The Motorola MVME61006E - 0163 is a single - slot single - board computer, which is designed for demanding industrial applications. Here is the detailed information in English:
It is a high - performance embedded computing platform based on the VME (Versa Module Eurocard) standard, suitable for applications in industrial automation, aerospace, medical equipment and other fields that require high - reliability and high - performance computing.
It is equipped with a Motorola MPC7457 processor running at a frequency of up to 1.267 GHz. This processor has high - speed data processing and response capabilities, and is also equipped with a 128 - bit AltiVec coprocessor for parallel processing, which can enhance data processing capabilities, especially suitable for applications with high - performance computing requirements.
- System Memory: It supports up to 2GB of onboard DDR ECC (Error - Correcting Code) memory. ECC technology can detect and correct single - bit errors, ensuring data integrity and system stability during operation.
- Flash Memory: It is equipped with 128MB of flash memory, which can be used to store firmware, operating systems or other important data that needs to be persisted.
- L2 Cache: It has a 512KB on - chip L2 cache.
- L3 Cache: It is also equipped with a 2MB L3 cache, which can further improve the data access speed of the processor and enhance the overall performance of the system.
- Ethernet Interfaces: It provides dual - gigabit Ethernet interfaces, which can realize high - speed network connection and data transmission, and are suitable for applications that require a large amount of data to be transmitted over the network, such as industrial control systems for remote monitoring and data collection.
- Serial Ports: In addition to the Ethernet interface, it also has asynchronous serial ports, including at least one serial port on the front - panel RJ - 45 connector and an additional asynchronous serial port routed to the onboard header. These serial ports can be used to communicate with other devices that support serial communication protocols, such as industrial sensors, controllers, etc.
- PCI/PCI - X Interfaces: It has two independent 64 - bit PCI buses, and each PCI bus has a PMC (PCI Mezzanine Card) site that supports cards running at 33 or 66 MHz. The PCI bus can be used to expand the functions of the board, such as adding additional communication interfaces, data acquisition modules, or other functional cards according to user needs.
- VMEbus Interface: The board interfaces with the VMEbus through P1 and P2 connectors, which use the 5 - row 160 - pin connectors specified in the VME64 extension standard. It can obtain +12V and +5V power supplies from the VMEbus backplane through these two connectors, and the +3.3V, +2.5V, +1.8V, and processor core power supplies are regulated on the +5V power - supply board.
- Form Factor: It adopts a standard 6U Eurocard size, which has a compact structure and is convenient for installation in various standard VME system chassis.
- Operating Temperature: It can usually work in a wide - temperature environment, generally - 40°C to 85°C. This allows it to adapt to different environmental conditions in industrial applications, whether in harsh outdoor environments or in some industrial production workshops with large - temperature - changes.
- Power Supply: It supports a wide - voltage input range of 9V to 36V DC and is equipped with over - voltage and over - current protection functions. This can ensure the stable operation of the system under different power - supply conditions and prevent the board from being damaged due to power - supply problems.
It supports a variety of operating systems, such as VxWorks, Linux, and QNX. Users can choose the appropriate operating system according to their specific application scenarios and development habits to carry out development and application.
- Industrial Automation: It can be used in industrial control systems, robot control, process control and other aspects, providing reliable computing support for the real - time control and data processing of industrial production.
- Aerospace: Meeting the needs of OEMs in the aerospace field, it can be used in aircraft avionics systems, satellite ground control systems, etc., and is responsible for processing various sensor data and control instructions.
- Medical Equipment: In medical imaging equipment such as CT, MRI, etc., it can provide stable and reliable control and computing support, helping to complete image reconstruction, data analysis and other tasks.
