JPH1141499A - Power unit for video camera - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power unit for a video camera which can properly supply electric power to an individual video camera and improve the reliability of a CCTVB system using the video cameras with different power consumption by saving the electric power of the CCTV system and limiting an internal temperature rise of the video camera. SOLUTION: A voltage detecting circuit 12 detects the voltage at a cable connection terminal 14 of a power unit 1 and outputs the detection result to a control circuit 11. A cable type selection switch 13 is equipped with two switches A and B; and the type of cable used as a transmission cable 10 is set with the switch A and the length of the transmission cable 10, i.e., the distance to the video camera 6 is set with the switch B while their set values are outputted to the control circuit 11. The control circuit 11 is connected to a constant current driving circuit 2 and a power circuit 3, a proper voltage of the video camera 6 is specified, and the output current of the constant current driving circuit 2 is controlled.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power supply device for a video camera for supplying power to the video camera via a signal cable, such as a CCTV (closed circuit television system).

[0002]

2. Description of the Related Art A closed-circuit television (CCTV) system using a plurality of power-supply type video cameras is constructed in a monitoring system for monitoring the flow of people and objects using an image technology, and in an educational broadcasting system. . This kind of CCTV
Is connected to a receiver via a transmission cable such as a coaxial cable, and sends a video signal to the receiver to enable centralized management of images. Also, a predetermined power supply voltage is supplied from the receiver to the video camera using the same transmission cable.

FIG. 4 is a block diagram showing a power supply of a video camera used in a conventional CCTV system.
Here, the power supply device 101 on the receiver side includes a constant current drive circuit 2, a power supply circuit 3, a video signal processing circuit 4, and a video signal output terminal 5, while the video camera 6 includes a current / voltage conversion circuit 7, It includes a DC-DC converter 8 and a video signal processing circuit 9, both of which are connected by a transmission cable (coaxial cable) 10. FIG. 4 shows only one video camera 6 and its power supply device 101.
In the CTV system, a video receiver is connected to a video signal output terminal 5. When a plurality of video cameras are connected to one monitor receiver, a plurality of power supplies are arranged corresponding to the video cameras.

Next, the operation of the power supply unit of the video camera shown in FIG. 4 will be described. The photographed image data is first input to the video signal processing circuit 9 in the video camera 6 and is converted into a predetermined video signal therefrom.
Is supplied to the video signal processing circuit 4 of the power supply device 101, and is finally output from the video signal output terminal 5 to a predetermined monitor screen or the like, and the video is displayed. On the other hand, the constant current of the constant current drive circuit 2 is supplied from the power supply device 101 to the current / voltage conversion circuit 7 of the video camera 6 via the transmission cable 10, and a constant voltage power supply is configured here.
Input to the DC converter 8; A predetermined power is supplied from the DC-DC converter 8 to each electric circuit of the video camera 6.

[0005] The conventional video camera power supply device configured as described above is incorporated into a CCTV monitor television system and used as a device to which a plurality of video cameras can be connected. If the video cameras connected to the video cameras are different types of video cameras and operate with different power consumption, a power supply device having an appropriate amount of power and each video camera can be used in accordance with each video camera. It is preferable to connect to a camera. Because, if the power supply (current supply) from the power supply device 1 to the video camera is excessive, the excess is forcibly discarded by the current-voltage conversion circuit 7 in the video camera 6, and all of it is externally heated as heat. Because it only diverges.

[0006]

Generally, the amount of power from such a power supply device is adjusted so as to enable constant power supply in accordance with a video camera which consumes the most power. For this reason, power is excessively supplied to a video camera having relatively low power consumption in the system. As a result, not only is the power consumption exceeding the standard power amount of the video camera unreasonable, but also if the heat exchange is not performed sufficiently, the internal temperature of the video camera body rises. there were.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems. In a CCTV system using video cameras of different power consumption, appropriate power can be supplied to individual biode cameras, and the CCTV system can be saved. It is an object of the present invention to provide a power supply device for a video camera capable of improving the reliability of the system by preventing an increase in power and an internal temperature of the video camera.

[0008]

According to a first aspect of the present invention, there is provided a power supply device for a video camera which supplies a predetermined power to the video camera by connecting a constant current source to the video camera. A detection unit for detecting an input power supply voltage supplied to the video camera by the current source; and an output control unit for specifying an appropriate voltage of the connected video camera based on the detection result and outputting an appropriate power. is there.

According to a second aspect of the present invention, there is provided a power supply for a video camera for supplying power to a plurality of video cameras having different input power supply voltages, wherein the plurality of constant current sources and each of the constant current sources are provided. Detecting means for detecting the input power supply voltage supplied to each video camera connected thereto, and specifying appropriate voltages to a plurality of connected video cameras based on the detection results and outputting appropriate power to each of the specified voltages. Output control means.

According to a third aspect of the present invention, a power supply device includes means for selecting a type of a cable used to connect the video camera, and the power is supplied to the video camera in accordance with the type of the selected cable. This controls the power to be supplied.

[0011]

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
An embodiment of the present invention will be described.

FIG. 1 is a block diagram showing a video camera according to the present invention and its power supply device. In a video camera used in a CCTV system, a constant current drive circuit 2, a power supply circuit 3, a video signal processing circuit 4, and a video signal output terminal 5, which constitute the power supply device 1, and a current-voltage conversion circuit 7 of a video camera 6 , The DC-DC converter 8, the video signal processing circuit 9, and the transmission cable (coaxial cable) 10 are the same as those described in FIG. In this embodiment, a control circuit 11, a voltage detection circuit 12, and a cable type selection switch 13 are further provided in the power supply device 1.

Here, the voltage detection circuit 12 detects the voltage of the cable connection terminal 14 of the power supply device 1 and outputs a detection result to the control circuit 11. The cable type selection switch 13 includes, for example, two switches A and B. The switch A sets what kind of cable is used as the transmission cable 10, and the switch B sets the transmission cable. 10 is set, that is, the distance to the video camera 6 is set, and those set values are output to the control circuit 11. The control circuit 11 is connected to the constant current drive circuit 2 and the power supply circuit 3 and specifies an appropriate voltage of the video camera 6 and controls the output current of the constant current drive circuit 2.

Next, the operation of the power supply device for a video camera according to the present invention will be described. The video signal is output from the video signal processing circuit 9 of the video camera 6 through a transmission cable 10 and input to the video signal processing circuit 4 of the power supply device 1 as before, and finally output from the video signal output terminal 5 to the outside. Is done.

For the video camera 6, a constant current is supplied from the constant current drive circuit 2 of the power supply device 1 to the current / voltage conversion circuit 7 via the transmission cable 10, and a constant voltage power supply is formed here. Then, the DC-DC converter 8 is input a predetermined input voltage V _s, the output voltage is like a video signal processing circuit 9 of the video camera 6 is supplied to each part.

The input voltage V of the DC-DC converter 8
_s is a different value depending on the type of the biode camera 6. For example, a camera 9V operation, as different input voltages V _s appears in the camera 12V operation are designing a current-voltage conversion circuit 7. That is, the current-voltage conversion circuit 7
, To a predetermined value the input voltage V _s of the DC-DC converter 8 regardless of the current flowing therein release as heat excess current input beyond a predetermined current value by the current-voltage conversion circuit 7 Configuration. Therefore,
In the power supply device of the present invention, the current-voltage conversion circuit 7 is connected via the cable connection terminal 15 according to the type of the biode camera 6.
_Are set so that the voltage value Vc from the power supply device input to the power supply device becomes a different value.

[0017] When setting the voltage value V _c of cable connecting terminals 15, developed across the transmission cable 10, it is necessary to consider a potential difference corresponding to the cable type and length. Now, for example, it is assumed that the resistance R _c of the transmission cable 10 is uniquely determined from the type and length of the cable, and if the current supplied from the power supply 1 is I _c , the connection between the cable connection terminals 14 and 15 The potential difference V _AF is V _AF = I _c × R _c .

In this embodiment, a cable type selection switch 13 for selecting the type and length of the transmission cable 10 is provided as means for setting the potential difference V _AF based on the above-mentioned calculation formula.

In the control circuit 11, first, the constant current drive circuit 2
, A constant current is supplied to the video camera 6. At this time, the voltage value is set to a value corresponding to the one requiring the maximum operating current among the plurality of types of video cameras assumed in advance. Thereafter, the voltage value of the cable connection terminal 14 is measured by the voltage detection circuit 12, and the voltage value at the cable connection terminal 15 of the video camera 6 is detected together with the data set by the cable type selection switch 13. The voltage value is converted into digital data by, for example, an A / D converter, and the value can be detected by a microcomputer.

Based on the voltage value thus detected, the type of the video camera 6 connected to the power supply device 1 is specified, and the constant current drive circuit 2 is controlled so as to have an appropriate current value corresponding to the type. Under the control, power is supplied to the video camera 6. Again, setting for each type of video camera that may be used previously, the optimum operating current and data about the voltage value V _c to be applied to the cable connecting terminal 15 at that time, for example, a microcomputer of the ROM It is necessary to keep.

As shown in FIG. 2, a plurality of power supplies 1a,
In the CCTV system provided with the power supply devices 1a, 1b,... 1n, different types of video cameras 6a, 6b,. May be connected by

Therefore, each of the power supply devices 1 is supplied from the power supply device 1 in advance so that a sufficient current for operating the video camera 6 having the largest power consumption among the video cameras 6 connectable thereto. The amount of current supply is controlled and such current is first supplied via each cable. Next, measured by the voltage detecting circuit 12 a voltage value V _c to Biodekamera every 6, matching the proper amount of current data for each Biodekamera 6 corresponding to the previously prepared voltage value V _c. The control circuit 11 controls the current value based on the result.

In the cable type selection switch 13, for example, a program for determining the resistance value Rc of the cable by combining a switch A for inputting the type of the transmission cable 10 and a switch B for inputting the length thereof is prepared in advance. It is also possible to write in the microcomputer.
For example, the switch A selects one of the cable types such as 3C-2V and 5C-2V, and the switch B sets the cable length range as b1: -10m, b2: 10m-50m, b
3: Select one of 50m to 100m. Of course, such selection of the cable type and the length range is only an example.

Further, instead of switching the switches A and B, an input method using a numerical value of the cable length is also possible depending on software.

In the CCTV system shown in FIG. 2, the voltage detection circuit 12 of each of the power supply devices 1a, 1b,... 1n detects the voltage value of the cable connection terminal 14 and sends it to the control circuit 11. In the control circuit 11, the potential difference V
Video camera 6a the value obtained by subtracting the _AF, 6b, ... on which the voltage value V _c of 6n side of the cable connecting terminals 15a - 15n, the power supply device 1a from the voltage value V _c, 1b, ... 1n
6n connected to the video camera 6a, 6b,... 6n can be specified.

Further, as shown in FIG. 3, even when a plurality of different types of video cameras 6a, 6b,... 6n are selected and connected to one power supply 1,
.. 6n are switched on the transmission cable 10a, 10b,.
And the biode cameras 6a, 6 connected to it
.., 6n can be detected. Therefore, by specifying the length of the transmission cable and the type of the video camera on the power supply device 1 side, the appropriate amount of power to be supplied thereto is determined. The current value can be controlled so as to supply appropriate power.

In the above-described embodiment, an example in which the present invention is applied to a power supply device of a video camera used in a CCTV system has been described. However, a plurality of types or a plurality of video cameras can be connected, for example, incorporated in a printer device. It is also possible to supply appropriate power corresponding to each video camera.

[0028]

Since the present invention is configured as described above, it has the following effects.

According to the first aspect of the present invention, it is possible to provide a video camera power supply device capable of controlling a current value so as to supply appropriate power according to video cameras having different input power supply voltages.

According to the second aspect of the present invention, when a plurality of video cameras are connected, what kind of video camera is connected to each cable is specified, and each video camera is specified. Power supply device for a video camera that can supply power appropriately.

Further, according to the third aspect of the present invention, there is provided means for selecting the type of cable used to connect the video camera, and controls the voltage supplied to the video camera according to the type of cable. Thus, the voltage drop in the transmission cable connecting the video camera and the input voltage to the video camera can be measured, and the video camera connected to the cable can be easily specified on the power supply device side.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a video camera and a power supply device thereof according to the present invention.

FIG. 2 is a block diagram showing a CCTV system including a plurality of power supplies.

FIG. 3 is a block diagram showing a power supply device for selecting and connecting a plurality of different types of video cameras.

FIG. 4 is a block diagram showing a power supply device of a video camera used in a conventional CCTV system.

[Explanation of symbols]

1 video camera power supply, 2 constant current drive circuit,
3 power supply circuit, 7 current-voltage conversion circuit, 8 DC-
DC converter, 9 video signal processing circuit, 10 transmission cable (coaxial cable), 11 control circuit, 12
Voltage detection circuit, 13 Cable type selection switch.

Claims (5)

[Claims] 1. A video camera power supply device for connecting a constant current source to a video camera and supplying a predetermined power to the video camera, wherein the constant current source detects an input power supply voltage supplied to the video camera. And a power control unit for specifying an appropriate voltage of the video camera connected based on the detection result and outputting an appropriate power. 2. A video camera power supply device for supplying power to a plurality of video cameras having different input power supply voltages, comprising: a plurality of constant current sources; and a plurality of constant current sources connected to the respective video cameras. Detecting means for detecting the input power supply voltage, and output control means for specifying appropriate voltages to a plurality of video cameras connected based on the detection results and outputting appropriate power to each of the video cameras. Video camera power supply. 3. A device for selecting a type of a cable used for connecting a video camera, wherein power supplied to the video camera is controlled according to the type of the selected cable. The power supply device for a video camera according to claim 1. 4. The video camera power supply device according to claim 1, wherein said detection means stores in advance an optimum power supply voltage to be supplied for each type of video camera. . 5. The constant current source supplies a current at a current value corresponding to a video camera which is expected to be connected thereto and requires a maximum operating current when detecting an optimum power supply voltage. The power supply device for a video camera according to claim 1, wherein: