Multi-mode passive infrared occupancy sensor system for energy saving application
First Claim
1. A passive infrared (PIR) motion sensor system, comprising:
- a microcomputer;
a pyroelectric detector formed with a Fresnel lens and arranged to receive multiple passive PIR beams from a portion of the room or zone, wherein upon sensing a moving human, the pyroelectric sensor generates a pyroelectric interrupt signal and provides the pyroelectric interrupt signal to the microcomputer;
an ambient temperature sensor for measuring an ambient temperature in the room or zone, wherein the ambient temperature sensor generated an ambient temperature signal and provides the ambient temperature signal to the microcomputer;
a non-contact thermopile detector for performing a non-contact temperature measurement by capturing infrared energy from a selected focused upon area in the room or zone, generating a thermopile temperature signal therefrom, and providing the thermopile temperature signal to the microcomputer;
a controller for enabling an electrical current supply to the room or zone upon receipt of an occupied signal that defines an occupied state in the room or zone, and disabling the electrical current supply to the room or zone upon receipt of an unoccupied signal that defines an unoccupied state in the room or zone;
wherein upon receipt of a pyroelectric interrupt signal, the microcomputer initiates a determination of whether the pyroelectric interrupt signal is a valid signal;
wherein if the microcomputer determines that the pyroelectric interrupt signal is not a valid signal, the microcomputer provides the unoccupied signal to the controller, sustaining the unoccupied state; and
wherein if the microcomputer determines that the pyroelectric interrupt signal is a valid signal,1) the microcomputer generates and outputs the occupied signal to the controller, either changing from an unoccupied state to an occupied state or sustaining the occupied state; and
2) if after a programmed length of time in which the microcomputer does not receive a piezoelectric interrupt signal that is a valid signal, the microcomputer processes the thermopile temperature signal and the ambient temperature signal to determine if there is a difference between the ambient temperature signal and the thermopile temperature signal;
a) wherein if there is a difference between the ambient temperature signal and the thermopile temperature signal, the microcomputer concludes that the room or zone is occupied and outputs the occupied signal to the controller to sustain the occupied state; and
b) wherein upon determining substantially no difference between the ambient temperature signal and the thermopile temperature signal, the microcomputer concludes that the room or zone is unoccupied and generates and outputs the unoccupied signal to the controller to change to the unoccupied state.
1 Assignment
0 Petitions
Accused Products
Abstract
A passive infrared (PIR) motion sensor system includes a non-contact thermopile detector for capturing infrared energy from a focused upon area in a room or zone deemed most likely to be occupied and generating a thermopile temperature signal therefrom, a pyroelectric detector for viewing through multiple passive lens elements (lenslets) that form PIR beams from a large portion of the room or zone and generating a pyroelectric signal therefrom, an ambient temperature sensor for sensing an ambient temperature in the room or zone and generating an ambient temperature signal detection threshold that is utilized in PIR detection therefrom and a microcomputer configured to process the thermopile temperature signal, the pyroelectric signal and the ambient temperature signal and determine whether the room or zone is occupied or unoccupied. An electrical current supply or occupied signal is transmitted to the room or zone is maintained when the microcomputer determines that the room or zone is still occupied and is interrupted when the microcomputer determines that the room or zone is unoccupied.
18 Citations
11 Claims
-
1. A passive infrared (PIR) motion sensor system, comprising:
-
a microcomputer; a pyroelectric detector formed with a Fresnel lens and arranged to receive multiple passive PIR beams from a portion of the room or zone, wherein upon sensing a moving human, the pyroelectric sensor generates a pyroelectric interrupt signal and provides the pyroelectric interrupt signal to the microcomputer; an ambient temperature sensor for measuring an ambient temperature in the room or zone, wherein the ambient temperature sensor generated an ambient temperature signal and provides the ambient temperature signal to the microcomputer; a non-contact thermopile detector for performing a non-contact temperature measurement by capturing infrared energy from a selected focused upon area in the room or zone, generating a thermopile temperature signal therefrom, and providing the thermopile temperature signal to the microcomputer; a controller for enabling an electrical current supply to the room or zone upon receipt of an occupied signal that defines an occupied state in the room or zone, and disabling the electrical current supply to the room or zone upon receipt of an unoccupied signal that defines an unoccupied state in the room or zone; wherein upon receipt of a pyroelectric interrupt signal, the microcomputer initiates a determination of whether the pyroelectric interrupt signal is a valid signal; wherein if the microcomputer determines that the pyroelectric interrupt signal is not a valid signal, the microcomputer provides the unoccupied signal to the controller, sustaining the unoccupied state; and wherein if the microcomputer determines that the pyroelectric interrupt signal is a valid signal, 1) the microcomputer generates and outputs the occupied signal to the controller, either changing from an unoccupied state to an occupied state or sustaining the occupied state; and 2) if after a programmed length of time in which the microcomputer does not receive a piezoelectric interrupt signal that is a valid signal, the microcomputer processes the thermopile temperature signal and the ambient temperature signal to determine if there is a difference between the ambient temperature signal and the thermopile temperature signal; a) wherein if there is a difference between the ambient temperature signal and the thermopile temperature signal, the microcomputer concludes that the room or zone is occupied and outputs the occupied signal to the controller to sustain the occupied state; and b) wherein upon determining substantially no difference between the ambient temperature signal and the thermopile temperature signal, the microcomputer concludes that the room or zone is unoccupied and generates and outputs the unoccupied signal to the controller to change to the unoccupied state. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
-
-
11. A method of using a passive infrared (PIR) motion sensor system to control an electrical current supply to a room or zone based on a determination that the room or zone is occupied or unoccupied, the system comprising a non-contact thermopile detector, a pyroelectric detector formed with a Fresnel lens and arranged to focus upon a portion of the room or zone, an ambient temperature sensor and a microcomputer, the method comprising the steps of:
-
generating a thermopile temperature signal by the non-contact thermopile detector and providing the thermopile temperature signal to the microcomputer; generating an ambient temperature signal by the ambient temperature sensor and providing the ambient temperature signal to the microcomputer; if a person is detected to move in the zone or room by the pyroelectric detector, generating an interrupt signal and a valid data by the pyroelectric detector and providing the interrupt signal and the valid data signal to the microcomputer, awakening in response to the interrupt signal by the microcomputer and if there is a valid data signal, generating an occupied signal by the microcomputer and providing the occupied signal to a controller to set an occupied state of the room or zone to thereby enable or maintain the electrical current supply to the room or zone; if a person is not detected to move in the zone or room by the pyroelectric detector, after the microcomputer has received the valid data signal, the microcomputer periodically comparing the non-contact temperature signal and the ambient temperature signal to determine whether there is a temperature difference therebetween; upon detecting a temperature difference, maintaining the occupied signal to the controller to enable or maintain the electrical current supply to the room or zone; and upon detecting substantially no temperature difference, generating and providing an unoccupied signal to the controller to set the unoccupied state to thereby reduce or extinguish the electrical current supply to the room or zone.
-
Specification