CN103901557A - Photovoltaic conversion module - Google Patents

Abstract

Disclosed is a photovoltaic conversion module which includes a lens unit, a circuit board and a photoelectric unit. The lens unit is fixedly arranged on the circuit board. The photoelectric unit is electrically arranged on the circuit board. The circuit board is provided with a groove. The photoelectric unit is located in the groove.

Description

Opto-electronic conversion module

Technical field

The present invention relates to a kind of opto-electronic conversion module.

Background technology

Opto-electronic conversion module generally comprises lens unit, photovoltaic element (comprising light emitting diode and photoelectric detector) and circuit board, on lens unit, can design groove structure, thereby make to there is an accommodation space to hold photovoltaic element between lens unit and circuit board, so structure, make the integral thickness of lens unit larger, and then make the thickness of opto-electronic conversion module larger.

Summary of the invention

In view of this, be necessary the opto-electronic conversion module that provides a kind of thickness less.

A kind of opto-electronic conversion module, comprise lens unit, circuit board and photovoltaic element, described lens unit is fixedly arranged on described circuit board, and described photovoltaic element is electrically arranged on described circuit board, on described circuit board, have groove, described photovoltaic element is positioned at described groove.

Compared to prior art, the opto-electronic conversion module of the present embodiment owing to arranging groove on circuit board, and photovoltaic element is arranged in groove, so design, and the thickness of lens unit is less, and then makes the integral thickness of opto-electronic conversion module less.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of embodiment of the present invention opto-electronic conversion module.

Main element symbol description

Opto-electronic conversion module	10
		Lens unit	11
First lens	110
		The second lens	111
Reflecting surface	112
		Circuit board	12
Groove	120
		Light emitting diode	13
Photoelectric detector	13’
		Chip unit	14

Following embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1, the opto-electronic conversion module 10 that the embodiment of the present invention provides comprises lens unit 11, circuit board 12, light emitting diode 13, photoelectric detector 13 ' and chip unit 14, and light emitting diode 13 and photoelectric detector 13 ' are collectively referred to as photovoltaic element.

Lens unit 11 can be fixedly arranged on circuit board 12 by glue, and lens unit 11 comprises first lens 110, the second lens 111 and reflecting surface 112.The number of first lens 110 equates with the number of the second lens 111, and the number of first lens 110 equals the number sum of light emitting diode 13 and photoelectric detector 13 '.The optical axis perpendicular circuit board 12 of substantially parallel circuit board 12, the second lens 111 of optical axis of first lens 110, reflecting surface 112 be arranged with on lens unit 11 and and the optical axis of first lens 110 and the optical axis of the second lens 111 between all there is the angle of 45 degree.

On circuit board 12, there is groove 120, light emitting diode 13, photoelectric detector 13 ' and chip unit 14 are electrically arranged in the groove 120 of circuit board 12, and the size and shape of groove 120 can be laid light emitting diode 13, photoelectric detector 13 ' and chip unit 14.

Chip unit 14 is all connected control luminous intensity, the frequency etc. of light emitting diode 13 and process the light signal that photoelectric detector 13 ' receives with light emitting diode 13, photoelectric detector 13 '.

Circuit board 12 is more suitable with ceramic wafer, better because of hardness and the heat radiation of ceramic substrate, certainly, also can be made up of other material.

The light that light emitting diode 13 sends incides on reflecting surface 112 through the second lens 111, and light is reflected after face 112 reflection through first lens 110 from lens unit 11 outgoing; The light that enters lens unit 11 from first lens 110 is incident to reflecting surface 112, and the photoelectric detector 13 ' institute being arranged on circuit board 12 through the second lens 111 after reflecting surface 112 reflections receives.

The opto-electronic conversion module 10 of the present embodiment owing to arranging groove 120 on circuit board 12, and photovoltaic element is arranged in groove 120, so design, and the thickness of lens unit 11 is less, and then makes the integral thickness of opto-electronic conversion module 10 less.

Be understandable that, those skilled in the art also can do other variation etc. and be used in design of the present invention in spirit of the present invention, as long as it does not depart from technique effect of the present invention and all can.The variation that these do according to spirit of the present invention, within all should being included in the present invention's scope required for protection.

Claims (6)

1. an opto-electronic conversion module, comprises lens unit, circuit board and photovoltaic element, and described lens unit is fixedly arranged on described circuit board, described photovoltaic element is electrically arranged on described circuit board, it is characterized in that having groove on described circuit board, described photovoltaic element is positioned at described groove.

2. opto-electronic conversion module as claimed in claim 1, it is characterized in that, described lens unit comprises first lens, the second lens and reflecting surface, after described reflecting surface reflection, be incident to described the second lens from the light of described first lens outgoing, after described reflecting surface reflection, be incident to described first lens from the optical fiber of described the second lens outgoing.

3. photoelectricity as claimed in claim 2, at modular converter, is characterized in that, the optical axis of described first lens is the optical axis of described the second lens vertically, all has the angle of 45 degree between the optical axis of described reflecting surface and described first lens and the optical axis of described the second lens.

4. opto-electronic conversion module as claimed in claim 1, is characterized in that, described circuit board is made up of stupalith.

5. opto-electronic conversion module as claimed in claim 1, is characterized in that, described photovoltaic element comprises light emitting diode and photoelectric detector.

6. the opto-electronic conversion module as described in as arbitrary in claim 1-5, is characterized in that, described opto-electronic conversion module further comprises the chip unit being connected with described photovoltaic element, and described chip unit is positioned at described groove.

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