FI88243C - RADIOFREKVENSSKAERM - Google Patents

Description

1 88243

Radio frequency protection - Radiofrequency loop

The invention relates to radio frequency protection for electronic devices, in particular radiotelephones and the like, which comprise at least a small signal part to be protected, essentially on a circuit board, and a power supply part.

In electronic devices processing low intensity signals 10, especially analog signals, such circuits must be protected in whole or in part from external interference caused by radio transmitters, means of transport electrical equipment, the device's own power supply, etc. Such protection is also called radio frequency protection 15 or in some cases. Such radio frequency shields are generally formed of metal plates cut into suitably sized parts, bent and soldered in connection with the soldering of the components to the printed circuit board of the device. In this case, the protection is mainly only one-sided, 20 because the printed circuit board must have the wiring required by the components. Soldering of the corresponding housing also by weight. . on the opposite side of the coupling plate, i.e. in such a way that two cup-shaped parts opening towards each other are soldered to the pressure coupling plate, it is technically very difficult to implement. Thus, in some cases, the radio frequency protection is implemented by placing the entire device or its required parts in a closed housing through the wall of which the connecting cables pass. The radiofrequency shield is some suitable at least electrically conductive material, such as a metal or alloy, with novel silver being commonly used because it is solderable and does not easily lead to corrosion problems.

The disadvantage of all known solutions is that the shields are mostly composed of many separate components that have to be connected to each other, to the pressure switch plates and to the housing, usually in several stages and using different techniques. In this case, the radio frequency protection itself also takes up considerably space, hindering the device from being reduced to a size of 2 88243. At the same time, the guards easily prevent the stiffening structures from getting into the body of the device or at least increase the size to form them.

It is therefore an object of the invention to provide a radio frequency protection which is effective, i.e. surrounds the circuit to be protected on all sides and which requires as few passages as possible. It is also an object of the invention to provide such a radio frequency shield which is easy and inexpensive to manufacture and install and which promotes the structural strength of the device.

The radio frequency protection according to the invention provides a decisive improvement in the above-described drawbacks and achieves the defined objectives. To achieve this, the device according to the invention is characterized by what is set forth in the characterizing part of claim 1.

The most important advantage of the invention is that the radio frequency protection according to the invention 20 consists of very few components, which are also cheap and easy to assemble and take up little space. A further advantage of the invention is that the radio frequency protection according to it acts at the same time as an aid to the other frame structure of the device as a stiffening and reinforcing part.

A further advantage of the invention is that the radio frequency shield effectively conducts heat away from the area of the circuit board.

The invention will now be described in detail with reference to the accompanying drawings.

30

Fig. 1 shows a radio frequency shield according to the invention in cross-section assembled in an electronic device, Fig. 2 shows a second part of the radio frequency shield separately in the same view as in Fig. 1 and direction II of Fig. 3, Fig. 3 shows a second part of a radio frequency shield according to the invention. Fig. 5 shows a detail of the second part of the radio frequency shield taken along the plane BB of Fig. 3, and Fig. 6 shows the first part of the radio frequency shield according to the invention from the direction VI of Fig. 1. Fig. 7 shows an alternative shape to the first part of the radio frequency shield according to the invention. than Figure 1.

The radio frequency shield according to the invention consists of two components 10, the first part indicated by reference numeral 1 being substantially parallel to the size of the printed circuit board 5 marked with a broken line in Fig. 1, a metal body (such as an aluminum casting body) or the like. This first component 1 includes, in the embodiment shown, a central straight region 6 and a flange-like flange-like rim 7, both parallel but slightly offset in the direction perpendicular to their planes, leaving a space between the central region 6 and the actual surface of the printing plate (T ) for the components and wiring of the printed circuit board 20 as the edge portion 7 presses against the printed circuit board 5 in connection with its ground. . potential.

The second component 2 consists approximately of a first wall portion 3 of the connecting plate 5 and a continuous gutter-like second wall portion 4 of one edge 8 in the region of the connecting plate, which "gutter" opens towards the connecting plate 5. The second edge 9 of this trough-like portion 4 is flush with the flange-like edge 10 of the first wall portion 30 3. The first wall portion 3 of this second component 2 also has a central region 11 parallel to the connecting plate 5 spaced from the plane formed by the flange-like edges 9, 10 the "chute" protrudes, creating a space for the components on the coupling plate 35 when the second component 2 is pressed onto the coupling plate 5 so that the edges 9, 10 engage with the ground potential of the pressure coupling plate.

4 88243

Figure 1 shows a radio frequency shield according to the invention consisting of components 1 and 2, so that parts 1 and 2 are pressed against a reciprocating switch plate 5, whereby they relate to its ground potential and the whole combination 5 is placed inside the device body A. The power supply part 15 is also located inside the body. According to the invention, both the first component 1 and the second component 2, with all their described shapes, are each a single piece or similar integral material which is electrically and thus generally also thermally conductive. The trough-shaped second wall portion 4 of the second component 2 forms a space 12 for larger components on the pressure circuit board. In addition, the vertical wall 13 of the second wall portion 4 acts as a stiffener for the entire structure when supporting the opposite sides of the body A. The second vertical wall 14 of the second wall portion of the gutter-15 can also act as a stiffener of the structure depending on its location and design.

According to the invention, the power supply part 15, 20 of the device, which may be a battery or other power supply with possible voltage boosting or lowering circuits, is placed in the region of the opening angle 16 of the first wall part 3 and the second wall part 4, i.e. the first wall part 3 and the vertical wall 13. to the sides of the adjacent '25 wall portions away from the small signal portion. Thus, the vertical wall 13 and the first wall portion 3 of the trough-like second wall portion 4 delimit their opening angle 16 in the region of the power supply or battery compartment 17. According to the invention, the two, first and second components 1, 2 with their connecting plates 5 are connected to each other and to each other to provide a radio frequency shielded small signal portion.

In addition, the first wall portion 3 or possibly the fastening means comprising the vertical wall 13 of the second wall portion 4 4 or. clearance removal springs that remove clearance between the sides of the battery 15 and the battery compartment 17 of the body A. If necessary, these i 88883 may be means for attaching the battery or power supply to the radio frequency shield and thus to the device body A. In addition, the trough-like second wall portion 4 may include at some point, for example in the region of its second vertical wall 14, an export member or the like and fasteners of the same material. to attach an external or extending component. In the embodiment shown, this external component is an antenna 19 movably attached by a flexible tongue 18 between the body A of the device 10 and the radio frequency shield. Fig. 5 is a cross-sectional view of clearance-removing springs 20 formed of the material of the first wall portion 3, which are strip-like projections bent from the first wall portion to the battery compartment 17 and resilient to the pressure plate 5 when the battery is inserted, but remain energized.

According to the invention, both the first component 1 and the second component 2 are each formed, for example, in a manner known per se from a thin metal plate by pressing into the shape according to the invention, or either may be formed of metal by another technique. Said metal plate may be novel silver, in which case it may be soldered to a component if desired, or it may be another suitable metal plate, such as a ferromagnetic material coated on the surface as best as possible for conducting interference protection. According to the invention, the radio frequency shield may also be extruded from an insulating material, such as plastic, into a shape described and then coated, for example by vacuum evaporation, with a conductive metal coating either on both sides or only on one side. When assembled, the coating combines with the ground plane of the printed circuit board and forms radio frequency shielding. The radiofrequency shield can also be manufactured by using a laminate formed of a plastic sheet and a metal foil 35 or various combinations thereof and compressing it into a shape defined in a manner known per se, whereby the metal film in the laminate joins the ground plane of the connection plate. These structures have the advantage that the outer surfaces of the RF shield may themselves be insulating, but they nevertheless provide effective shielding because they contain an electrically conductive layer that can be connected to the ground plane of the printed circuit board.

Either of the components 1 or 2 can be connected to the pressure connection plate 5 by soldering, the shield being a suitable material. However, both components 1 and 2 or only one of the radio frequency protection 10 are connected to the pressure circuit board and the other component in any case by means of screws or rivets or spring connectors or other mechanical means passing through holes 21, 22, 23 in the flange-like edges 9, 10 and 7. can be connected to each other by other corresponding components which provide sufficient compression between the two components and the pressure coupling plate for coupling to the ground plane. Here, it is also possible to utilize the elements in the body A, such as the grooves into which the components or their stack are inserted. Such a large-scale radio frequency shield conducts heat well away from the circuit board and can also be provided with external heat-cooled parts and a design such as cooling fins.

The points corresponding to the flange-like edges on both components 1 and 2 or only on one of them can also be arranged elsewhere than at their edges, for example to support them in the central area of the printing circuit board, as in the area 24 adjacent the first wall portion 3 and the vertical wall 13 in the region 24. This area 24 has attachment points 25 for attaching it to the pressure coupling plate 5. The trough-like portion 4 may be located at any point on the coupling plate, such as in the middle, but it must have a sufficiently strong vertical wall. In this case, the second component 35 has the first two wall portions. It is also possible to make a second component with two trough-like second wall sections and one, two or three first wall sections, etc.

Claims (11)

1. Radio frequency monitor for electronic devices, especially for radio telephone and the like, which contains at least one welding signal part which would be shielded, essentially on a pattern board (5) and a power supply part (15), characterized in that the radio frequency screen consists of two construction parts, (l) of which is a roughly straight plate, metal frame or the like, which runs parallel to and has the size of the small signal part circuit board, and the second construction part (2) consists of a first wall portion (3) running parallel to the circuit board between the power supply part and sweaty. - the portion, which portion proceeds from its edge (8) in the area of the circuit board (5) as well as a second wall portion (4) open to the circuit board, one edge (9) of which is substantially in the same path with the corresponding location (10) of the first wall part, that both the first and second structural members 30 (1, 2) are one piece which is electrically conductive, that the power supply part (15) is positioned against the adjacent ... wall parts ( 3, 13) of the away-tight from the welding signal portion directed side of the second structural portion in the region of the opening angle (16) in the transition point between its first and second wall portions, and one the first and second structural sections with therebetween. landscape circuit boards are joined (7, 9, 10) at the edges to each other to provide a shielded latch signal portion. Radio frequency shield according to claim 1, characterized in that the first wall part (3) contains fasteners in the same piece, such as band-like compression springs (20) for attaching or holding in place the power supply part (15) or another component and possibly for copying the passage. or an outer element, respectively. 10 Radio frequency shield according to claim 1, characterized in that from the edge of the chute-like second wall part (4) which is away from the first wall part (3), the second structural part (2) continues as a third wall part (9). around parallel to the PCB. Radio frequency shield according to claim 1, characterized in that both the first structural part (1) and the second structural part (2) contain flanged-like strips at their edges, which, when assembled, conform to the pattern signal card (5) of the smsignal part (5). the structural components connect with places in soil potential. Radio frequency shield according to claim 1, characterized in that both the first and second structural members (1, 2) or only one of them exhibit, on a fringe edge, a separate region, one or more projections for coupling with the points of the circuit board (5). in ground potential, where the structural part and the circuit board are joined together at this point. 30 Radio frequency shield according to claim 1, characterized in that the second structural part (2) contains two or more chute-like second wall parts (4) and one, two or three or several first wall parts respectively. 35 Radio frequency shield according to any of claims 1-6, characterized in that the material for the structural frequency parts (1, 2) of the radio frequency screen 11 is metal plate which has been bent to the determined shape. Radio frequency shield according to any one of claims 1-6, characterized in that the material for the structural frequency parts (1, 2) of the radio frequency shield consists of metallized insulating material, such as by vacuum evaporation with metal coated plastic, which has been given the definite shape by pressing or casting and then coated. 10 Radio frequency shield according to any one of claims 1-6, characterized in that the material for the structural frequency parts (1, 2) of the radio frequency shield is a laminate consisting of a metal foil or foils and a plastic disc or discs pressed in the determined form. 10. A radio frequency monitor according to claim 7, characterized in that the two components of the radio frequency screen (1, 2. or only one of them) have been connected to the master card 20 by soldering. Radio frequency shield according to any of the preceding claims, characterized in that the two structural parts (1, 2) of the radio frequency screen or, in the case of one, are soldered, only the rest of the structural part has been connected to the pattern board by screws, plywood elements, rivets or other mechanical elements. .