RU2214692C2 - Method of development of telecommunication facilities based on radiotelephone nucleus, radiotelephone nucleus and telecommunication facilities developed in compliance with given method ( variants ) - Google Patents

Abstract

FIELD: communication facilities. SUBSTANCE: method is intended for development of telecommunication facilities based on completely functional radiotelephone nucleus. Facilities designed on basis of this method are meant to maintain radio communication of user with base station. Technical result of invention consists in possibility of development of telecommunication facility in correspondence with functional properties required by user, in timely modification of given facility in accordance with altering requirements of user, in unification of production, in reduced cost of finished product thanks to employment of standard quantity-produced devices for assembly. This technical result is achieved as radiotelephone nucleus is chosen from set of radiotelephone nuclei, from minimal to maximal number of units, each being placed in individual case. Each radiotelephone nucleus is built up for independent functioning while maintaining radio communication. Then expansion module ensuring number of additional functions is selected from set of expansion modules that is connected to equipment by means of network contacts which are available both in radiotelephone nucleus and in expansion module with formation of telecommunication facility with specified functional properties. EFFECT: possibility of development of telecommunication facility in correspondence with functional properties required by user. 11 cl, 15 dwg

Description

 The method is intended to create telecommunication devices based on the radiotelephone core. Devices created by this method are designed to provide user radio communications with a base station, for example, a base station of a home radiotelephone, either from one of the base stations of private networks, or from one of the base stations of telegraph, telephone companies. The base station can use either an analog or digital data transmission standard (for example, DECT, GSM, D-AMPS standards).

 Telecommunication devices are known (EP 0918427 A2, IPC H 04 M 1/72, priority dated 11/21/1997), created on the basis of an incomplete radiotelephone core (base unit) having an electronic circuit, and an expansion module (additional unit), which also has an electronic circuit, while the input / output of signals to / from the expansion module (additional unit) ensures the operation of the device for transmitting signals to / from the base station, while n expansion modules (additional blocks) are declared.

 Telecommunication devices are also known (EP 0887987 A2, IPC H 04 M 1/72, priority 24.06.1997), created on the basis of a dysfunctional radiotelephone core (cartridge) having an electronic circuit, for loading it into a slot created in the expansion module ( mobile communication terminal), while input / output of signals to / from the expansion module (mobile telecommunication terminal) ensures the functioning of the device for transmitting signals to / from the base station, with 6 expansion modules (mob ial telecommunication terminals). However, the devices being created are not equipped with the ability to quickly modify them in accordance with the changing requirements of the consumer due to the inability to use standard serial-manufactured expansion modules (mobile telecommunication terminals), computers, video cameras, etc., as according to this technical solution, these expensive products must be manufactured with special devices for installing a core (an incomplete cartridge) in them, which leads to a rise in the cost of the final product and the inability to use the expansion modules available to the consumer.

 The technical problem solved by this method and device is to provide opportunities for the consumer by selecting the appropriate radiotelephone core from the set of radiotelephone cores and selecting the appropriate expansion module from the set of expansion modules and connecting them to each other to obtain a telecommunication device in accordance with the functional properties necessary for the consumer, and also providing the possibility of additional connection of external devices, which can be sensors, executive devices, computers, for obtaining telecommunication devices of a higher level, along with the possibility of operational modification of this device in accordance with changing consumer requirements, as well as the unification of production, the cost of the finished product due to the use of standard devices commercially available for assembly for assembly.

 The essence of the method lies in the fact that choose a radiotelephone core, placed in an independent building and made with the possibility of independent functioning while maintaining at least one-way radio communication, at least with a base station, while the content of blocks of the radiotelephone core can be either minimal including a core controller, a core radio module, an antenna, a keyboard, a power supply, microphone circuit contacts, a microphone, dynamic core telephone circuit contacts, control circuit contacts, or maximum, in addition to the above blocks, including a call, contacts of the ringer circuit, a display, or an intermediate between them.

 Then, an expansion module is selected that provides a number of additional functions, either minimum in terms of block contents, including a dynamic telephone, contacts of a dynamic telephone circuit, or maximum in block contents, including, in addition to the above blocks, a controller, module control circuit contact, vibration alert, vibration alert circuit contacts, microphone module, module microphone circuit contacts, module amplifier, module loudspeaker, additional keyboard, video camera, module display, sensor circuit module contacts contacts, contacts of the circuit module of the actuator, contacts of the module of the circuit of the computer, the power supply unit of the module, or intermediate between them, and connected to the radiotelephone core with the formation of a telecommunication device through the contacts of the chains available both in the radiotelephone core and the expansion module.

 By this method, it is possible to connect external devices to the expansion module.

 The radiotelephone core can be either minimal in content of blocks, including the core controller, the core radio module, antenna, keyboard, power supply unit, microphone circuit contacts, microphone, dynamic telephone core circuit contacts, control circuit contacts, at the same time, to the 1st input-output of the controller the core is connected to the 1st input-output of the core radio module, a keyboard is attached to the 1st input of the core controller, a microphone and microphone outputs of the microphone circuit are connected to the second input of the core controller, the power input of the core controller is connected to The 1st output of the power supply unit, the input of the core radio module power is connected to the 2nd output of the power supply unit, the 2nd input-output of the radio core module is connected to the input-output of the antenna, the 3rd output of the core controller is connected to the input terminal of the dynamic telephone circuit of the core, or the maximum in terms of block content, in addition to the above blocks including a bell, ringer circuit contacts, display, or intermediate between them in block content, with the 1st output of the kernel controller attached to the bell, the 2nd output of the kernel controller attached İnönü to the display.

 A telecommunication device includes a radiotelephone core and an expansion module with a connection providing two-way exchange, while a radiotelephone core placed in an independent housing and configured to function independently while maintaining at least one-way radio communication with the base station is either minimal in content of blocks, including core controller, core radio module, antenna, keyboard, power supply, microphone circuit pins, microphone, speaker circuit pins core telephone, control circuit pins, while the 1st input of the core controller is connected to the keyboard output, the 2nd input of the core controller is connected to the output of the microphone circuit pins and the microphone, the 3rd output of the core controller is connected to the pin input of the dynamic kernel phone circuit , The 1st input-output of the core controller is connected to the 1st input-output of the radio core module, the 2nd input-output of the radio core module is connected to the input-output of the antenna, the power input of the core controller is connected to the 1st output of the power supply, power input radio core module connected to the 2nd output of the power supply unit, either maximum in terms of block content, in addition to the above blocks including a bell, ringer circuit contacts, display, or intermediate between them in block content.

 The expansion module, enclosed in at least one case, is either minimal in terms of block contents, including a dynamic telephone, contacts of a dynamic telephone circuit, and the output of contacts in a circuit of a dynamic telephone connected to the input of a dynamic telephone, or maximum in block contents, including in addition to the above controller, contacts of the control circuit of the module, vibration alert, contacts of the vibration alert circuit, amplifier of the module, loudspeaker of the module, microphone of the module, contacts of the microphone circuit blowing, additional keyboard, video camera, module display, contacts of the sensor circuit module, contacts of the actuator circuit module, contacts of the computer circuit module, power supply module, or intermediate between them according to the content of the blocks. The core and the expansion module are connected to each other by connecting the output of the contacts of the dynamic telephone circuit of the kernel to the input of the contacts of the dynamic telephone circuit of the expansion module.

 One of the solutions for a telecommunication device is that in the maximum block composition of the radiotelephone core, the 1st output of the core controller is connected to the bell, the 2nd output of the core controller is connected to the display, and in the maximum expansion module the 1st input - the controller output is connected to the 1st input-output of the module control circuit contacts, the 1st controller input is connected to the auxiliary keyboard output, the 3rd controller input is connected to the sensor circuit module contacts, the video camera output is connected to The 2nd input of the controller, the 3rd output of the controller is connected to the contacts of the circuit module of the actuator, the input of the dynamic telephone is connected to the output of the contacts of the circuit of the dynamic telephone, the input of the vibrating alert is connected to the input of the contacts of the vibrating alert circuit, the 1st output of the controller is connected to the input of the display of the module, The 2nd output of the controller is connected to the control input of the amplifier of the module, the signal input of the amplifier of the module is connected to the output of the contacts of the dynamic telephone circuit, the output of the amplifier of the module is connected to the loudspeaker Odulov 2nd input-output controller coupled to the computer circuit module contacts.

 Moreover, the maximum core and the maximum expansion module are connected to each other by connecting the contact output of the circuit of the dynamic telephone of the core to the input of the contacts of the circuit of the dynamic telephone as part of the module, the 2nd input-output of the contacts of the control circuit to the 2nd input-output of the contacts of the control circuit of the module, the input of the contacts of the vibrating alert circuit to the output of the contacts of the call circuit, and the input of the contacts of the microphone circuit in the core to the output of the contacts of the microphone circuit of the module.

 It is possible to connect external devices to the telecommunication device, which can be a sensor, an actuator, a computer, and to connect them to the expansion module, contacts of the sensor circuit module, contacts of the actuator circuit module, contacts of the computer circuit module are added, and the output of the sensor circuit module contacts is connected to the 3rd controller input, the input terminal of the actuator circuit module is connected to the 3rd controller output, the 1st input-output of the computer circuit module and is connected to the 2nd input-output of the controller, and the sensor output is connected to the input terminal of the sensor circuit module, the input of the actuator is connected to the output terminal of the actuator circuit module, the input / output of the computer is connected to the 2nd input / output of the contacts of the computer circuit module.

 The telecommunication device is designed in such a way that the connection of the contacts of the microphone circuit of the module with the contacts of the microphone circuit is configured to disconnect the microphone circuit from the 2nd input of the core controller.

 Each radiotelephone core from a set of radiotelephone cores and each expansion module from a set of expansion modules in a telecommunication device created by the present method are different not only in the composition of electronic components, but also in the design of the cases.

 As expansion modules for a single-case version of a telecommunication device, a computer, a video camera, a loudspeaker, a dynamic telephone that do not require a case reconstruction are used.

 Extension modules of a telecommunication device may be multi-case.

 The invention is illustrated by drawings.

 Figure 1. Structural diagram of the interaction of the claimed device with a base station and charger.

 Figure 2. The structural diagram of the implementation of the proposed method and devices.

 Figure 3. Functional diagram of the minimum radiotelephone core.

 Figure 4. Functional diagram of the maximum radiotelephone core.

 Figure 5. Functional diagram of the minimum expansion module.

 6. Functional diagram of the maximum expansion module.

 7. Functional diagram of a telecommunication device consisting of a minimum radiotelephone core and a minimum expansion module.

 FIG. 8. Functional diagram of the maximum radiotelephone core with maximum expansion module and external devices.

 Fig.9. Maximum radiotelephone core in the housing.

 FIG. 10. A telecommunication device in a housing formed of a maximum radiotelephone core and a minimum expansion module.

 FIG. 11. The maximum radiotelephone core and the maximum expansion module in a single-case version.

 FIG. 12. An integrated telecommunication device in a single housing, consisting of a maximum core and a maximum expansion module.

 Fig.13. Multi-housing design of a telecommunication device, consisting of a maximum radiotelephone core and a maximum expansion module containing blocks in accordance.

 FIG. 14. An integrated telecommunication device in a single housing, consisting of a maximum radiotelephone core and a maximum expansion module with external devices.

 Fig.15. Housing options for the maximum expansion module.

Each device created by the claimed method consists of a radiotelephone core 1 to which an expansion module 2 can be connected. A radiotelephone core 1 together with a connected extension module 2 forms a telecommunication device 3. External devices 4 can be connected to the telecommunication device 3. Radiotelephone core 1 has an autonomous power supply, for the operation of which it is necessary to periodically connect the radiotelephone core 1 to the charger 5. Any device created by this method bu provides radio user (two-way communication via radio) with the base station 6 (FIG. 1.)
Figure 2 presents the structural diagram of the implementation of the method and device, which allows you to create device options for this method. In the minimum configuration, the device has a minimum set of implemented functions and is a radiotelephone core 1 (periodically connected to the charger 5). Adding an expansion module 2 to the radiotelephone core 1 forms a new object - a telecommunication device (radiotelephone handset) 3 with an increased capacity.

 A further increase in functionality is achieved by connecting external devices 4 to the telecommunication device 3.

Figure 2 presents examples of the radiotelephone core 1:
minimum radiotelephone core 7 (contains the minimum necessary, mandatory set of blocks, see also figure 3),
maximum radiotelephone core 8 (contains the maximum possible set of blocks, i.e., a mandatory set of blocks, as well as all additional blocks, see also figure 4),
it is also possible to implement an intermediate radiotelephone core 9 containing a mandatory set of blocks, as well as additional blocks in an arbitrary set.

Figure 2 also presents examples of the expansion module 2:
minimum expansion module 10 (contains the minimum necessary, mandatory set of blocks, see also figure 5),
maximum expansion module 11 (contains the maximum possible set of blocks, i.e., a mandatory set of blocks, as well as all additional blocks, see also Fig.6),
Intermediate expansion modules are also possible, containing the required set of blocks, as well as additional blocks in an arbitrary set.

 In FIG. 2 also presents examples of used external devices 4: computer 13, sensor 14, actuator 15.

 Functional diagram of the radiotelephone core 1 in the minimum configuration (minimum core 7) is presented in Figure 3. Figure 4 presents the functional diagram of the maximum radiotelephone core 8. The set of blocks of the intermediate radiotelephone core 9 is determined by the near prospects of creating telecommunication devices in this way, the set of blocks of the maximum radiotelephone core 8 is oriented for the foreseeable future, the set of blocks of the minimum core 7 is determined by the minimum price and dimensions of the device while maintaining functionality.

 The radiotelephone core 1 in the minimum configuration (minimum radiotelephone core 7) of FIG. 3 contains, as blocks, a core controller 16, a radio core module 17, an antenna 18, a keyboard 19, a power supply unit 20 comprising a battery 21 and contacts of a core power supply circuit 22. Minimum the radiotelephone core 7 also contains the contacts of the microphone circuit 23 and the contacts of the dynamic telephone 24, the contacts of the control circuit 29, the microphone 26. The specified set of blocks is mandatory for any radiotelephone core 1.

 The radiotelephone core 1 may also contain additional units (electronic components) providing it with additional functions (see Fig. 4). Additional blocks include call 25, display 27, contacts of the ring circuit of the core 28.

 The radiotelephone core 1 in the maximum configuration (maximum core 8) contains all of the listed main and additional blocks.

 The connection of the blocks of any radiotelephone core corresponds to this maximum core circuit (Fig. 4), and the keyboard 19 is connected to the 1st input of the core controller 16, a microphone 26 is connected to the 2nd input of the core controller 16, the 1st output of the core controller 16 is connected to call 25, and the 2nd output of the core controller 16 is connected to the display 27, the 1st input-output of the radio module of the core 17 is connected to the 1st input-output of the core controller 17, the power input of the core controller 16 is connected to the 1st output of the power supply 20, to the 2nd output of the power supply 20, the power input of the radio module of the core 17 is connected, the second input-output of the radio module of the core 17 is connected to the input-output of the antenna 18.

 The contacts of the core microphone circuit 23 are connected to the 2nd input of the core controller 16. The contacts of the kernel 28 ring circuit are connected to the 1st output of the core controller 16, the contacts of the dynamic telephone circuit of the core 24 are connected to the 3rd output of the core controller 16, the contacts of the control circuit 29 connected to the 2nd input-output of the kernel controller 16.

 The radiotelephone core 1 with a minimum set of blocks (the minimum radiotelephone core 7) of FIG. 3 can independently function as a radio information transmission device to the base station 6 and can be used, for example, for radio control of the base station 6 and an additional device, which can be located in the base station 6 or connected to it, for example, an answering machine (not shown in Fig.), and can also implement a listening function.

 Let us consider examples of variants of the radiotelephone core 1 and their use.

 If there is 1 call 25 in the radiotelephone core under consideration, the user can make an incoming connection (receive a call).

 Adding a display 27 allows you to receive graphic or symbolic information and display it on the display 27.

 As indicated above, any radiotelephone core 1 with any composition of blocks (from the minimum radiotelephone core 7 to the maximum radiotelephone core 8, as well as an intermediate, for example, radiotelephone core 9) is implemented in accordance with the functional diagram of the maximum radiotelephone core 8 (Fig. 4).

 The expansion module 2 in the minimum configuration - the minimum expansion module 10 (Fig.3) contains a dynamic telephone 30 and the contacts of the circuit of the dynamic telephone 31. The specified set of blocks is mandatory for any expansion module 2.

 Expansion module 2 in the maximum configuration (Fig. 7, maximum expansion module 11) contains a vibrating alert 32 with a contact of a vibrating alert 33, a controller 34 with a contact of a control circuit of module 35, an additional keyboard 38, a video camera 39 and a display of module 40, as well as an amplifier of module 36 and loudspeaker module 37.

 The maximum expansion module 11 also contains the microphone of module 41 and the contacts of the microphone circuit of module 42, and the connection of the contacts of the microphone circuit of module 42 with the contacts of the microphone circuit 23 is accompanied by disconnection of the microphone circuit 26 from the 2nd input of the core controller 16 (so that the signal the th input of the core controller 16 came only from the microphone of the module 42 and the microphone 26 located in the radiotelephone core did not cause interference).

 For connecting external devices 4 there are contacts of the sensor circuit module 43, contacts of the actuator circuit module 44, and contacts of the computer circuit module 45.

 Some expansion module 2 units may require power. The power of the blocks is provided by the power supply unit of module 46, either autonomous, for example, a battery, or connected to a 220 Volt network. The power inputs of the units of module 2, which need power supply, are connected to the corresponding outputs of the power supply unit of module 46 (communication data in Fig. Not shown).

 Intermediate expansion modules 2 are also possible with an arbitrary composition of blocks ranging from the maximum expansion module 11 to the minimum expansion module 10. Any expansion module 2 has a mandatory minimum set of blocks (dynamic telephone 30 and contacts of the dynamic telephone circuit 31) and additional blocks (vibration alert 32, vibration alarm circuit contacts 33, controller 34, module 35 control circuit contacts, module 36 amplifier, module 37 loudspeaker, additional keyboard 38, video camera 39, module 40 display, module 4 microphone 1, the contacts of the microphone circuit of module 42, the contacts of the sensor circuit module 43, the contacts of the circuit module of the actuator 44, the contacts of the computer circuit module, 45, the power supply unit of module 46), with which a certain set of functions of the expansion module 2 is realized.

 The connection of the blocks of any expansion module 2 with any composition of blocks (from minimum to maximum), for example, a minimum expansion module 10 or an intermediate expansion module, for example a typical expansion module 12, is implemented in accordance with the functional diagram of the maximum expansion module 11 (Fig.6).

 Moreover, the 1st input-output of the controller 34 is connected to the contacts of the control circuit of the module 35, the 1st input of the controller 34 is connected to the output of the additional keyboard 38, the 3rd input of the controller 34 is connected to the contacts of the module of the sensor circuit 43, the output of the video camera 39 is connected to 2 -th input of the controller 34, the 3rd output of the controller 34 is connected to the contacts of the circuit module of the actuator 44, the input of the dynamic telephone 30 is connected to the output of the contacts of the circuit of the dynamic telephone 31, the input of the vibrating alert 32 is connected to the contacts of the vibrating alert circuit 33, the 1st output of the controller RA 34 is connected to the display input of the module 40, the 2nd output of the controller 34 is connected to the control input of the amplifier of the module 36, the signal input of the amplifier of the module 36 is connected to the contact output of the circuit of the dynamic telephone 31, the output of the amplifier of the module 36 is connected to the loudspeaker of the module 37, the second input the output of the controller 34 is connected to the contacts of the circuit module of the computer 45.

 After the user has selected the radiotelephone core 1 corresponding to his needs, he, if necessary, selects a suitable expansion module 2, for example, either the minimum expansion module 10, or the maximum expansion module 11, or another expansion module 2, and connects the radiotelephone core 1 and expansion module 2.

 When connecting the radiotelephone core 1 and the expansion module 2, the contacts are closed.

 The radiotelephone core 1 together with the expansion module 2 forms an object - a telecommunication device 3 (radiotelephone handset) that implements two-way exchange of voice information through a radio channel.

 On Fig presents a diagram of a telecommunication device 3 (maximum radiotelephone core 8 connected to the maximum expansion module 11).

 After selecting the appropriate telecommunication device 3, the user can select external devices 4 and connect them to the telecommunication device 3 (Fig. 8).

Thus, the user receives a device, which may consist of:
- either from a single radiotelephone core 1 containing only the required blocks, see FIG. 3, or also containing additional blocks, see FIG. 4, in an arbitrary set (intermediate radiotelephone core). Examples of such a radiotelephone core 1 are the radiotelephone core 7, the radiotelephone core 8.

 - either from a telecommunication device 3, formed by attaching to the radiotelephone core 1 expansion module 2, and the expansion module 2 contains the required blocks, see figure 5, and may also contain additional blocks, see fig. 6, in an arbitrary set. Examples of such expansion modules are minimum expansion module 10, maximum expansion module 11.

 - either from a telecommunication device 3 (selected configuration) to which external devices 4 are connected (one or more of the set, see Fig. 8).

 Possibilities of a telecommunication device.

 After connecting the expansion module 2 with the radiotelephone core 1, we get a telecommunication device 3 (radiotelephone handset), which allows (in any, even minimal configuration) to carry out two-way exchange of audio information using the radio channel (radio communications).

If all the blocks are included in the expansion module 2, see Fig. 6, then this telecommunication device 3 has additional features:
1. To conduct loud-speaking reception or radio conversations in the speakerphone mode (using the amplifier of module 36 and the loudspeaker of module 37).

 2. Make a silent call to the subscriber (using the vibrating alert 32).

 3. The camcorder 39 allows the transmission of video information.

 4. The display of the module 40 will allow you to display an additional amount of text or graphic information, for example, in the videophone mode.

 5. Device management according to claims 1-4 can be implemented using the optional keyboard 38.

 6. The capabilities of the device can be expanded by using external devices 4, see Fig. 8. External devices can be: a computer 13, a sensor 14, an actuator 15 connected to a telecommunication device 3. For example, a telecommunications device with advanced capabilities through the contacts of the circuit module of the computer 45 allows you to connect one of the external devices 4, namely the computer 13 through the contacts of the circuit module computer 45. In this case, the telecommunication device 3 can be used as a radio modem.

 7. Through the contacts of the sensor circuit module 43, the sensor 14 can be connected. The sensor 14 can be, for example, a patient’s blood pressure meter, then the telecommunication device 3 with the sensor 14 is converted into a device for monitoring and transmitting information on the patient’s health status over the air. The sensor 14 may also be a door opening sensor (security of the room), then the telecommunication device 3 with the sensor 14 is a device for remote control of access to the room.

 8. Through the contacts of the circuit module of the actuator 44, an actuator 15, for example an electromechanical door lock (not shown), can be connected. In this case, the telecommunication device 3 with the actuator 15 performs the functions of controlling access to the room.

 9. Device management according to items 6-8 can also be implemented using the optional keyboard 38.

 The radiotelephone core 1, regardless of its electronic implementation, is enclosed in a housing, the dimensions of which can be different depending on the configuration of its blocks (electronic components), but the shape, which can also be different in design, must ensure the connection of the radiotelephone core 1 to the expansion module 2, while forming a telecommunication device 3, which should provide the selected consumer properties of the device. Telecommunication device 3 can be either single-case or multi-case, see Fig. 18 and 19, respectively.

 Consider the operation of a telecommunication device 3, consisting of a maximum radiotelephone core 8 and a maximum expansion module 11. This description of work is also valid for any telecommunication devices 3 in that part that describes the blocks and communications available in a particular telecommunication device 3. This description of work is also valid for any radiotelephone core 1 (for example, for a radiotelephone core of minimum 7, an intermediate radiotelephone core 9) in the part that describes the blocks and communication ss available in the radiotelephone core 1 (also for the minimum radiotelephone core 7, the intermediate radiotelephone core 9).

 Establishing an incoming connection (upon receipt of a call).

 The radio signal emitted by the antenna of the base station 6 is received by the antenna 18, and from its input-output the electric signal is fed to the 2nd input-output of the radio module 17, which demodulates the high-frequency signal and generates a digital signal at its first input-output in the standard used ( for example, DECT), which is fed to the 1st input-output of the core controller 16. The display 27, connected to the second output of the core controller 16, displays the necessary information about the caller, decrypted from the high-frequency signal. When a call arrives, a call 25 also receives a signal from the first output of the core controller 16, after which the keypad 19, connected to the first input of the core controller 16, gives a pick-up signal. Connection established.

 Establishing an outgoing connection (a call initiated by the user).

 To establish a connection in this case, the keyboard 19 — the core controller 16 — the radio module 17 — the antenna 18 — the antenna of the base station 6 is transmitted first by the pick-up signal, and then, after receiving a station response, dialing signals are transmitted. The dialed number is displayed on display 27. After the called party answers, the connection is established.

 The control of the device, which can be connected to the base station 6 (for example, an answering machine, not shown in Fig.), Is also carried out along the circuit: keyboard 19 - core controller 16 - radio module 17 - antenna 18 - antenna of the base station 6.

 Transmission of user voice information of a telecommunication device 3.

 An acoustic user signal (speech) converted into an analog electrical signal is supplied from the microphone output of module 41 through the contacts of the microphone circuit of module 42 and the contacts of the microphone circuit 23 to the second input of the core controller 16 (in the case when the module does not contain the microphone of module 41 and the circuit contacts microphone module 42, then the user's acoustic signal (speech), converted into an analog electrical signal, is output from the microphone 26 directly to the second input of the core controller 16), which converts the analogue electric cue signal in digital, generates a code from it in accordance with the accepted standard (for example, DECT) and from the 1st input-output of the controller of the mobile handset 10, the signal is fed to the first input-output of the radio module 17, in which it is converted into a radio frequency modulated signal . This signal is fed to the antenna 18, radiated and received by the antenna of the base station 6.

 Reception of voice information by a user of a telecommunication device 3.

 The radio signal emitted by the antenna of the base station 6 is received by the antenna 18, and from its input-output the electric signal is fed to the second input-output of the radio module 17, which demodulates the high-frequency signal and generates a digital signal at its first input / output in the standard used (for example, DECT), which is fed to the 1st input-output of the core controller 16. An analog electrical signal from the third output of the core controller 16 through the contacts of the circuit of the dynamic telephone of the core 24, the contacts of the circuit of the dynamic telephone 31 are received a dynamic phone 30, which converts the electrical signal into an acoustic (speech).

 Loud speaker reception is provided by the module loudspeaker. In this case, the analogue electrical signal of sound frequency is supplied through an amplifier 36, which performs the function of amplifying the electrical signal of sound frequency (from the level transmitted from the third output of the core controller 16 to the level providing the electrical signal at the input of the speaker necessary to achieve a sufficient volume level), to a loudspeaker 37, which converts the electrical audio signal into an appropriate acoustic signal, thereby improving the usability of the telephone.

 The volume control of the acoustic signal in this case is performed by the corresponding buttons of the additional keyboard 38 by setting the controller 34 commands. In accordance with these commands, the controller 34 generates at its 2nd output a control signal, which is transmitted to the control input of the amplifier module 36.

 Transmission of video information by a user of a telecommunication device 3.

 The video camera 39 generates a video signal at its output and transmits it to the 2nd input (video input) of the controller 34.

 The controller 34, on command from an additional keyboard 38, converts the video signal format to a convenient one for transmission in the DECT standard (for example, compresses video information in accordance with the MPEG standard) and transmits video information through its 1st input-output, contacts of the control circuit of the module 35, contacts control circuit 29 to the 2nd input-output of the core controller 16. Once the connection to the base station 6 is established, the core controller 16 transmits video information along the chain: core controller 16 - radio module 17 - antenna 18 - base station antenna 6.

 Receiving video information by a user of a telecommunication device 3.

 The radio signal emitted by the antenna of the base station 6 is received by the antenna 18, and from its input-output the electric signal is fed to the 2nd input-output of the radio module 17, which demodulates the high-frequency signal and generates a digital signal containing video information at its first input-output, in the standard used (for example, DECT), which is fed to the 1st input-output of the kernel controller 16, which demodulates the video information and transfers it to its 2nd input-output, then the video information is transmitted through the contact of the control circuit 29 and the clock cycles of the control circuit of module 35 to the 1st input-output of the controller 34, where the video information is processed (for example, decompressed in accordance with the MPEG standard) and from the 1st output of the controller 34 is fed to the display of the module 40. The display of the module 40 displays the video information received on it .

 The vibrating alert 32 is used to generate a ringing tone in conditions of significant external noise when the ringing tone 25 may not be heard. The vibrating alert 32 causes the part of the housing of the telecommunication device 3 closest to it to vibrate when the signal from the 1st output of the core controller 16 is supplied to the vibration alert 32 through the contacts of the ring circuit 28 and the contacts of the vibration ring circuit 33. The vibration of the housing of the telecommunication device 3 generates tactile sensations of the user of the telecommunication device 3 and thus informs the user of the ringing tone.

 External device - computer 13 is connected through the contacts of the circuit module of computer 45. Communication between devices (telecommunication device 3 and computer 13) occurs in accordance with a standard communication protocol, for example, RS-232.

 To receive information from a computer 13 connected via the contacts of a circuit module of a computer 45, a user of a telecommunication device 3 enters a command from an additional keyboard 38 that initiates the transfer of data from computer 13 to the 2nd input-output of the controller 34, for example, a command to copy a certain amount of information (e.g. , file). Further, this information can be transmitted to the base station 6 along the path: 2nd input-output of the controller 34, 1st input-output of the controller 34, contacts of the control circuit of the module 35, contacts of the control circuit 29, 2nd input-output of the core controller 16, 1st input-output of the kernel controller 16, 1st input-output of the radio module 17, 2nd input-output of the radio module 17, antenna 18, antenna of the base station 6 similar to transmitting video information with or without compression of information (depending from the command entered by the user from the additional keyboard 38 and received on 1st input of the controller 34).

 To transfer information to a computer 13 connected via the contacts of the circuit module of a computer 45, the user of the telecommunication device 3 enters a command from the additional keyboard 38 that initiates the transfer of data from the telecommunication device 3 (namely, from the controller 34) to the computer 13 through the 2nd input-output the controller 34 and the contacts of the computer circuit module 45, for example, a command to copy a certain amount of information (for example, a file). This information can also be transmitted to the computer from the base station 6 along the path: antenna of the base station 6, antenna 18, 2nd input-output of the radio module 17, 1st input-output of the radio module 17, 1st input-output of the core controller 16 , 2nd input-output of the kernel controller 16, contacts of the control circuit 29, contacts of the control circuit of module 35, 1st input-output of the controller 34, 2nd input-output of controller 34, contacts of the computer circuit module 45, external device - computer 13, similarly to transmitting video information with or without compression of information (depending from the command entered by the user from the additional keyboard 38 and received at the 1st input of the controller 34).

 To transfer information to an actuator 15 (for example, a printer) connected through the contacts of the circuit module of the actuator 44 (for example, a printer), the user of the telecommunication device 3 enters from the additional keyboard 38 a command initiating the transfer of data from the telecommunication device 3 (namely, from the controller 34) to the actuator 15 the third output of the controller 34 and the contacts of the circuit module of the actuator 44, for example, a command to print a certain amount of information (for example, a file). This information can also be transmitted to the actuator 15 from the base station 6 along the path: antenna of the base station 6, antenna 18, 2nd input-output of the radio module 17, 1st input-output of the radio module 17, 1st input-output of the controller kernels 16, 2nd input-output of the core controller 16, contacts of the control circuit 29, contacts of the control circuit of module 35, 1st input-output of the controller 34, third output of the controller 34, contacts of the circuit module of the actuator 44, actuator 15 (printer ), similar to transmitting video information with or without using compression of information (depending on the command entered by the user from the additional keyboard 38 received at the 1st input of the controller 34).

 As the actuating device 15 can be used and other devices, such as electronic lock. The operation of the telecommunication device 3 with this device (lock) occurs similarly to working with the printer, only the data on the third output of the controller 34 (and to the contacts of the circuit module of the actuator 44) have the simplest form, for example, open the lock - the level of the logical unit, close the lock - the level of the logical zero.

 To receive information from the sensor 14 of the sensor 14 connected through the contacts of the circuit module (for example, an information storage device on optical disks), the user of the telecommunication device 3 enters a command from the additional keyboard 38 that initiates the transfer of data from the sensor 14 to the 2nd input-output of the controller 34, for example command to copy a certain amount of information (for example, a file). Further, this information can be transmitted to the base station 6 along the path: 3rd input of the controller 34, 1st input-output of the controller 34, contacts of the control circuit of module 35, contacts of the control circuit 29, 2nd input-output of the core controller 16, 1st input-output of the core controller 16, 1st input-output of the radio module 17, 2nd input-output of the radio module 17, antenna 18, antenna of the base station 6 similar to transmitting video information with or without compression (depending on the command entered by the user from the additional keyboard 38 entering the 1st input q controller 34).

 Other devices can be used as the sensor 14, for example, a door opening sensor (used in indoor security systems) or an electronic thermometer. The operation of the telecommunication device 3 with the door opening sensor occurs similarly to the work with the information storage on optical disks, only the data at the third input of the controller 34 (and at the contact of the actuator circuit module 44) have the simplest form, for example, the door is open - the level of the logic unit, the door is closed - logical zero level. The operation of the telecommunication device 3 with an electronic thermometer occurs similarly to working with the door open sensor, only the data on the 3rd input of the controller 34 (and on the contact of the circuit module of the actuator 44) have the form, for example, of a hexadecimal number corresponding to the temperature.

 Power supply to the core.

 Power supply of the core controller 16 and the radio module 17, recharging the battery 21 and connecting it through a voltage regulator (not shown in FIG.) To the power circuits of the units of the maximum radiotelephone core 8 both when the charger 5 is connected and when the maximum radiotelephone core 8 is disconnected from the charger devices 5 are provided with a power supply unit 20, the input of which (by connecting the maximum radiotelephone core 8 to the output of the charger 5) through the contacts of the power supply circuit 22 receives voltage o 5. Login charger charger connects to the primary voltage (e.g., 220 V, 50 Hz). When the maximum radiotelephone core 8 is connected to the charger 5, the power supply unit 20 powers the core controller 16 and the radio module 17 and maintains the charge (recharging) of the battery 21. When the maximum radiotelephone core 8 is not connected to the charger 5, the power supply unit 20 powers the core controller 16 and the radio module 17 using the energy of the battery 21.

 The power supply to the expansion module 2 is provided by the power supply unit of the module 46. The power inputs of the units of the maximum expansion module 11, which need power supply, are connected to the corresponding outputs of the power supply unit of the module 46 (communication data are not shown in Fig.). In general, the operation of the power supply unit of module 46 is similar to the operation of the power supply unit 20. A simplified version of the power supply unit of module 46 is also possible, operating only on the primary voltage (for example, 220 V, 50 Hz), and also supplying all the units of the maximum expansion module 11 that require power supply.

 To connect the expansion module 2 and the radiotelephone core 1, the contacts are used and the corresponding design of the expansion module 2 and the radiotelephone core 1 (in terms of the location of the contacts), providing mechanical and electrical connection of the contacts.

 Device implementation.

 As a controller for core 16, the PHILIPS Semiconductors base station mobile phone controller Objctive Specifikations July 21, 1997, pp. 1-12, (http // www.-us.semiconductors philips, com / pip / pcd 5092 h), it is also used in the Goldtron mobile phone (Singapore) of the DECT P-600B model (Goldtron Telekommunikation Pte Ltd user manual, Singapore, 033-000 080 00, circulation 408698, June 1997, p. 1 -8).

 As the display 27, the keyboard 19, the microphone 26, the call 25, the dynamic telephone 30, the radio core module 17, the antenna 18, the power supplies 20 and the power supply unit 46, the corresponding blocks of a cordless telephone company Goldtron (Singapore) of the DECT P-600B model ( Goldtron Telekommunikation Pte Ltd user manual, Singapore, 033-000 080 00, circulation 408698, June 1997, pp. 1-8).

 As the circuit contacts can be used, for example, the solution of the circuit contacts according to the UK patent "Wireless telephone with charge control for fast communication" 2322050, H 04 M 1/72, with priority from 09/27/94.

 As a dynamic telephone 30, active speakers JH-211 can be used (see g. "Computers and office equipment", N 15 (21), p.31).

 Motor vibrating alert can be used as a vibrating alert; vibrator 5905046H04 is also used in the MOTOROLA Memo EXPRESS pager (Motorola user manual, USA, 1999, or www.motorola.com).

 As an additional keyboard 38, an optional KV-2961 keyboard manufactured by Chiconi Electronics CO can be used. LTD, China (see. "Computers and Office Equipment", N 15 (21), p.31).

 As the video camera 39, an Olympus C-2000 XL video camera, Olympus optical co., Ltd; Tokyo, Japan (see the Mega plus catalog / electronics, computers, communications, household appliances /, N 1 (47), 2000, p. 46).

 As the display of module 40, a 0.28 monitor can be used: Samsung 400V, Samsung, Korea, (see Well. "Computers and Office Equipment", N 15 (21), p.11).

 As a controller 34, a DSTN 6500 / Pentiumlll 500 / 64Mb / 6.4Gb / 8Mb computer can be used, country (see "Mega plus" / electronics, computers, communications, home appliances /, N 13 (44), 1999. ) with ASUS 3DP-V264GT / PRO graphics card (see the USER ^ S MANUAL user manual. March 1997, country).

 A Mercyry EL-5100 sensor, Eletronics Line, Israel, or JET (psssive infrared detector), Visonic LTD, Israel can be used as a sensor.

 As an actuator, an electromechanical lock EMZ-4, commercially available from the Moscow Electromechanical Plant, can be used.

 The amplifier can also perform additional functions, for example, changing the frequency or amplitude characteristics of the sound signal and controlling the sound level of the output signal either depending on the microphone signal or depending on the subscriber’s speech, for which it can consist of two or more blocks, for example, enter the microphone and the sound switch that is used in the GOLDTRON (Singapore) mobile handset of the DECT P-600B model (Goldtron Telekommunikation Pte Ltd user manual, Singapore, 033-000 080 00, circulation 408698, June 1997, p. 1 -8 )

 For the implementation of the amplifier according to this application can be used in various versions of it.

 The amplifier solution of US Pat. No. 5,768,364, M.C. may also be used. H 04 M 9/00, with a priority dated June 16, 1997

 As a loudspeaker, for example, a loudspeaker according to the patent of the Russian Federation 2061997, cl. H 04 M 1/64, Bull. 16, dated June 10, 1996

Claims (11)

 1. A method of creating a telecommunication device for transmitting information between subscribers on the basis of the radiotelephone core and the expansion module, which consists in choosing a radiotelephone core located in an independent housing and made with the possibility of independent functioning while maintaining at least one-way radio communication, base station, while the content of the blocks of the radiotelephone core can be either minimal, including a kernel controller, a radio core module, antenna, keypad uru, the power supply unit, the contacts of the microphone circuit, the microphone, the contacts of the dynamic core telephone circuit, the control circuit contacts, or the maximum, in addition to the above blocks, including a bell, ringer circuit contacts, a display, or an intermediate between them, then select an expansion module that provides a number of additional functions, either the minimum in terms of block contents, including a dynamic telephone, the contacts of the dynamic telephone circuit, or the maximum in block contents, including in addition to the above controller, contact of the control circuit of the module, vibration alert, contacts of the vibration alert circuit, module microphone, contacts of the microphone circuit of the module, amplifier of the module, loudspeaker of the module, additional keyboard, video camera, display of the module, contacts of the sensor circuit module, contacts of the actuator circuit module, module contacts computer circuits, the power supply unit of the module, or intermediate between them, and is connected to the radiotelephone core with the formation of a telecommunication device by means of circuit contacts having they are both in the radiotelephone core and in the expansion module.  2. The method according to claim 1, characterized in that if there is a sensor circuit module in the expansion module of the contacts, actuator circuit module contacts, computer circuit module contacts, external devices are connected to the expansion module.  3. A radiotelephone core housed in a housing and configured to function independently while maintaining at least one-way radio communication with a base station, or minimal in content of blocks, including a core controller, a kernel radio module, an antenna, a keyboard, a power supply unit, microphone circuit contacts , microphone, contacts of the dynamic kernel telephone circuit, control circuit contacts, while the 1st input-output of the kernel controller is connected to the 1st input-output of the kernel radio module, to the 1st input of the kernel controller the keyboard is connected, the microphone and the outputs of the microphone circuit pins are connected to the second input of the kernel controller, the power supply of the core controller is connected to the 1st output of the power supply unit, the power input of the radio core module is connected to the 2nd output of the power supply module, the second input-output of the radio core module connected to the input / output of the antenna, the 3rd output of the kernel controller is connected to the input of the contacts of the circuit of the dynamic telephone of the kernel, or the maximum in the content of blocks, in addition to the above blocks including a call, contacts ringer circuits, display, or intermediate between them in terms of block content, with the first output of the kernel controller attached to the call, the second output of the core controller attached to the display.  4. A telecommunication device for transmitting information between subscribers, including a radiotelephone core and an expansion module, characterized in that the radiotelephone core, housed in an independent housing and configured to function independently while maintaining at least one-way radio communication with the base station, is either minimum content of blocks, including the kernel controller, the radio core module, antenna, keyboard, power supply, microphone circuit contacts, microphone, to the contacts of the circuit of the dynamic telephone of the kernel, the contacts of the control circuit, while the 1st input of the kernel controller is connected to the output of the contacts of the microphone circuit and the microphone, the 3rd output of the kernel controller is connected to the input of the contacts of the dynamic circuit of the kernel telephone, the 1st input-output of the kernel controller is connected to the 1st input-output of the radio module of the kernel, the 2nd input-output of the radio module of the kernel is connected to the input-output of the antenna, the power input of the core controller is connected to the 1st output of the power supply, in the power supply path of the radio core module is connected to the 2nd output of the power supply unit, either maximum in terms of block content, in addition to the blocks listed above, including a bell, ringer circuit contacts, display, or intermediate between them in block content, and an expansion module enclosed at least in one housing, is either minimal in content of blocks, including a dynamic telephone, contacts of the dynamic telephone circuit, and the output of the contacts of the dynamic telephone circuit is connected to the input of the dynamic telephone, or maximum content blocks, including, in addition to the above blocks, the controller, module control circuit contacts, vibration alert, vibration alert circuit contacts, module amplifier, module speaker, module microphone, module microphone circuit contacts, additional keyboard, video camera, module display, sensor circuit module contacts , contacts of the circuit module of the actuator, contacts of the circuit module of the computer, the power supply module, or intermediate between them in the content of the blocks, the core and the expansion module connected to each other by connecting the output dynamic kernel phone contacts of the circuit to the input of dynamic phone contacts of the circuit composed of the expander.  5. The telecommunication device according to claim 4, characterized in that in the maximum composition of the blocks of the radiotelephone core, the 1st output of the core controller is connected to the bell, the 2nd output of the core controller is connected to the display, and in the maximum composition of the blocks, the extension module 1- the controller input-output is connected to the 1st input-output contacts of the module control circuit, the 1st controller input is connected to the auxiliary keyboard output, the 3rd controller input is connected to the sensor circuit module contacts, the video camera output is connected to the 2nd input to controller, the 3rd output of the controller is connected to the contacts of the circuit module of the actuator, the input of the dynamic telephone is connected to the output of the contacts of the circuit of the dynamic telephone, the input of the vibration alert is connected to the input of the contacts of the vibration circuit, the 1st output of the controller is connected to the input of the display of the module, 2nd output the controller is connected to the control input of the amplifier of the module, the signal input of the amplifier of the module is connected to the output of the contacts of the dynamic telephone circuit, the output of the amplifier of the module is connected to the loudspeaker of the module, 2 the controller's input / output is connected to the contacts of the computer circuit module, the maximum core and the maximum expansion module are connected to each other by connecting the contact output of the core dynamic telephone circuit to the contact input of the dynamic telephone circuit in the module; 2nd input-output of the control circuit contacts to the 2nd input-output of the module control circuit contacts; the input of the contacts of the vibrating alert circuit to the output of the contacts of the call circuit, and the input of the contacts of the microphone circuit in the core to the output of the contacts of the microphone circuit of the module.  6. The telecommunication device according to claim 5, characterized in that the maximum expansion module is configured to connect external devices.  7. The telecommunication device of claim 6, characterized in that the external devices are a sensor, an actuator, a computer, and for connecting them to the expansion module, the contacts of the sensor circuit module, the contacts of the actuator circuit module, the contacts of the computer circuit module are added, and the contact output the sensor circuit module is connected to the 3rd controller input, the contact input of the actuator circuit module is connected to the 3rd controller output, the 1st input-output of the computer circuit module contacts oedinen to the second input-output controller, and an output sensor coupled to the input circuit of the module contacts the sensor, the input of the executive device is connected to the output contacts of the module actuator circuits, input-output computer is connected to the second input-output circuit module contacts computer.  8. The telecommunication device according to claim 4 or 5, characterized in that the connection of the contacts of the microphone circuit of the module with the contacts of the microphone circuit in the core is made with the possibility of disconnecting the microphone circuit in the core from the 2nd input of the core controller.  9. The telecommunication device according to claim 4 or 5, characterized in that each radiotelephone core from the set of radiotelephone cores and each expansion module from the set of expansion modules are different not only in the composition of the blocks, but also in the design of the cases.  10. The telecommunication device according to claim 4 or 5, characterized in that the expansion modules are multi-case.  11. The telecommunication device according to claim 4, 5, or 9, characterized in that as the blocks included in the expansion module, as well as external devices, a computer, video camera, speaker, dynamic telephone can be used that do not require a case reconstruction .

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