DE513423C - Device for testing the resilience of resistors - Google Patents

Description

Device for testing the resilience of resistors Mass production of resistors, especially high resistance resistors, which are im Operation in a high-frequency circuit are loaded, advantageous the resistors with a certain high frequency power to determine whether the resistors meet the requirements placed on them. To do this the guarantee to have any differences in the. Exam results only on the different behavior of the resistors, the z. B. from inaccurate manufacture originates, the testing facility must, if possible, be designed in this way be that when switching on the resistors to be loaded in the high-frequency Test currents flowing through the circuit, the vibration generation is not disturbed.

According to the invention, a high-frequency generator circuit is provided for this purpose provided, the vibrations directly to the grid of an amplifier tube in such a way be supplied that a retroactive effect of the resistors to be tested containing The anode circuit of the amplifier tube is practically avoided on the generator circuit. If you give this amplifier tube a little penetration, there is a reaction between the anode circle and the grid circle and thus also on the generator circle very low. In the device according to the invention is therefore basically the Testing made independent of the generation of vibrations. One would face the resistances switch directly into the generating circuit, then the vibration conditions would be disturbed in this circle, depending on the nature of the test Objects in various and uncontrollable ways. With the subject matter of the invention remain with regard to the described interposition of an amplifier tube the vibration conditions in the test circuit between the generating circuit and the test circuit unchanged. There is therefore a guarantee that any differences in the test results on the different nature z. B. attributed to the high resistance so that the unsuitable resistors can be weeded out. With consideration to the interposition of an amplifier tube between the generator circuit and the Test circuit can in the device according to the invention of the vibration generator, for. B. an electron tube, for significantly lower performance than the test performance be measured.

There are already known test arrangements for impact testing more solid Insulating materials are used; In these experimental arrangements however, an intermediate circuit transmitter is used; which is a frequency-dependent switching element represents: In contrast, the amplifier tube used in the subject matter of the invention is a completely frequency-independent switching element: In transmission circuits, it is known to have a three-electrode tube between the consumer circuit for reinforcement switch on, where: the grids of the amplifier tube and the tube for high frequency are galvanically coupled to one another. However, these circuits have the purpose a retroactive effect of the main sender on: to prevent the control sender while is intended by the subject matter of the invention; a test of the resilience of Resistances; especially high-ohmic resistors, with high-frequency currents too enable.

In the drawing is an embodiment of the device according to the Invention shown schematically.

A three-wire tube Ri is used to generate the high-frequency test currents, which is connected in a manner known per se at A and Al to the ends of an anode voltage source. A feedback circuit of a known type cooperates with the tube R, which is produced by the coils K; L and the capacitance C is formed. With the help of this feedback circuit, electrical oscillations are generated in the circuit L, C; the frequency of which is regulated by adjusting the capacitance C and the phase and amplitude of which is regulated by changing the feedback between the coils K and L. The tube R and the feedback circuit form the generator circuit for the high-frequency test currents.

In the embodiment of the device shown, a three-electrode tube R2, which works as an amplifier tube, is located in the test circuit. Since in the present case high powers and high voltages come into question, a large transmitter tube is expediently used as the amplifier tube. about 100 to zoo watts of vibration power used. The anode circuit of the tube R2 is divided. The anode of this tube is on the one hand a high-frequency choke D with Ä2, the anode voltage source, z. B. an AC transformer for 500 periods, on the other hand via a block capacitor B, the z. B: is tested with zo ooo volts breakdown voltage, and connected to the cathode of the tube R via the clamping device S for the high-resistance resistance rods W to be tested.

The cathodes of the tubes. R, and R2 are in the usual way with the Poles -f- H and -H of the heating battery connected.

per producer group and the test group are in the illustrated embodiment galvanically coupled by the high frequency occurring in the oscillation circuit L, C AC voltages are fed directly to the grid of the amplifier tube: R: For example, vibrations per second can be caused in the generating circuit 6öö ooö will.

The resistance bars W are clamped into the device S for testing and thereby switched into the test circuit. When operating, step between the anode and the cathode of the tube R2 increased AC voltages. Because of these tensions the path to the end A2 of the anode voltage source is blocked by the choke D; the high-frequency vibrations can only be balanced out via the resistance bars W. The rods are therefore in with a mixture of high frequency and medium frequency burdened the sense that the. High frequency amount from the setting of the SchwwngröhreRi and the center frequency amount depends on the anode voltage of the amplifier tube R2 is. The resistors W are expediently charged with a total amount of power; which is about g. times the power that it has with the strongest local reception have to endure in the vicinity of the local transmitter.

By switching the resistors W into the test circuit, the The vibration conditions in the generating circuit have not changed because the grid of the amplifier tube R2 is galvanically coupled to the generator circuit and is a three-electrode tube as an amplifier tube with a small penetration. So you have the guarantee that differences in the Test results only on differences in the resistances W and not are due to any changes in the vibration conditions. The transmission tubes can be dimensioned for a lower power than the test power corresponds, since the tube R, amplifies.

Claims (3)

PATENT CLAIMS x. Device for testing the resilience of resistors, in particular those with a high ohmic count with high frequency currents by a high frequency generator circuit; its vibrations directly to the grid an amplifier tube are fed in such a way that a retroactive effect of the to be tested Resistances containing the anode circuit of the amplifier tube to -the generator circuit practically avoided. is: 2. Device according to claim i, characterized in that the vibrations caused in the generator circuit by a feedback circuit (K, L, C) known per se act on the grid of the amplifier tube (R2). 3. Device according to claim z and a, characterized in that the anode circuit the amplifier tube (R2) and in one branch of the anode circuit a high-frequency choke (D) is switched on, while in the other branch a blocking capacitor (B) and the clamping device (S) for the objects to be tested (W) is switched on.