Design

"Design Flow Considerations for PA MMIC Design" Whitepaper

2nd September 2013
Nat Bowers
0

A new white paper from AWR, “RF/Microwave EDA Software Design Flow Considerations for PA MMIC Design,” examines a gallium arsenide pseudomorphic high electron mobility transistor power amplifier design approach from a systems perspective. The design flow and its essential features for most PA design projects is illustrated through the design of a simple, Class A GaAs pHEMT monolithic microwave integrated circuit PA using AWR’s Microwave Office high-frequency design software.

The evolution of integrated circuit technology demands that designers in this field adapt to ever-changing manufacturing techniques driven by performance, cost, benefit, and risk considerations. Today’s power amplifier designer working in solidstate technologies must navigate a plethora of available processes, including gallium arsenide, gallium nitride and silicon carbide pseudomorphic high electron mobility transistor, radio-frequency complementary metal oxide semiconductor, and GaAs or silicon germanium heterojunction bipolar transistor, to name just a few. Similarly, different design challenges demand different amplifier classes and/or topologies like Class AB, Darlingtons, switch-mode PAs, and digital predistortion. Moving from one technology to another implies that certain skills and knowledge are transportable and transferable.

The most basic of these skills is the effective use of electronic design automation tools for designing the monolithic microwave IC itself. More exactly, it is a strategy, design flow, or guidelines for how to start from requirements and a process design kit and get to a point where the more complicated requirements can be tackled. In this white paper, a GaAs pHEMT PA design approach is examined from a systems perspective. It further highlights the design flow and its essential features for most PA design projects by illustrating the design of a simple, Class A GaAs pHEMT MMIC PA done with AWR’s Microwave Office high-frequency design software. Before illustrating a detailed approach to the design, the concepts of design closure and parametric design are described as key concepts to understanding each step of the PA design process.

Read and download the full Whitepaper below.

The most basic of these skills is the effective use of electronic design automation
(EDA) tools for designing the monolithic microwave IC (MMIC) itself. More exactly,
it is a strategy, design fl ow, or guidelines for how to start from requirements
and a process design kit (PDK) and get to a point where the more complicated
requirements can be tackled. In this white paper, a GaAs pHEMT PA design
approach is examined from a systems perspective. It further highlights the design
fl ow and its essential features for most PA design projects by illustrating the design
of a simple, Class A GaAs pHEMT MMIC PA done with AWR’s Microwave Offi ce®
high-frequency design software. Before illustrating a detailed approach to the
design, the concepts of design closure and parametric design are described as key
concepts to understanding each step of the PA design process.

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