KR101132188B1 - Ripple elimination device - Google Patents

Abstract

PURPOSE: A ripple elimination apparatus of a power circuit for an LED lamp is provided to efficiently eliminate only ripple component by connecting a transistor to an output terminal of a direct current voltage output part and eliminating the ripple component with a linear method. CONSTITUTION: A direct current voltage output part(3) changes an alternating current power source outputted in a transformer(2) into direct current voltage and supplies to an LED lamp(5). The LED lamp is composed of a plurality of LEDs turned on by using the direct current voltage provided in the direct current voltage output part. A condenser(C3) passes through a ripple component outputted in the direct current voltage output part. A transistor(Q2) offsets an output current outputted to a collector terminal as a ripple current. A Zener diode(ZD1) prevents exaggerated reverse voltage to be generated between an emitter and a base of the transistor.

Description

Ripple elimination device for power supply circuit for LED lighting

The present invention relates to a ripple removing device of a power supply circuit for an LED luminaire, and more particularly, a condenser for passing an alternating current of a ripple component is connected to a base stage, and outputs to the emitter stage by attenuating the base current by the ripple current. Only the ripple component can be efficiently removed by connecting the transistor that cancels the current by the ripple current to the output terminal of the DC voltage output unit in a linear manner, and does not significantly affect the efficiency and basic operating characteristics of the existing converter. The present invention relates to a ripple elimination device for an LED luminaire power supply circuit which can apply output short circuit protection function and other protection functions in the same way, and which can expect electromagnetic wave improvement, cost reduction, and small size and light weight of the product.

1 shows a conventional power supply circuit for LED lighting,

A bridge diode (1) for rectifying the commercial AC power input; A smoothing capacitor C1 for smoothing the voltage rectified by the bridge diode 1 and a voltage supplied to the primary coil by being smoothed by the smoothing capacitor C1 according to the switching operation of the transistor Q1 and alternating to the secondary coil. A transformer 2 for inducing and outputting a power source; A direct current voltage output unit (3) comprising a diode (D1) and a condenser (C2) for converting the AC power output from the transformer (2) into a direct current voltage and supplying the LED lamp (5) as a load; An LED lamp (5) consisting of a plurality of LEDs which are driven and driven by the voltage supplied from the DC voltage output unit (3); An output voltage and current sensing unit 10 for sensing a voltage output from the DC voltage output unit 3 and a current flowing in the LED lamp 5; A compensator 6 for outputting a compensation value to the photocoupler 7 so that the voltage and current supplied to the LED lamp 5 are kept constant; A photocoupler 7 comprising a photoconductor diode and a photoconductor transistor for supplying a compensation value output from the compensator 6 to the controller 9 through an error amplifier 8 of a control stage; A control unit (9) for controlling the switching operation of the transistor (Q1) in the PWM (pulse width modulation) method according to the compensation value supplied through the photocoupler (7); It consists of.

Referring to the operation of the power supply circuit configured in this way,

First, when power is initially supplied, the bridge diode 1 rectifies and outputs the commercial AC power input, and the smoothing capacitor C1 smoothes the voltage output from the bridge diode 1 to the primary side of the transformer 2. The transformer 2 supplies the coil to the secondary voltage coil in proportion to the voltage supplied to the primary coil in accordance with the switching operation of the transistor Q1, and supplies it to the DC voltage output unit 3.

The diode D1 and the capacitor C2 constituting the DC voltage output unit 3 convert the AC voltage output from the transformer 2 into DC voltage and supply the LED voltage to the LED lamp 5 to turn on the LED lamp 5. Let's do it.

At this time, the output voltage and current detection unit 10 detects the voltage and current supplied to the LED lamp 5 and outputs it to the compensation unit 6, the compensation unit 6 is the output voltage and current detection unit 10 After comparing the detected value output from the reference value with a reference value to compensate the difference is output to the photocoupler (7), the photocoupler (7) outputs the compensation value output from the compensator (6) 8) outputs to the control unit 9, and the control unit 9 changes the PWM control cycle of the transistor Q1 according to the input compensation value so that the constant current is always constant at the DC voltage output unit 3 LED lamp 5 ) Is supplied to

However, the conventional constant current power supply circuit as shown in FIG. 1 sets the capacity of the smoothing capacitor C1 installed at the output terminal of the bridge diode to improve the power factor and harmonics, etc. in the LED lighting luminaire. A lot of ripple components are included in the power supplied to the load side through the output unit 3, and accordingly, a power supply with a large ripple included in the LED lamp is supplied, thereby flickering the LED lamp by the ripple component ( The flicker phenomenon occurs, and consumers are easily tired of eyes due to the flicker phenomenon of LED lamps.

In order to solve this problem, as shown in FIG. 2, a DC-DC converter 4 for removing ripples by switching to the output terminal of the DC voltage output unit 3 is also configured to remove ripples. 4) If the output short circuit protection function of the LED lighting luminaire's power supply itself cannot be applied, output short circuit protection should be added to the DC-DC converter. As a result, an increase in the number of components caused a problem in product cost.

In addition, in order to solve the above problems, a two-stage converter method in which a power factor correction circuit is added to an input terminal has been provided. However, the conventional technology also reduces the efficiency by operating the power factor correction circuit as a switching method, and causes electromagnetic interference noise due to switching noise. As a result, cost increases due to the increase in the number of components and the increase in the number of components, and relatively large parts were applied, causing problems of miniaturization and light weight.

Therefore, the present invention for solving the above problems is connected to the base terminal capacitor to pass the AC current of the ripple component connected to the base stage to attenuate the base current by the ripple current to cancel the output current output to the emitter stage by the ripple current By removing the ripple component by linear method by connecting the transistor to the output terminal of the DC voltage output unit, only the ripple component can be removed efficiently, and it does not affect the efficiency and basic operating characteristics of the existing converter, and the output short circuit protection function and other It is an object of the present invention to provide a ripple removal device for an LED luminaire power supply circuit that can apply the same protection function and to improve the electromagnetic wave interference, reduce the cost, and reduce the size and weight of the product.

According to an aspect of the present invention,

A DC voltage output unit converting the AC power output from the transformer into a DC voltage and supplying the LED lamp as a load; In the ripple removal device of the power supply circuit for the LED luminaire comprising a; LED lamp made of a plurality of LEDs are turned on by driving with a voltage supplied from the DC voltage output unit,

A ripple canceling part consisting of a transistor that connects a capacitor that passes the ripple component of the voltage output from the DC voltage output part to the base end, attenuates the base current by the ripple current, and cancels the output current output to the collector terminal by the ripple current. Connect to the output terminal of the output, but

When the output of DC voltage output is cut off by the protection function, emitter and base of transistor are prevented to prevent excessive reverse voltage between emitter and base of transistor by momentary unstable charge and discharge of capacitor. A zener diode for limiting reverse voltage to be connected is further configured.

According to the present invention, only the ripple component can be efficiently removed by removing the ripple component in a linear manner, and the output short circuit protection function and other protection functions can be equally applied without having a great influence on the efficiency and basic operating characteristics of the existing converter. In addition, it is possible to expect the effect of improving the electromagnetic interference, cost reduction, and small size and light weight of the product can be expected.

1 is a circuit diagram showing a conventional constant current power supply circuit for LED lighting.
2 is a circuit diagram showing another embodiment of the prior art.
3 is a view showing a ripple removing apparatus of a constant current power supply circuit for LED lighting of the present invention.

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

In the description of the present invention, the same components as in the prior art will be denoted by the same reference numerals to avoid redundant description.

According to the above drawings,

A DC voltage output unit 3 for converting an AC power output from the transformer 2 into a DC voltage and supplying the LED lamp 5 as a load; In the ripple removal apparatus of the power supply circuit for the LED luminaire comprising a; LED lamp (5) consisting of a plurality of LEDs that are driven and driven by the voltage supplied from the DC voltage output unit (3),

A capacitor C3 passing the ripple component of the voltage output from the DC voltage output unit 3 is connected to the base stage to attenuate the base current by the ripple current to cancel the output current output to the collector stage by the ripple current ( The ripple removing unit 20 made of Q2) is connected to the output terminal of the DC voltage output unit 3, but

When the output of the DC voltage output unit 3 is blocked by the protection function, an excessive reverse voltage is generated between the emitter and the base of the transistor Q2 due to the momentary unstable charging and discharging of the capacitor C3. In order to prevent this, a zener diode ZD1 for limiting reverse voltage connecting the emitter and the base of the transistor Q2 is further configured.

In addition, the ripple removing unit 20 is a means for protecting the damage of the transistor Q2 due to the discharge current of the capacitor C3 when the output of the DC voltage output unit 3 is blocked by the protection function. A capacitor C4 having a larger capacitance value than that of C3 is connected to the output terminal of the transistor Q2 so that the discharge operation of the capacitor C3 is delayed, and the discharge current of the capacitor C3 is reduced by the transistor Q2. It is characterized in that it further comprises a diode (D4) for bypassing the flow to the collector stage without being supplied to the base stage.

In addition, the ripple removing unit 20 prevents the transistor Q2 from being damaged during the initial charging time of the capacitor C3 when the output of the DC voltage output unit 3 is blocked by the protection function and then the power is supplied again. To this end, the diodes D2 and D3 connecting the collector terminal and the emitter terminal of the transistor Q2 are further configured.

Referring to the operation of the present invention configured as described above is as follows.

When a normal DC voltage that does not include a ripple component in the DC voltage output from the DC voltage output unit 3 is supplied to the ripple removing unit 20,

The current by the normal DC voltage flows through the resistors R1 and R2 to the base terminal of the transistor Q2, and the output current is output to the emitter terminal of the transistor Q2 according to the amount of base current flowing to the base terminal. The LED which is supplied to (5) and forms the LED lamp 5 is controlled to be lit.

On the other hand, when the ripple component is included in the DC voltage output from the DC voltage output section 3, the AC current of the ripple component is supplied to the capacitor C3 through the resistor R1, and the capacitor C3 is ripple. Pass the AC current of the component and output it to the ground side.

As a result, the base current of the transistor Q2 is attenuated by the alternating current of the ripple component passed by the capacitor C3, and the output current output to the collector terminal of the transistor Q2 as the base current of the transistor Q2 decreases. As a result, the ripple current is canceled and removed.

The ripple removing unit 20 of the present invention as described above can be expected to have the effect of removing the ripple in a linear (linear) by the operation of the transistor Q2 rather than the ripple removal by the switching operation.

On the other hand, the power supply circuit for LED lighting has a protection function to cut off the power supply in the event of a short-circuit, and when the protection function, the power output of the DC voltage output unit 3 is cut off and then output again.

As described above, when operating under abnormal conditions such as the output short circuit protection function of the converter or when discharge occurs due to an instantaneous short circuit of the output unit 3, the capacitor C3 for removing the ripple is momentarily unstable in charge and discharge. This unstable charging and discharging phenomenon causes an excessive reverse voltage exceeding the maximum rating between the emitter and the base of the transistor Q2, resulting in damage to the transistor Q2.

However, in the present invention, when the output of the output unit 3 is blocked by the protection function and the capacitor C3 performs an unstable charging and discharging operation momentarily, the Zener is installed to connect the emitter of the transistor Q2 and the base. Since the excessively high reverse voltage is not formed by the diode ZD1, it is possible to prevent the transistor Q2 from being damaged due to the excessive reverse voltage.

In addition, when the power output of the DC voltage output unit 3 is interrupted, the capacitor C3 discharges the voltage charged therefrom, and the discharge voltage may damage the transistor Q2.

In the present invention, when the capacitor C3 is discharged, the capacitor C4 having a larger capacitance than the capacitor C3 connected to the emitter output terminal of the transistor Q2 delays the discharge of the capacitor C3. The current discharged in C3 flows to the collector side of the transistor Q2 through the resistor R1, thereby preventing the transistor Q2 from being damaged by the discharge of the capacitor C3 during the protection function.

In another method, when the capacitor C3 is discharged, the discharge current flows to the collector side of the transistor Q2 by the diode D4, so that the transistor Q2 is damaged by the discharge of the capacitor C3 during the protection function. It is to be prevented.

Although the drawing shows that the capacitor C4 and the diode D4 are installed at the same time, the discharge current of the capacitor C3 is not supplied to the base terminal of the transistor Q2 by using the capacitor C4 and the diode D4 independently. Can be implemented so that

As shown in the figure, when the capacitor C4 and the diode D4 are connected to the transistor Q2 at the same time, it is possible to more reliably prevent the discharge current of the capacitor C3 from being supplied to the base end of the transistor Q2. (Q2) The reliability of the protection function can be further improved.

In addition, if the voltage cut off by the DC voltage output unit 3 during the protection function is output again, current is not applied to the base of the transistor Q2 during the time when the capacitor C3 is charged by the output voltage when the output voltage is initially applied. Therefore, at this time, the transistor Q2 may be damaged by the current flowing to the collector-emitter of the transistor Q2.

When the transistor Q2 does not operate while the capacitor C3 is charged as described above, the current output from the DC voltage output unit 3 is bypassed by the diodes D2 and D3 and supplied to the LED lamp 5. (Q2) will be able to prevent damage.

In addition, the diodes D2 to D4 described in the present invention may be replaced with other components having the characteristics of the diode. For example, a general diode, a zener diode, and a transistor may be used instead of the diodes D2 to D4. It will be appreciated that can be implemented, the replacement of these parts is also included in the scope of the present invention.

1: bridge diode, 2: transformer,
3: DC voltage output, 5: LED lamp,
6: compensator, 7: photocoupler,
9: control unit, 20: ripple removing unit,
Q1, Q2: transistor, D1 ~ D5: diode,
C1 ~ C3: Condenser, ZD1: Zener Diode

Claims (3)

A DC voltage output unit 3 for converting an AC power output from the transformer 2 into a DC voltage and supplying the LED lamp 5 as a load; In the ripple removal apparatus of the power supply circuit for the LED luminaire comprising a; LED lamp (5) consisting of a plurality of LEDs that are driven and driven by the voltage supplied from the DC voltage output unit (3),
A capacitor C3 passing the ripple component of the voltage output from the DC voltage output unit 3 is connected to the base stage to attenuate the base current by the ripple current to cancel the output current output to the collector stage by the ripple current ( The ripple removing unit 20 made of Q2) is connected to the output terminal of the DC voltage output unit 3, but
When the output of the DC voltage output unit 3 is blocked by the protection function, an excessive reverse voltage is generated between the emitter and the base of the transistor Q2 due to the momentary unstable charging and discharging of the capacitor C3. In order to prevent the ripple removal device of the power supply circuit for the LED luminaire, characterized in that further comprises a zener diode (ZD1) for limiting the reverse voltage connecting the emitter and the base of the transistor (Q2).
The method of claim 1,
The ripple removing unit 20 is a means for protecting the damage of the transistor Q2 due to the discharge current of the capacitor C3 when the output of the DC voltage output unit 3 is blocked by the protection function. The capacitor C4 having a large capacitance value compared to) is connected to the output terminal of the transistor Q2 so that the discharge operation of the capacitor C3 is delayed, or
And a diode (D4) for bypassing the discharge current of the capacitor (C3) to flow to the emitter stage without being supplied to the base terminal of the transistor (Q2).
2. The ripple canceling unit 20 is the transistor Q2 during the initial charging time of the capacitor C3 when the output of the DC voltage output unit 3 is cut off by the protection function and the power is supplied again. Ripple removal device of the power supply circuit for LED lighting, characterized in that further configured diodes (D2, D3) connecting the emitter terminal and the collector terminal of the transistor (Q2) to prevent damage.

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