E8910/11/12 Microwave Circuit Designer

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E8910 Microwave Circuit Designer enables engineers to effectively use advanced simulation technology to improve their Microwave/Hybrid designs. Microwave Circuit Designer analyzes and optimizes Microwave/Hybrid design performance and manufactured product yield. It does this through the use of integrated schematics, synchronized layout, extensive and accurate vendor part libraries, complete statistical analysis, and leading edge simulators. A wide variety of Advanced Design System options are available to further enhance the design suite. For a list of IC manufacturers who provide design libraries for Advanced Design System (ADS) click on the following button: Click on the following links for complete information. Product Information Ordering and Configuration Product Literature What's New Publications User Support

Product Highlights

• Co-simulation of system, circuit, and physical models circuit in a single schematic
  
  
• RF and Microwave Libraries (more than 90,000 parts) included in all Microwave Designer Suites
  
  
• Simulation instruments that are easy to set up and use
  
  
• Accurate simulation and analysis of distributed elements and discontinuities greatly enhance the evaluation of the circuit as a physical design
  
  
• Optimization and statistical design features improve design performance and increase manufacturing yield
  
  
• Physical layout facilitates design transition to manufacturing
  
  
• Graphical Cell Compiler (added to Layout) enables the rapid development of parameterized layout artwork
  
  
• Integrated instrument links facilitate rapid physical verification of designs
  
  
• DesignGuide Developer Studio, a customization tool, makes it easy for design experts to add their knowledge to ADS, and to share that expertise with colleagues or business associates through ADS DesignGuides.
  
  
• Smart Simulation Wizard for automated simulation setup and data display
  
  
• Electronic Notebook for HTML-based design documentation
  
  
• Load-sharing utility and dynamically linked libraries greatly improve simulation speed.
  
  

Product Description

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Microwave Circuit Designer

A Complete Front-to-Back Solution for Advanced Microwave Design

Microwave Circuit Designer offers engineers a complete front-to-back solution for developing today's advanced microwave circuits. This logical approach lets designers start at the system level with specification partitioning and work down to the circuit level using a broad variety of powerful simulators.

With the right combination of sophisticated simulation technology and an extensive library of microwave system, circuit, and layout elements, designers can maximize both their productivity and resulting product performance. The diverse set of design tools enables engineers to rapidly turn their best ideas into reality!

Bundled suites are available in basic (E8910), Pro (E8911), and Premier (E8912) versions. For those designers needing additional functionality, including full 2.5D EM simulation capabilities for MMIC design, please click on the following link: E8811/12 MMIC Designer Suite

Model Libraries

Use Microwave Circuit Designer's extensive library of over 90,000 different vendor models covering microwave system, circuit and layout elements to define prototypes from the component level. Models for microstrips, striplines, coplanar waveguides and suspended substrate components are all part of the available library. System level behavioral elements such as mixers, filters, amplifiers and switches are also included

User-Defined Models (included in Premier)

Analog Model Development Kit (E8890) allows microwave circuit designers create their own models with either a frequency-domain representation (such as S- or Y- parameters) or a time-domain representation (such as the current and charge equations for a GaAs FET). Generated custom models provide the same run-time efficiency as a compiled model.

Linear Simulator

Linear simulationis the most frequently required analysis for the design of LNA's, filters, and passive microstrip structures, such as matching networks. Calculated gain and noise figure circles help the designer predict amplifier performance, while S-, Z-, Y-, and H-parameters provide accurate subcircuit characterization. For circuits with nonlinear devices, the DC bias point is calculated so that a small-signal analysis can be performed.

Harmonic Balance Simulator

Nonlinear simulation using the improved harmonic balance technique extends the capabilities of linear simulation to include nonlinear effects such as, compression in amplifiers, mixer noise, and non-linear amplifier noise. Recent enhancements to Agilent's harmonic balancesimulator vastly improve both speed and convergence.

Circuit Envelope Simulator (included in Premier)

As a hybrid time-frequency-domain simulator, Circuit Envelope is ideal for analyzing complex, digitally modulated RF signals in circuits and subsystems. This patented technology is well suited to model mixer high-order inter-modulation distortion, and mixer spectral regrowth. It is also an ideal tool for designing voltage-controlled oscillators, analyzing amplifier turn-on harmonics, and evaluating amplifier spectral regrowth. Unlike SPICE, Circuit Envelope can include dispersive distributed models to accurately analyze high-frequency effects.

Statistical Design (included in Pro and Premier)

Statistical Design and Optimization technologies including discrete, gradient, random, genetic, and EM enable the rapid development of designs with optimal performance. Yield analysis characterizes the manufacturing yield of the design. Yield optimization automatically adjusts parameter values to maximize production yield.

Implementing the Physical Design

High-Frequency Based Layout Editor (included in Pro and Premier)

Microwave Circuit Designer layout is the cornerstone of a physical design environment for complex Microwave circuits. Each component can have a layout representation in addition to a schematic representation and an electrical model. The ADS layout editor is fully integrated in the design environment and supports powerful design tools such as Momentum electromagnetic analysis, parameterized model generation, and design verification.

Design Synchronization

Through design synchronization, the layout has a one-to-one correspondence with the schematic so that modifications to the layout are automatically reflected in the schematic. This powerful capability allows designers to create a layout directly from the schematic. Circuit simulations are hierarchically tied to both the schematic and the physical layout to provide fast, accurate analysis at all phases of the design process. When the layout is finished, designs are quickly transferred to manufacturing using industry standard file formats.

EM Design and Verification

Electromagnetic (EM) field simulation of passive components and circuits adds accuracy, enabling engineers to include models that are unavailable in the standard libraries. Momentum (E8921A) is an available simulator option that analyzes the high-frequency effects in arbitrary planar circuits embedded in multi-layer substrates. Simulation results are readily available to circuit simulators for inclusion in larger circuits and systems.

EM field simulators are traditionally used for design verification near the end of the design phase. EM optimization software from Agilent EEsof offers automated design refinement combined with EM accuracy. After the engineer specifies performance goals, the design parameters are optimized before the final design is generated.

Graphical Cell Compiler

The Graphical Cell Compiler (GCC) enables designers or foundries to create complex parameterized artwork without in depth programming knowledge. Parameterized layouts can easily be compiled using macros such as stretch and move, flip and rotate, or repeat. The GCC can generate Microwave foundry models for FETs, inductors, resistors, and capacitors.

Recent Product Enhancements

Product enhancements in recent releases include the following:

• Design Environment - Extensive usability improvements including:
  
  • Faster save design
    
  • Enhanced activate/deactivate toggle
    

• Simulation
  
  • User compiled model improvements
    
  • Improved histogram handling, significantly reduces equation writing
    
  • Optimized equation parser to improve speed
    
  • Automatic verification modeling - fast co-simulation
    
  • Improved optimization goal normalization
    
  • Faster Design of Experiments
    

• Data Display
  
  • Snapshot mode
    
  • Extensive usability improvements including:
    
    • Quicker data display
      
    • Activate/deactivate individual plots and equations
      
    • Enhanced marker functionality
      
    • Rapid page navigation
      
    • Trace differentiation (color, symbol, line type)
      
    • Dataset browser with dataset alias measurement
      

• Layout (Pro and Premier)
  
  • Improved layout/schematic design synchronization engine
    
  • Edit-in-place of hierarchical layouts
    
  • One-click layer selection
    
  • Enhanced layout editing functions including:
    
    • dx/dy display
      
    • Hierarchical Boolean operations
      
    • New polar and rectangular coordinate entry
      
  • Single click derives transmission line elements from arbitrary meander traces
    

How To Buy

To request immediate sales assistance - for help choosing the best system; for product configuration and integration details; to request telephone assistance or an on-site demo of the software; or to request a price quotation - click on the following link:

• Agilent EEsof EDA Sales Assistance

Related Products

• E8940A/42A/43A RF Board Designer
  

Product Literature

• Advanced Design System (PDF, 4.0 MB).
  12-page color brochure. 4 March 2005.
  
• Advanced Design System (PDF, 2.8 MB)
  8-page color brochure. 7 March 2001.
  

• ADS 2004A - What's New
  
• ADS 2004A - Physical Connectivity Engine
  

RF System Budget Analysis provides an RF system analysis solution in the ADS Analog/RF Environment.

RF System Engineers can now analyze system chain measurements including IP3, P1-dB Compression, and similar values, early in the development cycle. For details, click on the following link:

• RF System Budget Analysis
  

Technical Articles

• Mounir Adada, Agilent Technologies, Practical Approaches to Faster, More Accurate MMIC Design, Microwave Product Digest, October 2003. Current issue: Microwave Product Digest.
  
  
• Mounir Adada, Agilent Technologies, Layout Components - The New EDA Building Blocks for Physical Design Modeling, Microwave Product Digest, October 2002. Current Issue: Microwave Product Digest.
  
  
• Jack Sifri, Agilent Technologies, Increase MMIC Yield With Statistical Design, Microwaves & RF, June 2002. Current issue: Microwaves & RF.
  
  
• Mounir Adada, ADS 2001 Delivers Ease-of-Use and Greater Capabilities for MMIC Design, Microwave Product Digest, September 2001.   PDF Version (138 KB).   Current issue: Microwave Product Digest.
  
  

Training Classes

Advanced Design System Fundamentals

This is a medium-paced three-day detailed introduction to the application of Advanced Design System (ADS) for communication systems and circuit designs.

This course instructs designers on schematic capture, the proper application of a wide variety of simulators, and the display and manipulation of results.

After a brief study of ADS basic operation, students design and test amplifier and filter circuits that are then placed in a down-converting receiver system for final simulation. Real-world examples are used at all times so that designers can return to their jobs ready to apply ADS effectively to their design challenges.

For detailed course descriptions and class schedules worldwide, click on the following link:

• Agilent EEsof EDA Customer Education

Advanced Topics in Circuit Design

This is a medium-paced two-day course that shows some of the more expert features of Agilent EEsof EDA's Advanced Design System.

This course instructs designers on the proper application of advanced simulation methods found in ADS, use of measured data in ADS simulations, and the modeling of devices used in common design schematics.

Some of the advanced simulation methods used in the course are transient-assisted harmonic balance, yield optimization, oscillator analysis, design of experiments (DOE), and sensitivity analysis. Very realistic circuits are used in this course, such as those found in cellular phones or radio receiver sections. At the end of this course, the designer should be very comfortable with using ADS and understand how to implement the more advanced simulation methods on their own designs.

For detailed course descriptions and class schedules worldwide, click on the following link:

• Agilent EEsof EDA Customer Education

Momentum for Advanced Design System Users

This one-day class is a medium-paced detailed review of the 2.5-D electromagnetic simulator Momentum. A number of designs are used to illustrate how the various simulation techniques may be effectively employed in a real-world situation.

For detailed course descriptions and class schedules worldwide, click on the following link:

• Agilent EEsof EDA Customer Education

Power Amplifier Linearization

The new Power Amplifier Linearization course is a medium paced two-day detailed review of power amplifier linearization techniques.

Advanced Design System examples for all the linearization techniques will be demonstrated and the design issues and performance limitations of the various techniques will be discussed.

The techniques described in the course include Feedforward Linearization, Digital Predistortion, RF Predistortion, LINC, Cartesian Feedback, Memory Effects, and Efficient Amplifiers (Envelope Restoration).

The instructor for this course is Dr. Shawn P. Stapleton, Professor of Electrical Engineering, Simon Fraser University. Dr. Stapleton has 17 years of experience in the design of RF and Microwave circuits and systems. He has developed GaAs MMIC components, such as mixers, amplifiers, frequency dividers and oscillators, and more recently worked on projects related to Digital Signal Processing, Mobile Communications and RF/Microwave Systems.

For detailed course descriptions and class schedules worldwide, click on the following link:

• Agilent EEsof EDA Customer Education

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