SST-PFB3-VME SST-PFB3-VME-2-E PB3-VME-2-E Network interface card

SST-PFB3-VME SST-PFB3-VME-2-E PB3-VME-2-E  Network interface card

SST-PFB3-VME SST-PFB3-VME-2-E PB3-VME-2-E allows any device with slave functionality and CANopen support to communicate with almost any other fieldbus or industrial Ethernet network. It needs to be integrated into a more functional fieldbus or industrial Ethernet. The target market includes mechanical manufacturing, transportation, infrastructure, healthcare, and all types of energy distribution and control applications, including renewable energy.

SST-PFB3-VME SST-PFB3-VME-2-E PB3-VME-2-E The program design adopts the commonly used sequence control design method (function chart design method). First of all, make a function chart, and then write the field signals and PLC soft relay number control table, and finally by the logic expression to make the ladder diagram in the ladder diagram design of the frequency control system, special attention should be paid to when the PLC constitutes the control system regulator, should be made in addition to the regulator as shown in Table 2 I / O number control table, and in accordance with the location of the PLC and the frequency converter’s I / O interface to make clear the connection between each other. Relationship.

SST-PFB3-VME SST-PFB3-VME-2-E PB3-VME-2-E in a small plastic casing, suitable for standard DIN rail installation and slender devices with 24 volt power supply. Based on a validated Anybus communication module, it serves as an intelligent link between two industrial networks. On the CANopen side, they always act as the master station (manager), while on the uplink network side they act as the slave station (server). This implementation is based on the HMS NP30 microprocessor and certified by CAN in Automation (CIA), fully compliant with the CANopen DS 301 v4.0.2 standard. For the configuration of CANopen master station interface