DET0009888MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: August 24, 1954. Announced on June 26, 1956

GERMAN PATENT OFFICE

It is known to use power circuits for universal current operation in high-frequency devices which the alternating voltages are rectified by rectifiers and by subsequent filter circuits be smoothed. The rectifiers used have a forward resistance, which is particularly noticeable in the case of direct current operation of television receivers makes, since it results in a reduction in the output DC voltage in the case of DC operation ■ has. It is known that in this case the rectifier is bridged by a switch which - by means of a connected in series with a resistor in parallel with the mains connection terminals Relay is closed in DC operation. The connected filter circuit now contains usually electrolytic capacitors, both of alternating voltage and of incorrectly polarized DC voltage can be destroyed, so that incorrect operation of the switch is dangerous. It is known to prevent the connection of DC devices with incorrect polarity In a DC device for each type of polarity a polarized relay with a dry rectifier to be arranged in series so that only the relay with the correctly polarized dry rectifier responds and switches off the corresponding contacts, but such an

«09576/357

T 9888 VIII a / 21a *

Order is relatively expensive and also unusable for devices that are designed for operation on direct current and are intended for the AC network.

The invention is based on the object 5. Avoid disadvantages of the known network circuits. According to the invention, this is done by that parallel to the winding of the mentioned, in series with a resistor parallel to the mains terminals switched relay a capacitor and

ίο a rectifier with such polarity are connected, that prevents the relay from responding in the event of incorrectly polarized DC voltage or AC voltage will.

In order to make the idea of the invention easier to understand, an exemplary embodiment is explained in more detail with reference to the drawing. The alternating voltage U _eif = 220V (£ / _sp = 38oV) applied to the input terminals ι of the mains circuit generates a pulsating direct current via the rectifier 2, which is smoothed by the charging capacitor 3 and the filter element 4, 5. An output DC voltage of approximately 230 V is then applied to the output terminals 6 and thus to the internal resistance 7 of the connected circuit.

Approximately the same voltage should also be applied to the internal resistance 7 when a direct voltage of 220 V is applied to the input terminals ι will, d. H. if the device is connected to a 220-volt direct current network should be operated. In the case of DC voltage operation, however, the internal resistance increases the rectifier 2 and the protective resistor 8 necessary for the rectifier to this extent noticeable as the equalizing voltage across the resistor 7 under certain circumstances only

can still be 180 V. The device connected to terminals 6 is dimensioned so that one Voltage fluctuation of 10 per cent in one Normal value of 230 V at the output of the mains circuit cannot cause any interference. the However, a value of 180 V is far below this limit and is therefore unacceptable.

In order to be able to operate the device rated for alternating current operation with direct current, the rectifier path is therefore bridged by a switch 9 in DC operation. In the invention, this bridging of the rectifier is done automatically by the aforementioned Relay switching in such a way that incorrect switching is prevented by the damage within of the device. The switch 9 is designed as a contact of a relay whose Winding 10 in series with a resistor 11 parallel to the input terminals 1 of the mains circuit. To operate the switch 9 at DC operation requires the predetermined relay winding 10 a certain DC voltage. This voltage is applied to the relay winding 10 via the resistor 11. The resistance is choose as large as possible in order to meet the power requirements of the additional circuit arrangement to keep it small. In parallel with the relay winding 10 is a rectifier 12, which does the job has to bridge the relay winding 10; if an incorrectly polarized DC voltage is applied to the Mains terminals 1 is so that the switch 9 then remains open. It is also parallel to the relay winding 10 a capacitor 13 that does the job has to bridge the rectifier 12 and the relay winding 10 for AC voltages to also then to keep the switch 9 open as the rectifier. 12 the applied alternating voltage rectify and thus actuate the relay. The impedance of the capacitor 13 must therefore be smaller than the impedance of the relay winding 10, so that the voltage on Rectifier 12 collapses. For economic reasons, the capacitor 13 is only used Choose a size that prevents the relay from snarling or fluttering. will. The capacitor 13 thus serves "at the same time to smooth the rectified alternating current.

For example, the circuit can be dimensioned in such a way that with a winding resistance of the relay of 410 ohms, an electrolytic capacitor of 50 μΩ and a resistance of 8 kOhm are selected. However, the electrolytic capacitors are often the cause of errors. When choosing a block capacitor of 1 to 2 μ ¥ , the dimensioning for the relay winding would be 5 to 10 kOhm, for the series resistor 30 to 50 kOhm.

Since all-current devices are mostly only operated with alternating current, built-in devices are provided for the optional connection to direct or alternating current networks an inexpedient increase in price of the devices. Here, the arrangement according to the invention offers particular advantages because it can easily be combined in one unit and manufactured as an independent component 14, as is the case with an additional device for connecting direct current devices to a direct current source is known with correct polarity. The all-current devices can then be used for the most common Operating mode, namely alternating current operation, dimensioned and thus made cheaper will. If necessary, it is easy to retrofit the independent component according to the invention to be built into the device. The one indicated by a dashed line in the figure Component 14 has only the three connection ends 15, 16, 17 and therefore offers for the retrofitting no difficulties whatsoever.

Claims (2)

Patent claims: i. Mains switching of high-frequency devices, in particular television sets for universal current operation, in which there is a switch (9) parallel to the power rectifier, which is activated when the Direct current network by means of a series with a resistor (11) parallel to the mains terminals switched relay (10) is closed, characterized in that parallel to Relay winding (10) a capacitor (3) and one. Rectifiers (12) are connected in such a way that the relay responds: ■ 60'9 '576/357 T 9888 VIII al 21 a * with alternating voltage and with direct voltage wrong polarity is prevented. 2. Arrangement according to claim i, characterized in that that the switch (9), the relay winding (10), the resistor (11), the rectifier (12) and the capacitor (13) are combined into one unit, which is independent Component (14), if required, can be subsequently incorporated into a device rated for alternating current All-current circuit can be inserted. Considered publications:
German Patent Nos. 565 545, 866 955, 562, 889 908. For this purpose ι sheet of drawings