IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0604040
(2015-01-23)
|
등록번호 |
US-9320103
(2016-04-19)
|
우선권정보 |
KR-10-2014-0026815 (2014-03-06) |
발명자
/ 주소 |
- Lee, Bong-jin
- Kim, Hyun-jung
|
출원인 / 주소 |
- SAMSUNG ELECTRONICS CO., LTD.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
50 |
초록
▼
A light-emitting diode (LED) driver, an LED lighting apparatus, and a method of operating the LED lighting apparatus are provided. The LED driver may include an LED current controller configured to control an LED current, which flows through an LED array including a plurality of LEDs, such that the
A light-emitting diode (LED) driver, an LED lighting apparatus, and a method of operating the LED lighting apparatus are provided. The LED driver may include an LED current controller configured to control an LED current, which flows through an LED array including a plurality of LEDs, such that the LED current is maintained at a constant level; a comparer configured to compare a sensing signal, which corresponds to a magnitude of the LED current, and a reference signal, and to obtain a first output signal based on a comparison result; and a dimming controller configured to modify the first output signal to obtain a second output signal for dimming of the plurality of LEDs, and to provide the second output signal to the LED current controller.
대표청구항
▼
1. A light-emitting diode (LED) driver comprising: an LED current controller configured to control an LED current, which flows through an LED array comprising a plurality of LEDs, such that the LED current is maintained at a constant level;a comparer configured to compare a sensing signal, which cor
1. A light-emitting diode (LED) driver comprising: an LED current controller configured to control an LED current, which flows through an LED array comprising a plurality of LEDs, such that the LED current is maintained at a constant level;a comparer configured to compare a sensing signal, which corresponds to a magnitude of the LED current, and a reference signal, and to generate a first output signal based on a result of the comparison; anda dimming controller configured to modify the first output signal to obtain a second output signal for controlling a dimming of the plurality of LEDs, and to provide the second output signal to the LED current controller,wherein the dimming controller comprises a voltage level limiter that is connected to the comparer and is configured to limit a voltage level of the generated first output signal and the compares is configured to output the second output signal, the outputted second output signal corresponding to the first output signal limited by the voltage level limiter. 2. The LED driver of claim 1, wherein the LED current controller comprises: a converter configured to output a controlled LED current and comprising a switch; anda converter controller configured to control an operation of the switch according to a level of the provided second output signal. 3. The LED driver of claim 1, wherein the LED current controller comprises: a pulse width modulation (PWM) signal generator configured to generate a PWM signal based on the provided second output signal;a converter configured to output a controlled LED current and comprising a switch; anda converter controller configured to control an operation of the switch according to a duty ratio of the PWM signal. 4. The LED driver of claim 1, further comprising an isolated component configured to transfer a control signal that is output from the dimming controller to the LED current controller. 5. The LED driver of claim 1, wherein: the comparer comprises an operational amplifier comprising an inverting input terminal configured to receive the sensing signal and a non-inverting input terminal configured to receive the reference signal; andthe operational amplifier amplifies a difference between the received sensing signal and the received reference signal and outputs the amplified difference as the first output signal. 6. The LED driver of claim 5, wherein the voltage level limiter is connected to a power supply terminal of the operational amplifier, and is configured to provide a variable power source to the operational amplifier. 7. The LED driver of claim 5, wherein: the voltage level limiter comprises a first resistor unit in which at least two first resistors are connected in parallel, and a second resistor unit in which at least two second resistors are connected in parallel;a first voltage power source is connected to at least one of the first resistor unit and the second resistor unit; andthe voltage level limiter is configured to generate a second voltage from a first voltage provided by the first voltage power source based on a ratio between a total resistance of the first resistor unit and a total resistance of the second resistor unit, and to provide the second voltage as a supply voltage to the operational amplifier. 8. The LED driver of claim 7, wherein: the voltage level limiter further comprises at least one switch in at least one of the first resistor unit and the second resistor unit so as to change the ratio between the total resistance of the first resistor unit and the total resistance of the second resistor unit; andthe dimming controller further comprises a switch controller configured to turn on/off the at least one switch. 9. A light-emitting diode (LED) driver comprising: an LED current controller configured to control an LED current, which flows through an LED array comprising a plurality of LEDs, such that the LED current is maintained at a constant level;a comparer configured to compare a sensing signal, which corresponds to a magnitude of the LED current, and a reference signal, and to generate a first output signal based on a result of the comparison; anda dimming controller configured to modify the first output signal to obtain a second output signal for controlling a dimming of the plurality of LEDs, and to provide the second output signal to the LED current controller, wherein:the dimming controller comprises a voltage divider that is connected to an output terminal of the comparer; andthe voltage divider is configured to divide the first output signal to thereby obtaining the second output signal. 10. The LED driver of claim 9, wherein: the voltage divider comprises a first resistor unit in which at least two first resistors are connected in parallel, and a second resistor unit in which at least two resistors are connected in parallel; andthe dimming controller further comprises a voltage limiter configured to obtain the second output signal from the first output signal based on a ratio between a total resistance of the first resistor unit and a total resistance of the second resistor unit, and to provide the obtained second output signal to the LED current controller. 11. The LED driver of claim 10, wherein: the voltage divider further comprises at least one switch in at least one of the first resistor unit and the second resistor unit so as to change the ratio between the total resistance of the first resistor unit and the total resistance of the second resistor unit; andthe dimming controller further comprises a switch controller configured to turn on/off the at least one switch. 12. A light-emitting diode (LED) dimming apparatus comprising: an LED array comprising a plurality of LEDs;an LED current controller configured to control an LED current, which flows through the LED array, such that the LED current is maintained at a constant level;a comparer configured to compare a sensing signal, which corresponds to a magnitude of the LED current, and a reference signal, and to obtain a first output signal based on a result of the comparison; anda dimming controller configured to modify the first output signal to obtain a second output signal for controlling a dimming of the plurality of LEDs, and to provide the second output signal to the LED current controller,wherein:the dimming controller comprises a voltage divider that is connected to an output terminal of the comparer; andthe voltage divider is configured to divide the first output signal to obtain the second output signal. 13. The LED dimming apparatus of claim 12, wherein: the dimming controller comprises a voltage level limiter that is connected to the comparer and is configured to limit a voltage level of the first output signal; andthe comparer is configured to output the second output signal, the outputted second output signal corresponding to the first output signal limited by the voltage level limiter. 14. A method of controlling current provided to an LED array comprising a plurality of LEDs, the method comprising: comparing a sensing signal, which corresponds to a magnitude of an LED current flowing through the LED array, and a reference signal;obtaining a first output signal based on the comparing; andmodifying the obtained first output signal to obtain a second output signal for controlling a dimming of the plurality of LEDs such that the LED current is maintained at a constant level,wherein the modifying the obtained first output signal comprises dividing the first output signal to thereby obtain the second output signal. 15. The method of claim 14, further comprising outputting a controlled LED current that is maintained at a constant level according to a level of the obtained second output signal. 16. The method of claim 14, further comprising: generating a PWM signal based on the obtained second output signal; andoutputting a controlled LED current according to a duty ratio of the PWM signal. 17. The method of claim 14, wherein the modifying the obtained first output signal comprises: limiting a voltage level of the generated first output signal; andoutputting, by the comparer, the second output signal, the outputted second output signal corresponding to the first output signal limited by the limiting the voltage level of the generated first output signal.
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