DE655376C - Device for generating current pulses in the same direction and adjustable low frequency from alternating current by means of a grid-controlled electrical discharge path - Google Patents

Description

The invention relates to a device for generating intermittent Currents or current pulses from alternating current with the help of a grid-controlled discharge path and in particular to such a device in which the frequency (frequency) of the current pulses is wide • The limits are adjustable.

According to the invention, a discharge gap is essentially arc-like Discharge used, in the grid circle of which a capacitor is placed; this capacitor is generated by the voltage, the one with the discharge path, the consumer and the AC supply voltage source in series resistance occurs when the consumer current flows, charged and discharged through a variable resistor, the voltage of the capacitor the discharge path blocks the passage of current.

The frequency of the current pulses to be generated is dependent on the capacity of the charged by the current flowing through the discharge path and determines the value of an adjustable resistor located in its charging and discharging circuit. The grid of the discharge path is controlled in such a way that it receives a negative potential as long as the capacitor is charged.

The essence of the invention is closer to hand of the embodiment shown in the figure explained.

In the figure, 10 is a consumer that is switched off with intermittent current pulses the Vistula power source 11 is to be fed. With the consumer 10 and the alternating current source 11 a discharge path 12 and a resistor 13 are connected in series, which in some cases can represent the burden itself. The discharge path 12 has an anode, a cathode and a control grid and is arc or arc-like Discharge on. A capacitor 14 is during the current conduction time Discharge path charged from resistor 13 via adjustable resistor 15. One connection of the capacitor 14 is connected to the cathode (hot cathode) the discharge path 12, the other connection via a current limiting resistor 16 connected to the grid of the discharge path.

To explain the mode of operation of the device shown, it is assumed

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conditions that the AC power source 11 is just turned on and the capacitor 14 is completely discharged. It is further assumed that the discharge gap 12 has such a characteristic that. she * electricity * ¹ 'becomes leading when her grid is cathoic. potential receives. Instead of a fine discharge path with such a characteristic, a discharge path with a different characteristic can be used by modifying the circuit in such a way that a bias voltage corresponding to the characteristic is applied to the grid. In the meantime, a discharge gap of the type specified first should preferably be used. The mode of operation of this arrangement is as follows: The first half-wave of the alternating current flows through the discharge path 12, the resistor 13 and the consumer 10. The discharge current causes a voltage drop in the resistor 13, which also causes the capacitor 14 to be charged via the resistor 15 the polarity shown. The grid of the discharge path 12 is negatively charged and therefore prevents the onset of the discharge in the discharge path 12 during the following positive half-waves of the alternating voltage originating from the alternating current source 11. The charge of the capacitor 14 is gradually discharged through the discharge circuit (resistor ιs and resistor 13), and when the capacitor 14 is sufficiently discharged, the negative voltage on the grid of the discharge path falls below the critical value at which the tube again '. becomes live during a single half-wave.

"The dimensioning of the resistors and the capacitor can be chosen so that by the current during a single half cycle of the alternating voltage 11 of the capacitor 14 is charged to a multiple of the negative potential, which is necessary in itself is to block the discharge path 12. There will be several under these circumstances Half-waves last until the capacitor 14 is discharged to such an extent that the voltage on the grid 'receives a less negative amount than "'■ safe critical grid voltage (at which the discharge starts); by adjusting the resistor 15, both the amount of Energy in the half-waves in which the tube is live in the capacitor 14 is stored, as well as the speed the discharge of the capacitor, i.e. the time during which the tube after current permeability is blocked, and thus the frequency of the intermittent current, can be changed within wide limits. ■ 6p

. The device can be configured by dimensioning the capacitance of the capacitor and its charging and discharge circuit are formed so that the discharge path during a or several positive half-waves of the alternating voltage carries current and after one such impulse (consisting of one or more positive half-waves) the discharge is blocked during a desired number of half-waves.

Claims (1)

Claim: Device for generating current pulses in the same direction and adjustable low frequency from alternating current by means of a grid controlled electrical Discharge path, characterized in that the discharge path is in the grid circle with an arc-shaped discharge, a capacitor is connected to the discharge path and the consumer in series resistance when the consumer current flows occurring voltage charged and over a changeable -85 Resistance is discharged and its voltage determines the discharge path for the The continuity of electricity is blocked. For this purpose ι sheet of drawings