KR20200121943A - Constant voltage driver and the operation method - Google Patents

Abstract

The present invention provides a constant voltage driver including: a type conversion unit for converting an input first DC voltage into a second DC voltage; an LED driving unit supplying one of the first and second DC voltages to an LED module; a relay unit supplying the first DC voltage to the type conversion unit or the LED driving unit; and a control unit which determines whether the first DC voltage supplied to the relay unit is a constant current or a constant voltage type, and if the first DC voltage is determined to be the constant current type, converts the first DC voltage to the second DC voltage of the constant voltage type to be supplied to the LED driving unit by controlling the relay unit and the type conversion unit. According to the present invention, it is easy to apply the constant voltage driver to an existing LED lighting fixture, and power energy can be saved.

Description

Constant voltage driver and the operation method

The present invention relates to a constant voltage driver and a method of operating the same, and more particularly, to a constant voltage driver supporting a constant current and constant voltage type switching mode power supply and an operating method thereof.

With the development of the lighting industry with the advancement of technology, the development of a dimming control device that can precisely control the desired brightness beyond the simple ON and OFF control method is remarkable.

In general, a switching mode power supply (SMPS) is most often used as a power source for LED lighting equipment.

SMPS is divided into two main types of voltage output methods supplied to LED lighting equipment: Constant Current (CC) and Constant Voltage (CV), and CV, a more stable voltage driving method for driving LEDs. The way is efficient.

Accordingly, in the LED lighting fixture, the LED driver that drives the LED may vary according to the voltage output method of the SMPS.

In recent years, research on a device capable of driving an LED regardless of the voltage output method of SMPS, that is, the CC method and the CV method is in progress.

Korean Registered Patent Publication No. 10-1278540 (2013.06.19.)

An object of the present invention is, more particularly, to provide a constant voltage driver supporting a constant current and constant voltage type switching mode power supply and an operating method thereof.

The object of the present invention is not limited to the above-mentioned object, and other objects and advantages of the present invention not mentioned can be understood by the following description, and will be more clearly understood by the examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

The constant voltage driver according to the present invention includes a type conversion unit that converts an input first DC voltage into a second DC voltage, an LED driver that supplies one of the first and second DC voltages to the LED module, and the first DC When determining whether the relay unit supplying a voltage to the type conversion unit or the LED driving unit and the first DC voltage supplied to the relay is a constant current or a constant voltage type, and when the first DC voltage is determined to be a constant current type, the first It may include a controller that converts the DC voltage into the second DC voltage of the constant voltage type and controls the relay and the type conversion unit to be supplied to the LED driving unit.

The type conversion unit may convert the first DC voltage into the second DC voltage by switching based on the PWM signal output from the control unit.

The control unit may include a voltage check unit determining whether the first DC voltage is a constant current type or a constant voltage type, and if the first DC voltage is a constant current type, the second DC voltage of the constant voltage type corresponding to the output voltage set by the LED driver is A PWM generator that generates a PWM signal to be output and outputs it to the type conversion unit, and if the first DC voltage is a constant current type, the relay is controlled to supply the first DC voltage to the type conversion unit, and the first DC voltage is If it is a constant voltage type, it may include a driving control unit for controlling the relay so that the first DC voltage is supplied to the LED driving unit.

The voltage check unit may determine whether the first DC voltage is a constant current type or a constant voltage type by applying the first DC voltage to a set ADC analysis algorithm.

When the first DC voltage is a constant current type, the PWM generator measures the accumulated voltage by sampling the first DC voltage a predetermined number of times for a predetermined period, and the second DC voltage is output based on the accumulated voltage. It can generate a PWM signal.

When the control unit operates in a dimming control mode that controls dimming of the light emitted from the LED module, the control unit changes one of the first and second DC voltages to a first dimming voltage and supplies it to the LED module. To be able to control the LED driver.

Further comprising a motion recognition sensor unit, the control unit, when a recognition signal is input from the motion recognition sensor unit, by varying one of the first and second DC voltage to a second dimming voltage higher than the first dimming voltage It is possible to control the LED driver to be supplied to the LED module.

A wireless communication unit that performs communication with an external device and receives illumination information transmitted from the external device, wherein the control unit is configured to vary one of the first and second DC voltages according to the illumination information. The LED driving unit may be controlled to vary the illuminance of light emitted from the LED module.

The method of operating the constant voltage driver according to the present invention includes determining whether a first DC voltage input to the relay unit is a constant current type or a constant voltage type, and if the first DC voltage is a constant current type, the first DC voltage is supplied to the type conversion unit. And controlling the relay unit to convert the first DC voltage into a second DC voltage of a constant voltage type to be supplied to an LED driving unit that operates the LED module.

In determining whether the first DC voltage is a constant current type or a constant voltage type, it may be determined whether the first DC voltage is a constant current type or a constant voltage type by applying the first DC voltage to a set ADC analysis algorithm.

The controlling of the type conversion unit includes measuring the accumulated voltage by sampling the first DC voltage at a predetermined number of times for a predetermined period, and generating the PWM signal to output the second DC voltage based on the accumulated voltage. And outputting the PWM signal to the type converter to convert the first DC voltage into the second DC voltage by switching the type converter.

After determining whether the first DC voltage is a constant current type or a constant voltage type,

If the first DC voltage is a constant voltage type, the step of controlling the relay unit so that the first DC voltage is supplied to the LED driving unit may further include.

The constant voltage driver and its operation method according to the present invention are easy to apply to existing LED lighting fixtures by stably supplying a constant voltage type DC voltage to the LED module regardless of the voltage output method of the switching mode power supply, There is an advantage of saving power energy.

In addition, the constant voltage driver and its operation method according to the present invention have an advantage of reducing eye fatigue of a user by being able to vary the illuminance of the LED module according to illuminance information received from an external device.

In addition, the constant voltage driver and its operation method according to the present invention can reduce power energy by operating in a dimming control mode.

In addition to the above-described effects, specific effects of the present invention will be described together while describing specific details for carrying out the present invention.

1 is a block diagram showing a control configuration of an LED lighting fixture including a constant voltage driver according to the present invention.
2 is a control block diagram showing a control configuration of the constant voltage driver shown in FIG. 1.
3 is a flow chart illustrating a method of operating a constant voltage driver according to the first embodiment of the present invention.
4 is a flowchart illustrating a method of operating a constant voltage driver according to a second embodiment of the present invention.

In the following description, it should be noted that only parts necessary for understanding the embodiments of the present invention will be described, and descriptions of other parts will be omitted so as not to obscure the subject matter of the present invention.

The terms or words used in the specification and claims described below should not be construed as being limited to a conventional or dictionary meaning, and the inventor is appropriate as a concept of terms in order to describe his own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention on the basis of the principle that it can be defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only preferred embodiments of the present invention, and do not represent all the technical spirit of the present invention, and various equivalents that can replace them at the time of application And it should be understood that there may be variations.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is a block diagram showing a control configuration of an LED lighting fixture including a constant voltage driver according to the present invention.

Referring to FIG. 1, the LED lighting fixture 100 may include a switching mode power supply 110 (hereinafter referred to as'SMPS'), a constant voltage driver 120 and an LED module 130.

The SMPS 110 may output a first DC voltage Vdc of a constant current type (hereinafter referred to as'CV') or a constant voltage type (hereinafter referred to as'CC') according to a voltage driving method.

That is, the SMPS 110 may convert the AC power input through the power line into the first DC voltage Vdc, which is the driving power, and supply the converted AC power to the constant voltage driver 120.

When the first DC voltage Vdc output from the SMPS 110 is input, the constant voltage driver 120 may determine whether the first DC voltage Vdc is a CC type or a CV type.

Here, the constant voltage driver 120 may determine whether it is a CC type or a CV type by applying the first DC voltage Vdc to a set ADC analysis algorithm.

When the first DC voltage Vdc is a CV type, the constant voltage driver 120 may output the first DC voltage Vdc to the LED module 130.

In addition, if the first DC voltage (Vdc) is a CC type, the constant voltage driver 120 may output a second DC voltage (Vdc_cv) converted from the first DC voltage (Vdc) into a CV type to the LED module 130. have.

When operating in the dimming control mode, the constant voltage driver 120 changes the voltage level of the first DC voltage (Vdc) or the second DC voltage (Vdc_cv) according to the dimming control and outputs it to the LED module 130. I can.

In addition, when recognizing a moving object, the constant voltage driver 120 may vary the voltage level of the first DC voltage Vdc or the second DC voltage Vdc_cv and output it to the LED module 130.

The operation of the above-described constant voltage driver 120 will be described later in FIG. 2.

The LED module 130 may emit light according to the first DC voltage (Vdc) or the second DC voltage (Vdc_cv) output from the constant voltage driver 120.

Here, the LED module 130 may include a plurality of LEDs, but is not limited thereto.

2 is a control block diagram showing a control configuration of the constant voltage driver shown in FIG. 1.

2, the constant voltage driver 120 includes a type conversion unit 210, an LED driver 220, a relay unit 230, a motion recognition sensor unit 240, a wireless communication unit 250, and a control unit 260. Can include.

When the first DC voltage (Vdc) output from the SMPS 110 mentioned in FIG. 1 is input, the type conversion unit 210 converts the first DC voltage (Vdc) into a second DC voltage (Vdc_cv) of the CV type. can do.

At this time, the type conversion unit 210 switches based on the PWM signal PWM1 output from the control unit 260 to convert the first DC voltage Vdc into a CC type second DC voltage Vdc_cv, and the LED driver You can print it out as (220).

The LED driver 220 may supply the first DC voltage (Vdc) input according to the switching operation of the relay unit 230 or the second DC voltage (Vdc_cv) output from the type conversion unit 210 to the LED module 130. I can.

In this case, the LED driver 220 may supply the first DC voltage (Vdc) or the second DC voltage (Vdc_cv) to the LED module 130 under the control of the controller 260.

Here, the LED driver 220 may vary the voltage level of the first DC voltage Vdc or the second DC voltage Vdc_cv and supply it to the LED module 130.

The relay unit 230 may supply the first DC voltage Vdc output from the SMPS 110 to the type conversion unit 210 or the LED driving unit 220.

That is, the relay unit 230 may perform a switching operation under the control of the controller 260 to supply the first DC voltage Vdc to the type conversion unit 210 or the LED driving unit 220.

The motion recognition sensor unit 240 may include at least one sensor for recognizing an object or a person.

The motion recognition sensor unit 240 may output a recognition signal s to the controller 260 when recognizing an object or a person.

The wireless communication unit 250 communicates with an external device and may receive illumination information f transmitted from the external device.

In this case, the wireless communication unit 250 may output the illuminance information f to the control unit 260.

The control unit 260 may include a voltage check unit 262, a PWM generator 264 and a driving control unit 266.

First, when the first DC voltage (Vdc) output from the SMPS 110 is input to the relay unit 230, the voltage check unit 262 determines whether the first DC voltage (Vdc) is a CC type or a CV type. I can.

The voltage checker 262 may apply the first DC voltage Vdc to a set ADC analysis algorithm to determine whether it is a CC type or a CV type.

When the first DC voltage Vdc is a CC type, the PWM generator 264 samples the first DC voltage Vdc a predetermined number of times during a predetermined period to measure the accumulated voltage, and based on the accumulated voltage, the second The PWM signal PWM may be generated to output the DC voltage Vdc_cv and may be output to the type converter 210.

When the first DC voltage Vdc is a CC type, the driving control unit 266 may control the relay unit 230 so that the first DC voltage Vdc is supplied to the type conversion unit 210.

In addition, when the first DC voltage Vdc is a CV type, the driving control unit 266 may control the relay unit 230 so that the first DC voltage Vdc is supplied to the LED driving unit 220.

When operating in the dimming control mode, the driving control unit 266 changes one of the first and second DC voltages (Vdc, Vdc_cv) supplied to the LED driving unit 220 to the first dimming voltage (V_d1) to the LED module. To be supplied to 130, it is possible to control the LED driving unit 220.

In this case, the driving control unit 266 may adjust the voltage level of the voltage output from the LED driving unit 220 between 0% and 100%.

When the recognition signal s is input from the motion recognition sensor unit 240, the driving control unit 266 sets one of the first and second DC voltages Vdc and Vdc_cv supplied to the LED driving unit 220 to the first voltage. The LED driver 220 may be controlled to be changed to a second dimming voltage V_d2 higher than the dimming voltage V_d1.

That is, the driving control unit 266 determines that an object or person has been recognized according to the input of the recognition signal s, and the second dimming voltage higher than the first dimming voltage V_d1 is determined to increase the illuminance of the LED module 130. The LED driver 220 may be controlled so that the voltage V_d2 is supplied to the LED module 130.

In addition, when illuminance information f is input from the wireless communication unit 250, the driving control unit 266 converts one of the first and second DC voltages Vdc and Vdc_cv supplied to the LED driver 220 into illuminance information. It is possible to control the LED driver 220 to be supplied to the LED module 130 by varying the voltage level of the voltage matched to (f).

3 is a flow chart illustrating a method of operating a constant voltage driver according to the first embodiment of the present invention.

Referring to FIG. 3, the control unit 260 of the constant voltage driver 120 may determine whether the first DC voltage Vdc input to the relay unit 230 is a CC type or a CV type (S310).

When the first DC voltage Vdc is a CC type, the controller 260 may control the relay unit 230 so that the first DC voltage Vdc is supplied to the type conversion unit 210 (S320).

Thereafter, the controller 260 may measure the accumulated voltage by sampling the first DC voltage Vdc at a predetermined number of times during a predetermined period (S330).

The controller 260 may generate a PWM signal PWM such that a second DC voltage Vdc_cv of a CV type is output based on the accumulated voltage (S340).

The control unit 260 outputs a PWM signal (PWM) to the type conversion unit 210 so that the type conversion unit 210 converts the first DC voltage (Vdc) into a second DC voltage (Vdc_cv) and is output. Can be (S350).

In addition, after step (S310), when the first DC voltage (Vdc) is a CV type, the control unit 260 controls the relay unit 230 so that the first DC voltage (Vdc) is supplied to the LED driver 220. Can be (S360).

Here, the LED driver 220 may supply a first DC voltage (Vdc) or a second DC voltage (Vdc_cv) to the LED module 130 that emits light.

4 is a flowchart illustrating a method of operating a constant voltage driver according to a second embodiment of the present invention.

4 shows a method of operating a constant voltage driver operating in a dimming control mode differently from FIG. 3.

Referring to FIG. 4, when a dimming control command received from the wireless communication unit 240 is transmitted, the controller 260 of the constant voltage driver 120 may operate in a dimming control mode (S410).

In this case, when operating in the dimming control mode, the controller 260 may control the LED driver 220 so that the set first dimming voltage Vd1 is supplied to the LED module 130 (S420).

Thereafter, the control unit 260 may determine whether to receive the recognition signal s transmitted from the motion recognition sensor unit 240 (S430).

When the recognition signal s is received, the controller 260 may control the LED driver 220 so that a second dimming voltage Vd2 higher than the first dimming voltage Vd1 is supplied to the LED module 130. (S440).

After step (S430), if the recognition signal (s) is not received, the control unit 260 determines whether the supply time of the first dimming voltage (Vd1) satisfies the set time (S450), and the first dimming voltage (Vd1) When the supply time of) satisfies the set time, the LED driver 220 may be controlled so that the supply of the first dimming voltage Vd1 is cut off (S460).

After step (S450), if the supply time of the first dimming voltage Vd1 does not satisfy the set time, the controller 260 may control the LED driver 220 to supply the first dimming voltage Vd1. .

After step (S450), when the wireless communication unit 250 receives the illuminance signal f transmitted from the external device, the controller 260 determines the illuminance of the light emitted from the LED module 130 according to the illuminance information f. It is possible to control the LED driver 220 to be variable (S470).

As described above, the constant voltage driver according to the present invention can automatically adjust the supply time of the first and second dimming voltages Vd1 and Vd2 according to a set time interval or a set lighting-off time.

Features, structures, effects, etc. described in the embodiments above are included in at least one embodiment of the present invention, and are not necessarily limited to only one embodiment. Further, the features, structures, effects, etc. illustrated in each embodiment may be combined or modified for other embodiments by a person having ordinary knowledge in the field to which the embodiments belong. Therefore, contents related to such combinations and modifications should be construed as being included in the scope of the present invention.

In addition, although the embodiments have been described above, these are only examples and do not limit the present invention, and those of ordinary skill in the field to which the present invention pertains are illustrated above without departing from the essential characteristics of the present embodiment. It will be seen that various modifications and applications that are not available are possible. For example, each component specifically shown in the embodiment can be modified and implemented. And differences related to these modifications and applications should be construed as being included in the scope of the present invention defined in the appended claims.

210: type conversion unit
220: LED driver
230: relay unit
240: motion recognition sensor unit
250: wireless communication unit
260: control unit

Claims (12)

A type conversion unit that converts the input first DC voltage into a second DC voltage;
An LED driver supplying one of the first and second DC voltages to the LED module;
A relay unit supplying the first DC voltage to the type conversion unit or the LED driving unit; And
It is determined whether the first DC voltage supplied to the relay is a constant current or a constant voltage type, and if the first DC voltage is determined to be a constant current type, the first DC voltage is converted into the second DC voltage of the constant voltage type and the LED Including a control unit for controlling the relay and the type conversion unit to be supplied to the driving unit,
Constant voltage driver. The method of claim 1,
The type conversion unit,
Converting the first DC voltage to the second DC voltage by switching operation based on the PWM signal output from the control unit,
Constant voltage driver. The method of claim 1,
The control unit,
A voltage checking unit determining whether the first DC voltage is a constant current type or a constant voltage type;
When the first DC voltage is a constant current type, a PWM generator for generating a PWM signal to output the second DC voltage of the constant voltage type corresponding to the output voltage set by the LED driver and outputting to the type converter; And
If the first DC voltage is a constant current type, the relay is controlled to supply the first DC voltage to the type conversion unit, and if the first DC voltage is a constant voltage type, the relay is supplied to the first DC voltage to the LED driver. Including a driving control unit to control,
Constant voltage driver. The method of claim 3,
The voltage check unit,
Applying the first DC voltage to a set ADC analysis algorithm to determine whether it is a constant current type or a constant voltage type,
Constant voltage driver. The method of claim 3,
The PWM generator,
If the first DC voltage is a constant current type, the first DC voltage is sampled a predetermined number of times for a predetermined period to measure an accumulated voltage, and the PWM signal is generated to output the second DC voltage based on the accumulated voltage. ,
Constant voltage driver. The method of claim 1,
The control unit,
When operating in a dimming control mode that controls the dimming of the light emitted from the LED module, the LED driver is supplied to the LED module by varying one of the first and second DC voltages to a first dimming voltage. To control,
Constant voltage driver. The method of claim 6,
Further comprising a motion recognition sensor unit,
The control unit,
When a recognition signal is input from the motion recognition sensor unit, controlling the LED driver to be supplied to the LED module by varying one of the first and second DC voltages to a second dimming voltage higher than the first dimming voltage. ,
Constant voltage driver. The method of claim 1,
Further comprising a wireless communication unit for performing communication with an external device and receiving illumination information transmitted from the external device,
The control unit,
Controlling the LED driver to vary the illuminance of light emitted from the LED module by varying one of the first and second DC voltages according to the illuminance information,
Constant voltage driver. Determining whether the first DC voltage input to the relay unit is a constant current type or a constant voltage type;
If the first DC voltage is a constant current type, controlling the relay unit to supply the first DC voltage to a type conversion unit; And
Including the step of converting the first DC voltage to a second DC voltage of a constant voltage type and controlling the type conversion unit to be supplied to an LED driving unit operating the LED module
How to operate a constant voltage driver. The method of claim 9,
Determining whether the first DC voltage is a constant current type or a constant voltage type,
Applying the first DC voltage to a set ADC analysis algorithm to determine whether it is a constant current type or a constant voltage type,
How to operate a constant voltage driver. The method of claim 9,
Controlling the type conversion unit,
Measuring an accumulated voltage by sampling the first DC voltage a predetermined number of times during a predetermined period;
Generating the PWM signal to output the second DC voltage based on the accumulated voltage; And
Including the step of outputting the PWM signal to the type conversion unit to convert the first DC voltage to the second DC voltage by the type conversion unit switching operation,
How to operate a constant voltage driver. The method of claim 9,
After determining whether the first DC voltage is a constant current type or a constant voltage type,
If the first DC voltage is a constant voltage type, further comprising the step of controlling the relay unit so that the first DC voltage is supplied to the LED driving unit,
How to operate a constant voltage driver.

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