CS267971B1 - Signal Trend Indicator Connection - Google Patents

Abstract

The connection refers to the connection for monitoring the magnitude of the change in the output signal and its polarity. Its essence lies in the fact that the output signal source is connected by one pole to the common terminal of the single-pole switch. The first terminal of which is connected to one terminal of the first capacitor and to the first input terminal and the fourth input terminal of the double-pole switch, and the second terminal is connected to one terminal of the second capacitor and to the second input terminal and the third input terminal of the double-pole switch. The second pole of the output signal source is connected to the second terminals of the first capacitor and the second capacitor. An output meter is connected between the first output terminal and the second output terminal of the double-pole switch, and the single-pole switch and the double-pole switch are mutually coupled with a pulse generator. The connection is expected to be used, for example, in meteorology for monitoring the linear development of various physical quantities.

Description

The invention relates to the connection of a signal tendency indicator, for example a ternary voltage tendency indicator.

When monitoring the state of the control circuit controlling the temperature of the measured object, it is often important to know the tendency of the measured quantity in a given case of temperature, i.e. it is difficult to know whether the value of the measured quantity increases or decreases, or if it is constant. This is not the case. this additional parameter is not yet properly monitored and a suitable measuring instrument is not produced for its indication.

This disadvantage of the prior art is overcome by the connection of the signal tendency indicator according to the invention, which is based on the fact that the source of the output signal is connected by a single pole to a common example of a single-pole switch. Its first terminal is connected both to one terminal of the first capacitor and to the first terminal and fourth terminal of the two-pole switch and the second terminal is connected both to one terminal of the second capacitor and second terminal and third terminal of the two-pole switch. The second pole is the source of the output signal connected to the second terminals of the first capacitor and the second capacitor. the output meter and the single-pole switch are connected to the second output terminal of the two-pole switch. They are coupled to each other. with pulse generator.

The advantage of the circuitry is that it is possible to monitor both the magnitude of the change in the magnitude of the output signal and the polarity of the change based on the direction of the deflection read on the built-in output meter.

The principle connection of the signal tendency indicator according to the invention is shown in FIG. 1, FIG.

The source 1 of the output signal is connected by one pole to a common terminal 2.1 of a single-pole switch 2, the first terminal of which is connected to one terminal of the first capacitor 4 and to the first input terminal 3.1 and the fourth input. terminal 2.3 It is connected. Firstly, to one terminal of the second capacitor 5 and secondly to the second input terminal 3.2 and the third input terminal 3.5 of the two-pole switch 3. The second pole of the input signal source 50 is connected to the second terminals of the second capacitor 4 and the second capacitor 5. the output meter 6 is connected to terminal 3.6. The single-pole switch 2 and the two-pole switch 3 are coupled to the pulse generator 7.

the time-varying signal from the source 1 of the output signal is applied to terminals a, b.

When connecting the common terminal 2.1 of the single-pole switch 2 with its first terminal 2.2, the capacitor 4 is charged at a voltage (t) given by the value at the end of the sampling period ΖΪ. When the common terminal 2.1 of the single-pole switch 2 is connected to the other terminal 2.3, the capacitor 5 is charged at a voltage Uj (t) given by the value at the end of the following sampling period Z) ♦ 1.

the polarity of deflection of the output meter 6 is switched every time. not to mention, the two-pole switch 3 is switched synchronously with overfill of the one-pole switch 1 by means of the pulse generator 7. The sampling period is inversely proportional to the frequency of the pulse generator 7 and may be varied as desired. The deflection of the output meter S connected via the two-pole switch 3 to the first capacitor 4 and the second capacitor is given by the voltage difference on both capacitors 4 ε

Claims (1)

Connection of the signal tendency indicator, characterized in that the output signal source (1) is connected by one pole to a common terminal (2.1) of a single-pole switch (2) whose first terminal (2.2) is connected to one terminal of the first capacitor (4) and to the first input terminal (3.1) of the fourth input terminal (3.4) of the two-pole switch (3) and the second CG 2G7 C71 B1 terminal (2.3) Single-pole switch (2) is connected to one terminal of the second captain (j) and second to the input terminal (3.2) and three input terminals (3.3) of the two-pole switch (3), 9 to the other (4) and a second Uopacitor (5), other than the first output terminal (3.5) and the second output terminal (3.G) of the two-pole switch (3) The output meter (6) is connected o One-pole switch (2) o Rivipolar switch (3) They are coupled to the pulse generator (7).