A case study will be presented to highlight system design considerations and performance trade-offs for 3GPP LTE transmitter/receiver design. Various system design trade-offs will be examined, including the effects of baseband bit width, phase noise, and power amplifier non-linearities on key system performance metrics such as Error Vector Magnitude (EVM). Uncoded raw Bit Error Rate (BER) will also be investigated.

This webcast will conclude by showing how Agilent's simulation environment seamlessly integrates with Agilent signal generator and analyzer products to enable R&D testing of early LTE hardware.

Giveaway:
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Who should view this webcast:
This webcast is intended for System engineers, RF engineers, and Test & Verification engineers involved in Microwave and RF products or components.

Presenter:
Greg Jue, Application Specialist, Agilent

As an Application Specialist with Agilent EEsof EDA, Greg is the product manager for the ADS 3GPP LTE Wireless Library. He has helped to pioneer combining design and test solutions at Agilent Technologies as an Applications technical lead. He has authored numerous articles, presentations, and application notes, including the popular Application Note 1394 on Connected Solutions and Mixed-Signal Logic Analyzer Connected Solutions Application Note 1471. Greg helped develop the ADS 3GPP W-CDMA and ADS Communications System Design courses, and has taught numerous RF circuit design, communication system design, and 3GPP W-CDMA design courses with ADS. Before joining Agilent in 1995, he worked on system design for the Deep Space Network at the Jet Propulsion Laboratory/Caltech University.

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