This video introduces ASIX's Latest Industrial Ethernet Controllers and TSN NIC Solutions.
Response to the rapidly growing industrial Ethernet market demand, ASIX offers cost-efficient AX58x00 family EtherCAT slave controllers, and AXM57104 TSN NIC solutions for smart factory and Industrial IoT applications.
AX58400 EtherCAT Slave Controller with Dual-Core MCU is equipped with the highest performing 480 MHz ARM Cortex-M7 core, and 240 MHz ARM Cortex-M4 core. It is suitable for various high-performance EtherCAT slave applications. The AX58400 EtherCAT to IO-Link Gateway solution integrates AX58400 EtherCAT Slave Controller with Dual-Core MCU and ASIX’s own IO-Link Master Protocol Stack. This gateway solution supports up to 16 IO-Link gateways; each gateway can connect up to 8 IO-Link devices.
AX58200 EtherCAT Slave Controller SoC is equipped with ARM Cortex-M4F core, and integrates two EtherCAT Fast Ethernet PHY. It is suitable for various EtherCAT slave applications. The AxRobot EtherCAT 7-Axis Force-Assisted Control Robot solution uses AxRobot servo drive modular design with AX58200 EtherCAT Slave Controller SoC, to effectively reduce the motor drive board PCB space and hardware design cost for each robotic arm joint. AX58200 EtherCAT to Modbus TCP Gateway solution uses two EtherCAT Fast Ethernet ports for EtherCAT network connection; and uses another Fast Ethernet MAC controller with an external RMII Fast Ethernet PHY for Modbus TCP network connection.
AX58100 EtherCAT Slave Controller integrates two EtherCAT Fast Ethernet PHY and supports extra communication interfaces, such as SPI master, PWM, ABZ, Hall Encoder, etc. Designers can easily implement AX58100 on various EtherCAT slave applications without extra microcontroller.
AXM57104 TSN Gigabit Ethernet PCI Express NIC card supports enhanced TSN functions, compliant to IEEE 802.1Qav, 802.1Qbv, and 802.1Qci standards, and supports FPGA hard-core field upgradable via In Application Programming for TSN standards evolution. It can converge the non-real-time IT network and real-time OT networks, and is suitable for various Industrial Internet of Things applications.
For more information, please contact ASIX Electronics Corp. via e-mail:sales@asix.com.tw, or visit ASIX website: https://www.asix.com.tw/.
17. 光纤存储网 - 交换机初始化 Ethernet IP Address [10.77.77.77]: Enter new ethernet IP address: Ethernet Subnetmask [255.255.254.0]: Enter new ethernet subnetmask: Fibre Channel IP Address [none]: Enter new Fibre Channel IP address if desired: Fibre Channel Subnet Mask [none]: Enter new Fibre Channel subnet mask if desired: Gateway Address [none]: Enter new gateway address: Chapter 2. Implementing an IBM TotalStorage SAN Switch 35 Set IP address now? [y = set now, n = next reboot]: Enter “y” to set now: Unix tip /dev/ttyb -9600 Windows
27. 使用 FC Router 搭建远程容灾解决方案的拓普 IP WAN 本地 光纤交换机 远程 光纤交换机 本地 光纤路由器 远程 光纤路由器 本地 DS4000 系列 远程 DS4000 系列 光纤 IP 网络
Editor's Notes
A 24-bit port address consists of three parts: Domain (bits from 23 to 16) The most significant byte of the port address is the domain. This is the address of the switch itself. One byte allows up to 256 possible addresses. Because some of these are reserved (like the one for broadcast) there are only 239 addresses actually available. This means that you can have as many as 239 switches in your SAN environment. Area (bits from 15 to 08) The area field provides 256 addresses. This part of the address is used to identify the individual FL_Ports supporting loops or it can be used as the identifier for a group of F_Ports; for example, a card with more ports on it. This means that each group of ports has a different area number, even if there is only one port in the group. Port or arbitrated loop physical address - AL_PA (bits from 07 to 00) Fabric login to get address from switch