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!"#$%! &$'% &( ) * +,+ & -% .* ,/ ! '0#$ ' & ( 1 +/ . 2(- 3, ,++/ . 2(- 4 +/ . 2(-4 + , +/ . 2(-4 '$ 5.++ ,"#$$676 5++ ,"#78-8 4'++ ,"#'7$- $ 9! :++ ,"#(7;7 " :++ ,"#<77$(;8; 1 :++ ,"#77 ;$6( 4 :++ ,"#77;6=$ ( 1++ ,"#7;2(( <"# . 2(- %4%4 '$ < $ 7 http://www.tenand.com ??e?????e?t1??? shenzhen tenand technology co.,ltd http://www.tenand.com ??e?????e?t1??? shenzhen tenand technology co.,ltd $#> , , # (#( ,*/* /# #9?, / ) / ,@*%> ,%0# <"# . 2(- %4%4 '$ < (7 $#> , , # (#( ,*/* /# #9?, / ) / ,@*%> ,%0# <"# . 2(- %4%4 '$ < 7 ! "# " !# " !" <"# . 2(- %4%4 '$ < ;7 &(- ! $% & ' ()*+ * * &,- ! $./*+ * * $.0*+ * * /10*+ * * $$% & ' /.$*+ * * 2-- $ 3 &*+ * 4 * 2+% ."56 $ 7+% .56 " $ 3" 7+% " $ $#'9$ %##&;a8b ! ) , * ,# $4) * , ,, +?, ,) * , ,?, # ( *c ) ,# * ++ , ) * # (#9$4 , <"# . 2(- %4%4 '$ < -7 &(- " " #" ! $ *+ * 8 " *& 9 ' ()$% & 88 ' * 9* &,- $ $ 8 " *949 :;< $$% & 88 '* 9"*4& 9 $./ 0*+ 0* 8 8 * & 9 ' & 9 2-- /.$ 0*+ 0* 88* & 9 ' & 9 $$% & ' 3 $%( $( 4 4 4 = & 9 ' * 9"* $./ 7%*+ * 88 "* & 9"' & 9 ' &( ( 8 ? $* 5=( ; +$ $ 8 *949 >;< $%.2 ?%@ !8;< * 9"*4& 9"' ( 9 ? 4.0 (( 8 (',7 /( $;'('$/(&7&$7 ( 8 " * 9"*4& 9"' ( 9 ? ! ! $b = <"# . 2(- %4%4 '$ < 87 o ambient temperature ta ( c) o ambient temperature ta ( c) collector-emitter voltage fig.5 collector current vs. fig.3 forward current vs. forward 3ma collector-emitter voltage v (v) forward current (ma) 0.5 1 100 10 1.9 1.3 forward voltage (v) 0.9 0.7 1.1 1.5 1.7 60 c 100 c 80 c o o o o 40 c o 20 c 0 0123 collector current ic (ma) 20 40 100 80 60 5ma voltage vs. ambient temperature fig.6 relative current transfer ratio fig.4 current transfer ratio vs. forward v ce =2v 7 45 6 ce 8 pc(max.) i f =0.5ma 1ma 0.7ma 1.5ma 2ma 0 20 relative current transfer ratio (%) 0.2 0.4 1.0 0.8 0.6 current transfer ratio ctr (%) 0.1 2000 1000 0 5000 4000 3000 current v = 2v i = 1ma ambient temperature ta ( c) 60 40 80 o ce f 100 forward current (ma) 110 50 fig.1 forward current vs. ambient temperature forward current i (ma) -25 0 10 20 f 40 30 50 025 60 ambient temperature fig.2 collector power dissipation vs. 100 75 125 collector power dissipation pc (mw) 100 50 -25 0 150 200 250 300 350 100 50 0 25 75 125 <"# . 2(- %4%4 '$ < 27 fig.7 collector-emitter saturation voltage fig.8 collector dark current vs. temperature fig.9 response time vs. load ce vs. ambient temperature f ic= 100ma i = 20ma 2 collector-emitter saturation voltage v (sat) (v) ambient temperature ta ( c) ambient temperature ta ( c) 20 100 1.00 1.20 100 80 60 40 20 1 0.1 1000 o o resistance 10 1000 80 60 40 v = 200v ce 1.04 1.08 1.12 1.16 1.14 1.10 1.06 1.02 1.18 100 0.02 100 10 5 50 500 v ce =2v i c = 20ma response time ( s) load resistance r l (k ) input output input output vc c td tr tf ts 90% 10% output vc c test circuit for response time test circuit for frequency response t r t d t f t s collector dark current i ceo (na) voltage gain av (db) 0 frequency f (khz) 100 fig.10 frequency response -20 -15 -10 -5 10 1 0.1 v ce =2v i c = 20ma r l =1k 100 10 r l r d r l r d <"# . 2(- %4%4 '$ < 67 <"# . 2(- %4%4 '$ < 77 |
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