SU926707A1 - Device for time compression of signal - Google Patents

Description

(5) DEVICE FOR TEMPORARY SIGNAL COMPRESSION

Claims (2)

The invention relates to radio engineering and can be used, for example, in transponder correlators. signal generation. A device for temporarily compressing a signal is known, which contains a circuit for the sequential input of samples., A drive, a signal shaping circuit. A poll of the accumulator. There are two modes of operation in this device: Data input to the drive with one speed and mode B. Data output from the drive with another, higher speed. Data is written to the drive in. the time interval, and the leak is read from the accumulator in a shorter period}. A disadvantage of this device is the impossibility of operating in a wide range of frequencies of the input signals without changing the compression ratio. The closest in technical essence and circuit design to the present invention is a signal time compression device comprising a drive, a counter, a control unit, a sampling unit, whose signal input is connected to the Input terminal, and the output of the sampling circuit is connected to the information input of the accumulator, the address input of the accumulator is connected to the outputs of the corresponding bits of the counter, the output of the control circuit for recording the new sample and the output circuit of the sample are connected to the corresponding inputs of the accumulator, and their inputs are combined in m Between itself is a counting counter input and a clock frequency terminal, the control input of the sampling circuit is connected to the terminal Sample rate 12. A disadvantage of this device is the inability to quickly set the required sampling frequency of signals in a wide frequency band without changing the compression factor. The purpose of the invention is to increase the speed of the device. The goal is achieved by the fact that in a device for time compression of a signal containing a sampling unit, the signal input of which is connected to the information input of the device, the output is connected to the information input of the accumulator, the address input of which is connected to the first output of the accumulator, the first and second control inputs of the accumulator are connected respectively, with you) of the control unit and the sample output unit, the output of the accumulator is connected to the device output, the inputs of the counter, the control unit and the sample output unit are combined, entered The second counter and comparator unit, the first input of which is connected to the control input of the device, the output is connected to the combined input of the first counter, the control unit, the output unit of the sample and to the first input of the second counter, the second input of which is connected to the clock frequency input the device, the output of the second counter is connected to the second input of the comparator unit (the overflow output of the first counter is connected to the second input of the sampling unit. Fig. 1 shows a block diagram of a device for temporarily compressing the signal. The device contains discretization unit 1, accumulator 2, first counter 3, New sampling control unit k, sampling output unit 5, comparison unit 6 (Second counter 7. The device operates as follows. The signal goes to the signal input of sampling unit 1 and in accordance with the sampling frequency of the incoming to the Control input of this unit, signal samples are received at the input of accumulator 2. The accumulator is organized on the basis of RAM with a volume equal to N for the purpose of recirculation. drops from the counter 3. counting the number of samples circulating in the accumulator and operating at the clocking frequency. When the counter overflows, that is, when the accumulator is filled with samples to the number N, a new sample is reclaimed. The counter overflow frequency is a sampling frequency less clocking frequency than and provides temporary compression. When applying for a new sample, the recording control unit of the new sample is activated. At the same time, using the same block, the oldest sample itself, which has circulated in the accumulator, is erased. The advancement of samples in the accumulator from the input to the output and the output of the compressed signal to the terminal; The Output terminal is provided by the sampling output unit 5, which forms a sign of the operating mode of the accumulator 2: reading or writing to the address. Incoming new sampling by the signal. Address n and tag entry is written to the drive. 2. Then, by the Signal and Signal signal, the read sample is read from the accumulator and rewritten into the trigger included in the accumulator. From the trigger, by the signal Address (n + 1) and the characteristic record, the sample is written into drive 2 in the storage cell (n + 1/1. In a similar way, the sample is subsequently recorded into cells: (n + 2), (n + 3) ,. .., m. When counting | | 6orki from the accumulator at address n, the sample is output to the device. In the signal compression device, the sampling rate is not a constant value corresponding to a particular input signal. It depends on the set sampling interval code (for certain frequencies input signal set its own sampling interval), arriving at one of the inputs of the comparison unit 6, to the second input of which signals are sent from the corresponding bits of the clock counter 7. In accordance with the established sampling interval code, writing and reading samples into the drive occurs faster or slower and the signal The overflow of the counter, which in the proposed device has a sampling rate, is a variable value corresponding to different frequencies of the signal being processed. Apparatus of the Invention A device for temporarily compressing a signal, comprising a sampling unit