SPECIFICATION FOR APPROVAL REF. : SB1105□□□□1□-□□□ ABC'S DWG NO. PROD. NAME SMD Power Inductor REV. 20130422-A PAGE 1 Ⅰ﹒Configuration and dimensions: C 0 68 B A H E I F G E I D ( PCB Pattern ) Unit:m/m A B C D E F G H I 10.0 max. 11.1±0.3 4.80±0.2 2.00±0.2 2.00±0.2 7.10±0.3 7.60 ref. 2.40 ref. 2.40 ref. Ⅱ﹒Description: a﹒Ferrite drum core construction. b﹒Enamelled copper wire:F class c﹒Product weight: 1.50g(ref.) d﹒Moisture sensitivity Level 1 e﹒Products comply with RoHS' requirements f﹒Halogen free available. Peak Temp:245℃ max. Max. Peak Temp - 5℃:30sec max. Max time above 217℃ :60sec~150sec max. Temperature Rising Area Preheat Area +4.0℃ / sec max. 150 ~ 200℃ / 60 ~ 120sec Reflow Area +3.0℃ / sec max. Peak Temperature: 245℃ 250 a﹒Storage temp.:-40℃ ----+125℃ b﹒Operating temp.:-40℃----+125℃ (Temp. rise included) c﹒Resistance to solder heat:245℃.10 secs. AR-001C 217℃ Temperature ( ℃ ) Ⅲ﹒General specification: Forced Cooling Area -(1.0 ~ 5.0)℃ / sec max. 60sec~150sec 200 60sec max. 150 60sec~120sec 100 50 0 50 100 150 Time ( seconds ) 200 250 SPECIFICATION FOR APPROVAL REF. : SB1105□□□□1□-□□□ ABC'S DWG NO. PROD. SMD Power Inductor NAME REV. 20130422-A PAGE 2 Ⅳ﹒Electrical characteristics: DWG No. Inductance ( uH ) RDC ( Ω ) max. Test Freq. 1V / (Hz) IDC ( A ) max. SB1105100M1□-□□□ 10.0±20% 0.045 1K 4.00 SB1105120M1□-□□□ 12.0±20% 0.069 1K 3.60 SB1105150M1□-□□□ 15.0±20% 0.075 1K 3.20 SB1105220M1□-□□□ 22.0±20% 0.080 1K 3.00 SB1105270M1□-□□□ 27.0±20% 0.095 1K 2.80 SB1105330K1□-□□□ 33.0±10% 0.100 1K 2.60 SB1105390K1□-□□□ 39.0±10% 0.140 1K 2.40 SB1105470K1□-□□□ 47.0±10% 0.170 1K 2.20 SB1105560K1□-□□□ 56.0±10% 0.200 1K 2.00 SB1105680K1□-□□□ 68.0±10% 0.210 1K 1.80 SB1105820K1□-□□□ 82.0±10% 0.300 1K 1.60 SB1105101K1□-□□□ 100.0±10% 0.320 1K 1.50 SB1105151K1□-□□□ 150.0±10% 0.500 1K 1.20 SB1105201K1□-□□□ 200.0±10% 0.650 1K 1.00 1). :Packaging information: Code 2). "":Reference code 3). Electrical specifications at 25℃ 4). IDC base on temp. rise 40℃ max. & △L/L0A=10% max. □□□ @ Inductance VS. DC Current Curve 103 7 5 3 Inductance(uH) 2 201 102 7 5 680 3 330 2 150 101 7 5 3 2 100 101 2 3 5 7 102 2 3 5 7 103 DC Current (mA) AR-001C 2 3 5 7 104 SPECIFICATION FOR APPROVAL REF. : SB1105□□□□1□-□□□ ABC'S DWG NO. PROD. SMD Power Inductor NAME REV. 20130422-A PAGE 3 Ⅴ﹒Packaging information: 1. Configuration : T Cover tape N B A 2.0±0.5 D ∮C ∮C G Embossed carrier ※Carrier tape width :D P:16 m/m 4 m/m End Start 0 68 0 68 0 68 0 68 Leader no component 200 m/m min. Trailer no component 400 m/m min. Components User direction of feed 2. Dimensions : (m/m) STYLE A B 13 - 24 330 21±0.8 C 13±0.5 D 24 G 26 +0 N 60 -0 T 30.4 3. Q'TY & G.W. Per package : Inner : Reel Code B AR-001C Q'TY (pcs) 800 Outer : Carton G.W. (gw) Style Q'TY (pcs) G.W. (kg) 1,800 13 - 24 3,200 9.5 Size (cm) 38 x 37 x 22 SPECIFICATION FOR APPROVAL REF. : ABC'S DWG NO. PROD. SMD Power Inductor NAME REV. SB1105□□□□1□-□□□ 20130422-A PAGE 4 Ⅵ﹒Reliability test: Item 1.High Temperature Exposure Reference documents MIL-STD-202 Method 108 Test Condition 1.Temperature: 125℃ 2.Time:96 hours. 1.Temperature: -40℃ ~ 125℃ 2.Temperature Cycling JESD22 Method JA-104 2.Number of cycle:96 cycle 3.Dwell time:30 minutes 3.Biased Humidity Test MIL-STD-202 Method 103 1.Temperature: 85±5 ℃ 2.Time:96 Hours 3.Humidity: 85±5% RH. 1.Temperature: 125℃ 2.Time:96 hours. 3.Apply rated current. 4.Operational Life MIL-PRF-27 5.Exeternal Visual MIL-STD-883 Method 2009 constructions, marking and Inspect product workmanship. Test Specification 1.No mechanical and electrical damage. 2.Inductance shall not change more than ±10%. 1.No mechanical and electrical damage. 2.Inductance shall not change more than ±10%. 1.No mechanical and electrical damage. 2.Inductance shall not change more than ±10%. 1.No mechanical and electrical damage. 2.Inductance shall not change more than ±10%. 1.No pollution on the surface of products. 2.Clear marking. 3.No crack. 6.Physical Dimensions JESD22 Method JB-100 Verify physical dimensions to the applicable product detail specification. Per product specification standard 7.Resistance to solvents MIL-STD-202 Method 215 Immerse into solvent for 3±0.5 minutes & brush 10 times for therr cycles. 1.No body change in apperarance. 2.No marking blurred. 3.Inductance shall not change more than ±10%. 8.Vibration Test MIL-STD-202 Method 204 1.Frequency and Amplitued : 10-2000-10 Hz, 1.5 mm. 2.Direction:X, Y, Z 3.Test duration:2 hours for each direction, 6 hours in total. 1.No mechanical and electrical damage. 2.Inductance shall not change more than ±10%. 9.Resistance To Soldering Heat Test MIL-STD-202 Method 210 1.Highest temperature: 245±5℃ 2.Time(temp.≧ 217℃):60~150 Second. 3.IR reflow times:3 times. 10.Rated current MIL-STD-202 Method 330 11.Temperature rise MIL-PRF-27 12.Over load MIL-PRF-27 1.No mechanical and electrical damage. 2.Inductance shall not change more than ±10%. 1.No mechanical and electrical damage. Apply rated current for 5 second. 2.Inductance shall not change more than ±10%. 1.No mechanical and electrical damage. Apply rated current for 10 minutes. 2.Inductance shall not change more than ±10%. 1.No mechanical and electrical damage. Apply twice as rated current for 5 minutes. (It's not application to some special design) 2.Inductance shall not change more than ±10%. 1.Baking in pre-testing: 155±5℃ / 16Hours±30 min. 2.Peak temperature:240±5℃ 3.Time(temp.≧217℃):60~150 second. 4.IR reflow times:1 times. The terminal shall be at least 95% covered with fresh solder. User Spec. 1.Operating temperature: -40℃~125℃ 2.Room temperature:25℃. 1.No mechanical and electrical damage. 2.Inductance shall not change more than ±10%. MIL-STD-202 Method 201 1.DV:500V 2.Time:1minutes 16.Drop JESD22-B111 Packaged & Drop down from 1m.In 1 angle 1ridges & 2 surfaces orientation. 17.Terminal Strength Test JIS-C-6429 1.Apply push force to samples mounted on PCB. 2.Force of 1.8 kg for 60±1 seconds. 13.Solderability Test 14.Electrical Characteriazation 15.Withstanding Voltage Test AR-001C J-STD-002 1.During the test no breakdown. 2.The characteristic is normal after test. 1.No case deformation or change in appearance. 2.Inductance shall not change more than ±10%. After test, inductors shall be no mechanical damage.