JP2014504491A - Smart AC panel - Google Patents

Abstract

Smart AC panels replace existing AC panels in the home. Smart AC panels include current sensors, voltage sensor circuits and relay devices to help control and monitor the power associated with each branch circuit as well as the functions of existing AC panels such as busbars and circuit breakers . The current sensor and voltage sensor circuit interface to the embedded controller. Various embedded controllers are connected via CAN serial communication to a management embedded controller having Internet connectivity.

Description

Related applications

  This application is a continuation-in-part of US provisional application with application number US61 / 376,269 filed Aug. 24, 2010 by Tejesh Makanawara for smart AC panels, and is incorporated herein by reference. Daily benefits are claimed in this application.

Field of Invention

  This application relates to residential AC panels, and more specifically adds smartness and Internet connectivity to these AC panels.

Background of the Invention

  As the world moves toward lower energy consumption and lower energy costs, residential green technology products are constantly being marketed. To better understand which products are required to be replaced, it is necessary to better understand what energy is consumed. It may also be useful to test to reduce the energy consumption of an existing device by programmatically starting (enabling) and stopping (disabling) the device.

  The most common solution to this problem is a residential distributed control system, also called a home automation system. This includes a central main controller and various wireless or power line controlled AC modules. The controller is installed in an accessible area of the house and the AC module is connected to each outlet of the house.

  Due to the additional cost of each module, many of the outlets are generally omitted. The cost of the combined module and installation makes the solution expensive and impractical.

  Therefore, it is an object of the present invention to control and monitor the power of each circuit in the house.

  It is another mansion of the present invention to monitor the power generated by the residential solar panel facility.

  It is another object of the present invention to schedule the charging time for an electric vehicle to optimize the charging cost.

  It is another object of the present invention to control the device that is powered at each outlet of the house.

  Smart AC panels replace existing residential AC panels. This includes current sensors, voltage sensor circuits and relay devices to help control and monitor the power associated with each branch circuit as well as the functions of existing AC panels such as busbars and circuit breakers. The current sensor and voltage sensor circuit interface to the embedded controller. Various embedded controllers are connected via CAN serial communication to a management embedded controller having Internet connectivity.

A full understanding of the invention can be obtained by reference to the accompanying drawings when considered in conjunction with the following detailed description.
FIG. 1 is a schematic diagram of the interior of a smart AC panel. FIG. 2 is a schematic diagram of a smart AC panel showing circuit elements.

  For clarity and simplicity, similar elements and parts have the same reference numerals throughout the drawings.

DESCRIPTION OF PREFERRED EMBODIMENTS

  FIG. 1 is a schematic diagram of the interior of a smart AC panel. This shows a main circuit breaker (MCB) 10 connected to the bus bar 20 at the top. Branch circuit breakers (CBx) 30 are shown as four breakers, but generally these are one or two. L1 and L2 go to the first and second circuits of the two-pole breaker. In a standard AC panel, the wiring 40 leaves the panel, but in a smart AC panel they connect to the M1 PCB 50. The external wiring 40 is connected via the connection point 100. The M1PCB 50 and the M2PCB 60 are supplied with power from the DC power supply 70 at +5 VDC94. A common GND 92 is used.

  FIG. 2 is a schematic diagram of a smart AC panel focused on the interface between M1 PCB 50 and M2 PCB 60 and how they are integrated with the rest of the system. The M1 PCB 50 has CAN-High 96 and CAN-Low 98 interfaces to communicate with the M2 PCB 60. Both the M1 PCB 50 and the M2 PCB 60 have a debug port 80 for software debugging. An Ethernet 90 is included in the M2 PCB 60 to provide Internet / Web connectivity.

  The present invention is not considered to be limited to the examples selected for disclosure, as other modifications and changes that have been altered to adapt to specific needs and environments will be apparent to those skilled in the art. Covers all changes and modifications that do not constitute a departure from the true spirit and scope of the invention.

  Such disclosure of the invention and what is sought to be protected by patent is set forth in the appended claims.

Claims (1)

A smart AC panel for monitoring and controlling power usage in each circuit of a house by replacing a standard AC panel,
Means for measuring voltage and current, controlling power to a load (or internal power supply, eg solar panel), calculating power consumed or generated, and communicating with external devices via a CAN serial interface; Means to provide;
A smart AC panel having means for providing a web / Internet interface to the smart AC panel.

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