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Parameter table
| Parameter name | Parameter value |
| Product model | VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D |
| Manufacturer | General Electric (GE) |
| Product category | Industrial computing module (belonging to VMEbus product family) |
| Dimensions (approx.) | Compact form factor, conforming to VMEbus standard sizes for easy integration into VME – based systems. Precise dimensions are provided in the product manual for accurate cabinet or chassis installation |
| Weight | Lightweight construction, facilitating handling during installation and replacement within industrial control cabinets |
| Processor type | High – performance embedded processor, optimized for industrial – grade computing tasks. It can handle real – time data processing and control algorithms efficiently |
| Memory configuration | Sufficient onboard memory, including high – speed SRAM for quick data access during operation and flash memory for non – volatile storage of system configurations and application programs |
| I/O interfaces | Multiple VMEbus – compliant I/O ports, enabling seamless connection with a variety of VME – based peripherals such as digital I/O modules, analog I/O modules, and communication modules. These interfaces support high – speed data transfer rates for fast and reliable communication within the VME system |
| Communication capabilities | Supports standard VMEbus communication protocols, which are widely used in industrial automation and control systems. This allows for easy integration with other VME – based devices, such as VME – based controllers, data acquisition units, and display units. It also has the potential to interface with external systems through optional communication modules (e.g., Ethernet or serial communication modules if added via expansion) |
| Power requirements | Operates on a specific DC voltage (e.g., +5 V DC and +12 V DC), with built – in power regulation and filtering circuitry to ensure stable power supply under various industrial conditions. The module is designed to consume power efficiently to minimize heat generation and energy consumption in the system |
| Operating temperature range | Engineered to function reliably in a wide temperature range, typically – 20°C to +70°C. This makes it suitable for use in harsh industrial environments, including outdoor installations, factories with high – temperature processes, and cold storage facilities |
| Environmental resistance | High resistance to vibration, shock, and electromagnetic interference (EMI). The module’s robust construction and shielding protect it from the mechanical stresses and electrical noise commonly found in industrial settings, ensuring stable operation over long periods |
| Expansion options | Some models may feature additional expansion slots or connectors, allowing for the addition of optional daughter – cards or modules. This can be used to enhance specific functions, such as adding more I/O channels, improving communication capabilities, or integrating specialized sensors or actuators |
| Diagnostic features | Equipped with onboard diagnostic circuitry and LED indicators. The diagnostic system can detect common hardware faults, such as memory errors, processor malfunctions, and communication failures. The LED indicators provide visual feedback on the module’s power status, communication activity, and any detected errors, facilitating quick troubleshooting and maintenance |
GE VMIVME-017807-414001 350-0001007807-414001 D
Product introduction
The GE VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D is a high – performance industrial computing module that plays a pivotal role in industrial automation and control systems. As part of GE’s extensive portfolio of industrial products, it is designed to meet the demanding requirements of modern industrial applications.
This module serves as a central processing and control unit within VME – based systems. It receives data from various sensors and input devices connected to the VMEbus network, processes this data using pre – programmed algorithms, and generates control signals to drive actuators, motors, and other output devices. By performing these tasks, it enables the seamless operation of complex industrial processes, ensuring efficiency, accuracy, and reliability.
With its advanced features and rugged design, the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D is widely used in industries such as manufacturing, oil and gas, power generation, and transportation. It can be integrated into systems for machine control, process monitoring, data acquisition, and more, making it a versatile solution for a broad range of industrial scenarios.
Core advantages and technical highlights
Powerful computing performance: The module is equipped with a high – performance embedded processor that can handle complex computational tasks in real – time. This enables it to process large volumes of data from multiple sensors simultaneously and execute control algorithms quickly. For example, in a high – speed manufacturing line, it can analyze sensor data related to product quality and machine performance in real – time and make instant adjustments to production parameters, ensuring high – quality output and efficient production.
Flexible VMEbus connectivity: Its multiple VMEbus – compliant I/O interfaces provide seamless integration with a wide range of VME – based peripherals. This flexibility allows for the customization of industrial control systems according to specific application requirements. Whether it’s connecting to digital I/O modules for basic control functions or analog I/O modules for more precise process control, the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D can easily adapt to different system configurations.
Robust environmental adaptability: Designed to withstand harsh industrial environments, this module has a wide operating temperature range and high resistance to vibration, shock, and EMI. In an oil and gas field, where equipment is exposed to extreme temperatures, strong vibrations from machinery, and high levels of electromagnetic interference, the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D can operate reliably, minimizing downtime and maintenance costs.
Efficient power management: With its efficient power consumption design and built – in power regulation, the module ensures stable operation while reducing energy consumption. This is not only beneficial for cost – savings but also for environmental sustainability in industrial settings. In large – scale industrial plants with numerous computing and control modules, the cumulative power savings from using energy – efficient modules like this can be significant.
On – board diagnostic capabilities: The integrated diagnostic features and LED indicators make it easy to monitor the module’s health and quickly identify and resolve any issues. In a power generation plant, where continuous operation is critical, the diagnostic system can detect potential hardware problems in advance, allowing maintenance personnel to take proactive measures and prevent system failures.
Typical application scenarios
Manufacturing automation: In manufacturing plants, the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D is used to control production lines, robotic systems, and automated machinery. It can coordinate the movement of robotic arms, control the speed of conveyor belts, and monitor the quality of products in real – time. For example, in an automotive assembly plant, it can process data from sensors that detect the position and orientation of car parts and control the robotic arms to perform precise assembly operations, ensuring high – quality vehicle production.
Oil and gas industry: In oil and gas exploration, production, and transportation, this module is used for well – head control, pipeline monitoring, and refinery process control. It can receive data from sensors that measure pressure, temperature, flow rate, and gas composition in pipelines and wells. Based on this data, it can control valves, pumps, and other equipment to ensure safe and efficient operation. In an offshore oil rig, the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D can monitor and control the extraction process, adjusting parameters to optimize oil production and prevent equipment failures.
Power generation: In power plants, the module is used for turbine control, generator monitoring, and power grid management. It can process data from sensors that monitor the performance of turbines, generators, and transformers. By analyzing this data, it can control the operation of these components to optimize power generation efficiency, maintain grid stability, and prevent equipment overload. In a thermal power plant, the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D can adjust the fuel supply and the speed of the turbine based on the electricity demand, ensuring reliable power supply.
Transportation systems: In transportation applications such as subway control systems, railway signaling systems, and intelligent transportation systems, this module is used for traffic control, vehicle monitoring, and data communication. It can receive data from sensors that detect the position and speed of trains or vehicles and control the signaling system to ensure safe and efficient traffic flow. In a subway system, the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D can monitor the status of trains, adjust the departure and arrival times, and control the platform doors to improve the overall efficiency of the subway operation.
GE VMIVME-017807-414001 350-0001007807-414001 D
Comparison with related models in the series
Compared with other GE VMEbus modules: Some other modules in GE’s VMEbus product line may have different levels of computing power, I/O capabilities, and expansion options. Lower – end models may have less powerful processors and fewer I/O interfaces, making them suitable for simple control tasks or small – scale industrial applications. The VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D, with its high – performance processor and extensive I/O connectivity, is better suited for medium – to – large – scale applications that require complex data processing and control. Higher – end models may offer additional features such as redundant processors for fault – tolerance or advanced communication capabilities for large – scale network integration, but the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D provides a good balance of performance and cost – effectiveness for most standard industrial automation needs.
Compared with similar products from other brands: GE’s VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D stands out for its seamless integration with GE’s broader industrial ecosystem. It can work in harmony with other GE industrial products, such as sensors, actuators, and control software, which simplifies system design and reduces compatibility issues. The module’s robust environmental performance and efficient power management also give it an edge over some competing products that may have more limited operating ranges or higher power consumption. Additionally, GE’s global service network ensures that customers can receive prompt technical support and access to spare parts, which is crucial for minimizing downtime in industrial operations.
Installation, commissioning and maintenance instructions
Installation preparation: Select a clean, dry, and well – ventilated location within the VME – based chassis or cabinet for installing the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D. Ensure that the mounting surface is sturdy and properly grounded. Verify that the power supply within the VME system matches the module’s requirements (+5 V DC and +12 V DC in this case) and is protected by appropriate circuit breakers. Gather all the necessary installation tools, such as screwdrivers, anti – static wristbands (to prevent electrostatic discharge during installation), and torque wrenches if required. Review the module’s installation manual and wiring diagrams carefully to understand the correct connection of power, I/O, and communication cables. Use high – quality shielded cables for I/O and communication connections to minimize electromagnetic interference.
Commissioning process: Mount the module securely in the VME chassis using the provided mounting brackets and screws. Connect the power cables, ensuring correct voltage and polarity. Connect the VMEbus I/O cables to the appropriate ports on the module and the corresponding VME – based peripherals, following the wiring diagram precisely. If there are any optional communication modules or expansion cards, connect them as well. Power on the VME system and check the module’s power – on LED to confirm that it is receiving power. Use the appropriate software tools (such as GE’s VME – based system configuration software) to configure the module’s parameters, including I/O settings, communication protocols, and any application – specific settings. Test the module by sending sample data to and from the connected peripherals and verify that the data transfer is accurate and the module responds correctly. Monitor the module for any signs of overheating, abnormal noise, or error messages during the initial commissioning phase. Document all the commissioning steps, configurations, and test results for future reference.
Maintenance suggestions: Regularly inspect the module for any signs of physical damage, such as cracks in the casing, loose connectors, or signs of overheating. Clean the module’s surface and ventilation openings periodically to prevent dust and dirt accumulation, which can affect its performance and heat dissipation. Check the diagnostic LED indicators regularly to monitor the module’s health. If any error indicators are lit, refer to the module’s troubleshooting guide to identify and resolve the issue. Back up the module’s configuration data regularly to prevent data loss in case of hardware failure. Update the module’s firmware to the latest version using GE’s recommended software tools to benefit from performance improvements, bug fixes, and security enhancements. Periodically test the module’s I/O functionality by sending test signals to the connected peripherals and verifying the responses. In case of a suspected hardware failure, first check the connections between the module and the peripherals, as well as the power supply to the module. If the problem persists, contact GE’s technical support or an authorized service center for further assistance. When replacing any components or the entire module, always use genuine GE spare parts to ensure compatibility and maintain the module’s reliability.
Service and guarantee commitment
GE provides a standard warranty for the VMIVME – 017807 – 414001 350 – 0001007807 – 414001 D, which typically covers manufacturing defects for a specified period. Their global technical support team is available 24/7 through various channels, including phone, email, and online platforms. Customers can reach out for assistance with installation, commissioning, and troubleshooting. GE also offers access to comprehensive technical documentation, software updates, and training resources through its online customer portals. In case of complex technical issues, field service engineers can be dispatched to provide on – site support. To further enhance the long – term reliability of the module, GE offers extended warranty options and preventive maintenance services. Training programs are available to help users better understand and operate the module, as well as perform basic maintenance tasks, thereby minimizing potential downtime in industrial applications.
Full 12-month warranty on all components- Dedicated after-sales support
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- All units are fully tested
Full 12-month warranty on all components- 1. Email confirmation
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