SU564723A1 - Device for selecting information channels - Google Patents

Description

The invention relates to the processing of thermal information15 and can be used to enter telemetry information into data processing systems and a system for recording telemetry information. A device for selecting information channels is known, comprising a channel pulse counter and a decoding matrix fll. However, such a device does not ensure the selection of non-phase channels. The closest in technical essence to the proposed invention is a device for selecting information channels, containing an information receiving unit connected to an input of a channel allocation unit, and an operational storage unit connected to the outputs of a channel separation unit 2} However, this device also does not provide for selection of non-phase information channels. The purpose of the invention is to provide selection of non-synfan information channels. To this end, the device for selecting information channels containing the information receiving unit connected to the input of the channel allocation unit and an on-line storage unit connected to the outputs of the channel allocating unit, introduced a block of non-phase channel number modification, one of the inputs and the output of which is connected to the first, output and additional input of the operational storage unit, respectively, and the other inputs are connected to the inputs and the allocation unit. and a second output channel RAM block, and the block separation cycle marker, the first input of which is connected to an additional output of the isolation unit kanalov fed to a second input information signal, and outputs connected to inputs of a further modification of the block not-in-phase channel. The drawing shows a structural electrical circuit of the proposed device. The device contains an information receiving unit 1 connected to the input of the unit of the power of channels 2, and an on-line storage unit 3 divided into pop: 4 signs of the modification of the address of the allocated key. 5 - the code of the location indicator of the channel impulse s cycle, B - the indication of the selection of non-phase channels and 7 - the number of the channel to be allocated, connected to the outputs of the channel allocation block 2, the block for changing the numbers of non-phase channels 8, one and the inputs and output of which are connected to the first output and additional input operational memory unit 3, respectively, and the other inputs of the connection; with the inputs of the allocation unit channels 2 and the second outputs of the operational storage unit 3 and the selection unit of the cycle marker 9, the first input of which is connected to the additional output of the allocation unit channels 8, an information signal is fed to the second input, and the outputs are connected to the additional inputs bpok modification of non-phase channel numbers 8. The unit receiving information 1 has inputs 10,11. The device has an output of 12.

The device works as follows

In the initial state, a channel selection program is recorded in the operational memory 3, each word of which contains a field 4, 5, 6 and 7. In the allocation unit 2, the address of the first cell of the large array and the code of the location of the first channel pulse to be extracted are entered. .

At the input, 10, a radio-telemetry system cycle marker is received, which sets the information receiving unit 1 to the initial state and allows the device to continue functioning. At the input 11 of the channel pulses. With the arrival of each channel pulse at the output of the information receiving unit 1, the number of the channel pulse in the cycle, which goes to the input of the allocation unit, channels 2,

If the number of the channel pulse that receives information 1 from the reception of information 1 coincides with the code of the location of the channel pulse stored in the allocation of channel 2, this channel allocation unit generates a call to the operational storage unit 3 at the address stored in the channel allocation unit 2 by which, from the operational storage unit 3, selects the code of the location sign of the next channel pulse to be extracted, the sign of the modification of the address of the selected canap, the sign of the out-of-phase selection to Nala and the number of information channels vydep th ec in this cycle. The code of the location of the channel pulse, the sign of the modification of the address of the channel to be selected and the sign of the selection of non-phase channels sink to the channel allocation block 2 and the block for modifying non-phase channel numbers 8. The number of the channel to be extracted is output on the device output 12 and is written to the block for updating the numbers of non-phase channel 8.

Thus, the word read from the operational storage unit 3 is entered into the non-phase channel number modification unit 8,

Depending on the state of the feature of the out-of-phase channels, the device operates as follows.

If the indication of the out-of-phase channel allocation is zero, which means the selection of the common-mode channel, the address of the selected channel in the channel allocation unit 2 is modified, and the device waits for the next channel input to arrive. The modification of the address in the allocation unit channels 2 is carried out as follows. If the modification attribute (field 4 of the operative storage unit H) is zero, a unit is added to the address. If the modification attribute is one, which means reading a word from the last cell of the program array of operative storage unit 3, the address of the first cell of the program array is set in the allocation unit 2 ,

Thus, the transition to the starting address is performed after reading the entire array.

If the attribute of the non-sinfax channels is equal to one, then the address modification in the allocation unit; 1 channel 2 is delayed, and the channel allocation module 2 produces a front-edge pulse that polls the cycle marker allocation module 9, which, in the presence of a marker combination at input 13, generates a setting signal to zero of the variable part of the modifying block of non-phase channels 8. If the marker HeTj is sent, then the cycle marker selection block produces a signal that adds one to the channel number recorded in the mod pecifications not-in-phase channel numbers 8,

On the trailing edge of the pulse, the allocation unit; lazy channels 2 generates a call to the operational storage unit 3 to write the modified word in the non-phase channel number 8 modification block at the same address where the reading was made.

Thus, in the block of modification of non-phase channel numbers 8 and corresponding