Reading system a variable pass-band
First Claim
1. A laser scanning system comprising:
- a laser scanning mechanism for producing a laser scanning beam within a plurality of predefined focal zones and scanning said laser beam over a bar code symbol, and automatically producing an analog scan data signal indicative of the intensity of light reflected from said scanned bar code symbol; and
a scan data signal processor for processing said analog scan data signal, said scan data signal processor including a plurality of different pass-band filters, wherein one of said pass-band filters is dynamically switched into operation for pass-band filtering the analog scan data signal produced by said laser scanning beam scanning a bar code symbol within one of said predefined focal zones so as to filter out spectral components of paper noise residing outside the frequency spectrum of said analog scan data signal produced in response to scanning said bar code symbol within said predefined focal zone.
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Abstract
The effects of papers/substrate noise are significantly reduced in multi-focal zone laser scanning systems by processing analog scan data signals with a scan data signal processor having a plurality of pass-band filters and amplifiers that are automatically selected for passing only the spectral components of an analog scan data signal produced when a bar code symbol is scanned at a particular focal zone in the laser scanning system. Two or more different pass-band filter structures can be provided for use in the scan data signal processor, wherein each pass-band filter structure is tuned to the spectral band associated with a particular focal zone in the laser scanning system. When a bar code symbol is scanned by a laser beam focussed within the first focal zone or scanning range of the system, the pass-band filter structure associated with this focal zone or scanning range is automatically switched into operation using a control signal produced by determining the focal distance of the laser scanning beam producing the analog scan data signal and noise existing over this pass-band are allowed within the analog signal processor. By virtue of the present invention, first and second derivative signals can be generated and processed to produce a corresponding digital scan data signal for use in subsequent digitizing and decode processing operations, without compromising system performance due to the destructive effects of thermal and substrate noise outside the spectral pass-band of interest for the bar code symbol being scanned.
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Citations
7 Claims
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1. A laser scanning system comprising:
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a laser scanning mechanism for producing a laser scanning beam within a plurality of predefined focal zones and scanning said laser beam over a bar code symbol, and automatically producing an analog scan data signal indicative of the intensity of light reflected from said scanned bar code symbol; and
a scan data signal processor for processing said analog scan data signal, said scan data signal processor including a plurality of different pass-band filters, wherein one of said pass-band filters is dynamically switched into operation for pass-band filtering the analog scan data signal produced by said laser scanning beam scanning a bar code symbol within one of said predefined focal zones so as to filter out spectral components of paper noise residing outside the frequency spectrum of said analog scan data signal produced in response to scanning said bar code symbol within said predefined focal zone. - View Dependent Claims (2)
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3. A multi-focal zone laser scanning system comprising:
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a laser beam scanning mechanism for (i) producing a laser beam, (ii) focusing said produced laser beam within a scanning volume having a depth of field and a plurality of predefined focal zones, (iii) scanning said focused laser beam across a bar code symbol within said depth of field, (iv) collecting a laser light signal produced by said scanned laser beam reflecting off said bar code symbol, (v) detecting said collected laser light signal, and (vi) producing an analog scan data signal corresponding to the detected laser light intensity and having a frequency bandwidth determined by the speed of the laser beam across the scanned bar code symbol and the structure of said scanned bar code symbol;
a control signal generator for dynamically generating a control signal indicative of the predefined focal zone in which said scanned bar code symbol resides at any instant in time when scanned by said laser beam during said laser scanning operations;
a scan data signal processor for processing said analog scan data signal, said analog scan data signal processor including a plurality of pass-band filter structures, each one of said plurality of pass-band filter structures being preassigned to one of said predefined focal zones and having frequency response characteristics for optimally filtering the analog scan data signal produced when scanning said bar code symbol within said predefined focal zone; and
control circuitry, responsive to the control signal generated by said control signal generator, for dynamically switching one of said plurality of pass-band filter structures into operation so that the analog scan data signal produced in response to said laser beam scanning a bar code symbol within one of said predefined focal zones is optimally filtered by said dynamically-switched pass-band filter structure preassigned to said predefined focal zone. - View Dependent Claims (4, 5, 6, 7)
wherein each said holographic scanning facet has a focal length which falls within one of said predefined focal zones, and wherein said control signal generator comprises a holographic scanning facet detector for detecting the holographic scanning facet which generates said laser scanning beam at any instant in time, and automatically produces said control signal. -
6. The multi-focal laser scanning system of claim 3, wherein said laser beam scanning mechanism comprises
a polygonal-type laser beam scanning element for scanning said laser beam during laser scanning operations, and a variable laser beam focusing mechanism for focusing said produced laser beam to one of said predefined focal zones in response to said control signal; - and
wherein said control signal generator comprises an object measurement device for automatically measuring a physical dimension of the object on which said bar code resides, and automatically generating said control signal.
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7. The multi-focal laser scanning system of claim 6, wherein said physical dimension is the height of said object measured relative to a surface on which said object is supported during laser scanning operations.
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Specification