HU200527B - Device for automatic switching desired value of dosage and/or illumination intensity on stations of x-ray video amplifier - Google Patents

Abstract

FIELD OF THE INVENTION The present invention relates to an apparatus for automatically switching the desired value of dose and / or illumination at X-ray intensifier workstations. It is an object of the present invention to provide a resistor for the photocathode (5A) of the X-ray amplifier (5) with a voltage signal proportional to the dose and / or the momentum of illumination, whose signal output is connected to a counter (13) via a transducer, and by a counter input correction unit of the counter (13). connected with a modified number plate (16), its output is connected to the control input of the electronic switch (18), the transducer has a voltage / superfluous converter (12) the input of which via the amplifier (11) to the signal output of the sensor, output to the counter input of the counter (13) connected to the control input of the number base (16) via a kV-value-adjusting circuit (14), the other control input of the number base (16) is connected to a correction circuit (17). (Figure 1) Scope of the description: 4 pages, Figure I 10 o o CM 3 -1-

Description

at workplaces to automatically switch the desired dose and / or exposure value.

The object of the invention is that a resistor providing a voltage signal proportional to the instantaneous dose rate and / or illumination is coupled to the photocathode (5A) of the X-ray amplifier, the signal output of which is connected to a counter (13) via a transducer is connected to a modified numeric base (16), its output is connected to the control input of the electronic switch (18), the signal converter has a voltage / frequency converter (12) having an input via an amplifier (11) to the sensor signal output, output to the counter input (13) is connected and connected to one of the control inputs of the numeric base (16) by a kV-value generator (14) in its correction unit, the other control input (17) of the numerical base (16) is connected to a correction circuit (17). (Figure 1)

Scope of the description: 4 pages, Figure I

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HU 200527 Β

FIELD OF THE INVENTION The present invention relates to apparatus for automatically switching a desired dose and / or exposure value in X-ray amplifier workstations in a recording mode.

It is important that the acquired image is well evaluated and accurately diagnosed. This goal can be achieved by the use of shooting and lighting machines.

There are several types of advanced exposure machines known. These fall into two main groups:

1. Cassette recorder machines:

2. Exposure controls for image intensifier tube output screens.

The first group, the cassette recorder, has automatic exposure chambers or semiconductor sensors. Contains an ionization chamber e.g. DE 2838057; GB 1408292.

It contains a semiconductor sensor, or more precisely a light emitting plate and a photoelectric converter e.g. JP 52-091795 and US 4,641,331.

These vending machines measure the dose behind the patient mostly before the film but in some cases behind the film.

The main disadvantage of recording machines with an ionization chamber and a semiconductor sensor is that the sensor has a relatively high recovery time.

A further disadvantage is that in practice special X-ray workplaces such as the surgical imaging equipment, these recording machines could not spread. Here, the strict dimensions of size, weight and sterility do not allow the use of an ionization chamber and a semiconductor sensor.

The use of the X-ray amplifier has allowed the spread of the TV pulse mode and the ability to capture film and spot images from the output screen of the image intensifier tube at a reduced dose rate and high recording rate compared to conventional recording techniques.

Automatics of the output screen of the image intensifier are measured by using a photo sensor (photomultiplier, photodiode, etc.) and adjusting the exposure time by switching off the X-ray generator at the desired exposure value.

In DE 28 55 405 and US 4 566 155 the sensing element is a multiplier.

The high price of the photomultiplier tube and the special power supply circuit make the device considerably more expensive.

The sensing device of the NL 82 00 852 and JP 59-4491 is a photodiode. The serious problem here is that the output screens of the amplifier are spectrally difficult to fit into the photodiode.

Recording machines with photomultiplier and photodiode sensors obtain the control signal through sophisticated optical coupling and light-electric conversion.

DE 24 II 630 and US 4 433 429 use a video signal from a television camera to detect light during recording. The main problem here is the very high recovery time of the TV recording tube.

SUMMARY OF THE INVENTION The object of the present invention is to provide a solution which, on the one hand, combines the two main groups of shooting machines and enables the development of a widely applicable exposure automatic, and on the other hand, switching exposure times shorter than those listed above.

The apparatus of the present invention is based on the recognition that the photocathode current of the X-ray image intensifier tube can be used to automatically expose both cassette images and images taken from the output screen of the image intensifier.

To solve this problem, we have provided an apparatus for automatically switching the desired dose and / or exposure value in X-ray amplifier workstations, having an X-ray generator coupled to a switch for determining the time of radiation exposure, and a dose wherein, according to the present invention, the photocathode of the X-ray amplifier is connected to a resistor providing a voltage signal proportional to the instantaneous dose rate and / or illumination, the signal output of which is connected to a counter through a transducer and the enable input of is connected, the signal converter has a voltage / frequency converter, the input of which is connected to one of the control inputs of the counter and the other control input of the dial base is connected to a correction circuit.

In a preferred embodiment of the apparatus according to the invention, the modifier circuit adjusts the kV value for the optimum scanning image as a function of the correction needed to obtain the optimum recording image, and the correction circuit adjusts the numerical base to control the numerical base. The output of the correction circuit, which carries information on applied film quality, gain film, and customized film blackout correction, is connected to the numeric input and changes the numeric value.

The present invention will now be described in more detail with reference to the accompanying drawings, in which:

Figure 1 is a block diagram of an X-ray amplifier X-ray generator equipped with the apparatus of the present invention.

The X-ray amplifying X-ray apparatus is provided with an X-ray generator 19 which is connected to 9 X-ray sources.

In the path of the X-ray beam there are 8 patients, 7 fine grids, 6 x-film film cassettes and 5 image amplifiers. A high-density X-ray image of the output screen 5B of the X-ray image intensifier 5, according to the optical path 4, either to the recording tube 1 of the TV camera, or

EN 200527 Β is projected on a spot film or film of 3 film recorders.

The control input of the X-ray generator 19 is connected to the output of the electronic switch 18. The switch 18 is preferably a switching circuit adapted to the power switch of the X-ray generator 19 (thyristor, transistor, not shown).

A resistor 10 and a transducer are connected to the photocathode 5A of the X-ray amplifier 5. The input of the transducer is 11 · input of an amplifier, preferably a differential amplifier. The output of the amplifier 11 is connected to the input of the voltage / frequency converter 12, while the output of the voltage / frequency converter 12 is connected to the output of the signal converter connected to the input of the counter 13 and the output of the counter 13 to the control input of the electronic switch 18.

The enable input of the counter 13 is connected to the output of the numeric base 16. One of the control inputs of the numerical base 16 is connected via a mapping stage 15 to the output of the kV-value generator 14 and the other control input is connected to the output of a correction circuit 17.

For the specific design of the individual units, i.e. amplifier 11, voltage / frequency converter 12, counter 13, 14 kV value generator, imaging stage 15, correction circuit 17, numeric base 16, counter 13 and electronic switch 18 we will not elaborate here, since they are known to the person skilled in the art, in particular in view of their operation as described below, and they have many embodiments.

The operation of the apparatus according to the invention will now be described.

The X-ray generator 19 provides the electricity needed to operate the X-ray spinning 9 during the activated times of the electronic switch 18.

It is important for the invention that the photocathode 5A of the X-ray amplifier 5 is capable of detecting dose rate at the X-ray film 6, while providing a signal proportional to the light density displayed on the output screen 5B. This signal is simply, e.g. available on 10 resistors connected to photocathode 5A.

The output signal of the X-ray amplifier 5 is provided to the amplifier 11, which performs interference suppression, level matching and integration in a known manner. The interference voltage is applied to both inputs of the differential amplifier 11, the noise components are subtracted from each other and their effect on the output is not observed. In this stage, we can adjust the voltage gain, which corresponds to the conversion factor of the X-ray amplifier 5.

The signal at the output of the amplifier 11 is applied to the input of the voltage / frequency converter 12, where the signal proportional to dose and / or illumination is converted into a pulse sequence.

Counter 13 starts counting at the start of recording and counts until the number of pulses from pulse sequence of voltage / frequency converter 12 defined by numeral 16 arrives at its input, then the output of counter 16 stops the enable input of counter 13 The output signal of the counter 13 switches off the X-ray beam via the electronic switch 18

The 14 kV value generation circuit memorizes the kV value for a good scanning image and uses this to control the mapping stage 15. The mapping stage 15 implements a function conversion for the optimum value of the scanning and shooting image. Its input data is a kV value, its output data is a numeric value, which is the value of the kV numerical value for the optimal scanning image, taking into account the kV value for the recording image. The starting value of the 16 numeric bases is the number of pulses at which the recording should, in general, be completed. The pulse number can be flexibly varied by the correction circuit 17 so that any correction factor adapted to the specific requirements, e.g. film sensitivity, effect of applied film, medical requirements (hard or soft recording), radiation compartment (signal proportional to the irradiated field size), etc.

As can be seen, the recording apparatus according to the invention is widely applicable, which is capable of switching very short exposure times and requires extremely simple workplace adaptation.

PATENT CLAIMS

Claims (2)

An apparatus for automatically switching a desired dose and / or exposure value in an X-ray amplifier, the X-ray generator of which is coupled to a radiation time switch, and further comprising a dose of cassette film and / or an X-ray sensor attached to an output screen of the X-ray amplifier. a resistor providing a voltage signal proportional to the instantaneous dose rate and / or illumination of the photocathode (5A) of the X-ray amplifier (5A), the signal output of which is connected to a counter (13) via a transducer, and an enabling input of is connected, its output is connected to the control input of the electronic switch (18), the signal converter has a voltage / frequency converter (12) which has an input via an amplifier (11) to the signal output of the sensor, its output is connected to the counter input of the counter (13) and connected to a control input of the numeric base (16) via a modifying circuit in the correction unit kV-value generator (14). ), the other controller input is connected to a correction circuit (17). Apparatus according to claim 1, characterized in that the imaging stage (15) modifying the kV value for the optimum scanning image in response to the correction required to obtain the optimal recording image, and the correction circuit (17) taking into account the characteristics of the image recorders. a correction circuit (17) controlling the numerical base (16). -3HU 200527 Β 1/1.