SU1310903A1 - Analog storage - Google Patents

Abstract

The invention relates to computing, in particular, to one device and one device, and can be used to store and reproduce the frequency of signals in radio devices with a frequency output of information for subsequent processing in analog form. The purpose of the invention is to increase the gyratory stability and accuracy by achieving that the second input of the second element AND 8 is connected to the third output of the control unit 3, the output of the threshold element 6 is connected to the third inlet of the first element AND 7, the third input of the second element AND 8 is connected to the bus; And the storage is expanded; the second output of the control unit 3 is connected to the control, its input is the storage register 10, the output of the second element And 8 is connected to the input of the control unit 3. If the input signal amplitude is at a minimum value at which further processing becomes impossible, the voltage from the output of detector 1 will cause you to stop the threshold element 6, the first signal of which will close the elements 7 and 8, as a result of which the loop will stop pulses from the generator 4 of the control unit 3. In turn, this will cause a suspension of the development of the time interval for the account. The protection of the element And 7 will stop the impulses from the output of the driver 2 to the input of the counter 9, i.e. the counting will stop. After the occurrence of the uvipranny input signal, the voltage at the output of detector 1 will exceed the threshold value, and element 6 will open elements And 7 and 8 with its output voltage, thereby loosening the formation of the counting time interval by the control unit 3. The pulses with the frequency of the input signal are fed to the input of the counter 9, and the measurement process will continue. I H.1. SS (L oo about so about so

Description

The invention relates to computing, in particular, to storage devices, and can be used to store and reproduce the frequency of signals in radio devices with a frequency output of information for subsequent processing in analog form.

The aim of the invention is to improve the noise immunity and accuracy of the device.

The drawing shows a functional diagram of the proposed device.

The proposed device includes a detector 1, a shaper 2 input pulses, a control unit 3 consisting of a 4 clock pulse generator and a shaper 5 write pulses, a threshold element 6, elements 7 and 8, a binary counter 9, a storage register 10, a converter 1 1 code -frequency, generator 12 reference pulses, code-to-analog converter 13, and storage resolution spike 14.

Analog storage device operates as follows.

The input signal arrives at shaper 2, where it is converted into a sequence of pulses brought to logic levels, as well as at detector 1, which detects the input signal-to-noise mixture. The threshold element 6 generates an excellent level when the output signal of the detector 1 exceeds a certain threshold value, which determines the sufficiency of the amplitude of the signal for further processing (for sure reception of information about the frequency of the signal). If the signal is not sufficient for confident processing, then the output of the threshold element 6 will be set to a low logic level, which will close the elements 7 and 8, which will cause the input frequency to the binary counter 9 and the generator 4 to stop coming in. When the input signal exceeds the threshold value and the absence on the bus 14 of resolving the potential of the pulses from the generator 4 of the control unit 3 is transmitted through the element 8 to the generator 5 of the recording signals generating the counting time intervals.

The calibrated counting time at which driver 5 opens element I 7, the pulses output from driver 2 fill binary counter 9. A binary number dialed in it and serving as a measure of the frequency of the input signal is written to the snoring register 10 at the end of the counting time interval from the block signal 3 controls its trailing edge, after which the binary counter 9 is zeroed by a reset signal from one of the outputs of the driver 5, and the process of measuring the frequency of the input signal is resumed.

If during the counting the input signal fades or its amplitude decreases so that it will be impossible

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its further processing, a decrease in voltage at the output of detector 1 will cause the switching off of the threshold element 6, the signal from the output of which will close the elements 7 and 8 and stop the flow of pulses from the generator 4 of the control unit 3, which will cause the suspension of the generation of the counting time interval. The locking element And 7 will stop the flow of pulses from the output of the former 2 to the input of the binary counter 9, i.e. the counting will stop. After the occurrence of a reliable input signal, the voltage at the output of detector 1 will exceed the threshold value, and threshold element 6 will open elements AND 7 and 8 with its output voltage, thereby allowing the formation of a time interval by the control unit 3, the pulses with the input signal frequency t to the input of binary counter 9, and the measurement process will continue. At the end of the counting time, the information from binary counter 9 will be overwritten into storage register 10, and binary counter 9 will be reset.

Thus, there is no loss of information about the frequency of the input signal in the device when the signal disappears during the counting time interval, but only the generation of the counting time interval and the arrival of the input frequency pulses in binary counter 9 for the time of no signal or its reduction below the threshold value.

To reproduce the memorized frequency, the resolving potential is supplied to the bus 14, the element 8 is closed, which disconnects the generator 4 of the control unit 3 from its generator 5, and the generation of recording signals to the storage register 10 is stopped, the binary counter 9 is enabled and the converter 11 is enabled The storage register 10, with its own bit outputs, is connected to the bit inputs of the converter 11 and thereby controls its operation. Using a converter 13, a sequence of pulses with a variable duty cycle, which is output from the converter 11, is converted into a harmonic signal whose frequency is equal or related to a certain frequency with the frequency of the input signal.

The proposed analog storage device allows to increase the noise immunity of radio devices by introducing an interruption mode for recording information at a time when the signal amplitude drops below a threshold value without losing already accumulated information, which allows processing signals whose amplitude exceeds the noise amplitude in a period shorter than the whole time counting, provided that the total time exceeding the signal over noise is not less than one counting time due to the observation time.

In the case of memorizing frequency-varying signals that fluctuate around a threshold value, this mode improves the accuracy of memorization by increasing the number measured at the instants prior to the occurrence of the signal on the memory resolution during fluctuations of the signal in each of the periods account time.

Claims (1)

Invention Formula Analog memory device containing a binary account, the counting input of which is connected to the output of the first element And, the control unit, the first output of which is connected to the reset input of the counter, the driver of the input pulses, the output of which is connected to the first input of the first element And, the second input of the first element And connected to the second output of the control unit, the input of the input pulse generator is the information input of the device and connected to the input of the detector, the output of which is connected to the input of the threshold element, v And, the first input of which is connected to the output of the threshold element, the storage register, whose information input is connected to the output of the counter, the generator of reference pulses, the output of which is connected to the control input of the code-frequency converter, the code-analog converter, the output of which is the output device information input converter code- The Q frequency is connected to the output of the storage register, the reset input of the code-frequency converter is connected to the storage resolution, the output of the code-frequency converter is connected to the input of the code-analog converter, characterized in that, in order to improve the noise immunity and accuracy of the device, there is a second the input of the second element I is connected to the third output of the control unit, the output of the threshold element is connected to the third input of the first element I, the third input of the second element I is connected to the storage enable bus, the second output of the control unit tim connected to the control input of the storage register, the output of the second AND gate connected with an input clock control unit.