Laser driver with noise reduction feedback for optical storage applications
First Claim
1. A laser noise control system operating in conjunction with a laser driver, wherein the laser driver produces a laser drive signal that is provided to a laser so as to produce an optical signal, the laser noise control system comprising:
- a beam splitter positioned to receive the optical signal and output a first portion and a second portion thereof;
an optical sensor positioned to receive the first portion of the optical signal, the optical sensor thus capable of producing a sensor output signal indicative of the optical signal;
a noise reduction feedback network operatively connected to the optical sensor and to the laser, the noise reduction feedback network configured to include a filter circuit which receives the sensor output signal and produces a filtered noise reduction signal which is combined with the laser driver signal and provided to the laser;
a LF control loop operatively attached between the optical sensor and the laser driver to provide CW control of the laser; and
a control switch to selectively operate the noise reduction feedback network.
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Accused Products
Abstract
In order to provide a low noise laser beam, a noise reducing feedback network is provided which creates a noise reducing signal and provides that signal to the laser itself. In order to produce the noise reducing signal, the operation of the laser is monitored and the feedback signal is a direct result of this monitoring. Monitoring is accomplished by a fast-forward sense detector, which receives a portion of the laser beam from the operating laser. The output from this fast-forward sense detector is provided to an amplifier which inverts and amplifies the signal. A noise reduction feedback network then receives the amplified signal, appropriately filters this signal, and provides it to the laser itself so as to reduce noise in the laser-beam for the frequency band of importance for reading the recorded data from the optical medium. The noise reduction feedback signal further has sufficiently high impedance so as to not disturb the traditional CW operation of the laser and to avoid interference with the traditional RF modulation of the laser.
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Citations
25 Claims
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1. A laser noise control system operating in conjunction with a laser driver, wherein the laser driver produces a laser drive signal that is provided to a laser so as to produce an optical signal, the laser noise control system comprising:
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a beam splitter positioned to receive the optical signal and output a first portion and a second portion thereof;
an optical sensor positioned to receive the first portion of the optical signal, the optical sensor thus capable of producing a sensor output signal indicative of the optical signal;
a noise reduction feedback network operatively connected to the optical sensor and to the laser, the noise reduction feedback network configured to include a filter circuit which receives the sensor output signal and produces a filtered noise reduction signal which is combined with the laser driver signal and provided to the laser;
a LF control loop operatively attached between the optical sensor and the laser driver to provide CW control of the laser; and
a control switch to selectively operate the noise reduction feedback network. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A laser noise control system for use in controlling a laser within a data storage drive, comprising:
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a beam splitter positioned to receive a laser beam produced by the laser and direct a portion of the laser beam in a predetermined direction;
an optical sensor positioned to receive the portion of the laser beam from the beam splitter and to produce a sensor output signal indicative of the laser beam;
an amplifier attached to an output of the optical sensor for producing an amplified signal which is inverted with respect to the sensor signal;
a noise reduction feedback network having a circuit connection between the amplifier and the laser in order to receive the amplified signal and to provide a filtered noise signal to the laser, wherein the filtered noise signal will cancel noise present in the laser beam; and
a disabling switch for selectively disabling the feedback network, wherein the feedback network is disabled during writing operations of the data storage drive. - View Dependent Claims (11, 12, 13, 14)
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15. A laser control system attached to the read/write laser of an optical data storage system which is directed toward a data storage medium, the control system comprising:
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a laser driver attached to the laser for providing a laser drive signal which controls the operation of the laser;
a beam splitter positioned to receive a laser signal from the laser and redirect at least a portion thereof;
an optical sensor positioned to receive the portion of the laser signal redirected by the beam splitter and provide a sensor output proportional to the laser signal;
an amplifier attached to the optical sensor for producing an amplified signal, the amplified signal being inverted and amplified when compared with the sensor output;
a processor attached to the amplifier and the laser driver, the processor receiving the amplified signal and producing a laser control signal to control the intensity level of the laser; and
a noise reduction feedback network having a circuit connection between the output of the amplifier and the laser, the noise reduction feedback network receiving the amplified signal and providing a cancellation signal to the laser in order to reduce the noise in the laser signal directed to the optical medium. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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22. A laser noise reduction system for use in conjunction with a laser which is driven by a laser driver so as to produce an optical signal, the laser noise reduction system comprising:
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a beam splitter positioned to receive the optical signal and output a first portion and a second portion thereof;
an optical sensor positioned to receive the first portion of the optical signal and to produce a sensor output signal indicative of the laser beam;
a noise reduction feedback circuit having an input connected to the optical sensor so as to receive the sensor output signal and an output connected to the laser, the noise reduction feedback circuit having filtering circuitry and inversion circuitry which receives the sensor output signal and produces a noise reduction signal at the output which is an inverted and filtered version of the sensor signal;
an LF control loop including a processor attached to a trans-impedance amplifier, the processor further having an output attached to the laser driver, the processor output carrying a LF control signal which allows the laser driver to provide appropriate levels of current to operate the laser at a desired CW level; and
a control switch to selectively operate the noise reduction feedback network. - View Dependent Claims (23, 24, 25)
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Specification