KR970006537Y1 - Alarm interface circuit of video switcher - Google Patents

Abstract

none

Description

Alarm Interface Circuit of Video Switch

1 is a block diagram of an alarm interface of a video switch according to the prior art.

2 is an alarm interface circuit diagram of a video switch according to the present invention.

Explanation of symbols on the main parts of the drawings

A: constant current supply circuit B: window comparator

C: Sensor unit PC: Photo coupler

The present invention relates to an alarm interface circuit between a video switcher and a sensor.

In general, a video switcher used in CCTV serves to sequentially switch a plurality of surveillance cameras.

If an event occurs in a surveillance area, the sensor installed in that surveillance area sends the emergency signal to the video switcher, and the video switcher operates the camera in the area detected by the sensor. There is also a function to enable it.

If the CCTV surveillance area is a few Km, like an airport, and the surveillance sensor is several Km away from the video switcher, the signal from the sensor must reach the video switcher without noise for accurate jurisdiction.

1 illustrates an interface circuit of a sensor video switcher according to the related art.

As shown, the interface circuit 1 composed of the TTL IC has an input side connected to the sensors S ₁ -S ₆ , and the output side connected to a microprocessor (CPU) via a data bus. The sensors S ₁ -S ₆ generate a low output when in operation and a high output when not in operation.

Thus, since the conventional video switcher receives the sensor's detection signal through the input of the TTL IC, it is difficult to monitor the signal from a long distance, and the connection form between the sensor and the CPU of the video switcher is not insulated and thus weak in external noise. As a result, the operation reliability of CCTV has been degraded.

An object of the present invention is to provide a novel alarm interface circuit that enables the use of a variety of sensors and the improvement of the conventional problem that occurs when the distance between the video switcher and the emergency detection sensor in the CCTV system.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. 2.

The interface circuit of FIG. 2 is roughly composed of a constant current supply circuit portion A, a window comparator B and a sensor C. It supplies constant current irrespective of line resistance to the constant current supply circuit part (A) and a plurality of sensors installed a few Km away from CCTV system.

Looking at the configuration of the circuit is the intermediate contact point between the zener diode (ZD ₁₎ and the resistor (R ₁₎ is connected to the (+) terminal of the operational amplifier (OP _1), the output of the operational amplifier (OP ₁₎ is a transistor (Q ₁ ) is connected to the base side.

The collector terminal of the transistor provides a passage through which a current can flow through a resistor R ₃ to which a switch SW ₁ is connected in parallel. The current from the power supply Vcc flows through the resistor R ₂ , the transistor Q ₁ , and the resistor R ₃ and R _{3 ′} , and a voltage is induced at the K point. The switch SW ₁ selects a type of sensor to operate.

For example, when the detection sensor of the detection unit C is a normal open sensor, the switch SW ₁ is turned on, and in the case of a normal closed sensor, the switch SW ₁ ) To the off state.

In this way, since the switch SW ₁ is turned on / off according to the sensor, a constant voltage is induced at the K point.

The voltage of the induced K point is applied to the window comparator (B) (-) terminal and (+) terminal composed of two operational amplifiers via R ₄ . The output of the window comparator B is connected to the photocoupler PC. Finally, the output of the photocoupler PC is applied to the video switcher CPU.

Next, operation of the circuit of FIG. 2 will be described in detail.

The voltage Vcc- (Vcc-V _ZD1 ) of the resistor R ₂ , that is, the voltage drop VZN ₁ of the zener diode ZD ₁ , is constant as a constant.

The current I flowing through the resistor R ₂ is determined by the charge drop / resistance (Vzn ₁ / R ₂ ) of the zener diode, and this current flows through the transistor Q ₁ and the resistor R ₃ to the sensing sensor unit C. . The resistor R ₃ (or R _{3 ′} ) generates a constant voltage by the current I. R ₃ and R _{3 '} have the same resistance value, resistor R ₃ is used when it is a normally closed sensor, and resistor R _3' is used when it is an open type sensor. Using the switch (SW ₁ ), open or closed sensors are selected.

However, whatever type of sensor is used, in conclusion, the voltage appearing at point K in the figure becomes the same regardless of the sensor type in the steady state.

In case of using the open type sensor, the contact point of the sensor is shorted to each other when the sensor is operated (in case of event), so the voltage (OV of switch (SW ₁ ) is short) occurs at the point K.

In the case of using the normally closed type sensor, when the sensor operates, the contact drops, so that no current flows in the circuit, and a voltage of Vcc-VZD ₁ is formed at the K point.

Voltages of OV, IR, and Vcc-VZD ₁ are formed at the input terminals of the comparator COMP ₁ and COMP ₂ of the window comparator B. FIG.

Input voltage to the window comparison unit (B) is to OV when, L point is the reference voltage of the comparator (COMP ₂₎ by giving as input to 0 <L point voltage <IR of the comparator (COMP ₂₎ - the voltage at the terminal () Since it is larger than the input voltage, the output goes low to operate the photocoupler (PC).

Input is Vcc-VZD case ₁ (+) voltage of the comparator (COMP ₁₎ are IR <M point voltage <Vcc-VZD give as input to the _first comparator of the (COMP ₁₎ (-) input terminal voltage of M point voltage Since it is larger, the output of the comparator COMP ₁ goes low to operate the photocoupler PC.

When the input is IR, the voltage is formed in relation to the L point voltage <IR <M point voltage, so that the output of neither comparator goes low and the photocoupler PC is not operated.

The output signal of the photocoupler PC is applied to the CPU and used to determine the presence or absence of an alarm condition.

As described above, the interface circuit according to the present invention has an effect of excluding a fear of malfunction of a system by accurately mediating a signal sensed by a sensor.

Claims (3)

A constant current supply circuit portion (A) for supplying a constant current to the circuit, A detection sensor unit C which receives a constant current from the constant current supply circuit unit A and detects an external state change; A window comparator B for receiving an output signal from the sensor C and performing comparison with a predetermined reference voltage value; According to the comparison result value of the window comparator B, a photocoupler PC serving as a switch and an output signal from the photocoupler PC are operated to operate a camera installed at a sensor point generating a detection signal. And an CPU for controlling the power supply. The method of claim 1, The constant current supply circuit unit A includes a zener diode ZD ₁ , an operational amplifier OP ₁ , and a transistor Q ₁ to output a constant current, and a resistor R between the output terminal and the sensing sensor unit C. ₃ ) and the switch (SW ₁ ) is connected in parallel to the alarm interface circuit of the video switcher, characterized in that to select the state of the switch (SW ₁ ) according to the type of detection sensor. The method of claim 1, The window comparator B includes two comparators COMP ₁ and COMP ₂ so that the output of the sensing sensor C is an inverting terminal of the first comparator COMP ₁ and a second comparator COMP ₂ . Different reference voltages are applied to the non-inverting terminal of the first comparator COMP ₁ and the inverting terminal of the second comparator COMP ₂ so as to be input to the non-inverting terminal, and the first and second comparators COMP ₁ ( And an output terminal of COMP ₂ ) in common.