Differential illumination sensitive switching circuit
First Claim
1. For combination with existing A.C. electrical wiring of a building, which wiring includes a wall switch box that has an A.C. power lead that is connected with a source of electrical power and a controlled lead that is connected with wiring that runs from the switch box through walls of the building to a light fixture further wiring in the walls of the building connects the light fixture with ground;
- a differential illumination switching circuit comprising;
a transformer having a primary winding connecting across the power and controlled leads;
a triac connected in parallel with the primary winding across the power and control leads, whereby the light fixture is connected between the parallel connected triac and primary winding and ground;
a D.C. power supply circuit connected with a secondary winding of the transformer for providing D.C. electric power, the D.C. power supply circuit having a high potential output and a low potential output;
a first light sensitive solid state device operatively connected between the high potential output and a bridge junction;
a first resistor operatively connected in parallel with the first light sensitive device between the high potential output and the bridge junction;
a second light sensitive solid state device operatively connected between the bridge junction and the low potential output;
a timing means for producing a timer output signal of a selected duration on a timer output in response to receiving a low potential signal on a trigger input, the trigger input being operatively connected with the bridge junction;
an electrical isolation means operatively connected with the timing means to be gated to a conductive state by the timer output signal, the isolation means being operatively connected between the power lead and a gate of the triac, such that the triac oscillates between conductive and non-conductive states with each cycle of A.C. power, whereby (i) during one portion of each A.C. cycle, the triac shorts the primary winding and conducts A.C. power to the light fixture and (ii) during another portion of each A.C. cycle, the triac is non-conductive permitting the A.C. power to flow through the primary winding to provide electric power to the D.C. power supply circuit, the first and second light sensitive solid state devices, and the timing means.
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Accused Products
Abstract
A first phototransistor (20, 20'"'"') is mounted on the structure such as a home (12) or a garage (14) to sense the level of ambient illumination. A second phototransistor (22, 22'"'"') senses both the level of ambient illumination and illumination from the headlights of an approaching vehicle or the like. The phototransistors are arranged with a pair of resistors (54, 56) in a balanced bridge (50). A central bridge junction (52) assumes a higher potential when both phototransistors are illuminated the same, whether light or dark, and a lower potential when the second phototransistor is illuminated more brightly than the first. In response to the uneven illumination of the phototransistors, a timer (60) produces an output signal for a preselected duration. An optic coupler (90) gates a triac (92) conductive for the preselected duration of the timer. The triac is connected in series with exterior security lights (24, 24'"'"') for illuminating the area adjacent a driveway, home, and garage to provide a lighted path for the vehicle occupant after disembarkation of the vehicle.
215 Citations
13 Claims
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1. For combination with existing A.C. electrical wiring of a building, which wiring includes a wall switch box that has an A.C. power lead that is connected with a source of electrical power and a controlled lead that is connected with wiring that runs from the switch box through walls of the building to a light fixture further wiring in the walls of the building connects the light fixture with ground;
- a differential illumination switching circuit comprising;
a transformer having a primary winding connecting across the power and controlled leads; a triac connected in parallel with the primary winding across the power and control leads, whereby the light fixture is connected between the parallel connected triac and primary winding and ground; a D.C. power supply circuit connected with a secondary winding of the transformer for providing D.C. electric power, the D.C. power supply circuit having a high potential output and a low potential output; a first light sensitive solid state device operatively connected between the high potential output and a bridge junction; a first resistor operatively connected in parallel with the first light sensitive device between the high potential output and the bridge junction; a second light sensitive solid state device operatively connected between the bridge junction and the low potential output; a timing means for producing a timer output signal of a selected duration on a timer output in response to receiving a low potential signal on a trigger input, the trigger input being operatively connected with the bridge junction; an electrical isolation means operatively connected with the timing means to be gated to a conductive state by the timer output signal, the isolation means being operatively connected between the power lead and a gate of the triac, such that the triac oscillates between conductive and non-conductive states with each cycle of A.C. power, whereby (i) during one portion of each A.C. cycle, the triac shorts the primary winding and conducts A.C. power to the light fixture and (ii) during another portion of each A.C. cycle, the triac is non-conductive permitting the A.C. power to flow through the primary winding to provide electric power to the D.C. power supply circuit, the first and second light sensitive solid state devices, and the timing means. - View Dependent Claims (2, 3, 4, 6, 7, 8)
- a differential illumination switching circuit comprising;
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5. A differential illumination sensitive switching system for selectively actuating at least one security light mounted on the exterior of a building to provide illumination adjacent a vehicular approach to the building in response to approaching vehicle headlights or the like, the system comprising:
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a reference light sensitive solid state device which is biased to vary in conductivity with variations in brightness of illumination, the reference light sensitive device being mounted on the exterior of the building such that it senses ambient illumination without sensing significant illumination from approaching headlights, the reference light sensitive solid state device being operatively connected between a source of high electrical potential and a bridge junction such that a level of electrical potential provided to the bridge junction is increased in proportion to the sensed brightness of the ambient illumination; a first resistive means operatively connected in parallel with the reference light sensitive device between the high potential source and the bridge junction to conduct the high electrical potential to the bridge junction even in darkness when the reference light sensitive device is non-conductive; a headlight sensing light sensitive solid state device which is biased to vary in conductivity with variations in brightness of sensed illumination, the headlight sensing light sensitive device being mounted on the exterior of the building such that it receives both ambient exterior illumination and illumination from the headlights of approaching vehicles, the headlight sensing light sensitive device being operatively connected between the bridge junction and the low potential source such that the electrical potential level of the bridge junction is reduced in proporation to the combined brightness of sensed ambient illumination and approaching headlights; the bridge junction assuming a higher potential level when both the reference and headlight sensing light sensitive devices are receiving substantially the same level of ambient illumination and assuming a lower potential level when the headlight sensing light sensitive device is more brightly illuminated than the reference light sensitive device, such that the bridge junction assumes the higher potential level over a wide range of light and dark ambient illumination levels and assumes the lower potential level when the sensors are illuminated at different levels regardless of ambient illumination level; a timing means for gating a controlled switch conductive for a selected duration in response to the bridge junction assuming the lower potential, the timing means being operatively connected with the bridge junction and the controlled switch; the security light being connected with the controlled switch such that the security light is turned on while the controlled switch is gated conductive by the timing means, whereby in response to the headlights of a vehicle approaching the building in any level of ambient illumination, the security light is turned on just as if the building were occupied by a person watching for approaching vehicles to provide illumination for the selected duration adjacent the approaching vehicle for the security and safety of a vehicle component disembarking therefrom. - View Dependent Claims (9, 10, 11, 12, 13)
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Specification