Bipolar Analog Integrated Circuit 3 IC 3 5 V, 8 V, 12 V, 15 V, 18 V, 24 V 6 1 A Marking Side TO-22 MP-45G 4 MIN. µpc1435 5 V µpc1435 3 SIP TO-22 MP-45G 1 2 3 1 INPUT 2 GND 3 OUTPUT µ PC1435HF TO-22 MP-45G 5 V 1435 µ PC1438HF TO-22 MP-45G 8 V 1438 µ PC14312HF TO-22 MP-45G 12 V 14312 µ PC14315HF TO-22 MP-45G 15 V 14315 µ PC14318HF TO-22 MP-45G 18 V 14318 µ PC14324HF TO-22 MP-45G 24 V 14324 G1483JJ7VDS 7 December 23 NS CP(K) 1983, 2
1 µpc1435 R8 R9 R13 INPUT D1 D2 Q8 Q9 R18 R15 Q16 R4 Q17 R21 Q15 Q12 R12 R17 R11 R5 Q1 Q13 Q6 Q5 R6 R16 R2 R2 R1 C1 Q11 Q18 R14 Q7 Q4 Q14 Q1 Q2 Q3 R23 R19 R7 Q19 R22 R1 R3 OUTPUT GND 2 µpc1438, 14312, 14315, 14318, 14324 R8 R9 R13 INPUT D1 D2 Q8 Q9 R18 Q16 R4 Q17 R21 Q15 Q12 R12 R17 R11 R5 Q1 Q13 Q6 Q5 R15 R6 R16 R2 R2 R1 C1 Q11 Q18 Q7 Q4 Q14 Q1 Q2 Q3 R23 R19 R7 Q19 R22 R1 R3 OUTPUT GND 2 G1483JJ7VDS
TA = 25 C VIN µpc1435, 1438, 14312, 14315, 14318 35 V µpc14324 4 V 1 VIN(surge) µpc1435 5 V TC = 25 C 2 PT 15 W TA µpc1435 4 +8 C µpc1438, 14312, 14315, 14318, 14324 2 +8 C TJ µpc1435 4 +15 C µpc1438, 14312, 14315, 14318, 14324 2 +15 C Tstg 55 +15 C - Rth(J-C) 5 C/W - Rth(J-A) 65 C/W 1. t 2 ms, Duty Cycle 1% 2. TJ > 15 C 1 D1 INPUT µ PC143 OUTPUT CIN COUT D2 CIN.1.47 µ F INPUT COUT.1 µ F CIN, COUT IC 1 2 cm D1 OUTPUT INPUT D2 OUTPUT GND OUTPUT G1483JJ7VDS 3
VIN µ PC1435 7.5 1 25 V µ PC1438 1.5 14 25 V µ PC14312 14.5 19 3 V µ PC14315 17.5 23 3 V µ PC14318 21 27 33 V µ PC14324 27 33 38 V IO.5.5 1 A TJ µpc1435 4 +125 C µpc1438, 14312, 14315, 14318, 14324 2 +125 C MAX. µ PC1435TJ = 25 C, VIN = 1 V, IO = 5 ma VO 4.8 5. 5.2 V 7.5 V VIN 2 V, 5 ma IO 1. A, PT 15 W, 4 C TJ + 125 C 4.75 5.25 V REGIN 7 V VIN 25 V 15 1 mv 8 V VIN 12 V 4 5 mv REGL 5 ma IO 1.5 A 4 1 mv 25 ma IO 75 ma 2 5 mv IBIAS 5.3 8. ma IBIAS 7 V VIN 25 V, 4 C TJ + 125 C 1.3 ma 5 ma IO 1. A, 4 C TJ + 125 C.5 ma Vn 1 Hz f 1 khz 4 2 µ Vr.m.s. R R f = 12 Hz, 8 V VIN 18 V 62 69 db VDIF IO = 1. A 1.8 V IOshort VIN = 25 V 1.1 A IOpeak VIN = 1 V 1.7 2.2 2.8 A VO/ T IO = 5 ma, 4 C TJ + 125 C.4 mv/ C 4 G1483JJ7VDS
µ PC1438TJ = 25 C, VIN = 14 V, IO = 5 ma VO 7.7 8. 8.3 V 1.5 V VIN 23 V, 5 ma IO 1. A, PT 15 W, C TJ + 125 C 7.6 8.4 V REGIN 1.5 V VIN 25 V 34 16 mv 11 V VIN 17 V 18 8 mv REGL 5 ma IO 1.5 A 24 16 mv 25 ma IO 75 ma 8 8 mv IBIAS 4.7 8. ma IBIAS 1.5 V VIN 25 V, C TJ + 125 C 1. ma 5 ma IO 1. A, C TJ + 125 C.5 ma Vn 1 Hz f 1 khz 5 25 µ Vr.m.s. R R f = 12 Hz, 11.5 V VIN 21.5 V 56 63 db VDIF IO = 1. A 1.8 V IOshort VIN = 25 V 1. A IOpeak VIN = 14 V 1.7 2.3 2.8 A VO/ T IO = 5 ma, C TJ + 125 C.4 mv/ C µ PC14312TJ = 25 C, VIN = 19 V, IO = 5 ma VO 11.5 12. 12.5 V 14.5 V VIN 27 V, 5 ma IO 1. A, PT 15 W, C TJ + 125 C 11.4 12.6 V REGIN 14.5 V VIN 3 V 44 24 mv 16 V VIN 22 V 16 12 mv REGL 5 ma IO 1.5 A 45 24 mv 25 ma IO 75 ma 16 12 mv IBIAS 4.7 8. ma IBIAS 14.5 V VIN 3 V, C TJ + 125 C 1. ma 5 ma IO 1. A, C TJ + 125 C.5 ma Vn 1 Hz f 1 khz 7 3 µ Vr.m.s. R R f = 12 Hz, 15 V VIN 25 V 55 6 db VDIF IO = 1. A 1.8 V IOshort VIN = 3 V.7 A IOpeak VIN = 19 V 1.7 2.3 2.8 A VO/ T IO = 5 ma, C TJ + 125 C.8 mv/ C G1483JJ7VDS 5
µ PC14315TJ = 25 C, VIN = 23 V, IO = 5 ma VO 14.4 15. 15.6 V 17.5 V VIN 3 V, 5 ma IO 1. A, PT 15 W, C TJ + 125 C 14.25 15.75 V REGIN 17.5 V VIN 3 V 46 3 mv 2 V VIN 26 V 22 15 mv REGL 5 ma IO 1.5 A 66 3 mv 25 ma IO 75 ma 24 15 mv IBIAS 4.7 8. ma IBIAS 17.5 V VIN 3 V, C TJ + 125 C 1. ma 5 ma IO 1. A, C TJ + 125 C.5 ma Vn 1 Hz f 1 khz 85 4 µ Vr.m.s. R R f = 12 Hz, 18.5 V VIN 28.5 V 54 58 db VDIF IO = 1. A 1.8 V IOshort VIN = 3 V.7 A IOpeak VIN = 23 V 1.7 2.3 2.8 A VO/ T IO = 5 ma, C TJ + 125 C 1. mv/ C µ PC14318TJ = 25 C, VIN = 27 V, IO = 5 ma VO 17.3 18. 18.7 V 21 V VIN 33 V, 5 ma IO 1. A, PT 15 W, C TJ + 125 C 17.1 18.9 V REGIN 21 V VIN 33 V 52 36 mv 24 V VIN 3 V 26 18 mv REGL 5 ma IO 1.5 A 1 36 mv 25 ma IO 75 ma 32 18 mv IBIAS 5. 8. ma IBIAS 21 V VIN 33 V, C TJ + 125 C 1. ma 5 ma IO 1. A, C TJ + 125 C.5 ma Vn 1 Hz f 1 khz 95 45 µ Vr.m.s. R R f = 12 Hz, 22 V VIN 32 V 53 56 db VDIF IO = 1. A 1.8 V IOshort VIN = 33 V.7 A IOpeak VIN = 27 V 1.7 2.3 2.8 A VO/ T IO = 5 ma, C TJ + 125 C 1.2 mv/ 6 G1483JJ7VDS
µ PC14324TJ = 25 C, VIN = 33 V, IO = 5 ma VO 23. 24. 25. V 27 V VIN 38 V, 5 ma IO 1. A, PT 15 W, C TJ + 125 C 22.8 25.2 V REGIN 27 V VIN 38 V 64 48 mv 3 V VIN 36 V 34 24 mv REGL 5 ma IO 1.5 A 13 48 mv 25 ma IO 75 ma 44 24 mv IBIAS 5. 8. ma IBIAS 27 V VIN 38 V, C TJ + 125 C 1. ma 5 ma IO 1. A, C TJ + 125 C.5 ma Vn 1 Hz f 1 khz 12 5 µ Vr.m.s. R R f = 12 Hz, 28 V VIN 38 V 5 54 db VDIF IO = 1. A 2. V IOshort VIN = 38 V.4 A IOpeak VIN = 33 V 1.7 2.4 2.8 A VO/ T IO = 5 ma, C TJ + 125 C 1.4 mv/ C G1483JJ7VDS 7
TA = 25 C PT - TA VO - TA 2 1 IO = 5 ma PT (W) 15 1 5 1 C/W VO (mv) 5 5 1 15 2 µpc1435 µpc14312 µpc14324 25 25 5 75 1 125 15 TA ( C) 3 5 25 25 5 TA ( C) 75 1 125 15 2.5 VDIF - TJ IOpeak - (VIN - VO) 3. VDIF (V) 2. 1.5 1..5 IO = 2 ma IO = 2 ma IO = ma IO = 1 A IO = 5 ma IOpeak (A) 2.5 2. 1.5 1..5 TJ = 75 C TJ = 125 C TJ = C TJ = 25 C 5 25 25 5 75 1 125 15 TJ ( C) 5 1 15 2 25 3 35 VIN - VO (V) µ PC1435 µ PC1435 IL (A) 1.5 1..5 VIN = 1 V VIN (V) 2 15 1 5 IO = 5 ma VO (V) 1..5.5 1. 1 2 3 4 5 6 t ( µ s) VO (mv) 1 1 2 4 6 8 1 12 t ( µ s) 8 G1483JJ7VDS
VIN - VO µ PC1435 VIN - IBIAS VO (V) 8 7 6 5 4 3 2 1 IO = A IO =.1 A IO =.5 A IO = 1 A IBIAS (ma) 8 7 6 5 4 3 2 1 µ PC1435 IO = 5 ma µ PC14312 µ PC14324 1 2 3 4 5 6 7 8 5 1 15 2 25 3 35 4 VIN (V) VIN (V) G1483JJ7VDS 9
SIP MP-45G mm 1.±.2 7.±.2 φ 3.3±.2 4.5±.2 2.8±.2 17.±.3 5.±.3 8.5±.2 1 2 3 8.5±.2 8.9±.7 5.±.2 2.54 1.3±.2 2.46±.2.65±.1 2.4±.5 1.5±.2.75±.1.25 M P3HF-254B-4 1 G1483JJ7VDS
http://www.necel.com/pkg/ja/jissou/index.html µ PC143HF 3 SIP MP-45G 26 1 3 3 1 IC Semiconductor Selection Guide -Products and Packages- G1272J G11872J http://www.necel.com/pkg/ja/jissou/index.html X13769X G1483JJ7VDS 11
23 12 OA AV NEC NEC 44(435)5111 http://www.necel.co.jp/ M8E 2.11 44-435-9494 E-mail info@necel.com C3.7T