TDS-B1: Magnitude and Polarization Measurement in MRI Coil
Our latest video demonstrates ZMT's TDS-B1 to measure the polarization of the MITS3.0 birdcage resonator quickly and precisely. Two orthogonal time domain sensor (TDS) probes from our Z43 partner company SPEAG convert the incident radiofrequency magnetic field signals from the MITS to an optical signal, which is fiber-optically transmitted and opto-electrically converted by the remote units, captured by an oscilloscope, and transmitted to the computer where the polarization is computed and displayed. The full pulse train can also be seen in the time-domain view.
The TDS magnetic field probes can be used in free space or in loaded phantoms to measure the incident fields accurately in frequency or time domain, and they can operate inside harsh electromagnetic environments such as during magnetic resonance imaging scans.
Check out the video here and let us know if you have any feedback or are interested in learning more about the TDS-B1!
ZMT Zurich MedTech will be exhibiting at the following conferences and exhibitions this year. If you would like to arrange a demo or meeting, or are interested in attending a technical workshop, please send an email to firstname.lastname@example.org.
ZMT Zurich MedTech AG and SPEAG hosted the annual Hardware and Software Workshop in Korea on October 23, 2015, with Dymstec, SPEAG’s distribution partner in Korea, as the local organizers of this popular event. Approximately 200 participants attended the workshop to preview ZMT’s and SPEAG’s latest innovations and product updates and to learn about the roadmap for future technological advances in 2015 and beyond.
The Commission for Technology and Innovation CTI has nominated the research project entitled “S4L-CAPITALIS – In Silico Analysis and Optimization of Neurovascular and Neurological Devices and Treatments in the Head”, submitted by the IT’IS Foundation together with partner ZMT Zurich Medtech AG, for the prestigious CTI Swiss Medtech 2015 Award.
ZMT Zurich Med Tech is pleased to announce the release of Sim4Life V2.0, a major update that takes the first comprehensive simulation platform to combine high-fidelity computable human phantoms with powerful physics solvers and advanced tissue models to new heights.