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IoT Enabled Single Board Computer With Arm Cortex-A53 i.MX 8 Processor
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iBASE Technology, a manufacturer of industrial PCs and embedded computing systems, announced the release of their IBR210 3.5-inch single-board computer (SBC) featuring NXP’s dual or quad-core Arm Cortex-A53 i.MX 8 processors in 1.3GHz and 1.5GHz CPU frequencies. The board is suitable for applications such as multiple signage displays at airports, train and bus stations, and shopping malls, as well as passenger information systems.
The IBR210 renders multimedia processing capabilities for a range of Internet-of-Things (IoT) applications, and it comes with flexible memory options and interfaces. Measuring only 102 x 147mm, the SBC features soldered 3GB LPDDR4 system memory onboard and 8GB to 64GB eMMC flash memory, and I/O connectivity including one GbE RJ45, two USB 3.0, a USB OTG, an HDMI, a serial port and an SD socket. Furthermore, it supports two USB 3.0 ports through internal headers, M.2 Key-E, and mPCIe expansion, a power input of 12VDC to 24VDC via a DC-in jack and an extended operating temperature range of -40C to 85C.
IBASE offers Board Support Package (BSP) for Android 9 and Yocto Linux v2.5 operating systems to support a quick-to-market approach.
Features
- With NXP Cortex™-A53/Cortex™-M4, i.MX 8M Dual/Quad 1.5GHz Processor
- 4K HDMI, dual channel FHD LVDS
- 3GB LPDDR4, 8/16/32/64GB eMMC and SD socket
- Embedded I/O for COM, GPIO, USB3.0, USB-OTG, Audio and Ethernet
- M.2 Key-E (2230) and mini-PCI-E with SIM socket for wireless/4G/LTE connectivity
Open1768 - LPC1768 ARM Cortex M3 Development Board
Open1768 is an ARM Cortex-M3 development board that features an LPC1768 device as the microcontroller. It supports further expansion with various optional accessory boards for specific applications. The modular and open design makes it the ideal for starting application development with the ARM Cortex-M3 microcontroller.
This ARM Cortex-M3 development board, designed for NXP LPC series, features the LPC1768 MCU and integrates various standard interfaces supporting simple peripheral expansions.