SU1010638A1 - Device for output signal time-compression - Google Patents

Abstract

yCTPOHci-BO for hunting at the time of the input signal containing the code-analog converter, the former. pulses, the input of which is connected to the input of the device, the first output to the first inputs of the clock and the addressing unit, the second output to the first input of the frequency multiplier unit, the first output of which is connected to the second input of the addressing unit, the second output to the second input of the chronicler, first output which is connected to the second input of the umyo frequency unit, the second output to the third one is the input of the addressing unit, the output of which is connected to the control input of the operational memory, so that to simplify the device, a comparison block is entered into it, | the switch, the serial approximation register, the first input of which is connected to the first output of the frequency multiplying unit, the second input -.- to the output of the comparison block, the output is combined with the information input of the operational storage unit and connected to the first input of the switch, the second input of which is connected to the first the output of the pulse shaper, the third input with the operational | K output of the storage unit, the output through the code-analogue converter with the output of the device and the first input of the comparison unit, the second input of which is Linked to device input.

Description

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The invention relates to automation and computer technology and is intended to match the input signal bandwidth with the bandwidth of the analyzing and measuring equipment.

A digital recorder is known which, by appropriate selection of the data output rate, transfers the frequency spectrum of the original signal to the working frequency range of a number of recording and analyzing devices. Such a recorder consists of a discrete data sampling device, an analog-digital converter, a memory device, a digital-analog converter, a control device, and a low-pass filter, ll.

A device for temporarily compressing an input signal is known, comprising control units and a memory unit made using magnetostrictive delay lines, wherein the inputs of the magnetostrictive lines of the memory units are connected by means of magnetostrictive delay lines of the control unit to the analog-code converter outputs, and the outputs are connected to the converter input the code is an analogue of t2 1.

The disadvantages of these devices in-. The complexity is because they also include simultaneously disabled analog-to-code converters and analog-to-code.

The closest in technical essence to the present invention is a device for compressing an input signal with time, containing an analog converter — a code whose information input is connected to a device input, an output — to an information input of an operational storage unit, the output of which is connected to a converter information input. , the control input of which is connected to the first output of the chroniser, and the output to the output of the device. The input of the period determination block is connected to the input of the device, the first output of the period definition block is connected to the first input of the frequency multiplying block, the second output is connected to the first input of the block and the first input of the chroniser, the second, third, fourth, fifth and sixth outputs of which are connected respectively to the second and retransmissions of the addressing unit, the third, the fourth and the fourth inputs of the multiplication frequency lock, the first output of the Frequency multiplication unit. Connected to the control input of the analog converter — the code and the addressing block One of which is connected to the control input of the operative storage unit, the second output of the frequency multiplying unit is connected to the second input of the DPS chronizer.

The drawback of the device is the complexity, since it includes an analog in the converters — a code and a code — analogs that require a number of precision components. The device for temporarily compressing the input signal does not require simultaneous operation of analogueG converters — code and code — analogue, since the signal recording and output processes have different time scales and follow each other.

The purpose of the invention is to simplify the device,

The goal is achieved by the fact that the device for compressing the input signal with time contains a transformer. The code is an analog, a pulse former, the input of which is connected to the input of the device, the first output is to the first inputs of the chronizer and the addressing unit, the second output is to the first input of the frequency multiplier unit, the first output of which is connected to the second input of the addressing unit, the second output to the second input of the chroniser, the first output of which is connected to the second input of the frequency multiplying unit, the second output to the third input of the adress unit the output of which is connected to the control input of the operational storage unit, a comparison unit, a switch, a sequential approximation register are entered, the first input of which is connected to the first output of the frequency multiplying unit, the second input to the output of the comparison unit, the output is combined with the information input of the operational storage unit and connected to the first input of the switch. the second input is connected to the first output of the pulse generator, the third input is connected to the output of the operational storage unit, the output is via the analogue code converter to the output of the device and the first input of the comparison unit, the second input of which is connected to the input of the device.

FIG. 1 is a block diagram of the proposed device for compressing the input signal with time; Fig. 2 shows timing diagrams explaining the operation of the device.

The device for compressing the input signal in time contains (FIG. 1) an operational storage unit 1, a shaper 2 pulses (a period determining unit), a frequency multiplying unit 3, an addressing unit 4, a clock 5, a converter 6, an analog code switch 7, a register 8 successive approximation, block 9 comparison.

The device for compressing the input signal in time works as follows.

The input signal is periodically fed to the input of the period determination unit 2. In the driver 2, a level is fixed, for example, a zero value with which the input-signal is compared. Three intersections of the recorded level by the input signal determine the period of the input signal.

Converter b, switch 7, register 8 and block 9 together form the converter analogue code (not shown).

After starting the device and resetting all its blocks to the initial state, the first and second outputs of block 3 multiply the frequency locked by signals of the synchronizer 5. As soon as in block 2 of the definition, the fixed voltage level intersects the input signal, block 2 generates the first pulse of the input period a signal which from the second output of block 2 is fed to the first input of block 3 frequency multiplication. At the same time from the first output of the chronizer 5 to the second input of the block 3 receives the clock frequency. The automatic determination of the frequency of the launch of the analogue converter starts — a code that lasts for the first of the considered periods of the input signal. The frequency multiplying unit 3 forms the frequency of starting the converter analog - code in such a way that, regardless of the frequency of the input frequency, its period is divided by a number that is not less and not more than the specified one.

Automatically, this operation is performed as follows.

In block 2, determining the period of the input signal SF. 2) a pulse of the beginning of the period is formed, which is fed to the frequency multiplying unit 3. In block 3, a series of frequencies are formed, each of which, for example, is twice as low as the previous one. From the moment the pulse of the beginning of the period arrives at block 3, the highest frequency is calculated from the specified frequency series by a counter, the volume of which is equal to the specified double value of the number of ordinates of the input signal. If the count of the number of ordinates is filled before the moment of arrival of the pulse of the end of the period of the input signal, in block 3, the high-end radar of the counter is overwritten and the frequency is reduced twice (for the given example) from a number of frequencies. This process is repeated many times until a pulse arrives at the end of the period of the input signal from block 2 to block 3. With the arrival of this pulse in the counter of the number of ordinates

Block 3 fixes the required number and assigns the starting frequency of the analog-code converter, which is on. the next period of the input signal forms the received number of ordinates of the INPUT signal.

Formation of the frequency of starting the converter analog - the code ends with the arrival at the first input of block 3 of the signal of the end of the first period of the input signal. Simultaneously, with the end of the first input signal period, block 2 produces an impulse to begin the next, second period, which from the first output of block 2 goes to the first inputs of block 4, chronizer 5 and to the second input of the switch to start the analog-code converter.

Pulses of the analogue converter start-up code form in the block 4 of the admission the codes of the addresses of the input signal, which from its output are fed to the control input of the operational storage unit 1, In the block -1 the codes of the address are written

5 ordinates of the input signal during the second considered period of the input signal.

The input addresses of the input signal are generated by block 4 at the same time as the second input of block 3 from chronizer 5 is fed to the enable signal at the end of the second period of the input signal. After the end of the second period

5 of the input signal, the analogue converter starts up - the code, and in the operational memory of block 1. accumulated ordinates of the input signal relating to the same period.

Converter analog - the code works as follows.

In the second considered period of the input signal, the clock frequency of the converter start-up analogue code comes from the first output of the block

5 3 frequency multiplication and the first input of register 8 of successive approximation, KOT01MLY, according to the signals of comparison unit 9, generates pulses of sequential polling of the converter, and the resultant code of the analog converter is 1Led. From the first output of block 2 to the second input of the switch 7 at the time of the second considered period of the input signal, a control potential is supplied,

5 which switches the switch 7 so that the consecutive polling pulses with each analog-digital pret; the formation of register 8 is passed to the input of the converter 6, the output

0 which is connected to block 9 of the comparison.

Thus, the analog-to-code converter operates according to the principle of one-to-one weighting, the codes of which from register 8 are recorded in the operational storage unit 1, which receives the address codes from the addressing unit 4. The code commands of the write addresses are generated by the pulse of the converter start-up - the code from the first output of block 3. After the end of the second considered period of the input signal, the block 2 from the first output sends to the second input of the switch 7 a signal that locks the first input of the switch and the third input from the operational the storage unit 1 is unlocked. In addition, in block 3, from the second output through the chronizer 5, the third input of the block 4 begins to receive the information read pulses from the operative memory unit 1, which are used to generate the code of the read addresses in block 4. The ordinate codes of the input signal from the operative storage unit 1 through the switch 7 is fed to an analog converter — a code b, at the output of which a stepwise periodic time-compressed signal is generated, in the form of a repeating input signal. The frequency of the output signal of E from the frequency of the clock read pulses from the operational storage unit 1. Reading) 1 Information in unit 1 occurs destruction, cyclically, period by period. The number of steps in the period. the compressed signal depends on the number of ordinates of the input signal, which is stored by block 1 and determines the approximation error, the characteristics of which can be measured. The process of issuing a compressed signal occurs until the next run, in which all the described processes in the device are repeated. The time diagram (Fig. 2) shows the input continuous periodic signal of complex shape and an arbitrary start signal of the device in time relative to it. In block 2, the moments of the ftieif 9 transition are determined by a signal U of the zero Urs n l, the pulses of the period of the input signal are formed. In block 3, frequencies are sequentially formed over time, which allow for each period Tfigp of the input signal to form and write to block 1 from N.yj to 2 N ordinates. In block 3, in addition, the output frequency of the ordinate codes from block 1 is formed, which forms a compressed output.

Claims (1)

DEVICE FOR COMPRESSION DURING THE INPUT SIGNAL, containing a code-analog converter, a shaper. pulses, the input of which is connected to the input of the device, the first output is to the first inputs of the chronizer and the addressing unit, the second output is to the first input of the frequency multiplier unit, the first output of which is connected to the second input of the addressing unit, the second output to the second input of the chronizer, the first output which is connected to the second input of the frequency multiplication unit, the second output - to the third - input of the addressing unit, the output of which is connected to the control input of the operational storage unit, and / or t that in order to simplify 'devices in n The comparison block is introduced (switch, sequential approximation register, the first input of which is connected to the first output of the frequency multiplier, the second input the second input of which is connected to the first output of the pulse shaper, the third input - with the output of the random access memory, the output through the code-to-analog converter - with the output of the device and the first input of the comparison unit, second od which is connected to the device input. smiling oo