RU37581U1 - MOBILE COMMUNICATION TERMINAL - Google Patents

Description

The utility model relates to telecommunication devices, namely to a mobile communication terminal (telephone), which can be widely used for users of networks of the global system for mobile communications GSM (Global System for Mobile Communications).

Known mobile communication terminal (cell phone), described in US patent No. 6334061, 12/25/2001. A known cell phone contains a first antenna connected to a transceiver, which is connected to a modem, which in turn is connected to a processor and an input / output port. In addition, the known telephone contains a second antenna connected to a receiver of a global positioning system (GPS), which is also connected to a processor

This well-known cell phone has an additional function: it can receive an alarm signal from a car (for example, in case of opening the car) and transmit the corresponding control signal to the car.

However, this phone has a drawback - it has too little performance, since it does not have the ability to connect a video lens.

Known mobile communication terminal described in US patent No. 5905461, 05/18/1999. The disadvantage is the inability to work on the technology of packet switching in mobile networks GPRS (General Packet Radio Service).

Known wireless handset (telephone) for networks of the global mobile communications system GSM, described in US patent. No. 6516184, 04/04/2003. Cordless Handset for Global Networks

A GSM mobile communication system consists of the following components: a transceiver, an analog-to-digital converter and a digital-to-analog converter, a digital signal processor forming a modem, a user interface including a keyboard, a display, a speaker and a microphone, and a system interface, an integrated power management circuit and a battery power supply.

The disadvantage of this device is that it has too little performance, since it cannot work in the frequency range 2400 - 2483.5 MHz of devices for wireless data reception via radio (Bluetooth) and wireless local area network (WLAN).

Thus, the technical result of this utility model is to increase productivity by introducing a device for wireless data reception via Bluetooth and WLAN and redistributing functions between elements of a mobile communication terminal.

The technical result is achieved due to the fact that the mobile communication terminal contains the first and second antennas, an external antenna, which is an antenna of a global system for mobile communications (GSM), combined with an antenna of a satellite system of a global positioning system (GPS), two connectors, a modem, made with the ability to work with a global system for mobile communications (GSM) and a packet switching system in mobile networks (GPRS), a subscriber’s ID card reader (SIM card), speaker, microphone, display, vib speaker, bell, input-output port, external power supply port, battery, infrared input-output port, universal serial input-output port (USB), application processor, wireless data transceiver, one antenna of which is built into the terminal casing connection and is designed to communicate with an external device for wireless data transceiver (Bluetooth), and another antenna is built into the housing

mentioned communication terminal and is intended for communication with an external modem connected to a wireless local area network (WLAN), a port for connecting a keyboard, a port for connecting a personal computer card (PC Card - PCMCIA), a video lens, a reader for a multimedia or secure digital card (MMC / SD card) and a receiver for receiving data from the satellite system of the global positioning system (GPS), the second input of which is connected to the fourth output of the GSM / GPRS modem, the output of the said receiver is connected to the second input m of the application processor, the first input of the said receiver is connected to the output of the second connector, the first input of which is connected to the output of the second antenna, the first input-output of the GSM / GPRS modem is connected to the first input-output of the first connector, the second input-output of which is connected to the input-output the first antenna, the input-output of the said external antenna is connected to the third input-output of the first connector, and the output of the said external antenna is connected to the second input of the second connector, the second input / output of the GSM / GPRS modem is connected to the input-output of the reader S IM cards, the third input-output of the GSM / GPRS modem is connected to the input-output of the I / O port, the fourth input-output of the GSM / GPRS modem is connected to the input-output of the battery, the fifth input-output of the GSM / GPRS modem is connected to the first input-output application processor, the first output of the GSM / GPRS modem is connected to the speaker input, the first input of the GSM / GPRS modem is connected to the microphone output, the second output of the GSM / GPRS modem is connected to the vibrator input, the third output of the GSM / GPRS modem is connected to the call input, the fifth GSM output / GPRS modem connected to the first input of the application processor, sec the first input of the GSM / GPRS modem is connected to the output of the external power supply port, the second input of the application processor output is connected to the input-output of the aforementioned MMC / SD card reader, the third input-output of the application processor is connected to the input-output of the wireless data transceiver, the fourth input-output the application processor is connected to the input-output port for connecting a keyboard, the fifth input-output of the application processor is connected to the input-output port for connecting a personal computer memory card (PC Card - PCMCIA), the third One application processor is connected to the video lens output, the sixth application processor input is connected to the display input-output, the seventh application processor output is connected to the universal serial input / output port (USB) input-output, the eighth application processor output is connected to the infrared input-output input-output port.

In a particular embodiment of the claimed terminal, the display screen is a touch screen.

In another particular embodiment, the first antenna is a GSM antenna, and the second antenna is a GPS antenna.

In another private embodiment, the GSM / GPRS modem contains a power amplifier, radio frequency amplifier, a central processor, a power management device and a monitoring and control device for controlling and controlling a vibrator, speaker, bell and microphone, as well as for controlling the power supply to the central processor, a power amplifier, a radio frequency amplifier and an application processor, wherein the first input-output of the power amplifier is said first input-output of a GSM / GPRS modem, the second input-output is an amplifier 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 the second input-output of the GSM / GPRS modem, the third input-output of the central processor is connected to the input - an output of said monitoring and control device, the first output of which is connected to said first output of a GSM / GPRS modem, the second output of said monitoring and control device is connected to said

the third output of the GSM / GPRS modem, the first input of the said monitoring and control device is connected to the first input of the GSM / GPRS modem, the second input of the said monitoring and control device is connected to the output of the power management device, the input of which is the second input of the GSM / GPRS modem, input - the output of the power management device is connected to the fourth input / output of the GSM / GPRS modem, the fourth input-output of the central processor is connected to the third input / output of the GSM / GPRS modem, the fifth input is One central processor is connected to said fifth input / output of a GSM / GPRS modem, a third output of said monitoring and control device is connected to said second output of a GSM / GPRS modem, a fourth output of said monitoring and control device is connected to said fourth output of a GSM / GPRS modem, fifth the output of said monitoring and control device is connected to said fifth output of a GSM / GPRS modem.

In another particular embodiment, a digital signal processor, a microcontroller, an analog-to-digital converter and a digital-to-analog converter are integrated in the central processor.

The claimed utility model is illustrated by the following drawings: FIG. 1, which shows the appearance of the claimed communication terminal; FIG. 2, which shows a diagram of the claimed communication terminal; FIG. 3, which shows a block diagram of a GSM / GPRS modem as part of the specified communication terminal.

As can be seen from the drawing of figure 1, the claimed communication terminal 1 is a cell phone, consisting of two parts that are folded and unfolded using a connecting element. On the inside of one of the) mentioned parts of the terminal 1 there is a display 28, the screen of which is touch-sensitive. On the same part of the terminal 1 (in a place free from the display, as, for example, shown in the drawing of Fig. 1, below the display), control keys and a microphone 9 are also located

which converts the speech of the user of the DAP terminal 1 into electrical signals suitable for processing by this terminal 1 and transmitting them to the network.

On another part of terminal 1, there is a speaker 10, which allows the terminal user to hear the speech of the subscriber calling this user. On the housing of the terminal 1 is a video lens 25 for photography and filming.

As can be seen from the drawing of FIG. 2, the claimed terminal 1 contains: the first 4 and second 7 antennas, an external antenna 29, which is an antenna of a global system for mobile communications (GSM), combined with an antenna of a satellite system of a global positioning system (GPS), the first 3 and second 6 connectors, modem 2, configured to work with a global system for mobile communications (GSM) and a packet switching system in mobile networks (GPRS), a subscriber ID card reader 8 (SIM card), the aforementioned speaker 10, the aforementioned micro background 9, the aforementioned display 28, vibrator 11, bell 12, input / output port 13, external power supply port 17, power supply battery 16, infrared input / output port 26, universal serial input / output port (USB) 27, application processor 15 , a wireless data transceiver 18, one antenna 19 of which is built into the terminal 1 housing and designed to communicate with an external wireless data transceiver 22 (Bluetooth), and another antenna 20 is built into the terminal 1 housing and designed to communicate with an external modem 21 connected with a wireless local area network (WLAN - Wireless Local Area Networks), a port for connecting a keyboard 23, a port for connecting a personal computer card 24 (PC Card PCMCIA), a video lens 25, a reader for multimedia or secure digital cards 14 (MMC / SD cards ) and a receiver for reception

data from the satellite system of the global positioning system 5 (GPS).

In addition, as can be seen from the drawing of FIG. 2, the first antenna 4 is connected to the external antenna 29 and the first connector, which is connected to the modem 2, the second antenna 7 is connected to the external antenna 29 and to the second connector 6, which is connected to the receiver 5, which is connected with an application processor and a modem 2, which is also connected to an external power supply port 17, a SIM card reader 8, a microphone 9, a speaker 10, a vibrator 11, a bell 12, an input / output port 13, a power supply 16, and an application processor 15.

In turn, the application processor 15 is also connected to an infrared I / O port 26, a universal serial input / output port (USB) 27, a display 28, a wireless data transceiver 18, a port 23 for connecting a keyboard, a PCMCIA 24 port, a video lens 25 and an MMC / SD card reader 14.

It should be noted here that the first antenna 4 is a GSM antenna, and the second antenna 7 is a GPS antenna.

In addition, it should be noted that, as can be seen from the drawing of FIG. 1, antennas 4, 7, 29 are located on one part of the communication terminal 1 on which the speaker is located, and antennas 19, 20 are located on the other part of the terminal 1 on which the display is located.

GSM / GPRS modem 2, as can be seen from the drawing of FIG. 3, includes a power amplifier 32, a radio frequency amplifier 33, a central processor 34, a power management device 36, and a control and monitoring device 35 for controlling and controlling a vibrator 11, a speaker 10, a bell 12 and a microphone 9, as well as for controlling power supply to the Central processor 34, the power amplifier 32, the radio frequency amplifier 33 and the application processor 15.

The power amplifier 32 is connected to the first connector and to the radio frequency amplifier, which is connected to the central processor 34. This processor 34, in turn, is also connected to a SIM card reader 8, a monitoring and control device 35, an input / output port 13 and an application processor 15 , the monitoring and control device 35, in turn, is also connected to a microphone 9, a speaker 10, a vibrator 11, a bell 12, a GPS receiver 5, an application processor 15 and a power management device 36, which is also connected to the external power port 1 7 and the battery 16.

It should also be noted that a digital signal processor, a microcontroller, an analog-to-digital converter, and a digital-to-analog converter (not shown) are integrated in the central processor 35.

The claimed terminal operates as follows.

A message from the base station 30 of the GSM / GPRS network operator is sent to the GSM antenna 4 of terminal 1. Next, the message is transmitted through connector 3 to the GSM / GPRS modem 2, which operates in the frequency ranges 850/1900 MHz and 900/1800 MHz. A message can be sent and received via the Short Message Service (SMS) of mobile operators or packet switching technology in GPRS (General Packet Radio Service) mobile networks.

Communication terminal 1 has a keypad for dialing (not shown in the drawing) or dialing can be done on touch displays 28, dialing can also be done using a keypad (not shown in the drawing), which is connected to port 23 for dialing a general telephone number use (PSTN) or subscriber to a cellular network (GSM or CDMA network). To conduct a conversation, terminal 1 has a microphone 9 and a speaker 10, in addition, terminal 1 has a device for wireless Bluetooth data reception and WLAN 18 with antennas 19 and 20.

Mobile communication terminal 1 can be used as a cell phone. When a call is made from a PSTN subscriber or a GSM cellular subscriber (or CDMA network), the message is sent to antenna 4 (or antenna 29), power amplifier 32 with an antenna switch (not shown in the drawing), radio frequency amplifier 33, and processor 34, then goes to a bell 12 or a vibrator 11 that are connected to the monitoring and control device 35 of the communication terminal 1. When you press the button to receive a call located on the terminal 1 housing connected to the monitoring and control device 35 (not shown), the speaker 10 and microphone 9 or hands-free headsets (not shown), the user communication terminal 1 can conduct a conversation with the caller, e.g., the public telephone network user. Furthermore, as shown in FIG. 1, a user of terminal 1 can talk with a caller using a Bluetooth 22 wireless data transceiver.

It should be noted here that the subscriber who owns the communication terminal 1 can communicate with other subscribers of the public telephone network or GSM networks (or CDMA networks). For this, the communication terminal 1 has a touch display 28, with which the subscriber of the communication terminal 1 selects the keyboard command in the menu bar (not shown in the drawing), while the numbers O, 1, 2, 3, 4, 5 appear on the screen of the display 28 6, 7, 8, 9 (not shown in the drawing). Another enter button, located on the touch screen of the communication terminal 1 (not shown), sequentially dials the telephone number of the subscriber of the public telephone network or GSM network (or CDMA network) on the display screen 11, for example, 7095 109 6172. Having dialed the telephone number on the display screen 28, the subscriber of the terminal 1 presses the call button located on the displays 28 of the communication terminal 1 (not shown). The call signal enters the application processor 15, the central processor 34, the radio frequency amplifier 33, the power amplifier

32 with an antenna switch (not shown in the drawing), an antenna 4 n further to the base station 30 of the cellular GSM operator, then through the controller to the mobile switch of the cellular operator (not shown), where the connection is made to the called subscriber of the GSM network (or CDMA network ) or a connection with a subscriber of a public switched telephone network.

It should be noted that it is possible to connect to the terminal 1 an external keyboard that connects to the processor 15 (not shown in the drawing) through port 23.

The central processor 34 controls the operation of logical, arithmetic and other operations of internal and external devices connected to the terminal 1 through the application processor 15 and the input / output ports 26.27 and the control and management device 35. The controller (not shown) is designed to connect external devices (for example computer) through the universal I / O port 27. External devices, for example, a printer can be connected through the infrared I / O port 26. When connecting external devices, for example, to ports 26 and 27, software, you can enter programs and data (phone numbers, photos, melodies, etc.) into the terminal 1. The processor 35 can perform operations for receiving and sending messages through the short message service (SMS - Short Message Service) of cellular communication operators or packet switching technology in mobile networks GPRS (General Packet Radio Service).

Thanks to the presence of the application processor 15, it is possible to connect a video lens 25, with which you can take photos and film objects, then use the reader 14 to write images to the memory of MMC / SD cards or use the GPRS technology MMS multimedia image transfer service to transfer them via GSM network to subscribers. External devices can be connected to the PC Card - PCMCIA port, for example, data storage devices of various capacities (5 GB or more).

10

It should be noted that it is possible to connect to the communication terminal 1 an external Bluetooth 22 wireless data transceiver (telephone headset with microphone and speaker), which connects to the antenna 20 of the Bluetooth wireless data transceiver and WLAN 18, which is connected to the application processor 15. The processor 15 and the Bluetooth device and WLAN 18 connected by internal interfaces determine the protocol of operation of terminal 1 and the frequency range 2400 - 2483.5 MHz.

The main feature of the Bluetooth 18 device is that various Bluetooth devices, for example, telephone headsets with Bluetooth 22 devices, are connected to each other automatically, they only need to be within reach (at a distance of about 10 - 30 meters). Once near the Bluetooth device 18 of Terminal 1, other Bluetooth devices, such as a telephone headset with a Bluetooth device 22, can establish not only point-to-point connections when there are only two devices, but also point-to-multipoint when one The Bluetooth 18 device works with several others at the same time.

Automatically connecting between a Bluetooth 18 device and other Bluetooth devices within reach is one of Blueooth’s most important features. The operation of the Bluetooth 18 device in an unfamiliar environment is the search for other Bluetooth devices, for example, a telephone headset with a Bluetooth device 22. For this, a request is sent and the answer to it depends not only on the presence of active Bluetooth devices in the communication radius, but also on the mode in which these devices are located.

The Bluetooth device 18 and other devices, such as Bluetooth 22, agree among themselves on the frequency range used, page size, number and other physical parameters of the connection. Once the connection is established, it can be used for a variety of purposes. Perhaps this is due to a set of basic protocols.

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used in Bluetooth technology to transmit various types of data, for example, voice from a Bluetooth 22 wireless data transceiver.

It should be noted that the communication terminal 1 has a combined Bluetooth wireless transceiver and WLAN 18. This enables the terminal 1 to work with the modem 21 of the wireless local area network WLAN, transmit data to the antenna 19 of the device 18, then this data is sent to the application processor 15 , then to the processor 34, the radio frequency amplifier 33, the power amplifier 32 with an antenna switch (not shown in the drawing), the antenna 4 and transmit to the base station 30 of a GSM cellular operator, through which GPRS data is transmitted to IP network (Internet). Communication terminal 1 operates in the GSM / GPRS network of the cellular communication operator, which SIM card is inserted into the SIM card reader 8, which is connected to the central processor 34.

To control the communication terminal 1, the processor 34 has a built-in dual-tone DTMF multi-frequency receiver (not shown), which receives control signals from a telephone connected to the PSTN, which is connected to a GSM network. Data and messages are received as described above.

Now consider the structure and operation of the communication terminal 1 for receiving GPS signals 31 and determining the location.

When receiving a message (command) to request the location of communication terminal 1, using the SMS short message service or GPRS technology, GSM / GPRS modem 2 performs the operation of requesting coordinates of survey points through processor 34 to GPS receiver 5. GPS receiver 5 constantly receives signals through GPS antenna 7 or combined GSM / GPS 29, connected respectively to connector 6, from the satellite system of the GPS 31 global positioning system. Received data (latitude, longitude, speed

movements, etc.) the GPS receiver 5 transmits to the application processor 15, which analyzes the obtained coordinates of the survey points and performs an operation to change the data by a given value of the standard deviation of the coordinates. The coordinates of geodetic points and points of the earth's surface with a given standard deviation are transmitted from the application processor 15 to the central processor 34, then to the radio frequency amplifier 33, power amplifier 32 with an antenna switch (not shown), antenna 4 or a combined GSM / GPS antenna 29 connected respectively to the connector 3, and are transmitted to the base station 30 operator of the GSM networks.

The coordinates of geodetic points and points of the earth's surface can be sent via SMS of cellular communication operators or using GPRS technology, the processor determines the transmission channel 34. Upon receipt of certain commands (by password), the processor 15 may not perform the operation to change the geodetic data by a given value of the standard deviation of coordinates . The processor 15 has the ability to encrypt to transmit the coordinates of the survey points received from the GPS receiver 5. Using GPRS technology allows you to continuously transmit the coordinates of the location of the communication terminal 1 through the base station 30 of the GSM cellular operator.

As a rule, telematics services operators (not shown) are connected to the GSM network cellular operators, who have an Internet access marshalling device and a server with cartographic information (a server with a map). An Internet user, by going to the telematics operator’s WEB site with a password, can make a request for the location of the communication terminal 1. The user’s request for the location of the communication terminal 1 is transmitted via the Internet to the mobile switch of the cellular communication operator and arrives at the controller (not shown), further to the base station 30. From the base station 30, the message is transmitted to the antenna 4 or 29 of the communication terminal 1, then the message

arrives at a power amplifier 32 with an antenna switch (not shown in the drawing), a radio frequency amplifier 33, a central processor 34, an application processor 15, which, according to algorithms recorded in memory (not shown in the drawing), reads data (latitude, longitude, speed of movement, etc.) .p.) from the GPS receiver 5, received from GPS satellites 31. Data received from the GPS receiver 5 (latitude, longitude, moving speed, etc.) is transmitted to the application processor 15, central processor 34, then to the radio frequency amplifier 33 and 32 power amplifier with antenna lane switch (not shown), a combined GSM / GPS antenna 29 or antenna 4 and are transmitted to the base station 30 of the cellular operator. From the base station 30, data (latitude, longitude, speed of movement, etc.) are transmitted to the controller and mobile switch of the cellular operator to which the SMS server or router for receiving and receiving GPRS is connected (not shown in the drawing). The mobile operator’s marshalls are usually connected to the Internet network, which in turn is connected to the telematics operator’s router, and a server with map information is connected to it via a local area network (not shown). Data (latitude, longitude, speed of movement, etc.) received from the communication terminal 1 is tied to a card located on the server of the telematic operator, to which Internet users have access. Thus, any user by logging in (using a password) to the telematics operator’s WEB site will receive not only data (latitude, longitude, movement speed, etc.) about communication terminal 1, but can also monitor the movements of a user of a personal navigation communication terminal 1 (not shown in the drawing).

The power of the communication terminal 1 can be carried out from the battery 16, which can also be a battery, or an external source connected to the external power port 17.

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Thus, through the introduction of a device for wireless data transmission via Bluetooth and WLAN 18 and the redistribution of functions between terminal elements, productivity is improved, thereby solving the problem of the utility model.

Communication terminal 1 works for the EGSM system in the 900/1800 MHz bands, and for the GSM system in the 850/1900 MHz bands and the Bluetooth and WLAN 2400 devices - 2483.5 MHz,

The manufacture of terminal 1 is carried out using Motorola’s GSM / GPRS modem 2 G20 and GPS receiver 5 FS Opsoghe (registered mark of Motorola), GSM / GPRS modem 2 can be used on the basis of Motorola’s G20 module (dimensions 45.2 x 24, 4 X 6 mm) or Motorola’s G21 module (dimensions 30 x 33.5 x 2.9 mm), a wireless radio data transmission device via Bluetooth and WLAN 18 based on microassemblies, for example, Texas WLAN TNETW1100B / TNETW1130 and BRF6100 from Texas Instruments, an application processor, for example, based on an Intel processor PXA262.

It should be noted that the OMAR161x processor (OMAR1610, OMAR1611, OMAR1612) from Texas Instruments or Motorola-based MCS based on ARM11 (a registered trademark of ARM) can also be used as an application processor.

When using a Motorola GSM / GPRS i.250-20 chip G20 module in communication terminal 1, modem 2 contains a POWER 32 amplifier with an antenna switch (not shown in the drawing) Motorola MMM6010A / 6011 A micro-assemblies, a radio frequency amplifier 33 based on micro-assemblies Motorola MC13712, a processor 34 based on a Motorola DSP56621 chip, a control and management device 35 based on a Motorola micro-assembly MC13713, a power management device 36 based on a Motorola micro-assembly MC13718.

It should be noted here that the DSP56600 digital signal processor with a frequency of 104 MHz and the ARM7TDMI-S microcontroller with a frequency of 52 MHz, an analog-to-digital converter, and a digital-to-analog converter (not shown) are integrated in the central processor 34.

In another embodiment, when Motorola G21 module modem 2 is used in GSM / GPRS terminal 1, Motorola i.250-21 chips are used: power amplifier 32 with antenna switch (not shown) Motorola micro-assemblies MMM6022, radio frequency amplifier 33 on based on Motorola micro-assembly MC13777, processor 34 based on Motorola microchip DSP56631, monitoring and control device 35 based on Motorola micro-assembly MC13717, power-sharing device 36 based on Motorola micro-assembly MC13718. In this embodiment, a central signal processor DSP56600 with a frequency of 130 MHz and a microcontroller ARM7TDMI-S with a frequency of 52 MHz, an analog-to-digital converter and a digital-to-analog converter (not shown) are integrated in the central processor 34.

Prototypes of communication terminals are made. Tests have shown that they comply with the requirements for GSM / GPRS subscriber radios and the requirements of GPS receivers and Bluetooth and WLAN technology.

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Claims (5)

1. A mobile communication terminal containing the first and second antennas, an external antenna, which is the antenna of the global system for mobile communications (GSM), combined with the antenna of the satellite system of the global positioning system (GPS), two connectors, a modem configured to work with the global a system for mobile communications (GSM) and a packet switching system in mobile networks (GPRS), a subscriber’s ID card reader (SIM card), a speaker, a microphone, a display, a vibrator, a call, an input / output port, an external e-port power supply, battery, infrared input-output port, universal serial input-output port (USB), application processor, wireless data reception and transmission (Bluetooth), one antenna of which is built into the housing of the mentioned communication terminal and is designed to communicate with an external device wireless data reception (Bluetooth), and another antenna is built into the housing of the mentioned communication terminal and is designed to communicate with an external modem connected to a wireless local area network (WLAN), a port for keyboard connections, a port for connecting a personal computer card (PC Card - PCMCIA), a video lens, a reader for multimedia or secure digital cards (MMC / SD cards) and a receiver for receiving data from the satellite system of the global positioning system (GPS), the second input of which connected to the fourth output of the GSM / GPRS modem, the output of the said receiver is connected to the second input of the application processor, the first input of the said receiver is connected to the output of the second connector, the first input of which is connected to the output of the second antennas, the first input-output of the GSM / GPRS modem is connected to the first input-output of the first connector, the second input-output of which is connected to the input-output of the first antenna, the input-output of the mentioned external antenna is connected to the third input-output of the first connector, and the output of the aforementioned an external antenna is connected to the second input of the second connector, the second input / output of the GSM / GPRS modem is connected to the input-output of the SIM card reader, the third input / output of the GSM / GPRS modem is connected to the input-output of the input-output port, the fourth input-output GSM / GPRS modem connected to input-output power supply, the fifth input / output of the GSM / GPRS modem is connected to the first input / output of the application processor, the first output of the GSM / GPRS modem is connected to the speaker input, the first input of the GSM / GPRS modem is connected to the microphone output, the second output of the GSM / GPRS modem is connected to vibrator input, the third output of the GSM / GPRS modem is connected to the call input, the fifth output of the GSM / GPRS modem is connected to the first input of the application processor, the second input of the GSM / GPRS modem is connected to the output of the external power port, the second input-output of the application processor is connected to the input- output mentioned the first MMC / SD card reader, the third input-output of the application processor is connected to the input-output of the wireless data reception and transmission device (Bluetooth), the fourth input-output of the application processor is connected to the input-output of the keyboard port, the fifth input-output of the processor application is connected to the input-output port for connecting a personal computer card (PC Card - PCMCIA), the third input of the application processor is connected to the output of the video lens, the sixth input-output of the application processor is connected to the input-output of the display, seventh the input / output of the application processor is connected to the input / output of the universal serial input / output port (USB), the eighth input / output of the application processor is connected to the input / output of the infrared input / output port. 2. The communication terminal according to claim 1, characterized in that in it the display screen is a touch screen. 3. The communication terminal according to claim 2, characterized in that in it the first antenna is a GSM antenna, and the second antenna is a GPS antenna. 4. The communication terminal according to any one of claim 1, or 2, or 3, characterized in that the GSM / GPRS modem includes a power amplifier, radio frequency amplifier, a central processor, a power management device and a control and monitoring device for controlling and controlling a vibrator , a speaker, a bell and a microphone, as well as to control the power supply to the central processor, power amplifier, radio frequency amplifier and application processor, wherein the first input-output of the power amplifier is said first input-output GSM / GPRS modem, the second input-output of the 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 said second input-output of the GSM / GPRS modem, the third input-output 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 first output of the GSM / GPRS modem, the second output of the said monitoring and control device is connected to the the third output of the GSM / GPRS modem, the first input of the said monitoring and control device is connected to said first input of the GSM / GPRS modem, the second input of the said monitoring and control device is connected to the output of the power management device, the input of which is said second input of the GSM / GPRS modem, the input / output of the power management device is connected to the fourth input / output of the GSM / GPRS modem, the fourth input / output of the central processor is connected to the third input / output of the GSM / GPRS modem, the fifth input - the output of the central processor is connected to said fifth input / output of a GSM / GPRS modem, the third output of said monitoring and control device is connected to said second output of a GSM / GPRS modem, the fourth output of said monitoring and control device is connected to said fourth output of GSM / GPRS modem, the fifth output of said monitoring and control device is connected to said fifth output of a GSM / GPRS modem. 5. The communication terminal according to claim 4, characterized in that a digital signal processor, a microcontroller, an analog-to-digital converter and a digital-to-analog converter are built into the central processor.