Apparatus for preventing accidental activations of opto-electronic switches due to extraneous light
First Claim
1. In an opto-electronic switch of the reflecting type including a radiation emitter, a detector sensitive to said radiation, and an output switching device arranged to be activated when said emitted radiation is reflected by an external means from its propagation axis back towards said optical detector, an electronic circuit to prevent false activation comprising:
- an activation circuit, adapted to switch said output device when said optical receiver receives radiation reflected back from said emitter, a generator connected to drive said light emitter with a pulse train, and an anti-coincidence circuit connected to said optical receiver and to said pulse generator for inhibiting said activation circuit to keep the optical switch inactive when light impinges on said detector during undriven semicycles of the emitter, wherein said activating circuit comprises a counter connected to count clock pulses from said generator, to be reset by said anti-coincidence circuit and to control said output switching device for delaying activation thereof until a certain amount of consecutive pulses are counted or inhibit activation if any pulses are missing.
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Abstract
An electronic circuit for encoding the emission of radiation generating control systems such as opto-electronic switches to ensure that the radiation they detect, is that of the encoded signal they emit. This is done by testing the received signal at two time intervals; first when the output driver activates the emitter, and again when the emission ceases, to verify the coincidence of the detected signal. If first it proves true and then false, it is considered valid. Optionally, this condition must be met for many consecutive tests in order to enable a valid response. If the detector senses radiation when the emitter is inactive, an anti-coincidence signal is produced to cease further emissions until this condition ends.
16 Citations
6 Claims
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1. In an opto-electronic switch of the reflecting type including a radiation emitter, a detector sensitive to said radiation, and an output switching device arranged to be activated when said emitted radiation is reflected by an external means from its propagation axis back towards said optical detector, an electronic circuit to prevent false activation comprising:
- an activation circuit, adapted to switch said output device when said optical receiver receives radiation reflected back from said emitter, a generator connected to drive said light emitter with a pulse train, and an anti-coincidence circuit connected to said optical receiver and to said pulse generator for inhibiting said activation circuit to keep the optical switch inactive when light impinges on said detector during undriven semicycles of the emitter, wherein said activating circuit comprises a counter connected to count clock pulses from said generator, to be reset by said anti-coincidence circuit and to control said output switching device for delaying activation thereof until a certain amount of consecutive pulses are counted or inhibit activation if any pulses are missing.
- View Dependent Claims (2, 3, 4)
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5. In an opto-electronic switch of the reflecting type including a radiation emitter, a detector sensitive to said radiation, and an output switching device arranged to be activated when said emitted radiation is reflected by an external means from its propagation axis back towards said optical detector, an electronic circuit to prevent false activation comprising:
- an activation circuit, adapted to switch said output device when said optical receiver receives radiation reflected back from said emitter, a generator connected to drive said light emitter with a pulse train, and an anti-coincidence circuit connected to said optical receiver and to said pulse generator for inhibiting said activation circuit to keep the optical switch inactive when light impinges on said detector during undriven semicycles of the emitter, wherein said activation circuit comprises an integrating amplifier with a rise-time lower than its fall time and greater than the period of said pulse generator, said integrator connected to receive signals from said detector and to control said output switching device; and
said anti-coincidence circuit comprising a logical AND gate connected to receive both signals from the detector and pulses from the generator, for inhibiting both said generator and said integrator in response to said AND gate simultaneously being subjected to true detector and false generator levels. - View Dependent Claims (6)
- an activation circuit, adapted to switch said output device when said optical receiver receives radiation reflected back from said emitter, a generator connected to drive said light emitter with a pulse train, and an anti-coincidence circuit connected to said optical receiver and to said pulse generator for inhibiting said activation circuit to keep the optical switch inactive when light impinges on said detector during undriven semicycles of the emitter, wherein said activation circuit comprises an integrating amplifier with a rise-time lower than its fall time and greater than the period of said pulse generator, said integrator connected to receive signals from said detector and to control said output switching device; and
Specification