KR940000736Y1 - Auto-power on circuit in an image monitor - Google Patents

Abstract

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Description

Automatic power-on circuit of video monitor

1 is a block diagram showing a conventional security system configuration.

2 is a block diagram showing the configuration of a security system employing the present invention.

3 is an overall circuit diagram of the present invention.

4 is a function table of the D flip-flop used in the present invention.

* Explanation of symbols for main parts of the drawings

CLK: Clock Terminal : Cree Terminal

D: Input terminal IC ₁ : D flip flop

PO: Power On Terminal PR: Preset Terminal

PS: Monitor Power Supply Q: Output Terminal

Q: Inverted output terminal Q ₁ : Transistor

S: Sensor

The present invention relates to an automatic power-on circuit of a video monitor that allows the video monitor to start immediately when a situation occurs in a security system and a sensor generates a detection signal for alarm operation.

Conventionally, as shown in FIG. 1, a siren and a lighting lamp are turned on by an output of a sensor, and when an alarm system is operated, a worker recognizes this and turns on a power switch of a video monitor to capture an image of a field captured by a surveillance camera of a video monitor. Since it was made to be viewed by the CRT, especially when a worker turned on the power switch in a dark place, the operation was slowed, so that a quick video monitoring could not be performed. There was a problem that can not be.

In order to solve this problem, the present invention provides an automatic power-on circuit between the output side of the sensor and the video monitor so that the scene can be quickly captured in the event of a situation. Even if not, it is possible to recognize the occurrence of the situation by the video monitor, which will be described in detail with reference to the accompanying drawings as follows.

The output of the sensor S is connected to the clock terminal CLK of the D flip-flop IC ₁ via the waveform shaping circuit 1, and the input terminal D, the preset terminal PR, and the clear terminal ( Is connected to the power supply terminal (B ⁺ ) through the resistors (R ₁ ), (R ₂ ), (R ₃ ), and the reverse output terminal. To the diode D ₂ and the base of the transistor Q ₁ connected to the text switch T for turning the monitor power ON / OFF in sequence, ) And the diode (D ₁ ) and the power on terminal (PO) of the monitor power supply (PS) in sequence.

According to the present invention, a high-level voltage is applied to the power-on terminal PO of the monitor power supply unit PS, which is a port of a microprocessor built in a conventional video monitor in a normal state in which the power is turned off to the video monitor. Cree terminal of the D flip-flop IC ₁ The voltage supplied from the power supply terminal B ⁺ is applied to the high level state through the resistor R ₁ , while the high level signal is applied to the preset terminal PR through the resistor R ₃ . Since the signal detection by the sensor S has not yet been applied to the CLK, a low level signal is applied. Since the input terminal D is don't care, the output terminal Q and the inverted output terminal are eventually applied. Maintains the previous and low levels, respectively.

Therefore, a high level voltage is applied to the cathode of the diode D ₂ so that the transistor Q ₁ cannot be turned on and therefore the image monitor is not turned on separately unless the text switch T for monitor power ON / OFF is turned on separately. No power is supplied to the power supply, and the power-on terminal PO of the monitor power supply unit PS maintains a high level.

This standby state lasts until the detection of the signal by the sensor S. When a situation such as an intruder occurs and the sensor S detects a signal, the standby state is passed through the waveform shaping circuit 1 to the D flip-flop. Output terminal because pulse is applied to clock terminal (CLK) of (IC ₁ ) Becomes high level and the inversion output terminal Q causes the state reversal to become high level.

As a result, the base potential of the transistor Q ₁ is lowered to a low level so that the power applied to the emitter is in the same state as the flow of the turned-on transistor Q ₁ and the tactile switch T is turned on. The power-on terminal PO of the monitor power supply unit PS, which is a port of the microprocessor, outputs a low level output to the cree terminal of the D flip-flop IC ₁ . ), The high level signal is applied to the diode D ₁ and inverts to a low level state.

Therefore, the output of the D flip-flop (IC ₁ ) has an output terminal (Q) and an inverted output terminal. Becomes a low level and a high level, and thus, becomes a standby state as described above, which is the former state described above.

In this process, the transistor Q ₁ is turned on momentarily and the microprocessor recognizes this and starts to supply power to the image unit so that the image from the surveillance camera can be seen as a CRT. You can capture it and take appropriate action.

In this way, the present invention enables the sensor (S) to check the site with the CRT as soon as it detects an intruder, so that the damage can be minimized by quickly taking action. This is useful to improve the overall reliability of the security system.

Claims (1)

In the well-known image monitor which has the text switch T for power interruption, and the power ON terminal PO of the monitor power supply part PS, and the well-known sensor S, the well-known thing which comprises a security system is a sensor S Make sure that the output side of is connected to the clock terminal CLK of the D flip-flop IC ₁ , and the preset terminal PR, the input terminal D, and the ) To the power supply, and the ) And reverse output terminal In parallel with the power-on terminal PO and the text switch T of the monitor power supply unit PS.