Claims
- 1. An alarm strobe comprising:
- a flash lamp;
- a capacitor for carrying a charge to be discharged through the flashlamp;
- a charging circuit powered from a pair of power lines for applying a series of current pulses to the capacitor to charge the capacitor;
- a voltage sensor circuit connected across the capacitor for disabling the charging circuit when the capacitor reaches a firing voltage level; and
- a firing circuit connected to the capacitor responsive to a pulsed change in voltage across the power lines to trigger discharge of the capacitor through the flash lamp such that a plurality of strobes powered by said pair of power lines are triggered by the pulsed change in voltage simultaneously wherein the strobe receives a supply voltage of a first polarity during an alarm condition to power the strobe, and a supervisory voltage of a second polarity during a nonalarm condition to monitor for a fault in the power lines, the second polarity being the reverse of the first polarity.
- 2. In a building alarm system having a plurality of warning strobes powered through common power lines, each strobe comprising:
- a flash lamp;
- a capacitor for carrying a charge to be discharged through the flashlamp;
- a charging circuit powered from the power lines to charge the capacitor; and
- a firing circuit connected to the capacitor responsive to a pulsed change in voltage across the power lines to trigger discharge of the capacitor through the flash lamp such that the plurality of strobes powered by said common power lines are triggered by the pulsed change in voltage simultaneously wherein the strobes receive a supply voltage of a first polarity during an alarm condition to power the strobes, and a supervisory voltage of a second polarity during a nonalarm condition to monitor for a fault in the power lines, the second polarity being the reverse of the first polarity.
- 3. In a building alarm system as claimed in claim 2, each strobe further comprising a voltage sensor circuit connected across the capacitor for disabling the charging circuit when the capacitor reaches a firing voltage level.
- 4. A building alarm system comprising:
- a plurality of warning strobes powered through common power lines, each strobe comprising:
- a flash lamp;
- a capacitor for carrying a charge to be discharged through the flash lamp;
- a charging circuit powered from the power lines for applying a series of current pulses to the capacitor to charge the capacitor; and
- a firing circuit connected to the capacitor responsive to a pulsed change in voltage across the power lines to discharge the capacitor through the flash lamp; and
- a system controller connected to the power lines for responding to an alarm condition to power the plurality of warning strobes and to cause the pulsed change in voltage to cause the strobes to flash in synchronization with each other wherein the system controller applies across the strobes a supply voltage of a first polarity during an alarm condition to power the strobes, and a supervisory voltage of a second polarity during a nonalarm condition to monitor for a fault in the power lines, the second polarity being the reverse of the first polarity.
- 5. A building alarm system as claimed in claim 4 wherein each strobe further comprises a voltage sensor circuit connected across the capacitor for disabling the charging circuit when the capacitor reaches a firing voltage level.
- 6. A building alarm system as claimed in claim 5 wherein the system controller times the change in voltage across the power lines to provide an encoded visual indication.
- 7. A building alarm system as claimed in claim 6 wherein the system controller delivers DC power to the power lines to operate the strobes.
- 8. A building alarm system as claimed in claim 4 wherein the system controller times the change in voltage across the power lines to provide an encoded visual indication.
- 9. A building alarm system as claimed in claim 4 wherein the system controller delivers DC power to the power lines to operate the strobes.
- 10. A method of providing a visual alarm comprising:
- connecting a plurality of light strobes to a common pair of power lines;
- applying across the strobes a supply voltage of a first polarity during an alarm condition to power the strobes, and a supervisory voltage of a second polarity during a nonalarm condition to monitor for a fault in the power lines, the second polarity being the reverse of the first polarity;
- with an alarm condition, powering the plurality of strobes to charge a capacitor in each strobe;
- providing a pulsed synchronizing signal through the common power lines to cause each strobe to discharge the capacitor through a flash lamp in each strobe such that the strobes flash in synchronization with each other,
- 11. A method as claimed in claim 10 further comprising, at each strobe, disabling charging of the capacitor when the capacitor reaches a firing voltage level.
- 12. A method as claimed in claim 10 further comprising timing the synchronization signals to the strobes to provide an encoded visual output.
- 13. A building alarm system comprising:
- a plurality of warning strobes powered through common power lines, each strobe comprising:
- a flash lamp;
- a capacitor for carrying a charge to be discharged through the flash lamp;
- a charging circuit powered from DC current from the power lines for applying a series of current pulses to the capacitor to charge the capacitor;
- a firing circuit connected to the capacitor responsive to a pulsed change in voltage across the power lines to trigger discharge of the capacitor through the flash lamp; and
- a system controller connected to the power lines for responding to an alarm condition to power the plurality of warning strobes with DC current and to cause the pulsed change in voltage to cause the strobes to flash in synchronization with each other wherein the system controller applies across the strobes a supply voltage of a first polarity during an alarm condition to power the strobes, and a supervisory voltage of a second polarity during a nonalarm condition to monitor for a fault in the power lines, the second polarity being the reverse of the first polarity.
Parent Case Info
This application is a continuation of application Ser. No. 08/126,791 filed on Sep. 24, 1993 now abandoned, which is incorporated herein by reference in its entirety.
US Referenced Citations (20)
Non-Patent Literature Citations (2)
Entry |
"Everything You Always Wanted to Know About Flashtubes," Anchor Engineering Corporation, Westborough, MA, pp. 1-12. |
Drell, Adrienne, "Strobe Alarm Branded Danger to Epileptics," Metro, 1 p. |
Continuations (1)
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Number |
Date |
Country |
Parent |
126791 |
Sep 1993 |
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