SU2968A1 - Device for measuring electrical quantities - Google Patents

Description

The proposed device for measuring electrical quantities is based on determining the change in the potential of the cathode lamp grid. The diagram of the device shown in the drawing consists of a two-mesh amplifying lamp L, two resistances: in the anode circuit of the Div circuit of the added grid of one common PI battery in the anode circuit and of the added grid; equipment filament yarn, for which are the batteries R., ammeter A and rheostat Lz, - a recording galvanometer d with a shunt. Including a two-mesh lamp L, respectively, is obtained from the Whitston bridge, the two arms of which are formed from internal resistances: "I filament is an additional grid (and" I-anode filament Z / and the other two arms from two resistances R and RI; to diagonal the same K, K bridge is placed current meter G. To the points M and M, are attached to the measurement object. The potential difference between the points ff and ffi, at a certain predetermined potential of the point M (on the grid bg) can always be made equal to zero , by selecting the required voltage ba containers Pj and resistances R and / i. In view of this, there is no need for a compensation battery, the purpose of which, generally speaking, is the need to bring the potential difference across the clamps of the recording device to zero. Thus, the count will always be done from zero, which gives the ability to use a galvanometer of any sensitivity. In addition, the individual battery of the additional grid and the potentials for the anode and the additional grid are taken from the same battery, with the same potential difference across its lumen max. With this scheme, it is only necessary to have a precision instrument to maintain uniformity of heat. The necessary potentials for the anode and the additional grid are set by the potentiometer RP by setting the arrow of the galvanometer G to the zero position. The measure of changes in the potential of the grid С „, which, in essence, is always obtained as the result of measurable

change will be

R ratio D when cast arrows

galvanometer G to zero.

As a special case of measuring current, the diagram indicates the case of using a device for measuring the current of a photocell that changes under the influence of an illumination change.

When connecting the photocell anode to the grid 6., the potential of this grid will depend on the potential of the photocell anode. This latter potential will depend on the number of electrons trapped on the anode with a particular photocell illumination and on the external voltage applied to the photocell, which can be considered constant within the limits of the experiment. At the same time, the magnitude of the photocurrent is directly dependent on the intensity of the light and on the magnitude of the potential at the anode of the photocell. Thus, the magnitude of the photocurrent is related to the value of the potential on the Co network and, therefore, to

relations D, i.e. every change

one

Photocurrent values can be taken into account, taking into account the necessary

/ change in the ratio of r, for lc

nor in the balance of the shoulder device.

SUBJECT OF P A T E N T A.

A device for measuring electrical quantities using the determination of the change in narying, which is characterized by applying to the Whitstone bridge a dual-grid lamp L, the internal resistance “filament H - the additional grid 6i of which is included in one bridge arm, the internal resistance“ filament H-anode C is included in the other arm, and the resistances A and H1 form the third and fourth arms, while in the diagonal K, K of which bridge a galvanometer or other current meter is included, the voltage measured is applied to the grid With the tetrode.

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