DE19627858A1 - Complex power electronic module e.g. for converters of variable speed drives - Google Patents

Abstract

A solid state switching module has a printed circuit substrate 12 on to which a number of single power chips 20 are located. conductor tracks are formed in strips along both edges 18 and these are connected to the chips by bond wires 22. Contact pins 16 for external connection are located along the edges of a housing of insulating material. A heat sink may be placed against the underside of the substrate.

Description

The invention relates to a complex power module ment. Power components usually consist of Semiconductor devices based on a ceramic substrate or the like can be arranged in soldered technology. A majority of these semiconductor "chips" are made with a Logic and connected to the outside with appropriate pins the.

Power modules are mainly used in converters for controlling variable-speed drives and to adapt a wide variety of voltage types  puts. This makes a very diverse interpretation of the Modules required for their respective applications. Den one still remains with a standardized, known one Case size.

However, the connections of the power modules should be included different equipment for the respective application case. Modules equipped in the same way can have different connection requirements entail. With previous standardized housings, the one made of simple plastic frames if necessary fold lid, this is not possible. The Plastic frames provide fixed locations for the pens which were also often injected firmly into the lid. The pens were then attached to the frame corresponding places on the substrate soldered what strained the substrate. Also through the previous one Set up a fixed number of pens to which no more can be added and only one difficult to remove one.

The substrate serves as a carrier for the performance components and to dissipate the power loss. Should thereby, as now increasingly desired, a height Power dissipation will be dissipated here, this will through more expensive material and therefore increased costs make it noticeably noticeable to the substrate.

The invention is therefore based on the object conclusions for a power component variable position kidney and different plug images at egg to enable a standardized framework.

According to the invention, this task is performed by the main one characteristics listed solved. The subclaims  give advantageous embodiments of the invention such of the.

In particular, the provision of a separate PCB strip possible that the connections each depending on the application, with respect to the frame measurements can be positioned. They are different possible connection types for a power module.

By introducing another level that the Sub strat level may overlap, is also a Space savings result from the use of the standardized Housing also possible for larger substrates. The the higher integration density thus achieved lowers the knockout and enables a simpler manufacturing process.

Last but not least, the material is the additional ladder plate strips not thermally stressed, so that on the usual circuit board materials can be used can, which in turn brings cost advantages. The bracket the pins are preferably made by a cover that through potted material or through a lid rea can be lated.

By the provision of two along the length of the substrate plate extending printed circuit boards strips to connect the circuit boards strip provided with the connecting pins te should be as short as possible. The connections on the Printed circuit boards can be glued, soldered or welded will. It can also use printed circuit boards strips can be glued into the plastic frame.

Instead of using the injected into the frame Prior art pens can also be attached to one  PCB strips attached pins as pre-assembled used part.

The possibility of the logic modules or possibly also only logical wiring on this circuit board streak is an opportunity created that complex power components in a simple way to the to adapt to any application without new term substrate geometries are necessary. Applying one Soft potting on the semiconductor instead of a lid is also possible. However, still can a lid or a hard casting as mechanical protection be provided.

By providing a receptacle for a printed circuit board strips in the plastic frame of another level an additional edge is also created in the frame fen, which increases the strength of the frame so that, if constant strength is desired, in total including the frame with less material can.

Further features and advantages of the invention result from the following description of a preferred embodiment Example using the attached drawing.

It shows:

Fig. 1 a complex power device in plan view from above with two hatched Darge presented circuit boards on its longitudinal sides,

Fig. 2 is a view of the power device from the side, in which are to know at right angles from the frame upwardly extending pins to it,

Fig. 3 is a partial cross section through a Lei stungsbauelement of FIG. 1 or 2, wherein the substrate and the arrangement of the printed tenstreifens is in another plane to erken NEN,

Fig. 4 shows a further complex power device similar to FIG. 1,

Fig. 5 is a plan view of the connector configuration of Fig. 4, and

Fig. 6 is a view of the power device of FIGS. 4 and 5 from the side.

In FIG. 1, a power device is shown with a plastic frame 10, in which the individual power devices 20 with bonding wires 22 with each other and also with corresponding pads 24 on the (hatched) circuit board strips 18 are connected. The soldered connection pins 16 , which are only shown in their cross section, are also found on these connection surfaces 24 . On the narrow sides of the frame 10 , the screw eyelets for the Lei stungsmodule for attachment in control cabinets or the like can be seen. Around the individual chips 20 , conductor surfaces are provided on the substrate 12 , some of which are connected to one another and some of which are insulated from one another.

In Fig. 2 can be seen in a side view of the module shown in Fig. 1, as a result of the vertical extension of the contact pins 16, a certain connector configuration be. This can he according to the invention by simply replacing a printed circuit board strip 18 to the desired purpose. A mechanical intervention in pins already soldered is no longer necessary.

In FIG. 3 it can be seen from a cross section through a power component, in which the plastic frame 10 has been shown in section on the right, how a power semiconductor 20 is placed on the substrate 12 , which is connected to the printed circuit board 18 with bonding wires 22 , on which a pin 16 is attached.

The circuit board strip 18 is located opposite the substrate 12 in another higher plane and overlaps this.

Under the substrate 12 are usually - and before geous cooling surfaces (not shown) which cooperate with the substrate 12 to dissipate the heat of the power components. However, it may be conceivable to effect cooling from above and to allow the circuit board strip (s) 18 to overlap under the substrate 12 .

Claims (5)

1. Complex power component with a frame ( 10 ) and at least one substrate ( 12 ) on which Lei stungselektronik is positioned, the frame ( 10 ) having a plurality of outwardly extending con tact pins ( 16 ), characterized by at least one circuit board strip ( 18 ), which is provided on the frame ( 10 ) adjacent to the substrate ( 12 ), which is connected to the substrate ( 12 ) and the elements thereon via bonding wires ( 22 ), and on which the contact pins ( 16 ) are attached. 2. Complex power component according to claim 1, characterized in that the at least one circuit board strip ( 18 ) is arranged in a second plane relative to the substrate ( 12 ). 3. Complex power component according to one of the preceding claims, characterized in that two circuit board strips ( 18 ) extend on both sides along the long sides parallel to the substrate ( 12 ). 4. Complex power component according to one of the preceding claims, characterized in that logical components, which are not power components, are arranged on the / the circuit board strip ( 18 ). 5. Complex power component according to one of the preceding claims, characterized in that the contact pins ( 16 ) by a strip over the / the printed circuit boards ( 18 ) cast cover ( 14 ) on the frame men ( 10 ) are held.