Power module

High power IGBTs (here a 3300V, 1200A switch) are obtained by connecting tens of dies in parallel in a power module.
Opended IGBT module; different semiconductor dice are connected via wire bonds while external connectors are connected to lead-frame structures


A power module or power electronic module provides the physical containment for several power components, usually power semiconductor devices. These power semiconductors (so-called dies) are typically soldered or sintered on a power electronic substrate that carries the power semiconductors, provides electrical and thermal contact and electrical insulation where needed. Compared to discrete power semiconductors in plastic housings as TO-247 or TO-220, power packages provide a higher power density and are in many cases more reliable.

Module Topologies

Besides modules that contain a single power electronic switch (as MOSFET, IGBT, BJT, Thyristor, GTO or JFET) or diode, classical power modules contain multiple semiconductor dies that are connected to form an electrical circuit of a certain structure, called topology. Examples of broadly available topologies implemented in modules are:

Electrical Interconnection Technologies

Additional to the traditional screw contacts the electrical connection between the module and other parts of the power electronic system can also be achieved by pin contacts (soldered onto a PCB), press-fit contacts pressed into PCB vias, spring contacts that inherently press on contact areas of a PCB or by pure pressure contact where corrosion-proof surface areas are directly pressed together.[2] Press-fit pins achieve a very high reliability and ease the mounting process without the need for soldering.[3] Compared to press-fit connections, spring contacts have the benefit of allowing easy and non-destructive removal of the connection several times, as for inspection or replacement of an module, for instance.[4] Both contact types have rather limited current-carrying capability due to their comparatively low cross-sectional area and small contact surface. Therefore, modules often contain multiple pins or springs for each of the electrical power connections.

Current Research and Development

The current focus in R&D is on cost reduction, increase of power density, increase of reliability and reduction of parasitic lumped elements. These parasitics are unwanted capacitances between circuit parts and inductances of circuit traces. Both can have negative effects on the electromagnetic radiation (EMR) of the module if it is operated as an inverter, for instance. Another problem connected to parasitics is their negative impact on the switching behavior and the switching loss of the power semiconductors. Therefore, manufacturers work on minimizing the parasitic elements of their modules while keeping cost low and maintain a high degree of interchangeability of their modules with those of a second source (other manufacturer). A further aspect for optimization is the so-called thermal path between the heat source (the dies) and the heat-sink. The heat has to pass through different physical layers as solder, DCB, baseplate, thermal interface material (TIM) and the bulk of the heat-sink, until it is transferred to a gaseous medium as air or a fluid medium as water or oil. Since modern silicon-carbide power semiconductors show a larger power density, the requirements for heat transfer are rising.

Applications

Power modules are widely found in inverters for renewable energies as wind turbines, solar power panels and tidal power plants. They are also heart of electric vehicles (EVs), power plants and industrial machines.

History

The first potential-free power module was introduced into the market by Semikron in 1975.[5] It is still in production, which gives an idea about the lifecycles of power modules.

Manufacturers

References

External links

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