C C S S O O R R w E E M M T T P P R R a L L R I I E E A A r V V N N A N N T T r Qualified with 65kV/s Vcommon mode =1KV Features IEC/EN61010 for test, measurement and lab use IEC/EN60601 for medical applications DC/DC Converter Reinforced isolation 6.4kVDC or 8kVDC Unregulated Optional continuous short circuit protection Very low isolation capacitance Converters RxxP2xx/R /X2 Option for >9mm input/output clearance Description 2 Watt The RxxP2xx/R Series of DC/DC Converters are certified to IEC/EN/UL/CSA-60950. This makes them 3 SIP 7 ideal for safety applications where approved or reinforced isolation is required. These versions are also EN61010-1 certified for lab equipment. The /X2 version has an input/output clearance of more than 9mm. Single and Dual Selection Guide Output Part nom. Input Output Output Efficiency max. Capacitive (1) (2) Number Voltage Voltage Current typ. Load VDC VDC mA % F (3,4,5) RxxP23.3S/R 5, 12, 15, 24 3.3 600 72 - 78 3300 (3,4,5) RxxP205S/R 5, 12, 15, 24 5 400 79 - 84 1200 (3,4,5) RxxP209S/R 5, 12, 15, 24 9 222 80 - 87 1200 (3,4,5) RxxP212S/R 5, 12, 15, 24 12 167 80 - 87 680 (3,4,5) RxxP215S/R 5, 12, 15, 24 15 133 80 - 88 680 (3,4,5) RxxP23.3D/R 5, 12, 15, 24 3.3 300 73 - 80 1500 (3,4,5) RxxP205D/R 5, 12, 15, 24 5 200 79 - 85 470 (3,4,5) RxxP209D/R 5, 12, 15, 24 9 111 80 - 87 470 (3,4,5) RxxP212D/R 5, 12, 15, 24 12 85 80 - 87 330 (3,4,5) RxxP215D/R 5, 12, 15, 24 15 66 80- 87 330 22++ RoHSRoHS REACHREACH Notes: compliantcompliant compliantcompliant 10 from 1010 from 10 Note1: Efficiency is tested at nominal input and full load a t +25C ambient Note2: Max. Capacitive Load is defined as the capacitive load that will allow start up in under 1 second without damage to the converter E314885 Model Numbering UL/CSA60950-1 certified IEC/EN60950-1 certified R P2 /P/X2/R UL/ES/CSA60601-1 certified (3) IEC/EN60601-1 certified Reinforced Isolation Input Voltage IEC/EN61010-1 certified (4) Pinout Output Power CB report (5) Protection Output Voltage Single or Dual Notes: Note3: add suffix /R6.4 f or 6.4kVDC/1second isolation or /R8 for 8kVDC/1second isolation Note4: add suffix /X2 f or single output with alternative pinout Note5: add suffix /P f or continous short circuit protection Ordering Examples: REF dv/dt R05P23.3S/R8/P = 5V Input, 3.3V Output, Single Output, 8kVDC/1s isolation, Continous Short Circuit Protection DESIGN ADVISORY R24P205S/R6.4/P/X2 = 24V Input, 5V Output, Single Output, 6.4kVDC/1s isolation, Continous SCP, Alternative Pinout REPORT available AVAILABLE R12P205D/R8/X2 = 12V Input, 5V Output, Dual Output, 8kVDC/1s isolation, Alternative Pinout www.recom-power.com/eval-ref-boards www.recom-power.com/bier www.recom-power.com REV.: 6/2020 ECO-1 O O P P E a C C R R O O Y M M n D D O O U U t C C C C E E y T T R R S SRxxP2xxS D/R DC/DC Converter Series Specifications (measured at Ta= 25C, nominal input voltage, full load) BASIC CHARACTERISTICS Parameter Condition Min. Typ. Max. Input Voltage Range 10% Minimum Load 0% Internal Operating Frequency 20kHz 50kHz 85kHz (6) Output Ripple and Noise 20MHz BW 200mVp-p Notes: Note6: Measurements are made with a 0.1F MLCC across output (low ESR) Efficiency vs. Load RxxP205S/R6.4 and RxxP205D/R6.4 and RxxP205S/R8 RxxP205D/R8 100 100 90 90 80 80 70 70 60 60 50 50 40 40 30 30 5Vin 20 20 5Vin 12Vin 12Vin 10 10 24Vin 24Vin 0 0 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 Output Load % Output Load % REGULATIONS Parameter Condition Value Output Accuracy 5.0% max. Line Regulation low line to high line, full load 1.2%/1% of Vin typ. 3.3Vout, 5Vout 15.0% typ. (7) Load Regulation 10% to 100% load 9Vout, 12Vout, 15Vout 10.0% typ. Notes: Note7: Operation below 10% load wont harm the converter, but specifications may not be met Deviation vs. Load RxxP205S/R6.4 and RxxP205D/R6.4 and RxxP205S/R8 RxxP205D/R8 30 30 5Vin 5Vin 25 25 12Vin 12Vin 20 20 24Vin 24Vin 15 15 10 10 5 5 0 0 -5 -5 -10 -10 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 Output Load % Output Load % continued on next page www.recom-power.com REV.: 6/2020 ECO-2 Deviation % Efficiency % Deviation % Efficiency %