TRANSYS MMBD7000 FIECTRONIES i eee DUAL SURFACE MOUNT SWITCHING DIODE Features Fast Switching Speed Surface Mount Package Ideally Suited for SOT-23 Automatic Insertion Dim Min Max For General Purpose Switching Applications 1 bea _ A 0.37 | 0.51 High Conductance 1] t B 1.19 | 1.40 . 7 b Cc 2.10 2.50 . D 0.89 1.05 Mechanical Data copbew | ve E 0.45 0.61 Case: SOT-23, Molded Plastic E a G 1.78 | 2.05 Terminals: Solderable per MIL-STD-202, H 265 | 3.05 Method 208 et od : | J 0.013 0.15 Polarity: See Diagram t v K 089 |b 4.40 Weight: 0.008 grams (approx. WE} EH - g g approx.) re L | 045 | 061 M 0.076 | 0.178 All Dimensions in mm Maximum Ratings @ Ta= 25 C unless otherwise specified Characteristic Symbol MMBD7000 Unit Non-Repetitive Peak Reverse Voltage Vam 100 V Peak Repetitive Reverse Voltage Vram Working Peak Reverse Voltage Vawa 75 V DC Blocking Voltage VR RMS Reverse Voltage VriRMs) 53 Vv Forward Continuous Current (Note 1) le 300 mA Average Rectified Output Current (Note 1) lo 150 mA Non-Repetitive Peak Forward Surge Current @t=1.0 s les 2.0 A @t=1.0s FSM 1.0 Power Dissipation (Note 1) Pg 350 mw Thermal Resistance Junction to Ambient Air (Note 1) Rua 357 K/W Operating and Storage Temperature Range Tj, Tste -65 to +150 Cc Electrical Characteristics @ Ta= 25 C unless otherwise specified Characteristic Symbol Min Max Unit Test Condition Reverse Breakdown Voltage (Note 2) V(BR)R 75 Vv IR=100 A 0.55 0.70 IF = 1.0mA 0.67 0.82 lr = 10mA Forward Voltage VeM 0.75 1.10 V Ip = 50mA 1.25 IF = 150mMA 1.0 A Vr = 50V 3.0 A VR = 100V Peak Reverse Current IRM 100 A Vr = 50V, T)= 125 C 25 nA VrR=20V Junction Capacitance Cj 2.0 pF Vr = 0, f= 1.0MHz . le = IR = 10mA, Reverse Recovery Time ter 4.0 ns l= 0.1 x IR, Ru = 100 Notes: 1. Valid provided that terminals are kept at ambient temperature. 2. Test Period <3000 s.IE, INSTANTANEOUS FORWARD CURRENT (mA) 1000 100 10 1.0 0.1 0.01 0 { Ve, INSTANTANEOUS FORWARD VOLTAGE (V) Fig. 1 Forward Characteristics 2 Ip, LEAKAGE CURRENT (nA) 10,000 1000 100 10 100 200 T;, JUNCTION TEMPERATURE (C) Fig. 2 Leakage Current vs Junction Temperature