Laser diode mode hopping sensing and control system
First Claim
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1. A method of preventing laser diode mode hopping comprising the steps of:
- (a) identifying a stable operating temperature range for said laser diode by(1) reducing diode biasing current until a predetermined biasing current is reached providing a first diode temperature level at which said laser diode mode hops, and(2) increasing diode modulating current until a predetermined modulating current is reached providing a second diode temperature level at which said laser diode mode hops;
(b) monitoring said diode biasing and modulating currents when operating said diode;
(c) heating said diode in response to detection of said predetermined diode biasing current to raise said diode temperature and prevent said diode from reaching said first temperature level whereby to prevent said diode from mode hopping; and
(d) cooling said diode in response to detection of said predetermined diode modulating current to lower said diode temperature and prevent said diode from reaching said second temperature level whereby to prevent said diode from mode hopping.
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Abstract
A printer having holographic scanning disc for scanning the imaging beam from a laser diode across a recording member, the diode having diode biasing and modulating current inputs for modulating the diode and thereby exposing and creating images on the recording member, a heating-cooling device in heat exchange relation with the diode for controlling diode temperatures, and a current sensor for monitoring the diode biasing and modulating currents and operating the heating-cooling device to adjust diode temperatures to maintain diode temperatures within a non-mode hopping temperature range.
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Citations
5 Claims
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1. A method of preventing laser diode mode hopping comprising the steps of:
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(a) identifying a stable operating temperature range for said laser diode by (1) reducing diode biasing current until a predetermined biasing current is reached providing a first diode temperature level at which said laser diode mode hops, and (2) increasing diode modulating current until a predetermined modulating current is reached providing a second diode temperature level at which said laser diode mode hops; (b) monitoring said diode biasing and modulating currents when operating said diode; (c) heating said diode in response to detection of said predetermined diode biasing current to raise said diode temperature and prevent said diode from reaching said first temperature level whereby to prevent said diode from mode hopping; and (d) cooling said diode in response to detection of said predetermined diode modulating current to lower said diode temperature and prevent said diode from reaching said second temperature level whereby to prevent said diode from mode hopping.
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2. A method for detecting and preventing mode hopping of a laser diode which is scanned across a recording member by a rotating holographic disc having a series of beam defraction gratings which intercept the beam output by said diode and scan the beam across the recording member, the diode having biasing and image signal modulating current inputs for operating said diode to expose said recording member and form the image represented by the image signal content of said modulating current on said member, comprising the steps of:
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(a) monitoring said diode biasing and modulating currents when operating said diode; (b) heating said diode in response to a predetermined diode biasing current whereby to raise said diode temperature and prevent said diode temperature from dropping into a diode mode hopping region; and (c) cooling said diode in response to a predetermined diode modulating current whereby to lower said diode temperature and prevent said diode temperature from dropping into a diode mode hopping region. - View Dependent Claims (3)
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4. Apparatus for detecting and preventing laser diode mode hopping in a printer of the type having a recording member on which images to be printed are formed through image-wise exposure, said recording member being movable in a first scanning direction, the laser diode having a driving current input composed of diode biasing and image forming modulating currents, the light from the laser diode beam exposing said member in accordance with the image content of said modulating current, a rotatable holographic disc having a succession of defraction gratings, said disc being disposed relative to said laser diode so that the beam emitted by said laser diode impinges on said gratings in succession as said disc rotates to thereby scan the beam across said recording member in a second scanning direction, comprising in combination:
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(a) a temperature control element in heat exchange relation with said diode, said temperature control element being selectively actuatable to either heat or cool said diode; (b) current sensing means for monitoring said biasing and modulating currents to said diode, said current sensing means responding on a predetermined bias current to actuate said temperature control element to raise diode temperature and prevent diode mode hopping, said current sensing means responding to a predetermined modulating current to actuate said temperature control element to lower diode temperature and prevent diode mode hopping. - View Dependent Claims (5)
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Specification