JP3100023B2 - External synchronous television camera - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an external synchronizing television camera (hereinafter abbreviated as "camera"), and more particularly to a method of transmitting an external synchronizing signal when a camera power supply and a video signal are superimposed and transmitted.

[0002]

2. Description of the Related Art In a camera of a system in which a camera power supply and a video signal are superimposed and transmitted by one transmission line, when synchronizing the camera with an external synchronization signal, conventionally, for example, only vertical synchronization is externally synchronized. There are a method of superimposing a vertical pulse with an amplitude larger than that of a video signal, and a method of superposing an external synchronization signal with frequency modulation.

[0003]

However, in the case of superimposing the vertical pulse, only the vertical can be externally synchronized, and a circuit for separating the vertical pulse from the video signal is required. Modulation circuits are necessary for frequency-modulating and superimposing an external synchronization signal.In addition, high-frequency signals such as tens of megahertz are handled, and unnecessary high-frequency noise is likely to be radiated from the transmission line. There is a problem such as having to do so. The present invention has been made in view of the above circumstances, and provides an apparatus that synchronizes the horizontal and vertical directions of a camera with an external synchronization signal and that can separate the synchronization signal, the video signal, and the camera power supply with a simple circuit. .

[0004]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present invention relates to an apparatus for superimposing a camera power supply and a video signal between a camera body and a controller section and transmitting the superimposed signal on a single transmission line. A high-output impedance circuit for superimposing a camera power supply and an external synchronization signal and outputting the signal to the video signal transmission line with high impedance; and separating the camera power supply and the external synchronization signal from the controller unit provided from the controller unit from the video signal. An external synchronous camera comprising a high input impedance circuit, a constant current circuit for extracting a current of a camera power supply from an output of the high input impedance circuit, and a current / voltage conversion circuit for extracting an external synchronization signal from an output of the high input impedance circuit. Is provided.

[0005]

With the above configuration, in the external synchronous camera according to the present invention, the video signal transmission line of the camera is
The controller unit superimposes the camera power supply and the external synchronization signal via a high-output impedance current amplifier. The video signal output impedance of the camera is low (for example, 75
(Ω = ohm), so that the controller can easily separate the video signal from the camera by the difference in impedance. On the camera side, the camera power supply and the external synchronizing signal can be separated by providing a high impedance buffer. The external synchronization signal can be extracted by extracting the camera power supply using a constant current circuit and converting the remaining current into a voltage.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the external synchronous camera according to the present invention will be described in detail. FIG. 1 is a block diagram of a main part of an embodiment of an external synchronous camera according to the present invention. In the figure,
(A) is a controller device, (B) is a camera body, and 1 is a signal transmission line. Reference numeral 2 denotes a controller power supply, and reference numeral 3 denotes an external synchronization signal. Reference numeral 4 denotes a high output impedance type current amplifying circuit, which amplifies the current of the camera power supply 2 and the external synchronizing signal 3 to obtain a high impedance signal transmission line
Output to Reference numeral 5 denotes a video signal output. The video signal transmitted from the camera body (b) via the signal transmission line 1 is DC-cut by the coupling capacitor 5 and taken out via the terminating resistor 6.

Reference numeral 8 in the camera body (b) denotes a video signal output circuit which suitably amplifies the video signal of the camera, and controls the controller by the signal transmission line 1 via the impedance matching resistor 9 and the coupling capacitor 10 with the signal transmission line 1. Send to device (a). Reference numeral 11 denotes a high impedance buffer which receives a camera power supply current and an external synchronization signal from the high output impedance type current amplifier circuit 4 superimposed on the signal transmission line 1 at a high impedance. Reference numeral 12 denotes a constant current circuit which extracts a camera power supply current 13 from the output of the high impedance buffer 11 at a constant current. Reference numeral 14 denotes a resistor which converts a current having a difference between the output of the high impedance buffer 11 and the input of the constant current circuit 13 into a voltage signal, that is, an external synchronization signal 15, and outputs the voltage signal.

Next, the operation of the external synchronous camera according to the present invention will be described. The video signal of the camera body (b) is appropriately amplified by the video signal output circuit 8 and sent out to the signal transmission line 1 via the impedance matching resistor 9, for example, 75Ω, and the coupling capacitor 10. Then, the direct current is cut by the coupling capacitor 6 of the controller device (a), and is taken out via the terminating resistor 7, for example, 75Ω (5).

A camera power supply 2 and an external synchronization signal 3 supplied from the controller device (a) to the camera body (b)
Is appropriately amplified by the high output impedance type current amplifier circuit 4 and sent out to the camera body (b) via the signal transmission line 1. These camera power supply 2 or external synchronization signal 3
Is output with high impedance, so it hardly appears in the terminating resistor 7 for taking out a video signal. In the camera body (b), the camera power supply is cut by the coupling capacitor 10, and the external synchronizing signal is Since the value of the resistor 9 is sufficiently lower than the output impedance of the high output impedance type current amplifier circuit 4, the video signal output circuit 8 is not affected.

The camera power and the external synchronization signal transmitted to the camera body (b) are received by the high impedance buffer 11 and separated from the video signal output at a low impedance (75Ω). Power supply
13 is supplied to the circuit at a constant current. By taking out the camera power supply 13 with a constant current, the high impedance buffer 11
The resistor 14 connected to the ground between the output of the constant current circuit 12 and the input of the constant current circuit 12 generates a voltage corresponding to the current by the external synchronization signal, that is, the external synchronization signal 15.
Is supplied to the synchronization circuit of the camera to synchronize the camera.

The high output impedance circuit 4 is configured, for example, as shown in FIG. That is, the external synchronization signal 21
Is input to the “+” terminal of an amplifier circuit (operation amplifier) 24 via a capacitor 22 and is current amplified. Amplifier circuit
A voltage obtained by subtracting the bias voltage “Vc” from the power supply “+ V” is applied to the “+” terminal of the power supply 24, and the output terminal is connected to PNP.
It is connected to the base of the type transistor 25. The "-" terminal of the amplifier circuit 24 is connected to the emitter of the transistor 25, and this emitter is connected to the above "+ V" via the resistor 26.
The voltage at the "-" terminal of the amplifier circuit 24, i.e., the emitter voltage of the transistor 25, is equal to said voltage, so that (+ V)-{(+ V)-(Vc)} = Vc across the resistor 26. And a current (Vc) obtained by dividing this voltage by the resistor 26.
Is a constant voltage, this current becomes a constant current), and the transistor 25 causes the signal transmission line 1 from the collector together with the external synchronization signal input from the amplifier circuit 24 to the base.
Sent out via The output impedance of this circuit is a value obtained by multiplying the collector resistance of the transistor 25 by the loop gain of the amplifier circuit 24, and shows a high value.

The high impedance buffer 11 is configured, for example, as shown in FIG. A resistor 32 is connected between the collector and base of an NPN transistor 31 and a capacitor 33 is connected.
, The base is grounded, a signal from the signal transmission line 1 is input to the collector, and a signal (DC component) is output from the emitter. The AC input impedance of this circuit shows a high input impedance since the base of the transistor 31 works so as to be fixed by the capacitor 33, and hardly affects the video signal transmitted on the signal transmission line 1, while
As for the DC component, since the base voltage moves following the collector voltage, a current corresponding to the collector voltage is output from the emitter, that is, the DC input impedance is a circuit showing a low value.

[0013]

As described above, according to the external synchronization type camera according to the present invention, the external synchronization signal and the current of the camera power supply are output with high impedance and transmitted.
Even if it is superimposed on the video signal transmitted with low impedance, it can be easily separated by a simple circuit, and the camera power supply and the external synchronization signal can be easily separated by the constant current circuit. Are externally synchronized, and a single signal transmission line can economically transmit a video signal from a camera, a power supply for the camera, and an external synchronization signal.

[Brief description of the drawings]

FIG. 1 is a main block diagram of an embodiment of an external synchronous television camera according to the present invention.

FIG. 2 is an example of a high output impedance type current amplifier circuit.

FIG. 3 is an example of a high input impedance buffer circuit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Signal transmission line 2 Television camera power supply 3 External synchronizing signal 4 High output impedance type current amplifier circuit 5 Video signal output 7 Termination resistor 8 Video signal output circuit 9 Resistor (for signal transmission line impedance matching) 11 High impedance buffer 12 Constant Current circuit 13 TV camera power output 14 Resistor (for extracting external synchronization signal) 15 External synchronization signal output

Continuation of the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) H04N 5/04-5/12 H04N 5/222-5/257 H04N 7/18

Claims (2)

(57) [Claims] An apparatus for superimposing a television camera power supply and a video signal between a television camera main body and a controller device and transmitting the superposed video signal through one transmission line, wherein the television camera power supply and an external synchronization signal provided in the controller device are provided. A high output impedance circuit for superimposing and outputting to the video signal transmission line with high impedance, and a high input impedance circuit provided in the television camera body for separating the television camera power supply from the controller device and an external synchronization signal from the video signal An external synchronous television camera comprising: a constant current circuit for extracting a television camera power supply current from a high input impedance circuit output; and a voltage conversion circuit for extracting an external synchronization signal from the high input impedance circuit output. 2. A high-output impedance circuit comprising: an amplifier for amplifying an external synchronization signal; and a television camera power supply current, which is driven by an output of the amplifier and input to an emitter via a resistor connected in series, from a collector. 2. The external synchronous television camera according to claim 1, comprising a PNP transistor for outputting to the video signal transmission line.