Last year, SolidRun introduced ClearFog CX LX2X networking single board computer offering up to 100GbE via NXP LX2160A 16-core Cortex-A72 communication processor that followed ClearFog CX 8K ARMADA 8040 networking board launched the year before. The Israeli company is now working on two ClearFog CX CN9K networking SBC’s powered by CEx7 CN913x system-on-module featuring Marvell Octeon TX2 CN913x quad-core Cortex-A72 processor and offering multi-gigabit Ethernet with various 10Gbps, 5Gbps, and Gigabit Ethernet ports. ClearFog CN9132 Pro The higher-end version of the ClearFog CX CN9K boards is ClearFog CN9132 Pro with the following specifications: CEx7 CN9132 COM Express Type 7 module SoC – Marvell OCTEON TX2 CN9132 quad-core Arm Cortex A72 up to 2.2 GHz (Industrial temperature up to 2.0 GHz) System Memory – Up to 16GB SO-DIMM DDR4 up to2400MT/s (not included by default) Storage – Up to 32 GB eMMC flash, SPI NOR flash COM Express Type 7 board-to-board […]
Forlinx OK1028A-C networking SBC supports LVDS displays, 4G/5G modules
Forlinx released two networking SBC’s with 10Gbps Ethernet powered by NXP LS1043A and LS1046A processor nearly exactly one year ago. Like many other networking SBCs they do not come with video output so configuration is done via a computer or laptop either through a UART interface or a web interface. But in some cases, such boards may be integrated into machines that require a display for human-machine interaction. That’s why Forlinx has now released a new networking board – OK1028A-C – powered by NXP QorIQ Layerscape LS1028A dual-core Cortex-A72 processor that natively supports video output up to 4K UHD resolution via an eDP/DisplayPort interface which the company used to provide an LVDS header. The board also offers 5 Gigabit Ethernet ports, as well as optional WiFi, Bluetooth, and 4G or 5G cellular connectivity via M.2 and mPCIe modules. Forlinx OK1028A-C specifications: FET1028A-C system-on-module SoC – NXP LS1028A dual-core Cortex-A72 processor […]
Raspberry Pi Gets 5G Cellular Connectivity with Snapdragon X55 Powered HAT
The Raspberry Pi board has long been able to connect to cellular networks either via USB dongles or 3G or 4G LTE HATs that often include GPS as a bonus. But you can now connect your Raspberry Pi 4 or other RPI SBC with a 40-pin header to 5G networks thanks to Waveshare SIM8200EA-M2 5G HAT for Raspberry Pi powered by Qualcomm Snapdragon X55 multi-mode multi-band modem offering 5G/4G/3G cellular connectivity. As we can see from the photo, the 5G add-on comes as part of a cool-looking kit with bottom and top acrylic plates, spacers, a cooling fan plus five antennas for cellular and GNSS connectivity. But the HAT itself integrates a SimCOM SIM8200EA-M2 M.2 module and offers the following specifications: Compatibility – Works with Raspberry Pi boards with a 40-pin GPIO extension header Cellular Connectivity SIM8200EA-M2 core module based on Qualcomm Snapdragon X55 platform with multi-mode multi-band support 5G/4G/3G […]
Xilinx Zynq UltraScale+ ZU19EG MPSoC Devkit Offers HDMI 2.0, 10GbE, High-Speed Transceivers
iWave Systems iW-RainboW-G35D is a development kit powered by Xilinx Zynq UltraScale+ ZU19EG Arm Cortex-A53 and FPGA MPSoC coupled with 4GB DDR4 RAM with ECC for the processing system (PS) & 4GB dual-channel DDR4 RAM for the programmable logic (PL). The board is equipped with HDMI 2.0 output/input ports supporting 4Kp60 UHD resolutions, a 10GbE SFP+ cage, FMC+, FMC, FireFly, and QSFP connectors for high-speed transceivers, and more. iW-RainboW-G35D specifications: iW-RainboW-G35M SoM Xilinx Zynq Ultrascale+ ZCU19EG MPSOC (-1 speed) with four Cortex-A53 cores @ 1200 MHz, dual-core Arm Cortex-R5 MPCore up to 600MHz, FPGA fabric with 1,143K logic cells, and Arm Mali-400 MP2 GPU (lower-end ZCU17EG and ZCU11EG MPSoC are also available) System Memory 4GB DDR4 RAM for PS 4GB Dual DDR4 RAM for PL Storage – 8GB eMMC Flash (for boot code) Transceivers PS-GTR Transceivers x 4 @ 6Gbps PL-GTH Transceivers x 32 @ 16.3Gbps PL-GTY Transceivers x 16 […]
Traverse Ten64 eight-core ARM64 10GbE networking platform runs mainline Linux (Crowdfunding)
Traverse Ten64 is a networking platform designed for 4G/5G gateways, local edge gateways for cloud architectures, IoT gateways, and network-attached-storage (NAS) devices for home and office use. Ten64 system runs Linux mainline on based NXP Layerscape LS1088A octa-core Cortex-A53 communication processor with ECC memory support, and offers eight Gigabit Ethernet ports, two 10GbE SFP+ cages, as well as mini PCIe and M.2 expansion sockets. Traverse Ten64 hardware specifications: SoC – NXP QorIQ LS1088 octa-core Cortex-A53 processor @ 1.6 GHz, 64-bit with virtualization, crypto, and IOMMU support System Memory – 4GB to 32GB DDR4 SO-DIMMs (including ECC) at 2100 MT/s Storage 8 MB onboard QSPI NOR flash 256 MB onboard NAND flash NVMe SSDs via M.2 Key M microSD socket multiplexed with SIM2 Networking 8x 1000Base-T Gigabit Ethernet ports (RJ45) 2x 10GbE SFP+ cages Optional wireless M.2/mPCIe card plus 3-choose-2 nanoSIM/microSD socket and up to 11x SMA connectors for antennas USB […]
WPQ873 Wireless Embedded SBC is Powered by Qualcomm IPQ8072A WiFi 6 SoC, Supports 5G Modules
We very recently wrote about DR6018 V2 Embedded WiFi 6 router board powered by Qualcomm IPQ6010 quad-core Cortex-A53 processor @ 1.8 GHz and supporting optional WiFi 6E and 5G IoT M.2 cards. If you are after a solution that supports WiFi 6 (802.11ax) and 5G, but with a bit more processing power and faster WiFi 6 speeds, Compex WPQ873 wireless embedded SBC may be an interesting option thanks to Qualcomm IPQ8072A quad-core Cortex-A53 processor clocked at up to 2.2 GHz, with integrated support for WiFi 6 up to 2475Mbps, and an M.2 socket for an optional 5G card. Compex WPQ873 specifications: SoC – Qualcomm Atheros IPQ8072A quad-core ARM 64 bit A53 @2.2GHz part of Qualcomm Networking Pro 600 Platform System Memory – 1x 512MB, DDR4 16-bit interface Storage – 256MB NAND flash, 8MB NOR flash Networking and Wireless Connectivity Ethernet 3x Gigabit Ethernet (RJ45) ports 1x 2.5 Gbps Ethernet port […]
DR6018 V2 Embedded WiFi 6 Router Board Adds Support for WiFi 6E and 5G IoT M.2 Cards
A few months ago we covered DR6018 (aka CP01) WiFi 6 Embedded SBC powered by Qualcomm IPQ6018 processor and offering six Ethernet ports including five Gigabit interfaces and one 2.5 Gbps Ethernet port. Wallys Communications has now informed CNX Software they had a new version of the board called DR6018 V2 with a more compact form factor, support for PoE, as well as optional WiFi 6E and 5G IoT M.2 modules. DR6018 V2 board specifications: SoC – Qualcomm Atheros IPQ6010 quad-core Arm Cortex-A53 processor @ 1.8 GHz System Memory – 1GB (2x 512MB) DDR3L 16-bit interface with 32-bit memory bus design Storage – 256MB NAND Flash, 32MB NOR flash, SD card slot Networking Wired 3x Gigabit Ethernet ports (one less compared to DR6018) 1x Gigabit Ethernet port with PoE support 1x 2.5Gbps Ethernet port Wireless WiFi 2×2 2.4GHz MU-MIMO OFDMA 802.11b/g/n/ax WiFi 6, max 23dBm per chain 2×2 5GHz MU-MIMO […]
MediaTek T750 5G Chipset to Power Fixed Wireless Access Routers and 5G Mobile Hotspots
Most of the 5G modem we covered are designed for mobile devices, but 5G technology also brings opportunities for fixed wireless access routers (FWA routers) potentially replacing fixed broadband modem routers, as well as for 5G mobile hotspots to add coverage in areas without reliable cellular signal. Those are the two markets targetted by the just-announced 7nm MediaTek T750 quad-core Arm processor with support for sub-6GHz frequencies aiming to affordable broadband connectivity to areas with limited DSL, cable, or fiber services, or on the contrary adding wireless services in suburban, rural, and less developed areas. Mediatek T750 5G SoC highlights: Processor – Quad-core Arm Cortex-A55 CPU GPU / Display – Embedded GPU and display driver to support up to 720p displays Cellular Networking 5G NR FR1 modem with sub-6GHz frequencies support and two-component carrier aggregation (2CC CA) for extended coverage Standalone and non-standalone (SA/NSA) modes supported 5CC LTE carrier aggregation […]