SU725260A1 - Information transmitting device - Google Patents

Description

The invention relates to a data transmission technique and can be used for processing and transmitting measurement information in multi-channel systems with time division of channels. 5

A device is known that contains a compression unit, the output of which is connected to a buffer memory unit equipped with a filling control unit, the output register of which is connected to the input of the terminal unit, a synchronizer connected by the output to the compression unit, and a frequency divider connected to the control input of the buffer memory unit. The terminal block may be a transmitter or a tape recorder [1]. fifteen

The disadvantages of the known device include the loss of processing accuracy, and therefore, the accuracy of the recovery of the measured processes at high levels of buffer memory filling. 20

Closest to the invention, the technical solution is a device for transmitting information in time-division multiplexing systems, comprising a data compression input unit 25, a buffer memory unit, a register and an output matching unit, a synchronizer connected to the synchronizing input of the input data compression unit in series, controlling the output of which Zo is connected to the first input of the counter, the output connected to the first input of the valve block, a controlled frequency divider connected between the syn the synchronizer and the control input of the buffer memory block, and the delay element [2].

However, this device for transmitting information in systems with a time division of channels has large losses of transmitted information.

The purpose of the invention is to reduce the loss of transmitted information.

To do this, to a device for transmitting information in time-division multiplexing systems, which contains a data compression input block in series, a buffer memory block, a register and an output matching block, a synchronizer, connected to the synchronization input of the data compression input block by a control output which is connected to the first input of the counter, the output connected to the first input of the valve block, a control frequency divider connected between the output of the synchronizer and the control input of the buffer memory unit ti and delay element, a comparison unit is introduced, to the input of which the output of the valve block is connected, the second input of which through the delay element is connected to the second input of the counter and is the input of the device clock sync pulses. In this case, the first output of the comparison unit is connected to the control inputs of the register and the controlled frequency divider, and the second output of the comparison unit is connected to the mode input of the output matching unit.

The drawing shows a structural electrical diagram of the proposed device.

A device for transmitting information in systems with time division of channels contains an input data compression unit 1, a buffer memory unit 2, a register 3, an output matching unit 4, a synchronizer 5, a controlled frequency divider 6, a counter 7, a valve unit 8, a comparison unit 9, an element 10 delays, input 11 frame sync pulses.

The device operates as follows.

When the device is operating in normal mode, the input data enters the input data compression unit 1, which, according to some algorithm, selects significant samples, which then fall into the buffer memory unit 2. This block on pulses arriving at its control input from the output of the controlled frequency divider 6, gives codes of significant samples to the register

3. In this register, in addition to information bits, one bit is added for service information, in which one is written if the device is operating in normal mode, and zero if the device is in special mode. Information from register 3, together with the service parallel code, enters the output matching unit 4, where it is converted to a form convenient for transmission, and then passes to the output of the device. So, with each significant sample, service information about the operation mode of the device is transmitted.

The counter 7 calculates the number of significant samples entering block 2 for one frame of the survey of all channels. In other words, the state of the counter 7 reflects a decrease or increase in the intensity of the input stream in each frame of the survey. According to the frame clock coming from input 11 to the control input of the valve unit 8, information from the counter 7 is supplied to the comparison unit 9. If the state of the counter is less than some threshold value, then the device remains in normal mode, that is, at the first output of block 9 - a low signal, and at the second output - high; if the counter state is greater than this threshold, then a high signal is set at the first output of block 9, and a low signal at the second. Therefore, firstly, it changes from high to low signal at the control input of the controlled frequency divider 6, which leads to the establishment of a higher reading frequency from the unit

2. Secondly, zero is written in the service category of register 3 instead of one, and the first next significant sample will be transmitted with information about the transition to a special mode. Thirdly, it changes from a low to a high signal at the input of the installation of the output matching block 4 mode, i.e., this block starts to produce a larger number of significant samples per device output per unit time. After the time required to analyze the status of the counter 7 in block 9, the pulse from the output of the delay element 10 is supplied to the control input of the counter 7 and sets it to the initial zero state. Now the counter begins to count significant samples in the next frame of the survey, etc. The device switches from a special operating mode to normal in the same way, with the change of signals at the output of unit 9 if the state of the counter is less than a threshold value.

Thus, the proposed technical solution has significantly improved the accuracy of the device by reducing the loss of compressed data without compromising the accuracy of their recovery.

Claims (2)

It is the input of the device's frame sync pulses. At the same time, the first output of the comparison unit is connected to the control inputs of the register and 5 etched frequency divider, and the second output of the comparison unit is connected to the input of the mode setting of the output matching unit. The drawing shows a structural electrical circuit of the proposed device. A device for transmitting information in time-division systems contains an input data compression unit 1, a buffer memory unit 2, a register 3, an output matching unit 4, a synchronizer 5, a controlled frequency divider 6, a counter 7, a valve block 8, a comparison block 9 , delay element 10, input 11 frame sync pulses. The device works as follows. When the device operates in the normal mode, the input data enters the input data compression block 1, which, using an algorithm, selects significant samples that then fall into the buffer memory block 2. This unit, using pulses arriving at its control input from the output of controlled frequency divider 6, provides codes of significant samples to register 3. In this register, in addition to the data bits, one bit is added for the service information to which the unit is written, if the device works in normal mode, and zero if the device is in special mode. The information from register 3, together with the service parallel code, enters the output matching unit 4, where it is converted to a form suitable for transmission, and then passes to the output of the device. Thus, with each significant sample, service information about the operation mode of the device is transmitted. Counter 7 counts the number of significant samples arriving at block 2 in one poll frame of all channels. In other words, the state of counter 7 reflects a decrease or increase in the intensity of the input stream in each polling frame. On the frame clock pulse coming from the input 11 to the control input of the valve unit 8, the information from the counter 7 is supplied to the comparison unit 9. If the state of the counter is less than a certain threshold value, the device remains in normal mode, i.e., the first output of block 9 is a low signal, and the second output is high; if the state of the counter is greater than this threshold, then a high signal is set at the first output of block 9, and a low signal at the second. Therefore, firstly, the high signal is changed from high to low at the control input of controlled frequency divider 6, which results in a higher read frequency from unit 2. Secondly, zero is written to the service bit of register 3 instead of one. The first important sample will be transmitted with information about the transition to a special mode. Thirdly, the high and high signal at the input of the mode setting of the output matching unit 4 changes, i.e., this unit begins to produce in a unit of time a larger number of significant samples to the output of the device. After the time required for analyzing the state of the counter 7 in block 9, the pulse from the output of the delay element 10 is fed to the control input of the counter 7 and sets it to the initial zero state. The counter now starts counting the significant samples in the next polling frame, etc. The device transitions from a special mode of operation to a normal one in the same way, the signals at the output of block 9 changing if the counter state is less than a certain threshold value . Thus, the proposed technical solution has significantly improved the accuracy of the device by reducing the loss of compressed data without compromising the accuracy of their recovery. Apparatus of the Invention A device for transmitting information in time-division systems comprising a serially connected input data compression unit, a buffer memory block, a register and an output matching unit, a synchronizer whose output is connected to a synchronization input of the input data compression unit whose control output is connected to the first input of the counter, the output of which is connected to the first input of the valve block, a controlled frequency divider connected between the synchronizer output and the control input of the block a buffer memory, and a delay element, characterized in that, in order to reduce the loss of transmitted information, a comparison unit is inserted, to the input of which the output of the valve block is connected, the second input of which is connected to the second input of the counter through the delay element and is a frame sync pulse the device, the first output of the comparison unit is connected to the control inputs of the register and the controlled frequency divider, and the second output of the comparison unit is connected to the input of the mode setting of the output matching unit. Sources of information taken into account during the examination 1. K. P. Trofimov. Aerospace telemetry. M., Military Publishing, 1968, p. 199-207. 2. USSR author's certificate number 504226, cl. G 08C 19/16, 1974 (prototype).