KR101130334B1 - Variable brightness led street light according to surrounding illuminance - Google Patents

Abstract

PURPOSE: An LED street light is provided to maintain optimal illumination state by changing the illumination of the LED street light according to peripheral illumination state. CONSTITUTION: An LED lighting part(120) is arranged in a pillar. An illumination sensor(140) detects peripheral illumination of the LED lighting part. An LED driving part creates a plurality of dimming signals. The LED driving part supplies one dimming signal to the LED lighting part. A controller(210) senses change of the peripheral illumination. The controller selects the dimming signal. The controller comprises average illumination calculating part(212), a reference illumination administration part, a comparison part, and a control signal generating part. The average illumination calculating part calculates average illumination per hour. The reference illumination administration part establishes reference illumination. The comparison part grasps illumination range of the average illumination.

Description

Variable Street Light According to Surrounding Illumination {Variable Brightness LED Street Light According to Surrounding Illuminance}

The present invention relates to an LED street light, and in particular, the energy is reduced by varying the brightness according to the external ambient light, and the brightness according to the ambient light so that the road or the distance can maintain the appropriate illumination at all times by varying the brightness according to the ambient light Relates to a variable LED street light.

Street lamps, which are the means of lighting for the safety of vehicles and pedestrians, are installed in the form of attaching a lamp to the top of the strut standing vertically on the ground. It is common to use a high-pressure discharge lamp for a lamp of a street lamp, but in recent years, a light emitting diode (hereinafter, referred to as 'LED') is a trend to use. LED has advantages in that the lighting time is shortened and the energy consumption is reduced in comparison with the high-pressure discharge lamp.

However, LED streetlights do not properly reflect road conditions or weather conditions, and are often not uniformly lit or turned off. In particular, once the street light is turned on to maintain maximum illumination, unnecessary energy consumption may occur.

Accordingly, the present invention has been made to solve the above-described problems, and provides an LED street light and a control method thereof, the brightness of which varies depending on the ambient light to maintain the optimum lighting conditions and to provide a light to the pleasant road environment Its purpose is to.

Another object of the present invention is to provide an LED street light and a control method thereof, the brightness of which varies depending on the ambient illumination, which can reduce unnecessary energy consumption.

In order to solve the above problems, the LED street light whose brightness is variable according to the ambient illuminance according to the present invention is disposed on a prop LED lighting unit for illuminating a street or a road; An illuminance sensor for detecting peripheral illuminance of the LED lighting unit; An LED driver for generating a plurality of dimming signals for driving the LED lighting unit to have different illuminance, and supplying any one of the dimming signals to the LED lighting unit; And a controller configured to detect a change in the ambient illuminance detected by the illuminance sensor and to select a dimming signal to light up the illuminance of the LED lighting unit as the ambient illuminance is lower.

In this case, the controller controls the illumination of the LED lighting unit to be different so that the sum of the peripheral illumination and the emission illumination of the LED lighting unit is constant.

The control unit includes a reference illuminance manager for setting and storing reference illuminance for step-by-step light emission of the LED lighting unit; A comparison unit comparing the magnitudes of the peripheral illumination detected by the illumination sensor and the reference illumination of the reference illumination management unit; And a control signal generator for generating a light emission signal for selecting any one of the dimming signals according to the result of the comparator, and supplying the light emission signal to the LED driver.

In addition, the LED street light whose brightness is variable according to the ambient illumination according to the present invention further includes an average illuminance calculator for calculating an average illuminance per unit time with respect to the ambient illuminance, the comparison unit is based on the average illuminance calculated by the average illuminance calculator The standard illuminance of the illuminance manager is compared and output to the control signal generator.

In addition, the control method of the LED street light according to the present invention comprises the steps of detecting the ambient illumination of the street light; Detecting a change in ambient illuminance; It includes; lowering the illuminance of the LED lighting unit when the ambient illuminance is increased, or increasing the illuminance of the LED lighting unit when the peripheral illuminance is lowered.

At this time, in the step of detecting a change in the ambient illuminance, the average illuminance for detecting a plurality of times of the ambient illuminance within the unit time is used.

The detecting of the change in the ambient illumination may be performed by setting a reference illumination of the ambient illumination and determining whether the ambient illumination has reached the reference illumination.

In addition, the step of detecting a change in the ambient illuminance and controlling the illumination of the LED lighting unit, for comparison with the ambient illuminance, n from the first reference illumination of the highest illumination to the nth reference illumination of the lowest illumination n Three reference illuminance, determine which range the peripheral illuminance falls within the first to nth reference illuminance, and use the method of controlling the illuminance of the LED lighting unit with the illuminance corresponding to each of the first to nth reference illuminances. Can be.

The method of determining which range of the peripheral illuminance falls within the first to nth reference illuminance compares the average illuminance with the first reference illuminance, and turns off the LED lighting unit when the average illuminance is greater than the first reference illuminance and the average illuminance When is less than or equal to the first reference illuminance, comparing the average illuminance and the second reference illuminance; When the average illuminance is compared with the i-th reference illuminance and the average illuminance is greater than the i-th reference illuminance (i-1), the illuminance corresponding to the reference illuminance is controlled to control the illuminance of the LED lighting unit, and the average illuminance is less than the i-based illuminance. Comparing the average illuminance with the (i + 1) reference illuminance; When the average illuminance is compared with the nth reference illuminance and the average illuminance is greater than the nth reference illuminance, the illuminance corresponding to the (n-1) reference illuminance is controlled to control the illuminance of the LED lighting unit, and the average illuminance is the n reference illuminance. If less than or equal to the step of controlling the illumination of the LED lighting unit to the illumination corresponding to the n reference illumination; may include.

In this case, the first reference illuminance is set to illuminance for emitting or turning off the LED lighting unit.

The nth reference illuminance is set to the illuminance for controlling the LED lighting unit to emit light at the maximum illuminance.

According to the LED street light whose brightness varies according to the ambient illumination according to the present invention and a control method thereof, it is possible to maintain an optimal illumination state by varying the illumination of the LED streetlight according to the ambient illumination varying according to road conditions, weather conditions or time. .

In addition, according to the LED street light and the control method thereof, the brightness is variable according to the ambient illuminance according to the present invention, because it is not necessary to always illuminate the street lamp at the maximum illuminance unnecessarily, energy consumption can be reduced.

1 is a view showing an LED street light according to the present invention.
Figure 2 is a block diagram showing the configuration of the LED street light according to the present invention.
3 is a flow chart showing a control method of the LED street light according to the present invention.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings. In describing the embodiments, the same names and symbols are used for the same components, and additional description thereof will be omitted below.

1 is a view showing an LED street light whose brightness is variable according to the ambient illuminance according to the present invention.

Referring to FIG. 1, the LED street light according to the present invention is coupled to an upper part of a support 110 embedded in a lower part of the ground, and includes an LED lighting unit 120 for illumination and an illumination sensor disposed at one side of the support 110 ( 140 and the control unit 101 for controlling the brightness of the LED lighting unit 120 according to the ambient illumination.

The LED lighting unit 120 is one or more LED elements are disposed on a substrate in the form of a printed circuit board (PCB), it may be coupled to the upper portion of the support 110. In addition, the LED lighting unit 120 may have a structure that is mounted on the housing 130 in order to reflect the emitted light to increase the light efficiency and to protect from external physical elements.

The illuminance sensor 140 is for detecting the illuminance around the street lamp. In particular, the illuminance sensor 140 is an upper portion of the support 110, that is, for example, the housing 130 of the housing 110 in order to detect a change in illuminance according to time or an illuminance change according to the weather, which is not temporarily changed by an artificial factor. It may be disposed above. In some embodiments, the illuminance sensor 140 may be disposed below the stop of the support 110, that is, at a position A and A ′ through which an actual vehicle or a pedestrian passes.

The control unit 101 controls the brightness of the LED lighting unit 120 differently according to the ambient illuminance detected by the illuminance sensor 140. As shown in FIG. 2, the control unit 101 includes an LED driver 220 that provides a driving signal for differently controlling the brightness of the LED lighting unit 120, and an LED driver according to the ambient illumination detected by the illumination sensor 140. The controller 210 may control the 220.

The controller 210 receives a signal detected by the illuminance sensor 140 and generates a light emission signal having a plurality of levels for differently emitting the brightness of the LED lighting unit 120 according to the peripheral illumination. To this end, the controller 210 includes an average illuminance calculator 212, a unit time counter 214, a reference illuminance manager 216, a comparator 218, and a control signal generator 219.

The average illuminance calculator 212 calculates an average illuminance per unit time using the ambient illuminance detected by the illuminance sensor 140 in real time. The unit time means a time for resetting the brightness of the LED lighting unit 120. The unit time may be set differently according to a specific time zone on a daily basis. For example, a change in the ambient illuminance may occur quickly at a time when sunrise and sunset occur, so that the unit time may be set short.

The average illuminance calculator 212 may calculate the average illuminance of two or more real-time illuminances within a unit time, and may use a method of calculating an average value of the calculated real-time illuminances. For example, when the unit time for calculating the average illuminance is set to 30 minutes, six real-time illuminances are calculated in five-minute units, and the average illuminance for 30 minutes can be calculated by obtaining an average of six real-time illuminances. have.

The unit time counter 214 counts the unit time in order to calculate the average illuminance in the average illuminance calculator 212.

The reference illuminance management unit 216 sets and stores the reference illuminance for the step-by-step light emission of the LED lighting unit 120. The reference illuminance serves as a reference for differently setting the illumination of the LED lighting unit 120 according to the change in the external illuminance. As a plurality of reference illuminances are set, the LED illuminating unit 120 may be illuminated in stages to have different illuminance. Can be.

For example, the following [Table 1] is a table showing an example of the reference illuminance stored in the reference illuminance management unit 216. The reference illuminance can be set to a plurality (n), and Table 1 shows an example in which n = 3, that is, three reference illuminances are set.

1st standard roughness 20 Lux 2nd standard illuminance 15 Lux 3rd standard illuminance 10 Lux

Table 1 sets the reference illuminance in three steps and shows the illuminance Lux for the first to third reference illuminances.

In this case, the first reference illuminance is illuminance which is a reference for turning on and turning off the LED lighting unit 120. That is, the LED lighting unit 120 is turned on when the peripheral illuminance is lower than the first reference illuminance, and is turned off when the peripheral illuminance is higher than the first reference illuminance.

The second reference illuminance is a reference illuminance set to a lower illuminance than the first reference illuminance, and the LED lighting unit 120 lights up at an illuminance higher than the illuminance corresponding to the first reference illuminance when the second reference illuminance is reached. .

Similarly, the i th reference illuminance (where i is a natural number of 2 <i≤n) is set to an illuminance lower than the (i-1) th illuminance to serve as a reference for lighting the LED lighting unit 120 at a higher illuminance. .

The first to third reference illuminance may be set in consideration of the traffic volume of the road or the situation of the road. For example, the standard illuminance can be set high on roads and tunnels with high traffic volume.

The comparator 218 compares the peripheral illuminance detected by the illuminance sensor 140 with the magnitude of the reference illuminance of the reference illuminance manager 216. That is, the comparator 218 compares the average illuminance calculated by the average illuminance calculator 212 with the reference illuminance of the reference illuminance manager 216 using the illuminance detected by the illuminance sensor 140. At this time, the comparator 218 preferentially compares the average illuminance with the first reference illuminance, and compares the average illuminance with the second reference illuminance when the average illuminance is lower than the first reference illuminance.

In this way, the comparator 218 compares the peripheral illuminance with the i-th reference illuminance (where i is a natural number of 2 <i≤n), and when the average illuminance is lower than the i-th reference illuminance, 1) Compare the standard illuminance.

The comparator 218 stops comparing the average illuminance and the reference illuminance when the average illuminance is greater than the i th reference illuminance in the process of comparing the average illuminance with the i th reference illuminance and outputs the output signal to the control signal generator 219. To pass).

The control signal generator 219 is to provide a light emission signal to the LED driver 220 for generating a dimming signal for driving the LED lighting unit 120. The light emission signal is used to select a dimming signal provided by the LED driver 220 and is set as n light emission signals to correspond to n reference illuminances. Therefore, when the reference illuminance is set to the first to third reference illuminances as shown in [Table 1], the light emission signal is set to include the first to third light emission signals as shown in [Table 2].

Average illuminance> First reference illuminance Off / Keep Off First reference illuminance ≥ average illuminance> Second reference illuminance First light emitting signal 2nd reference roughness≥average roughness> 3rd reference roughness Second emission signal Third reference illuminance ≥ average illuminance Third emission signal

In this case, the i-th emission signal is a signal generated when the average illuminance is smaller than the i-th reference illuminance and larger than the (i + 1) th reference illuminance. That is, in the embodiment as shown in [Table 1] and [Table 2], the first light emission signal is a signal generated when the average illuminance is smaller than the first reference illuminance and larger than the second reference illuminance. The second light emission signal is a signal generated when the average illuminance is less than the second reference illuminance and greater than the third reference illuminance, and the third light emission signal is a signal generated when the average illuminance is less than the third reference illuminance.

The LED driver 220 generates a plurality of dimming signals for differently driving the illuminance of the LED lighting unit 120 according to each of the light emission signals provided from the control signal generator 219 and provides them to the LED lighting unit 120. . Therefore, the dimming signal generated by the LED driver 220 is set to a number corresponding to the number of light emitting signals, as shown in Table 3 below.

First light emitting signal First dimming signal Second emission signal Second dimming signal Third emission signal 3rd dimming signal

That is, the first dimming signal is a dimming signal provided to the LED lighting unit 120 when the first light emission signal is output from the control signal generator 219. The second dimming signal is a dimming signal corresponding to the second light emitting signal, and the third dimming signal is a dimming signal corresponding to the third light emitting signal.

As described above, the first light emission signal is a signal generated when the external average illuminance is the highest among the signals illuminating the LED lighting unit 120, and the third light emission signal is generated when the external average illuminance is the lowest. It is a signal. Accordingly, the first dimming signal corresponding to the first light emitting signal is a dimming signal for controlling the LED lighting unit 120 to emit light at the lowest illuminance among the dimming signals, and the third dimming signal controls the LED lighting unit 120 with the highest illumination. The dimming signal is controlled to emit light. In the embodiment, when the first to third reference illuminances are set to 20Lux, 15Lux and 10Lux, respectively, as shown in [Table 1], the first to third dimming signals are respectively set to 5Lux, 10Lux and 15Lux of the LED lighting unit 120. It may be set to a signal for controlling to emit light. The light emission illuminance of the LED lighting unit 120 using the first to third dimming signals is merely an example, and may be changed in consideration of the environment or the traffic volume of the road.

Looking at the method of controlling the illumination of the LED street light according to the present invention is as follows.

The LED street light according to the present invention senses the illumination of the vicinity of the street lamp, and changes the illumination of the LED lighting unit 120 when there is a change in the ambient illumination.

That is, in order to control the LED street light, the peripheral illuminance of the street light is first detected.

It detects whether there is a change in ambient light.

At this time, when the peripheral illuminance increases or decreases by a predetermined value or more, the illuminance of the LED lighting unit 120 is changed. That is, when the peripheral illumination is increased, the control is performed to lower the illumination of the LED lighting unit 120, and when the peripheral illumination is reduced, the control is performed to increase the illumination of the LED lighting unit 120.

An embodiment of the control method of the LED street light according to the present invention will be described with reference to the flowchart of FIG. 3.

1 to 3, the average illuminance is first calculated for the control of the LED street light according to the present invention. The average illuminance is calculated through the average illuminance calculator 212 and the unit time counter 214 using the illuminance detected by the illuminance sensor 140 in real time. That is, the average illuminance calculator 212 calculates the average illuminance for each unit time counted by the unit time counter 214 (S301).

After calculating the average illuminance, the average illuminance is compared with the first reference illuminance. That is, when the average illuminance calculator 212 calculates the average illuminance, the comparison unit 218 compares the average illuminance with the first reference illuminance stored in the reference illuminance management unit 216 (S302 and S303).

 The first reference illuminance means a reference illuminance set to the highest illuminance among the first to nth reference illuminances stored in the reference illuminance managing unit 216. Therefore, when the external average illuminance is greater than the first reference illuminance, it means that the LED lighting unit 120 does not need to be turned on. Accordingly, when the average illuminance is greater than the first reference illuminance, the LED lighting unit 120 is turned off or is kept off (S304).

When the average illuminance is less than or equal to the first reference illuminance, the average illuminance is compared with the second reference illuminance. The process of comparing the average illuminance with the second reference illuminance is performed through the comparing unit 218 (S305 and S306).

At this time, when the average illuminance is greater than the second reference illuminance, the first dimming signal is supplied to the LED lighting unit 120 with the minimum brightness. Referring to this process, when the average illuminance is smaller than the second reference illuminance, the comparator 218 outputs the result value to the control signal generator 219. The control signal generator 219 generates the first light emission signal and provides the first light emission signal to the LED driver 220. The LED driver 220 receiving the first light emission signal generates and supplies a first dimming signal corresponding to the first light emission signal to the LED lighting unit 120. In addition, the LED lighting unit 120 emits light to have a minimum illuminance corresponding to the first dimming signal (S307).

In addition, the average illuminance is compared with the second reference illuminance, and when the average illuminance is less than or equal to the second reference illuminance, the average illuminance is compared with the third reference illuminance. The comparison unit 218 continuously performs this method, and when the average illuminance is less than or equal to any reference illuminance, the comparison unit 218 continuously compares the reference illuminance in the next order. In this process, when the average roughness is less than or equal to the (n-1) th reference roughness, the comparator 218 compares the average roughness and the nth reference roughness having the smallest roughness (S308, S309).

At this time, when the average illuminance is greater than the nth reference illuminance, the (n-1) th dimming signal is supplied to the LED lighting unit 120. That is, when the average illuminance is greater than the nth reference illuminance, the control signal generator 219 grasps the output value of the comparator 218 and generates the (n-1) th light emission signal, which is then transmitted to the LED driver 220. Supply. In addition, the LED driver 220 generates the (n-1) th dimming signal corresponding to the (n-1) th light emission signal and supplies it to the LED lighting unit 120 (S310).

When the average illuminance is less than or equal to the n th reference illuminance, the n-th dimming signal is supplied to the LED lighting unit 120. At this time, the process of supplying the n-th dimming signal to the LED lighting unit 120 is the same as the process of generating the first to the (n-1) th dimming signal using the first to (n-1) th emission signal ( S311).

As an embodiment of the present invention, look at the method of controlling the LED street light using the first to third reference illumination as shown in Table 1 as follows.

Since the ambient illuminance is bright during the daytime when the street light is turned off, the ambient light detected by the illuminance sensor 140 has a value greater than 20 Lux, which is the first reference illuminance. That is, since the average illuminance is greater than the reference illuminance, the LED lighting unit 120 maintains an unlit state at this time.

In the case where the average illuminance becomes 20Lux or less while the ambient illuminance decreases as the sunset starts over time, for example, if the average illuminance becomes 17Lux, the comparator 218 is the average illuminance because the average illuminance is smaller than the first reference illuminance. Compare the second reference illuminance. At this time, since the average illuminance is 17 Lux, the comparator 218 determines that the average illuminance is smaller than the second reference illuminance. Therefore, the comparator 218 no longer compares the average illuminance with the reference illuminance, and outputs a result to the control signal generator 219 that the comparison process is performed up to the second reference illuminance. The control signal generator 219 receives the output value of the comparator 218 to generate a first light emission signal corresponding to the first reference illuminance, and provide the first light emission signal to the LED driver 220. The LED driver 220 receiving the first light emission signal drives the LED lighting unit 120 using the first dimming signal corresponding thereto. Therefore, the LED lighting unit 120 emits light to have an illuminance of 5 Lux controlled by the first dimming signal.

In addition, when the average illuminance continuously calculated for each unit time by the unit time counter 214 is an illuminance belonging between the first and second reference illuminances, the LED illuminator 120 emits light to finally have an illuminance of 5 Lux. Maintain the state.

In the case where the peripheral illuminance becomes 15 Lux or less as time passes, for example, when the average illuminance of the peripheral illuminance becomes 13 Lux, the average illuminance has a value smaller than the second reference illuminance and larger than the third reference illuminance. Accordingly, the control signal generator 219 provides the LED driver 220 with the second light emission signal corresponding to the second reference illuminance, and the LED driver 220 supplies the second dimming signal to the LED illuminator 120. As a result, the LED lighting unit 120 emits light to have an illuminance of 10 Lux.

In addition, when the average illuminance continuously calculated for each unit time by the unit time counter 214 is an illuminance belonging between the second reference illuminance and the third reference illuminance, the LED lighting unit 120 eventually emits light to have an illuminance of 10 Lux. Maintain the state.

When the average illuminance is 10 Lux or less, the average illuminance has a larger value than the third reference illuminance. The control signal generator 219 provides a third light emission signal corresponding to the third reference illuminance to the LED driver 220, and the LED driver 220 supplies the third dimming signal to the LED illuminator 120. As a result, the LED lighting unit 120 emits light to have an illuminance of 15 Lux.

Since the average illuminance around the streetlight is continuously low during the night time, the LED lighting unit 120 maintains the light emission having the illumination of 15 Lux by the third dimming signal as a result of repeating the preceding step every unit time.

When the ambient illuminance increases at sunrise and the average illuminance is greater than 10 Lux and less than or equal to 15 Lux, the LED lighting unit 120 emits light to have an illumination of 10 Lux by the second dimming signal.

Subsequently, when the peripheral illuminance continues to increase and the average illuminance is greater than 15 Lux and less than or equal to 20 Lux, the LED lighting unit 120 emits light to have an illuminance of 5 Lux.

In addition, when the average illuminance is greater than 20 Lux, the LED lighting unit 120 is turned off.

As described above, the LED street light according to the present invention emits or turns off the LED lighting unit 120 step by step according to ambient illumination. For example, although an example of changing the illuminance according to the sunrise and sunset times is shown, the illuminance sensor 140 may detect that the illuminance changes due to a weather condition.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention,

Accordingly, the above-described embodiments are to be considered illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

110: holding 120: LED lighting unit
130 housing 140 illuminance sensor
101: control unit

Claims (11)

An LED lighting unit disposed on the post to illuminate a street or a road;
An illumination sensor for detecting an ambient illumination of the LED lighting unit;
An LED driver generating a plurality of dimming signals for driving the LED lighting unit to have different illuminance, and supplying any one of the dimming signals to the LED lighting unit; And
And a controller configured to detect a change in the peripheral illuminance detected by the illuminance sensor, and select the dimming signal to light up the illuminance of the LED lighting unit as the peripheral illuminance is lower.
The control unit
An average illuminance calculator configured to calculate an average illuminance per unit time with respect to the peripheral illuminance;
The nth reference illuminance is set from first to nth reference illuminance for the stepped light emission of the LED illuminating unit, and at this time, a criterion in which the first reference illuminance, which is the highest illuminance, is used as a criterion for turning on and turning off the LED illuminating unit. Illuminance management unit;
A comparator configured to sequentially compare the average illuminance from the first reference illuminance having a high illuminance to the nth reference illuminance having a low illuminance to determine an illuminance range of the average illuminance; And
A control signal for generating a light emission signal corresponding to the illuminance range including the average illuminance and supplying the light emission signal to the LED driver to select one of the dimming signals corresponding to the light emission signal among the dimming signals. LED street light, the brightness of which varies according to the ambient illumination.
delete delete delete Sets the nth reference illuminance (n is a natural number) of the lowest illuminance as a reference illuminance for controlling the LED illuminator to emit the light at the maximum illuminance as the reference illuminance for emitting or turning off the LED illuminator; And, based on the control method of the street lamp for controlling the brightness of the LED lighting unit,
Detecting peripheral illuminance of the street light;
When the peripheral illuminance is compared with the first reference illuminance and the peripheral illuminance is greater than the first reference illuminance, the LED lighting unit is turned off, and when the peripheral illuminance is less than or equal to the first reference illuminance, the peripheral illuminance Comparing the second reference illuminance with;
When the peripheral illuminance is greater than the i th reference illuminance by comparing the peripheral illuminance with the i-th reference illuminance, (i-1) the illuminance corresponding to the reference illuminance is controlled to control the illuminance of the LED lighting unit, and the peripheral illuminance is comparing the peripheral illuminance with the (i + 1) reference illuminance when i is less than or equal to the reference illuminance;
When the peripheral illuminance is greater than the nth reference illuminance by comparing the peripheral illuminance with the nth reference illuminance, the illuminance corresponding to the (n-1) reference illuminance is controlled to control the illuminance of the LED lighting unit, and the peripheral illuminance And controlling the illuminance of the LED lighting unit to an illuminance corresponding to the n reference illuminance when the n reference illuminance is less than or equal to the n reference illuminance.
At this time, a natural number satisfying the condition of 2≤i≤ (n-1),
delete delete delete delete delete delete

Images