KR20130139387A - Lighting equipment using led and control method of the same - Google Patents

Abstract

The present invention relates to an LED lighting device for protecting LED elements and a control method for the same to prevent damage to the entire LED lighting by increasing internal temperatures and short-circuiting or opening the LED when current variations in LED arrays increase due to the deterioration of the LED elements. The present invention comprises a constant current generating unit; a current sensing unit for sensing the level of a current flowing into each LED array; an analog-to-digital signal converter for receiving current and voltage signals from the current sensing unit and converting them into digital signals; a central processing unit which determines the deterioration, opening, and short-circuiting of each LED array to control the level of a constant current in the constant current generating unit or to turn off the constant current generating unit; and a digital-to-analog converter for converting digital signals from the central processing unit into analog signals or a pulse width modulating unit for converting the digital signals into pulse width modulation signals. The constant current generating unit generates a current or stops the current generation based on the signals from the digital-to-analog converter or the pulse width modulating unit. The LED lighting device and the control method for the same according to the present invention protect the constant current generating unit by normally operating the LED arrays when the LED elements are deteriorated or opened and cutting off lighting when the LED elements are short-circuited. [Reference numerals] (10) Constant current generating unit;(45) Current and voltage monitoring by array;(55) First operation;(57) Second operation;(85) Monitoring the temperature of heat radiating plate;(AA) LED array;(BB) I_T output control value

Description

Technical Field [0001] The present invention relates to an LED lighting device for protecting an LED device and a control method of the LED lighting device,

The present invention relates to an LED lighting device for protecting LED devices of a plurality of arrays and a control method of the lighting device. Particularly, when deterioration occurs in the LED device and the current deviation increases in the LED arrays, And more particularly, to an LED lighting apparatus that protects an LED element such that a serious situation does not occur in an entire LED lighting apparatus, and a control method of the lighting apparatus.

2. Description of the Related Art In general, an illumination device using a light emitting diode (LED) is formed by connecting a plurality of LEDs in parallel in a form of an LED array in which a plurality of LEDs are connected in series.

When the LED arrays in which a plurality of LEDs are connected in series are driven in a state where a plurality of LEDs are connected in parallel, the operating voltage of the LED array (forward voltage Vf of each LED) is unevenly generated as the operation time increases. The currents of the LED arrays connected in parallel become unbalanced.

Therefore, a constant current circuit (constant current circuit) is provided in each LED array to flow a constant current so that a problem caused by an unbalanced current flowing through the LED unit is prevented.

In these LED lighting devices, the LED converts about 15% of the power consumed into light and about 85% of the power into thermal energy without generating infrared radiation.

The characteristics of the light energy generated by the LED are very fluctuating. Basically, when the junction temperature of LED is rated at 40 ° C, the white LED is 115% at 0 ° C, 110% at 20 ° C, 100% at 40 ° C, A light quantity of 95% at 60 占 폚, 90% at 80 占 폚, 80% at 100 占 폚 and 70% at 120 占 폚 is generated, and the lifetime remarkably decreases with an increase in temperature to be used.

The internal temperature of the LED increases due to the increase of the ambient temperature and the excessive self heat generation, and the cause of the self heat generation is caused by the high forward current and the thermal resistance.

The rise in internal temperature causes delamination between the LED chip and the protective film, especially in the case of white LEDs, resulting in delamination between the phosphor coating and the silicon protective film or between the chip and the phosphor coating, . In addition, excessive temperature change in the surrounding area causes the shrinkage and expansion of the silicon to cause the wire cutting inside the LED package.

In addition, when a forward current flows more than a threshold value electrically to an LED device or when an instantaneous peak transient current is applied, a chip or a wire inside the LED may be damaged.

The thermal and electrical properties of these LEDs are already well known.

In more detail, the electrical characteristics of the LED is basically a semiconductor device in which a current flows according to the applied voltage.

However, LEDs are usually controlled with constant current for the following reasons:

First, the LED is a light emitting device, and the amount of light generated by the LED is proportional to the current applied to the device. In other words, it is easy to understand and adjust the optical characteristics only when the LED is driven based on the current having the closest relation to the amount of light.

Second, because LEDs are more sensitive to voltage than current, it is common to have constant current control because fixing the current is easier to maintain the electrical characteristics of the LED. In addition, the driving voltage of the LED changes very much depending on the applied current and temperature.

The present invention relates to an LED driving circuit for preventing an entire LED array from being broken when one or more LEDs are broken in an LED array connected in series in an LED array type lighting device in which LEDs are connected in series even when the above- One example of the technique is disclosed in the following patent documents.

That is, as shown in FIG. 1, the LED driving circuit disclosed in the following patent document includes a power supply control unit for supplying a DC voltage, a PWM signal generating unit for supplying a PWM signal, A display unit including a plurality of LED columns connected in parallel and being supplied with the DC voltage and being lighted or turned off as the switching unit is turned on or off; And a protection circuit for receiving the PWM signal or the low signal to the switching unit according to a comparison result of a predetermined reference voltage of the sensing voltage obtained by subtracting the voltage of the plurality of LED strings, The protection circuit includes sensing means for sensing a voltage of the plurality of LED strings and applying a sensing voltage that is subtracted from the sensed voltage, A comparator which compares the sensed voltage with the reference voltage to apply a high signal when the sensed voltage is lower than the reference voltage and applies a low signal when the sensed voltage is greater than the reference voltage, And receives the PWM signal and turns on when receiving the high signal to apply the PWM signal to the switching unit and turns off the PWM signal when receiving the low signal to block the PWM signal And switching means for applying a low signal to the switching unit.

However, although the LED driver circuit according to the following patent document can block the voltage applied to the LED strings to prevent the lifetime of the LEDs from being shortened as a whole, when such an LED driver circuit is used in an LED lighting device, The LED lighting device is turned off even if only one piece is broken, so that it can not serve as a lighting device at all.

Korean Patent Publication No. 2009-0011744 (published on Feb. 02, 2009)

It is an object of the present invention to overcome the above-mentioned problems, and it is an object of the present invention to provide an LED lighting device capable of preventing LEDs from being short-circuited or opened by an increase in internal temperature when LED devices are deteriorated, An LED lighting device that protects an LED device so that a situation does not occur, and a control method of the lighting device.

Another object of the present invention is to provide an LED lighting device that protects an LED device that prevents excessive deterioration of other LED arrays due to excessive current flow to another LED array when a specific LED array is opened, and a control method of the lighting device will be.

Another object of the present invention is to provide an LED lighting device that protects an LED device that stops the operation of a lighting device when a specific LED array is short-circuited, and a method of controlling the lighting device.

According to an aspect of the present invention, there is provided an LED lighting device for protecting an LED device, the LED lighting device including a plurality of LED arrays connected in parallel, the device comprising: a constant current generator for providing the LED lighting device with a current source; Current sensing means for sensing a magnitude of current flowing through each of the LED arrays; An analog-digital signal converter for receiving the current signals sensed by the current sensing means and the voltage signal applied to the LED array and converting the received voltage signals into a digital signal; If the current flowing through each of the LED arrays from the current signal input from the analog-to-digital signal converter is less than the first current threshold, it is determined to be deteriorated, and the constant current generator is instructed to reduce the current magnitude. If it is smaller than the current threshold of, it is judged to be open and the current magnitude of the constant current generator is instructed to decrease by one-th of the number (n) of LED arrays operated for the rated generation current, and greater than the third current threshold. A central processing unit for instructing to stop the current generation of the constant current generator when it is determined that the voltage signal is shorter than the voltage threshold; A digital-to-analog converter for converting a digital signal commanded by the central processing unit into an analog signal, or a pulse width modulator for converting a digital signal to a pulse width modulated signal, wherein the constant current generator includes a digital- And a current is generated by the signal or the current generation is stopped.

In the LED lighting device according to the present invention, the current sensing means may be a resistor connected in series with the LED array.

In the LED lighting device according to the present invention, the first current threshold is in the range of 95% of the rated current to the rated current flowing in the first LED array, and the second threshold is in the range of 10 to 30% .

In the LED lighting device according to the present invention, the command for decreasing the current magnitude in the central processing unit may be calculated by calculating the magnitude of a signal corresponding to the magnitude of the current to be generated by the constant current generator, And the signal is a signal to be transmitted.

Further, in the LED lighting apparatus according to the present invention, the LED lighting apparatus controls the magnitude of the constant current generated in the constant current generator 10 through an interface connected to the central processing unit at a remote place.

According to another aspect of the present invention, there is provided a method of controlling an LED lighting device including a plurality of LED arrays connected in parallel, a constant current generator for supplying a constant current to the plurality of LED arrays, And a central processing unit for controlling the magnitude of a constant current supplied from the constant current generator to the plurality of LED arrays according to a signal sensed by the current sensing unit, A method of controlling an apparatus, the method comprising: determining whether a first LED array of the plurality of LED arrays has deteriorated; Determining whether the first LED array is open if the first LED array is not deteriorated in the step of determining whether the first LED array is deteriorated; Calculating a magnitude of a current that is lower than a rated current flowing through the first LED array by deteriorating or opening when the first LED array is determined to be deteriorated or opened; A current reduction command step of outputting a signal corresponding to the magnitude of the decrease current to the constant current generator; The constant current generator includes a controlled constant current output step of supplying the constant current reduced in accordance with the reduction current command to the plurality of LED arrays.

In the control method of the LED lighting apparatus according to the present invention, it is preferable that the deterioration determination is made such that a current flowing in the first LED array among the plurality of LED arrays is equal to or less than a rated current flowing in the first LED array, % Of the rated current, and judges that the first LED array is degraded if the first current threshold is greater than or equal to a second current threshold set in a range of 10 to 30% of the rated current, And determines that the first LED array is open if the current value is smaller than the threshold value and smaller than the second current threshold value.

According to another aspect of the present invention, there is provided a method of controlling an LED lighting device including a plurality of LED arrays connected in parallel, a constant current generator for supplying a constant current to the plurality of LED arrays, And a central processing unit for controlling the magnitude of a constant current supplied from the constant current generator to the plurality of LED arrays according to a signal sensed by the current sensing unit, A method of controlling an apparatus, the method comprising: determining whether the first LED array is short-circuited if the first LED array is not deteriorated or opened; Stopping the generation of the constant current by the constant current generator when it is determined that the first LED array is short-circuited; The constant current generator includes an illumination stop step of stopping the illumination by stopping the generation of the constant current in response to the current generation stop command.

As described above, according to the LED lighting device for protecting the LED device according to the present invention and the method of controlling the lighting device, LED deterioration occurs when the LED element is deteriorated and the current deviation in the LED array increases, the internal temperature rises, etc. This prevents a serious situation from happening to the entire LED lamp by preventing it from being opened or opened.

Further, according to the LED lighting apparatus and the control method of the lighting apparatus according to the present invention, when an LED array is opened, excessive current flows to other LED arrays, thereby preventing another LED array from being deteriorated.

According to the LED lighting apparatus and the method of controlling the lighting apparatus according to the present invention, when a specific LED array is short-circuited, the operation of the lighting apparatus is stopped to prevent the failure of the constant current generating apparatus, There is obtained an effect that the normal LED elements that are not short-circuited no longer cause a failure due to the overcurrent.

1 is a view showing a conventional LED driving circuit,
2 is a driving circuit diagram showing the concept of an LED lighting apparatus according to the present invention,
3 is a driving circuit diagram of an LED lighting device according to the present invention,
4 is a flowchart showing a concept of a control method of an LED lighting apparatus according to the present invention,
5 is a partial flowchart of a method of controlling an LED lighting apparatus according to the present invention.

These and other objects and novel features of the present invention will become more apparent from the description of the present specification and the accompanying drawings.

First, the outline of the present invention will be described.

In general, when the LED is driven, a constant current circuit is configured to allow the current to flow. In order to drive a plurality of LED devices, when the current flows in the constant current circuit at a ratio of 1: 1, (Hereinafter referred to as " LED module "in the present invention) in which a plurality of circuits in which a certain number of LED elements are connected in series (hereinafter referred to as" LED array " It is common to implement it to flow.

Since the internal characteristics of the LED device are changed according to the temperature change, the balance of the current between the parallel circuits in the above-described LED module is broken. More specifically, since the characteristics are different for each LED device, the progress of deterioration is different for each device in the LED lighting having the same environment.

That is, when the forward operation voltage varies for each LED element, the difference of the forward operation voltage is generated in each of the LED arrays, so that the current balance of the respective LED arrays is broken.

When such a state occurs, a current equal to or higher than the rated current flows to other normal LED arrays, thereby increasing the internal temperature of the LED, not only the optical efficiency of all the LEDs connected to the circuit is lowered, but also the lifetime of the LED element is shortened.

Therefore, the concept of the present invention is to limit the current supplied to the LED module in the constant current generator so that a current (overcurrent) larger than the rated current can not flow to the LED arrays in the abnormally operating LED module.

For example, assume that the number of LED arrays (n) in FIG. 2 is 10, the configuration of the LEDs in the constant current output circuit having a total current of 3.5A is 10 array circuits, and each LED array has 7 LEDs When the devices are connected in series, when the LED devices are all normal, the currents (I1 to I10) of the LED arrays are balanced and 0.35A flows respectively.

However, when the LED element is deteriorated due to an increase in the use time of the illumination, the forward operation voltage Vf of the LED array including the deteriorated LED element is increased so that a current less than 0.35 A flows, 3.5A) does not fluctuate, the deterioration continues and the current reduced in the deteriorated LED array is increased in current flow to the other LED arrays which are not deteriorated.

If the current flowing through the LED array is larger than the rated current, the internal temperature of the normal LED arrays is increased to generate excessive heat, resulting in a decrease in optical efficiency and a shortening of the lifetime of the LED lighting apparatus. The upper limit and the lower limit of the normal operating current flowing through the LED array including the LED element deteriorated to maintain the rated current of the LED element are determined and a current smaller than the lower limit range (first threshold: 95% of the rated current) flows It is determined that the LED element is deteriorated.

When a current of 10 to 30% (most preferably 20%) of the rated current is set as a second threshold value and flows below the second threshold value, It is judged that the LED array including the device is opened. If the current flowing through the LED array is less than the first current threshold value or less than the second current threshold value as described above, the deterioration may be regarded as a widespread deterioration. In the present invention, when the current is less than the first threshold value, Is defined as deterioration, and when the deterioration further progresses and the current flowing through the LED array further decreases and flows less than the second threshold value, it is defined as open as described above.

By limiting the output current of the constant current generator (converter) when the current flowing through the LED array flows less than the first threshold value (including the second threshold value), the current flowing through the normal LED arrays becomes the normal operating current .

When the LED element included in a specific LED array is short-circuited, a current much larger than the rated current flows in the LED array. In the present invention, the upper limit of the normal operating current (the third current threshold: 120% of the rated current) , And when the voltage applied to the LED array is in the range of the third current threshold or more and the voltage applied to the LED array is in the range of the normal operating voltage (voltage threshold) and smaller than the voltage threshold value, the LED array includes shorted LED elements And stops the current supply in the constant current device so as not to supply current to the LED module.

The range of the voltage threshold, which is the range of the normal operating voltage described above,

 Rated voltage applied to the LED array * (1-1 / (Number of LED elements connected in series) ~ ((Rated voltage applied to the LED array * (1-1 / (Number of LED elements connected in series)) + ((Number of LED devices connected in series-1) * Vf * 0.08))

Lt; / RTI >

Hereinafter, the configuration of the present invention will be described in detail with reference to the drawings.

2 is a driving circuit diagram showing the concept of an LED lighting apparatus according to the present invention.

2, reference numeral 20 denotes an LED module in which LED arrays 21, 22, 23, 24, ..., 2n each having seven LED elements connected in series are connected in parallel, and reference numeral 30 denotes LED arrays And Rsn are connected in series to the LED modules 20, 21, 22, 23, 24, ..., 2n, A constant current generator for generating a constant current for supplying the constant current.

A voltage proportional to the current flowing through the LED arrays is induced in the resistors connected to each of the LED arrays. The induced voltage is determined by the current monitoring 45 for each LED array, (55) and the constant current generator (10) generates a constant current as small as the calculated current value in the case of deterioration or open as described above Signal is sent to the constant current generator 10 and when it is determined that the voltage V _LED of the LED module 20 is short-circuited by the array / current monitoring 45, The control signal is sent to the constant current generator 10 through the secondary operation 57 so that the generator 10 does not generate a constant current.

The quadratic operation 57 senses the temperature of the heat sink not shown, which is provided with the LED module 20, in the heat sink temperature monitor 85 and outputs a control signal to the constant current generator 10 so as to generate a current in inverse proportion to the temperature .

3 is a driving circuit diagram of an LED lighting apparatus according to the present invention.

FIG. 3 shows a specific technical structure of the current monitoring 45, the primary calculation 55 and the secondary calculation 57 for each LED array in FIG.

3, reference numeral 40 denotes a current sensor for detecting the current magnitude of the LED arrays 21, 22, 23, 24, ..., 2n coming from the current sensing means 30 and the voltage V _LED of the LED module 20 Digital converter 40 for converting an analogue signal to a digital signal and 50 for receiving a digital signal of the analog-to-digital converter 40 and receiving the LED array 21, 22, 23, 24, ..., 2n ), Comparing the first current threshold and the second current threshold and comparing the voltage across the LED arrays with the voltage threshold to determine the deterioration of the LED arrays 21, 22, 23, 24, ..., Open and short-circuit, and calculates a current value for reducing the constant current generated in the constant current generator 10 when it is open and closed, and outputs the calculated current value as a digital signal.

Reference numeral 60 denotes a pulse width modulator for performing a pulse width modulation (PWM) on a digital-to-analog converter for converting a digital signal output from the microprocessor 50 into an analog signal to control the constant current generator 10.

An unexplained reference numeral 70 is an interface for communicating events processed by the microprocessor 50 to a remote site (not shown) and for controlling the LED lighting apparatus according to the present invention at a remote site.

The constant current generator 10, the analog-to-digital converter 40, the microprocessor 50, the digital-to-analog converter 60 or the pulse width modulator 60 and the interface 70 will be described in detail below.

The direct current (DC) input method of the constant current generator 10 includes a series pass method and a switching constant current method. The AC input method has a converter method. The output method outputs DC constant current And a function of adjusting the magnitude of the constant current output by the external control signal of 0 to 5V. The constant current generator 10 may be a device controlled by a PWM method.

The analog-to-digital converter 40 compares the current value of each array circuit, the output voltage of the constant current generator 10, and analog values such as the heat sink temperature of the LED arrays 21, 22, 23, 24, ..., Scale to the full scale of analog-to-digital signal converters (ADCs) and convert sequentially. Each digitally converted point is recomputed to a predetermined scaling value. For reference, the current-size sensing resistors Rs1 to Rsn connected in series to the LED arrays 21, 22, 23, 24, ..., 2n are used to minimize the resistance value of the LED lighting device .

The microprocessor 50 controls the LED arrays 21, 22, 23, 24 (the range of the rated state, the maximum value, and the minimum value of the output voltage and the output constant current) of the constant current generator 10, , ..., 2n), the number of LEDs per array (LEDs per string), and current thresholds, voltage thresholds, and temperature thresholds according to LED protection conditions.

The currents I1, I2, I3, I4, ... In of the LED arrays 21, 22, 23, 24, ..., 2n and the output voltages of the constant current generator 10 V _LED ) and the temperature of the heat sink is digitally input.

First, the current for each array circuit is checked to see if the current balance is correct, and when the current balance is not matched, it is compared with the output voltage of the constant current generator 10 to analyze LED deterioration / short circuit / And obtains the result of the current adjustment value according to the condition.

Second, when the temperature of the heat sink is higher than a certain temperature and the output voltage (VLED) is lower than a predetermined voltage by comparing the voltage (V _LED ) applied to the LED module 20 and the heat sink plate temperature, And the current limit value is calculated according to the temperature rise.

According to the second result, the upper limit of the initial rated current IT1 of the constant current generator 10 is first changed (IdT). And, according to the result of the first, the rated current is adjusted according to conditional processing result (IADJ).

From the two results, the following outputs are obtained.

Normal time: IT = IT1

Abnormal state: IT = (IT1 - IdT) - IADJ

IT1 = initial output rated current, IdT = rated current limit value according to temperature change

IADJ = current regulation value for protection against LED degradation, IT = reset output rated current

In order to control the constant current control signal of the constant current generator 10, the digital-analog converter 60 receives the 8-bit digital signal from the microprocessor 50 and outputs the digital input signal as an analog signal of 0 to 5 V do.

For example, when the constant current of the constant current generator 10 is output at 100%, 0V, and when the output is 50% and 2.5V, the analog signal is linearly output to the constant current generator 10 can be controlled.

The pulse width modulator 60 converts the signal received from the microprocessor 50 into a pulse width variation by pulse width modulation (PWM), adjusts the duty ratio of the pulse within a certain frequency range, It is possible to control the magnitude of the output constant current.

For example, when the constant current of the constant current generator 10 is 100%, the duty ratio is 0%, 50% is 50%, and 100% is not. The magnitude of the output constant current of the constant current generator 10 can be controlled.

The interface 70 receives the current status I1 to In of each LED array of the LED lighting apparatus according to the present invention through the serial communication port, the total output current IT of the constant current generator 10, the output voltage V _LED , And the temperature of the heat sink can be monitored remotely and a communication interface is provided so that current control of the LED arrays 21, 22, 23, 24,.

Hereinafter, a control method of the LED lighting apparatus according to the present invention will be described.

4 is a flowchart illustrating a concept of a method of controlling an LED lighting apparatus according to the present invention.

First, the concept of a control method of the LED lighting apparatus according to the present invention will be described with reference to FIG.

As shown in FIG. 4, the user initializes the LED lighting device by inputting an environmental setting value, which is an operating condition, using an input device (not shown) (S100). The environment setting value, which is an operating condition, is the number of LED elements in series connected to each LED array, the number of LED arrays 21, 22, 23, 24, ..., 2n, the first current threshold, And the temperature threshold of the heat sink (if necessary), and the analog values input to the analog-to-digital converter 40 are adjusted to the full scale of the analog-to- Size.

When the constant current IT generated in the constant current generator 10 is supplied to the LED module 20 as shown in FIG. 3, the currents I1, I2, ..., In are supplied to the LED arrays 21, 22, 23, RS2, RS3, RS4, ..., RSn of the current sensing means 30 are controlled by the currents I1, I2, I3, I4, Is converted into a digital signal in the analog-to-digital converter 40 in an analog state and input to the microprocessor 50 (S200).

The microprocessor 50 compares the signal input from the analog-to-digital converter 40 with the first current threshold and the second current threshold stored in the microprocessor 50, (Determination of deterioration) or smaller than the second current threshold (determination of opening) is determined (S300).

If it is necessary to adjust the magnitude of the constant current according to the determined result, the constant current generator 10 calculates a magnitude to be output, that is, a constant current adjustment value (S500).

The calculated adjustment value is controlled by the remote monitoring and control panel through the communication interface 70, and it is determined whether the current adjustment is necessary according to the set contents (S600). If necessary, the adjustment value is outputted to the digital-analog converter / pulse width modulator 60 The constant current control signal is outputted (S700), and if not necessary, the process proceeds to the next step of the system initialization (S100).

The signal input to the digital-to-analog converter / pulse width modulator 60 is converted into an analog signal or a PWM signal and input to the constant current generator 10 to change the output value of the constant current IT output from the constant current generator 10 (S800), and proceeds to the next step of the system initialization (S100).

If it is determined that the current balance is equal to or greater than the third current threshold value and the voltage V _LED applied to the LED module 20 is measured (S400), the LED array is short-circuited The flow proceeds to step S500 where the constant current generator 10 reduces the current so as not to generate a constant current and calculates the size to be output (that is, a constant current stop command), and proceeds to step S600.

5 is a partial flowchart of a method of controlling an LED lighting apparatus according to the present invention.

The partial flow chart of the present invention according to Fig. 5 is for explaining the portion of the dotted line BL in detail in Fig. 4 and shows whether the LED arrays 21, 22, 23, 24, ..., 2n are deteriorated, And calculates the magnitude of a signal to be sent to the constant current generator 10 according to the determination result.

5, the current value of the LED array 21 is compared with the first current threshold value (S310). If the current value of the LED array 21 is equal to or greater than the first current threshold value, the process proceeds to step S200, If it is small, proceed to the next step.

When the current value of the LED array 21 is compared with the second current threshold value (S320), if the current value of the LED array 21 is greater than or equal to the second current threshold value, it is determined that heat is exchanged and the constant current adjustment value according to the deterioration degree is determined. Accumulate (S510). Although only the LED array 21 has been described herein, in the case where a large number of LED arrays are opened by continuously judging from the LED array 21 to the LED array 2n, the constant current adjustment value according to each deterioration level is accumulated (S510). do. Here, the accumulated constant current adjustment value (S550), that is,

이다.

to be.

I (x): currents I1, I2, I3, I4, ..., In flowing in the LED arrays 21, 22, 23, 24,

The microprocessor 50 outputs a signal corresponding to the constant current reduction to the digital-analog converter / pulse width modulator 60 in order to maintain a steady current in the normal LED arrays (S550).

If the current value of the LED array 21 is smaller than the second current threshold in step 320, it is determined that the LED array 21 is open and the constant current adjustment value is accumulated (step S520). However, if there are a plurality of LED arrays that are continuously opened from the LED array 21 to the LED array 2n, the constant current adjustment values according to the number of open LED arrays 21 are accumulated (S510) do.

Here, the constant current adjustment value (S550) corresponding to the accumulation of the number of open circuits, that is,

Constant current reduction = rated current * (number of open circuits / number of total array circuits)

to be.

The microprocessor 50 also outputs a signal corresponding to the constant current reduction due to the opened LED array to the digital-to-analog converter / pulse width modulator 60 to maintain the normal current in the normal LED arrays (S550).

The current value of the LED arrays 21, 22, 23, 24, ..., 2n and the third current threshold are compared (S330) If the current value is smaller than the third current threshold, the process proceeds to step S200. If the current value of the LED arrays 21, 22, 23, 24, ..., 2n is equal to or greater than the third current threshold, the process proceeds to the next step.

The voltage V _LED applied to the LED arrays 21, 22, 23, 24, ..., 2n is compared with a voltage threshold at step S410. If the voltage V _LED is not less than the voltage threshold, If it is small, proceed to the next step.

If both of the signals are input in steps S330 and S410, it is determined that one of the LED arrays 21, 22, 23, 24, ..., 2n is short-circuited (S420) A stop command signal (here, the stop command signal means a size to be outputted so as not to generate a constant current in the constant current generator 10) is generated so as to stop the generation of the constant current in the constant current generator 10 for protecting the element (S530) (S550).

As mentioned above, although the invention made by this inventor was demonstrated concretely according to the said Example, this invention is not limited to the said Example and can be variously changed in the range which does not deviate from the summary.

Claims (8)

In the LED lighting device in which a plurality of LED arrays are connected in parallel,
A constant current generator providing the LED lighting device as a current source;
Current sensing means for sensing a magnitude of current flowing through each of the LED arrays;
An analog-digital signal converter for receiving the current signals sensed by the current sensing means and the voltage signal applied to the LED array and converting the received voltage signals into a digital signal;
If the current flowing through each of the LED array from the current signal input from the analog-digital signal converter is less than the first current threshold, it is determined to be deteriorated and instructs the constant current generator to reduce the current magnitude,
If it is smaller than the second current threshold, it is determined to be open and the current magnitude of the constant current generator is instructed to decrease by one-th (n) the number of LED arrays operated for the rated generation current.
A central processing unit for instructing to stop the current generation of the constant current generator when it is determined to be a short circuit when the voltage signal is greater than a third current threshold and smaller than the voltage threshold;
And a pulse-width modulator for converting a digital signal commanded by the central processing unit into a digital-to-analog converter for converting an analog signal or a pulse width modulated signal.
The constant current generator is a LED lighting device, characterized in that for generating a current or stop the current generated by the signal of the digital-to-analog converter or pulse width modulator. The method of claim 1,
And the current sensing means is a resistor connected in series with the LED array. The method of claim 1,
Wherein said first current threshold ranges from rated current to 95% of rated current flowing in said first LED array, and said second threshold ranges from 10 to 30% of rated current. 4. The method according to any one of claims 1 to 3,
The command for reducing the current magnitude in the central processing unit is a LED lighting device, characterized in that the constant current generator calculates the magnitude of the signal corresponding to the magnitude of the current to be sent to the digital-analog converter or a pulse width modulator . 5. The method of claim 4,
The LED lighting device is characterized in that for controlling the magnitude of the constant current generated in the constant current generating device through an interface connected to the central processing unit at a remote location. A plurality of LED arrays connected in parallel, a constant current generator for supplying a constant current to the plurality of LED arrays, current sensing means for sensing the magnitude of the current flowing in each of the LED arrays, and sensing in the current sensing means In the control method of the LED lighting device comprising a central processing unit for controlling the magnitude of the constant current supplied from the constant current generator to the plurality of LED array in accordance with a signal,
Degradation determination step of determining whether the first LED array of the plurality of LED arrays is degraded;
Determining whether the first LED array is open if the first LED array is not deteriorated in the step of determining whether the first LED array is deteriorated;
A reduction current calculation step of calculating a magnitude of a current that is reduced from the rated current flowing through the first LED array by being degraded or opened when it is determined that the first LED array is degraded or opened;
A current reduction command step of outputting a signal corresponding to the magnitude of the decrease current to the constant current generator;
The constant current generator includes a controlled constant current output step of supplying the plurality of LED arrays with a constant current reduced according to the decrease current command;
Control method of the LED lighting device comprising a. The method according to claim 6,
The determination of deterioration
Of the plurality of LED arrays, the current flowing in the first LED array is less than the first current threshold set in the range of the rated current flowing through the first LED array to 95% of the rated current, and 10 to 10 of the rated current. It is determined that the first LED array is deteriorated if it is equal to or more than the second current threshold set in the range of 30%,
And less than the first current threshold and less than the second current threshold, determining that the first LED array is open. A plurality of LED arrays connected in parallel, a constant current generator for supplying a constant current to the plurality of LED arrays, current sensing means for sensing the magnitude of the current flowing in each of the LED arrays, and sensing in the current sensing means In the control method of the LED lighting device comprising a central processing unit for controlling the magnitude of the constant current supplied from the constant current generator to the plurality of LED array in accordance with a signal,
A short-circuit determining step of determining whether the first LED array is short-circuited when the first LED array is not deteriorated or opened;
A current generation stop command step of stopping generation of constant current by the constant current generator when it is determined that the short circuit is determined in the short-circuit determination step of the first LED array;
And the constant current generator stops the illumination by stopping the generation of the constant current according to the current generation stop command; control method of the LED lighting device comprising a.

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