Many researchers requested the ability to share information in real time.Īt CONTEC, we can use our extensive experience in developing measurement and control equipment and network devices to solve problems like these. IEEE-488.2-compatible instruments can communicate with other IEEE-488.2-compliant devices and with IEEE-488 devices within the scope prescribed in IEEE-488.ĭue to GPIB communication limitations (overall cable length of whole system), system must be operated and observations must be made near the telescope, which is inconvenient. In addition to the transfer methods specified in IEEE-488, IEEE-488.2 features syntax for text data and numeric expressions, and commands and queries that can be used by all instruments. GPIB standards include IEEE-488 and the higher-level protocol IEEE-488.2, which is currently mainstream. Many current measuring instruments support the GPIB interface as standard, and it is widely used in measurement systems using PCs and measuring instruments. GPIB was created as HP-IB, an in-house standard developed by Hewlett Packard, which was approved by the IEEE (Institute of Electrical and Electronics Engineers) and became an international standard. It is mainly used to connect PCs and measuring instruments. GPIB (General Purpose Interface Bus) was developed as an interface between computers and measuring instruments. Benefits of connecting GPIB devices to a PC.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |