DE3005065A1 - X-RAY DIAGNOSTIC GENERATOR - Google Patents

Description

X-ray diagnostic generator

The invention relates to an X-ray diagnostic generator with a high-voltage transformer for feeding the X-ray tube and means for damping switch-on voltage peaks.

In a known thyristor-controlled X-ray diagnostic generator \ i / ird to dampen the switch-on voltage peaks a damping resistor connected in series with the high-voltage transformer is provided, which short-circuited when the desired kV value is reached. However, effective damping requires a high level Attenuation / resistance, what for the X-ray tube voltage means a flat rise and thus a long rise time. For x-rays with very different mA values require multiple resistors to be provided with different resistance values and to select the appropriate resistance in each case, to eliminate overvoltages when switching on the X-ray diagnostic generator. It is therefore a compromise between the overvoltage, the rise time of the X-ray tube voltage and the effort required for the circuit.

The invention is based on the object of an X-ray diagnostic generator to create of the type mentioned, in which the oscillation curve with simple means the switch-on voltage according to a correct, rapidly increasing curve without high voltage peaks is controlled.

This object is achieved in that in the Primary circuit of the high-voltage transformer an Impe-Lst 5 Bd / 01/16/1980

130034/0178

VPA 80 P 5951 DE distance to which a capacitor is located after switching on can be switched in parallel, which is in a charging circuit, through which it switches to a damping circuit before switching on The charging voltage suitable for the switch-on voltage peaks can be charged. This causes the high voltage peaks when switching on the device avoided in a simple manner, with a rapid voltage rise is guaranteed.

Further details emerge from the subclaims.

The invention is explained in more detail with reference to an embodiment shown in the figure.

The figure shows a circuit arrangement of an X-ray diagnostic generator, in which an X-ray tube 1 receives its electrode voltage from a high-voltage transformer 2 receives via a high voltage rectifier 3. The 'high voltage transformer 2 is via three-phase network terminals 4 and a three-phase variable transformer 5 are fed. The voltage on the X-ray tube 1 is adjustable by means of Current collectors 6, 7, 8 are adjustable on the variable transformer 5 and can be switched via contacts 12. In the star point the primary windings of the high voltage transformer 2 is a primary rectifier 9 with a circuit 10, described in more detail later, for attenuating the switch-on tension.

When the contacts 12 are closed, the voltage rectified by the primary rectifier 9 is above an inductance 13 and a low-ohmic damping resistor 14 fed to a thyristor 15 which is connected to a control circuit for triggering an X-ray exposure is.

A capacitor 16 is powered by a transformer second

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-ZT- VPA 80 P 5951 DE

The winding 17 is charged via a resistor 18 and a thyristor 19. The thyristor 19 is connected to a control circuit for controlling the charging of the capacitor 16 and for monitoring the voltage on the capacitor 16 and stops charging when a predetermined capacitor voltage is reached. This control circuit also controls a switch 20 in such a way that it is closed when the capacitor ± 6 is charged to too high a voltage and partially discharges it again via a discharge resistor 24. The capacitor 16 is charged to a voltage that depends on the kV and mA values set in each case. The voltage across capacitor 16 follows the following equation:

U _c = k _x . U ₂ - k ₂ . I ₂ ,

where U_ is the voltage at the X-ray tube 1, I "the X-ray tube current and k, and k "are constants.

In the circuit 10 there is also a diode 23 which protects against reverse voltages of the capacitor 16. Furthermore, in the heating circuit of the X-ray tube 1 there is a potentiometer 25 for setting the X-ray tube current intended.

When recording, the capacitor 16 is connected via a further thyristor 22, which is connected to a control circuit is discharged through the inductance 13 and the resistor 14. This discharge occurs when kV. , = kV ,, is. The discharge causes an increased current through the inductance 13 and through the resistor 14 flows. This results in an increased voltage drop across the inductance 13 and the resistor 14, the voltage peaks dampens.

1 figure

3 claims

130034/0178

3Q05Q65

-y- VPA 80 P 5951 EN summary

X-ray diagnostic generator

The invention relates to an X-ray diagnostic generator with a high-voltage transformer (2) for feeding the X-ray tube (1). The high-voltage transformer is located in the primary circuit to attenuate switch-on voltage peaks (2) an impedance (13, 14) to which a capacitor (16) can be connected in parallel after switching on, which is connected to a charging circuit (17, 18, 19), through which it is switched on to attenuate The charging voltage suitable for the switch-on voltage peaks can be charged.

130034/0178

BATH ORIGINAL

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Claims (3)

-> <VPA 80 P 5951 DE Claims \ L; X-ray diagnostic generator with a high voltage transformer for feeding the X-ray tube and means for damping switch-on voltage peaks, characterized in that in the primary circuit (10) of the high voltage transformer (2) has an impedance (13, 14), to which a capacitor (16) can be connected in parallel after switching on, which is in a charging circuit (17, 18, 19), by means of which it is switched to a suitable value for damping the switch-on voltage peaks before switching on Charging voltage can be charged. 2. X-ray diagnostic generator according to claim 1, d a characterized in that the impedance (13, 14) consists of an inductance (13) which is connected in series with a low-resistance resistor (14) is. 3. X-ray diagnostic generator according to claim 1 or 2, characterized in that means (20, 24) for setting the charging voltage of the capacitor (16) as a function of the X-ray tube voltage and the X-ray tube current are available. 130034/0178