JPS59191991A - Picture display device - Google Patents

Abstract

PURPOSE:To emphasize the difference of variable density for a display picture owing to the difference of data value by providing a nonlinear amplifier to an amplifying circuit for signal underwent D/A conversion of a picture display device. CONSTITUTION:The output signals of D/A converters 2a-2c are supplied to nonlinear amplifiers 30a-30c or 31a-31c through changeover switches 8a-8c. The signals amplified by the nonlinear amplifiers are amplified again by linear amplifiers 32a-32c or 33a-33c. As a result, the difference of amplitude between output signals of a D/A converter 2a and D/A converters 2b and 2c, i.e., the difference of data stored in memories 1a and 1b is increased. Then the output voltages of amplifiers 32a-32c or 33a-33c having increased difference of data values are impressed to cathodes R, G and B of a color CRT4.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an image display device for a digital radiography device in a medical X-ray imaging device.

A conventionally considered device of this kind will be explained with reference to FIG. First, data are collected before and after administering a contrast agent, which has the property of being concentrated in a desired part of the subject, to a subject (not shown). The amount of contrast medium taken up in the part of the subject that receives the contrast medium changes over time, so the data for that part differs before and after the contrast medium is administered, and the part that does not receive the contrast medium changes over time. Although they are the same, the data before and after administration of the contrast medium are stored separately in the memo 1J1B, lb after collection.

After data is stored in, for example, all addresses of memories la and lb, the data is read out sequentially, and each D/A
Analog amount (voltage) according to the value in converters 2a and 2b
After the signal is converted into , it is amplified by amplifiers 3 a and 3 b and applied to the cathodes R and G of the color CRT 4 for red and green, respectively. In this case, a digital converter 2c and an amplifier 3c are similarly provided between one of the memories, here the memory 1b, and the blue cathode B of the color CRT 4. Therefore, a voltage corresponding to the value of the data stored in the memory 1b is applied to the cathode R of the color CRT 4, and a voltage corresponding to the value of the data stored in the memory 1b is applied to the cathodes G and B. Ru. At this time, the addresses of the memories la and lb are designated by the address controller 5, and the corresponding address on the screen of the color CRT 4 is determined by converting the signal from the address controller 5 into an analog quantity by the D/A converter 6. , is amplified by the amplifier 7 and then inputted to the deflection coil 4a. This includes the color CRT 4 screen and each memory la.
, lb are associated with each other, and the color CRT
On the screen 4, the distribution of the amount of contrast agent taken up in the desired part of the subject is displayed as a color image. In this case, when the values of each data stored at the same address in Memo 1Jla and lb are equal, the voltages applied to cathodes R, G, and H are also equal, and red, green, and blue are balanced and white will be displayed. When the values of each data are not equal, the voltages applied to cathode R and cathodes G and B are also not equal,
Red, green, and blue are unbalanced, and the color is displayed according to the degree of unbalance. In this case, when the difference between the values of each data is large, the color is displayed darkly, and when the difference is small, the color is displayed lightly.

However, in such an image display device, the color shading does not appear clearly except when the difference between the values of each data is large, and the displayed image is generally unclear. For this reason, there is a drawback in that it becomes difficult to observe the displayed image and find out the difference between the values of each data, especially whether there is a difference or not.

The present invention has been made to eliminate the above-mentioned drawbacks, and it is possible to display a clear image even if the difference between the values of each data stored at the same address in each memory is small. An object of the present invention is to provide an image display device that can easily find differences in data values.

The present invention will be described in detail below with reference to FIGS. 2 and 3. FIG. 2 is a block diagram showing an embodiment of an image display device according to the present invention, and in FIG. 2, the same reference numerals as in FIG. 1 indicate the same parts.

8a to 8C are changeover switches, 30a to 30c and 31a to 31c are nonlinear amplifiers, and 3 of these are nonlinear amplifiers.
0a to 30C are logarithmic amplifiers that amplify the input signal in a logarithmic relationship, and 31a to 31c are square amplifiers that multiply the input signal to the second power. 32a-32c and 33a
-33c are linear amplifiers, and these Richi 32a~
32c is a linear amplifier that multiplies the output signal of the logarithmic amplifiers 30a-30C by a certain number, and 33a to 33c are linear amplifiers that reduce the output signal of the square amplifiers 31a to 31c to a fraction thereof. When the value of each data stored in the memories la and lb is small and the difference between the values of each data is also small, the switches 8a to 8C switch the data stored in the memories la and lb to the logarithmic amplifiers 30a to 30c. Although each data value itself is large, when the difference between the data values is small, the selection is switched to the square amplifiers 31a to 31c.

Next, the operation of the apparatus of the present invention will be described. Since the operation is the same as that shown in FIG. 1 except for the amplification operation of the output signals of the converters 2a to 2C, the amplification operation will be mainly explained here. That is, the output signals of the converters 2a to 2C are as follows:
The nonlinear amplifiers 30 a - 30 c or 31 a - 31 C (in the illustrated example, the logarithmic amplifiers 30 a - 3
0c). Nonlinear amplifier 30a-30
The signals amplified by linear amplifiers 32a to 32c or 33a to 33c are further amplified (including an amplification factor of 1 or less). This indicates the difference in the amplitude of each output signal between the D/A converter 2a and the converters 2b and 2c, in other words, a memo! Since the difference between the values of each data stored in Jia and 1b is expanded, the linear amplifiers 32a to 32e or 33a to 3 with the expanded difference are
3c (linear amplifiers 32a to 32c in the illustrated example) are applied to cathodes R, G, and B of the color CRT 4. At this time, as in the case of Fig. 1, the color CRT 4
screen and each memo! Since the respective addresses jla and lb are associated with each other, a color image of the distribution of the amount of contrast agent taken up in a desired part of the subject (not shown) is displayed on the screen of the color CRT 4.

In this case, the difference between the values of each data stored in the memories la and lb is determined by the nonlinear amplifier 30a-30c or 31a~
31c, the color shading in the image that corresponds to the difference between the values of each data item is clearly emphasized even when the actual difference between the values of each data item is small. Become.

Incidentally, an example of a digital radiography apparatus in which the above-mentioned apparatus of the present invention is used is shown in FIG. In FIG. 3, 10 is an X-ray tube, 11 is a subject, 12 is an image intensifier, 13 is a television camera, 14 is an amplifier, 15 is an A converter, 16 is a changeover switch, and 17 is the above-mentioned device of the present invention. It is. The operation up to the time when a signal is input to the device 17 of the present invention will be briefly explained as follows. First, X-rays emitted from the X-ray tube 1o pass through a desired portion of the subject 11 and enter the image intensifier 12. The output of the image intensifier 12 is input to the television camera 13, and after being amplified by the amplifier 14,
~ It is converted into a digital quantity by the wheat converter 15, and is inputted to the device 17 of the present invention via the changeover switch 16, that is, stored in the memories la and lb. Changeover switch 1
6 performs a switching operation so that the data before administration of the contrast medium to the subject 11 (~output of the wheat changer 15) and the data after administration are stored in the memory 1a or 1b.

As described above, in the present invention, the circuit for amplifying the signal after D/A conversion is configured with a nonlinear amplifier, so that the difference between the values of each data stored in each memory can be electrically The color shading in the image corresponding to the difference between the values of each data is clearly emphasized and displayed even when the difference between the values of each data is actually small, and the displayed image becomes clear. . Therefore, there is an effect that the difference between the respective data can be easily found from the image. Conversely, it also has the effect that images comparable to those of conventional devices can be obtained even with a small dose of contrast medium.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a conventional image display device, FIG. 2 is a block diagram showing an embodiment of the image display device according to the present invention, and FIG. 3 is a block diagram showing an embodiment of the image display device according to the present invention. 1 is a block diagram showing an example of a digital radiography apparatus. la, lb...memory, 2a-2c...D/A converter, 30a-30c, 318-31c...nonlinear amplifier, 32a-32c, 33a-33c
...Linear amplifier, 4...Color CRI', 4a
...Deflection coil, R, G, B...Cathode of color CRT, 5...Address controller, 6...D/
A converter, 7... amplifier. Patent applicant: Hitachi, Ltd. Hitachi Medeico, Ltd.

Claims (1)

[Claims] After D/A converting the outputs from a plurality of memories storing data collected under mutually different photographing conditions, the outputs are amplified and transferred to different cathodes of a color CRT with the screen of one color CRT and each address of each of the memories. In an image display device for digital radiography IT that displays the data as a color image by inputting the data in correspondence with each other, the D
/ An image display device characterized in that each of the circuits for amplifying a signal after A conversion is configured to include at least a nonlinear amplifier.