KR101503033B1 - Low Power Operating Method of Wireless Passive Infrared Detector to prolong lifetime of Battery and Low Power Operating System thereof - Google Patents

Abstract

A low-power operation method for extending battery life in a wireless hot-wire detector of the present invention and a low-power operation system using the same includes a hot wire element for sensing an object, an amplifier for amplifying an electric output signal from the hot wire element, A temperature sensor for sensing the temperature of the outside air and outputting an output of the temperature sensor; and a temperature sensor for sensing the temperature of the outside air and outputting an output of the temperature sensor, wherein the window comparator receives the output signal of the window comparator, A second A / D converter which is controlled by the MCU and receives the output of the window comparator and recognizes the input as a reliable input only when it is received at a set voltage or more for more than 50 ms in consideration of ambient temperature and RF noise, By controlling the A / D converter to operate, it is determined whether or not an intruder intrudes Also, the second A / D converter is controlled to operate so that the output of the temperature sensor is received at every repeated operation time (wake up) every 30 minutes to 1 hour to change the set voltage according to the ambient temperature change, And an MCU for controlling the MCU.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a low-power operation method for extending battery life in a wireless hot-wire detector, and a low-power operation system using the same.

In general, the infrared ray detector can be divided into a passive type sensor and an active type sensor. The passive type infrared ray sensor detects the amount of change in the energy of infrared rays received from the object, and determines whether or not an object enters the monitoring area. In addition, the wireless infrared detector uses the battery as the power source in the surveillance area where the normal power is not supplied, so that the battery life plays an important role in the operation of the infrared detector. Accordingly, the present invention relates to a method of operating an infrared ray detector for minimizing power consumption in a wireless hot-wire (infrared) detector and increasing the service life of the battery.

A conventional technique related to the present invention is disclosed in Korean Patent No. 10-1255083 (published on Apr. 15, 2013). 1 is a configuration diagram of the conventional heat ray sensing apparatus. 1, a conventional hot-wire sensing apparatus includes a lens unit 10, a plurality of sensing modules 11 and 12, a signal processing unit 20, a determination unit 30, and a communication unit 40, And warning means (not shown) for outputting a warning signal when it is judged that it has occurred. The lens unit 10 collects the infrared rays from the monitoring object and sends the collected infrared rays to the detection modules 11 and 12 and collects the infrared rays generated in a plurality of different directions. To form a different monitoring zone for collecting the infrared rays incident on the other side. To this end, the lens unit 10 is made up of a fresnel lens having a plurality of lens segments having different refractive indices and forming a plurality of monitoring zones. The sensing modules 11 and 12 detect infrared rays emitted from a monitored object including a person and output corresponding electric signals. The sensing modules 11 and 12 include at least two sensing modules and include an infrared sensor unit. Also. The infrared sensor units 112, 113, 122 and 123 of the sensing modules 11 and 12 output an electrical signal corresponding to the change of the infrared rays condensed through the lens unit 10. Here, a pyroelectric sensor is used as the infrared sensor part, but it is not limited thereto. A superconducting device is a differential type device that outputs an electric signal when there is a change in temperature, and generally does not output a signal to an object that does not move. Also, the sensing module includes a first sensing module 11 and a second sensing module 12, and may include three or more sensing modules. In the first and second sensing modules 11 and 12, The infrared sensor units 112, 113, 122 and 123 are arranged so that the light receiving surfaces for receiving light from the lens unit 10 are positioned in different directions. The signal processing unit 20 processes an electrical signal output from the sensing modules 11 and 12 and outputs a sensing signal to the determination unit 30. Also, the determination unit 30 receives the output of the signal processing unit and determines whether or not the intruder intrudes.

2 is a configuration diagram of a conventional wireless type heat ray sensor. 2, the conventional radio-type hot-wire detector includes a hot-wire element 200, a positive-sensitivity amplifier 212 for amplifying the output signal of the hot-wire element 200, and an analog- A window comparator 220 and a window comparator 220 that can compare the analog signal that is an output of the amplifier and the compensation circuit 210 and can compare the positive and negative sides of the analog signal to determine whether the intruder is intruding And an MCU 250 that controls signal output to an alarm generating unit (not shown) or controls signal transmission to an external device.

Since the conventional hot wire detector has high power consumption, the wireless hot wire detector has a short battery life. In addition, the conventional heat ray sensor uses a sensing sensitivity compensation circuit, resulting in a complicated structure and a high manufacturing cost. In order to solve the above problems, a low power operation method for extending the battery life and a low power operation system using the wireless hot wire sensor for minimizing battery power consumption in a wireless hot wire sensor, Another object of the present invention is to simplify and downsize the circuit configuration to reduce the manufacturing cost.

A low power operation method for extending battery life in a wireless hot spot sensor of the present invention having the above objects and a low power operation system using the same includes a hot wire element for sensing an object, an amplifier for amplifying an electric output signal from a hot wire element, A window comparator for receiving an output signal of the amplifier and outputting a square wave when the voltage is equal to or higher than a predetermined voltage, an A / D converter receiving the amplifier output signal and being controlled by an MCU, a temperature sensor for sensing and outputting the ambient temperature, A second A / D converter that receives the output of the temperature sensor and is controlled by the MCU, and a second A / D converter that receives the output of the window comparator and receives the temperature of the ambient temperature and RF noise, D converter by controlling the A / D converter so that the intruder D converter to operate so as to receive the output of the temperature sensor at every wake-up time which is repeated every 30 minutes to 1 hour, and to change the set voltage according to the ambient temperature change So as to perform temperature compensation.

The low power operation method for extending battery life and the low power operation system using the same according to the present invention having the above-described configuration can reduce battery consumption and extend battery life by using a low power operation method. In addition, the present invention has the effect of reducing manufacturing cost through a simple circuit configuration and downsizing.

1 is a configuration diagram of a conventional hot-wire sensing apparatus,
FIG. 2 is a configuration diagram of a conventional wireless type heat ray sensor,
3 is a block diagram of a low-power operation system for extending battery life in a wireless hot-wire detector according to the present invention.
FIG. 4 is a graph of the output waveform of the low power operation system for extending the battery life in the wireless hot-wire detector of the present invention,
5 is a control flowchart of a low power operation method for extending the battery life in the wireless hot wire sensor of the present invention.

A low-power operation method and a low-power operation system for extending battery life in the wireless hot-wire detector according to the present invention having the above-described objects will be described with reference to FIG. 3 to FIG.

3 is a block diagram of a low-power operation system for extending battery life in the wireless hot-wire detector of the present invention. 3, the low power operation system for extending battery life in the wireless hot-wire detector of the present invention includes a heat ray element 300 for sensing an object, an amplifier 310 for amplifying an electric output signal from the heat ray element 300, A window comparator 320 which is a comparator for receiving a signal output from the amplifier 310 and outputting a square wave when the voltage is equal to or higher than a predetermined voltage, an A / D converter 320 receiving an output signal of the amplifier 310 and controlled by an MCU A second A / D converter 344 which receives the output of the temperature sensor 330 and is controlled by the MCU, a temperature sensor 330 which senses the temperature of the outside air, 320, and receives the output of the A / D converter 342 in consideration of the ambient temperature, RF noise, and the like, And controls the second A / D converter 344 so that the output of the temperature sensor 330 is received every time the operation time wakes up, which is repeated every 30 minutes to 1 hour, And an MCU (340) for controlling the temperature compensation by changing the set voltage according to the temperature.

4 is an output waveform graph of a low power operation system for extending the battery life in the wireless hot wire sensor of the present invention. In FIG. 4, the heat ray device according to the present invention outputs an analog signal and amplifies the analog signal to output the analog signal as shown in FIG. 4 (a). Further, the amplifier output indicates that the square wave signal is outputted as shown in (b) when it is determined that the analog signal received and received by the window comparator is continuously input for a time t equal to or higher than the set reference value. Also, when it is determined that the comparator signal of the original degree is above or below the reference value set for the time t, the MCU operates the A / D converter for a predetermined time as shown in (c), counts the square wave through the counter, It is determined that the intruder is intruding and the alarm generating unit controls the alarm as shown in (d).

5 is a control flowchart of a low power operation method for extending the battery life in the wireless hot wire sensor of the present invention. 5, a low power operation method for extending battery life in a wireless hot-wire detector according to the present invention includes a step S11 of amplifying an analog signal output from a hot wire device, a step of comparing the amplified analog signal with a window comparator (S13) of determining whether the MCU is continuously inputted for a predetermined time (50 ms) or more of the amplified analog signal inputted to the comparator (S14) when the MCU operates the A / D converter to convert the amplified signal from the analog signal into a digital signal and receive it when the MCU continuously inputs the signal in step S13, And the A / D converter operates to compare the received signal with a reference set value to determine an intruder's intrusion (S15). In step S15, If it is determined that the MCU will send a control signal to the alarm generator and end (S16) to produce an alarm. The low power operation method for extending the battery life in the wireless hot wire sensor of the present invention includes sensing the temperature sensor from the temperature sensor and outputting the sensed temperature (S17), and determining whether the MCU is operating for a certain period of time (30 minutes to 1 hour) (S18) of operating the second A / D converter to receive the output of the temperature sensor, and (S19) performing the temperature compensation according to the temperature change by changing the existing reference setting value will be.

10: Lens part, 11, 12: Detection module,
20: signal processing section, 30: determination section,
40: communication unit, 220: window comparator,
300: hot wire element, 310; amplifier,
330: Temperature sensor, 250, 340: MCU

Claims (10)

delete A low-power operation system for extending battery life in a wireless hot-wire detector,
A low-power operation system for extending battery life in the wireless hot-
A heat ray element (300) for sensing an object;
An amplifier 310 for amplifying an electric output signal from the hot wire element 300;
A window comparator comparator for receiving and comparing the output signal of the amplifier 310 and outputting a square wave when the received voltage is equal to or higher than a predetermined voltage;
An A / D converter 342 receiving an output signal of the amplifier 310 and controlled by an MCU;
And controls the A / D converter 342 to operate so as to determine whether or not the intruder is intruding by recognizing the input as a reliable input only when the output of the window comparator comparator is received for a predetermined time or more for a predetermined time, And an MCU (340) that monitors the temperature of the wireless heat detector.
delete A low-power operation system for extending battery life in a wireless hot-wire detector,
A low-power operation system for extending battery life in the wireless hot-
A heat ray element (300) for sensing an object;
An amplifier 310 for amplifying an electric output signal from the hot wire element 300;
A window comparator comparator for receiving and comparing the output signal of the amplifier 310 and outputting a square wave when the received voltage is equal to or higher than a predetermined voltage;
An A / D converter 342 receiving an output signal of the amplifier 310 and controlled by an MCU;
A temperature sensor 330 for sensing and outputting ambient temperature;
A second A / D converter 344 receiving the output of the temperature sensor 330 and controlled by the MCU;
D converter 342 by controlling the A / D converter 342 to be operated only when the output of the comparator of the window comparator is received and received at a set voltage or more for a predetermined time in consideration of the ambient temperature and RF noise, And controls the second A / D converter 344 so that the output of the temperature sensor 330 is received at every operation time (wake up) repeated every predetermined time period to determine whether the intruder intrudes or not. And an MCU (340) for controlling the temperature compensation by changing the set voltage. The low power operation system for extending the battery life in the wireless hot wire sensor.
A low power operation method for extending battery life in a wireless hot wire sensor,
A low-power operation method for extending battery life in the wireless hot-
Amplifying an analog signal output from the hot wire element (S11);
Transmitting the amplified analog signal to the window comparator comparator, comparing and transmitting the compared analog signal to the main control unit (MCU) (S12);
A step (S13) of determining whether the amplified analog signal input to the window comparator comparator by the MCU is inputted continuously over a set voltage for a predetermined time or longer;
(S14) when the MCU operates the A / D converter to convert the amplified signal from the analog signal into a digital signal and receive the digital signal when the MCU continuously inputs the set voltage for more than a predetermined time in step S13;
And a step (S15) of the MCU comparing the received signal with the reference set value based on the signal received from the comparator and the A / D converter operating on the received signal to determine the invader of the intruder (S15) A low power operation method for extending battery life.
6. The method of claim 5,
The predetermined time may be,
Wherein the range is from 45 ms to 55 ms.
6. The method of claim 5,
A low-power operation method for extending battery life in the wireless hot-
Further comprising the step of causing the MCU to generate an alarm by sending a control signal to the alarm generating unit if it is determined in step S15 that the intruder is intruding.
6. The method of claim 5,
A low-power operation method for extending battery life in the wireless hot-
Sensing and outputting the temperature sensor from the temperature sensor (S17);
The MCU operates the second A / D converter at a predetermined time interval to receive the output of the temperature sensor (S18)
And a step (S19) of the MCU performing a temperature compensation according to a temperature change by changing an existing reference set value. The low power operation method for extending the battery life in the wireless hot water sensor.
8. The method of claim 7,
A low-power operation method for extending battery life in the wireless hot-
If it is determined in step S15 that an intruder has not entered the wireless hot spot sensor, steps S11 to S15 are repeated.
9. The method of claim 8,
A low-power operation method for extending battery life in the wireless hot-
If it is determined in step S15 that an intruder has not entered the wireless hot spot sensor, steps S11 to S15 are repeated.

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