TWI449465B - Voltage-sensing dimming contorl system and method using the same - Google Patents

Description

Voltage induction type dimming control system and control method thereof

The present invention relates to a dimming control system, and more particularly to a voltage-sensing dimming control system applied to a lighting diode lighting device.

In recent years, due to the breakthrough in the manufacturing technology of the light-emitting diode (LED), the light-emitting diode and the light-emitting efficiency of the light-emitting diode have been greatly improved, and the light-emitting diode has the characteristics of energy saving, environmental protection, long life, and the like. Light-emitting diodes have gradually replaced conventional lamps or bulbs as new lighting devices, and are widely used in applications such as street lamps, home lighting devices, vehicle lights, display panel backlights, traffic sign lights, and indicator boards.

Existing road lighting is typically driven by a high pressure sodium lamp and its applicable power supply circuitry. In order to achieve energy-saving purposes, in addition to selecting high-performance lamps, it can also be realized by implementing midnight lights, which means maintaining the normal lighting brightness of the lamps before midnight, but when driving late at night, the vehicles on the roads will be relatively more Less, you can use the step-down device at the front end of the mains circuit to provide lower voltage to properly reduce the illumination brightness of the lamp, to achieve energy saving and extend the life of the lamp. However, if the existing high-pressure sodium lamp is directly replaced by a light-emitting diode lighting device, the light-emitting diode lighting device must use an existing power supply circuit structure and has no dimming function. Can not achieve the purpose of energy saving.

At present, in order to achieve the function of dimming, the light-emitting diode lighting device needs to rely on a dimming control signal to perform dimming operation on the light-emitting diode lighting device, so the light-emitting diode lighting device needs an additional dimming controller. To control the output current and output voltage of the power supply of the LED lighting device. As a result, the LED lighting device cannot utilize the existing power supply circuit architecture, and the addition of the dimming controller will increase the overall cost and complicate the design of the circuit.

The purpose of the present invention is to provide a voltage-sensing dimming control system for a light-emitting diode lighting device, which can utilize the power supply circuit structure of the existing street lamp without the need to increase the dimming controller to realize the dimming function, and can be compared. Low cost and simple lines achieve energy savings and extend the life of the lighting unit.

To achieve the above objective, the present invention provides a voltage-sensing dimming control system for controlling the brightness of a lighting device, the system comprising: a power circuit comprising: a power converter for powering the lighting device; and an output current sensor, Connected to the output of the power converter, which detects the output current of the power converter to generate the detected output current; the input voltage sensor is connected to the input of the power converter, which detects the input of the power converter The voltage is used to generate the detection input voltage; and the feedback control circuit is connected to the control end of the output current sensor, the input voltage sensor and the power converter, and the output is adjusted according to the detected output current and the detected input voltage. The light control signal controls the switching of the power converter to thereby adjust the output current of the power converter. Wherein, the feedback control circuit outputs a dimming control signal having a first state to control switching of the power converter when the input voltage of the power converter changes within the first voltage range, so that the output current of the power converter Is the first constant current, but The feedback control circuit outputs a dimming control signal having a second state to control switching of the power converter when the input voltage of the power converter changes within a second voltage range, so that the output current of the power converter is Two constant current.

In order to achieve the above object, the present invention further provides a voltage-sensing dimming control system for controlling the brightness of the lighting device, the system comprising: a power circuit comprising: a power converter for driving the lighting device; and an input voltage sensor Connected to the input of the power converter, which detects the input voltage of the power converter to generate a detected input voltage; and a feedback control circuit that is connected to the output of the power converter to detect the output of the power converter The voltage is used to generate a detection output voltage, and the feedback control circuit is connected to the control terminal of the input voltage sensor and the power converter, and outputs a dimming control signal to control the power conversion according to the detected output voltage and the detected input voltage. Switching of the switch, thereby adjusting the output voltage of the power converter. The feedback control circuit outputs a dimming control signal having a first state to control switching of the power converter when the input voltage of the power converter changes within the first voltage range, so that the output voltage of the power converter is a certain voltage, and the feedback control circuit outputs a dimming control signal having a second state to control switching of the power converter when the input voltage of the power converter changes within a second voltage range, so that the power supply The output voltage of the converter is a second constant voltage.

In order to achieve the above object, the present invention further provides a voltage-sensing dimming control system for controlling the brightness of the lighting device, the system comprising: a power circuit comprising: a power converter for driving the lighting device; and a feedback control circuit Connected to the output end of the power converter and the control end to detect the output voltage of the power converter to generate a feedback signal, and output a feedback signal to the control end of the power converter; and an input voltage sensor, connected To the input and control terminals of the power converter, which detects the electricity The input voltage of the source converter is used to generate a dimming signal to the control end of the power converter, so that the power converter controls the switching of the power converter according to the dimming signal and the feedback signal to adjust the output voltage of the power converter; When the input voltage of the power converter changes within the first voltage range, the power converter outputs the output voltage as the first constant voltage according to the dimming signal and the feedback signal, when the input voltage of the power converter is in the second voltage range. In the internal change, the power converter outputs the output voltage as the second constant voltage according to the dimming signal and the feedback signal.

To achieve the above purpose, the present invention further provides a voltage-sensing dimming control system for controlling the brightness of the lighting device. The system comprises: a power circuit comprising: a power converter for driving the lighting device; and an output current sensor; Connected to the output of the power converter, which detects the output current of the power converter to generate a detected output current; and a feedback control circuit that is connected to the output current sensor and the control end of the power converter According to a detection output current to generate a feedback signal, and output a feedback signal to the control end of the power converter; and an input voltage sensor connected to the input end and the control end of the power converter, which detects the power conversion The input voltage of the device is used to generate a dimming signal to the control end of the power converter, so that the power converter converts the switching of the power converter according to the dimming signal and the feedback signal to adjust the output voltage of the power converter; The input voltage of the converter changes within a first voltage range, and the power converter outputs output power according to the dimming signal and the feedback signal. For the first constant current when the input voltage of the power converter to changes in the second voltage range, the power converter system according to the dimming signal and the feedback signal and the output current of the second constant voltage.

In order to achieve the above object, the present invention also provides a voltage-sensing dimming control method for controlling the brightness of a lighting device, wherein the lighting device is a power converter of the power circuit. The power supply control method comprises the following steps: (a) detecting the output voltage or the output current of the power converter to control the output voltage or the output current of the power converter to be maintained at a constant voltage or a constant current; (b) detecting the power converter And receiving (c) outputting different fixed voltage output voltages or different constant current output currents to the illumination device according to the input voltage varying within different voltage ranges.

10‧‧‧ dimming control system

100‧‧‧Power circuit

120‧‧‧Power Converter

140‧‧‧Feedback control circuit

160‧‧‧Output current sensor

180‧‧‧Input voltage sensor

190‧‧‧Voltage decoder

V _in ‧‧‧Input AC voltage

V _out ‧‧‧Output DC voltage

I _out ‧‧‧Output DC current

V _dim ‧‧‧ dimming signal

Figure 1 is a block diagram of a voltage inductive dimming control system in accordance with a preferred embodiment of the present invention.

Figure 2 is a block diagram of a voltage-sensing dimming control system in accordance with another preferred embodiment of the present invention.

FIG. 3 is a block diagram of a voltage-sensing dimming control system according to still another preferred embodiment of the present invention.

Figure 4 is a block diagram of a voltage-sensing dimming control system in accordance with still another preferred embodiment of the present invention.

Fig. 5 is a modification of the voltage inductive dimming control system shown in Fig. 4.

Figure 6 is a flow chart of a method of controlling the brightness of a lighting device in accordance with a preferred embodiment of the present invention.

Figure 7 is another flow chart of the method of controlling the brightness of the illumination device shown in Figure 6.

Exemplary embodiments embodying the features and advantages of the present invention will be described in detail in the following description. It is to be understood that the present invention is capable of various modifications in the various aspects of the present invention, and the description and drawings are intended to be illustrative and not limiting.

Figure 1 is a block diagram showing a voltage inductive dimming control system in accordance with a preferred embodiment of the present invention. As shown, the voltage inductive dimming control system 10 includes a power supply circuit 100, wherein the power supply circuit 100 includes a power converter 120, an output current sensor 160, an input voltage sensor 180, and a feedback control circuit 140. The power converter 120 converts the input AC voltage V _in into an output DC voltage V _out and an output DC current I _out to drive a light-emitting diode illumination device (not shown). The output current sensor 160 is connected to the output of the power converter 120 for detecting a change in the output current of the power converter 120 and outputting a detected output current. The input voltage sensor 180 is connected to the input end of the power converter 120 for detecting a change in the input voltage of the power converter 120 and outputting a detected input voltage. Wherein, the input AC voltage V _in can vary, for example, by 110-277V _ac . The feedback control circuit 140 is connected to the input voltage sensor 180 , the output current sensor 160 and the power converter 120 , and is configured to receive the detected output current of the output current sensor 160 and the input voltage sensor 180 . Detecting an input voltage, and generating a dimming control signal according to the detected output current and detecting the input voltage, and outputting the dimming control signal to a control end (not shown) of the power converter 120, thereby controlling the power conversion The switching of the switch 120 adjusts the output voltage or output current of the power converter 120 to achieve the function of adjusting the brightness of the LED illumination device.

According to the concept of the present invention, the light-emitting diode is a constant-current driving light-emitting element, and the source of the input AC voltage V _in is generally commercial power. In order for the power converter 120 to adapt to external voltage variations to withstand a wide range of voltages from the mains, the output of the power converter 120 is a constant current or a constant voltage. Moreover, the constant current/constant voltage output by the power converter 120 is not affected by the change of the input AC voltage V _in . Therefore, the power converter 120 can be a constant current power supply that outputs a constant output current to drive the LED illumination device. In this case, the feedback control circuit 140 is configured to control the switching of the power converter 120 to switch the output current of the power converter 120 to a first constant current when the detected input voltage changes within the first voltage range; When detecting that the input voltage changes within the second voltage range, the switching of the power converter 120 is controlled such that the output current of the power converter 120 is a second constant current. For example, when the input AC voltage V _in varies within a first voltage range of, for example, 110-180V _ac , the feedback control circuit 140 generates a dimming control signal having a low state according to the received detected input voltage. And the dimming control signal whose state is low is output to the control end of the power converter 120, so that the power converter 120 outputs the first constant current and does not perform dimming control on the LED illumination device. When the input AC voltage V _in is changed within a second voltage range of, for example, 180-277V _ac , the feedback control circuit 140 generates a dimming control signal having a high state according to the received detected input voltage, and outputs the state. A high dimming control signal is applied to the control terminal of the power converter 120 to cause the power converter 120 to output a second constant current and dimming control of the LED illumination device.

Figure 2 is a block diagram showing a voltage-sensing dimming control system in accordance with another preferred embodiment of the present invention. Another possible embodiment of the present invention is that the power converter 120 can be a voltage power supply that outputs a constant output voltage to drive the LED illumination device. In this embodiment, the voltage inductive dimming control system 10 includes a power supply circuit 100, wherein the power supply circuit 100 includes a power converter 120, an input voltage sensor 180, and a feedback control circuit 140. The power converter 120 converts the input AC voltage Vin into an output DC voltage V _out and an output DC current I _out to drive a light-emitting diode illumination device (not shown). The input voltage sensor 180 is connected to the input end of the power converter 120 for detecting a change in the input voltage of the power converter 120 and outputting a detected input voltage. Wherein, the input AC voltage V _in can vary, for example, by 110-277V _ac . The feedback control circuit 140 is connected to the output of the power converter 120 to detect the output voltage of the power converter 120 and generate a detected output voltage. The feedback control circuit 140 is further connected to one of the input voltage sensor 180 and the power converter 120 (not shown), which generates a dimming control signal according to the detected output voltage and the detected input voltage, and outputs The dimming control signal is sent to the control end of the power converter 120, thereby controlling the switching of the power converter 120 to adjust the output voltage or the output current of the power converter 120 to achieve the function of adjusting the brightness of the LED illumination device. .

The feedback control circuit 140 is configured to control the switching of the power converter 120 to switch the output voltage of the power converter 120 to a first constant voltage when detecting that the input voltage changes within the first voltage range; and detecting the input voltage When changing within the second voltage range, the switching of the power converter 120 is controlled such that the output voltage of the power converter 120 is a second constant voltage. For example, when the input AC voltage V _in varies within a first voltage range of 110-180V _ac , the feedback control circuit 140 generates a dimming control signal having a low state according to the received detected input voltage, and The dimming control signal of this state is output to the control terminal of the power converter 120 such that the power converter 120 outputs the first constant voltage and does not perform dimming control of the LED illumination device. When the input AC voltage V _in varies within a second voltage range of 180-277V _ac , the feedback control circuit 140 generates a dimming control signal having a high state according to the received detected input voltage, and outputs the state as The high dimming control signal is sent to the control terminal of the power converter 120 to cause the power converter 120 to output a second constant voltage and dimming control of the LED illumination device.

In some embodiments, as shown in FIG. 3, the input voltage sensor 180 of the voltage inductive dimming control system 10 may further include a voltage decoder (voltage decoder). 190, the system is configured to decode the number of changes of the input voltage between the first voltage range and the second voltage range to change the number of times the input voltage is between the first voltage range and the second voltage range. When a certain number of times is reached within a set time, the corresponding detected input voltage is output to the feedback control circuit 140, so that the feedback control circuit 140 outputs a corresponding dimming control signal to the control end of the power converter 120, thereby controlling The switching of the power converter 120 switches to adjust the output voltage or output current of the power converter 120 to achieve the function of adjusting the brightness of the LED illumination device. By the setting of the voltage decoder 190, the voltage-induced dimming control system 10 can be prevented from malfunctioning due to a floating change in the input voltage.

The feedback control circuit 140 determines, according to the detected input voltage, that when the detected input voltage changes within the first voltage range, the switching of the power converter 120 is controlled such that the output current of the power converter 120 is the first constant current; When detecting that the input voltage changes within the second voltage range, the switching of the power converter 120 is controlled such that the output current of the power converter 120 is a second constant current. Alternatively, the feedback control circuit 140 determines, according to the detected input voltage, that when the detected input voltage changes within the first voltage range, the switching of the power converter 120 is controlled to make the output voltage of the power converter 120 be the first Voltage; and when detecting that the input voltage changes within the second voltage range, the switching of the power converter 120 is controlled such that the output voltage of the power converter 120 is a second constant voltage.

Of course, the connection relationship and the operation mode of the circuit in the voltage-sensing dimming control system are not limited to those shown in FIG. 2. In some embodiments, as shown in FIG. 4, the voltage sensor 180 may also be powered by the power source. The circuit 100 is self-contained, and the power supply circuit 100 constitutes a voltage inductive dimming control system 10, wherein the input voltage sensor 180 is electrically connected to the input end of the power converter 120 and the control end of the power converter 120 for detecting The change of the input voltage of the power converter 120 is measured and a dimming signal V _dim is outputted to the control end of the power converter 120. In addition, the feedback control circuit 140 is only connected to the output end of the power converter 120 and a control terminal. And generating a feedback signal according to detecting the output voltage of the power converter 120, and outputting the feedback signal to the control end of the power converter 120, so that the controller of the power converter 120 is based on the dimming signal. V _dim and said feedback signal to control the power converter switch 120, thereby adjusting the output voltage of the power converter 120 to achieve the function of adjusting the brightness of the light emitting diode lighting device, In addition, when the input voltage varies within a first voltage range dimming signal V _dim reaction system by the power converter 120 controls switching so that the output voltage of the power converter 120 is a first constant voltage; and when the dimming signal When the V _dim input voltage changes within the second voltage range, the power converter 120 is switched by controlling the switch so that the output current of the power converter 120 is the second constant voltage, so that the output of the power converter 120 is maintained. For constant voltage. Of course, the above embodiment can also increase the output current sensor 160 as shown in FIG. 1 , thereby achieving the output of the power converter 120 as a constant current, which will not be described herein. In the above embodiment, the voltage value of the dimming signal V _dim may be, but not limited to, set to 0 to 10 V fluctuations, and may be, but not limited to, a pulse width modulation signal.

In other embodiments, the power circuit 100 shown in FIG. 4 may also include an output current sensor 160 as shown in FIG. 1, that is, as shown in FIG. 5, the current sensor 160 is connected to the power source. The output of the converter 120 and the feedback control circuit 140 are configured to detect a change in the output current of the power converter 120 and output a detected output current, so that the feedback control circuit 140 generates a signal according to the detected output current. The feedback signal is output, and the feedback signal is output to the control end of the power converter 120. Thus, the controller of the power converter 120 controls the power converter 120 according to the dimming signal V _dim and the feedback signal. Switching, thereby adjusting the output current of the power converter 120 to achieve the function of adjusting the brightness of the LED illumination device, and further, when the dimming signal V _dim reflects the input voltage changes within the first voltage range, the power conversion the control system 120 by switching the output current of the power converter 120 is a first constant current; and when the dimming signal V _dim input voltage within the second voltage range, the power converter 120 by control lines Off switch so that the output current of the power converter 120 is a second constant current.

The method for controlling the brightness of the illumination device in the present case will be exemplarily described with reference to FIG. 6 and FIG. 1-5. As shown in FIG. 6, first, step S1 is performed, that is, the feedback control circuit 140 is used. Detecting the output current or the output voltage of the power converter 120, thereby controlling the operation of the power converter 120, maintaining the output current or the output voltage of the power converter 120 at a constant current or a constant voltage, and then performing step S2. That is, the input voltage sensor 180 detects the change of the input voltage received by the power converter 120, and finally performs step S3, that is, outputs different constant voltage output voltages according to the input voltage changes in different voltage ranges or The output current of different constant currents is given to the lighting device.

Of course, in other embodiments, as shown in FIG. 7, in step S3, for example, the voltage decoder 190 shown in FIG. 3 can be used to decode the input voltages in different voltage ranges for different times. When the input voltage changes within a different voltage range for a certain number of times, a different constant voltage output voltage or a different constant current output current is output to the illumination device.

In summary, the present invention proposes a voltage-sensing dimming control system and a control method thereof for controlling the brightness of a light-emitting diode lighting device. The voltage-sensing dimming control system of the present invention can make the input AC of the power supply of the LED lighting device When the voltage changes within different voltage ranges, different constant voltages or constant currents are output to the light-emitting diode illumination device, thereby controlling the brightness of the light-emitting diode illumination device to achieve the function of adjusting the brightness of the light-emitting diode illumination device. . Therefore, the voltage-sensing dimming control system of the present invention can realize the dimming function by using the power supply circuit structure of the existing street lamp without adding a dimming controller, and can achieve energy saving and extended lighting device use at a lower cost and a simple line. The effect of life.

This case has been modified by people who are familiar with the technology, but it is not intended to be protected by the scope of the patent application.

10‧‧‧ dimming control system

100‧‧‧Power circuit

120‧‧‧Power Converter

140‧‧‧Feedback control circuit

160‧‧‧Output current sensor

180‧‧‧Input voltage sensor

Claims (10)

A voltage-sensing dimming control system for controlling the brightness of an illumination device, the system comprising: a power supply circuit comprising: a power converter for driving the illumination device; and an output current sensor connected to An output end of the power converter detects an output current of the power converter to generate a detected output current; an input voltage sensor is connected to an input end of the power converter, and the system detects An input voltage of the power converter to generate a detection input voltage; and a feedback control circuit coupled to the output current sensor, the input voltage sensor, and a control end of the power converter, The detection output current and the detection input voltage output a dimming control signal to control switching of the power converter, thereby adjusting an output current of the power converter; wherein the feedback control circuit is in the power supply Outputting the dimming control signal having a first state to control switching of the power converter when the input voltage of the converter changes within a first voltage range The output current of the power converter is a first constant current, and the feedback control circuit is configured to have a second state when the input voltage of the power converter changes within a second voltage range The dimming control signal controls the switching of the power converter such that the output current of the power converter is a second constant current. The voltage-sensing dimming control system of claim 1, wherein the input voltage sensor further comprises a voltage decoder for constructing the input The number of fluctuations of the voltage between the first voltage range and the second voltage range is decoded, and the number of changes of the input voltage between the first voltage range and the second voltage range reaches one in a set time At a specific number of times, the corresponding detected input voltage is output. A voltage-sensing dimming control system for controlling the brightness of an illumination device, the system comprising: a power supply circuit comprising: a power converter for driving the illumination device; an input voltage sensor connected to An input end of the power converter detects an input voltage of the power converter to generate a detection input voltage; and a feedback control circuit is connected to an output end of the power converter to detect the The output voltage of the power converter generates a detected output voltage, and the feedback control circuit is connected to the input voltage sensor and a control end of the power converter, according to the detected output voltage and the detection Inputting a voltage, outputting a dimming control signal to control switching of the power converter, thereby adjusting an output voltage of the power converter; wherein the feedback control circuit is when the input voltage of the power converter is Outputting a dimming control signal having a first state to control switching of the power converter when a voltage range changes, such that the power converter The output voltage is a first constant voltage, and the feedback control circuit outputs the dimming control signal having a second state when the input voltage of the power converter changes within a second voltage range The switching of the power converter is controlled such that the output voltage of the power converter is a second constant voltage. The voltage inductive dimming control system of claim 3, wherein the input voltage sensor further comprises a voltage decoder to be configured to input the input The number of fluctuations of the voltage between the first voltage range and the second voltage range is decoded, and the number of changes of the input voltage between the first voltage range and the second voltage range reaches one in a set time At a specific number of times, the corresponding detected input voltage is output. A voltage-sensing dimming control system for controlling brightness of an illumination device, the system comprising: a power supply circuit comprising: a power converter for driving the illumination device; and a feedback control circuit coupled to the An output end of the power converter and a control end for detecting an output voltage of the power converter to generate a feedback signal, and outputting the feedback signal to the control end of the power converter; and an input voltage sense a detector connected to an input end of the power converter and the control end, detecting an input voltage of the power converter to generate a dimming signal to the control end of the power converter, so that the power converter Controlling switching of the power converter according to the dimming signal and the feedback signal to adjust an output voltage of the power converter; wherein when the input voltage of the power converter changes within a first voltage range, the The power converter outputs the output voltage as a first constant voltage according to the dimming signal and the feedback signal, and when the input voltage of the power converter is at a second voltage Changes in circumference, the power converter system according to the dimming signal and the feedback signal and outputs the second output voltage is a constant voltage. The voltage-sensing dimming control system of claim 5, wherein the input voltage sensor further comprises a voltage decoder to frame the input voltage in the first voltage range and the second voltage range The number of changes between the two is decoded, and when the input voltage is between the first voltage range and the second voltage range When the number of changes reaches a certain number of times within a set time, the corresponding dimming signal is output. A voltage-sensing dimming control system for controlling the brightness of an illumination device, the system comprising: a power supply circuit comprising: a power converter for driving the illumination device; and an output current sensor connected to An output end of the power converter detects an output current of the power converter to generate a detected output current; a feedback control circuit is coupled to the output current sensor and the power converter a control terminal, configured to generate a feedback signal according to the detected output current, and output the feedback signal to the control end of the power converter; and an input voltage sensor connected to the power converter The input end and the control end detect the input voltage of the power converter to generate a dimming signal to the control end of the power converter, so that the power converter is based on the dimming signal and the feedback signal Controlling switching of the power converter to adjust an output current of the power converter; wherein when the input voltage of the power converter changes within a first voltage range, the power source The converter outputs the output current as a first constant current according to the dimming signal and the feedback signal, and when the input voltage of the power converter changes within a second voltage range, the power converter is configured according to the The dimming signal and the feedback signal output the output current as a second constant current. The voltage-sensing dimming control system of claim 7, wherein the input voltage sensor further comprises a voltage decoder for constructing the input voltage in the first voltage range and the second voltage range The number of changes between the two is decoded, and when the input voltage is between the first voltage range and the second voltage range When the number of changes reaches a certain number of times within a set time, the corresponding dimming signal is output. A voltage-sensing dimming control method for controlling the brightness of an illumination device, wherein the illumination device is powered by a power converter of a power supply circuit, the method comprising the following steps: (a) detecting the power converter Output voltage or output current to control the output voltage or output current of the power converter to be maintained at a constant voltage or constant current; (b) detecting a change in the input voltage received by the power converter; and (c) depending on the input voltage When varying in different voltage ranges, different output voltages of constant voltage or different constant current output currents are output to the lighting device. The voltage inductive dimming control method according to claim 9, wherein in the step (c), the input voltage is decoded in different voltage ranges for decoding, when the input voltage is at different voltages. When the number of changes in the range reaches a certain number of times within a set time, an output voltage of a different constant voltage or an output current of a different constant current is output to the illumination device.