SU315970A1 - DEVICE FOR SIGNAL 4KL COLLECTION - Google Patents

Description

The invention relates to the field of instrumentation technology, namely, alarm devices.

Known devices for clock sampling of the signal include a transistor key circuit, a differential amplifier, and a POWER amplifier.

A disadvantage of the known devices, from the point of view of their use in alarm systems, is the short time to restore the amplitude of the output voltage.

The aim of the invention is to expand the functionality of the device for clock sampling of the signal, ensuring that the amplitudes of the specified sections of the input signal pass to the device output, followed by delayed recovery of the initial amplitude of the output signal, and the amplitude of the input signal may remain different from the original .

To do this, a voltage divider additionally introduced into the device for clock sampling consists of a resistor and an indirect heating thermistor, through which the base of the transistor of the key circuit is connected to the input of the clock signal, and the heater of the thermistor is switched on to the collector circuit of the power amplifier transistor.

You sampled (time separated) different parts of the electrical signal, which makes it possible in automatically checked signaling systems to easily detect the cause of an alarm using appropriate electronic devices synchronized with a clock voltage generator.

Stabilizing the amplitude of the output signal also dramatically increases the reliability of the alarm system, which simultaneously controls a large number of sensors (or meters) that control process parameters. The delay in restoring the original value of the signal at the output of the device is necessary in order for a certain operation of subsequent elements of the system to occur. All the above qualities of the proposed device provided an opportunity to create a highly reliable alarm system, which, after being triggered by any sensor controlling the process parameter, and giving an audible signal, was automatically restored (which makes it possible to block the sound signal) and comes to alert for the next signal of any kind. from similar sensors (or gauges). Such restoration can occur multiple times, ensuring reliable control of the sound (or light) alarm device.

FIG. 1 and the layout of the predlozhenny device; in fig. 2 - stress diagrams.

The input signal from input 1 is fed to the emitter circuit of transistor 2. A reference voltage from input 3 is fed to the base of this same transistor through a divider, one of the arms of which is a resistor 4, and the second is a thermistor 5 with indirect heating. From the collector of transistor 2, the voltage enters the base circuit of the output emitter follower 6. From the emitter of the latter, the output current signal arrives at output 7. Simultaneously from the emitter of transistor 2, the signal is fed to the base of the differential amplifier at transistor 8, the emitter circuit of which is connected to Zener diode 9, creating reference stress. From its collector, a signal is applied to a power amplifier 10, in the collector circuit of which a thermistor heater 5 is turned on.

The device works as follows.

The rectangular-shaped voltages supplied to inputs 1 vi 3 control the operation of transistor 2. In FIG. 2 shows the diagrams of these stresses. Schedule a corresponds to the voltage applied to the input I, schedule b to the load on the basis of TraizI.stor 2, due to Lek-Nomu with an output that iodine to input 3. In the intervals: laziness, when this voltage is zero, the transistor 2 is locked and passes the signal from input 1 to the output output of the ugroy. Transistor 2 is unlocked only for the time during which at its base there is a negative polarity, the required value. Thus, the circuit is sensitive for only those lengths of time that correspond to the presence of a negative bias in the base of transistor 2 (the locked areas on the graph b fit. 2). Such management of the input transistor provides a sample of specified sections of the input signal and their stabilization. The signal arriving at the base circuit of transistor 6 from the TraisGor 2 collector is differential because it is caused by the uniqueness control of this transistor along the base and emitter circuit. If one of the DROUT signals changes, it is enough to change the second one in a proper way to It was the original value. The stabilizing part of the device operates as follows. Let us assume that the amplitude of the signal applied to input 1 has increased in absolute value, which corresponds to an increase in the voltage applied to the base of transistor 6. At the same time, the current through it increases, and through transistor 8 it decreases, and the current decreases through amplifier 10, and therefore , through a thermistor heater 5, the resistance of which increases due to the fact that its temperature drops. In this case, the division of the signal from the input 3 will decrease, i.e., the amplitudes of the voltage supplied to the base of transistor 2 will increase, which will unlock the latter. A larger unlocking of the transistor 2 leads to the locking of the repeater 6, i.e., of course, an increase in the current through the amplifier 10 and the thermistor heater 5.

A similar picture will be observed when the input signal to the emitter of transistor 2 decreases, or the control voltage changes.

The use of an indirectly heated thermistor as a control element ensures that the amplitude of the output signal returns to its original value (after an instantaneous change) with a noticeable time delay.

The proposed device can be used as a stabilizer of slowly varying voltages, or as a stabilizer of the amplitude of a square rectangular shape without clock sampling. To do this, it is enough to input 3 instead of a voltage of a rectangular form to apply a constant voltage of negative polarity.

Subject invention

A device for clock sampling of a signal comprising a transistor key circuit, a differential amplifier and a transistor amplifier of power, characterized in that, in order to expand its functionality, a voltage divider additionally introduced into the neto, consisting of a resistor and an indirect heating thermistor, through which The base of the transistor of the key circuit is connected to the clock signal input, and the thermistor heater is connected to the collector circuit of the transistor of the power amplifier.

d FIG. 2