UFC721BE101 3BHE021889R0101 is designed with ASIC or ASSP devices

Brand ABB color standard Application Industrial height 328mm rated current 268mA
Protection Level IP45 Suitable for motor Power 418KW Application Site Power Industry BOM Number GJR2391500R1220 Power industry HIEE401782R0001 Part Number UFC721BE101 3BHE021889R0101
Applicable pipe 2 Whether imported is weighing 1.88kg can be sold nationwide

UFC721BE101 3BHE021889R0101 is designed with ASIC or ASSP devices

The Ethernet MAC kernel and Switching Matrix kernel Intellectual property (IP) with 1588 timing control and programmable uplink capabilities were developed by MorethanIP GmbH. MorethanIP Enterprise Systems also offers a UDP and 1588 software protocol stack that runs on a 32-bit AlteraNios II RISC processor softcore. To provide the best physical interface, the eight-port switch design uses four dual-port PHY transceivers from the National Semiconductor Enterprise System.

The reference design has a clock synchronization capability of less than 100ns and can be used for a variety of applications. This level of accuracy is key to meeting the demanding communication latency and quality of service (QoS) requirements required for industrial connectivity. Target applications include switches using different industry standards such as Ethernet/IP, ProfiNet, Ethernet Powerlink and other Ethernet protocols.

Extend product life cycle

The programmable capability of FPgas is the key to the above design advantages. Starting from a single hardware platform, designers can easily implement switches that support different industrial Ethernet protocols such as EtherCAT, ProfiNet, etc. The development board can support different industrial Ethernet protocols within the same system or from the same Ethernet port.

This is achieved by implementing different media Access controller (MAC) hardware modules and embedded processor software to support different Ethernet standards and IEEE 1588 features. The ability to easily reuse previous designs and the availability of off-the-shelf IP means that FPGA-based designs can generate a configuration that supports new features in a fraction of the time compared to designs using ASIC or ASSP devices.

The FPGA loads the hardware configuration and embedded processor software from a serial flash memory. During production and even after the device is delivered to the field, the hardware and software functions of the FPGA can be easily changed by rewriting the contents of the flash memory.

The programmable hardware and software processing power within FPGas means that designers can integrate the additional functionality needed through applications that are either hardware or software. The ability to implement new features by simply reprogramming FPgas is a guarantee for the future of the product (such as support for IEEE 1588 v2.0) and the ability to bring new features to customers very quickly.

Because FPgas have a long life cycle, device manufacturers don’t have to worry about potential device end-life risks. Since the design is IP-based, it is also convenient to port the design to the next generation of FPGas, giving designers the potential to benefit from the potentially lower cost or stronger performance of the next generation of FPGA products. This, combined with the ability to easily perform field upgrades, makes FPGA implementation the best way to develop products that are easily supported throughout the product lifecycle.

The reference design uses Altera’s Stratix II FPGA, which allows the entire Nios II processor code to be stored in on-chip memory, although lower-cost systems can be implemented using Altera’s Cyclone III series FPGA devices for enterprise systems.

UFC721BE101 3BHE021889R0101 is designed with ASIC or ASSP devices

ABB IMMFP12
ABB IMMPI01
ABB IMSED01
ABB IMSET01
ABB INNIS01
ABB INSEM01
ABB M2004HW
ABB MSR04XI
ABB NTAC-02
ABB P-HA-RPS-32200000
ABB PM630
ABB PM632
ABB PM645B
ABB PS130/6-75-P
ABB RF615
ABB SAFT103
ABB SAFT110
ABB SB512