RxxP2xxyyD Dual Output +15/-03, DC/DC Converters

RECOM's R12P21503D, R15P21503D, and R24P21503D converters for next-gen SiC MOSFETs

Image of RECOM Power's RxxP2xxyyD DC/DC Converter SeriesTo meet tough requirements, RECOM introduces a 2 W DC/DC converter series specially designed to power the latest generation of SiC MOSFETs. The RxxP21503D series provides asymmetrical output voltages of +15 V and -3 V which are needed to efficiently switch second generation SiC MOSFETs.

A typical DC/DC isolation voltage should normally be at least twice the working voltage, but the high ambient temperature and fast switching edges generated by these high-power transistors cause additional stress to the insulation barrier. Therefore, the new series from RECOM come with 6.4 kVDC isolation to ensure that the isolation barrier stands up to even the harshest tests.

These converters are available with input voltages of 12 V, 15 V, or 24 V and come equipped with ultra-low parasitic capacitance (<10 pF). They are EN-60950-1 certified and fully compliant to RoHS 2 and REACH. A SiC MOSFET’s high operating temperatures and high-frequency switching are tough on a power supply. RECOM, therefore, only uses high quality name-brand components and offers a 3-year warranty.

  • +15 V/-3 V asymmetric outputs
  • Pot-core transformer with separated windings
  • High 6.4 kVDC Isolation in compact SIP7 size
  • Low isolation capacitance (10 pF max.)
  • Optional continuous short circuit protected
  • EN-60950-1 certified
  • 3 year warranty


  • SiC MOSFET drivers

Image of RECOM Power's RxxP2xxyyD DC/DC Converter Series

+15/-03 Dual Output DC/DC Converters

ImageManufacturer Part NumberDescriptionVoltage - Output 4Power (Watts)Available QuantityView Details
DC DC CONVERTER 15V -3V 2WR12P21503DDC DC CONVERTER 15V -3V 2W-2W177 - ImmediateView Details
DC DC CONVERTER 15V -3V 2WR15P21503DDC DC CONVERTER 15V -3V 2W-2W1371 - ImmediateView Details
DC DC CONVERTER 15V -3V 2WR24P21503DDC DC CONVERTER 15V -3V 2W-2W836 - ImmediateView Details
Published: 2017-08-15