The new board is ideal for compact, portable and quiet embedded design used in automation, medical, maritime, communications and transportation.
Online PR News – 06-November-2019 – Taipei – Quanmax, a well-known embedded computing technology provider, is pleased to launch a new 2.5" Pico-ITX single board computer, named PITX-APL0 Series, to help system integrators to develop passively cooled embedded systems for space-constrained, ultra-compact embedded and portable applications in a variety of industries, such as industrial automation, medical, maritime, communications and transportation, that do not require too many peripheral interfaces or expansion slots.
First of all, PITX-APL0 Series uses every possible solution to accomplish a compact or even portable size , including (1) Pico-ITX form factor of only 100 mm x 75 mm; (2) low-power Intel Apollo Lake SoC processors to minimize cooling constraints; (3) eDP interface for thin-profile LCD display panel support; (4) next-generation M.2 socket for Wi-Fi / Bluetooth wireless expansion; and (5) CE / FCC Class B residential-grade compliance to guarantee user's safety in case of developing a portable device.
In addition, driven by Intel® Apollo Lake SoC processors, Atom® E3900 Series, Celeron® N3350, and Pentium® N4200 with Intel® HD Graphics 500 Series GPU integrated, which can deliver three times higher graphics / video performance than Bay Trail platform at relatively low power consumption, PITX-APL0 Series can support silky smooth 4K Ultra HD content playback at 60 frames per second. Developers can leverage it to build a graphics-intensive device to fulfill market requirements for high definition contents.
Founded in 1999, Quanmax is committed to supply high-quality embedded computing systems and solutions to help its clients develop a variety of computer-aided facilities for individual users and business firms in all industries including but not limited to the following four categories: Infotainment, Automation, AI, IoT and Network Communications, on the basis of different levels of customization.