DE10306130A1 - Electronic module for high frequency telecommunications, has screening and cooling, with insulating layer on components arranged in housing filled with liquid metal - Google Patents

Abstract

Electronic and electrical components (16,17,18) are arranged in a housing (4) having good thermal transfer to the surroundings. The housing is filled with a liquid metal (28). The components are covered with an insulating layer (24), at least at their conductive parts. The housing is sealed to prevent the liquid metal escaping. The liquid metal may be a GaInSn alloy.

Description

The invention relates to an electronic Assembly using means for shielding electrical and electromagnetic Fields and for dissipating the heat loss is provided. Under one In the following, an assembly is an arrangement of several components to understand the realization of an electronic circuit arrangement.

The shielding of electronic assemblies against external electromagnetic Fields as well as the shielding of the environment against that of electronic Electromagnetic fields generated in assemblies takes place in the usual way Way through housing or cages, which either consist of metal or have a conductive layer. It is for cost reasons the entire assembly is shielded. Only done in special cases the shielding of individual components of the assembly - in particular of components that are operated at high frequencies. In these make there is the housing either from individual chambers separated by sheets or webs. Or the components each have their own metal housing, such as there are, for example, RF transistors, particularly noise-sensitive amplifier modules or transmitting or receiving components in telecommunications technology exhibit.

Assemblies that generate heat loss during their operation are cooled in different ways: busbars, power semiconductors and heavy duty resistors are provided with heat sinks in order the heat to the surrounding air or cooling water leave. Assemblies or devices are mounted on sheet metal plates or have connection elements with a deliberately large cable cross-section, so much the warmth derive. In critical cases to lead Heat pipes remove the heat from the relevant components. Large assemblies, devices or cabinets have fans or own cooling units on. Electronic computers are usually equipped with several fans.

In heat sensitive applications, especially with particularly low-noise amplifiers, it is important that all components of a circuit arrangement are at the same temperature level. For this purpose, the temperature-critical components are in or on a metal housing attached, which is formed from solid material. Must have several components temperature-coupled a common metal cap filled with thermal paste is placed over them.

When it comes to cooling, good heat transfer is essential from the heat source to the heat sink on. This is due to materials with good thermal conductivity, with thermal pastes or foils and with big ones surfaces at the transitions like for example from the surface a heat sink to the ambient air, reached.

The well-known shielding measures are due to different housings or cages costly in production. Influence individual components of an assembly each other over electromagnetic fields, the more common the smaller the dimensions of the modules are, especially if power parts, analog parts and digital parts getting closer are arranged and always higher Switching frequencies are used. With shield-tight assemblies often exist Heat dissipation problems. Components must in terms of their shape and installation position sufficient thermal contact for heat transfer to a heat sink, Heatsink or casing consists. Will the heat loss only over the ambient air is removed Need to become generally additional Space-consuming fans be used. With the trend towards ever smaller dimensions and higher Performance quickly reaches the limit of what is feasible. With elaborate Heatpipes leaves for a component or for remedy a small number of components. An even temperature level for all components complex assembly only in limited Achieve scope and effort.

The invention is therefore the object based, with reasonable effort at the same time the shielding and the uniform cooling of one improve electronic assembly.

Starting from an assembly of the the type mentioned is the object of the invention the characteristics of the independent Claim solved, while the dependent Claims advantageous Further developments of the invention can be found.

Within the assembly according to the invention, all components are surrounded by liquid metal. The shape or design of the components has no influence. Each component is surrounded by liquid metal on the component side as well as on the assembly or soldering side, regardless of whether these are wired, connection-soldered or surface-soldered components. In this way, each component surrounded by the liquid metal is effectively shielded both internally and externally and from the other components of the assembly against electrical and electromagnetic fields. The housing surrounding the assembly can be made partially or completely of non-conductive material, preferably an injection-moldable plastic, without this having a significant influence on the shielding properties of the assembly. The liquid metal easily creates between all construction share effective thermal bridges. This means that all components are essentially at the same temperature. For the housing, there is no need for an individually adaptable and therefore expensive design for the shielding and heat dissipation to suit the particular spatial shape of the assembly or certain components.

An advantageous further development exists in the partial design of the housing as a heat sink, especially if the Heat sink as Cover is formed with the tub-like remaining part of the housing after filling dense with liquid mall connected is. Can be used as a heat sink easily a commercial one Purchase part can be used. Between the cover and the housing part can be a sweat, Adhesive, press or screw connection must be provided. By the arrangement a layer of thermally conductive sealing material between cover and housing part the heat sink, which is generally made of solid metal, is both electrically and chemically isolated from the liquid metal. Preferably consists of the tub-like housing part Insulating material.

A further development of the invention is still in the liquid metal to store one or more elastic pressure compensation bodies. For one thing hereby a volume compensation compared to the thermally induced volume change of the liquid metal and on the other hand a reduction in the amount of liquid metal required causes.

In many cases it is advantageous that the liquid metal with the reference potential (ground) of the module in electrical connection stands. This can be done in a simple way using non-insulated, partial surfaces of the Subassembly done, preferably by at least an uninsulated Contact pin, preferably from a circuit board on which the other components are mounted, protrudes. The contact pin should be opposite one Liquid metal corrosion resistant material, for example from molybdenum, consist.

The insulating layer is preferably made from a usual Protective varnish.

As a liquid metal one is physiological preferred safe alloy from a GaInSn alloy. An alloy of 660 parts by weight gallium, 205 parts by weight Gallium and 135 parts by weight of tin is at normal pressure in the temperature range from 10 to 2000 ° C liquid and has good shielding and heat-conducting properties.

More details and advantages The invention will become apparent from the following, based on figures explained Embodiment. Show it

1 : an assembly according to the invention in a perspective view;

2 : the top view of the assembly 1 ;

3 : the lateral longitudinal section III-III according to 2 ,

To 1 and 2 points the electronic assembly 2 an enclosing housing 4 on that from a lower, tub-like housing part 6 and a lid 8th consists. The lid 8th is a metallic heat sink with cooling fins 10 trained and with the housing part made of insulating material 6 via four screw connections 12 connected. There is a sealant between the housing part and the cover 14 in the form of an elastic film with high thermal conductivity.

To 3 are in the housing part 6 in the usual way the electrical and electronic components of the assembly 2 attached. The component 16 is a circuit board on which the other components, including for example a component 17 in the form of a complex electronic switching component. As shown in 1 and 3 is a hollow connection space in the left side 20 educated. On the circuit board 16 is another component 18 attached a group of connecting elements. The connection elements 18 protrude through a breakthrough 22 in the connection room 20 , The connection elements 18 are against the breakthrough 22 sealed, for example by a seal, by glue or by self-curing plastics.

At least the inside of the case 4 The conductive surfaces of all components are covered with an insulating layer 24 overdrawn. In a practical way, the components as a whole are with the protective layer 24 , for example a solder varnish, coated. When assembling the overall insulation-coated printed circuit board equipped with the other components 16 in the housing part 6 is also an elastic pressure compensation body 26 in the housing part 6 fixed. After the housing part 6 Full to the brim with liquid metal 28 the lid has been replenished 8th with the interposition of the sealant 14 screwed. The liquid metal 28 consists of a eutectic GaInSn alloy. The insulation layer 24 prevents all components 16 to 18 no electrical contact with the liquid metal 28 to have. The elastic sealant 14 causes the housing to close tightly 4 against the leakage of liquid metal 28 or against the entry of air, continue to protect the metal cover 8th against corrosion by the liquid metal 28 and finally the electrical insulation of the interior of the assembly 2 , On the circuit board 16 is also a non-insulated contact pin 30 soldered. The contact pin made of molybdenum 30 stands with the reference potential (ground) on the circuit board 16 in direct electrical connection.

The liquid metal 28 surrounds all components of the assembly on all sides 2 and thus, on the one hand, provides all-round shielding against electrical and electromagnetic fields, and on the other a uniform heat distribution between the components and good heat dissipation to the cover designed as a heat sink 8th , The liquid metal 28 shields the assembly 2 against harmful external interference fields, prevents the radiation of internal interference from the outside and at the same time shields the components against each other against self-interference. Through the contact pin 30 is the liquid metal 28 on the reference potential of the module 2 , The heat-conducting sealant 14 stands over large contact areas on the one hand with the liquid metal 28 and on the other hand with the lid 8th in contact, resulting in a low heat transfer resistance between liquid metal 28 and lid 8th results. The heat loss of the assembly 2 becomes effective through the liquid metal 28 , the sealant 14 , the lid 8th and its cooling fins 10 discharged to the surrounding air. Through the pressure compensation body 26 are temperature-related changes in volume of the liquid metal 28 , the housing 4 and the components 16 ... 18 balanced.

The assembly 2 can be used regardless of the installation position. To achieve good shielding and good heat dissipation, it does not require any expensive ones, especially in terms of the design of the components or the assembly 2 customized parts. The assembly according to the invention is not limited to the embodiments described above, but also includes all the embodiments having the same effect in the sense of the invention. So can the housing 4 For example, consist entirely of insulating plastic if the thermal requirements of the assembly are in harmony with its self-heating and the thermal conditions of the environment.

In many cases it may be sufficient that the thermally caused volume compensation is not due to pressure compensation bodies 26 but through sufficient elasticity of the sealant 14 is balanced. On the other hand, through pressure compensation bodies 26 the volume required for the liquid metal 28 to reduce.

The sealing connection between the lid 4 and housing part 6 can also be done in a different way than shown. For example, thermal joining, gluing or pressing of both parts may be mentioned here.

If necessary, other components are sufficient, for example externally accessible setting means for resistance potentiometers, sealed by the housing 4 ,

Claims (12)

Electronic assembly, consisting of - a housing ( 4 ) with at least partially good heat transfer to the environment, - in the housing ( 4 ) electrically and mechanically arranged electronic and electrical components ( 16 ; 17 ; 18 ), - electrical connection elements ( 18 ) and, if necessary, other components that are 4 ), characterized in that - the housing ( 4 ) with a liquid metal ( 28 ) is filled, - the components ( 16 ; 17 ; 18 ) at least with regard to their conductive partial surfaces with an insulating layer ( 24 ) are coated and - the housing ( 4 ) against the leakage of liquid metal ( 28 ) is tightly closed. Electronic assembly according to the preceding claim, characterized in that the housing ( 4 ) is at least partially designed as a heat sink. Electronic assembly according to the preceding claim, characterized in that the housing ( 4 ) from a tub-like housing part ( 6 ) and one designed as a heat sink and with the housing part ( 6 ) tightly connected lid ( 8th ) consists. Electronic assembly according to claim 3, characterized in that the cover ( 8th ) with the tub-like housing part ( 6 ) is tightly welded, glued, pressed or screwed. Electronic assembly according to claim 3, characterized in that the cover ( 8th ) with the tub-like housing part ( 6 ) with the interposition of a thermally conductive sealant ( 14 ) connected is. Electronic assembly according to claim 3, characterized in that the trough-like housing part ( 6 ) consists of insulating material. Electronic assembly according to one of the preceding claims, characterized in that in the liquid metal ( 28 ) at least one elastic pressure compensation body ( 26 ) is stored. Electronic assembly according to one of the preceding claims, characterized in that the liquid metal ( 28 ) is at least partially in electrical connection with the reference potential. Electronic assembly according to the preceding claim, characterized in that at least one non-insulated contact pin electrically connected to the reference potential ( 30 ) is provided. Electronic assembly according to the preceding claim, characterized in that the contact pin ( 30 ) consists of molybdenum. Electronic assembly according to one of the preceding claims, characterized in that the insulating layer ( 24 ) is a protective varnish. Electronic assembly according to one of the preceding claims, characterized in that the liquid metal ( 28 ) is a GaInSn alloy.