DE3819612A1 - Video camera with associated video light - Google Patents

Abstract

In the video camera (10') with associated video light (12'), the luminosity of the video light is altered by means of a luminosity circuit (13') as a function of the output signal of a light sensor (14') arranged on the video camera (10'), preferably behind the optical system (11') of the video camera (10') to the effect that only the smallest luminosity required for a satisfactory video recording is ever delivered by the video light (12'). <IMAGE>

Description

The invention relates to a video camera with an associated Video light for brightening the recording area, with a light sensor for detecting the strength of the on reflected area and with an intermediate the video light and an operating voltage source Circuit for changing the luminosity of the video light te depending on the output signal of the light sensor.

A video light with a device for changing the power consumed by the lamp depending on the Output signal from a light sensor is already suggested been created. It was with one on the video light orderly light receiver worked. Purpose of furnishing was to shoot one with an over-strong one when taking close-ups Illumination related ver strong heat generation avoid.

Especially for video lights that are not open to the public Lich power supply network or a power generator can be closed, but powered by batteries must be, that of the present invention underlying task, the facility for luminosity training the video light so that always with a minimum of lighting energy is used.

According to the invention, the task set is primarily solved in that the light sensor on the video camera, arranged in particular behind the optics of the video camera is what actually means for video recording Lich existing light intensity is detected. With one in the It is then the video camera self-arranged light sensor possible to reduce the brightness of the video lamp to a minimum exposure at a given camera aperture regulate, for which purpose the luminous intensity circuit Can have comparison level to which the output given by the light sensor and there with a signal worth comparing which of the required light Strengthen the video at a given aperture camera corresponds. With a Blen adjustment can also be adjusted.

The luminous intensity circuit can be made from electronic components len constructed according to different circuit arrangements be not the subject of the present application are. The luminous intensity circuit can advantageously be used for the video light together with the operating chip battery or a battery pack housed within the housing of the video light be.  

With a video camera designed according to the invention with Video light can act as a light sensor for luminosity switch on also originally for the iris control Switch on the video camera provided light sensor be set, it is also conceivable that this light sensor a dual function for both circuits holds, for example from one to the other scarf device is switchable.

The invention allows for battery operated video light optimal use of the available energy reserve for the video light; otherwise it results in one economical power consumption.

The invention is described below with reference to the enclosed schematic drawing explained in more detail.

In detail show:

Fig. 1 shows a first embodiment of the circuit arrangement in a schematic block diagram.

FIG. 2 shows a representation of a second exemplary embodiment corresponding to FIG. 1;

Fig. 3 is a single block diagram of the luminance circuit.

The schematic block diagram of FIG. 1 shows a video camera 10 with the camera optics 11 and a video light 12 placed on the camera housing 10 . In the exemplary embodiment presented, a circuit 13 for changing the luminosity of the video light is accommodated within the housing of the video camera 10 as a function of a light sensor 14 arranged behind the camera optics 11 . There is also a battery 15 housed, which provides the light energy for the video light 12 .

The coupling of the individual parts to one another is indicated by thick dash-dotted lines of action. The electrical connection of the video light 12 to the camera body 13 housed in the luminance circuit 13 can advantageously be carried afford in a manner not shown via contact, as they are known here as in the arrangement or coupling of flash devices. The video light 12 can also be built into the housing of the video camera 10 , that is to say it can be integrated into the video camera 10 .

Instead of battery operation, the video light 12 can also be supplied with energy from the public electricity network. By a double dash-dotted line, a connecting cable 17 is indicated, which leads to the luminance circuit 13 in the housing of the video camera 10 . Another connecting line 18 between the luminosity circuit 13 and the video light 12 is also indicated with a double dash-dotted line.

Fig. 2 shows a video camera 10 'with attached video light 12 ', in which the luminous intensity circuit 13 'and the operating battery 15 ' are housed in the housing of the video light 12 . The behind the camera optics 11 'arranged light sensor 14 ' is connected to the light intensity circuit 13 ', which is again indicated by a dash-dotted line of action 16 '.

The video light 12 'does not have to be arranged in or on the housing of the video camera 10 , 10 ', but could also be detached from the video camera 10 , 10 'and connected via a cable to the video camera.

Fig. 3 shows a block diagram of the luminance circuit 13 , 13 '. It has a first input 19 for the power supply source, which can be the battery 15 , 15 'or a power supply network. The first input 19 leads to a switch 20 which is coupled via a second input 21 of the luminous intensity circuit to the operating switch of the video camera in such a way that the luminous intensity circuit is only switched on when the video camera is also connected to its power supply source. The light sensor 14 , 14 'is closed via a third input 22 , which leads to a comparison circuit 23 , where the light sensor signal is compared with a setpoint corresponding to a specific aperture setting. This setpoint can be changed in a manual or automatic change of the aperture setting of the video camera by a coming from the video camera to an input 24 of the signal. The output 25 of the comparison circuit 23 is connected to the control input 26 of a current change stage 27 . The input 28 of the current change stage 27 is connected via the switch 20 to the input terminal 19 and thereby to the energy supply source. The current influenced by the current changing circuit 27 flows via an output terminal 29 to the lamp of the trideo lamp 12, 12 '.

Claims (6)

1. video camera with assigned video light for lifting the recording area, with a light sensor for detecting the strength of the light reflected from the recording area and with a circuit between the video light and an operating voltage source for changing the luminosity of the video light as a function of the output signal of the light sensor, characterized in that the light sensor ( 14 , 14 ') is arranged on the video camera ( 10 , 10 '). 2. Video camera according to claim 1, characterized in that the light sensor ( 14 , 14 ') behind the optics ( 11 , 11 ') of the video camera ( 10 , 10 ') is arranged. 3. Video camera according to claim 1 or 2, characterized in that the luminous intensity circuit ( 13 , 13 ') has a comparison stage to which the output signal of the light sensor is given and compared there with a signal value which is the required minimum light intensity at a given aperture position corresponds to the video camera ( 10 , 10 ') in such a way that the circuit regulates or controls the luminous intensity of the video light ( 12 , 12 ') with a view to achieving the minimum exposure level for the video camera. 4. Video camera according to one of claims 1 to 3, characterized in that the luminous intensity circuit ( 13 ) for the video light ( 12 ) is accommodated together with a battery ( 15 ) forming the operating voltage source within the housing of the video light ( 10 ). 5. Video camera according to one of claims 1 to 4, characterized in that a light sensor originally provided for the aperture control circuit of the video camera ( 10 , 10 ') is used as the light sensor ( 14 , 14 ') for the light intensity circuit. 6. Video camera according to one of claims 1 to 5, characterized in that the aperture control of the video camera ( 10 , 10 ') is coupled to the luminous intensity circuit ( 13 , 13 ') in such a way that with an adjustment of the aperture of the video camera the minimum light intensity corresponding setpoint of the comparison stage ( 23 ) is also adjusted.