SU394719A1 - AMPLITUDE VOLTMETER - Google Patents

Description

one

The invention relates to devices for measuring voltage amplitudes characterized by either a very short duration or a long passage with a small pulse duty cycle.

Lime amplitude voltmeters containing a diode, a capacitor charged in series with a diode, and a galvanometer connected to a capacitor in series with a resistance.

The disadvantage of these devices is the decrease with time of the reading of the galvanometer when measuring short-term currents, starting immediately after the end of the current passage.

There are also devices in which an additional resistance is applied to correct the indication of the galvanometer, connected in series with the measured current, and a charge chain connected to the circuit of the galvanometer is connected in parallel with this resistance.

The disadvantage of this device is an increase in the power take-off from the circuit being measured and the insufficient temporal correction of the readings of the galvanometer.

In order to increase the time correction efficiency of the galvanometer readings in the proposed device, the correction chain is designed as a multi-link resistive-capacitance filter, the input of which is connected to the capacitor, and each node is connected to the galvapomer drawing through the corresponding resistor, 3 shows the described voltmeter, where / is a diode, 2 is a co-detector, 3 - resistance, 4 - galvanometer, 5-10 - resistive-capacitor filter elements, 11 - relay contacts.

The device works as follows. After charging by the measured voltage through the diode 1 of the main capacitor 2, the latter through the resistance 3 is discharged by a galvanometer 4. Due to the gradual

decreasing the voltage of the capacitor 2; the current with respect to the resistance 3 decreases with time. Simultaneously with this, through capacitance 5, capacitor 6 is charged, the voltage on which in the first approximation increases linearly

with time. This voltage, due to the very small resistance of the galvanometer with respect to other resistances of this device, will also cause a linearly increasing in the first approximation resistance current 7, which, with an appropriate selection of electrical parameters, will compensate for the linear component of the current resistance 3. Receipt on the capacitor 8, charged through resistance 9 from the source

with a linearly increasing voltage — capacitor 6, it grows according to a quadratic law. Accordingly, the current of resistance 10 increases, which, with the necessary choice of parameters, will compensate for the quadratic component of the decrease of the sum of currents of resistance 5 and 7 with time. In this case, the current flowing through the galvapometer will be constant at the beginning of the process with an accuracy of proportional to the cube and higher degrees of time.

By increasing the number of the filter, it is possible to even more precisely combine the change in current of the galvapometer after a brief charging of the co-capacitor 2, however, this is not required in practice.

If the amplitude of the duration of the transmitted current is measured, then in this case the resistance 2 is constantly recharged, due to which the current along the resistance 3 is constant in time and fully characterizes the total measured voltage. In this case, the correction chain is disconnected by the contacts} interlocked with the button for the long gus-drop flow of the measured current.

P: i e d eme and z obrete n and

Lmplitudpy voltmeter comprising a diode, a capacitor, a galvanometer n korretiruyuschuyu vrelgegpr / w chain, characterized in that, in order temporarily novpneni efficiency correction -galvanometra indications korrektiruyup1a vypolpepa chain in the form of a multi-capacitive RC fultra, ko1orogo input connected to the capacitor, and each the node through the corresponding resistor is connected to the galvapometer.

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