CS236982B1 - Timing voltage integrator wiring - Google Patents

Abstract

The purpose of the invention is to compensate for unwanted leakage currents of electrolytic capacitors in the integrator circuit. The stated purpose is achieved by connecting a voltage signal to the input of the integrating resistor (1), which is integrated. The output of the integrating resistor (1) is connected to the first electrolytic capacitor (2), to the second electrolytic capacitor (5), and to the ns. input of the amplifier (4). The second electrode of the first electrolytic capacitor (2) is connected to a positive direct current voltage and the second electrode of the second electrolytic capacitor (5) is connected to a negative direct current voltage. The output of the amplifier (4) is simultaneously the output of the entire integrator.

Description

The invention relates to an integrator circuit or, in other words, an circuit for determining the average value of the DC component of a general signal for the last elapsed time given by the integrator time constant. It concerns electronic integrators with time constants of tens to hundreds of seconds.

Many integrator connections are known in the art. Integrators with long time constants of the order of tens to hundreds of seconds make problems because the resistance value cannot be increased beyond a certain limit given by the capacitor leakage resistances, printed circuit boards, semiconductor plinths and the like. Also, the input resistances of subsequent amplifiers cannot be increased beyond a certain limit, with each additional increase causing complications. Often, today, in miniaturization, there is often a disproportionate volume or even the weight of capacitors, which often have to be arranged in parallel in larger numbers. Electrolytic capacitors, in particular tantalum, represent considerable savings in this respect, but the leakage resistors of the latter are still unsatisfactory.

The above-mentioned drawbacks are solved by the circuit according to the invention, characterized in that the input is connected to an integrating resistor whose output is connected both to the first electrode of the first electrolytic capacitor, whose second electrode is connected to the positive voltage terminal, and an electrolytic capacitor whose second electrode is connected to the negative voltage terminal. Furthermore, the output of the integration resistor is connected to the input of the amplifier, whose output is the output of the whole integrator.

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An essential advantage of this circuit according to the invention is that the disturbance current that the first electrolytic capacitor supplies is discharged by the second electrolytic capacitor. Therefore, the assembly behaves as an electrolytic capacitor with a small disturbance, leakage resistance, which allows an integration function with large time constants.

The accompanying drawing shows an example of an integrator connection according to the invention.

An exemplary circuit is formed by the input being connected to the integral resistor 1. The output of the integral resistor 1 is connected to the first electrode of the first electrolytic capacitor 2, the second electrode of which is connected to the + V positive voltage terminal, and capacitor 2, the second electrode of which is connected to the negative voltage terminal -V. Furthermore, the output of the integrating resistor 1 is connected to the input of the amplifier 6 with a large input resistor, and the output of the amplifier 6 is the output of the whole integrator.

The integrated resistance input 1 is supplied with a voltage signal which is integrated. The interference current supplied by the first electrolytic capacitor 2 is discharged by the second electrolytic capacitor 2. The whole acts as an electrolytic capacitor of low interference resistance, allowing an integration function with time constants of hundreds of seconds.

Claims (1)

A voltage-time integrator comprising an integrating resistor, electrolytic capacitors and an amplifier, characterized in that the input is connected to an integrating resistor (1) whose output is connected to the first electrode of the first electrolytic capacitor (2), the second electrode of which is connected to the positive voltage terminal (+ V) is connected to the first electrode of the second electrolytic capacitor (3), the second electrode of which is connected to the negative voltage terminal (-V) and connected to the amplifier input (4), and the amplifier output (4) ) is the output of the whole integrator.