1. Field of the Invention
The present invention relates to a driving device and a driving method for supplying power to an LED.
2. Description of the Related Art
Referring to
The power supply Vs is an AC power supply having a predetermined frequency and the rectifying circuit 30 rectifies AC that is output from the power supply Vs. The current switching circuit 10 includes a plurality of light emitting diodes (hereinafter, referred to as LED; D1 to Dk, k is a natural number) that are connected in series and a plurality of current sources I1 to Ik that determine a path of current flowing from output terminals of each LED. The voltage detector 20 monitors a voltage level output from the rectifying circuit 30 and operates one selected from a plurality of current sources I1 to Ik according to the monitored voltage level.
When the voltage output from the rectifying circuit 30 has a voltage level enough to turn on a first LED D1, the voltage detector 20 selects and operates only the first current source I1. In this case, current ILED1 passing through the power supply Vs and the rectifying circuit 30 flows into a ground GND via the first LED D1 and the first current source I1.
Next, when the voltage output from the rectifying circuit 30 rises to a voltage level enough to turn on both of the first LED D1 and the second LED D2, the voltage detector stops an operation of the first current source I1 and selects and operates only the second current source I2. In this case, the current ILED1 passing through the power supply Vs and the rectifying circuit 30 flows into the ground GND via the first LED D1, the second LED D2 and the second current source I2.
Next, when the voltage output from the rectifying circuit 30 rises to voltage level enough to turn on all of the plurality of LEDs D1 to Dk, only the k-th current source Ik is normally operated and an operation of the remaining current sources I1 to I(k−1) stops. In this case, the current ILED1 passing through the power supply Vs and the rectifying circuit 30 flows into the ground GND via the first LED D1, the second LED D2 to the k-th LED Dk, and the k-th current source Ik.
On the contrary, when the voltage output from the rectifying circuit 30 is decreased, the current source and the LED are turned off in an opposite direction to the foregoing direction.
In case of the LED driving circuit illustrated in
Referring to
However, even though the voltage Vac supplied to the LED strings D1 to Dk configuring the current switching circuit 10 is increased or decreased in a parabola form due to the rectification of power Vs, a magnitude in the current flowing into the LED strings D1 to Dk configuring the current switching circuit 10 is limited. The reason is that an electrical characteristic, that is, a current amount of the plurality of current sources I1 to Ik configuring the device 100 for driving an LED in accordance with the related art is the same.
For this reason, there is a problem in that a power factor of the device for driving an LED in accordance with the related art is low.
As illustrated in
Accordingly, the present invention has been made in an effort to solve the problems occurring in the related art, and an object of the present invention is to provide a device for driving an LED with an improved power factor without a voltage detector consuming a large amount of area and power.
Another object of the present invention is to provide a method for driving an LED with an improved power factor without a voltage detector consuming a large amount of area and power.
In order to achieve the above object, according to one aspect of the present invention, a device for driving an LED in accordance with an embodiment of the present invention includes a power supply unit, an LED array, and a current path select circuit. The LED array is connected with the power supply unit in parallel and includes at least one LED string including LED channels LED1 to LEDn that are configured of a plurality of LEDs connected in series. The current path select circuit selects a path of current flowing from output terminals of the plurality of LED channels according to voltage levels of each of the output terminals of the plurality of LED channels.
In order to achieve the above object, according to another aspect of the present invention, a method for driving an LED in accordance with an embodiment of the present invention relates a method for driving a device for driving an LED in accordance with the embodiment of the present invention and includes initializing a current source and selecting a current source. In the initializing of the current source, all of the plurality of current sources each connected between output terminals of a plurality of LED channels and a ground are normally operated. In the selecting of the current source, when a succeeding LED channel connected with the output terminal of any preceding LED channel among the LED channels connected in series is turned on, an operation of the current source commonly connected with the output terminal of the preceding LED channel and the input terminal of the succeeding LED channel stops.
The above objects, and other features and advantages of the present invention will become more apparent after a reading of the following detailed description taken in conjunction with the drawings, in which:
Reference will now be made in greater detail to a preferred embodiment of the invention, an example of which is illustrated in the accompanying drawings. Wherever possible, the same reference numerals will be used throughout the drawings and the description to refer to the same or like parts.
Hereinafter, exemplary embodiments of present invention will be described in detail with reference to the accompanying drawings. Like components are denoted by like reference numerals proposed in each drawing.
Referring to
The power supply unit 310 includes a power supply 311 and a rectifying circuit 312. The power supply 311 means an AC voltage source. In the rectifying circuit 312, a terminal having a positive voltage level by rectifying voltage of a power supply 311 that is an AC voltage source is connected with an input terminal of a first LED channel LED1 of an LED array 320 and a terminal having a negative voltage level or a zero (0) voltage level is connected with an output terminal of an n-th LED channel LEDn, which is represented by a ground GND for convenience of explanation.
The LED array 320 is connected with the power supply unit 310 and includes an LED string including LED channels LED1 to LEDn that are configured of a plurality of LEDs connected in series. Even though
The current path select circuit 330 selects paths of current flowing from each of the output terminals of the LED channels LED1 to LEDn−1 according to voltage levels of each of the output terminals of the LED channels LED1 to LEDn. The current path select circuit 330 for performing the above function includes a plurality of current sources I1 to In that cuts off a flow of current flowing from each of the output terminals of the LED channels LED1 to LEDn−1 according to the voltage levels of each of the output terminals of the LED channels LED1 to LEDn−1 and a plurality of control signal generators COM1 to COM (n−1) that each generates control signals C1 to C (n−1) that determine an operation of the current sources I1 to In−1. Here, n is multiple natural numbers.
The first current source I1 provides a path of current flowing into the ground GND from the output terminal of the first LED channel LED1, in response to the first control signal C1 and controls the current flow. The second current source I2 provides a path of current flowing into the ground from the output terminal of the second LED channel LED2 in response to the second control signal C2 and controls a current flow so that the increased current more than the first current source I1 may flow. Generalizing this, when n is a natural number, the n−1th current source In−1 provides a path of current flowing into a ground from an output terminal of the n-th LED channel LEDn in response to the n−1th control signal Cn−1 and controls the current flow. The present embodiment illustrates that the current source cuts off the flow of current by being turned off when the control signal is activated, but the present invention is not limited thereto. For example, the current source may also be configured to cut off the flow of current by being turned off when the control signal is not activated.
The first control signal generator COM1 compares the voltage level of the output terminal of the second LED channel LED2 with a predetermined reference voltage VREF to generate the first control signal C1. The second control signal generator COM2 compares the voltage level of the output terminal of the third LED channel LED3 with the reference voltage VREF to generate the second control signal C2. Generalizing this, the n−1-th control signal generator COM (n−1) compares the voltage level of the output terminal of the n-th LED channel LEDn with the reference voltage VREF to generate the n−1-th control signal C (n−1).
The embodiment of the present invention is proposed to vary a current amount flowing into each of the plurality of current sources I1 to In so as to improve a power factor. That is, the current amount that can flow into the current sources is increased as the current sources are connected with the output terminal of the LED channel far away from the power supply unit 310.
Here, each of the plurality of control signal generators COM1 to COM (n−1) may be implemented by comparators of which input terminals (−) are connected with the output terminals of the corresponding LED channels and the other input terminals (+) are connected with the reference voltage VREF to generate the corresponding control signals C1 to C (n−1) to the output terminals.
A method for applying the reference voltage VREF from the outside of an LED driving device 300 is also possible, but an embodiment of applying the reference voltage VREF by further including a reference voltage source is also possible. A predetermined deviation is present even in the electrical characteristics generated under the same condition and therefore, the voltage level of the reference voltage VREF may be determined according to the electrical characteristics of the used LED channel.
Hereinafter, an operation of the device 300 for driving an LED in accordance with the embodiment of the present invention will be described.
First, all of the plurality of current sources I1 to In is initially turned on so as to be set in a state in which current can flow. This is to operate the device 300 for driving an LED in accordance with the embodiment of the present invention. The present embodiment illustrates the case in which the voltage level of voltage VAC output from the power supply unit 310 is voltage rising or falling with a predetermined tendency, for example, voltage rectifying AC voltage.
When the voltage level of the voltage VAC output from the power supply unit 310 may turn on the first LED channel LED1, but may not turn on the second LED channel LED2, the first LED channel LED1 is turned on. In this case, the first current source I1 is in the state in which current may flow and therefore, the current ILED2 passing through the power supply 311 and the rectifying circuit 312 flows into the ground GND via the first LED channel LED1 and the first current source I1. In this case, even though the remaining current sources I2 to In are in the state in which current may flow, the LED channels LED2 to LEDn each connected with the current sources I2 to In are in a turned of state and therefore, no current flowing into the ground GND via the remaining current sources I2 to In is.
Next, when the voltage level of the voltage VAC output from the power supply unit 310 may turn on the first LED channel LED1 and the second LED channel LED2, but may not turn on the third LED channel LED3, the first LED channel LED1 and the second LED channel LED2 are simultaneously turned on. The voltage level of the output terminal of the second LED channel LED2 rises at an instant that the second LED channel LED2 is turned on. In this case, the first control signal generator COM1 activates the first control signal C1 using the voltage level of the output terminal of the second LED channel LED2 and the reference voltage VREF when the voltage level of the output terminal of the second LED channel LED2 is fluctuated. The activated first control signal C1 turns off the first current source I1 to stop the flow of current and therefore, the current ILED2 passing through the power supply 311 and the rectifying circuit 312 flows into the ground GND via the first LED channel LED1, the second LED channel LED2, and the second current source I2.
In the device 300 for driving an LED in accordance with the embodiment of the present invention, the current source connected with the output terminal of any preceding LED channel among the plurality of LED channels connected in series stops the flow of current by being turned off when the succeeding LED channel is turned on and the current source connected with the output terminal of the succeeding LED channel flows current into the ground by forming the current path together with the preceding LED channel and the succeeding LED channel. The current source connected with the output terminal of the succeeding LED channel is controlled to move a larger amount of current than the current source connected with the output terminal of the preceding LED channel. Therefore, the current amount may be sequentially increased corresponding to the increase in the magnitude in the supply voltage VAC enough to turn on the preceding LED channel and the succeeding LED channel.
The plurality of LED channels connected in series is sequentially turned on according to the increase in the voltage level of the rectifying voltage VAC. On the contrary, when the voltage level of the voltage VAC is decreased, the LED channel may be turned off in a reverse order to an order of turning on the plurality of LED channels.
Referring to
The reason is that the current driving capability of the plurality of current sources I1 to In in accordance with the embodiment of the present invention is increased as the current sources are far way from the power supply unit 310. On the other hand, the device 100 for driving an LED illustrated in
Here, 1Voff means the voltage of the output terminal of the second LED channel LED2 at the instant that the operation of the first current source I1 stops and 2Voff means the voltage of the output terminal of the third LED channel LED3 at the instant that the operation of the second current source I2 stops. In order to compare with an example illustrated in
Further, unlike the device for driving an LED operated by the LED turn on voltage preset in the voltage detector in accordance with the related art, the device for driving an LED in accordance with the embodiment of the present invention is operated by directly detecting the output voltage of the LED channel turning off the current source and therefore, may be operated without being affected by the deviation in the turn on voltage of the LED channel and the number of LED channels.
The method for driving an LED among the technical problem to be solved by the present invention may be induced from the description of the operation of the device 300 for driving an LED, but will again be described below.
The method for driving an LED in accordance with the embodiment of the present invention includes initializing the current source, improving the power factor, and selecting the current source.
In the initializing of the current source, all of the current sources I1 to In each connected between the output terminals of the LED channels LED1 to LEDn and the ground GND are operated in the state in which current may flow. In the improving of the power factor, the current amount flowing into each of the current sources I1 to In each connected between the output terminals of the LED channels LED1 to LEDn and the ground GND is relatively increased as the current sources are far away from the power supply unit 310. In the selecting of the current source, when the succeeding LED channel connected with the output terminal of any preceding LED channel among the LED channels LED1 to LEDn connected in series is turned on, the operation of the current source commonly connected with the output terminal of the preceding LED channel and the input terminal of the succeeding LED channel stops.
A method for driving an LED in accordance with another embodiment of the present invention may further include setting reference voltage VREF. In this case, in the selecting of the current source, it is determined whether the succeeding LED channel is turned on by comparing the voltage level of the output terminal of the preceding LED channel with the reference voltage VREF.
As is apparent from the above description, the present invention provides the device for driving an LED capable of driving the LED using the simple and new algorithm to increase the power factor and improve the power efficiency, while decreasing the power consumption and the area of the driving device in the overall system.
Although a preferred embodiment of the present invention has been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and the spirit of the invention as disclosed in the accompanying claims.
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