CN203586129U - LED substrate and high-voltage-resistant LED lamp - Google Patents

Abstract

The utility model discloses a high-voltage-resistant LED lamp. The LED lamp comprises a drive power supply, a heat dissipation shell and an LED substrate. The LED substrate comprises a circuit layer, an insulating layer and a metal layer and is characterized in that the circuit layer comprises positive-electrode copper foil and negative-electrode copper foil which are separated from each other and the total area of the copper foil caters to the formula that S>=4*phi*Kd*CY1/epsilon, wherein S is the total area of the positive-electrode copper foil and negative-electrode copper foil, K is a static electricity parameter of the insulating layer, d is the thickness of the insulating layer, CY1 is the capacitance of the drive power supply, and epsilon is the dielectric parameter of the insulating layer. The distributed capacitance of the aluminum substrate is increased by increasing the area of the positive-electrode copper foil and negative-electrode copper foil, and therefore the voltage across the two ends of the aluminum substrate is reduced during voltage resistance testing, the lamp can meet voltage resistance testing requirements on the premise that the number of elements is not increased, the lamp works safely and reliably and cost is reduced.

Description

LED substrate and high pressure resistant LED light fixture

Technical field

The utility model relates to LED technical field, relates more specifically to a kind of LED substrate and high pressure resistant LED light fixture.

Background technology

LED a kind ofly can be converted into electric energy the semiconductor devices of luminous energy, and it has changed the luminous principle luminous with electricity-saving lamp tricolor powder of incandescent lamp tungsten filament, and adopts electroluminescence.In modern society, because the advantages such as LED volume is little, the life-span is long, light efficiency is high, radiationless and low-power consumption make people use more and more widely the illumination of LED lamp.

At present, existing LED light fixture generally comprises metal lamp housing and is arranged on the PC cover on metal lamp housing, is provided with LED substrate (heat-conduction circuit board) and driving power in metal lamp housing, and driving power output connects several LED lamp pearls on heat-conduction circuit board.As shown in Figure 1, heat-conduction circuit board is respectively circuit layer, heat conductive insulating layer and metal-based layer from top to bottom, and circuit layer adopts the copper foil layer that current capacity is strong mostly.In the Hi-pot test of LED light fixture authentication safety, need to test to the dielectric strength of LED light fixture (withstand voltage properties of light fixture is by insulation realization, and it comprises the insulation of power supply primary and secondary and the insulation between lamp pearl and radiator).General safety Hi-pot test mode is as follows: first, two outputs of high pressure instrument are connected respectively on the input and metal lamp housing of driving power.Because heat-conduction circuit board is fixed on metal lamp housing, two outputs that can be considered as high pressure instrument connect respectively driving power input and heat-conduction circuit board.Then, the high pressure of high pressure instrument output 4KV left and right, carries out Hi-pot test to LED light fixture.Heat-conduction circuit board if there is LED is breakdown, thinks that this LED light fixture is undesirable, can not pass through safety Hi-pot test.

In order to meet safety test request, existing mode is if the disclosed a kind of LED light fixture of Chinese patent CN 103162259 A is by method and a kind of high withstand voltage LED light fixture of safety Hi-pot test, it adopts the mode that is connected with bleeder resistor on the circuit between the output of driving power and the metal-based layer of LED lamp heat conducting circuit board to improve the high voltage performance of light fixture, yet, but can there is following problem in which: first: if positive pole/negative pole is connected with aluminium base, aluminium base has with metal shell and is connected, metal shell is connected with the earth, cause the connected short circuit of positive pole/negative pole of all light fixtures, cause circuit uneven.Second: if anodal and/negative pole connecting resistance simultaneously, this resistance becomes loading, causes system effectiveness to reduce.The the 3rd: increase resistance and can increase material cost and processing cost, element is more, and bad risk is higher.

Given this, be necessary to provide a kind of LED substrate addressing the aforementioned drawbacks and high pressure resistant LED light fixture.

Utility model content

The purpose of this utility model is to provide a kind of LED substrate to address the deficiencies of the prior art.

Another object of the present utility model is to provide a kind of high pressure resistant LED light fixture to address the deficiencies of the prior art.

To achieve these goals, the utility model provides a kind of LED substrate for high pressure resistant LED light fixture, described high pressure resistant LED light fixture comprises driving power, heat-dissipating casing and described LED substrate, described LED substrate comprises circuit layer, insulating barrier and metal level, wherein, described circuit layer comprises anodal Copper Foil and the negative copper foil being separated from each other, the gross area of described Copper Foil meets S≤4 π Kd*CY1/ ε, wherein, S is the area sum of anodal Copper Foil and negative copper foil, K is the static parameter of insulating barrier, d is the thickness of insulating barrier, CY1 is the electric capacity of driving power, ε is the dielectric constant of insulating barrier.

Preferably, the area of described anodal Copper Foil is more than or equal to the area of negative copper foil.

Preferably, the withstand voltage of described LED substrate is that 2.0KV and its creep age distance are more than or equal to 2.0mm.

To achieve these goals, the utility model also provides a kind of high pressure resistant LED light fixture, it comprises driving power, heat-dissipating casing and LED substrate, described LED substrate comprises circuit layer, insulating barrier and metal level, wherein, described circuit layer comprises anodal Copper Foil and the negative copper foil being separated from each other, the gross area of described Copper Foil meets S≤4 π Kd*CY1/ ε, wherein, S is the area sum of anodal Copper Foil and negative copper foil, the static parameter that K is insulating barrier, the thickness that d is insulating barrier, CY1 is the electric capacity of driving power, the dielectric constant that ε is insulating barrier.

Preferably, the area of described anodal Copper Foil is more than or equal to the area of negative copper foil.

Preferably, the withstand voltage of described LED substrate is that 2.0KV and its creep age distance are more than or equal to 2.0mm.

Compared with prior art, the utility model is that the circuit layer of aluminium base is carried out to particular design, by strengthening both positive and negative polarity Copper Foil area, strengthen the distribution capacity of aluminium base, thereby the voltage that is applied to aluminium base two ends while reducing voltage-withstand test, makes light fixture to meet voltage-withstand test requirement in the situation that do not introduce new components and parts.Therefore, the utlity model has following advantage: without introducing new component, avoid increasing production cost and bad risk because increasing components and parts; Without improving requirement of withstand voltage to thicken insulating barrier, reduce the insulating requirements of aluminium base, improve heat-sinking capability and can reduce aluminium base material cost.

By following description also by reference to the accompanying drawings, it is more clear that the utility model will become, and these accompanying drawings are used for explaining embodiment of the present utility model.

Accompanying drawing explanation

Fig. 1 is the layer structural representation of the utility model LED substrate one embodiment.

Fig. 2 is the circuit layer structure schematic diagram of LED substrate shown in Fig. 1.

Fig. 3 is the circuit diagram of high pressure resistant LED light fixture one embodiment of the utility model.

Fig. 4 is the schematic diagram that shown in Fig. 3, high pressure resistant LED light fixture carries out voltage-withstand test.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in embodiment is clearly and completely described, in accompanying drawing, similarly assembly label represents similar assembly.Obviously, below by the embodiment of description, be only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Referring to figs. 1 through Fig. 3, the high pressure resistant LED light fixture of the present embodiment comprises driving power 11, LED substrate 12 and heat-dissipating casing (not shown), and wherein, driving power 11 outputs connect several LED on LED substrate 12.The LED substrate 12 of this enforcement is the good aluminium base 12 of heat conductivility, it comprises circuit layer 121, insulating barrier 122 and metal level 123 from top to bottom, wherein, described circuit layer 121 is mainly comprised of anodal Copper Foil 121a and negative copper foil 121b, this two Copper Foil is separated from each other, string and after LED be connected between this positive pole Copper Foil 121a and negative copper foil 121b.

As shown in Figures 2 and 3, capacitor C Y1 is the electric capacity of driving power 11, capacitor C Y2 and CY3 are formed distribution capacity between other layer of both positive and negative polarity Copper Foil 121a, 121b and aluminium base 12 on aluminium base 12, when carrying out voltage-withstand test, the high pressure that high pressure instrument 20 is exported is applied directly to the electric capacity after capacitor C Y1 and CY2/CY3(capacitor C Y2 and CY3 parallel connection) between, its equivalent schematic diagram is as shown in Figure 4.

The ac high-voltage applying while supposing voltage-withstand test is VC, and the voltage of assigning on capacitor C Y1 is VCY1, and on the distribution capacity of aluminium base 12 (supposing CY2=CY1), assigning to voltage is VCY2/2, VC=VCY+VCY2/2.According to formula, electric capacity capacitive reactance Xc=1/ (2 π fC), CY2/CY3 capacitance more capacitive reactance is less, the voltage of assigning in series circuit is also less, CY1 capacity generally with 1000p between 2200P.Suppose that CY2/CY3 capacitance equates with CY1, the voltage that the voltage that aluminium base 12 is assigned to is assigned to CY1 electric capacity equates, is 1/2 VC.If CY2/2 is greater than CY1, VCY2/2 will be less than VCY1, and the voltage adding on aluminium base 12 is lower than the voltage-withstand test high-voltage value of half, and therefore, the distribution capacity on aluminium base 12 is larger, and the voltage of assigning to is lower.

Because aluminium base 12 is comprised of circuit layer 121, insulating barrier 122 and metal level 123 three-deckers, medium (insulating barrier 122) in the middle of two parallel metallic plates (circuit layer 121 and metal level 123) add just forms an electric capacity, therefore, the electric capacity of this aluminium base 12 can be calculated by following formula: C=ε S/4 π Kd(electric capacity computing formula).Wherein, ε represents dielectric constant (being also the dielectric constant of insulating barrier), S represents the Copper Foil gross area (being also the area sum of anodal Copper Foil 121a and negative copper foil 121b), K represents static constant (the static constant of insulating barrier), d represents that polar plate spacing is from (being also the thickness of insulating barrier), and as shown from the above formula, area S is larger, plate is less apart from d, and capacitance C is just larger.

Because the withstand voltage of aluminium base 12 is generally 2.0KV, and safety requirement of withstand voltage (voltage applying while being safety test) is generally 4KV, if make aluminium base 12 meet voltage-withstand test requirement, the voltage adding on aluminium base 12 need be equal to or less than the voltage-withstand test high-voltage value of half, the capacity of CY2/CY3 (capacitance of aluminium base 12) need be greater than CY1 capacity, also be ε S/4 π Kd≤CY1, therefore, can learn, make aluminium base 12 meet safety requirement of withstand voltage, the Copper Foil gross area on aluminium base 12 need meet the following conditions: S≤4 π Kd*CY1/ ε.

For anodal Copper Foil 121a and negative copper foil 121b, if both areas are different, formed distribution capacity varies in size, and the voltage of assigning to is so also just different.If the anodal Copper Foil 121a's of the Area Ratio of negative copper foil 121b is little, its voltage ratio is just high, power supply secondary transformer winding and rectifying tube conducting, and voltage is evened up cathode voltage by force, can not cause the dead lamp of LED superpressure.And if cathode voltage just has electric current to flow through LED when higher than cathode voltage, when voltage-withstand test, LED can be glittering, and voltage is higher, and LED is brighter, when voltage exceeds LED when withstand voltage greatly to a certain extent, will damage the PN junction of LED; The another kind of situation that cathode voltage is higher than cathode voltage is exactly that negative pole has punctured, and in zero potential, as long as at this time anodal, assign to extremely low voltage and is also enough to cause LED to damage.Therefore, produce the bad risk of lamp pearl when reducing voltage-withstand test, the gross area of anodal Copper Foil 121a can be designed to be more than or equal to the gross area of negative copper foil 121b, in the present embodiment, adopt the design that anodal Copper Foil 121a is equal with negative copper foil 121b area.

In order further to improve the performance of aluminium base 12, avoid it to be broken down by high-voltage, can design the creep age distance of aluminium base 12.The aluminium base 12 that is 2.0KV for conventional withstand voltage, the creep age distance of its whole plate need be designed to be more than or equal to 2.0mm, as shown in Figure 2, anodal Copper Foil 121a and negative copper foil 121b on aluminium base 12 are all designed to rectangular shape, the distance at the edge of itself and aluminium base 12 is H1 and H2, and the value of this distance H 1 and H2 should be more than or equal to 2.0mm.Based on this design, can guarantee that aluminium base 12 does not exist weak link, is unlikely to puncture when voltage is higher.

As mentioned above, the utility model is that the circuit layer of aluminium base is carried out to particular design, by strengthening both positive and negative polarity Copper Foil area, strengthen the distribution capacity of aluminium base, thereby the voltage that is applied to aluminium base two ends while reducing voltage-withstand test, makes light fixture to meet voltage-withstand test requirement in the situation that do not introduce new components and parts.Therefore, the utlity model has following advantage: without introducing new component, avoid increasing production cost and bad risk because increasing components and parts; Without improving requirement of withstand voltage to thicken insulating barrier, reduce the insulating requirements of aluminium base, improve heat-sinking capability and can reduce aluminium base material cost; While reducing voltage-withstand test, there is the risk that lamp pearl is bad, enhance productivity, reduce fraction defective.

Above combination most preferred embodiment is described the utility model, but the utility model is not limited to the embodiment of above announcement, and should contain the various modifications of carrying out according to essence of the present utility model, equivalent combinations.

Claims (6)

1. the LED substrate for high pressure resistant LED light fixture, described high pressure resistant LED light fixture comprises driving power, heat-dissipating casing and described LED substrate, described LED substrate comprises circuit layer, insulating barrier and metal level, it is characterized in that: described circuit layer comprises anodal Copper Foil and the negative copper foil being separated from each other, the gross area of described Copper Foil meets S≤4 π Kd*CY1/ ε, wherein, S is the area sum of anodal Copper Foil and negative copper foil, K is the static parameter of insulating barrier, d is the thickness of insulating barrier, CY1 is the electric capacity of driving power, the dielectric constant that ε is insulating barrier.

2. LED substrate as claimed in claim 1, is characterized in that: the area of described anodal Copper Foil is more than or equal to the area of negative copper foil.

3. LED substrate as claimed in claim 1 or 2, is characterized in that: the withstand voltage of described LED substrate is that 2.0KV and its creep age distance are more than or equal to 2.0mm.

4. a high pressure resistant LED light fixture, it comprises driving power, heat-dissipating casing and LED substrate, described LED substrate comprises circuit layer, insulating barrier and metal level, it is characterized in that: described circuit layer comprises anodal Copper Foil and the negative copper foil being separated from each other, and the gross area of described Copper Foil meets S≤4 π Kd*CY1/ ε, wherein, S is the area sum of anodal Copper Foil and negative copper foil, the static parameter that K is insulating barrier, the thickness that d is insulating barrier, CY1 is the electric capacity of driving power, the dielectric constant that ε is insulating barrier.

5. high pressure resistant LED light fixture as claimed in claim 4, is characterized in that: the area of described anodal Copper Foil is more than or equal to the area of negative copper foil.

6. the high pressure resistant LED light fixture as described in claim 4 or 5, is characterized in that: the withstand voltage of described LED substrate is that 2.0KV and its creep age distance are more than or equal to 2.0mm.

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