QDUKI Magnetic Products Brochure

Magnetic Products

Introduction

Supporting Breakthrough Science in your academic laboratories and

industrial facilities

around the world

Leading researchers around the world trust Lake Shore Cryotronics for measurement and control solutions that drive the discovery and development of new materials for tomorrow’s technologies. In electronics, clean energy, nanotechnology, and many other applications, Lake Shore provides the products and systems needed for precise measurements over a broad range of temperature and magnetic field conditions.

Quantum Design UK and Ireland (QDUKI), like Lake Shore, possesses a deep understanding of the needs of researchers exploring nextgeneration technologies

The need to measure magnetic fields extends far beyond the university lab. Magnetics have become increasingly common in modern technical products, appliances, automotive, and industrial products and systems Factors such as the continuing emphasis on energy efficiency and the drive to reduce cost and parts count have prompted a revived interest in using magnets.

A number of products such as motors, speakers, interlock switches, and magnetic separators benefit from magnetic components due to their ability to transmit force across a space without physical connection. Then there’s the increasing use of rare earth materials.

The use of rare earths has increased the efficiency of magnetic products by producing high magnetic fields, often in very compact spaces, such as in lightweight electronics, toys, and handheld telecommunications devices.

With this rise in the use of magnets, there’s a greater need for the right testing tools. Some of the instrumentation conventionally used in various phases of inspection may test magnets and magnetic assemblies indirectly, but this type of testing can often provide questionable results or disclose critical flaws too late in the process Indirect testing might, for instance, fail to detect a faulty or under-performing magnet in a multiple-magnet assembly, or it might fail to identify a magnet that is only marginally defective before it is integrated into a product.

We'd be happy to chat with you about your applications and areas of research If you would like to find out more, please do not hesitate to get in touch with our dedicated technical experts here at QDUKI

F41 Teslameter

Perfect for measuring magnetic fields in a wide variety of applications, the Lake Shore Cryotronics F41 teslameter offers a new level of precision, convenience, and dependability

Offers modern wired and wireless connectivity choices for seamless system integration, including: USB, Ethernet, Wi-Fi and GPIB (optional) Industry standard SCPI communication library available along with LabVIEW™, Python, and IVI drivers.

Fluxmeters

Manual magnet testing

Automated magnet testing

Magnetising Materials analysis AC magnetic fields

Hall Probes

By default, each probe has a 2 m long cable (except Model 410 and cryogenic probes) Also available: 3 m, 6 m, 10 m, 20 m, and 30 m lengths 400 Series Hall Probes

Hall Sensors

Use the results of magnetic field measurement for:

Sorting sub-assemblies

Confirming magnetic field characteristics vs. applied current

Mapping magnetic field shape for a component

Measuring fringe fields or residual fields

Diagnosing detrimental effects of an external field

Measuring operator exposure to magnetic fields

Related Products: Quantum Design

(01372) 378822

www.qd-uki.co.uk

DR SHAYZ IKRAM

TechnicalDirector

shayz@qd-uki co uk

alex@qd-uki co uk