Solutions for

Find a Rep or Distributor

Home /  News / 

ETS-Lindgren Supports the Antenna Measurement Techniques Association

Company Provides Expert Speaker for Regional Event - Hosts 2016 Symposium in Austin

CEDAR PARK, Texas, August 11, 2015 – ETS-Lindgren is proud to support the Antenna Measurement Techniques Association (AMTA), a non-profit, international organization dedicated to the development and dissemination of theory, best practices and applications of antenna, radar signature and other electromagnetic measurement technologies. The company provided a speaker and exhibited at this year’s AMTA Regional Event on April 28 in Boulder, Colorado. Held at the Millennium Harvest House Hotel in Boulder, Colorado, the technical program addressed “Recent Advances in Antenna Measurement Post-Processing.” The program was designed to bring the latest technology related to electromagnetic compatibility (EMC) and antenna measurement techniques to the local community. Experts in industry, academia and government organizations shared practical information on various topics in an extended presentation format.

Mr. Zhong Chen, Director RF Engineering, ETS-Lindgren, presented, “Statistical Post Processing of Time Domain Site VSWR Data for Reduced Uncertainty and Repeatable Measurements.” The presentation was complemented by a live demonstration that showed the measurement process of obtaining the site VSWR data using time domain techniques. A vector network analyzer provided by Keysight Technologies was used to obtain the S21 response between two antennas. The data was transformed to time domain via inverse FFT. It was shown that the reflections from the environment can be separated from the direct antenna responses due to time delays. After time gating and FFT, Mr. Chen showed how the reflection coefficient, or the VSWR of the test site (or chamber) as a function of frequency, was derived. The demonstration showed the effectiveness of the measurement process, the data post-processing, and analysis of the results.

The regional event also included a tour of the National Institute of Standards and Technology (NIST), as well as an exhibition and reception with the speakers following the technical program. For a complete summary of the AMTA 2015 Regional Event, including photos, click here.

ETS-Lindgren will host the 38th Annual Meeting and Symposium of the Antenna Measurement Techniques Association (AMTA) at the Hyatt Regency Hotel on Town Lake in Austin, Texas from October 30 to November 4, 2016. The formal announcement will take place at this year’s AMTA symposium in Long Beach, California from October 11 to 16, 2015. Click here for more information on the AMTA 2015 symposium. To learn more about the AMTA organization, visit

About ETS-Lindgren

ETS-Lindgren is an international manufacturer of components and systems that measure, shield, and control electromagnetic and acoustic energy. The company's products are used for electromagnetic compatibility (EMC), microwave and wireless testing, electromagnetic field (EMF) measurement, radio frequency (RF) personal safety monitoring, magnetic resonance imaging (MRI), and control of acoustic environments.

Headquartered in Cedar Park, Texas, ETS-Lindgren has manufacturing facilities in North America, Europe and Asia. The company is a wholly owned subsidiary of ESCO Technologies, a leading supplier of engineered products for growing industrial and commercial markets. ESCO is a New York Stock Exchange listed company (symbol ESE) with headquarters in St. Louis, Missouri. Additional information about ETS-Lindgren is available at Additional information about ESCO and its subsidiaries is available at

Janet O'Neil
Marketing Communications

Tel +1.512.531.6400 Tel +358.2.8383.300 Tel +44(0)1438.730700 Tel + Tel +8610.8275.5086 Tel+ 81.3.3813.7100
Fax +1.512.531.6500 Fax +358.2.8651.233 Fax +44(0)1438.730751 Fax + Fax +8610.8275.5537 Fax +81.3.3813.8068

Information presented is subject to change as product enhancements are made. Contact ETS-Lindgren Sales Department for current specification.