Overview
Manuals
System Compatibility
Primary Industry Applications
Features:
- Memory Controller Hawk System Memory Controller (SMC)
- Memory EEPROM, on-board programmable 1MB via two 32-pin PLCC/CLCC sockets; 16MB surface mount
- Two 32/64-bit PMC slots with front panel I/O, plus P2 rear I/O (MVME2300 routing)
The MVME5100 is a high-performance VME based single board computer featuring Motorola’s PowerPlus II Architecture with a choice of processors. Designed to meet the needs of OEMs servicing the military and aerospace, industrial automation, and semiconductor process equipment market segments, the MVME5100 is available in both commercial grade (0° to 55° C) and industrial grade (–20° to 71° C) temperatures.
The MVME5100 has two input/output (I/O) modes of operation: PMC mode and SBC mode. The SBC mode has two variants: IPMC761 and IPMC712. These variants depend on which IPMC module is being used. In PMC mode, the MVME5100 is fully backwards compatible with previous generation dual PMC products such as the MVME2300 and MVME2400.
The MVME5100 Motorola VME Single Board Computer may still be available for purchase and support from Moore Automated Company beyond End-Of-Life (EOL) by the manufacturer (OEM).
Motorola VME MVME5100 Single Board Computer manual(Datasheets), Link
Important Notice: Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description. All prices are shown in USD.
The following equipment list is appropriate for use in an MVME5100 system:
- PMCspan PCI expansion mezzanine module (mates with MVME5100)
- Peripheral component interconnect (PCI) mezzanine cards (PMC)s (installed on MVME5100 board)
- RAM500 memory mezzanine modules (installed on MVME5100 board)
- VME system enclosure
- System console terminal
- Disk drives (and/or other I/O) and controllers
- Operating system (and/or application software)
- Defense and Aerospace: For mission-critical systems such as radar processing, satellite communications, and tactical artillery support. Ruggedized versions can even be used on rotorcraft (helicopters).
- Industrial Automation: Commonly used for high-end automation tasks, including power plant control systems and petrochemical process automation.
- Medical Devices: Integrated into advanced medical imaging or diagnostic systems requiring high-speed data analysis.
- Physics Research: Used for high-speed data acquisition to manage scientific research equipment.
