Our Partner ADLINK announced release of the compact, Extreme Rugged™ HPERC-IBR-H Series military grade system in a sealed, IP67-rated enclosure featuring high speed MIL-DTL-38999 connectors. At just 63.5/100mm (2.5/3.9 inch) x 150mm (5.9 inch) x 203mm (8.0 inch), the HPERC-IBR-H Series is a highly integrated, compact VITA 75 compliant unit almost 30% smaller than other leading competitive products1. The HPERC-IBR-H Series meets SWaP (Size, Weight and Power) requirements for modern military applications, with a focus on sensor data display, command, and control for mission computing in military ground or naval vehicles and mass image acquisition and processing for payload computing in UAVs.
The HPERC-IBR-H Series is a follow-on to ADLINK’s HPERC-IBR-M Series and features two models, the HPERC-IBR-HC coldplate mount system and the HPERC-IBR-HH finned-convection systems. Both units offer dual- or quad-core Intel® Core™ i7 processor technology and optional GPGPU parallel processing engine on a 16-lane 3rd generation PCI Express interface, as well as DDR3L-1333 ECC soldered down memory up to 16GB. The Extreme Rugged™ system also includes dual removable solid state drives, as well as four USB 3.0, two USB 2.0, four GigE, seven Serial (RS-232/422/485), and one VGA plus three digital video HDMI/DisplayPort/DVI interfaces. The HPERC-IBR-H Series provides expansion options to support fast and easy integration of additional interface cards such as PCI/104-Express and Mini PCI Express.
To endure harsh environments, the HPERC-IBR-H Series was developed using ADLINK’s Rugged by Design methodology to withstand extreme shock, corrosion and galvanic oxidation. The HPERC-IBR offers flexible cooling options: the HPERC-IBR-HC (-40°C to +85°C) for cold-plate cooling, and the HPERC-IBR-HH (-40°C to +75°C) designed for natural convection cooling.
The ADLINK HPERC Series is compliant to VITA 75 20/21/22 small form factor mounting and provides a wide array of fast I/O via MIL-DTL-38999 connectors. Additional expansion interfaces to meet the demands of various sensor suites are easily added with user-defined I/O pins.
