KR101309575B1 - Driving device for led lamp having protect circuit - Google Patents

Abstract

PURPOSE: A driving apparatus of a straight pipe fluorescent lamp light emitting diode is provided to prevent accidents caused by wrong lamp tightening by normally performing a fluorescent lamp even when structural operation or change is not happened. CONSTITUTION: An LED straight pipe fluorescent lamp driving apparatus includes an LED straight pipe fluorescent lamp (110) which is engaged with both ends of a structure, a driver module (120), and a protection circuit part (130). The driver module is connected to both ends of a structure in which the LED straight pipe fluorescent lamp is connected and drives LED. The protection circuit part connects the output signal of one side terminal of the LED straight pipe fluorescent lamp with the input signal of the driver module. If a general lamp is engaged with the structure, signal which flows through the general lamp switches off the output of the driving apparatus.

Description

Driving device for light emitting diode linear fluorescent lamp including protection circuit {Driving Device for LED Lamp having Protect Circuit}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light emitting diode fluorescent lamp, and more particularly, to a driving device of a light emitting diode linear fluorescent lamp having a protection circuit for preventing breakage of a general fluorescent lamp that is incorrectly fastened to a structure for exclusive use of a linear LED fluorescent lamp.

In general, a luminaire using a light emitting diode (“LED”) light source has a characteristic of being smaller in size, longer in life, less power consumption, and higher in brightness than a conventional light source. Accordingly, various lighting fixtures using such LEDs have been developed, and recently, fluorescent tube type LED straight fluorescent lamps have been proposed to replace existing fluorescent lamps. The LED straight fluorescent tube is provided with a light source unit including the LED in the casing is provided on both sides corresponding to the existing fluorescent frame structure, and forms the same shape as the conventional fluorescent tube.

The LED straight fluorescent lamp is fastened to a socket structure provided with various control circuits such as a drive driver. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a main part of a driving device of an LED linear fluorescent lamp according to the prior art. The LED linear fluorescent lamp driving device is provided with a driving driver (LED Driver IC) 21 as a driving unit 20 for lighting the LED linear fluorescent lamp 10, and between the '+' terminal and the '-' terminal of the socket structure. Straight fluorescent lamp 10 is fastened to be detachable. The LED straight fluorescent lamp 10 is composed of a plurality of modules connected to the plurality of LEDs 11 are connected in series, the drive driver 21 constitutes the drive unit 20 with various elements for circuit matching. Only the LED straight fluorescent lamp should be fastened to the socket structure provided with the LED straight fluorescent lamp driving device.

On the other hand, since the LED tube fluorescent lamp has the same appearance as the conventional fluorescent lamp, the user often fastens the conventional general fluorescent lamp to the LED tube fluorescent lamp dedicated structure. In this case, the driving circuit or the fluorescent lamp may be damaged due to the type of power applied or the magnitude of the voltage, which may cause a serious accident such as an injury to the user. That is, in the driving apparatus of the LED straight fluorescent lamp according to the related art, when the general fluorescent lamp 30 is fastened between the '+' terminal and the '-' terminal as shown in FIG. The current flowing continuously causes the fluorescent lamp to break. Therefore, in the conventional LED direct fluorescent driving device, when a user incorrectly selects and fastens a lamp, a safety device for this is not provided and there is a problem that leads to a serious accident.

The present invention has been proposed to solve the above problems, LED direct fluorescent lamp is normally operated when the LED straight fluorescent lamp is fastened even if there is no structural operation or change, and can stop the driving when the normal fluorescent lamp is fastened An object of the present invention is to provide a driving device for LED straight fluorescent lamps.

Another object of the present invention, when the ordinary fluorescent lamp is fastened, by stopping the driving of the lamp to prevent damage to the general fluorescent lamp instantaneously, LED intuition that can prevent damage to the circuit or accidents caused by improper fastening of the lamp of the user It is to provide a driving device of a fluorescent lamp.

The present invention for solving the above problems, in the LED straight fluorescent lamp driving device for driving the LED straight fluorescent lamp fastened to both terminals of the structure, at least one terminal of the driving device to which the LED straight fluorescent lamp is fastened A driver connected to drive the LED; And a protection circuit unit connecting an output signal of one terminal of the LED straight fluorescent lamp to one pin of the driver chip. When the general lamp is fastened to the structure, the driving unit uses a signal flowing through the general lamp. The output of the device is configured to be OFF.

The protection circuit unit may include an ON / OFF transistor connected to the driver chip and a zener diode connected to an input terminal of the transistor, and further include an RC filter connected to an input terminal of the transistor to remove noise. It is characterized by.

According to the present invention having the above configuration, even when there is no structural manipulation or change, when the LED straight fluorescent lamp is fastened, the LED straight fluorescent lamp can be normally operated, and when the general fluorescent lamp is fastened, the driving can be stopped.

In addition, the driving device of the present invention can prevent the damage of the fluorescent lamp according to the stop driving of the normal fluorescent lamp, it is possible to prevent the accident due to the wrong lamp fastening of the user.

1 is a circuit diagram showing a part of a driving circuit of an LED tube fluorescent lamp according to the prior art,
FIG. 2 is a circuit diagram illustrating a state in which a general fluorescent lamp is fastened to the driving circuit of FIG. 2.
3 is a circuit diagram showing a part of a driving circuit of an LED tube fluorescent lamp according to an embodiment of the present invention;
4 is a circuit diagram showing a state in which a general fluorescent lamp is fastened to the driving circuit of FIG.
FIG. 5 is a diagram illustrating operating characteristics of the circuit diagram of FIG. 4.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a circuit diagram showing a part of a driving circuit of the LED fluorescent lamp according to an embodiment of the present invention, Figure 4 is a circuit diagram showing a state in which a general fluorescent lamp is fastened to the driving circuit of Figure 3, Figure 5 is a circuit diagram of FIG. It is a figure which shows the operation characteristic with respect to. First, as shown in FIG. 4, the LED straight fluorescent lamp driving device 100 of the present invention is connected to both terminals of a socket structure to which the LED straight fluorescent lamp 100 is fastened, for driving the LED straight fluorescent lamp 100. And a protection circuit unit 130 inserted between the driving driver module 120 for outputting a signal and one side of the socket structure to which the LED straight fluorescent lamp is fastened and the driving driver module 120.

Specifically, as shown in FIG. 3, the LED straight fluorescent lamp 100 may be connected in parallel with a plurality of LED modules in which a plurality of LEDs 111 are connected in series in one direction. The LED straight fluorescent lamp 100 is fastened to a socket structure provided with a pair of fastening terminals, the anode side (anode) is connected to the '+' terminal on one side and the cathode (cathode) on the '-' terminal of the other side It is fastened to connect.

The driving driver module 120 includes a circuit for driving an LED, and includes a driver IC 121 of an integrated circuit type, and the driver IC 121 of the driving driver module includes driving signal output terminals 122a and 122b. A plurality of input and output terminals are provided. The driving driver module 120 is provided with various elements for circuit matching, and is connected to the '+' terminal and the '-' terminal of the socket structure to which the LED straight fluorescent lamp 110 is connected. The driving driver module 120 sets the voltage on the '-' terminal side with respect to the voltage on the '+' terminal side set in another driver module (not shown), so that a predetermined potential difference is formed therebetween. At this time, the LED straight fluorescent lamp 100 is fastened between the '+' terminal and the '-' terminal of the socket structure is turned on by the potential difference between the two terminals. That is, the driving driver module 120 drives the LED linear fluorescent lamp 100 by setting the voltage at the '-' terminal side at which the LED linear fluorescent lamp 100 can be driven based on the voltage set at the '+' terminal side. .

When the general fluorescent lamp is fastened to the socket structure to which the LED straight fluorescent lamp 100 is to be fastened, the protection circuit unit 130 cuts off the signal output of the driving driver module 120 to damage the general fluorescent lamp by the LED driving device. To prevent. The protection circuit unit 130 connects the '-' terminal side signal of the socket structure to the cutoff signal input terminal 123 of the driving driver module 120, so that the driving driver module 120 receives the signal from the '-' terminal side. Drive signal output is cut off. The protection circuit unit 130 is composed of a combination of the zener diode 132 and the transistor 131, and is connected such that a signal at the '-' terminal side is transmitted to the input terminal of the transistor 131 through the zener diode 132. In this case, elements such as an R-C filter 133 and a diode 134 for preventing reverse bias may be further connected to an input terminal of the transistor 131 to minimize noise included in a signal.

On the other hand, in the LED drive device having the structure described above, when the general fluorescent lamps other than the LED straight fluorescent lamps are fastened to the socket structure, the signal output is blocked at the drive signal output terminal of the drive driver module so that the drive device does not operate. Hereinafter, the operation of the protection circuit will be described in detail.

In general, the fluorescent lamp has a resistance of 3Ω on both ends, so the electrical safety standards in the Technical Standard Institute test the protection circuit's normal operation and safety by connecting an inductive 3Ω resistor instead of the fluorescent lamp. Accordingly, in the present invention, a non-inductive 3Ω resistor is used as a general fluorescent lamp to check the operation of the protection circuit, and the LED straight fluorescent lamp uses an LED module in which 10 LEDs having a driving voltage of 3.2V are connected in series.

First, as shown in FIG. 3, when the normal LED straight fluorescent lamp 100 is fastened, the LED driving device 100 is designed to apply a voltage of 39 V to the '+' terminal as an example. In this case, the driving driver module 120 is designed to apply a voltage of 7V or less to the '-' terminal so that ten LEDs 111 connected in series may be turned on. In this case, since the transistor 131 of the protection circuit 130 must maintain the OFF state, the zener diode 132 of the transistor input terminal must be designed to have a breakdown voltage of at least 7V. Since no signal is input to the input terminal 123 of the driving driver module 120 even though the protection circuit is coupled by the zener diode 132, the driving signal is continuously output from the output terminals 122a and 122b so that the LED is intuitive. The fluorescent lamp 100 can maintain the lighting state.

However, as shown in FIG. 4, when the non-inductive 3Ω resistor, which is the general fluorescent lamp 140, is connected, the voltage at the '−' terminal is greatly increased. That is, the drive driver module 120 is designed to apply a minimum current, and a current of about 570 mA flows to the fluorescent lamp 140. At this time, a voltage drop of approximately 1.71V occurs at both ends of the fluorescent lamp 140, and a voltage of 37.29V is maintained at the '-' terminal. Therefore, since the voltage at the '-' terminal is formed higher than the breakdown voltage of the zener diode 132, the zener diode 132 is turned on to turn on the transistor 131. When the transistor 131 is turned on, a blocking signal is input to the input terminal 123 of the driving driver module 120, and the blocking signal blocks the signal output from the driving signal output terminals 122a and 122b. At this time, the zener diode 132 is open when the LED straight fluorescent lamp 100 is fastened, and should be conducted when the general fluorescent lamp 140 is fastened, so that the breakdown voltage is '-' when the LED straight fluorescent lamp is fastened. It should be designed to be larger than the terminal voltage and less than the '-' terminal voltage when the ordinary fluorescent lamp is connected.

When the general fluorescent lamp 140 is fastened, the protection circuit unit 130 of the present invention uses a signal generated by the current flowing through the general fluorescent lamp 140 as a driving block signal of the driving driver module 120. That is, as can be seen from the measurement screen using the oscilloscope of FIG. 5, when 220 V power is applied in the state in which the general fluorescent lamp 140 is fastened (A), in the general fluorescent lamp 140 having no inductive 3Ω resistance After a momentary current flows for a short period of time (B), it can be seen that no more current flows. This is because the instantaneous current flowing through the fluorescent lamp 140 blocks the operation of the driving driver module through the zener diode 132 and the transistor 131, so that no further current flows through the general fluorescent lamp 140. do.

As described above, the protection circuit unit 130 of the present invention normally operates the LED straight fluorescent lamp when the LED straight fluorescent lamp is fastened to the socket structure, and when the normal fluorescent lamp is fastened, by blocking the driving of the LED driving driver module, It is possible to prevent a dangerous situation such as the destruction of the fluorescent lamp by the user's fluorescent lamp selection error.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: LED driving device 110: LED straight fluorescent lamp
120: drive driver module 130: protection circuit
131 transistor 132 zener diode

Claims (3)

In the LED straight fluorescent lamp driving device for driving the LED straight fluorescent tube fastened to both terminals of the structure,
A driving driver module connected to both terminals of a structure to which the LED straight fluorescent lamp is coupled to drive the LED; And
And a protection circuit unit connecting an output signal of one terminal of the LED straight fluorescent lamp to an input signal of the driving driver module.
When the general lamp is fastened to the structure, a signal flowing through the general lamp is configured to turn off the output of the drive device, LED driving device of a fluorescent lamp.
The method of claim 1, wherein the protection circuit unit,
And a Zener diode connected to an input terminal of the transistor and an ON / OFF transistor connected to an input terminal of the driving driver module.
The said protection circuit part is a claim 1 or 2,
And a RC filter connected to an input terminal of the transistor to remove noise caused by the general lamp connection.

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