DE1191917B - Electronic switching device for switching an X-ray diagnostic apparatus on and off - Google Patents

Description

Electronic switching device for switching a on and off X-ray diagnostic apparatus The invention relates to an electronic switching device for switching an X-ray diagnostic apparatus on and off with a main switching tube via a full-wave rectifier into the low-voltage circuit of a high-voltage generator is switched on, the main switching tube being the series circuit of a quenching capacitor and an auxiliary holding tube is connected in parallel and for charging the quenching capacitor to one of those on the main switch tube to be deleted in the opposite direction Voltage an optionally switchable power source is available.

The invention is based on a circuit arrangement that has already been proposed with a main switching tube via a full-wave rectifier into the low-voltage circuit of a high voltage generator is switched on. For a phase independent and The main switching tube is the virtually inertia-free interruption of the primary current the series connection of a quenching capacitor with an auxiliary switching tube in parallel switched. The quenching capacitor is on one of those on the to be quenched Main interrupter charged in opposite direction to the voltage caused by ignition the auxiliary switching tube in series with the quenching capacitor becomes effective and briefly removes the anode voltage of the main switch tube for the purpose of extinguishing.

With such a circuit arrangement there is now the risk that the device for charging the quenching capacitor before it goes out the auxiliary tube starts charging. This creates one of the main switching tube parallel-connected current path, which interrupts the primary circuit to the Purpose of the deactivation prevents what could possibly lead to the destruction of the X-ray tube leads to overload. So it must be with the help of a sequential switching device be achieved that the device for the Rufladen the quenching capacitor only is put into operation after the auxiliary switching tube has been completely extinguished.

Such subsequent circuits are known per se and so far in gas discharge tubes triggered by a switching element arranged in the anode circuit, which at the moment the blocking of the circuit by extinguishing a discharge tube a pulse controls in the grid circle that discharge tube, "which is then ignited shall be. The generation of a control pulse in the anode circuit offers in particular then difficulties when the load resistance within this circle is significant fluctuates and the current from a maximum value, caused for example by a capacitive load, asymptotically approaching zero. The switching element generating the pulse must have a very low response current value, but on the other hand so be designed that it by the in the first phase after the ignition of the discharge tube occurring peak current is not overloaded. This requirement is only with one to realize relatively high circuit complexity.

The invention is based on the knowledge that the previously for such Switching devices necessary circuit expenditure can thereby be significantly reduced can that the control electrode circuit of the auxiliary switching tube according to the invention Contains current-dependent controllable switching means, which the power source only then with the quenching capacitor connects when the flowing in the control electrode circuit Current falls below a minimum value.

On the basis of the embodiment shown in the figure, the Invention explained below.

The primary winding 1 of a three-phase high-voltage generator (not shown in detail), which is fed from a three-phase network RST, is connected on the star point side to a main switching tube 3 via a three-phase full-wave rectifier system 2. When the main switch tube is conductive, the primary circuit is closed, which corresponds to the switched-on state of the X-ray diagnostic apparatus, while when the main switch tube is non-conductive, the primary circuit is opened and the switched-off state of the X-ray diagnostic apparatus is thus achieved. The ignition of the main switching tube is achieved by canceling the negative bias voltage of the control electrode 4 generated by a power source 5 by means of a positive pulse which is fed to the control electrode circuit from a pulse generator 6 via a pulse transformer 7. The pulse generator can optionally be controlled by a time switch 8, an automatic exposure device 9 or a switching device 10 of a serial recording device.

The series circuit of a limiting resistor 11, an extinguishing capacitor 12 and an auxiliary switching tube 13 is connected in parallel to the main switching tube for the purpose of extinction. The quenching capacitor is normally charged by the current source 14 with the polarity shown. The erasing process is initiated by a pulse which cancels the negative bias voltage of the control electrode 16 of the auxiliary switching tube generated by a power source 15 and which is also supplied to the control electrode circuit via a pulse transformer 17 from the pulse generator 6. The ignition that is triggered by this makes the ventilation interrupter conductive, the quenching capacitor discharges and causes the anode voltage of the main interrupter to briefly drop below its operating voltage and thus its extinction, which results in the interruption of the primary circuit of the high-voltage generator.

Simultaneously with the ignition of the auxiliary switching tube, a current flows in its control electrode circuit, which leads to the excitation of the relay 18 and the opening of its contact 19 . This ensures that the current in the primary circuit of the high-voltage generator is actually interrupted after the main switching tube has gone out and is not formed via the parallel circuit created by the auxiliary switching tube 13, the voltage source 14 for charging the quenching capacitor, the closed contact 19 and the limiting resistor 11 is maintained.

When the auxiliary switching tube goes out, the current is also in hers Control electrode circuit interrupted, so that the relay drops out, closes its contact and thereby enables the quenching capacitor to be recharged.

Claims (3)

Claims: 1. Electronic switching device for on and off Switching off an X-ray diagnostic apparatus in which a main switching tube is over a full wave rectifier in the low voltage circuit of a high voltage generator is switched on, the main switching tube being the series circuit of a quenching capacitor and an auxiliary switching tube is connected in parallel and for charging the quenching capacitor to one of those on the main switch tube to be deleted in the opposite direction Voltage an optionally switchable power source is available, characterized in that that the control electrode circuit of the auxiliary switching tube is a current-dependent controllable Contains switching means that only then connects the power source to the quenching capacitor, when the current flowing in the control electrode circuit falls below a minimum value. 2. Switching device according to claim 1, characterized in that the switching means is a relay. 3. Switching device according to claim 1 or 2, characterized in that that the switching means assigned per se known means for the switch-off delay are. Documents considered: German Auslegeschrift No. 1072 736.