DE808051C - Circuit arrangement for reducing the voltage in universal tube devices - Google Patents

Description

Circuit arrangement for voltage reduction in universal tube devices I) ic invention deals with the voltage reduction in universal tube devices, d. 1i. for devices that are designed for i io volts and with the help of Series resistors can be switched to different voltages and both from one AC and DC networks can be fed, as this is usually called Rundftlnl <receivers, especially those in miniature versions is the case.

1) a the possibility should exist not only alternating current, but To use direct current as well, a mains transformer cannot be used.

In the usual circuit according to FIG. 1 of the drawing, the filaments F of all tubes are connected in series and, if necessary, supplemented by a resistor R for the lowest possible mains voltage (iio V). The circuit for feeding the tubes through the rectified anode currents + B -B consists of the rectifier valve h (diode or dry rectifier) and the associated filter part and is parallel to the circuit of the filaments F. At higher voltages than iio V, the series resistor Z is used to reduce the voltage excess. It must be sufficiently dimensioned, since both the current II of the threads F and the current 12 of the anode circuit + B -B flows through it, so that, for. B. at 220 V in the resistor Z the same power is consumed as in the actual receiver at i io V. This means not only a larger operating expense for the customer, but also higher acquisition costs, since the resistor is expensive and so is the housing of the device and its internal arrangement must be chosen in such a way that the heating of the device does not exceed the safety limit. In addition, when the tubes F are switched on, the filaments of the tubes F are heavily overloaded, since their resistance is much lower when cold and the current 12- of the anode circuit + B -B is not yet flowing, so that it does not increase the voltage drop across the series resistor Z. As a result, the service life of the tubes suffers.

The invention eliminates these disadvantages in that at higher mains voltage the excess voltage is reduced by the resistance of the filaments. she is discussed below with reference to FIG.

The filaments F of the tubes and the anode source + B -B are connected in series, and since the current II of the filaments F is greater than the current 12 flowing through the circuit + B -B , the anode current source must be bridged by the impedance Z. through which the excess of the heating current II compared to the anode current 12 flows. If at the mains voltage E 22o V the impedance Z represents the ohmic resistance and the device is designed for a voltage of iio V, as is usually the case, then with the usual circuit according to FIG V (II + 12) Amp., While the circuit according to the invention according to FIG. 2 results in a loss of iio VX (h-12) Amp., Ie in the second case the power consumed by the device is io VX 2. 12 amps lower. In addition, the circuit according to FIG. 2 has the advantage that shortly after you switch on the device, since the anode current 12 does not start immediately when the cathodes are cold, a smaller current (11 -12) flows through the threads F of the tubes, causing the threads that have a lower resistance when cold than when they are warm, are protected from a current surge.

Should the device be used for both AC and DC voltage , only an ohmic resistor is usually used as the impedance Z. In the AC supply can be replaced by a capacitor in place of the ohmic resistance Set C, the reactance of which is Z = 1i (Fig. 3). Another advantage comes here which is derived from the geometric vector sum of the voltages F_, on the capacitor C and Ej on filaments F (Fig. 4). The voltage E, for the device is higher than when using the ohmic resistance, with practically no heat losses arise in the capacitor C.

If the impedance Z is an ohmic resistance, it is bridging by a smaller capacitor C '(Fig. 2) advantageous, which the chassis over connects the plug connection at high frequency to any pole of the network. So is it is possible to find the neutral by reversing the plug, in which case the hum of the device is the least.

One can of course use a combination of the ohmic resistance and use the capacitive and inductive reactance with a suitable switch and so choose the most suitable type of impedance for each type of current.

Claims (4)

PATENT CLAIMS: i. Circuit arrangement for voltage reduction in universal tube devices, which are designed for a minimum voltage of i io V and are to be operated with a higher voltage, characterized in that at higher mains voltage the filaments of the tubes (F) are in series with the anode power source (+ BB) , so that they mutually act as voltage reduction resistors, and that the circuit part with the smaller Stromverbrätfch (12) is supplemented by a parallel impedance (Z), through which the excess current of the circuit part with the greater power consumption (II) is dissipated. 2. Circuit arrangement according to claim i, characterized characterized in that the parallel impedance (Z) is a capacitor (C) or a choke coil is. 3. Circuit arrangement according to claims i and 2, characterized in that that the chassis of the device is advantageously parallel to the impedance (Z) Capacitor (C ') is connected to a power line at high frequencies. 4. Circuit arrangement according to one of claims i to 3, characterized in that the device with a Changeover switch is provided through which, depending on the type of current and the size of the mains voltage the most suitable impedance or combination of impedances (Z) can be chosen can.