Data processing: measuring – calibrating – or testing – Measurement system in a specific environment – Mechanical measurement system
Reexamination Certificate
2002-07-03
2004-12-07
Barlow, John (Department: 2863)
Data processing: measuring, calibrating, or testing
Measurement system in a specific environment
Mechanical measurement system
Reexamination Certificate
active
06829543
ABSTRACT:
CROSS REFERENCE TO RELATED APPLICATIONS
This application claims the priority of the German patent application No. 101 34 456.2, filed on Jul. 16, 2001, the disclosure of which is incorporated herein by reference in its entirety.
FIELD OF THE INVENTION
The present invention relates to the field of autonomously powered flowmeters such as battery-operated gas meters or water meters.
BACKGROUND OF THE INVENTION
In the as yet unpublished European Patent Application No 00810511.6, a gas energy meter based on a cost-effective CMOS flow sensor is represented which determines the natural gas consumption and renders calibration possible in standard volume or directly in gas energy on the basis of the applied measuring method. Calibration in standard volume is possible by virtue of the fact that the new gas meter determines the mass flow (independently of pressure and temperature), and therefore it is easy to accomplish the conversion into a volume corresponding to the gas under standard conditions (for example 20° C., 1 bar). Since the measuring signal of this new gas meter is correctly weighted on the basis of its sensitivity with reference to the three main components (methane, ethane and propane) in accordance with their specific calorific values, it is possible in addition to calibrate the meter directly in energy.
In the case of such a gas meter, physical magnitudes such as mass flow, volumetric flow or gas energy are measured periodically, for example every two seconds. These instantaneous values are subsequently integrated in the gas meter itself, and the integrated total consumption is transferred periodically, for example every month or half year, to a control center.
Electronic flowmeters such as water meters, hot water meters, electric energy meters or gas meters are mostly powered by a battery. It is required in this case that the meter can be operated for a few years without a change of battery. The state of the battery must be monitored continuously. A warning must be output approximately half a year before expiry of the service life of the battery (for example by means of the status display of LOW BAT). If the battery is not replaced in this half year, the gas meter is no longer powered and it can no longer be guaranteed to function. The gas supplier thereby loses measured values and receipts for the consumption on those days in which the meter is not running.
The gas meter measures the gas flow rate at a maximum sampling rate of 0.5 measurements/second (measuring interval of 2 seconds). A satisfactorily high accuracy is thereby achieved for the meter. If the measuring interval is increased, there is a drop in accuracy.
SUMMARY OF THE INVENTION
It is a general object of the present invention to enhance the readiness of the battery-powered or otherwise autonomous flowmeters for use or measurement.
The core of the invention is to reduce the sampling rate shortly before the predictable end of the autonomous power source. As a result, fewer samplings are made per time unit, accuracy being lost, and the service life of the power source is lengthened.
It is more important in this connection to record measured values even if these do not reach the same accuracy as during operation of the meter with the normal sampling rate. However, in return the supplier has information over a longer time interval on the actual gas consumption, and thus has a basis for billing.
In the context of this application flowmeter signifies any meter capable of measuring a volume flow, mass flow, energy flow or other characteristic flow of a fluid, such as a gas or liquid, or fluid-like material. Autonomous power source signifies any power source capable to deliver power or energy, e.g. in electric, optic or other form, to a flowmeter without being supplied from a power line or other power supply network at least for a certain period of time. Examples of such autonomous power sources are batteries, battery packs, accumulators or other energy storage media with a limited energy storage capacity and hence limited energy supply lifetime or service life. A residual service life is an expected, calculated or otherwise anticipated time period defining th e time until the autonomous power source is running out of energy and therefore comes to an end. The term flowmeter may also relate to a set of flowmeters connected to a single autonomous power source or to a set of possibly interconnected autonomous power sources that provide energy for a limited amount of time when disconnected from a main power supply (i.e. when operated autonomously).
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Kleiner Thomas
Kramer Beat
Matter Daniel
ABB Research LTD
Barlow John
Burns Doane Swecker & Mathis L.L.P.
Lau Tung
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