DE709197C - Electrodynamic system for active power, reactive power or apparent power meters and relays - Google Patents

Description

Electrodynamic system for active power, reactive power or Apparent power meter and relay For wattmeters and electrodynamic wattmetric Relays, especially those that contain iron, often have a disturbing moment based on an action between the circuit or circuits flowing through Currents and those currents which have the induction effect of the former in generated by the tension circles.

In the simple case of a single current I flowing through it Current circuit and a single voltage circuit in which the former by mutual Induction causes a current I ', this moment can be expressed by the following formula become: C = kMcosO.

Here k is a constant # the one caused by the current I. Flux, M the moving from the current I 'in the part forming part of the voltage circuit Coil generated magnetic moment, # the phase shift between 0 and M. That Moment C becomes zero at M = o or cos (3 = o.

If the voltage circuit contains only resistors, the current is is in phase with the electromotive force induced by the current I. postponed by 900 against this.

On the other hand, if M is in phase with 1 'then 19, cos 0 is obtained = o, i.e. 2 C = o. This normally applies to devices that use real power measure or be influenced by it.

In contrast, the current 1 'is due to the reactive power or Apparatuses affected by one of two different ones Angle out of phase.

In the case of apparatuses of known design, the mag.netisch Alom (lit, 11 proportional 1 'and thus in phase. This results in cos # @ o, and that that Moment itself also deviates from zero.

This moment can cause annoying interference in the work of these apparatuses lead, especially when it comes to relays, which are often very variable Voltages and currents work.

The invention now relates to the elimination of this malfunction Serving electrodynamic system for Wilkleistullgs, reactive power or apparent power meters and relays, the voltage circuit of which contains two windings, either at the same time be influenced by one circuit or by two separate circuits. According to of the invention are one voltage winding in series with a reactance, the other in series with a capacitance and the two circuits thus formed in the way connected in parallel. that with a suitable choice of reactance and capacitance that of the alternating induction between the circuits and the two voltage windings resulting disturbance torque is practically zero.

As an exemplary embodiment, with reference to the Fig. 1, 2 around, some devices according to the invention described. In the fixtures According to FIGS. I and 2, the result sought is obtained by turning the voltage winding in the form of two half-windings, for the sake of simplicity of execution can be assumed to be identical. The half-windings can, however, both in terms of size as well as in terms of position and in terms of the number of turns etc. be different.

In the case of the device according to FIG. 3, there is the movable arrangement of two tightly connected windings.

These can be arranged on the same axis or by any one other known means may be linked together.

In Fig. 1 is the current winding through which the Stroml passes is denoted by 1, 1 '. 2 and 2 'are the two halves of the voltage winding. 3 is a capacitor and 4 is a reactance coil. U is the voltage at the terminals of the voltage circuit 2, 2 ', 3, 4. Assuming that the capacitor and the reactance development work lossless, and if one continues to assume that the Resistances of windings 2 and 2 'are neglected, and if one finally ensures that the reactance of the winding 4 corresponds to the capacitance resistance of the capacitor 3 is the same, the mutual induction in the circuits 2, 3 and 2 ', 4 generated currents be the same and have opposite directions. Consequently also become the mannetic moments of the two half-windings assumed to be identical 2 and 2 'be the same and have opposite signs.

So the magnetic moment M of winding 2, 2 will be just like that Disturbance torque C have the value o.

If the above conditions are not satisfactorily met are or will be met, it is enough to make sure that the component of the moment M, which is in phase with the flux # or the current 1, is zero.

In the device according to FIG. 1, the resulting from the voltage U result Currents with 1 a sine so moment. So you get a reactive wattmeter or a reactive power relay.

Fig. 2 shows an apparatus, in particular complex power relays or knives is applicable in which the voltage circuit, which consists of one of the voltage circuit the part corresponding to Fig. r (labeled 2, 2 ', 3, 4), with a resistor, a reactance or a capacitance resistor 5 is connected in series. To the Digit of 5 can also be a combination of resistances, reactances and capacities step.

As in FIG. 1, the circuit is denoted by 1, 1 '.

One can ensure that the component of the designated by M Moment that is in phase with the flux generated by the circuit is zero. on in this way the disturbance torque is eliminated.

In particular, this result can be obtained by using the Circuits 2 and 2 'so that they have resistances of negligible Have size and equal reactances with opposite signs.

In Fig. 3, 2 and 2 'denote two electrically independent but mechanical interconnected windings. I and 1 'are two intensity circuits. the other reference numerals have the same meaning as in the case of FIG. 2. Here care must be taken that the two disturbance torques resulting from the action of the Current I on the currents induced by it in circuits 2, 3 and 2, 4, are directed equal and opposite.

Claims (3)

P A T E N T A N S P R Ü C H E: I. Electrodynamic system for active power, Reactive power or apparent power meters and relays, the voltage circuit of which is two Contains windings that either run simultaneously from one circuit or through two separate circuits are influenced, characterized in that the one voltage winding in series with a reactance, the other in series with a capacitance and the two so formed circuits are connected in parallel in such a way that with appropriate Choice of reactance and capacitance that of the alternating induction between the circuits and the disturbance torque resulting from the two voltage windings is practically zero. 2. Arrangement according to claim I, characterized in that the two Voltage circuits together in series with a resistor, a reactance or a Capacity lie. 3. Arrangement according to claim I or 2, characterized in that the voltage windings form the moving system of the measuring device or relay.