Photoelectric sensor having an enhanced dynamic range control circuit
First Claim
1. A photoelectric sensor comprising:
- a pulse modulator and light source for transmitting light at a sensing target;
a light sensor for receiving reflected or transmitted light;
a demodulator circuit for demodulating a light signal sensed by the light sensor;
a DC amplifier for amplifying said light signal and outputting an analog DC signal which is proportional to the received light, said DC amplifier having an offset adjustment control;
a display for supplying a visual indication of the intensity of the light received by said light sensor; and
a control circuit coupled to the offset adjustment control of the DC amplifier for automatically preventing the photoelectric sensor from operating in dark state saturation by controlling the intensity of the light transmitted by the light source in an analog, non-linear manner,wherein the control circuit comprises a light emitting diode for supplying a visual indication of whether the photoelectric sensor is operating within its dynamic operating range.
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Accused Products
Abstract
The disclosed invention is a photoelectric sensor that is capable of resolving difficult low contrast sensing tasks by adjustment of the sensor'"'"'s light source intensity, so as to prevent dark state saturation and extend the overall dynamic range of the sensor. The photosensor utilizes an enhanced dynamic (EDR™) control circuit that combines the light source and offset adjustment of the DC amplifier circuit in a closed loop configuration. This connection provides an automatic reduction in the light source intensity as required to avoid saturation. Further, this is accomplished without sacrificing amplifier gain, so that the dynamic operating range of the photosensor is extended to include proper operation at very bright light levels. The EDR control circuit also includes an indicator circuit that is connected to the light intensity control circuit. The indicator circuit provides the user an indication of where in the overall dynamic range of the photosensor the offset adjustment of the DC amplifier has been set.
41 Citations
31 Claims
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1. A photoelectric sensor comprising:
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a pulse modulator and light source for transmitting light at a sensing target; a light sensor for receiving reflected or transmitted light; a demodulator circuit for demodulating a light signal sensed by the light sensor; a DC amplifier for amplifying said light signal and outputting an analog DC signal which is proportional to the received light, said DC amplifier having an offset adjustment control; a display for supplying a visual indication of the intensity of the light received by said light sensor; and a control circuit coupled to the offset adjustment control of the DC amplifier for automatically preventing the photoelectric sensor from operating in dark state saturation by controlling the intensity of the light transmitted by the light source in an analog, non-linear manner, wherein the control circuit comprises a light emitting diode for supplying a visual indication of whether the photoelectric sensor is operating within its dynamic operating range. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A photoelectric sensor comprising:
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a pulse modulator and light source for transmitting light at a sensing target; a light sensor for receiving reflected or transmitted light; an amplifier circuit for amplifying a light signal received by the light sensor; a demodulator circuit for demodulating the light signal output from the amplifier circuit; a DC amplifier for amplifying the light signal output from the demodulator circuit and outputting an analog DC signal which is proportional to the received light, said DC amplifier having an amplifier gain and offset adjustment control; a display for supplying a visual indication of the intensity of the light received by said light sensor; and a control circuit coupled to the offset adjustment control of said DC amplifier for automatically preventing the photoelectric sensor from operating in the dark state saturation by controlling the intensity of the light transmitted by the light source in an analog manner and comprising an indicator for supplying a visual indication of whether the photoelectric sensor is operating within its dynamic operating range, wherein the amplifier gain of the DC amplifier is coupled to the offset adjustment control, such that the amplifier gain varies when the offset adjustment control is altered. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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17. A photoelectric sensor comprising:
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a pulse modulator and light source for transmitting light at a sensing target; a light sensor for receiving reflected or transmitted light; a demodulator circuit for demodulating a light signal sensed by the light sensor; a DC amplifier for amplifying said light signal and outputting an analog DC signal which is proportional to the received light, said DC amplifier having an offset adjustment control; a display for supplying a visual indication of the intensity of the light received by said light sensor; and a control circuit coupled to the offset adjustment control of the DC amplifier for automatically preventing the photoelectric sensor from operating in dark state saturation by controlling in an analog, non-linear manner the intensity of the light transmitted by the light source, such that the intensity of the light transmitted by the light source decreases as the offset adjustment control increases, wherein the control circuit comprises an indicator for supplying (1) a visual indication of whether the photoelectric sensor is operating within its dynamic operating range, and (2) a visual indication of when the offset adjustment control is being altered. - View Dependent Claims (18, 19, 20, 21, 22, 23)
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24. A photoelectric sensor comprising:
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a pulse modulator and light source for transmitting light at a sensing target; a light sensor for receiving reflected or transmitted light; a demodulator circuit for demodulating a light signal sensed by the light sensor; a DC amplifier for amplifying said light signal and outputting an analog DC signal which is proportional to the received light, said DC amplifier having an offset adjustment control; and a control circuit coupled to the offset adjustment control of the DC amplifier for automatically preventing the photoelectric sensor from operating in dark state saturation by controlling in an analog, non-linear manner the intensity of the light transmitted by the light source, wherein the control circuit comprises a light emitting diode for supplying a visual indication of whether the photoelectric sensor is operating within its dynamic operating range. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31)
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Specification