Building energy control systems and methods
First Claim
1. A system for automatically controlling an alternating current to an external device using a digital controller based on readings from one or more sensors, the system comprising:
- a controller module communicatively coupled with a sensor, and configured to generate a first pulse-width modulation (PWM) signal based in part on a reading from the sensor;
a synchronized circuit configured to receive an input signal, process the input signal, and transmit a synchronized output signal;
a micro controller unit (MCU) communicatively coupled with the controller module and the synchronized circuit via separate communication pathways, and configured to receive the first PWM signal from the controller module and the synchronized output signal from the synchronized circuit and generate an initial control signal as a function of both the first PWM signal and the synchronized output signal, the controller module, the synchronized circuit, and the MCU being configured and arranged such that PWM signal is received by the MCU separate from the synchronized output signal; and
a driving circuit communicatively coupled with the MCU and configured to receive the initial control signal and generate a final control signal that controls the alternating current provided to a triode alternating current switch (TRIAC) associated with the external device, wherein the driving circuit is configured to generate the final control signal as a function of the initial control signal, and wherein the final control signal controls when the TRIAC is turned on and off to thereby control an illumination level of the external device.
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Abstract
The inventive subject matter provides a system and a method for automatically controlling appliances via a mechanical or digital controller. In one aspect of the invention, the system includes a first circuitry communicatively coupled with one or more sensors and configured to generate a pulse-width modulation signal based in part on a reading from the sensor. The system also includes a dimming module configured to control a lighting device or other external device as a function of the signal. The dimming module can include a micro controller unit that receives the signal as well as a synchronized signal from a circuit that receives sampling information from a driving circuit, and generates a second pulse-width modulation signal that is sent to the driving circuit to control the external device.
30 Citations
19 Claims
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1. A system for automatically controlling an alternating current to an external device using a digital controller based on readings from one or more sensors, the system comprising:
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a controller module communicatively coupled with a sensor, and configured to generate a first pulse-width modulation (PWM) signal based in part on a reading from the sensor; a synchronized circuit configured to receive an input signal, process the input signal, and transmit a synchronized output signal; a micro controller unit (MCU) communicatively coupled with the controller module and the synchronized circuit via separate communication pathways, and configured to receive the first PWM signal from the controller module and the synchronized output signal from the synchronized circuit and generate an initial control signal as a function of both the first PWM signal and the synchronized output signal, the controller module, the synchronized circuit, and the MCU being configured and arranged such that PWM signal is received by the MCU separate from the synchronized output signal; and a driving circuit communicatively coupled with the MCU and configured to receive the initial control signal and generate a final control signal that controls the alternating current provided to a triode alternating current switch (TRIAC) associated with the external device, wherein the driving circuit is configured to generate the final control signal as a function of the initial control signal, and wherein the final control signal controls when the TRIAC is turned on and off to thereby control an illumination level of the external device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A control system for an electrical device, the control system comprising:
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a sensor configured to generate sensor data associated with a sensed condition of an ambient environment; a controller module in communication with the sensor to receive the sensor data therefrom, the controller module being configured to generate a pulse-width modulation (PWM) signal based on the received sensor data; and a dimming module separate from, but in communication with, the controller module, the dimming module comprising; a synchronized circuit configured to receive an input signal from source of alternating current, process the input signal, and transmit a synchronized output signal; a micro controller unit (MCU) in communication with the controller module to receive the PWM signal therefrom and the synchronized circuit to receive the synchronized output signal therefrom, the MCU being configured to generate an initial control signal as a function of both the PWM signal and the synchronized output signal, the controller module, the synchronized circuit, and the MCU being configured and arranged such that PWM signal is received by the MCU separate from the synchronized output signal; and a driving circuit in communication with the MCU and configured to receive the initial control signal therefrom and generate a final control signal that controls the alternating current provided to an external device, wherein the dimming module is configured to generate the final control signal as a function of the initial control signal. - View Dependent Claims (15, 16, 17, 18, 19)
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Specification