DE242751C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The patent specification 234760 describes a selenium photometer with fixed field coils and moving rotating coil, in which the magnetic field of the field coils by a generated by the resistance fluctuations of the selenium cell influenced electric current and the weakening of this field to facilitate reading without impairment the measuring accuracy is achieved that between selenium cell and stationary A transformer is switched on.

The subject of this invention is a further embodiment of this photometer, which is that between the field coil and the secondary transformer winding another Capacitor is switched on, whereby the measurement accuracy can be increased considerably can.

The subject matter of the invention is shown schematically in the accompanying drawing. The designation of the individual parts of the scheme corresponds to the designations in patent 234760.

The two light sources are denoted by χ and y , α is a mirror rotating with axis δ and c is the light-sensitive selenium cell, d is the direct current source feeding the selenium cell and s is the transformer, its secondary winding with field coils e and f des Measuring instrument is connected with the interposition of the capacitor p . The moving coil g of the instrument is fed with alternating current from the alternating current source m.

The mode of operation of the capacitor p is as follows:

Assuming first of all that the moving coil g is in its zero position, i.e. in the position in which its alternating magnetic field does not generate any induction current in the stationary coils e, f , the moving coil becomes when the coils e, f do not receive any external current is supplied, experience no torque: This still applies if the moving coil has left its zero position somewhat and the coils e, f are closed outside the instrument by an ohmic resistance, provided that the self-induction in e, f is insignificant . But if the ohmic resistance is replaced by an induction resistor, e.g. B. as in the present case by the secondary winding of the transformer, as soon as the moving coil g has left its zero position somewhat , an induction current is generated in e, f , which has a certain phase shift compared to that in the coils e, f due to the alternating field of Coil g has induced voltage. As a result, the moving coil g is drawn towards its zero position, so that the deflection of the pointer connected to the moving coil is reduced by this effect and the measuring accuracy is thereby reduced

is affected. If one now switches a capacitor into the circuit of the coil e, f and one chooses the dimension so large that the induction effect of the secondary transformer winding is canceled again by the effect of the same, the torque that turns the moving coil g back after its zero position is canceled again and the full deflection of the moving coil g obtained, which is as large as it would occur if the secondary transformer winding and the capacitor p could be replaced together by an ohmic resistor.

The induction effect in the coils e, f itself can be neglected in these considerations, since it is usually very low in the practical versions, but the induction effect in them, as well as the induction in the secondary transformer winding, can also be compensated for by appropriate dimensioning of the switched-on capacitor .

It was stated above that the deflection of the coil g or the pointer connected to it is reduced by the induction effect in the circuit of the coils e, f , and that this reduction, which is associated with a corresponding impairment of the measurement accuracy, is caused by the switching on of a capacitor p can be canceled again. You can now go a step further and dimension the capacitor p so that its effect is greater than is necessary to compensate for the induction effect. What is achieved in this way is that the deflection of the instrument pointer is not only not reduced, but on the contrary is increased. As soon as the moving coil g has left its zero position by a very small amount due to the selenium cell effect, in this case there is an interaction between the alternating fields of the moving coil g and the coils e, f , which acts in the sense of the pointer deflection and increases it, see above that a corresponding increase in the measurement accuracy is achieved.

One can increase the pointer deflection by the capacitor effect only go up to a certain amount, otherwise the moving coil g is already lower Movement from its zero position is rotated by the capacitor so far that its return to the zero position when executing the measurement is made too difficult.

Nothing is changed in the subject matter of this invention if the secondary transformer winding and capacitor are brought into connection with the moving coil g instead of the coils e, f and the alternating current source m is connected to the coils e, f instead of the moving coil g, whereby the tasks of Coils e, f on the one hand and coil g on the other hand are interchanged.

Claims (1)

Patent claim: Selenium photometer according to patent 234760, characterized in that a capacitor (p) is switched on in the circuit of the secondary transformer winding in order to increase the measuring accuracy. 1 sheet of drawings.