Anz_spec_IDE_11.9.24.qxp_sp 09.09.24 10:51 Seite 1


INSTRUMENTATION • ELECTRONICS


temperature stability, leading to energy ineff iciency and environmental risks due to high operating temperatures and potential insulation breakdown. They must also operate at lower watt densities leading to larger physical sizes for the same power level. Layered heater technology marks


a signifi cant leap forward, employing meticulously deposited thin layers of heating elements. These layers, often as thin as a fraction of a human hair, are engineered to achieve optimal thermal performance. By stacking layers with precise control, these heaters provide unmatched temperature uniformity and quicker thermal response times, allowing for precise thermal expansion matching, which is crucial for maintaining structural integrity and functional reliability under varying thermal conditions. The materials used in layered


heaters, such as aluminium nitride or other advanced ceramics, play a crucial role in their performance. These materials are selected for their high electrical insulation and superior thermal conductivity, crucial for safe and eff icient operations. Ultimately, layered heater


technology not only represents a signifi cant technological advancement but also a paradigm shift in thermal management that is set to redefi ne standards and expectations within the MedTech industry. The ongoing push for greater eff iciency, miniaturisation and safety points to broader adoption of these heaters. As medical technology continues


Watlow’s FLUENT heater


to advance, the role of sophisticated thermal management systems will remain crucial. Ongoing innovations in heater technologies promise to enhance device performance, improve patient safety, meet the complex demands of next-generation medical devices and facilitate the development of new and eff ective medical treatments. Looking to the future, the integration of advanced thermal solutions will continue to be a critical area of focus, promising signifi cant impacts on the future of healthcare technology.


For more information visit: www.watlow.com


DDS Instruments with 50 tones per channel


Vaiants for PCIe, PXIe and Ethenet/LXI One to 32 synchronous channels Up to 400 DDS sine waves in one system


Example: 32 superimposed sine waves in frequency domain


Sine signals between 1 Hz and 200 MHz Easy generation of sine waves using FPGA-based DDS Direct programming of frequency, amplitude, phase, frequency slopes and amplitude slopes Continuous output, only changes need to be sent Parameter changes in as little as 6.4 ns


Produce trains of waveforms, frequency sweeps or finely tuneable references!


Perfect for quantum, industrial, medical, imaging, network analysis or communications!


SPECTRUM INSTRUMENT A TION Perfect fit – modular designed solutions


Europe / Asia: Phone +49 (4102) 695 60 | US: Phone (201) 562 1999 www.spectrum-instrumentation.com


www.engineerlive.com 25


NEW!


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