Medical Grade Fan-Less PC Provides High-Performance Graphic Processing in Medical Imaging Applications

NISE 3140M medical fanless pc is compliant with EN60601-1 medical standard and featuring Intel® Core™ 2 Duo Processor, fan-less design, wide range DC input, rich I/O interfaces and dual IEEE 1394b ports. The PC provides remarkable reliability and up to 7 years CPU support.

Fremont, CA, June 30, 2010 --( Leveraging 18-year engineering experience of industrial computer design and manufacture, Nexcom has officially expanded its business scope to medical embedded system by introducing a new medical platform which is specifically targeted at the healthcare sector.

NEXCOM NISE 3140- Medical Grade PC is a rugged fan-less embedded computing system equipped with powerful Intel® Core™ 2 Duo Processor. Using the Intel® graphics media accelerator 4500MHD, the rugged NISE 3140M is capable to deliver exceptional graphics performance with notable rates of data transfer.

NISE 3140M is compliant with EN60601-1, a standard for medical grade computer; Hence, it is made for a variety of healthcare computing applications. In addition to medical certification, the platform retains all the other benefits of a proven industrial computing system including outstanding reliability and long term CPU support. As a result, medical customers can enjoy the extended longevity support of up to seven years.

The fan-less design is one of the imperative features which eliminate the concerns of dust accumulation. The quiet and ultra-reliable operation makes it a good fit for using in even the quietest of hospital bed-side environments.

Housed in a robust aluminum chassis, the NISE 3140M provides a number of important features required by image processing operation, including dual-channel DDR3 memory, two Gigabit Ethernet LANs and auto-direction control on RS485 and optional dual IEEE 1394b ports. On-board DC to DC power design of wide range DC input (16V-30V) is specially developed for medical UPS environments. On top of this, one PCI expansion is available to integrate optional off-the-shelf modules.

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Vivian Chen