K-WANG
GE-FANUC VMIVME-4140-000000 Circuit Board
Model Number:VMIVME-4140 Manufacturing Origin:United States Chipset:Advanced GE microcontroller Operating Temperature Range:-40"C to +85"C Power Consumption:15W (max) Input Voltage Range:12V DC Dimensions (WxHxD):178mm x 101mm x 51mm Connectivity:RS-232, USB 2.0, Ethernet Certifications:[ E L The GE VMIVME-4140 Circuit Board is engineered for demanding industrial environments, ensuring robust performance even under extreme conditions. Its compact design allows for seamless integration into various system architectures. Equipped with state-of-the-art technology, this circuit board delivers unparalleled precision in signal processing, making it ideal for applications requiring high accuracy and reliability.
Designed with durability in mind, the board is constructed from high-quality materials that withstand the rigors of industrial use, ensuring long service life and minimal maintenance requirements. With its versatile communication interface, the GE VMIVME-4140 Circuit Board offers seamless connectivity to other components within your control system, facilitating efficient data exchange and enhanced system functionality. User-friendly and easy to install, our circuit board comes with comprehensive documentation and support resources, enabling quick setup and smooth operation, thus minimizing downtime and maximizing productivity. The GE-FANUC VMIVME-4140-000000 Circuit Board is a high-performance, versatile component designed for integration into industrial control systems. It is specifically engineered for applications requiring precise analog output control, ensuring reliable performance in various industrial environments.
The IO module has the following main functions
Input Function
The IO module can receive input signals sent by external devices and convert them into digital or analogue signals for use by the computer system or control system. These input signals can come from a variety of sensors, such as temperature sensors, pressure sensors, photosensitive sensors and so on. By receiving and parsing these input signals, the system can monitor and control the external environment in real time.
Output Functions
The IO module is capable of converting the output signals generated by a computer system or control system into the form required by an external device. These output signals are typically used to control actuators such as motors, valves, lights, etc. By sending appropriate output signals to external devices, the system enables control and operation of the external environment.
Data Acquisition and Processing
The IO module is capable of acquiring data from external devices and transferring it to a computer system or control system for further processing. This enables the system to acquire environmental data, status information and user inputs in real time and make appropriate decisions or perform specific tasks based on these data.
Communication Interfaces
IO modules are usually equipped with different types of communication interfaces, such as serial interfaces (RS232, RS485), Ethernet interfaces, CAN bus interfaces, and so on. These interfaces enable IO modules to exchange data and communicate efficiently with computer systems or other external devices.
OTHER INFORMATION
• Up to 1.26 GHz Pentium® III processor with 256 KB advanced transfer cache
• Up to 512 MB PC-133 SDRAM using a single SODIMM
• Internal AGP SVGA controller with 4 MB display cache
• 133 MHz system bus via Intel® 815E chipset
• Dual Ethernet controllers supporting 10BaseT and 100BaseTX interfaces
• Optional PCI dual channel Ultra160 SCSI
• Up to three (two with rear I/O support) PMC expansion sites (IEEE-P1386 common mezzanine card standard, 5 V)
• Up to 1 GB bootable flash on secondary IDE (optional)
• Two 16-bit and two 32-bit programmable timers
• 32 KB of nonvolatile SRAM
• Software-selectable watchdog timer with reset
• Remote Ethernet booting
• Optional IDE hard disk drive
• VME64 modes supported: A32/A24/D32/D16/D08(EO)/MBLT64/BLT32
• VMEbus interrupt handler, interrupter and system controller
• Includes real time endian conversion hardware for littleendian and big-endian data interfacing (patent no. 6,032,212)
• Enhanced bus error handling
• Passive heat sink
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