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AWR Microwave Office: A Powerful Tool for RF/Microwave Circuit Design

RF/microwave circuits are essential components of many modern electronic devices, such as smartphones, wireless routers, radars, and satellites. However, designing these circuits can be challenging, as they require accurate simulation and verification of complex nonlinear behaviors, parasitic effects, and electromagnetic interactions. To meet these challenges, RF/microwave engineers need a specialized design software that can handle the high-frequency aspects of their designs.

One such software is AWR Microwave Office, a circuit design software that is part of the Cadence AWR Design Environment platform. AWR Microwave Office provides RF/microwave engineers with an intuitive interface, innovative design automation, and powerful harmonic balance (HB) simulation technology to develop high-performance electronics. AWR Microwave Office supports all phases of product development, from schematic capture and layout to simulation and optimization, across monolithic microwave IC (MMIC), RF PCB, and module technologies.


Key Features and Benefits of AWR Microwave Office

AWR Microwave Office offers many features and benefits that make it a preferred choice for RF/microwave circuit design, such as:

  • Cadence APLAC HB Simulator: This proprietary multi-rate HB engine provides robust linear and nonlinear frequency-domain circuit simulation for large transistor counts and/or harmonic content. It can handle complex modulation schemes, intermodulation distortion, power amplifier compression, and oscillator phase noise analysis.

  • Comprehensive Libraries: AWR Microwave Office includes simulation models for discrete and IC-based active and passive devices, and distributed transmission lines. It also supports vendor component libraries and foundry process design kits (PDKs) for various technologies.

  • EM Analysis: AWR Microwave Office integrates multiple planar and 3D EM analysis solvers for circuit/EM co-simulation, design verification, and in-situ S-parameter extraction. These solvers include AWR AXIEM, a 3D planar method-of-moments (MoM) solver, and AWR Analyst, a 3D finite-element method (FEM) solver.

  • Load Pull: AWR Microwave Office provides state-of-the-art load-pull analysis and design support for impedance matching and power optimization. It supports both traditional load-pull contours and behavioral load-pull models.

  • Stability: AWR Microwave Office offers linear and nonlinear stability analysis tools to identify and eliminate potential oscillations in RF/microwave circuits. It also provides stability margin indicators in the schematic editor.

  • Thermal: AWR Microwave Office enables electrothermal co-simulation technology for MMICs, IC packages, RF PCBs, modules, and RF/microwave systems. It can account for the effects of temperature on device performance and reliability.

  • Synthesis: AWR Microwave Office includes synthesis wizards (optional) for impedance-matching and filter design. These wizards can generate optimal topologies and component values based on user specifications.

Applications of AWR Microwave Office

AWR Microwave Office can be used to design various types of RF/microwave circuits and systems, such as:

  • Amplifiers: AWR Microwave Office can help designers meet their amplifier bandwidth, efficiency, and linearity goals by providing advanced design automation and robust HB simulation. It can also assist in optimizing performance using load-pull analysis and impedance matching network synthesis.

  • Filters / Passives: AWR Microwave Office can help designers create filters and passive components that meet challenging size, cost, and time-to-market goals. It can also support early filter development using synthesis wizards (optional), such as the iFilter filter design utility.

  • Oscillators / Mixers / Modulators / Demodulators: AWR Microwave Office can help designers analyze the nonlinear behavior of oscillators, mixers, modulators, and demodulators using the Cadence APLAC HB Simulator. It can also account for the effects of phase noise, intermodulation distortion, spurious signals, and harmonics on these circuits.

  • Antennas / Arrays / Radomes: AWR Microwave Office can help designers design antennas, arrays, and radomes using the integrated EM solvers, such as AWR AXIEM and AWR Analyst. It can also co-simulate these structures with RF/microwave circuits and systems using the AWR VSS software.

  • RF PCBs / Modules / Systems: AWR Microwave Office can help designers create RF PCBs, modules, and systems that integrate multiple technologies and components. It can also perform electrothermal co-simulation, design verification, and EM analysis for these complex designs.


AWR Microwave Office is a powerful tool for RF/microwave circuit design that delivers accurate simulation and fast design cycles. It is part of the Cadence AWR Design Environment platform, which provides integrated circuit, system, and EM simulation technologies for high-frequency electronics. AWR Microwave Office can help RF/microwave engineers develop high-performance products across various applications and technologies.

If you want to learn more about AWR Microwave Office, you can visit the official website or request a free trial. You can also explore the related products and resources that Cadence offers for RF/microwave design.

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