Redundant power supply with high noise immunity
Pepperl+Fuchs introduces the PS3500 N+1 High Integrity Power Supply. Designed for maximum efficiency and reliability in mission critical and continuous process applications, PS3500 power supplies are up to 91% efficient and feature a modular design with selectable wiring configurations, enabling them to be configured in N+1 redundant mode. N+1 redundancy guarantees system integrity and performance, even during module failure and replacement.
“Engineers responsible for continuous running processes and critical applications where shutdowns need to be avoided at all cost know too well that an unexpected power loss can bring operations to a halt, resulting in a tremendous amount of lost revenue. The PS3500 is engineered to be an affordable but robust power supply system that guarantees continued system functionality by providing N+1 redundancy, high immunity to noise, and industry leading efficiency in even the most demanding environments,” says Kristen Barbour, product marketing manager.
These 24 V dc, 15 A power modules plug directly into a 3- or 6-position chassis/backplane for maximum capacity of 45 A or 90 A, respectively. The system is designed with external field connectors for easy cabinet layout, LEDs, and alarm outputs for quick diagnostic evaluation, and natural convection cooling that eliminates the need for external cooling systems. They are certified for Class I Div 2/ Zone 2 ATEX Zone 2 mounting.
PS3500 modules are user-adjustable from 22.5 V dc to 30 V dc for precise voltage regulation. Universal supply voltage of 90-250 V ac/90-300 V dc makes them easy to integrate into an application. They feature configurable load sharing and alarm functions, and provide configuration-free replacement. Modules are also backward compatible with Pepperl+Fuchs PS2500 series power supplies.
N+1 wiring configurations provide economic reliability and redundancy to a power system. With such a configuration, multiple power supply modules (N) have a backup power supply module (+1) where all modules within the configuration share the load. Should one module in the system fail, the working modules take over without degrading the integrity of the system.