SHARP ELEK/ MELEC DIV 456 of 8160798 oooz691.9 ff Blue Sensitive Photodiode BS100C T-41-S) BS100C Photodiode for visible Light mM Features M Outline Dimensions (Unit ; mm) 1. Wide dynamic range 5.9ted, (Capable of Ey=10-*~10x range mea- surement) 2. Low dark current (a: MAX. 10-"A at Vp=1V) 3. Infrared light cut-off type @ Applications Hole(Cathode) 1. AE (automatic exposure) system and ES $f vicared light eutcotf Gh . 5 nirar 4 cut- iter (electronic shutter) system for cameras 2. Precise optical instruments 2 ao eo | fl ? @ @ 2-60.45 3.0 @ @ Anode Active area : 1.55mm? @ Cathode M@ Absolute Maximum Ratings (T= 25C) Parameter Unit Reverse Vv C Cc a} c *1 For 5 seconds @ Electoro-optical Characteristics (T, = 25C) Parameter Symbol Conditions MIN, TYP, | MAX. Unit *?Short circuit current Ie Ey=100 &x 0.14 0.16 0.21 nA Short circuit current = _ Of fs **temperature coefficient Ar Ev=100 x 0.02 0.07 ml'C Dark current Iq V,=1V _- 3X10-" 10-#! A Dark current temperature _ . . coefficient ar Vr=1V 3.5 5.0 times/10C Terminal capacitance Cc V,=0, f=1MH, _ = 500 pF Peak sensitivity wavelength A, 500 560 600 nm ss5pectral sensitivity infrared _ radiation ratio Alk 6 10 % *2~ Ev: Illuminance by CIE standard light source A (tungsten lamp) #3 Alg= I, (A 2 700nm) X 100% I,. (full wavelength) SHARP 117 eee eee e errr rere ee reer eres e acer eee eee eee ene eee eee SHARP ELEK/ MELEC DIV ise 0 ff a1so798 oooeLse of Blue Sensitive Photodiode BS100C Fig. 1 Short Circuit Current vs. Hluminance Fig. 2 Short Circuit Current vs. Ambient Temperature -s ae Ta =25C 108 10-6 5 102 3 4 101 - 3 om 100 _ s on 99 S Soa 98 wn t | Short circuit current J,< (A) o Lu = 97 Relative short circuit current (%) wn 12 96 10 510-7 5107"510 510! 510? 510 0 10 202530 40 50 60 Iluminance Ey (Ix) Ambient temperature T, (C) Fig. 3 Dark Current vs. Reverse Voltage Fig. 4 Spectral Sensitivity 10710 100 5 90 ss 80 a 2 > 70 ~~ 1907" = 60 w 2 8 @ 50 o & 40 5 2 3 Z 30 10? S20 Qa 5 ma 10 2 oo 500 600700800 900 1000 11001200 -13 2 8 ees 1025 10 28 108 Wavelength 4 (am) Reverse voltage V, (V) Fig. 5 Response Time vs. Load Resistance Test Circuit for Response Time 1 Infrared LED 8S100C Output 500 S . 200 Input 4 pS Rt J - 90% a Output 3 Pulse generator Pp R===5 7 - 10% g tr ty a 3 mm 1 2 5 10 20 50 100200 500 1000 Load resistance R, (ka) SHARP 118