Battery powered remote switch controller
First Claim
1. A circuit for energizing a 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 controller 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 controller, 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 a valve solenoid.
1 Assignment
0 Petitions
Accused Products
Abstract
An inexpensive battery-powered switch or irrigation valve controller designed to conserve the life of both the low voltage battery source which operates the processing circuitry of the controller, as well as the high voltage battery source which operates the external switches or irrigation valve solenoids. The high voltage battery source is conserved by maintaining the primary switch-activating capacitor in a discharged state and delaying the charging of this capacitor until just before it is to be discharged. The high voltage battery source is also conserved by isolating it 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 is conserved through the action of the microprocessor that remains dormant except for periodic sampling. The controller also includes reliable DC circuits for operating remote switches or valve solenoids at distances of up to several miles. These unique circuits of the invention allow the use of ordinary gauge buried copper wire without concern for possible deterioration of the wires from the galvanic effect of the inductive field created by the buried wires carrying the direct current (DC) power.
-
Citations
29 Claims
-
1. A circuit for energizing a 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 controller 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 controller, 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 a valve solenoid. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A controller for operating a remote switch comprising:
-
a. a computing means including an internal clock;
b. resettable input means connected to said computing means for supplying a 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 a remote switch, 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 remote switch. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
-
-
18. A battery powered valve control system comprising:
-
a. a microprocessor including an internal clock for controlling an electrical circuit;
b. an input means connected to said microprocessor, said microprocessor being programmed to remain inactive except about ten times per second for an interval of about 10 milliseconds at which time said clock causes said microprocessor to sample said input means to determine whether any operation should be performed;
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 9 and 36 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.
-
- 19. A circuit for energizing an external switch on a DC (direct current) line comprising two input lines for bringing DC voltage to said circuit, an activatable switching means connected to said input lines for controlling a set of contacts, said contacts being capable of closing in order to complete a first sub-circuit in parallel with said switching means or opening to complete a second sub-circuit including said external switch, said first sub-circuit including a resistance means between one of said input lines and said contacts and a non-polarity sensitive DC charge storage means between said other input line and said contacts, said external switch being connected to a line between said other input line and said contacts wherein as a low voltage DC current is supplied on said input lines, said switching means closes said contacts resulting in the storage of a charge in said DC charge storage means, such that when all voltage to the circuit is eliminated, said switching means drops out causing said contacts to open resulting in the discharge of the DC charge storage means into a first lead on said external switch.
- 21. A circuit for energizing an external switch on a DC (direct current) line comprising two input lines for bringing DC voltage to said circuit, an activatable switching means connected to said input lines for controlling a set of contacts, said contacts being capable of closing in order to complete a first sub-circuit in parallel with said switching means or opening to complete a second sub-circuit including said external switch, said first sub-circuit including a resistance means between one of said input lines and said contacts and a non-polarity sensitive DC charge storage means between said other input line and said contacts, said external switch being connected to a line between said other input line and said contacts, wherein a second DC charge storage means is provided in series with said switching means, and a second resistance means is provided in said series with said switching means and wherein as a low voltage DC current is supplied on said input lines, said switching means is activated closing said contacts resulting in the storage of a charge in both of said DC charge storage means, whereupon as said second DC charge storage means becomes fully charged, said switching means is maintained through said second resistance means, and when all voltage to the circuit is eliminated, said switching means drops out causing said contacts to open resulting in the discharge of said first DC charge storage means into one lead on said external switch.
-
23. A circuit for energizing an external switch on a DC (direct current) line comprising:
-
a. a switching means connected in said circuit, said switching means controlling a set of contacts connected to one terminal of said external switch;
b. a resistance means and a non-polarity sensitive DC charge storage means connected in said circuit in parallel to said switching means, said resistance means separated from said DC charge storage means by the contacts controlled by said switching means;
c. a line between said DC charge storage means and the opposite terminal of said external switch wherein as a low voltage DC current is supplied, said switching means closes said contacts resulting in the storage of a charge in said DC charge storage means, such that when all voltage to the circuit is eliminated, said switching means drops out causing said contacts to open resulting in the discharge of the DC charge storage means into one terminal of switch. - View Dependent Claims (24)
-
-
25. A circuit for energizing an external switch on a DC (direct current) line comprising:
-
a. a switching means connected in said circuit, said switching means controlling a set of contacts connected to one terminal of said external switch;
b. a resistance means and a non-polarity sensitive DC charge storage means connected in said circuit in parallel to said switching means, said resistance means separated from said DC charge storage means by the contacts controlled by said switching means;
c. a line between said DC charge storage means and the opposite external of said external switch;
d. a second DC charge storage means provided in series with said switching means; and
e. a second resistance means provided in said series with said switching means wherein as a low voltage DC current is supplied, said switching means is activated closing said contacts resulting in the storage of a charge in both of said DC charge storage means, whereupon as said second DC charge storage means becomes fully charged, said switching means is maintained through said second resistance means, and when all voltage to the circuit is eliminated, said switching means drops out causing said contacts to open resulting in the discharge of said first DC charge storage means into one terminal on said external switch. - View Dependent Claims (26)
-
-
27. A battery-powered remote switch control system comprising:
-
a. a controller including a programmable processor having changeable inputs and a clock;
b. an external switch separated from said controller by a distance of up to four miles;
c. a pair of lines between said controller and said external switch for carrying DC power from said controller to said external switch;
d. a first low voltage DC battery power source in said controller for supplying power to said processor;
e. a second higher voltage DC battery power source in said controller for supplying power to said external switch;
f. circuitry in the vicinity of said external switch comprising at least one DC charge storage means on one of said lines, an activatable switching means connected to said pair of lines for controlling a set of contacts, said contacts being capable of closing in order to complete a first sub-circuit in parallel with said switching means or opening to complete a second sub-circuit including said external switch, said first sub-circuit including a resistance means between a first of said lines and said contacts and a non-polarity sensitive DC charge storage means between the second of said lines and said contacts, said external switch being connected to a third line between said second line and said contacts;
g. wherein upon the commencement of a programmed operation by said controller, low voltage DC current is supplied on said first and second lines for a measured time interval, such that said switching means closes said contacts resulting in the storage of a charge in said DC charge storage means; and
h. wherein at the end of such time interval said controller removes all voltage from said lines, such that said switching means drops out causing said contacts to open resulting in the discharge of the DC charge storage means into said external switch. - View Dependent Claims (28, 29)
-
Specification