DE514662C - Method for measuring the electrical resistance of any frequency-dependent substances - Google Patents

Description

Method for measuring the electrical resistance of any Frequency-dependent substances The invention relates to a method and a device for measuring the electrical resistance of any structure made of any material, provided that alternating current can flow through them.

It is known to use a method for such purposes in which by adjusting a vibration generator with a suitable frequency to the limit state the vibration generation, the effective resistance is measured. Finding the The size of the negative resistance is determined by the inclination in terms of direct current the voltage curve determined. This determination procedure leaves only that Use of a tube generator in the well-known Dynatron circuit and can with other negative resistances, e.g. B. in normal feedback circuits, not run.

The invention now achieves that the apparatus for performing the Measurement method independent of the Dynatron circuit and any vibration generator circuit to be able to use. This is achieved according to the invention in that the measurement of the negative resistance of the vibrator at a different frequency of his frequency-independent working range is determined by AC current measurement. This has the advantage that any commercially available three-electrode can be used, whereas the Dynatron circuit can only be carried out with tubes that have been specially manufactured. You can also use for the comparison measurement Use calibrated standard resistors that are calibrated to specific frequencies.

Fig. I shows an example of a circuit diagram of an arrangement for carrying out the new method. It means i a three-electrode tube with grid 2, anode 3, cathode q. and base or socket 5. The tube is connected as follows: The anode circuit contains a breaker 12, a milliammeter 8 and part of the voltage divider g. A voltmeter OK is located parallel to this part of the voltage divider. The entire voltage divider mentioned above lies in the circle of the grid 2 and connects it to the cathode. The ends of the voltage divider are connected to the high voltage battery io 'in such a way that the grid receives a higher positive voltage with respect to the cathode than the anode. The heating current for the cathode is supplied by a battery ii, the current of which can be regulated by two series-connected coarse and fine resistors i2 ', i3. As is known, the arrangement described acts as a negative resistance at the terminals of the interrupter 1.2. A block capacitor 1q. ensures that the positive resistance contained additively in the negative resistance, which lies between the interrupter and the cathode and which at low frequencies in addition to the pure negative resistance between cathode q. and anode 3 must be negligible, even at high frequencies it cannot become larger. The coil 6 selected as an examination example, to which a variable capacitor 7 is connected in parallel, is connected to the terminals of the interrupter 12. The combination of the coil with the capacitance C takes place firstly in order to cancel the reactance f L present at the measuring frequency in addition to the effective resistance R to be measured, secondly in order to. to set the measuring frequency w, and thirdly, in order to more easily adapt the resistance R to be measured to the usually much larger negative resistance y; namely the latter is now at the terminals = 2 the effective resistance compared to the combination. The capacitance 7 and the coil 6 to be examined can be short-circuited by the short-circuiter 12.

The method for determining the effective resistance of the coil 6 goes in the following way: It is first by adjusting the resistors 12 ' and 13 and the adjustable tap on the voltage divider g to ensure that the Dynatron generates vibrations. If the coil has sufficient and suitable self-capacitance, so the capacitor is omitted, which serves to change the arrangement in the desired, mostly deviating from the natural oscillation of the coil to be examined frequency to swing. For the measurement it is not only necessary that the fundamental oscillation has the desired frequency but that also the harmonics to disappear to be brought.

Since the observation of the occurrence or disappearance of the harmonics by means of an oscilloscope is very laborious, the proof is preferably based on a different phenomenon. According to what has been said above, one can conclude that harmonics have disappeared if it is possible to bring the self-excited vibration to just before it breaks off. This could be determined with a wave knife or hot wire instrument or the like; However, it must be remembered that such instruments always consume part of the vibration energy and thereby the energy balance disturb, where y is the negative resistance of the tube used. Whether or not an oscillation is present is therefore better observed on the anode direct current, which as a rule changes when the oscillations start and stop. The engagement and disengagement can be recognized when operating the short circuiter 12 by observing the mini-ammeter, as long as one is working on a curved section of the characteristic curve. Then a phenomenon similar to the rectifier effect occurs, as is shown exaggerated in Fig. 2, in which loi shows the anode direct current without and yes, with oscillations. The phenomenon disappears, as one can easily see, at turning points and on straight sections of the characteristic curve; such are therefore to be avoided in this method by choosing a different anode bias on the voltage divider g.

To the state of the breakdown of the vibrations without changing the To bring about frequency, it is necessary to change the negative resistance. this happens in the embodiment by means of regulating the heating current of the tube of the resistances z2 ', z3.

Now that the negative resistance has been brought to the same size as the effective resistance of the combination to be measured, the size of the negative resistance must be measured. Since the present negative resistance is constant over a large frequency range, the measurement of the negative resistance at any other frequency in this range can be determined in a known manner in terms of alternating current. This is done in a very simple way, for. B. in that by means of the voltmeter zo and ammeter 8, the current change di belonging to a voltage change de measured in the anode circuit with a short-circuited switch 12 and from the relationship the magnitude of the resistance is calculated. The effective resistance of the coil that is being sought is now increased found, the values L and C being determined by a known method.

Claims (2)

PATENT CLAIMS: e.g. Method for measuring the electrical resistance any frequency-dependent substances or structures in connection with known alternating current resistances by adjusting a vibration generator with a suitable frequency to the limit state the vibration generation, characterized in that the size of the negative resistance of the vibration generator at a different frequency of its frequency-independent Working area is determined by AC current measurement. 2. Device for carrying out the method according to claim z, characterized in that that in one of the circles of the discharge vessel with the necessary regulating devices for the heating, anode and grid voltage, a device for determining the vibration state of the discharge vessel in the form of a short-circuiting the external anode circuit resistance Button is provided.