DE873591C - Multiple influenced pipe circuit or measuring circuit for direct and alternating current - Google Patents

Description

Multiple influenced tube circuit or measuring circuit for DC and alternating current In tube circuits, bridges are usually used as potential-separating bridges Capacitors used. These have the disadvantage that they are a complete lock for direct currents and for the direct current components in alternating currents. But there are circuits in which a potential separation is necessary while the transmission of a direct current component or a direct current are retained target. Another means of preventing a transmission of a potential is provided the transformer.

This also has the effect that it only separates the potential in connection with the suppression of a direct current or a direct current component results. A transformer is also used in tube circuits, e.g. B. in amplifier circuits, necessarily switched on to match the resistance of the tube circuit to obtain. It is then not possible to detect a direct current component present in the alternating current to participate in the amplification, rather only the alternating current component reinforced.

The invention relates to a new circuit for DC and Alternating current, which is preferred for tube circuits or measuring circuits with multiple influences can be used. The new thing is that a magnetron as a potential separator The current bridge for direct or alternating current is switched on. By this measure is not only achieved that you can measure several amounts over leads with each other ver different potential levels in a jointly influenced device or. can bring a measuring circuit to effect without any direct current component is suppressed, but it can also be done by the interposed magnetron the adaptation to the tube resistance, for example an amplifier circuit with the omission of a transformer.

A special area of application for the electrically isolated current bridge According to the invention, the multiple oscillography with electron beam oscillographs The control circuits of such an oscilloscope have one thing in common for all Point, namely the cathode or the anode. Therefore, all control circuits must focus on the same potential, but what z. B. is usually not the case if the readings to be oscillographed from different points of the same measuring circuit can be removed.

The interposition of the magnetron in the influencing circles of the oscilloscope then establishes the necessary potential separation, namely in such a form that there is a possible direct current component in the measured values is not suppressed. The oscillographic recording then also corresponds to the Measured values and the measured value fluctuations in their real course and their real ones Phasing, because the omission of a transformer means that the differential quotient is not of the measured value is oscillographed according to the time.

The invention is illustrated by two figures.

These figures are kept schematic and are only given as examples, so that the invention is in no way limited by them.

Fig. I shows the application of the invention in connection with a Amplifier circuit. It is, for example, from a circuit I via a resistor 2 a Str {> m, alDlgenomen, which is proportional to a voltage and which is in its should be strengthened unchanged over time.

The current flowing through the resistor 2 is controlled by a control coil 3 a magnetron 4.

This magnetron equipped with a heating circuit 5 delivers an output current through a resistor 6. The voltage at this resistor 6 affects the grid voltage of the input tube 7 of an amplifier I6. In this Circuit example, the magnetron fulfills two tasks, namely it separates the measuring circuit I, 2, 3 with regard to its potential from the amplifier circuit. Further it adjusts the resistance of the measuring circuit I, 2, 3 of the amplifier circuit without that a transformer is necessary for this purpose, through its interposition any direct current component present in the measuring circuit would be suppressed.

Fig. 2 shows the circuit of the magnetron in greater detail. In this figure, g is the control coil to which the measuring voltage is applied. the Magnetron has two cap-like anodes IO and 11 and two auxiliary anodes 12. The cathode I3 is in the middle of the arrangement. There are also auxiliary grids I4 provided. A central anode and auxiliary anode are included! Ohmic resistance 15. When no current flows through this resistor 15, the anodes and I are the auxiliary anodes on the same potential.

The voltage difference occurring at resistor 15 when current flows through it is fed to the control grid of the first amplifier tube of amplifier I7.

The output circuit of a magnetron tube is in terms of its potential completely separated from the control circuit or influencing circuit, so that it is not possible is to give this output circuit any potential in multiple oscillography by means of a multi-beam tube, use can be made of it to display a plurality of Measured variables that are taken from a system at any potential level through to record a common multi-beam oscilloscope.

Claims (3)

PATENT CLAIMS: I. Tube circuit or measuring circuit with multiple influences for direct and alternating current, characterized in that the various circles of influence separated from each other in terms of potential by using one or more magnetrons are. 2. Arrangement according to claim I for amplifying or transmitting a Direct or alternating current quantity, characterized in that the measured value is sent to the amplifier is fed directly via a magnetic field tube. 3. Arrangement according to claim I or 2 for a single or multiple Electron beam oscilloscope, characterized in that at least one A magnetron is built into the oscilloscope branches. Printed publications: Philips Technische Rundschau, 1946, issue 12, pp. 36I to 368.