DE2756617A1 - X=ray tube variable target supply - is for use in portable equipment and has transistor acting as switch for resonant circuit - Google Patents

Abstract

A target supply circuit for X-ray apparatus is used where variability of wavelength is required. The circuit is esp. suitable for portable equipment where weight must be minimised. The X-ray tube (XT) is fed from a transformer (T1) whose primary winding (P) forms part of a resonant circuit together with a parallel capacitor (C) and a diode and resistor in parallel in the series loop. The resonant circuit is driven from a transistor switch (TR1) controlled at its base from a variable pulse generator, synchronised with the a.c. supply providing the circuit power via a full wave bridge rectifier.

Description

X-ray equipment

The invention relates to an X-ray device.

Certain X-ray machines, especially portable machines with weights between about 10 and 75 kg, require an energy regulator that enables the Quality of the X-ray treble, d. b. set the wavelength to a certain value, which then has to be maintained. The quality is the top of the Durob The tension of the X-ray tube is determined.

Bai alternating current it is possible to power supply with one to regulate continuously controllable ratio transformer, e.g. B. of the type VARIAC (registered trademark). This device changes the waveform of the alternating atom Not to a large extent, but it is very extensive and heavy and requires a movable contact that has to transfer the full current load. An automatic one Regulation also requires one Motor to operate the transformer.

The invention is based on the object of creating an X-ray device, in which the amount of electrical energy supplied to the X-ray tube by electronic means Means adjustable or controllable.

The solution to this problem on which the invention is based is characterized through an input for feeding in electrical energy, through one to the input connected, pulse-generating device, which comes from the fed-in electrical Energy generates equal pulses of electrical energy of adjustable length, by means that are connected to the device for generating impulses and which control the duration of the impulses, through an X-ray tube with the electrical ones Characteristics of a diode, and by a power supply device that is fed by the pulses in such a way that the pulses are transmitted to the X-ray tube applied voltage bat a direction in which the X-ray tube is not conductive, whereby the arrangement for the energy supply of the tube stores the energy of the impulses and then feeds the X-ray tube with the stored energy in a conductive manner, where the amount of energy applied to the tube depends on the duration of the impulses, which are fed into the facility for the energy supply of Röbre.

The invention is to be explained below with reference to the drawing will.

Fig. 1 shows a basic circuit of an energy regulator with a Power supply for the X-ray tube, and Fig. 2 shows in detail a practical one Embodiment of the circuit according to FIG. 1.

FIG. 3 shows modifications of the circuit according to FIGS. 1 and 2.

There are known X-ray devices, in particular of a transportable form which the anode voltage of the X-ray tube through a transformer with changeable Ratio by means of an auto-transformer and the Burning current through the supply the cathode is set; the Röbre rubbed the boebgespanate alternating tension the same and works with only positive half-waves of the supply voltage.

Figure 1 generally shows the arrangement and power supply a portable X-ray machine in which the invention is applied and that for baggage control or for similar security surveillance and for extraction of industrial silhouettes.

The power requirement for the X-ray tube of such a device lies usually around 800 TA (e.g. 160 KV at 5 mA).

The power supply device shown in Figures 1 and 2 has 2 terminals S1 and S2 for connecting a power source of e.g. B. 50 or 60 Hz at 110 V or 240 V. A full way bridge equation BR delivers a train HW of half waves, d. b. rectified impulses, in known way. The rectified Pulses from the rectifier enter a circuit consisting of the primary winding 2 of a transformer T1 in Reibenscbaltung with the emitter-collector path of a matching power transistor TR1. The base of the transistor TR1 is with a Terminal S3 and the emitter of the transistor is connected to a terminal S4. tax pulses P1 and P2 are applied across terminals S3 and S4, and the occurrence and the duration of each control pulse is determined in the manner described below. The secondary winding S of the transformer T1 is connected to terminals S5 and S6, To which an X-ray tube XT is connected when the device is in operation. The X-ray tube has the electrical properties of a diode.

The circuit of Fig. 1 operates in two ways in the following manner Stages: In the first stage, the transistor TR 1 is shortly after for a period of time Beginning of a similar pulse HW through a suitable base-emitter potential conductive at terminals S5 / S4. During this period, the current increases in the Primary winding P depending on its inductance, and the wave train HW generates a corresponding wave train at terminals S5 / S6 of the secondary winding S. The direction of coupling between the primary and the secondary winding is as follows that this waveform is in the reverse direction of the diode from the X-ray tube XT is formed so that a current in the secondary circuit doesn't flow and energy is stored in the magnetic field of the transformer. While the first stage is the voltage supplied to the X-ray tube XT (in blocking) completely by the supply voltage and the ratio of the upward transform of the transformer. During this stage the capacitor C becomes dependent charged by a resistor R (see Fig. 2).

During the second stage, which occurs at the end of the conducting interval of the Transistor starts, the rise in current in the primary winding is interrupted, and the transformer flux begins to fall, creating an inverse direction Pulsation (i.e. in Leitricbtung the X-ray tube XT) in the secondary circuit, and the Diode D1 is conductive, whereby the through the primary winding P, the capacitor C and the resonant circuit formed by the diode D is closed.

By controlling the conductive interval of the transistor TR1 by the control pulses P1, P2 in relation to the half waves HW and thus by the energy stored in the transformer, the peak value of waveform W1, W2 are controlled, which is then induced in the secondary winding S. The length of the waveform W1, W2 is determined by the resonant circuit.

As the peak value of the voltage to feed the Röbre the quality The X-ray radiation of the tube determines the operation of the X-ray tube XT durob Regulation of the control impulses Pl, P2 can be adjusted.

The voltage applied to the X-ray tube XT in conductive lines is by the value of the peak current in the primary winding of the transformer at the end the erate level and determined by its inductance, and it is measured eo, that it is higher than the reverse voltage that was applied in the first stage. on this way the x-ray tube can operate as close as possible to its maximum values will.

In a practical embodiment and when operating at 50Hz and 240 V, each pulse of the train EW is 10 milliseconds long. The pulses P1 and P2 are arranged in time so that they are immediately after each zero transition of the Start the supply voltage and selectively last up to about 5 milliseconds. Wäbrend the duration of the control pulses P1 or P2, the transistor TRl is conductive, so that the Current in the primary winding P increases and energy in the magnetic field of the Primary winding P is stored. At the end of the control pulses P1 or P2 disappears the current flow through the transistor, since it is no longer conductive, however, becomes the energy stored in the transformer is released, it appears as waves W1, W2 in the secondary circuit. The longer the duration of a control pulse P1 or P2 is, the greater the pecked energy and the greater it is Amplitude of the following secondary wave W1 or W2. Matching circuits, with which the control pulses P1, P2 with any desired length and phase position in with respect to the feed waveform are well known and known are not described in detail here. In one embodiment of such Circuit a Schmitt trigger is provided to a monostable pulse generator with every zero crossing of the rectified alternating voltage.

Can the load represented by the X-ray tube IT be more constant Value are accepted, it depends on the waves W1 or W2 over the X-ray tube generated peak voltage from the duration of the control pulses P1, P2, like that by the differences indicated in FIG. 1 between the control pulses P1 and P2 and corresponding waves W1 and W2 can be seen.

The primary winding P is preferably when an X-ray tube is fed durob a capacitor C tuned to a resonance frequency that is at least that Double the feed frequency, e.g. 3. 125 Hz, so that the waves W1 are approximately Take 4 milliseconds. This leaves a maximum time of 5 milliseconds for the conductive interval of TRl a time for the 4 milliseconds long, approximately semi-sinusoidal pulse ricochet.

Fig. 3 shows a further modification in which the voltage in the Secondary circuit z. B. tapped at a tap VS of the secondary winding S and a control signal is fed back via a connection P to a pulse controller PR, which can change the control pulses P1 and P2, about a Röbren operating condition maintain that selected by the initial selection of control pulses P1, P2 has been. The controller has z. B. a peak rectifier, one of the AC voltage of the tap VS derived DC voltage signal into the comparator feeds. The comparator compares the same voltage signal with a reference signal and generates an error signal. The Feblersignal is used to control the pulse width of the pulses generated by the aforementioned monostable circuit.

In summary, it can be said that the examples described above Arrangements fulfill three functions. The first function strives in the electronisoben Control of a portable X-ray device, simply as part of a supply device, so that the construction from relatively light components is possible and the necessity the use of a heavy variable transformer is avoided, while at the same time the possibility exists, the top voltage supply of the Röbre and with it the To regulate the wavelength of the X-rays and automatically with respect to the load and Stabilize input voltage changes. The impulses of the rectified Supply voltage control the operation, although an oscillator is required, and the losses are low, mainly in the two conductive bridge diodes and the conducting and preferably saturated transistor occur. Because the circuit also with an electronic Scheme is equipped and no electromechanical arrangement required for a variable ratio transformer is a selected value of a peak voltage applied to the X-ray tube XT automatically maintained by negative feedback.

The second function is that of those in the secondary winding S induced voltage by the feed time voltage and the ratio of the step-up transformation of the transformer is determined during the first stage of operation in which the X-ray tube XT is not conductive, while the voltage is lower than that in the secondary winding S during the second operating stage induced voltage, if the X-ray tube XT is conductive, as a result of which "inverse suppression" is achieved.

Thirdly, the controller works with the supply voltage in full direction of equilibrium and no with half-way gliding, the durob a self-leveling tube and an autotransformer alone is obtained where the load is at the supply source is balanced by adding power from the supply source at each half cycle is removed.

Even if the invention is based on a portable X-ray device has been described, for example, the invention can also be applied to others Types of X-ray machines find application.

Claims (10)

Patent claims 1. X-ray device, marked durob one Input for feeding in electrical energy, through a connected to the input, Impulse-generating equipment that is equalized from the electrical energy fed in Pulses of electrical energy of adjustable length are generated by means that are connected to the device for pulse generation and the duration of the Control pulses through an x-ray tube with the electrical characteristics of a Diode, and by a power supply device fed by the pulses is that the voltage applied to the X-ray tube during the pulses has a effect bat, in which the X-ray tube is not conductive, whereby the device is used for energy supply the tube stores the energy of the impulses and then the tube becomes conductive Direction feeds with the stored energy, the size of which is sent to the Röbre applied energy depends on the duration of the impulses, which in the Einricbtung to the Energy supply of the Röbre are fed. 2. Device according to Claim 1, characterized in that the Einricbtung has a resonant circuit with a transformer to supply the tube with energy, which is fed by the pulses, the pulses in a primary winding of the Transformer are fed, while a secondary winding with the X-ray tube connected is. 3. Einricbtung according to claim 2, characterized. that the resonance circuit through the primary winding of the transformer and a capacitor connected in parallel with this winding is formed. 4. Einricbtung according to Ansprucb 3, characterized in that the capacitor wired in grater with a parallel connection of a resistor and a diode is, the capacitor and said parallel connection in parallel with said Winding lie. 5. Einricbtung according to one of the preceding claims, characterized by a rectifier for receiving electrical alternating current energy, the Set-up for pulse generation with the same half-waves of the electric Energy is fed from the rectifier. 6. Einricbtung according to claims 5, characterized in that the rectifier is a two-way equicibrator. 7. Einricbtung according to one of claims 5 or 6, characterized in that that the control device has an input into which one of the Weebselstromenergiequelle derived clock signal is fed, and that the Steuereinricbtung in dependency from the clock signal the generation of said pulses at a predetermined time Relationship to the AC signal causes. 8. Einricbtung according to one of claims 5, 6 or 7, characterized in that that the resonance circuit is tuned to a resonance frequency that is at least that Double the frequency of Wecbeel power energy. 9. Einricbtung according to one of the preceding claims, characterized in that that the device for the diffraction of the pulses comprises a transistor whose Collector-emitter path is connected to the Speieeeinricbtung while the base of the transistor is connected to the control device. 10. Arrangement according to one of the preceding claims, characterized in that that the control unit has an input into which a signal is fed iet, which is indicative of the amount of energy with which the X-ray tube is fed, and that the control device responds to this signal and changing the duration of the pulses by said amount to a predetermined one Level to hold.