Compatibility:Compatible with J, K, and M-style Mark V Series frame components
Voltage Rating:1500 V rms maximum AX Voltage
Hardware Components:Comprises resistors, capacitors, diodes, and integrated circuits for precise voltage limiting
Drill Holes:Factory-drilled in several locations with insulation around each hole
Reactors and Fuses:Utilizes Leg reactors and fuses for enhanced safety and efficiency
Bus Transformers:Employing separate or common bus transformers for robust power distribution
Crafted with precision and engineered for durability, the GE DS200PCCAG5ACB Power Connect Card ensures seamless operation in high-demand industrial environments. Its robust design allows for effortless integration into the Mark V series turbine control systems, guaranteeing optimal performance and reliability.
Equipped with a comprehensive set of hardware tips and specifications, this Power Connect Card boasts an impressive list of features that cater to the diverse needs of modern industrial applications. From its high voltage rating to its compatibility with J, K, and M-style frame components, every aspect of this card is meticulously designed for efficiency and ease of use.
Innovative design elements include a strategic layout of four wire jumpers, labeled WP4, WP3, JP2, and JP1, facilitating quick and accurate connections. This board is strategically positioned behind the drive control, ensuring minimal interference with other critical components while maximizing accessibility and functionality.
Secured firmly in place with a combination of two boards and six plastic holders, the DS200PCCAG5ACB Power Connect Card is designed to withstand the rigors of industrial operations. Its modular construction allows for easy maintenance and replacement, ensuring minimal downtime and maximum productivity.
Engineered with a deep understanding of the Mark V series standards, this Power Connect Card incorporates a variety of voltage-limiting hardware components, including resistors, capacitors, diodes, and integrated circuits. These components work together seamlessly to maintain stable voltage levels, enhancing system reliability and reducing the risk of operational errors.
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