SHINDENGEN ELECTRIC MFG ULE D MH 8219387 0000070 2 MMSHEY 7233.44 @Outline Dimensions 5 O W = in mae = 203 Lejos gMin r6Vri $3,629? & s C2502 7 BCE ! 14 Z 2.4403 % 0.8 0.6 ; ot weight: 2.2 . . unit : mm @ Ratings EIAJ.No. 2SC 2502 Item Symbol House. No. Unit Conditions T6V40F1 Storage Temperature Tstg 55-~ + 150 C Junction Temperature Tj + 150 C Collector to Base Voltage VcBo 500 Vv Absolute Collector to Emitter Voltage VcEO 400 V Emitter to Base Voltage VEBO 7 Vv Maximum DC Ic 6 A Collector Current Ratings Peak lcp 12 A DC Ib 2 A Base Current Peak InP 4 A Transistor Dissipation Pr Tc=25C 50 WwW Collector to Emitter Sustaining Voltage | Vczo(sus) | 1c=0.2A MIN 400 Vv IcBO At Rated Voltage MAX 0.1 ie; -off t - ollector Cut-off Curren Ico At Rated Voltage X0.8 WAX 94 | A Emitter Cut-off Current IEBO At Rated Voltage MAX 1 mA hEEL VcE=2V MIN 15 Ic =8A sTD 20 Static Forward Transfer Ratio ares Vora 2V MIN 8 Ic =6A sTh 10 Electrical STD 0.25 Collector to Emitter Saturation Voltage | Vce(sat) lo=3A MAK 07 Vv Characteristics In=0.3A STD 1 Base to Emitter Saturation Voltage Ver(sat) . WAX V (Tc=25C) L_. |" 1.5 _ Junction to Case Thermal Resistance Ajc Between Junction and Case | MA* 2.5 c /W Gain Bandwidth Product fr VcE=10V_ Ic=0.6A STD 20 MHz STD 0.55 T . urn on Time ton Ist =Ine0.6A MAX 1 us lc =3A sTD 2.5 T Storage Time ts RL 102 MAX 3 us = STD Fall Time tf Vep2= 4V MAX oe us @input Output transmission characteristics Vor= =3A 500mA Collector current 200 100 50 2 a 5V Collector voltage Base curent Base voltage 3V 1940 F~03SHINDENGEN ELECTRIC MFG ULE D MM 8219387 OO00071L 4 MBSHEJ J-~33-]/ @Static forward transfer ratio vs temp. characteristics 200 @Saturation voltage characteristics _, Tc = 25 dine itions Conditions : Pulse measure 100 Tel Vee =2V hre (MIN) 80 50 3V Static forward transfer ratio oS 201 02 04 06081 2 4 6 81012A Collector current Collector-base voltage Base-emitter voltage 0 OOl 002 004006 a1 02 04 08081 2 4 6A Base current @ Transition heat impedance 5U/W 4 with infinit fin @Collector current vs Switching time uv u c 3 1 10nS a 0.8 8 = oo6 6 3 4 B04 be vo S o2 2 ee S v = ol E 1 2 008 ~ 08 0 06 2 06 B = 004 = 04 z wn 0 02 02 Gor 0 04 06 10S 01 LLitit 1 1 pop i itig 1 oa oa ij 1 4 i iii} 0005 00) O02 004006 01 O02 04 06081 2 4 6 8 l0mS 0 08 Time 0 06 9 055 1 2 3 1 5 6A @Vcc vs Switching time Collector current WO 8r- fk -3A Tinn=Iwe -0 6A} R Ven dV - load Te =25C @Safe operating zone o & 5 12A 2 19 = 06 S 6 5 04 4 wn 02 2 2 1 01 08 3 0.6 P- _ & 04 3 2 c 0 20 40 60 80 100 120 140 160 180 200 220 250V 5 %, Vee 3 (02 Condition : 954 temp 25C oO ingle pulse @Dissipation and Iss derating curve od 100% NS 0.06 I sy B . 0 04 80 NN tite to IN | 002 60 Ne x Z 0 01 Lp 4 6 810 20 40 6080100 200 400V 40 ne Collector Emitter voltage I 20 + F - \ 0 20 40 60 80 100 120 140 150C Case temperature 1941 F-04 7 Collector current ratio (Collector voltage fixed)