ABB PU515A 3BSE032401R1 Real Time Accelerator Module

ABB PU515A 3BSE032401R1

Technical parameters:
◆ Working power supply: AC220V;
◆ Baud rate: 38400bps;
◆Transmit power: 80mW;
◆Overload capacity: 1.4 times range input can be measured correctly; instantaneous (<10 weeks wave) current 5 times;
◆Acquisition time: settable (factory setting is 60s)
◆Measuring range: Input channels: 15 channels of current, 1 group of voltage (three-phase voltage)
Input signal: current 0~5A, voltage 0~400V
Switching quantity: 5 ways;
◆Transmission distance: 150-500m (up to 40km for special applications).

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Description

ABB PU515A 3BSE032401R1 Real Time Accelerator Module


Engineers can now easily upgrade and retrofit existing machines and systems with the new PROFIBUS module to quickly add high performance, flexible NI hardware and LabVIEW graphics software for high-speed and customised tasks that traditional PLCs can’t solve.FOUNDATION Fieldbus is a simple, bi-directional, digital communications protocol commonly used in process automation. The new NI USB-8486 is a single-port Foundation Fieldbus H1 interface that provides data logging, configuration, and control in HMI and distributed control system applications. The new interface connects Foundation Fieldbus devices to standard desktop PCs, industrial PCs, and laptops.The USB-8486 is ideally suited for portable data logging as well as field configuration and maintenance of devices and networks.DeviceNet is an industrial protocol based on the physical layer of the Controller Area Network (CAN), and is managed by the Open DeviceNet Vendor Association.

The ABB PU515A 3BSE032401R1 supports the latest FDT 2.1 standard. The automation vendor community uses Common Components to simplify the development of FDT/DTM and FDT/FRAME that are compliant with the FDT 2.1 specification.The 2018 release of the FDT 2.1 specification sets out the FDT Group’s path to transform the Industrial Internet of Things (IIoT) to connect and empower the smart enterprise based on industry-driven feedback from the process, hybrid and discrete manufacturing markets. Generic component development toolkits were first introduced with the release of the FDT 2.0 standard in 2012 to simplify product development. These toolkits have been marketed to many leading control and instrumentation manufacturers who have developed and deployed FDT/FRAME, FDT/FRAME-enabled systems and DTMs.