RU72592U1 - MODERN IDENTIFICATION WIRELESS READER - Google Patents

Abstract

The utility model relates to data readers from microchips of passport and visa documents (LDPE), payment cards of various payment systems and the transmission of identification data in real time in the global GSM mobile system (Global System for Mobile Communications) and packet switching system in mobile networks (GPRS).

The technical result of this utility model is to increase the reliability of identification of LDPE microchips and payment cards, the redistribution of functions between reader elements.

This technical result is achieved due to the fact that the modern identification wireless reader contains a GSM / GPRS modem, a first GSM antenna, a SIM card reader, a microcontroller, an RFID reader, a second antenna, a tag reader with nuclear magnetic resonance (NMR) properties, and a third antenna , "Start" button, indication LEDs, power supply unit and external power supply port.

Description

The utility model relates to data readers from microchips of passport and visa documents (LDPE), payment cards of various payment systems and the transmission of identification data in real time in the global GSM mobile system (Global System for Mobile Communications) and packet switching system in mobile networks (GPRS).

A device for transmitting data (reading data and transmitting data) is known, described in US patent No. 4333072, 06/01/1982. The device consists of the following components: passive transponder and radio frequency scanner.

The disadvantage of this device is that the identification system works only locally.

US Pat. No. 6,549,119, 04/15/2003, describes a mobile electronic data transmission system (reading data and transmitting this data to a base station), consisting of a polling device (radio frequency scanner) and a transponder. The disadvantage of this device is the local action of the system, which is several tens of meters.

US Pat. No. 5,998,550, Nov. 16, 1999, describes a tag reader having nuclear magnetic resonance (NMR) properties. The disadvantage of this device is that it is impossible to read data from microchips and transmit over long distances.

In the patent of the Russian Federation for utility model No. 35935, 10.20.2003, a mobile device is described which comprises: a radio frequency scanner, a passive transponder, an antenna, a GSM modem, a display, a microphone,

Subscriber ID card reader (SIM card), speaker, non-volatile memory, I / O port. This device is chosen as a prototype.

The disadvantage of this device is the inability to determine the falsification of a contactless microchip embedded in the LDPE or payment card and, as a result, the low reliability of identification.

Thus, the technical result of this utility model is to increase the reliability of identification of LDPE microchips and payment cards and the redistribution of functions between reader elements.

The technical result is achieved due to the fact that a modern identification wireless reader containing a GSM / GPRS modem, configured to work in a global mobile communications system (GSM) and a packet switching system in mobile networks (GPRS), a first GSM antenna, a reader subscriber’s identification card (SIM-card), a reader of radio-frequency identification contactless microcontrollers (RFID), designed to transmit energy and read identification data recorded in the memory of the contactless microcontroller, a second antenna, configured to transmit energy and obtain identification data with a radio channel frequency of 125 kHz / 134.2 kHz or 13.56 MHz, additionally contains a microcontroller designed to connect external devices and control the operation of a modern identification wireless reader, tag reader possessing the properties of nuclear magnetic resonance (NMR), intended for pulse formation and indication of labels consisting of ferromagnetic and / or antiferromagnetic And / or ferrimagnetic metal / alloy having NMR properties due to electric / magnetic dipole or tunnel

transitions between the Stark-Zeeman levels, a third antenna designed to transmit a pulse with a frequency of 1 MHz to 1 GTZ and to receive a response from labels with NMR properties, the Start button, indication LEDs, power supply, external power supply port, designed to connect an external a power source, wherein the first input-output of the said modem is connected to a GSM antenna, the second input / output of the GSM / GPRS modem is connected to the first input-output of the microcontroller, the second input-output of which is connected to the first input-output of RFID reader, the third input of the mentioned GSM / GPRS modem is connected to the second output of the power supply unit, the fourth input-output of the mentioned GSM / GPRS modem is connected to the input-output of the SIM card reader, the third input-output of the RFID reader is connected to the input-output of the second antenna, the second input of the said RFID reader is connected to the sixth output of the power supply unit, while the tag reader with NMR properties is connected to the third antenna by the third input-output, the third input-output of the mentioned microcontroller is connected to the first the output of the tag reader with NMR properties, the first input of the power supply unit is connected to the output of the external power supply port, the third output of the mentioned power supply unit is connected to the fourth input of the microcontroller, the fifth output of the power supply unit is connected to the second input of the tag reader with NMR properties, while the fifth input of the microcontroller connected to the Start button, and the sixth output of the mentioned microcontroller is connected to the indication LEDs.

In a particular embodiment, said power supply unit comprises a storage battery, a voltage converter, and a power supply stabilizer.

The claimed utility model is illustrated by the following drawings: figure 1, which shows the structural diagram of the reader, figure 2, which shows a photograph of the reader.

Consider the structure and operation of a modern identification wireless reader 1.

As can be seen from the drawing of figure 1, the reader 1 contains a GSM / GPRS modem 3, a first GSM antenna 2, a SIM card reader 4, an RFID reader 8, a second antenna 9, a microcontroller 5, a tag reader with nuclear magnetic resonance (NMR) properties 6, the third antenna 7, the “Start” button 10, the indication LEDs 11, the power supply unit 12 and the external power supply port 13.

A GSM / GPRS modem 3 is connected to the first GSM antenna 2 and a SIM card reader 4, and to a microcontroller 5. An RFID reader 8 is connected to a second antenna 9 and a microcontroller 5. A tag reader with nuclear magnetic resonance (NMR) properties 6 is connected to a third antenna 7 and the microcontroller 5. The Start button 10 and the indication LEDs 11 are connected to the microcontroller 5.

The power supply unit 12 is connected to the inputs of the GSM / GPRS modem 3, the microcontroller 5, the RFID reader 8, the tag reader with nuclear magnetic resonance (NMR) properties 6 and the output of the external power supply port 13.

It should be noted that RFID 8 readers are widely known in the prior art and are described, for example, in the book by V. L. Dzhunyan, V. F. Shangin "Electronic Identification. Contactless Electronic Identifiers and Smart Cards", M .: ACT Publishing House ": NT Press Publishing House, 2004, pp. 177-182.

The claimed modern identification wireless reader 1 operates as follows.

When the "Start" button 10 is pressed, the signal enters the microcontroller 5, which starts the tag reader with nuclear magnetic resonance (NMR) properties 6. The tag reader with nuclear magnetic resonance (NMR) properties 6 emits a signal at frequencies from 1 MHz to 3 through the third antenna 7 1 GHz. A mark (not shown) preliminarily deposited on the surface of the microchip 15 consists of a ferromagnetic and / or antiferromagnetic and / or ferrimagnetic metal / alloy having NMR properties due to electric / magnetic dipole or tunnel junctions between the Stark-Zeeman levels.

When a microchip 15 is placed near antenna 7, on which a label with the properties of nuclear magnetic resonance (NMR) was previously applied, the Stark-Zeeman effect occurs, in which a signal response occurs, which is recorded by the third antenna 7. Next, the signal is transmitted to reader 6 and microcontroller 5 which analyzes the received signal. An example of a microchip 15 with a label with the properties of nuclear magnetic resonance (NMR) is given in the patent for utility model of the Russian Federation No. 51256, 09.16.2005.

If the mark on the microchip 15 with the properties of nuclear magnetic resonance (NMR) is not detected (fake microchip), then the microcontroller 5 turns on the red LED 11 “No Detect” and stops the reader 1.

If the tag is found on the microchip 15 with the properties of nuclear magnetic resonance (NMR), then the microcontroller 5 turns on the yellow LED indication 11 - "Detect" and transmits a signal to start the RFID reader 8.

The RFID reader 8 generates a signal that is emitted through the second antenna 9 at frequencies of 125 kHz / 134.2 kHz or 13.56 MHz. In the antenna of the microchip 15 (not shown) is electric

a signal whose energy is used to power the microchip 15. The antenna 9 of the RFID reader 8 receives the response signal of the microchip 15 with the same frequency (125 kHz / 134.2 kHz or 13.56 MHz), modulated in accordance with the microchip code 15. In the RFID reader 8, decoding, processing, and analysis of the microchip 15 code takes place, verifying the checksum, serial number of the microchip 15, calculating the working key, and performing the authentication procedure.

If the authentication procedure fails, no information is transmitted from the reader 8 to the microcontroller 5, the microcontroller 5 turns on the red LED 11 “Alarm”.

In case of successful completion of the authentication procedure, a package is formed and enters the microcontroller 5, which turns on the green LED indication 11 - "ID Ok". The exchange of information between the microchip 15 and the RFID 8 reader is carried out according to the standard for contactless cards ISO 14443, type A.

The microcontroller 5 transmits the information read from the microchip 15 to the GSM modem 3, which through the antenna 2 transmits information to the base transceiver station of the cellular communication operator 14. Next, information from the base transceiver station of the cellular communication operator 14 is transmitted to the controller of the base station (not shown). Next, the signal from the controller of the base station of the cellular communication operator enters the mobile switching center and through the router enters the data network (TCP / IP), to which the server for receiving and processing data is connected (not shown in the drawing).

On the server receiving and processing data is the identification of the data of the microchip 15.

The GSM / GPRS modem 3 is configured to operate in a global mobile communications system (GSM) and a packet switching system in mobile networks (GPRS). GSM / GPRS modem 3 has a device

reading the subscriber’s identification card (SIM card) 4 into which the SIM card of the mobile operator, previously purchased by the user, is inserted.

Where cellular GSM operators do not have a packet switching service in mobile networks (GPRS), the Short Message Service can be used.

The microcontroller 5 is designed to connect external devices, such as readers 6 and 8, the Start button. The microcontroller 5 may have a universal input-output port (not shown in the drawing) for connecting external devices. When external devices (for example, not shown) are connected to the microcontroller 5 port, for example, a computer, you can enter programs and data (phone numbers, etc.) into the memory of the reader 1 built into the microcontroller 5 (not shown).

Microcontroller 5 controls the operation of internal and external devices connected to the reader 1: readers 6 and 8, GSM / GPRS modem 3.

Microcontroller 5 has the ability to encrypt the transmitted data from reader 1. The architecture of modern microcontrollers 5 allows you to effectively implement hardware support for national encryption algorithms (for example, Russian GOST R 34.10-2001, GOST 28147-89, GOST R 34.11 94) and present this implementation along with the original certification codes. At the same time, microcontroller 5 can support both existing western data encryption algorithms and, accordingly, ensures compatibility with existing applications, as well as national data encryption algorithms.

The reader 1 is supplied with power from the power supply unit 12, which contains a storage battery, a voltage converter, and a power supply stabilizer (not shown in the drawing).

Through the external power port 13 is charging the block 12.

The power supply of the reader 1 is carried out from the power supply unit 12, through which all the elements of the device are powered: GSM modem 3, microcontroller 5, readers 6 and 8. The power supply unit 12 has a power supply battery, which can be a battery (not shown shown). The battery charge (not shown) is carried out from an external source connected to the external power port 13.

For the first time in reader 1, a reader 8 with an antenna 9, a reader 6 with an antenna 7, a GSM modem 3 with a GSM antenna 2, a microcontroller 5 were used, thus solving the problem of a utility model: improving the reliability of identification of LDPE microchips and payment cards and redistributing functions between reader elements .

The manufacture of the reader 1, shown in figure 1, is carried out from a typical electronic components (REC). The RECs can be: a reader 8 based on an ATMEL microchip U2270B, a microcontroller 5, for example, ATMEL's MEGA AVR ATMEGA 128L-8AU, Motorola's GSM 3 G20 modem. The remaining elements are typical RECs widely used in industry.

The prototypes of the reader 1 are made. A photograph of the reader 1 is shown in FIG. Tests have shown that they meet the requirements for identification tools.

Claims (2)

1. Modern identification wireless reader containing a GSM / GPRS modem, configured to work in a global mobile communications system (GSM) and packet switching system in mobile networks (GPRS), a first GSM antenna, a subscriber’s ID card reader (SIM card) ), a reader of radio-frequency identification contactless microcontrollers (RFID), designed to transmit energy and read identification data recorded in the memory of the contactless microcontroller, the second antenna, made with the possibility of transmitting energy and obtaining identification data with a radio channel frequency of 125 kHz / 134.2 kHz or 13.56 MHz, characterized in that the modern identification wireless reader further comprises a microcontroller designed to connect external devices and control the operation of a modern identification wireless reader, reader of labels possessing nuclear magnetic resonance (NMR) properties, intended for pulse generation and indication of labels consisting of ferromagnetic of the second and / or antiferromagnetic and / or ferrimagnetic metal / alloy possessing NMR properties due to electric / magnetic dipole or tunnel junctions between the Stark-Zeeman levels, a third antenna designed to transmit a pulse with a frequency from 1 MHz to 1 GHz and obtain a response from tags with NMR properties, the "Start" button, indication LEDs, power supply unit, external power supply port, designed to connect an external power source, while the first input-output of the said modem is connected n with a GSM antenna, the second input-output of the GSM / GPRS modem is connected to the first input-output of the microcontroller, the second input-output of which is connected to the first input-output of the said RFID reader, the third input of the mentioned GSM / GPRS modem is connected to the second output of the power supply unit, the fourth input-output of the mentioned GSM / GPRS modem is connected to the input-output of the SIM card reader, the third input-output of the RFID reader is connected to the input-output of the second antenna, the second input of the said RFID reader is connected to the sixth output of the power supply, while a marker washer with NMR properties, the third input-output is connected to the third antenna, the third input-output of the mentioned microcontroller is connected to the first input-output of the reader of tags with NMR properties, the first input of the power supply is connected to the output of the external power port, the third output of the said block the power supply is connected to the fourth input of the microcontroller, the fifth output of the power supply unit is connected to the second input of the reader tags with NMR properties, while the fifth input of the microcontroller pa is connected to the "Start" button, and the sixth output of the mentioned microcontroller is connected to the indication LEDs. 2. The mobile terminal according to claim 1, characterized in that said power supply unit comprises a storage battery, a voltage converter and a power supply stabilizer.