Programmable irrigation valve controller providing extended battery life

US 5,914,847 A
Filed: 04/20/1998
Issued: 06/22/1999
Est. Priority Date: 04/20/1998
Status: Expired due to Fees

First Claim

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1. A circuit for energizing at least one valve solenoid comprising:

a. a first DC battery power source, at least one DC charge storage means, a first switchable connection between said first power source and said DC charge storage means, and a second switchable connection between said DC charge storage means and said solenoid; and

b. a second low voltage DC battery power source, and a microprocessor means connected to said low voltage DC battery power source for controlling said first and second switchable connections such that said first connection defaults to an open condition, but upon the commencement of a programmed operation by said microprocessor, said first connection is closed for a measured interval in order to provide a charge to said DC charge storage means whereupon said first connection is again opened just before said second connection is closed causing said DC charge storage means to be discharged to said solenoid.

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Abstract

A battery powered irrigation valve controller designed to conserve the life of both the low voltage battery source which operates the microprocessor circuitry as well as the high voltage battery source which operates the external valve solenoids. Energy leakage from the high voltage battery source is prevented by maintaining the primary capacitor in a discharged state and delaying the charging of this capacitor until just before it is to be discharged to the valve solenoid. Unnecessary depletion of the high voltage battery source is also accomplished by isolating this source from the primary capacitor immediately prior to discharge, thereby avoiding a draw of energy from the high voltage battery source itself during discharge. The low voltage battery source which powers the computer circuitry is conserved through the action of the microprocessor which does not run in a continuous current consuming mode, but which remains dormant except for periodic sampling.

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18 Claims

1. A circuit for energizing at least one valve solenoid comprising:
- a. a first DC battery power source, at least one DC charge storage means, a first switchable connection between said first power source and said DC charge storage means, and a second switchable connection between said DC charge storage means and said solenoid; and
  
  b. a second low voltage DC battery power source, and a microprocessor means connected to said low voltage DC battery power source for controlling said first and second switchable connections such that said first connection defaults to an open condition, but upon the commencement of a programmed operation by said microprocessor, said first connection is closed for a measured interval in order to provide a charge to said DC charge storage means whereupon said first connection is again opened just before said second connection is closed causing said DC charge storage means to be discharged to said solenoid.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The circuit of claim 1 wherein a third switchable connection is provided between said DC charge storage means and said solenoid, said third connection including circuitry to reverse the polarity of the charge to said solenoid such that upon the conclusion of a programmed operation by said microprocessor, said first connection is closed for a measured interval in order to provide a charge to said DC charge storage means whereupon said first connection is again opened just before said third connection is closed causing said DC charge storage means to be discharged to said solenoid.
  - 3. The circuit of claim 2 wherein said microprocessor means includes an internal clock and is connected to a plurality of resettable input switches, said microprocessor means being programmed to default to a dormant non-power consuming state except for periodic sampling of said input switches at preset intervals according to said clock.
  - 4. The circuit of claim 2 wherein the measured interval for providing a charge to said DC charge storage means is about five seconds.
  - 5. The circuit of claim 2 wherein the time between the opening of said first connection and the discharge of said DC charge storage means to said solenoid is about 31 milliseconds.
  - 6. The controller of claim 2 wherein said first DC battery power source has a voltage of between about 9 and about 18 volts DC.
  - 7. The controller of claim 2 wherein said second low voltage DC battery power source has a voltage of between about 3 and about 4 volts DC.
  - 8. The controller of claim 2 wherein said DC charge storage means has a capacity of between 1000 and 2500 micro farads.

9. A controller for energizing a valve solenoid comprising:
- a. a computing means including an internal clock for controlling an electronic circuit;
  
  b. resettable switch means connected to said computing means for supplying an input signal thereto;
  
  c. a first means for supplying low voltage electrical energy to said computing means;
  
  d. a second means for supplying higher voltage electrical energy to said circuit;
  
  e. at least one DC charge storage means;
  
  f. a first switchable connection means between said higher voltage energy supply means and said DC charge storage means, said connection being controlled by said computing means according to an input signal such that said first connection is closed for a pre-determined time interval and thereafter opened in order to provide a charge to said DC charge storage means; and
  
  g. a second switchable connection means between said DC charge storage means and said solenoid, said second connection being controlled by said computing means such that said second connection is closed immediately following the opening of said first connection in order to discharge said DC charge storage means to said solenoid.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
- - 10. The controller of claim 9 further including a means between said DC charge storage means and said solenoid controlled by said computing means for reversing the polarity of the discharge from said DC charge storage means to said solenoid.
  - 11. The controller of claim 10 wherein said first switch is closed for a pre-determined interval and thereafter opened in order to provide a charge to said DC charge storage means, said reversing means is activated in order to reverse the polarity of the discharge to said solenoid, and said second connection is then closed immediately following the opening of said first connection in order to discharge said DC charge storage means to said solenoid.
  - 12. The controller of claim 9 wherein said computing means remains inactivated except about once per second for about 10 milliseconds at which time said clock causes said computing means to sample said resettable switches to determine whether any input signal is present.
  - 13. The controller of claim 9 wherein said pre-determined time interval is about 5 seconds.
  - 14. The controller of claim 9 wherein said first means for supplying low voltage electrical energy is a battery source having a voltage of between about 3 and about 4 volts DC.
  - 15. The controller of claim 9 wherein said second means for supplying higher voltage electrical energy is a battery source having a voltage of between about 9 and about 18 volts DC.
  - 16. The controller of claim 9 wherein said DC charge storage means has a capacity of between 1000 and 2500 micro farads.
  - 17. The controller of claim 9 wherein the time between the opening of said first connection and the discharge of said DC charge storage means to said solenoid is about 31 milliseconds.

18. A battery powered valve control system comprising:
- a. a microprocessor including an internal clock for controlling an electrical circuit;
  
  b. a plurality of resettable switches connected to said microprocessor for supplying an input signal thereto, said microprocessor being programmed to remain inactive except about once per second for an interval of about 10 milliseconds at which time said clock causes said microprocessor to sample said resettable switches to determine whether any input signal is present;
  
  c. a first DC battery power source having a voltage of between about 3 and about 4 volts DC for supplying electrical energy to said microprocessor;
  
  d. a second DC battery power source having a voltage of between about 9 and about 18 volts DC for supplying electrical energy to said circuit;
  
  e. at least one DC charge storage means having a capacity of between 1000 and 2500 micro farads;
  
  f. a first switchable connection between said second power source and said DC charge storage means, said connection being controlled by said microprocessor according to an input signal such that said first connection is closed for an interval of approximately five seconds and thereafter opened in order to provide a charge to said DC charge storage means;
  
  g. a relay between said DC charge storage means and a solenoid, said relay being controlled by said microprocessor such that said relay is closed several milliseconds following the opening of said first connection in order to discharge said DC charge storage means to said solenoid; and
  
  h. a second relay between said DC charge storage means and said solenoid controlled by said microprocessor for alternatively reversing the polarity of the discharge from said DC charge storage means to said solenoid.

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Current Assignee
Eugene S. Carlson, George Alexanian
Original Assignee
Eugene S. Carlson, George Alexanian
Inventors
Carlson, Eugene S, Alexanian, George
Primary Examiner(s)
Gaffin, Jeffrey
Assistant Examiner(s)
HUYNH, KIM NGOC

Application Number

US09/063,871
Time in Patent Office

428 Days
Field of Search

361/152, 361/156, 361/170, 361/189, 361/196, 361/199, 320/125, 320/136, 320/155, 307/85, 307/86, 307/115, 307/31, 239/69, 239/70
US Class Current

361/156
CPC Class Codes

G06F 1/32 Means for saving power

Programmable irrigation valve controller providing extended battery life

First Claim

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Abstract

78 Citations

18 Claims

Specification

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Programmable irrigation valve controller providing extended battery life

First Claim

0 Assignments

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Accused Products

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Abstract

78 Citations

18 Claims

Specification

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Solutions

Use Cases

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