DE910927C - Converter system for high voltages - Google Patents

Description

Converter system for high voltages For devices for rectification or control of high voltage alternating currents with hot cathode tubes or others Converters for high voltages can usually be placed between a high voltage part and a low-voltage part of the system. The high voltage part is decisive for the energy consumption and characterizes the purpose of the device. The low voltage part essentially comprises the auxiliaries heating, control and reporting and is separated from your high-voltage part by isolating converters. For devices with hot cathode tubes are z. B. always provided heating converter.

For the transmission of messages of any kind, for example in the event of malfunctions from the high-voltage side to the low-voltage side, you can use additional isolating transformers. These additional converters result in many cases, especially in the case of high-level tests, an undesirable expense and therefore an increase in the cost of the entire system.

According to the invention, this disadvantage is avoided in that in control, display or regulating devices located in one part of the system are thereby actuated that by intervening in the circuit of the other part of the system the load an isolation transformer is changed. The invention is thus used for the transmission of commands those between the low-voltage part and the high-voltage part of the system Isolating transformer, which are already required in the system for other operational reasons, such as the heating converters of hot cathode tubes. A message will appear transmitted from one side of the transducer to the other by engaging into the circuit on the one hand briefly the load on the converter in such a way is changed so that one is on the other side of the converter in the circuit Device can be made to respond.

There are various options for carrying out the idea of the invention: examples of which are shown in the drawing. The drawing shows the circuit the heating circuit of a hot cathode tube, in which between the hot cathode and an isolating converter 3 is connected to the supplying alternating current source. To the from the part of the heating circuit facing away from the power source, i.e. the high voltage part, an auxiliary circuit is connected in which a resistor 4 and the contacts 2 of a relay i. are connected in series. The relay i, which of any Operating states or changes in state can be dependent, includes for the purpose the transmission of a message to the low-voltage side, auxiliary circuit 2, 4 and thereby changes the high-voltage side load on the converter 3. This change in load is indicated by a current relay 5, which is on the low voltage side upstream of the converter. The contacts 6 of this relay close an auxiliary circuit, in which a signal lamp or any other display or control device can be located. If the relay i on the high-voltage side of the isolation transformer 3, the auxiliary circuit closes, the relay 5 on the low-voltage side and actuates the Signal lamp '7.

There is still a contact in the auxiliary circuit on the low-voltage side 8 switched, which occurs during the heating of the hot cathode, d. H. at a time during. which the converter 3 takes a larger current for other reasons, the auxiliary circuit switches off and during this time prevents the reporting device 7 from responding. Contact S is only closed when it is mostly monitored by a timing relay Stimulation process of the hot cathode is finished.

In the same circuit of the hot cathode tube, another way is indicated, on which a message from the low-voltage side to the high-voltage side of the Converter can be transmitted. For this purpose, the converter is on the low voltage side a push button switch 15 is connected upstream, with which the energy supply to the converter for a short time can be interrupted. On the high voltage line is an auxiliary circuit 13, 41, which leads to any control or regulating device, via a voltage converter 9 connected to the heating circuit. The voltage of the converter 9 is through a Rectifier 1o rectified and charges a capacitor i i. Between this Capacitor and the auxiliary circuit 13, 14 are still. the working contacts of a Voltage relay 12. This second circuit works as follows: while on the high-voltage side of the heating converter 3 voltage is present, that holds; relay 12 his working contacts open, so interrupts. the "connection between the Capacitor 11 and the auxiliary circuit 13, 14. When a message is transmitted is to, the power supply is briefly interrupted by means of the push button switch 15 the heating converter 3. The resulting drop in voltage on the high-voltage side has the consequence that the voltage relay 12 drops out, closes its working contacts and thereby a connection between the previously charged capacitor i and i the auxiliary circuit 13, 14 produces. A device connected to this circuit receives one Control pulse from the capacitor i i and is thereby made to respond. the interruption of the heating circuit required for this type of message transmission must be so brief that the hot cathode of the associated discharge vessel does not cools down impermissibly. On the other hand, the interruption must last so long until the voltage relay 12 has dropped out and has its working contacts.

The circuits shown in the drawing are only exemplary view of the invention. It is essential in any case that an intervention on the one side of an isolation converter, a change in load on this converter in the Way causes a relay provided on the other side of the converter or the like. Can be made to respond.

Claims (3)

PATENT CLAIMS: i. Converter system for high voltages with isolating converters between high-voltage and low-voltage part, characterized in that in the part of the system is operated by control, display or regulation devices that by intervening in the circuit of the other part of the system the load of the isolation transformer is changed. 2. Plant according to claim i, characterized in that that on the one side facing away from the supplying current source (overvoltage side) of the converter an auxiliary load circuit is provided, which is controlled by a relay, for example overcurrent relays, can be switched on while on the feeding Current source facing side (low voltage side) of the converter is a current relay is connected to the converter circuit, which operates an auxiliary circuit., as soon as the converter current exceeds a predetermined limit. 3. Plant according to claim i, characterized in that on the side facing the feeding current source (Low-voltage side) of the converter on interrupt the converter circuit is provided while facing away from the feeding power source page (Whether on the voltage side) there is a current-dependent or voltage-dependent relay, which in the event of an interruption the energy supply to the converter actuates an auxiliary circuit .. q .. system according to claim 3, characterized in that the auxiliary circuit from a voltage converter with the interposition of a rectifier, a charged capacitor is fed, whereby between the capacitor and the auxiliary circuit the contacts of a voltage drop closing relays are switched.