Showing results: 1 - 4 of 4 items found.
-
EMAG Technologies Inc..
NeoScan® is a unique electric field measurement system with unprecedented innovative features. NeoScan systems utilize EMAG’s patented, electro-optic (EO) field probe technology. Unlike conventional near-field scanning systems that require metallic pickup radiators or sensors, NeoScan probes are made of absolutely metal-free parts.
-
EMAG Technologies Inc..
VISAT™ (Vertically Integrated Scalable Antenna Tile) is an innovative RF front end technology under development by EMAG Technologies Inc. for more than ten years. Its objective is to provide a generic, modem-agnostic, reconfigurable RF front end solution for data links, ground-based, aerial and satellite communications, radar and electronic warfare systems. Point-to-point data transmission and tracking require high-gain, narrow-beam antennas with versatile and agile beam steering capability.
-
EMAG Technologies Inc..
RF.Spice A/D™ is a powerful visual simulation environment for analysis and design of analog, digital, RF and mixed-signal circuits and systems. Rather than verifying your circuit designs after the fact using real physical components with expensive laboratory test equipment, RF.Spice A/D allows you to perform accurate and realistic simulations of your circuits without clipping wires or splashing solder. With RF.Spice A/D, creating, modifying and simulating electronic circuits and systems is a quick, easy, even enjoyable, process.
-
EMAG Technologies Inc..
EM.Cube® is an industry-recognized simulation suite for electromagnetic modeling of RF system engineering problems. It features several distinct simulation engines that can solve a wide range of modeling problems such as electromagnetic radiation, scattering, wave propagation in various media, coupling, interference, signal integrity, field interactions with biological systems, etc. Using EM.Cube, you can solve problems of different sizes and length scales, varying from a few microns in MEMS devices to several miles in large urban propagation scenes.