DE930461C - Arrangement for magnetic iron investigation by means of a sinusoidal magnetic flux - Google Patents

Description

A method has already been proposed which deals with the magnetic materials testing, especially with the achievement of a precise sinusoidal magnetic flux. To carry out this procedure an iron sample is necessary, which forms a transformer and for the purpose two windings magnetically linked closely with one armature, one primary winding and one Secondary winding, has.

To achieve the sinusoidal magnetic flux is included an amplifier arrangement is used, its input and output side with the two Windings of the iron sample are connected.

The invention relates to an improvement, in particular to a simplification the circuit already proposed, and also has the advantage that the iron sample does not form a transformer or two windings needs to have. According to the invention, the fact that a Amplifier in a suitable arrangement represents a negative resistance.

According to the invention is to generate the sinusoidal magnetic flux a sinusoidal supply voltage to the series connection of the magnetizing coil and one the ohmic resistances of the magnetization circuit, td. h. the magnetizing coil including the measuring devices in the current path, compensating negative resistance placed. The negative poacher stand is preferably a tube amplifier arrangement. The amplifier is fed by a shunt in the circuit, and the The output of the amplifier is fed back into the magnetization circuit. By By using negative feedback, the stability of the amplifier arrangement can be increased. The voltage path of a wattmeter used to measure iron loss can be in this arrangement directly through the sinusoidal magnetization voltage be fed. If the supply voltage is not perfectly sinusoidal, it is advisable to remove the harmonics by installing filters. In order to explain the inventive idea are three figures, of which FIGS. I and 2 are the basic explain the circuit according to the invention, while FIG. 3 shows the application of the circuit for examining an iron sample.

According to Fig. I, an amplifier I is from an in-circuit Shunt resistor 2 controlled and feeds itself back into the circuit. If the gain is set correctly, it can be achieved that the effect of the Resistance 3 is compensated. According to Fig. 2 is on the output side of the amplifier a potentiometer 4 with a displaceable tap 5 is arranged. In this circuit Gain fluctuations are eliminated by creating a negative feedback circuit is applied.

In Fig. 3, I again means the amplifier, 4 and 5 the potentiometer with a sliding tap and 2 a shunt resistor, which is on the Input side of the amplifier.

The iron sample is labeled 9 and the associated magnetizing coil with IO. In the circuit there is also an ammeter 6 and the current coil 7 is one Watt meter, the associated voltage coil is denoted by 8.

It is assumed with this arrangement that the feeding AC voltage exactly sinusoidal. The setting of the amplifier is selected so that that its negative resistance to compensate for the ohmic resistance of the magnetizing coil, of the ammeter 6 and the current coil 7 is used. With this setting, if the supplying alternating voltage has a sinusoidal curve, as does the induction curve in the iron sample 9 sinusoidal, because the ohmic resistances in the circuit are compensated are. As a result, it is possible, the voltage coil 8 directly to the feeding To clamp alternating voltage or to apply it to the connection terminals of the test device.

Claims (5)

PATENT CLAIMS: I. Arrangement for the magnetic examination of iron samples by means of a sinusoidal magnetic flux, characterized in that a sinusoidal supply voltage to generate the sinusoidal magnetic flux to the series connection of the magnetizing coil and one of the ohmic resistors - the magnetization circuit, d. H. the magnetizing coil including the im Current path lying measuring devices, balancing negative resistance is placed. 2. Arrangement according to claim I, characterized in that the negative Resistance formed by a tube amplifier arrangement and the amplifier from a shunt resistor in the circuit is controlled and that the output of the amplifier feeds it back into the circuit. 3. Arrangement according to claim I, characterized in that the stability the amplifier arrangement is increased by using the negative feedback. 4. Arrangement according to claim I, characterized in that the voltage path of the wattmeter is fed directly by the sinusoidal operating AC voltage. 5. Arrangement according to claim I, characterized in that the operating AC voltage has been cleaned of any harmonics present by filters.