Monolithic Microwave Integrated Circuit

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MMICs, or Monolithic Microwave Integrated Circuits, are a type of integrated circuit (IC) devices that operate at microwave frequencies (300 MHz to 300 GHz).

Photograph of a GaAs MMIC (a 2-18GHz upconverter)
Photograph of a GaAs MMIC (a 2-18GHz upconverter)

They typically perform functions such as microwave mixing, power amplification, low noise amplification, and high frequency switching. Inputs and outputs on MMIC devices are frequently matched to a characteristic impedance of 50 ohms. This makes them easier to use, as cascading of MMICs does not then require an external matching network. Additionally most microwave test equipment is designed to operate in a 50 ohm environment.

MMICs are dimensionally small (from around 1 mm² to 10 mm²) and can be mass produced, which has allowed the proliferation of high frequency devices such as those utilized in cellular phones. MMICs were originally fabricated using gallium arsenide (GaAs), a III-V element. It has two fundamental advantages over Silicon (Si), the traditional material for IC realisation; device (transistor) speed and a semi-insulating substrate. Both factors help with the design of high frequency circuit functions. However, the speed of Si based technologies has gradually increased as transistor feature sizes have reduced and MMICs can now also be fabricated in Si technology. The primary advantage of Si technology is cost. The wafer diameters are larger (typically 8" or 12" compared with 4" or 6" for GaAs) and the wafer costs are lower. This leads to much lower cost ICs.

Other III-V technologies, such as Indium Phosphide (InP), have been shown to offer superior performance to GaAs in terms of gain, higher cutoff frequency, and low noise. However they also tend to be more expensive due to smaller wafer sizes and increased material fragility.

Silicon Germanium (SiGe) is a Si based compound semiconductor technology offering higher speed transistors than conventional Si devices but with similar cost advantages.

Editors I. D. Robertson and S. Lucyszyn

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