CS219770B1 - Connection for limiting the size of the analog signal in the counting network - Google Patents

Abstract

The purpose of the invention of the circuit for limiting the size of an analog signal in a computing network is to achieve a precise and reliable limitation of the output voltage of the proportional element. This is achieved by connecting a diode and a comparator in series to the feedback loop of the proportional element, which compares the output voltage of the proportional element with the voltage of the specified limit. If the output voltage of the proportional element exceeds the specified limit, the comparator changes its output voltage, the diode opens and thus closes the feedback loop, which maintains the output voltage at a value exactly equal to the specified limit. If the two circuits described above are connected to the feedback loop, then the output voltage of the proportional element can only change in the range between the upper limit and the lower limit. The circuit of the invention can be used in electronic circuits where it is necessary to limit the output voltage from the proportional element. That is, in control technology, analog computing technology, measurement technology, etc.

Description

The purpose of the invention for limiting the size of an analog signal in a computing network is to achieve in a precise and reliable manner a limitation of the output voltage of the proportional element. This is achieved by connecting a diode and a comparator in series in the feedback of the proportional element, which compares the output voltage of the proportional element with the voltage of the specified limit. If the output voltage of the proportional element exceeds the specified limit, the comparator changes its output voltage, the diode opens and thus the feedback is closed, keeping the output voltage exactly equal to the specified limit. If the two circuits described above are applied to the feedback, then the output voltage of the proportional element can only vary between the upper limit and the lower limit. The wiring of the invention can be used in electronic circuits where it is necessary to limit the output voltage from the proportional element. Thus, in control technology, analog computing, measurement technology, etc.

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The invention relates to a circuit for limiting the size of an analog signal in a computing network, in particular for limiting the analog signal of a proportional term.

To date, systems are known which use diode limiters connected to a proportional element to limit the signal, or systems that use a MINIMA selector and a MAXima selector connected to the output of a proportional element to limit the signal. The disadvantages of the diode limiter are of low accuracy and furthermore the diode limiter overloads the proportional element amplifier with current consumption, the limitation being temperature dependent. The disadvantages of using the output voltage limitation by the MINIMA and MAXIMA selectors are that the signal path is disconnected when the MAXIMA or MINIMA limit is exceeded. Another disadvantage is the high complexity of the wiring.

These drawbacks are eliminated by the circuitry for limiting the size of the analog signal in a computing network, the principle being that the input voltage output is connected to a second inverting input of a proportional element, to whose first inverting input both anode of the first diode and cathode of the second diode are connected. The output of the first proportional element is connected simultaneously to the non-inverting input of the first integrator, to the non-inverting input of the second integrator, and to the analog signal output. The output of the first integrator is connected simultaneously to the cathode of the first diode and to the output terminal of the first integrator. The output of the second integrator is connected simultaneously to the anode of the second diode and the output terminal of the second integrator, wherein the inverting input of the first integrator is connected to the output of the lower limit and the inverting input of the second integrator is connected to the output of the upper limit.

The circuitry according to the invention overcomes the above-mentioned disadvantages and has the following advantages over known systems. The wiring is very simple, the wiring is highly stable in temperature, the wiring does not disconnect the signal path even when the limiting voltage is exceeded. The wiring allows to limit the signal on two levels, ie the upper limit and the lower limit. The wiring generates an information signal when the upper or lower limit is exceeded.

The wiring for limiting the size of the analog signal in the computing network is apparent from the attached figure.

The circuit according to the invention consists of a proportional member 1 acting as a gain gain amplifier, a first integrator 2 acting as a short time constant integrator, a second integrator 3 acting as a short time constant integrator, a first diode 4 and the second diode 5.

Involvement of the invention limits the size of the analog signal in a way that output U _H of the input voltage is connected to the second input of the proportional member 1 to which the added signal of the first integrator 2 only when the output of Uji analog signal exceeds the output U _H the voltage upper border. The signal of the first integrator is routed through the first diode 4 to the first input of the proportional member 1. The first diode 4 blocks the signal at the output terminal U2 from the first integrator 2 if the output analog signal at the terminal Ui is less than the upper limit _UH . Achieved if the analog signal level of the upper limit voltage, the first integrator 2 changes the polarity of its output signal and the first diode 4 pass voltage to the first input of the first proportional element drops when the output signal at the output U to the value of the output voltage U _D, changes the second integrator The second diode 5 blocks the signal at the output terminal U3 of the second integrator 3 if the output signal at the output U1 is greater than the voltage level of the lower limit. The output signals at output terminals U2 and U3 indicate whether the output signal at output U1 has reached either the upper limit or the lower voltage limit, or whether there is a working range between the upper limit voltage and the lower limit voltage at the outputs U _H , U _D .

The above-described connection according to the invention can be used everywhere in electronic circuits where it is necessary to limit the output voltage from the proportional element. The invention can be used in the fields of control technology, automation, analogue computer technology, laboratory measurement technology and the like.

Claims (1)

Subject A circuit for limiting the size of an analog signal in a computer network, characterized in that the input voltage output (U _v ) is connected to a second inverting input of a proportional element (1), the first inverting input of which is connected a diode (5), wherein the output of the first proportional element (1) is connected simultaneously to the non-inverting input of the first integrator (2) to the non-inverting input of the second integrator (31) and to the output (Uij of the analog signal) OF THE INVENTION the output of the first integrator (2) is connected simultaneously to the cathode of the first diode (4) and to the output terminal (Uz) of the first integrator (2), while the output of the second integrator (3) is connected simultaneously to the anode of the second diode (5) a terminal (U3) of the second integrator (3j), wherein the inverting input of the first integrator (2) is connected to the lower limit voltage output (U _D ) and the inverting input of the second integrator (3) is connected to the upper limit voltage output ( _UH ).