RU2216115C2 - Personal-call telephone exchange - Google Patents

Abstract

FIELD: automatic telephony; personal call of particular subscriber and remote control of terminals. SUBSTANCE: indirect-control telephone exchange has internal call servicing circuit incorporating number receiving center and call signal generating center; number receiving center is made as receiver of called subscriber line number and additional code number of call; call signal generating unit is coupled with output of number receiving center using call code received and is made in the form of shaper of one or more call signals controlled by this code and differing in time-frequency structure; these signals may be, for instance, of different-cadenza inductor type, different-jigger voice type, coded, combined coded and different-cadenza inductor ones. EFFECT: provision for personal addressing of telephone call. 1 cl, 7 dwg

Description

FIELD OF THE INVENTION
The invention relates to the field of automatic telephony, and more particularly to a technique for providing a personal (personal) call to a specific subscriber of a PBX subscriber line, as well as to a technique for remote control of terminal telephone devices,
The invention can be used in the development of new and modernization of existing telephone exchanges with indirect control of various classes - from public switched telephone exchanges to departmental and mini-exchanges.

State of the art
Among indirectly controlled telephone exchanges, in particular, the ATSK-U coordinate system [1], the quartz-electronic exchanges “Quartz” and “Quantum” [1], and the electronic mini-automatic telephone exchange “PREMIER PAX -1/06” [2] are known. All these exchanges include a node for receiving a number and a node for generating a call signal. Moreover, the number received from the subscriber determines exclusively the called subscriber line (AL), and the generated call signal (CB) is a standard inductor signal of an uncontrolled generator of parameters, switched at the stage of making a call to the called AL.

 Also known electronic-digital telephone exchange (digital switching system) "Quantum" [3], including ATS of small capacity "Quant-100" [3, 4]. The "Quantum" system has a modular construction with two levels of offsets (reference station - remote switching module - remote subscriber module), which allows you to provide any required capacity in the range from 100 to 30000 AL. In the hierarchy of means of the Kvant-100 automatic telephone exchange system, they are a remote subscriber module (block of BALK subscriber lines [5], as well as a complete automatic telephone exchange of minimum (up to 128 AL) capacity. The Kvant-100 can also be used outside the Kvant system as independent automatic telephone exchange, providing interaction with almost all types of automatic telephone exchanges.

 At the most up-to-date level of circuit and software implementation, the Kvant automatic telephone exchange system has the traditional schemes for receiving a number and the formation of SVs discussed above, both of which are implemented as part of the Kvant-100 automatic telephone exchange. Other automatic telephone exchanges - analogues that are more consistent with the essence of the claimed invention, were not found by the author. Therefore, the ATS "Quantum" in its specific minimum configuration in the form of a ATS "Quantum-100" [4, 5] is adopted as a prototype of the claimed ATS.

 Automatic telephone exchange "Quantum-100" has indirect (register) management. It includes software and hardware nodes for receiving numbers and forming SV. All of the above signs correspond to the essential features of the claimed PBX.

In addition, the PBX prototype is also characterized by the following essential features that distinguish it from the claimed PBX:
- control address information specified by the calling subscriber and received by the PBX number receiving unit is limited only by the AL number of the called subscriber;
- the CB formation node for all calls arriving at the AL forms the CB of one frequency-time structure (codification); 1s - signal; 4s - pause. (In this case, an inductor signal is used as a carrier of such a structure, i.e., a harmonic signal with a frequency of 25 Hz with a level of 95 V eff.)
Such telephone call addressing and the CB formation scheme have several disadvantages, which are as follows:
- in case of collective use of AL by several subscribers, the incoming call always leads to uncertainty in the personal orientation of this call. This forces one of the subscribers to answer the call in order to then transfer the handset of the telephone set (TA) to another. The result is an interfering effect for all subscribers, the time for answering a call increases;
- the possibility of addressing calls to the required (personal, group) terminal devices (DT) is excluded, the possibilities of using automatic terminal devices (AOU) are extremely limited;
- the possibility of receiving additional types of services from the PBX is restrained (since the services are addressed by the AL number and not by the subscriber who personally ordered them).

SUMMARY OF THE INVENTION
The objective of the invention is to eliminate the above disadvantages inherent in the PBX prototype by introducing personal addressing of telephone calls and the formation of personal call signals of the PBX.

 Like the ATC prototype, the claimed PBX with a personal call (AT PBX) has indirect (register) control. It contains a node for receiving numbers and a node for the formation of CB. (The node for receiving a number in the framework of the present invention is a combination of all the means for receiving from a caller’s TA a complete set of digital information provided by the interaction order. In various types of telephone exchanges, the unit is implemented by various hardware and / or software means - number receivers (pulse and / or frequency ) by electronic registers for receiving a number, means for monitoring the time allocated to dialing, appropriate software modules, etc. Similarly, a CB generation unit is a combination Cex hardware and software, ensuring the formation used in the ATS CB). These essential features of the claimed automatic telephone exchange coincide with the essential features of the automatic telephone exchange prototype.

Consider the essential features of the claimed PBX according to claim 1 of the formula, distinguishing it from the ATC prototype. For convenience, we distinguish them under the indices A, B, and C. At the same time, we note here that Clause 1 of the formula represents the ATS, which differs in the scheme of servicing only on-site (local) calls. (Such a structure of the formula is caused by the fact that the invention proposes 2 options for providing a personal call with external connections. Both of these options are presented as special cases when the PBX is executed in the dependent claims 2 and 3 of the formula. In the PBX according to claim 1, external outgoing and incoming calls can be served according to the schemes of claim 2 or claim 3 of the formula or according to the traditional schemes of the ATC prototype.)
A. The node for receiving a number is designed as a node for receiving a personal number, which includes, in addition to the number of the called subscriber line, an additional digit - a call code.

 A call code is assigned to each of the possible call objects of a given subscriber terminal, i.e. to each subscriber - user and each independent operating mode (more about this below) of the used AOUs. For most applications, a unique call code (10 call objects) is sufficient, but in the general case, the call code can also consist of several characters. With, for example, a seven-digit AL numbering and a unique call code, the Personal Number Reception Unit (UPPN) should provide reception from the caller of the personal number of the required call object 8 characters long.

 According to the logic of operation, the soft starter can initially accept all digits of a personal number (when the PBX is in the network with only personal addressing) or receive a call code only by analyzing some or all digits of the AL number (when deciding, for example, that the call is internal or that the called AL refers to the AL category with a personal call), In the latter case, the activation of the UPPN may be accompanied by sending the caller a conditional tone request code call code.

 Depending on the type of ATS, various decisions can be made, for example, with a corresponding increase in the value of the number reception register, with resetting the register after receiving and reading the AL number, with the introduction of a separate register for receiving the call code, by changing the parameters of the program module for receiving the number and others. In any case, independent reading (and issuance to UFPSV - see below) of the call code should be provided.

 B. The SV formation node is designed as a personal SV formation node, i.e. several call signals, different in their frequency-time structure.

 The difference in the structures of personal NE (PSV) implies the possibility of their identification on the subscriber side by subscribers (by ear by the characteristic color of the sound signal when the PSV is fed directly to the TA calling device) and / or hardware. Moreover, if in traditional telephony inductor CBs are used, as a rule, other types of signals can be used as PSV in the claimed PBX PBX (the term “call signal” is used in the restrictive part of paragraph 1 of the formula as a generalized concept). Thus, the PSV formation unit (UFPSV) as part of the PBX exchange is characterized by the type of its SV and a specific set of 10 (with a unique call code) PSV with its own original structure for each.

 As possible examples, we consider 4 types of PSV — inductor, tonal (that is, with a spectrum in the frequency range of the spoken path), encoded and combined. The difference in the structures of the inductor signals can be achieved, for example, by changing their encoder on the interval of periodicity and / or by changing their periodicity. Possibility of coloring PSV tonal wider. It can be achieved by reading from the memory (digital, magnetic) various characteristic signals, musical phrases, direct calls, for example, by name, changing frequencies or combinations of several frequencies, changing the encoder of periodic signals, etc.

 As coded PSV signals can be used with a wide variety of coding systems - with a decade or binary digital code, sending (tone or inductor signal, power reversal) of various durations, multi-frequency signals of various codes, for example, "2 out of 5" or "2 out of 6 "and so on. Moreover, by the structure of the encoded PSV we mean the concrete implementation of the code of the type used. Depending on the coding system, PSVs may be single, repeated or continuous sendings of code. Coded (digital) CBs can be used, in particular, on digital ALs.

 Combined PSVs can be a combination of a tone or inductor signal with an encoded signal, for example a musical phrase, or an induction signal of a characteristic encoder with a short multi-frequency code. The difference in the structures of combined PSV may lie in one or both of their components.

 B. Nodes for receiving a personal number and generating personal call signals are functionally interconnected so that the received call code determines the structure of the generated PSV.

 This connection ensures the transmission of the received call code to UFPSV to generate the corresponding PSV call code. Communication can be via physical lines or software. In some exchanges with offsets UPPN and UFPSV can be spatially separated, so that the call code will be transmitted on the signaling channel between the reference station and the offset.

 The above signs are limited to the set of essential features that distinguish the claimed ATS according to claim 1 of the formula from the ATS prototype [4, 5].

 The type of PSV used in the PBX requires the application on the subscriber side of the op-amp with the corresponding (agreed upon) call receivers (i.e., ringing devices (VU) of the TA and AOU auto-occupation devices). So with inductive PSV when directly switching the op-amp into the AL, traditional TAs can be used both with a ringing VU, and with a tonal call device and AOU. The use of tonal PSV requires the use of wideband electro-sound transducers - speakers as a VU TA. The use of coded PSV provides that the formation of sound ringing signals is provided in the TA by its own multi-signal generator controlled by the received code. Combined PSV allows the use of op-amps with both tone (or inductor) and coded calls.

 An important feature of the use of PSV is the ability to organize in the subscriber terminal the addressing of each of the calls to one (or several) of all used op-amps. With an addressed call, the op-amps are included in the AL through selective (i.e., configured on the structure of one or more of the PSV) call distributors. Fundamentally, call addressing is solved with any type of PSV using signal recognition devices in call dispensers, however, for encoded signals this task is technically much simpler and practically time-saving and comes down to conventional signal decoding. For this reason, we consider, in particular, combined PSVs as allowing simple addressing of calls and personal coloring of ringing signals when using SLTs with the simplest inductor or tonal control units.

Given the possibility of addressing calls to subscribers of the PBX PBX, a number of additional new conveniences and capabilities for telephony can be provided, in particular:
- the use on one AL of personal SLTs or collective SLTs for individual groups of subscribers with the screening of “alien” calls;
- inclusion in the AL of several AOUs and independent remote selection of each of them; so in AL can be included under their calling codes, for example, two ordinary "personal" answering machines for 2 family members with recorded personal outgoing and incoming messages, and a fax that works in automatic mode;
- the use of a new class of OU-AOU with several remotely controlled operating modes. So, for example, we can talk about a collective answering machine for several family members with the issuance and recording of their personal outgoing and incoming messages, a separate monitoring device for 3 rooms in the apartment, a remote start device for recording a VCR with a channel number, etc.

 Call dispensers can be embedded in or removed from the shelter. Along with individual (separate for each of the DT) call distributors, it is possible to use a centralized call distributor scheme, common for the entire subscriber terminal. Thus, depending on the type of PSV and the switching scheme of the op-amp with the PBX PBX, both standard op-amps and special op amps with a personal call (OU PV) can be used.

 A personal call can be organized both on analog AL and digital. It can be implemented on all PBX subscriber lines or only on some. So, for example, a personal call can be provided to subscribers in the form of an additional paid PBX service, or, conversely, it may be unnecessary when calling the head of his personal AL. In such cases, an STD can be provided based on the analysis of the category of called AL stored in the PBX memory.

 The set of PSVs for each of the calling codes can be the same (fixed) for all of the ATs or programmed separately for each of the ALs. In the latter case, a set of PSVs mutually agreed with subscribers from a wider list of possible ones is stored in the UPSPS memory.

 The PBX exchange can generate several types of PSV with the generation of only one type of signal for each of the ALs (as agreed with its subscribers) or of different types determined by the call code. In the latter case, for example, 4 inductor, 3 tones, and 3 encoded PSVs can be delivered to the AL, which gives subscribers more opportunities in choosing the used op-amps.

 A more complex interactive call procedure is possible. For example, after receiving a conditional unique call code, the UPPN is transferred to the reception mode of the secondary two-digit call code. Such a procedure can be used, in particular, to set the number of the recorded channel of a VCR or to set a password for access to one of the AOUs.

 Note that if there are free calling codes for the subscriber terminal, they can be used by prior arrangement with the calling subscriber, for example, to record personal messages to the answering machine or to solve the inverse problem of identifying the color of the calling signal of the calling subscriber. In the latter case, the caller dials his “calling code”, and the call arriving from him is accompanied by his “nominal” sound ringing signal.

 As indicated earlier, the PBX PBX according to claim 1 of the formula provides a personal call only with in-house connections. This in itself is of sufficient interest, especially in the case of servicing this automatic telephone exchange of a separate local network with its own numbering system, for example, a departmental network formed by a PBX or a PBX, or a small city network served by one terminal PBX. In paragraphs Formulas 2 and 3 show 2 options for performing PBX exchange with the extension of a personal call to external connections. The difference in these options lies in the transmission schemes of the call code to the called PBX.

 A PBX according to claim 2 of the formula is distinguished by the fact that the outgoing call service scheme contains UPPN, the incoming call service scheme contains UFPS. These nodes are connected by transmitting call codes to the register signaling channel with the oncoming exchange.

 The considered PBX works in conjunction with other similar ones, i.e. also made according to claim 2 of the formula, ATS. In this case, the call codes (from UPPN to an adjacent PBX with an outgoing connection and from an adjacent PBX to a UFSPS with an incoming connection) are included in the register signals of the signaling channel with the oncoming PBX, i.e. inter-station transmission of call codes is carried out according to a mutually agreed protocol by a unified signaling system used to transmit control (inter-register) signaling.

 The service area of two or more interconnected PBX exchanges according to claim 2 of the formula is called the personal inter-office call area. If, for example, in a city with a unified numbering system there are several unconnected such zones, then when dialing a personal number in the general case, there can be no certainty that the call code will reach the PBX of the called subscriber (the connection can go through the PBX that does not provide the broadcast of the call code ) To avoid such ambiguity, as well as time losses for dialing and processing a call code, PBX exchanges can include a table of possible routing of call codes and provide USPs only by analyzing the dialed code of the called PBX. Another solution to this issue may be to activate the UPPN only upon receipt of a special signal for requesting a call code from the signaling channel generated by the called PBX PBX and confirmed by the entire chain of PBXs participating in the connection. With the expansion and closing of individual zones, a personal inter-office call can be extended to the entire telephone network of a city, country, etc.

 The PBX according to claim 3 of the formula provides an external incoming personal call to its subscribers autonomously, without requiring measures for coordinated interaction with oncoming PBXs to transmit the call code. The PBX is distinguished by the following: the external incoming call servicing scheme contains a UFPSW, a call code receiver is connected functionally with it, the stage of receiving a call code along the conversation path with the calling subscriber is introduced.

 At the stage of receiving the call code following the verification of the availability of the called AL, the PBX establishes a connection with the called AL. Reception of the code is carried out by the receiver of the call code along the spoken path of the entire PBX chain participating in the connection.

 The receiver of the call code may be different depending on the adopted system for setting the code, in particular, tone, pulse, in the form of a speech recognition device. The first two types of receivers provide for setting the code with the appropriate dialers, similar to setting the calling code for internal callers. Moreover, if the tone dialing signals pass through the spoken channel with almost no distortion, then the pulse dialing signals undergo significant changes due to the band-pass nature of the spectrum of transmitted frequencies. Therefore, the pulse receiver of the call code is performed in an unconventional form as a decoder of the remainder of the pulse dialing signal [6]. Setting tone code of a call in case of using a TA with pulse dialing is possible with the help of a beeper. When using a speech recognition device as a receiver, the call code is specified by voice pronouncing one of the conditional words, for example, numbers from 0 to 9. It is possible to introduce several different types of call code receivers into the telephone exchange.

 Paragraph 4 of the formula presents the PBX PBX with the provision of additional types of services (VTR) to subscribers, such as forwarding an incoming call, providing a mailbox, sending a wake-up signal to a subscriber, etc. ATS is distinguished by the inclusion of an ATS and / or UFPSV in the scheme of providing VTR use of personal numbers of subscribers and / or PSV. This and corresponding modernization of the program logic provides personal addressing of the service to the subscriber who ordered it, i.e. the possibility that all family members, for example, can set the various numbers they need to forward their calls or listen to the messages they receive only from their personal mailbox, and the wake-up signal in the form of PSV can be addressed on the subscriber side exclusively to the desired room.

 The technical result from the use of the invention is as follows.

 1. Personal coloring of the TA ringing signals eliminates the uncertainty in the called subscriber, reduces the time of answering the call and, as a result, the time of station equipment occupation.

 The ability to address calls to personal and group SLTs and use the minimum volume of ringing signals additionally increases the level of user comfort, reduces or negates the disturbing and distracting effect of all "alien" calls.

 2. The opportunity has been obtained to use several AOUs in the subscriber terminal, including AOU with several modes of operation, their remote selection by the caller and management of the operating mode.

 3. A personal addressed call allows, if necessary, to use lightly loaded AL as a shared line without dividing AL numbers and installing additional station equipment. So can be additionally telephoned, for example, several apartments in a house, several houses in a village or holiday village.

 4. The introduction of a personal call allows you to personify many additional types of services provided by the PBX PBX and previously inaccessible with the collective use of AL.

List of drawings
The invention is illustrated by drawings, which depict:
- in FIG. 1 is a variant of the structural diagram of the PBX PBX according to claims 1, 2 and 3 of the formula (the speech recognition device PP 20 shown by the dotted line is included only in the PBX PBX according to claim 3 of the formula),
- figure 2 is a temporary structure PSV for the PBX exchange of figure 1,
- figure 3 is a state diagram of the process of servicing an in-house call for PBX PBX in figure 1 (fragment),
- figure 4 is an example of the organization of the subscriber terminal of the PBX PBX (parallel connection of standard OS without call addressing),
- in FIG. 5 - an example of the organization of a subscriber terminal (the inclusion of standard op-amps in a centralized call distributor),
- figure 6 is an example of the organization of a subscriber terminal (the inclusion of the op-amp with a call with a position code in a centralized call distributor),
- in FIG. 7 is an example of the organization of a subscriber terminal (parallel connection of addressable op-amp DI with combined call).

Information confirming the possibility of carrying out the invention
A possible variant of the structural construction of the PBX exchange according to claim 1 is shown in FIG. 1.

 ATS - electronic-digital with time division of channels, small (up to 128 AL) capacity. It allows communication with other exchanges of almost any type via the PCM-30 digital path or via trunk or subscriber lines (when installing the appropriate sets of trunk lines and reducing the number of switched on ALs). In the scheme of figure 1, the PBX is used as departmental, it is included in the reference digital PBX PCM path. Each AL has an abbreviated 3-digit extension number that matches the last digits of the city number. Access to the city network is carried out by dialing the index "9". For in-house calls, unique call codes are used (from "1" to "0"), so that the internal personal numbers of subscribers contain 4 characters. A personal call is provided to all PBX subscriber terminals. To call subscribers in the PBX, combined PSVs are formed, which are periodic inductor signals of various codes with short (50 ms duration) precursors of multi-frequency signals of the “2 of 6” code. Temporary PSV structures for various call codes are conventionally shown in FIG. 2. Under the code “-” here is also presented the signal generated in case of non-receipt of the call code in the allotted time interval.

 The PBX PBX in figure 1 contains a microcomputer 1 with a control bus (SHU) 2 and an RS-232 interface 3 for connecting external devices, 16 blocks of subscriber sets (AK) 4 with included subscriber lines AL 5, switch 6, PCM - joint 7 with an PCM path 8 included, a tone generator (TC) 9, a digital extension cord 10, diagnostic equipment 11, a multi-frequency (MF) signal receiver 12, and an inductor signal generator 13.

 In the presented form, the ATX PV circuit according to the equipment composition and communications configuration completely repeats the Quantum-100 prototype ATC prototype [4, 5], implemented on the basis of the BALK CSK Quantum block - see [5, Figs. 1, 2 and 3]. The Kvant-100 automatic telephone exchange (BALK unit) is structurally designed on typical replacement elements (TEZ), while the microcomputer 1, switch 6, PCM - joint 7 and tone generator 9 are implemented in one KS8 TEZ [7].

 Microcomputer 1 is a central control unit of the exchange, includes a processor, semi-permanent (ROM) and operational (RAM) storage devices. The EPROM stores the PBX work program and tabular data. The work program contains a system module and a number of functional modules that determine the operation of the PBX at the individual stages of establishing a connection, in particular, the module for receiving a number and the module for generating CBs that we are interested in. In RAM, call registers are organized in which current information for each of the calls served is stored.

Switch 6 is a digital, fully accessible space-time switch with a capacity of 8x8 full PCM paths (32 channel slots each). The diagram of figure 1 shows the distribution of the paths of the outgoing (TI) and incoming (TV) switch. Through PCM-joint 7 provides communication with an adjacent reference PBX. It transfers from the incoming stream of the PCM path 8 to the RAM of the microcomputer via the direct access channel of 0 and 16 channel intervals and to the TV0 of the switch - speech channel intervals. In the opposite direction, it forms a stream from the ТИ0 of the switch and 0 and 16 channel intervals extracted from direct access from RAM
The tone generator 9 generates digitally on each of the 32 channel intervals various tones (“call control”, “busy”, “silence”, etc.), as well as a complete set of “2 out of 6” code signals used for signaling with oncoming exchanges. The extension ring 10 is used to provide the required attenuation in the transmission path for various types of connection. Diagnostic equipment 11 performs the measurement of constant and variable voltages in the circuit of the telephone exchange, the parameters of the conversation paths and AL.

 Each AK 4 unit (TEZ AK2 [8] in the ATC prototype) solves the functions of 8 subscriber sets (AK) made in the form of 8 individual paths 14 for voice transmission and group device 15. The individual paths are constructed according to the traditional digital ATE circuit and contain coffee boxes , a differential system, an isolation transformer, a power bridge, a scan point of the loop state, an overvoltage protection unit, and the circuit shown in Fig. 1, which is essential for our consideration, to the relay circuit (P) 16 and 17, which ensures the sending of an inductor call signal to AL (a also connecting AK to diagnostic equipment 11). For individual paths 14, the inductor signal from the generator 13 is fed through a relay 18 (designed to connect to the AL diagnostic equipment) and an inductor signal supply device (UPIS) 19, the latter contains its own power bridge and a loop scan point for sending the inductor signal to the AL ( when P16 disconnects AL from AK). The group device 15 provides synchronization of the block and the formation of the group path, the issuance on the microcomputer 1 of data on the state of the scanning points of the block, the reception from the microcomputer and the memorization of commands to turn on and off the relays 16, 17 and 18.

 The receiver of the MF signals 12 provides the reception of signals of the codes "2 of 8" and "2 of 6" and is used, in particular, when receiving numbers from TA with tone dialing. Reception of a number from a TA with a pulsed dialing method is carried out by the program module for receiving a number during periodic polling of scanning points of the loop status of individual AKs with a rate of 8 ms. Thus, the node receiving the personal number of UPPN in the circuit of the PBX exchange of FIG. 1, as well as the node of receiving the numbers in the circuit of the ATC prototype, can be represented by the loop status scanning system considered above, a multi-frequency signal receiver 12, and a number receiving software module implemented by microcomputer 1. Difference it is enclosed in the program modules for receiving the number: for the PBX PBX, the number of necessary dialed digits of the internal station number has been increased (from 3 to 4), the logic and timing diagram of the node operation have been changed (presented below in the diagram of FIG. 3).

 The inductor signal generator 13 generates a continuous signal with a frequency of 25 Hz. The inductor CB is fed into the AL and the formation of its required codense in the ATC prototype circuit is carried out by turning on the relay P16 (when the relays P17 and P18 are off) under the control of the software module for forming the CB. With this in mind, the node for the formation of the SV ATC prototype is represented by the generator of the inductor signal 13, relay P 16, the control path of this relay and the specified software module. The specified method for the formation of the codification of the inductor component of the PSV is stored in the PBX AT. A tone generator 9 is used to generate the send signal of the code “2 of 6”. In addition, to enable this sending, individual paths 14 are included in the called AL by command from the microcomputer (in the ATC prototype, the coffee chip circuits are in a passive state in order to save power consumption and are turned on only by the response signal of the subscriber). Thus, the PSV UFPSV formation unit is distinguished by the inclusion of the TS 9 generator in it and the modernization of the CB formation software module (in order to implement the state change diagram shown in Fig. 3).

 The transfer of the call code from UPPN to UFPSV in the scheme of figure 1 is carried out programmatically through the call register of this connection.

Consider the work of automatic telephone exchanges when servicing in-house calls. All subscribers (personal call objects) of PBX subscriber terminals are assigned call codes - one of the digits from "1" to "0". When calling a subscriber with a code, for example, “4” of a subscriber terminal with an internal number, for example, 312, the calling subscriber picks up his TA and, upon receiving a station response signal, dials the personal number 3124 of the called subscriber. (If the called AL is busy after dialing three digits, it receives the corresponding tone. The on-site nature of the PBX call is determined by the analysis of the first digit dialed.)
To describe the process of servicing a call, we use the graphic language recommended for telephony, based on the state change diagrams (DIS) of the process [1, Sec. 9.4], [9, sect. 1.3]. For traditional telephone exchanges with indirect control, including ATS prototype, a DIS for an in-house call is known - see, for example, [9, Fig. 1-10]. Until the completion of the reception of 3 digits - AL numbers, this DIS is also valid for the AT PBX under consideration. Figure 3 presents a further continuation of the process. With the arrival of the 3rd digit, the availability of the called AL (AL B) is checked. If AL B is free, the connecting path is reserved and the process goes into the standby state of the 4th digit of the personal number - HF call code. (Otherwise, the caller (subscriber A) is a tone employment lowers the handset (AIT), and releases the line.) Dwell time (waiting) the challenge code BB _q reduced to 4 seconds. On reception KB challenge code (or tripping BB _q) incoming call code (or code "-" corresponding to its rejection) is fixed in the register call. This completes the work of the software module for receiving numbers, further call service is transferred to the software module for the formation of CB.

The ST formation stage in Fig. 3 is represented by the “KB analysis” block (solution) and 11 alternative branches (one of them is deployed, which corresponds to the “k” calling code. Each of the branches includes two states — sending a code signal “2 of 6” (CB _code ) and sending the inductor signal (CB _ind ). When sending the CB _{code, the} individual path 14 of the called AL B is open and switched to the generator channel TC 9 with the required code value. The sending time is limited by the internal signal of the BB _code and is 50 ms. (V MTB event of a response to the _{SW-side code} with the AL B Positioning the subscriber at the side DLC coded calling step of sending a call is terminated on this.)
In the “Send CB _ind ” state, the control commands of the microcomputer 1 switch the relay P16 of the individual path 14 of the called AL (when the relays 17 and 18 are off), thereby providing a signal to the AL from the generator 13 through the UPIS 19 (when relay P16 is turned on) and pause ( when released) in accordance with the time chart in FIG. 2 for the received call code. AL B power is supplied from the UPIS - when a signal is supplied and from the individual path - during a pause. Accordingly, their scan points are also polled to record the response from AL B. The caller’s line AL A is connected to the channels of the TS 9 generator with the Tone and Silence signals synchronously with the switching of the inductor signal. This ensures personal coloring of the call control signal. The sending of the inductor signal is completed either by the operation of the time delay BB _ind or by the receipt of a response signal from AL B (MTB). In the latter case, the PBX exchange enters the "Talk" state. This condition, as well as the end call procedure, are no different from traditional ones.

 A possible variant of the structural scheme of the PBX exchange according to claim 2 of the formula does not differ from that shown in Fig. 1. As mentioned earlier, communication with the host exchange is carried out via PCM path 8, the alarm system is organized according to the R2 system. It is assumed that the basic telephone exchange and all other telephone exchanges in the numbering zone are also designed as PV automatic telephone exchanges according to claim 2 of the formula and, together with the automatic telephone exchange under consideration, form a single zone with a personal inter-office call with 8-digit personal numbering (7 characters for a subscriber terminal and 1 character for call code).

 With an outgoing call, the telephone exchange (Fig. 1), after receiving the index "9", provides the subscriber with a value of 8. A microcomputer 1, having received the dialed number, occupies a free channel of the PCM path and broadcasts the full personal number to the oncoming terminal PBX of the receiver.

 With an incoming call, the PBX (Fig. 1) receives the number of its called AL and the call code on the signaling channel, checks the availability of this AL, sends the call code to the UFSV, generates the corresponding PSV and, upon receipt of the response from the called AL, switches off the conversation path.

 FIG. 1 also represents a possible variant of the ATS PV circuit according to claim 3 of the formula. Here, the function of the receiver of the call code when servicing an external incoming call is performed by a parallel-connected receiver of multi-frequency signals 12 and a speech recognition device (PP device) 20 (indicated by a dotted line). The PP device is a specialized processor with the simplest digital dictionary of recognizable words that does not require pre-tuning for voice [6, section 5.6]. In accordance with the receiver hardware, the PBX allows you to set a calling code by callers either by dialing an additional digit with a TA with tone dialing (ie, the code "2 of 8") or by a beeper when using a TA with pulse dialing, or by voice in the form of words "one", "two" ... "nine", "zero" when using any type of SLT.

 With an external call of the subscriber of the considered PBX, the caller dials the usual number of the required AL. The processing of an incoming call to the PBX is carried out in the traditional way up to checking the availability of the called terminal. The next step is the reception of the call code. At this stage, the telephone exchange: a) generates and issues to the oncoming telephone exchange in the corresponding signal channel a linear signal “subscriber’s response”, thereby simulating the receipt of a response from the called AL and ensuring the connection of the conversation path along the entire exchange of telephone exchanges participating in the connection to the AL of the calling subscriber ; b) generates a conditional short signal from the generator TC 9 along the generated path to the called AL, which is perceived by the calling subscriber as a call code request, and c) connects the free channels of the receiver of the MF signals 12 and PP 20 to the generated path. The stage ends with the receipt of the call code from the caller (or after 4 seconds) and transferring it to UFPSV. The procedures for the formation of PSV and further processing of the call are similar to those described previously.

 In conclusion, we consider (Fig. 4 ... 7) several examples of the organization of subscriber terminals of PBX exchanges. These examples demonstrate the various opportunities provided to subscribers depending on their needs (collective and personal), the composition and characteristics of the used OS.

 In FIG. Figure 4 shows the simplest parallel connection circuit in AL 5 of two standard TAs (that is, with a conventional inductor call - ring or tone dialing device) TA 21. A call to any of the terminal's subscribers comes simultaneously to both SLTs and is listened to by all subscribers. Personal coloring of the sound signal allows you to understand who the call is specifically directed to. The encoded component of the PSV is not used and does not have any effect, since its level and frequency are outside the range of operating parameters of the TA calling device. The maximum number of parallel-connected op-amps is limited by the energy of the inductor signal of the exchange.

In the scheme of FIG. 5, standard op-amps — TA 21 and answering machines (A / O) 22 are also used. In this case, call addressing is implemented using a centralized call distributor 23. The call dispenser includes a decoder 24, a control unit (CU) 25, a matrix 26 and terminal kits (OK) 27, Decoder 24 contains a filter for protection from the inductor signal and the dial signal, the actual code converter "2 of 6" in position and register memory output code. The control unit 25 generates the reset and block signals of the decoder and includes an AL status sensor, a detector of the inductor component of the CB (with an envelope smoothing filter) and a reset signal generation circuit. The outputs of the decoder in figure 5 are indicated in accordance with the values of the call codes. The terminal set 27 contains a key 28, an op-amp state sensor 29 (with its own power supply) and an OR 30 circuit. Matrix 26 is a switching unit with vertical and horizontal buses, at the intersection points of which special inserts - diode jumpers can be inserted. By pre-setting the inserts, subscribers set the desired distribution of calls to one or another of the used op-amps. (Note that more simply, but less clearly, the call distributor circuit 23 can be implemented in a programmable microprocessor version.)
The inserts in matrix 26 shown in FIG. 5 (shown by asterisks) show a specific example of subscriber line service in a small office. Let us explain this example. There are 5 subscribers in the office: the chief (call code "8") and the chief accountant (call code "5") with their personal TA 21-1 and 21-2 in the same room and 3 employees (with call codes "2", "4 "and" 6 "), using a common TA 21-3, in another room. The boss often stays in the 2nd room, so his call is also connected to TA 21-3. One of the employees performs the functions of a secretary, therefore calls without setting a code (with a code “-”) arrive only at TA 21-3. Under the call code "0", the A / O 22-4 service answering machine is included with the recorded advertising message of the company. Another answering machine is used by the boss as a personal one.

 In the initial state, all the op-amps are disconnected from the AL with the keys 28 OK 27, the decoder 24 is reset and prepared for operation by the enable signal from the AL UU 25 status sensor (with the AL loop open). When a call arrives, the encoded PSV packet is decoded by the decoder 24. The decoder activates one of the vertical buses of the matrix 26 and, through the installed insert (s), one (two when calling the head) of the horizontal buses. The signal 28 closes the key 28 of the corresponding OK 27 through the OR element 30. The called op-amp is connected to the AL, the inductor signal with its characteristic encoder enters only this op-amp. The answer to the call from the OS is fixed by the op-amp status sensor 29 and the AL UU 25 status sensor. The signal of the latter generates a reset signal of the decoder and, accordingly, the active matrix signal 26. In this case, the key 28 remains closed by the signal from the op-amp status sensor 29 for the conversation stage. If the call is not answered, the reset signal of the decoder is generated by the UU 25 detector (when removing the CB). In an outgoing call, the TA tube is picked up by the corresponding op amp state sensor 29. With his signal through the OR 30 circuit, the key 28 is closed and the TA takes AL. At the same time, УУ 25 by the signal of the AL status sensor blocks the operation of the decoder, preventing its accidental operation during dialing and subsequent conversation.

 Figure 6 shows another use of the call distributor 23 when including (along with the standard TA 21) special op-amps with a personal call - TA PV 31 with audible ringing signals in the form of 3 musical fragments and A / O PS 32 - collective (for 3 subscribers - all family members, for example) an answering machine of personal messages. Both of these op-amps have a five-wire connection circuit and a ringing signal in the form of a position code taken directly from matrix 26. The ringing device TA PV 31 is a multi-program electronic call (see, for example, [10]), otherwise it does not differ from traditional TA .

 A / O PS 32 in its device basically repeats the known answering machine with electronic message memory [11, Fig. 8.17, for example]. The difference is as follows: a call code scanning system has been introduced (instead of the induction signal detector); RAM address space used to read and write outgoing and incoming messages is divided into personal zones - subscriber mailboxes, each of the call codes is addressed to its own mailbox; A separate mailbox management scheme has been introduced.

 In the diagrams of FIGS. 5 and 6, call addressing was provided by a centralized call dispenser 23. In the diagram of FIG. 7, addressable op-amp DTs directly connected to the PBX PBX by a ringing signal were used. Here 33 - TA PV with a call by musical phrases, 34 - TA PV with a call by an inductor signal and 35 - A / O PS, differing from those discussed above in that they contain their own built-in call distributors (decoders). They include a decoder 24, a control unit 25, a terminal kit 27 (only for TA PV 33), as well as a decoder address setting unit. CB ATS in the scheme of Fig. 7 simultaneously arrives at all DT, but only that (or those) DT is triggered (receives the call), the address attribute of which corresponds to the received call code.

Sources of information
1. O. N. Ivanova and others. Automatic switching. - M.: Radio and Communications, 1988.

 2. Mini-automatic telephone exchange - comfortable communication. NGO Strela. - SPb., 1996.

 3. CSK "Quantum". General description. OJSC "Moscow Digital Telephone Company". - M., 1997.

 4. Electronic digital automatic telephone exchanges of small capacity "Quantum-100", "Quantum-200". OJSC "Moscow Digital Telephone Company", M., 1998.

 5. CSK "Quantum". Block BALK. User's manual. 000 "Quantum Intercom". - Latvia, Riga, 1998.

 6. T. I. Ivanova, Subscriber terminals and computer telephony. - M.: Eco-Trends, 1999.

 7. CSK "Quantum". TEZ KS8. Technical description. 000 "Quantum Intercom". - Latvia, Riga, 1998.

 8. CSK "Quantum". TEZ AK2. Technical description. 000 "Quantum Intercom". - Latvia, Riga, 1998.

 9. M. F. Lutov et al. Quasi-electronic and electronic automatic telephone exchanges. - M.: Radio and Communications, 1988.

 10. The device of a musical synthesizer // Amateur radio (Minsk), 1992, 3.

 11. Art. J. Bigelov. Phone repair. - M .: BINOM, 1996.

Claims (1)

 An automatic telephone exchange having indirect control, which includes a number receiving unit and a call signal generating unit in the in-house call servicing scheme, characterized in that the number receiving unit is designed as a receiver of the called subscriber line number and an additional call code digit, the call signal generating unit is associated with the output of the node receiving the numbers according to the received call code and is executed as a shaper controlled by these codes of one of several call signals, different in their frequency-time page Keturah, e.g., with different kodentsiey inductor, in the form of tones of different musical phrases encoded, and the combined inductor of the encoded with different kodentsiey.

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