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The MOTOROLA MVME162-213 is a high – performance VMEbus single – board computer (SBC) engineered to meet the most demanding requirements of contemporary industrial applications. It serves as a powerful processing hub, capable of handling complex computational tasks while maintaining full compatibility with the existing VMEbus infrastructure. Whether it’s being deployed in an automotive assembly line to manage high – speed robotic arms, a power plant to optimize turbine control, or a telecommunications network to process large volumes of data, the MVME162-213 ensures reliable and efficient operation, making it an indispensable component in the modern industrial ecosystem.
MVME162-213
At the core of the MOTOROLA MVME162-213 lies a state – of – the – art Motorola 68060 microprocessor, clocked at an impressive 80 MHz. This represents a significant upgrade from the 66 MHz 68060 in the MVME162 – 212, delivering a substantial boost in computational throughput. With its advanced superscalar architecture and a highly optimized floating – point unit, the 68060 in the MVME162 – 213 can execute multiple instructions simultaneously, enabling the board to handle intricate control algorithms with remarkable speed and precision. This enhanced processing power allows for more complex real – time operations, such as the implementation of advanced machine – learning – based predictive maintenance models in industrial settings, where rapid data analysis is crucial for minimizing equipment downtime.
One of the key differentiators of the MOTOROLA MVME162-213 is its comprehensive and upgraded I/O and connectivity suite. In addition to the standard serial and parallel interfaces that are essential for communication with legacy peripherals, the board features a Gigabit Ethernet port, providing a quantum leap in network data transfer speeds compared to the 10/100 Ethernet in previous models. This high – speed Ethernet connection enables seamless integration with modern industrial Ethernet networks, making it easier to connect to cloud – based platforms for remote monitoring and control, as well as for implementing advanced industrial IoT (IIoT) applications. The MVME162 – 213 also comes with an improved SCSI – 3 interface, which offers faster data transfer rates to external storage devices, facilitating the storage and retrieval of large volumes of data, such as high – resolution sensor data in industrial monitoring applications.
The MOTOROLA MVME162-213 is designed to fit seamlessly into standard 6U VMEbus chassis, ensuring compatibility with existing backplanes and adjacent modules. This makes it an ideal upgrade option for facilities that are currently using earlier MVME162 models, such as the MVME162 – 212, or even older MVME147 series boards. The board’s form factor and pin – out configurations are carefully engineered to maintain backward compatibility, allowing for a smooth transition without the need for a complete overhaul of the existing VMEbus system. This not only saves time and costs but also reduces the risk associated with system upgrades, ensuring that industrial operations can continue uninterrupted during the modernization process.
MVME162-213
Technical specifications:
Model Number MVME162-213
Brand Motorola
Type High – Performance VMEbus Single – Board Computer (SBC)
Processor Motorola 68060 (80 MHz) with advanced floating – point unit
Memory 64 MB DRAM (expandable to 256 MB), 4 MB Flash EPROM
Operating Temp Range – 10°C to 70°C (14°F to 158°F)
Mounting Style 6U VMEbus Chassis (3HE height)
Dimensions 233.7mm x 160mm (9.2″ x 6.3″)
Weight 400g (14.1 oz)
Interface/Bus VMEbus (32 – bit, 100 MB/s), dual RS – 232C/422, parallel I/O, SCSI – 3, Gigabit Ethernet
Compliance UL 1950, CE, FCC Class A, ISO 9001, RoHS
Supported Protocols Modbus TCP/IP, PROFIBUS – DP, Ethernet/IP, custom industrial protocols
Typical Power Draw 25W (max 30W under full load)
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Phone:+86 16626708626
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MVME162-213
Main features and advantages:
Selecting the MOTOROLA MVME162-213 offers a multitude of benefits for organizations looking to take their industrial operations to the next level. The increased processing power of the 80 MHz 68060 processor enables the execution of more complex control logic, such as multi – variable control algorithms in chemical plants, which require precise and rapid calculations to maintain optimal process conditions. This enhanced computational ability not only improves process efficiency but also allows for the implementation of more advanced quality control measures, leading to higher – quality products and reduced waste.
The Gigabit Ethernet connectivity of the MVME162-213 is a game – changer for industrial IoT applications. It enables real – time data streaming to and from the board, facilitating the integration of advanced analytics tools and cloud – based services. For example, in a smart factory setting, the MVME162-213 can be used to collect and transmit data from a large number of sensors in real – time, allowing for immediate analysis and decision – making. This can lead to better production planning, improved resource utilization, and enhanced overall productivity. The rugged design of theMVME162-213, which has been rigorously tested to withstand industrial – grade vibration, extreme temperatures, and electromagnetic interference, ensures reliable operation in even the harshest industrial environments. This makes it a reliable choice for applications in mining, oil and gas, and transportation, where equipment failure can have severe consequences.
MVME162-213
Application areas:
The MOTOROLA MVME162-213 finds extensive applications in various industries where high – performance computing and advanced connectivity are essential. In the automotive manufacturing industry, it is used to control and monitor high – speed robotic assembly lines. The MVME162-213‘s powerful processor can manage the complex motions of multiple robotic arms simultaneously, ensuring precise and efficient assembly of automotive components. Its high – speed Ethernet connection enables real – time communication with other control systems on the factory floor, as well as with the enterprise – level management systems, allowing for seamless integration of production data and better overall plant management.
In the power generation sector, the MVME162-213 is employed to optimize the control of power plants. It can handle the complex algorithms required to manage the operation of turbines, generators, and other critical equipment, ensuring efficient power generation and distribution. The board’s ability to process large volumes of data in real – time, such as sensor data from various components of the power plant, enables predictive maintenance, which helps to prevent equipment failures and reduce downtime. The Gigabit Ethernet connectivity also allows for remote monitoring and control of the power plant, enabling operators to manage the facility from a central location, improving operational efficiency and response times.
Telecommunications networks also benefit greatly from the capabilities of the MOTOROLA MVME162-213. It can be used to process and manage large volumes of data in network edge devices, such as base stations and data centers. The board’s high – speed processor and advanced I/O capabilities enable it to handle the complex tasks associated with data routing, signal processing, and network management. The Gigabit Ethernet connection ensures fast and reliable data transfer, which is crucial for maintaining high – quality communication services.
Telecommunications networks also benefit greatly from the capabilities of the MOTOROLA MVME162-213. It can be used to process and manage large volumes of data in network edge devices, such as base stations and data centers. The board’s high – speed processor and advanced I/O capabilities enable it to handle the complex tasks associated with data routing, signal processing, and network management. The Gigabit Ethernet connection ensures fast and reliable data transfer, which is crucial for maintaining high – quality communication services.
MVME162-213
Related products:
MVME162 – 203 – A base – level model with a 60 MHz 68060 processor, suitable for applications with moderate computational requirements. It offers a cost – effective entry point for organizations looking to upgrade from older VMEbus systems.
MVME162 – 212 – The immediate predecessor to the MVME162 – 213, featuring a 66 MHz 68060 processor and 10/100 Ethernet. It serves as a stepping – stone for facilities considering an upgrade to the more powerful MVME162 – 213.
MVME162 – 223 – A higher – performance variant with a 100 MHz 68060 processor, designed for extremely data – intensive applications. It is ideal for industries such as aerospace and defense, where high – speed data processing is critical.
MVME162 – 031 – An earlier 68040 – based model that can be upgraded to the MVME162 – 213 for a significant performance boost. This upgrade path allows organizations to leverage their existing investment in VMEbus infrastructure while achieving modern – day computing capabilities.
MVME712E – A memory expansion module specifically designed for the MVME162 – 213, which can double its DRAM capacity, providing additional memory resources for applications that require handling large datasets, such as big data analytics in industrial IoT applications.
MVME320B – A high – precision analog I/O module that complements the MVME162 – 213 in process control systems. It offers enhanced analog signal measurement and control capabilities, making it suitable for applications in industries such as pharmaceuticals and food and beverage, where precise process control is essential.
MVME5700 – An advanced VME – to – Ethernet gateway that further enhances the MVME162 – 213’s connectivity to modern networks. It provides additional features for network management and security, ensuring seamless integration with enterprise – level IT systems.
MVME162 – 213 – R – A refurbished version of the MVME162 – 213, which has been thoroughly tested and certified for reuse in non – critical industrial systems. It offers a cost – effective option for organizations with budget constraints, while still providing reliable performance.
MVME162-213
Installation and maintenance:
Installing the MOTOROLA MVME162-213 requires careful consideration of several factors. First, it is essential to ensure that the target VMEbus chassis supports 32 – bit operations and can provide stable power supplies of +5V, +12V, and – 12V within a tolerance of ±5%. Given the higher power draw of the MVME162-213 compared to its predecessors, it is crucial to verify that the existing cooling systems can handle the additional heat generated. In some cases, especially in densely packed chassis, additional forced – air cooling or heat sinks may be required to maintain optimal operating temperatures. Before installation, it is highly recommended to update the system firmware to the latest version that is compatible with the 80 MHz 68060 processor. This ensures that the system can fully recognize and utilize the expanded memory and I/O features of the MVME162-213, and also helps to prevent potential compatibility issues with other components in the VMEbus system.
For ongoing maintenance, regular inspections of the edge connectors are of utmost importance. Check for any signs of corrosion, wear, or loose connections on a quarterly basis. If any issues are detected, clean the connectors using isopropyl alcohol and a soft brush to ensure proper electrical contact. Monitoring the memory performance regularly using diagnostic software is also crucial to detect early signs of DRAM degradation. Given the nature of the technology, it is advisable to replace electrolytic capacitors every 5 – 7 years as a preventive measure. Capacitor failure can lead to system instability and component damage. When handling the MOTOROLA MVME162-213, always use anti – static equipment to avoid electrostatic discharge, which can cause irreparable damage to the sensitive integrated circuits on the board. For systems that operate continuously, it is best to schedule firmware updates during planned shutdowns to minimize any disruption to operations.
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Motorola MVME162-213
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