CZ309186B6 - Electromagnetic pulse detection device - Google Patents

Abstract

The electromagnetic pulse detection device consists of an antenna (2) and a chip (3), which serves as an electromagnetic pulse detector to indicate an attempt to intentionally damage the meter. The device is located directly on the measuring device, i.e. the electricity meter (1). The antenna (2) is made transparent and serves as a power supply for the chip (3) when the energy captured by the antenna (2) is greater than a threshold value. The chip (3) has a light signal. In another version, the device is a self-adhesive security seal on the meter and detects the surrounding electromagnetic field. The chip (3) is connected to the internal electrical circuit of the meter for remote information transmission.

Description

Electromagnetic pulse detection device

Field of technology

The invention relates to a radio frequency safety element implemented on the surface of the housing, possibly also on other surfaces of the measuring device.

Current state of the art

Currently, energy suppliers are discovering more and more sophisticated methods of unauthorized attack on metering devices, the most serious of which is unauthorized opening, (intrusion into) metering devices, especially electricity meters, and interventions in the metering device in order to obtain unauthorized, unregistered energy consumption by the metering device. Another possibility of attack is such an intervention, when the measuring device is exposed to a shock electromagnetic wave and stops fulfilling the function (partially or completely) of the energy consumption meter. Energy suppliers try to prevent unauthorized manipulations with measuring devices by means of various control systems with specific, password-protected software, where some of the possibilities are described, for example, in utility model No. 26789. However, the known methods of protection are complex and therefore expensive, and also do not solve the last at a time when damage to measuring devices using an electromagnetic pulse is rampant. Other documents representing the general state of the art are document Dl EP 2065715 entitled "Electricity meter" describing the protection of the memory and indication section of the electricity meter against the effects of atmospheric overvoltage by separating the measuring section from the memory and indication section of the electricity meter, and its isolation. The document entitled D2 US 4825149 describes various measuring devices for EMP detection.

The essence of the invention

These shortcomings are largely eliminated by a device for detecting an electromagnetic pulse, which consists of a carrier, which is either the measuring device itself, e.g. a power meter, or a separate control system that is attached to the measuring device, e.g. a security self-adhesive seal, label, tag, or any sticker when the measuring device itself or the control system carries an antenna for detecting an electromagnetic pulse, when this antenna is connected to a chip that detects this unexpected (foreign) electromagnetic pulse caught by the antenna and possible damage to the electricity meter. The antenna can also be a power source for the chip. In the case of using a passive chip, the antenna functions only as an electromagnetic pulse detector. In the case of using an active chip, the antenna, in addition to detecting an electromagnetic pulse, can simultaneously serve as a power supply for the active chip.

The device for detecting an electromagnetic pulse can be placed directly on the meter on its surface (cover, case), when the antenna is applied to the meter by e.g. printing and is transparent, i.e. it does not interfere with the reading of data on the meter, and in case of damage to the meter by an electromagnetic pulse, it is possible during inspection electricity meter using a reader, which is not the subject of this technical solution, to register the information that the chip was damaged or not damaged. Another possibility is that the chip is supplemented with light signaling and/or the chip with the antenna is connected to the internal input electrical circuit (terminals) of the electricity meter (measuring device, or device with the possibility of remote information transmission). Another advantage of this technical solution is the fact that the detection device does not alert the intruder in any way that it detects an attack, this is only found out by the technician using a reader.

- 1 CZ 309186 B6

Clarification of drawings

The technical solution will be explained in more detail with the help of the drawing, where Fig. 1 schematically shows a self-adhesive security seal with an antenna and a chip for detecting an electromagnetic pulse, while the dashed line indicates the antenna in another layer so that the electrical circuit is closed.

Examples of implementation of the invention

Example 1

The antenna 2, which captures (detects) the surrounding electromagnetic field, is applied directly to the electricity meter by printing, and the chip 3 for detecting the electromagnetic pulse is electrically conductively connected to the antenna 2, while the antenna 2 can also serve as a power source for the chip 3.

Example 2

Self-adhesive security seals are used as carriers, when the seal is attached to the electricity meter 1 and is the carrier of the antenna 2 capturing (detecting) the surrounding electromagnetic field, when the antenna 2 is electrically conductively connected to the chip 3, which serves as an electromagnetic pulse detector. Antenna 2 is connected to chip 3 and can also serve as a power source for chip 3.

Industrial applicability

This technical solution can be used for sealing and detecting unauthorized interventions in various measuring devices.

Claims (5)

PATENT CLAIMS Electromagnetic pulse detection device, characterized in that it comprises an antenna (2) and an electromagnetic pulse detection chip (3), the antenna (2) and the chip (3) electrically conductively connected to the antenna (2) being arranged for location on the measuring device (1), in particular the electricity meter. Electromagnetic pulse detection device according to Claim 1, characterized in that the antenna (2) is designed as a power supply for the chip (3). Electromagnetic pulse detection device according to Claim 1 or 2, characterized in that the carrier of the antenna (2) and the chip (3) is the measuring device (1) itself. it Electromagnetic pulse detection device according to Claim 1 or 2, characterized in that the carrier of the antenna (2) and the chip (3) is a self-adhesive label designed to be placed on the measuring device (1). Electromagnetic pulse detection device according to Claim 3, characterized in that the antenna (2) is made of a transparent material.