RU35935U1 - Mobile identification data transmission device (options) - Google Patents

Description

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The invention relates to a mobile device for transmitting identification data, which can be widely used for identifying people, animals and cars, consumer goods through telematic services of network operators of the global system for mobile communications GSM (Global System for Mobile Communications).

A significant part of radio frequency data transmission devices (data reading and data transmission) is structurally a passive transponder and a radio frequency scanner.

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 the redundancy of the chipset and, as a result, the large dimensions of the device, which is not typical for devices implanted into living organisms (pets or humans).

A personal escort and rescue system is also known, as described in US Pat. No. 5,629,678, 05/13/1997. A well-known personal tracking and rescue system comprises a radio frequency receiver, a receiving antenna for said radio frequency receiver, and a transceiver that is connected to a transmitting antenna to its mobile device for transmitting identification data (options) N 04 M 11/00 N 04 V 1/38 N 04 M 1/727

Among these, the radio frequency transceiver and receiver are associated with an energy storage device and a signal decoding device.

This device has an additional function - it can receive energy from the muscles of the animal or human body, then convert and accumulate it through the electric circuit to power all elements of the device.

However, this device also has a drawback - it has too small a radius of action.

Known passive integrated transponders that are used for identification and are implanted in living organisms described in US patents. No. 5281855, 01/25/1994, and No. 6400338, 06/04/2002.

A passive transponder consists of the following; their components: silicone shell, capacitor, antenna, and integrated circuit (microchip).

The disadvantage of the described devices is that a small distance (up to several meters) is used to transmit the identification information of the object from the passive transponder to the RF scanner, which significantly affects the overall performance of the device.

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. This system is adopted as a prototype.

The disadvantage of this device is the local action of the system, which is several tens of meters.

Thus, the technical result of this utility model is to increase the range and increase productivity by introducing into the device a modem that works with a global system for mobile communications (GSM) and a wired switching system in mobile networks (GPRS), and redistributing functions between device elements .

The technical result is achieved due to the fact that according to the first embodiment, the first antenna, a modem configured to work with a global system for mobile, is additionally introduced into a mobile device for transmitting identification data containing a radio frequency scanner configured to read identification data from an external passive transponder communications (GSM) and packet switching system in mobile networks (GPRS), display, microphone, reader of subscriber ID card (SIM cards), speaker, non-volatile memory, I / O port, while the first input-output of the said modem is connected to the input-output of the first antenna, the second input-output of the said modem is connected to the input-output of the SIM card reader, the third input is the output of the said modem is connected to the input-output of the input-output port, the first output of the said modem is connected to the input of the display, the first input of the said modem is connected to the microphone output, the fourth input-output of the said modem is connected to the input-output of the radio frequency scanner, whose antenna is designed to receive and transmit data to an external passive transponder, the fifth input-output of the said modem is connected to the input-output of non-volatile memory, the second input of the said modem is connected to the output of the keyboard, the second output of the said modem is connected to the input of the vibrator, the third output of the said modem is connected to speaker input.

In a particular embodiment, said modem comprises a power amplifier, a radio frequency amplifier, a central processor, a power management device, a monitoring and control device for controlling and controlling a vibrator, speaker and microphone, as well as for controlling the power supply to a central processor, a power amplifier and said radio frequency scanner wherein the first input-output of the power amplifier is the fifth first input-output of said modem, the second input-output of the power amplifier connected to the second input-output of the radio frequency amplifier, the first input-output of which is connected to the first input of the output of the central processor, the second input-output of which is connected to the second input-output of the said modem, the third input-output of the central processor is connected to the third input-output of the said modem, the fourth input-output of the central processor is connected to the mentioned fourth fourth input-output of the said modem, the fifth input-output of the central processor is connected to the said fifth input-output the mentioned modem, the first output of the central processor is connected to the first output of the said modem, the second input of the central processor is connected to the second input of the said modem, the sixth input of the central processor is connected to the input-output of the said monitoring and control device, the first output of which is connected to the second output said modem, a second output of said monitoring and control device is connected to said third output of said modem, said first input second monitoring and control device is connected to said first input of said modem, a second input of said monitoring and control device coupled to an output power control apparatus, the first and second inputs of which are connected to third and fourth inputs upomyan) ggogo modem, respectively.

In another particular embodiment, said modem further comprises a power supply battery, the output of which is connected to said third input of said modem.

In another particular embodiment, said modem further comprises an external power supply port, the output of which is connected to said fourth input of said modem.

In another particular embodiment), the mentioned radio-frequency scanner, in addition to the aforementioned antenna, also contains a microprocessor, a transmitter and a receiver, the first input of which is connected to the first output of the transmitter, the second output of which is connected to the input of the said antenna of the radio-frequency scanner, the output of which is connected to the second input of the receiver, the output of which is connected to the input of the microprocessor, the output of which is connected to the input of the transmitter, the input-output of the microprocessor is connected to the said input-output of the radio-frequency scanner.

In another particular embodiment, the power amplifier comprises an antenna switch in said modem.

According to a second embodiment, a first antenna, a modem configured to operate with a global system for mobile communications (GSM) and a packet switching system, is additionally introduced into a mobile device for transmitting identification data comprising a radio frequency scanner configured to read identification data from an external passive transponder in mobile communication networks (GPRS), display, microphone, subscriber ID card reader (SIM card), speaker, non-volatile memory, port in water-output, a power supply battery, an external power supply port, wherein the first input-output of the said modem is connected to the input-output of the first antenna, the second input-output of the said modem is connected to the input-output of the SIM card reader, the third input-output of the said modem is connected to the input-output port of the input-output port, the first output of the said modem is connected to the input of the display, the first input of the said modem is connected to the microphone output, the fourth input-output of the said modem is connected to the input-output of the radio frequency scan a, the antenna of which is designed to receive and transmit data to an external passive transponder, the fifth input-output of the said modem is connected to the input-output of non-volatile memory, the second input of the said modem is connected to the keyboard output, the second output of the said modem is connected to the input of the vibrator, the third output of the said modem connected to the speaker input, the output of the power battery is connected to the third input of the said modem, the output of the external power port is connected to the fourth input of the said modem.

In a particular embodiment, said modem comprises a power amplifier, a radio frequency amplifier, a central processor, a power management device, a monitoring and control device for controlling and controlling a vibrator, speaker and microphone, as well as for controlling the power supply to a central processor, a power amplifier and said radio frequency scanner wherein the first input-output of the power amplifier is said first input-output of the said modem, the second input-output of the power amplifier connected to the second input-output of the radio frequency amplifier, the nerve input-output of which is connected to the first input of the output of the central processor, the second input-output of which is connected to the second input-output of the said modem, the third input-output of the central processor is connected to the third input-output of the said modem, the fourth input-output of the central processor is connected to said fourth input-output of the said modem, the fifth input-output of the central processor is connected to the said fifth input-output in addition to the modem, the first output of the central processor is connected to the first output of the said modem, the second input of the central processor is connected to the second input of the said modem, the sixth input of the central processor is connected to the input-output of the said monitoring and control device, the first output of which is connected to the second output said modem, a second output of said monitoring and control device is connected to said third output of said modem, said first input of the second monitoring and control device is connected to said first input of said modem, the second input of said monitoring and control device is connected to an output of power control device, the first and second inputs of which are connected to said third and said fourth inputs of said modem, respectively.

In another particular embodiment, said radio frequency scanner, in addition to said antenna, comprises a microprocessor, a transmitter and a receiver, the first input of which is connected to the first output of the transmitter, the second output of which is connected to the input of the said antenna of the radio frequency scanner, the output of which is connected to the second input of the receiver, the output of which is connected with the input of the microprocessor, the output of which is connected to the input of the transmitter, the input-output of the microprocessor is connected to the input-output of the radio-frequency scanner.

In another particular embodiment, said modem comprises an antenna switch.

The claimed utility model is illustrated by the following drawings: FIG. 1, which shows a structural diagram of the claimed mobile device; FIG. 2, which shows an enlarged structural diagram of the claimed mobile device; FIG. 3, which shows an example implementation of the claimed mobile device.

Consider the structure and operation of the claimed device.

As can be seen from the drawing of FIG. 1, the mobile device 1 comprises a first antenna 2 connected to a GSM / GPRS network base station 24 and a GSM / GPRS modem 27, which is connected to an RF scanner 28, whose antenna 21 is connected to the antenna 22 of the passive transponder 23.

The modem 27 in its composition, as shown in the drawing of FIG. 2, comprises a power amplifier 3 with an antenna switch (not shown in the drawing), which is connected to a radio frequency amplifier 4, which is connected to the central processor 5. Here it should be noted that a digital signal processor, an analog-to-digital converter and a digital-to-analog converter are built into the central processor 5 converter (not shown in the drawings).

Said central processor 5, as shown in FIG. 2, is connected to a control and control device 6, which is connected to a vibrator 15, a speaker 16 and a microphone 17. It should be noted that through the control and control device 6, all the elements of the device are powered: central processor 5, radio frequency amplifier 4, power amplifier 3, microprocessor 18, transmitter 19 and receiver 20.

A power control device 7 is connected to the monitoring and control device 6, to which the external power supply port 8 and the power supply battery 9 are connected.

In addition, as shown in FIG. 2, the device 1 comprises an RF scanner 28, which consists of the aforementioned microprocessor 18, which is connected to a transmitter 19 and a receiver 20, which in turn are connected to an antenna 21, which transmits and receives energy and messages from the antenna 22 of the passive transponder 23.

In the drawing of FIG. 3 shows an example implementation of the claimed mobile device 1 using a GSM / GPRS modem 27 G20 from Motorola, an RF scanner 28, and a passive transponder 23 from VeriChip.

The claimed mobile device operates as follows.

A passive transponder 23 (with dimensions 11 mm length and 2.1 mm diameter) with built-in antenna 22 is located in the object (can be implanted to people suffering from chronic diseases, elderly people with memory problems or employees whose professional activity is associated with constant risk: firefighters , law enforcement officers, etc.).

Activation of the passive transponder 23 is carried out using a radio-frequency scanner 28 with a transceiver antenna 21. In response to the external radiation of the transceiver antenna 21 with a frequency of 125 kHz or 134.2 kHz, the passive transponder 23 with the antenna 22 sends its radio signal from under the skin of a person or an animal, transmitting the data encoded in it.

The passive transponder 23, the casing of which is made of a silicone shell, contains: antenna 22, inductance and microchip (not shown in the drawing). Each passive transponder 23, in addition to the individual information of the object entered into it, carries its own unique identifier, which makes it possible to verify the legality of the implanted device. The microchip of the passive transponder 23 includes (not shown) a power storage device associated with the antenna 22, a logic control device, a bit control device, a synchronization device, a code generator, a modulator, and a delay device.

scanner 28), the radio frequency scanner 28 using the transmitter 19 and antenna 21 transfers energy to the antenna 22 of the passive transponder 23. The received energy is supplied to the energy storage device of the microchip of the passive transponder 23 (not shown), where energy is transferred to devices that read the identification information of the object previously recorded in the passive transponder 23. After some time (seconds) through the antenna 22, the passive transponder 23 transmits the identification information of the object and an antenna 21, a radio frequency scanner 28. Post 20 is supplied to the radio frequency scanner receiver 28, and then supplied to the microprocessor 18.

The message from the microprocessor 18 of the radio-frequency scanner 28 is received by a GSM / GPRS modem 27, which transmits the object identification data received from the passive transponder 23 through the antenna 2 to the base station 24 of the GSM / GPSR operator. Further, the message is transmitted over the IP network (Internet) 25 to the database server 26, where the identification data of the object with the implanted passive transponder 23 is compared with the accounting personal data of the object previously entered into the database of the server 26, i.e. identification of the object is carried out.

It should be noted that the microprocessor 18 of the radio-frequency scanner 28 is connected to the central processor 5 of the GSM / GPRS modem 27. Data from the passive transponder 23 of the object is transmitted at a frequency of 125 kHz or 134.2 kHz at a distance of several centimeters to meters, then the data is transmitted to the microprocessor 18 and transferred to the central processor 5 of the GSM / GPRS modem 28, which transmits this data to the radio frequency amplifier 4 and then to the power amplifier 3, where the message is amplified and fed to the radio frequency amplifier 4, which operates in the frequency ranges 890 - 915 MHz and 935 - 960 MHz, 17101785 MHz and 1805 - 1880 MHz. The amplifier 4 is connected to the central processor 5, which decodes the commands received from the user, determines the necessary operands and the operations required by the user with the mobile device 1.

The central processor 5 controls the operation of logical, arithmetic and other operations of internal and external devices connected to the mobile device 1: a display 13, a keyboard 14, a SIM card reader 11, non-volatile memory 12 and a monitoring and control device 6. The monitoring and control device 6 serves for connecting a vibrator 15, speaker 16 and microphone 17.

The central processor 5 performs operations to send a message to the user. A message can be sent and received through the Short Message Service (SMS) of cellular communication operators or packet switching technology in mobile communication networks GPRS (General Packet Radio Service) of cellular communication operators whose SIM card is inserted in the SIM card reader 11 Mobile device 1. The transmission channel and the transmission method are selected by a digital signal processor (not shown) of the central processor 5 based on the programs recorded in the memory 12. Next, the message goes to the radio frequency amplifier 4, the amplifier can NOSTA 3, the antenna switch (not shown), GSM antenna 2, and is transmitted to the base station 24 the operator GSM Global System for Mobile Communications network.

For receiving and transmitting voice messages, the mobile device 1 has a speaker 16 and a microphone 17, in addition, a hands-free device (not shown) can be connected to the control and control device 6.

5 there is a dual-tone multi-frequency receiver (DTMF), which receives control signals from a telephone connected to a public telephone network that is connected to a GSM network. Reception and transmission of messages is carried out as described above.

The power supply of the mobile device 1 can be carried out from the power supply battery 9, which can also be a rechargeable battery, or an external source connected to the external power supply port 8. The voltage for powering the mobile device 1 is supplied to the power control device 7 and then to the monitoring and control device 6, through which the power supply of all elements of the device 1.

The use of GSM / GPRS modem 27 based on Motorola’s G20 microassembly connected to RF scanner 28 made it possible to transmit identification data from objects with implanted transponders 23 over long distances: GSM / GPRS coverage of networks of cellular communication operators, which made it possible to increase the coverage of the device from a few centimeters and meters to hundreds and thousands of kilometers.

For the first time, Motorola’s GSM / GPRS modem 27 G20 was used in combination with an RF scanner 28 and a passive transponder 23 from VeriChip (Fig. 3 shows an example of a mobile device for identifying objects 1) to perform the functions of identifying objects over long distances, thereby solving utility model task: range increase.

Mobile device 1 works for the GSM-900 system in the ranges 890-915 MHz and 935 - 960 MHz, for the GSM-1800 system in the ranges 1710-1785 MHz and 1805-1880 MHz, and for reading and transmitting energy to the passive transponder 23 in the range 125 kHz or 134.2 kHz from an RF scanner 28.

Thus, the GSM / GPRS modem 28 solves the problem of the utility model: operating in different frequency ranges of 890 - 915 MHz and 935 - 960 MHz, 1710-1785 MHz and 1805 - 1880 MHz, when using a radio frequency scanner 28 in the frequency ranges of 125 kHz or 134.2 kHz, i.e. Mobile device performance 1 is improved.

The manufacture of the mobile device 1 shown in FIG. 1, 2, 3, are carried out from the following 1 typical elements: GSM / GPRS modem 27 based on Motorola's G20 microassembly, radio frequency scanner 28, and VeriChip passive transponder 23.

Based on Motorola’s chips 1.250 - 20, the GSM / GPRS modem can be made on the basis of a power amplifier with an antenna switch 3 of Motorola MMM6022 microassemblies, a radio frequency amplifier 4 based on Motorola MC13777 microassemblies, a central processor 5 based on Motorola’s DSP56631 chip, a control device and controls 6 based on Motorola's MC13717 microassembly, Motorola's power management device 7 based on Motorola's MC13718 microassembly.

A prototype of the claimed mobile device is made. Tests have shown that it meets the requirements for GSM / GPRS subscriber radios of the standard and identification technology standard.

Claims (10)

1. A mobile device for transmitting identification data, comprising a radio frequency scanner, configured to read identification data from an external passive transponder, characterized in that it further includes a first antenna, a modem, configured to work with a global system for mobile communications (GSM) and mobile packet switching system (GPRS), display, microphone, subscriber ID card reader (SIM card), speaker, non-volatile memory, port I / O, while the first input-output of the said modem is connected to the input-output of the first antenna, the second input-output of the said modem is connected to the input-output of the SIM card reader, the third input-output of the said modem is connected to the input-output of the input port -output, the first output of the said modem is connected to the input of the display, the first input of the said modem is connected to the microphone output, the fourth input-output of the said modem is connected to the input-output of the radio-frequency scanner, the antenna of which is designed to receive and before chi external passive transponder data, the fifth input-output of said modem is connected to the input-output of the non-volatile memory, a second input of said modem is coupled to an output keyboard, a second output of said modem is coupled to an input of the vibrator, the third output of said modem is coupled to an input of the speaker. 2. The device according to claim 1, characterized in that the said modem contains a power amplifier, radio frequency amplifier, a central processor, a power management device, a monitoring and control device for controlling and controlling a vibrator, speaker and microphone, as well as for controlling the power supply a central processor, a power amplifier, and said RF scanner, wherein the first input-output of the power amplifier is said first input-output of said modem, second input-output One power amplifier is connected to the second input-output of the radio frequency amplifier, the first input-output of which is connected to the first input-output of the central processor, the second input-output of which is connected to the second input-output of the said modem, the third input-output of the central processor is connected to the above-mentioned the third input-output of said modem, the fourth input-output of the central processor is connected to said fourth input-output of the said modem, the fifth input-output of the central processor is connected to said the fifth input-output of the said modem, the first output of the central processor is connected to the first output of the said modem, the second input of the central processor is connected to the second input of the said modem, the sixth input-output of the central processor is connected to the input-output of the said monitoring and control device, the first output which is connected to said second output of said modem, a second output of said monitoring and control device is connected to said third output of said modem, the first input of said monitoring and control device is connected to said first input of said modem, the second input of said monitoring and control device is connected to an output of a power control device, the first and second inputs of which are connected to third and fourth inputs of said modem, respectively. 3. The device according to claim 2, characterized in that said modem further comprises a power supply battery, the output of which is connected to said third input of said modem. 4. The device according to one of claims 2 and 3, characterized in that said modem further comprises an external power supply port, the output of which is connected to said fourth input of said modem. 5. The device according to one of claims 1 to 4, characterized in that said radio frequency scanner, in addition to said antenna, also contains a microprocessor, transmitter and receiver, the first input of which is connected to the first output of the transmitter, the second output of which is connected to the input of the said radio frequency antenna scanner, the output of which is connected to the second input of the receiver, the output of which is connected to the input of the microprocessor, the output of which is connected to the input of the transmitter, the input-output of the microprocessor is connected to the said input-output radio frequency of the scanner. 6. The device according to one of claims 2 to 5, characterized in that in said modem the power amplifier comprises an antenna switch. 7. A mobile device for transmitting identification data containing a radio frequency scanner configured to read identification data from an external passive transponder, characterized in that it additionally includes a first antenna, a modem configured to work with a global system for mobile communications (GSM), and mobile packet switching system (GPRS), display, microphone, subscriber ID card reader (SIM card), speaker, non-volatile memory, port input / output, a power supply battery, an external power supply port, wherein the first input-output of the said modem is connected to the input-output of the first antenna, the second input-output of the said modem is connected to the input-output of the SIM card reader, the third input-output of the said modem connected to the input-output port of the input-output port, the first output of the said modem is connected to the input of the display, the first input of the said modem is connected to the microphone output, the fourth input-output of the said modem is connected to the input-output of the radio frequency scan An antenna whose antenna is designed to receive and transmit data to an external passive transponder, the fifth input-output of the said modem is connected to the input-output of non-volatile memory, the second input of the said modem is connected to the output of the keyboard, the second output of the said modem is connected to the input of the vibrator, the third output of the said modem connected to the speaker input, the output of the power battery is connected to the third input of the said modem, the output of the external power port is connected to the fourth input of the said modem. 8. The device according to claim 7, characterized in that said modem comprises a power amplifier, radio frequency amplifier, a central processor, a power management device, a monitoring and control device for controlling and monitoring the vibrator, speaker and microphone, as well as for controlling the power supply a central processor, a power amplifier, and said RF scanner, wherein the first input-output of the power amplifier is said first input-output of said modem, second input-output One power amplifier is connected to the second input-output of the radio frequency amplifier, the first input-output of which is connected to the first input-output of the central processor, the second input-output of which is connected to the said second input-output of the said modem, the third input-output of the central processor is connected to the said the third input-output of said modem, the fourth input-output of the central processor is connected to said fourth input-output of the said modem, the fifth input-output of the central processor is connected to the fifth input-output of the said modem, the first output of the central processor is connected to the first output of the said modem, the second input of the central processor is connected to the second input of the said modem, the sixth input-output of the central processor is connected to the input-output of the said monitoring and control device, the first output which is connected to said second output of said modem, a second output of said monitoring and control device is connected to said third output of said modem , The first input of said monitoring and control device is connected to said first input of said modem, a second input of said monitoring and control device coupled to an output power control apparatus, the first and second inputs connected to said third and said fourth input of said modem, respectively. 9. The device according to one of claims 7 and 8, characterized in that said radio frequency scanner, in addition to said antenna, comprises a microprocessor, transmitter and receiver, the first input of which is connected to the first output of the transmitter, the second output of which is connected to the input of the said antenna of the radio frequency scanner the output of which is connected to the second input of the receiver, the output of which is connected to the input of the microprocessor, the output of which is connected to the input of the transmitter, the input-output of the microprocessor is connected to the input-output of the RF scanner. 10. The device according to one of claims 7 to 9, characterized in that in said modem the power amplifier comprises an antenna switch.