CN202405305U - Light emitting diode (LED) wafer - Google Patents

Abstract

The utility model discloses a light emitting diode (LED) wafer, which comprises a positive-type (P-type) semiconductor and a negative-type (N-type) semiconductor, wherein the P-type semiconductor and the N-type semiconductor are opposite to each other, a transparent body is arranged between the P-type and the N-type semiconductors, and the transparent body is formed by joining two transparent blocks through a flat plane; the opposite surfaces of the P-type and the N-type semiconductors are connected with each other through a conductor; and both the P-type and the N-type semiconductors are respectively provided with a conductive pin. Due to the adoption of the LED wafer, the vast majority of optical energy generated on P nodes and N nodes can be leaked, so that the glow brightness of the LED wafer with identical power can be greatly enhanced.

Description

The LED wafer

Technical field

The utility model relates to the LED lighting field, relates in particular to a kind of LED wafer that comprises P type semiconductor and N type semiconductor.

Background technology

The LED luminous lighting has become the lighting installation of very popularizing at present, and it relies on the LED wafer as light source, and this wafer main body is made up of luminous PN junction, comprises P type semiconductor and N type semiconductor; In when, between two kinds of semiconductors the migration in electronics or hole taking place when, electroluminescent effect will take place, produce bright radiance; Compare with other illuminating lamp, be equal under the power, LED wafer luminosity is high; Color is pure, therefore, is the first-selected parts of energy-saving illumination.

Owing to receive the restriction of material, for common LED wafer, two kinds of semiconductors that constitute PN junction are opaque body; Electroluminescent effect then produce with two kinds of semi-conductive contact-making surfaces on, therefore, have only the illumination that can leak of the luminous energy of contact-making surface periphery; And the radiance of contact-making surface central authorities can't be derived illumination; Therefore, the waste of its luminous energy is still bigger, and LED wafer luminosity still limits to some extent.

Summary of the invention

In order to address the above problem, the purpose of the utility model is to provide a kind of LED wafer, and this LED wafer can make the luminous energy overwhelming majority that produces on the PN junction outwards reveal, and has improved the luminosity of equal power LED wafer largely.

The utility model solves the technical scheme that its technical problem adopted: this LED wafer comprises P type semiconductor, N type semiconductor; Both are opposed each other; And between said P type semiconductor, N type semiconductor, be provided with the transparent body, this transparent body is made up of two transparent block through the amalgamation of smooth inclined-plane; The opposed faces of said P type semiconductor and N type semiconductor is connected by conductor; The end of said P type semiconductor, N type semiconductor is equipped with conductive pin.

As preferably, the said conductor that connects between said P type semiconductor, the N type semiconductor is the conduction copper cash.

As preferably, be coated with the layer of transparent conductive layer on the opposed faces of said P type semiconductor, N type semiconductor respectively, thereby make electronics or hole get into said opposed faces equably through this transparency conducting layer by said conductor transmission.

As preferably, the said transparent body is made up of glass blocks or heat-conducting resin piece, has both had good light transmittance, has good thermal diffusivity again.

As preferably; Piece together the formed smooth inclined-plane of said two transparent block and the said P type semiconductor of the said transparent body, the line of N type semiconductor is 45 °; Thereby can carry out vertical reflection to the directional light between the said opposed faces, to reach maximum reflecting properties.

The beneficial effect of the utility model is: after this LED wafer energising; The opposed faces of said P type semiconductor and N type semiconductor is through said conductor exchange hole and electronics; And electroluminescent effect takes place on said opposed faces, on the said smooth inclined-plane of the said transparent body of the light directive that is produced central authorities, via this smooth inclined-plane to external reflectance; Thereby make the most of luminous energy that produces in the PN junction that effective lighting all is provided, improved LED wafer brightness of illumination greatly.

Description of drawings

Fig. 1 is the structure chart of the utility model LED wafer luminous site;

Fig. 2 is the light-emitting diode structure sketch map that is made up of the utility model LED wafer.

Among the figure: 1, P type semiconductor; 12, conduction copper cash; 2, N type semiconductor; 3, the transparent body; 30, smooth inclined-plane; 4, epoxy resin; 5, conductive pin; 51, gold thread; 6, electrode.

Embodiment

Below in conjunction with accompanying drawing and embodiment the utility model is further specified:

In the embodiment shown in fig. 1; This LED wafer comprises P type semiconductor 1, N type semiconductor 2; Both are opposed each other, and between said P type semiconductor 1, N type semiconductor 2, are provided with the transparent body 3, and this transparent body 3 is made up of two transparent block through 30 amalgamations of smooth inclined-plane; The opposed faces of said P type semiconductor 1 and N type semiconductor 2 is connected by conduction copper cash 12; The end of said P type semiconductor 1, N type semiconductor 2 is equipped with conductive pin 5.

Above-mentioned LED wafer; Be coated with the layer of transparent conductive layer respectively on the opposed faces of said P type semiconductor 1, N type semiconductor 2; Like tin indium oxide; Thereby make the electronics or the hole of transmitting to get into said opposed faces equably through this transparency conducting layer, make and produce area source in the PN junction by said conduction copper cash 12.

Above-mentioned LED wafer, the said transparent body 3 is made up of glass blocks or heat-conducting resin piece, has both had good light transmittance, has good thermal diffusivity again.

Above-mentioned LED wafer; The line that pieces together the formed smooth inclined-plane 30 of said two transparent block of the said transparent body 3 and said P type semiconductor 1, N type semiconductor 2 is 45 °; Thereby can carry out vertical reflection to the directional light between the said opposed faces, to reach maximum reflecting properties.

After the above-mentioned LED wafer energising; The opposed faces of said P type semiconductor 1 and N type semiconductor 2 is through conduction copper cash 12 exchange hole and electronics; And electroluminescent effect takes place on said opposed faces, on the said smooth inclined-plane 30 of the said transparent body of the light directive that is produced 3 central authorities, via this smooth inclined-plane 30 to external reflectance; Thereby make the most of luminous energy that produces in the PN junction that effective lighting all is provided, improved LED wafer brightness of illumination greatly.

A light-emitting diode structure by Fig. 1 embodiment is constituted is as shown in Figure 2; Wrap up epoxy resin 4 around the PN junction; Can mix fluorescent material in this epoxy resin; To improve the soften of illumination, the said conductive pin 5 that is arranged at P type semiconductor 1 and N type semiconductor 2 ends joins through gold thread 51 and the electrodes 6 that are arranged at epoxy resin 4 outsides respectively.

The above is merely the preferred embodiment of the utility model, and is in order to restriction the utility model, not all within the spirit and principle of the utility model, any modification of being done, is equal to replacement, improvement etc., all should be included within the protection range of the utility model.

Claims (5)

1. LED wafer; Comprise P type semiconductor (1), N type semiconductor (2); Both are opposed each other; It is characterized in that: between said P type semiconductor (1), N type semiconductor (2), be provided with the transparent body (3), this transparent body (3) is made up of two transparent block through smooth inclined-plane (30) amalgamation; Said P type semiconductor (1) is connected by conductor with the opposed faces of N type semiconductor (2); The end of said P type semiconductor (1), N type semiconductor (2) is equipped with conductive pin (5).

2. LED wafer according to claim 1 is characterized in that: the said conductor that connects between said P type semiconductor (1), the N type semiconductor (2) is conduction copper cash (12).

3. LED wafer according to claim 1 is characterized in that: be coated with the layer of transparent conductive layer respectively on the opposed faces of said P type semiconductor (1), N type semiconductor (2).

4. LED wafer according to claim 1 is characterized in that: the said transparent body (3) is made up of glass blocks or heat-conducting resin piece.

5. according to claim 1 or the described LED wafer of claim 4, it is characterized in that: the said formed smooth inclined-planes of two transparent block (30) that piece together the said transparent body (3) are 45 ° with the line of said P type semiconductor (1), N type semiconductor (2).

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