SU411378A1 - - Google Patents

Description

one

This invention relates to a radio measuring technique.

Devices are known for converting the amplitude of measured pulses into a proportional constant voltage, containing a null organ connected to a feedback unit and controlled by a single vibrator, sources of charge and discharge currents, and a source of accelerated current currents connected to a storage capacitor , emitter follower connected to storage capacitor and feedback unit.

The use of known devices for converting short nanosecond pulses is ineffective.

This is due to the fact that the time for setting the output voltage on the peak detector (due to the comparability of the duration of the converted pulses with the constant charge time of the detector) during the conversion of nanosecond pulses increases dramatically;

in the panosecond range, the detector ceases to be a peak, since its output voltage may differ significantly from the input;

connecting the peak detector without using the buffer stage directly to the signal source in parallel with the null organ is unacceptable due to the low input impedance of the peak detector in the naposecond range and the narrowing of the transducer input bandwidth.

The aim of the invention is to reduce the conversion time and extend the range of durations of the converted pulses. This is achieved in that in the proposed

The device is connected to the control output of its one-shot one-shot one additional one-shot, the inputs of which are connected to the respective differentiating circuits, and the output of each second additional one-shot one is connected to the first element "And connected to the trigger and the source of pulses of the accelerated charge connected to the storage capacitor and the output of the nth additional

the one-shot is connected to the element; the output of the control one-shot is connected to the source of charge current, the first element "And" and the second element "And, whose input is connected to the element" NOT, and the output is connected to a trigger connected to the current source of accelerated discharge connected to the accumulative a capacitor.

The described device is shown in the drawing, where 1 is a zero-body, 2 is a control one-shot, 3 is a source of charging current, 4 is a storage capacitor,

5 - constant current source,

6 is an emitter follower, 7 is a feedback circuit, 8 is a source of pulses of accelerated charge current, 9 is an additional controlled source of discharge current, 10 is a successively connected additional one-oscillator with differentiating chains 11 at the inputs, 12 is the first element , 13 - trigger, 14 - second element “AND, 15 - element“ NOT.

When a sequence of convertible pulses arrives at the input of a null-1, control one-shot 2 begins to switch at a higher than / actual frequency.

In this case, the duration of the pulses of each of the additional one-vibrators will be equal to the time interval between the pulses of the previous one-shot (since the leading edge of the one-shot of the one-shot through the differentiating circuit, the subsequent one-shot is returned to its original state).

As a result, starting with the (yy + 1) -th pulse of the signal being converted, the pulses at the outputs of additional one-shot with even-numbered numbers will coincide with the time of the driving one-shot.

At the output of the first element "And 12", signals appear to turn on the source 8 of pulses of current of accelerated charge feeding the capacitor 4.

As a result, the increment of the voltage on the storage capacitor will increase with each switch, and the capacitor 4 will start to quickly charge.

After a certain number of switching operations, the capacitor 4 capacitance, applied through the emitter follower 6 and feedback circuit 7 to the null organ 1, will reach the magnitude of the amplitude of the converted pulses and slightly exceed it.

At the same time, at the output of the null organ, the signal of the control input of the one-shot vibrator is interrupted, and its switching stops.

To reduce the overshoot time, i.e. the time during which the feedback voltage exceeds the amplitude of the input pulses, an additional controlled source of discharge current 9 is introduced into the device.

The inclusion of this source is accomplished by a trigger 13, the state of which is varied by a pulse from the first AND 12 element.

At the same time, the pulses that prevent the change of the state of the trigger 13, at the output of the second element And 14 are absent, since the pulses at the outputs of the controller and the last of the additional single vibrators coincide in time.

Capacitor 4 is rapidly discharged through sources 9 and 5 until the arrival of some subsequent of the transformed impulses, the feedback voltage becomes equal to the amplitude of the converted pulses.

The zero-organ 1 receives a signal to the control oscillator 2, the pulse of which through the second element 14 returns the trigger 13 to the initial state and turns off the additional source of discharge current.

As a result, the elements of the device come to a state corresponding to the steady state, characterized by the fact that the charge-discharge of the storage capacitor 4 is carried out by sources 3 and 5 (the same as in the known device).

Thus, in the steady state, the characteristics of the device remained the same, and in the transient mode, the conversion time sharply decreased.

The effect of reducing the time transform

in contrast to the known device obtained

without using a "peak detector, and

also without connecting to a signal source

additional schemes.

Subject invention

A device for converting the amplitude of nanosecond pulses into a constant voltage containing a null organ connected to a feedback unit and controlling

a single vibrator, sources of charge and discharge currents, and a source of accelerated current pulses connected to a storage capacitor, an emitter follower connected to a storage capacitor and feedback unit, characterized in that, in order to reduce the conversion time and extend the range of durations of convertible pulses, to the output of the controlling one-shot one-shot are connected in series with additional one-shot ones, whose inputs are connected to the corresponding differentiating circuits, Wich the output of every second additional one-shot is connected to the first

An And element connected to a trigger and a source of accelerated charging pulses connected to a storage capacitor, and the output of the nth additional one-oscillator connected to the output element of a controlling one-oscillator connected to a source of charging current, the first element And and the second element And the input of which is connected to the element "NOT, and the output - to the trigger connected to the current source

accelerated discharge connected to a storage capacitor.