Description
Product Overview
The GE IS430SNUAH1A is an integral part of the GE’s industrial automation portfolio, specifically designed for advanced data acquisition and control within complex systems. As part of the Mark VIe I/O family, it plays a pivotal role in ensuring seamless operations across various industrial applications. This module combines a general – purpose processor board and a data acquisition board tailored to the connected device type. It is responsible for digitizing signals from diverse sources, running intricate algorithms, and facilitating smooth communication with the Mark VIe controller. By doing so, it enables precise monitoring and control, enhancing the overall efficiency and reliability of industrial processes. Whether in a power plant, a manufacturing facility, or other industrial setups, the GE IS430SNUAH1A provides the necessary data handling capabilities to maintain optimal system performance.
Technical Specifications
| Parameter Name | Parameter Value |
|---|---|
| Product Model | IS430SNUAH1A |
| Manufacturer | General Electric |
| Product Type | I/O Module |
| Processor | General – purpose (details not specified, but optimized for data processing) |
| Data Acquisition | Specific to connected device type |
| Temperature Range | – 30°C to 65°C (processor and data acquisition boards) |
| Cooling Method | Free – convection cooling |
| Fault Detection | By combining special circuits in data acquisition board with software on CPU board |
| Communication Capability | Can transfer and receive I/O if two network interfaces are connected; sends ID packet on request |
| Temperature Sensor Accuracy | Within 2°C |
| I/O Block Temperature Storage | Stored in database for alarm triggering |
IS430SNUAH1A
Main Features and Advantages
Versatile Data Handling: The GE IS430SNUAH1A is equipped with a general – purpose processor board and a customized data acquisition board. This setup allows it to handle a wide variety of data types from different connected devices. Whether it’s analog or digital signals, the module can digitize them accurately, ensuring that the data is in a suitable format for further processing and control.
Reliable Fault Detection: Through the integration of special circuits in the data acquisition board and software running on the CPU board, the module has a robust fault – detection mechanism. It can quickly identify any issues in the data acquisition process or with the connected devices. This early detection helps prevent system failures and reduces downtime, thus enhancing the overall reliability of the industrial system.
Efficient Communication: With the ability to transfer and receive input and output data when two network interfaces are connected, the IS430SNUAH1A enables seamless communication within the industrial network. Additionally, its function of sending an identification message (ID packet) to the main controller provides crucial information about the I/O board, such as hardware and firmware details. This streamlines system management and maintenance.
Reliable Fault Detection: Through the integration of special circuits in the data acquisition board and software running on the CPU board, the module has a robust fault – detection mechanism. It can quickly identify any issues in the data acquisition process or with the connected devices. This early detection helps prevent system failures and reduces downtime, thus enhancing the overall reliability of the industrial system.
Efficient Communication: With the ability to transfer and receive input and output data when two network interfaces are connected, the IS430SNUAH1A enables seamless communication within the industrial network. Additionally, its function of sending an identification message (ID packet) to the main controller provides crucial information about the I/O board, such as hardware and firmware details. This streamlines system management and maintenance.
Application Field
Power Generation: In power plants, the GE IS430SNUAH1A is used to monitor and control various parameters of power – generation equipment. It can acquire data from sensors placed on turbines, generators, and other critical components. By accurately digitizing and processing this data, it helps operators ensure that the power – generation process is running smoothly, efficiently, and within safe limits. For example, it can monitor the temperature, pressure, and speed of turbines and adjust the control signals accordingly.
Industrial Manufacturing: In manufacturing facilities, this module plays a vital role in production line automation. It can be connected to different machines and sensors to collect data on production rates, quality control parameters, and equipment status. For instance, in a metal – processing plant, it can acquire data from sensors on rolling mills to monitor the thickness and quality of the metal sheets being produced. Based on this data, it can provide feedback for process optimization.
Chemical Industry: In chemical plants, the IS430SNUAH1A is used to manage complex chemical processes. It can gather data on chemical reactions, such as temperature, pressure, and chemical concentrations. By analyzing this data, it helps in controlling the reaction rates, ensuring product quality, and maintaining the safety of the chemical processes.
Industrial Manufacturing: In manufacturing facilities, this module plays a vital role in production line automation. It can be connected to different machines and sensors to collect data on production rates, quality control parameters, and equipment status. For instance, in a metal – processing plant, it can acquire data from sensors on rolling mills to monitor the thickness and quality of the metal sheets being produced. Based on this data, it can provide feedback for process optimization.
Chemical Industry: In chemical plants, the IS430SNUAH1A is used to manage complex chemical processes. It can gather data on chemical reactions, such as temperature, pressure, and chemical concentrations. By analyzing this data, it helps in controlling the reaction rates, ensuring product quality, and maintaining the safety of the chemical processes.
IS430SNUAH1A
Related Products
- GE IS420ESWBH1A: A controller module within the GE product range. It has different functions compared to the IS430SNUAH1A. While the IS430SNUAH1A focuses on data acquisition and basic processing for I/O, the IS420ESWBH1A is more centered around control functions, making decisions based on the data received from modules like the IS430SNUAH1A.
- GE IS420UCSBH1A: A compact independent controller. It can work in conjunction with the IS430SNUAH1A. The IS430SNUAH1A can feed it with data, and the IS420UCSBH1A can then use this data to execute control strategies, ensuring the smooth operation of the overall system.
- GE IS420PPNGH1A: An output module. It can be used in combination with the IS430SNUAH1A. After the IS430SNUAH1A has processed and digitized data, the IS420PPNGH1A can output control signals based on this data to actuators or other devices in the industrial system.
- GE IS430SSUAH1A: Another I/O – related module. It may have different data – handling capabilities or be designed for specific types of devices compared to the IS430SNUAH1A. However, both are part of the Mark VIe I/O ecosystem and can be used in complementary ways within an industrial control setup.
- GE IS200EXAMG1A: This is part of a SIL 3 – compliant SIS control system. Although it has a different application focus on safety – critical systems, it may interact with the IS430SNUAH1A in larger industrial setups where both safety and normal operation data acquisition and control are required. The IS430SNUAH1A can provide non – safety – related data that may be used in overall system monitoring, while the IS200EXAMG1A takes care of safety – critical functions.
Installation and Maintenance
Pre – installation preparation: Before installing the GE IS430SNUAH1A, ensure that the power to the connected system is turned off. Check the installation site for any signs of damage or contamination. Verify that the physical dimensions of the installation location are compatible with the module. Also, make sure that the network interfaces and other connection points are clean and free from debris. It is advisable to wear anti – static gear to prevent electrostatic discharge, which could potentially damage the sensitive components of the module.
Maintenance recommendations: Regularly inspect the IS430SNUAH1A for any signs of physical damage, such as cracks or loose connections. Monitor the temperature of the module to ensure it remains within the specified -30°C to 65°C range. Check the communication status with the Mark VIe controller to ensure data is being transferred correctly. If any faults are detected, refer to the product manual provided by GE for troubleshooting steps. Periodically clean the module to remove dust and dirt, as these can affect its performance over time.
Maintenance recommendations: Regularly inspect the IS430SNUAH1A for any signs of physical damage, such as cracks or loose connections. Monitor the temperature of the module to ensure it remains within the specified -30°C to 65°C range. Check the communication status with the Mark VIe controller to ensure data is being transferred correctly. If any faults are detected, refer to the product manual provided by GE for troubleshooting steps. Periodically clean the module to remove dust and dirt, as these can affect its performance over time.
Product Guarantee
GE stands firmly behind the quality of the GE IS430SNUAH1A. The module undergoes rigorous quality control procedures during manufacturing to ensure it meets high – industry standards. In case of any manufacturing defects, GE offers a comprehensive warranty. Their global network of technical support teams is available to assist customers. Whether it’s installation guidance, troubleshooting, or advice on maintenance, GE’s experts are ready to help. This reflects their commitment to providing reliable products and excellent customer service, giving users confidence in the long – term performance and durability of the IS430SNUAH1A in their industrial applications.
