CS219718B1 - Involved in the selection of the Kase section of the monitored electrical waveform and subsequent amplitude sorting - Google Patents

Abstract

The invention solves the connection for selecting the time period of the monitored electrical waveform and subsequent amplitude classification using semiconductor elements.' r The essence of the invention lies in the fact that the voltage divider is connected to the collector of a transistor, the base of which is connected to the source of control pulses Us. The resistance of the emitter circuit of the transistor is connected via an amplifier to a decision-making trigger circuit, to which are further connected evaluation, signaling, or power elements. The invention can be used in various fields, e.g. in measurement technology, non-destructive defectoscopy, etc.

Description

The invention relates to a circuit for selecting the desired time period of the monitored electrical waveform and the subsequent amplitude classification.

For various devices in various fields, eg in measuring technology, non-destructive defectoscopy, it is necessary to select a certain period of time from a given electrical waveform, which is decisive for the evaluation result. Previous devices for selecting a part of the monitored electrical waveform, e.g. No. 110,700, is based on the use of vacuum tubes that are currently energy-intensive and uneconomical.

This disadvantage is largely eliminated by the wiring for selecting the time period of the electrical waveform to be monitored and the subsequent amplitude classification according to the invention. Its essence is that a voltage divider, single or multiple, is connected to the collector of at least one transistor whose base is connected to a pulse source. The resistor of the emitter circuit of the transistor is connected via an amplifier to the decision trigger circuit, to which the evaluation, signaling, event. power elements.

Another principle of the invention is that two voltage dividers are connected one by one to collectors of npn and pnp transistors whose bases are connected to pulse sources and the resistors of the transistor emitter circuit are connected via amplifiers to decision trigger circuits with the following evaluation, signaling or . power elements.

The circuitry of the present invention utilizes semiconductor elements, which represents technical advances over earlier circuitry with vacuum tubes, providing wider use, such as multiple amplitude resolution over a period of time, for more economical and energy efficient sessions. The circuitry according to the invention allows automatic signaling of the amplitude overrun in the monitored period of time, which is necessary for the automation of control operations. The width of the time period from a given electrical waveform and the magnitude of the amplitude are arbitrarily adjustable.

The circuit according to the invention is schematically shown in the drawings, wherein Fig. 1 shows a block diagram of the invention, Fig. 2 shows a block diagram of the invention using npn and pnp transistors.

A voltage divider 1, single or multiple, is connected to the input of the wiring, which is connected to the collector of one or more. multiple transistors 2.

The number of trailing resistors 2 with appropriate downstream circuits is determined by the desired amplitude resolution of the individual parts of the AC waveform. The base of transistor 2 is connected to a source _of pulses U 3 and the resistance of the emitter circuit of the transistor 2 through the amplifier 4 connected to the decision circuit 5 to trigger a downstream with evaluating, signaling, or. power elements 8.

The overall waveform U _v is fed from the voltage divider 1 to the collector of transistor 2. When several transistors 2 are used, it is possible to discriminate the waveform at several amplitude and time sequence levels. A control pulse U of _a certain level and duration according to the desired program is supplied to the base of transistor 2. When there is no voltage on the basis of transistor 2, no current passes through it and no electrical voltage is generated at the resistor 3 in the emitter circuit of transistor 2. By applying a time-controlled electric pulse U _s based on transistor 2, it is opened for the duration of the pulse.

Thereby, current flows through the resistor 3 in the emitter circuit of transistor 2 only in the desired time period of the electrical waveform. Depending on the magnitude of the instantaneous electrical voltage on the collector of transistor 2, an amplitude-proportional voltage appears at the resistor 3 in the emitter circuit of transistor 2. The resulting voltage at the resistor 3 of the emitter circuit of transistor 2 is therefore amplitude. depending on the voltage on the collector of transistor 2 only in the monitored period of time or phase, it is further fed to the amplifier 4 with a subsequent trigger circuit 5, which decides to exceed the amplitude size. Downstream of the trigger circuit 5, the final evaluation electrical circuits may be either with a memory function or a signal conditioning circuit. Some known devices such as pulse counters, acoustic or signaling elements or electrical control circuits, eg power switching elements etc. can be output. When using transistors of the type npn and pnp it is possible to select a time period, alternating voltage phase in positive 1 negative halfwave. The control pulses U _s can be synchronized while monitoring a certain phase of the periodic voltage waveform.

Claims (2)

SUBJECT Wiring for selecting a time period of the monitored electrical waveform and subsequent amplitude classification, characterized in that a single or multiple voltage divider (1) is connected to the collector of at least one transistor (2j, whose base is connected to a pulse source (U _s )), and the resistor (3) of the emitter circuit of the transistor (2) is connected via an amplifier (4) to the decision trigger circuit (5), to which the evaluation, signaling or power elements (6) are further connected. vynalezu Connection according to claim 1, characterized in that two voltage dividers (1, Γ) are connected one at a time to collectors of transistors (2, 2 ') of the type npn and pnp, whose bases are connected to pulse sources (U _s , U _s) and the resistors (3, 3 ') of the emitter circuit of the transistors (2, 2 ') are connected via the amplifiers (4, 4 ') to the trigger trigger circuits (5, 5 ') -with the following evaluation, signaling or power elements (6, 6'J. 2 sheets of drawings