SU378868A1 - - Google Patents

Description

DEVICE FOR DETERMINATION OF EXTREMUES

one

The invention relates to devices determining the instants of reaching the extreme values by the signal, both with the non-normal and pulsed character of the input signal. Oio can be used in the study of random processes and in systems of extreme regulation.

A device for isolating extreme values is known, comprising an amplifier, a charging diode and a locking capacitor connected in series, a discharge device connected by its input to a storage capacitor, a differential amplifier whose inputs are connected to the terminals of a charging diode, which controls the discharge device the multivibrator, which is installed from the output of the differential amplifier, and the reset — by the input signal when it reaches zero level.

The purpose of the invention is to expand the scope and increase the dnny range of input signals. This is achieved by the fact that the charge diode and amplifier are covered by negative feedback, which allows the dynamic range of the device to be increased by about a factor of / So, where / Co is the gain of the amplifier without feedback.

() In addition, the bistable multivibrator of each channel, which controls the gating device, is reset by the I1 pulse of the differential amplifier of its channel, and is triggered by a signal that occurs when the extremum of the counter-sign is detected. This allows the storage capacitor to be discharged to the minimum value of the input signal and to fix the extremum at any position relative to the zero line.

FIG. 1 shows a block diagram of the proposed device; in fig. 2 - oscillograms of the device operation.

The device consists of positive and negative channels. The positive channel contains an input differential amplifier 1, a charging diode 2, a storage capacitor 3 connected in series, the charging diode 2 being connected by an anode to the output of an input differential amplifier /, and the cathode to a storage capacitor 5, a differential display amplifier 4 connected by inputs the anode and cathode of the charging diode 2, and the output connected to the input of the bistable multivibrator 5, one output of which is connected to the control input of the key 6 connected to the discharge device 7. 3 Fault The main channel contains similarly connected between —the input differential amplifier 8, charging diode 9, ZAP memory 10, differential display amplifier 11, bistable 5 multivibrator 12, key 13 and discharge device 14, only the anode of diode 9 is connected to capacitor 10 and the cathode diode to the output of the differential amplifier 8. In addition, the cathode of diode 2 is connected to the second input of the amplifier /, the anode of the diode 9 is connected to the second input of the amplifier 8, the second output of the bistable multivibrator 5 is connected to the translucent input key y / 5, and the output of the bistable multivibrator 12 - "Propyl-15 skayuschemu entry key 5. The apparatus operates as follows. If the input voltage rises at the moment of switching on (o), then the charging diode 9 of the negative channel is closed. A differential-20 display amplifier starts its bistable multivibrator 12 and releases key 13. In the positive channel, diode 2 opens and differential indication amplifier 4 resets the bistable-25 multivibrator 5, which closes the key 6. A capacitor 3 charge occurs. When the input signal goes ceases to grow and begins to subside (moment i), the sign of the voltage on diode 2 changes, which is fixed to 30 by the differential display amplifier 4, multivibrator 5 is activated and through the public key 13 starts the discharge device in 14. Simultaneously, the multivibrator 5 to output the signal enters the pro-35 walking positive extremum. Discharge device 14 discharges capacitor 10 as long as the voltage on capacitor 10 does not match the voltage of the input signal. At this moment (ti), the 40th sign of the voltage on the diode I changes, which is fixed by the differential display amplifier 11, the multivibrator 12 is activated and the key 13 is lowered. The capacitor 10 discharge stops and its charge is started by an input-45 negative signal. From this time on, the negative channel is prepared for the negative extremum activation, and the capacitor 5 stores the measured positive extremum voltage. 50 4 At time (2), when the fall of the signal at the input is changed by the rise, the multivarter 12 triggers. a negative extremum signal is triggered, and the bit unit is turned on. The capacitor 3 discharges until diode 2 is opened, which will lead (with the help of differential amplifier 4) to triggering the multivibrator 5 and closing the key 6. Capacitor 3 starts charging with a rising input signal. This completes the full cycle of the device operation. The oscillograms (see Fig. 2) illustrate cases when extreme values (; tz and h) are in the Positive domain; extremes are in the negative region (;, - / 2 and h); the extremal values are in different areas (f and t. Thus, the dynamic range of the input signal is increased by more than 50 times. "Pick up the extremums containing two measuring channels, each of which consists of an input differential amplifier, to the output of which a storage capacitor is connected through a charging diode, the connection point of the storage capacitor plate and the charging diode is connected to the output of a discharge unit, and the electrodes of the charging diode Eny with the inputs of the second differential amplifier, the output of which is connected to the input of the unstable multivibrator, characterized in that, in order to rub the Application area, to increase the di amic range of input signals, in each channel the junction point of the storage capacitor diode plate and charge diode is connected to one channel inputs of the input differential amplifier, and the input of the bit unit is connected to the output of the additionally inserted key, the control input of which is connected to the output of a bistable multivib RATOR, the output of which is connected to the signal input of the key of another channel. (CH G