DE663159C - Device for measuring direct current according to patent 659436 for use for harmonic direct current - Google Patents

Description

Device for measuring direct current according to patent 659 436 for use for harmonic direct current The patent 659 436 deals with a device for measuring of direct current with a magnetic circuit, its magnetization both from that to be measured (primary) direct current as well as the current in a secondary winding depends, and an auxiliary winding moved in a magnetic circuit; the secondary winding is from the Auxiliary winding switched so dependent that the by the auxiliary winding in the Secondary winding caused current flow, which causes magnetization, which is the magnetizer ung through the primary current is directed in the opposite direction and it is down to the fraction cancels, which is necessary to generate the secondary electricity.

If this device is used to measure harmonic direct current, so according to the invention are used to determine the effective value and the arithmetic Mean value in the secondary circuit of the current translator -Instruments for subdivision the harmonic direct current in the form of a soft iron instrument or dynamometer for RMS measurement and in the form of a moving-coil instrument for arithmetic Average value measurement switched on. This is possible because primary circuit and Secondary circuit of the current converter at the same time a simple AC converter form so that not only the direct current components, but also the alternating current components be transferred to the secondary side. The difference between the two measured values corresponds to the size of the harmonic, exactly as in the case of the devices known per se to determine the ripple of a current in which a direct current and a AC ammeter are simply connected in series. Because the difference between the displayed values will be very low in most cases, precision instruments would have to be used can be used for these measurements.

One way to be able to use normal measuring instruments and the harmonics In spite of this, to be able to detect precisely, according to the invention, consists in the rms value indicating instrument on a tertiary winding on the iron core of the current transformer and the arithmetic mean in the secondary circuit of the Current translator's remaining instrument to connect a choke coil upstream, which does not transmit the AC components to the measuring instrument.

With this arrangement, the alternating current transmission is through the Air gap affects the iron core, resulting in a larger misalignment can. Di can be eliminated by using a special one for AC current measurement closed iron core is used on which the tertiary winding for the AC instrument lies. This converter has a primary winding for magnetization and a secondary winding for demagnetization. Both are with the primary winding and secondary winding of the main transformer in series. The main transformer carries a short-circuited tertiary winding and a choke in its secondary circuit, to destroy the alternating current component in the tertiary winding alone.

In the figures, exemplary embodiments according to the invention are shown. In Fig. I, the primary winding ii is in the primary circuit. The soft iron instrument or dynamometer or the like 49 and the moving coil instrument 5o are fed jointly by the armature winding 13 , which is in series with the secondary winding i9. The driven armature 13 is in a gap in the iron core i? emotional.

According to Fig.2, the alternating current measuring instrument.I9 is connected to a tertiary winding5i on the iron core 12 of the current transformer. The choke coil 52 is connected upstream of the direct current measuring instrument 50 remaining in the secondary circuit.

According to Fig. 3 is for the alternating current measuring instrument 49 or its Tertiary winding 51, a special closed iron core 53 is provided. The primary winding 54. this iron core is in series with the primary winding i i of the current transformer, whose secondary winding i 9 with its armature 13, the secondary winding 55 on the special closed iron core 53 via the throttle 52 feeds. In this circuit Then the direct current measuring instrument is 5o. To destroy the alternating current component in the current converter with the iron core i2 there is still a short-circuited one Tertiary winding 56 is arranged on this iron core 12.

Claims (3)

PATENT CLAIMS: i. Device for measuring direct current with a Magnetic circuit, its magnetization both from the (primary) direct current to be measured as well as depends on the current in one secondary winding, and one in the magnetic circuit moving auxiliary winding, on which the secondary winding is switched as a function of this is that the flow of current caused by the auxiliary winding in the secondary winding causes a magnetization which is opposite to the magnetization by the primary current is directed and she is up on. cancels out the fraction needed to generate the secondary current is necessary according to patent 659 4.36, characterized in that in the secondary circuit Measuring instruments for dividing the harmonic direct current into effective values and arithmetic mean values are provided. 2. Apparatus according to claim i, characterized characterized in that the instrument showing the rms value is for the sole purpose of Display of the harmonic is applied to a tertiary winding and the arithmetic A choke coil is connected upstream of the instrument indicating the mean value. 3. Device according to claims 1 and 2, characterized in that for the one indicating the harmonic Instrument an alternating current translator and for that the arithmetic mean indicating instrument a direct current converter are provided whose primary winding and secondary winding are in series. 4 .. Device according to claim: 2 and 3, characterized characterized in that the DC converter has a short-circuited tertiary winding contributes to the destruction of the harmonics.