KR200382647Y1 - The Object Sensing Unit Using Micro Motion Detector - Google Patents

Abstract

The present invention is a micro-motion characterized in that the object is detected according to the behavior pattern of the person by additionally installing a means for changing the amplification degree, a means for changing the sensing distance and a means for limiting the size of the object to the element for detecting the object An object detecting apparatus using a detector,

An RF module; An RF controller for controlling the amount of voltage applied to the RF module; A resistor unit connected to the resistor element and the capacitor element defining the amplification degree; A sensitivity control unit for adjusting the degree of amplification by varying the degree of voltage distribution; A signal discriminating unit for outputting a sensing signal when the amplification degree exceeds a reference range; An object size setting unit configured to output an operation range limitation signal according to the size of the object; It consists of one chip and receives the sensing signal from the RF module and combines the information of the sensing signal with the signal of the lamp lighting ON signal setting unit and the object size setting unit to determine the lighting time and the holding time of the lamp to control the lamp to the lamp. It is characterized by including a microcomputer to deliver;

By adjusting the amplification degree inside the person during movement and stop, the lamp is turned on, thereby optimizing the operation of an incandescent lamp or a fluorescent lamp that is automatically operated.

Description

Object Sensing Unit Using Micro Motion Detector

The present invention relates to an object detecting apparatus using a micro motion detector, and in particular, an element for detecting an object is provided with means for changing the amplification degree, a means for changing the sensing distance, and a means for limiting the size of the object. The present invention relates to an object detecting apparatus using a micro motion detector, characterized in that the object is detected.

In general, a sensor or a sensing device detects various types of physical quantities such as temperature or pressure, and detects or detects and transmits the detected information to a means corresponding to the information processing unit to make an appropriate judgment and to operate the device accordingly. It acts as a collector.

Such sensors include light sensors, ultrasonic sensors and microwave actuation sensors.

The optical sensor is an element that detects an object using light, and the optical sensor detects an amount of light, a shape, a state, or a movement of an object, and receives the light that is hit by the object and is reflected. By detecting the movement or speed, the incident light to the light-receiving element increases (decreases) as the pulse-modulated light emitted from the light emitting part enters the detection area, and thus the rectified signal level of the incident light increases. It is a general principle to give an output when the operation level is reached.

In addition, ultrasonic waves are related to a sensor that detects the position or distance of an object by using high frequency sound of 20-30KHz that is inaudible to the human ear. When a voltage is applied to a vibration membrane having a thickness of 2 to 3um, ultrasonic waves are generated and hit the object. When the ultrasonic wave that is reflected back is detected by the vibrator, the distance to the object becomes longer because the distance to the object is longer, the longer it takes to reflect and return.

On the other hand, the optical sensor and the ultrasonic sensor has a disadvantage in that it must protrude to the outside because it can not be transmitted in an opaque object or a hidden state, it is possible to transmit a high frequency through the non-metallic object when the sensor needs to be embedded Use a microwave sensor.

The microwave actuating sensor module and a method of detecting an object using the same are formed in one module using an Doppler Radar Principle, and an antenna transmitting unit and an antenna receiving unit are formed in one module. The sensor can detect and capture the energy returned from the object through the sensor, and the sensor calculates the low frequency voltage by mixing the wavelength of the captured and spaced energy and the transmitted wavelength light, The connection between the control unit and the software embedded in the control unit allows the sensor to be finally operated.

However, most of the products using the microwave sensor are determined at the time of production, and the currently developed products control the distance by simply increasing or decreasing the value received from the antenna.

Therefore, it is not possible to actually adjust the sensing distance, and if the circuit is configured in this way, when detecting the movement of the same size object, the movement at close distance is sensitive even at small movement, but the sensing at long distance is relatively There is a problem in that the detection is slowed down.

In addition, the biggest problem of the product using the microwave sensor is that all living organisms and microorganisms such as insects are detected and turned on, especially if all objects such as strong winds or insect movements are detected regardless of size. There has been a problem of judging that a person exists.

The present invention is to solve the above problems, the object is to configure the device so that the lamp is turned on only when a person standing or moving to maximize the amount of information judged as a person.

As a means for achieving the above object,

An RF module comprising one chip and having a transmitting / receiving antenna and an oscillator embedded therein for sensing an object by a high frequency output; An RF control unit comprising a transistor and a variable resistor, and having a variable resistor connected to a base end of the transistor to control the amount of voltage applied to the RF module by displacing the variable resistor; An output terminal of the RF module is connected to a non-inverting terminal, a resistance element and a capacitor element defining an amplification degree are connected through an inverting terminal, and the amplifier is connected to an inverting terminal of another amplifier, and the non-inverting terminal of the amplifier An amplifying unit to which a resistance element and a capacitor element defining an amplification degree are connected; A sensitivity adjusting unit comprising a variable resistor and a switching means for selecting a range of the resistor, wherein a range of the resistor is selected by using the switching means, and thus adjusting the amplification degree by varying the degree of voltage distribution; When the output terminal of the amplifier is connected through the inverting terminal and the line of the sensitivity control unit is connected through the non-inverting terminal, the signal output through the amplifier exceeds the reference range of the amplification according to the sensitivity control. A signal discriminating unit for outputting a sensing signal to the sensor; An object size setting unit configured to include a variable resistor and a switching unit connected to a microcomputer to select a resistance range, and outputting an operation range limitation signal according to the size of the object by selecting a resistance value with the switching unit; It consists of one chip and receives the sensing signal from the RF module and combines the information of the sensing signal with the signal of the lamp lighting ON signal setting unit and the object size setting unit to determine the lighting time and the holding time of the lamp to control the lamp to the lamp. A microcomputer to pass it; It consists of various capacitors, resistors, diodes, zener diodes, inductors, regulators, etc. to provide power to the lamps and various devices, and includes a power supply unit to turn on the lamps according to the control signal of the microcomputer.

In addition, one side of the microcomputer is composed of an illuminance sensor, a resistor, a variable resistor, and a switching means, and a comparator, and further comprises an operation illuminance setting unit for selecting an appropriate illuminance according to the resistance value selection of the switching means. .

In addition, one side of the microcomputer is characterized in that the power supply noise detector further provides a noise reference value and a predetermined peak signal is transmitted and recognizes it as a noise signal to prevent the lamp from being turned on.

In addition, optical coupling control means, one side of which is connected to the microcomputer and relays a lamp driving signal output from the microcomputer, a die solution for transmitting a lamp driving signal output from the optical coupling control unit to the lamp, and other resistors for circuit stabilization. And an output controller comprising a capacitor and a capacitor.

In addition, a variable resistor and a switching means connected to the microcomputer to select one of the resistance range is configured by further combining the on time setting unit of the lamp to determine the on time of the lamp by selecting the resistance value by the switching means. This is a feature.

In addition, it is characterized in that the connection to the microcomputer is further configured to combine the communication port for program change to change the program of the microcomputer from the outside.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and the preferred embodiments associated with the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The present invention is largely based on the RF module 130, the RF control unit 10, the amplifier 20, the sensitivity control unit 30, the signal determination unit 40, the lamp lighting time setting unit 50 and , The object size setting unit 60, the microcomputer 70, the operating illuminance setting unit 80, the program communication port 90, the noise detector 120, the output control unit 110, the power supply unit ( 120 and a lamp 140.

The RF module 130 is formed of a single chip and has a transceiver for transmitting and receiving high frequency and an oscillator for oscillating high frequency.

The RF controller 10 includes a transistor 11 and a variable resistor 12, and a variable resistor is connected to a base end of the transistor to control the amount of voltage applied to the RF module by displacing the variable resistor. .

The amplifier 20 includes a plurality of amplifiers 21 and 22 connected in series, and an output terminal of the RF module 130 is connected to a non-inverting terminal, and a resistor element and a capacitor element limiting the amplification degree through an inverting terminal. The amplifier is connected to an inverting terminal of another amplifier, and a non-inverting terminal of the amplifier is connected to a resistor element and a capacitor element that define an amplification degree.

The sensitivity adjusting unit 30 is composed of a variable resistor 31 and a switching means 32 for selecting a range of resistance. The range of resistance is selected using the switching means, and accordingly, the effect of voltage distribution is changed so that the amplification degree is different. Adjusted.

The signal discrimination unit 40 is composed of a comparator, and the output terminal of the amplifier is connected through the inverting terminal, and the line of the sensitivity control unit is connected through the non-inverting terminal, when the reference range is set according to the sensitivity control, the signal output through the amplifier is referred to. If it exceeds the range, the sensing signal is output.

The lamp lighting time setting unit 50 includes a variable resistor 51 and a switching means 52, one side of which is connected to a microcomputer and selects a range of resistance, thereby selecting an resistance value using the switching means to set the on time of the lamp. Decide

The object size setting unit 60 is composed of a variable resistor 61 and a switching means 62, one side of which is connected to a microcomputer and selects a range of resistance, thereby selecting a resistance value by the switching means to operate according to the size of the object. Outputs a range-limited signal.

The microcomputer 70 is formed of a single chip and receives a sensing signal from the RF module 130, and combines the information of the sensing signal with signals of the lamp lighting time setting unit 50 and the object size setting unit 60. The control signal is transmitted to the lamp 140 by determining the lighting time and the holding time of the lighting.

The operating illuminance setting unit 80 includes an illuminance sensor 81, a resistor, a variable resistor 82, a switching means 83, and a comparator 84, and selects an appropriate illuminance according to the resistance value selection of the switching means. do.

The power supply noise detector 120 may provide a noise reference value to recognize the signal as a noise signal when the peak signal exceeds a predetermined level, thereby preventing the lamp from being turned on.

The output control unit 100 is a light coupling control means 101 for relaying the lamp drive signal output from the microcomputer 70, and a die liquid for transmitting a lamp drive signal output from the light coupling control means 101 to the lamp And 102 and other resistors and capacitors for circuit stabilization.

The power supply unit 110 includes various capacitors, resistors, diodes, zener diodes, inductors, regulators, and the like, and supplies power to the lamp 140 and various devices under the control of the microcomputer 70.

The following is a summary of the characteristics of the device to be applied to the present invention.

The RF module 130 is provided with an antenna transceiver, and serves to capture energy returned from an object to be transmitted and received by high frequency transmission.

The RF controller 10 includes a variable resistor 12 and a switching transistor 11 to control a sensing distance by adjusting a voltage applied to the RF module 130. When a voltage lower than a predetermined voltage is applied, the sensing distance is applied. And the sensing range is reduced, and conversely, when a voltage higher than a predetermined voltage is applied, the sensing range and the sensing range are expanded.

The amplifier 20 is composed of the multi-stage amplifier (21, 22) serves to enlarge the size of the signal so that the microcomputer can recognize the weak signal output from the RF module 130.

The sensitivity control unit 30 is made of a variable resistor serves to adjust the sensitivity by adjusting the amplification degree of the received signal by the ratio change of the voltage distribution bar, when the amplification degree higher than the reference, the microcomputer 70 is a minute change If the reaction is lowered and the amplification level is lower than the standard, the microcomputer will respond only to a large change.

The signal discrimination unit 40 is configured as a comparison means to output a signal to the microcomputer if the reference value is higher than the reference value, and to send the signal to the microcomputer if the reference value is less than the bar, and serves to change the reference value by the sensitivity control unit. .

The lamp lighting time adjusting unit 50 is made of a variable resistor serves to set the range of the duration of the operation of the lamp 140 to the microcomputer 70 in the state in which the microcomputer 70 commands the lamp operation. .

The object size setting unit 60 is composed of a variable resistor 61 and the switching means 62 to adjust the amount of radio waves determined by the microcomputer 70. If the microcomputer 70 reacts to a small object and receives a small amount of radio waves smaller than the reference range, the microcomputer 70 responds only to a relatively large object.

The microcomputer 70 is composed of a central processing unit including a memory, by combining the information input from the signal discrimination unit 40 and the object size setting unit 60 to determine whether to determine the lighting of the lamp 140 and the continuous light. Bar, the operation of the lamp in the range according to the reaction distance from the output of the signal determination unit 40 according to the setting of the reference range of the sensitivity adjusting unit 30 and at this time according to the reference information input from the object size setting unit 60 Lamp lighting is determined by outputting a lamp lighting signal within a range in which a size over a predetermined range is satisfied, and the lamp lighting is continued for a time set in the lighting time setting unit 50.

The operating illuminance setting unit 80 sets a reference range according to external illuminance, and a comparison means 84 for outputting final information and a variable resistor 82 for limiting the output of the illuminance sensor and the illuminance sensor 81. The microcomputer 70 operates only within the range specified by the user.

That is, the lamp does not operate when it is relatively bright, and the information transmission range according to the measurement of the illuminance sensor is set in advance so that the lamp operates only when it is relatively dark. In addition, if necessary, the lamp 140 may be set to be lit when the darkness is dark.

The program communication port 90 is connected to the microcomputer 70 is a communication port for changing the program of the microcomputer from the outside.

The noise detector 120 is a means for setting a reference range to exclude noise when a noise higher than a reference among the signals input from the RF sensor 130 is input.

The output control unit 100 is a means for applying an output signal to the lamp in accordance with the control signal of the microcomputer 70.

The power supply unit 110 is a means for supplying the power for the power supply of the various constituent means and lighting of the lamp according to the present invention.

The lamp 140 is a conventional lighting device that lights up for a necessary time under the control of the microcomputer 70 to illuminate the surroundings.

Hereinafter, the operation of the present invention will be described.

The RF module 130 of the present invention inputs a received signal reflected through an object after radiating the oscillated high frequency.

At this time, the RF control unit 10 limits the measurement distance by limiting the output intensity of the high frequency bar, increasing the voltage value applied to the RF module measures a longer distance, and the voltage value applied to the RF module 130. Lowering will measure shorter distances.

The reason for the separate RF control unit 10 is that when it is necessary to adjust the sensing distance according to the installation location of the sensing device of the present invention by using the switching means of the RF control unit 10 of the present invention to lower or increase the applied voltage To do that.

In particular, the sensing change control concept of the RF control unit 10 can limit the access of children by applying only the RF module 130 to the automatic door opening and closing device to be detected only a certain distance from the dangerous area when children enter and exit. Can be used for purposes.

In the present invention, the sensing distance can be appropriately adjusted so that the lamp 140 is not turned on when an animal that is not relatively tall such as a dog or a cat passes by.

That is, if the lamp 140 is turned on only when the detection distance is adjusted to about 1m or 1.5m from the point where the RF module 130 is located so that the lamp 140 is turned on within the distance, the lamp 140 is turned on by the movement of animals moving the floor. Can be prevented.

The signal input through the RF module 130 is amplified by the amplifier 20, and the amplified signal is applied to the microcomputer 70 through the inverting terminal of the signal discriminator 40, wherein the signal discrimination unit Sensitivity control unit 30 is connected to the non-inverting terminal of 40, the reference range of sensitivity can be adjusted by the operation of the switching means 32 of the distribution resistor 31 for sensitivity control.

That is, the sensitivity adjusting unit 30 is configured by adjusting one side of the distribution resistor for determining the amplification degree 20 as a variable resistor and switching the variable resistor to a switching element to adjust the amplification degree 20 to adjust the sensitivity. You can limit the operating range.

In the case of increasing the sensitivity above, even if the fly flies, it detects this, and the lighting signal is activated so that the lamp 140 is turned on unnecessarily, so that the sensitivity is appropriately limited so that it does not react to an object moving at too fast speed. do.

If you adjust it well, even if you increase the detection distance, you can stop the reaction to fast-moving animals such as cats.

Subsequently, the sensing signal passing through the signal discriminator 40 is input to the microcomputer 70, and the microcomputer 70 receives the sensing signal of which the measurement distance and the sensitivity are limited according to the RF control and the sensitivity control already set. .

That is, the RF controller 10 controls the sensing distance by manual setting, and the sensitivity controller 30 controls the sensitivity by determining the amplification degree of the sensing signal, and thus the microcomputer 70 controls the sensing distance and sensitivity. The sensing signal of the completed state is applied.

In addition, the microcomputer 70 is connected to the lamp lighting time setting unit and the object size setting unit 60, the lamp lighting time setting unit 50 is to set the duration of the lamp 140 is turned on As long as the lighting is turned on, how long the lamp 140 continuously lights is determined according to the user's selection.

The object size setting unit 60 limits the reception amount of the sensing signal input to the microcomputer 70 to present a size reference value of the object so that a relatively small object is excluded from the sensing object so that the lamp is turned out to be a person. Induce to operate 140.

That is, the microcomputer 70 recognizes a large object if the amount of reception is relatively large according to the received amount of the input sensing signal, and recognizes the object as a small size if the amount of the received signal is small. The object size setting unit 60 Comprising a variable resistor 61 and a switching means 62 for selectively switching the displacement of the variable resistor 61, when the electrical signal through the variable resistor 61 to the microcomputer 70, the microcomputer 70 In response to this resistance value, if a received signal is input less than the reference range, it is ignored so that it does not react to an object that is difficult to judge as a small person.

The RF control unit 10, the sensitivity control unit 30, and the object size setting unit 60 have an organic relationship with the microcomputer 70, and the RF control unit 10 is connected to an object according to a reception distance of radio waves. The role of limiting the sensing distance, the sensitivity control unit 30 serves to limit the sensitivity of the object according to the amplification degree of the radio wave, the object size setting unit 60 responds to the object size according to the amount of reception of the radio wave It serves to limit.

That is, the RF control unit 10 blocks the reaction of the microcomputer 70 to an object outside the recognition distance, and the sensitivity control unit 30 moves at a high speed to stop the wind or wind and other sensitive stimuli. Blocking the reaction of the microcomputer 70 to the object, the object size setting unit 60 blocks the reaction of the microcomputer 70 to an object smaller than a person, such as a fly or an animal.

Therefore, the microcomputer 70 may combine these signals to operate only when a person moves as much as possible and when a person stops for a predetermined time.

Meanwhile, an operating illuminance setting unit 80 is connected to the microcomputer 70, and the illuminance sensor 81, a variable resistor 82 for controlling the illuminance sensor 81, and the variable low 82 are connected to the operating illuminance setting unit 80. Is connected to a switching means 83 that adjusts the displacement of the < RTI ID = 0.0 >) < / RTI > terminology so that the output mode of the illuminance sensor 81 is appropriately limited so that the operation mode of the lamp 140 can be changed depending on whether it is relatively darker, darker, or relatively darker. So that the lamp 140 can be turned on even if it is relatively dark, by operating the switching means 83 to lower the reference resistance value, and switching if the lamp 140 is to be turned on only when it is relatively darker. The means 83 is operated to raise the reference resistance value.

In addition, the program communication port 90 is further connected to the microcomputer 70, and the program of the microcomputer 70 may be updated through the program communication port.

That is, the microcomputer 70 has a memory and its own operation timing, and has a built-in method for processing data. When the microcomputer 70 wants to change the data processing method and the order, the microcomputer 70 transfers an external program through the program communication port. The operation contents of the microcomputer 70 can be changed by inputting into the installed memory.

In addition, in the present invention, the power source noise detection unit 100 is connected to the microcomputer 70. The power source noise detection unit 100 has a microcomputer 70 when noise above the reference level is input through the RF module 130. By inputting a reference signal so that this signal can be ignored, the noise may be caused by various factors, which may also be caused by air or other components themselves.

Since the noise signal is input at a very high speed, it is very difficult to catch a noise signal with a conventional device for checking capacitors or other noises. This is because it is virtually impossible to complete all of the noise removing means corresponding thereto.

Accordingly, the present invention over-amplifies the noise coming from the power supply and the idle phenomenon and inputs it to the microcomputer so that the microcomputer 70 recognizes the noise as unconditional and removes it from the microcomputer 70 so that the lamp 140 according to an abnormal signal is generated. Turn off the lights beforehand.

In addition to the above components, the other output control unit 110 and the power supply unit 120 are provided. The output control unit 110 is a component that relays a command signal to the lamp when the microcomputer 70 commands the lamp to be turned on. The power supply unit 120 supplies power to the lamp 140 and other components of the present invention. The output control unit 110 and the power supply unit 120 are essential components of the lamp lighting circuit. Omit it.

The operation sequence of the microcomputer is as follows.

First, when the microcomputer is operated, the first step (S1) of checking the illuminance to determine whether the illuminance sensor signal is input;

A second step (S2) of operating the RF sensor by determining that the outside is darker than a reference value when the signal of the illuminance sensor is input in this step;

When the detection signal of the external object is input through the RF sensor, it is determined that the object is within the reference distance, and at the same time, it is determined whether the object is larger than the set size, and if it is determined that the object is larger than the set reference, the third step (S3) and ;

Thereafter, the fourth step (S4) of maintaining the lighting of the lamp when the sensitivity of the movement of the object is input by determining the movement of the object more than the reference range;

Comparing and determining the sensitivity and the size of the object to repeat the step consisting of the fifth step (S5) to turn off the lamp when the sensitivity falls below the reference level or the size of the object falls below the reference.

That is, the first step (S1) is a step of receiving information from the illuminance sensor. First, when the microcomputer operates, the information input from the illuminance sensor is checked. The sensor presets the darkness level by adjusting the resistance value of the user. Therefore, the sensor transmits the sensing information to the microcomputer if it exceeds the desired reference value.

The second step (S2) is to drive the RF sensor. It is not necessary to drive the RF sensor during the day, so when information is input from the illuminance sensor and the current dark state is specified, the RF sensor is activated to detect a moving object. do.

The third step (S3) is to process the data input from the RF sensor is input to the microcomputer only when the object enters within the limited range according to the preset distance reference input, and at the same time is the microcomputer exceeds the specified object size? When it is judged that the reference value is exceeded, a lamp signal is output to the lamp.

In the step S3, the lamp is turned on only when the conditions of the reference distance and the reference object size are satisfied. Therefore, the lamp is not operated when a relatively small object is recognized.

The fourth step (S4) is to determine the continuous lighting of the lamp by checking the sensitivity according to the movement of the object, if the range of the standard sensitivity, that is, the moving speed of the object is maintained only within the reference range, and relatively If the moving speed of the object is fast, reduce the lighting duration of the lamp. If the moving speed of the object is slow, increase the lighting duration of the lamp.

This is because it is not necessary to turn on the lamp for a long time when a person passes by quickly, and it is to minimize error factors caused by wind or other animals such as flying flies or cats.

Therefore, the fifth step (S5) is to determine the duration of the lamp in accordance with the analysis of the RF signal entering the microcomputer to continuously turn on the lamp when the person is stopped, and then the first step (S1) Proceed with the operation of repetition.

As described above, the present invention is limited to the sensing distance through RF control, the amplification degree according to the sensitivity control, and the object size through the object size setting unit. By controlling the amplification degree inside when stopped, the lamp is turned on, thereby optimizing the operation of incandescent lamps or fluorescent lamps that are automatically operated.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, various other modifications and variations may be made without departing from the spirit and scope of the present invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the present invention.

1 is a block diagram of the device configuration of the present invention.

2 is a circuit configuration diagram applied to the present invention.

Figure 3 is a microcomputer operation flow chart of the present invention.

Explanation of symbols on the main parts of the drawings

10: RF control unit 20: amplifying unit

30: sensitivity adjusting unit 40: signal discriminating unit

50: lamp lighting time setting section 60: object size setting section

70: micom 80: operating illumination setting unit

90: program communication port 100: lamp output control unit

110: power supply unit 120: power noise detection unit

130: RF module 140: lamp

Claims (6)

An RF module comprising one chip and having a transmitting / receiving antenna and an oscillator embedded therein for sensing an object by a high frequency output; An RF control unit comprising a transistor and a variable resistor, and having a variable resistor connected to a base end of the transistor to control the amount of voltage applied to the RF module by displacing the variable resistor; An output terminal of the RF module is connected to a non-inverting terminal, a resistance element and a capacitor element defining an amplification degree are connected through an inverting terminal, and the amplifier is connected to an inverting terminal of another amplifier, and the non-inverting terminal of the amplifier An amplifying unit to which a resistance element and a capacitor element defining an amplification degree are connected; A sensitivity adjusting unit comprising a variable resistor and a switching means for selecting a range of the resistor, wherein a range of the resistor is selected by using the switching means, and thus adjusting the amplification degree by varying the degree of voltage distribution; When the output terminal of the amplifier is connected through the inverting terminal and the line of the sensitivity control unit is connected through the non-inverting terminal, the signal output through the amplifier exceeds the reference range of the amplification according to the sensitivity control. A signal discriminating unit for outputting a sensing signal to the sensor; An object size setting unit configured to include a variable resistor and a switching unit connected to a microcomputer to select a resistance range, and outputting an operation range limitation signal according to the size of the object by selecting a resistance value with the switching unit; It consists of one chip and receives the sensing signal from the RF module and combines the information of the sensing signal with the signal of the lamp lighting ON signal setting unit and the object size setting unit to determine the lighting time and the holding time of the lamp to control the lamp to the lamp. A microcomputer to pass it; A micro motion comprising a power supply which is made up of various capacitors, resistors, diodes, zener diodes, inductors, regulators, etc. to provide power to lamps and various devices, and to turn on the lamps according to the control signal of the microcomputer. Object detection device using a detector. The method of claim 1, One side of the microcomputer is composed of an illumination sensor, a resistor, a variable resistor, a switching means, and a comparator, and the microcomputer further comprises an operation illuminance setting unit configured to select an appropriate illuminance according to the resistance value selection of the switching means. Object detection device using a motion detector. The method of claim 1, One side of the microcomputer uses a micro motion detector, characterized by further comprising a power supply noise detector that provides a noise reference value and recognizes the signal as a noise signal when a predetermined peak signal is delivered, thereby preventing the lamp from being turned on. Object detection device. The method of claim 1, Optical coupling control means, one side of which is connected to the micom and relays the lamp driving signal output from the microcomputer, a die solution for transmitting the lamp driving signal output from the optical coupling control means to the lamp, and other resistors and capacitors for circuit stabilization; The object detecting device using a micro motion detector, characterized in that the output controller further comprises a combination. The method of claim 1, And a variable resistor and a switching means connected to one side of the microcomputer to select a range of resistance, and further comprising an on-time setting portion of the lamp for determining the on-time of the lamp by selecting a resistance value with the switching means. Object detection device using a micro motion detector. The method of claim 1, A target using a micro motion detector connected to the microcomputer and configured to further combine a communication port for changing a program to change the microcomputer program externally.