KR900004469Y1 - Automatic outdoor monitering automatic control circuit for pip - Google Patents

Abstract

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Description

Outdoor monitoring automatic control circuit for PIP

1 is a conventional circuit diagram.

2 is an outdoor monitoring automatic control circuit diagram for a PIP of the present invention.

3 is a waveform diagram of each part of FIG.

4 is an explanatory diagram showing an automatic output image signal according to the switch switching of the present invention.

* Explanation of symbols for main parts of the drawings

1: Camera 2,20: System part

MM ₁ , MM ₂ : Monomulti 2a: Micom

PSW ₁ : PIP selector switch SW ₁₀ : Doorbell switch

SW ₂₀ : Outdoor monitoring switch PC ₁ : Photocoupler

The present invention provides a picture in picture (PIP), i.e., a system for inserting a sub picture signal into a main picture signal. The present invention relates to an outdoor monitoring automatic control circuit for a PIP that enables a user to watch a screen in a PIP state automatically.

In the outdoor monitor circuit using the conventional PIP, as shown in FIG. 1, when a user sets an arbitrary setting condition, that is, an outsider presses a doorbell, the PIP switching switch (PSW _{1) is used.} On, the microcomputer 2a outputs the low potential to the output port PO according to the key signal, and then enters the input port PI according to the key signal. When the data signal is discriminated and the data signal is low potential, the video signal photographed by the external monitoring camera 1 as a sub picture is output to the video signal of the main screen, and the PIP switching switch PSW ₁ is reversed from the above. Is always on, the system unit 2 detects that it is a PIP function and accordingly outputs the video signal to the video signal of the main screen as a sub-screen. Although the video signal captured by the camera 1 is outputted as a sub-screen to the video signal of the conventional circuit, such a conventional circuit generates a PIP switching switch by the user whenever a condition set by the user occurs at the place where the surveillance camera is installed. Not only does it have to be turned on, but also the inconvenience of having to watch the PIP function unnecessarily if the PIP switch is always turned on.

The present invention is designed to automatically switch the screen to the PIP state when the monitoring condition occurs while watching the system unit (V-C, TV receiver) in consideration of such a conventional defect described in detail by the accompanying drawings As follows.

2 is an outdoor monitoring automatic control circuit diagram for a PIP of the present invention. As shown in FIG. 2, a user setting unit (PIP) is used to watch a PIP screen according to a control signal of an input / output port (PI) PO of a microcomputer 2a. The doorbell switch SW _{10 of 10} ) is connected to the bell BL through the battery BA, and the light emitting diode PD ₁ of the photocoupler PC ₁ of the system unit 20 is connected through the resistor R ₁₀ . While the collector of its light receiving transistor PIR ₁ is connected to the clock terminal CK ₁ of the resistor R ₁₁ and the mono multi MM ₁ , and its output terminal Q _{1 is} connected to the outdoor monitoring switch SW. ₂₀ ) is connected to the clock terminal CK ₂ of the mono multi (MM ₂ ), and its output terminal Q _{2 is} connected to the output port PO of the microcomputer 2 through the resistor R ₁₂ . the input port of the PIP change-over switch (PSW ₁₎ is a transistor (TR ₁₎ and the connection to the base, (R ₁₃₎ to its collector resistance and a microprocessor (2a) connected to the connection point (PI) Connection is configured to.

Referring to the effect of the present invention configured in this way in detail as follows.

When power is applied to the power supply terminal Vcc and an external person short-circuits the doorbell switch SW ₁₀ at the place where the user is set, the power of the battery BA is applied to the bell BL to ring the bell and the system. A signal waveform is input as shown in FIG. 3A by pressing the doorbell switch SW ₁₀ to the light emitting diode PD ₁ of the photocoupler PC ₁ of the unit 20 so as to receive the light emitting diode PD ₁ . Is flickering, and thus the light receiving transistor PTR ₁ of the photocoupler PC ₁ is turned on and off, so that a signal waveform developed as shown in FIG. 3b is output to its collector, and the output waveform is mono multi-is applied to the clock terminal (CK ₁₎ of the (MM ₁₎ mono-multi (MM ₁₎ is the doorbell switch as described degree claim 3c shown in order to prevent a repetition of the PIP conversion operation to its output terminal (Q ₁₎ (SW ₁₀ ) The high potential signal is generated for a certain time (t ₁ ) from the initial state of short-circuit. When the outdoor monitoring switch SW ₂₀ is short-circuited, the output signal is applied to the clock terminal CK ₂ of the mono multi MM ₂ through the switch SW ₂₀ so that the mono multi MM ₂ is output. The moment of transition to the low-potential signal of the output signal of the mono-multi (MM ₁ ), that is, the signal shown in FIG. 3c is detected, and from the detected signal portion to the output terminal Q _{2 of} FIG. As shown, a high potential signal is output for a predetermined time t ₂ , and at this time, the high potential signal is output for a predetermined time t ₂ in order to detect a short circuit state of the outdoor monitoring switch SW ₂₀ of the microcomputer 2a. When the high potential signal is output from the output port PO of the microcomputer 2a and the monomulti (MM ₂ ) is set to be almost equal to or longer than the period T of the strobe signal waveform (T = t ₂ ), Among the signals output to the output terminal Q ₂ of the mono multi MM ₂ , a low potential signal is a transistor TR ₁ ) is applied to the base thereof, so that it is turned off, and thus the power supply of the power supply terminal Vcc is inputted with the inverted signal as shown in FIG. 3f of the input port PI of the microcomputer 2a through the resistor R1 ₃ . At this time, when the strobe signal waveform is output from the output port PO thereof as shown in FIG. 3e, a high potential signal is output from the output terminal Q ₂ of the mono multi (MM ₂ ) and a predetermined time (t _2). ) while the microprocessor (2a) in the low voltage portion of the signal (t _'2) in the signal waveform output from the output port (PO) transistor (TR ₁₎ is turned on the power supply terminal (Vcc) power source resistance (R ₁₃₎ transistor of a the collector has a low potential signal (t _"2) is output, and that the output signal (t low potential signal" ₂₎ portion as shown in the 3f also in the flow is a transistor (TR ₁₎ through (TR ₁₎ When input to the input port (PI) of the microcomputer (2a), the microcomputer (2a) detects that the PIP function, and the system is switched to PIP state. And the video signal taken to the external camera in the sub-screen on the main screen of the video signal selected by the system unit 20 as shown in Fig. 4 (1) is output.

In this case to release the monitor PIP state in the same state, by pressing once or twice depending on the conditions of the picture currently being watched by the PIP change-over switch (PSW ₁₎ If that PIP release key signal is input to the microprocessor (2a), the microcomputer ( 2a) will perform its original function accordingly.

As described above, the present invention short-circuits the outdoor monitoring switch so that the screen is automatically switched to the PIP state when the monitoring condition occurs while watching the system. In addition to eliminating the problem, the expected effect of increasing the efficiency of the system having the PIP function is great.

Claims (1)

The doorbell switch SW ₁₀ of the user setting unit 10 in which the monitoring camera 1 is installed to watch the PIP screen of the system unit 20 as the PIP switching switch PSW ₁ is turned on or off. Is connected to the bell BL through the battery BA, and is connected to the light emitting diode PD ₁ of the photocoupler PC ₁ of the system unit 20, and the collector side of the light receiving transistor PTR ₁ is monaural. multi (MM ₁₎ the output terminal (Q ₁₎ has a clock terminal (CK mono multi (MM ₂₎ via the outdoor monitoring switch (SW ₂₀₎ of the clock terminal mono-multi (MM ₁₎ connected, and to the (CK ₁₎ of ₂₎ connected to and connected to its output terminal (Q ₂₎ on the base side of the emitter of the transistor (TR ₁₎ connected to an output port (PO) of the microprocessor (2a), side of the collector of the transistor (TR _1), the microcomputer An outdoor monitoring automatic control circuit for a PIP, characterized in that it is connected to an input port (PI) and a PIP switching switch (PSW ₁ ) of (2a).