SU1522391A1 - Threshold device - Google Patents

Abstract

The invention relates to devices for controlling the amplitudes of pulse signals, in particular, to threshold devices, and can be used in automation and telemetry. The purpose of the invention is to expand the field of application of the threshold device - achieved by ensuring the functioning in the absence of a common bus between the power sources of the signal sensor and the threshold device while improving noise immunity. The threshold device contains an input terminal 1, two optocouplers 2 and 3, the LEDs of which are connected to the input terminals, two emitter repeaters on transistors 4 and 5 with load resistors 6 and 7, two threshold elements, each of which consists of anti-series protective diode 8 and Zener diode 9, output terminals 10-12. 2 Il.

Description

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The invention relates to devices for controlling the amplitudes of electrical, mainly pulsed, signals, in particular, to threshold devices, and can be used in automation and telemetry.

For remote measurements of electrical signals, the sensors and signal receivers have different and often different polarity power sources. In addition, the outputs of some signal sensors are not connected to a common power supply bus. These conditions impose increased requirements on the design of signal processing devices, in particular, on their noise immunity and stability characteristics.

The purpose of the invention is to expand the field of application of the threshold device by providing operation in the absence of a common bus between the power sources of the signal sensor and the threshold device while simultaneously increasing the stability of the device.

Fig. 1 is a circuit diagram of the device; figure 2 - timing charts of the input and output signals of the device. .

The proposed threshold device consists of an input terminal I, two cascades connected in parallel, containing the first and second optocouplers 2 and 3, the LEDs of which are connected to the input terminals 1, the first and second emitter followers on transistors 4 and 5 with load resistors 6 and 7 and the first and the second threshold elements, each of which consists of anti-series protective diode 8 and zener diode 9, output terminals 10-12.

With a negative pulse at the input 1 of the device, the current flows through the LED of the optocoupler 2. It causes the rebound current of the photodiode, which is also the base current of the transistor 4. At the same time, at the load 6 of the emitter follower, the signal terminal 212314

2 (proportional to the input signal of negative polarity), and only output part of the signal that passes the amplitude of the breakdown voltage of the zener diode 9 passes through the output terminal 10 (the voltage drop on the protective diode 8 can be neglected). Under the action of positive Q pulses at the input 1, the optocoupler 3 and the repeater on the transistor 5 work similarly, and a signal is output on the transistor terminal 12. shown in figure 2. In the device along with the transistors, repeaters on operational amplifiers can also be used. The voltage of the breakdown of zener diodes is chosen from the condition Ui U ToiE U, where and and - the magnitudes of the voltages at the outputs of the emitter followers proportional to the input pulse Ui and and.

Claims (1)

Invention Formula five five A threshold device containing the first and second transistors and the first and second threshold elements consisting of an oppositely connected diode and a zener diode, which is aimed at expanding the field of application by ensuring operation in the absence of a common busbar between the power sources signal sensor and a threshold device while simultaneously increasing noise immunity, the first and second optocouplers are inserted into it, and the optocouplers LEDs are interconnected counter-parallel0 but also connected to the input terminals devices, photodiodes of each of the optocouplers are included in the reverse field between the power supply and the bases of the corresponding transistors of the same conductivity, connected according to the emitter concept, and each of the threshold elements is connected between the emitter of the corresponding transistor and the first output of the device connected to the second and third outputs of the device. 0 Phia.2