MDT Releases High-Resolution Three-Axis Digital Magnetometers - Newsroom - Newsroom

MDT Releases High-Resolution Three-Axis Digital Magnetometers

Date:06-29-2019    Hits:6508

New Magnetometers with Open USB Communication Protocol Facilitate Rapid Prototyping and Customization for Magnetic Sensor Research and Development

NUREMBURG, Germany and SAN JOSE, California and ZHANGJIAGANG, China, June 25, 2019 /PRNewswire/ -- MultiDimension Technology (MDT) will release the two new models of Three-Axis digital magnetometers for high-resolution 3D magnetic field measurement. They include USB27053 for 5 milliTesla low-field measurement and USB25103 for 2 Tesla high-field measurement, with a USB interface connecting PCs or Android devices. They are ideally suited for scientific research, industrial instrumentation or educational programs in a variety of applications, including 2D/3D magnetic field mapping, material property research, non-destructive testing, object detection and tracking, algorithms for magnetic sensing and sensor fusion.

"MDT's new USB magnetometers are designed with high-performance three-axis magnetic sensors, low-noise signal conditioning circuitry, high-resolution digitization with calibration by a microcontroller, and a USB interface communicating with PCs or Android devices. A user-friendly graphical user interface provides visualization of the 3D magnetic field in real-time, and configuration options for calibration, filtering, sampling rate, etc. MDT can customize the magnetometer to interface with any TMR sensors, Hall Effect or AMR/GMR sensors, allowing users to evaluate sensor performance and choose the best-suitable product for their applications. MDT also provides an open communication protocol that can be interfaced with any development platforms or programming languages such as LabView, Arduino, Matlab, C# or Python, facilitating rapid prototyping for new applications with ease. MDT's magnetometers are accessible to a wide-ranging user base from sensor technology researchers, application developers, test engineers, lab technicians, hobbyists to educators and students as a general-purpose magnetic sensing instrument and also a customizable sensor research platform." said Dr. James G. Deak, co-founder and CTO of MultiDimension Technology.

Features of MDT's Three-Axis USB Magnetometers:

--5-digit high-resolution measurement by USB27053 (+/-5mT low-field with 20nT resolution) or USB25103 (+/-2T high-field with 7.5μT resolution);

--3D measurement at 250Hz sampling rate;

--User adjustable configurations for range, filtering, averaging and data logging;

--Built-in offset and sensitivity calibration;

--Customizable linearization and orthogonalization;

--USB interface for plug-and-play operations;

--Graphical user interface for PC and Android devices;

--Command-line interface and open communication protocol.

MDT's USB Magnetometers are available for ordering from MDT's web store at They will be showcased at Sensor+Test in Nuremburg and SensorsExpo in San Jose on June 25-27, 2019.

About MDT
MultiDimension Technology was founded in 2010 in Zhangjiagang, Jiangsu Province, China, with branch offices in Beijing, Shanghai, Chengdu, and Ningbo in China, Osaka, Japan, and San Jose, Calif., USA. MDT has developed a unique intellectual property portfolio, and state-of-the-art manufacturing capabilities that can support volume production of high-performance, low-cost TMR magnetic sensors to satisfy the most demanding application needs. Led by its core management team of elite experts and veterans in magnetic sensor technology and engineering services, MDT is committed to creating added value for its customers and ensuring their success. For more information about MDT please visit

Media Contacts
Jinfeng Liu,
Tel: +1-650-275-2318 (US), +86-189-3612-1156 (China)
Jilie Wei,,
Tel: +86-189-3612-1160 (China)

Source: MultiDimension Technology

  • 在線客服
久久久久国产精品免费s,久久久一本精品999国产,亚洲欧美日韩综合一区在线,亚洲精品国产综合一线久久 超碰最新公开无码97 国产一级AV免费高清 99热这里全都是精品国产 五月天无码高清不卡毛片 男女后进式猛烈xx00动态图片 亚洲日韩一区二区三区 国产人成午夜精品亚洲 天天摸夜夜操欧美大片 无码AV人妻一区二区三区四区