WO2012141446A2 - Led조명용 ac-dc컨버터의 제어기 - Google Patents
Led조명용 ac-dc컨버터의 제어기 Download PDFInfo
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- WO2012141446A2 WO2012141446A2 PCT/KR2012/002457 KR2012002457W WO2012141446A2 WO 2012141446 A2 WO2012141446 A2 WO 2012141446A2 KR 2012002457 W KR2012002457 W KR 2012002457W WO 2012141446 A2 WO2012141446 A2 WO 2012141446A2
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- power
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- led lighting
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/10—Controlling the intensity of the light
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02M—APPARATUS FOR CONVERSION BETWEEN AC AND AC, BETWEEN AC AND DC, OR BETWEEN DC AND DC, AND FOR USE WITH MAINS OR SIMILAR POWER SUPPLY SYSTEMS; CONVERSION OF DC OR AC INPUT POWER INTO SURGE OUTPUT POWER; CONTROL OR REGULATION THEREOF
- H02M7/00—Conversion of ac power input into dc power output; Conversion of dc power input into ac power output
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/10—Controlling the intensity of the light
- H05B45/14—Controlling the intensity of the light using electrical feedback from LEDs or from LED modules
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B45/00—Circuit arrangements for operating light-emitting diodes [LED]
- H05B45/30—Driver circuits
- H05B45/37—Converter circuits
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/10—Controlling the light source
Definitions
- AC-DC converter for LED is used to implement LED lighting using building and indoor AC electricity, and the controlling device is AC-DC converter controller.
- the AC power switch attached to the wall is mainly used to turn on and off the LED lights controlled by the AC-DC converter and the AC-DC converter controller.
- the brightness control console had to be installed on the wall, and there was a problem in that a separate wired / wireless communication line was installed between the console and the lamp.
- a device for adjusting the brightness of the LED light based on the on / off history information can be used when the existing wall switch is repeatedly turned on and off at a given time.
- the AC-DC converter controller has a brightness control operation function using the on-off information, it is necessary to set various brightness control operations in advance, so that the user can easily select some of the various brightness control operations.
- the AC power on-off signal (s1) receives the power-on frequency, power-off frequency of the AC power line (LN1a, LN1b)
- An AC power on / off recorder (110) for measuring on-off information on the power-on time and power-off time and outputting an AC power on / off recording signal (s2);
- a first sensing circuit 121 generating a first set signal s6 according to a voltage or a current of the first set terminal N1 connected to the outside;
- a brightness reference signal generator 120 generating a brightness reference signal s3 in response to the AC power on / off write signal s2 and the first set signal s6; a voltage measured by the LED lighting AC-DC converter Or an electric signal processing circuit 130 for processing current to output an AC-DC converter status signal s4;
- a switching signal generator 140 generating a switching signal s5 to implement brightness corresponding to the brightness reference signal s3 using the AC-DC converter state
- the AC on-off signal (s1) receives the power-on frequency of the AC power line (LN1a, LN1b), power off An AC power on / off recorder (110) for measuring on-off information on the number of times, power-on time and power-off time and outputting an AC power on / off recording signal (s2);
- a brightness reference signal generator 120 generating a brightness reference signal s3 in response to the AC power on / off recording signal s2;
- An electrical signal processing circuit 130 for signal processing the voltage or current measured by the LED lighting AC-DC converter;
- a switching signal generator 140 generating a switching signal s5 to implement brightness corresponding to the brightness reference signal s3 using the AC-DC converter state signal s4 which is an output signal of the electrical signal processing circuit.
- the switching signal generator 140 further includes a power management circuit 150 that reduces electric energy consumption by stopping the operation. It is done.
- the controller of the LED lighting AC-DC converter according to the present invention can measure and store information during AC power off, and can conveniently select and adjust the brightness control operation and the function of the AC power on / off recorder using simple electronic components. It works.
- FIG. 1 is a block diagram showing a connection of a controller of a general LED AC-DC converter and LED lighting AC-DC converter according to the present invention.
- FIG. 2 is a view showing an embodiment of the AC power sensor of the controller of the LED lighting AC-DC converter according to the present invention.
- FIG. 3 is a view showing another embodiment of the AC power sensor of the controller of the LED lighting AC-DC converter according to the present invention.
- FIG. 4 is a view showing another embodiment of the AC power sensor of the controller of the LED lighting AC-DC converter according to the present invention.
- FIG. 1 is a block diagram showing a connection of a controller of a general LED AC-DC converter and LED lighting AC-DC converter according to the present invention.
- the controller of the LED lighting AC-DC converter according to the present invention is connected to the LED lighting AC-DC converter 10 to control the LED lighting AC-DC converter 10.
- the LED lighting AC-DC converter (10) is a rectifier circuit (1) for rectifying the voltage of the AC100V ⁇ AC250V and converted to DC, a low pass filter (2) for removing the high frequency components of the rectified electricity, low pass It consists of a DC-DC converter (3) for supplying an appropriate current to the LED by using the DC passed through the filter.
- the rectifier circuit (1), low pass filter (2), DC-DC converter (3) is an example of a component of a general AC-DC converter used in connection with the AC-DC converter controller of the present invention and detailed circuit details The methods and components are not limited to a special form.
- An example of the rectifier circuit 1 may be implemented as a full-wave rectifier circuit composed of the first diodes D1a, D1b, D1c, and D1d as shown in FIG.
- the controller of the LED lighting AC-DC converter includes an AC power on / off recorder 110, a first sensing circuit 121, a brightness reference signal generator 120, and an electrical signal processing circuit. 130, a switching signal generator 140 and a power management circuit 150.
- the AC power on / off recorder 110 receives the AC power on / off signal s1 to receive on / off information such as power on times, power off times, power on time or power off time of the AC power lines LN1a and LN1b.
- the measurement outputs the AC power on / off recording signal S2.
- the AC power on / off recorder 110 records the on / off information of the AC power line by using the AC power on / off signal s1, which is a signal coming from the AC power sensor, when the power switch is repeatedly turned on and off. It is a device that outputs information.
- the on-off information may be one of a power on count or a power off count, or a power on time or a power off time.
- the power-off time and the power-on time is when the user repeats the operation of turning off and off the LED lights, the number of times turned on is the number of power-on, the time is turned on is the power-on time, the number of times off is the number of power-off, The off time is the power off time.
- the brightness reference signal generator 120 may generate the brightness reference signal s3 depending on only the AC power on / off write signal s2 of the AC power on / off recorder 110.
- the brightness reference signal generator outputs a brightness reference signal for maximum brightness when the number of power-on times is 1 and maximum when the power-on number is 2;
- the brightness reference signal corresponding to 50% of the brightness may be output, and when the power-on frequency is 3, the brightness reference signal corresponding to 25% of the maximum brightness may be preset. In this case, the brightness of the LED lights gets darker with every turn on.
- the brightness reference signal generator can be preset to turn off the power switch and then turn it on again so that the brightness decreases when the off time, that is, the power off time increases.
- Some of the above examples are examples of changing the brightness reference signal by the AC power on count, the power off count, the power on time, and the power off time, and various methods for adjusting the brightness may be set in advance.
- the first sensing circuit 121 outputs the first set signal s6 according to the voltage or current of the first set terminal N1 connected to the outside and supplies it to the brightness reference signal generator 120.
- the brightness reference signal generator 120 responds to the AC source ON / OFF recording signal S2 which is the output signal s2 of the AC power on / off recorder 110 and the first setting signal s6. ) Can also be created.
- the brightness reference signal generator 120 may be implemented to perform various brightness adjustment operations in advance based on at least one power on / off information among power on times, power off times, power on times, and power off times.
- the first setting terminal N1 can be used to select one of these various brightness adjustment operations or to change the detailed characteristics of the brightness adjustment operation.
- the brightness change operation when 5V is connected to the first set terminal N1, the brightness change operation may be performed according to the power-on frequency, and when 0V is connected, the brightness change operation may be selected according to the power-on time.
- the first sensing circuit 121 detects the voltage of the first setting terminal that varies according to the resistance value connected to the first setting terminal and generates the first setting signal s6 according to the resistance value.
- the first setting terminal N1 is used to allow the user to easily change or select the brightness adjustment operation while using the brightness reference signal generator designed once for various brightness adjustment operations.
- the circuit may be configured to generate a voltage corresponding to the first set terminal N1.
- the first sensing circuit 121 serves to generate a corresponding signal by measuring the voltage or current of the first set terminal (N1). For example, when the resistance value connected to the first setting terminal is different, the first sensing circuit senses the voltage or current of the first setting terminal and the first corresponding to the resistance value connected to the first setting terminal N1. The setting signal s6 is generated.
- Which kind of brightness adjustment operation is set according to the terminal voltage or current of the first set terminal N1 may be determined when fabricating the AC-DC converter controller of the present invention, and the user may manufacture the AC-DC converter controller. Even after that, the terminal voltage of the first set terminal N1 of the AC-DC converter controller of the present invention is changed by changing the terminal current to easily select one of various predefined brightness adjustment operations or change the detailed characteristics of the brightness adjustment operation. There is an advantage to this.
- the erect reference signal generator 120 when the first setting signal s6 is used, the erect reference signal generator 120 generates the at least two brightness reference signals in dependence on the on / off information. s6) may be determined as a specific one of the two or more operations.
- the on-off information inside the AC power on-off recorder 110 should be initialized. For example, when the AC power line is turned off, the output signal of the AC power sensor becomes 0. If the power off state is maintained for longer than the initial time (tin), it is initialized. You can change it.
- the electrical signal processing circuit 130 generates an AC-DC converter status signal S4 by signal processing the voltage or current measured by the LED lighting AC-DC converter.
- the electrical signal processing circuit 130 is a circuit for processing a voltage or current signal measured in the DC-DC converter.
- the signal processed by the electric signal processing circuit 130 includes information on the voltage state or the current state of the AC-DC converter and is output as the AC-DC converter state signal s4.
- the electrical signal processing circuit 130 may include a buffer having a high input impedance and a low output impedance in order to accurately obtain a voltage signal or a current signal.
- the measured AC-DC converter status signal s4 is transmitted to the switching signal generator 140.
- the switching signal generator 140 uses a power transistor (not shown) installed in the AC-DC converter to implement brightness corresponding to the brightness reference signal s3 using the AC-DC converter state signal s4. Generates a switching signal (s5) applied to the control terminal.
- the switching signal generator 140 switches the switching transistor inside the DC-DC converter 3 to implement brightness corresponding to the brightness reference signal s3.
- a switching transistor driving circuit (not shown) is required.
- a coupling circuit (not shown) may be used when the portion of the switching signal generator 140 and the reference potential of the switching transistor driving circuit (not shown) are different.
- a switching signal for outputting a pulse having a constant frequency with a variable duty ratio may be used.
- the switching transistor inside the DC-DC converter is switched by the switching signal s5
- the current or voltage inside the DC-DC converter changes, which is measured through the electrical signal processing circuit 130 and is inside the DC-DC converter. Current or voltage is controlled.
- the controller of the LED lighting AC-DC converter according to the present invention may further include a second power supply terminal NP2 or a power management circuit 150.
- the power management circuit 150 determines the power on / off state of the AC power line by receiving the AC power on / off signal (s1), and when the power is turned off when no power is supplied to the AC power line, the AC power off recorder 110 operates and the switching signal generator 140 stops operation to reduce electric energy consumption.
- the AC power on-off recorder from a circuit including a switching signal generator 140, which consumes a lot of power, as another method for supplying electricity to the AC power-on-off recorder 110 for more than an initialization time (tin) during AC power-off.
- tin initialization time
- the switching signal generator 140 the electrical signal processing circuit 130, the brightness reference signal generator 120, and the first sensing circuit through the first power supply terminal NP1 and the path p1. Electricity is supplied to the 121, and electricity is supplied to the AC power on / off recorder 110 through the second power supply terminal NP2 and the path p2.
- FIG. 2 to 4 is a view showing the AC power sensor of the controller of the LED lighting AC-DC converter according to the present invention.
- the controller of the LED lighting AC-DC converter measures the power on / off states of the two AC power lines and outputs the AC power on / off signal s1.
- the sensor 160 may be further provided.
- the AC power sensor 160 is a sensor for measuring whether electricity used for LED lighting is being supplied to an AC power line or blocked. Normally, measuring the voltage across two AC power lines (LN1a, LN1b) directly indicates whether electricity is being supplied to the AC power lines.
- the reference potential NGa and the reference potential NGb are the same. If the reference potential is the same, the output signal of the measured AC power sensor can be connected with the AC-DC converter controller circuit.
- the AC power sensor 160 shown in FIG. 2 has a low voltage at the output side of the rectifier circuit in which an input terminal rectifies electricity coming into one terminal N11 or N12 of one of the two AC power lines and the two AC power lines. It is connected to the terminal N14, respectively.
- the AC power sensor 160 shown in FIG. 3 has a high voltage terminal N13 on the output side of the rectifier circuit and a low voltage terminal N14 on the output side of the rectifier circuit for rectifying electricity inputted into the two AC power lines. Connected.
- the AC power sensor 160 shown in FIG. 4 has a high voltage terminal N13 on the output side of the rectifier circuit and a low voltage terminal N14 on the output side of the rectifier circuit. Connected.
- the fifth diode D5 is provided between the high voltage terminal N13 of the rectifying circuit and the low pass filter 2 for reducing the ripple voltage.
- the fifth diode D5 prevents the charge stored in the low pass filter 2 from escaping and flowing to the high voltage terminal N13 on the output side of the rectifier circuit 1, so that the AC If the power is off, it can be detected quickly.
- the AC power sensor 160 shown in FIGS. 2 to 4 has a potential equal to the reference potentials NGa and NGb of other circuits of the AC-DC converter controller, so that it can be easily connected to other circuits.
- the AC power sensor 160 illustrated in FIGS. 2 to 4 may be implemented by using a voltage attenuation circuit that attenuates the voltage applied to the input terminal and outputs the output voltage.
- circuits for signal processing inside the controller of an AC-DC converter are driven at a low voltage of about 5V.
- the output terminal of the voltage attenuator outputs a low voltage of about 5V.
- the AC power sensor 160 When the AC power sensor 160 is implemented as a voltage attenuator, two electronic devices Z1 and Z2, Z3 and Z4, Z5 and Z6 are connected in series, as shown in FIGS.
- the input terminal and a voltage attenuator outputting both ends of some electronic elements Z2, Z4, and Z6 of the respective AC power sensors may be used.
- all of the electronic elements Z1, Z2, Z3, Z4, Z5, Z6 constituting the voltage attenuator may be replaced with a resistor, and some electronic elements Z1, Z3, Z6 may be replaced with a resistor.
- Some electronic devices Z2, Z4, and Z6 may be implemented as electronic devices such as zener diodes.
- the AC power sensor 160 shown in FIGS. 2 to 4 is the same as the third diode, the fourth diode, and the sixth diode which respectively block reverse current flowing from the output terminal of the AC power sensor to the input terminal of the AC power sensor.
- Each diode may be configured to further include.
- the AC-DC converter controller of the present invention needs to measure the cut-off time, that is, the power-off time, even when the electricity of the AC power line is cut off.
- the AC power on / off recorder when the AC power on / off recorder measures the power off time in a state where electricity of an AC power line is cut off, it may be implemented as shown in FIGS. 2, 3, and 4.
- the third diode D3 of FIG. 2, the fourth diode D4 of FIG. 3, and the sixth diode of the AC power sensor 160 of FIG. 4 are reverse currents flowing from the output terminal of each AC power sensor to the input terminal. This prevents the AC power on / off recorder from unnecessarily discharging the charge so that the AC power on / off recorder can measure the power off time smoothly.
- the controller of the LED lighting AC-DC converter according to the present invention further includes a second sensing circuit 114 for generating a second setting signal s7 according to the voltage or current of the second setting terminal N2 connected to the outside.
- the on / off information recorded in the AC power on / off recorder 110 may be initialized according to the second set signal s7.
- the initialization time tin may be determined according to the voltage or current of the second set terminal N2. If the AC power-off state continues for more than the initialization time (tin), the on-off information recorded in the AC power-on-off recorder 110 is initialized so that the brightness adjustment operation can be reset from the beginning.
- the initialization time tin is set to 1 second, and if the resistance of 2k Ohm is connected, the initialization time ( tin) can be set to 2 seconds.
- the second sensing circuit 114 senses a voltage of the second setting terminal N2 that varies according to the value of the resistor 200 connected to the second setting terminal N2, and thus the second setting signal s7 according to the resistance value. ).
- the second power supply terminal (NP2) of the controller of the LED lighting AC-DC converter according to the present invention from the influence of the first power supply terminal (NP1)
- the first power supply terminal (and a second diode D2 connected between NP1 and the second power supply terminal NP2 to prevent current from flowing from the second power supply terminal to the first power supply terminal can be protected from the first power supply terminal.
- a second power supply terminal (NP2) is provided for the AC power on / off recorder (110) in order to maintain the measurement operation and recording on the AC power on and off at the time of AC power off, and the capacitor CP2) is attached.
- the second diode D2 charges from the capacitor CP2 connected to the second power supply terminal even when all of the electrical energy of the capacitor CP1 attached to the first power supply terminal NP1 is consumed during AC power-off.
- the second power supply terminal is protected by being separated from the first power supply terminal.
- each of the blocks 10 and 100 separated by a dotted line of FIG. 1 may be manufactured in the form of a module or a chip, but this is not limited to the scope of the present patent.
- the controller of the LED lighting AC-DC converter according to the present invention can measure and store AC power on / off information with a simple circuit configuration when AC power is cut off.
- the AC-DC converter controller controlled by the power on-off information of the AC power line of the present invention can conveniently adjust the brightness control operation and the function of the AC power on-off recorder using a simple electronic component such as a capacitor or a resistor. There is an advantage.
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Description
Claims (18)
- LED조명용 AC-DC컨버터의 제어기에 있어서,AC파워온오프신호(s1)를 입력받아서 AC전력선(LN1a,LN1b)의 파워온횟수, 파워오프횟수, 파워온시간 및 파워오프시간에 대한 온오프정보를 측정하고 AC파워온오프기록신호(s2)를 출력하는 AC파워온오프기록기(110);외부와 연결되는 제1설정단자(N1)의 전압 또는 전류에 따라 제1설정신호(s6)를 발생시키는 제1센싱회로(121);상기 AC파워온오프기록신호(s2) 및 상기 제1설정신호(s6)에 응답하여 밝기기준신호(s3)를 생성하는 밝기기준신호발생기(120);상기 LED조명용 AC-DC컨버터에서 측정된 전압 또는 전류를 처리하여 AC-DC컨버터상태신호(s4)를 출력하는 전기신호처리회로(130);상기 AC-DC컨버터상태신호(s4)를 이용하여 상기 밝기기준신호(s3)에 대응되는 밝기를 구현하기 위해 스위칭신호(s5)를 생성하는 스위칭신호발생기(140);를 구비하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제1항에 있어서,상기 스위칭신호발생기(140)에 전기를 공급하는 제1전원공급단자(NP1)로 부터 분리되어 있으며 상기 AC파워온오프기록기(110)에 전기를 별도로 공급하는 제2전원공급단자(NP2); 또는상기 AC전력선에 전기가 들어오지 않을 때 상기 AC파워오프기록기(110)는 동작시키고 상기 스위칭신호발생기(140)는 동작을 정지시켜서 전기에너지 소모를 줄이는 전원관리회로(150)를 더 구비하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- LED조명용 AC-DC컨버터의 제어기에 있어서,AC파워온오프신호(s1)를 입력받아서 AC전력선(LN1a,LN1b)의 파워온횟수, 파워오프횟수, 파워온시간 및 파워오프시간에 대한 온오프정보를 측정하고 AC파워온오프기록신호(s2)를 출력하는 AC파워온오프기록기(110);상기 AC파워온오프기록신호(s2)에 응답하여 밝기기준신호(s3)를 생성하는 밝기기준신호발생기(120);상기 LED조명용 AC-DC컨버터에서 측정된 전압 또는 전류를 처리하여 AC-DC컨버터상태신호(s4)를 출력하는 전기신호처리회로(130);상기 AC-DC컨버터상태신호(s4)를 이용하여 상기 밝기기준신호(s3)에 대응되는 밝기를 구현하기 위해 스위칭신호(s5)를 생성하는 스위칭신호발생기(140);를 포함하되,상기 스위칭신호발생기(140)에 전기를 공급하는 제1전원공급단자(NP1)로 부터 분리되어 있으며 상기 AC파워온오프기록기(110)에 전기를 별도로 공급하는 제2전원공급단자(NP2); 또는상기 AC전력선에 전기가 들어오지 않을 때 상기 AC파워오프기록기(110)는 동작시키고 상기 스위칭신호발생기(140)는 동작을 정지시켜서 전기에너지 소모를 줄이는 전원관리회로(150)를 더 구비하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제1항 또는 제3항에 있어서,상기 AC전력선은 두 개의 선로로 구성되어 있으며,상기 두 개의 AC전력선의 파워온오프 상태를 측정하여 상기 AC파워온오프신호(s1)를 출력하는 AC파워센서(160)를 더 구비하되,상기 AC파워센서는,입력단자가 상기 두 개의 AC전력선 중 하나의 전력선의 일 단자(N11 또는 N12) 및 상기 두 개의 AC전력선으로 들어오는 전기를 정류하는 정류회로의 출력 측 저전압단자(N14)에 각각 연결되는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제4항에 있어서 상기 AC파워센서는입력단자에 가해지는 전압을 감쇄시켜서 출력전압으로 내보내는 전압감쇄회로를 사용하여 구현된 것을 특징으로 하는 LED조명용 AC-DC컨버터제어기.
- 제4항에 있어서, 상기 AC파워센서는출력단자로부터 입력단자로 흐르는 역방향 전류를 차단하는 제3다이오드를 더 포함하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제1항 또는 제3항에 있어서,상기 AC전력선은 두 개의 선로로 구성되어 있으며,상기 두 개의 AC전력선(LN1a,LN1b)의 파워온오프 상태를 측정하여 상기 AC파워온오프신호(s1)를 출력하는 AC파워센서(160)를 더 구비하되,상기 AC파워센서는,입력단자가 상기 두 개의 AC전력선으로 들어오는 전기를 정류하는 정류회로의 출력 측 고전압단자(N13) 및 상기 정류회로의 출력 측 저전압단자(N14)에 각각 연결되는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제7항에 있어서 상기 AC파워센서는입력단자에 가해지는 전압을 감쇄시켜서 출력전압으로 내보내는 전압감쇄회로를 사용하여 구현된 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제7항에 있어서 상기 AC파워센서는출력단자로부터 입력단자로 흐르는 역방향 전류를 차단하는 제4다이오드를 더 포함하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제1항 또는 제3항에 있어서,상기 AC전력선은 두 개의 선로로 구성되어 있으며,상기 두 개의 AC전력선(LN1a,LN1b)의 파워온오프 상태를 측정하여 상기 AC파워온오프신호(s1)를 출력하는 AC파워센서(160)를 더 구비하되,상기 AC파워센서는,입력단자가 상기 두 개의 AC전력선으로 들어오는 전기를 정류하는 정류회로의 출력 측 고전압단자(N13) 및 상기 정류회로의 출력 측 저전압단자(N14)에 각각 연결되며, 상기 정류회로의 출력 측 고전압단자(N13)와 리플전압을 줄이기 위한 저역필터(2)의 사이에 제5다이오드(D5)가 설치된 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제10항에 있어서 상기 AC파워센서는입력단자에 가해지는 전압을 감쇄시켜서 출력전압으로 내보내는 전압감쇄회로를 사용하여 구현된 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제10항에 있어서 상기 AC파워센서는출력단자로부터 입력단자로 흐르는 역방향 전류를 차단하는 제6다이오드를 더 포함하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제1항 또는 제3항에 있어서, 상기 AC-DC컨버터제어기는,외부와 연결되는 제2설정단자(N2)의 전압 또는 전류에 따라 제2설정신호(s7)를 발생시키는 제2센싱회로(114)를 더 구비하고상기 제2설정신호에 따라 AC파워온오프기록기(110)에 기록된 온오프정보를 초기화시키는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제1항에 있어서 상기 AC-DC컨버터제어기는상기 제1설정단자(N1)에 케페시터 또는 저항이 연결된 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제2항 또는 제3항에 있어서 상기 AC-DC컨버터제어기는상기 제1전원공급단자(NP1)와 상기 제2전원공급단자(NP2) 사이에 연결되며 상기 제2전원공급단자로부터 상기 제1전원공급단자로 전류가 흐르는 것을 방지하는 제2다이오드(D2)를 더 포함하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제1항 또는 제3항에 있어서,상기 AC전력선(LN1a,LN1b)의 파워온오프 상태를 측정하여 상기 AC파워온오프신호(s1)를 출력하는 AC파워센서(160)를 더 구비하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- 제16항에 있어서, 상기 AC파워센서는입력단자에 가해지는 전압을 감쇄시켜서 출력전압으로 내보내는 전압감쇄회로를 사용하여 구현된 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
- LED조명용 AC-DC컨버터의 제어기에 있어서,AC파워온오프신호(s1)를 입력받아서 AC전력선(LN1a,LN1b)의 파워온횟수, 파워오프횟수, 파워온시간 및 파워오프시간에 대한 온오프정보를 측정하고 AC파워온오프기록신호(s2)를 출력하는 AC파워온오프기록기(110);상기 AC파워온오프기록신호(s2)에 응답하여 밝기기준신호(s3)를 생성하는 밝기기준신호발생기(120);상기 LED조명용 AC-DC컨버터에서 측정된 전압 또는 전류를 처리하여 AC-DC컨버터상태신호(s4)를 출력하는 전기신호처리회로(130);상기 AC-DC컨버터상태신호(s4)를 이용하여 상기 밝기기준신호(s3)에 대응되는 밝기를 구현하기 위해 스위칭신호(s5)를 생성하는 스위칭신호발생기(140);AC전력선(LN1a,LN1b)의 파워온오프 상태를 측정하여 상기 AC파워온오프신호(s1)를 출력하는 AC파워센서(160)를 더 구비하되,상기 AC파워센서는(160) AC파워센서의 출력측단자로부터 입력측단자로 흐르는 역방향 전류를 차단하는 다이오드를 더 구비하는 것을 특징으로 하는 LED조명용 AC-DC컨버터의 제어기.
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US14/111,553 US9089021B2 (en) | 2011-04-14 | 2012-04-02 | Controller of an AC-DC converter for LED lighting |
JP2014505063A JP5710834B2 (ja) | 2011-04-14 | 2012-04-02 | Led照明用ac−dcコンバータの制御器 |
GB1319841.1A GB2504638B (en) | 2011-04-14 | 2012-04-02 | Controller of AC-DC converter for LED lighting |
CN201280024739.5A CN103563488B (zh) | 2011-04-14 | 2012-04-02 | 用于led照明的ac-dc转换器的控制器 |
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KR1020110034859A KR101216677B1 (ko) | 2011-04-14 | 2011-04-14 | Led조명용 ac-dc컨버터의 제어기 |
KR10-2011-0034859 | 2011-04-14 |
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TWI520658B (zh) * | 2013-12-17 | 2016-02-01 | 隆達電子股份有限公司 | 具有調光功能的控制裝置 |
CN104409316A (zh) * | 2014-11-05 | 2015-03-11 | 安徽立轩电子科技有限公司 | 一种计次检验的节能灯 |
TWI660646B (zh) * | 2018-02-09 | 2019-05-21 | 東貝光電科技股份有限公司 | 數位控制色溫調變之發光裝置及其應用 |
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US9089021B2 (en) | 2015-07-21 |
CN103563488A (zh) | 2014-02-05 |
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US20140035475A1 (en) | 2014-02-06 |
GB201319841D0 (en) | 2013-12-25 |
GB2504638B (en) | 2015-10-28 |
KR101216677B1 (ko) | 2012-12-28 |
CN103563488B (zh) | 2015-12-02 |
KR20120117230A (ko) | 2012-10-24 |
GB2504638A (en) | 2014-02-05 |
JP2014517442A (ja) | 2014-07-17 |
JP5710834B2 (ja) | 2015-04-30 |
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