Battery saving circuit for a dangerous condition warning device

US 5,966,078 A
Filed: 02/18/1998
Issued: 10/12/1999
Est. Priority Date: 02/19/1997
Status: Expired due to Term

First Claim

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1. In a dangerous condition monitoring device circuit which operates from a battery and selectively activates audio visual indicia in response to sensed and ongoing conditions, a battery life extending circuit comprising:

A) in the dangerous condition monitoring device circuit;

1) audio visual condition indicia drive means which require a first operating voltage; and

2) a processor which periodically reads at least one dangerous condition sensor, which processes information and which selectively issues audio visual signals to the audio visual condition indicia drive means, the processor being fully operative to process information with both the first operating voltage and with a second operating voltage which is less than the first operating voltage;

B) a DC-to-DC converter for converting the battery voltage to an output voltage for energizing the dangerous condition monitoring device circuit;

C) operating mode means in the dangerous condition monitoring device circuit for issuing a first voltage level signal when the first operating voltage is necessary and a second voltage level signal when the first operating voltage is not necessary; and

D) DC-to-DC converter output voltage setting means responsive to;

1) the first voltage level signal for controlling the DC-to-DC converter to issue the first operating voltage; and

2) the second voltage level signal for controlling the DC-to-DC converter to issue the second operating voltage.

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Abstract

In a processor controlled, battery operated dangerous condition warning device employing a DC-to-DC converter, the converter selectively operates at two voltage outputs. A first output voltage is used when a sensor is polled and when audio visual devices, such as LEDs and a horn, are driven; i.e., when higher power is momentarily required; at all other times, a second, lower voltage output, sufficient for ongoing operation of the processor as it keeps time and processes information, is issued by the converter. In a presently preferred embodiment, when the processor determines that the higher voltage is momentarily required, it sends a first signal to a transistor switch to change the voltage at a reference input to the converter which responds by issuing the higher voltage. When the higher voltage is no longer needed, the processor sends a second signal to change the state of the transistor switch such that the converter reverts to the lower output voltage, thus decreasing the load on the battery.

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24 Claims

1. In a dangerous condition monitoring device circuit which operates from a battery and selectively activates audio visual indicia in response to sensed and ongoing conditions, a battery life extending circuit comprising:
- A) in the dangerous condition monitoring device circuit;
  
  1) audio visual condition indicia drive means which require a first operating voltage; and
  
  2) a processor which periodically reads at least one dangerous condition sensor, which processes information and which selectively issues audio visual signals to the audio visual condition indicia drive means, the processor being fully operative to process information with both the first operating voltage and with a second operating voltage which is less than the first operating voltage;
  
  B) a DC-to-DC converter for converting the battery voltage to an output voltage for energizing the dangerous condition monitoring device circuit;
  
  C) operating mode means in the dangerous condition monitoring device circuit for issuing a first voltage level signal when the first operating voltage is necessary and a second voltage level signal when the first operating voltage is not necessary; and
  
  D) DC-to-DC converter output voltage setting means responsive to;
  
  1) the first voltage level signal for controlling the DC-to-DC converter to issue the first operating voltage; and
  
  2) the second voltage level signal for controlling the DC-to-DC converter to issue the second operating voltage.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24)
- - 2. The dangerous condition monitoring device circuit of claim 1 which further includes sensor reading circuitry which employs the first operating voltage.
  - 3. The dangerous condition monitoring device circuit of claim 1 in which the output of the DC-to-DC converter is connected to energize the audio visual condition indicia drive means and the processor.
  - 4. The dangerous condition monitoring device circuit of claim 2 in which the output of the DC-to-DC converter is connected to energize the audio visual condition indicia drive means, the processor and the sensor reading circuitry.
  - 5. The dangerous condition monitoring device circuit of claim 1 in which the processor and at least one audio visual condition indicia drive means are incorporated into a single integrated circuit.
  - 6. The dangerous condition monitoring device circuit of claim 2 in which the processor and at least one audio visual condition indicia drive circuit are incorporated into a single integrated circuit.
  - 7. The dangerous condition monitoring device circuit of claim 3 in which the processor and at least one audio visual condition indicia drive circuit are incorporated into a single integrated circuit.
  - 8. The dangerous condition monitoring device circuit of claim 4 in which the processor and at least one audio visual condition indicia drive circuit are incorporated into a single integrated circuit.
  - 9. The dangerous condition monitoring device circuit of claim 5 which further includes at least one LED and in which the at least one audio visual condition indicia drive circuit is connected to selectively drive the LED.
  - 10. The dangerous condition monitoring device circuit of claim 6 which further includes at least one LED and in which the at least one audio visual condition indicia drive circuit is connected to selectively drive the LED.
  - 11. The dangerous condition monitoring device circuit of claim 7 which further includes at least one LED and in which the at least one audio visual condition indicia drive circuit is connected to selectively drive the LED.
  - 12. The dangerous condition monitoring device circuit of claim 8 which further includes at least one LED and in which the at least one audio visual condition indicia drive circuit is connected to selectively drive the LED.
  - 13. The dangerous condition monitoring device circuit of claim 1 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 14. The dangerous condition monitoring device circuit of claim 2 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 15. The dangerous condition monitoring device circuit of claim 3 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 16. The dangerous condition monitoring device circuit of claim 4 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 17. The dangerous condition monitoring device circuit of claim 5 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 18. The dangerous condition monitoring device circuit of claim 6 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 19. The dangerous condition monitoring device circuit of claim 7 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 20. The dangerous condition monitoring device circuit of claim 8 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 21. The dangerous condition monitoring device circuit of claim 9 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 22. The dangerous condition monitoring device circuit of claim 10 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 23. The dangerous condition monitoring device circuit of claim 11 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.
  - 24. The dangerous condition monitoring device circuit of claim 12 in which the voltage output from the DC-to-DC converter is determined by the voltage appearing at a reference input and which further includes a transistor switch connected to cause a first reference voltage to be applied to the reference input when the first voltage level signal is issued and to cause a second reference voltage to be applied to the reference input when the second voltage level signal is issued.

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Current Assignee
Maple Chase Company
Original Assignee
Ranco, Inc. (Schneider Electric SE)
Inventors
Tanguay, William Peter
Primary Examiner(s)
Hofsass, Jeffery A.
Assistant Examiner(s)
LIEU, JULIE BICHNGOC

Application Number

US09/025,590
Time in Patent Office

601 Days
Field of Search

340/636, 340/635, 340/628, 340/630, 340/632, 340/634, 340/825.44, 455/38.3, 455/343
US Class Current

340/636.1
CPC Class Codes

G08B 17/10 Actuation by presence of sm...

G08B 17/113 Constructional details

Battery saving circuit for a dangerous condition warning device

First Claim

4 Assignments

0 Petitions

Accused Products

Abstract

79 Citations

24 Claims

Specification

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Battery saving circuit for a dangerous condition warning device

First Claim

4 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

79 Citations

24 Claims

Specification

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Solutions

Use Cases

Quick Links