Claims
- 1. A controlled lighting system comprising at least one lighting apparatus set for illuminating a given area; means for supplying power to the at least one lighting apparatus set; control circuit means for controllably coupling the means for supplying power to said at least one lighting apparatus set, said control circuit means including light sensing means responsive to ambient light for developing a control signal whenever intensity of ambient light reaches a given level and remains at that level or becomes less; delay circuit means coupled to said light sensing means and responsive to the control signal therefrom for developing a delayed control signal indicating that the intensity of ambient light has remained at or below said given level for at least a given time interval, making the system nonresponsive to short term ambient light intensity variations; pulse-producing timing circuit means coupled to said delay circuit means and responsive to the delayed control signal therefrom for providing output pulses for a predetermined time interval; step switch means for switching ON and OFF power to the at least one lighting apparatus, said step switch means being coupled between the means for supplying power and the at least one lighting apparatus set; means coupled to said pulse-producing timing circuit means and responsive to output pulses therefrom for advancing said step switch means in step fashion for a given time interval during which power is ON and upon the expiration of which the step switch means switches OFF power from said means for supplying power to the at least one lighting apparatus set; and means for resetting said step switch means upon expiration a further time interval and exposure of the light sensing means to light.
- 2. The controlled lighting circuit according to claim 1, wherein said step switch means includes a driver coil, and including a transistor, said driver coil being in circuit with the emitter-collector current path of the transistor which has its base coupled to said pulse-producing timing circuit means for receiving pulses therefrom.
- 3. The controlled lighting circuit according to claim 2, wherein said light sensing means comprises a resistor made of CdS.
- 4. The controlled lighting circuit according to claim 2, including a further transistor, said further transistor having its emitter-collector path connected in series with a source of power for said pulse-producing timing circuit means, its base being coupled to delay circuit means.
- 5. The controlled lighting circuit according to claim 1, including a transistor having its emitter-collector path connected in series with a source of power for said pulse-producing timing circuit means, its base being coupled to the delay circuit means.
- 6. The circuit according to claim 4, wherein said means for resetting comprises an additional transistor, a reset coil, a capacitor, a first resistance and a second resistance and a circuit point of fixed potential, said reset coil being connected in series circuit with the emitter-collector current path of the additional transistor, said first resistor and said point of fixed potential, said capacitor being connected between a circuit reference point and said point of fixed potential via said second resistor and said second resistor, and one end of said reset coil being connected to the collector of said additional transistor, its other end being connected to a circuit point between said first resistor and said second resistor.
- 7. The circuit according to claim 1, wherein said means for resetting comprises a transistor, a reset coil, a capacitor, a first resistance and a second resistance and a circuit point of fixed potential, said reset coil being connected in series circuit with the emitter-collector current path of the transistor, said first resistor and said point of fixed potential, said capacitor being connected between a circuit reference point and said point of fixed potential via said second resistor and said second resistor, and one end of said reset coil being connected to the collector of said transistor, its other end being connected to a circuit point between said first resistor and said second resistor.
- 8. The controlled lighting system according to claim 1, wherein said step switch means comprises a rotary disk of insulating material, at least one row of contact points on said disk and at least one conductive strip on said disk, and at least one rotatable conductive contact for bringing individual ones of the contacts of said row of contacts into connection with said at least one conductive strip in sequence.
- 9. The controlled lighting system according to claim 1, wherein said step switch means comprises a dual-end contact point switch.
- 10. The controlled lighting system according to claim 1, wherein said step switch means comprises a rotary disk of insulating material and at least two conductive strips thereon, at least one of said conductive strips extending over 360.degree. and at least one other of said conductive strips extending over less than 360.degree..
- 11. The controlled lighting system according to claim 1, wherein said step switch means comprises a rotary disk of insulating material, a conductive strip thereon, at least one additional conductive strip thereon and at least one row of conductive contacts thereon.
- 12. The controlled lighting system according to claim 11, wherein said additional conductive strip is positioned in circumferential alignment with said at least one row of conductive contacts.
- 13. The controlled lighting system according to claim 12, including a further row of conductive contacts in circumferential alignment with said additional strip and said one row of conductive contacts, said additional strip being positioned between said one and said further row of contacts.
- 14. A controlled lighting system comprising at least one lighting apparatus set for illuminating a given area, means for supplying power to the at least one lighting apparatus set and control circuit means for controllably coupling the means for supplying power to said at least one lighting apparatus set, said control circuit means including light sensing means responsive to ambient light for developing a control signal whenever intensity of ambient light reaches a given level and remains at that level or becomes less; pulse-producing timing circuit means responsive to the control signal for providing output pulses for a predetermined time interval; step switch means for switching ON and OFF power to the at least on lighting apparatus, said step switch means being coupled between the means for supplying power and the at least one lighting apparatus set; means coupled to said pulse-producing timing circuit means and responsive to output pulses therefrom for advancing said step switch means in step fashion for a given time interval during which power is ON and upon the expiration of which the step switch means switches OFF power from said means for supplying power to the at least one lighting apparatus set; and means for resetting said step switch means upon expiration a further time interval and exposure of the light sensing means to light.
- 15. The controlled lighting circuit according to claim 14, wherein said step switch means includes a driver coil, and including a transistor, said driver coil being in circuit with the emitter-collector current path of the transistor which has its base coupled to said pulse-producing timing circuit means for receiving pulses therefrom.
- 16. The controlled lighting circuit according to claim 15, wherein said light sensing means comprises a resistor made of CdS.
- 17. The controlled lighting circuit according to claim 15, including a further transistor said further transistor having its emitter-collector path connected in series with a source of power for said pulse-producing timing circuit means, its base being coupled to delay circuit means.
- 18. The controlled lighting circuit according to claim 14, including a transistor having its emitter-collector path connected in series with a source of power for said pulse-producing timing circuit means, its base being coupled to the delay circuit means.
- 19. The circuit according to claim 17, wherein said means for resetting comprises an additional transistor, a reset coil, a capacitor, a first resistance and a second resistance and a circuit point of fixed potential, said reset coil being connected in series circuit with the emitter-collector current path of the additional transistor, said first resistor and said point of fixed potential, said capacitor being connected between a circuit reference point and said point of fixed potential via said second resistor and said second resistor, and one end of said reset coil being connected to the collector of said additional transistor, its other end being connected to a circuit point between said first resistor and said second resistor.
- 20. The circuit according to claim 14, wherein said means for resetting comprises a transistor, a reset coil, a capacitor, a first resistance and a second resistance and a circuit point of fixed potential, said reset coil being connected in series circuit with the emitter-collector current path of the transistor, said first resistor and said point of fixed potential, said capacitor being connected between a circuit reference point and said point of fixed potential via said second resistor and said second resistor, and one end of said reset coil being connected to the collector of said transistor, its other end being connected to a circuit point between said first resistor and said second resistor.
- 21. The controlled lighting system according to claim 14, wherein said step switch means comprises a rotary disk of insulating material, at least one row of contact points on said disk and at least one conductive strip on said disk, and at least one rotatable conductive contact for bringing individual ones of the contacts of said row of contacts into connection with said at least one conductive strip in sequence.
- 22. The controlled lighting system according to claim 14, wherein said step switch means comprises a dual-end contact point switch.
- 23. The controlled lighting system according to claim 14, wherein said step switch means comprises a rotary disk of insulating material and at least two conductive strips thereon, at least one of said conductive strips extending over 360.degree. and at least one other of said conductive strips extending over less than 360.degree..
- 24. The controlled lighting system according to claim 14, wherein said step switch means comprises a rotary disk of insulating material, a conductive strip thereon, at least one additional conductive strip thereon and at least one row of conductive contacts thereon.
- 25. The controlled lighting system according to claim 24, wherein said additional conductive strip is positioned in circumferential alignment with said at least one row of conductive contacts.
- 26. The controlled lighting system according to claim 25, including a further row of conductive contacts in circumferential alignment with said additional strip and said one row of conductive contacts, said additional strip being positioned between said one and said further row of contacts.
CROSS-REFERENCE TO RELATED APPLICATION
This application is a divisional application of the utility U.S. patent application of Tai-Her Yang filed on Aug. 10, 1982 under Ser. No. 406,982 now U.S. Pat. No. 4,645,980 and entitled "Lighting System Having Photosensing Timing Switch Circuit", the disclosure of which is incorporated herein in its entirety by reference.
US Referenced Citations (11)
Divisions (1)
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Number |
Date |
Country |
Parent |
406982 |
Aug 1982 |
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