JGD MM4148/LS4148 Gb SURFACE MOUNT SWITCHING DIODES Absolute Maximum Ratings Symbol Value Unit Reverse Voltage Vp 75 Peak Reverse Voltage Vem 100 Rectified Current( Average) Half Wave Rectification with Resistive Leadat Tamb = 25C and f=50Hz 150 Surge Forward Current at t < Is and Tj = 25C lesa 500 mA Power Dissipation at Tamb = 25C Prot mw Junction Temperature con 500 200 3 Storage Temperature Range -65 to +200 TC Characteristics at Tj = 25C MINI-MELF Outline Drawing in mm Cathide Mark OL 0420.1 Ilr _ 3.540.2 61.5401 _t | k 0.4 40.1 | Symbol Min Typ Max Unit Forward Voltage at I; = 10mA Ve Leakage Current at Va = 20V at Vea = 75V at Vp = 20V, Tj = 150C SES Reverse Breakdown Voltage tested with 100 pS Pulses Capacitance at V; = V_ = 0 pF Voltage Rise when Switching On Tested with 50mA Forward Pulses Tp=0.1uS, Rise Time < 30ns, fp =5 ~ 100kHz 2.5 Reverse Recovery Time From IF = lz = 10mA to len = -1mA, Va = 6V R, = 1000) ns Therma Resistance Function to Ambient Air 0.35 K/mw Rectification Efficiency at f = 100MHz, Va = 2V 0.45 JINAN GUDE ELECTRONIC DE" VICE CO., LTD. RATINGS AND CHARACTERISTIC CURVES(MM4148/LS4148 ) SURFACE MOUNT SWITCHING DIODES FIG. 1 - ADMISSIBLE REPETITIVE PEAK FORWARD CURRENT VERSUS PLUSE DURATION A 100 woh tram 10 NwAD Norn 0.1 FIG.2 FORWARD CHARACTERISTICS > VE) FIG.4 - ADMISSIBLE POWER DISSIPATION VERSUS AMBIENT TEMPERATURS 1 0 100 200 > Tamb(C) ! V=tp/T T=t/p FIG.3 - DYNAMIC FORWARD RESISTANCE VERSUS FORWARD CURRENT 2, 10 1 10710' 1 40.10 Ir (mA) DFIG.5 RELATIVE CAPACITANCE VERSUS REVERSE VOLTAGE 11 Ctot(Va} y=25 0 CtOKOV) f=1MHZ 1 Va(V) JINAN GUDE ELECTRONIC DEVICE CO., LTD. JGD SURFACE MOUNT SWITCHING DIODES Case: SOT - 23 Molded Plastic Operating Temperature; 65C to 150C Min. Repetitive |Max. Fwrd.|Max.Cont.| Max. forward] Maximum) Reverse | pin _ out Rev. Voltage Current | Reverse Voltage (Capacitance Recovery Diagram Part No. pees Marking Current Time eference ir(nA) VE) Vrrm(V) iF(mA) @Vr(v) | @IF(mA) C(pF) | Trr(nS) BAS21 - JS - 1.00@100 - 1 MMBD1401 - 29 - 1.00@200 - 1 MMBD1402 - 31 200 - 1.00@200 - 50.00 2 MMBD1403 - 32 200 - 100@ 200 1.00@200 - 3 MABD1404 - 33 - 1.00@200 - 4 MMBD1405 = 34 - 1.00@200 - 5 MMBD1501A - 11A 200 - 1.00@200 - - 1 MMBD1503A - 138A 200 - - 1.00@200 - - 3 BAS20 = A81 150 = 100@ 150 1.00@100 = 50.00 1 BAS19 - A8 - 1.00@100 - 1 BAS29 - L20 120 - 100@ 120 0.84@50 - 50.00 1 BAS31 - L21 - 0.84@50 - 3 BAS35 - L22 = 0.84@50 - 5 TMPD7000 MMBD7000 200 (600@1000.75@100; 1.5 3 TMPD914 MMBD914 5D - 5000@75 1.00@10 4.0 1 MMBD914 SMD4148 5D - 5000@79 1.00@10 4.0 1 MMBD914B SMD4448 - 5000@75 1.00@100; 4.0 MMBD1201 - 24 - 25@ 100} 1.00@200 - 1 MMBD1202 - 25 100 - 25@ 100] 1.00@200 - 4.00 2 MMBD1203 - 26 - 25@ 100} 1.00@200 - 3 MMBD1204 - 27 - 25@ 100) 1.00@200 - 4 MMBD1205 - 28 - 25@ 100) 1.00@200 - 5 MMBD4148 SMD914 5H - 5000@75 1.00@10 4.0 1 TMPD4148 MMBD4148 5D - 5000@75 1.00@10 4.0 1 MMBD4448 SMD914B - 5000@751.00@100; 4.0 TMPD2836 MMBD2836 100 | 100@50; 1.00@50 4.0 15.00 5 BAS16 = AG 75 250 |1000@75_1.00@50 2.0 6.00 TMPD6050 MMBD6050 200 |100@50) 1.1@100 2.5 4.00 1 BAV70 ~ AA 5000 @ 70 1.5 4 BAV99 - A7 70 250 |2500@70 1.00@50 1.5 6.00 3 BAW56 Al 2500 @ 70 2.0 5 BAV74 - JA 50 - 400@50 1.00@100 - 0.70 4 TMPD2835 MMBD2835 35 100 1.00@50 4.0 15.00 5 MMBD1701 ~ 85 - - 1 MMBD1702 - 86 - - 2 MMBD1703 - 87 - 1.10@50 - 0.70 3 MMBD1704 - 88 - - 4 MMBD1705 - 89 30 ___| 0@30 - 5 BA779 - - 1 BA779S - 50 1.00@20 0.5 - 1 BA779 - 2 - = 3 BB804 - 47.5 - 4 BB814 - 20 50 20@ 16 - 46.5 - 4 BB824 - 45.0 4 Fl (1) CH (2) O i 1 ben} Le Let U U ov U oo (3) (4) (5) JINAN GUDE ELECTRONIC DEVICE CO., LTD.