DE474813C - Electrical relay arrangement for the detection of weak alternating currents - Google Patents

Description

Electrical relay arrangement for the detection of weak alternating currents Detection of weak alternating currents, highly sensitive instruments have been used up to now, or one was forced to amplify the alternating current energy by means of electron tubes or the like to undertake.

It has already been proposed to detect weak alternating currents to charge a capacitor via a detector and then rhythmically through it mechanical contactor to discharge. The invention avoids such mechanical ones Contact devices. According to the invention, a gas discharge path, a detector, acts and a capacitor together in such a way that the alternating current energy is effectively stored then, when a certain energy level is exceeded, a brief momentary output to evoke. This effect is achieved with the help of a circuit in which the Alternating currents are transmitted on a circuit in which a detector is in series with a capacitor and a gas discharge path parallel to the capacitor is connected, which cooperate in such a way that this is under the action of alternating currents on the arrangement and when the ignition voltage is reached the Gasentladungsstre @ ke discharges through the latter with an amperage that is several times higher the charging current is. The occurrence of the gas line in this process The discharge flowing through can be seen as a clearly recognizable luminous phenomenon or indirectly, e.g. B. with the interposition of a relay, by any Signal or trigger device become effective.

Any device can be used as a detector in the circuits according to the invention come to use, which either has a rectifying effect, or which changes its resistance under the influence of alternating currents. As gas discharge paths glow gaps have proven their worth because they, especially when filled with inert gas, the discharge at a relatively low-lying, sharply defined voltage begins.

.According to R i g h i one can determine the voltage sensitivity of a glow tube increase significantly by placing a bias on them. According to the invention is in the new arrangement to increase their sensitivity and their Response speed in an analogous manner to the electrode of the gas discharge path an auxiliary voltage is applied so that only small additional amplitudes are required, to raise the voltage above the ignition voltage threshold. By the invention Using the detector in conjunction with a capacitor makes it possible to get by with much lower additional voltages than if the one to be verified Alternating currents superimposed directly on the auxiliary voltage would. One second measure, which has already been specified by Wein -t ra u b for arc relays is also allowed to increase the speed of response since it is in connection allowed with the new circuit, with very low discharge energies on the part of the said capacitor. The Weintraubsche measure consists in that the power of the discharge is only used to ignite a second discharge, which takes its energy from an auxiliary voltage source.

The mode of operation of the invention is fundamentally based on the figures explained. In Fig. I i is a gas discharge path which is parallel to the capacitor 2 lies. 3 is a rectifier (detector), ¢ a coupling device, 5 a Telephone and 6 a throttle. Is by the coupling device q., Which so serves as an alternating current source, transmit an alternating voltage to the detector circuit 2, 3, as a result of the action of the rectifier 3, the statistical charge on the capacitance increases -9 slowly on. Does the charge have what it takes to ignite the gas train i When the voltage threshold is reached, the glow discharge begins in this, and the The energy stored in the capacitor is discharged with a current that . is a multiple of that of the applied alternating current ,. which led to the charging of the capacitor. The surge discharge current can occur in the telephone 5 can be perceived. The choke 6 protects the discharge path i from alternating currents and thereby prevents premature ignition.

Since weak alternating current energies are practically seldom required to operate have voltage amplitudes necessary for a gas discharge is shown in the circuit example according to Fig. 2 over the potentiometer 7 to the gas discharge path i an auxiliary voltage placed, which is rated slightly lower than their ignition voltage. In this case Very small alternating current energies are sufficient to ignite the discharge path necessary additional charge in the capacitor 2 to deliver.

It has been shown to be particularly useful: As a detector To use a hot cathode tube, as this is a perfect one even at high voltages Has a rectifying effect. If the tube is equipped with a control electrode, then these exposed to the action of alternating current. With a suitably selected grid pretension In this way, the process described can be intensified to a great extent. the The tube then represents a detector, the detector effect of which is a change in the Conductivity exists. In the case of such detectors, the must already be in the idle state existing conductivity can be compensated, for example by an ohmic Resistance parallel to the discharge path: can take place. In this case you have to If necessary, select the auxiliary voltage at the potentiometer 7 to be higher than the ignition potential the discharge path, as the full voltage drop is no longer present at this point.

A circuit example of this type is shown in Fig.3. It's 3 the hot cathode tube, whose lattice is influenced by the coupling ¢. 9 is the compensation resistor.

The fig. 2 and 3 differ by the two fundamental ones Show possibilities through the location of the voltage source 7 or B. During In the circuit according to Fig. 2, the capacitor 2 is charged via the detector 3 and through the parallel gas discharge path is discharged, the detector tube is in Fig. 3 3 in parallel with capacitor 2 and consequently acts in such a way that it reduces the voltage decreased at capacitor 2 during operation. This lowering of voltage goes on for so long in front of you until the counter potential that the capacitor 2 opposes the battery 8, drops so far that the potential on the discharge path i to ignite it and thus leads to the alternating current display according to the invention. The capacitor charges in the process via the gas line i again to turn on the Detector tube 3 to lose its counter voltage via this. So the process is in the circuit according to Fig. 3 in a certain respect opposite to that of Fig. 2.

The performance of the device described, in particular the speed of actuation (telegraph speed) decreases the invention by increasing the discharge from an auxiliary circuit Supplies energy. As already stated, this can be, for. B. take place in the manner that a second gas discharge: initiated by the discharge triggered according to the invention which is fed by a separate power source. One uses for this in a discharge vessel with an auxiliary electrode in a manner known per se. Here needs one can only influence the potential of the auxiliary electrode in the manner according to the invention, which then triggers the discharge between the main electrodes. According to the invention intended capacitance, which in this case is connected to the auxiliary electrode, can be relatively small, as it only has to be sufficient for a safe initiation to ensure the main discharge. The experiment shows that suitable for this Arrangement so low capacities enough that charging at times takes place, which are practically negligible.

An example circuit showing a receiving system arranged in this way for electric waves, Fig. q gives. again. The antenna i o transmits their amplified or unamplified received energy on the detector circuit 2, 3. The Voltage at the capacitance 2 and thus at the auxiliary electrode i i of the discharge tube i rises up to the additional value, which is that at the auxiliary electrode path 11-13 Potential raises above the ignition value. The occurring auxiliary discharge is the Main discharge between the electrodes i a and 13 triggered, which their current the auxiliary voltage source 7 takes. The strength of the triggered between i a and 13 Discharge current is a multiple of the received current strength. To that once To extinguish the initiated main discharge is no longer Hittorfsche's task Self-breaker circuit, provided, which consists of the ballast resistor 14 and the parallel capacitor 15 consists. An excitation of the antenna io calls upon this Show a periodic triggering of the discharge in tube i. In this form is the device for receiving radio signals, wireless calls and alarms o. d @ gl. suitable.

The main advantage of the arrangements according to the invention is that With their help, d @ ate detected extremely low alternating current energies in a simple manner or even too coarse releases can be used.

Claims (3)

PATENT CLAIMS: i. Electrical relay arrangement for the detection of weak Alternating currents, characterized in that the alternating currents are applied to a circuit in which a detector (e.g. a hot cathode tube) is in series with a capacitor and a gas discharge path parallel to the capacitor is connected, which cooperate in such a way that this is under the action of Alternating currents are charged to the arrangement and when the ignition voltage is reached the gas discharge path discharges over the latter with an amperage that is several times higher the charging current is. z. 'Electrical relay arrangement according to claim i, characterized in that such a bias is applied to the gas discharge path is placed that the capacitor voltage to achieve the ignition voltage of the gas train just to increase a little additional tension. 3. Modification of the relay arrangement according to claims i and z, characterized in that the alternating currents are applied to a circuit be transmitted, in which a detector is parallel to a capacitor and this Capacitor together with a gas discharge path connected in series to a Bias is placed so that by the action of alternating current energy on the detector lowers the voltage across the capacitor and consequently that across the Partial voltage lying in the gas discharge path is increased until after reaching -.- d: er The ignition voltage recharges the capacitor via the gas line with a current surge, the strength of which is a multiple of the previously effective discharge current strength. q .. Electrical relay arrangement according to claim. i or the following, characterized that the gas discharge tube with an additional electrode connected to an auxiliary voltage source is provided, the discharge of which is ignited by the first discharge.