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r Tf-Rise and Fall Time- s Collector Power Dissipation Pc(mW) 100 40 80 120 120 100 80 60 40 20 0 -40 -20 0 20 40 60 80 100 Ta-Ambient Temperature- o C Ta-Ambient Temperature- o C FIG.1 COLLECTOR DARK CURRENT VS AMBIENT TEMPERATURE FIG.2 COLLECTOR POWER DISSIPATION VS AMBIENT TEMPERATURE 200 180 160 140 120 100 80 60 40 20 0 Vcc=5V VRL=1V F =100Hz PW =1ms tf tr Vce= 5V 4.0 Relative Collector Current Iceo-Collector Dark Current- A *.0 ': ')2(( ,3 (&- 3.0 2.0 1.0 0 0 2 4 6 8 10 0 1 RL-Load Resistance-K 3 2 FIG.4 RELATIVE COLLECTOR CURRENT VS IRRADIANCE 0 o 10 o 20 o 30 1.0 40 0.9 50 0.8 60 0.7 70 80 90 0.5 0.3 5 4 Ee-Irradiance-mW/cm FIG.3 RISE AND FALL TIME VS LOAD RESISTANCE Relative Sensitivity 2 0.1 o o o o o o o 0.2 0.4 0.6 FIG.5 SENSITIVITY DIAGRAM )%# ./6 < $4$=8 )5# 4 4