Line converter for image display device

专利摘要:
The brightness signal for an image display device is digitally processed using an analog to digital converter to translate the signal into digital words. A primary shift register is connected to the output of the analog to digital converter. The primary shift register has a stage capable of containing a digital brightness word for each element in the display line of the device. The primary shift register has a plurality of parallel outputs being spaced X number of stages from each other. Each output is connected to a separate secondary shift register which has X stages.
公开号:SU1037848A3
申请号:SU772544048
申请日:1977-11-09
公开日:1983-08-23
发明作者:Джером Марлоув Фрэнк
申请人:Рка Корпорейшн (Фирма)；
IPC主号:

专利说明:

The invention relates to automation and computing, in particular, to image reproducing devices and systems that convert a standard image luminance signal for use in reproducing Devices with modular execution.
JlsBecTHO Indicator. Device on cathode-ray tubes, which contains several video monitoring devices fl.
The disadvantage of this device is considerable bulkiness.
The closest to the invention in its technical nature is a line converter, consisting of a number of modules having each electron beam, which scans a part of the screen in the .G2 device}.
In such devices, the electron beams of each module scan the screen synchronously, which reduces accuracy by increasing the capacitance when scanning beams in one direction.
The aim of the invention is to improve the accuracy of the transformed by reducing the intermodular capacitance.
The goal is achieved by introducing a reverse shift registers each in a line converter containing an analog-to-digital converter with n output bits and channels, in each of which a register is connected in series, a shift register, a digital-analog converter, an amplifier and an electron gun. of which is set between the output of the corresponding p | azp da analog-digital converter and the register input of each channel.
l Nafig, 1 given design; Fig. 2 is a block diagram of a line converter for an image reproducing device.
. The plane reproducing device 1 (FIG. 1), comprising a scanning deflecting system, comprises an evacuated shell 2, made generally of glass, and having a reproduction section 3 and a section 4 of electron guns.
g-,
Section 3 of the reproduction includes a rectangular front wall 5 and a rear straight line parallel to a certain distance from it. the carbon wall .6., the front wall 5 and the rear wall 6 are connected by side walls 7. The front wall 5 and the rear wall 6 are dimensioned, providing the required image size. The front wall supports a cathode luminescent screen, formed from light-emitting phosphors of various colors.
Between the front and rear walls 5 and 6 there are supporting partitions 9 made of electrically insulating material, for example glass. The partitions 9 provide support from inside the evacuated shell 2 and divide the reproduction section 3 into n modular channels 10. Each channel 10 has three electron beams, mounted in section 4 of the electron guns, which scan a portion of the reproduction screen between adjacent supporting partitions 9. Rays excites light-emitting phosphors of different colors inside each module. Thus, the screen of the reproducing apparatus is divided into a number of zones, which are scanned by electron beams simultaneously in all channels. In order to reduce the intermodular capacitance, the scan in adjacent modules is reproduced in opposite directions. The rays in the first channel are scanned from left to right, while in the second channel the beam “is scanned to the right to the Left. In the following channel, the rays scan from left to right, etc. on the whole screen
Since the rays in each channel scan the reproducing screen at the same time, a normal (for example, NTSC) television signal, acting in a conventional electron beam tube sequentially, must be converted so that the video information or the luminance signal can be sent to. each channel 10. simultaneously.
Inline scan converter 11 (Fig. 2) is used to control all electron guns 12, which generate electron beams for one color of the entire device. For a color reproducing device, it is therefore necessary to have three such schemes. The present circuit can be used with a monochromatic reproducing device, where only one transducer is required. Transducer 11 uses a (five-bit) analog-to-digital converter 13, the output of which is connected to a reverse shift register 14. The reverse shift register 14 includes the first register 15 is the second shift register 16 for each bit of the analog-to-digital converter 13. Each first (shift) register 15 has both a serial and a parallel output / a sequence The input is connected to the analog-to-digital converter 13. Each VTOR9 shift register 16 has a serial output and parallel inputs connected to the parallel outputs of the corresponding first shift.
register 15, the switches 17 alternately connect the output line 18
either c. sequential output 19 of one of the first shift registers 15, or with sequential output 20 of the corresponding second shift register 16. Output lines 18 feed the primary shift register 21, the number of steps more than which is 1 number of elements of the same color in the line of the reproduced image 10 640 steps cp NTVs television reproducing device) A Each stage stores one digital word for one of the elements of the line. The primary 15 register, 21 is divided into segments 22, corresponding to each channel of the vosg production device. For example, a device for reproducing a standard can have forty channels lOj each of which irradiates sixteen elements, images in each row, therefore, the primary register will have forty segments of sixteen steps in each. - Each segment 22 can be run-. not “as a separate shift register having sixteen steps and consecutive input and output. First the 1st shift register has a series of parallel outputs so that each 30 segment 22 has a separate output that is connected to a separate secondary reversible shift register 23. Therefore, for each segment 22 of the primary shift 35 register 21 there is a secondary shift register 23. The output of each secondary shift register 23 feeds the control circuit of the electron gun in each channel 10. The control circuit to the electron gun may contain, for example, a digital-to-analog converter 24 and an amplifier 25.
A conventional .NTSc video signal enters an analog-to-digital converter, tel 13 via line 26, and is converted into a five-bit digital word. Words with more digits can be used to produce finer gradations of signal luminance. Each digit of the digital word from the converter 13 enters the reversing register 14. As mentioned above, the adjacent modules or channels of the reproducing device are scanned in opposite directions. Investigator-55 but the luminance signal must be reversed for each subsequent channel.
The luminance signal received in the first shift register 15, sequentially. - 60
It is readily read for the first channel, since the switches 17 connect the output line 18 to the serial output of the first shift register 15. The first sixteen words pass through the first shift registers 15 to the output lines 18 directly, not pass through the second shift registers 16. The luminance signal for the second channel 10 must be reversed to provide a reverse scan on that channel. To do this, the next sixteen words of the luminance signal, which are intended for the next channel, are transferred from the first shift registers .15 to the second shift registers 16 in parallel form. From the second shift register, these words are read backwards, ke, compared to how they entered the shift registers .15, i.e. The first word in the first shift register 15 will be the last word in the second shift register L6. In this case, the switches 17 change their state, so that the outputs of the second shift registers 16 will be connected to the output lines 18.
Digital luminance signal then. consistently passes all steps of the first shift register
21 until all 640 steps have been filled with the words of brightness for the whole line. At this moment, the pole, the eleven steps in each segment
22 will contain luminance signals for scanning in each channel 10. During the subsequent retrace of the beam in the playback device
the clock pulses on line 27 and line 28 translate the sixteen layers in each segment 22 of the primary shift register 21 into the corresponding secondary shift register 23. During the scanning of the second line, each word in the secondary shift register 23 in each channel is output from this register by a clock signal on the line 28. These words enter the corresponding digital-to-analog converters 24, are amplified by amplifiers 25, and are fed to electron guns 12 shown schematically. At that time, when the luminance words are output from the secondary register 23, the digital luminance signal for the next line passes through the analog-to-digital converter 13, the reversing register 14, and the primary register 21.
The flaHH tS converter can significantly improve the accuracy of the conversion.

权利要求:
Claims (1)
[1]
LINE CONVERTER FOR PLAYBACK IMAGE -
FIG. f
Razzheniya containing an analog-to-digital (converter with η output bits, and channels /, in each of which * · '. They are connected in series' register, shift register, digital-to-analog converter, amplifier and Electron gun electronic-vacuum modular display device' information on the fact that, in order to increase the accuracy of the conversion by reducing the intermodular capacitance, reverse shift registers are introduced into it, each of which is installed between the output of the corresponding discharge analog -DIGITAL inverter and the input of each channel register. "

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同族专利:

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DE2750343A1|1978-05-11|

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IT1087336B|1985-06-04|

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FI773296A|1978-05-11|

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JPS5361220A|1978-06-01|

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引用文献:

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US3725578A|1971-06-25|1973-04-03|Bell Telephone Labor Inc|Digital video receivers|

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US3943281A|1974-03-08|1976-03-09|Hughes Aircraft Company|Multiple beam CRT for generating a multiple raster display|

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US4028582A|1975-09-22|1977-06-07|Rca Corporation|Guided beam flat display device|US4257068A|1979-11-29|1981-03-17|Rca Corporation|System for periodically reversing the order of video data in a flat panel display device|

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US4326151A|1980-12-16|1982-04-20|Rca Corporation|Scanning waveform generator for flat panel display devices|

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KR850000958B1|1981-02-10|1985-06-29|야마시다 도시히꼬|Image display apparatus|

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JPS6419653A|1987-07-14|1989-01-23|Futaba Denshi Kogyo Kk|Flat display device|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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US05/740,770|US4080630A|1976-11-10|1976-11-10|Line scan converter for an image display device|

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