SU535570A1 - Device for controlling the transfer of information - Google Patents

Description

one

The invention relates to computing and can be used in a data transmission system.

A device for encoding discrete information is known, which contains a shift register in the form of memory cells, elements AND, OR, triggers, a clock unit. In this device, discrete information falling into the input of the shift register is divided into two streams — direct and inverse — is delayed, the current value is compared with the preceding one on the elements "And and, if they are of the same character (either" O or "1), Code message 1 is transmitted to the communication channel. This device with limited speed is structurally complex, since for transferring one bit there is a shift register on triggers in the form of eight memory cells in which information moves from the first to the eighth ki, timing block with two sequences of pulses, which synchronizes the incoming stream of digital information, the element "OR two elements" And, three trigger. It is also known a device containing analog-code converters, address generators, registers, delay line, redundancy reduction unit, channel switching unit, triggers and synchronizer 2. Adaptive maintenance in this device is accomplished by reducing the redundancy of information in the direct transfer of data from two groups of parameters achieved by the fact that the parameters of the second group are transmitted when there are no significant samples in the first group of parameters, i.e. when there is no transmission by the first group of parameters st. Thus, the analysis of information is carried out only in the first group of data. The data of the second group is not analyzed and is transmitted alternately in the order of channel numbers. The closest technical solution to the invention is a device for controlling information transmission, comprising a channel switch connected to the device inputs, a block of us, the first group of elements AND, the second group of elements AND and a code register connected to the output of device 3. This device provides adaptive information services; However, it does not have a sufficiently high speed, which limits its use, and is difficult. .

The aim of the invention is to improve the speed of the device for controlling the transmission of information. In the described device, this is achieved by introducing a quantizing unit, an amplifier, a measuring unit, a switch, the element "OR n group of elements" OR, and the first group of outputs of the quantizing unit is connected to

the inputs of the switch, the input of the quantization unit is connected to the output of the channel switch, the measuring output of the switch is connected via an amplifier to the input of the measuring unit, the second ground of the outputs of the quantization unit is connected to the control inputs of the switch and the first inputs of the And elements of the first group, the second inputs of which are combined and connected through the OR element with the outputs of the AND elements of the second group and the quantizing output of the switch, and the outputs of the AND elements of the first group are connected to the first group of code register inputs, inputs and outputs O The memory is connected respectively to the recording outputs and reading inputs of the switch, the outputs of the measurement unit are connected to the first inputs of the “AND” second group elements and information inputs of the switch, whose information outputs through the “OR group” elements are connected to the second inputs of the AND elements of the second group, whose outputs connected to the second group of inputs of the register code.

The hta drawing shows the block diagram of the device described.

It contains a switch of 1 channels, a quantization unit 2, a memory block 3, the AND 4, 5 element groups, a code register 6, the OR 7 element, the OR 8 element, a measurement block 9, the amplifier 10, the AND switch; quantization unit 2 contains a comparison circuit 12, the element "OR 13, the elements" NOT 14.

Suppose that in the first measurement, the value reached a certain level corresponding to one of the outputs of the comparison circuit 12. Then the signal is present at this output and the outputs corresponding to the lower level. It passes to the inputs of the switch I and to the inputs of the elements “NOT 14 corresponding to these outputs. Simultaneously from the selected output, the signal passes through the element "OR 13 to the input of the prohibition of the element" NOT 14, corresponding to the output of a lower level. Therefore, the control signal appears only at one output of block 2 and is fed to the corresponding inputs of the group of elements "AND 4 and switch 11. The signal difference exceeding the level of the corresponding output of the comparison circuit 12 (but not reaching a higher level) goes to the amplifier 10 where it is proportionally amplified and supplied to measurement unit 9 for secondary measurement. The signal from the output of block 9 passes through the switch And and is recorded in the corresponding bit of the block 3. In addition, it goes to the input of the corresponding element "And 5, but since all the elements 5 are closed, it does not go further. The "And 5" elements are closed, since these are the first measurements, and in block 3, no information is recorded, therefore, no signal is received from the corresponding outputs of the switch 11.

Suppose that in the second measurement, the signal reappears at the same output of block 2.

Then, in switch 11, the same switching occurs and the signal from its output through amplifier 10 passes into measuring unit 9. But since the signal was already received at the corresponding output during the first measurement, then with the second measurement of the same parameter, this signal is output by the unit 3 switch And, from where it enters the control inputs of the corresponding elements "And 5 and opens them. Therefore, if signals appear at other outputs of block 9, they are transmitted to the communication channel, and the signal from the output that was used for the previous measurement is not transmitted to the communication channel.

Suppose that a signal appears at the output of measurement unit 9, which was not measured. It is written in the corresponding bit of block 3, and through the corresponding open element "And 5" it goes to a specific reading input of register 6 and reads the lower bits of the code, and also passes to the corresponding input of the group of elements "And 4. And since it is to another input the corresponding element of the “And 4” group of elements also receives a signal from the output of block 2, then a signal arrives at a particular reading input of register 6 and reads the most significant bits of the code. A code corresponding to the determined output of block 2 and the determined output of block 9 is fed to the communication channel.

Suppose that in the third dimension of the same parameter, the signal reaches a higher level of the output of the comparison circuit

12. Then it passes to the inputs of switch 11 and to the inputs of the prohibition of the corresponding elements NOT 14. Therefore, the control signal appears only at one output of block 2 and passes to the corresponding input

the groups of elements "AND 4 and to the corresponding control input of the switch 11 and switches it. Since the signal level goes to a higher level (output) of block 2, any signal level in block 9 is considered a significant sample and is to be transmitted to the communication channel. Therefore, all elements “AND 5 are opened, and the signal from the output of the element“ OR 8 is fed to the input of the group of elements “AND 4, and from the corresponding block 2-

To the corresponding input of this group of elements “AND 4. From register 6, the highest bits of the code are read, corresponding to a certain level of block 2.

Thus, the described device has a large | speed and works more reliably, its functional connections are simplified, since there are no registers in the logical node, an adder, and the memory block has

two times less storage elements. A comparative analysis shows that the speed should increase no less than B five times, since the measurement, analysis of information and the issuance of a solution are performed.

for three cycles.