CN100435561C - Image pickup apparatus and method of controlling the same - Google Patents
Image pickup apparatus and method of controlling the same Download PDFInfo
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- CN100435561C CN100435561C CNB2006100999798A CN200610099979A CN100435561C CN 100435561 C CN100435561 C CN 100435561C CN B2006100999798 A CNB2006100999798 A CN B2006100999798A CN 200610099979 A CN200610099979 A CN 200610099979A CN 100435561 C CN100435561 C CN 100435561C
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Abstract
An amount of exposure in a still imaging mode is increased as compared with the amount of exposure for mode is increased as compared with the amount of exposure for one field in the motion picture imaging mode, preferably twice as large as the latter. In the still picture mode, electric charges are swept out from a CCD by an exposure control simultaneously with closing of a diaphragm for adjusting the amount of exposure. Upon occurrence of error in the closing operation of the diaphragm, the amount of exposure in the still picture mode is set to a design value. On the basis of difference between the design value and an actually measured value of the amount of exposure, gain for video signal is corrected. In the motion picture mode, the diaphragm and the electronic shutter speed is adjusted for preventing flicker from making appearance under illumination of a fluorescent lamp in indoor photographing. The adjusted speed can be +E,fra 1/100 sec.
Description
This case is female case (application number: dividing an application 200410005443.6).
Technical field
The present invention relates to camera head and control method thereof.
Background technology
Along with the digitlization of signal processing, video camera has been developed diversified function.On the other hand, because output digital image signal at an easy rate, so, gazed at as the image-input device of computer etc.The image that computer etc. are handled is rest image normally, in order to obtain the picture signal of rest image, use now the civilian one-piece type VTR of video camera (video tape recorder), the picture signal record of 1 and even 1 frame arbitrarily that will be from the motion video of the one-piece type VTR output of video camera is in memory etc.The picture signal that is recorded in the memory etc. is imported computer as rest image.Te Kaiping 2-288679 communique has been put down in writing the technology of exporting the suitable rest image of exposure in video camera.
But common imaging apparatus is that the destructiveness that can only read the signal of 1 pixel is read, and is the pixel hybrid mode of reading after the signal of 2 pixels that vertical direction is adjacent mixes.When directly carrying out signal processing, can not generate the rest image of the resolution that matches with pixel count with above-mentioned playback mode.
As other well-known examples of the camera head that can take motion video and rest image, for example special camera head of putting down in writing in the clear 59-194575 communique of opening is arranged.Have earlier in the communique of patent application at this, disclose by opening and closing the camera head that aperture carries out the shooting of rest image.
But, usually, the iris apparatus majority that the image pickup part of home-use video camera uses is the iris apparatus with simple drive division of so-called gauge outfit formula, this iris apparatus uses coil and the permanent magnet that often uses in gauge outfit classes such as DC galvanometer, making it have the row who produces between the magnetic field of the magnetic field that produced by the electric current in the coil and permanent magnet tears power/attraction open and by the active force that the spring of the blade of aperture itself causes, utilizes these 2 equilibrium of forces to guarantee specific f-number.
The iris apparatus of this structure is original does not just consider high speed motion, so in order to carry out high speed motion, the servo loop of additional high-speed improves response speed again.
Therefore, if use the iris apparatus of gauge outfit formula,, be difficult to carry out the high speed on-off action of aperture when when obtaining in the above-mentioned example that everybody knows the needed rest image shooting of disclosed such effect (rest image pattern).So, carrying out rest image when shooting actual in the past, most cases is that the mechanical shutter that can carry out the high speed on-off action is set in addition, uses this shutter to be used for the on-off action of rest image shooting.
The same with the above-mentioned example that everybody knows, for small-sized, light weight, low price realization and the corresponding camera head of motion video and rest image two aspects, also must make the needed structure of control exposure simple as far as possible.As this device, can consider to use gauge outfit formula iris apparatus as described above, still, as previously mentioned, in the iris apparatus of this gauge outfit formula, f-number is difficult to rapid response.In addition, in the above-mentioned example that everybody knows in the disclosed structure, owing to only carry out the removing of electric charge by the field duration, so, when carrying out the high-speed camera of rest image, will produce following problems:
The f-number of (motion video pattern) or when carrying out the rest image shooting when 1. making a video recording according to the f-number of f-number under further closing state when the moving-coil picture is made a video recording according to motion video, in order to obtain to be used for the suitable exposure of rest image, need be than the i.e. exposure of big aperture time of time of 1 of the required aperture time of motion video.
2. in order to shorten the time for exposure of rest image when shooting (rest image pattern), must make it aperture, to guarantee exposure by the enlarged openings footpath greater than the aperture of under motion video, setting.So, the signal of rest image shooting beginning is imported (after, be called rest image shooting order) time begin further to open the action of aperture, but, at this moment, aperture is transferred to opening direction and is shifted, and formation is over-exposed between the motion video period of output, exports this image in this case.
3. in the above-mentioned example that everybody knows, the iris apparatus that uses as shutter is by moving the prerequisite invention of set point rapidly and exactly, still, in fact, in order to realize this iris apparatus, as previously mentioned, must consider to be used to new servo loop that keeps exposure accuracy etc.
Below, utilize Figure 1A and Figure 1B that the problems referred to above are described.Figure 1A is the situation that the f-number when not upgrading the motion video shooting carries out controlling when rest image is made a video recording exposure.The longitudinal axis is represented the aperture area S of aperture, transverse axis express time t.In addition, a1~a4 is respectively the symbol that is used to discern each, is shown the exposure of each by the area shown in Va1~Va4.Ta1 represents 1 time, the time for exposure when ta2 represents the rest image shooting.Here, for purposes of simplicity of explanation, suppose that the aperture area S of aperture reduces linearly until locking.
In Figure 1A, be located at an a2 and send rest image when order shooting, because exposure Va2 and Va3 sum when the exposure Va1 during the motion video shooting that controlling exposes makes an a1 or a2 makes a video recording with rest image equate, so, need the time for exposure more than 1, if want to shorten ta2, just must improve the amplification quantity of signal, to remedy the exposure that reduces thereupon.
Figure 1B be when send for the time for exposure that shortens rest image when shooting driven image pickup to rest image switch image pickup mode order (after, be called rest image shooting warning order) time, make the situation of the control exposure of aperture when opening a side and shift, carry out then the rest image shooting.In Figure 1B, the part with meaning identical with Figure 1A is marked with identical symbol.B1~b5 is respectively the symbol that is used to discern each, by the exposure of the cartographic represenation of area shown in Vb1~Vb4 at each.
In Figure 1B, a b1, b2 represent that during the motion video shooting, a b3, b4 represent to be used between the preparatory stage of rest image shooting.The locking aperture is carried out on b5 limit, field, and the rest image shooting is carried out on the limit.Here, suppose to have sent in the b2 on the scene rest image shooting warning order,,, aperture is shifted to opening a side at the field b3 of rest image between the shooting preparatory stage in order to shorten the time for exposure of rest image shooting.Then, order the aperture locking according to the rest image shooting of field b4.Like this, even also can make Vb1 consistent with Vb4 with short exposure time.
But b3 on the scene becomes over-exposed state in the b4, during this period, must processing such as shelter to output signal.
In addition, in the b5 on the scene, be prerequisite under the situation of linearity that guarantees aperture fully and repeatable accuracy, to carry out locking, still, cause exposure error thereby deviation all can take place in fact each locking.
Summary of the invention
The present invention proposes in order to address the above problem, and purpose aims to provide with easy exposure system motion video shooting and rest image are made a video recording camera head that both get both.
According to the present invention, in order to achieve the above object, take following measure:
1. when carrying out the motion video shooting, use the aperture time of the electronic shutter function shortening picture pick-up device of picture pick-up device in advance, make aperture keep the more approaching state of opening and the control that exposes;
2. follow rest image shooting in case aperture is transferred to when opening direction, upgrade the speed of electronic shutter linkedly with this action, even changing of f-number also keeps suitable exposure;
3. the block action at the beginning aperture passes through to remove electric charge later on, carries out rest image with the short time for exposure and makes a video recording;
4. detect the state of aperture in the aperture block action process, the signal that obtains from picture pick-up device according to the state correction of this detection, thus revise the error that the mechanical part at aperture produces.
According to a kind of camera head of the present invention, it is characterized in that,
Have:
The light quantity restrictions, the part of blocking incident light,
Solid photographic device carries out opto-electronic conversion in each pixel to described incident light, have simultaneously remove at any time described pixel by opto-electronic conversion the shutter function of electric charge,
Signal processing part, carry out opto-electronic conversion at described solid photographic device signal as the output of the signal of video signal of live image or rest image,
The exposure control part by controlling the described shutter function of described light quantity restrictions and described solid photographic device, is regulated described exposure,
Incident light blocking control part is controlled described exposure control part, so that by described light quantity restrictions blocking incident light;
Accept the described exposure control part of incident light blocking control by described incident light control part, its control makes, interdicting the field of incident light work from carrying out described light quantity restrictions, during interdicting incident light fully at least to described light quantity restrictions, do not export described solid photographic device opto-electronic conversion electric charge, and control described light quantity restrictions and described shutter function, so that import the exposure that incident light interdicts the rest image after controlling by described incident light blocking control part, be more than interdicting the exposure of controlling preceding live image by described incident light blocking control part input incident light.
According to the invention described above, in exposure when motion video the is made a video recording control, the position that aperture is remained on open utilizes the electronic shutter control that exposes.After sending rest image shooting order, locking aperture limit, limit and its upgrade the speed of electronic shutter linkedly, so, for example, even under the slow situation of the response speed of iris apparatus, also can obtain the short time for exposure, thereby can obtain rest image with the high-speed shutter shooting.
In addition,,, the rest image that has provided the correct exposure amount can be reproduced, thereby good shutter shooting can be carried out by detecting and revising exposure error even because the driving of iris apparatus produces exposure error.
In addition, when sending rest image shooting order, in case making aperture transfers to when opening direction, just the speed of renewable electronic shutter, suppress because the variation of aperture causes the variation of exposure, because can keep suitable exposure status, so, preceding motion video output of rest image shooting and realization can not upset from of the switching of good motion video to the photograph mode of rest image.
Another object of the present invention is, also can generate pixel count with picture pick-up device and be the rest image of the resolution that the density of pixel matches in the rest image pattern.
So according to the present invention, in the rest image pattern, electric charge is that signal is exported independently from each pixel of picture pick-up device.On the other hand, in the motion video pattern, because output after the electric charge of 2 pixels mixes up and down in per 1, so in the rest image pattern, its output is less than the output of motion video pattern.When the output of the picture pick-up device of rest image pattern is handled with the output of motion video pattern the samely, will occur believing/making an uproar that (S/N) problem such as compares, so, in the rest image pattern, must improve the level of its output.
Therefore, in the rest image pattern, make at the total amount of the electric charge of putting aside on the picture pick-up device the quantity of electric charge greater than per 1 savings in the motion video pattern.Preferably making the former is 1.5~3.0 times of the latter.If less than 1.5 times, Shu Chu level is then not enough sometimes, and S/N ratio will reduce.On the other hand, if greater than 3.0 times, then need prolonging exposure time, this also is undesirable.Preferably make the output level of picture pick-up device in the rest image pattern be substantially equal to the output level of picture pick-up device in the motion video pattern, for this reason, making the total electrical charge amount of savings on the picture pick-up device in the rest image pattern is 2 times of per 1 electric charge amount of savings of motion video pattern basically.Have, the electric charge amount of savings is directly proportional with exposure again.
Can know above-mentioned purpose and effect from following description and accompanying drawing to embodiment.
Description of drawings
Figure 1A and Figure 1B are the exposures when motion video when shooting and rest image shooting in the research example.
Fig. 2 is the circuit structure block diagram of the camera head of one embodiment of the invention.
Fig. 3 is the figure of object lesson of the picture pick-up device of one embodiment of the invention.
Fig. 4 is the potential energy diagram of the picture pick-up device of one embodiment of the invention.
Fig. 5 is the potential energy diagram of the picture pick-up device of one embodiment of the invention.
Fig. 6 is that the electric charge of picture pick-up device mixes the sequential chart of reading.
Fig. 7 is the sequential chart that the electric charge of picture pick-up device is independently read.
Fig. 8 is the figure of exposure of the picture pick-up device of one embodiment of the invention.
Fig. 9 is the figure of the driving of the exposure of picture pick-up device of other embodiments of the invention and picture pick-up device.
Figure 10 is the figure of the driving of the exposure of picture pick-up device of other embodiments of the invention and picture pick-up device.
Figure 11 is the flow chart that is used to illustrate the action of embodiments of the invention.
Figure 12 is the figure of the driving of the exposure of picture pick-up device of other embodiments of the invention and picture pick-up device.
Figure 13 is the flow chart that is used to illustrate the action of embodiments of the invention.
Embodiment
The key diagram of the exposure control situation when Figure 14 and Figure 15 are motion video when shooting of other embodiments of the invention and rest image shooting.
Figure 16 is the key diagram of the block action characteristic of aperture.
Figure 17 is the key diagram of motion video when shooting (or rest image is between shooting preparatory stage) of other embodiments of the invention and the rest image control exposure status when making a video recording.
Figure 18 is the structure chart of the camera head of other embodiments of the invention.
Figure 19 is the key diagram of exposure control situation in motion video when shooting of one embodiment of the invention.
Figure 20 is the key diagram of exposure control situation in motion video when shooting of other embodiments of the invention.
Figure 21 is the key diagram of deviation of the block action of aperture.
The key diagram of the exposure control situation when Figure 22 is motion video when shooting of other embodiments of the invention and rest image shooting.
The key diagram of the exposure control situation when Figure 23 is motion video when shooting of other embodiments of the invention and rest image shooting.
Figure 24 is the structure chart of the camera head applicable to other embodiment of the present invention.
Figure 25 is the key diagram of block action characteristic of the aperture of other embodiments of the invention.
Figure 26 is the flow chart that is used to illustrate the exposure correcting process of the embodiment of the invention.
Figure 27 is the key diagram that is used to illustrate the exposure detection method of other embodiments of the invention.
The key diagram of the exposure control situation when Figure 28 is motion video when shooting of other embodiments of the invention and rest image shooting.
Figure 29~Figure 35 is the key diagram of exposure control situation in motion video when shooting of other embodiments of the invention.
Below, with reference to the description of drawings embodiments of the invention.
The 1st embodiment:
Fig. 2 is the structure chart of the camera head of the present invention the 1st embodiment.Among the figure, the 101st, lens, the 102nd, mechanical shutter, the 103rd, picture pick-up device, the 104th, amplifier, the 105th, A/D converter, the 106th, imaging signal processing circuit, the 107th, video camera control circuit, the 108th, mechanical shutter control circuit, the 109th, picture pick-up device drive circuit, the 110th, shutter release button.The object lesson of picture pick-up device 103 is shown in Fig. 3.In Fig. 3, the 121st, photodiode, the 122nd, vertical CCD, the 123rd, horizontal CCD, gr, mg, cy, ye are provided in a side of each lip-deep color colour filter of photodiode 121, gr is a green color filter, and mg is a magenta filter, and cy is a cyan filter, and ye is a yellow color filter.The photodiode that is provided with these colour filters is commonly referred to pixel.In addition, in Fig. 3, V1: vertical transfer pulse 1; V2: vertical transfer pulse 2; V3: vertical transfer pulse 3; V4: vertical transfer pulse 4.
The light of scioptics 101 inputs is through having been controlled the mechanical shutter 102 input picture pick-up devices 103 of f-number F by mechanical shutter control circuit 108, carry out light-to-current inversion by the lip-deep photodiode 121 that is located at picture pick-up device 103, in vertical CCD122, carry out pixel and mix, then via horizontal CCD 123 outputs.The output signal of picture pick-up device 103 is transformed to digital signal by A/D converter 105 after being amplified by amplifier 104, is defeated by imaging signal processing circuit 106 then.Imaging signal processing circuit 106 is to export after the picture signal such as NTSC with the signal transformation of input, simultaneously, the monochrome information of the body that is taken etc. is defeated by video camera control circuit 107.Video camera control circuit 107 is controlled mechanical shutter control circuit 108 according to the monochrome information of the body that is taken, so that the output of imaging signal processing circuit 106 reaches desirable intensity level, change the f-number F of mechanical shutter 102, and control picture pick-up device drive circuit 109 as required, thereby the speed of the electronic shutter that control picture pick-up device 103 has.
Below, electronic shutter is described simply.Fig. 4 is the schematic diagram of the electromotive force of picture pick-up device 103.Among the figure, the 131st, the electric charge of savings on picture pick-up device 103, the 132nd, readout gate, the 133rd, substrate voltage, the 134th, potential well, the 135th, channel stopper.Carried out electric charge such savings between readout gate 132 and potential well 134 as shown in the figure of light-to-current inversion by photodiode 121.When from picture pick-up device drive circuit 109 when picture pick-up device 103 is supplied with the electric charge erase pulses, the electromotive force of substrate electricity 133 descends.So as shown in Figure 5, the electromotive force of potential well 134 descends with the form that is drawn in the substrate voltage 133.Like this, electric charge 131 has got on regard to the part that is scavenged into substrate electricity 133.Channel stopper 135 is used to stop the electric charge from the vertical CCD122 corresponding with adjacent pixels to bleed.
In this structure, by pushing shutter release button 110, the control signal of shutter close just is input to mechanical shutter control circuit 108 from video camera control circuit 107, and mechanical shutter 102 is just becoming closed condition after the time in appointment under the control of mechanical shutter control circuit 108.Before mechanical shutter 102 becomes closed condition, the light of having imported picture pick-up device 103 is the same with above-mentioned action, carry out light-to-current inversion by the photodiode 121 that is located on the picture pick-up device 103, and mechanical shutter 102 be closed condition during transmit to horizontal CCD 123 via vertical CCD122, carry out exporting behind the voltage transformation with the horizontal sweep impulsive synchronization ground of supplying with by picture pick-up device drive circuit 109.At this moment, in case picture pick-up device 103 during from photodiode 121 read output signals, owing to do not stay signal at photodiode 121, so, if adopt common read method to be about to the read method of reading after 2 row mix, information that will lost frames.
Below, illustrate that 2 row mix the method that reads.Before pushing shutter release button 110, imaging apparatus 103 is read after 2 picture element signals that vertical direction is adjacent mix as the spy opens clear 63-114487 communique record, promptly mixes the playback mode read output signals with so-called 2 row.
Fig. 6 is the sequential chart that 2 row mix the signal charge transmission of vertical transfer pulse and vertical CCD122 when reading.Among the figure, when 3 value pulses of vertical transfer pulse 1 become high level, from gr, the photodiode 121 that mg is capable transmits signal charge to vertical CCD122, when 3 value pulses of vertical transfer pulse 3 become high level, from cy, the photodiode 121 of the row of ye transmits signal charge to vertical CCD122.The signal charge that sends vertical CCD122 to sends horizontal CCD 123 to after mixing as shown in Figure 6 in vertical CCD122, then from picture pick-up device 103 outputs.
In Fig. 6, V1: vertical transfer pulse 1
V3: vertical transfer pulse 3
The picture element signal of Gr:gr colour filter
The picture element signal of Mg:mg colour filter
The picture element signal of Cy:cy colour filter
The picture element signal of Ye:ye colour filter
S1:Cy+Gr/Ye+Mg
S2:Cy+Mg/Ye+Gr
S3:Cy+Gr/Ye+Mg
S4:Cy+Mg/Ye+Gr
But, if the time carry out above-mentioned 2 row and mix and read carrying out the rest image shooting, owing to can not obtain the resolution that the pixel count with picture pick-up device 103 vertical direction matches, so when carrying out the rest image shooting, 1 row shown in below carrying out is read.The sequential chart that vertical transfer pulse when Fig. 7 is 1 capable reading and the signal charge of vertical CCD122 transmit.Among the figure, the cycle that 3 value pulses of vertical transfer pulse 1 and vertical transfer pulse 3 become high level is the time every 1 as shown in Figure 7.So, 3 value pulses in vertical transfer pulse 1 become in the field of high level, signal charge is only from gr, the photodiode 121 of the row of mg transmits to vertical CCD122, in next, 3 value pulses of vertical transfer pulse 3 become high level, and signal charge is only from cy, and the photodiode 121 of the row of ye transmits to vertical CCD122.Just all send horizontal CCD 123 owing to send the signal charge of vertical CCD122 to at 1 field interval, so, can as above-mentioned 2 row mix playback mode, not mix by the signal charge of neighbouring photodiode 121, thereby can obtain 1 signal 1 photodiode.
In Fig. 7, V1: vertical transfer pulse 1
V3: vertical transfer pulse 3
The picture element signal of Gr:gr colour filter
The picture element signal of Mg:mg colour filter
The picture element signal of Cy:cy colour filter
The picture element signal of Ye:ye colour filter
The signal charge that passes to horizontal CCD 123 is exported from picture pick-up device 103 with the horizontal sweep impulsive synchronization ground of being supplied with by picture pick-up device drive circuit 109.The output signal of imaging apparatus 103 by amplifier 104 big after, be transformed to digital signal by A/D converter 105, and be defeated by imaging signal processing circuit 106.Imaging signal processing circuit 106 is to export after the picture signal with the signal transformation of input.But, when carrying out above-mentioned 1 capable reading, in order to make above-mentioned gr, the exposure of the photodiode that mg is capable and cy, the exposure of the photodiode that ye is capable equates, begin from the exposure that is used in rest image shooting the time be carved into till having read above-mentioned signal at least during in, must make mechanical shutter 102 be in full-shut position.In addition, to the exposure of picture pick-up device 103, be after the signal charge that the photodiode 121 that picture pick-up device in previous field 103 has will carry out light-to-current inversion has just sent vertical CCD122 to the light quantity that incides before mechanical shutter 102 becomes full-shut position on the picture pick-up device 103.
Fig. 8 is the curve chart of the exposure of the picture pick-up device 103 corresponding with the f-number of mechanical shutter 102.In the exposure control of the video camera of present embodiment, until pressing shutter release button 110, the same with the action of common video camera.That is, per 1 all reads out in the 1 field interval savings electric charge on picture pick-up device 103, the luminance signal calculation exposure amount that generates according to electric signal processing circuit, and by the aperture of mechanical shutter control circuit 109 control mechanical shutters 102, so that reach the exposure of appointment.When not using electronic shutter, because the exposure of picture pick-up device 103 is respectively from carrying out moment t1~t4 that electric charge transmits by photodiode 121 to vertical CCD122, so, suppose during moment t3~t4, to have connect shutter release button 110, just be used to generate the exposure of rest image since moment t4.At this moment, suppose that by the area shown in the A (exposure) be suitable exposure to the body that is taken of present shooting.Suitable exposure when obtaining to carry out the rest image shooting, as long as control mechanical shutter 102 make during moment t4~t5 exposure promptly by the area shown in the B greater than by the area shown in the A, just can carry out also obtaining suitable exposure when rest image is made a video recording.
In the camera head shown in Figure 2 of above-mentioned the 1st embodiment, the noise composition that carries out in motion video when shooting signal is different mutually at per 1 meta, because human eye is with signal smoothing, so the noise composition in the signal is felt not obvious.But, under the situation of rest image, owing to do not carry out above-mentioned smoothing processing, so, when carrying out the rest image shooting, must improve the S/N ratio, make it the camera head of motion video being made a video recording greater than in the past.
Below, the method that improves above-mentioned S/N ratio is described with reference to Fig. 4.Among the figure, carried out the electric charge of light-to-current inversion by photodiode 121 and put aside as shown in the figure between readout gate 132 and potential well 134.When motion video was read, when 3 value pulses of vertical transfer pulse 1 and 31 high level occurred in 1, the electromotive force of readout gate 132 just descended, and above-mentioned electric charge 131 sends vertical CCD122 to.At this moment, if the electromotive force of the readout gate shown in the figure descends when 3 value pulses of vertical transfer pulse 1 become high level, the electromotive force that then makes the readout gate with vertical direction adjacent pixels becomes high level along with 3 value pulses of vertical transfer pulse 3 and descends.The electric charge of reading as stated above 131 in vertical CCD122 with by with above or below the adjacent photodiode electric charge that carried out light-to-current inversion mix.
When carrying out the rest image shooting, in the 1st of beginning to read, only make 3 value pulses of vertical transfer pulse 1 become high level, in the 2nd, only make 3 value pulses of vertical transfer pulse 3 become high level, do not carry out above-mentioned 2 row and mix and read electric charge 131.At this moment, as long as electric charge 133 does not overflow between readout gate 132 and potential well 134, for 1 pixel, even quantity nearly is preferably 1.5~3.0 times, is preferably 2.0 times electric charge 131 specifically when savings make a video recording than motion video, vertically CCD122 and horizontal CCD 123 just can transmit electric charge.According to said method, improve the S/N ratio by the more electric charge of savings on picture pick-up device 103.
The 2nd embodiment:
Below, with reference to description of drawings the 2nd embodiment of the present invention.
Because the structure of the camera head of the present invention the 2nd embodiment is identical with above-mentioned the 1st embodiment, so, utilize Fig. 2 to describe.In addition, for the part identical, omit its explanation with the 1st embodiment.Shown in above-mentioned embodiment like that, when rest image is made a video recording, utilize the more light of picture pick-up device 103 incidents, put aside more electric charge, this is to improving S/N than being favourable.Below, the quantity of electric charge of savings on the picture pick-up device 103 is taken as 1.5 times of motion video when shooting, the exposure when rest image make a video recording is controlled and is described.
Fig. 9 is the sequential chart that exposure and the electric charge of the picture pick-up device 103 corresponding with the f-number of the mechanical shutter 102 of this embodiment transmits to vertical CCD122 from photodiode 121.In above-mentioned camera head, before entering the rest image shooting, as described in the 1st embodiment, carrying out the exposure control the same with common video camera.Here, for simplicity, only show the time of 3 motion video shootings, still, the time span of motion video shooting is the random length till above-mentioned exposure control is very stable, is the time till pushing shutter release button 110 thereafter.After the exposure control stabilization of above-mentioned motion video, suppose in the moment shown in the ts of Fig. 8 and pushed shutter release button 110, the control signal of shutter close just is defeated by mechanical shutter control circuit 108 from video camera control circuit 107, mechanical shutter 102 just under the control of shutter control circuit 108 from next beginning promptly constantly t4 begin to carry out block action.That is, be used for the exposure of rest image shooting since moment t4.At this moment, mechanical shutter 102 noninertia ground change f-number linearly with certain speed, from present aperture amount with time of 3 with its locking.
As shown in Figure 9, later before mechanical shutter 102 lockings from moment t4, stop vertically to transmit 3 value pulses of arteries and veins 1 and 3, thereby stop to read electric charge from photodiode 121.
According to above-mentioned condition, the same with above-mentioned the 1st embodiment, exposure when the exposure during the rest image shooting becomes the motion video shooting by the area shown in the B can make 1.5 times exposure of the exposure during picture pick-up device 103 obtains from moment t3 shown in Figure 9 to t4 by 1.5 times of the area shown in the A.As stated above after the light process light-to-current inversion that incides during t4~t7 on the picture pick-up device 103, t7 after mechanical shutter 102 lockings and t8 constantly respectively make 3 value pulses of vertical transfer pulse 1 and 3 become high level 1 time respectively, and utilize above-mentioned 1 row to read from picture pick-up device 103 outputs.But, owing to adopt 1 row playback mode, so, after being picture signal, the signal transformation that imaging signal processing circuit 106 will be imported in that signal processing is switched to the rest image time spent exports.
In addition, owing to the picture signal of making a video recording during above-mentioned t4~t7 can only be read once, so, record on the not shown tape decks such as memory once reading out, be defeated by equipment such as computer in case of necessity as rest image.
The 3rd embodiment:
Below, with reference to description of drawings the 3rd embodiment of the present invention.
The structure of the camera head of the present invention the 3rd embodiment is identical with the above-mentioned the 1st and the 2nd embodiment, so, use Fig. 2 to describe.In addition, for the identical part of the 1st and the 2nd embodiment, omit its explanation.In the present embodiment, also the quantity of electric charge that will put aside on picture pick-up device 103 is taken as 1.5 times of motion video when shooting, and the exposure when rest image make a video recording is controlled and described.
Figure 10 is that exposure and the electric charge of the picture pick-up device 103 corresponding with the f-number of the mechanical shutter 102 of present embodiment is from the sequential chart of photodiode 121 to the transmission of vertical CCD122.In the present embodiment, with the different place of above-mentioned the 2nd embodiment, the illumination of the body that is to be taken is higher, and pinch exposure as device 103 is half of above-mentioned the 2nd embodiment.
In above-mentioned camera head, before entering rest image shooting, as described in the 1st embodiment like that, carry out the exposure the same and control with common video camera.After the exposure control stabilization of motion video, suppose in the moment shown in the ts of Figure 10 and pushed shutter release button 110 that the exposure that is used for the rest image shooting is since moment t4.At this moment, mechanical shutter 102 changes f-number with the same noninertia of above-mentioned the 2nd embodiment ground linearly with certain speed.That is, mechanical shutter 102 to the needed time of locking also be half, become 1.5.At this moment, the same with above-mentioned the 1st embodiment, if from pushed shutter release button 110 next promptly constantly t4 begin to make mechanical shutter 102 lockings, the exposure that just can not be used in the rest image shooting becomes 1.5 times of exposure that the exposure carried out controls when the motion video of moment t3~moment t4 is made a video recording.Therefore, even push shutter release button 110, video camera control circuit 107 can not be defeated by mechanical shutter control circuit 108 with the control signal of shutter close in the certain hour of determining as follows.
Figure 11 begins to calculate the above-mentioned regular hours and the control signal of shutter close is defeated by the flow chart of a series of actions till the mechanical shutter control circuit 108 to video camera control circuit 107 from pushing shutter release button 110.
When having pushed shutter release button 110, the control signal of shutter close just is defeated by video camera control circuit 107, video camera control circuit 107 is judged the f-number that mechanical shutter 102 is present, and calculates the needed time of mechanical shutter 102 lockings according to the f-number of present mechanical shutter 102.And, calculate the exposure control of carrying out when obtaining the motion video shooting when making the rest image shooting exposure 1.5 times exposure and make the block action of mechanical shutter 102 what postpone for well.Video camera control circuit 107 with the control signal of shutter close is defeated by mechanical shutter control circuit 108 through aforementioned calculation after the resulting time from pushing shutter release button 110, makes mechanical shutter 102 lockings.In addition, though it is not shown among the figure, but, video camera control circuit 107 has the circuit of the f-number of identification mechanical shutter 102, the circuit of needed above-mentioned certain hour when simultaneously, also having when being the motion video shooting for the exposure that makes picture pick-up device 103 when rest image is made a video recording 1.5 times according to present exposure and the needed Time Calculation of mechanical shutter 102 lockings.
In the present embodiment, by making above-mentioned certain hour is 1, just can be the same with above-mentioned the 1st embodiment, exposure when the exposure when making rest image shown in Figure 10 shooting becomes the motion video shooting by the area shown in the B is by 1.5 times of the area shown in the A, thereby makes 1.5 times exposure of the exposure during picture pick-up device 103 can obtain from moment t3 to moment t4.In said method, after from t4 to the mechanical shutter, inciding the light process light-to-current inversion on the picture pick-up device 103 till 102 lockings, t7 after mechanical shutter 102 lockings and t8 constantly respectively make 3 value pulses of vertical transfer pulse 1 and 3 become high level 1 time respectively, and utilize above-mentioned 1 row to read from picture pick-up device 103 outputs.But, owing to adopt 1 row playback mode, so, after being picture signal, the signal transformation that imaging signal processing circuit 106 will be imported in that signal processing is switched to the rest image time spent exports.
In addition, owing to above-mentioned picture signal of making a video recording till 102 lockings from t4 to the mechanical shutter can only be read 1 time, so, record on the not shown tape decks such as memory once reading out, be defeated by equipment such as computer in case of necessity as rest image.When carrying out the rest image shooting, 1.5 times exposure of the exposure in the time of can obtaining the motion video shooting.Above-mentioned certain hour is arranged again, and brighter and exposure also increases still less the time thereupon at the body that is taken.In addition, the same with above-mentioned the 2nd embodiment, as shown in figure 10, till mechanical shutter 102 lockings, stop 3 value pulses of vertical transfer pulse 1 and 3 later at moment t4, thereby stop to read electric charge from photodiode 121.
The 4th embodiment:
Below, with reference to description of drawings the 4th embodiment of the present invention.
The part that has in the present embodiment is identical with above-mentioned the 2nd embodiment, only different parts is described here.Exposure when in the present embodiment, the quantity of electric charge that also will put aside on picture pick-up device 103 is taken as 1.5 times of motion video when shooting rest image make a video recording is controlled and is described.
Figure 12 is the sequential chart of the sequential chart that transmits to vertical CCD122 from photodiode 121 of exposure and the electric charge of the picture pick-up device 103 corresponding with the f-number of the mechanical shutter 102 of present embodiment and the electric charge erase pulse supplied with from picture pick-up device drive circuit 108.In the present embodiment, the place different with above-mentioned the 2nd embodiment be the to be taken illumination of body is lower, and the exposure of picture pick-up device 103 is 2 times of above-mentioned the 2nd embodiment.In above-mentioned camera head, before entering rest image shooting action, as described in the 1st embodiment, carrying out the exposure control the same with common video camera.After the exposure control stabilization of motion video, suppose in the moment shown in the ts of Figure 12 and push shutter release button 110 that the exposure that is used for the rest image shooting is just since moment t4.At this moment, mechanical shutter 102 changes f-number with the same noninertia of above-mentioned the 2nd embodiment ground linearly with certain speed.That is, to the needed time of mechanical shutter 102 lockings be 2 times also, become the time of 6 fields.At this moment, if from pushed shutter release button 110 next promptly constantly t4 make mechanical shutter 102 lockings, 3 times of the exposure that the exposure of carrying out when the exposure when then being used for the rest image shooting becomes the motion video shooting of t3~moment t4 is constantly controlled.Therefore, after pushing shutter release button 110, carry out the constantly middle of block action at mechanical shutter 102 from moment t4, the electronic shutter function that video camera control circuit 107 utilizes picture pick-up device 103 to have in the regular hour of determining is as follows removed the electric charge of savings on the photodiode 121.
Figure 13 begins to calculate the above-mentioned regular hours and the control signal of shutter close is defeated by the flow chart of a series of actions till the mechanical shutter control circuit 108 to video camera control circuit 107 from pushing shutter release button 110.When having pushed shutter release button 110, the control signal of shutter close just is defeated by video camera control circuit 107, video camera control circuit 107 is judged the f-number that mechanical shutter 102 is present, and calculates the needed time of mechanical shutter 102 lockings according to the f-number of present mechanical shutter 102.And, calculate the exposure control of carrying out when obtaining the motion video shooting when making the rest image shooting exposure 1.5 times exposure and prolong since moment t4 and how long to utilize removing that above-mentioned electronic shutter function carries out electric charge for well.Video camera control circuit 107 is being pushed shutter release button 110 backs in order to make mechanical shutter 102 since the moment t4 locking control signal of shutter close is defeated by mechanical shutter control circuit 108, simultaneously, according to the time control picture pick-up device drive circuit 109 that obtains by aforementioned calculation, the electric charge erase pulse is supplied with picture pick-up device 103.
In addition, though it is not shown, but, video camera control circuit 107 has the circuit of f-number of identification mechanical shutter 102, also has according to present exposure simultaneously and is the circuit of 1.5 times the exposure needed above-mentioned certain hour of motion video when making a video recording when rest image is made a video recording for the exposure that makes picture pick-up device 103 to the needed Time Calculation of mechanical shutter 102 lockings.In the present embodiment, by above-mentioned certain hour being taken as about 2,1.5 times exposure of the exposure in the time of just can when rest image is made a video recording, obtaining the motion video shooting.Also increase when in addition, the above-mentioned regular hour, darker and exposure was bigger at the body that is taken thereupon.
In addition, till 102 lockings, the picture signal of having made a video recording can only be read 1 time from above-mentioned t4 to mechanical shutter, so, record on the not shown tape decks such as memory once reading out, be defeated by equipment such as computer in case of necessity as rest image.The same with above-mentioned the 3rd embodiment, till mechanical shutter 102 lockings, stop 3 value pulses of vertical transfer pulse 1 and 3 later at moment t4 as shown in figure 12, thereby stop to read electric charge from photodiode 121.
The 5th embodiment:
Below, with reference to Figure 14 and Figure 15 the 5th embodiment of the present invention is described.Present embodiment respectively as Figure 14 and shown in Figure 15 by the control electronic shutter function of picture pick-up device and the aperture of iris apparatus, solve the problem of utilizing the prior art that Figure 1A and Figure 1B illustrated.In the explanation afterwards, omit the erase pulse of CCD.
In Figure 14 and Figure 15, be marked with identical symbol for the content identical, and omit its explanation with Figure 1A and Figure 1B.C1~c3 of Figure 14 and Figure 15 and d1~d5 are respectively the symbols that is used to discern each.
Tc1 represents 1 time, and tc2 represents the time for exposure in rest image when shooting of a c3.Suppose that rest image shooting order sends at the field c2 of Figure 14 and the field d4 of Figure 15.In addition, suppose to send rest image shooting warning order at the field of Figure 15 d2.In Figure 14 and Figure 15 by expression during shown in TS1~TS4 utilize electronic shutter clear signal electric charge during.
In Figure 14 of present embodiment, be that aperture is all opened, because be according to utilizing the expose f-number of control of electronic shutter function to carry out rest image shooting, so, can utilize the opening of enough big aperture directly to guarantee exposure, thereby can shorten the rest image time for exposure in when shooting.
In addition, in Figure 15 of present embodiment, because be carry out before the rest image shooting when aperture to opening the speed of upgrading electronic shutter when direction shifts, so, until just rest image is made a video recording and can make a video recording to motion video with suitable exposure status before.In addition, owing to can fully guarantee the opening footpath of aperture, so, the time for exposure in the time of can shortening the rest image shooting.
The 6th embodiment:
Below, with reference to Figure 16 and Figure 17 the 6th embodiment of the present invention is described.Figure 16 be an example of the iris apparatus in video camera that is used for family expenses etc. promptly at the iris apparatus of gauge outfit formula, the curve chart of 1 example of the latch-up characteristic of the aperture till from each f-number to the aperture locking.
In Figure 16, the longitudinal axis is represented aperture area S, transverse axis express time t.In Figure 14 and Figure 15, the aperture area that is the supposition aperture is what to reduce until locking linearly, and still, actual aperture most cases is as shown in Figure 16, has the characteristic that little by little acceleration is closed.
This compares with the amount that the parts of the aperture blades of iris apparatus move, and most cases is that aperture area S is directly proportional with its square, so the aperture area S of aperture reduces in time and sharp from the beginning locking.Therefore, near the moment before the firm complete atresia, the rate of change of aperture area S is big more, thereby, utilize aperture to be difficult to exposure is carried out correct control.
Figure 17 is the situation map that present embodiment carries out rest image when shooting exposure control.In the present embodiment, be example application when the slow aperture of the aperture that uses locking speed ratio the 5th embodiment to use.In Figure 17, the longitudinal axis is aperture area S, and transverse axis is time t.41,42,43 expressions each, the exposure when V41 and V42 represent between the rest image shooting preparatory stage respectively and rest image is made a video recording.T41, t42 represent the moment of various control and treatment.TS41~TS43 represent to utilize electronic shutter remove the signal charge that passes through light-to-current inversion in the picture pick-up device during.
Here, if send rest image shooting order at t41, then the t42 zero hour of aperture on the scene 43 begins block action.During the TS43 in the block action process of aperture, carry out the removing of signal charge, so that the exposure V42 of the exposure V41 between the rest image shooting preparatory stage when making a video recording with rest image is consistent.In addition, here,, get V41 and equate, still, as previously mentioned, preferably get V42=2 * V41 with V42 for illustrative ease.
As mentioned above,,, promptly synchronously carry out the removing of electric charge after beginning by block action, the time for exposure in the time of just can shortening the rest image shooting with block action at aperture even need under the situation of time for the locking of aperture according to present embodiment.At the rest image of present embodiment between the shooting preparatory stage because the output motion video, so, also can be used as carry out the motion video shooting during.In addition, the exposure V41 of rest image between the shooting preparatory stage also can utilize the output of other light measuring circuit outside the camera system and obtain.Perhaps, also can calculate according to the aperture of camera head and the exposure state of a control of shutter speed.In addition, it is illustrated to be that exposure V42 when exposure V41 between the rest image shooting preparatory stage is made a video recording with rest image equates to carry out, and still, also ratio between two for example doubly can be changed by n.
The 7th embodiment:
Below, with reference to Figure 17, Figure 18 and Figure 19 the 7th embodiment of the present invention is described.Figure 18 is present embodiment and the later the 8th and the structure chart of the camera head of the 9th embodiment.
In Figure 18, the 201st, lens, the 202nd, aperture, the 203rd, picture pick-up device, the 204th, be used to generate the signal processing circuit of motion video and rest image, the 205th, the aperture drive circuit, the 206th, the electronic shutter control circuit, the 207th, lead-out terminal, the 208th, release-push, the 209th, the microprocessor that carries out overall system control.Here, microprocessor 209 carries out the control and treatment of the camera head of this structure.
Above-mentioned signal processing circuit 204, aperture drive circuit 205 and electronic shutter control circuit 206 are that signal gain control signal 212, f-number control signal 210 and electronic shutter speed control signal 211 are controlled according to the control signal that sends from microprocessor 209 respectively.
In Figure 18, after inciding light on the picture pick-up device 203 and be transformed to the signal of telecommunication through lens 201 and aperture 202, input signal treatment circuit 204.Is that broadcast system is to be defeated by lead-out terminal 207 after the picture signal such as NTSC by signal processing circuit 204 with the converting electrical signal of input, simultaneously, semaphore information 213 is defeated by microprocessor 209.Control shutter speed, signal gain and f-number by microprocessor 209 according to these semaphore information 213 output electronic shutter speed control signals 211, signal gain control signal 212 and f-number control signal 210.These all are the same in each following embodiment.
Figure 19 is the exposure control characteristic figure in motion video when shooting of present embodiment.Among the figure, the longitudinal axis is represented electronic shutter speed and f-number, and transverse axis is represented illumination.Electronic shutter speed and f-number are to have unidirectional axle, but the unit difference, and illumination can be tried to achieve by computing according to the exposure of CCD.In addition, also illuminance meter can be set in addition.
In the control characteristic of Figure 19, when the illumination strip body of the body that is taken from low-light (level) to high illumination change, incident light quantity when increasing direction, f-number control signal 210 is constant, at first is that the speed of electronic shutter little by little becomes at a high speed with electronic shutter speed control signal 211.When light quantity further increased, surpasses the shutter speed control range of electronic shutter speed control signal 211, the f-number of aperture 202 just increased, thereby became the exposure control of being undertaken by aperture 202.On the contrary, when incident light quantity exposes the state of control when beginning to reduce from the variation that utilizes aperture 202 under high illumination, aperture 202 is shifted to opening direction, after aperture 202 becomes open mode, utilize electronic shutter speed control signal 211 to make shutter speed become the exposure control of low speed.
Promptly, in the present embodiment, at first utilize electronic shutter to make aperture 202 become the state of opening, the aperture time when shortening the rest image shooting, to become very short in order making simultaneously, also will to add the exposure control that utilizes aperture 202 to carry out by the aperture time of electronic shutter control is unlikely.
Figure 17 is the situation of the rest image when shooting exposure control of present embodiment.Each symbol among the figure is illustrated in the 6th embodiment.But, suppose the exposure when V41 represents the motion video shooting.In the present embodiment, the time for exposure of (field 43) when making a video recording in order to shorten rest image, the exposure control in motion video when shooting (41,42) is by making aperture 202 open, utilize to expose during the electronic shutter speed control signal 211 increase and decrease TS control.But,, aperture 202 is shifted to the locking direction when in order to obtain suitable exposure control and to need to surpass the controlled quentity controlled variable of control range of electronic shutter speed control signal 211.
In the ROM of microprocessor, storing expression with from the various f-numbers of aperture 202 to aperture 202 lockings till the data of aperture area variation of corresponding aperture 202 of time.After, what the delta data of the aperture area of aperture 202 that will be corresponding with this time was called aperture 202 closes the operating characteristics data.
Here, when microprocessor 209 detects on the scene 42 t41 and has pressed release-push 208, earlier according to the present exposure of information calculations of f-number control signal 210 and electronic shutter speed control signal 211.
Then, close the operating characteristics data computation so that during the locking zero hour of the n aperture 202 doubly of the exposure of the exposure in rest image when shooting when becoming the motion video shooting and the electric charge that utilizes electronic shutter speed control signal 211 to carry out remove according to this result of calculation and aperture 202.
In following embodiment, get n=1, that is, and the exposure control that the exposure the when exposure when making the rest image shooting is made a video recording with motion video is identical.Certainly, n=2 preferably.
As a result, in the present embodiment, the exposure V42 when the exposure V41 during the motion video shooting makes a video recording with rest image just equates.Signal is read after aperture 202 lockings, and by signal processing circuit 204 outputs.
As mentioned above, according to present embodiment, owing to utilize because of opening aperture 202 that electronic shutter speed control signal 211 is preferential uses the electronic shutters control that exposes, so, the time for exposure in the time of can shortening rest image and make a video recording.As a result, use easy like this camera head just can provide and suppressed rest image and motion video that resolution reduces.In addition, since because do not need to open the action of aperture 202, so, can shorten from pressing release-push 208 and begin time lag till rest image is made a video recording.
The 8th embodiment:
Below, with reference to Figure 18, Figure 20, Figure 21 and Figure 22 the 8th embodiment of the present invention is described.The structure of camera head is the same with the 7th embodiment, as shown in figure 18.
Figure 20 is the exposure control characteristic figure in motion video when shooting of present embodiment.Among the figure, the longitudinal axis is represented f-number, and transverse axis is represented electronic shutter speed.The exposure control characteristic of Figure 20 is automatically to control and set the so-called program AE (AutoExposure: automatic exposure) of f-number and electronic shutter speed according to illumination
In example shown in Figure 20, be f-number to be fixed on utilize the electronic shutter control that exposes under the open mode (representing) with Fopen, when electronic shutter speed reaches S1, f-number is shifted be Fa, when illumination further rises, when electronic shutter speed arrives S3, f-number is shifted be Fmax.Equally, when illumination reduces, then when S2 and S4, shift.Electronic shutter is just preferentially used in exposure control when at this moment, motion video is made a video recording.But, different with Figure 19, even f-number is shifted.The time for exposure of carrying out such exposure control and be when not causing the rest image shooting is too short.
In the example of Figure 20, if the minimum value of f-number (aperture is opened maximum state) is Fopen, maximum f-number is Fmax, and the f-number that can get in the middle of it is set at Fa, but, can be at the discrete f-number of setting between Fopen and the Fmax more than 2.
Suppose the time for exposure shortening when making the rest image shooting, then before the firm locking of f-number, carry out the removing of electric charge.So, be electronic shutter between the effective exposure period of f-number from electric charge remove finish the time time (being called electronic shutter speed) of being carved into till the locking constantly of aperture 202 shorten, thereby use the part jumpy of the latch-up characteristic curve of aperture shown in Figure 9 202.
Promptly, after the block action of aperture 202 begins, process along with the time, the aperture area of aperture 202 reduces, but as previously mentioned, because acceleration ground sharply reduces the area of aperture openings portion along with diminishing, so the delay of the small response of closing action of aperture 202 etc. all can produce very big influence to the error of exposure.Therefore, illumination is high more, aperture time more in short-term, easy more be subjected to aperture 202 close action in time depart from and the responsiveness deviation of closing action of aperture 202 etc. influences.
This state is shown in Figure 21.Among the figure, 10a represents the track of normal block action, when the such block action shown in 10d has delay, will be shown in 10b such form over-exposed, because posture difference etc. causes the variation of the friction of aperture, when causing the locking like that in advance shown in 10c, will cause under-exposure.These deviations are difficult to prediction.
Therefore, thereby error that causes for the block action that reduces aperture 202 and the shutter that becomes very at a high speed can obtain the suitable time for exposure, and the time for exposure during the rest image shooting must be utilized the control that exposes of f-number control signal 210 and electronic shutter speed control signal 211.
Figure 22 is the situation of the rest image when shooting exposure control of present embodiment.In the present embodiment, use and the same aperture of aperture that the 6th embodiment uses use aperture 202 and the electronic shutter control that exposes when motion video is made a video recording.
In Figure 22, the longitudinal axis is aperture area S, and transverse axis is time t.81,82,83 expressions each, the exposure when V81, V82 represent respectively that motion video when shooting and rest image are made a video recording.T81, t82 represent the moment of various control and treatment.TS81~TS83 represent to utilize electronic shutter clear signal electric charge during.In the present embodiment, the time for exposure of (field 83) when making a video recording in order to shorten rest image, the exposure control of (field 81,82) is carried out the combination of electronic shutter speed and f-number as shown in Figure 20 according to illumination during the motion video shooting.
Here, when microprocessor 209 detects on the scene 82 t81 and has pressed release-push 208 constantly, calculate present exposure according to aperture control signal 210 and electronic shutter control signal 221 earlier, then, according to this result of calculation and aperture 202 close the operating characteristics data computation so that the beginning locking of the aperture 202 that the exposure of the exposure in rest image when shooting when make a video recording with motion video equates constantly and utilize moment of the electric charge removing end that electronic shutter control signal 211 carries out.
As mentioned above, according to present embodiment, when motion video is made a video recording, along with illumination raises aperture 202 shifted to the locking direction, to utilize electronic shutter speed control signal 211 control that exposes, so, the rest image time for exposure in when shooting can be shortened, and the error of exposure can be reduced.
The 9th embodiment:
Below, with reference to Figure 18, Figure 23 illustrates the 9th embodiment of the present invention.The structure of camera head and the 7th, the 8th embodiment are the same, as shown in figure 18.
Figure 23 is the situation of control earlier of exposing to the sun of present embodiment.The longitudinal axis is aperture area S, and transverse axis is time t.51~56 expressions each, the exposure when V51, V52 represent respectively that motion video when shooting and rest image are made a video recording.T51, t52, t53 represent the moment of various control and treatment.TS53~TS56 represent to utilize electronic shutter clear signal electric charge during.51,52 for during the motion video shooting, and 53~55 make a video recording between the preparatory stage for rest image.But this rest image is still proceeded the motion video shooting between the shooting preparatory stage.56 for during rest image makes a video recording.Motion video when shooting output charge erase pulse so that the time for exposure becomes the field duration, and utilizes aperture 202 restriction light quantities.In the present embodiment, use the aperture identical with the aperture that in the 6th embodiment, uses.
In above-mentioned the 7th embodiment, the time for exposure when shortening the rest image shooting is a purpose, in the exposure control when motion video make a video recording, with aperture 202 maintain open near, electronic shutter is moved.But there is following shortcoming in such exposal control method:
1. because aperture is used near opening, so, the depth of field can not be improved;
2. owing to preferentially use the exposure control of electronic shutter, so, under fluorescent lamp owing to glimmer different of field frequencies range of picture signal with supply frequency, when particularly using electronic shutter at a high speed, flicker will more aggravate, so, very unfavorable to the shooting of motion video.
Therefore, in the present embodiment, in order to address the above problem, the exposure control during the motion video shooting is maintained low speed with electronic shutter speed and makes aperture 202 preferential actions.Like this, just, can carry out the motion video shooting the same with home-use video camera.
Below, the exposure control when the rest image shooting is described.When the t51 that detects at Figure 23 had pressed release-push 208 constantly, microprocessor 209 calculated present exposure according to f-number control signal 210 and electronic shutter speed control signal 211 earlier in the process of carrying out the motion video shooting.Then, microprocessor 209 is obtained the time that makes till aperture 202 is opened and the transfer amount of aperture 202 according to present f-number by calculating.And, microprocessor 209 is according to asking an electronic shutter speed of 53 by the above-mentioned exposure that calculates with in the transfer amount of next aperture 202 in 53 etc., and utilizes the interior electronic shutter speed to electronic shutter control circuit 206 set-up and calculated results of time of electronic shutter speed control signal 211 on the scene 52.
In on the scene 53,54, the same with 52 situation, calculate electronic shutter speed in next according to this exposure and the transfer amount of aperture 202, and electronic shutter control circuit 206 is set.Aperture 202 little by little shifts to opening a side behind 53,54,55 3 field intervals of going through the motions.When microprocessor 209 when t52 detects aperture 202 and has become open mode, earlier calculate present exposure according to present f-number control signal 210 and electronic shutter speed control signal 211, and according to locking zero hour of closing aperture 202 that the exposure of the exposure of operating characteristics data computation when making the rest image shooting when make a video recording with motion video equate and the electric charge removing finish time of utilizing electronic shutter control signal 211 to carry out of this result of calculation and aperture 202.
As mentioned above, according to present embodiment, after sending rest image shooting order, in a single day make aperture 202 when opening side transfer, the control electronic shutter speed is so that it becomes exposure identical when making a video recording with motion video, so, make aperture 202 also can keep suitable exposure status to the centre of opening side transfer.In addition, after sending rest image shooting order, aperture 202 is moved to opening direction, carry out the rest image shooting then, so the time for exposure shorteningization in the time of can making the rest image shooting preferentially makes the exposure control of aperture 202 actions satisfy simultaneously when making a video recording with motion video.
The distortion example of present embodiment is described then.In above-mentioned the 9th embodiment, if pressed release-push 208 at t51, then microprocessor 209 is identified as rest image shooting order with it, and automatically carries out the rest image shooting after aperture 202 becomes open mode, but, also it can be identified as rest image shooting warning order.At this moment, the same with above-mentioned the 9th embodiment, once making aperture 202 when opening a side and shifting, upgrade electronic shutter speed, and wait for that when aperture 202 becomes near open or open state the rest image shooting orders.At this moment, also can use display elements such as light-emitting diode and liquid crystal that the cameraman is shown that the rest image shooting is ready.Wait for rest image shooting order, aperture 202 maintained to utilize the expose state of control of electronic shutter near opening or opening be state with the 7th embodiment equivalence.After, when having pressed release-push 208 once more, just be used as and sent rest image shooting order so that the same rest image that carries out with the 7th embodiment is made a video recording.
In the variation of the 9th embodiment, utilize release-push 208 to send rest image shooting warning order and rest image shooting order, but, both can be a plurality of buttons or the device of giving an order to camera head, also can be provided in a side of button and release-push 208 that the rest image shooting warning order on the camera head is used from the outside.In addition, send the button and even the device of rest image shooting warning order, by pressing action, exposal control method that can also be when making the motion video shooting makes expose control or the expose selector switch of control of the preferential action of electronic shutter is used for aperture 202 is located at of aperture 202 preferential actions for electronic shutter speed being maintained low speed.
As mentioned above, distortion example according to the 9th embodiment, after sending rest image shooting warning order, make aperture 202 once when opening side transfer, upgrade electronic shutter speed, so the time for exposure shorteningization in the time of can making the rest image shooting makes the exposure control of aperture 202 preferential actions satisfy simultaneously when making a video recording with motion video, as a result, exposure system easy to use just can provide motion video and rest image.
The 10th embodiment:
Below, the 10th embodiment of the present invention is described.In using the CCD camera head carry out the savings of electric charge simultaneously and to read, when carrying out the removing of electric charge, because influential, so usual way is the removing of carrying out electric charge in only during return line to picture signal in scan period.This be because, if beyond during the return line be image on monitor, show during in when carrying out the removing of electric charge, then this removing also occurs on monitor easily with the influence of pulse, the damage image quality.
Therefore, in the various embodiments described above, though specify,, all be to carry out in removing with electric charge is placed on during the return line.But,, then can remove at any time if there is not such drawback.For example because that the image in rest image when shooting is read is different fully with the time of the removing of electric charge, so, obviously the removing of the electric charge during the rest image shooting can be during return line so that scan period carry out.Like this, just, the time for exposure in the time of can regulating the rest image shooting subtly.
When this used in the ranks formula CCD at picture pick-up device, the electronic shutter action during motion video was for the opening action opening operation of shutter, utilized leakage effects to carry out the removing of electric charge in during horizontal retrace line; Closing motion for shutter is a closed action, uses in during not producing the vertical retrace line of image output electric charge is carried out the removing of electric charge from pixel to the transmission gate of vertical CCD transmission, thereby adjust aperture time subtly.On the other hand, the electronic shutter action during the rest image shooting utilizes the locking of aperture to carry out closed action, thereby adjusts aperture time subtly constantly utilizing leakage effects to carry out opening action arbitrarily.
Like this, no matter can carry out accurate aperture time control when being motion video or during rest image.Certainly, the locking of adjustment aperture constantly also can obtain same effect.
The 11st embodiment:
Below, with reference to Figure 21, Figure 24 and Figure 25 the 11st embodiment of the present invention is described.Figure 24 is the structure chart of the camera head of present embodiment, among the figure, is marked with identical symbol for the part suitable with Figure 18, for fear of repetition, omits its explanation.The structure of Figure 24 is used for each embodiment beyond above-mentioned the 7th, the 8th and the 9th embodiment, also can be applied to the 7th, the 8th and the 9th embodiment according to different situations.
In Figure 24, the 301st, be used to detect the aperture testing circuit of the variation of aperture 202, the 314th, the aperture detection signal from 301 outputs of aperture testing circuit flows to microprocessor 309.
In the block action process of aperture, as the front illustrated in fig. 21, the deviation that can in its block action, be difficult to expect for various reasons, thus cause exposure error.But, be the state in the locking process of aperture as long as known the state of deviation, just can revise in view of the above, thereby can reproduce the rest image of correct exposure (shooting).
Figure 25 is the same with Figure 21, the block action of expression aperture, e0~e3 represents each, and 10e is that expression starts the aperture block signal output time that the aperture locking begins, and the time integral of the aperture openings area till V11 represents from aperture block signal output time 10e to the aperture locking is an exposure.Now, for simplicity, describe use the whole situation that begins till the locking from the aperture locking as exposure.
Because the deviation of the block action of aperture, error also can take place in the amount of exposure V11, and still, itself directly is reflected in this amount on the level of picture signal, so, the rest image image pickup signal is revised after detecting this exposure V11.Figure 26 is the flow chart of 1 example of this correcting process.The step 12a of this figure represents after aperture block signal output time 10e has just begun the aperture locking, utilizes aperture testing circuit 301 to begin to carry out the processing of the measurement of exposure V11.At step 12b, till finishing, the aperture locking measures the exposure of aperture always.After the aperture locking finishes, at step 12c, obtain exposure error, and in view of the above the level of the picture signal of having made a video recording is revised according to the exposure V11 that measures.That is, revise, in signal processing circuit 204, change the output signal of picture pick-up device 203, perhaps change the amplification quantity of handling the picture signal that obtains behind this signal by 309 pairs of signal gain control signals 212 of microprocessor.
More than, be the basic handling of revising exposure, still,, also have the whole bag of tricks for the mode that realizes these processing.
As aperture testing circuit 301, can calculate aperture area according to the f-number of exporting from the device that detects f-number, and, the aperture area in the aperture locking process obtains exposure V11 by being carried out integration, but, below, utilize the 12nd, the 13rd and the 14th following embodiment to further describe these modes.
The 12nd embodiment:
As the 12nd embodiment of the present invention, below, utilize Figure 27 that the detection method of exposure V11 is described.The same block action of representing aperture with Figure 25 of Figure 27 has with the content of Figure 25 same meaning and is marked with identical symbol.As shown in the figure, suppose that aperture carries out locking in the e1 on the scene.
As 1 method of the detection of exposure V11, the field e1 with Figure 27 is divided into during n with moment of representing with E11~E14, obtains each aperture area of aperture constantly, just can obtain exposure V11 by the summation of obtaining each aperture area.
In addition, the latch-up characteristic most cases of aperture is just because the difference of locking position constantly causes the characteristic curve of locking itself only extends at time orientation, so, extrapolate exposure V11 after also can detecting the locking moment of representing by 13a.At this moment, the value of closing the operating characteristics data that the locking of supposing detection is constantly stored in 13a and the microprocessor 309 has changed for example a% of a certain quantity, because the figure of exposure V11 has just extended this variable quantity along time-axis direction, so, the area change of expression exposure V11 a%, the locking variable quantity of 13a and the variable quantity of exposure V11 constantly has been mapped.Therefore, hence one can see that, at this moment, can be only by with the locking that detects constantly the variation ratio of 13a image pickup signal has been revised just.
In addition, also can for example detect E14 f-number (aperture openings area S13) constantly and calculate locking 13a and exposure V11 constantly according to the f-number of particular moment.
Detection method as f-number, for example as previously described like that when the aperture driving mechanism of employing gauge outfit formula, can on gauge outfit, assemble magnetoresistive element etc. and detect aperture driving amount, utilize said method to obtain exposure V11 according to this aperture detected value then according to its output.
The 13rd embodiment:
Below, as the 13rd embodiment of the present invention, utilize Figure 24 to illustrate to obtain 1 example of the modification method of the signal behind the exposure V11.
Present embodiment is to utilize signal gain control signal 212 to carry out the correction of signal, at first, and by the signal gain of microprocessor 309 setting transition, no matter so that the deviation of exposure V11 appears at positive direction or negative direction can sponge.Then, carry out the rest image shooting, and detect exposure V11 by microprocessor 309.Then, the result who calculate to detect with common variation of exposure what, and utilize signal gain control signal 212 to change and gain, so that 309 pairs of these variations of microprocessor are revised.Change after the gain,, just can obtain the rest image signal of correct exposure at lead-out terminal 207 as long as read image pickup signal from picture pick-up device 203.
That is,,,, gain is increased, carry out the correction of the deviation of exposure with this if exposure V11 is too small just gain is reduced if exposure V11 is excessive.
The 14th embodiment:
Below, with reference to Figure 28 and table 1 explanation the 14th embodiment of the present invention.Present embodiment is 1 example of the modification method of other exposures beyond the above-mentioned situation.Figure 28 represents the block action of the aperture identical with Figure 25, has with the content of Figure 25 same meaning to be marked with identical symbol.Different with Figure 25 show situation that needed exposure lacks than the situation of Figure 25, be the example that carries out the situation that the electric charge of the pixel of picture pick-up device 203 removes after the locking of aperture 202 begins.
In Figure 28, V141 is the exposure during motion video shooting when a certain body that is taken is made a video recording; VX is the exposure that the same body that is taken is used for rest image shooting, at this moment, supposes can obtain and the make a video recording suitable exposure of identical exposure of motion video.TS141, TS142 are respectively during the electric charge of picture pick-up device when motion video is made a video recording is removed when (time) and rest image shooting during the electric charge removing of picture pick-up device (time).The aperture area of aperture 202 was for example supposed to move at the Fa shown in Figure 20 when SV was the motion video shooting.
When in the locking process of aperture, carrying out the removing of electric charge as shown in Figure 17, use easy modification method shown in Figure 25 can not guarantee the precision of revising sometimes.Therefore, adopt the method for further revising the closing the operating characteristics data of aperture 202 in detail and revising.Table 1 shows 1 example that closes the operating characteristics data.
(table 1)
In table 1, utilize the data rows of the electric charge checkout time TS of the picture pick-up device when being parameter, the aperture blocking time SC till the aperture locking moment that the SC with Figure 28 represents and correction E to represent the characteristic of exposure in the block action of aperture with f-number and exposure.The amount of the variation of exposure was carried out the correction of exposure when correction E was the variation of expression aperture blocking time according to this amount.These data rows make by in advance specific body that is taken etc. being measured.
The control of microprocessor 309, at first (here according to the f-number of motion video shooting, be assumed to SV2) and exposure determine rest image shooting exposure (here, be assumed to VX22), and obtain checkout time TS22 and aperture blocking time SC22 according to this value, just can determine the drive condition of picture pick-up device.The electric charge that is used for the block action of aperture of rest image shooting and picture pick-up device according to this condition is removed the drive controlling of action etc.
Simultaneously, utilize said method to calculate the locking moment (13a of Figure 27) of aperture, and detect the aperture blocking time.Then, ask the variation of this testing result and aperture blocking time SC22, calculate actual correction according to these and correction E22.When making the correction approximately linear, as long as when making data rows, correction is defined and generates as the variation ratio with respect to the exposure of the variation of unit interval of aperture blocking time, just can utilize the variable quantity and the long-pending correction ratio that obtains rest image of correction of aperture blocking time, so, just can utilize said method to carry out the correction of exposure in view of the above.
The 15th embodiment:
Below, utilize Figure 29 that the 15th embodiment of the present invention is described.The 8th embodiment that present embodiment is with the front utilizes Figure 20 to illustrate has another embodiment of identical program AE.Exposure control characteristic when Figure 29 is the motion video shooting, the longitudinal axis is represented f-number, transverse axis is represented electronic shutter speed, according to illumination control and setting f-number and electronic shutter speed.
In the 8th embodiment, be to make shutter speed not too high, still, even so, under high illumination, little by little improve shutter speed sometimes and be difficult to obtain exposure accuracy.
In addition, when aperture when the little position of diaphragm diameter begins to carry out block action, the aperture blocking time is short, the checkout time that does not increase electric charge also can improve the shutter speed of rest image, therefore, and there is the shutter speed scope of the rest image shooting that can obtain needed shutter speed in the deviation of rest image shooting for each f-number in limit.1 example of the characteristic that the motion video for each f-number is like this made a video recording is shown in Figure 29.
That is, become such characteristic example, when f-number increases to a certain degree, even only in the blocking time of aperture, also can guarantee minimum shutter speed, in addition, owing to use the little part in opening footpath of aperture in high speed one side, so, be difficult to improve the characteristic of shutter speed.
Certainly, in order to design the program route map of under this optimum condition, setting, also can after the design item of the each several parts such as block action characteristic of determining aperture, determine at last.
The said procedure route map is that purpose designs reluctantly and with the high-speed shutter speed that obtains appropriateness, still, in addition, the problem that should further consider according to needs such as lighting conditions in addition.Here it is when for example making electronic shutter speed be high speed under the situation that illumination light such as fluorescent lamp are flashed since the illumination that is subjected to time of exposure of motion video shooting and time for exposure and illumination light constantly and the influence of time in motion video is exported, glimmer.
For example, the frequency of supplying with the power supply of fluorescent lamp in Europe is 50Hz, and when camera head of the present invention is the TSC-system formula, the frequency of flashing of fluorescent lamp is 100Hz, in addition, the frequency of the field picture of motion video output is 60Hz, so, with the greatest common divisor that occurs as 100 and 60 is the flicker of 20Hz, and this is a called optical imaging.And if the savings time shortens, this flicker is then bigger.
In addition, when using in the U.S., the frequency of supplying with the power supply of fluorescent lamp is 60Hz, and it flashes frequency is 120Hz, so, do not glimmer usually.
But when the electronic shutter speed of motion video improves and savings time when shortening, strictly speaking, the frequency of a picture is different with the frequency of power supply, so still overlapping on camera picture have a flicker component.
Though this flicker does not occur on rest image, owing to occur on the motion video of shooting before the rest image, this image quality for the output image of camera head is difficult to tolerate, so should curb.
The performance plot of an embodiment of the camera head that constitutes according to this viewpoint is shown in Figure 30.
This figure is the program route map, compares with the program route map of Figure 29, it is characterized in that electronic shutter speed is that the center is set with ssf.When the supply frequency of fluorescent lamp is 50Hz and is that camera head is when being the motion video output of TSC-system formula, though the flicker of 15Hz can take place, but, because the frequency of flashing of fluorescent lamp is 100Hz, so, if making the savings time of picture pick-up device 203 is 1/100 second, then every exposure is identical, thereby can suppress flicker.This time is exactly electronic shutter speed ssf.If the program route map according to Figure 30 is controlled, then electronic shutter speed changes with the illumination change of the body that is taken.When becoming ssf just, just can suppress flicker, though glimmer along with departing from this ssf,, be suppressed to by the amount that will depart from very little, the just generating capacity that can suppress to glimmer.
How on earth also decide with the interval of aperture at the interval of S1 " with S2 ", still, when aperture changes 1 retaining, gets S1 and " be 1/50, get S2 and " be 1/100, preferably be set at less than 0.015 second.
If will set shortlyer at interval, though can fully suppress flicker,, the set point of aperture further must be increased is Fc, Fd ... so,, must design eclectically with considering flicker.
When carrying out the rest image shooting according to the program route map of Figure 30, electronic shutter speed is slow, so the shutter speed of rest image does not raise yet.
Therefore, judge semaphore information 213 flicker whether generating period ground changes of input microprocessor 309 by the microprocessor 309 of Figure 24, if using the program route map of Figure 29 when not glimmering controls, when flicker takes place when, use the program route map of Figure 30 to control, no matter then can under which type of lighting condition, can obtain the rest image of the shutter speed of appropriateness.
In these 2 program route maps, under specific illumination, use each program route map to determine specific f-number, so, during the changeover program route map, little by little change f-number to make it reaching this f-number,, can suppress then that picture is followed the switching of program route map and the disorder that occurs if change electronic shutter speed simultaneously so that exposure does not change.
In addition, under fluorescent lamp, in case utilize the program route map of Figure 30 to control, owing in the signal of picture pick-up device 203 output, do not have flicker component, so, the situation that whether is difficult to judge the generation flicker that the illumination by the body that is taken causes.
Usually, most cases begins all indoor or make a video recording outdoor, so, first program route map according to Figure 29 begins if detected flicker, just to switch to the control of the program route map that utilizes Figure 30 then after the control, proceed shooting, as long as suppressed flicker.
In order to realize high performance, in case entered after the control of Figure 30, the flicker that just needn't consider to suppress because the variation of illumination etc. causes, certainly, also can utilize the program route map of Figure 29 to control once more, to obtain the rest image of shutter speed more at a high speed.
At this moment, must whether be in the status detection that flicker has taken place reliably.An embodiment as realizing this point has following method, promptly is provided for detecting the periodically variable transducer of illumination light in addition, and in the reading into the microprocessor 309, judges whether the situation that takes place into flicker, and reprogramming route map in view of the above.
As another embodiment, when in case when having entered the control that the program route map that utilizes Figure 30 carries out, shutter speed is slightly changed from ssf, at this moment, can differentiate illumination light and whether have the condition that flicker takes place according to whether having detected flicker component.
At this moment, be taken in electronic shutter speed when departing from ssf at the program route map, can only detect have flicker free, still, when electronic shutter speed during near ssf, then must change electronic shutter speed consciously.Therefore, as long as when the brightness of illumination changes or at regular intervals, detect, just can the output of motion video not had much affect because of changing the flicker that this electronic shutter speed causes consciously.
Certainly, also can in signal processing circuit 204 itself variable gain circuit be set, reduce when semaphore makes gain for a long time, semaphore makes gain increase after a little while, offsets flicker with this.But when electronic shutter speed raises, when the flicker amount increased, the variable quantity that is used to offset the gain of flicker also increased, and like this, will make S/N than reducing.Therefore, utilize circuit to glimmer when offsetting, must control electronic shutter speed, the generating capacity with flicker forces down in advance.
In addition, also be possible with the embodiment of the program route map of above-mentioned Figure 29 and Figure 30 combination, this embodiment is shown in Figure 31.
Because having the illumination that periodicity that flicker takes place is flashed is artificial light, in most cases its illumination is not high, so, when the illumination that do not reach to a certain degree, be that the center is controlled with the electronic shutter speed ssf that suppresses flicker, when greater than this illumination, be that the center is controlled with electronic shutter speed sst, in view of the above in the hope of obtaining the rest image of shutter speed at a high speed, the example of the program route map that comes to this.
Sst is about-second.
Sst must be the shutter speed that does not cause this degree of hand wobble, becomes with the f value of lens and the specification of video camera, for example, is about 1/200 second.
More than, enumerated the embodiment of the program route map of controlling according to the exposure of aperture priority, but, being not limited to this, also can carry out and the so-called program AE (AutoExposure: the exposure control of the motion video that program route map automatic exposure) is identical that realizes utilizing camera etc. to implement.
But, when the rest image shooting of this camera head, checkout time by increasing the picture pick-up device 203 after the aperture locking begins, only utilize the exposure before aperture 202 lockings to realize the ultrahigh speed shutter, because the deviation of aperture blocking time, therefore be difficult, so, as previously mentioned, can not too improve electronic shutter speed.Therefore, in this camera head, must consider restriction to electronic shutter speed, so, can not the same setting of freely carrying out program AE with camera.
An embodiment of the program route map of the program AE of this camera head is shown in Figure 32.Among the figure, from the electronic shutter speed ssx of in good time selection to ssy, the control that exposes of aperture of setting by the route map among the figure and shutter speed.
The exposure control of rest image at this moment is identical with the control method that illustrated so far, f-number measuring light trap in advance lock characteristic according to several points on the program route map, then, obtain the checkout time of picture pick-up device 203 and control, the checkout time of other points etc. can utilize the value of obtaining according to interpolation method to control.
The program circuit of program AE when in addition, detecting flicker is illustrated in Figure 23.Control such as the switching of Figure 33 and Figure 32 is identical with the method that illustrated in Figure 30, so, detailed.
Certainly, the same with Figure 31, the embodiment that Figure 32 and Figure 33 are synthesized also is possible, and this embodiment is shown in Figure 34.The target setting of program route map is identical with Figure 31, detailed.
In addition, the various program route maps that also can be prepared in advance are selected to use by shooting person, and the embodiment of program route map at this moment is shown in Figure 35.Among the figure, from P0 to P4, represent various program route maps,, only select this P1 to make a video recording to rest image without difficulty if be P1 comprising the program route map of Figure 33, so, the convenience of use can be improved.
More than, according to each embodiment the present invention has been described, but people can do all distortion in the scope that does not exceed spirit of the present invention.For example, the correction of exposure is to utilize the control of the gain of signal processing circuit to carry out, still, also can placeholder record in devices such as memory, revise then.
In addition, be locking zero hour of aperture during each vertical synchronizing signal on the figure, and still, the locking of aperture also can be taken as the moment of signal after pixel has just been read when the electric charge of the electronic shutter that does not have picture pick-up device is removed the zero hour.In the example of the CCD of formula in the ranks, then be just after vertical CCD transmits, to begin to carry out the locking of aperture.
In addition, in the description that describes in detail, in order to represent the state of aperture, aperture area according to aperture is illustrated, and still, this is the explanation convenience in order to move, selected the amount of easy understanding, as long as adopt the amount corresponding, even use f-number itself to describe, for controlling without any problem with exposure.
In addition, implement after various embodiments of the present invention suitably can being made up.
As mentioned above,, use the aperture that on general video camera, uses, can realize to carry out the small-sized and cheap camera head of motion video shooting and rest image shooting according to the present invention.
Claims (2)
1. the image capture method of the live image of a camera head and rest image is characterized in that,
Described camera head is provided with:
Solid photographic device is made opto-electronic conversion to incident light,
Signal processing part carries out amplifying signal to the signal of being made opto-electronic conversion by described solid photographic device and handles, as the picture signal output of live image or rest image,
The exposure adjusting portion, the exposure when exposure when using aperture to regulate the live image shooting at least and rest image shooting,
Shutter release button is indicated the rest image shooting by the user in the live image shooting;
Described method is:
With the nonopen state of aperture, the exposure when utilizing described exposure adjusting portion that live image is made a video recording is adjusted to the 1st exposure, utilizes described signal processing part to amplify with the 1st signal magnification ratio, carries out the live image shooting,
The described shutter of an operation when described live image is made a video recording, then utilize described exposure adjusting portion, according to the 1st exposure of when described live image is made a video recording, regulating, exposure when rest image is made a video recording is adjusted to 2nd exposure bigger than described the 1st exposure, utilize described signal processing part to amplify, carry out the shooting of rest image with the 2nd signal magnification ratio littler than described the 1st signal magnification ratio.
2. the image capture method of the live image of a camera head and rest image is characterized in that,
Described camera head is provided with:
Solid photographic device is made opto-electronic conversion with incident light when live image is made a video recording, do the pixel mixing and read, when rest image is made a video recording, incident light is carried out independently reading as opto-electronic conversion,
Signal processing part is made signal processing to the signal of independently reading with described solid photographic device, as the picture signal output of rest image
The exposure adjusting portion is used aperture at least, the exposure when exposure when regulating the live image shooting and rest image shooting,
Shutter release button is indicated the rest image shooting by the user in the live image shooting;
Described method is:
With the nonopen state of aperture, the exposure when by the exposure adjusting portion live image being made a video recording is adjusted to the 1st exposure, does the live image shooting;
When described live image is made a video recording, one this shutter release button of operation then utilizes described exposure adjusting portion, according to the 1st exposure of regulating when described live image is made a video recording, exposure when rest image is made a video recording is adjusted to 2nd exposure bigger than described the 1st exposure, does the rest image shooting.
Applications Claiming Priority (4)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP070431/1994 | 1994-04-08 | ||
| JP06070431A JP3117056B2 (en) | 1994-04-08 | 1994-04-08 | Imaging device |
| JP160930/1994 | 1994-07-13 | ||
| JP193194/1994 | 1994-08-17 |
Related Parent Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB2004100054436A Division CN100383658C (en) | 1994-04-08 | 1995-04-08 | Camera apparatus and controlling method thereof |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1897651A CN1897651A (en) | 2007-01-17 |
| CN100435561C true CN100435561C (en) | 2008-11-19 |
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Family Applications (2)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB2006100999798A Expired - Lifetime CN100435561C (en) | 1994-04-08 | 1995-04-08 | Image pickup apparatus and method of controlling the same |
| CNB200610099975XA Expired - Lifetime CN100440939C (en) | 1994-04-08 | 1995-04-08 | Image pickup apparatus and method of controlling the same |
Family Applications After (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB200610099975XA Expired - Lifetime CN100440939C (en) | 1994-04-08 | 1995-04-08 | Image pickup apparatus and method of controlling the same |
Country Status (2)
| Country | Link |
|---|---|
| JP (1) | JP3117056B2 (en) |
| CN (2) | CN100435561C (en) |
Families Citing this family (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP3117056B2 (en) * | 1994-04-08 | 2000-12-11 | 株式会社日立製作所 | Imaging device |
| KR100412486B1 (en) * | 2001-06-22 | 2003-12-31 | 삼성전자주식회사 | Photographing apparatus having the function of preventing blur of still image |
| JP6537224B2 (en) | 2014-04-23 | 2019-07-03 | キヤノン株式会社 | Imaging device, control method, program, and storage medium |
| JP6556480B2 (en) * | 2015-03-26 | 2019-08-07 | オリンパス株式会社 | Imaging apparatus and imaging method |
Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1031635A (en) * | 1987-08-14 | 1989-03-08 | 泰姆费尔特公司 | Take the method for rapid movement object image with video method |
| CN1019750B (en) * | 1987-03-26 | 1992-12-30 | 奥托库姆普联合股票公司 | The method of hard cooper and copper alloy tube |
| CN1897650A (en) * | 1994-04-08 | 2007-01-17 | 株式会社日立制作所 | Image pickup apparatus and method of controlling the same |
-
1994
- 1994-04-08 JP JP06070431A patent/JP3117056B2/en not_active Expired - Lifetime
-
1995
- 1995-04-08 CN CNB2006100999798A patent/CN100435561C/en not_active Expired - Lifetime
- 1995-04-08 CN CNB200610099975XA patent/CN100440939C/en not_active Expired - Lifetime
Patent Citations (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1019750B (en) * | 1987-03-26 | 1992-12-30 | 奥托库姆普联合股票公司 | The method of hard cooper and copper alloy tube |
| CN1031635A (en) * | 1987-08-14 | 1989-03-08 | 泰姆费尔特公司 | Take the method for rapid movement object image with video method |
| CN1897650A (en) * | 1994-04-08 | 2007-01-17 | 株式会社日立制作所 | Image pickup apparatus and method of controlling the same |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH07284008A (en) | 1995-10-27 |
| CN1897651A (en) | 2007-01-17 |
| CN100440939C (en) | 2008-12-03 |
| JP3117056B2 (en) | 2000-12-11 |
| CN1897650A (en) | 2007-01-17 |
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