Colpitts type oscillator having reduced ringing and improved optical disc system utilizing same

US 5,748,578 A
Filed: 04/11/1995
Issued: 05/05/1998
Est. Priority Date: 01/25/1995
Status: Expired due to Term

First Claim

Patent Images

1. An improved Colpitts type oscillator, comprising:

a load circuit having a predetermined resistance;

a transistor having an emitter, a base, and a collector;

a split capacitor tank connected between said collector and ground across said emitter and said collector;

an electrical voltage supply; and

a load inductance in series with said load circuit between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the junction between said load circuit and said load inductance.

View all claims

1 Assignment

Timeline View

Assignment View

0 Petitions

Accused Products

Abstract

A Colpitts type oscillator circuit for mitigating the effects of undesired oscillator ringing when write pulses are supplied, such as those encountered in compact disc, laser disc, and magneto-optical players or recording devices. Circuit elements are provided for mitigating the effects of oscillator ringing including replacement of an inductor with a suitable resistive load and an oscillator supply voltage maintained above a predetermined minimum voltage which is a function of the specific values of the related circuit elements. An improved optical disc system also includes the present Colpitts type oscillator in combination with an optical assembly, a laser light source, an objective lens subassembly, an objective lens, an actuator assembly, a photodetector, first and second servomotors, a source of write pulses, a first electronic circuit for controlling the servomotors, a motor for moving a respective disc, a second electronic circuit for decoding, a third electronic circuit for enabling the laser light source, a voltage supply for the oscillator, a data receiver, a data encoder, a magnetic field generator, a cartridge loading assembly for removably positioning the respective disc, and a servo error circuit for determining when light returning from the disc exceeds a predetermined value.

232 Citations

63 Claims

1. An improved Colpitts type oscillator, comprising:
- a load circuit having a predetermined resistance;
  
  a transistor having an emitter, a base, and a collector;
  
  a split capacitor tank connected between said collector and ground across said emitter and said collector;
  
  an electrical voltage supply; and
  
  a load inductance in series with said load circuit between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the junction between said load circuit and said load inductance.
- View Dependent Claims (2, 3, 22)
- - 2. The oscillator according to claim 1 wherein said load circuit includes an inductance.
  - 3. The oscillator according to either claim 1 or 2 wherein said electrical voltage supply provides a voltage greater than 5 volts to thereby achieve an increased R.F. modulation amplitude and a decreased oscillator ringing.
  - 22. The oscillator according to either claim 1, 8, 17, or, 20 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.

4. An improved Colpitts oscillator electrical circuit, comprising:
- a transistor having an emitter, a base, and a collector;
  
  an electrical voltage supply;
  
  a capacitance connected in series between said collector and ground, and in parallel between said emitter and said collector; and
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator.
- View Dependent Claims (5, 6, 7, 9, 21)
- - 5. The oscillator according to claim 4 further including a load inductance in series with said load resistance.
  - 6. The oscillator according to claim 5 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 7. The oscillator according to either claim 4, 5, or 6 wherein said capacitance includes a split capacitor tank.
  - 9. The oscillator according to either claim 4 or 8 wherein said electrical voltage supply provides a voltage greater than 5 volts to thereby achieve an increased R.F. modulation amplitude in an output of the oscillator and a minimized ringing component thereto.
  - 21. The oscillator according to claim 7 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.

8. An improved Colpitts type oscillator circuit, comprising:
- a transistor having an emitter, a base, and a collector;
  
  a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector of said transistor;
  
  a voltage supply; and
  
  a load inductance and load resistor in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to a junction between said load resistance and said load inductance.

10. An assembly for use in a disc drive system, said assembly comprising a laser, a source of write pulses, and a Colpitts type reselected resistance, said write pulses being combined with an output of said oscillator to produce an input signal to said laser.
- View Dependent Claims (11, 12)
- - 11. The assembly according to claim 10 wherein said load circuit includes an inductance connected in series with a load resistance.
  - 12. The assembly according to either claim 10 or 11 further including a voltage supply that provides an oscillator voltage greater than 5 volts to thereby achieve an increased R.F. modulation amplitude in an output of the oscillator and a minimized ringing component associated therewith.

13. An assembly for use in a disc drive system, said assembly comprising:
- a laser;
  
  a source of write pulses;
  
  a voltage supply;
  
  a Colpitts type oscillator having a transistor with an emitter, a base, and a collector; and
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator, said write pulses being combined with an output of said oscillator to produce an input signal to said laser.
- View Dependent Claims (14, 15, 16, 18, 23, 24)
- - 14. The assembly according to claim 13 further including a load inductance in series with said load resistance.
  - 15. The assembly according to claim 14 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 16. The assembly according to either claim 13, 14, or 15 further including a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector.
  - 18. The assembly according to either claim 13, 14, 15, or 17 wherein said load resistance is selected to be greater than a predetermined minimum resistive value and said voltage supply provides a voltage greater than a predetermined minimum value to thereby achieve an increased R.F. modulation amplitude in an output of the oscillator and a minimized ringing component associated therewith.
  - 23. The assembly according to claim 15 further including a ferrite bead on a conducting path directing said write pulses to said junction between said load resistance and said load inductance.
  - 24. The assembly according to claim 16 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.

17. An assembly for use in a disc drive system, said assembly comprising:
- a laser;
  
  a source of write pulses;
  
  a Colpitts type oscillator including a transistor having an emitter, a base, and a collector, and a split capacitor tank connected between said collector and ground, across said emitter and said collector;
  
  a voltage supply; and
  
  a load inductance and load resistance in series between said collector and said voltage supply to thereby mitigate oscillator ringing when write pulses are supplied to a junction between said load resistance and said load inductance, said write pulses being combined with an output of said oscillator to produce an input signal to said laser.

19. A method of reducing ringing in a Colpitts type oscillator including a transistor having an emitter, a base, and a collector, said method comprising the steps of:
- providing a load resistance having a resistive value being greater than a predetermined minimum resistive value, said load resistance being connected in series to the collector of the oscillator transistor; and
  
  applying a voltage greater than a predetermined minimum value to the collector of the oscillator transistor to thereby achieve an increased R.F. modulation amplitude in an output of the oscillator and a minimized ringing component associated therewith.
- View Dependent Claims (25, 26, 27)
- - 25. The method according to claim 19 further including the step of connecting a load inductance in series between said load resistance and the collector of the oscillator transistor.
  - 26. The method according to claim 25 further including the step of directing a pulsed write signal to a junction located between said load inductance and said load resistance.
  - 27. The method according to claim 26 further including the step of connecting a ferrite bead to a conducting path directing said pulsed write signal to said junction between said load resistance and said load inductance.

20. An optical disc system of the type having a focusing mechanism and a tracking mechanism controlled by a feedback loop, said system comprising:
- an electronic circuit for generating a servo error signal for effecting corrections of said focusing mechanism and said tracking mechanism;
  
  a laser;
  
  a source of write pulses;
  
  a Colpitts type oscillator including a transistor having an emitter, a base, and a collector, and a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector;
  
  a voltage supply; and
  
  a load inductance and load resistor in series between said collector and said voltage supply to thereby mitigate oscillator ringing when write pulses are supplied to a junction between said load resistance and said load inductance.

28. An optical disc system, comprising:
- an optical assembly;
  
  a laser light source capable of transmitting light through said optical assembly;
  
  an objective lens subassembly for directing light from said laser light source between said optical assembly and a respective information storage medium;
  
  an objective lens disposed in said objective lens subassembly;
  
  an actuator assembly suspending said objective lens subassembly for relative motion thereof with respect to said actuator assembly;
  
  a photodetector disposed in a path of light returning from the respective medium, said photodetector for measuring return light received from the respective medium;
  
  a first servomotor for moving said objective lens subassembly in a tracking direction relative to said actuator assembly;
  
  a second servomotor for moving said objective lens subassembly in a focusing direction relative to said actuator assembly;
  
  a source of write pulses;
  
  first electronic means for controlling said first and second servomotors;
  
  a motor for moving the respective medium relative to said objective lens subassembly, said motor having a support assembly for supporting the respective medium;
  
  second electronic means responsive to an output signal of said photodetector for decoding information carried in said light returning from the respective medium;
  
  third electronic means for enabling said laser light source to emit light at a first intensity to encode information on the respective medium and at a second intensity to read information encoded thereon;
  
  a voltage supply;
  
  data receiving means for accepting data that is storable on the respective medium;
  
  data encoding means being responsive to said data receiving means for representing said data to be stored in a predetermined format, said data encoding means also for directing data to said third electronic means;
  
  a magnetic field generator for producing a magnetic field on a portion of the respective medium and for coacting with said third electronic means and said laser light source to write and erase information on the respective medium;
  
  a cartridge loading assembly for removably positioning the respective medium on said support assembly of said motor;
  
  servo error detecting means including said photodetector, said servo error detecting means being coupled to said first electronic means for determining when said return light exceeds a predetermined value;
  
  a Colpitts type oscillator having a transistor with an emitter, a base, and a collector; and
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator, said write pulses being combined with an output of said oscillator to produce an input signal to said laser light source.
- View Dependent Claims (29, 30, 31, 32, 33)
- - 29. The optical disc system according to claim 28 further including a load inductance in series with said load resistance.
  - 30. The optical disc system according to claim 29 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 31. The optical disc system according to either claim 28, 29, or 30 further including a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector.
  - 32. The optical disc system according to claim 31 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.
  - 33. The optical disc system according to claim 30 further including a ferrite bead on a conducting path directing said write pulses to said junction between said load resistance and said load inductance.

34. An optical disc system, comprising:
- an optical assembly;
  
  a laser light source capable of transmitting light through said optical assembly;
  
  an objective lens subassembly for directing light from said laser light source between said optical assembly and a respective information storage medium;
  
  an objective lens disposed in said objective lens subassembly;
  
  an actuator assembly which suspends said objective lens subassembly for relative motion thereof with respect to said actuator assembly;
  
  light detection means disposed in a path of light returning from the respective medium, said light detection means for measuring return light received from the respective medium;
  
  a first servomotor for moving said objective lens subassembly in a tracking direction relative to said actuator assembly;
  
  a second servomotor for moving said objective lens subassembly in a focusing direction relative to said actuator assembly;
  
  first electronic means for controlling said first and second servomotors;
  
  a motor for moving the respective medium relative to said objective lens subassembly, said motor having a support assembly for supporting the respective medium;
  
  second electronic means responsive to an output signal of said light detection means, said second electronic means for decoding information carried in said return light returned from the respective medium;
  
  third electronic means for enabling said laser light source to emit light at a first intensity to encode information on the respective medium and at a second intensity to read information encoded thereon;
  
  a voltage supply;
  
  data receiving means for accepting data that is storable on the respective medium;
  
  data encoding means being responsive to said data receiving means for representing said data to be stored in a predetermined format, said data encoding means also for directing data to said third electronic means;
  
  write means coacting with said third electronic means to provide a source of write pulses for writing information on the respective medium;
  
  a cartridge loading assembly for removably positioning the respective medium on said support assembly of said motor;
  
  servo error detecting means coupled to said first electronic means and said light detection means for determining when said return light exceeds a predetermined value;
  
  a Colpitts type oscillator having a transistor with an emitter, a base, and a collector; and
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator, said write pulses being combined with an output of said oscillator to produce an input signal to said laser light source.
- View Dependent Claims (35, 36, 37, 38, 39)
- - 35. The optical disc system according to claim 34 further including a load inductance in series with said load resistance.
  - 36. The optical disc system according to claim 35 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 37. The optical disc system according to either claim 34, 35, or 36 further including a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector.
  - 38. The optical disc system according to claim 37 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.
  - 39. The optical disc system according to claim 36 further including a ferrite bead on a conducting path directing said write pulses to said junction between said load resistance and said load inductance.

40. An optical disc system, comprising:
- an optical assembly;
  
  a laser light source capable of transmitting light through said optical assembly;
  
  an objective lens subassembly for directing light from said laser light source between said optical assembly and a respective information storage medium;
  
  an objective lens disposed in said objective lens subassembly;
  
  light detection means disposed in a path of light returning from the respective medium for measuring return light reflected from the respective medium, a total of said return light having a peak value associated therewith;
  
  an actuator assembly suspending said objective lens subassembly for relative motion thereof with respect to said actuator assembly;
  
  a first servomotor for moving said objective lens subassembly in a tracking direction relative to said actuator assembly;
  
  a second servomotor for moving said objective lens subassembly in a focusing direction relative to said actuator assembly;
  
  a third servomotor for moving said actuator assembly in said tracking direction relative to the respective medium;
  
  first electronic means for controlling said first, second, and third servomotors;
  
  a motor for moving the respective medium relative to said objective lens subassembly, said motor having a surface for supporting the respective medium;
  
  second electronic means responsive to an output signal of said light detection means for decoding information carried in said return light returning from the respective medium;
  
  third electronic means for enabling said light source to emit light at a first intensity to encode information on the respective medium and at a second intensity to read information encoded thereon;
  
  a voltage supply;
  
  data receiving means for accepting data that is storable on the respective medium;
  
  data encoding means being responsive to said data receiving means for representing said data to be stored in a predetermined format, said data encoding means also for directing data to said third electronic means;
  
  write means coacting with said third electronic means to provide a source of write pulses for writing information on the respective medium;
  
  a cartridge loading assembly for removably positioning the respective medium on said surface of said motor;
  
  servo error detecting means coupled to said first electronic means and said light detection means for determining when said return light exceeds one-half said peak value;
  
  a Colpitts type oscillator having a transistor with an emitter, a base, and a collector;
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator, said write pulses being combined with an output of said oscillator to produce an input signal to said laser light source; and
  
  a housing structure for positioning components of the optical disc system with respect to one another.
- View Dependent Claims (41, 42, 43, 44, 45)
- - 41. The optical disc system according to claim 40 further including a load inductance in series with said load resistance.
  - 42. The optical disc system according to claim 41 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 43. The optical disc system according to either claim 40, 41, or 42 further including a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector.
  - 44. The optical disc system according to claim 43 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.
  - 45. The optical disc system according to claim 42 further including a ferrite bead on a conducting path directing said write pulses to said junction between said load resistance and said load inductance.

46. An optical disc system, comprising:
- an optical assembly;
  
  a laser light source capable of transmitting light through said optical assembly;
  
  an objective lens subassembly for directing light from said laser light source between said optical assembly and a respective information storage medium;
  
  an objective lens disposed in said objective lens subassembly;
  
  an actuator assembly which suspends said objective lens subassembly for relative motion thereof with respect to said actuator assembly;
  
  a photodetector disposed in a path of light returning from the respective medium, said photodetector for measuring return light received from the respective medium;
  
  a first servomotor for moving said objective lens subassembly in a tracking direction relative to said actuator assembly;
  
  a second servomotor for moving said objective lens subassembly in a focusing direction relative to said actuator assembly;
  
  a source of write pulses;
  
  a first electronic circuit employed to control said first and second servomotors;
  
  a motor for moving the respective medium relative to said objective lens subassembly, said motor having a support assembly for supporting the respective medium;
  
  a second electronic circuit responsive to an output signal of said photodetector to decode information carried in said light returning from the respective medium;
  
  a third electronic circuit implemented to enable said laser light source to emit light at a first intensity to encode information on the respective storage medium and at a second intensity to read information encoded thereon;
  
  a voltage supply;
  
  a data receiver positioned to accept data that is storable on the respective medium;
  
  a data encoder linked to said data receiver to represent said data to be stored in a predetermined format, said data encoder also positioned to direct data to said third electronic circuit;
  
  a magnetic field generator located to produce a magnetic field on a portion of the respective medium and to coact with said third electronic circuit and said laser light source to write and erase information on the respective medium;
  
  a cartridge loading assembly to removably position the respective medium on said support assembly of said motor;
  
  a servo error circuit coupled to said first electronic circuit and said photodetector to determine when said return light exceeds a predetermined value;
  
  a Colpitts type oscillator having a transistor with an emitter, a base, and a collector; and
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator, said write pulses being combined with an output of said oscillator to produce an input signal to said laser light source.
- View Dependent Claims (47, 48, 49, 50, 51)
- - 47. The optical disc system according to claim 46 further including a load inductance in series with said load resistance.
  - 48. The optical disc system according to claim 47 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 49. The optical disc system according to either claim 46, 47, or 48 further including a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector.
  - 50. The optical disc system according to claim 49 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.
  - 51. The optical disc system to claim 48 further including a ferrite bead on a conducting path directing said write pulses to said junction between said load resistance and said load inductance.

52. An optical disc system, comprising:
- an optical assembly;
  
  a laser light source capable of transmitting light through said optical assembly;
  
  an objective lens subassembly for directing light from said laser light source between said optical assembly and a respective information storage medium;
  
  an objective lens disposed in said objective lens subassembly;
  
  an actuator assembly which suspends said objective lens subassembly for relative motion thereof with respect to said actuator assembly;
  
  a photodetector disposed in a path of light returning from the respective medium, said photodetector for measuring return light received from the respective medium;
  
  a first servomotor for moving said objective lens subassembly in a tracking direction relative to said actuator assembly;
  
  a second servomotor for moving said objective lens subassembly in a focusing direction relative to said actuator assembly;
  
  a first electronic circuit employed to control said first and second servomotors;
  
  a motor for moving the respective medium relative to said objective lens subassembly, said motor having a support assembly for supporting the respective medium;
  
  a second electronic circuit responsive to an output signal of said photodetector, said second electronic circuit employed to decode information carried in said light returning from the respective medium;
  
  a third electronic circuit implemented to enable said laser light source to emit light at a first intensity to encode information on the respective storage medium and at a second intensity to read information encoded thereon;
  
  a voltage supply;
  
  a data receiver positioned to accept data that is storable on the respective medium;
  
  a data encoder linked to said data receiver to represent said data to be stored in a predetermined format, said data encoder also positioned to direct data to said third electronic circuit;
  
  a write member connected to said third electronic circuit to provide a source of write pulses, said write member thereby capable of writing information onto the respective medium;
  
  a cartridge loading assembly to removably position the respective medium on said support assembly of said motor;
  
  a servo error circuit connected to said first electronic circuit and said photodetector to determine when said return light exceeds a predetermined value;
  
  a Colpitts type oscillator having a transistor with an emitter, a base, and a collector; and
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator, said write pulses being combined with an output of said oscillator to produce an input signal to said laser light source.
- View Dependent Claims (53, 54, 55, 56, 57)
- - 53. The optical disc system according to claim 52 further including a load inductance in series with said load resistance.
  - 54. The optical disc system according to claim 53 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 55. The optical disc system according to either claim 52, 53, or 54 further including a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector.
  - 56. The optical disc system according to claim 55 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.
  - 57. The optical disc system according to claim 54 further including a ferrite bead on a conducting path directing said write pulses to said junction between said load resistance and said load inductance.

58. An optical disc system, comprising:
- an optical assembly;
  
  a laser light source capable of transmitting light through said optical assembly;
  
  an objective lens subassembly for directing light from said laser light source between said optical assembly and a respective information storage medium;
  
  an objective lens disposed in said objective lens subassembly;
  
  a photodetector disposed in a path of light returning from the respective medium for measuring return light reflected from the respective medium, a total of said return light having a peak value associated therewith;
  
  an actuator assembly which suspends said objective lens subassembly for relative motion thereof with respect to said actuator assembly;
  
  a first servomotor for moving said objective lens subassembly in a tracking direction relative to said actuator assembly;
  
  a second servomotor for moving said objective lens subassembly in a focusing direction relative to said actuator assembly;
  
  a third servomotor for moving said actuator assembly in said tracking direction relative to the respective medium;
  
  a first electronic circuit employed to control said first, second, and third servomotors;
  
  a motor for moving the respective medium relative to said objective lens subassembly, said motor having a surface for supporting the respective medium;
  
  a second electronic circuit responsive to an output signal of said photodetector employed to decode information carried in said return light returning from the respective medium;
  
  a third electronic circuit implemented to enable said laser light source to emit light at a first intensity to encode information on the respective storage medium and at a second intensity to read information encoded thereon;
  
  a voltage supply;
  
  a data receiver positioned to accept data that is storable on the respective medium;
  
  a data encoder linked to said data receiver to represent said data to be stored in a predetermined format, said data encoder also positioned to direct data to said third electronic circuit;
  
  a write member connected to said third electronic means to provide a source of write pulses, said write member thereby enabled to write information onto the respective medium;
  
  a cartridge loading assembly to removably position the respective medium on said surface of said motor;
  
  a servo error circuit connected to said first electronic circuit and said photodetector to determine when said return light exceeds a predetermined value;
  
  a Colpitts type oscillator having a transistor with an emitter, a base, and a collector;
  
  a load resistance connected in series between said collector and said voltage supply to mitigate oscillator ringing when write pulses are supplied to the oscillator, said write pulses being combined with an output of said oscillator to produce an input signal to said laser light source; and
  
  a housing structure for positioning components of the optical disc system with respect to one another.
- View Dependent Claims (59, 60, 61, 62, 63)
- - 59. The optical disc system according to claim 58 further including a load inductance in series with said load resistance.
  - 60. The optical disc system according to claim 59 wherein said write pulses are supplied to a junction between said load resistance and said load inductance.
  - 61. The optical disc system according to either claim 58, 59, or 60 further including a split capacitor tank connected in series between said collector and ground, and in parallel across said emitter and said collector.
  - 62. The optical disc system according to claim 61 wherein said split capacitor tank includes a first capacitor connected in series with a second capacitor, said first capacitor being connected in parallel across said emitter and said collector of said transistor.
  - 63. The optical disc system according to claim 60 further including a ferrite bead on a conducting path directing said write pulses to said junction between said load resistance and said load inductance.

Specification

Resources

Litigation Campaign Assessment

Current Assignee
Discovision Associates (Pioneer Corporation)
Original Assignee
Discovision Associates (Pioneer Corporation)
Inventors
Schell, David L.
Primary Examiner(s)
Grimm, Siegfried H.

Application Number

US08/422,732
Time in Patent Office

1,120 Days
Field of Search

331/117 R, 331/117 FE, 331/167, 331/168, 331/173, 331/75, 369/44.14, 369/121, 369/122
US Class Current

369/44.14
CPC Class Codes

G11B 11/10563   Access of indexed parts

G11B 11/10576   with provision for moving t...

G11B 11/10595   Control of operating function

G11B 17/043   Direct insertion, i.e. with...

G11B 17/0438   with mechanism for subseque...

G11B 20/10009   Improvement or modification...

G11B 20/1258   where blocks are arranged w...

G11B 2007/0919   Critical angle methods

G11B 2020/10916   Seeking data on the record ...

G11B 21/10   Track finding or aligning b...

G11B 21/106   on disks

G11B 5/5526   Control therefor; circuits,...

G11B 7/0037   with discs

G11B 7/004   Recording, reproducing or e...

G11B 7/00745   Sectoring or header formats...

G11B 7/08529   Methods and circuits to con...

G11B 7/08582   Sled-type positioners

G11B 7/09   with provision for moving t...

G11B 7/0901   for track following only G1...

G11B 7/0908   for focusing only G11B7/092...

G11B 7/0917 : Focus-error methods other t...

G11B 7/093 : for focusing and tracking G...

G11B 7/0932 : Details of sprung supports

G11B 7/0933 : Details of stationary parts

G11B 7/0935 : Details of the moving parts

G11B 7/0943 : Methods and circuits for pe...

G11B 7/0945 : Methods for initialising se...

G11B 7/126 : Circuits, methods or arrang...

G11B 7/1356 : Double or multiple prisms, ...

H02K 41/0354 : Lorentz force motors, e.g. ...

H02K 41/0356 : moving along a straight path

View All

Colpitts type oscillator having reduced ringing and improved optical disc system utilizing same

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

232 Citations

63 Claims

Specification

Solutions

Use Cases

Quick Links

Colpitts type oscillator having reduced ringing and improved optical disc system utilizing same

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

232 Citations

63 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links