SU180623A1 - DEFINITION OF ELECTRONIC TELEGRAPHIC APPARATUS - Google Patents

Description

From the main auth. St. No. 160527 is known a decoder of electronic telegraph apiarats with start-stop correction, in which a code combination is converted into a certain number of pulses. The number of pulses (cycles) within one cycle of operation of the decoder is equal to the number of current parcels in combination, and each successive impulse advances a unit along the register by twice the number of cells than the neighboring previous one.

The proposed decoder differs from the well-known one in that it instead of one uses several clock pulse amplifiers with several key triodes, the number of which is equal to the value of the code being decoded. The use of several clock sources allowed us to exclude one of the shift registers.

The drawing shows the basic scheme of the decoder described.

Before the start of decoding a regular code combination, all the cores of the shift register of the decoder, with the exception of core 1, are in the zero magnetic state. the decryption process consists in advancing along the register with clock pulses formed from the meaning of their code elements, information recorded on the core /, and the unit is placed at the end of the cycle in the desired cell. Suppose a combination is decrypted, consisting of all current parcels. As a result of the cutting through of the first working premise of the said combination, a start pulse of the first amplifier 2 pulses is formed. A current pulse is generated in the collector circuit of the latter, passing through the clock winding of the core / and opening the key triode 3. The core /, reversing, records information on a single closed triode 3 output circuit on the core 4. As a result of cutting through the second working premise, the amplifier 5 is excited creating a clock pulse in the windings of the cores / and 4 and opening the key triode 6. Since at this moment the information is already in core 4, core 1 does not respond to this clock. The core 4, re-magnetized, transfers information through a single closed circuit triode 6 to the core 7. Next time, the decryption will cause the amplifier 8 and the key triode 9 will open, the information will be rewritten to the core 10.

In the fourth and fifth cycles, the information will be rewritten to the cores // and 12, respectively.

pulse passing through the windings of all (in this case 32) cores. Under the action of this impulse, only one core (in the remote case, the last one, 12th one) remagnerates, in which information was placed at the end of the decryption cycle. The information found in this core, along the chain closed by the key triode 14, is read and copied to the core.

If the received combination contained a combination of significant and insignificant code elements (current and current parcels), then the location of the information in the register of the decoder by the end of its operation cycle is determined by this nature of the combination. Thus, in the decoder register within one cycle of operation with several clocks, the number of which does not exceed the code value, a single information unit is moved, and the first impulse of each combination, if current, shifts the information always by one core to the right, the second one - by two cores, the third is four, the fourth is eight, and so on; in other words, each subsequent clock cycle advances the unit along the register with a doubled number of cells than the neighboring one.

The described decoder can be used in the design of various kinds of electronic devices for converting discrete information, in particular in the development of high-speed electronic telegraph equipment for transmitting data to

counting machines.

Subject invention

Electronic Telegraph Decoder according to ed. St. No. 160527, different

By the fact that, in order to reduce the number of registers, it uses clock amplifiers with key triodes, the number of which is equal to the code value included in the corresponding cells of the ferrite-diode shift register, as a register that converts a code into a number, so that each successive clock the pulse advances the unit along the register by twice the number of cells than the neighboring previous one.

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