KR101330830B1 - AC LED Lighting apparatus - Google Patents

Abstract

The present invention relates to an alternating current LED lighting device that can be combined with the LED module arbitrarily to provide a lighting device of various sizes.
AC LED lighting apparatus according to the present invention, the LED driving means for outputting the LED operating power based on the AC power applied from the outside, a plurality of LED modules coupled in series with the LED driving means, and the plurality of LED modules It is configured to have a coupling means for coupling the LED module is configured to include a LED array comprising a plurality of LEDs, and a sensing resistor coupled to the LED driving means, the coupling means is the LED module and Removably coupled, the LED driving means checks the number of LED modules coupled in series on the basis of the information detected by the sensing resistor provided in the LED module, and the level corresponding to the number of LED modules coupled in series Characterized in that configured to provide AC power to the LED module through the LED driving means.

Description

AC LED Lighting apparatus

The present invention relates to an alternating current LED lighting device that can be combined with the LED module arbitrarily to provide a lighting device of various sizes.

Recently, LED (LED) lighting devices are being produced and released to produce a variety of colors with lower power consumption than fluorescent or halogen lamps.

LED lighting device is made by placing a plurality of LED modules mounted with a plurality of LED elements in a specific arrangement.

In addition, the LED module is an A / D converter, generally a switching mode power source, for changing an AC power source (AC) input from the outside into a DC power source (DC) due to the characteristic that the LED element is driven by a DC current of an appropriate voltage. It requires a supply (SMPS: Switched-Mode Power Supply, hereinafter referred to as " SMPS ").

That is, the LED lighting device must be provided with the SMPS.

However, the SMPS is mainly intended to maintain a constant voltage, and the voltage stability is guaranteed, but because the coil of the filter for preventing electromagnetic waves or a component such as a capacitor for compensating for the voltage drops, parts are used. Depending on the life, it is difficult to guarantee about 20,000 hours, as well as the disadvantage that it is difficult to miniaturize and light weight.

In recent years, an AC LED lighting device using AC power as a supply source has been proposed.

That is, the AC LED lighting device is a module that performs the SMPS function is configured in a highly integrated, miniaturized form, it is not necessary to have a separate SMPS having a large size required by the general LED lighting device. Therefore, the AC LED lighting device is able to reduce problems such as limitations of miniaturization and shortened lifespan and unnecessary costs caused by having a separate SMPS having a large size.

However, since the AC LED lighting device is also produced in a standardized size, it is troublesome to provide AC LED lighting devices of various sizes desired by the user. For example, if a user needs an AC LED lighting device larger than a standardized size, he or she purchases a plurality of AC LED lighting devices to satisfy the required size. At this time, since the lighting device is provided with a driving means for driving the LED for each lighting device separately, there is a disadvantage such as a price increase due to having a plurality of driving devices.

Thus, the present invention was created in view of the above circumstances, by using a single LED driving means to drive a plurality of LED modules arbitrarily coupled, the user can selectively select the LED lighting device of the desired size Its technical purpose is to provide an LED lighting device that can be provided.

AC LED lighting apparatus according to the first aspect of the present invention for achieving the above object is a LED driving means for outputting the LED operating power based on the AC power applied from the outside, and a plurality of LED driving means coupled in series The LED module and the coupling means for coupling the plurality of LED modules,
The LED module is configured to include a LED array comprising a plurality of LEDs, and a sensing resistor coupled to the LED driving means,
The coupling means is coupled to the LED module detachably,
The LED driving means checks the number of LED modules coupled in series on the basis of the information detected by the sensing resistor provided in the LED module, and the LED driving means for AC power of a level corresponding to the number of LED modules coupled in series Is configured to provide through the LED module,
The LED driving means includes a bridge circuit for full-wave rectifying and outputting an AC power input, an LED driving means for providing a variable supply power to the LED module based on the AC power applied from the bridge circuit, and an LED driving means. In addition to outputting the sensing power to the LED module and receiving the sensing power received from the LED module based on this based on this based on the current control unit for controlling to output the power corresponding to the number of LED modules coupled in series ,
A correction circuit is further provided for setting an output current value of the current control unit so as to correspond to a resistance value set by the LED module coupled to the current control unit,
In the AC LED lighting device, characterized in that the correction circuit is configured to be coupled to the outside of the input and output terminal of the LED driving means coupled to the LED module,
The LED module is provided with a first fastening portion for electrically coupling the coupling means at one or both ends,
The coupling means has a second fastening portion having a shape corresponding to the first fastening portion provided in the LED module at both ends,
The LED driving means and the first LED module is integrally configured on one substrate, the other LED module is coupled in series to the first LED module through the coupling means,
The LED driving means comprises a first to third power output terminal and a ground terminal for supplying a predetermined level of LED driving power to the LED module,
The LED driving means provides power to the LED module of different voltage levels through the first to third output terminal,
When the first level of power output from the LED driving means is provided to the LED module, only the first LED group of each LED module is turned on, and the second level of power output from the LED driving means is provided to the LED module. In this case, the first LED group and the second LED group of each LED module is turned on, and when the third level of power output from the LED driving means is provided to the LED module, the first to the first to An alternating LED lighting device is provided, wherein all of the third LED groups are turned on.
In addition, the LED driving means is characterized in that it is configured to detect the number of coupling of the LED module based on the resistance value change according to the detection resistance of the LED module connected in parallel between the detection signal output terminal and the detection signal input terminal.

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In addition, the LED driving means is characterized in that it is configured to detect the number of coupling of the LED module on the basis of the resistance value change according to the detection resistance of the LED module connected in series between the detection signal output terminal and the detection signal input terminal.

In addition, the AC LED lighting apparatus according to the second aspect of the present invention for achieving the above object is a SMPS for outputting the LED operating power based on the AC power applied from the outside, and a plurality of LEDs coupled in parallel to the SMPS Module and a coupling means for coupling the plurality of LED modules,
The LED module is configured to include a LED array comprising a plurality of LEDs, a sensing resistor and a constant current driving circuit coupled with the LED driving means,
The coupling means is coupled to the LED module detachably,
The SMPS is configured to check the number of LED modules coupled in parallel on the basis of the information sensed by the sensing resistor provided in the LED module, and to provide a current of the level corresponding to the number of LED modules coupled in parallel to the LED module. But
The SMPS is an AC LED lighting apparatus, characterized in that configured to detect the number of coupling of the LED module on the basis of the resistance value change according to the detection resistance of the LED module connected in parallel between the detection signal output terminal and the detection signal input terminal,
The LED module is provided with a first fastening portion for electrically coupling the coupling means at one or both ends,
The coupling means has a second fastening portion having a shape corresponding to the first fastening portion provided in the LED module at both ends,
The LED driving means and the first LED module is integrally configured on one substrate, the other LED module is coupled in series to the first LED module through the coupling means,
The LED driving means comprises a first to third power output terminal and a ground terminal for supplying a predetermined level of LED driving power to the LED module,
The LED driving means provides power to the LED module of different voltage levels through the first to third output terminal,
When the first level of power output from the LED driving means is provided to the LED module, only the first LED group of each LED module is turned on, and the second level of power output from the LED driving means is the LED module. In the case where the first LED group and the second LED group of each LED module is provided in the ON state, and when the third level of power output from the LED driving means is provided to the LED module, An AC LED lighting apparatus is provided in which all of the first to third LED groups are turned ON.

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In addition, the SMPS is characterized in that it is configured to detect the number of coupling of the LED module on the basis of the resistance value change according to the detection resistance of the LED module connected in series between the detection signal output terminal and the detection signal input terminal.

According to the present invention, a user can easily manufacture and use an LED lighting device having a required size by a simple method of serially connecting at least one LED module to one LED driving device.

In addition, by setting the user of the various number of LED modules arbitrarily by using a single LED driving means, it is possible to manufacture a lighting device of various sizes at a low cost.

1 to 2 show a schematic configuration of an AC LED lighting apparatus according to a first embodiment of the present invention.
3 is a view showing the configuration of the LED module 200 and the coupling means 300 shown in FIG.
Figure 4 is a block diagram showing the functional separation of the internal configuration of the AC LED lighting apparatus shown in FIG.
5 is a view for explaining a power control method of the current control unit 130 shown in FIG.
FIG. 6 is a diagram showing the main part of another internal configuration of the AC LED lighting apparatus shown in FIG. 1; FIG.
7 is a view showing a schematic configuration of an AC LED lighting apparatus according to a second embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings. However, the embodiments described below are illustrative of one preferred embodiment of the present invention, and examples of such embodiments are not intended to limit the scope of the present invention. The present invention can be variously modified without departing from the technical idea thereof.

1 is a view showing a schematic configuration of an AC LED lighting apparatus according to the present invention.

As shown in FIG. 1, the AC LED lighting apparatus according to the present invention includes a LED driving means 100 and a plurality of LED modules 200 and 200 ₁ to 200 _N coupled in series with the LED driving means 100. It is configured to include.

In this case, the plurality of LED modules 200, that is, the first to N-th LED module 200 ₁ to 200 _N may be selectively coupled to each other through the coupling means 300 as shown in FIG. .

In addition, as shown in Figure 2, the LED driving means 100 and the first LED module 2001 may be integrally configured on one substrate (P). The second to Nth LED modules 200 ₂ to 200 _N are configured on different substrates (not shown).

In addition, the LED module 200 is an LED array 210 consisting of a plurality of LED (L) as shown in Figure 3, and the first fastening portion 220 for selectively fastening with the coupling means 300 ) Is configured.

At this time, the first LED module 200 ₁ is provided with a first fastening part 220 only at one end, and the second LED module 200 ₂ to the N-th LED module 200 _N have first fastening parts at both ends of the module. Preferably, 220 is provided. Here, the N-th LED module 200 _N may also be configured such that the first fastening part 220 is provided only at one end.

In addition, the coupling means 300 is disposed between each LED module 200 to electrically couple between the LED module.

That is, as shown in Figure 3, the coupling means 300 is coupled to the body 310, the power line 311 is disposed, and the power line 311 provided in the body 310, the LED module ( It is configured to have a shape corresponding to the first fastening portion 220 provided in the 200 is provided with a second fastening portion 320 provided on both ends of the body (310).

In this case, the body 310 may be configured by placing the power line 311 inside the flexible material.

In addition, the first fastening part 220 provided in the LED module 200 and the second fastening part 320 provided in the coupling means 300 are made of a conductive material to transmit an electrical signal. In addition, the first fastening part 220 provided in the LED module 200 is configured, for example, in a groove shape, and the second fastening part 320 provided in the coupling means 300 is the first fastening part 220. For example, it may be configured to have a shape corresponding to the protrusion shape, and to be detachable from each other.

On the other hand, Figure 4 is a block diagram showing the functional separation of the internal configuration of the AC LED lighting apparatus shown in FIG.

As shown in FIG. 4, the LED driving means 100 includes a bridge circuit 110 for full-wave rectifying and outputting an AC power input thereto, and an LED module based on the full-wave rectified power applied from the bridge circuit 110. It comprises a LED driver 120 for providing a variable supply power to the 200, and a current control unit 130 for controlling the overall operation of the LED driving means (100).

The LED driver 120 includes first to third power output terminals V1 to V3 and a ground terminal KA for supplying a predetermined level of LED driving power to the LED module 200. That is, the LED driver 120 provides power to the LED module 200 at different voltage levels through the first to third output terminals V1, V2, and V3.

In addition, the LED driving unit 120 is a sensing signal output terminal (A) for supplying a predetermined level of sensing power to the LED module 200, and the power output to the sensing signal output terminal (A) is the LED module 200 It is configured to include a detection signal input terminal (B) input via.

In addition, as shown in FIG. 4, the LED module 200 includes an LED array 210 including a plurality of groups consisting of at least one LED, for example, three LED groups G1 to G3 arranged in series. The first and second levels having different levels are output from the first to third output terminals V1 to V3 of the LED driver 120 with three tabs T1, T2, and T3 formed between the LED groups G1 to G3. To third power is supplied.

In addition, the power line and the ground line coupled to the three tabs formed on the LED module 200, more specifically, the LED array 210 of the first LED module 200 ₁ is coupled in series through the coupling means (300). It is coupled to the LED array 210 of the second LED module 2002.

In addition, the LED module 200 is the first sensing power line coupled to the sensing signal output terminal (A) of the LED driver 120 and the second sensing power coupled to the sensing signal input terminal (B) of the LED driver 120. The resistor R is configured to be coupled between the lines. That is, when a plurality of LED module 200 is coupled, a plurality of resistors (R) between the detection signal output terminal (A) and the detection signal input terminal (B) of the LED driver 120 through the coupling means (300). It becomes a form of parallel coupling.

For example, the first resistor R1 of the first LED module 200 ₁ and the second LED module 200 ₂ may be disposed between the sensing signal output terminal A and the sensing signal input terminal B of the LED driver 120. 2 resistance,… This is combined in parallel.

Therefore, the sensing power output from the sensing signal output terminal A of the LED driver 120 is provided in the number of the LED modules 200 coupled in series with the LED driver 120, and more specifically, inside the LED module 200. According to the number of the connection of the resistor (R) is changed to the sensing power of different levels is input to the sensing signal input terminal (B) of the LED driver 120.

In addition, the current controller 130 is configured to set the output level value of the LED driver 120 corresponding to the number of the LED module 200 based on the external resistance value coupled in series with the LED driver 120.

That is, the current controller 130 controls to output the sensing power through the sensing signal output terminal A of the LED driver 120, and is applied thereto from the sensing signal input terminal B of the LED driver 120. The number of LED modules 200 coupled in series is determined based on the detected power level. In addition, the current controller 130 controls the output power output to the first to third output terminals (V1, V2, V3) of the LED driver 120 so as to correspond to the external resistance value input through the LED driver 120. Done. At this time, the current control unit 130 controls the LED application power so as to correspond to the resistance value on the basis of the section in which the output characteristics of the LED driver 120 and the resistance value variation characteristics match.

For example, the current controller 130 controls the power output level of the LED driver 120 as shown in FIG. 5. 5, (X) shows the maximum power output level of the LED driver 120, (B) shows the power output level adjusted to correspond to the sensing level arbitrarily detected by the current control unit 130.

In addition, the external resistance value coupled to the current control unit 130, that is, the resistance value set by the LED module 200 and the power output level set by the current control unit 130, that is, the first to third output terminals V1, In order to properly correspond to the output current value output to the V2, V3), a separate correction circuit can be externally added to the sensing signal input and output terminals (A, B) of the LED driver 120. The correction circuit may be configured to include a resistor for appropriately changing an external resistance value coupled to the current controller 130 by being coupled in series or in parallel with the first to third output terminals V1, V2, and V3, for example. .

On the other hand, in the above embodiment, the number of couplings of the LED module 200 is determined through a method of detecting a resistance value variation connected in parallel between the detection signal output terminal A and the detection signal input terminal B of the LED driver 120. Although configured to detect, as shown in FIG. 6, the LED module 200 through a method of detecting a resistance value change connected in series between the detection signal output terminal (A) and the detection signal input terminal (B) of the LED driver 120. It is also possible to configure to detect the combined number of.

In this case, at least one resistor R coupled to the detection signal output terminal A is sensed in the last LED module, for example, the Nth LED module 200N of the LED module 200 coupled in series. It is preferably configured to be coupled to the signal input terminal (B).

Next, the operation of the AC LED lighting device having the above configuration will be described.

First, the user is the first LED module 200 ₁ coupled to the LED driving means 100 and a predetermined number of LED modules 200 in series through the coupling means 300 to the first LED module 200 ₁ . Combine.

In addition, the user installs the LED driving means 100 and a plurality of LED modules 200 coupled in series to the lighting device in a desired position.

In the above state, the user supplies the external AC power AC to the LED driving means 100.

AC power (AC) applied to the LED driving means 100 from the outside is provided to the LED driving unit 120 after the full-wave rectification process through the bridge circuit (110).

The LED driver 120 outputs a predetermined level of power corresponding to the number of LED modules 200 coupled to the LED driver 120 according to a control signal applied from the current controller 130.

At this time, the current controller 130 controls to output a predetermined level of power to the sensing signal output terminal A through the LED driver 120, and based on the signal level applied from the sensing signal input terminal B. By determining the number of the LED module 200 coupled in series to the LED driving means 100 and controls so that the corresponding power is output through the LED driving unit 120. For example, the LED driver 120 outputs a predetermined level of power through the first to third output terminals V1 to V3. The LED module 200 is coupled in series through the coupling means 300 to the first to third output terminals of the LED driver 120.

That is, when the first level power output from the LED driver 120 is provided to the LED module 200, only the first LED group G1 of each LED module 200 is turned on (ON), LED When the second level power output from the driver 120 is provided to the LED module 200, the first LED group G1 and the second LED group G2 of each LED module 200 are turned on. When the third level power output from the LED driver 120 is provided to the LED module 200, the first to third LED groups G1, G2, and G3 of each LED module 200 All are turned on.

Therefore, according to the above embodiment, the user can easily manufacture and use an LED lighting device having a required size by a simple method of serially connecting at least one LED module to one LED driving device.

In addition, by setting the user of the various number of LED modules arbitrarily by using a single LED driving means, it is possible to manufacture a lighting device of various sizes at a low cost.

On the other hand, the present invention can be applied to the LED driving device employing a switching mode power supply (SMPS, hereinafter referred to as SMPS) in the same manner.

FIG. 7 is a block diagram schematically illustrating a case where the concept of the present invention is applied to an LED driving apparatus employing a switch mode power supply.

In FIG. 7, at least one LED module 200 is coupled to the SMPS 400 in parallel. In this case, each LED module 200 may be provided with a constant current driving circuit 250. Although not specifically illustrated in FIG. 7, each LED module 200 includes sensing resistors R1 to Rn, as shown in FIGS. 4 and 6, and these resistors R1 to Rn are connected to the SMPS 400 in series or. Will be combined in parallel.

The SMPS 400 is provided with control means for maintaining and controlling the output current at a predetermined set value. The control means outputs a sensing signal to the sensing resistors R1 to Rn, and determines the number of LED modules 200 coupled to the SMPS 400 based on the input signal level. The current value output from the SMPS 400 is appropriately set based on the result determined in this way.

As described above, the basic concept of the present invention can be applied to a power supply device employing an SMPS, and can be applied to any power supply device that can adjust a voltage or current level of a supply power supply based on an output load.

100: LED driving means, 110: bridge circuit,
120: LED driver, 130: current control unit,
200: LED module, 210: LED array,
220: first fastening portion, 300: coupling means,
310: body, 311: power line,
320: second fastening portion,

Claims (10)

LED driving means for outputting the LED operating power based on the AC power applied from the outside, a plurality of LED modules coupled in series with the LED driving means, and coupling means for coupling the plurality of LED modules Composed,
The LED module is configured to include a LED array comprising a plurality of LEDs, and a sensing resistor coupled to the LED driving means,
The coupling means is coupled to the LED module detachably,
The LED driving means checks the number of LED modules coupled in series on the basis of the information detected by the sensing resistor provided in the LED module, and the LED driving means for AC power of a level corresponding to the number of LED modules coupled in series Is configured to provide through the LED module,
The LED driving means includes a bridge circuit for full-wave rectifying and outputting an AC power input, an LED driving means for providing a variable supply power to the LED module based on the AC power applied from the bridge circuit, and an LED driving means. In addition to outputting the sensing power to the LED module and receiving the sensing power received from the LED module based on this based on this based on the current control unit for controlling to output the power corresponding to the number of LED modules coupled in series ,
A correction circuit is further provided for setting an output current value of the current control unit so as to correspond to a resistance value set by the LED module coupled to the current control unit,
In the AC LED lighting device, characterized in that the correction circuit is configured to be coupled to the outside of the input and output terminal of the LED driving means coupled to the LED module,
The LED module is provided with a first fastening portion for electrically coupling the coupling means at one or both ends,
The coupling means has a second fastening portion having a shape corresponding to the first fastening portion provided in the LED module at both ends,
The LED driving means and the first LED module is integrally configured on one substrate, the other LED module is coupled in series to the first LED module through the coupling means,
The LED driving means comprises a first to third power output terminal and a ground terminal for supplying a predetermined level of LED driving power to the LED module,
The LED driving means provides power to the LED module of different voltage levels through the first to third output terminal,
When the first level of power output from the LED driving means is provided to the LED module, only the first LED group of each LED module is turned on, and the second level of power output from the LED driving means is provided to the LED module. In this case, the first LED group and the second LED group of each LED module is turned on, and when the third level of power output from the LED driving means is provided to the LED module, the first to the first to AC LED lighting device, characterized in that all the third LED group is ON. delete delete delete delete The method of claim 1,
The LED driving means is an AC LED lighting device, characterized in that configured to detect the number of coupling of the LED module based on the change in resistance value according to the detection resistance of the LED module connected in parallel between the detection signal output terminal and the detection signal input terminal. The method of claim 1,
The LED driving means is an AC LED lighting device, characterized in that configured to detect the number of coupling of the LED module based on the change in resistance value according to the detection resistance of the LED module connected in series between the detection signal output terminal and the detection signal input terminal. SMPS for outputting the LED operating power based on the AC power applied from the outside, a plurality of LED modules coupled in parallel to the SMPS, and coupling means for coupling the plurality of LED modules,
The LED module is configured to include a LED array comprising a plurality of LEDs, a sensing resistor and a constant current driving circuit coupled with the LED driving means,
The coupling means is coupled to the LED module detachably,
The SMPS is configured to check the number of LED modules coupled in parallel on the basis of the information sensed by the sensing resistor provided in the LED module, and to provide a current of the level corresponding to the number of LED modules coupled in parallel to the LED module. But
The SMPS is an AC LED lighting apparatus, characterized in that configured to detect the number of coupling of the LED module on the basis of the resistance value change according to the detection resistance of the LED module connected in parallel between the detection signal output terminal and the detection signal input terminal,
The LED module is provided with a first fastening portion for electrically coupling the coupling means at one or both ends,
The coupling means has a second fastening portion having a shape corresponding to the first fastening portion provided in the LED module at both ends,
The LED driving means and the first LED module is integrally configured on one substrate, the other LED module is coupled in series to the first LED module through the coupling means,
The LED driving means comprises a first to third power output terminal and a ground terminal for supplying a predetermined level of LED driving power to the LED module,
The LED driving means provides power to the LED module of different voltage levels through the first to third output terminal,
When the first level of power output from the LED driving means is provided to the LED module, only the first LED group of each LED module is turned on, and the second level of power output from the LED driving means is the LED module. In the case where the first LED group and the second LED group of each LED module is provided in the ON state, and when the third level of power output from the LED driving means is provided to the LED module, AC LED lighting device, characterized in that all of the first to third LED group is ON. delete 9. The method of claim 8,
The SMPS is an AC LED lighting device, characterized in that configured to detect the number of coupling of the LED module based on the change in resistance value according to the detection resistance of the LED module connected in series between the detection signal output terminal and the detection signal input terminal.

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