El Segundo, California – October 31, 2017
What: Balanced amplifier approaches are popular in RF applications due
to a number of implicit advantages of the topology. Using one of these approaches in the microwave
region, however, has been challenging because of the difficulty in creating an anti-phase
power splitter/combiner, or balun. In this upcoming webinar, "Simulating a 200 W L-Band Push-Pull
GaN Power Amplifier" presenter Dominic FitzPatrick of PoweRFul Microwave demonstrates the
use of NI AWR Design Environment
to create a 50-percent bandwidth planar balun and simulate a 200 W gallium arsenide (GaN)
transistor for a high-power push-pull amplifier.
Where: For details and to register, visit
http://www.awrcorp.com/news/events/event/webinar-simulating-200w-l-band-push-pull-gan-power-amplifier.
When: Wednesday, November 15, 2017
8:00 a.m. PT/11:00 a.m. ET/ 3:00 p.m. UTC
About NI AWR Software
The NI AWR Design Environment
software portfolio includes RF/microwave electronic design automation (EDA) tools such as
Visual System Simulator™ for system design, Microwave Office/Analog Office for microwave/RF
circuit design, and AXIEM and Analyst™ for electromagnetic analysis. NI AWR software tools
help design engineers to dramatically reduce development time and cost for components, circuits,
systems and subsystems employed in wireless, high-speed wired, broadband, aerospace and defense,
and electro-optical applications. Readers can learn more at
ni.com/awr.
About National Instruments
Since 1976, NI has made it possible for engineers and scientists to solve the world's greatest
engineering challenges with powerful, flexible technology solutions that accelerate productivity
and drive rapid innovation. Customers from a wide variety of industries - from healthcare
to automotive and from consumer electronics to particle physics - use NI's integrated hardware
and software platform to improve the world we live in.
Contact:
Sherry Hess Vice President of Marketing AWR Group, NI (310) 726-3000 E-Mail:
sherry.hess@ni.com Web:
www.awrcorp.com
Posted November1, 2017
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