JPH07114490B2 - Video signal transmitter / receiver - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video signal transmitting / receiving device used when displaying an information signal from an information source such as a camera on a display device at a distance. .

2. Description of the Related Art With the recent development of electronics, cameras and display devices are often used in the field of security. There are various uses, and a typical example of use thereof is a surveillance device using a camera. That is, a camera is installed in one room and the display is monitored in another room, or a camera is installed in the entrance and visitors are monitored on the display inside the house.

In the above usage example, in addition to monitoring the time directly on the display, the contents of the preset VT
It is also possible to record in R.

By the way, when using a vidicon as an image sensor of a camera, if the camera is always in operation and a screen that does not move in particular is imaged for a long time, so-called camera burn occurs, and even if another screen is displayed, the previous screen is displayed. It happens that is not erased but remains. Moreover, long-time imaging shortens the life of the camera.

Therefore, in order to reduce the above-mentioned inconvenience, a method has often been adopted in which a switch is provided on the camera side and the operation of the camera is limited within a fixed time after the switch is operated. In the above-mentioned example, this switch is installed, for example, on the door of the room where the camera is installed or on the call button at the entrance.

Hereinafter, the conventional video signal transmitting / receiving apparatus as described above will be described with reference to the drawings.

FIG. 3 shows a conventional video signal transmitting / receiving apparatus. In FIG. 3, A is a signal receiving device, 1 is a power supply circuit, 2 is a video signal processing circuit, 3 is a control signal receiving circuit, and 4 is a display device (TV, VTR or the like).
On the other hand, B is a signal transmission device, 5 is a power supply circuit, 6 is a video signal output circuit, 7 is a control signal transmission circuit, 8 is a camera, and SW is a switch. Further, L1 is a video signal line for superimposing power, L2 is a control signal line, and G is a ground line.

A conventional video signal transmitting / receiving apparatus will be described below with reference to FIG.

Now, when the switch SW is turned on, the ON information is transmitted to the control signal receiving circuit 3 via the control signal transmitting circuit 7 and the control signal line L2. As a result, the control signal receiving circuit 3
Outputs a signal to the power supply circuit 1 for a certain time, and within that time, supplies power for operating the camera 8 to the power supply circuit 5 from the power supply circuit 1 through the video signal line L1 for a certain time. . Here, the video signal output circuit 6 processes the signal from the camera 8 and outputs the video signal to the video signal line L1.

FIG. 4 shows a specific example of the power supply circuit 1 and the power supply circuit 5 of FIG. In FIG. 4, R _{1 to} R ₁₅ are resistors, VR ₁ and V
R ₂ is a variable resistor, C _{1 to} C ₄ are capacitors, D ₁ is a Zener diode, D ₂ is a diode, Q _{1 to} Q ₆ are transistors, 10
Is an operational amplifier.

The circuit composed of the transistors Q ₁ and Q ₂ and the operational amplifier 10 in FIG. 4 constitutes a constant current circuit, and the transistor Q ₃ is
When OFF, but the current flowing through the video signal line L1 is adjusted by the variable resistor VR _2, this value is small, therefore, the transistor Q ₄ is turned OFF because the potential is low the video signal line L1, the transistor Q ₆ is Do not work. On the other hand, the control signal receiving circuit 3
The output associated with the control signal received from is applied to the base of the transistor Q _3, next to the transistor Q ₃ is turned ON, the current flowing through the video signal line Q1 increases, transistor Q ₄
Is turned on, and as a result, the transistor Q ₆ is turned on to operate the camera. Transistors Q ₁ and Q ₆ are both connected to the video signal line L1 on the collector side, and since a large impedance can be obtained by power supply, the video signal from the camera is sent to video signal line L1 via capacitor C _2. , And can be taken out from the capacitor C ₁ .

Problems to be Solved by the Invention However, while the configuration of FIG. 3 is simple, two video signal lines L1 and control signal lines L2 are provided between the signal transmission device B having a camera and the signal reception device A having a display. However, there is a drawback in that the workability when wiring these signal lines is deteriorated because the above signal lines are required. Especially when it is necessary to separate the signal receiving device A and the signal transmitting device B from each other, it is required to reduce the number of signal lines.

Further, in the configuration of FIG. 3, when the control signal line L2 is properly connected and the video signal line L1 is grounded due to an incorrect connection or the like, the power consumption of the power supply circuit 1 increases and There was a risk of failure.

Further, a method of placing a video signal and a control signal on the same signal line is well known in the related art, and it is possible to adopt this method, but in this case, the frequency band of the control signal is equal to the frequency band of the video signal. If they overlap, the circuit may malfunction or the screen may malfunction. Therefore, a method of modulating the control signal so that the frequency band of the control signal in the signal line is outside the frequency band of the video signal was also taken, but this also requires a bandpass filter or demodulator for the control signal, There is a problem that the circuit becomes complicated and the cost becomes high.

In view of the above problems, the present invention has a single signal line to improve workability, and there is no risk of parts failure due to accidents such as erroneous connections during construction, and malfunctions and screen abnormalities do not occur.
Yet, it provides a simple method of transmitting and receiving a video signal.

Means for Solving the Problems To achieve this object, a power supply circuit of a signal receiving device selects a first voltage insufficient to drive a video camera and a second voltage sufficient to drive a video camera. Is configured to be applied to the signal transmitting device via a transmission signal line, and the signal transmitting device controls the control when it detects that the applied voltage to the transmission signal line is a second voltage. A first voltage detection circuit that blocks application of a signal to the transmission signal line is provided, and the signal receiving device receives the control signal sent via the transmission signal line in advance and receives the control signal. A second voltage detection circuit is provided for controlling the power supply circuit so that a second voltage is applied to the transmission signal line instead of the first voltage for a predetermined period.

Operation With this configuration, the number of signal lines can be reduced to one, so workability is improved, and since the control signal of the power supply passes through the above signal lines, power supply can be performed with the signal lines grounded. In addition to preventing the failure of the circuit components, the video signal and the control signal do not occur at the same time, so that malfunctions and screen abnormalities do not occur, and the circuit can be simplified.

Examples Hereinafter, examples of the present invention will be described with reference to the drawings. FIG. 1 shows a video signal transmitting / receiving apparatus of the present invention. In FIG. 1, A is a signal receiving device, 1 is a power supply circuit, 2 is a video processing circuit, 11 is a control signal receiving circuit, and 4 is a display device (TV, VTR, etc.). On the other hand, B is a signal transmission device, 5 is a power supply circuit, 6 is a video signal output circuit, 12 is a control signal transmission circuit, 8 is a camera, and SW is an external switch. L is a transmission / reception signal line for power supply superposition, and G is a ground line.

FIG. 2 shows the inside of the control signal receiving circuit 11 and the control signal transmitting circuit 12 which are the features of the video signal transmitting / receiving apparatus of the present invention. In FIG. 2, 13 is a control signal detection circuit,
Reference numeral 14 is a second voltage detection circuit, 15 is a holding circuit, 16 is a power supply control circuit, 17 is a first voltage detection circuit, 18 is a control signal generation circuit, and 19 is a buffer circuit.

Hereinafter, this operation will be described.

When the DC potential of the transmission / reception signal line L is low, the first voltage detection circuit 17 detects that the DC potential is lower than the preset potential, and outputs a signal to the control signal generation circuit 18. At this time, when the external switch SW is turned on, the control signal generation circuit 18 generates a control signal and puts the control signal on the transmission / reception signal line L via the buffer circuit 19. This control signal may be, for example, a single sinusoidal signal. At this point in time, no voltage is supplied from the power supply circuit 5 to the video signal output circuit 6, so the camera 8 is not operating and the video signal does not get on the transmission / reception signal line L.

The control signal on the transmission / reception signal line L is controlled by the control signal receiving circuit.
Second voltage detection which is applied to the control signal detection circuit 13 of 11 and detects the control signal here and also detects that the DC voltage of the transmission / reception signal line L is lower than a preset potential. When receiving the signal output from the circuit 11, the output signal is sent to the holding circuit 15 including a time constant circuit or the like. After receiving the output signal from the control signal detection circuit 13, the holding circuit 15 delays and outputs the signal, and holds the state for a certain period of time. This delay of the output signal is to prevent malfunction when a signal other than the control signal is momentarily applied to the transmission / reception signal line L, and further, the control signal is transmitted to the transmission / reception signal line L for a required time. It is for guarantee.

The signal from the holding circuit 15 is output to the power supply circuit 1 by the power supply control circuit 16. Here, the power supply control circuit 16
Is located between the holding circuit 15 and the power supply circuit 1, and it is possible to control the output of the holding circuit 15 to the power supply circuit 1 from the outside. It should be noted that the effectiveness of the invention is not impaired.

Now, receiving the output of the power supply control circuit 16, the power supply circuit 1 increases the power supply to the transmission / reception signal line L, and the potential of the transmission / reception signal line L rises. Accordingly, the first voltage detection circuit 17 detects that the potential of the transmission / reception signal line L is higher than the preset potential, and changes the output to the control signal generation circuit 18 to generate the control signal. Stop.

At this time, the power supply circuit 5 supplies a voltage to the video signal output circuit 6 in response to an increase in the potential of the transmission / reception signal line L, whereby the camera 8 operates and the video signal of the camera 8 is output to the transmission / reception signal line L. To be done. This signal is sent to the display device 4 through the video processing circuit 2.

At this time, the potential of the transmission / reception signal line L is high, and the second voltage detection circuit 14 detects that the potential is higher than a preset potential, and controls the output that shuts off the detection output of the control signal detection circuit 13. It is given to the signal detection circuit 13. By this operation, the control signal receiving circuit 11 does not malfunction due to a signal such as a video signal.

After a certain period of time, the output of the holding circuit 15 changes, and this signal is transmitted to the power supply circuit 1 via the power supply control circuit 16 to reduce the current of the power supply circuit 1 and accordingly the transmission / reception signal line L. Lower the potential. As a result, the power supply circuit 5
No longer supplies voltage to the video signal output circuit 6,
The operation of the camera 8 is stopped and the initial state is returned to.

As described above, in this embodiment, in addition to the power supply and the video signal, the control signal is superimposed on one signal line, which simplifies the construction work when installing the device, and the signal line caused by incorrect connection or the like. In the case of grounding, since the control signal is grounded and no signal is sent to the control signal receiving circuit, the power supply to the signal line does not increase and there is no risk of failure of circuit components or the like.

Furthermore, since the control signal is configured not to be generated when the video signal is generated, that is, when the power is supplied, the control signal does not disturb the video signal.

Further, both the video signal and the control signal can be processed in the base band, and it is unnecessary to modulate and demodulate a plurality of signals on the signal line as in the conventional case, so that the circuit can be completed.

As described above, according to the present invention, the output of the first voltage detection circuit that detects the DC voltage level of the transmission / reception signal line and the control signal from the control signal circuit that generates the control signal by the external switch are transmitted to the transmission / reception signal line. It has a second voltage detection circuit that puts it on, detects it with a control signal detection circuit, and controls the output, and uses the output that delays the output and holds it for a certain period of time as the control input of the power supply circuit of the transmission / reception signal line. Since it is configured, one transmission / reception signal line is sufficient, there is no fear of circuit component failure due to erroneous connection, etc. Moreover, malfunctions and image interference such as superimposing power supply, video signal and control signal Does not occur, the circuit is simple and the design is easy, and its practical effect is great.

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of a video signal transmitting / receiving apparatus of the present invention, FIG. 2 is a block diagram of a main part of FIG. 1, FIG. 3 is a block diagram of a conventional video signal transmitting / receiving apparatus, and FIG. 3 is a specific circuit example of the main part of FIG. 1 ... power supply circuit, 2 ... video signal processing circuit, 3, 11 ...
Control signal receiving circuit, 4 Display device (TV / VT
R, etc., 5 ... power supply circuit, 6 ... video signal output circuit, 7,1
2 ... Control signal transmitting circuit, 8 ... Camera, SW ... External switch, A ... Signal receiving device, B ... Signal transmitting device, L
...... Transmission / reception signal line, L1 ... Video signal line, L2 ... Control signal line, G ... Ground line, 13 ... Control signal detection circuit, 14 ...
Second voltage detection circuit, 15 ... Holding circuit, 16 ... Power supply control circuit, 17 ... First voltage detection circuit, 18 ... Control signal generation circuit, 19 ... Buffer circuit.

Claims (1)

[Claims] 1. A signal transmission device including a video camera and a call switch for generating a control signal when pressed, and the signal transmission device is connected by a single transmission signal line,
Video signal reception comprising a display device for displaying the video signal output of the video camera sent via the transmission signal line and a signal receiving device including a power supply circuit for supplying driving power for the signal transmitting device. In the device, the power supply circuit selectively supplies a first voltage insufficient to drive the video camera and a second voltage sufficient to drive the video camera to the signal transmission device via the transmission signal line. The signal transmission device is configured to apply the voltage, and when the signal transmission device detects that the applied voltage to the transmission signal line is a second voltage, the signal transmission device blocks application of the control signal to the transmission signal line. A first voltage detection circuit is provided, and the signal receiving device receives the control signal sent via the transmission signal line and receives the control signal on the transmission signal line for a predetermined period. 1 Video signal receiving apparatus characterized by the second voltage detection circuit for controlling said power supply circuit as allowed to apply a second voltage instead of the voltage is provided.