The speed and power of the AXIEM 3D planar EM software have allowed to efficiently and accurately recreate the complete structure of this extremely complex MMIC for NDPA. The iFilter(tm) filter design tool is able to handle all stages and kinds of filter design starting from lumped-element or distributed filters to more complicated multi-layered, high-power as well as high-Q cavities. Passive networks, such as couplers, combiners/dividers, as well as attenuators are created using an extensive distributed model library that assists designers of components in meeting difficult dimensions, costs, and time-to-market targets. Get More Softwares From Getintopc
Awr Design Environment
The robust interface for application programming enhances the capabilities of the software with widely used programming languages, allowing users with scripts that can be customized to automate common or complicated tasks as well as custom design flow flows. The best-in-class harmonic balance engine allows rapid and precise integration of extremely nonlinear networks for circuits that have a high number of transistors and/or harmonic content.
Awr Design Environment Features
Design-flow automation links simulation models, tools from third parties, and layout to manufacturing processes from initial conceptual exploration to the final engineering approval. Create systems architectures as well as radio specifications using behavior models and communications standard blocks, as well as perform system analysis, budgeting, and co-simulation of circuits.
Couples seamlessly together EM solvers to simulate antenna parameters like return, gain reduction, the efficiency of radiation, and currents. It also allows you to visualize far-field 2D/3D antenna patterns for the design of antennas, development of matching circuits in addition to integration into RF Front-end electronic circuits. Design automation, an intuitive interface, and scripting/customization support all phases of product development in less time.
It provides a front-to-back physical design flow that is dynamically linked to layout and electrical design entry. The components that are placed on an electrical schematic automatically create a synchronized physical layout, using library libraries that contain standard custom or even vendor-supplied components. Designers can help meet their amplifier efficiency, bandwidth, and linearity targets by utilizing high-end design automation as well as robust HB simulations for speedy and precise nonlinear analysis of microwave and RF circuits. Highly precise semiconductor device/circuit element model and designing support capabilities enable designers of RF amplifiers by allowing them to speedily introduce products to the market. It integrates circuit, system, and EM simulation techniques to study the behavior of networks that are nonlinear and linear.
Designers can conduct the in-situ EM removal of interconnects design specifications for component components from budgets for system links and evaluate the performance of devices using test benches designed for system testing to meet communications standards. Circuit, system, and EM simulation technology are combined to provide fast and precise analysis of the device’s functionality prior to prototyping production and testing, which saves development time and money.
Co-simulation of electromagnetic and system simulators offers in-situ extraction of parasites as well as design verification and standard-compliant test benches for communication. If you’re a student in electrical engineering at the graduate or undergraduate levels, you can learn more about the basic RF and microwave concepts using circuits as examples.
Create, analyze and optimize antennas with the planar and random 3D electromagnetic solvers that simulate S-parameters and examine antenna patterns and currents. This software supports complex hierarchical designs with parameterized sub-circuits to facilitate tuning and optimization. Circuits, systems, or EM-based subcircuits may be developed quickly and utilized to create more extensive, complicated networks, which are typical in modern RF Front-end circuitry.
Third-party interoperability using industry-standard tools permits an exchange of information to import netlists or schematics and bi-directional EM co-simulation and electrical-rule-check layout / design-rule-check as compared to. schematic, and ready for production GDSII export. Furthermore, the powerful yield optimization and analysis can be used to address manufacturing tolerances to ensure more durable designs and a higher profit.
How to Get Awr Design Environment for Free
AWR software aids designers to drastically cut the time to develop and also the cost of components as well as systems, circuits, and subsystems used in high-speed wired, wireless broadband, aerospace, defense, and electro-optical, applications. Its Microwave Office intuitive environment, the interplay of all the simulation engine, as well as the integration of other design tools from third parties has allowed us to create an uncomplicated, first-time-right design process for our microwave and RF amplifiers.
As a young start-up, designing time and cycles are essential and are essential to be successful on the very first try. The user-friendly interface along with the speed of simulation as well as the accuracy of models built in Microwave Office gave us confidence in the initial design. Provides superior simulation of HB circuits for multi-tone, analysis of frequency domains required by the engineers of frequency converters and mixers often used in superheterodyne receivers.
An effective and user-friendly interface that ensures maximum engineering efficiency by allowing you to design flexible, intelligent flow to meet the demands of today’s high-frequency semiconductors and PCB technology. The seamless integration between the Microwave Office and VSS software has resulted in better outcomes because I could simulate my power amplifier circuit’s response to the modulated EDGE/GSM input signal using a single design platform.
The V15.01 version of the Cadence(r) AWR Design Environment(r) Microwave and RF platform has been made available for customers to download. Complete all stages in RF or microwave part development from design capture through analysis and optimization of circuits, as well as electromagnetic verification and extraction.
Microwave Officecircuit software has been employed by top manufacturers to speed up the development of products using high-frequency electronics. The user-friendly interface, the innovative automated design, as well as powerful harmonic balance circuit simulation guarantee, increased engineering efficiency, and speedy design cycles.
High-frequency models, RF-aware layouts as well as design automation, and powerful HB simulators ensure higher engineering efficiency and speed up the design process for the most complex applications of today. The AWR Design Environment platform provides RF/microwave engineers with the integrated high-frequency circuit, system, and EM (AXIEM/Analyst) simulation technologies and design automation to develop physically-realizable electronics ready for manufacturing.
The platform assists designers in managing complicated integrated circuits, packages, and printed circuit board modeling as well as simulation and verification covering every aspect of circuit behavior in order to attain the highest performance and secure results that are first-pass successful.
Awr Design Environment System Requirements
- Operating System: Windows 7/8/8.1/10.
- Memory (RAM): 1 GB of Ram Required.
- Hard Disk Space: 1 GB space Required.
- Processor: Intel Core 2 Duo or higher.