JP2004259504A - Inverter type x-ray high-voltage device and x-ray ct scanner using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inverter type X-ray high-voltage device that is so structured as to limitedly execute a recovery operation only when arcing in an X-ray tube occurs. <P>SOLUTION: A positive electrode-side current detection means 7 and a negative electrode-side current detection means 8 are mounted on a positive electrode-side high-voltage cable 9a and a negative electrode-side high-voltage cable 9b for connecting between a high-voltage transformer 3 and the X-ray tube 4, respectively; when arcing occurs in generating the X ray in the X-ray tube 4, whether the arcing occurrence position is in the X-ray tube 4 or in a position other than it is discriminated from the current direction detected by the detection means 7 and the detection means 8 by using a comparator 16; and an arcing recovery circuit 14 is operated to execute a recovery operation only when the arcing occurrence part is in the X-ray tube 4. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
According to the present invention, after a DC power is once converted from an AC power supply, it is converted into a high-frequency AC power using an inverter, and the output voltage is boosted and rectified by a high-voltage transformer to generate a DC high voltage. The present invention relates to an inverter type X-ray high voltage device applied to a tube and an X-ray CT device using the same.
[0002]
[Prior art]
Generally, in an inverter type X-ray high-voltage device, a DC voltage from a converter for rectifying an AC power is converted into a high-frequency AC by an inverter, and then the output voltage of the inverter is boosted and rectified by a high-voltage transformer. A high DC voltage is generated and applied to the X-ray tube, and an inverter control circuit for controlling the inverter so that the target tube voltage matches the actual tube voltage is provided. This inverter control circuit is provided with an arcing determination circuit for detecting the occurrence of arcing at the time of X-ray generation in the X-ray tube. When arcing is detected by the arcing determination circuit, the tube voltage can be controlled without stopping X-ray generation. And a stop signal generating circuit for providing a stop signal to an inverter or the like when the tube voltage does not recover despite the operation of the arcing recovery circuit a plurality of times (for example, Patent Document 1).
[0003]
[Patent Document 1]
JP-A-10-106792
[Problems to be solved by the invention]
However, in the conventional inverter type X-ray high voltage apparatus, the arcing determination circuit determines that arcing has occurred, for example, when the tube voltage has become 50% or less of the set voltage during X-ray generation in the X-ray tube. However, the recovery operation is performed irrespective of the cause of the occurrence of the actual arcing occurrence portion in the high voltage transformer, the high voltage cable, or the X-ray tube. In particular, if arcing occurs in a high-voltage transformer or high-voltage cable, the arcing phenomenon is so severe that recovery cannot be performed even if the recovery operation is repeated, and a stop signal is given to the inverter etc. from the stop signal generation circuit to terminate the operation. Will do.
[0005]
An object of the present invention is to provide an inverter-type X-ray high-voltage device that performs a recovery operation only when arcing occurs in an X-ray tube, and an X-ray CT device using the same.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides a converter for receiving and rectifying an AC power supply, an inverter for converting a DC voltage from the converter into an AC voltage exceeding the frequency of the AC power supply, and an output voltage of the inverter. And a high-voltage transformer for rectifying the boosted output voltage and supplying the rectified output voltage to the X-ray tube. A detection means for detecting the occurrence of the X-ray tube is provided, and an arcing recovery circuit for performing a recovery operation for recovering the tube voltage of the X-ray tube only when the detection is performed by the detection means.
[0007]
The inverter type X-ray high voltage apparatus according to the present invention has detection means for identifying and detecting the occurrence of arcing in the X-ray tube in distinction from arcing in other parts. The recovery operation command is given to the arcing recovery circuit only when the recovery operation has been performed.Therefore, the recovery operation command is given to the arcing recovery circuit only when there is a possibility of recovery by performing the recovery operation. Unnecessary recovery operation for arcing at the time can be prevented.
[0008]
According to a second aspect of the present invention, there is provided an X-ray tube for irradiating an X-ray to a subject, an X-ray high-voltage device for supplying power to the X-ray tube, and a subject arranged opposite to the X-ray tube. An X-ray detector for detecting the projection data of the subject, a scanner for scanning the X-ray detector and the X-ray tube with respect to the subject, and an X-ray detector for the subject using the projection data detected by the X-ray detector. In the X-ray CT apparatus having means for reconstructing a tomographic image, the X-ray high-voltage apparatus receives a AC power and rectifies the same, and converts a DC voltage from the converter into a frequency of the AC power. An inverter for converting the voltage into an AC voltage exceeding the voltage, a high-voltage transformer for increasing the output voltage of the inverter, rectifying the increased output voltage and supplying the rectified output voltage to the X-ray tube, Arcing occurs in parts An inverter-type X-ray high-voltage device including a detecting means for distinguishing and detecting, and an arcing recovery circuit for performing a recovery operation for recovering the tube voltage of the X-ray tube only when the detection by the detecting means is performed. It is characterized by.
[0009]
The X-ray CT apparatus according to the second aspect of the present invention has detection means for specifying and detecting occurrence of arcing in the X-ray tube in distinction from arcing in other parts. Since the recovery operation command is given to the arcing recovery circuit only when the detection is performed, the operation command is given to the arcing recovery circuit only when there is a possibility that the recovery can be performed by performing the recovery operation. Recovery operation is not performed for arcing with high voltage cables or high voltage cables, preventing unnecessary exposure of the subject without unnecessary irradiation of the subject with X-rays from the X-ray tube. Can be.
[0010]
Further, in implementing the present invention, a converter for receiving and rectifying an AC power supply, an inverter for converting a DC voltage from the converter into an AC voltage having a frequency equal to or higher than the frequency of the AC power supply, and an output of the inverter A high-voltage transformer for boosting a voltage and rectifying the boosted voltage and supplying the rectified voltage to an X-ray tube; and an inverter control circuit for controlling the inverter so that a target tube voltage matches an actual tube voltage of the X-ray tube. An inverter detection circuit for detecting the occurrence of arcing from the tube voltage of the X-ray tube and performing a recovery operation for recovering the tube voltage; and a stop signal for stopping the inverter when an error is detected. In the inverter type X-ray high-voltage device having a stop signal generating circuit for providing an output, the occurrence of arcing other than the X-ray tube is detected. And error detection means may be configured as an inverter type X-ray high voltage apparatus, characterized in that a means for providing an operation signal to see the stop signal generating circuit when there is detected by the error detection means.
[0011]
According to such an inverter type X-ray high voltage apparatus, there is provided an error detecting means for identifying and detecting the occurrence of arcing other than the X-ray tube, and a stop signal is provided only when the error detecting means detects the arcing. A stop signal is given to the inverter from the generation circuit, so errors can be quickly detected without performing unnecessary recovery operations for arcing with high-voltage transformers or high-voltage cables that cannot be recovered by performing recovery operations. Can be treated as
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a circuit diagram showing an inverter type X-ray high voltage device according to one embodiment of the present invention.
This inverter type X-ray high voltage apparatus converts a DC voltage of a converter 1 for rectifying an AC power supply into a high frequency AC by an inverter 2 and then boosts and rectifies the high frequency AC by a high voltage transformer 3 to rectify the X-ray. 4 is applied.
The converter 1 is controlled by a converter control circuit 5, and the inverter 2 is controlled such that the output voltage of the high-voltage transformer 3, the tube voltage target value, and the actual tube voltage match, although detailed illustration is omitted. , Which is controlled by the inverter control circuit 6. The high-voltage transformer 3 and the X-ray tube 4 are connected by an anode-side high-voltage cable 9a and a cathode-side high-voltage cable 9b. The anode-side high-voltage cable 9a is provided with an anode-side current detector 7 and a cathode-side high-voltage cable 9b. Is provided with a cathode-side current detector 8.
[0013]
FIG. 2 is a block diagram showing a specific configuration of the inverter control circuit 6. As shown in FIG.
An arcing detection circuit 12 for inputting a tube voltage detects whether arcing has occurred at the time of X-ray generation in the X-ray tube 4 based on the value of the tube voltage. The current is output only when the two conditions of the X-ray tube arcing specific condition for simultaneously detecting the positive current in the arrow direction by the current detector 7 and the cathode-side current detector 8 are satisfied. The comparator 16 and the anode-side current detector 7 and the cathode-side current detector 8 constitute detection means for detecting occurrence of arcing in the X-ray tube in distinction from other arcing.
[0014]
The comparator 16 receives detection currents from the anode-side current detector 7 and the cathode-side current detector 8 shown in FIG. 1 via the operational amplifier 15, and outputs the currents from the anode-side current detector 7 and the cathode-side current detector 8. The occurrence of arcing in the X-ray tube 4 is detected separately from the others from the detection and direction of the current flowing through the X-ray tube. That is, when arcing occurs in the X-ray tube 4, the positive current is detected by both the anode-side current detector 7 and the cathode-side current detector 8. When arcing occurs in the high-voltage transformer 3, the anode-side current A current in the negative direction is detected by both the detector 7 and the cathode-side current detector 8, and when arcing occurs in the high-voltage cables 9a and 9b, both the anode-side current detector 7 and the cathode-side current detector 8 perform a negative direction current. Or a current in a different direction from each other, and it is possible to determine the occurrence of arcing in the X-ray tube 4 and the occurrence of arcing in other locations.
[0015]
When the arcing occurs in the X-ray tube 4 and the positive current in the direction of the arrow is detected in the anode current detector 7 and the cathode current detector 8, the comparator 16 detects the arcing specific condition of the X-ray tube. A signal is input to the circuit 12 and a signal is given to the error determination circuit 17 for detecting the occurrence of arcing at other points.
[0016]
When both the arcing occurrence detection condition and the X-ray tube arcing specific condition are input as described above, the arcing detection circuit 12 inputs the output signal to the arcing recovery circuit 14 via the CPU peripheral circuit 13 as a recovery start signal. The arcing recovery circuit 14 receiving the signal performs a recovery operation for returning the tube voltage to a predetermined voltage according to the inverter control signal. As a result of performing the recovery operation, if the tube voltage of the X-ray tube 4 is recovered, the operation is continued. If the recovery cannot be performed even after repeating the recovery operation several times, a signal is given to the error determination circuit 17, The error determination circuit 17 supplies a signal to the stop signal generation circuit 18 via the CPU peripheral circuit 13. Upon receiving this signal, the stop signal generating circuit 18 supplies a stop signal to each of the converter 1 and the inverter 2 to terminate the operation.
[0017]
However, when the occurrence of arcing at other points is detected from the comparator 16, this signal is supplied to the error determination circuit 17 while being distinguished from the X-ray tube 4. Then, the error determination circuit 17 supplies a signal to the stop signal generation circuit 18 via the CPU peripheral circuit 13. Upon receiving this signal, the stop signal generating circuit 18 supplies a stop signal to each of the converter 1 and the inverter 2 and immediately performs error detection without performing a recovery operation. As can be seen from this description, the anode-side current detector 7, the cathode-side current detector 8, the comparator 16, the error determination circuit 17 and the like constitute detection means for detecting the occurrence of arcing other than in the X-ray tube 4.
[0018]
According to such an inverter type X-ray high voltage apparatus, there is provided a detecting means for identifying and detecting occurrence of arcing in the X-ray tube 4 separately from arcing in other places. Since the recovery operation command is given to the arcing recovery circuit 14 only when the detection is performed, the operation command is given to the arcing recovery circuit 14 only when there is a possibility that the recovery can be performed by performing the recovery operation. Unnecessary recovery operation can be prevented with respect to arcing with the third and high voltage cables 9a and 9b.
[0019]
Further, in the inverter type X-ray high voltage apparatus described above, a detecting means including an error detecting circuit 17 for specifying and detecting the occurrence of arcing other than the X-ray tube 4 is provided, and is stopped only when the detecting means detects the arcing. Since a stop signal is provided from the signal generation circuit 18 to the inverter 2 and the like, unnecessary recovery is performed for arcing with the high-voltage transformer 3 and the high-voltage cables 9a and 9b that cannot be recovered by performing a recovery operation. The error detection can be promptly performed without performing the operation.
[0020]
Further, an X-ray CT apparatus can be configured by using the above-described inverter type X-ray high voltage apparatus. That is, an X-ray tube 4 that irradiates the subject with X-rays, an X-ray high-voltage device that supplies power to the X-ray tube 4, and an X-ray tube that is disposed opposite to the X-ray tube 4 and detects projection data of the subject. A X-ray detector, a scanner that scans the X-ray detector and the X-ray tube 4 with respect to the subject, and a unit that reconstructs a tomographic image of the subject using projection data detected by the X-ray detector. In the X-ray CT apparatus provided with the above, when the above-mentioned inverter type X-ray high voltage apparatus is used, there is a detecting means for identifying and detecting the occurrence of arcing in the X-ray tube 4 in distinction from arcing in other places. The recovery operation command is given to the arcing recovery circuit 14 only when the detection by the detection means is performed. Therefore, the operation command is given to the arcing recovery circuit 14 only when there is a possibility that the recovery can be performed by performing the recovery operation. On the other hand, the arcing by the high voltage transformer 3 and the high voltage cables 9a and 9b is unnecessary. Since the inverter 2 is immediately stopped without performing a recovery operation, the subject is not unnecessarily irradiated with the X-rays from the X-ray tube 4, and invalid exposure of the subject can be suppressed.
[0021]
【The invention's effect】
As described above, the inverter type X-ray high voltage apparatus according to the present invention can perform a recovery operation only when arcing occurs in the X-ray tube when arcing occurs, and there is a possibility that the tube voltage can be recovered. The recovery operation can be performed only for the occurrence of arcing in the tube.
When an X-ray CT apparatus is configured using the above-described inverter type X-ray high-voltage apparatus, a recovery operation command is given to the arcing recovery circuit only when detection is performed by the detection means, and a high-voltage transformer or a high-voltage cable is provided. The inverter can be stopped immediately without performing unnecessary recovery operation for arcing in the subject, and the subject is not unnecessarily irradiated with X-rays from the X-ray tube. Can be suppressed.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an inverter type X-ray high voltage device according to an embodiment of the present invention.
FIG. 2 is a block diagram showing an inverter control circuit in the inverter type X-ray high voltage device shown in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Converter 2 Inverter 3 High voltage transformer 4 X-ray tube 6 Inverter control circuit 7 Anode current detection means 8 Cathode current detection means 9a Anode high voltage cable 9b Cathode high voltage cable 12 Arcing detection circuit 13 CPU peripheral circuit 14 Arcing recovery circuit 16 Comparator 17 Error judgment circuit 18 Stop signal generation circuit

Claims (2)

A converter that receives an AC power supply and rectifies the same, an inverter that converts a DC voltage from the converter into an AC voltage that exceeds the frequency of the AC power supply, and boosts an output voltage of the inverter and rectifies the boosted output voltage. An X-ray high-voltage device provided with a high-voltage transformer for supplying the X-ray tube to the X-ray tube. An inverter-type X-ray high-voltage device, comprising: an arcing recovery circuit for performing a recovery operation for recovering the tube voltage of the X-ray tube only when the detection by the detection means is performed. An X-ray tube that irradiates the subject with X-rays; an X-ray high-voltage device that supplies power to the X-ray tube; and an X-ray detector that is disposed to face the X-ray tube and detects projection data of the subject. A scanner for scanning the X-ray detector and the X-ray tube with respect to the subject, and means for reconstructing a tomographic image of the subject using projection data detected by the X-ray detector. In the X-ray CT apparatus, the X-ray high-voltage device includes a converter for receiving and rectifying an AC power supply, an inverter for converting a DC voltage from the converter to an AC voltage exceeding the frequency of the AC power supply, And a high-voltage transformer for rectifying the boosted output voltage and supplying the rectified output voltage to the X-ray tube, and detecting at least the occurrence of arcing in the X-ray tube separately from the occurrence of arcing in other portions. Means, An X-ray CT apparatus comprising an arcing recovery circuit for performing a recovery operation for recovering the tube voltage of the X-ray tube only when the detection by the detecting means is performed. .

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