Open circuit failure monitoring apparatus for controlled electrical resistance heaters
First Claim
1. In a controlled electrical resistance heater system including, a resistance heater and a thermostat controller for controlling the operation of said heater and has a switching means for selectively switching between an open and closed condition to control a current flow through said heater thereby controlling the operation of said heater, a heater failure monitoring apparatus for continuously monitoring said heater without applying an operational current flow through said heater to indicate open circuit failures, said heater failure monitoring circuit comprising:
- means connectable in parallel with said switching means between said voltage source and said heater for limiting the current flow from said voltage source through said heater when said switch means is in said open condition, means connectable in series with said heater for continuously monitoring current flow through said heater to determine and indicate open circuit failure in said heater, said current monitoring means includesmeans for generating a first and second initial reference values, said first reference value corresponding to the current flow through said heater when said switch means is in said closed condition and no open circuit failure condition is present, said second reference value corresponding to the current flow through said heater when said switch means is in said open condition and no open circuit failure condition is present,means for electrically storing said first and second reference values,means for continuously generating a test value corresponding to the present current flow through said heater,means responsive to said switch means and said test value generating means for comparing said test value to said first reference value when said switch means is in said closed condition and to said second reference value when said switch means is in said open condition, and for generating an output signal when said test value is less than said first or second reference values, andalarm means responsive to said output signal for indicating an open circuit failure condition in said heater.
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Accused Products
Abstract
An open circuit failure monitoring apparatus for controlled electrical resistance heaters is disclosed. The heater failure monitoring apparatus allows controlled electrical resistance heaters to be continuously monitored for open circuit failures without applying an operational current flow through the heater, regardless of the operational status of the heater and without significant power consumption during periods when the heater is not operated. The failure monitoring apparatus includes a reactive current limiting element, such as a capacitor, and a current monitoring circuit. The capacitor is connected in parallel with the contact switch used to control line voltage applied to the resistive load. The reactance of the capacitor provides a small but continuous test current capable of being detected by the current sensing component, but not large enough to consume significant power. Current monitoring circuit includes a current to voltage (i/V) converter, an analog to digital (A/D) converter, a microprocessor, electrically erasable programmable read only memory (EEPROM), and an alarm circuit. The current monitoring circuit uses a microprocessor to continuously compare sampled test voltage values to reference voltage values stored in the EEPROM that have been prerecorded for both an active and inactive heater during normal operation (non-failure) conditions so as to determine the presence of a failure condition in the controlled heater.
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Citations
10 Claims
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1. In a controlled electrical resistance heater system including, a resistance heater and a thermostat controller for controlling the operation of said heater and has a switching means for selectively switching between an open and closed condition to control a current flow through said heater thereby controlling the operation of said heater, a heater failure monitoring apparatus for continuously monitoring said heater without applying an operational current flow through said heater to indicate open circuit failures, said heater failure monitoring circuit comprising:
means connectable in parallel with said switching means between said voltage source and said heater for limiting the current flow from said voltage source through said heater when said switch means is in said open condition, means connectable in series with said heater for continuously monitoring current flow through said heater to determine and indicate open circuit failure in said heater, said current monitoring means includes means for generating a first and second initial reference values, said first reference value corresponding to the current flow through said heater when said switch means is in said closed condition and no open circuit failure condition is present, said second reference value corresponding to the current flow through said heater when said switch means is in said open condition and no open circuit failure condition is present, means for electrically storing said first and second reference values, means for continuously generating a test value corresponding to the present current flow through said heater, means responsive to said switch means and said test value generating means for comparing said test value to said first reference value when said switch means is in said closed condition and to said second reference value when said switch means is in said open condition, and for generating an output signal when said test value is less than said first or second reference values, and alarm means responsive to said output signal for indicating an open circuit failure condition in said heater. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for continuously monitoring a controlled resistive load without applying an operational current flow through said load to indicate open circuit failures, said method comprising in combination the steps of:
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a) generating first and second reference values, said first reference corresponding to the current flow through said load when said switching means is in a closed condition and a failure condition is not present, said second reference corresponding to the current flow through said load when said switching means is in an open condition and a failure condition is not present a) electrically storing said first and second reference values, b) generating a test value corresponding to the present current flow through said load, c) determining whether said load is active or inactive, d) comparing said test value to said first reference value when said load is active and comparing said test value to said second reference value when said load is inactive, e) generating an output signal to indicate a failure condition when said test value is below said first or second reference values. - View Dependent Claims (10)
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Specification