FEATURES ● SIP package ● Efficiency up to 81% ● High power density ● Low temperature drift ● No external component required ● 3000VDC isolation ● Operating temperature range: -40°C ~ +105°C ● Industry standard pinout E_S-1WR2 & F_S-1WR2 Series 1W, FIXED INPUT, ISOLATED & UNREGULATED DUAL/SINGLE OUTPUT DC-DC CONVERTER Patent Protected RoHS PART NUMBER SYSTEM APPLICATIONS F0505S-1WR2 The E_S-1WR2 & F_S-1WR2 Series are designed for application where isolated output is required from a distributed power system. These products apply to where: Rated Power Package Output Voltage Input Voltage Product Series 1) Input voltage variation rang: ±10%Vin; 2) 3000VDC input and output isolation; 3) Regulated and low ripple noise is not required. Such as: digital circuits, low frequency analog circuits, and relay drive circuits. SELECTION GUIDE Input Voltage(VDC) Model Nominal (Range) Output Voltage (VDC) Output Current (mA) Input Current (mA)(Typ.) @Max. @No Load Load Reflected Ripple Current (mA,Typ.) Max. Capacitive ① Efficiency (%, Typ.) @Max. Load Max. Min. 3.3 303 30 415 5 200 20 388 E0503S-1WR2 ±3.3 ±152 ±15 274 73 E0505S-1WR2 ±5 ±100 ±10 250 80 F0303S-1WR2 F0305S-1WR2 3.3 (2.97-3.63) E0512S-1WR2 ±12 ±42 ±5 250 E0515S-1WR2 ±15 ±33 ±4 247 ±24 ±21 ±2 247 E0524S-1WR2 F0503S-1WR2 5 (4.5-5.5) 25 Load (µF) 220 100 73 78 80 81 81 20 3.3 303 30 267 F0505S-1WR2 5 200 20 250 F0512S-1WR2 12 83 9 250 F0515S-1WR2 15 67 7 247 81 81 F0524S-1WR2 24 42 5 247 E1203S-1WR2 ±3.3 ±152 ±15 114 E1205S-1WR2 ±5 ±100 ±10 104 E1212S-1WR2 ±12 ±42 ±5 103 ±15 ±33 ±4 103 3.3 303 30 111 F1205S-1WR2 5 200 20 104 F1212S-1WR2 12 83 9 104 F1215S-1WR2 15 67 7 103 E1505S-1WR2 ±5 ±100 ±10 84 E1515S-1WR2 ±15 ±33 ±4 83 E1215S-1WR2 F1203S-1WR2 F1505S-1WR2 12 (10.8-13.2) 15 (13.5-16.5) F1515S-1WR2 E2403S-1WR2 E2405S-1WR2 24 (21.6-26.4) 5 200 20 84 15 67 7 83 ±3.3 ±152 ±15 58 ±5 ±100 ±10 53 75 80 220 80 73 15 100 80 81 81 15 75 220 80 80 81 100 10 220 7 100 80 81 80 81 73 80 The copyright and authority for the interpretation of the products are reserved by MORNSUN E_S-1WR2 & F_S-1WR2 2013.06.18-A/3 Page 1 of 5 E2412S-1WR2 ±12 ±42 ±5 51 E2415S-1WR2 ±15 ±33 ±4 53 E2424S-1WR2 ±24 ±21 ±2 53 F2403S-1WR2 3.3 303 30 56 F2405S-1WR2 24 (21.6-26.4) 81 79 100 80 75 7 15 5 200 20 53 79 F2412S-1WR2 12 83 9 51 F2415S-1WR2 15 67 7 51 81 F2424S-1WR2 24 42 4 51 81 220 81 Note: ① For dual output converter, the given value is the same for each output. INPUT SPECIFICATIONS Item Input Surge Voltage (1sec. Max.) Test Conditions Min. Typ. Max. 3.3VDC Input -0.7 -- 5 5VDC Input -0.7 -- 9 12VDC Input -0.7 -- 18 15VDC Input -0.7 -- 21 24VDC Input -0.7 -- Input Filter Unit VDC 30 Capacitance OUTPUT SPECIFICATIONS Item Test Conditions Min. Typ. Output Voltage Accuracy Max. Unit See tolerance envelope curve For Vin change of ±1% Line Regulation Load Regulation 10% to 100% load Temperature coefficient 100% load Ripple & Noise* 20MHz Bandwidth 3.3VDC output -- -- ±1.5 Others -- -- ±1.2 3.3VDC output -- 18 -- 5VDC output -- 12 -- 12VDC output -- 8 -- 15VDC output -- 7 -- 24VDC output -- 6 -- -- -- ±0.03 Output Voltage ≤12VDC -- 30 -- Output Voltage :15VDC,24VDC -- 60 -- Short Circuit Protection* % %/°C mVp-p Continuous, automatic recovery Note:* Ripple and noise tested with “parallel cable” method. See detailed operation instructions at DC-DC Application Notes. COMMON SPECIFICATIONS Item Test Conditions Min. Typ. Max. Unit Isolation Voltage Input-Output, Tested for 1 minute and leakage current less than 1 mA 3000 -- -- VDC Isolation Resistance Input-Output, Test at 500VDC 1000 -- -- MΩ Isolation Capacitance Input-Output,100KHz/0.1V -- 20 -- pF Switching Frequency Full load, nominal input -- 100 300 KHz MTBF MIL-HDBK-217F@25℃ 3500 -- -- K hours Case Material Epoxy Resin (UL94-V0) Weight -- 2.4 -- g ENVIRONMENTAL SPECIFICATIONS Item Test Conditions Storage Humidity Non condensing Operating Temperature Power derating (≥ 85℃, see Figure 2) Storage Temperature Min. Typ. Unit % -- -- 95 -40 -- 105 -55 -- 125 25 -- -- 300 Temp. rise Ta=25°C,100% Load -- Lead Temperature 1.5mm from case for 10 seconds -- Cooling Max. °C Free air convection EMC SPECIFICATIONS EMI CE CISPR22/EN55022 CLASS B(Recommended Circuit Refer to Figure1) RE CISPR22/EN55022 CLASS B(Recommended Circuit Refer to Figure1) The copyright and authority for the interpretation of the products are reserved by MORNSUN E_S-1WR2 & F_S-1WR2 2013.06.18-A/3 Page 2 of 5 EMS ESD E_S-1WR2 IEC/EN61000-4-2 Contact ±6KV perf. Criteria B F_S-1WR2 IEC/EN61000-4-2 Contact ±8KV perf. Criteria B EMC RECOMMENDED CIRCUIT EMI Typical Recommended Circuit Refer to Figure1(CLASS B): Recommended typical circuit parameters: LDM Vi n Vin +Vo Vin(V) EUT C0 GND G ND L O AD 3.3/5/12/15/24 C0 LDM EMI 4.7µF /50V 6.8µH -Vo (0 V ) (Figure 1) EMC TEST WAVEFORM (CLASS B APPLY CIRCUIT) E2415S-1WR2 CE(Class B, Positive line) E2415S-1WR2 CE(Class B, Negative line) F2405S-1WR2CE(Class B, Positive line) F2405S-1WR2 CE(Class B, Negative line) PRODUCT TYPICAL CURVE Tolerance Envelope Curve Output Voltage Accuracy (%) +5% Rated Output Voltage Ty p ic al Loa d L in e +2.5% -2.5% -7.5% 50 70 100 Output Current Percent(%) Output Power Percent(%) Tem peratu re Dera ting Gra ph +10% 120 100 80 60 Safe Operating Area 40 20 0 -40 0 40 85 105 120 Ambient Temp.(℃ ) (Nominal Input Voltage) (Figure 2) The copyright and authority for the interpretation of the products are reserved by MORNSUN E_S-1WR2 & F_S-1WR2 2013.06.18-A/3 Page 3 of 5 90 85 80 Efficiency(%) Efficiency(%) 100 95 Efficiency VS Output Load curve (Vin=Vin-nominal) E0505S-1WR2 Efficiency VS Input Voltage curve E0505S-1WR2 (Full Load) 75 70 65 60 55 50 4.6 4.7 4.8 4.9 5 100 90 80 70 60 50 40 30 20 10 0 5.1 5.2 5.3 5.4 5.5 10 20 Efficiency(%) 26.4 26 25.5 25 24.5 24 23.5 23 22.5 100 95 90 85 80 75 70 65 60 55 50 30 40 50 60 70 80 Total Output Current (%) 90 100 Efficiency VS Output Load curve (Vin=Vin-nominal) E2415S-1WR2 Efficiency VS Input Voltage curve E2415S-1WR2 (Full Load) 22 Efficiency(%) Input Voltage(V) 100 90 80 70 60 50 40 30 20 10 0 10 Input Voltage(V) 20 30 40 50 60 70 80 Total Output Current (%) 90 100 OUTLINE DIMENSIONS,RECOMMENDED FOOTPRINT & PACKAGING The copyright and authority for the interpretation of the products are reserved by MORNSUN E_S-1WR2 & F_S-1WR2 2013.06.18-A/3 Page 4 of 5 TEST CONFIGURATIONS Input Reflected-Ripple Current Test Setup Input reflected-ripple current is measured with an inductor Lin and Capacitor Cin to simulate source impedance. Oscilloscope Lin Cin Lin(4.7µH) Current Probe DC DC Load Cin(220µF, ESR < 1.0Ω at 100 KHz) DESIGN CONSIDERATIONS 1) Requirement for output load To ensure this module can operate efficiently and reliably, the minimum output load could not be less than 10% of the full load. If the actual output power is very small, please connect a resistor to the output in parallel to increase the load. 2) Overload Protection Under normal operating conditions, the output circuit of these products have not overload protection. The simplest method is to add a breaker circuit in the circuit. 3) Recommended circuit If you want to further decrease the input/output ripple, an capacitor filtering network may be connected to the input and output ends of the DC/DC converter, refer to Figure 3. It should also be noted that the capacitance of the capacitor must be proper. If the capacitance is too large, a startup problem might arise.For ensuring every channel of output can provide a safe and reliable operation , the recommended capacitance of the capacitor refer to Table 1. Dual O ut put +Vo Vin Cout DC DC Cin 0V Cout GND -Vo Single Output +Vo Vin Cout DC DC Cin GND 0V (Figure 3) EXTERNAL CAPACITOR TABLE (Table 1) Vin Cin Single Vo Cout Dual Vo (VDC) (µF) (VDC) (µF) (VDC) 3.3/5 4.7 3.3/5 10 ±3.3/±5 Cout (µF) 4.7 12 2.2 12 2.2 ±12 1 15 2.2 15/24 1 ±15/±24 0.47 24 1 ----It’s not recommended to connect any external capacitor in the application field with less than 0.5 watt output. 4) The input and the output of the product are recommended to be connected to ceramic capacitor or electrolytic capacitor. Using tantalum capacitor may cause risk of failure 5) It is not recommended to increase the output power capability by connecting two or more converters in parallel. The product is not hot-swappable Note: 1. Operation under minimum load will not damage the converter; However, they may not meet all specifications. 2. Max. Capacitive Load is tested at nominal input voltage and full load. 3. Unless otherwise noted, All specifications are measured at Ta=25°C, humidity<75%, nominal input voltage and rated output load. 4. In this datasheet, all test methods are based on our corporate standards. 5. All characteristics are for listed models, and non-standard models may perform differently.Please contact our technical support for more detail. 6. Please contact our technical support for any specific requirement. 7. Specifications of this product are subject to changes without prior notice. MORNSUN Science & Technology Co.,Ltd. Address: No. 5, Kehui St. 1, Kehui development center, Science Ave., Guangzhou Science City, Luogang district, Guangzhou,P.R.China. Tel: 86-20-38601850 Fax:86-20-38601272 E-mail: [email protected] Http://www.mornsun-power.com The copyright and authority for the interpretation of the products are reserved by MORNSUN E_S-1WR2 & F_S-1WR2 2013.06.18-A/3 Page 5 of 5