GE DS3800NRMA REGULATOR MONITOR

GE DS3800NRMA REGULATOR MONITOR

Part Number DS3800NRMA Manufacturer General Electric Country of Manufacture As Per GE Manufacturing Policy Series Mark VI/VIe Function Module Availability In StockDS3800NRMA is a Regulator Monitor Board developed by GE under the Mark IV series. GE designed this PCB for the Mark IV. The Mark IV was designed for gas/steam turbine management and is comprised of many interconnected microcomputers that continuously monitor the turbine system for issues such as loss of flame, vibration, and fire, and then make necessary adjustments to protect and keep the turbine functioning. 

The Mark IV can also be utilized to automate operations like speed control and control sequencing. In order to build the DS3800NRMA, two PCB mating connectors are used. A right-angled female connector is on the left edge, and a 17-pin right-angled male connector is parallel to the right edge. The second connector is planned to sit above the board's surface and connect to another board that will sit over the edge. The board also includes a four-by-six Augat plug. 

On the PCB, there are twelve TP test points. The number 6BA04 is written on it. Triangles and letters may be found on one edge, and each corner has been drilled. Extractor clips were put in two of them. Two board stiffeners are installed along the board's long edges. Board stiffeners prevent flexibility and the possibility of a cracked or damaged PCB. The Board has five amber LEDs and three red LEDs. On the circuit board, there are eighteen transistors. There are twenty-one circuits on the board. There are multiple lines of metal film resistors and polyester vinyl capacitors on this board. For the card, GE provided technical support.

Technical features

Programmability: Users can program and customise the module according to specific application requirements to achieve precise control of industrial processes and improve productivity and product quality.

Integration and compatibility: The module can be seamlessly integrated with other ABB products and solutions to form a unified automation platform. It also has excellent compatibility with other manufacturers' equipment and systems.

High performance and reliability: High-performance hardware and software are used to ensure stable operation and efficient control in industrial environments. With advanced fault detection and diagnostic functions, potential problems can be detected and dealt with in a timely manner, improving the reliability of the system.

Flexibility and expandability: with modular design, it can be flexibly configured and expanded according to actual needs. Whether it is a small or large project, it can be easily integrated into the existing automation system.

Easy to use and maintain: Provides an intuitive user interface and powerful diagnostic tools, enabling users to operate and maintain with ease.

Application Functions

Multi-functional control: The module can perform a variety of control functions, including logic control, motion control, temperature control, etc., to meet the needs of different application scenarios.

Digital control: Provides digital control functions that allow users to programmatically define and execute control logic to achieve precise control of complex industrial processes.

Communication Capability: Supports a variety of digital communication protocols, such as Ethernet, Profibus, Modbus, etc., in order to communicate with other devices, monitoring systems, or upper level control systems, and to achieve centralised management and monitoring of all parts of the system.

PLC Integration: Compatible and able to be integrated into ABB or other manufacturers' PLC systems to achieve seamless integration and overall synergy with other automation equipment and control systems.

Technical specifications and performance

Voltage & Current: Specific voltage and current specifications may vary depending on application scenarios and customised requirements, but usually have multiple voltage and frequency adaptations to suit the power standards of different regions.

Durability and Safety: High-quality power interface boards are usually made of durable materials and equipped with safety devices such as fuses and circuit breakers to ensure long term reliability and stability while protecting the equipment and users.

Communication features: Some power interface boards may have communication interfaces that allow the device to communicate with a computer or other control system for remote monitoring and control.

Indicator Lights and Displays: Some power interface boards may be equipped with indicator lights for displaying information such as power status, connection status, etc., to facilitate troubleshooting and status monitoring by users.