JPH0115256Y2 - - Google Patents

Description

[Detailed Description of the Invention] Industrial Application Field The present invention relates to a video camera, and more particularly to a power supply circuit for an electronic viewfinder that supplies a power supply voltage to a video monitor in a viewfinder section of the video camera.

BACKGROUND ART In a video camera having an electronic viewfinder, a video tape recorder (for example) that not only displays video information captured by the video camera on the video monitor of the viewfinder unit, but also records the video signal sent out from the video camera, is used. below
The reproduced video signal of the VTR (referred to as a VTR) is switched as necessary and displayed on the video monitor in the viewfinder section to check the images recorded on the VTR.
FIG. 2 is a circuit diagram of an electronic viewfinder having such a signal switching function.

In Figure 2, 1 is a video camera, 3 is a video output amplifier, 4 is a video monitor, 5 is a video amplifier, A
1 is a signal switching circuit having terminals 6, 7, and 8. The configuration of this signal switching circuit A1 will be explained. Terminal 7 is connected to the collector of transistor Q32 and to the base of transistor Q30. The base of transistor Q32 is grounded via capacitor C31 and connected to resistor R3.
It is connected to the same emitter via 2. The emitter is grounded via a diode D33 and connected to the power supply +B via a resistor R34. Its base is connected to the base of transistor Q31 via resistor R33. Both emitters of transistor 30 and transistor 31 are connected to terminal 6.
and is grounded via a resistor R35. The collector of transistor Q30 and the collector of transistor Q31 are connected to power supply +B. The base of transistor Q31 is grounded and connected to terminal 8 via a series circuit of capacitor C3 and resistor R36.

Now, A2 shows the VTR, and this VTRA2
The video signal reproduced by the VTR is taken out from the video amplifier 53, transistor Q51, and capacitor C51. Also, during playback, a DC voltage is applied to terminal 51, and this DC voltage is divided by resistors R51 and R52, and the reproduced video signal taken out from capacitor C51 mentioned above is clamped to a first DC level and output via terminal 9. and sends it to video camera 1.

The second screen shows the video information supplemented by video camera 1.
Not only is the video signal having a DC level of There is. When no video signal is supplied to terminal 8 from the VTR, the potential at point a is low, and therefore transistors Q31 and Q32 are off. Therefore, the video amplifier 5
A video signal from a video camera is supplied to a terminal 6 for supplying a video signal to a video monitor 4 of the viewfinder section. Further, when a reproduced video signal is supplied from the VTR to the terminal 8, the potential at point a becomes high (at this time, the potential at point a is set to be higher than the potential at point b) transistor Q31
operates as a common collector amplifier circuit, and transistor Q32 is turned on. At this time, the base potential of transistor Q30 becomes low and transistor Q30 is turned off. That is, the video monitor 4 is not supplied with the video signal from the video camera, but only the reproduced video signal from the VTR.
In this way, the video monitor 4 and the video amplification circuit 5 have
Since either the video signal from the video camera 1 or the reproduced video signal from the VTRA 2 is selectively supplied from the signal switching circuit A1, even when the video signal from the video camera 1 is not supplied to the video monitor 4, the video monitor 4 and the video amplification circuit are supplied with a DC power supply voltage +B.

Problems that the invention aims to solve: In conventional electronic viewfinders, VTRs record video signals from a video camera even when no video signals are being sent from the video camera.
A power supply voltage is constantly supplied to display the reproduced video signal from the video monitor on the screen of the video monitor as necessary. Therefore, when using the video camera to watch the VTR playback on the attached video monitor,
If the user does not notice when the VTR has finished playing, there is a problem that raster will be output even though there is no video signal, and power will be wasted.

Means for Solving the Problems The present invention provides first and second
In a video camera having an electronic viewfinder that selectively displays one of the video signals on an attached video monitor, when either the first or second video signal is supplied, depending on the DC level of each video signal, The gist of the present invention is to provide a voltage supply means for determining the arrival of any one of the video signals and supplying a power supply voltage to the video monitor.

Operation: The voltage supply means described above supplies the power supply voltage to the video monitor only when a video signal is applied to the video monitor.

EXAMPLES The present invention will be described below with reference to the drawings. FIG. 1 is a circuit diagram showing an embodiment of the present invention, in which a voltage control means 20 is added to the conventional circuit shown in FIG.

To explain the configuration of the voltage control means 20, the terminal 1
0 is the input terminal 7 for the video signal from the video camera 1
The video signal from the video camera is input. The terminal 11 is connected to a power supply voltage supply line for the video monitor 4 and the video amplifier 5. The terminal 12 is connected to the output terminal 9 of the reproduced video signal of the VTRA 2, and the reproduced video signal of the VTRA 2 is input thereto. Terminal 10 is connected to the base of a common emitter transistor Q ₂ via a resistor R ₃ . A parallel circuit consisting of a capacitor C ₁ and a resistor R ₄ is interposed between the base of this transistor Q ₂ and ground. The collector of the transistor _Q2 is connected to the collector of the emitter-grounded transistor _Q3 , and the base of the transistor _Q3 is connected to the connection point between the resistor _R5 and the resistor _R6 interposed between the terminal 12 and the ground. The collectors of transistors Q ₂ and Q ₃ are connected to a DC voltage source +B via a resistor R ₂ , and the emitters are connected to the base of a transistor Q ₁ which is connected to the same DC voltage source +B via a resistor R ₁ . ing. The collector of transistor Q ₁ is connected to terminal 11 .

Next, the operation will be explained. When a video signal from a video camera is supplied from the terminal 10, the transistor _Q2 is turned on. Also from terminal 12
When a reproduced video signal from VTRA2 is supplied, transistor _Q3 is turned on. Transistor Q ₂ ,
Transistor Q ₁ when any of Q ₃ is turned on
is turned on, and the voltage from the DC voltage source +B is supplied to the video monitor 4 and video amplifier 5 via the terminal 11. On the other hand, when no video signal is supplied to either terminal 10 or 12, both transistors Q ₂ and Q ₃ are off, so at this time transistor Q ₁ is also off, and the video monitor 4 and video amplifier 5 are No voltage supplied. Therefore, the power supply voltage is supplied to the video monitor 4 and the video amplifier 5 only when the video signal from the video camera 1 or the reproduced video signal from the VTRA 2 is supplied.

Effects of the invention As described above, according to the invention, power supply voltage is supplied to the video monitor and video amplifier only when a video signal is supplied, so raster is not generated when no video signal is supplied, which eliminates waste. It is practical because it prevents power from being consumed.

[Brief explanation of drawings]

Figure 1 is a circuit diagram showing one embodiment of the present invention, Figure 2 is a circuit diagram showing one embodiment of the present invention.
The figure is a circuit diagram showing a conventional example. 1... Video camera, 10... Second video signal supply terminal, 12... First video signal supply terminal, 20... Voltage control means.

Claims (1)

[Claims for Utility Model Registration] A video camera having an electronic viewfinder that selectively displays one of first and second video signals having different DC levels on an attached video monitor, comprising: Depending on the DC level of each video signal when either of the above is supplied,
A power supply circuit for an electronic viewfinder, comprising voltage control means for determining the arrival of any one of the video signals and supplying a power supply voltage to the video monitor.