Formosa MS Axial Leaded High Effciency Rectifiers HER501G THRU HER508G List List................................................................................................. 1 Package outline............................................................................... 2 Features.......................................................................................... 2 Mechanical data............................................................................... 2 Maximum ratings .............................................................................. 2 Rating and characteristic curves........................................................ 3 Pinning information........................................................................... 4 Marking........................................................................................... 4 Taping & bulk specifications for AXIAL devices.................................... 4 Suggested thermal profiles for soldering processes............................. 5 High reliability test capabilities........................................................... 6 http://www.formosams.com/ TEL:886-2-22696661 FAX:886-2-22696141 Page 1 Document ID Issued Date Revised Date DS-222310 2008/02/10 2010/03/10 Revision C Page. 6 Formosa MS Axial Leaded High Effciency Rectifiers HER501G THRU HER508G 5.0A Axial Leaded High Efficiency Rectifiers-50-1000V Package outline Features DO-201AD • Axial lead type devices for through hole design. • High current capability. • Ultrafast recovery time for high efficiency. • High surge capability. • Glass passivated chip junction. • Lead-free parts meet RoHS requirments. • Suffix "-H" indicates Halogen free parts, ex. HER501G-H. 1.0(25.4) MIN. .220(5.6) .197(5.0) DIA. .375(9.5) .285(7.2) Mechanical data • Epoxy : UL94-V0 rated flame retardant • Case : Molded plastic, DO-201AD • Lead : Axial leads, solderable per MIL-STD-202, 1.0(25.4) MIN. .052(1.3) .048(1.2) DIA. Method 208 guranteed • Polarity: Color band denotes cathode end • Mounting Position : Any • Weight : Approximated 1.10 gram Dimensions in inches and (millimeters) Maximum ratings and Electrical Characteristics (AT PARAMETER T A=25 oC unless otherwise noted) CONDITIONS O Forward rectified current Ambient temperature = 50 C Forward surge current 8.3ms single half sine-wave (JEDEC methode) V R = V RRM T J = 25 OC Reverse current f=1MHz and applied 4V DC reverse voltage Storage temperature IO 5.0 A I FSM 200 A V RMS*2 (V) *3 VR (V) HER501G 50 35 50 HER502G 100 70 100 HER503G 200 140 200 HER504 G 300 210 300 HER505G 400 280 400 HER506G 600 420 600 HER507G 800 560 800 HER508G 1000 700 1000 *4 VF (V) TYP. 5.0 Operating temperature T J, ( OC) *5 t rr (ns) µA 100 CJ T STG *1 V RRM (V) SYMBOLS UNIT MIN. IR V R = V RRM T J = 125 OC Diode junction capacitance MAX. Symbol pF 75 +175 -65 O C *1 Repetitive peak reverse voltage *2 RMS voltage 1.00 50 *3 Continuous reverse voltage -55 to +150 1.30 *4 Maximum forward voltage@I F=5.0A *5 Maximum Reverse recovery time, note 1 1.85 75 Note 1. Reverse recovery time test condition, I F =0.5A, I R =1.0A, I RR =0.25A http://www.formosams.com/ TEL:886-2-22696661 FAX:886-2-22696141 Page 2 Document ID Issued Date Revised Date DS-222310 2008/02/10 2010/03/10 Revision C Page. 6 6.0 Peak Forward Surge Current , I FSM (A) Average Forward Current, I F(AV) (A) Rating and characteristic curves (HER501G THRU HER508G) Fig.1 - Forward Current Derating Curve 5.0 4.0 3.0 2.0 1.0 single phase half wave 60Hz resistive or inductive load 0 25 50 75 100 125 150 Ambient Temperature, T A ( OC) 200 Fig. 2 - Maximum Non-Repetitive Peak Forward Surge Current 8.3ms single half sine-wave (JEDEC Method) 150 100 50 0 1 Instantaneous Reverse Current, (μA) 505 G 03G ER ER5 HE 6R05 00/86 0G0~ /1H0E 0R05 V0 8G ~H G~H 501 04G R5 HER HE Instantaneous Forward Current, I F (A) TJ = 25 .1 Pulse Width = 300us 1% Duty Cycle .01 0 .2 .4 .6 .8 1.0 10 20 50 100 Fig. 4 - Typical Reverse Characteristics 100 1.0 5 Number of Cycles at 60 Hz Fig. 3 - Typical Instantaneour Forward Characteristics 10 2 1000 100 TJ = 125 10 TJ = 100 1.0 TJ = 25 0.1 .01 1.2 1.4 1.6 1.8 0 20 40 60 80 100 120 140 Percent of Rated Peak Reverse Voltage ( %) Instantaneous Forward Voltage, V F (Volts) Fig. 6 - Test Circuit Diagram and Reverse Recovery Time Characteristic Fig. 5 - Typical Junction Capacitance Junction Capacitance, C J (pF) 175 50W NONINDUCTIVE 150 10W NONINDUCTIVE trr 125 | | | | | | | | +0.5A 100 ( ) (+) 25Vdc (approx.) 75 D.U.T. PULSE GENERATOR (NOTE 2) ( ) 50 1W NONINDUCTIVE 25 (+) 0 -0.25A OSCILLISCOPE (NOTE 1) -1.0A 0 .01 .05 .1 .5 1 5 Reverse Voltage, V R (Volts) http://www.formosams.com/ TEL:886-2-22696661 FAX:886-2-22696141 10 50 100 NOTES: 1. Rise Time= 7ns max., Input Impedance= 1 megohm.22pF. 1cm SET TIME BASE FOR 2. Rise Time= 10ns max., Source Impedance= 50 ohms. 50 / 10ns / cm Page 3 Document ID Issued Date Revised Date DS-222310 2008/02/10 2010/03/10 Revision C Page. 6 Formosa MS Axial Leaded High Effciency Rectifiers HER501G THRU HER508G Pinning information Pin Pin1 Pin2 Simplified outline cathode anode Symbol 1 2 1 2 Marking Type number HER501G HER502G HER503G HER504G HER505G HER506G HER507G HER508G Marking code HER501G HER502G HER503G HER504G HER505G HER506G HER507G HER508G Taping & bulk specifications for AXIAL devices 52.4mm 17mm DIA. 55mm Max. A 17mm DIA. 72mm DIA. 71mm Max. 355mm OFF Center both sids 1.0mm Max OFF Alignment 1.2mm 6.3mm REEL PACKING DEVICE Q'TY 1 COMPONENT CARTON Q'TY 2 APPROX. CASE (PCS / REEL) SPACING SIZE (PCS / CARTON) CROSS "A" in FIG. A (m/m) 10 mm 380 * 340 * 370 TYPE DO-201AD 1,200 WEIGHT(kg) 4,800 9.1 AMMO PACKING DEVICE Q'TY 1 INNER CARTON Q'TY 2 APPROX. CASE (PCS / BOX) BOX SIZE SIZE (PCS / CARTON) CROSS (m/m) (m/m) TYPE DO-201AD 1,200 http://www.formosams.com/ TEL:886-2-22696661 FAX:886-2-22696141 260 * 83 * 160 440 * 270 * 340 Page 4 WEIGHT(kg) 12,000 17.0 Document ID Issued Date Revised Date DS-222310 2008/02/10 2010/03/10 Revision C Page. 6 Formosa MS Axial Leaded High Effciency Rectifiers HER501G THRU HER508G BULK PACKING DEVICE Q'TY 1 INNER CARTON Q'TY 2 APPROX. CASE (PCS / BOX) BOX SIZE SIZE (PCS / CARTON) CROSS TYPE (m/m) DO-201AD 500 WEIGHT(kg) (m/m) 305 * 73 * 40 347 * 320 * 271 12,000 16.4 Suggested thermal profiles for soldering processes 1.Lead free temperature profile wave-soldering 280 Peak soldering temperature not to exceed 260ºC 260 240 220 Temperature(°C) 200 180 160 140 120 Peak Max well time 5 Max 100 80 Cool Down Max gradient-4ºC/s Suggested gradient - 2ºC/s or less 60 40 20 Preheat Max gradient 2ºC/s 0 0 20 40 60 80 100 120 140 160 180 200 220 240 Time(Sec) http://www.formosams.com/ TEL:886-2-22696661 FAX:886-2-22696141 Page 5 Document ID Issued Date Revised Date DS-222310 2008/02/10 2010/03/10 Revision C Page. 6 Formosa MS Axial Leaded High Effciency Rectifiers HER501G THRU HER508G High reliability test capabilities Item Test Conditions Reference o 1. Solder Resistance at 260±5 C for 10±2sec. immerse body into solder 1/16"±1/32" MIL-STD-750D METHOD-2031 2. Solderability at 245±5 oC for 5 sec. MIL-STD-202F METHOD-208 3. Pull Test 2.0kg in axial lead direction for 10 sec. I F=I O 4. Bend Lead 5. High Temperature Reverse Bias 6. Forward Operation Life 7. Intermittent Operation Life 8. Pressure Cooker MIL-STD-202F METHOD-211A 2.0kg weight applied to each lead bending arc 90 o±5 o for 3 times MIL-STD-202F METHOD-211A V R=80% rate at T J=150 oC for 168 hrs. MIL-STD-750D METHOD-1038 Rated average rectifier current at T A=25 oC for 500hrs. MIL-STD-750D METHOD-1027 T A = 25 OC, I F = I O On state: power on for 5 min. off state: power off for 5 min, on and off for 500 cycles. MIL-STD-750D METHOD-1036 JESD22-A102 15P SIG at T A=121 oC for 4 hrs. MIL-STD-750D METHOD-1051 9. Temperature Cycling -55 oC to +125 oC dwelled for 30 min. and transferred for 5min. total 10 cycles. 10. Forward Surge 8.3ms single half sine-wave one surge. MIL-STD-750D METHOD-4066-2 11. Humidity at T A=85 oC, RH=85% for 1000hrs. MIL-STD-750D METHOD-1021 12. High Temperature Storage Life at 175 oC for 1000 hrs. MIL-STD-750D METHOD-1031 http://www.formosams.com/ TEL:886-2-22696661 FAX:886-2-22696141 Page 6 Document ID Issued Date Revised Date DS-222310 2008/02/10 2010/03/10 Revision C Page. 6