Artila Electronics Unveils iPAC-5070 ARM9 Single Board Computer

Artila Electronics Co., Ltd., an emerging force in embedded networking and computing, announced their iPAC-5070, an ARM9-based single board computer with advanced data acquisition capability. The iPAC-5070 integrates low power ARM9 SoC, isolated digital and analog I/O, 64MB SDRAM, and 16MB flash memory with a pre-installed Linux OS into a compact and DIN RAIL mountable module.

Equipped with four channels of 16-bit sigma-delta A/D, the iPAC-5070′s fully isolated design allows accurate measurements within harsh and noisy environments. Eight channels of photo isolated input and high drive transistor output are available for digital I/O monitor and control.

Artila Electronics iPAC-5070 ARM9-based single board computerThe iPAC-5070 is powered by a 180MHz ARM9 CPU with 4 channels isolated 16-bit multiplexed analog inputs, 8 channels opto-isolated digital inputs, and 8 channels 500mA high-drive output. With two 10/100 Mbps Ethernet ports, one RS-232 port, one RS-485 port, two USB 2.0 host ports, and one SD memory card slot, this SBC is also packed with plenty of I/O interfaces.

A true Linux computing platform with file system support, the iPAC-5070 has a open and standard programming environment. Users can operate it the same way as a normal Linux desktop. An open-source GNU Tool Chain, including a C/C++ cross-compiler and POSIX standard C/C++ library, is bundled with the iPAC-5070 at no extra charge.

About Artila
Artila Electronics Co., Ltd. is an emerging force in the industrial computer field, dedicated to minimizing mass while maximizing utility. Unlike other industrial computer providers in the market who mainly use x86 plus Windows solutions, Artila focuses on ARM-core RISC CPUs with embedded Linux solutions, matched with Artila’s 10 plus years of experience in RS-232/422/485 industrial communication and TCP/IP networking. Artila’s product range consists of Serial-to-Ethernet embedded modules, ARM9/Linux box computers, and ARM9/Linux SOMs (system-on-modules).