IML02 Series DC-DC Converter 2 Watts xxx Series • World Wide Medical Approvals • Single and Dual Outputs • SIP7 Package • -40 °C to +85 °C Operation • Full Load at 85 °C Ambient • 4000 VAC Isolation, 1 x MOPP at 250 VAC • 2 µA Patient Leakage Current • MTBF 2.5 MHrs • 3 Year Warranty Dimensions: IML02: 0.77 x 0.39 x 0.49” (19.5 x 9.8 x 12.5 mm) Models & Ratings Input Voltage 4.5-5.5 V 10.8-13.2 V 13.5-16.5V 21.6-26.4V Output Voltage Output Current 3V3 5V 9V 12 V 15 V ±3V3 ±5 V ±9 V ±12 V ±15 V 3V3 5V 9V 12 V 15 V ±3V3 ±5 V ±9 V ±12 V ±15 V 3V3 5V 9V 12 V 15 V ±3V3 ±5 V ±9 V ±12 V ±15 V 3V3 5V 9V 12 V 15 V ±3V3 ±5 V ±9 V ±12 V ±15 V 600 mA 400 mA 222 mA 167 mA 133 mA ±300 mA ±200 mA ±111 mA ±83 mA ±66 mA 600 mA 400 mA 222 mA 167 mA 133 mA ±300 mA ±200 mA ±111 mA ±83 mA ±66 mA 600 mA 400 mA 222 mA 167 mA 133 mA ±300 mA ±200 mA ±111 mA ±83 mA ±66 mA 600 mA 400 mA 222 mA 167 mA 133 mA ±300 mA ±200 mA ±111 mA ±83 mA ±66 mA Input current No Load Full Load 50 60 60 60 60 50 60 60 60 60 25 30 30 30 30 25 30 30 30 30 25 30 30 30 30 25 30 30 30 30 20 20 20 20 20 20 20 20 20 20 mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA 533 mA 533 mA 500 mA 482 mA 488 mA 519 mA 513 mA 500 mA 482 mA 488 mA 217 mA 208 mA 208 mA 200 mA 203 mA 214 mA 208 mA 208 mA 200 mA 203 mA 174 mA 170 mA 167 mA 167 mA 167 mA 170 mA 170 mA 167 mA 167 mA 167 mA 111 mA 106 mA 104 mA 104 mA 104 mA 107 mA 106 mA 104 mA 104 mA 104 mA Notes Input currents measured at nominal input voltage. 1 www.xppower.com Max. capacitive load 1000 470 470 220 220 ±470 ±220 ±220 ±100 ±100 1000 470 470 220 220 ±470 ±220 ±220 ±100 ±100 1000 470 470 220 220 ±470 ±220 ±220 ±100 ±100 1000 470 470 220 220 ±470 ±220 ±220 ±100 ±100 µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF µF Efficiency Model Number 75% 78% 80% 83% 82% 77% 78% 80% 83% 82% 76% 80% 80% 83% 82% 78% 80% 80% 83% 82% 76% 78% 80% 80% 80% 78% 78% 80% 80% 80% 75% 78% 80% 80% 80% 77% 78% 80% 80% 80% IML0205S3V3 IML0205S05 IML0205S09 IML0205S12 IML0205S15 IML0205D03 IML0205D05 IML0205D09 IML0205D12 IML0205D15 IML0212S3V3 IML0212S05 IML0212S09 IML0212S12 IML0212S15 IML0212D03 IML0212D05 IML0212D09 IML0212D12 IML0212D15 IML0215S3V3 IML0215S05 IML0215S09 IML0215S12 IML0215S15 IML0215D03 IML0215D05 IML0215D09 IML0215D12 IML0215D15 IML0224S3V3 IML0224S05 IML0224S09 IML0224S12 IML0224S15 IML0224D03 IML0224D05 IML0224D09 IML0224D12 IML0224D15 IML02 Series DC-DC Converter Input Characteristic Minimum Typical Maximum Input Voltage Range 10.8 13.2 13.5 16.5 21.6 Input Reflected Ripple Current Units 5.5 4.5 VDC 26.4 20 Input Surge 16.5 12 V nominal 15 V nominal 24 V nominal mA pk-pk 5.5 13.2 Notes & Conditions 5 V nominal VDC for 100 ms 26.4 Through 12 µH inductor and 47 µF capacitor 5 V models 12 V models 15 V nominal 24 V nominal Output Characteristic Minimum Output Voltage 3.3 Typical Initial Set Accuracy Minimum Load Maximum Units Notes & Conditions 30 VDC See Models and Ratings table ±5 % 10 At full load % Minimum load required to meet specified regulation Output changes by max of 1.2% for each 1% change in input voltage Line Regulation ±1.2 %/1% Load Regulation 10 % From 10% to full load, see application note % On dual output models, when one output is at 25% load and other is varied from 10% load to full load mV pk-pk 20 MHz bandwidth. Measured using 10 µF electrolytic in parallel with 0.1 µF ceramic capacitor Cross Regulation ±4 Ripple & Noise 150 Short Circuit Protection Continuous Maximum Capacitive Load See Models and Ratings table Temperature Coefficient 0.03 %/ ˚C Maximum Units General Characteristic Minimum Efficiency Isolation: Input to Output Typical 80 4000 VAC Patient Leakage Current Isolation Resistance Switching Frequency 10 50 Power Density Mean Time Between Failure 2 µA 20 100 pF kHz 13.6 W/in3 109 Isolation Capacitance 2.5 Weight Notes & Conditions % Ω MHrs 0.009 (4.2) 1 x MOPP at 250 VAC working voltage, 2 x MOPP at 125 VAC working voltage MIL-HDBK-217F, +25 °C GB lb (g) Environmental Characteristic Minimum Operating Temperature -40 Storage Temperature -40 Case Temperature Humidity 2.5 Typical Maximum Units +85 °C +125 °C +100 °C 95 %RH Cooling Notes & Conditions No derating Non-condensing Natural convection www.xppower.com 2 IML02 Series DC-DC Converter EMC: Emissions Phenomenon Standard Test Level Notes & Conditions Conducted EN55011 Class B See Application Note Radiated EN55011 Class B EMC: Immunity Phenomenon Standard Test Level Criteria ESD Immunity EN61000-4-2 ±15 kV A Notes & Conditions Radiated Immunity EN61000-4-3 10 Vrms A EFT/Burst EN61000-4-4 2 kV A External components required, see application notes Surge EN61000-4-5 2 kV A External components required, see applications note Conducted Immunity EN61000-4-6 10 V rms A Magnetic Fields EN61000-4-8 30 A/m A Air Discharge Safety Approvals Safety Agency Safety Standard Notes & Conditions ANSI/AMMI ES60601-1 UL CSA CSA C22.2 No. 60601-1 TUV EN60601-1 CB IEC60601-1 Mechanical Details 0.02 (0.5) 0.77 (19.5) 0.47 (12.0) 0.02 (0.5) 0.39 (9.8) 1 0.10 (2.54) 2 5 6 7 0.12 (3.0) 0.39 (9.8) Printed Face 0.09 (2.4) 0.49 (12.5) 0.01 (0.25) 0.08 (2.13) 0.02 (0.5) 0.60 (15.24) Pin Connections Notes 1. All dimensions are in inches (mm) 2. Weight: 0.009 lbs (4.2 g) approx. 3. Pin diameter: 0.02±0.002 (0.5±0.05) 3 4. Pin pitch tolerance: ±0.014 (±0.35) 5. Case tolerance: ±0.02 (±0.5) www.xppower.com Pin 1 2 5 6 7 Single +Vin -Vin -Vout No Pin +Vout Dual +Vin -Vin -Vout Common +Vout 3 IML02 Series DC-DC Converter Application Note Regulation Hig hl Typ ica Low imit l Lo ad L ine Lim it EFT and Surge Filter Input components (C1, C2, D1) are used to help meet EFT and surge test requirements for the module. IML02 C1 C2 D1 IML0205XXXX 1000 µF/35 V 330 µF/50 V SMDJ9.0A IML0212XXXX 1000 µF/35 V 330 µF/50 V SMDJ13A IML0215XXXX 1000 µF/35 V 330 µF/50 V SMDJ18A IML0224XXXX 1000 µF/35 V 330 µF/50 V SMDJ28A EMI Filter Input filter components (C1,C2 and L) are used to help meet conducted emissions requirements for the module. These components should be mounted as close as possible to the module, and all leads should be minimised to decrease radiated noise. C1 IML02 C2 L IML0205XXXX 1206, 4.7 µF/ 50 V IML0212XXXX 1206, 4.7 µF/ 50 V 1206, 4.7 µF/ 50 V 6.8 µH IML0215XXXX 1206, 4.7 µF/ 50 V 1206, 4.7 µF/ 50 V 6.8 µH IML0224XXXX 1206, 4.7 µF/ 50 V 1206, 4.7 µF/ 50 V 6.8 µH www.xppower.com 6.8 µH 21 July 16