Power supply for electronic thermostat
First Claim
1. A power supply circuit for providing an operating level voltage to components of an electronic thermostat, said power supply circuit comprising:
- half wave rectifying means;
resistive means connected to said half wave rectifying means so as to decrease the voltage of the half wave signal produced by said half wave rectifying means;
a gated rectifier means having an input for receiving the decreased voltage half wave signal produced by said resistive means, said gated rectifier means having a gate which is held by gating circuitry to within certain voltage limits whereby the voltage at the output of the gated rectifier means is also held within certain voltage limits, the voltage at the output of said gated rectifier means being the operating level voltage to the components of an electronic thermostat.
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Abstract
A power supply circuit for an electronic thermostat includes a half wave rectifier, at least one voltage dropping resistor and a gated rectifier. The gated rectifier preferably conducts only when the voltage at its output drops below the voltage at its gate. The voltage at the gate is defined by gating circuitry downstream of the voltage dropping resistors. The intermittent conduction of the silicon controlled rectifier produces less current flow through voltage dropping resistors within the power supply circuit. This causes less heat dissipation by these resistors within the thermostat.
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Citations
12 Claims
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1. A power supply circuit for providing an operating level voltage to components of an electronic thermostat, said power supply circuit comprising:
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half wave rectifying means;
resistive means connected to said half wave rectifying means so as to decrease the voltage of the half wave signal produced by said half wave rectifying means;
a gated rectifier means having an input for receiving the decreased voltage half wave signal produced by said resistive means, said gated rectifier means having a gate which is held by gating circuitry to within certain voltage limits whereby the voltage at the output of the gated rectifier means is also held within certain voltage limits, the voltage at the output of said gated rectifier means being the operating level voltage to the components of an electronic thermostat. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
a zener diode;
a first resistor connected between said zener diode and the gate of said gated rectifier means;
a second resistor connected to said zener diode and to said first resistor and furthermore being connected to said resistive means so as to provide a current path to the gate of said gated rectifier means.
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3. The supply circuit of claim 2 wherein the gating circuitry for the gated rectifier means further comprises:
a capacitor connected to the second resistor of the gating circuitry and to said zener diode, said capacitor being operative to charge to the voltage rating of the zener diode before the zener diode becomes conductive.
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4. The power supply circuit of claim 3 wherein the gating circuitry for the gated rectifier means further comprises:
a second capacitor connected to the gate of said rectifier means and to the output of the gated rectifier means.
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5. The power supply circuit of claim 1 further comprising:
a resistor and capacitor configuration, connected to said resistive means, and being operative to define the voltage at the input of the gated rectifier means.
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6. The power supply circuit of claim 5 furthermore comprising a second capacitor connected to the output of the gated rectifier means so as to define the voltage event at the output of the gated rectifier means to the components of the electronic thermostat.
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7. The power supply circuit of claim 6 wherein the gated rectifier means is a silicon controlled rectifier having a gate connected to said gating circuitry.
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8. The power supply circuit of claim 1 wherein the gating circuitry for the gated rectifier means further comprises:
a second capacitor connected to the gate of said rectifier means and to the output of the gated rectifier means.
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9. The power supply circuit of claim 1 wherein said resistive means is connected to the output of said half wave rectifying means.
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10. The power supply circuit of claim 9 further comprising:
a resistor and capacitor configuration, connected to said resistive means, and being operative to define the voltage at the input of the gated rectifier means.
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11. The power supply circuit of claim 10 furthermore comprising a second capacitor connected to the output of the gated rectifier means so as to define the voltage event at the output of the gated rectifier means to the components of the electronic thermostat.
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12. The power supply circuit of claim 11 wherein the gated rectifier means is a silicon controlled rectifier having a gate connected to said gating circuitry.
Specification