MS2026B, MS2028B VNA Master™ High Performance Handheld Vector Network Analyzer
2021-10-29
●Introduction:
■Anritsu introduces the industry's broadest frequency, highest performance, handheld solution to address cable and antenna measurement needs in the field. The MS2026/28B VNA Master covers applications up to 20 GHz, which contains a wide variety of RF and microwave systems, both coax and waveguide. Equally impressive, this measurement tool offers the industry's first 12-term error correction algorithm in a handheld VNA. With typical measurement speed of 750 μsec/point, the VNA Master is also ideally suited for transmission measurements anytime, anywhere.
■Anritsu introduces the industry's broadest frequency, highest performance, handheld solution to address cable and antenna measurement needs in the field. The MS2026/28B VNA Master covers applications up to 20 GHz, which contains a wide variety of RF and microwave systems, both coax and waveguide. Equally impressive, this measurement tool offers the industry's first 12-term error correction algorithm in a handheld VNA. With typical measurement speed of 750 μsec/point, the VNA Master is also ideally suited for transmission measurements anytime, anywhere.
- +1 Like
- Add to Favorites
Recommend
More>
- IMS2024: A 3 Hour Foundry Course Dedicated to The Latest Advancements in RF and mmWave Monolithic Microwave Integrated Circuit Design
- FORESEE LPCAMM2 Helps AI to Land, Leading a New Trend of High-Performance Memory
- Visit Nisshinbo at 2024 IEEE MTT-S International Microwave Symposium at June 18 through June 21, 2024
- Silicon Labs Supports New Bluetooth® Mesh Feature Enhancements & Networked Lighting Control Standardized Profiles
- ELETE Press-fit With High Electrical Reliability, Suitable For Communications, Automotive Electronics, Medical And Other Industries
- Greenconn荣获邓白氏企业认证,实力彰显行业领先水平
- RARA Would Like to Give Customers a “One-stop Solution” with All Kinds of Resistive Products
All reproduced articles on this site are for the purpose of conveying more information and clearly indicate the source. If media or individuals who do not want to be reproduced can contact us, which will be deleted.