RU2153232C2 - Digital telephone set - Google Patents

Abstract

FIELD: electronic communication. SUBSTANCE: in preferable embodiment, device has control unit, which has unit for switching encoder-decoder on and off, and analysis unit, which has first, second and third comparison circuits with respective first, second and third memory units, which store information signal feature code, test feature code and call feature code, respectively. Input signal shift register has 24 bits. First to eighth of its outputs are connected to corresponding first inputs of first and second comparison circuits, which second inputs are connected to respective outputs of first and second memory units. First to twenty fourth bit outputs of register are connected to respective first inputs of third comparison circuit, which second inputs are connected to respective outputs of third memory unit. Outputs of first, second and third comparison circuits are connected to encoder-decoder control unit, test response generator and calling device control signal generator. Device provides separate comparison of information signal, test and call feature codes. In addition, control unit of device may be designed as microcontroller. Device provides possibility to switch on encoder-decoder and respectively scrambler and descrambler, only when information signal is present. At the same time, encoder-decoder and respectively scrambler and descrambler are switched off, when no information signal is present. This also protects circuits of digital telephone set from fault triggering, thus decreasing amount of power consumed by encoder-decoder and scrambler and descrambler. In addition, this provides protection against fault device triggering, when test and call signals are received. EFFECT: increased functional capabilities. 15 cl, 3 dwg

Description

 The invention relates to techniques for electrical communication, in particular to digital telephone sets, and can find application in a digital telephone network in which information is supplied to and received from a digital telephone set in digital form.

Closest to the claimed solution on the technical nature and the technical result achieved is a digital telephone (CTA) according to the patent of Ukraine N 11012, publ. 12/25/96, M. Kl ⁵ H 04 M 1/00, containing a control unit, a unit for connecting information transmission paths (BSTPI), a calling device, a dialer unit, a codec, a microphone is connected to the first input, and a telephone is connected to the first output, the control unit contains an analysis unit, a shaper of the position signal of the handset (FSPTT), a scrambler, a descrambler, a shaper of an information transmission signal (FISP), a shaper of an activity signal (FSA), a shaper of control of a calling device (FUWU), a shaper of a response to a test (PHOT ), fo dialing numerator of dialing code codes (FCCH), a clock pulse generator (GTI), the output of the FSFT is connected to the control inputs of the analysis unit, the FSA and to the first input of the FCCH, to the second input of which the dialer unit is connected, and the output of the FCCH is connected to the first input of the FIIS the second input of which the PHOT is connected, the FSA is connected to the third input, the scrambler output is connected to the fourth input, and the FISP output is connected to the first BSTPI input, the second input of which is connected to the subscriber line bus, and the first output is connected to the input of block a naliza, with the second output of the codec connected to the first input of the scrambler, and the second input of the codec connected to the output of the descrambler, the output of the FUVU connected to the calling device, and the output of the GTI connected to the corresponding inputs of the clock pulses of the scrambler, descrambler, FOT, FUVU, FISP, FKTsN, FSA. This digital telephone also contains a first counter, an operating mode control unit consisting of a second counter and a standby conditioner connected in series, a signal transmission permission block, a resolution interval shaper, and a signal analysis block made in the form of a transmission signal selector by pulse duration. The output of the FSPTT is connected to the control input of the first counter through the operating mode control unit, which in the active mode allows the operation of the first counter, and in standby mode prohibits the operation of all the main elements of the control unit, and there is also a ban on the FISP transmission and reception. At the same time, in standby mode, in the signal analysis block, the test and call signals are extracted from the information sequence of pulses by the duration of incoming pulses, and for the call signal, by the duration τ ₁ = 2τ _o corresponding to the log. "1", for the test on τ ₁ and τ ₆ , the corresponding log. “0” in the form of a code of type 1001. If there is a call signal from the output of the analysis unit, the signal passes through the HLF to the calling device, and if there is a test signal from the output of the analysis unit, the signal enters through the FIIS and BSTPI to the subscriber line bus. In active mode, the signal analysis unit does not produce. In active mode, the CTA control unit performs the following functions: forming a code sequence for dialing a pressed button from a dialer unit in the FCSN; generating a power-on signal in an appropriate driver; generation of a subscriber activity signal in the FSA; formation of information signals (speech) in a scrambler and descrambler. In addition, the main elements of the device in active mode begin to work when there is a signal from the FSFTT about the removal of the handset by the subscriber and stop working only when this signal disappears, i.e. after laying the handset.

 The main disadvantage of this digital telephone is the lack of the ability to turn on the codec and, respectively, the scrambler and descrambler only for the duration of the information signal and, accordingly, turn off the codec, scrambler and descrambler, in the absence of this signal, while ensuring protection against false alarms of the CTA control unit, which the queue does not allow for energy consumption by the codec and, accordingly, the scrambler and descrambler only for the duration of the information signal and e provides high noise immunity for this. This is due to the fact that the control unit of this CTA does not have a codec enable / disable unit and, accordingly, a scrambler and descrambler by the presence of an information signal, which also does not compare with the sign code of the information signal, and the main elements of the CTA control unit are turned on and off, respectively, when the telephone handset is removed subscriber and after its installation.

 Another disadvantage of this CTA is the possibility of false alarms when the device receives a call signal, which is due to the low noise immunity of the control unit circuit in this case, since the selection of this signal occurs by the duration of the pulses in the signal analysis unit, made in the form of a selector signal transmission. Also, it is not possible to change, if necessary, the codes of the sign of the information signal, test and call without changing the control circuit of the CTA.

 The basis of the invention is the creation of an effective digital telephone, in which it is possible to turn on the codec and, respectively, the scrambler and descrambler only for the duration of the information signal and, accordingly, turn off the codec and, respectively, the scrambler and descrambler in the absence of this signal, providing protection against false alarms of the CTA control unit at the same time, which in turn will ensure only the necessary energy consumption by the codec and, accordingly, the scrambler and descrambler with high noise immunity while. In addition, it provides protection against false alarms of the control unit when receiving a call signal, which also allows for high noise immunity of receiving this signal. Also provided is a change, if necessary, of the sign codes of the information signal, test and call without changing the control circuit of the CTA.

 The problem is solved in that in a digital telephone set containing a control unit, a unit for coordinated connection of information transmission paths (BSTPI), a calling device, a dialer unit, a codec, to the first input of which a microphone is connected, and a telephone, and the unit is connected to the first output The control unit contains an analysis unit, a shaper of the position signal of the handset (FSPTT), a scrambler, a descrambler, a shaper of the information transmission signal (FISP), a shaper of the activity signal (FSA), the shaper is controlled I call device (FUVU), the shaper of the response to the test (PHOT), the shaper of the digits of the dialing codes (FCCH), the clock pulse generator (GTI), and the output of the FSFT is connected to the control inputs of the analysis unit, FSA and to the first input of the FCCH, to the second input which is connected to the output of the dialer unit, and the output of the FCCH is connected to the first input of the FISP, the PHOT is connected to the second input, the FSA is connected to the third input, the scrambler output is connected to the fourth input, and the FISP output is connected to the first input of the BSTPI, the second input of which is is dined with the subscriber line bus, and the first output is connected to the input of the analysis unit, while the second output of the codec is connected to the first input of the scrambler, and the second input of the codec is connected to the output of the descrambler, the output of the FCU is connected to the output of the calling device, and the output of the GTI is connected to the corresponding inputs clock scrambler, descrambler, FOT, FUVU, FISP, FKTsN, FSA, contains a codec enable / disable unit (BVOK), the output of which is connected to the codec control input, and the signal analysis unit contains a shift register of input signals ( SHS), the first comparison circuit with the first block of the code of the sign of the information signal, while the input of the RSVS is connected to the first output of the BSTPI, and the output of the RSVS is connected to the first input of the first comparison circuit, the second input of which is connected to the output of the first memory block, and the third input of the first the comparison circuit is connected to the control input of the analysis unit, the output of the first comparison circuit is connected to the first input of the BVOK, while the output of the FSPTT is connected to the second inputs of the BVOK, scrambler, descrambler, the first input of the descrambler and the third input of the scramble and connected to the output BVOK, the GTI output connected to the respective clock inputs AFRC, the first comparison circuit, BVOK, the first memory block. Also, the BVOK contains the on-time control driver (FVVV), the off-time control driver (FVVO) and the codec control circuit, while the first inputs of the FVVV and FVVO are interconnected and to the first input of the VVOK, the second inputs of the FVVV and FVVO are interconnected and to the second input BVOK, output FUVV is connected to the first input of the control circuit of the codec, with the second input of which the output is connected FUVO, the output of the control circuit of the codec is the output of BVOK. The signal analysis block also contains a second comparison circuit with a second test code memory block, the first input of the second comparison circuit is connected to the output of the RSVS, the second input to the output of the second memory block, the third input to the control input of the analysis block, and the output to the first input of the payroll while the output of the FSPTT is connected to the second input of the payroll, and the output of the GTI is connected to the corresponding inputs of the clock pulses of the second comparison circuit, payroll and the second memory block. The signal analysis block also contains a third comparison circuit with a third call code memory block, the first input of the third comparison circuit is connected to the output of the RSVS, the second input is to the output of the third memory block, the third input is to the control input of the analysis unit, and the output is to the first input of the FCU while the output of the FSPTT is connected to the second input of the FUVU, and the output of the GTI is connected to the corresponding inputs of the clock pulses of the third comparison circuit, FUVU and the third memory block. In addition, the signal analysis block contains the first, second, and third comparison schemes with the corresponding first, second, and third memory blocks, respectively, of the sign codes of the information signal, test, and call, and the RSVS is eight-bit, while the outputs from the first to the eighth bit of the RSVS are connected to the corresponding the first inputs of the first, second and third comparison circuits, the second inputs of which are connected to the corresponding outputs of the first, second and third memory blocks, and the outputs of the first, second and third circuits These are the first, second, and third outputs of the analysis unit, respectively. The signal analysis block also contains the first, second, and third comparison schemes, with the corresponding first, second, and third memory blocks, respectively, of the sign codes for the information signal, test, and call, and the RSVS is sixteen-bit, the outputs from the first to the eighth bit of the RSVS are connected to the corresponding first inputs of the first and second comparison circuits, the second inputs of which are connected to the corresponding outputs of the first and second memory blocks, respectively, while the outputs from the first to sixteenth bit of the RSVS are connected to the corresponding the corresponding first inputs of the third comparison circuit, the second inputs of which are connected to the corresponding outputs of the third memory block, the outputs of the first, second, and third comparison circuits being the first, second, and third outputs of the analysis block, respectively. The signal analysis block also contains the first, second, and third comparison schemes with the corresponding first, second, and third memory blocks, respectively, of the sign codes for the information signal, test, and call, and the RSVS is twenty-four-digit, the outputs from the first to the eighth bit of the RSVS are connected to the corresponding first inputs of the first and the second comparison schemes, the second inputs of which are connected to the corresponding outputs of the first and second memory blocks, respectively, while the outputs from the first to the twenty-fourth bit of the RSVS are connected are connected with the corresponding first inputs of the third comparison circuit, the second inputs of which are connected to the corresponding outputs of the third memory block, the outputs of the first, second and third comparison circuits being the first, second and third outputs of the analysis block, respectively. In another embodiment, the codec clock input is connected to the first output of the BSTPI. And the BSTPI contains an information signal pulse generator, the output of which is the second output of the BSTPI and which is connected to the micro-power on / off circuit, the output of which is connected to the corresponding control inputs of the RSVS, the first, second and third comparison circuits of the first, second and third memory blocks, scrambler , descrambler, BVOK, FUVU, FOG, GTI, FCTsN, FSA, FISP.

 In another embodiment, in a digital telephone set comprising a connection unit for information transmission paths (BSTPI), a calling device, a dialer unit, a codec, a microphone is connected to the first input and a telephone is connected to the first output, while the first output of the BSTPI is connected to the first input a control unit, to the second input of which a dialer unit is connected, to the third input is the output of the codec encoder, and the first output of the control unit is connected to the input of the calling device, the second output to the input of the codec decoder, third yield - BSTPI a first input, a second input coupled to the bus subscriber line, the fourth comparison output information signal with the code attribute information management unit connected to the input signal enable / disable the codec. The fifth output of the comparison of the test signal and the test code of the control unit is connected to the second input of the BSTPI. The sixth output of the comparison of the call signal and the call code of the control unit is connected to the calling device. The first output of the BSTPI is also connected to the synchronization input of the codec. And BSTPI contains a driver of the information signal, the output of which is the second output of the BSTPI and which is connected to the fourth input of the control unit through the on / off micro-heating mode. In addition, the control unit is made in the form of a microcontroller.

 The introduction of a codec on / off unit into a digital telephone circuit with the execution of a signal analysis unit with a shift register of input signals connected to the first memory unit to the first comparison circuit allows a comparison of the code for the sign of the presence of an information signal from the memory and the received information signal and the comparison result enable the codec scheme only if there is an information signal at the input of the CTA, the sign of which coincides with that recorded in the memory, and accordingly the circuit ESA in the absence of said signal. And this allows us to provide only the energy consumption required by the codec at the time of receiving the information, while ensuring high noise immunity at the same time, since false alarms of the control circuit are excluded. And the connection of the output of the FSPTT directly to the inputs of the BVOK, scrambler, descrambler allows the operation of these blocks, i.e. puts them in the standby mode of the appearance at their respective inputs of the signal of the result of comparing the sign of the information signal from the signal analysis unit. The connection of the first input of the descrambler and the third input of the scrambler directly to the output of the BVOK also allows you to include them in the work with the codec only if there is a comparison of the sign of the information signal, which also provides only the necessary energy consumption for the time of the information signal.

 The execution of the on / off block of the codec with the on-time driver and the off-time driver provides the necessary delay time for turning on and off the codec circuit, respectively, when an information signal arrives and is absent.

 The inclusion in the signal analysis unit of the second comparison circuit with the second memory block of the test code allows you to compare the test received in the CTA circuit with the test stored in the memory unit and thereby identify it, which prevents the CTA circuit from receiving a false test.

 The inclusion in the signal analysis unit of the third comparison circuit with the third memory block of the call code allows you to compare the call signal received in the CTA circuit with that stored in the memory unit and thereby identify it, which prevents the CTA from receiving a false call signal.

 Performing a shift register of the input signals in the eight-bit analysis unit allows you to increase the degree of protection of the CTA circuit from its operation when receiving false signals of an information signal, test and call sign.

 Performing a shift register of the input signals in the analysis unit with sixteen-bit or twenty-four-bit allows you to increase the degree of protection of the CTA circuit from its operation when receiving false call signals.

 The direct connection of the input of the codec clock with the first output of the block of the coordinated connection of information transmission paths allows to reduce the delay time of the synchronization of the codec circuit by eliminating unnecessary hardware connections and thereby improve the reliability of synchronization of the codec circuit.

 And the introduction of an information signal pulse shaper into the connection unit of the information transmission paths, by the signal from which the main blocks of the CTA circuit are prepared to be switched on, allows you to provide micro power consumption of these blocks in the absence of an information signal at the input and, accordingly, the necessary energy consumption only in the presence of an information signal.

 The implementation of the digital telephone circuit in another embodiment, in which the fourth output of the comparison of the information signal with the attribute code of the information signal of the control unit is connected to the on / off input of the codec, allows it to be implemented using a microcontroller. At the same time, it is possible to turn on the codec only for the duration of the presence of an information signal at the CTA input and, accordingly, turn off the codec in the absence of this signal, providing protection against false alarms of the control unit, which in turn allows providing only the necessary energy consumption by the codec while ensuring high noise immunity.

 The connection of the fifth output of the comparison of the test signal and the test code of the control unit with the second input of the BSTPI allows you to transmit the identified test signal to the subscriber line bus and thereby protect the CTA circuit from receiving a false test signal.

 The connection of the sixth output comparison of the call signal and the call code of the control unit with the calling device allows you to send an identified call signal to the calling device and thereby protect the CTA from receiving a false call signal.

 And the connection of the first output of the block connecting the information transmission paths with the synchronization input of the codec allows you to reduce the delay time of the synchronization signals of the codec circuit by eliminating unnecessary hardware connections and thereby improve the reliability of synchronization of the codec circuit.

 The introduction of an information signal shaper into the connection unit for information transmission paths, according to the signal from which the control unit is being prepared for switching on, allows its micro-consumption mode in the absence of an information signal at the corresponding CTA input and, accordingly, only the necessary energy consumption in the presence of an information signal is provided.

 The execution of the control unit in the form of a microcontroller allows you to implement it using software and provide microminiaturization of the execution scheme.

 The above confirms the existence of a causal relationship between the totality of the essential features of the claimed invention and the achieved technical result.

 This set of essential features allows, in comparison with the prototype, to provide the ability to turn on the codec only for the duration of the information signal and, accordingly, turn off the codec in the absence of this signal, while ensuring protection against false alarms of the control unit, which in turn only ensures the necessary energy consumption by the codec with while ensuring high noise immunity. In addition, it provides protection against false alarms of the control unit when receiving a call signal, which also allows for high noise immunity of receiving this signal. Also provided is a change, if necessary, of the sign codes of the information signal, test and call without changing the control circuit of the CTA.

 According to the authors, the claimed technical solution meets the criteria of the invention of "novelty" and "inventive step", because the set of essential features characterizing the claimed digital telephone, is new and should not be explicitly from the prior art.

 The invention is illustrated by drawings, in which the same elements have the same digital designations and where in: Fig.1 shows a structural diagram of a digital telephone; figure 2 shows the structural diagram of the block on / off codec; figure 3 shows a variant of the structural diagram of a digital telephone.

 A preferred embodiment of the digital telephone in accordance with FIG. 1 contains a control unit 1, a unit 2 for connecting information transmission paths (BSTPI), a calling device 3, a dialer unit 4, a codec 5, to the first input of which a microphone 6 is connected, and a telephone 7 is connected to the first output, while the control unit 1 contains a unit 8 signal analysis, shaper 9 signal the position of the handset (FSPTT), scrambler 10, descrambler 11, shaper 12 information transmission signal (FISP), shaper 13 signal activity (FSA), shaper 14 response to the test (PHOT), shaper 15 call control device (FUVU), shaper of 16 digit code numbers (FCCH), block 17 enable / disable codec (BVOK), and block 8 contains a register 18 of the shift of the input signals, made twenty-four-bit, the first comparison circuit 19 with the first block 20 of the memory code of the sign of the information signal , the second comparison circuit 21 with the second test code memory unit 22, the third comparison circuit 23 with the third call code memory unit 24, also the control unit 1 includes a clock pulse generator (not shown) and a micro-power mode enable circuit 25. At the same time, the output of the handset position signal shaper 9 is connected to the second inputs of the scrambler 10, descrambler 11, codec on / off unit 17, test answer shaper 14, call device control shaper 15, to the first input of the dialing digit code generator 16, to the control inputs the shaper 13 of the activity signal, to the control input of the signal analysis unit 8, through which to the control inputs of the first comparison circuit 19, the second comparison circuit 21, and the third comparison circuit 23. The second input of the set 16 digit code codes is connected to the output of the dialer unit 4, and its output is connected to the first input of the transmit information signal generator 12, the second input of which is connected to the test response generator 14, and the third input is the activity signal generator 13 to the fourth input - the output of the scrambler 10, and the output of the driver 12 of the transmission information signal is connected to the first input of the unit 2 for connecting the information transmission paths, the second input of which is connected to the subscriber line bus 26, and the first output Lok 2 through input analysis unit 8 is connected to the input of shift register 18 input signals. The second output of the codec 5 is connected to the first input of the scrambler 10, and the second input of the codec 5 is connected to the output of the descrambler 11, the output of the calling device control generator 15 is connected to the input of the calling device 3, the output of the codec on / off unit 17 is connected to the control input of the codec 5, the first input of the descrambler 11, to the third input of the scrambler 10. The outputs from the first to the eighth bit of the input signal shift register 18 are connected to the corresponding first inputs of the first and second comparison circuits 19 and 21, the second inputs of which are connected to the corresponding outputs of the first and second memory blocks 20 and 22, respectively, while the outputs from the first to the twenty fourth bit of the input signal shift register 18 are connected to the corresponding first inputs of the third comparison circuit 23, the second inputs of which are connected to the corresponding outputs of the third memory block 24, the outputs the first, second and third circuits 19, 21 and 23 are respectively the first, second and third outputs of the analysis unit. The synchronization input of the codec 5 is connected to the first input of block 2. The output of the clock generator is connected to the corresponding clock inputs of the scrambler 10, descrambler 11, shapers 12, 13, 14, 15, 16, register 18, first, second, and third circuits 19, 21 and 23, block 17, of the first, second, and third memory blocks 21, 22, 24. The micro-consumption circuit 25 is connected (not shown) with the corresponding control inputs of the register 18, first, second and third comparison circuits 19, 21 and 23, the first, second and third blocks of codes 20, 22, 24 of the code memory, scrambler 10, descrambler 11, block 17 , shapers 12, 13, 14, 15, 16, a clock generator.

 In accordance with FIG. 2, the codec on / off unit 17 includes an on-time control driver 27, a off-time control driver 28 and a codec control circuit 29, while the first inputs of the drivers 27 and 28 are connected to each other and to the first input of the block 17, and the second inputs which are also interconnected and with the second input of block 17, the output of the shaper 27 is connected to the first input of the circuit 29, with the second input of which the output of the shaper 28 is connected, the output of the circuit 29 is the output of the block 17.

 This digital telephone is as follows.

 A CTA through a unit 2 for connecting information transmission paths provides a two-way exchange of synchronized digital signals on a subscriber line bus 26 made in the form of one pair of wires. CTA converts speech or other signals into digital form and reverse transforms response signals into analog form. In this case, the reception of the pulse sending of the incoming signal and the transmission of the pulse sending of the outgoing signal are performed with time distribution inside the 32 kHz clock intervals. A remote power supply, a clock frequency of 32 kHz and a sub-cycle frequency of 4 kHz, as well as an information stream with a transmission speed of 32 kbit / s are supplied to the CTA via a subscriber line. In the opposite direction, from the CTA on the same bus 26 of the subscriber line only information digital stream is transmitted.

 The CTA operates in three modes: in standby mode, characterized by low power consumption when the handset is off-hook, and in two active modes when the handset is off-hook. In standby mode, the clock frequency, test signal, call signal, clock pulse, and the response to the test signal are received. In active mode, the devices for receiving the test signal and the call signal are turned off and the shaper 16 of the dialing code digit is turned on, and the codec 5 is turned on only when the result of comparing the sign code of the information signal arrives at its control input.

 In the initial position, a digital stream consisting of logical zeros and containing only information about the 32 kHz clock frequency is supplied to the CTA via the subscriber line bus 26. At the same time, a digital stream consisting of logical zeros enters the bus 26 from the CTA, and the codec 5 is disabled.

On the bus 26 of the subscriber line to block 2 receives an information signal with one-way modulation in width and frequency of the rear unmodulated edges of the pulses of positive polarity equal to F ₀ = 32 kHz. A pulse whose duration is T ₀ corresponds to a zero premise, and a pulse whose duration is 2T ₀ corresponds to a single premise. The synchronization pulses are positive pulses that are transmitted with a frequency of F _syn. = 1/8 F ₀ , i.e. equal to 4 kHz. The synchronization pulses are located through eight pulses of information at a distance equal to half T ₀ , in front of the trailing edge of the information pulse preceding it.

 When the test signal arrives, it comes from block 2 to the analysis block 8 at the input of the input signal shift register 18, from the output of the register 18 in the first eight digits it is compared in circuit 21 with the test code stored in the memory unit 22, and from the circuit output 21, the comparison result is supplied to the driver 14, the response to the test from which through the driver 12 of the transmission information signal and block 2 enters the subscriber line bus 26.

 When the call signal arrives at the CTA, which is a packet of pulses corresponding to the logical unit messages following with a frequency of 2.1-2.4 kHz, it arrives from block 2 to analysis block 8 at the input of input shift register 18, from the output of register 18 in all twenty-four digits it is compared in circuit 23 with a call signal code, which is stored in a call code memory unit 24. The result of the comparison from the output of the circuit 23 is supplied to the shaper 15 of the control of the ringing device and then to the ringing device 3 itself.

 In active mode, the driver 9 generates a pick-up signal that prohibits the operation of the response driver 14 and the call control device 15, and generates a subscriber activity signal by the driver 13 and enables the operation of the generator 16 of the dialer digits code from the dialer unit 4, the activation unit 17 / disable the codec, scrambler 10, descrambler 11 and circuit 19 comparing the code sign of the information signal and prohibits the operation of the comparison circuits 21 and 23 for test and call.

 In this case, when an information signal arrives from the subscriber line bus 26 to the second input of block 2, it is divided into the first and second output, and the second input contains only the information signal, which, through circuit 25, turns on the control unit 1 and the first output of block 2 there is both an information signal and a clock signal, while the pulse leading edge is synchronized from this output, bypassing the control unit 1 circuit, codec 5. Also, from this output of unit 2, the signal is fed to the input of register 18 of signal analysis unit 8 in control unit 1. From the output of the register 18 in the first eight digits, the information signal is compared in circuit 19 with the code of the sign of the information signal, which is stored in the memory unit 20, and from the output of the circuit 19, the comparison result is input to the codec on / off block 17, at the output of this block 17, if there is an information signal, a signal appears to turn on the codec 5, scrambler 10, descrambler 11. And if there is no information signal from the first output of block 2, there is no signal at the output of block 17 to turn on the codec 5, scrambler 10, desc Mblera 11, and they turn off. Moreover, the information signal from block 2 is fed to the input of the register 18 both from the bus 26 of the subscriber line, and along the circuit: microphone 6, codec 5, scrambler 10, driver 12 of the transmission information signal, the first input of block 2.

 After laying the handset, the signal from the shaper 9 generates a signal inhibiting the operation of the shaper 13 of the subscriber’s activity, the shaper 16 of the dialing digit code block 17, the codec on / off block 17, the scrambler 10, the descrambler 11, the comparison circuit 19 and allows the shaper 14 of the response to the test, the shaper to work 15 call device control. And the signal from the circuit 25 as a result of the lack of an information signal puts the control unit 1 in micro-power mode.

 In another embodiment of the digital telephone set circuitry in accordance with FIG. 3, it comprises a control unit 1, which can be made in the form of a microcontroller, a unit for connecting information transmission paths (BSTPI), a calling device 3, a dialer unit 4, a codec 5, the first input of which a microphone 6 is connected to, and the telephone 7 is connected to the first output, while the first output of block 2 is connected to the first input of control unit 1, the second input of which is connected to dialer unit 4, the third input is the output of codec encoder 5, and the first the output of the control unit 1 is connected to the input of the calling device 3, the second output is the input of the decoder of the codec 5, the third output is the first input of the unit 2, the fourth output of the comparison of the information signal with the sign code of the information signal of the control unit 1 is connected to the enable / disable input of the codec 5 , the fifth output of comparing the test signal and test code of the control unit 1 is connected to the second input of the BSTPI-2, the sixth output of comparing the call signal and the code of the call of the control unit 1 is connected to the calling device 3, the first output of the BSTPI-2 is connected to input Codec 5 synchronization code. The BSTPI-2 additionally contains an information signal shaper whose output is the second output of block 2 and which is connected to the fourth input of the control unit via the on / off micro power consumption circuit. Moreover, all the structural elements 8 to 24, which are included in the control unit 1, are implemented on the basis of the microcontroller.

 The conformity of the claimed technical solution to the criteria of the invention "industrial applicability" is confirmed by the indicated examples of digital telephone.

Claims (10)

 1. A digital telephone set comprising a control unit, a unit for connecting information transmission paths (TPI), a calling device, a dialer unit, a codec, to the first input of which a microphone is connected, and a telephone to the first output, while the control unit contains an analysis unit, a shaper handset position signal (SPTT), scrambler, descrambler, transmit information signal shaper (ICP), activity signal shaper (SA), call device control shaper (UVU), test response shaper (О T), a set of digit code codes (MCC), a clock pulse generator (TI), and the output of the SPTT driver is connected to the control inputs of the analysis unit and the shaper CA, to the first input of the MCC shaper, to the second input of which the dialer block output is connected, and the shaper output The KSC is connected to the first input of the IC shaper, the OT shaper is connected to the second input, the shaper CA is connected to the third input, the scrambler output is connected to the fourth input, and the output of the IC shaper is connected to the first input of the TPI connection block, the second input of which is connected to the subscriber line bus, and the first output is connected to the input of the analysis unit, while the second output of the codec is connected to the first input of the scrambler, and the second input of the codec is connected to the output of the descrambler, the output of the UVU driver is connected to the input a calling device, and the output of the generator TI is connected to the corresponding inputs of the clock pulses of the scrambler, descrambler, shapers OT, UVU, ICP, MCC, CA, characterized in that it contains a codec on / off unit (FOC), output to which is connected to the control input of the codec, and the signal analysis unit contains a shift register of the input signals (BC), which is made eight-bit, the first, second and third comparison circuits, the first, second and third memory blocks, respectively, codes of the sign of the information signal (IPR), test and call, while the input of the aircraft shift register is the input of the analysis unit, and the outputs of the aircraft register, from the first to the eighth digit, are connected to the corresponding first inputs of the first, second and third comparison circuits, the second inputs of which are connected respectively the existing outputs of the first, second, and third memory blocks, respectively, of the IPR, test, and call codes, the third inputs of the first, second, and third comparison circuits are the control inputs of the analysis unit, while the outputs of the first, second, and third comparison circuits, respectively, are connected to the first inputs of the wok unit , shapers OT and UVU, and the output of the shaper SPTT connected to the second inputs of the block wok, scrambler, descrambler, shapers OT and UVU, the first input of the descrambler and the third input of the scrambler to the VOK unit, while the output of the TI generator is connected to the corresponding inputs of the clock pulses of the aircraft shift register, the VOK unit, the OT and UVU shapers, the first, second, and third comparison schemes, the first, second, and third memory blocks, respectively, IPR, test, and call codes.  2. The digital telephone apparatus according to claim 1, characterized in that the wok unit comprises an on-time control driver (air-to-air), a off-time control driver (air-to-air) and a codec control unit, while the first inputs of the air-to-air and air-conditioners are connected to each other and the first input of the WWII block, the second inputs of the air-blast and UVO shapers are interconnected with the second input of the wok block, the outputs of the air-blast and UVO shapers are connected to the first and second inputs of the codec control block, the output of which is the output of the VO block .  3. The digital telephone apparatus according to claim 1 or 2, characterized in that the input of the codec clock is connected to the first output of the TPI connection block.  4. A digital telephone set according to any one of claims 1 to 3, characterized in that the TPI connection unit comprises an information signal pulse generator, the output of which is the second output of the TPI connection unit and which is connected to the micro-power on / off circuit, the output of which is connected to the corresponding control inputs of the aircraft shift register, the first, second and third comparison circuits, the first, second and third memory blocks, scrambler, descrambler, wok block, TI generator, UVU, OT, KTsN, SA, ICP shapers.  5. A digital telephone set according to any one of claims 1 to 4, characterized in that the control unit is in the form of a microcontroller.  6. A digital telephone set comprising a control unit, a unit for connecting information transmission paths (TPI), a calling device, a dialer unit, a codec, to the first input of which a microphone is connected, and a telephone to the first output, while the control unit contains an analysis unit, a shaper handset position signal (SPTT), scrambler, descrambler, transmit information signal shaper (ICP), activity signal shaper (SA), call device control shaper (UVU), test response shaper (О T), a generator of codes for digits of a set of MCC, a clock pulse generator (TI), and the output of a generator of SPTT connected to the control inputs of the analysis unit and shaper CA, to the first input of the shaper KTsN, to the second input of which is connected the output of the dialer unit, and the output of the shaper KTsN is connected to the first input of the IC shaper, the OT shaper is connected to the second input, the shaper CA is connected to the third input, the scrambler output is connected to the fourth input, and the output of the IC shaper is connected to the first input of the TPI connection block, the second input of which is connected to the subscriber line bus, and the first output is connected to the input of the analysis unit, while the second output of the codec is connected to the first input of the scrambler, and the second input of the codec is connected to the output of the descrambler, the output of the UVU driver is connected to the input the calling device, and the output of the generator TI is connected to the corresponding inputs of the clock pulses of the scrambler, descrambler, shapers OT, UVU, ICP. КЦН, СА, characterized in that it contains a codec on / off unit (FOC), the output of which is connected to the control input of the codec, and the signal analysis unit contains a shift register of input signals (BC), which is made of twenty-four bits, the first, second and third comparison schemes , the first, second and third blocks of memory, respectively, codes of the sign of the information signal (PIS), test and call, while the input of the aircraft register is the input of the analysis unit, and the outputs of the aircraft shift register, from the first to eighth digit, are connected to the corresponding the first inputs of the first and second comparison circuits, the second inputs of which are connected to the corresponding outputs of the first and second memory blocks, respectively, of the IPR and test codes, while the outputs of the aircraft shift register, from the first to the twenty fourth digit, are connected to the corresponding first inputs of the third comparison circuit, the second inputs of which are connected to the corresponding outputs of the third block of memory of the call code, and the third inputs of the first, second and third comparison circuits are the control inputs of the analysis block, while the outputs the first, second and third comparison circuits are respectively connected to the first inputs of the wok unit, OT and UVU shapers, and the output of the SPTT shaper is connected to the second inputs of the wok unit, scrambler, descrambler, OT and UWU shapers, the first descrambler input and the third scrambler input the output of the FOCA unit, while the output of the generator TI is connected to the corresponding inputs of the clock pulses of the shift register of the aircraft, the FOC unit, the shapers of the OT and UVU, the first, second and third comparison schemes, the first, second and third blocks of memory and, respectively, IPR, test and call codes.  7. The digital telephone apparatus according to claim 6, characterized in that the FOC unit includes an on-time control driver (UVV), a off-time control driver (SVR) and a codec control unit, while the first inputs of the air-conditioner and UVO formers are interconnected and the first input of the wok unit, the second inputs of the air-blast and UVO shapers are interconnected with the second input of the wok block, the outputs of the air-blast and UVO shapers are connected to the first and second inputs of the codec control unit, the output of which is the output of the wok block .  8. The digital telephone set according to claim 6 or 7, characterized in that the codec clock input is connected to the first output of the TPI connection block.  9. A digital telephone set according to any one of claims 6 to 8, characterized in that the TPI connection unit comprises an information signal pulse generator, the output of which is the second output of the TPI connection unit and which is connected to the micro-power on / off circuit, the output of which is connected to the corresponding control inputs of the aircraft shift register, the first, second and third comparison circuits, the first, second and third memory blocks, scrambler, descrambler, wok block, TI generator, UVU, OT, KTsN, SA, ICP shapers.  10. A digital telephone set according to any one of claims 6 to 9, characterized in that the control unit is in the form of a microcontroller.

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