SU519765A1 - Analog-dynamic storage device - Google Patents

Description

one

The invention relates to radio equipment and can be used in radio devices, electronic computers, as well as in automatic control systems.

An analog-dynamic storage device (RAM) is known, which represents a latent feedback device set and is designed to store information in analog form. The device contains an input fo1) worldizer, delay elements and an output driver, the output of which is connected to the input of the first delay element and the output of the input driver and amplifier.

The signals to be memorized are fed to the input of the delay element and, through the delay time, they are sent to the input of the amplifier, the purpose of which is to compensate for the attenuation of the amplitude of the impulses in the delay line. Iri nodache to the input of an analog-dynamic memory of a bottom pulse, whose duration is much less than the delay, it circulates through a closed feedback loop, forming at the device output an infinite sequence of pulses with a period equal to the delay time in the loop.

The disadvantage of such a device is that the amplitude of the impulses at the output of the device decreases with each passage of a closed ring. This does not allow us to observe the form of a single studied 1g pulse for a long time. In addition to reducing the amplitude, each time a pulse passes, it changes, due to the small value of the ratio of the bandwidth of the test element to the width of the spectrum of the investigated signal.

The purpose of the invention is to increase the reliability of the device.

The goal is achieved by the fact that it contains an attenuator, control keys, reset keys, peak detectors, an activation trigger and a control unit, the attenuator is connected between the output of the second delay element and the amplifier, and the control input of the attenuator is connected to the outputs of the corresponding control keys, signal

the inputs of which are connected to one output. vi peak detectors, the other outputs of which are connected to the corresponding reset keys. The inputs of the peak detectors are connected to the outputs of the respective control keys, the inputs of the reset keys are connected to the outputs of the control unit, one of the inputs of which is connected to the output of the second delay element. The other input is connected to the first output of the control trigger, to the corresponding inputs of the keys it is equalized, and the third

the input is to the second output of the control trigger and the control inputs of the control keys. One control trigger input is connected to a common point of the delay elements and a blocking input of the input shaper, and the second input is connected to one of the outputs of the input shaper, the second output of which is connected to the other inputs of the first and second reset keys, and the input of the first delay element is connected to the signal inputs first and second control keys.

The drawing shows a functional diagram of the proposed device.

The device consists of input shaper 1, first and second delay elements 2 and 3, attenuator 4, amplifier 5, output shaper b, output device 7, control keys 8-11, first and second peak detectors 12 and 13, first and second reset keys 14 and 15, control unit

16 and control trigger 17.

The device works as follows.

In the current state, delay elements 2 and 3 are discharged. From the output of the output driver 6 to the input of the first delay element 2 pulses do not arrive. The input driver 1 is set by the operator to the state in which the signal under study passes to the input of the delay element 2. At the outputs of the input driver 1, short pulses are formed, which set the trigger of equilibration 17 to its initial state, which corresponds to a high potential (one) at the first output and low potential (zero) at the second exit. The impulse from the First output of the input shaper 1 opens the reset keys 14 and 15 for the first control inputs (Y), which discharge the peak detectors 12 and 13. The unit potential at the first output of the control trigger

17 opens the control keys 10 and 9. The keys 11 and 8 are closed with a zero signal from the second output of the control trigger 17.

Thus, the signal from the input of the delay element 2 can pass through the open first control key 10 to the input of the first peak detector 12 and not pass to the input of the second Peak detector 13 through the private control key 11.

In the initial state, the control input, 1, (F) of the attenuator 4 receives the voltage at the second peak detector 13 through the control open key 9. Since in the initial state the voltage at the second peak detector 13 is zero, the attenuation of the attenuator 4 is set to minimum . The private control key 8 prevents the signal from the first output of the first zic detector 12 to pass to the control input (Y) of the attenuator 4. At the first and second outputs of the control unit 16 in the initial state low (zero) potentials are set, under the influence of which reset keys 14 and 15 are closed. The considered state of the device nodes is initial.

At the moment of time IQ, the first input of the imaging unit 1 sends the analyzed periodic signal, which passes the input driver 1 without delay and enters the input of the delay element 2. Through the public control key 10, this signal enters the input of the first peak detector 12, which stores its maximum amplitude . After a time t equal to the delay time of element 2, the signal appears n; the output of this element at the point A c will switch the trigger 17 of the control 17 to the opposite state, as a result of which the input driver will be closed for the signal to pass. Thus, the input of the delay element 2 through the input driver 1 can receive signals that are shorter than the delay time g. If the first input of the input driver I is affected by a sigEL for; t —y; spic exceeding t in the circuit containing the delay elements 2, 3, the attenuator 4, the amplifier 5, forming 1, its cascade G, will chi) part of the studied non-periodic signal, the duration of which is Dt.

As a result of switching the control trigger to the state opposite to the initial state, the control key 10 and the second control key 9 are closed, and the control key 1 1 and control key 8 are opened. The constant voltage, the maximum voltage amplitude of the input amplitude of the signal being investigated, from the first output of the first peak detector 12 is applied to the attenuator control input (Y) 4 through the open key of the control unit, changing its attenuation to the corresponding value and Amplggs of the signal under study. The signal from the second output of the control trigger 17 sets, on the second output of the control unit 1, unit 16, a single pot, which opens the second reset 15 and discharges the second detector 13, preparing it for np} ie: v; y of the next signal. After a time Lt, corresponding to the magnitude of the delay of element 3, the signal under investigation appears at its output at point B, and the control unit 16 is reset to its output and zero state.

From the output of the delay element 3, the investigated ciI, J: "l Receives an attenuator 4, the attenuation value of which is at this time 1 and is set in accordance with the voltage on the first 1PIC detector 12. The output of the attenuator 4 is connected to an amplifier 5 that compensates for the loss in the closed loop connection. The output of the amplifier 5, in turn, is connected to the output driver 6, which is made in the form of a wideband amplifier C correction circuits. The output of the output driver 6 is connected to the output device 7 and the input of the delay line 2. Thus, the signal passed through the attenuator 4, the amplifier 5 forming the cascade 6, again enters the input of the delay element 2 and through the public key 11 - to the input of the second PiKOBoro detector 13 charging it to the maximum amplitude value. After a time of 2 (t + Dt), the signal is turned on at the output of the delay | zhki 2 line at point A, and the control trigger 17 switches to the initial state. The input driver 1 of its state does not change.

As a result of switching the control trigger 17, the control key 10 and the control key 9 are opened. The control keys 11 and 8 are closed. At the first output of the control unit 1 and 16, a signal appears that opens the first reset key 14, which sets the peak detector 12 to the zero state. After a period of 2 (t-j-At), the signal is received at the input of the attenuator 4 and at the first control input {Y - ,,} of the control unit 16. The latter switches to the zero state, and the first reset key 14 is disabled. By this time, the attenuation value of the attenuator 4 is established in accordance with the voltage at the output of the second peak detector 13, and the operation cycle will be repeated until the operator sets the source CONSTANT RELAY again.

Thus, alternately changing the voltage at the outputs of peak detectors 12 and 13 to the magnitude of the amplitude of the studied non-periodic signal and locally connecting these detectors to the control circuit of the attenuator 4 allows it to be attenuated so that the transmission coefficient of the closed loop (delay elements 2, 3, attenuator 4, amplifier 5, output driver 6) remained unchanged and equal to 1.

The presence of two delay elements 2 and 3 allows all switchings in the circuit and the installation of a new charge factor. khaki attenuator 4 while sig; 11l passes the delay elements 2 and 3, and in;, (the passage of the attenuator 4 of the all-li. And its attenuation remains inconsistent. At the same time, the amplitude of the signal under investigation occurs during each passage of the signal of the element 2, and the peak detectors and their preparation for the arrival of a new signal is realized during the interval Dt determined by the second element of delay 3. This allows us to eliminate distortion of the signal by transients in the memory circuit. As a result, the amplitude and shape of the signals at the memory output remain practically For a long time, it is possible to observe non-periodic signals with the help of a conventional electro, optical beam: a new oscilloscope.

Claims (1)

Invention Formula Analog-dynamic ziol-pshaya device containing the input driver, delay elements, amplifier and output driver, the output of which is connected to the input of the first delay element and the output of the input driver, so that increases the reliability of the device, contains an attenuator, control keys, reset keys, peak detectors, a control trigger and a control unit, an attribute attenuator is connected between the output of the second delay element and an amplifier, and with the outputs of the corresponding control keys, the signal inputs of which are connected to one output of peak detectors, the other outputs of which are connected to the corresponding reset keys, the inputs of the detectors connected to the outputs of the corresponding control keys, the inputs of the reset keys are connected to the outputs of the control unit, one of the inputs is connected with output BTOj) CTO delay element; the input is connected to the first output of the control trigger, to the corresponding inputs of the control keys, and the third input to the second output of the control trigger and control the inputs of the control keys, one input of the control trigger is connected to the common point of the delay elements and the blocking input of the input driver, and the second one podklyumei to one pz of the outputs of the input form) ovatel, the second output of which is connected to other inputs of the first and second key; reset, and the input of the first element of the delay is connected to the signal inputs per BQiro g; second key control 1I.