RU42370U1 - PERSONAL COMMUNICATION TERMINAL (OPTIONS) - Google Patents

Abstract

The claimed utility model relates to telecommunication devices, namely to a personal communication terminal, which can be widely used for users of networks of the global system for mobile communications GSM (Global System for Mobile Communications). The technical result of this utility model is the ability to transmit video, voice and data, work in a wireless local area network (WLAN), increase productivity and reduce power consumption by introducing a ZigBee ™ wireless data transceiver into a personal communication terminal and redistributing functions between device elements. This result is achieved due to the fact that in one embodiment, the personal communication terminal comprises a ZigBee ™ wireless transceiver, microprocessor, microcontroller, video lens, control and power supply device, power supply battery, two connectors, a microphone, a speaker, two clock generators, an external power supply port . According to a second embodiment, the communication terminal further comprises an image processor.

Description

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

Known navigation communication terminal described in the patent of the Russian Federation No. 32943 U1, 09/27/2003, which contains: a GSM modem, a processor, a GPS receiver, a Bluetooth wireless data transceiver, an input-output port. However, this terminal has a drawback: there is no possibility of transmitting video images.

A well-known mobile phone is described in RF patent No. 34300 U1, 05.26.2003. This phone contains a transceiver, a GSM antenna, two I / O ports, an image processor, a microcontroller, and a video lens. The disadvantage of this device is that this device cannot work in a wireless local area network (WLAN).

Also known is a mobile radiotelephone described in US patent No. 6487421, 11.26.2002. This handheld mobile cordless telephone contains a transceiver, switch, display, antenna, microphone and speaker. However, this device also has its drawback: there is no possibility of transmitting video images and high power consumption.

Thus, the technical result of the utility model is the ability to transmit video, voice and data, work in a wireless local area network (WLAN), increase productivity and

reduction of energy consumption due to introduction of a ZigBee ™ wireless data transceiver into a personal communication terminal and redistribution of functions between device elements.

This result is achieved due to the fact that, according to the first embodiment, the personal communication terminal, comprising a power supply battery, a microphone, a speaker, an external power supply port, further comprises a microcontroller, a microprocessor, two clock generators, two connectors, a control and power device, designed to microphone and speaker controls, as well as microprocessor, video lens and ZigBee ™ wireless transceiver with low power consumption and transmission speed and from 10 to 250 Kbps, wherein the antenna of said ZigBee ™ wireless data transceiver is designed to transmit data to an external ZigBee ™ wireless data transceiver, the input / output of the ZigBee ™ wireless data transceiver via a serial peripheral interface (SPI) is connected to the second microprocessor input-output, the first input-output of which is connected to the first input-output of the microcontroller, the second input of which is connected to the output of the video lens, the first input of the microcontroller The driver and input of said ZigBee ™ wireless data transceiver device are connected to the second output of the said control and power supply device, the second input-output of which is connected via the serial peripheral interface (SPI) to the third input-output of the microprocessor, and the microprocessor output for clock signal output is connected with the first input of the said control and power supply device, the first input-output of which is connected to the input-output of the power supply battery, the third input will be mentioned th power control device and connected to the output port external power supply, a second input and a power control device connected to the output of the first

connector, the input of which is connected to the microphone output, the first output of the control and power supply device is connected to the input of the second connector, the output of which is connected to the speaker input, the clock output of the said ZigBee ™ wireless data transceiver device is connected to the input of the first clock generator, the output of which is connected to the clock the input of the said ZigBee ™ wireless data transceiver, the first microprocessor clock output is connected to the clock input of the second clock generator, the output of which th is connected to a clock input of the microprocessor.

In a private embodiment, the personal communication terminal is a telephone built into the pen.

In another particular embodiment, the personal communication terminal is a telephone integrated into a watch.

In a particular embodiment, a voltage regulator, a voltage converter, an analog-to-digital converter and a digital-to-analog converter, an input sound amplifier, an output sound amplifier and a sound amplifier for a microphone are built into the control and power supply device.

According to a second embodiment, the personal communication terminal, comprising a power battery, a microphone, a speaker, an external power supply port, further comprises a microcontroller, a microprocessor, two clock generators, two connectors, an image processor, a control and power device for controlling the microphone and speaker, and also for powering the microprocessor, video lens and ZigBee ™ low-power wireless transceiver with a transfer rate of 10 to 250 Kbps, with the antenna of said ZigBee ™ wireless data transceiver is designed to transmit data to an external ZigBee ™ wireless data transceiver, wherein the input / output of the device

ZigBee ™ wireless data transceiver via a serial peripheral interface (SPI) is connected to the second input-output of the microprocessor, the first input-output of which is connected to the second input-output of the image processor, the first input-output of which is connected to the first input-output of the microcontroller, the second input of which connected to the output of the video lens, the first input of the microcontroller, the input of the image processor and the input of said ZigBee ™ wireless data transceiver device are connected to the second output control device and power supply, the second input-output of which through a serial peripheral interface (SPI) is connected to the third input-output of the microprocessor, the output of the microprocessor, designed to provide a clock signal, is connected to the first input of the said control and power device, the first input-output of which connected to the input / output of the power supply battery, the third input of the said control and power supply device is connected to the output of the external power supply port, the second input is arranged The control and power supply is connected to the output of the first connector, the input of which is connected to the microphone output, the first output of the control and power device is connected to the input of the second connector, the output of which is connected to the speaker input, the clock output of the said ZigBee ™ wireless data transceiver is connected to the input of the first generator clock frequency, the output of which is connected to the clock input of the said ZigBee ™ wireless data transceiver, the first microprocessor clock output is connected to that striation input of the second clock generator, whose output is connected to a clock input of the microprocessor.

In a private embodiment, the personal communication terminal is a telephone built into the pen.

In another particular embodiment, the personal communication terminal is a telephone integrated into a watch.

In a particular embodiment, a voltage regulator, a voltage converter, an analog-to-digital converter and a digital-to-analog converter, an input sound amplifier, an output sound amplifier and a sound amplifier for a microphone are built into the control and power supply device.

The claimed utility model is illustrated by the following drawings: FIG. 1, which shows a structural diagram of the claimed communication terminal in accordance with the first embodiment; figure 2, which shows a structural diagram of the claimed communication terminal in accordance with the second embodiment.

The claimed communication terminal 1 in accordance with the first embodiment, as shown in FIG. 1, comprises a ZigBee ™ 2 wireless transceiver, a microprocessor 3, a microcontroller 14, a video lens 13, a control and power supply device 4, a power supply 5, a first connector 9, a second connector 11, microphone 10, speaker 12, first clock generator 7, second clock generator 8, external power port 15 to which an external power source (not shown) is connected, while the input / output of the device is wireless ZigBee ™ 2 is connected via a serial peripheral interface (SPI) to the second input-output of the microprocessor 3, the first input-output of which is connected to the first input-output of the microcontroller 14, the second input of which is connected to the output of the video lens 13, the first input of the microcontroller 14 and the input of said ZigBee ™ 2 wireless data transceiver device is connected to a second output of said control and power supply device 4, the second input-output of which is through peripheral serial th interface (SPI) is connected to the third input-output of the microprocessor 3, the output of the microprocessor 3, designed to provide a clock signal, is connected to the first input of the said control and power supply device 4, the first input-output

which is connected to the input / output of the power supply battery 5, the third input of the said control and power supply device 4 is connected to the output of the external power supply port 15, the second input of the control and power supply device 4 is connected to the output of the first connector 9, the input of which is connected to the output of the microphone 10, the first output control and power devices 4 are connected to the input of the second connector 11, the output of which is connected to the input of the speaker 12, the clock output of the aforementioned wireless data transceiver ZigBee ™ 2 is connected with the input of the first clock generator 7, the output of which is connected to the clock input of the ZigBee ™ 2 wireless data transceiver, the first clock output of the microprocessor 3 is connected to the clock input of the second clock 8, the output of which is connected to the clock input of the microprocessor 3.

In a particular embodiment, the personal communication terminal 1 is a telephone integrated in a pen (not shown in the drawing).

In another particular embodiment, the personal communication terminal 1 is a telephone integrated into a wristwatch (not shown in the drawing).

In the second embodiment, this communication terminal 1 further comprises an image processor 16, the first input-output of which is connected to the first input-output of the microcontroller 14, the second input-output of which is connected to the first input of the microprocessor 3.

The said ZigBee ™ 2 wireless transceiver is energy efficient and has a transmission speed of 10 to 250 Kbps, while the antenna 6 of said ZigBee ™ 2 wireless data transceiver is designed to transmit data to an external ZigBee ™ wireless data transceiver (not shown shown).

In addition, it should also be noted that a voltage regulator, a voltage converter, an analog-to-digital converter and a digital-to-analogue converter are built into the control and power supply 4

a converter, an input sound amplifier, an output sound amplifier, and a sound amplifier for a microphone.

In a second embodiment, the claimed communication terminal, as shown in FIG. 2, further comprises an image processor 16, the first input-output of which is connected to the first input-output of the microcontroller 14, the second input-output of the image processor 16 is connected to the first input-output of the microprocessor 3 and the input of the image processor is connected to the second output of the control device and power supply 4.

In a particular embodiment, the personal communication terminal 1 is a telephone integrated in a pen (not shown in the drawing).

In another particular embodiment, the personal communication terminal 1 is a telephone integrated into a wristwatch (not shown in the drawing).

The claimed communication terminal operates as follows.

The image is fed to a video lens 13, which, as a rule, contains a matrix of active elements, a line decoder, a column decoder, analog amplifiers and processing circuits, analog-to-digital converters, digital blocks (not shown in the drawing). From the output of the digital blocks (not shown in the drawing) of the video lens 13, the processed video data is supplied to the microcontroller 14, which determines the image transmission algorithm. The microcontroller 14 transmits the video data received from the video lens 13 to the microprocessor 3 with an integrated image processor (not shown) in the first embodiment or to the image processor 16 in the second embodiment, which transmits these video data to a ZigBee ™ 2 wireless data transceiver that transmits these video data to an external ZigBee ™ wireless data transceiver (not shown in the drawing) and then through a packet switching system in mobile networks (GPRS) of network operators of the global system we are a GSM mobile phone (Global System for Mobile Communications) on

MMS multimedia message server. The operation algorithm of the communication terminal 1 for video transmission is determined by the user based on programs recorded in the memory of the microcontroller 14 (not shown in the drawing) or the memory of the microprocessor 3.

Consider the operation of the ZigBee ™ 2 Wireless Data Transceiver (ZigBee ™ is a registered trademark of the ZigBee ™ Alliance of IEEE 802.15.4).

The user of the terminal 1 can transmit the received video data from the video lens 13 or voice messages from the microphone 10 to other external devices via a wireless local area network (WLAN) formed using ZigBee ™ 2 wireless data transceivers.

Received audio data from external devices with built-in ZigBee ™ wireless data transceivers are sent to antenna 6, ZigBee ™ 2 wireless data transceiver, microprocessor 3, and then to control device 4 and transmitted to speaker 12.

In this embodiment, the distance from the communication terminal 1 to external wireless data transceivers with integrated ZigBee ™ can be from 10 to 100 meters.

Bluetooth technology is already actively used in mobile phones, personal organizers, computers and other devices. The disadvantage of Bluetooth technology: high power consumption and short range. ZigBee ™ technology has the advantage of supporting large networks with several hundred functioning devices.

Wireless Local Area Network (WLAN) powered by ZigBee ™ technology will support up to 255 connected devices. Bluetooth technology is only 8.

Wireless Local Area Network (WLAN), built on ZigBee ™ technology has an average range of about 75 meters, Bluetooth technology - 10 meters.

The main advantage of ZigBee ™ 2 is its low power consumption. The ZigBee ™ technology still has such a positive feature as significantly less mutual interference from many devices working side by side. In this regard, Bluetooth technology is losing technology ZigBee ™.

The ZigBee ™ 2 wireless data transceiver device has a receiver and transmitter (not shown in the drawing) that instruct an external wireless data transceiver with built-in ZigBee ™ (not shown in the drawing) to transmit data, for example, received from GPS satellites (latitude, longitude, etc.) through a GPS antenna combined with ZigBee ™ (not shown in the drawing). The ZigBee ™ 2 Wireless Transceiver is called the wizard.

The main feature of the ZigBee ™ 2 device is that various devices with a built-in ZigBee ™ connect to each other automatically, they only need to be within reach (at a distance of about 10-75 meters).

Once close to a ZigBee ™ 2 device, an external device with an integrated ZigBee ™ (not shown in the drawing) can establish not only point-to-point connections when there are only two devices, but also point-to-multipoint when one ZigBee device ™ 2 simultaneously works with several others, so it is possible to organize a wireless local area network (WLAN).

The ZigBee ™ 2 device can work simultaneously with several other external devices with an integrated ZigBee ™ that can be equipped with: light controllers

rooms, thermostats, air conditioners, remote controls, wireless keyboards and “mice” for a computer, smoke and carbon dioxide sensors, help call devices for elderly people, home automation devices, etc. (not shown in the drawing).

Using your ZigBee ™ 2 device in an unfamiliar environment is looking for other devices with an integrated ZigBee ™ device, such as a GPS module with an integrated ZigBee ™ device. To do this, a request is sent, and the answer to it depends not only on the presence of active ZigBee ™ devices in the communication radius, but also on the mode in which these devices are located.

The ZigBee ™ 2 device and an external device with an integrated ZigBee ™ (not shown in the drawing) agree 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 the set of basic protocols used in ZigBee ™ technology for transferring various types of data, for example, data transfer from a GPS module with an integrated ZigBee ™ device to a ZigBee ™ 2 device.

In another embodiment, the user of terminal 1 can transmit the received data from external devices with built-in ZigBee ™ through the packet switching system in the mobile communication networks (GPRS) of the network operators of the global system for mobile communications GSM (Global System for Mobile Communications).

The received message from terminal 1 receives a mobile phone with an integrated ZigBee ™ device and then to the controller and mobile communication center (MSC) of the cellular operator (not shown) to which the router is connected. The mobile operator’s router is also connected to the Internet, to which

a multimedia messaging server is connected to which received data from external devices is received.

The microprocessor 3 controls the operation of internal and external devices connected to the communication terminal 1: a display, a keyboard, a bell or a vibrator (not shown in the drawing), a power monitoring and control device 4, and a ZigBee ™ 2 device.

The monitoring and control device 4 serves to connect, the speaker 12 and the microphone 10, the distribution of power between the elements of the communication terminal 1.

Communication terminal 1 has the ability to voice dial a subscriber to a public switched telephone network (PSTN) or a subscriber to a cellular network (GSM or CDMA network). For conversation, terminal 1 has a microphone 10 and a speaker 12.

To the control device and power supply 4 can be connected to a device of the type "hands-free" (not shown).

Mobile communication terminal 1 can be made in the form of a watch or pen.

When a call comes from a PSTN subscriber or a subscriber of a GSM cellular network (or CDMA network) to a mobile phone with a built-in ZigBee ™ device, the message can be forwarded to communication terminal 1, where it goes to antenna 6, ZigBee ™ 2 device, microprocessor 3, and then to the control and power device 4. When you press a key, for example, “receive a call” located on the terminal 1 (not shown in the drawing) connected to the microprocessor 3, the control and power device GCAP3 (Global Control Audio Pow er III IC) 4 and the speaker 12 is turned on. The subscriber of the communication terminal 1 can talk with the caller

a subscriber, for example, a subscriber of the telephone network of a common user using a microphone 10.

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).

The user can dial the telephone number on the keyboard that is connected to the microprocessor 3 (not shown in the drawing), for example, 7 095 109 6172, then the subscriber of the terminal 1 presses the "send" button located on the housing of the communication terminal 1 (not shown in the drawing).

In another embodiment, the user of the communication terminal 1 has the option of voice dialing, while he voice calls the numbers of the telephone number of the subscriber of the public telephone network or GSM network (or CDMA network): 0, 1, 2, 3, 4, 5, 6, 7 , 8, 9.

In this embodiment, from the microphone 10, the signal is supplied to the device 4, where analog-to-digital conversion and sound amplification (not shown) are performed, then the converted voice dialing enters the microprocessor 3, where the “call” signal is sent, then the call signal is sent to ZigBee ™ 2 device, to which antenna 6 is connected, and then to a mobile phone with an integrated ZigBee ™ device, which transmits an operator to a GSM cellular station (not shown). Next, the message arrives at the controller, which is connected to the mobile switch of the cellular operator (not shown in the drawing), where it connects to the called subscriber of the GSM network (or CDMA network) or connects to the subscriber of the public telephone network (not shown).

The power of the mobile communication terminal 1 can be carried out from the battery 5, which can also be a battery, or an external source,

connected to the external power supply port 15. The voltage for power supply of the mobile communication terminal 1 is supplied to the control and power supply device 4, through which power is supplied to the microprocessor 3, ZigBee ™ 2 wireless transceiver device, microcontroller 14 and image processor 16 ..

The use of the ZigBee ™ 2 wireless transceiver enabled communication terminal 1 to operate on a wireless local area network (WLAN).

Thus, by introducing the ZigBee ™ 2 wireless transceiver operating in the frequency range 2.4-2.5 GHz, the utility model is solved: operation in a wireless local area network (WLAN) and low power consumption due to the introduction of a microcontroller 14 and a video lens 13 , the problem of the utility model is solved:

redistribution of functions between elements of the device, i.e. The performance of the personal communication terminal 1 is improved.

The manufacture of the communication terminal 1, shown in Fig.1-3, is carried out from the following typical elements: a control and power supply device 4 type GCAP3 (Global Control Audio Power III IC) of Motorola, as microprocessor 3 can be used microprocessor Dragonball 1.MX21 MC9328 Motorola's Motorola MC13192 can be used as a ZigBee ™ 2 wireless data transceiver.

As the microcontroller 14, a Motorola type 68 microcontroller 68 of the HC908LD64 can be used.

In the manufacture of communication terminal 1, the technology of the printed circuit flexible cable - PCB (Printed Circuit Board), which consists of a printed circuit board, transition devices and devices, can be used

fastenings (not shown in the drawing). Using RSV, all devices of the communication terminal 1 are connected and fixed.

Prototypes of communication terminals are made. Tests have shown that they meet the requirements for ZigBee ™ IEEE 802.15.4 wireless data transceivers.

Claims (8)

1. A personal communication terminal containing a battery, a microphone, a speaker, an external power port, characterized in that it contains a microcontroller, microprocessor, two clock generators, two connectors, a control and power device designed to control the microphone and speaker, as well as power supply to the microprocessor, video lens and ZigBee ™ low-power wireless transceiver with a transmission speed of 10 to 250 Kbps, while the antenna of the said device is free of ZigBee ™ wireless data transceiver is designed to transmit data to an external ZigBee ™ wireless data transceiver, the input / output of the ZigBee ™ wireless data transceiver via a serial peripheral interface (SPI) is connected to the second input-output of the microprocessor, the first input-output of which is connected to the first input - the output of the microcontroller, the second input of which is connected to the output of the video lens, the first input of the microcontroller and the input of the said wireless pre-transmission device ZigBee ™ data are connected to the second output of the said control and power supply device, the second input-output of which is connected via the serial peripheral interface (SPI) to the third input-output of the microprocessor, the microprocessor output intended to provide a clock signal is connected to the first input of the said control device and power supply, the first input-output of which is connected to the input-output of the power supply battery, the third input of the said control and power supply device is connected to the output a unit of external power supply, the second input of the control and power device is connected to the output of the first connector, the input of which is connected to the microphone output, the first output of the control and power device is connected to the input of the second connector, the output of which is connected to the speaker input, the clock output of the said ZigBee wireless data transceiver ™ is connected to the input of the first clock generator, the output of which is connected to the clock input of the said ZigBee ™ wireless data transceiver the first clock output of the microprocessor is connected to a clock input of the second clock generator, whose output is connected to a clock input of the microprocessor. 2. The communication terminal according to claim 1, characterized in that the personal communication terminal is a telephone built into the pen. 3. The communication terminal according to claim 1, characterized in that the personal communication terminal is a telephone embedded in the watch. 4. The communication terminal according to claim 1, characterized in that a voltage regulator, a voltage converter, an analog-to-digital converter and a digital-to-analog converter, an input sound amplifier, an output sound amplifier and a sound amplifier for a microphone are built into the control and power supply device. 5. A personal communication terminal comprising a battery, a microphone, a speaker, an external power port, characterized in that it contains a microcontroller, a microprocessor, two clock generators, two connectors, an image processor, a control and power device for controlling the microphone and speaker, as well as supplying power to the microprocessor, video lens and ZigBee ™ low-power wireless transceiver with a transmission speed of 10 to 250 Kbps, The ZigBee ™ wireless data transceiver is designed to transmit data to an external ZigBee ™ wireless data transceiver, while the input / output of the ZigBee ™ wireless data transceiver is connected via a serial peripheral interface (SPI) to the second microprocessor input-output, the first input-output of which connected to the second input-output of the image processor, the first input-output of which is connected to the first input-output of the microcontroller, the second input of which is connected connected to the output of the video lens, the first input of the microcontroller, the input of the image processor and the input of the said ZigBee ™ wireless data transceiver are connected to the second output of the said control and power supply device, the second input-output of which is connected via the serial peripheral interface (SPI) to the third input-output of the microprocessor , the output of the microprocessor, designed to issue a clock signal, is connected to the first input of the said control and power device, the first input the stroke of which is connected to the input / output of the power supply battery, the third input of the said control and power supply device is connected to the output of the external power supply port, the second input of the control and power supply device is connected to the output of the first connector, the input of which is connected to the microphone output, the first output of the control and power supply device is connected with the input of the second connector, the output of which is connected to the speaker input, the clock output of the said ZigBee ™ wireless data transceiver device is connected to the input of the first clock generator, the output of which is connected to the clock input of the said ZigBee ™ wireless data transceiver, the first clock output of the microprocessor is connected to the clock input of the second clock generator, the output of which is connected to the clock input of the microprocessor. 6. The communication terminal according to claim 5, characterized in that the personal communication terminal is a telephone built into the handle. 7. The communication terminal according to claim 5, characterized in that the personal communication terminal is a telephone embedded in the watch. 8. The communication terminal according to claim 5, characterized in that a voltage regulator, a voltage converter, an analog-to-digital converter and a digital-to-analog converter, an input sound amplifier, an output sound amplifier and a sound amplifier for a microphone are built into the control and power supply device.