DE892638C - Test lead for short electric waves - Google Patents

Description

Measuring line for short electrical waves Addition to patent 861 280 That Patent S6I 2SO relates to a measuring line for short electrical waves, b.i which a device for removing the voltage prevailing on the line with a Motor is connected to the voltage tapping device periodically along the line shifts, and in the case of a display device to which the removed voltage is connected, is designed such that the amplitude curve of the removed Voltage or directly the wave ratio of this voltage is displayed.

The display can be caused by the fact that the curve image of the pulsating DC voltage by means of an oscilloscope, preferably a cathode ray oscilloscope, is made visible, the time deflection being synchronized with the periodic sampling process is controlled.

The synchronous control of the oscilloscope can be done by synchronized Pulses are caused which have a very specific fixed phase position opposite have the phase position of the periodically shifted removal device.

The invention relates to an improvement in the arrangement of said patent and is characterized in that in addition to the device for synchronizing the Oscillographs an additional Device for generating synchronized Pulses are provided whose phase position relative to the phase position of the periodic shifted voltage pick-up device is adjustable on the line and the to identify the corresponding part of the graph of the amplitude curve to serve.

Claims (7)

An embodiment of the invention is shown in FIGS. I and 2 in two mutually perpendicular cutting planes. The measuring line is, as in the main patent proposed to be arranged on an arc of a circle. It consists of a circular Outer conductor A and the one arranged somewhat eccentrically to the outer conductor via support D. Inner conductor J, which forms a cut-open ring, the ends of which over the lines Ls and Lg once to the measuring transmitter, the other time to the resistance to be measured (Measurement object, d) are connected. The one stored in the drum T and with the tip of the inner conductor J 'scanning line J', A 'immersed in the measuring line is passed through with the drum a motor with the shaft W and the stator winding St rotated about the axis a-a. In the axis, the scanning line is led to the outside and goes there over capacitive Slip rings K into a fixed line L over. The tapped voltage is after rectification and amplification, the pair of deflection plates of the Braun tube (cathode ray oscillograph) fed. A rotated insulating washer S sits on the drive shaft W, an iron plate P is attached to its circumference. This is generated during circulation in the fixed magnet coil M1 to the rotational frequency synchronous pulses, which for Serve synchronization of a tilting oscillator for the line deflection tension. Farther is according to the invention by hand by means of the union nut U on the circumference arbitrarily adjustable magnet coil M2 is provided, which also has synchronous pulses generated, but their phase position with respect to the phase position of the scanning line is arbitrary is adjustable. These impulses become the Wehnelt cylinder after appropriate amplification fed to the Braun tube in such a way that while P is passed to M2 the radiation intensity is reduced practically to zero. The appropriate part the curve on the screen then becomes almost or completely invisible (so-called dark point) . To read the phase difference of the dark point one is the adjustment measuring device indicating M2 is expedient. So you can, for example, on the edge the union nut U provide a division with a fixed mark or l a vernier, for example, works together on the motor housing. Of course, the The division is fixed and the mark must be attached to the union nut. The invention enables z. B. according to Fig. 3 a and 3 b at a given Stress distribution, the dark point from one node to the next move. The angle of rotation required for this, which can be read off the graduation, is because the electrical length of the measuring line is known, a measure of the wavelength and can may be calibrated directly in wavelengths. Furthermore, knowledge allows the phase position of the nodes, which is much more accurate with the arrangement according to the invention What is to be determined is the exact determination by simply looking at the graph of the resistance to be measured according to amount and phase, especially with predominantly Reactances. Appropriately, the width of the deleted part of the curve, so the dark point, adjustable. This can be achieved in that the Pulse amplifier, as is known per se, only amplifies the pulse peaks and through Regulation of the negative bias a larger or smaller part of the peaks is made effective. PATENT CLAIMS: I. Measuring line for short electrical waves according to Patent 86i 280, in which the amplitude denverlays on the removed voltage by means of an oscilloscope synchronized with the sampling frequency is made visible, characterized in that in addition to the device for synchronizing the oscilloscope an additional device for generating synchronized pulses is provided, their phase position relative to the phase position of the periodically shifted voltage pick-up device is adjustable on the line and to Keuntlichmachung the corresponding Part of the graph of the amplitude curve serve. 2. Measuring line according to claim I, characterized in that Zdaß with the Voltage pick-up device coupled to an organ (e.g. ferromagnetic body P) is, that in a along a periodically extending path displaceable receiving device (e.g. magnetic coil M2) generates a pulse each time you walk past. 3. Measuring line according to claim I, characterized in that when used a Braun tube as an oscillograph, the synchronized pulses can be adjusted Phase position control the strength of the cathode ray, in particular reduce it, preferably by supplying negative voltage pulses to the Wehnelt cylinder. 4. Measuring line according to claim 2, characterized in that at one Circular arc-shaped measuring line on the axis of the voltage pick-up device which can be rotated around the center point eccentrically the pulse-generating element (P) is attached and the receiving device (Magnet coil M2) is adjustable along the circumference, in particular by fastening on a rotatable coaxial union nut (U). 5. Measuring line according to claim 2 or 4, characterized in that the stimulating organ at the same time in a further fixed standing Recording device (Mi) generates pulses for synchronizing the oscilloscope. 6. Measuring line according to claim 2 or 4, characterized by a measuring device for reading the position of the displaceable receiving device (M2), in particular the union nut (U) carrying the mounting device. 7. Measuring line according to claim I, characterized in that the effective Width of the synchronized impulses is adjustable.