DE1093464B - Circuit arrangement for keeping a rectified voltage constant - Google Patents

Description

Circuit arrangement for keeping a rectified voltage constant The invention relates to a circuit arrangement for keeping a rectified one constant AC voltage with a storage capacitor via a saturation reactor approximately rectangular hysteresis loop is charged and the storage capacitor via the choke and an electron tube controlled by part of the output voltage one that reduces the saturation of the choke and thus the inductance of the choke increasing so large current causes that the following charging current surge in the sense of a constant output voltage is weakened.

The invention provides for an improvement in the circuit arrangement of the main patent application. It causes the need for control voltage for the Electron tube is lower. According to the invention, the storage capacitor evoked current, which reduces the saturation of the choke, is made up of two parts, of which the one, non-controllable part has a parallel to the DC voltage ohmic resistance located in front of the choke flows, while the other one flows through the tube flowing controlled part the opposite of the arrangement according to the main patent application has the opposite direction because the tube from the storage capacitor does not via the throttle itself, but via a second located on the throttle, vice versa polarized winding is fed.

The drawing shows an embodiment of the invention. One of the AC voltage supplied to terminal 1 is fed via a transformer 2 to the ends of a Diagonal fed to a rectifier bridge containing four rectifiers 3. One end of the other diagonal is a winding 4 on the core of a Saturation choke connected to one of the two output terminals 8. The said Kern has an almost rectangular hysteresis loop. Located between terminals 8 a storage capacitor 5 and a potentiometer 73, whose slider 72 the Voltage to a DC amplifier 71 supplies, which said voltage before Apply to the control grid of a tube 61 reinforced. This tube is in series with a second winding 41 parallel to the output terminals B. An ohmic resistor 90 is connected in parallel to the output diagonal of the rectifier bridge. The letters A and E indicate the beginning and end of the windings 4 and 41 of the choke coil. It it can be seen from this that these windings counteract each other magnetically.

The ohmic resistor 90 draws one of the voltage on the storage capacitor 5 caused current, which one could describe as "pre-current", through the winding 4 the throttle. The rectifier current through the winding 4 towards the upper output terminal 8 is such that it saturates the core in one Direction, while the "forward current" in the opposite direction causes a longer lasting core saturation generated. The tube is generated by means of the coil 41 61 the necessary control of the nuclear magnetization. The one through the tube stream in the coil 41 caused magnetization counteracts that by the current is generated through the resistor 90 and the coil 4, the action the tube current, which is variable due to the changing grid potential, such magnetization is generated that the output voltage is maintained.

An effective difference between the circuit according to the invention and that in the main patent application is that the effect of the tube 61 is reversed with respect to the effect achieved with the tube used there will. In some cases, this can be beneficial because of the need for Control voltage is lower, so that when a preamplification is applied to the grid the voltage applied to the control tube is required, a single-stage amplifier for such a pre-amplification is sufficient, while in the 'ih Fig. 1 The case illustrated in the main patent application provided a two-tube amplifier would have to be.

Claims (1)

PATENT CLAIM: Circuit arrangement for keeping a rectified voltage constant, in which a storage capacitor is charged via a saturation choke with an approximately rectangular hysteresis loop and the storage capacitor via the choke and an electron tube controlled by part of the output voltage has a choke that reduces the saturation of the choke and thus increases the inductance causes such a large current that the following charging current surge is weakened in the sense of a constant output voltage, according to main patent application M 36782 VIIIbl21c, characterized in that the current caused by the storage capacitor and saturation of the choke is formed from two parts, one of which is not The controllable part flows through an ohmic resistor (90) lying parallel to the DC voltage in front of the choke, while the other controlled part flowing through the tube (61) is the opposite of the arrangement according to the main patent The signal has the opposite direction in that the tube is not fed from the storage capacitor via the choke itself, but via a second, reversely polarized winding (41) located on the choke.