DE3005043C2 - Automatic focus indicator for a camera - Google Patents

Description

3 4

From DE-AS 26 39 625 is also an automatic proverbs.

see focus display device for a camera In the following, the invention is based on embodiments

known, which a photoelectrically working focus rungsbeispielen referring to the drawing in more detail

sierungssignal-Ermittungseinrichtung includes, which are explained under it show

Use of a photo-electric transducer arrangement s Figs. IA and IB graphical representations relating to

and a contrast detector circuit a contrast signal generating a focus signal in an auto-

generated gnal, which has a maximum value in the focussing display device with

kussierungsposition a photographic lens of the chambers according to the invention,

Furthermore, a display control Fig. 2 is a block diagram of a first embodiment

to generate a focus signal depending on the form of an automatic focus indicator

provided by the contrast signal when the photo direction with features according to the invention,

graphic lens is in focus position F i g. 3 a curve of the contrast signal as a function of

Reaching the focus position can be achieved by means of lens feed,

of a light or toner generation element is displayed; FIG. 4 a series of waveforms that represent the different

will. 15 which show the motion stages of the photographic lens

With the help of these well-known automatic focus positions,

display device cannot be displayed at the same time. 5 is a graphic illustration to explain the

shows how close a setting is to the optima procedure in which the focus signal

len focussing point is located and in which Rieh- is generated,

the focus setting can be changed 20 Fig. 6 is a block diagram of a second embodiment

must, in order to achieve the optimal focus setting of the automatic focus display

are sufficient. It is only possible to indicate that the device with features according to the invention,

Focus adjustment of a lens within a Fig. 7 a block diagram of a third embodiment

Coarse area is located, but no information is provided by the automatic focus indicator

mation is conveyed, in which direction now further for a camera with features according to the invention

must be rotated in order to find the optimum focus .ur; l

to approach or reach the position. F i g. 8 is a graph showing the frequency of the

The object on which the invention is based is the display signal generated depending on the contrast of the

therein, indicates a comparatively simply structured automatically observed object

table focus indicator for a comb. 1A and IB are graphs showing ra of the type defined at the outset, which enables the generation of a focusing signal in an auto-possibility offers to also provide information about latent focus indicators, remote, whether the adjustment of the focus is wide or in particular, FIG. IA shows the generation of a fona close kussierungssignal is located at the optimal focus point, according to a known

Starting from the automatic focusing approach. The focus signal is considered digital

The pointing device of the type mentioned is generated when the photographic lens is in

se object is achieved according to the invention in that a relatively narrow area / is located

seek on both sides of the focus position

a) a relatively wide display or signaling stretch. On the other hand, the provision area is accordingly on both sides of the optimal focus of the invention, the focus signal is in a locking position through the positive or negative proportionally wide range / 'generated to beive Waveform is fixed, and the sides of the focus position further extends

b) Means are provided which, within the display, the focusing signal is changed in such a way that it or signaling area a the respective fo- its maximum value, if the photographic The signal that characterizes the focus setting 45 lens is in the focus position

witness. It now becomes a preferred embodiment

in connection with a contrast detection based

According to the invention, signals are generated with the aid of the circuit-attached focusing determination device, which signals the increase in lift. F i g. 2 shows an embodiment of a device distribution of an object image reproducing or 50 device, in which a contrast signal is obtained based on a measure of the high spatial frequency of an object image image of an object to be photographed. represent.ro that a curve is thus realized. The image of an object is to be photographed 1 au ^f of an upper soft curved portion up to a self-scanning photoelectric Wandleranweist. Order 3 obtained by a photographic lens 2. The implementation of this specific curve progression creates the possibility of a display and a scanning circuit within a relatively wide focus area consisting of several photoelectric converter elements. To generate in the transducer arrangement, which characterizes the respective position of the fonation 3, the brightness distribution of the object image is kussierungs setting. electrically scanned in order to generate a time-series signal. This has the advantage that 60 already show at the beginning that corresponds to the brightness distribution. The photoelectric converter arrangement 3, which scans the person in question, can be informed of the focus in which a control circuit 4, which is in a state of the lens of the camera and in the scanning pulse generator circuit, allows the position of the camera to be adjusted in a different direction Lens definite, time-series waveform corresponding to the brightness is required in order to provide the optimal focus position distribution of an object image. The white reach. After amplification by an amplifier, the shape is converted into an analog waveform from the sub-signals. The on this

Analog waveform obtained in this manner is converted to a smoothing with stored voltage division peak value.

processing circuit 7 supplied, in which undesired equals and a Fokussicrungssignal is generated when

high frequency components from the analog waves- the contrast signal is greater than this value. Is the

shape can be removed. Thus, the smoothing circuit is built up in such a way that the focusing signal

attitude 7 delivers a waveform that the original 5 signal changes according to the difference between

The brightness distribution of the object image corresponds to the contrast signal and the stored value,

The wave emitted by the smoothing circuit 7, the focusing signal can be taken

form is differentiated by a differentiating circuit 8. The lower section of FIG. 5 shows that on this

focussed, whereby a differentiation signal is obtained, focussing signal generated in a manner.

which is a measure of the high spatial frequency of the image. 10 An example of an automatic focus indicator

represents, d. H. the increase in the brightness distribution is device with features according to the invention is in

specified. The differentiation signal is given by a F i g. 6 shown. The image of one to be photographed

Absolute value circuit 9 in a positive or negative object 11 is used on a contrast detection Waveform converted. The peak value of the consuming photoelectric converter arrangement 13a through

given absolute values, which are mapped by the absolute value switch 15 a photographic lens 12 in a similar way.

device 9 are supplied for each sampling period, is det, as was described in connection with FIG.

de detected by a peak value detection circuit 10. The output signal of the transducer arrangement 13a

and held until the next peak value in the following is fed to a contrast detection circuit 14,

following Abissipcricdc is determined. The result of this at the output of the transducer arrangement 13a

The vertex values obtained in this way form the contrast signal that is generated beforehand. The contrast determination

mentioned contrast signal. The contrast signal has circuitry as shown in FIG. 2 be executed. she can

its maximum value (amplitude) when focusing, however, also be a device that is a single

position, d. h, when the photographic lens is in the contrast signal from the image of one to be photographed

F i g. 3 specified focus position is removed from the object.

The focus signal which, according to Fig. 1A, 25 The peak value of the contrast signal is changed by a digitally at the focus position, peak value hold circuit can be detected, which can be used from an operation by adding it in accordance with a ratio amplifier Ai, a diode D \, a resistor Method is used in which the maximum Äi and - ■ Lnem capacitor Ci exists. The peak value of the contrast signal is stored once and the value hold signal, which is generated at the output of the peak value half when the contrast signal occurs again in the stored circuit, is reached after passing through a value, a coincidence signal is generated. F i g. 4 Buffer amplifier, which is presented as operational amplifier Ai , is a diagram for a description of this failure, driving a voltage division by resistors. In particular, the upper part shows the Ri and Rj subjected and the difference between F i g. 4 changes in the contrast signal during which the next following contrast signal and the span-mean part of FIG. 4 the movements of the photographic division peak value is taken from a differential vision lens, namely advancement, retraction and intensifier, which is indicated by an operation stop. The two parts of FIG. The output signal of the differential case in which the lens, which is initially in a stoppage amplifier, a control signal, which is a transition, is advanced, whereby if the contrast interference makes T, conductive, if the contrast signal higher than the signal reaches the maximum value, the lens is retracted 40 the voltage division threshold value increases and when the contrast signal again reaches the differential output signal of the differential amplifier, the maximum value is reached, the lens is stopped. The increases the current flowing between the collector and the emitter of the first maximum value of the contrast signal is stored transistor T _t. When the transistor chert and the contrast signal is the so overall T, conductive, current flows in a light emitting diode D _2, compared wospeicherten maximum value. Are the two 45 turned on with this.

Values are equal, then the above-mentioned focus signal, the peak value is gespeierzeugt in the capacitor Q by the chain line in the upper part chert The condenser G is by actuation of one of F i g. 4, the stored peak value level is discharged at the analog switch Si, which is given by a reset. The lower part of FIG. Fig. 4 shows that when the pulse from a reset pulse generator 15 is added to a clipped-stored peak with the contrast signal, whereby the peak hold signal collapses, the focus signal is generated. A is put. This resetting process is necessary; the light-emitting element can be switched on in digital mode before the image of another object is switched on for focusing using the focusing signal. The reset pulse can be used in conjunction with. the actuation of the shutter release button for time

The invention can be created using the advance point of the shutter actuation. Consequently

can be realized with the contrast signal described. the LED is switched on when the photo

F i g. 5 illustrates how the focusing signal graphic lens is essentially in focusing position

is procreated. In particular, the upper part of FIG. 5 tion and the brightness of the light emitting diode in the

Changes in the contrast signal while the central focus position is at its maximum value Part of FIG. 5 the movements of the photographic lin- 60 Another embodiment of the automatic

se similar to the case of FIG. 4 indicates. The photographic focus indicator in which the focus

cal lens is stopped when the contrast signal tion is indicated by a sound signal is in the

as in the case of FIG. 4 reaches its maximum value Es F i g. 7 and 8 shown

it should be noted, however, that if the device according to FIG. 7 has a so-called

irasisigna! its maximum value is reached by a value of 55 U / F converter 11 in order to detect voltage changes in fre-

which is then to be converted as »voltage frequency changes, as well as one with the

lungsscheitelwert «and smaller than the U / F converter 11 connected amplifier circuit.

The maximum value is The contrast signal is increased with the increase in the

device 10 held voltage value, the frequency of the supplied by a tone generator 13 increases Tone. The frequency of the generated tone is thus proportional to the voltage held by the Scheitek / ert detection circuit 10. If an oscillator control circuit 14 between the U / F converter 11 and the Amplifier 12 inserted, so it is possible to intermittently generate a sound signal with the Toncrzer ^ jr, or a plurality of tone signals of different tone coloration. If changes in tone amplitude are used with the focus indicator, the peak value detection circuit 10 is connected to an oscillator circuit, which in turn is connected to a Amplifier circuit is connected, so that the gain of the amplifier circuit by the Output signal of the peak value detection circuit is controlled. The mode of operation of the device according to FIG. 7 will

Observing the edge-shaped part of the brightness distribution of an object within the measuring field limitation of the viewfinder, the photographer pushes the photographic Lens 2 forwards or backwards. If the lens 2 is in the focusing position, then according to FIG F i g. 8 the frequency of the tone generated by the tone generator is highest. The frequency will be according to the curve 15 changed with high object contrast, and according to curve 16 with low object contrast, the higher the contrast of the object, the greater the change in frequency of the tone supplied by the tone generator. The: means that when the! Contrast is increased, one Object the lens can be easily focused on the object. However, the lens can also point to an object be focused with low contrast because the frequency of the sound produced by the tone generator becomes highest at the focus point. This is a particularly advantageous feature of the focus indicator that uses a sound signal that is in a a comparatively wide area is generated at the focus position.

As can be seen from the preceding description, in the device with the features according to According to the invention, the light-emitting element is switched on in the region of the focusing position and the focusing signal reaches its maximum value at the position of correct focusing. Furthermore, the focus indication signal gives a clear indication to the photographer. Even if the camera is manual or stationary is held, the focus display signal still has a very high display accuracy.

In addition, the lens can be accurate to an object be focused by only the maximum frequency value of the supplied by the tone generation transducer Tons is determined. Thus, in a camera incorporating the focus display device of the present invention used, no usual laborious focus adjustment required. Since the edged part of the If the brightness distribution of an object is determined, the lens can also be focused on a deep object. The sound generating element may be a piezoelectric buzzer that requires little space, or one Earpiece.

In the device according to FIG. 7, the contrast signal is converted directly into a sound signal, so that the focusing is determined on the basis of changes in the audio signal. The device thus constitutes a acoustic focus indicator. Es It goes without saying that the acoustic focus indicator effective with a variety of visual focus indicators, for example a light emitting diode can be combined. Although with the one previously described

s tone generator circuit a tone with maximum frequency is used at the focus point, a minimum or zero frequency can also be used.

In a case where no further focusing is required, for example when the same object is is photographed repeatedly, the sound signal generated by the sound generating element can disturb the photographer and it can be switched off in such a case. Thus, a combination of an acoustic focus indicator and a visual focus indication device very advantageous.

In addition 5 sheets of drawings

Claims (5)

1 2 D wiM, 6 · Automatic focusing display device claims: device according to claim, characterized in that 1. Automatic focus display device for the absolute value circuit (9), a peak value detection for a camera, followed by a photographic working circuit (10) tehden focusing signal detection device, s 7. Focusing display device for a cage using a photoelectric wall camera according to claim 1, characterized by a ler arrangement and a contrast detector circuit circuit (11) for converting the output into a contrast signal, which generates a maximum signal change of the contrast signal in frequency at the focussing position of a photograph and a sound generator (13), which depends see lens reached by the camera, a display io from the circuit arbeilet, whereby the through the control for generating a focusing signal tone generator (13) generated sound frequency at the opgnals, depending on the contrast signal when the maximum focus position of a photographic the photographic lens reaches a peak in the lens focus position of the camera is located and with a signaling device that indicates whether the photographic lens is in focus 8. Focusing display device is in claim 7, characterized in that the amplitude ! ungsposition is located with one of the electrical de of the tone generated by the tone generator (13) for Transducer arrangement downstream sampling and time of focusing has a maximum Holding circuit, soft the time-series claim 7 coming from the photographic focusing display device 9 after an on-converter arrangement, characterized in that the vertex scanning signals of an object image in an analogous manner is a minimum Löge waveform converts, with a differentiating 10. Focusing display device after connecting a smoothing circuit to the scanning claim 7, characterized in that the vertex and hold circuit is turned on and which value is a maximum analog waveform differentiated and a differen tiation signal generated which the increase in HeI 25 Ligkeitsverteiiung indicates, and with an absolute value circuit, which the differentiation signal in a positive or negative waveform converts there- The invention relates to an automatic focus- characterized in that the display device for a camera, with a fo- 30 tographically working focusing signal detection a) a relatively wide display or si- lungseinrichtung, which generates a contrast signal by the po- tor circuit which a positive or negative waveform is defined using a photo elec- tricalization area (] ') on both sides of the tric transducer arrangement and a focus position optimal for contrast detection The maximum value for the focusing position of a photographic and 35 graphic lens of the camera is reached by a display b) means (11, 12, 13, 14; Ch) are provided, the control for generating a focusing signal. within the display or signaling dependent on the contrast signal, when the photoreiches (V) generate a signal identifying the respective focusing graphic lens in the focusing position. and with a signaling device that indicates whether 40 the photographic lens in the focus position 2. Automatic focusing display device located, with one of the electrical Wandlerafiordnung device according to claim 1, characterized in that downstream sample and hold circuit, which has a peak hold circuit with at least one operational amplifier (A \, A2), a tensioning time-series brightness scanning signals of an object divider (Ri, Rj) and a comparison stage (A3) 45 converts project image into an analog waveform, with the comparison stage (A3) being one of a differentiating circuit, which is optionally connected to the voltage divider (R2, Ri) at partial voltage Holding circuit is switched on and which compares the signal obtained from the contrast signal and differentiates the analog waveform and a differential signal and the difference signal obtained thereby generates a subsequent signal which controls the increase in the brightness following switching stage (Ti) and that indicates the Si- kits distribution, and with an absolute value signaling device from a light output element, which consists of the differentiation signal in a positive (Di) or from a tone generator that converts or negative waveform. which can be actuated by the switching stage (T \). Such an automatic focus indicator 3. Automatic focus indicator device corresponds to an older proposal Device according to claim 1, characterized in that DE-OS 29 31 274. With this automatic focus, the frequency and / or amplitude of the tone generated by a sizing display device is controlled by a pointer instruction tone generator element through the statement to display the focus state to the kussing signal . Turn, with the pointer of the pointer instrument 4. Automatic focus indicator- 60 distracted depending on the size of a contrast signal device according to claim 1, characterized in that is. the focusing position by a minimum or since the display and signaling area must be Maximum frequency of the tone is displayed. the sides of the respective focus point 5. Automatic focus display device is equally narrow, there is a display dartung according to claim 2, characterized in that 65 about that the focus point is reached, always that know the respective focus setting - only if the respective focus setting The signal that draws a light emitting element controls directly at the optimum focusing setting has arrived.