P OWER TRANS FOR MER CHASSIS MOUNT : Isolation Medical N-92MD Electrical Specifications (@25°C) 1. Maximum Power: 2. Input Voltage: 3. Output Voltage: 4. Full Secondary Load: 5. Voltage Regulation: 6. Leakage Current: 500 VA 115 V, 50 / 60 Hz 115V + 5% 4.35 Amps RMS 5 % TYP @ full load to no load <50µA between primary and secondary* Description: The N-92MD is power transformer for isolating equipment from direct connection to the power line. It is designed and constructed to meet the low leakage current requirements for today’s medical equipment. The primary and secondary are wound on separate arbors, then assembled on a laminate core side-by-side separated by insulation. This prevents electrical connection under normal or overload conditions between the primary and secondary windings. This hospital type unit is offered with a resettable circuit breaker, providing protection from overload or short circuit conditions. 6.5 AMP PRIMARY OVERCURRENT CIRCUIT BREAKER B A Safety: These units are designed with 1500V isolation between winding to winding and between winding and core. Materials and construction are rated for Class B insulation system. C UL 544 File: E10290† Dimensions: Unit: In inches A B C D E 5.343 4.50 7.00 3.50 5.375 Weight: 17.60 lbs Mounting Holes: 0.656 x 0.281” Connections: 6 ft. long cord, 5-15P NEMA Plug, 5-15R NEMA Receptacle E D Schematic: BLK 115 V 50/60 Hz PF SF BLK WHT WHT PS GRN 115 V SS GRN * Leakage current between primary and secondary is typically measured at less than 10µA. † UL listing is only valid on parts produced on or before December 31, 2009. Parts will carry a date code of “0952” or earlier. RoHS Compliance: As of manufacturing date February 2005, all standard products meet the requirements of 2011/65/EU, known as the RoHS initiative. * Upon printing, this document is considered “uncontrolled”. Please contact Triad Magnetics’ website for the most current version. Web: www.TriadMagnetics.com Phone 951-277-0757 Fax 951-277-2757 460 Harley Knox Blvd. Perris, California 92571 Publish Date: December 4, 2013