Two-wire power and communication link for a thermostat
First Claim
1. A control system, comprising:
- a first controller that includes a first terminal-A and a first terminal-B, the first controller being operable to provide an output signal and receive a feedback signal;
a second controller that includes a second terminal-A and a second terminal-B, the second controller being operable to provide the feedback signal and receive the output signal;
a power storage system connected to the second controller;
a pair of wires that includes a first wire connected to the first terminal-A and a second wire connected to the first terminal-B, the first wire and the second wire are interchangeably connected to the second terminal-A and the second terminal-B, the control system is selectively operable in a power mode, an output mode, and a feedback mode such that;
d) in the power mode, the first controller provides electrical power to the second controller via the pair of wires to store at least some of the electrical power on the power storage system;
e) in the output mode, the power mode and the feedback mode are momentarily inactive so that the first controller can provide the output signal to the second controller via the pair of wires; and
f) in the feedback mode, the power mode and the output mode are momentarily inactive so that the second controller can provide the feedback signal to the first controller via the pair of wires.
2 Assignments
0 Petitions
Accused Products
Abstract
A single pair of polarity independent wires conveys electrical power and two-way communication between a remote thermostat and a temperature-conditioning unit. The system is functional even if the wires are crossed, so mis-wiring is nearly impossible. The system is selectively operable in three independently distinct modes: a power mode for conveying electrical power from the temperature-conditioning unit to the thermostat, an output mode for transmitting a communication signal from the temperature-conditioning unit to the thermostat, and a feedback mode for conveying a communication signal from the thermostat to the temperature-conditioning unit. When the power mode is inactive during the output mode and feedback mode, the thermostat relies on electrical power that the thermostat stored during a previous power mode. Communication is provided by a current loop circuit that is generally immune to electrical noise and tolerant of wire impedance.
116 Citations
24 Claims
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1. A control system, comprising:
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a first controller that includes a first terminal-A and a first terminal-B, the first controller being operable to provide an output signal and receive a feedback signal; a second controller that includes a second terminal-A and a second terminal-B, the second controller being operable to provide the feedback signal and receive the output signal; a power storage system connected to the second controller; a pair of wires that includes a first wire connected to the first terminal-A and a second wire connected to the first terminal-B, the first wire and the second wire are interchangeably connected to the second terminal-A and the second terminal-B, the control system is selectively operable in a power mode, an output mode, and a feedback mode such that; d) in the power mode, the first controller provides electrical power to the second controller via the pair of wires to store at least some of the electrical power on the power storage system; e) in the output mode, the power mode and the feedback mode are momentarily inactive so that the first controller can provide the output signal to the second controller via the pair of wires; and f) in the feedback mode, the power mode and the output mode are momentarily inactive so that the second controller can provide the feedback signal to the first controller via the pair of wires. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A control system, comprising:
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a temperature-conditioning unit; a thermostat disposed at a remote location relative to the temperature-conditioning unit; a first controller connected to the temperature-conditioning unit, the first controller includes a first terminal-A and a first terminal-B, the first controller being operable to provide an output signal and receive a feedback signal; a second controller connected to the thermostat, the second controller includes a second terminal-A and a second terminal-B, the second controller being operable to provide the feedback signal and receive the output signal; a power storage system connected to the second controller; a pair of wires that includes a first wire and a second wire, the first wire is connected to the first terminal-A and the second terminal-A, and the second wire is connected to the first terminal-B and the second terminal-B, the control system is selectively operable in a power mode, an output mode, and a feedback mode such that; d) in the power mode, the first controller provides electrical power to the second controller via the pair of wires to store at least some of the electrical power on the power storage system; e) in the output mode, the power mode and the feedback mode are momentarily inactive so that the first controller can provide the output signal to the second controller via the pair of wires; and f) in the feedback mode, the power mode and the output mode are momentarily inactive so that the second controller can provide the feedback signal to the first controller via the pair of wires. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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17. A control system, comprising:
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a temperature-conditioning unit; a thermostat disposed at a remote location relative to the temperature-conditioning unit; a display disposed on the thermostat, wherein the display indicates a condition occurring at the temperature-conditioning unit; a first controller connected to the temperature-conditioning unit, the first controller includes a first terminal-A and a first terminal-B, the first controller being operable to provide an output signal and receive a feedback signal, wherein the output signal and the feedback signal are digital; a second controller connected to the thermostat, the second controller includes a second terminal-A and a second terminal-B, the second controller being operable to provide the feedback signal and receive the output signal; a power storage system being connected to the second controller and receiving DC electrical power from the first controller; a pair of wires that includes a first wire and a second wire, the first wire is connected to the first terminal-A and the second terminal-A, and the second wire is connected to the first terminal-B and the second terminal-B, the control system is selectively operable in a power mode, an output mode, and a feedback mode such that; d) in the power mode, the first controller provides electrical power to the second controller via the pair of wires to store at least some of the electrical power on the power storage system; e) in the output mode, the power mode and the feedback mode are momentarily inactive so that the first controller can provide the output signal to the second controller via the pair of wires; and f) in the feedback mode, the power mode and the output mode are momentarily inactive so that the second controller can provide the feedback signal to the first controller via the pair of wires. - View Dependent Claims (18, 19, 20)
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21. A two wire communications link comprising:
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an electrical power source; a first controller operably connected to the electrical power source for receiving electrical power therefrom; a second controller; first electrical connection connecting the first and second controllers and supplying electrical power from the electrical power source to the second controller; and means, in the first controller, for controlling the connection of the electrical power source to the first electrical connection to create periods of connection, and periods of disconnection, so that a digital communication signal is transmitted over the first electrical connection. - View Dependent Claims (22)
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23. A method of digitally communicating over a power line comprising the steps of:
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providing an electrical power source; electrically connecting a first controller to the electrical power source; providing a second controller; electrically connecting the first controller to the second controller so that power is supplied to the second controller from the electrical power source; controllably connecting the electrical power source to the electrical connection in a manner that creates periods of disconnection and periods of connection; and varying the periods of connection and the period of disconnection so that a digital communication signal is transmitted from the first controller to the second controller. - View Dependent Claims (24)
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Specification