System and method for reducing peak and off-peak electricity demand by monitoring, controlling and metering high intensity fluorescent lighting in a facility
First Claim
1. A method for metering energy use in a facility having a plurality of lighting fixtures, comprising:
- determining, using a sensor coupled to control circuitry local to a first lighting fixture, whether an ambient light level near the first lighting fixture exceeds a predetermined setpoint;
in response to determining that the ambient light level near the first lighting fixture exceeds the predetermined setpoint, wirelessly transmitting an override signal from a first lighting fixture to a first group of lighting fixtures within a first transmission range, wherein the override signal is configured to cause one or more of the first group of lighting fixtures to enter into an off state;
receiving the override signal at the first group of lighting fixtures;
wirelessly retransmitting the override signal directly from one or more of the first group of lighting fixtures to a second group of lighting fixtures within a second transmission range, wherein the second transmission range is outside of the transmission range of the first lighting fixture, wherein the override signal is not passed through a gateway that is not a lighting fixture to be retransmitted from the first group of lighting fixtures to the second group of lighting fixtures, and wherein the override signal retransmitted from the one or more of the first group of lighting fixtures to the second group of lighting fixtures is configured to cause one or more of the second group of lighting fixtures to enter into an off state;
receiving the retransmitted override signal at the second group of lighting fixtures and, in response to the retransmitted override signal;
(a) conducting an override at the second group of lighting fixtures and (b) reporting a status update from each of the second group of lighting fixtures to a master controller via at least one retransmission by one or more of the first group of lighting fixtures; and
metering lighting system energy usage using at least the status information from the second group of lighting fixtures retransmitted to the master controller by the one or more of the first group of lighting fixtures.
6 Assignments
0 Petitions
Accused Products
Abstract
A method of reducing electricity usage during peak demand periods includes the steps of establishing predetermined load reduction criteria representative of a desire by a power provider to reduce loading on an electricity supply grid, and coordinating with a facility having lighting equipment to permit the power provider to turn-off one or more of the lighting equipment by sending instructions to a master controller at the facility in response to the predetermined load reduction criteria, and establishing a list of lighting equipment to be turned-off in response to the instructions, and configuring the master controller to send an override control signal to the lighting equipment to implement the instructions, and configuring the lighting equipment to send a response signal to the master controller providing a status of the lighting equipment.
-
Citations
21 Claims
-
1. A method for metering energy use in a facility having a plurality of lighting fixtures, comprising:
-
determining, using a sensor coupled to control circuitry local to a first lighting fixture, whether an ambient light level near the first lighting fixture exceeds a predetermined setpoint; in response to determining that the ambient light level near the first lighting fixture exceeds the predetermined setpoint, wirelessly transmitting an override signal from a first lighting fixture to a first group of lighting fixtures within a first transmission range, wherein the override signal is configured to cause one or more of the first group of lighting fixtures to enter into an off state; receiving the override signal at the first group of lighting fixtures; wirelessly retransmitting the override signal directly from one or more of the first group of lighting fixtures to a second group of lighting fixtures within a second transmission range, wherein the second transmission range is outside of the transmission range of the first lighting fixture, wherein the override signal is not passed through a gateway that is not a lighting fixture to be retransmitted from the first group of lighting fixtures to the second group of lighting fixtures, and wherein the override signal retransmitted from the one or more of the first group of lighting fixtures to the second group of lighting fixtures is configured to cause one or more of the second group of lighting fixtures to enter into an off state; receiving the retransmitted override signal at the second group of lighting fixtures and, in response to the retransmitted override signal;
(a) conducting an override at the second group of lighting fixtures and (b) reporting a status update from each of the second group of lighting fixtures to a master controller via at least one retransmission by one or more of the first group of lighting fixtures; andmetering lighting system energy usage using at least the status information from the second group of lighting fixtures retransmitted to the master controller by the one or more of the first group of lighting fixtures. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A system for metering energy use in a facility having a plurality of lighting fixtures, comprising:
-
a master controller; a first group of lighting fixtures; a first lighting fixture configured to wirelessly transmit an override signal to the first group of lighting fixtures within a wireless transmission range of the first lighting fixture; a second group of lighting fixtures outside the wireless transmission range of the first lighting fixture; and a sensor coupled to control circuitry local to the first lighting fixture and configured to sense an ambient light level near the first lighting fixture; wherein at least one of the sensor and the first lighting fixture is configured to determine whether the ambient light level exceeds a predetermined setpoint; wherein the first lighting fixture is configured to wirelessly transmit the override signal to the first group of lighting fixtures in response to determining that the ambient light level near the first lighting fixture exceeds the predetermined setpoint, wherein the override signal is configured to cause one or more of the first group of lighting fixtures to enter into an off state; wherein one or more lighting fixtures of the first group of lighting fixtures are configured to directly retransmit the override signal received from the first lighting fixture to the second group of lighting fixtures; wherein the second group of lighting fixtures are configured to, in response to receiving the retransmitted override signal, conduct an override of normal operation and report a status update to the master controller via at least one retransmission by one or more of the first group of lighting fixtures, wherein the override signal is configured to cause one or more of the second group of lighting fixtures to enter into an off state; wherein the master controller is configured to meter lighting system energy usage using at least the status information from the second group of lighting fixtures retransmitted to the master controller by the one or more lighting fixtures of the first group of lighting fixtures. - View Dependent Claims (10, 11, 12, 13, 14)
-
-
15. A master controller for a lighting system having a plurality of lighting fixtures, comprising:
-
memory comprising a database of individual light on and off transition times for each of the plurality of lighting fixtures; a wireless transceiver; and a processing circuit coupled to the wireless transceiver and the memory; wherein the processing circuit is configured to determine, using a sensor communicatively coupled to the master controller, whether an ambient light level exceeds a predetermined setpoint; wherein the processing circuit is configured to wirelessly transmit an override signal to a first group of lighting fixtures of the plurality of lighting fixtures within a first transmission range in response to determining that the ambient light level exceeds the predetermined setpoint, wherein the override signal is configured to cause one or more of the first group of lighting fixtures to enter into an off state; wherein the override signal is configured to cause one or more of the first group of lighting fixtures to wirelessly retransmit the override signal directly to a second group of lighting fixtures of the plurality of lighting fixtures within a second transmission range, wherein the second transmission range is outside of the transmission range of the first lighting fixture, wherein the override signal is not passed through a gateway that is not a lighting fixture to be retransmitted from the first group of lighting fixtures to the second group of lighting fixtures, and wherein the override signal is configured to cause one or more of the second group of lighting fixtures to enter into an off state; wherein the processing circuit is configured to receive status updates at the wireless transceiver from the plurality of lighting fixtures and wherein the processing circuit is configured to use the database of individual on and off transition times for each of the plurality of lighting fixtures to calculate an amount of energy saved based on each lighting fixture'"'"'s electrical power consumption rating applied over the amount of time that each lighting fixture was actually off during a normally scheduled on time due to the override signal, wherein the master controller calculates the amount of energy saved without using energy metering devices on power lines of the lighting system. - View Dependent Claims (16, 17, 18, 19, 20, 21)
-
Specification