| Patent application number | Description | Published |
|---|
| 20090315400 | METHOD OF LOAD SHEDDING TO REDUCE THE TOTAL POWER CONSUMPTION OF A LOAD CONTROL SYSTEM - A method of automatically reducing power consumption in a load control system having a central controller and a plurality of load control devices controlling the amount of power delivered to a plurality of electrical loads, the method comprising the steps of configuring a load shedding tier defining a load shed parameter for each of the electrical loads; the controller determining the total amount of power presently being consumed by all of the plurality of electrical loads; the controller comparing the total amount of power to a threshold amount of power; the controller automatically transmitting a digital message to the plurality of load control devices if the total amount of power exceeds a threshold amount of power; and the load control devices controlling the amount of power delivered to the electrical loads in accordance with the load shed parameters of the load shedding tier in response to the digital message transmitted by the controller. | 12-24-2009 |
| 20100071856 | Method of Automatically Controlling a Motorized Window Treatment While Minimizing Occupant Distractions - A load control system provides for automatically controlling a position of a motorized window treatment to control the amount of sunlight entering a space of a building through a window located in a façade of the building in order to control a sunlight penetration distance within the space and minimize occupant distractions. The load control system automatically generates a timeclock schedule having a number of timeclock events for controlling the position of the motorized window treatment during the present day. A user is able to select a desired maximum sunlight penetration distance for the space and a minimum time period that may occur between any two consecutive timeclock events. In addition, a maximum number of movements that may occur during the timeclock schedule may also be entered. The load control system uses these inputs to determine event times and corresponding positions of the motorized window treatment for each timeclock event of the timeclock schedule. | 03-25-2010 |
| 20130049664 | Method of Automatically Controlling a Motorized Window Treatment While Minimizing Occupant Distractions - A load control system provides for automatically controlling a position of a motorized window treatment to control the amount of sunlight entering a space of a building through a window located in a façade of the building in order to control a sunlight penetration distance within the space and minimize occupant distractions. The load control system automatically generates a timeclock schedule having a number of timeclock events for controlling the position of the motorized window treatment during the present day. A user is able to select a desired maximum sunlight penetration distance for the space and a minimum time period that may occur between any two consecutive timeclock events. In addition, a maximum number of movements that may occur during the timeclock schedule may also be entered. The load control system uses these inputs to determine event times and corresponding positions of the motorized window treatment for each timeclock event. | 02-28-2013 |
| 20130306246 | Method of Automatically Controlling a Motorized Window Treatment While Minimizing Occupant Distractions - A load control system provides for automatically controlling a position of a motorized window treatment to control the amount of sunlight entering a space of a building through a window located in a façade of the building in order to control a sunlight penetration distance within the space and minimize occupant distractions. The load control system automatically generates a timeclock schedule having a number of timeclock events for controlling the position of the motorized window treatment during the present day. A user is able to select a desired maximum sunlight penetration distance for the space and a minimum time period that may occur between any two consecutive timeclock events. In addition, a maximum number of movements that may occur during the timeclock schedule may also be entered. The load control system uses these inputs to determine event times and corresponding positions of the motorized window treatment for each timeclock event of the timeclock schedule. | 11-21-2013 |
| 20140001846 | Load Control System Having A Broadcast Controller With A Diverse Wireless Communication System | 01-02-2014 |
| 20140001977 | Load Control System Having Independently-Controlled Units Responsive To A Broadcast Controller | 01-02-2014 |
| 20140117871 | BATTERY-POWERED RETROFIT REMOTE CONTROL DEVICE - A remote control device may be configured to be mounted over the toggle actuator of a light switch and to control a load control device via wireless communication. The remote control device may include a base portion and a rotating portion supported by the base portion so as to be rotatable about the base portion. The remote control device may include a control circuit and a wireless communication circuit. The control circuit may be operably coupled to the rotating portion and to the wireless communication circuit. The control circuit may be configured to translate a force applied to the rotating portion of the remote control device into a control signal and to cause the communication circuit to transmit the control signal to the load control device. | 05-01-2014 |
| 20140282172 | SYSTEM AND METHOD FOR GRAPHICALLY DISPLAYING ENERGY CONSUMPTION AND SAVINGS - A system for displaying the consumption of electrical energy by an electrical energy consumer in a graphical format. An amount of electrical energy saved is the difference between a reference amount of the electrical energy capable of being consumed by the consumer and an actual amount of the electrical energy consumed by the consumer, wherein the reference amount is determined either from a peak amount of power consumed during a preset window of time during which the consumer utilizes electrical energy, or by an average amount of power consumed during the preset time window. A visual display provides an electronic representation of the amount of the electrical energy consumed and the amount of the electrical energy saved in a graphical format. | 09-18-2014 |
