深圳市腾恩科技有限公司 SHENZHEN TENAND TECHNOLOGY CO.,LTD http://www.tenand.com ! " # # $ # % &'(& #! ) * + &',&! " #- "./,0 '1 (&',&! $ $ + &$233 4* *# + &$233 5- + &$2335 * + &$2335$ 6 %*/ 73898! 6& %*/ .9:3:3! "5 %*/ "933$! ;<= %*/ ,3,! /7<= %*/ >98,3?! 7<= %*/ 388?! 57<= %*/ 98??29@$,! &7 %*/ 9?2,,! > / &$233(5($! 深圳市腾恩科技有限公司 SHENZHEN TENAND TECHNOLOGY CO.,LTD http://www.tenand.com > - 9 A * * ,,$*) +)+ 3; * - > / &$233(5($! +# +*B ) (A *(" ! > , - 9 A * * ,,$*) +)+ 3; * - > / &$233(5($! +# +*B ) (A *(" ! > 3 - 9 > / &$233(5($! ± ± ! ± "# "± !# "± !" > ? - 9 ',°"! &() 0)) 1 ! $% & ± ' " $*+,- , +*$,- , $*.,- , +*.,- , $$% & $ , , , , / ' &,- , 2 , 0-% * 34 °$ 5-% *34 " °$ 1" 5-% " °$ " "; (.'?C:0 # % # #*# ) * !5 ) * * * #* *) # * #* ,!# % #)D $ ### #* 3!) %- - *% # # ) % * ,; 5 *# > / &$233(5($! > - 9 ',°"! ,- &() 0)) , 6 $ $ 6 $$% & 6 6 $*+ .,- ., 6 +*$ .,- ., $$% 1 $%; ;'(5 +; $9';'$+;&5&$5 ". = & " $*+ 5%,- , 6 &; ; -$ " $; $ , &7± ,7 27 89: ' ,7" ,2&7 6 , &7 &7 ' 6 6 , &7 &7 µ' 6 ' 6 × ! × < ' &7± ' ,7", " , &7± ' &7 ' 6 Ω $ , 3 <; 9 ,7 27 =9: $ 6 $%*0 >%? / 6 9: ;; 6 / µ ; 6 / µ ,7,2&7"' Ω2*. ;7 ,7",2&7"' Ω2 ;7 × 0 > / &$233(5($! " " #" ! > : - 9 Fig.1 Forward Current vs. Ambient Temperature Fig.2 Collector Power Dissipation vs. Ambient Temperature Collector power dissipation Pc (mW) Forward current IF (mA) 200 150 100 50 0 -30 0 20 40 60 80 100 200 160 150 100 50 0 -30 o 20 40 60 80 100 Ambient temperature Ta ( C) Fig.4 Forward Current vs. Forward Voltage Fig.3 Collector-emitter saturation Voltage vs. Forward current 10 100 Ic= 1mA 5mA 8 7mA 10mA 6 4 40mA 30mA 2 Forward current (mA) Collector-emitter saturation voltage V (sat) (V) 0 o Ambient temperature Ta ( C) o 75 C 50 C o o 25 C 10 2mA 3mA 20mA 0 1 0 10 20 30 40 50 60 70 80 90 100 0 1.0 Forward current (mA) 1.5 2.0 Forward voltage (V) Fig.5 Current Transfer Ratio vs. Forward Current Fig.6 Collector Current vs. Collector-emitter Voltage VCE= 2V 100 75 50 25 RBE= o Ta= 25 C 60 I F= 100mA 50mA 40 20mA 20 10mA 0 0.1 0 1 10 Forward current (mA) > / &$233(5($! PC (MAX.) 80 125 Collector current Ic (mA) Current transfer ratio CTR (%) 150 100 0 2 4 6 8 10 Collector-emitter voltage (V) > 2 - 9 Fig.7 Relative Current Transfer Ratio vs. Ambient Temperature Fig.8 Collector-emitter Saturation Voltage vs. Ambient Temperature Collector-emitter saturation voltage VCE (sat) (mV) Relative current transfer ratio (%) 1.0 I F= 100mA VCE= 2V 0.8 0.6 0.4 0.2 80 I F= 100mA I C= 1mA 70 60 50 40 30 20 10 0 0 20 40 60 80 100 Collector-base dark current I CBO (nA) Collector dark current ICEO ( A) VCE= 20V 10 1 0.1 40 60 80 100 10 VCB= 30V 1 0.1 0.01 0 Ambient temperature Ta ( C) Voltage gain Av (dB) Response time ( s) 0 tr tf td ts 100 VCE= 5V I C= 2mA -2 -3 RL= 10k -4 100 -5 -6 1k -7 -8 -9 0.1 1 Load resistance RL (k ) > / &$233(5($! 80 -1 20 10 5 0.2 0.1 60 Fig.12 Frequency Response VCE= 2V I C= 2mA 2 1 0.5 40 Ambient Temperature ( C) Fig.11 Response Time vs. Load Resistance 200 100 50 20 O O 500 100 Fig.10 ICBO vs. Temperature 100 20 80 Ambient temperature Ta ( C) Fig.9 Collector Dark Current vs. Temperature 0 60 O Ambient temperature Ta ( C) 0.01 40 20 O 10 -10 0.5 1 2 5 10 20 50 100 200 500 Frequency f (kHz) > 8 - 9 > / &$233(5($! > 9 - 9