KINO-QM57 Mini-ITX CPU Board. The board includes socket G CPU socket for Intel® Core™ i7 and i5 processors and the Mobile Intel® QM57 Express chipset with Intel® Active Management Technology 6.0. The KINO-QM57 is the ideal platform for high resolution digital signage, surveillance security monitoring, and public infotainment applications.
- Jan 12 Tue 2010 11:26
IEI Technology- IEI launch latest PICMG 1.3 Full-size CPU card with Intel® Core™ i3/i5/i7 processors and Intel® iAMT 6.0 function,
PCIE-Q57, a PICMG 1.3 Full-size CPU card with support for the Intel® Core™ i3/i5/i7 processors with the Intel® Q57 chipset. It is suited to high performance applications for gaming, digital video editing, workstations and network computing where security and reduced system downtime are critical.
- Jan 12 Tue 2010 11:24
IEI Technology-3.5" SBC with Intel® Atom™ Processor Z510P/Z530P with Dual LVDS
3.5" SBC with Intel® Atom™ Z530P/ Z510P 1.6GHz, 24bit+48bit Dual LVDS, GbE, CF I, USB, SATA
- Jan 12 Tue 2010 11:20
IEI Technology-Multiport serial communication cards, CAN communication cards, data acquisition cards, and RFID systems
Interconnectivity betweenindustrial devices and data collection hardware is essentialfor efficient operations, reducing bottlenecks and allowing on-time delivery of critical data. IEI Technology Corp. introduces a series of multiport serial communication cards, CAN communication cards, data acquisition cards, and RFID systems as industrial data collection devices designed for complete system integration. The devices are designed for home and building automation, intelligent transportation systems, ATMs, vending machines, parking lots, factory automation, machine automation, medical facilities and other industrial automation applications.
- Jan 12 Tue 2010 11:11
IEI Technology-All-in-One Touch Panel PCs for Home Automation
The ACT-412A RFID operating system contains RFID tags, Reader Antenna, Reader and Software (operation system, middleware, applications). When a command is generated by application, reader encodes the command (we say to read tag UID for example) and transmits it with RF format. Tag in RF coverage range then receives RF, turns it into energy, decodes the command and response (return its UID ‘01234567’) in RF format accordingly.
