SU1123115A1 - Automatic dialing device - Google Patents

Abstract

The AUTOMATIC SET OF THE SUBSCRIBER NUMBER contains a storage matrix with nominal wires passing through the corresponding ferrite cores with output windings, the nominal wires of the selector, sequential connected pulse generator, digit value counter, intersectional delay counter and counters of the selection key, intersequential delay counter and counters of the selector wire, sequential connected pulse generator, digit counter, intersectional delay counter and counters of the selection key, intersequential delay counter and counters of the digit, intersequential delay counter and counters, consecutively connected generator digit numbers, and also an executive unit connected to the output of the digit value counter, the polling current driver, two read amplifiers, the first terminals of the output windings of the ferrite cores are interconnected, and the second terminals of the output windings of the ferrite cores are connected to the cathodes of the diodes, characterized in that, in order to simplify the device by eliminating the transforming blocks, K-1 polling current drivers K compensating wires are inserted into the memory the matrix, where K is the number of digits of the subscriber number, each compensating wire is threaded successively through ferrite cores of the storage matrix, except for ferrite cores, corresponding to the subscriber's k-numbers and digits, and pass through in relation to the direction of passage of the nominal wires, the first ends of the compensating wires (L are connected and connected to the second ends of the nominal wires, and the second ends of the compensating wires are connected to the outputs of the polling current drivers whose inputs are connected to the corresponding outputs of the digit sequence number counter, the anodes of the respective diodes are connected to the inputs of the read amplifiers whose outputs are connected to the installation inputs of the digit value counter.

Description

The invention relates to communication technology and can be used to automatically dial a number of subscribers of an automatic telephone exchange or other automatic switching device. An automatic dialer is known, containing a memory matrix consisting of switching elements on ferrite cores, a pulse generator and a pulse counter l. However, f (atfiioe. The device is complicated and does not ensure the accuracy of dialing the subscriber number. The closest to the proposed one is the automatic dialing subscriber device, which contains a memory matrix with nominal wires passing through the corresponding (ferrite cores with outgoing windings). the nominal wires are connected by the first ends to the nominal selection keys, a pulse generator connected in series, a digit value counter, an inter-series delay block and a digit number counter, as well as An additional unit connected to the output of a digit value counter, a polling current driver, two read amplifiers, the first terminals of the output windings of the ferrite cores are interconnected, and the second terminals of the output windings of the ferrite cores are connected to the cathodes of the respective diodes, and also, the units are transformed reading amplifiers and the write register 2. However, the known device is complicated, since it has a complicated reading amplifier block and a write register. The purpose of the invention is to simplify the device by eliminating conversion units. To achieve this goal, the automatic dialing device of the subscriber contains a storage matrix with nominal wires passing through an appropriate ferrite core with output windings, the nominal wires connected to the first ends of the nominal selection keys, sequentially connected pulse generator, digit value counters, interstitial delay block and counter of the serial number 1 152 digits, as well as the execution unit connected to the digit counter output, the current driver polling a, two read amplifiers, the first pins of the output windings of ferrite IT cores are connected between 1, the second pins of the output windings of ferrite cores are connected to the cathodes of the respective diodes, K -1 of the current formers of the interrogation k compensating wires for the storage matrix, where K is the number of digits of the subscriber number; each compensating wire is threaded successively through ferrite cores by memorizing the matrix, except for ferritoBbzx cores corresponding to the K -digit number of the subscriber and passes meetings in relation to the direction of passage of the nominal wires, the first ends of the compensating wires are combined and connected to the second ends of the nominal wires, and the second ends of the compensating wires are connected to the outputs of the polling current drivers, the inputs of which are connected to the corresponding outputs of the digit number counter, the anodes corresponding to The diodes are connected to the inputs of the read amplifiers, the outputs of which are connected to the installation inputs of the digit value counter. The drawing shows the structural electrical circuit of the automatic dialing subscriber. I, the subscriber's automatic dialing device contains a storage matrix 1, executed on ferrite cores 2, nominal wires 3, compensating wires 4, nominal selection keys 5, polling current generator 6, digit number serial number 6, output windings of 8 ferrite cores 2, diodes 9, readout amplifiers 10, an inter-series delay unit 11, a digit value counter 12, a pulse generator 13 and an execution unit 14. The subscriber's automatic dialing device operates as follows. When pressing the name key 5, a circuit is formed through the second end of the name wire 3 and the compensating wire 4 to the polling generator 6 of the interrogation current of the storage matrix 1.

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The counter 7 is in the initial state, therefore the input signal is supplied only from the first output of this counter 7. The first output of the counter 7 is connected to the first driver 6 of the polling current of the storage matrix 1. Therefore, in the circuit of the nominal wire 3 and the compensating wire 4 corresponding to the first digit , polling current flows. However, since the compensating wire 4 passes counter to the nominal wire 3, the output signal of the desired polarity on the output windings 8 is only for those ferrite cores through which the selected nominal wire 3 passes and which correspond to the first digit, since only through these ferrite cores Combiner II wire 4 does not pass. In all other cores 2, the output signal is either equal to zero (through which the named wires 3 and the compensating wires 4 pass, as they are connected oppositely), or negative polarity in all other ferrite cores 2, because through them the selected nominal wire 3 does not pass, and the compensating wire 4 passes through the contacts with respect to the nominal wire 3, all ferrite cores 2 of the memorizing matrix 1 are made with an inconsistent hysteresis loop and are divided into K-7 software groups; () cores in each, where K is the number of digits in the subscriber number, and (the code size of the binary representation of the maximum digit in the number (corresponds to zero). Diodes 9 in the corresponding with the same bits from the first to fourth binary representations of the numbers are connected and connected to the input of the amplifier 10. With a single ferrite core 2, the output signal through the diodes 9, installed in accordance with this figure, will go to the input of the amplifier 10 and will be fed to the input of the counter 12. After this, the generator pulses

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13 are fed to the actuator and simultaneously to the counting input of the counter 12. When the number of these pulses is equal to the code value of the first digit set in the counter 12, the latter prohibits the supply of pulses from the generator 13. At the same time, the counter 12 is set to. the initial (zero) state and sends a pulse to counter 7, and after a time equal to the pause time between digits required when dialing the subscriber’s number, it gives a pulse of permission to start the drivers 6 from counter 7.

When a pulse is applied to the inputs of the drivers 6 from counter 7, the resolving potential appears only at the second output, i.e. only the second driver 6 of the interrogation current of the storage matrix 1 is activated.

At the same time, in the circuit of the selected nominal wire 3, the current flows again and now it flows through the compensating wire, but already connected to the second phore in the rotor 6. Therefore, by analogy with the considered method of selecting the first digit, only the second digit of the required number is selected, since the polling current remembers the matrices are compensated in all ferrite cores through which the nominal wire 3 passes, in addition to the ferrite core corresponding to the second digit. Further, the process of selecting the digits of the subscriber number corresponding to the selected nominal wire 3 and converting them into pulses of the subscriber network continues until the last digit of the number is selected and converted. Then the counter 12 delivers the last pulse to the counter 7, which prohibits further operation of the device. The HSL subscriber dialing this ends.

Simplifying and improving the reliability of the automatic dialing subscriber is achieved by eliminating conversion units.

Claims (1)

DEVICE FOR AUTOMATIC SUBSCRIBER NUMBER SET, containing a storage matrix with name wires passing through the corresponding ferrite cores with output windings, the name wires being connected at the first ends to the name keys of selection, pulse generator, a digit value counter, an inter-delay unit and a serial number counter as well as an executive unit connected to the output of the counter of the value of the digit, a survey current driver, two read amplifiers, the first the output terminals of the output windings of the ferrite cores are interconnected, and the second outputs of the output windings of the ferrite cores are connected to the cathodes of the diodes, characterized in that, in order to simplify the device by eliminating the conversion blocks, K-1 interrogators of the interrogation current K of the compensating wires are introduced into it to the storage matrix, where k is the number of digits of the subscriber’s number, each compensating wire is passed sequentially through the ferrite cores of the storage matrix, except for the ferrite cores corresponding to the Kth digit n the subscriber’s number, and will pass counter to the direction of passage of the name wires, moreover, the first ends of the compensating wires are combined and connected to the second ends of the name wires, and the second ends of the compensating wires are connected to the outputs of the polling current drivers, the inputs of which are connected to the corresponding outputs of the serial number counter digits, anodes of the corresponding diodes are connected to the inputs of the reading amplifiers ^ the outputs of which are connected to the setting inputs of the counter of the digit value. ''