KR101016757B1 - Crime prevention system and control method - Google Patents

Abstract

The present invention relates to a security system and a control method thereof.

The security system includes a security sensor unit for detecting a security condition of a crime prevention area, a communication control unit for determining a security mode based on whether a wake-up signal is received, a first source for supplying power through collected living energy sources, and an internal battery. In case of the second supply source supplying the power and the set mode for performing the expenses, the power is received from the first supply and supplied to the security sensor unit or the communication control unit, and the voltage is supplied from the second supply when the release mode is not performed. It includes a power management unit for receiving the supply to the communication control unit.

Thus, the present invention can extend the life of the battery used in the security system by operating the security system using an energy source that can be obtained in a separate surrounding life, not battery power during the security release.

Security, Sensor, Battery, Wake Up, Sleep, Set, Off, Mode

Description

Crime prevention system and control method

The present invention relates to a security system and a control method thereof.

The security system is equipped with a sensor that can detect external intrusion inside a building, such as an office or a general home, and a communication system that collects the detected signals and delivers them to the crime prevention controller. It includes a transmitter.

Sensors and transmitters receive a few tens of mA of current from the battery to communicate wirelessly with the security controller during guard initiation. During the guard release, the device enters sleep mode and receives dozens of amps of current from the battery.

In other words, the sensor and transmitter always use the power of the battery irrespective of the security status, and the more the detection and signal of the sensor, the shorter the life of the battery, the user has to periodically replace the battery to provide a seamless security service There is this.

In addition, battery replacement and disposal due to inefficient energy use is problematic in terms of environmental conservation.

The technical problem to be achieved by the present invention is to provide a security system and a control method that can reduce the current consumption of the battery as much as possible while the guard operation is performed or the guard operation is not performed.

According to one feature of the invention, the security system is a security sensor for detecting the external intrusion of the crime prevention area, a communication control unit for determining the security mode based on the reception of the wake-up signal, supplying power through the collected living energy source As a result of determining the first source, the second source for supplying power through the internal battery, and the security mode, when the security mode is set mode to receive the power from the first source to the security sensor unit to the communication control unit And a power management unit that receives a voltage from the second supply source and supplies the voltage to the communication control unit in a release mode that does not perform the expenses.

According to another feature of the present invention, the control method of the security system is a step of determining whether a wake-up signal is received from an external wireless security control device, when the wake-up signal is received, the security mode of the security system performs the guard Converting to a set mode to convert the security mode of the security system into a release mode that does not perform a guard when the wake-up signal is not received; and supplying power through an internal battery in the set mode. Receiving power from a first source, receiving power from a first source that supplies power through the collected living energy source in the release mode, and supplying predetermined voltages of the first source or the second source Comparing the voltages to determine whether a low voltage is generated, and when the low voltage is generated, A security control unit and a step of notifying at least the power of the security system.

According to an embodiment of the present invention, during the security release, by operating the security system using an energy source that can be obtained in a separate surrounding life other than battery power, it is possible to extend the life of the battery used in the security system.

In addition, according to an embodiment of the present invention, even if a low voltage of the living energy source is possible to provide a stable power supply through the battery, the minimum power when there is no detection signal for a certain time during the security operation in the security system By using, energy can be efficiently used.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is "connected" to another part, this includes not only "directly connected" but also "electrically connected" with another element in between. .

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise. In addition, the terms “… unit”, “… unit”, “… module” described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software. Can be.

Hereinafter, a security system and a control method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an environment to which the security system according to an embodiment of the present invention is applied.

Referring to FIG. 1, the service environment according to an embodiment to which the present invention is applied includes a security system 10 and a wireless security control apparatus 20.

First, the wireless security control device 20 recognizes an abnormality in the external intrusion and crime prevention system 10 through the security system 10, and recognizes an abnormality through the telephone line or a dedicated line in case of detecting an intrusion and an internal abnormality. Deliver signal to security company (not shown). Then, the security company checks the input abnormal signal, and provides dispatch service.

The security system 10 performs a guard in response to the signal received from the wireless security control device 20, and transmits the presence or absence of abnormality of the security system 10 generated during the security guard to the wireless security control device 20.

Next, the structure of the security system 10 according to an embodiment of the present invention will be described in detail with reference to FIGS.

2 is a block diagram showing the structure of a security system according to an embodiment of the present invention, Figure 3 is a view showing the circuit of the communication control unit and the power management unit of the security system according to an embodiment of the present invention.

The security system 10 according to an embodiment of the present invention may set a security mode, and the security mode includes a sleep mode, a set mode, a set mode, a release mode, and an idle mode. Here, the sleep mode is a state in which all internal components of the security system 10 do not operate. The set mode is a state in which the security system 10 is performing a guard, and the release mode is a state in which the security system 10 is not performing a guard. In addition, the idle mode is a security mode that the security system 10 can reduce the current consumption in the set mode.

2, the security system 10 includes a communication control device 100, a power management unit 200, a security sensor unit 300, a power conversion unit 400, an energy collection unit 500, and a battery unit 600. ).

The crime prevention sensor 300 detects an external intrusion of the crime prevention area (A), and transmits an output signal B corresponding to the detection result to the sensor signal processing unit 250 and the wireless crime prevention control device 20.

The communication control device 100 includes a transceiver 110, a processor 120, and a controller 130.

First, the security system 10 is set to the sleep mode.

The transceiver 110 receives a wake up signal from the wireless crime prevention control device 20 and transmits the signal to the processor 120.

The processor 120 converts the crime prevention mode of the crime prevention system 10 according to whether the wake-up signal is received, and transmits a signal ① corresponding to the converted crime prevention mode to the mode receiver 210.

Referring to FIG. 3, the processor 120 includes a wake-up detector 121, a mode processor 122, and an idle mode processor 123.

The wakeup detector 121 detects a wakeup signal received from the transceiver 110.

When the mode processor 122 detects the wake-up signal, the mode processor 122 converts the security mode of the security system 10 from the sleep mode to the set mode, and transmits a signal ① corresponding to the set mode to the mode receiver 210. Here, the set mode is a state in which the security system 10 performs the guard.

During the set mode, when the control unit 130 does not receive the sensor detection signal C from the sensor signal processing unit 250 for a predetermined time, the idle mode processing unit 123 to convert the security mode of the security system 10 into the idle mode. Informed.

In addition, the idle mode processor 123 may change the mode of the security system 10 from the set mode to the idle mode, thereby reducing current consumption even in the set mode.

After the security system 10 receives the signal corresponding to the release mode from the wireless security control device 20, if the mode processing unit 122 does not receive the wake-up signal, the security mode of the security system 10 release mode It determines as, and transmits the signal (①) corresponding to the release mode to the mode receiving unit 210. Here, the release mode is a state in which the security system 10 does not perform the guard.

The controller 130 controls to supply power when a low voltage is generated in the security system 10, and transmits an abnormality to the wireless security control device 20.

The power manager 200 includes a mode receiver 210, a switch 220, a power supply 230, a power abnormality detector 240, and a sensor signal processor 250.

The mode receiver 210 determines, from the battery unit 400 and the power converter 500, a place where the power supplied to the power supply unit 230 is provided using the received signal ①.

In detail, when the mode receiving unit 210 receives a signal corresponding to the set mode, the mode receiving unit 210 determines a place where the power supplied to the power supply unit 230 is provided to the battery unit 400, and receives the received power as the power supply unit 230. Decide to transmit to the communication control device 100 and the crime prevention sensor unit (300).

On the other hand, when the mode receiving unit 210 receives a signal corresponding to the release mode, the power conversion unit 500 determines where the power provided to the power supply unit 230 is provided, and receives the received power from the power supply unit ( In operation 230, only the communication control device 100 is determined to be delivered.

Referring to FIG. 3, the mode receiver 210 includes a first comparator 211 and an OR gate 212.

In the first comparator 211, the voltage V _SUS of the power converter 500 is applied to the non-inverting terminal (+), and the voltage V _BATT of the battery unit 600 is applied to the inverting terminal (−). .

The OR gate 212 OR-operates the output of the first comparator 211 and the output ① of the mode processor 122 and outputs the OR.

The switching unit 220 includes a first switch (2) and a second switch (⑩), and in response to the determination of the mode receiving unit 210 to switch between one of the battery unit 400 and the power conversion unit 500 and Connect the power supply 230.

The power supply unit 230 supplies the power ③ or ④ received from the battery unit 400 or the power conversion unit 500 to the communication control device 100 or the security sensor unit 300. In addition, the power supply unit 230 supplies a predetermined voltage (V _REF1 , V _REF2 ) (⑤, ⑧) to the power supply abnormality detection unit 240.

The power supply abnormality detection unit 240 compares the predetermined voltages V _REF1 and V _REF2 ( _5,8 ) with voltages of the battery unit 400 or the power conversion unit 500 to determine whether a low voltage occurs.

The power failure detector 240 may release the power failure signal Voltage Trouble (VT) ⑥ when the voltage V _SUS of the power converter 500 is less than the first voltage V _REF1 (⑤). The control unit 130 transmits. Next, the controller 130 transmits a control signal (⑦) for controlling the power to be supplied even during the release mode to the mode receiving unit 210.

The power failure detector 240 in the set mode, when the voltage V _BATT of the battery unit 600 is lower than the second voltage V _REF2 (⑧), outputs a battery trouble signal (Battery Trouble, BT) (⑨). The control unit 130 transmits.

Referring to FIG. 3, the power failure detection unit 240 includes a second comparator 241 and a third comparator 242.

In the second comparator 241, the voltage V _SUS of the power converter 500 is applied to the non-inverting terminal (+), and the first voltage V _REF1 (⑤) is applied to the inverting terminal (−).

In the third comparator 242, the voltage V _BATT of the battery unit 600 is applied to the non-inverting terminal (+), and the second voltage V _REF2 (8) is applied to the inverting terminal (−).

The sensor signal processing unit 250 includes an AND gate 251, and performs an AND operation on the signal ① received through the mode receiving unit 210 and the output signal B of the security sensor unit 300 to perform an AND operation. The sensor detection signal C is transmitted to the controller 130.

The power conversion unit 400 converts the living energy source ③ collected by the energy collection unit 600 into a power source and transmits the power to the power supply unit 230.

The energy collector 500 collects living energy sources generated by lighting, sunlight, vibration, and the like around the living.

The battery unit 600 transmits the driving power ④ to the power supply 230 so as to drive the security system 10 by itself.

Next, the control method of the security system according to an embodiment of the present invention will be described in detail with reference to FIG.

4 is a flowchart illustrating a control method of a security system according to an embodiment of the present invention.

First, the security system 10 is set to the sleep mode.

Referring to FIG. 4, the communication control device 100 receives a control signal for controlling the performance of the guard from the wireless crime prevention control device 20 (S401). The crime prevention sensor 300 detects the crime prevention state of the corresponding crime prevention area (A) (S402), and transmits an output signal (B) corresponding to the detection result to the power management unit 200 and the wireless crime prevention control device 20. (S403).

In addition, the communication control device 100 determines whether a wake-up signal is received from the wireless security control device 20 (S404).

When the security system 10 receives the wake-up signal, the communication control device 100 converts the security mode of the security system 10 from the sleep mode to the set mode (S405), and the signal corresponding to the set mode (① ) Is transmitted to the power management unit 200. Here, the set mode is a state in which the security system 10 performs the guard. At this time, the power management unit 200 transmits the sensor detection signal (C) combining the signal (1) corresponding to the set mode and the output signal (B) of the crime prevention sensor unit 300 to the communication control device 100 ( S406). The communication control device 100 transmits the crime prevention abnormal signal corresponding to the sensor detection signal C to the wireless crime prevention control device 20 (S407).

In the set mode, the power management unit 200 supplies the power supplied from the battery unit 400 to the communication control device 100 and the crime prevention sensor unit 300 (S408). In this case, the power manager 200 compares the voltage V _BATT of the battery unit 600 with the second voltage V _REF2 to determine whether a low voltage is generated (S409). As a result of comparison, when the voltage V _BATT of the battery unit 600 is smaller than the second voltage V _REF2 , the power management unit 200 wirelessly transmits the battery fault signal Battery Trouble (BT) through the communication control device 100. Transmitted to the crime prevention control apparatus 20 (S410).

Even when the security system 10 does not receive a wake-up signal after the security system 10 receives a signal corresponding to the release mode from the wireless security control device 20, the communication control device 100 may not detect the security mode of the security system 10. In the release mode (S411), and transmits a signal ① corresponding to the release mode to the power management unit (200). Here, the release mode is a state in which the security system 10 does not perform the guard. At this time, the power management unit 200 does not transmit a sensor detection signal (C) combining the signal (1) corresponding to the release mode and the output signal (B) of the crime prevention sensor unit 300 (S412).

In the release mode, the power management unit 200 supplies the power supplied from the power conversion unit 500 to the communication control device 100 (S413). At this time, the power manager 200 compares the voltage V _SUS of the power converter 500 and the first voltage V _REF1 to determine whether a low voltage is generated (S414).

As a result of comparison, when the voltage V _SUS of the power converter 500 is less than the first voltage V _REF1 , the power manager 200 transmits a power fault signal Voltage Trouble (VT) through the communication control device 100. Transmission to the wireless security control device 20 (S415). Here, the communication control device 100 transmits a control signal for controlling to supply the battery power to replace the life energy source power to the communication control device 100 to the power management unit 200.

The power management unit 200 supplies the power supplied from the battery unit 400 to the communication control device 100 (S416). In this case, the power manager 200 compares the voltage V _BATT of the battery unit 600 with the second voltage V _REF2 to determine whether a low voltage is generated (S417). As a result of comparison, when the voltage V _BATT of the battery unit 600 is smaller than the second voltage V _REF2 , the power management unit 200 wirelessly transmits the battery fault signal Battery Trouble (BT) through the communication control device 100. Transmitted to the crime prevention control apparatus 20 (S410).

The embodiments of the present invention described above are not only implemented by the apparatus and method but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded, The embodiments can be easily implemented by those skilled in the art from the description of the embodiments described above.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a view showing an environment to which the security system according to an embodiment of the present invention is applied.

2 is a block diagram showing the structure of a security system according to an embodiment of the present invention.

3 is a diagram illustrating a circuit of a communication control unit and a power management unit of a security system according to an embodiment of the present invention.

4 is a flowchart illustrating a control method of a security system according to an embodiment of the present invention.

Claims (8)

Security sensor unit for detecting an external intrusion of the security area; A communication controller to determine a security mode based on whether a wake-up signal is received; A first source for supplying power through the collected source of living energy; A second source for supplying power through an internal battery; And As a result of determining the security mode, in the set mode of performing the guard, the power is received from the first supply source and supplied to the security sensor unit or the communication controller, and in the release mode of not performing the guard, from the second source. A power management unit receiving the voltage and supplying it to the communication control unit Including; The power management unit comprises a power failure detection unit for determining whether a low voltage is generated by comparing the voltage of the first supply source or the voltage of the second supply source with the voltage set to determine whether the low voltage is generated. The method of claim 1, The communication control unit A transceiver for receiving the wake-up signal from the outside and transferring the low voltage to the outside; And The processor determines the security mode as a set mode when receiving the wake-up signal, and determines the security mode as the release mode when the wake-up signal is not received. Security system comprising a. The method of claim 2, The power management unit A mode receiver configured to determine a place where power is supplied in the set mode as the second supply source and to determine a place where power is supplied as the first supply source in the release mode Security system comprising a. The method of claim 3, The communication control unit When the low voltage occurs as a result of the determination of the power failure detection unit, a security system including a control unit for providing a power failure to the external wireless security control device. The method of claim 3, The mode receiving unit When the low voltage occurs in the release mode, A security system that determines where to receive power as the first source, and receives the voltage to deliver to the communication control unit. In the control method of the security system, Determining whether a wake-up signal is received from an external wireless security control apparatus; Receiving the wake-up signal, converting a security mode of the security system into a set mode for performing a guard; If the wakeup signal is not received, converting a security mode of the security system to a release mode that does not perform a guard; Receiving power from a first source that supplies power through an internal battery when the security system mode is the set mode; Receiving power from a first source that supplies power through the collected living energy source when the security system mode is the release mode; Determining whether a low voltage is generated by comparing predetermined voltages with voltages of the first or second supply source; And When the low voltage is generated, notifying the power failure of the security system to the wireless security control device Control method of the security system comprising a. The method of claim 6, Determining whether the low voltage is generated Determining that a low voltage has occurred in the first supply source when a first one of the predetermined voltages is smaller than a voltage of the first supply source; And Determining that a low voltage has occurred in the second supply source when a second one of the predetermined voltages is smaller than a voltage of the second supply source. Control method of the security system comprising a. The method of claim 7, wherein Determining that a low voltage has occurred in the first supply source Controlling to receive power from the second source during the release mode Control method of the security system comprising a.

Images