CN105939568A - Method for improving heat conductive capacity of printed board of surface mounting device - Google Patents

Abstract

The invention provides a method for improving heat conductive capacity of a printed board of a surface mounting device and aims at providing a realization method with guidance and operability. The realization method is specific to the defects that in the prior art, the working temperature is high and the heat reliability is low due to the fact that the heat conductive property of the heat conductive printed board is low, the heat conductive paths are long and the heat conductive resistance is high. The method is realized through the technical scheme of determining layout of plated-through holes and heat conductive copper pins according to a power parameter range of the high heat flux surface mounting device; establishing heat conductive paths with reproducibility and extensibility according to the determined assembly relationships among the surface mounting device of which bottom surface is equipped with a metal welding surface, the printed board and a metal box; sealing all heat conductive through holes by use of high temperature resistant adhesive tapes at the reverse sides of the heat conductive through holes of the printed board of the surface mounting device; and pressing the heat conductive copper pins into the corresponding heat conductive through holes and carrying out welding. According to the method, the defect that the heat conductive reliability of the heat conductive paths of the high heat flux surface mounting device is low in low air pressure or vacuum is solved.

Description

The method improving the surface mount device printed board capacity of heat transmission

Technical field

The present invention, about the method improving the surface mount device printed board capacity of heat transmission, relates to surface mount device and prints The high heat flux surface patch worked under plate, the design of conduction copper pin, process flow for assembling, especially low pressure, vacuum condition Dress device electronic equipment.

Background technology

In spaceborne effective lotus product, the packing forms during high heat flux surface mount, it is mostly non-airtight knot Structure, and it is in (10^-6~10^-7Pa) running in vacuum environment, face long-life highly reliable requirement, thermal design is the heaviest in development Want one of content.Owing to heat radiation the most freely will cause that high heat flux surface mount device package case temperature is higher, thermal reliability Difference, the air being simultaneously frequently utilized that in ground-based electronic equipment, work under the most inapplicable above-mentioned environment of various measures of heat loss through convection High heat flux surface mount device electronic product, the most how to increase high heat flux surface mount device contact heat conductien With Space Thermal radianting capacity, particularly contact heat conductien ability, shorten conducting path, reduce thermal-conduction resistance, improve thermal contact conductance Become the key core problem of spaceborne electronic product.

The currently available technology spaceborne high heat flux typical mounting means of electronic product device mainly has three shown in Fig. 4 The situation of kind.

Shown in the first Fig. 4 a, the lead-out wire of components and parts 2 is directly welded in printed board 1, case surface not with printed board 1 Contact.

Components and parts 2, with installing journal stirrup 10, are fixed on cabinet with securing member 4 by components and parts 2 housing shown in the second Fig. 4 b On housing 3.

Shown in the third Fig. 4 c, the lead-out wire 5 of components and parts 2 is directly welded in printed board 1, case surface and printed board 1 or Cabinet housing 3 surface directly or indirectly contacts.

In above-mentioned three kinds of mounting means components and parts, install by component's feet pass thermal and device directly with metal shell or Heat dissipating method and the measure of heat-conducting plate transmission of heat by contact are the most ripe, it is only necessary to add suitable heat conduction auxiliary packing i.e. at contact surface Use requirement can be met.

In actual use, owing to printed board material is compared with metal material, its capacity of heat transmission poor (copper T2: 385.1W/m DEG C, aluminium alloy 2A12:121.4 W/m DEG C, epoxy resin bonded fiber FR4:(0.3 ~ 0.4) W/m DEG C), and Printed board material mostly is anisotropic characteristic, and heat conductivity of printed circuit board can be low, causes path length, thermal conduction resistance to cause greatly high hot-fluid The defect that density surface mount device thermal reliability is low.Although copper rate can be covered by changing printing board surface, increases ground plane The methods such as area, volume can improve printed board lateral thermal conductivity energy, but the heat conductivility of the printed board face of being perpendicular to electronic device, But owing to metallization cross-sectional area is less, the surface mount device case temperature that printed board thermal conduction resistance causes more greatly is higher, should Heat conductivility is promoted limited by measure.

How to be effectively improved the Surface mount technology PCB capacity of heat transmission, it is ensured that the heat consumption of device is by the shortest heat dissipation path Heat conduction is transmitted, and technically in the urgent need to studying in terms of realizing two from structure design and technique, determines a kind of simple possible Method and approach, be solve surface mount device thermal reliability technical barrier.

Summary of the invention

It is an object of the invention to for above-mentioned prior art thermal conduction printed circuit boards heat conductivility low, thermally conductive pathways length, heat conduction heat Resistance is big, causes the weak points such as device shell temperature is higher, thermal reliability is poor, proposes one and has theoretical direction, operable The design and processes implementation method that property is strong, to solve high heat flux surface mount device heat conduction road under low pressure or vacuum condition The defect that footpath heat radiation reliability is low.

In order to realize the above-mentioned purpose of the present invention, a kind of raising surface mount device printed board heat conduction energy that the present invention provides The method of power, it is characterised in that comprise the following steps:

(1) first according to the encapsulation shape of high heat flux surface mount device and the contact surface geomery of printed board and power consumption Parameter area, determines plated through-hole, the layout of conduction copper pin；

(2) according to the ground determined with the fit assembly relation of the surface mount device of metal welding junction, printed board and metal, Set up the thermally conductive pathways with reproducibility and extensibility, then in the reverse side position of printing board surface Mount Device heat conduction through hole Put, all of heat conduction through hole adhesive tape is sealed；

(3) flush with printed board installed surface in then ready conduction copper pin is respectively pressed into the heat conduction through hole of correspondence, retell Weld together with conduction copper pin bottom above-mentioned surface mount device, finally the High temperature-resistanadhesive adhesive tape at the printed board back side is removed, inspection Look into the flatness that printed board is installed.

The present invention has the advantages that compared to prior art.

First the present invention encapsulation shape according to high heat flux surface mount device and the contact surface shape chi of printed board Very little and area, printed board thickness and power consumption parameter scope, determine plated through-hole, the layout of conduction copper pin, by determining plated through-hole Layout and size, the design requirement of conduction copper pin, can be simplified the design of different surfaces Mount Device printed board, be printed by raising The making sheet capacity of heat transmission can be effectively improved the heat dissipation characteristics of surface mount device, it is achieved the printed board capacity of heat transmission promotes.Secondly set up Relevant design require there is reproducibility and extensibility, it is simple to design experiences and knowledge accumulation；It it is thirdly the group of definition Dress flow process, process and related process parameters require as ensureing that relevant design requires to establish good Project Realization basis, its It is main sinking path by heat conduction and heat radiation, by optimizing and improve Article 1 heat dissipation path length, reducing thermal conduction resistance to this The improvement of class device heat dissipating state is better substantially.Meet in practical engineering application relevant surfaces Mount Device in vacuum environment Middle heat conduction and heat radiation demand.

The present invention is by actual test after emulation and assembling in kind, and measure effect is obvious.Formed thermal conduction printed circuit boards design, The design of conduction copper pin and printed board Denso fill joined process flow, may be used for improving similar device heat conduction in aviation and ground installation Problem.The present invention compensate for prior art and causes greatly high heat flux surface mount device due to thermally conductive pathways length, thermal conduction resistance The defect that thermal reliability is low, can meet the need that high heat flux surface mount device dispels the heat quickly through printed board high-efficiency heat conduction Ask, boost device thermal reliability.To the highly reliable use of high heat flux surface mount device in spaceborne payload electronic product Provide effective way and guide for method.

Accompanying drawing explanation

Further illustrate the present invention below in conjunction with the accompanying drawings with enforcement, but be not therefore to limit the present invention to described reality Among example scope.

Fig. 1 shows and is installed on bottom belt heat dissipation metal boss high heat flux Surface Mount Component printed board typical case in fact Execute example partial schematic diagram.

Fig. 2 shows the process route flow chart of the inventive method.

Fig. 3 is high heat flux Surface Mount Component printed board components and parts exemplary embodiments schematic diagram.

Fig. 4 shows three kinds of mounting means of the typical components and parts of prior art.

In figure: 1 printed board, 2 components and parts, 3 cabinet housings, 4 securing members, 5 lead-out wires, 6 conduction copper pins, 7 radiation paths, 8 Thermally conductive pathways, 9 plated through-holes, 10 install journal stirrup.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is embodied as step and is described in further detail.

When utilizing the method to be designed, should first lead according to the assembly relation of device, printed board and metal case Hot path optimizes, and determines the device that device is surface soldered attachment, and its thermally conductive pathways is identical with the situation of path 8 shown in Fig. 1 or class Seemingly.When can be effectively improved the heat dissipation characteristics during surface mount by improving the printed board capacity of heat transmission, the method could be utilized.

Refering to Fig. 1 ~ Fig. 3. Fig. 1 shows that high heat flux surface mount device 2 is installed on bottom belt heat dissipation metal boss, Can realize belonging to the third mounting means with the surface mount device of printed board 1 ground connection coating welding by SMT technique, its components and parts 2, cabinet housing 3 case surface contacts with printed board 1, the heat dissipation hot path of components and parts 2, and one is by lead-out wire 5 and to connect Contacting surface conductive printed plate 1, through printed board 1 heat conduction and the thermal contact conductance of cabinet housing 3, is reached heat by thermally conductive pathways 8 Cabinet housing 3；Another is by the radiation path 7 of components and parts 2 other object radiations around components and parts 2.(1) according to this Bright method, the implementation implementing path should determine that high heat flux surface mount device in spaceborne payload product Packing forms and function consumption parameter area；(2) according to the encapsulation shape of device and soldering of printed boards face size and print thickness of slab Degree, determines printed board heat-conducting metal hole arrangement, size and the design principle requirement of conduction copper pin size；(3) paste according to surface The assembled relation of dress device, definition assembling flow path, process and parameter request, complete the dress of surface mount device and printed board Join.Design concrete steps include: 1 determines that device must be the ground surface mount device with metal welding junction, such as DDS, VCO And amplifier etc..Simultaneously according to spaceborne product device, its power consumption is medium power consumption (0.1W ~ 0.3W) and big power consumption (>=0.3W) Device.As long as 2 analysis device heat consumptions pass to metal shell, by carrying by thermally conductive pathways 8 mode by underrun printed board The high printed board capacity of heat transmission can be effectively improved device workpiece thermal environment.3 according to the ground of device weld metal covering layout and Size, optimizes design and determines the printed board metallization size of thermal hole, quantity and distribution, determine conduction copper according to printed board thickness The size of pin and plated surface are coated with gold-plated or silver-plated.Wherein plated-through hole 9 heat conduction through-hole rate is within the scope of 5% ~ 15%, effect ratio Better.

Refering to Fig. 2, Fig. 3. first according to encapsulation shape and the contact surface of printed board of high heat flux surface mount device Geomery and area, printed board thickness and consumption parameter area, determine plated through-hole, the layout of conduction copper pin；Lead to according to heat conduction The aperture in hole and the thickness of slab of printed board, the supporting copper post matched with printed board.Complete corresponding printed board and conduction copper post After design, processing, use rationally effective process to carry out dress connection, be to ensure that the method marking basis that normally plays a role is protected Card.According to the ground determined with surface mount device, printed board 1 and the assembly relation of metal case of metal welding machine side, build The vertical thermally conductive pathways with reproducibility and extensibility, then in the fermentation position of printed board 1 surface mount device heat conduction through hole 9 Put, all of heat conduction through hole 9 3M High temperature-resistanadhesive adhesive tape is sealed；Printed board is lain on metal platform, will prepare with tweezers Good conduction copper pin 6 flushes with printed board 1 installed surface in being respectively pressed into the heat conduction through hole 9 of correspondence, it is ensured that the copper post put into and print Making sheet installed surface flushes.Weld together with conduction copper pin 6 bottom by above-mentioned surface mount device.Pass through at printed board end face Silk-screen smears soldering paste, to labeling device according to device and selected solder welding requirements, uses typical case's SMT technological process to weld ?；In welding process, the soldering paste of fusing relies on the mobility of self just can fill up copper post and printed board plated-through hole Gap, part bottom device welds together with copper post, completes device and printed board assembly work.Finally printed board 1 is carried on the back The 3M High temperature-resistanadhesive adhesive tape in face is removed, and checks the flatness of printed board installed surface.Can realize improving surface mount device by print The purpose of design of the making sheet capacity of heat transmission.

Refering to Fig. 3. in order to be more clearly understood that this invention, below in conjunction with Fig. 3, the design of printed board and conduction copper post is entered Line description.

First this surface mount device is DDS chip, and its packing forms is bottom square pad radiating surface, according to its heat Consumption and solder side size, make 16 × φ 0.9 plated through-hole on printed board ground plane.Via area rate reaches 7.1%.Secondly root It is coated with according to printing board surface plating, designs conduction copper pin, use electroplate to process.

Claims (5)

1. the method improving the surface mount device printed board capacity of heat transmission, it is characterised in that comprise the following steps:

(1) first according to the encapsulation shape of high heat flux surface mount device and the contact surface geomery of printed board and power consumption Parameter area, determines plated through-hole, the layout of conduction copper pin；

(2) according to the ground determined with the fit assembly relation of the surface mount device of metal welding junction, printed board and metal, Set up the thermally conductive pathways with reproducibility and extensibility, then in the reverse side position of printing board surface Mount Device heat conduction through hole Put, all of heat conduction through hole adhesive tape is sealed；

(3) flush with printed board installed surface in then ready conduction copper pin is respectively pressed into the heat conduction through hole of correspondence, retell Weld together with conduction copper pin bottom above-mentioned surface mount device, finally the High temperature-resistanadhesive adhesive tape at the printed board back side is removed, inspection Look into the flatness that printed board is installed.

2. the method improving the surface mount device printed board capacity of heat transmission as described in claim 1, it is characterised in that components and parts (2), cabinet housing (3) case surface contact with printed board (1), the heat dissipation hot path of components and parts (2), one be by draw Line (5) and contact surface conductive printed plate (1), through printed board (1) heat conduction and the thermal contact conductance of cabinet housing (3), pass through heat conduction Heat is reached cabinet housing (3) by path (8)；Another is that the radiation path (7) by components and parts (2) is around components and parts 2 Other object radiations.

3. the method improving the surface mount device printed board capacity of heat transmission as described in claim 1, it is characterised in that in welding During, the soldering paste of fusing relies on the mobility of self to fill up the gap of conduction copper pin (6) and printed board plated-through hole (9), Bottom device is welded together with conduction copper pin (6), printed board (1), completes device and printed board assembly work.

4. the method improving the surface mount device printed board capacity of heat transmission as described in claim 1, it is characterised in that very according to print Making sheet (1) thickness determines the size of conduction copper pin 6, and plated surface is coated with gold-plated or silver-plated.

5. the method improving the surface mount device printed board capacity of heat transmission as described in claim 1, it is characterised in that metallization The heat conduction through-hole rate of through hole (9) is within the scope of 5% ~ 30%；

See accompanying drawing: Fig. 1.