GE VMIACC-5595-208 350-805595-208N

Description

Detailed Parameter Table

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GE VMIACC-5595-208 350-805595-208N

Product Introduction

GE’s VMIACC – 5595 – 208 350 – 805595 – 208N is a high – performance reflective memory hub assembly. It plays a pivotal role in critical real – time communication networks, serving as a central and reliable component for data transmission within industrial control systems. In complex industrial setups where seamless and rapid data flow between multiple devices is essential, this hub assembly ensures that data is shared accurately and in a timely manner.

The reflective memory technology employed in this product allows all connected nodes to have a synchronized view of the data. This means that any change in the memory of one node is immediately reflected in the memories of all other nodes in the network. This characteristic is particularly valuable in applications where real – time data consistency is crucial, such as in industrial automation, process control, and high – speed data acquisition systems.

Core Advantages and Technical Highlights

High – speed data transfer: Operating at a remarkable 2 Gb/s, the VMIACC – 5595 – 208 350 – 805595 – 208N enables lightning – fast data exchange. In industrial environments where split – second decisions based on real – time data are often required, this high data transfer rate ensures that devices can communicate and respond promptly. For example, in a high – speed manufacturing line where multiple sensors and actuators need to work in unison, the quick data transfer capabilities of this hub assembly prevent bottlenecks and ensure smooth operation.

Scalability: With the ability to support up to 256 nodes in a network, it offers great scalability. As industrial systems grow and expand, the VMIACC – 5595 – 208 350 – 805595 – 208N can easily accommodate new devices without significant re – engineering of the network infrastructure. This scalability is beneficial for large – scale industrial plants that may start with a small number of connected devices but plan to add more sensors, controllers, and other components over time.

Reliability: The hub assembly is designed with reliability in mind. It automatically bypasses defective or disconnected nodes. In a large industrial network, if a single node fails due to a hardware issue or a temporary disconnection, the system can continue to function without interruption. This feature significantly minimizes downtime and ensures the integrity of the network, which is crucial for industries where continuous operation is essential, such as power generation and oil refineries.

Flexible deployment: Configurable for cables up to 10 km in length, it provides great flexibility in network deployment. Whether the industrial facility is spread out over a large area or has specific cabling requirements, this hub assembly can be adapted to suit the needs. It can be used in applications where devices are located far apart, such as in a large – scale mining operation where sensors and control units may be distributed across a vast mine site.

Remote access and control: The Ethernet and RS232 ports allow for remote access and control. Operators can configure the hub assembly, monitor its performance, and receive diagnostic information from a remote location. This is especially useful for industrial plants that are geographically dispersed or for situations where on – site access may be difficult or dangerous. For example, in a chemical plant where access to certain areas may be restricted due to safety reasons, operators can still manage the hub assembly remotely.

Typical Application Scenarios

Industrial automation: In modern industrial automation systems, numerous devices such as programmable logic controllers (PLCs), human – machine interfaces (HMIs), and sensors need to communicate in real – time. The VMIACC – 5595 – 208 350 – 805595 – 208N serves as the backbone for data sharing. For instance, in an automotive assembly line, various robots, conveyor belts, and quality control sensors are connected through this hub. The real – time data transfer ensures that the production process is coordinated accurately, reducing errors and increasing overall productivity.

Process control: In industries like oil and gas, chemical, and power generation, precise process control is vital. The hub assembly enables seamless communication between different control systems, such as distributed control systems (DCS) and supervisory control and data acquisition (SCADA) systems. It allows for the quick transfer of data related to process variables like temperature, pressure, and flow rate. In a power plant, for example, data from multiple turbines, generators, and transformers can be transmitted in real – time through the VMIACC – 5595 – 208 350 – 805595 – 208N to the central control room, enabling operators to make informed decisions and maintain optimal plant performance.

High – speed data acquisition: In applications where large amounts of data need to be collected and analyzed in real – time, such as in scientific research facilities or high – tech manufacturing, the VMIACC – 5595 – 208 350 – 805595 – 208N is invaluable. For example, in a semiconductor manufacturing plant, multiple high – resolution cameras and sensors are used to monitor the wafer production process. The hub assembly ensures that the large volumes of data captured by these devices are quickly transferred to the data processing units for immediate analysis, helping to detect and correct any manufacturing defects in a timely manner.

GE VMIACC-5595-208 350-805595-208N

Related Model Recommendations

VMIACC – 5595: This is a related model in the same product family. While it shares some similarities with the VMIACC – 5595 – 208 350 – 805595 – 208N, it may have differences in terms of port configuration or specific features. For example, it might have a different number of SFP transceiver ports or a slightly different form factor. It could be a suitable alternative for applications where the specific requirements of the VMIACC – 5595 – 208 350 – 805595 – 208N are not fully necessary, or where cost – effectiveness is a more significant factor.

GE Multilin 764 (in terms of network – related components): Although not a direct replacement for the VMIACC – 5595 – 208 350 – 805595 – 208N, in a complex industrial network setup, the Multilin 764, which is designed for feeder protection in industrial and distribution utility feeder applications, can work in tandem with the hub assembly. The VMIACC – 5595 – 208 350 – 805595 – 208N can handle the high – speed data transfer and reflective memory functions between devices within a local area, while the Multilin 764 can focus on protecting and managing the feeder – related aspects of the power network.

Installation, Commissioning and Maintenance Instructions

Installation Preparation: Before installation, carefully measure the available space in the control cabinet or the intended installation location to ensure that the VMIACC – 5595 – 208 350 – 805595 – 208N with its dimensions of 241 x 194 x 152 mm fits properly. Check the power supply requirements and ensure that the internal universal power supply of the hub assembly is compatible with the local power source. Use appropriate SFP transceivers and cables that are suitable for the required data transfer rate and cable length. Verify that the environmental conditions, such as temperature and humidity, are within the specified operating range.

Maintenance Suggestions: Regularly inspect the hub assembly for any signs of physical damage, such as cracks in the casing or loose connections. Check the status of the connected nodes through the remote access capabilities. Monitor the data transfer rate and network performance to detect any anomalies. If there are any issues, refer to the detailed error codes and diagnostic information provided in the product manual. Clean the unit periodically, especially if it is installed in a dusty environment, using a soft brush or compressed air. Replace any faulty SFP transceivers or other components with genuine GE replacement parts to maintain the performance and reliability of the hub assembly.

Commissioning Process: After installation, power on the VMIACC – 5595 – 208 350 – 805595 – 208N and perform initial checks. Configure the hub assembly using the Ethernet or RS232 ports according to the specific requirements of the network. Set up the number of nodes, cable lengths, and other relevant parameters. Test the data transfer between connected devices by sending test data packets. Verify that the hub assembly can automatically bypass any disconnected or defective nodes by simulating such scenarios. Calibrate the hub assembly if necessary to ensure optimal performance, especially in terms of data transfer accuracy and speed.

Service and Guarantee Commitment

GE typically offers a standard warranty for the VMIACC – 5595 – 208 350 – 805595 – 208N, often around 12 months, which covers manufacturing defects and performance issues. Their global technical support team is available to provide assistance. They can offer remote troubleshooting services, helping customers to identify and resolve issues without the need for on – site visits in many cases. GE also provides software updates for the hub assembly, which can improve its performance, add new features, or fix any known bugs. For more complex problems or in – depth maintenance requirements, GE can dispatch trained technicians to the site. Additionally, customers may have the option to purchase extended warranty plans, which can provide long – term protection for their investment in the hub assembly. This comprehensive service and guarantee commitment by GE reflect their confidence in the quality and reliability of the VMIACC – 5595 – 208 350 – 805595 – 208N and their dedication to customer satisfaction in the industrial communication market.