MCC !"# $ % !"# 1N4154 Features • • • Low Current Leakage Compression Bond Construction Low Cost 500mW 35 Volt Silicon Epitaxial Diode Maximum Ratings • • • DO-35 Operating Temperature: -65°C to +175°C Storage Temperature: -65°C to +175°C Maximum Thermal Resistance; 300°C/W Junction To Ambient D Electrical Characteristics @ 25°C Unless Otherwise Specified Reverse Voltage Peak Reverse Voltage Average Rectified Current Power Dissipation Junction Temperature Peak Forward Surge Current Maximum Instantaneous Forward Voltage Maximum DC Reverse Current At Rated DC Blocking Voltage Typical Junction Capacitance Reverse Recovery Time VR VRM 25V 35V IO 150mA PTOT TJ 500mW 200°C IFSM 500mA VF 1.0V IFM = 30mA; TJ = 25°C* IR 100nA VR=25Volts TJ = 25°C A Resistive Load f > 50Hz Cathode Mark B D 8.3ms, half sine C CJ 4pF Trr 4nS Measured at 1.0MHz, VR=4.0V IF=10mA VR = 6V RL=100Ω DIMENSIONS DIM A B C D INCHES MIN ------1.000 *Pulse test: Pulse width 300 µsec, Duty cycle 2% www.mccsemi.com MAX .166 .079 .020 --- MM MIN ------25.40 MAX 4.2 2.00 .52 --- NOTE MCC 1N4154 Figure 1 Typical Forward Characteristics 200 Figure 2 Forward Derating Curve 100 600 60 40 500 20 400 MilliAmps 10 6 300 MilliWatts 4 200 2 25°C 100 1 .6 0 .4 Single Phase, Half Wave 60Hz Resistive or Inductive Load 0 50 75 100 125 150 175 °C .2 .1 .5 .7 .9 1.1 Admissable Power Dissipation - MilliWatts versus Ambient Temperature - °C 1.5 1.3 Volts Instantaneous Forward Current - Amperes versus Instantaneous Forward Voltage - Volts Figure 3 Junction Capacitance 10 6 4 2 pF TJ=25°C 1 .6 .4 .2 .1 .1 .2 .4 1 Volts 2 4 10 20 40 100 200 Junction Capacitance - pF versus Reverse Voltage - Volts www.mccsemi.com 400 1000 MCC 1N4154 Figure 4 Typical Reverse Characteristics Figure 5 Peak Forward Surge Current 1000 600 600 400 500 200 400 100 300 60 MilliAmps 40 200 100 20 TA=25°C 10 0 1 2 4 6 8 10 20 40 60 80 100 NanoAmps 6 Cycles 4 Peak Forward Surge Current - Amperes versus Number Of Cycles At 60Hz - Cycles 2 1 .6 .4 .2 .1 20 40 60 80 100 120 140 TJ Instantaneous Reverse Leakage Current - NanoAmperes versus Junction Temperature - °C www.mccsemi.com