An approach to curing thermosetting polymers is the use of Variable Frequency Microwave (VFM) systems, which have been shown to cure encapsulant materials in substantially shorter times than conventional methods [1]. The microwave curing of thermosetting polymer material is a complex process, with interactions between electromagnetic field intensity, temperature, polymer cure kinetics and resulting development of potential thermo-mechanical stresses. As the real-time in-situ experimental analysis of a number of these parameters is extremely challenging, a numerical model has been developed to assess this process. The integration of microwave curing into an existing assembly machine imposes the requirement of a compact microwave system, based on a solid state source. Such a system has been designed and installed into our prototype demonstrator. A series of shear tests have been performed on an electrically conductive adhesive and an encapsulation material. No major deviation between microwave-cured material and material cured in a convection oven has been witnessed. Fourier Transform Infra-Red (FTIR) experiments were carried out on uncured, conventionally and microwave cured samples. The spectra of microwave cured and conventionally cured samples were practically identical. A series of LM-2940 dies have been die- and wirebonded to a Mirror Semiconductor open cavity package. Tests have demonstrated that the encapsulation and subsequent microwave curing can be performed without evident detrimental effects.