Worldwide
Worldwide
Agilent EEsof EDA Applications: Mixers, Frequency Converters, Modulators |  |
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ProductsAgilent EEsof EDA products that support mixer design and simulation include the following: Advanced Design System (ADS) Bundled Suites Individual ADS Modules ADS Simulators Model Sets DesignGuidesDesignGuides for Advanced Design System guide you through complex multi-step design flows and automate the setup, simulation, and data display of complete designs. DesignGuides Overview Contact Agilent EEsof EDATo contact an Agilent Technologies representative by telephone for help with Product Selection and Product Purchase, click on the following link: Sales To send an e-mail message to Agilent EEsof EDA, click on the following link: Send E-mail to Agilent EEsof EDA |
ExamplesProject files in the Examples directory of Advanced Design System are described in the online manual and listed in the Examples Documentation.Project files that show mixer design and simulation include the following: IQ Modulator DSP Co-SimulationDifferential Mode RFIC Mixer Gilbert Cell Mixer Low Power RF Mixer for Pagers Frequency-Domain Devices Simulation Controller Applications New Examples Support Examples Design SeminarsFundamentals of Mixer Design RFIC MOS Gilbert Cell Mixer Design With ADS RFIC Mixer Design Using the ADS Mixer DesignGuide Overview: Customer Education Agilent Publications and LinksSeminar Papers Application Notes Other Publications Steve Long, University of California - Santa Barbara, CMOS RFIC Upconversion Mixer Design. (PDF, 300 KB). 11-page technical paper. November 2001. Rick Poore, Agilent Technologies, Noise in Ring Topology Mixers. (PDF, 186 KB). 15-page technical paper. Updated 17 June 2003. Technical Articles and LinksYong-Chae Jeong, Do-Kyeong Hwang, and Jong-Sik Lim, Soonchunhyang University, Chonbuk National University, and ACE Technology, A Novel Frequency Doubler Using a Feedforward Structure and DGS Microstrip for Fundamental and High Order Components Suppression, Microwave Journal, May 2005. PDF Version. Current issue: Microwave Journal. Younkyu Chung, Dal Ahn, and Tatsuo Itoh, California Institute of Technology, Soonchunhyang University, and University of California-Los Angeles, A Quasi-balanced Frequency Doubler Using Alternate Power Dividing and Combining Techniques, Microwave Journal, May 2005. PDF Version. Current issue: Microwave Journal.
Andy Howard, Agilent Technologies, An Innovative Approach to Faster RFIC Transmitter Design, Wireless Design & Development, April 2005. (PDF, 3.65 MB.) Current issue: Wireless Design & Development. Andy Howard, Agilent Technologies, Efficiently simulating the third-order intercept point of a direct-conversion receiver, RF Design, 1 May 2004. Current issue: RF Design. Walid Y. Ali-Ahmad, Maxim Integrated Products, Effective IM2 estimation for two-tone and WCDMA modulated blockers in zero-IF, RF Design, 1 April 2004. PDF Version (284 KB). Current issue: RF Design. Stephen Long, University of California - Santa Barbara, Evaluating and Optimizing Tradeoffs in CMOS RFIC Upconversion Mixer Design, analogZONE, 11-page technical paper, 30 September 2002. PDF Version (288 KB). Current Issue: analogZONE Daniel Faria, et al., University of South Florida, The Use of Intermodulation Tables for Mixer Simulation, Microwave Journal, April 2002. PDF Version (115 KB). Current Issue: Microwave Journal. Stephen Long, University of California - Santa Barbara, Designing an RFIC CMOS upconversion mixer, RF Design, March 2002. PDF Version Current Issue: RF Design. Andy Howard, Simulate An I/Q Modulator, Microwaves & RF, article and (Complete PDF Version) 22-page technical paper, February 2002. Complete PDF Version Current Issue: Microwaves & RF. Steve Long, University of California - Santa Barbara, Basics of GaAs, InP, and SiGe RFICs: RFIC Design Examples, 50-slide technical presentation. 2001 IEEE GaAs IC Symposium (PDF file, 766 KB), October 2001. John Penn and Craig Moore, John Hopkins University, MMIC Design Projects, student designs and layouts, Fall 2000, Fall 2001. |
