Dynamic correction of sensed temperature
First Claim
Patent Images
1. A method for correcting a temperature signal from a temperature sensor for sensing an ambient temperature in an environment wherein the sensor may be affected by a local heating/cooling source, the method comprising:
- determining whether the local heating/cooling source is in an on or an off state;
monitoring the length of time the local heating/cooing source has been in its current on/off state;
estimating a temperature correction factor based upon the current on/off state of the local heating/cooling source and the length of time that the heating/cooling source has been in its current on/off state using a simplified Discrete Kalman Filter analysis in accord with the relationship;
Δ
TBL(t)=−
0.00075(Δ
TBL(t))+0.001425(uBL(t));
where;
Δ
TBL(t) is a time incremental function representing the temperature change due to the backlight effect; and
uBL(t) is a function of the backlight status, equal to 1 if backlight 40 is on and equal to 0 if backlight 40 is off; and
applying said temperature correction factor to the sensed temperature to correct the sensed temperature for any effect from the local heating/cooling source whereby the corrected temperature more accurately reflects the ambient temperature of the environment.
1 Assignment
0 Petitions
Accused Products
Abstract
A thermostat (10) for sensing the ambient temperature in an environment includes an enclosure (100) housing a temperature sensor (20) for sensing the temperature within the enclosure, a temperature display device (30), a liquid crystal display (LCD) backlight (40) operative in its on state to illuminate the temperature display. A controller (50) operatively associated with the thermostat monitors the current on/off state of the backlight and the length of time the backlight has been in its current state, estimates a temperature correction factor using a simplified Discrete Kalman Filter estimator, and applies the temperature correction factor to correct the sensed temperature for the heat generated by the backlight (40).
63 Citations
12 Claims
-
1. A method for correcting a temperature signal from a temperature sensor for sensing an ambient temperature in an environment wherein the sensor may be affected by a local heating/cooling source, the method comprising:
-
determining whether the local heating/cooling source is in an on or an off state; monitoring the length of time the local heating/cooing source has been in its current on/off state; estimating a temperature correction factor based upon the current on/off state of the local heating/cooling source and the length of time that the heating/cooling source has been in its current on/off state using a simplified Discrete Kalman Filter analysis in accord with the relationship;
Δ
TBL(t)=−
0.00075(Δ
TBL(t))+0.001425(uBL(t));where; Δ
TBL(t) is a time incremental function representing the temperature change due to the backlight effect; anduBL(t) is a function of the backlight status, equal to 1 if backlight 40 is on and equal to 0 if backlight 40 is off; and applying said temperature correction factor to the sensed temperature to correct the sensed temperature for any effect from the local heating/cooling source whereby the corrected temperature more accurately reflects the ambient temperature of the environment. - View Dependent Claims (2, 3, 4)
where; T(t) is the corrected temperature, degrees F; Traw(t) is the sensed temperature, degrees F.
-
-
5. A method of correcting a sensed temperature for display on a display illuminated by a backlight, the sensed temperature being received from a temperature sensor that may be affected by heat generated from a liquid crystal backlight, the method comprising:
-
determining whether the backlight is in an on state or an off state; monitoring the length of time the backlight has been in its current on/off state; estimating a temperature correction factor based upon the current on/off state of the backlight and the length of time the backlight has been in its current on/off state; and applying said temperature correction factor to the sensed temperature prior to displaying the temperature. - View Dependent Claims (6, 7, 8, 9, 10, 11)
-
-
12. A thermostat for sensing the ambient temperature in an environment;
- comprising
an enclosure disposed within the environment, the enclosure having a temperature therewithin; a temperature sensor housed within the enclosure, said temperature sensor operative to generate a sensed temperature signal indicative of the temperature within the enclosure; a temperature display housed within the enclosure; a liquid crystal backlight housed within the enclosure in operative association with the temperature display, said backlight having an on state and an off state, said backlight emitting heat into the enclosure when the backlight is in the on state; and a controller operatively associated with said temperature sensor and said temperature display, said controller receiving the sensed temperature from said temperature sensor, said controller operative to monitor the current on/off state of the backlight and the length of time of the backlight in its current on/off state, to dynamically estimate a temperature correction factor using a simplified Discrete Kalman Filter analysis, to correct the sensed temperature by applying the temperature correction factor to the sensed temperature, and to transmit the corrected temperature to said temperature display.
- comprising
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeCarrier Corporation (Carrier Global Corporation)
-
Original AssigneeCarrier Corporation (Carrier Global Corporation)
-
InventorsKolk, Richard Allen
-
Primary Examiner(s)Verbitsky; Gail
-
Assistant Examiner(s)Jagan; Mirellys
-
Application NumberUS11/180,383Publication NumberTime in Patent Office1,021 DaysField of Search374/1, 702/99, 702/104US Class Current374/1CPC Class CodesG01K 1/20 Compensating for effects of...
