifier being connected in series in a loop.
- View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 3. The oscillator of claims 1 or 2 wherein each of said crystals or ceramic resonators has a resonant frequency which differs from the respective resonant frequencies of others of said crystals or ceramic resonators by one or more selected intervals within said range of frequencies.
  - 4. The oscillator of claims 1 or 2 wherein there are N of said crystals or ceramic resonators each of which has substantially the same resonant frequency, at least N-1 of said conductive paths containing a capacitive means connected to the crystal or ceramic resonator in said conduction path to form a combination with said crystal or ceramic resonator.
  - 5. The oscillator of claim 4 wherein each of said combinations has a resonant frequency which differs from respective resonant frequencies of the others of said combinations.
  - 6. The oscillator of claim 5 wherein each of said capacitive means comprises a varactor diode.
  - 7. The oscillator of claims 1 or 2 wherein each of said parallel conduction paths includes a driving transistor for driving the crystal or ceramic resonator in said
  - 8. The oscillator of claims 1 or 2 wherein each of said parallel conduction paths includes a summing transistor.
  - 9. The oscillator of claim 7 wherein each of said parallel conduction paths includes a summing transistor.
  - 10. The oscillator of claims 1 or 2 wherein said conduction paths share a common driving transistor for driving said crystals and a common summing transistor.
  - 11. The oscillator of claims 1 or 2 wherein each of said conduction paths contains a resistor connected in series with the crystal in said conduction path.
  - 12. The oscillator of claims 1 or 2 wherein said phase shifting means comprises a varactor diode connected to an LC circuit.
  - 13. The oscillator of claims 1 or 2 wherein said phase shifting means comprises an inductance for providing a lag current to a first transistor, a capacitance for providing a lead current to a second transistor, means for adjusting the current flow through at least one of said first and second transistors, and means for summing respective outputs from said first and second transistors.
  - 14. The oscillator of claim 6 wherein said phase shifting means comprises an inductance for providing a lag current to a first transistor, a capacitance for providing a lead current to a second transistor, means for adjusting the current flow through at least one of said first and second transistors, and means for summing respective outputs from said first and second transistors.
  - 15. The oscillator of claims 1 or 2 wherein said multiple section crystal or ceramic bandpass filter comprises a multiple section crystal filter.
  - 16. The oscillator of claim 15 wherein said bandpass filter has a pass band and provides a phase shift of between -180°
    - and +180°
      
      in its pass band.
  - 17. The oscillator of claim 15 comprising a pair of inverter means connected in said loop.
  - 18. The oscillator of claims 1 or 2 wherein said multiple section crystal or ceramic bandpass filter comprises a multiple section ceramic bandpass filter.
  - 19. The oscillator of claim 18 wherein said bandpass filter has a pass band and provides a phase shift of between -180°
    - and a +180°
      
      in its pass band.
  - 20. The oscillator of claim 18 comprising a pair of inverter means connected in said loop.

2. A wide frequency deviation oscillator for providing an output signal throughout a continuous range of frequencies, said oscillator comprising:
- a crystal or ceramic bandpass filter, said bandpass filter containing a plurality of crystal or ceramic resonators and a plurality of parallel conduction paths, one of said crystal or ceramic resonators being connected in each of said parallel conduction paths;
  
  a phase shifting means; and
  
  an amplifier;
  
  said bandpass filter, said phase shifting means and said amplifier being connected in series in a loop, said oscillator not containing an inductive element in parallel with said parallel conduction paths;
  
  said oscillator providing an output throughout said continuous range of frequencies.

21. A resonant circuit operative to resonate at a frequency within a continuous range of frequencies, said resonant circuit comprising a plurality of crystals and a plurality of parallel conduction paths, one of said crystals being connected into each of said conduction paths, and a summing amplifier, one end of each of said conduction paths being connected to an input of said summing amplifier, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals and each of said resonant frequencies lying within said continuous range of frequencies.
- View Dependent Claims (22, 23, 24, 25, 26, 27, 28)
- - 22. The resonant circuit of claim 21 comprising a voltage amplifier, the other end of each of said conduction paths being connected to an output of said voltage amplifier, and gating means connected to an input of said voltage amplifier.
  - 23. The resonant circuit of claim 22 wherein said circuit comprises a color burst ringing circuit for a television receiver.
  - 24. The resonant circuit of claim 21 wherein each of said conduction paths contains a resistor connected in series with the crystal in said conduction path.
  - 25. An oscillator comprising the circuit of claim 21, said oscillator further comprising a voltage amplifier, the other end of each of said conduction paths being connected to an output of said voltage amplifier, and a phase shifting means connected between an output of said summing amplifier and an input of said voltage amplifier.
  - 26. The oscillator of claim 25 wherein said phase shifting means comprises a varactor diode connected in series with an inductance and a resistance.
  - 27. The oscillator of claim 25 wherein said phase shifting means comprises an inductance for providing a lag current to a first transistor, a capacitance for providing a lead current to a second transistor, means for adjusting the current flow through at least one of said first and second transistors, and means for summing respective outputs from said first and second transistors.
  - 28. The oscillator of claim 25 comprising a plurality of variable capacitors, one of said variable capacitors being connected to each of said conduction paths.

29. A method of generating an oscillating voltage signal within a continuous range of frequencies, said method comprising the steps of:
- providing a plurality of parallel conduction paths, each of said conduction paths containing a crystal, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by selected intervals and each of said resonant frequencies lying within said continuous range of frequencies;
  
  connecting said parallel conduction paths in a series loop with a phase shifting means; and
  
  applying a supply voltage to said loop.
- View Dependent Claims (30, 31, 32)
- - 30. The method of claim 29 wherein said crystals oscillate in phase with one another when said supply voltage is applied.
  - 31. The method of claim 30 comprising the additional step of connecting a resistor in each of said conduction paths.
  - 32. The method of claim 31 comprising the additional step of adjusting said phase shifting means so as to vary the frequency of said oscillator.

33. A method of generating an oscillating voltage signal within a continuous range of frequencies, said method comprising the steps of:
- providing a multiple section crystal bandpass filter, said bandpass filter comprising a plurality of crystals, each of said crystals having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals and each of said resonant frequencies lying within said continuous range of frequencies;
  
  connecting said multiple section crystal bandpass filter in a series loop with a phase shifting means; and
  
  applying a supply voltage to said loop.
- View Dependent Claims (34, 35)
- - 34. The method of claim 33 comprising the additional step of connecting a pair of inverters in said loop.
  - 35. The method of claim 33 wherein said phase shifting means comprises a plurality of phase shifting circuits.

36. A method of generating an oscillating voltage signal within a continuous range of frequencies, said method comprising the steps of:
- providing a multiple section ceramic bandpass filter, said bandpass filter comprising a plurality of ceramic resonators, each of said ceramic resonators having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals and each of said resonant frequencies lying within said continuous range of frequencies;
  
  connecting said multiple section ceramic bandpass filter in a series loop with a phase shifting means; and
  
  applying a supply voltage to said loop.
- View Dependent Claims (37, 38)
- - 37. The method of claim 36 comprising the additional step of connecting a pair of inverters in said series loop.
  - 38. The method of claim 37 wherein said phase shifting means comprises a plurality of phase shifting circuits.

39. A method of perpetuating an oscillating signal, said oscillating signal being at a frequency within a continuous range of frequencies, said method comprising the steps of:
- providing a plurality of parallel conduction paths, each of said conduction paths comprising a crystal, a resistor an a capacitor, each of said conduction paths having a resonant frequency, said resonant frequencies differing form one another by one or more selected intervals and each of said resonant frequencies lying within said continuous range of frequencies;
  
  connecting one end of each of said conduction paths to an input terminal of a summing amplifier; and
  
  supplying said oscillating signal to the other end of each of said conduction paths.
- View Dependent Claims (40, 41)
- - 40. The method of claim 39 wherein said conduction paths have resonant frequencies at selected intervals within a selected range of frequencies.
  - 41. The method of claim 40 wherein said oscillating signal is a color burst.

42. A wide frequency deviation oscillator for providing an output signal within a continuous range of frequencies, said oscillator comprising:
- an amplifier;
  
  a phase shifting means; and
  
  a multiple-section crystal or ceramic bandpass filter, said multiple-section bandpass filter containing a plurality of crystal or ceramic resonators;
  
  said amplifier, said phase shifting means, and said bandpass filter being connected in series in a loop.

43. A wide frequency deviation oscillator comprising:
- an amplifier;
  
  a phase shifting means; and
  
  a multiple section crystal or ceramic bandpass filter, said multiple section bandpass filter containing N crystal or ceramic elements and N parallel conduction paths, one of said crystal or ceramic elements being connected in each of said parallel conduction paths, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals within a range of frequencies;
  
  wherein said amplifier, said phase shifting means and said bandpass filter are connected in series in a loop and wherein each of said crystal or ceramic elements has substantially the same resonant frequency and at least N-1 of said conduction paths contain a capacitive means connected to the crystal or ceramic element in said conduction path to form a combination with said crystal or ceramic element.
- View Dependent Claims (44, 45, 51)
- - 44. The oscillator of claim 43 wherein each of said combinations has a resonant frequency which differs from respective resonant frequencies of the others of said combinations.
  - 45. The oscillator of claim 44 wherein each of said capacitive means comprises a varactor diode.
  - 51. The oscillator of claim 45 wherein said phase shifting means comprises an inductance for providing a lag current to a first transistor, a capacitance for providing a lead current to a second transistor, means for adjusting the current flow through at least one of said first and second transistors, and means for summing respective outputs from said first and second transistors.

46. A wide frequency deviation oscillator comprising:
- an amplifier;
  
  a phase shifting means; and
  
  a multiple section crystal or ceramic bandpass filter, said multiple section bandpass filter containing a plurality of crystal or ceramic elements and a plurality of parallel conduction paths, one of said crystal or ceramic elements being connected in each of said parallel conduction paths, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals within a range of frequencies;
  
  wherein said amplifier, said phase shifting means and said bandpass filter are connected in series in a loop and wherein each of said parallel conduction paths includes a driving transistor for driving the crystal or ceramic element in said conduction path.
- View Dependent Claims (48)
- - 48. The oscillator of claim 46 wherein each of said parallel conduction paths includes a summing transistor.

47. A wide frequency deviation oscillator comprising:
- an amplifier;
  
  a phase shifting means; and
  
  a multiple section crystal or ceramic bandpass filter, said multiple section bandpass filter containing a plurality of crystal or ceramic elements and a plurality of parallel conduction paths, one of said crystal or ceramic elements being connected in each of said parallel conduction paths, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals within a range of frequencies;
  
  wherein said amplifier, said phase shifting means and said bandpass filter are connected in series in a loop and wherein each of said parallel conduction paths includes a summing transistor.

49. A wide frequency deviation oscillator comprising:
- an amplifier;
  
  a phase shifting means; and
  
  a multiple section crystal or ceramic bandpass filter, said multiple section bandpass filter containing a plurality of crystal or ceramic elements and a plurality of parallel conduction paths, one of said crystal or ceramic elements being connected in each of said parallel conduction paths, each of said conduction paths having a resonant frequency, said resonant frequencies differing from one another by one or more selected intervals within a range of frequencies;
  
  wherein said amplifier, said phase shifting means and said bandpass filter are connected in series in a loop and wherein said conduction paths share a common driving transistor for driving said crystals and a common summing transistor.

50. A wide frequency deviation oscillator comprising:
- an amplifier;
  
  a phase shifting means; and
  
  a multiple section crystal or ceramic bandpass filter, said multiple section bandpass filter containing a plurality of crystal or ceramic elements;
  
  wherein said amplifier, said phase shifting means and said bandpass filter are connected in series in a loop; and
  
  wherein said phase shifting means comprises an inductance for providing a lag current to a first transistor, a capacitance for providing a lead current to a second transistor, means for adjusting the current flow through at least one of said first and second transistors, and means for summing respective outputs from said first and second transistors.

52. A color burst ringing circuit for a television receiver comprising a plurality of crystals and a plurality of parallel conduction paths, one of said crystals being connected into each of said conduction paths, one end of each of said conduction paths being connected to an input of a summing amplifier, and the other end of each of said conduction paths being connected to an output of a voltage amplifier, a gating means being connected to an input of said voltage amplifier.

53. An oscillator comprising a resonant circuit, said resonant circuit comprising:
- a plurality of crystals and a plurality of parallel conduction paths, one of said crystals being connected into each of said conduction paths;
  
  a summing amplifier, one end of each of said conduction paths being connected to an input of said summing amplifier;
  
  a voltage amplifier, the other end of each of said conduction paths being connected to an output of said voltage amplifier; and
  
  a phase shifting means connected between an output of said summing amplifier and an input of said voltage amplifier.
- View Dependent Claims (54, 55, 56)
- - 54. The oscillator of claim 53 wherein said phase shifting means comprises a varactor diode connected in series with an inductance and a resistance.
  - 55. The oscillator of claim 53 wherein said phase shifting means comprises an inductance for providing a lag current to a first transistor, a capacitance for providing a lead current to a second transistor, means for adjusting the current flow through at least one of said first and second transistors, and means for summing respective outputs from said first and second transistors.
  - 56. The oscillator of claim 53 comprising a plurality of variable capacitors, one of said variable capacitors being connected to each of said conduction paths.

57. A method of perpetuating a color burst comprising the steps of:
- providing a plurality of parallel conduction paths, each of said conduction paths comprising a crystal, a resistor and a capacitor, the respective conduction paths having resonant frequencies at selected intervals within a selected range of frequencies;
  
  connecting one end of each of said conduction paths to an input terminal of a summing amplifier; and
  
  supplying said color burst to the other end of each of said conduction paths.

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Current Assignee
Macrovision Corporation (Adeia Inc.)
Original Assignee
Macrovision Corporation (Adeia Inc.)
Inventors
Quan, Ronald
Primary Examiner(s)
Grimm, Siegfried H.

Application Number

US07/860,643
Time in Patent Office

477 Days
Field of Search

331/162, 331/116 R, 331/116 FE, 331/177 V, 358/19, 358/20, 333/187, 333/188, 333/189, 333/190, 333/191, 333/192
US Class Current

331/116.00R
CPC Class Codes

H03B 5/366   and comprising means for va...

H03H 9/545   including active elements

H04N 9/455   Generation of colour burst ...

Wide frequency deviation voltage controlled crystal oscillator having plural parallel crystals

First Claim

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57 Claims

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Wide frequency deviation voltage controlled crystal oscillator having plural parallel crystals

First Claim

5 Assignments

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Abstract

78 Citations

57 Claims

Specification

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Solutions

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