DE572945C - Device for measuring current or voltage components of specific frequencies - Google Patents

Description

Device for measuring current or voltage components of certain Frequencies For high frequency technology it is often necessary for a non-sinusoidal Current or a non-sinusoidal voltage the proportion of components that make up a or correspond to several specific frequencies. Usually used one for this task a wave meter, whose oscillation circle for different the frequencies in question have been set to resonance; the readings of his Measuring instrument (which was calibrated for the currents flowing in itself) the ratio of various components of the circle to be measured. Then calculated one approximates the ratio of these components to the effective value of the composite Current. The absolute amount of the effective current was measured on an apparatus in the to be measured and this reading with the for the relevant Frequency calculated ratio multiplied. When using this rivet it is necessary to read all the different frequencies on the measuring instrument of the wavemeter corresponding components can be read off, which are not to be neglected Have amount; otherwise it would be impossible to find the ratios with respect to the to determine the effective current. This procedure becomes even more cumbersome when different Components differ too much from one another, so that their relationship is unchangeable Position of the coupling coil cannot be precisely determined. You then have to use the coupling coil to determine each ratio one or more times with a corresponding disgruntlement of the oscillation circle. All of these manipulations and calculations are quite time consuming and lead to inaccurate results.

The device according to the invention now allows the in question coming components can be read directly on the hot instrument. According to the invention for Measurement of current or voltage components of a certain frequency a device uses, in which the coupling elements between the primary circuit, which is to be examined Currents leads, and the actual secondary resonance measuring circuit in immovable Coupling to a whole are structurally combined and connected to the measuring circuit The measuring device is calibrated in such a way that it reads the values of the currents and voltage components of the primary circuit directly.

It is advisable to calibrate the measuring device for several frequencies. Particularly It is advantageous to have the coupling between the primary circuit and the secondary measuring circuit by replacing the coupling members or setting them to a predetermined one To bring the degree of coupling to such values that the same measuring scale for different Frequencies is usable.

An embodiment of the device according to the invention is in the drawing shown schematically.

Here 7a, n is a circuit which is from an effective current I flowed through, at which the component of a certain frequency is to be measured. An apparatus with an oscillation circuit built in the manner of an ordinary wave meter L, C is somehow coupled to a measuring instrument A in a known manner. The capacity C is adjustable and has a reading device for setting different Provided frequencies. The self-induction L of the oscillation circuit serves at the same time (in whole or with a part) for coupling with the circle to be measured. The latter may also have a corresponding coupling point K for this purpose. It is advantageous to assemble the two coupling parts K and L to form a fixed coupling member.

A sinusoidal circuit is now used to calibrate the device in a primary circuit Current of the relevant frequency is generated, regulated and measured at ammeter A1, so you can then adjust the scale at measuring instrument A of the tuned to this frequency Set up the oscillation circuit L, C. You can then also use the Current J in the circuit to be measured at the ammeter A is the relevant current component read directly as soon as the oscillation circuit L, C is set to this frequency again is. The device can be calibrated for other frequencies in a similar way.

If one wants to get by with one scale for different frequencies, then this it is recommended that the existing from parts L and K, expediently to one Whole assembled coupling element interchangeable or adjustable for each frequency close; in the latter case the measuring instrument A can operate at different frequencies be connected to different taps of the inductance L, so that in the Calibration one and the same scale can be set up for different frequencies can.

Claims (3)

PATENT CLAIMS: r. Device for measuring current or voltage components certain frequency, characterized in that the coupling members between the Primary circuit, which carries the currents to be examined, and the actual secondary The resonance measuring circuit is structurally united in an immovable coupling to form a whole, and that the measuring device connected to the measuring circuit is calibrated in such a way that it Indicates values of the current or voltage components of the primary circuit directly. 2. Apparatus according to claim a, characterized in that the measuring device for several frequencies is calibrated. 3. Apparatus according to claim z or 2, characterized in that the coupling between the primary circuit and the secondary measuring circuit. by changing the coupling links or their adjustment to a predetermined degree of coupling brought to such values that the same measuring scale can be used for different frequencies.