KR20040053089A - 2 gate type X-ray detector data read out control device and control method - Google Patents

Abstract

PURPOSE: A method and an apparatus for readout of a digital X-ray image detector using a two-gate method are provided to perform a high-speed switching operation of a substrate in the real-time radiography by using the two-gate method. CONSTITUTION: An apparatus for readout of a digital X-ray image detector using a two-gate method includes a gate driver, a data line, and an image processing unit. The gate driver(100) is used for turning on sequentially two gate lines adjacent to gate buses of a digital X-ray image detector substrate. The data line is connected perpendicularly to the gate buses in order to read cell data of two gate lines when a gate signal generator turns on data of two gate lines. The image processing unit(300) amplifies and processes the cell data and outputs image data.

Description

2 gate type X-ray detector data read out control device and control method of digital X-ray image detector

A readout method of a digital x-ray image detector, the method comprising: sequentially turning on two adjacent gate lines of a gate bus of the digital x-ray image detector substrate; When the information of two gate lines is sequentially turned on in the step, the electrical signals of the two gate line pixels are read out through one data line; Amplifying and processing the electrical signal of the data line read out in the step to process the image data information; It relates to a two-gate readout method of the digital x-ray image detector, characterized in that.

In general, a signal generated in each pixel of the substrate of the digital x-ray image detector is stored in a signal storage capacitor (Cst).

As such, the signal stored for each pixel is output to the data line through switching of a gate driver as shown in FIG. 3, and a charge amplifier located at the end of the data line. Is output via

Hereinafter, a real time radiography used for image processing, such as a video, among the conventional digital x-ray image detectors will be described.

In general, an X-ray imaging apparatus using a non-visible light such as X-rays is used in the medical, scientific, and industrial fields. In a screen-film system, a film is a function of acquisition, display, and storage. At the same time has the advantage of low cost and excellent portability.

On the other hand, the method of using a film causes a delay disorder in the diagnostic radiation and the film flow in the inside, and the material of the film is often unknown.

In addition, the copy quality is lower than the original film.

Digital Radiography (DR), which has been shown to overcome the disadvantages of this film method, optimizes each step by separating the acquisition, display, and storage of images, and thus can improve the diagnosis rate. The rate can be reduced to less than 1/10.

In addition, since it is a digital method, it is possible to obtain the same image without any deterioration in image quality when copying, and to solve the problem such as delay in reading due to the disturbance of film flow when connected to a network, and recently, the time taken for shooting and developing is remarkable. Systems that can be reduced to this situation are being developed.

The DR is divided into two operation modes, such as radiography for still images and video recording for real time.

However, in still images, a single image is obtained by high dose, indicating a high signal level, while in a movie, a typical 30 or 60 frames per second is obtained, and the dose itself is about 10-100 times lower than that of a still image. The size is also very low compared to still images.

Therefore, it is desirable to develop an X-ray detector substrate that can simultaneously use the two modes described above when manufacturing a detector substrate for DR.

However, such a detector substrate poses a problem with respect to pixel capacitance when designing the detector substrate.

In general still image capturing, a high X-ray dose results in a large intra-pixel signal, whereas in motion image capturing, a low dose X-ray is used, so the signal amount in a pixel is small.

However, in the past, the detector substrate designed to use two modes such as moving picture and still picture only takes the value of pixel capacitance as trade-off reading method (1 data per pixel).

However, in real time radiography, unlike a still image, a dose is required to see the patient's body for a long time. Therefore, a very small dose is used over a long period of time. Therefore, the image intensifier is used to display the small dose as an image for real-time viewing. Should be used.

This means that the amplification factor is typically thousands or more times higher, which means that an amplifier such as II is essential for imaging such small doses.In the digital X-ray detector developed so far, such a small signal such as the dynamic range of the image output is significantly lowered. This means that there are still a lot of problems in order to display the amount of images.

Hereinafter, the problem regarding the reading time of the substrate will be described.

The period t _on , which opens a TFT on any gate line, is given by: where m is the number of gate lines and f _F is the frame frequency.

t _on = (mf _F ) ^-1

If the frame frequency is 60 Hz and there are 480 gate lines, t _on will be 34.7 kHz.

This means that all signals for a line of pixels must be completely read out for 34.7 ms.

Even if a slight time delay occurs while the signal is read out, the amount of signal between the two lines causes cross talk and degrades the image quality.

Therefore, in order to solve the above problems, not only fast switching of a detector substrate such as TFT is required in real time radiography, but also a signal amount in each pixel is significantly lower than in a still image, and thus, another method for improving the problem is required.

An object of the present invention is to provide a two-gate readout method and apparatus for a digital x-ray image detector for realizing high-speed switching of a substrate in real time radiography.

In addition, an object of the present invention is to provide a method and apparatus for a two-gate readout of a digital x-ray image detector that effectively raises the signal amount in each pixel which is significantly lower than that of a still image.

That is, the present invention is to solve the above problems, but the conventional readout method is applied for still image shooting, but the fast readout and signal amplification by operating two or four gate lines at the same time for video recording An object of the present invention is to provide a two-gate readout method and apparatus for a digital x-ray image detector.

1 is an overall block diagram of a two-gate readout device of the digital x-ray image detector of the present invention.

2 is a flowchart illustrating a two-gate readout method of a digital x-ray image detector of the present invention.

3 is a block diagram of a two-gate readout device of the digital x-ray image detector of the present invention;

4 is a block diagram of a two-gate readout device of a conventional digital x-ray image detector;

* Explanation of symbols on main parts of drawings *

10: signal accumulation capacitor 20: TF cell

30: pixel 50: substrate

100: gate driver 200: logic circuit

Dn: data line Gn: gate line

300: image processing unit 400: input means

In order to achieve the above object, the present invention provides a method of reading out a digital x-ray image detector, the method comprising: sequentially turning on two adjacent gate lines of a gate bus of the digital x-ray image detector substrate; When the information of two gate lines is sequentially turned on in the step, the electrical signals of the two gate line pixels are read out through one data line; Amplifying and processing the electrical signal of the data line read out in the step to process the image data information; The two-gate readout method of the digital x-ray image detector characterized in that the technical gist.

The processing of the image information includes the step of combining the information read out through two adjacent data lines into a pair and outputting the result to the amplifier stage. It is preferable to become.

The present invention also provides a two-gate readout device for a digital x-ray image detector, comprising: a gate driver for sequentially turning on two adjacent gate lines of a gate bus of a digital x-ray image detector substrate; A data line connected orthogonally to the gate bus and sequentially reading out cell information located at the two gate lines when the gate signal generator sequentially turns on information of the two gate lines; It is a technical gist of the two-gate readout device of the digital x-ray image detector, characterized by comprising an image processor configured to amplify and process two cell information read out by the data line signal generator and to process the image data information. .

The image processing unit may be a two-gate readout device of the digital x-ray image detector further comprising an amplifier stage for amplifying the output of the data line into a pair.

In addition, the two-gate readout device of the digital x-ray image detector includes: input means for selecting and inputting a sensitivity of a 1, 2, or 4 pixel detector substrate; Control means for interfacing the control signal of the input means to the control signal of the gate driver and the image processor; It is desirable to be a two-gate readout device for the digital x-ray image detector, which is configured to further include, and the substrate sensitivity is selectively determined.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall block diagram of a two-gate readout apparatus of the digital x-ray image detector of the present invention, Figure 2 is a flowchart of a two-gate readout method of the digital x-ray image detector of the present invention, Figure 3 is a present invention Fig. 2 is a block diagram of a two-gate readout device for a digital x-ray image detector.

As shown in the drawing, the present invention provides a substrate (hereinafter, referred to as a substrate) of a gate driver 100 and a digital X-ray image detector, a data line Dn for reading data of the substrate, and an image processor 300. Has the basic structure of

In general, a signal generated in each pixel 30 of the substrate of the digital X-ray image detector is stored in a signal storage capacitor 10 (Signal Storage Capacitor (Cst)).

As such, the signals stored for each pixel 30 come out to the data line Dn through switching of the gate driver 100 as shown in FIG. 1, and the data line Dn (data). Output is via a charge amplifier 40 located at the end of the line.

Hereinafter, referring to FIG. 3, the two-gate readout method of the digital x-ray image detector according to the present invention may simultaneously perform two adjacent gate lines G1 and G2 among the gate lines Gn of the digital x-ray image detector substrate. The step of turning on is performed.

In the present invention, the on and off of the gate line (Gn) is a Gn, Gn + 1 trigger method (n is a gate that turns on two neighboring gate lines (Gn) at the same time, leading one gate line twice) The driver's trigger signal) and two gate lines Gn as a pair can be divided into G2n and G2n + 1 triggering schemes in which one gate line Gn is read only once.

This may be selectively determined in consideration of the reading time of the substrate 50. In general, if a TFT substrate is used as a digital X-ray image detector, even when two gate lines Gn are set as one pair, The loss is not so great.

The triggering method of the gate line Gn is executed by adjusting the gate driver 100 generating the on / off control signal of the gate line Gn.

In this step, when the information of two gate lines Gn is sequentially turned on, the information of two gate line pixels 30 is transferred to one connected data line Dn on the gate line Gn to be charged. Is applied to the amplifier stage.

The data transferred through the data line Dn is amplified by the charge amplifier stage 40 and transmitted to the image processor 300 to be used as an image information signal.

Since the image processor 300 includes a data interface, an amplifier, and the like, and the present invention relates to a data reading method and an apparatus thereof, a detailed description of the image processor will be omitted.

Hereinafter, embodiments of the present invention will be described in detail with reference to the embodiments of FIGS. 1 and 2.

In the embodiment of FIG. 2, the first gate line Gn and the second gate line Gn are turned on at the same time, so that in the first data line D1, G1 and G2 are turned on at the same time, so that the amount of signals of two pixels is simultaneously held. In this case, the signal is output through the charge amplifier, and the pixel signal amounts of the gate lines Gn of the two lines are also output in the sequential data lines D2 continuously in this state.

As a result, an output signal of two pixels per data line Dn increases the switching speed as well as the amount of the signal is twice as large as that of one pixel.

On the other hand, the gate driver 100 for turning on and off the gate line Gn can be easily tested using, for example, an FPGA.

Field Programmable Gate Array (FPGA) is a collection of thousands of logics that can be programmed. An arbitrary logic circuit is designed and used by a user as intended by the user. When this is changed, the newly changed logic circuit can be inputted into the FPGA device to operate with the changed logic circuit, which is a variable logic device.

Meanwhile, FIG. 2 shows another configuration diagram of the present invention. As described above, two gate lines Gn are simultaneously turned on and two external logic circuits are used. A method of simultaneously reading out the data line Dn is shown, and a method of combining four pixels into one data information signal is shown.

This indicates that two or several pixels can be bundled and used according to the user's purpose.

For example, if a precise medical picture is required, a method of increasing the resolution may be used. If a rough picture such as a search picture used at an airport is sufficient, a method of reducing the resolution and increasing sensitivity may be used.

On the other hand, the two-gate readout device of the digital x-ray image detector includes an input means 400 for selecting and inputting a sensitivity of a 1, 2, or 4 pixel detector substrate and a control signal of the input means 400. A control means 500 for controlling the logic circuit 200 for interfacing with the control signal of the driver 100 and the image processor 300 is provided to allow the substrate sensitivity to be selectively determined.

That is, as shown in FIG. 1, the control method of the gate driver 100 is interlocked according to the resolution option selected by the input means, and when one image of a high resolution is required, one data per pixel is read (trade-off). Equation reading), when a high sensitivity image is required, the reading method of the present invention, which reads one data per two or four pixels, is selected.

What has been described above is only one embodiment for implementing the X-ray image detector according to the present invention, and the present invention is not limited to the above-described embodiment, and as claimed in the following claims, Without departing from the gist of the present invention, one of ordinary skill in the art will have the technical spirit of the present invention to the extent that various modifications can be made.

According to the present invention described above, there is an advantage that a two-gate readout method and apparatus for a digital x-ray image detector for realizing high-speed switching of a substrate in real time radiography is provided.

In addition, there is an advantage that a two-gate readout method and apparatus for a digital x-ray image detector which effectively raises the signal amount in each pixel, which is significantly lower than in still images, is provided.

That is, the present invention is to solve the above problems, but the conventional readout method is applied for still image shooting, but the fast readout and signal amplification by operating two or four gate lines at the same time for video recording A two-gate readout method and apparatus of a digital x-ray image detector for implementing the present invention is provided.

That is, in real time radiography, not only can the signal be read out by turning on two lines at the same time by adjusting the gate driver, but also by reading two data lines at the same time through an external logic circuit. 2-gate readout method of the digital x-ray image detector that can not only selectively switch still images and videos, but also improve image quality through fast readout and signal increase when acquiring a video. There is an advantage that the device is provided.

Claims (5)

In the 2-gate readout method of the digital x-ray image detector (1) sequentially turning on two neighboring gate lines of a gate bus of the digital x-ray image detector substrate; (2) when the information of two gate lines is sequentially turned on in step (1), the electrical signals of the two gate line pixels are read out through one data line; (3) amplifying and processing the electrical signal of the data line read out in the step (2) to process the image data information; A two-gate readout method of a digital x-ray image detector, characterized in that configured. According to claim 1, wherein step (2) And combining the information read out through two adjacent data lines into a pair and outputting the information to the amplifier stage. 2. In the two-gate readout device of the digital x-ray image detector A gate driver for sequentially turning on two adjacent gate lines among gate lines of the digital X-ray image detector substrate; A data line connected orthogonally to the gate bus and configured to read out cell information located at the two gate lines when the gate signal generator sequentially turns on information of the two gate lines; An image processor which amplifies and processes two cell information read out by the data line signal generator and processes the information into image data information. A two-gate readout device of a digital x-ray image detector, characterized in that the configuration. The image processing unit of claim 3, wherein the image processing unit And a logic circuit configured to sum the outputs of the data lines into two sets and output the combined data. The apparatus of claim 3 or 4, wherein the two-gate readout device of the digital x-ray image detector is Input means for selecting and inputting the sensitivity of the detector substrate of 1 pixel, 2 pixels or 4 pixels; Control means for transmitting a control signal of the input means to a control signal of the gate driver and the image processor; And a substrate sensitivity is selectively determined, the two-gate readout device of a digital x-ray image detector.