Method of detecting tamper of an electric meter

Communications: electrical – Condition responsive indicating system – Specific condition

Reexamination Certificate

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Details

C340S870020, C340S003300, C324S110000

Reexamination Certificate

active

06362745

ABSTRACT:

FIELD OF THE INVENTION
In general, the present invention relates to utility metering systems and, more particularly, to a tamper detection circuit for sensing removal of an electric meter from a corresponding meter socket at a utility entrance of a residence or other building. The present invention also relates to a modular meter based utility gateway enclosure installed between an electric meter and a corresponding meter socket of a residence or other building, wherein the utility gateway enclosure simultaneously supports multiple interchangeable wide area network (WAN) and local area network (LAN) interface cards.
BACKGROUND OF THE INVENTION
Utility meters are used for billing services provided by public utilities such as power, gas and water. For example, kilowatt-hour meters, located on customer premises, include detachable meter units for measuring and recording electric power consumption by the customer. Typically, an induction-type kilowatt-hour meter is provided at each customer location. The induction type kilowatt-hour meter operates on the same principle as that of a rotating magnetic field in an squirrel-cage induction-type motor. Electric power service is routed through the meter in a manner causing a metallic disk to revolve at a rate proportional to power consumption. Disk rotation is counted and recorded mechanically using a mechanical kilowatt-hour register and/or electronically with data stored in a conventional semiconductor memory. Meter reading personnel periodically inspect each customer site and record utility meter readings, either by hand or using an electronic probe to retrieve data stored in solid state memory. Billing information is generated based on the data collected by the meter reading personnel.
To increase data collection efficiency and reliability, utility meters are now available which include interface equipment to permit remote interrogation of the meter and transmission of usage data. Connectivity between utility meters located at remote customer sites and a central billing facility can be provided using various media including signals transmitted on power lines, dedicated signaling lines, the public telephone switched network (PTSN) and radio frequency (RF) transmissions.
As a result of increased utilization of automatic remote reading of utility meters, there has been a decreased frequency of on-site inspection of metering equipment, providing an increased opportunity for undetected tampering with the metering equipment For example, most single phase and polyphase electricity meters in the United States are socket mounted. Most common methods of tampering with such electricity metering installation involves removing the meter from the meter socket. Once removed, a single phase meter, for example, can be reinstalled upside down resulting in reverse rotation of the internal meter disk and register dials which record cumulative energy consumption.
Earlier generations of conventional induction type kilowatt-hour meters employed a mechanical technique to sense the installation of a meter and a counter sealed beneath the meter cover to record and display the number of times the meter had been removed and reinstalled. Later generations of induction meters employed orientation sensitive switches (tilt switches) and logic elements to sense common tampering techniques.
Although tilt switches have proven effective at sensing removal and reinstallation of meters when reinstalled upside down, these techniques are not able to reliably sense meter removal from a socket when a reasonable attempt is made to maintain the meters in a normal attitude. If the tilt switch is made overly sensitive, then the system will falsely report tampering in response to normal events such as a branch blowing against the meter or other foreign object inadvertently striking the meter or supporting structures. Conversely, if the tilt switch is insufficiently sensitive, then a person observing reasonable precautions can remove the meter from its socket without activating the tamper detection system.
Another prior art tamper detection system is U.S. Pat. No. 5,331,412 to Farmer, et al. which issued Jul. 19, 1994. Farmer discloses a circuit which monitors certain signals coming from a single dwelling interdiction unit, and if the signals are interrupted, removes service from the premises. In order for service to reinstituted to the subscriber, DC power from the single dwelling interdiction unit should be communicated to a tap microprocessor.
SUMMARY OF THE INVENTION
In view of the foregoing limitations and disadvantages of the prior art, it is therefore an object of the present invention to provide an improved system capable of detecting electrical meter tampering which will eliminate false tamper alerts.
Another object of the present invention is to provide a system capable of notifying a remote headend if and when an electrical meter has been removed.
To achieve these objects, an electric meter tamper detection-system for sensing removal of an electric meter from a corresponding meter socket is provided. In this system, a tamper signal is relayed to a headend when the electric meter—connected in-line with and monitoring current flow through at least one conductor—has been removed from the meter socket. The tamper signal can be any electromagnetic indicator, such as the presence or absence of a specific voltage level, and can be transmitted in whole or in part over telephone lines, power lines, or a radio frequency circuit. The system includes at least one resistor is electrically connected to the line-side of the conductor. A light emitting diode is electrically coupled to the resistor and to the load-side of the conductor. A transistor receives the tamper signal from the light emitting diode when the electric meter is removed from the meter socket. A microprocessor is coupled to the transistor, receives the tamper signal from the transistor, and relays the tamper signal to said headend. Thus, the headend is immediately notified if and when the electric meter is removed from its meter socket.
In the preferred embodiment, the components of an electric meter tamper detection circuit are interconnected in the following configuration. A first resistor is electrically connected to the line-side of a first power conductor and to the load-side of a second power conductor. A second resistor is electrically coupled to the line-side of the second power conductor. A first light emitting diode is coupled to the second resistor and to the load-side of the second power conductor. A second light emitting diode is electrically coupled in parallel with said first light emitting diode. A n-p-n transistor with a collector, an emitter and a base is also included. The emitter of the transistor receives the tamper signal from the first and second light emitting diodes when the electric meter is removed from said meter socket. A microprocessor receives the tamper signal from the collector of the n-p-n transistor and relays the tamper signal to the headend. In this embodiment, the diodes and the transistor are provided in a standard dual diode optical isolator.
These as well as other novel advantages, details, embodiments, features and objects of the present invention will be apparent to those skilled in the art from the following detailed description of the invention, the attached claims and accompanying drawings, listed hereinbelow, which are useful in explaining the invention.


REFERENCES:
patent: 4357601 (1982-11-01), McWilliams
patent: 5056107 (1991-10-01), Johnson et al.
patent: 5293115 (1994-03-01), Swanson
patent: 5422565 (1995-06-01), Swanson
patent: 5488565 (1996-01-01), Kennon
patent: 5586130 (1996-12-01), Doyle
patent: 5750983 (1998-05-01), Swanson
patent: 6118269 (2000-09-01), Davis

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