DE3115303A1 - Method for populating printed-circuit boards with miniature components having no wires, and a printed-circuit board populated with such miniature components - Google Patents

Abstract

Printed-circuit boards are populated with miniature components which have no wires, especially chip or MELF components (18). The miniature components (18) are inserted into openings (16) in the printed-circuit board (10) and their connecting caps (20, 22) are soldered to the conductor tracks on the surface of the printed-circuit board. <IMAGE>

Description

Method for populating printed circuit boards with wired

loose miniature components and equipped with such miniature components Circuit board The invention relates to a method for assembling printed circuit boards with wireless miniature components, in particular chip or MELF components, as well as a printed circuit board equipped with such miniature components, which is based on at least one side has conductor tracks formed from an electrically conductive film, with which the wireless connections of the miniature components are soldered.

Recently, the miniature devices provided with lead wires have become for electrical and electronic circuits, especially resistors, capacitors, Inductive activities and active components, through wireless connection Replaced components, the efficient assembly of printed circuit boards and a high Enable packing density.

Such wireless miniature components are called chip components, "MELF-Chip-Bauelemente" (MELF, abbreviation for Metal Electrodes Face) and ~ Minimold-Chip-Bauelemente " designated. They are generally bar-shaped or cuboid-shaped and have instead of the usual connection wires connection caps, soldering pads or the like. on, which allow direct soldering on the circuit board. However, this is what it is required to position the components exactly on the circuit board and in to fix this position, in such a way that this fixation is also retained during the subsequent dip soldering.

Both the precise positioning and the sufficiently heat-resistant Fixing the components with an adhesive causes manufacturing difficulties, that of a further spread of the use of wireless miniature components stand in the way. The packing density achieved so far is also still in need of improvement.

The object of the invention is therefore to create a method for Populating printed circuit boards with wireless miniature components and a circuit board suitable for carrying out the process through which it enables is, by simple means, precise positioning and sufficiently heat-resistant To achieve fixation of the wireless miniature components, while at the same time a particularly high packing density is to be achieved.

This task is carried out by a method of the type mentioned at the beginning solved, which is characterized according to the invention in that the miniature components inserted into openings in the circuit board and at their connection caps on the surface of the circuit board be soldered.

By inserting the miniature components into the openings of the Printed circuit boards are these with the utmost precision in relation to the conductor tracks of the printed circuit board arranged so that assembly errors are practically excluded. Further be the miniature components in the appropriately sized openings without the use of Glue or the like. held securely so that they are in their precise position are fixed. In addition, most of it is very small Miniature components received in the openings of the circuit board, so that in addition practically no space is required for the already existing printed circuit board for these components will. This results in a very considerable increase in the packing density.

Another essential advantage of the invention arises when the circuit board is copper-clad on both sides or with conductor tracks on both sides an electrically conductive film is coated. With such circuit boards, those used in conventional technology to achieve a high packing density the holes must go through from one side of the circuit board to the other in many cases are plated through, i.e. also the inner walls of the continuous Boreholes must be covered by a copper layer. This reduces the manufacturing cost the number of printed circuit boards increased significantly. In the method according to the invention such plated-through holes can be dispensed with, since the miniature components make the connection from one side of the circuit board to the other by their connection caps can be soldered to both sides of the printed circuit board.

The printed ones produced by the process of the invention Circuits are also characterized by excellent operational reliability under difficult conditions Conditions of use, as the miniature components even at the highest chanical Loads such as vibrations, shock or the like. sit firmly in their openings.

A printed circuit board according to the invention equipped with miniature components, the conductor tracks formed on at least one side from an electrically conductive film with which the wireless connections of the miniature components are soldered, is characterized in that the circuit board is provided with openings in each of which a miniature component is plugged in, and that the connection caps of the Miniature components on the surface of the circuit board with the conductor tracks of the same are soldered.

Advantageous developments and special features of the invention emerge in particular from the patent claims and from the description that follows of exemplary embodiments and from the drawing to which reference is made.

In the drawing: FIG. 1 shows a first embodiment of the means produced by the method according to the invention, with connection wireless miniature components assembled circuit board, of which only a small section in cross section is shown; FIG. 2 shows a sectional view analogous to FIG. 1, but with a different one Miniature component is shown; and FIG. 3 shows a sectional view analogous to FIG. 1, but in a circuit board according to another embodiment of the invention.

In the embodiment shown in FIG. 1, a copper-clad on both sides is used or coated on both sides with conductor tracks made of an electrically conductive film Insulating material plate 10 used, for example made of Iiart paper, phenolic resin or the like. is made. The on the two opposite surfaces of the Plate 10 arranged conductor tracks are denoted by 12 and 14, respectively. Through the conductor tracks 12, 14 and through the plate 10 there is a plurality of openings, of which in Fig. 1 only one opening 16 is shown. This opening 16 can be cylindrical or any other suitable shape suitable for receiving a miniature component 18 is suitable. In the embodiment shown in Fig. 1, the miniature component 18 generally rod-shaped or cylindrical and has connection caps at both ends 20, 22, which are made of a solderable material. The opening 16 is dimensioned so that the miniature component 18, which is a so-called chip component acts, can be inserted with a snug fit, so that after insertion into the Circuit board is fixed in the opening 16 in a precise position. This fixation is also retained during the subsequent dip soldering, whereby the connection caps 20, 22 are connected to the conductor tracks 12 and 14, respectively. As can be seen from FIG is, the terminal caps 20, 22 are slightly above the surface of the conductor tracks 12 or 14 addition, whereby the soldering process is simplified. By the way, they have so-called chip components, e.g. miniature resistors or miniature capacitors, suitable standardized dimensions so that their length is only slightly greater than the material thickness of the plate 10 of the conductor tracks 12, 14. For the accommodation of these Miniature components is therefore in addition to the method according to the invention the already existing circuit board requires very little space, which means a previously unequal packing density is achieved.

Instead of the generally rod-shaped component shown in FIG 18 of the so-called chip type can also components of the so-called "MELF type" (Metal Electrodes Face) can be used. These components are generally cylindrical educated.

In the embodiment shown in FIG. 2, the is suitably dimensioned Opening 16 a miniature component 18 of the so-called "minimold chip type" is arranged. These are integrated circuits that have a plurality of active Components, in particular transistors, may contain. Such components 18 are provided with solderable pads 24, 26, 28, 30, e.g. of the generally cuboid component are arranged. After plugging in or Pressing the components 18 into the opening 16 becomes these connection surfaces 24 to 30 brought into connection with the conductor tracks 12, 14 by dip soldering.

In the embodiment shown in Fig. 3, two are on one side with Conductor tracks 12, 14 made of electrically conductive foil coated plates 10A, 10B sandwiched together with the interposition of an elastic film 32. The opening 16 for receiving a miniature component 18 extends through the Conductor tracks 12, 14, the plates 10A, 10B and through the elastic film 32. However, the opening in the elastic film 32 has smaller dimensions than in FIG the plates 10A, 10B and the conductor tracks 12, 14, so that the miniature component 18 can be pushed into the opening 16 with little effort, from the However, film 32 is elastically spanned in order to be held in this way in opening 16 to become. In this way, the insertion of the miniature components 18 in the Associated openings 16 allows with little effort, but with a Sufficient fixation of the components in the openings for all applications for the subsequent implementation of the dip soldering is achieved.

The miniature components 18 shown in FIGS. 1 to 3 are merely Examples of currently available electronic components. It is obvious that the invention The method can also be used for miniature components which have different shapes and arrangements of the connection surfaces to be soldered. In particular, the components are arranged inside the openings below Consideration of the respective shape of the component and its dimensions. In particular, the orientation of the components in relation to the circuit board depending on the shape, the arrangement of the connection surfaces, the dimensions and the connections to be made between pads and conductor tracks certainly. For example, while in the embodiments of Figures 1 and 3, the miniature components are inserted in the longitudinal direction into the associated openings, is the component 18 in the embodiment of FIG. 2 inserted into the opening that its The longitudinal direction is parallel to the surface of the circuit board.

Because of the small dimensions of the miniature components available it can be achieved in most cases that the connection surfaces or connection caps protrude only slightly beyond the surfaces of the conductor tracks, so that the components require practically no space in addition to the already existing printed circuit board.

Claims (9)

Method for populating printed circuit boards with wireless Miniature components and printed circuit board equipped with such miniature components PATENT CLAIMS for the method for populating printed circuit boards with loose Miniature components, in particular chip or MELF components, characterized in that that the miniature components are inserted into openings in the circuit board and attached to their Connection surfaces are soldered to the circuit board surface with the conductor tracks. 2. The method according to claim 1, characterized in that the circuit boards are coated on both sides with electrically conductive foil and the miniature components be soldered on both sides of the circuit boards. 3. The method according to claim 1 or 2, characterized in that the Openings are sized so that they receive the miniature components with a snug fit. 4. The method according to claim 1 or 2, characterized in that a Two-sided printed circuit board coated with an electrically conductive film Panels by joining the same with the interposition of a sheet of elastic Material is formed and that the openings for inserting the miniature components be formed through both plates and through the elastic film. 5. The method according to claim 4, characterized in that the openings in the two plates are larger than the corresponding opening in the elastic Film, and that the openings in the elastic film are dimensioned so that the Miniature components are held elastically spanned in them while they are in the openings of the plates are loosely arranged. 6. The method according to any one of the preceding claims, characterized in, that the miniature components are inserted into the openings in their longitudinal direction will. 7. The method according to any one of claims 1 to 4, characterized in that that the miniature components with their longitudinal direction parallel to the circuit board surface be inserted into the openings. 8. With miniature components populated circuit board, which on at least one side has conductor tracks formed from an electrically conductive film, with which the wireless connections of the miniature components are soldered, thereby characterized in that the circuit board is provided with openings (16) into each of which a miniature building element (18) is plugged in, and that the connector caps (20, 22) of the miniature components (18) on the surface of the circuit board (10) the conductor tracks (12, 14) are soldered. 9. Circuit board according to claim 8, characterized in that the connection caps (20, 22) of the miniature components (18) on the circuit board surface from the openings (16) protrude.