MOTOROLA MVME2434 high – performance VMEbus processor module
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MOTOROLA MVME2434 high – performance VMEbus processor module
The MOTOROLA MVME2434 is a high – performance VMEbus processor module, an integral part of Motorola’s extensive portfolio of industrial – grade computing solutions. It’s designed to meet the stringent demands of embedded computing applications across various industries. In a control system’s architecture, the MVME2434 functions as the central processing unit, acting as the nerve center that coordinates all system operations.
Model MVME2434
Brand MOTOROLA
Type VMEbus Processor Module
Processor PowerPC 750, up to 350 MHz (or 400 MHz in some cases)
Memory 32 – 512 MB ECC SDRAM
Flash Memory 2 – 8 MB (for boot code and configuration data)
Cache 32 KB / 32 KB L1 cache, 1 MB backside L2 cache
Interfaces VMEbus, Ethernet, Serial ports (e.g., RS – 232), and potentially parallel ports
Expansion Supports two PCI Mezzanine Cards (PMCs)
Operating Temperature – 40°C to + 85°C
Storage Temperature – 55°C to + 150°C
Dimensions Standard VME module size (compatible with VME enclosures)
Power Supply Check product documentation (usually DC power)
Certifications May include CE, UL, etc.
The MOTOROLA MVME2434 is a high – performance VMEbus processor module, an integral part of Motorola’s extensive portfolio of industrial – grade computing solutions. It’s designed to meet the stringent demands of embedded computing applications across various industries. In a control system’s architecture, the MVME2434 functions as the central processing unit, acting as the nerve center that coordinates all system operations.
MVME2434
This module is built around the PowerPC 750 processor, which offers remarkable computational prowess. It can handle complex algorithms and multitasking scenarios with ease, making it an ideal choice for applications that require high – speed data processing. The MVME2434 features a modular design, which is a boon for engineers and integrators. With its support for two PCI Mezzanine Cards (PMCs), it allows for customization according to specific application requirements. Whether it’s adding more communication interfaces to connect with a wider range of devices or enhancing data storage capabilities for large – scale data processing, the flexibility of this module makes it adaptable to a wide array of industrial, medical, and scientific applications. It interfaces seamlessly with other VME – based modules within a system, enabling smooth data flow and efficient operation.
MVME2434
Main features and advantages:
Functionally, the MOTOROLA MVME2434 is a top – tier performer. The PowerPC 750 processor, which can operate at frequencies up to 350 MHz (or in some configurations, 400 MHz), enables it to execute complex computational tasks at high speed. The module is equipped with a 32 KB / 32 KB L1 cache and a 1 MB backside L2 cache. These caches significantly enhance performance by reducing the time the processor takes to access frequently used data, thus accelerating overall system operation. The on – board ECC SDRAM, available in configurations ranging from 32 MB to 512 MB, ensures data integrity. In environments where electrical interference or other disruptions are common, the error – correcting code feature safeguards the accuracy of data storage and retrieval.
From a hardware design perspective, the MVME2434 is rugged and built to endure. It can withstand the harsh conditions typical of industrial settings, including high temperatures (operating temperature range from – 40°C to + 85°C), vibrations, and electrical noise. Its form factor is designed to fit standard VME system enclosures, simplifying installation and integration into existing systems. The support for two PCI Mezzanine Cards (PMCs) provides ample room for expansion. As the requirements of an application evolve, additional functionality can be added without the need to replace the entire module.
Compatibility is one of the MVME2434‘s strong suits. It is fully compliant with the VMEbus standard, allowing it to communicate seamlessly with other VME – based modules. This compatibility extends to its rich set of interfaces, which include Ethernet for high – speed network connectivity, serial ports (such as RS – 232) for connecting to legacy devices, and in some cases, parallel ports. These interfaces enable easy connection to a variety of external devices, such as sensors, actuators, and storage devices. The module’s long – term reliability is further enhanced by its thermal design. It dissipates heat efficiently, even during continuous operation, which helps in maintaining stable performance and prolonging its service life.
MVME2434
Application areas:
In the bustling world of industrial operations, the MOTOROLA MVME2434 serves as a cornerstone across multiple industries. In industrial automation, it’s a force to be reckoned with. Consider automotive manufacturing plants, where precision and speed are paramount. The MVME2434 controls robotic arms that delicately assemble car components. Its high – speed data processing capabilities ensure these robots move with pinpoint accuracy, minimizing errors and maximizing production efficiency. In food and beverage production, it manages the complex processes of bottling, labeling, and packaging. By precisely controlling conveyors, filling machines, and capping devices, it guarantees consistent product quality and high – volume output.
The power generation sector also heavily relies on the MOTOROLA MVME2434. In power plants, whether they’re fueled by coal, gas, or renewables, this module is used for data acquisition and control. It collects real – time data from sensors monitoring temperature, pressure, and voltage in turbines, generators, and transformers. This data is then processed to optimize power generation, adjust equipment settings, and ensure grid stability. In hydroelectric power plants, it controls the opening and closing of gates and valves, regulating water flow to generate electricity efficiently.
In the healthcare industry, the MVME2434 plays a crucial role in medical imaging devices like CT and MRI scanners. It processes the vast amounts of data generated during imaging procedures, enabling the creation of high – resolution images that aid doctors in accurate diagnosis. In hospital laboratories, it automates the operation of testing equipment, ensuring rapid and precise analysis of medical samples. By being deployed in these diverse real – world scenarios, the MOTOROLA MVME2434 significantly enhances the efficiency and effectiveness of industrial, power – related, and medical operations.
MVME2434
Technical specifications:
Model MVME2434
Brand MOTOROLA
Type VMEbus Processor Module
Processor PowerPC 750, up to 350 MHz (or 400 MHz in some cases)
Memory 32 – 512 MB ECC SDRAM
Flash Memory 2 – 8 MB (for boot code and configuration data)
Cache 32 KB / 32 KB L1 cache, 1 MB backside L2 cache
Interfaces VMEbus, Ethernet, Serial ports (e.g., RS – 232), and potentially parallel ports
Expansion Supports two PCI Mezzanine Cards (PMCs)
Operating Temperature – 40°C to + 85°C
Storage Temperature – 55°C to + 150°C
Dimensions Standard VME module size (compatible with VME enclosures)
Power Supply Check product documentation (usually DC power)
Certifications May include CE, UL, etc.
Contact Us Phone:+86 16626708626 WeChat/WhatsApp:+86 16626708626 Email: 3772179818@qq.com
Related products:
MVME2400 – Part of the same family, offers a base for comparison in terms of performance and features, with potential differences in processing speed or memory capacity.
MVME2432 – A related module in the series, which may have different clock speeds or specific memory configurations, suitable for applications with slightly different performance requirements.
MVME2434 – 1 (hypothetical variant) – Could have a particular memory configuration, like 64 MB ECC SDRAM, catering to applications with more modest memory needs.
MVME162 – From Motorola’s VME product line, it may have different processing capabilities and interface options, but can be used in combination with MVME2434 in larger systems where tasks can be distributed between the two modules.
MVME167 – Similar to MVME162, it can be integrated into systems alongside MVME2434, perhaps handling different types of data processing or communication tasks to complement the MVME2434’s functions.
Installation and maintenance:
Before installing the MOTOROLA MVME2434, integrators should conduct a comprehensive assessment of the installation environment. First and foremost, ensure that the VME system enclosure has sufficient space to accommodate the module, along with any planned PCI Mezzanine Cards. The enclosure should also provide proper grounding to protect the module from electrical surges, which are common in industrial and medical environments. Adequate clearance around the module is essential for proper ventilation. This helps in dissipating the heat generated during operation, ensuring that the module remains within its optimal temperature range.
For maintenance, regular visual inspections are highly recommended. Check for any signs of physical damage, such as cracks on the circuit board or loose connections. Signal diagnostics should be performed at regular intervals to ensure that the data transmitted through the various interfaces is accurate. Firmware updates are crucial for maintaining the module’s performance. Motorola may release firmware updates to improve functionality, fix bugs, or enhance security. Integrators should stay informed about these updates and apply them as appropriate to keep the MVME2434 operating at its best.
WhatsApp: +86 16626708626
Email: 3772179818@qq.com
Phone: +86 16626708626
