KR20160021165A - PCB Pattern For LED Lamp, The LED PCB And The LED Lighting Apparatus Thereby - Google Patents

Abstract

The present invention relates to a PCB pattern for an LED lamp, an LED PCB and an LED lighting apparatus thereby. More particularly, a transistor, a resistor, a pad of the LED lamp, and a pad of a zero ohmic resistor can be commonly used. A part which can selectively connect a power supply in parallel or in series by using the zero ohmic resistor, is added. Thereby, various power supplies for 12V, 24V, 48V, etc can be used according to the arrangement of a component, in spite of one PCB pattern. Maximum brightness can be adjusted.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printed circuit board pattern for an LED illumination lamp and an LED printed circuit board and an LED lighting device using the LED printed circuit board pattern.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printed circuit board (PCB) pattern for an LED illumination lamp, an LED printed circuit board (LED PCB) using the same, and an LED lighting apparatus using the same. Pad of 0 ohm resistance can be used in common, and a part that can selectively connect the power source in series or in parallel by using a 0 ohm resistor is added, so that it is one PCB pattern, but 12V, 24V, 48V, and can be used for various power sources, and the maximum brightness can be adjusted.

The types of artificial light sources include halogen lamps that inject halogen elements into glass bulbs or glass bulbs by putting metal coils or tungsten wires that have high melting points in glass or glass enclosed in a vacuum or gas to suppress the evaporation of tungsten. A discharge lamp using a gas discharge such as an arc discharge or a glow discharge, a fluorescent lamp coated with a fluorescent substance inside a discharge tube, an EL lamp, an OLED lamp, and an LED lamp as a solid state light source.

A fluorescent lamp is a type of low-pressure mercury lamp that uses a hot cathode to discharge mercury into a discharge tube to discharge mercury into the discharge tube. Strong ultraviolet rays with a wavelength of 253.7 nm generated by discharge stimulate the fluorescent paint on the inner wall to generate strong fluorescence.

The tungsten filament of the hot cathode is a double coil, and an oxide film such as barium (Ba) is coated to facilitate the release of the thermoelectrons.

The ballasts for fluorescent lamps are divided into magnetic, semiconductor and electronic type. The electronic ballasts of excellent quality with excellent electrical safety, easy system design and long lamp life have emerged as a suitable ballast for customers' needs.

A light emitting diode (LED) device is a semiconductor device that generates light by flowing a current in a forward direction to a PN junction. Light emitting diode devices using semiconductors have a high efficiency of converting electric energy into light energy and have a life span of 5 to 10 years or more, which can greatly reduce power consumption and maintenance cost. .

Particularly, since there is no need to use environmentally harmful substances such as mercury, there is a growing interest in LED lighting lamps for replacing fluorescent lamps.

According to a preferred embodiment of the present invention, a flicker prevention circuit, a power stabilization circuit, a counter electromotive force prevention circuit, and a discharge circuit are provided therein, and sockets for connecting the power terminals of the fluorescent lamps are formed on both inner side portions thereof In the fluorescent lamp apparatus main body, like the fluorescent lamp, an outer shape is formed in the form of a circular rod, and both ends thereof are provided with a support 6 for supporting the power supply terminal 8, A housing (4) composed of a semicircular shape; A power supply board mounted at one end inside the housing; A circuit board (16) extending from the power supply board and having a plurality of LEDs (12) mounted thereon in an array form; A substrate cover (10) covering the power supply substrate; And a LED cover (14) for covering the circuit board (16).

The LED lamp for the sink of the patent 10-2008-0107627 includes a PCB; A plurality of LEDs 20 mounted on one surface of the PCB at regular intervals; A heat sink (30) attached to the other surface of the PCB in close contact with the PCB; And a control unit electrically connected to the PCB to control the blinking of the LED, wherein a translucent protective cover for light diffusion for protecting the LED is coupled to the heat sink, and a heat dissipation area And an operation switch for turning on and off the LED, a short range sensor for detecting whether the user is within a predetermined distance and turning the LED on or off, And a microcomputer for receiving a signal from the switch, the optical sensor and the near sensor to control the flashing of the LED.

For the purpose of safety, efficiency, constant current control, etc., it is necessary to supply DC 5V, DC 9V, DC 12V, DC 15V, DC 24V, DC 36V, DC 48V, etc., are used as power source of SMPS (Switching Mode Power Supply). It is not necessary to be an SMPS, and a normal linear regulator may be used. In the case where the power source itself such as a battery is DC, only the voltage may be set.

Making such a PCB corresponding to various voltages not only raises the price of the product, but also limits the application of LED lighting. Therefore, it is necessary to develop an LED PCB pattern that can cope with various power sources.

Further, in order to make a high-quality backlight which does not cause shading as in the registered patent 10-0912496-0000, there is a limit on the ratio of the intervals between the light sources to the screen height. That is, since the gap between the LED PCBs must be less than a predetermined value in a state where the frame height is fixed, it is necessary to adjust the brightness by adjusting the interval between the LED chips in each LED PCB. Therefore, it is necessary to develop an LED PCB pattern that can vary the LED chip spacing.

In addition, it is necessary to develop an LED PCB pattern capable of coping with the various power sources because a backlight operating at the same voltage should be formed even in a state in which the brightness is adjusted.

The LED PCB pattern according to the present invention can commonly use pads such as transistors, resistors, and LEDs and pads of 0 ohm resistors, and a portion capable of selectively connecting power sources in series or in parallel using a 0 ohm resistor is added It is.

The LED PCB according to the present invention can commonly use pads such as transistors, resistors, and LEDs and pads of 0-ohm resistors, and a portion capable of selectively connecting the power sources in series or in parallel using a 0-ohm resistor is added LED PCB pattern.

The LED lighting device according to the present invention can commonly use pads such as transistors, resistors, and LEDs and pads of 0 ohm resistance, and a portion capable of selectively connecting the power source in series or in parallel using a 0 ohm resistor is added I used one LED PCB.

2 is a pad shape of the LED PCB according to the present invention. The connection relationship between the pads is too complicated to represent only the pad, and the configuration of the connection relationship according to the circuit diagram can be easily implemented by those skilled in the art.

The transistor pad 101 is for soldering a transistor that supplies a constant current to the LED by receiving DC power from the SMPS. This pad is designed to be able to solder small resistors, preferably 0 ohm resistors.

If the transistor is soldered, constant current control is possible independently, but if a small resistor, preferably a 0 ohm resistor, is soldered, it must be connected in series with the peripheral circuit to allow constant current control. These pads can be arranged according to the concept of passing the current input to the LEDs, so that a transistor having a small transistor capacity can be connected in parallel to generate a large capacitance, or two or more transistors can be connected in series, The present invention is also applicable to a constant current drive circuit.

The resistor pad 102 is for soldering a resistor that controls the voltage or current of the gate or base of the transistor and a resistor that controls the current between the source-drain or emitter-collector. This pad is designed to be able to solder small resistors, preferably 0 ohm resistors.

When soldered together with a transistor, constant current control is possible independently, but if a small resistor without a transistor, preferably a 0 ohm resistor, is soldered, it must be connected in series with the peripheral circuit to allow constant current control.

The transistor pad and the resistance pad are required when the constant current driving circuit is provided. However, when the circuit is simplified at the expense of performance and reliability, the constant current driving circuit and other pads can be omitted.

The LED pad 103 is for soldering the LED chip. This pad is designed to be able to solder small resistors, preferably 0 ohm resistors.

When the LED is soldered, it increases the brightness and the driving voltage as much, and when the small resistance, preferably 0 ohm resistor, is soldered, it does not affect the brightness and the driving voltage. If there are two +, - each LED pad, two 0 ohm resistors can be used.

The power supply pad 104 is for connecting the serial LEDs as a basic unit with the power supply. A small resistor, preferably a 0 ohm resistor, is then used. When connected to the power supply, each basic unit is connected in parallel and there is no change in the driving voltage, but when the +, - of the neighboring basic unit are connected to each other, the driving voltage is increased by being connected in series.

Although the soldering pad is described above, it is also possible to use a jumper socket, a dip switch, or the like more complicatedly.

In the above description, the number of basic units that can be connected in series is not limited. However, in the case of limiting the number of basic units that can be connected in series, an external power pad 105 may be provided at both ends to facilitate connection with external power, And can be used to interconnect LED PCBs with short base lengths.

The LED pads are preferably sized for use in various types of LED chip packages such as 3528, 3030, 5050, and 5252. The package may vary depending on the brightness, and the package may vary depending on the chip company.

In the present invention, the numerical values of the power supply voltage (12, 24, 48 V, etc.) are not limited to those that can be modified.

Although it is one PCB pattern, it can be used for various power sources such as 12V, 24V and 48V depending on the arrangement of components, and the maximum brightness can be adjusted.

A plurality of LEDs used as a light source of a backlight unit are driven by using a plurality of drivers, and a plurality of adjacent LEDs Are driven by different drivers, so that even if one LED among neighboring LEDs is degraded due to the difference in driving capability of the respective drivers, two neighboring LEDs can compensate for the degradation of the characteristics of one LED, thereby improving the uniformity of the entire light and dark portions have. However, according to the present invention, there is an advantage that the voltage can be freely adjusted.

1A and 1B are conventional LED lighting lamps.
2 is a pad shape of the LED PCB according to the present invention. The connection relationship between the pads is too complicated to represent only the pad, and the configuration of the connection relationship according to the circuit diagram can be easily implemented by those skilled in the art.
3 is a pad shape of another LED PCB according to the present invention.
4 is an example of an LED PCB using LED PCB pads of the present invention. The parts marked with black solid are small resistors, preferably 0 ohm resistors. The basic unit is 12 LED chips, and the driving voltage is 48V.
5 is another example of the LED PCB using the LED PCB pad of the present invention. The basic unit is six LED chips, and the driving voltage is 24V.
6 is another example of the LED PCB using the LED PCB pad of the present invention. The basic unit is six LED chips, and the driving voltage is 24V.
7 shows another example of the LED PCB using the LED PCB pad of the present invention. The basic unit is three LED chips, and the driving voltage is 12V.
8 is an exploded perspective view of the LED lighting apparatus according to the present invention.
9 is an assembled view of the LED lighting apparatus according to the present invention.

4 is an example of an LED PCB using LED PCB pads of the present invention. The parts marked with black solid are small resistors, preferably 0 ohm resistors. Since the six left LED chips and the six right LED chips are connected in series by a central 0-ohm resistor, the basic unit is 12 LED chips and the driving voltage is 48V.

If the driving voltage of one LED chip is 3.5V, 12 will require 42V and the remaining voltage will be applied to the constant current driving circuit.

5 is another example of the LED PCB using the LED PCB pad of the present invention. The parts marked with black solid are small resistors, preferably 0 ohm resistors. Since 6 left LED chips and 6 right LED chips are connected in parallel, the basic unit is 6 LED chips and the driving voltage is 24V.

If the driving voltage of one LED chip is 3.5V, six of the LED chips require 21V and the remaining voltage is applied to the constant current driving circuit.

FIGS. 4 and 5 show that the LED package has the most bright light when there is no space in the LED package. Only the driving voltage is different.

6 is another example of the LED PCB using the LED PCB pad of the present invention. The parts marked with black solid are small resistors, preferably 0 ohm resistors. Since three left LED chips and three right LED chips are connected in series by a central 0-ohm resistor, the basic unit is six LED chips and the driving voltage is 24V.

If the driving voltage of one LED chip is 3.5V, six of the LED chips require 21V and the remaining voltage is applied to the constant current driving circuit.

7 shows another example of the LED PCB using the LED PCB pad of the present invention. The parts marked with black solid are small resistors, preferably 0 ohm resistors. Since the three left LED chips and three right LED chips are connected in parallel, the basic unit is three LED chips and the driving voltage is 12V.

If the driving voltage of one LED chip is 3.5V, three of them require 10.5V, and the remaining voltage is caught in the constant current driving circuit.

6 and 7, the brightness is half of the maximum brightness since the LED pad is half empty. The driving voltage also varies.

5 and 6 have the same driving voltage but different brightness.

As shown in FIGS. 4 and 6, in order to connect the basic units in series, it is preferable to connect one of the transistors and the resistor with a small resistor, preferably a 0-ohm resistor.

Although it is not preferable because it hinders the uniformity of the brightness, if the LED is added to a part of the blank LED pad in FIG. 6 or 7, a small increase in driving voltage and a small improvement in brightness are possible. For example, in FIG. 7, four basic units, a driving voltage of 15.x V, or five basic units and a driving voltage of 18.x V are possible.

The LED PCB may be a conventional FR4 or a metal core PCB having good heat dissipation performance, but it is preferable to use a flexible PCB that can make the length of the LED PCB long.

8 is an example of an LED lighting apparatus according to the present invention, and is an LED lighting lamp for replacing T8 and G13 straight fluorescent lamps. The LED PCB 111 according to the present invention is attached to the heat dissipating plate 112, the driving circuit PCB 113 is inserted into the heat dissipating plate, the diffusion plate 114 is attached to the front surface of the LED PCB, and the G13 base is attached to both ends of the heat dissipating plate . Figure 9 shows a completed assembly view.

101: transistor pad
102: Resistance pad
103: LED pads
104: Power Pad
105: External Power Pad
111: LED PCB
112: heat sink
113: drive circuit PCB
114: diffusion plate
115: G13 base

Claims (4)

In a PCB pattern for an LED light fixture in which a pad for soldering an LED chip and a solder pad for soldering a 0 ohm resistor are common,
When the LED chip is soldered to the pad, the brightness per unit area of the LED lighting lamp is increased compared with the case where the 0 ohm resistor is soldered to the pad,
PCB Patterns for LED Illuminated Lights Common to Pads Soldering Transistors and Pads Soldering 0 Ohms Resistors, Pads Soldering Resistors Required for Transistor Operation and Pads Soldering 0 Ohms Resistors A PCB pattern for an LED light fixture comprising a basic unit pattern including a pad for soldering a first number of LED chips and a pad for connecting to a power supply unit,
And a pad for soldering a 0 Ohm resistor connectable to the power supply unit so as to be in parallel connection with neighboring basic unit patterns at both ends of the basic unit pattern,
And a pad for soldering a 0 ohm resistor that can be connected to the opposite polarity of a neighboring basic unit pattern instead of the power supply unit so as to be in serial connection relation with a neighboring basic unit pattern. The PCB pattern according to claim 2, further comprising a pad for connecting to an external power source at both ends of the basic unit pattern The PCB pattern according to claim 2, further comprising a pad for connecting a plurality of the basic unit patterns and being connected to an external power source at both ends of a connected pattern

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