High Isolation Power Transformers EP7 Platform SMD - PH9185.XXXNL and PM2190.XXXNL Push Pull Transformer Reinforced insulation for isolated power supply driver 8mm creepage 5KVrms isolation (1000Vrms continuous) UL and TUV certified Electrical Specifications @ 25C - Operating Temperature -40C to +125C Part Number Inductance (1-3) Leakage Inductance (H 45%) (H MAX) DCR (1-3) ( MAX) DCR (4-6) ( MAX) ET MAX (1-3)1 (V-sec MAX) CAP (pF MAX) Turns Ratio (1:3) (6:4) Commerical Automotive PH9185.011NL PM2190.011NL 750 1.2 0.50 0.55 66 10.0 1CT : 1CT PH9185.012NL PM2190.012NL 450 0.9 0.40 0.80 52 10.0 1CT : 2CT PH9185.013NL PM2190.013NL 200 0.6 0.35 0.95 36 8.0 1CT : 3CT PH9185.021NL PM2190.021NL 1800 3.0 0.75 0.45 100 10.0 2CT : 1CT PH9185.034NL PM2190.034NL 750 1.2 0.50 0.75 66 10.0 3CT : 4CT PH9185.038NL PM2190.038NL 310 0.9 0.44 1.00 44 8.0 3CT : 8CT PH9185.043NL PM2190.043NL 1260 1.5 0.70 0.56 89 12.0 4CT : 3CT PH9185.083NL PM2190.083NL 2350 6.0 0.90 Notes: 1. The ET Max is calculated to limit the core loss and temperature rise at 100KHz based on a bipolar flux swing of 180mT Peak. 2. For Push-Pull topology, where the voltage is applied across half the primary winding turns, the ET needs to be derated by 50% for the same flux swing. 3. The applied ET may need to be further derated for higher frequencies based on the temperature rise which results from the core and copper losses A. To calculate total copper loss (W), use the following formula: Copper Loss (W) = Irms_Primary2 * DCR_Primary + Irms_Secondary2*DCR_Secondary B. To calculate total core loss (W), use the following formula: Core Loss (W) = 4.40E-10 * (Frequency in kHz)1.67 * (180 * [ET/ET Max])2.53 Where ET is the applied Volt Second, ET Max is the rated Volt Second for 180mT flux swing C. To calculate temperature rise, use the following formula: Temperature Rise (C) = 0.40 110 8.0 8CT : 3CT 8 Isolated Voltage2 (Vrms) 5000 90 * (Core Loss(W) + Copper Loss (W)) 4. The AEC-Q200 temperature and humidity operational life testing was completed using a dielectric strength test of 5000Vdc. 5. Optional Tape & Reel packing can be ordered by adding a "T" suffix to the part number (i.e. PH9185.012NL becomes PH9185.012NLT). Pulse complies to industry standard tape and reel specification EIA481. 6. The "NL" suffix indicates an RoHS-compliant part number. 7. Continuous isolation voltage confirmed by 125C/1000hrs accelerated aging with the bias voltage applied between primary and secondary windings. 8. The PM2190.XXXNL part numbers are AEC-Q200 and IATF16949 certified. The mechanical dimensions are 100% tested in production but do not necessarily meet aproduct capability index (Cpk) >1.33 and therefore may not strictly conform to PPAP. Schematic Mechanical PH9185.XXXNL/PM2190.XXXNL Weight ...................2.6grams Tape & Reel ...............150/reel Tray .............................80/tray Dimensions: Inches mm Unless otherwise specified, all tolerances are .010 0,25 1 power.pulseelectronics.com P708. L (01/19) http://www.power.pulseelectronics.com/contact High Isolation Power Transformers EP7 Platform SMD - PH9185.XXXNL and PM2190.XXXNL TAPE & REEL INFO Marking Marking K0 A W P1 G Direction of tape SURFACE MOUNTING TYPE, REEL/TAPE LIST PART NUMBER PH9185.XXXNLT/PM2190.XXXNLT REEL SIZE (mm) TAPE SIZE (mm) QTY A G P1 W K0 PCS/REEL O330 32.4 24 32 12.8 150 APPLICATION PH9185.XXXNL is a series of high isolation power supply transformer drivers. Intended to operate in a fixed duty cycle Push Pull topology, it is a part of a low cost solution for delivering lower power (up to 3W) from a low voltage source. A typical implementation would be an isolated RS-485/RS-232 power supply driver circuit, the design is compatible with the MAXIMTM MAX253 IC. A schematic diagram for the Push Pull converter topology is given below. V IN PH9185/PM2190 VCC D1 V OUT DRIVER IC D2 GND For a fixed 50% duty cycle mode of operation, the output voltage is simply determined by the input voltage and turns ratio. So, with the available turns ratios, a variety of output voltages can be selected. This transformer design has been certified by UL to comply with UL60950-1 2nd edition, and CAN/CSA C22.2 NO. 60950-1-07 2nd edition; and by TUV to comply with EN61558-1 and EN61558-2-16 with reinforced insulation for a working voltage up to 400Vac 8mm creepage and 5000Vrms isolation voltage is guaranteed to meet this requirement. The design also complies with the Pulse's class F insulation system. PH9185.013NL was not included in the original UL/TUV certification but is complaint. Cost reduced versions without UL/TUV certification available, please contact Pulse Electronics for more information. MAXIM is a registered trademark of Maxim Integrated Products. For More Information Pulse Worldwide Pulse Europe Headquarters Pulse Electronics GmbH 15255 Innovation Drive Ste 100 Am Rottland 12 San Diego, CA 92128 58540 Meinerzhagen U.S.A. Germany Tel: 858 674 8100 Fax: 858 674 8262 Tel: 49 2354 777 100 Fax: 49 2354 777 168 Pulse China Headquarters Pulse Electronics (ShenZhen) CO., LTD D708, Shenzhen Academy of Aerospace Technology, The 10th Keji South Road, Nanshan District, Shenzhen, P.R. China 518057 Pulse North China Room 2704/2705 Super Ocean Finance Ctr. 2067 Yan An Road West Shanghai 200336 China Pulse South Asia 3 Fraser Street 0428 DUO Tower Singapore 189352 Pulse North Asia 1F., No.111 Xiyuan Rd Zhongli City Taoyuan City 32057 Taiwan (R.O.C) Tel: 86 755 33966678 Fax: 86 755 33966700 Tel: 86 21 62787060 Fax: 86 2162786973 Tel: 65 6287 8998 Fax: 65 6280 0080 Tel: 886 3 4356768 Fax: 886 3 4356820 Performance warranty of products offered on this data sheet is limited to the parameters specified. Data is subject to change without notice. Other brand and product names mentioned herein may be trademarks or registered trademarks of their respective owners. (c) Copyright, 2019. Pulse Electronics, Inc. All rights reserved. 2 power.pulseelectronics.com P708. L (01/19) http://www.power.pulseelectronics.com/contact