DE296106C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

-M 296106 CLASS 21 a. GROUP

Dr. ERICH F. HUTH G: m. B. H. in BERLIN.

Testing device. Patented in the German Empire on January 20, 1916.

For the purposes of wireless telegraphy, test devices are in use in which an oscillating circuit is set into electrical oscillations by an interrupter device will.

Fig. Ι shows the device schematically.
An antenna ι should be checked for its natural oscillation. This happens, for example, in that a test device consisting of the oscillation circuit 2 with parallel-connected self-interrupter 3 induces the antenna and sets it to vibrate, the test circuit being variable and calibrated in wavelengths, if necessary, and the natural oscillation in a known manner by means of a loose connection with the Antenna-coupled detector 4 is tapped with telephone 5. For many purposes, especially in portable stations, the test device is structurally combined with other parts necessary for the apparatus, in such a way that you only have to press a button 6, whereby the test device can be operated and the control can be made whether the Receiving equipment is in order. It has been overlooked here that if received vibrations now arrive, they are transferred to circuit 2 and losses arise as a result. To avoid these losses, it is necessary to break circuit 2 '. According to the present invention, this can be done without the need for a special switch. It is only necessary, as FIG. 2 shows, to arrange the test contact at a special point in the oscillation circuit, namely in the lead to the test coil. You can then leave the self-interrupter with its element permanently connected to the capacitor. The capacitor then always has a certain charge, but the conduction losses of the capacitor are so small that practically no disadvantages arise as a result. No current then flows in the circuit: element, self-interrupter, capacitor, because the capacitor blocks one, and in the circuit: element, self-interrupter, coil, no current, because the test contact interrupts the current. If the oscillation circuit is closed by pressing this contact, the circuit for the buzzer is closed at the same time. If poor capacitors are used, ie those with a relatively high conductivity, a special switch can optionally be provided at the location of switch 6 (FIG. 1), which can be actuated at the same time through positive coupling. The contact of the self-interrupter can also be used for this purpose if the arrangement is made so that the self-interrupter interrupts its circuit in the rest position. In this case, the first trigger of the buzzer can be done either mechanically or by an auxiliary winding similar to the known pendulum breakers. Fig. 3 shows an arrangement in which the test coil has several stages, wherein

Claims (3)

a number of test contacts corresponding to the level is provided, which are connected in parallel on one side. Pat en τ-An Proverbs: 1. test device for electrical oscillation circuits, characterized in that in order to avoid energy losses, both the test circuit and the Test oscillation circuit is interrupted in the idle state. 2. Test device, characterized in that both interruptions at the same time by one or, in the case of step coils, several in the test oscillation circuit, specifically in the supply line to the test coil Test contacts take place. 3. Test device, characterized in that in order to avoid loss · either still flow in due to the conductivity of the capacitor dielectric special switch is used in the supply line from the element to the capacitor or the self-interrupter is designed in this way is that he stands on interruption in the idle state. 1 sheet of drawings.