DE4211427C2 - Method for reducing the flickering of brightness of video images - Google Patents

Description

The invention relates to a method for reducing of the flickering brightness of video images on the Beam path of a motion picture camera directed video camera according to the preamble of claim 1 and on a front direction to carry out the procedure.

DE 38 33 823 C1 describes a method for reducing of the flickering brightness of video images on the Beam path of a motion picture camera directed video camera known with a CCD imager, in which the charge of a Integrated video field and the signal voltage of the Video fields as video input signal of a screen and / or a video recording device. In which known method is the video output signal of the Video field multiplied by a correction factor, which is a function of the ratio of the middle Belich time of a video field to the actual, from the Speed and phase position of the rotating mirror diaphragm Motion picture camera and the integration window of the Videobil of the dependent exposure time of the video field. In the known method, the amplitudes of the video fields present at the output of the video camera, that fluctuate according to the real exposure values, multiplied by a multiplication factor, its value fluctuates by one depending on the ratio the average exposure time to the true exposure time,  so that to a monitor or a video recording device output video signal a signal constant amplitude.

This procedure can be used with 1-chip CCD video cameras Color stripe filters are used, because after the so-called "frame integration mode" works, which the Video signal reading of the previous, sampled th picture only allowed one picture period later. A night part of the use of this 1-chip CCD video camera with color Strip filter is an insufficient sensitivity, from which a considerable loss of brightness when reproduced Image results.

It is desirable to use a CCD video camera with Complementary color filters in a mosaic arrangement for video out mirroring on a film camera because its sensitivity around is two to three aperture steps larger than that of a 1-chip CCD video camera with color stripe filter. This increased Sensitivity is desired because of the Mirroring the video beam path from the viewfinder beam path using a beam splitter only a limited one Amount of light is available as a reduction in the Brightness of the viewfinder image only permitted to a small extent becomes. The CCD video camera with complementary color filter in On the other hand, mosaic arrangement leaves only one so-called "Field Integration Mode", that is, the respective CCD charge is deleted with every field reading, see above that when used as a video signal generator in one run image camera because of the rotating mirror aperture a strong one The result is flickering brightness.  

Another problem that is reflected in additional brightness or expresses exposure fluctuations, consists in the phases shift between the iris pulse signals of the barrel image camera and the video aperture signals of the video camera different frequencies or running speeds of the Motion picture camera and video frequency. This is usually the case used film frequency 24 Hz while the video frequency either 2 × 25 Hz for the PAL system or 2 × 30 Hz for the NTSC system is. If the running speed deviates from this The motion picture camera will still have phase shifts larger and lead to considerable fluctuations in brightness in the reproduced video image.

A control circuit for control is known from EP 0 162 311 A2 tion of a rotating mirror diaphragm periodically interrupted beam path of a motion picture game gel reflex camera arranged and also color carrier signals emitting video camera known to avoid a Image flicker of one generated with the video output signal Video image with periodically interrupted light supply for Video camera reading the charge image of the video camera periodically prevented at least during the period, during the supply of light from the object to be recorded to the video camera. The position of the mirror aperture detected by a position sensor that outputs an output to the control circuit, which outputs to a control input a digital electronic and especially as a change Image memory with two partial areas of image memory cher is connected, the image data transfer, the is called the storage of the video output signal of the videoka mera controls that after taking over part image or image from the video camera under the control  of a takeover signal the storage of the video output signal interrupted and only when a Takeover signals the next picture or the drawing from the Video camera is taken over. Since the image memory is one frequency decoupling of the transfer of charge images from the video camera to the image memory and reading the Image storage at its output allows the image memory on the output side with a frequency that of the field rate of a desired remote conforms to the visual norm.

From US 4,928,171 is a video assist system with a Semiconductor image sensor known in the one of a rotie rende Spiegelblende periodically interrupted beam path a motion picture camera is arranged. To reduce the Brightness flickering due to the periodic interruption the light supply to the semiconductor image sensor are an intermediate memory and an image memory are provided which have a frequency moderate decoupling of the transfer of charge images from the Allow semiconductor image sensor by the image memory are read out on the output side at a frequency which corresponds to the desired signal format. Also with this be known video assist system is a color picture and playback with color signals, color image filters and the Processing of three color channels provided.

EP 0 459 612 A2 describes a video assist system for known a motion picture camera in which to eliminate the Intermittent image flickering of a modified video camera is operated and an image memory for decoupling the  video output from the modified video camera signals from a standard output as an output signal th continuous video signal is provided.

The object of the present invention is a method and a device for reducing the brightness flim merns of the video image one on the beam path one Film camera-facing video camera with a CCD screen with maximum sensitivity and horizontal resolution create solution.

This object is achieved by the characterizing Feature of claim 1 solved.

The solution according to the invention creates a significant reduction Brightness flickering for video cameras with one CCD imager and a complementary color filter in mosaic arrangement, that is, a video camera with high emp sensitivity and one compared to color CCD video cameras stripe filter significantly improved horizontal resolution solution.

An advantageous embodiment of the invention Solution is characterized in that the phase shift Exercise between the aperture pulse signal and the video syn Chronsignal as a control signal for the voltage controlled Amplifier (VCA) of the video camera is used. The use the detected phase shift between the camera Iris pulse and the video frequency signal as a control signal for the existing voltage controlled amplifier light a low circuit complexity as well a small volume and minimal additional costs.  

Another advantageous embodiment of the fiction moderate method is characterized in that the by the rotating mirror aperture caused blanking or Reading gap of the video signal by means of a stored Field is filled. Filling out the blanking space by means of a previous field avoids one so-called stroboscopic effect and enables a separate Reduction of the flickering brightness caused by the one hand the phase shift between the camera aperture pulse and the video frequency signal is caused, and others partly due to the rotating mirror cover, for the optional additional measures, such as an amplitude correction or the like can.

Another advantageous embodiment of the fiction The method is characterized in that the ampli regulation of the video delivered to the image memory signals below a predetermined circulation frequency of rotating mirror aperture is turned off or the long Blanking space filled in with the previous field will, however, which has a slight stroboscopic effect brings.

A device for performing the invention Procedure is characterized in that in the moving picture camera on the speed and phase of the rotating Mirror aperture detecting sensor is arranged, the Output signal to an input of a comparator is placed that a second input of the comparator with the video sync signal output from the video camera  is applied that the outcome of the comparison the with a control input of the voltage controlled Ver Stronger the video camera is connected, and that the Vi deo signal output of the voltage controlled amplifier with an image specimen having a video signal output cher is connected.

The invention is described below with reference to the drawing illustrated embodiment explained in more detail. It demonstrate:

Figure 1 is a block diagram of a motion picture camera with a video camera with CCD image converter and complementary color filter in a mosaic arrangement.

Fig. 2 is a block diagram of the amplitude control infol ge of the phase shift between F-stop pulse and video frequency signal;

Fig. 3 is a timing chart of various signals in the block diagram of FIG. 1 and

Fig. 4 is a functional diagram for explaining the image compilation in standby mode, with slow camera speed and at high camera speed.

Fig. 1 is a block diagram showing a coupled with a motion picture camera 1 video camera 2, an image memory 3 and a screen 5 and a video recording apparatus 6. The motion picture camera 1 includes a lens 11, a rotating mirror shutter 12, and a film plane 13, in which the motion picture film moved by means of an unspecified set Darge transport device and out of the Filmkas sette is unwound 4 and wound into the film cassette. 4

A focusing screen 14 and a beam splitter 15 ge reflected by the rotating mirror shutter 12 beam path through a focusing screen 14 reaches a Strahlentei ler 15, from which a part of the beams to a viewfinder 17 and the other part of the beam via a terminal 18 to the video camera 2 is directed.

In order to provide the cameraman with a sufficiently bright viewfinder image, the beam splitter 15 branches at least 50% of the light reflected by the rotating mirror diaphragm 12 into the viewfinder beam path, but better 80% of the light reflected from the rotating mirror diaphragm 12 and thus the remaining 20% to the video camera 2 ,

Because of the small proportion of the rays branched off into the optics of the video camera ra 2 , it is of particular importance that the video camera 2 has a high sensitivity, so that a video camera with a complementary color filter in a mosaic arrangement is selected from the available video cameras with a CCD image converter whose sensitivity is two to three stops higher than that of video cameras with a CCD imager and color stripe filter.

Since this form of a video camera with a CCD image converter only allows the so-called "field integration mode", in which the CCD charge is erased with each field reading, there is a strong flickering of brightness in a viewfinder image reflection on a motion picture camera. In order to reduce this disturbing flickering brightness on the monitor 5 or the video recording device 6 , certain measures are provided, which will be described in detail below.

In the area of the rotating mirror diaphragm 12 , which is usually a mirror diaphragm with a mirror sector of 180 ° or possibly a larger mirror sector, a sensor 16 is provided which detects the rotational speed of the rotating mirror diaphragm 12 and its position, that is to say the phase position , detected. The signal detected by the sensor 16 is emitted as an aperture pulse to a control and regulating device 3 , which contains an image memory 30 . In addition, the control and regulating device 3 has display and operating elements 34 , 35 .

The control and regulating device 3 is connected to the video camera 2 via a video signal line VS, an aperture pulse line BI and a voltage or power supply V. With the motion picture camera, the control and regulating device 3 is connected via a current or voltage supply line V, a synclock line SC and an aperture pulse line BI. A video output 36 connects the control and regulating device 3 via a line VO with the monitor 5 and optionally with the video recording device 6 .

Via the synclock line SC, a coupling is established between a time code device of the motion picture camera 1 and the video camera 2 , that is to say certain and accordingly logged beginnings of film sequences or the length of the film sequences can be recorded synchronously. This creates the synchronicity between the film and the video image in a video recording.

With the help of the operating or setting elements 34 , 35 , the regulation for reducing the flickering of brightness can be switched on and off, a certain image representation can be frozen and a comparison can be made between the stored and the real image.

The video output signal provided at video output 36 can be made available according to the PAL or NTSC standard with 50 Hz and 625 lines or 60 Hz and 525 lines.

Fig. 2 shows the structure of the control and regulation device 3 , which consists of a programmable binary counter 31 , an octal flip-flop 32 and a digital / analog converter 33 . The mode input of the programmable binary counter 31 is assigned the selection of the television standard, that is to say a PAL or NTSC standard. The clock input (clock) is occupied by the video horizontal deflection signal, while the horizontal deflection signal is applied to the clock input (clock) and the aperture pulse signal BI of the motion picture camera 1 is applied to the clock activation input (clockenable). The flicker control can be switched off via a preset input, for example when the camera is at a standstill, while a reset input is acted upon by the video frequency signal, which is simultaneously output to the latch input of the octal flip-flop 32 .

The output of the programmable binary counter, which is representative of the phase deviation between the aperture pulse signal and the video frequency signal, outputs a digital 8-bit signal to the octal flip-flop 32 . The respective counter reading of the octal flip-flop 32 gives the measure of the amplification to reduce the flickering brightness as digital 8-bit information from the digital / analog converter 33 , the output of which is connected to the control input of a downstream voltage-controlled amplifier 20 .

By specifying a binary counter value on the preset input line of the programmable binary counter 31 , for example a counter reading "127", the octal flip-flop 32 outputs a constant value if this value is maintained, while with a smaller counter reading a lower gain and in the case of a larger counter than "127", a greater gain on the voltage-controlled amplifier 20 was specified.

The voltage-controlled amplifier 20 is arranged between the video input and the video output and, if appropriate, a component of the video camera with a CCD image converter. The video output signal still contains the blanking gap due to the rotating mirror diaphragm, which must be filled up by means of a stored field in the image memory. The video output signal represents a constant signal value which is independent of the camera speed and is delivered to the image memory 30 according to FIG. 1, so that the phase control compensates for amplitude fluctuations before they reach the image memory 30 .

FIG. 3 shows a time representation of the individual signals in the block diagram according to FIG. 1.

In Fig. 3A, the horizontal deflection pulse CLP3 is Darge, which is 15.625 kHz in the PAL system and 15.75 kHz in the NTSC system.

Fig. 3B shows the CCD discharge signal SG1, which is forwarded to the Digi tal-to-analog converter.

Fig. 3C shows the so-called anti-flicker power-- AON that the CCD discharge pulses SG1 switches from normally 50 Hz or 60 Hz to 25 Hz or 30 Hz. The true exposure time of the CCD sensor is measured in that the counter is clocked by the horizontal synchronizing pulses CLP3 according to FIG. 3A during the opening phase of the sector aperture. With the negative CCD discharge pulses, the digital-to-analog converter takes over the current counter reading, and at the same time the counter is reset. These relationships are shown in FIGS. 3D and 3E.

Here, FIG. 3D video-shutter pulse VBP or in the gaps, the camera exposure time, wherein the 3D registered periods in Fig. T1A + T1B, T2A respectively the true exposure resulting time in the sum + T2B and TNA + TNB.

FIG. 3E shows the counter status of the 9-bit counter and its reset each time a CCD discharge pulse SG1 according to FIG. 3B occurs.

Fig. 3F shows the control voltage VGC of the voltage-controlled amplifier, which can be determined in the aforementioned manner for the voltage-controlled amplifier from the second measuring period, while the first stage is not yet correctly calculated. The amplitude fluctuation with different film cameras and video frequencies is thus reduced to a minimum.

Fig. 4 shows a functional diagram of the Antiflicker-Ver gain control, in which the camera exposure, the video exposure, the output signal of the video camera and the output signal of the video image memory are shown schematically in the individual FIGS . 4A, 4B and 4C.

In Fig. 4A, the ratios are in the standby scarf camera tung shown, take place in which only video exposures.

Fig. 4B shows the ratios when the camera speed is slow, while in Fig. 4C the ratios are shown at a high camera speed.

Claims (7)

1. A method for reducing the flickering of brightness of video images on the beam path of a motion picture camera with a rotating mirror aperture, the speed and position of which is detected by a sensor and emitted as an aperture impulse signal, directed in field integration mode video camera working with a CCD Image converter with complementary color filter, and with an image memory and a video signal output, characterized in that the phase shift between the aperture pulse signal (BI) and the video synchronous signal is detected and the amplitude of the video camera ( 2 ) from the image memory ( 30 ) Given video signal is controlled depending on the size of the phase shift between the aperture pulse signal (BI) and the video synchronization signal. 2. The method according to claim 1, characterized in that the phase shift between the aperture pulse signal and the video synchronization signal is used as a control signal for the voltage-controlled amplifier ( 20 ) of the video camera ( 2 ). 3. The method according to claim 1 or 2, characterized in that the blanking or readout gap of the video signal caused by the rotating mirror aperture ( 12 ) of the motion picture camera ( 1 ) is filled by means of a stored field. 4. The method according to any one of the preceding claims, characterized in that the amplitude control of the video signal output to the image memory ( 30 ) is switched off below a predetermined rotational frequency of the rotating mirror diaphragm ( 12 ). 5. The method according to any one of the preceding claims 1 to 3, characterized in that the blanking gap is filled with the previous field below a predetermined rotational frequency of the rotating mirror diaphragm ( 12 ). 6. Device for performing the method according to any one of the preceding claims, characterized in that in the motion picture camera ( 1 ) a the speed and phase position of the rotating mirror diaphragm ( 12 ) detecting sensor ( 16 ) is arranged, the output signal to an input of a comparator ( 31 , 32 , 33 ) is placed that a second input of the comparison element ( 31 , 32 , 33 ) is acted upon by the video synchronization signal emitted by the video camera ( 2 ), that the output of the comparison element ( 31 , 32 , 33 ) is connected to a control input of the voltage-controlled amplifier ( 20 ) of the video camera ( 2 ), and that the video signal output of the voltage-controlled amplifier ( 20 ) is connected to an image memory ( 30 ) having a video signal output. 7. The device according to claim 6, characterized in that the comparator has a programmable binary counter ( 31 ), an octal flip-flop ( 32 ) and a digital-ana log converter ( 33 ) that a clock enable input of the programmable binary counter ( 31) aufschlagt with the shutter pulse be that the clock input of the programmable binary counter (31) with the video horizontal synchronization signal is applied, that a reset input of the programmed cash binary counter (31) to the CCD-discharge signal beauf beat, and that the CCD discharge signal is applied to a latch input of the octal flip-flop ( 32 ).