Patent application number | Description | Published |
20080273754 | APPARATUS AND METHOD FOR DEFINING AN AREA OF INTEREST FOR IMAGE SENSING - A method for defining an area of interest or a trip line using a camera by tracking the movement of a person within a field of view of the camera. The area of interest is defined by a path or boundary indicated by the person's movement. Alternatively, a trip line comprising a path between a starting point and a stopping point may be defined by tracking the movement of the person within the camera's field of view. An occupancy sensor may be structured to sense the movement of an occupant within an area, and to adjust the lighting in the area accordingly if the occupant enters the area of interest or crosses the trip line. The occupancy sensor includes an image sensor coupled to a processor, an input facility such as a pushbutton to receive input, and an output facility such as an electronic beeper to provide feedback to the person defining the area of interest or the trip line. | 11-06-2008 |
20080276154 | LIGHTING CONTROL PROTOCOL - A digital lighting control network protocol with forward and backward frames, each of the frames including an error check code. A no-acknowledgment (NAK) signal is sent from a receiving node to a transmitting node responsive to the error check code. An interface circuit of the receiving node may include an energy storage section to store at least some energy from the network while receiving digital signals, and an output section to transmit digital signals to the network using the stored energy. The interface circuit may also include a high voltage buffer circuit. The transmitting node may send forward frames to receiving nodes based on device type. | 11-06-2008 |
20090212708 | MULTI-ZONE CLOSED LOOP DAYLIGHT HARVESTING HAVING AT LEAST ONE LIGHT SENSOR - A multi-zone daylight harvesting method and apparatus having a closed loop system utilizing a single light sensor is disclosed herein. This light control system includes an ambient light sensor connected to a detection circuit for detecting the amount of ambient light within a given zone and converting the light signal to an digital one. A control device couples to receive a predetermined rate of change for each respective zone from a storage unit along with the converted digital signal. The control device connects each zone of a plurality of electrical loads to control the power supplied to the electrical load at the predetermined corresponding rate of change and responsive to the amount of ambient light detected. | 08-27-2009 |
20100006749 | CLOSED LOOP DAYLIGHT HARVESTING LIGHT CONTROL SYSTEM HAVING AUTO-CALIBRATION - An apparatus and method for enabling an automatic calibration sequence for a light control system having a daylight harvesting scheme is disclosed herein. An ambient light sensor connects to a detection circuit for detecting the amount of ambient light within a given zone. A microprocessor connects between the detection circuit and a dimming circuit for providing control to initiate dimming and to start the auto-calibration sequence. Responsive to the amount of ambient light detected, the dimming circuit controls the power supplied to a plurality of electrical loads. A storage unit connects to the microprocessor for storing minimum light levels assessed during the auto-calibration sequence wherein the ambient light levels are monitored for a predetermined amount of time to determine the lowest level of ambient light generated for the purpose of setting and storing a target voltage level associated with such. | 01-14-2010 |
20100097759 | BLAST VENTING FOR ELECTRICAL DEVICE - An electrical component may include a vent located in a mounting portion of a case to vent a blast from within the case. A chassis may have a mounting site for an electrical component, wherein the mounting site includes a passage to receive a blast from the electrical component. A system may include a chassis having a mounting site to engage a mounting portion of a case for an electrical component, wherein the mounting portion of the case includes a vent, and the chassis forms at least a portion of a blast chamber to receive a blast from the vent. | 04-22-2010 |
20100277306 | WIRELESS OCCUPANCY SENSING WITH ACCESSIBLE LOCATION POWER SWITCHING - A system including an accessible electrical box; a wireless receiver to receive a wireless signal from an occupancy sensor; a power switch to control power to a load; and a controller to control the power switch in response to the wireless signal. The wireless receiver, controller, and power switch are included in the accessible electrical box. | 11-04-2010 |
20110090042 | WIRELESS DEMAND RESPONSE SYSTEM - A wireless demand response endpoint includes a power switch and a wireless receiver to control the power switch in response to a wireless demand signal. The wireless demand signal may be transmitted at the same premises as the endpoint. One or more wireless endpoints at the premises may be configured to respond to the wireless demand signal. The wireless demand signal may be transmitted automatically, manually, or in other modes. Power switching may be on/off, dimming, etc. | 04-21-2011 |
20110115448 | ELECTRICAL SWITCHING MODULE - A module including a case; an electrical switching device configured to control power to a load; and a controller coupled to the electrical switching device. The electrical switching device and the controller are substantially encapsulated by the case. Functionality of the module can be exposed through a communication interface in the case. | 05-19-2011 |
20110115460 | ELECTRICAL SWITCHING MODULE - A module including a case; an electrical switching device configured to control power to a load; and a controller coupled to the electrical switching device. The electrical switching device and the controller are substantially encapsulated by the case. Functionality of the module can be exposed through a communication interface in the case. | 05-19-2011 |
20110246977 | CONTROL SYSTEM CODE INSTALLATION AND UPGRADE - A system including multiple control system devices. The control system devices include a processor; a memory coupled to the processor and configured to store code for the control system device; and a communication interface coupled to the processor. A control system device is configured to receive updated code corresponding to at least one of the control system devices, and configured to transmit the updated code to the corresponding at least one of the control system devices. | 10-06-2011 |
20110284726 | MULTI-FUNCTION LIGHT LEVEL SETPOINT CONTROL - A system may include a light sensor, an actuator having a range of motion, and a circuit adapted to establish a light level setpoint in response to the light sensor and the actuator. The circuit may be adapted to perform a first function when the actuator is in a first region of the range of motion and a second function when the actuator is in a second region of the range of motion. | 11-24-2011 |
20110285310 | LIGHTING CONTROL FAILSAFE CIRCUIT - A system may include a switch arranged to control a lighting load, a processor arranged to control the switch, and a failsafe circuit arranged to monitor the processor and actuate the switch if the processor fails. The failsafe circuit may have a time constant, and may be arranged to actuate the switch if the monitor signal does not include a pulse during a period of time equal to the time constant. | 11-24-2011 |
20120296487 | OCCUPANCY SENSING WITH VACATE INPUT - An occupancy sensing system includes a vacate input to cause the system to turn lights on without substantial delay when a monitored space becomes occupied after turning the load off in response to the vacate input. A special vacate input may be eliminated by determining, in response to a manual-off input, if the space has been vacated. A dead time may be included to prevent the lights from being turned back on by movement that is detected as occupants vacate the monitored space after pressing a vacate or manual-OFF button. | 11-22-2012 |
20130132787 | LIGHTING CONTROL PROTOCOL - A digital lighting control network protocol with forward and backward frames, each of the frames including an error check code. A no-acknowledgment (NAK) signal is sent from a receiving node to a transmitting node responsive to the error check code. An interface circuit of the receiving node may include an energy storage section to store at least some energy from the network while receiving digital signals, and an output section to transmit digital signals to the network using the stored energy. The interface circuit may also include a high voltage buffer circuit. The transmitting node may send forward frames to receiving nodes based on device type. | 05-23-2013 |
20130154504 | DIMMING AND CONTROL ARRANGEMENT AND METHOD FOR SOLID STATE LAMPS - A system and method are disclosed for dimming light emitting diode (LED) lamps. A control unit is coupled to a dimmer and LED lamp. The dimmer receives power from an AC source and determines a phase angle of the AC power. The dimmer provides DC power to the lamp based on the phase angle. The control unit sends a control signal to the dimmer during a first portion of each half sine-wave of the received AC power. The control signal causes the dimmer to modify at least one function of the lamp. A plurality of LED lamps may be associated with a single dimmer, and the dimmer may individually instruct the lamps to modify their operational characteristics. The dimmer may send an operational signal back to the control unit. The operational signal may represent end of life information for the associated LED lamp. Other embodiments are described and claimed. | 06-20-2013 |
20130211548 | DISTRIBUTED CONTROL SYSTEM OPERATION AND CONFIGURATION - A control system including an input component configured to receive an input and generate control information in response to the input; a communication link coupled to the input component; and a plurality of control components, each of the control components coupled to the input component through the communication link and configured to receive the control information and to actuate an associated actuator in response to the control information. | 08-15-2013 |
20130218302 | DISTRIBUTED CONTROL SYSTEM OPERATION AND CONFIGUATION - A device including a controller; and a communication interface coupled to the controller and configured to be coupled to a control system including a plurality of control system components where each control system component configured to include an associated configuration. The controller is configured to identify a configuration of the control system through the communication interface, and the configuration of the control system includes the configurations associated with the control system components. | 08-22-2013 |
20130279553 | LIGHTING CONTROL PROTOCOL - A digital lighting control network protocol with forward and backward frames, each of the frames including an error check code. A no-acknowledgment (NAK) signal is sent from a receiving node to a transmitting node responsive to the error check code. An interface circuit of the receiving node may include an energy storage section to store at least some energy from the network while receiving digital signals, and an output section to transmit digital signals to the network using the stored energy. The interface circuit may also include a high voltage buffer circuit. The transmitting node may send forward frames to receiving nodes based on device type. | 10-24-2013 |
20140001336 | SOLAR POWERED RADIO FREQUENCY TRANSMITTER | 01-02-2014 |
20140039713 | SYSTEM AND METHOD FOR FAIL SAFE OPERATION OF LOW VOLTAGE OCCUPANCY SENSORS - A system and method are disclosed for providing fail-safe operation of an occupancy sensor so that a load associated with the sensor will be energized in the event that the sensor malfunctions. Short voltage pulses are applied to a signal line by an occupancy sensor. A load control device recognizes the pulses as an indication that the sensor is in a healthy condition. If the load control device does not recognize the voltage pulses, it assumes the sensor is faulty and energizes the load (light) associated with the monitored space. The voltage pulses are different from the normal signals sent by the sensor to the load control device that indicate an “occupied” condition of the space. Other embodiments are described and claimed. | 02-06-2014 |
20140239817 | System and Method for Occupancy Sensing with Enhanced Functionality - A system and method are disclosed for providing fail-safe operation of a lighting system. A lighting level detector is used to obtain a baseline lighting level for a low-intensity light. If the detector measures less than the baseline level when an occupancy sensor determines the space is unoccupied, a high-intensity light is energized and an indication is provided to a user that the low-intensity light has failed. A method is also disclosed for daylighting operation of a lighting system. An occupancy sensor can have Wi-Fi functionality to enable remote configuration of the sensor. A line voltage occupancy sensor can include an interface with low voltage devices. An occupancy sensor can include an integral interface to enable an external control system to override the sensor's normal logic under emergency conditions. An occupancy sensor can include an active temperature compensation feature. An occupancy sensor can also incorporate an automatically adjustable coverage area. | 08-28-2014 |
20140375218 | SYSTEM AND METHOD FOR OCCUPANCY SENSING WITH ENHANCED FUNCTIONALITY - A system and method provide fail-safe operation of a lighting system. A lighting level detector is used to obtain a baseline lighting level for a low-intensity light. If the detector measures less than the baseline level when an occupancy sensor determines the space is unoccupied, a high-intensity light is energized and an indication is provided to a user that the low-intensity light has failed. A method provides daylighting operation of a lighting system. An occupancy sensor can have Wi-Fi functionality to enable remote configuration of the sensor. A line voltage occupancy sensor can include an interface with low voltage devices. An occupancy sensor can include an integral interface to enable an external control system to override the sensor's normal logic under emergency conditions. An occupancy sensor can include an active temperature compensation feature. An occupancy sensor can also incorporate an automatically adjustable coverage area. | 12-25-2014 |