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| � 1995 data sheet bipolar analog integrated circuit m pc2400a series description m pc2400a series are low dropout regulators which have 1 a capable for the output current. these ics are built-in the saturation protection circuit of the output transistor. features ? built-in the saturation protection circuit of the output transistor. ? the capability of output current is 1 a ? high accuracy of output voltage. | d v o | 2 % (t j = 25 ?c) | d v o | 3 % (0 ?c t j 125 ?c) ? low dropout voltage. v dif 1 v (i o 1 a, t j 125 ?c) ? built-in overcurrent protection circuit, thermal shut-down circuit. ? built-in safe operating area protection circuit. ? compatible for m pc2400 series. ordering information output voltage type number package 5 v m pc2405ahf mp-45g 6 v m pc2406ahf (isolated to-220) 7 v m pc2407ahf 8 v m pc2408ahf 9 v m pc2409ahf 10 v m pc2410ahf 12 v m pc2412ahf 15 v m pc2415ahf 18 v m pc2418ahf document no. g10352ej2v0ds00 (2nd edition) date published december 1995 p printed in japan three terminal low dropout voltage regulator connection diagram (top view) 12 1: input
2: gnd
3: output 3
2 m pc2400a series block diagram start-up circuit thermal shut down reference voltage drive circuit over-current protection saturation protection safe operating area protection + error amplifier ? input output gnd 3 m pc2400a series absolute maximum ratings (t a = 25 ?c, unless otherwise specified.) parameter symbol rating unit input voltage v in 36 v internal power dissipation p t(t c = 25 ?c) 15 note w operating ambient temperature range t a C20 to +85 ?c operating junction temperature range t j C20 to +150 ?c storage temperature range t stg C55 to +150 ?c thermal resistance (junction to case) r th(j - c) 5.0 ?c/w thermal resistance (junction to ambient) r th(j - a) 65 ?c/w note internally limited typical connection output m pc2400a input d 2 c out d 1 c in + c in : 0.1 to 0.47 m f. c out : more than 47 m f. d 1 : need for v o > v in . d 2 : need for v o < gnd. recommended operating conditions parameter symbol type number min. typ. max. unit input voltage v in m pc2405ahf 6 9 20 v m pc2406ahf 7 10 21 m pc2407ahf 8 11 22 m pc2408ahf 9 13 23 m pc2409ahf 10 14 24 m pc2410ahf 11 15 25 m pc2412ahf 13 18 27 m pc2415ahf 16 22 27 m pc2418ahf 19 25 28 output current i o all 0 1 a operating ambient temperature range t a all C20 +85 ?c operating junction temperature range t j all C20 +125 ?c 4 m pc2400a series electrical characteristics m pc2405a (v in = 9 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 4.9 5.0 5.1 v 4.85 5.15 6 v v in 20 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 4.85 5.15 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 6 50 mv 6.5 v v in 20 v load regulation reg l 3 50 mv 5 ma i o 1 a quiescent current i bias 2.3 3.2 ma i o = 0 960 i o = 1 a start-up current i bias(s) 15 ma v in = 4.5 v, i o = 0 ma 75 v in = 4.5 v, i o = 1 a quiescent current change d i bias 20 ma 6.5 v v in 20 v, i o = 1 a output noise voltage v n 90 m v rms 10 hz f 100 khz ripple rejection rr 59 64 db f = 120 hz, 6.5 v v in 16.5 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 1.2 a v in = 20 v peak output current i opeak 1.65 2.2 3.1 a temperature coefficient of d v o / d t C0.4 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage m pc2406a (v in = 10 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 5.88 6.0 6.12 v 5.82 6.18 7 v v in 21 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 5.82 6.18 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 7 60 mv 7.5 v v in 21 v load regulation reg l 4 60 mv 5 ma i o 1a quiescent current i bias 2.3 3.2 ma i o = 0 960 i o = 1 a start-up current i bias(s) 15 ma v in = 5.5 v, i o = 0 ma 75 v in = 5.5 v, i o = 1 a quiescent current change d i bias 20 ma 7.5 v v in 21 v, i o = 1 a output noise voltage v n 110 m v rms 10 hz f 100 khz ripple rejection rr 58 63 db f = 120 hz, 7.5 v v in 17.5 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 1.2 a v in = 21 v peak output current i opeak 1.65 2.2 3.1 a temperature coefficient of d v o / d t 0.4 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage 5 m pc2400a series m pc2407a (v in = 11 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 6.86 7.0 7.14 v 6.79 7.21 8 v v in 22 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 6.79 7.21 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 8 70 mv 8.5 v v in 22 v load regulation reg l 4 70 mv 5 ma i o 1 a quiescent current i bias 2.3 3.2 ma i o = 0 960 i o = 1 a start-up current i bias(s) 15 ma v in = 6.5 v, i o = 0 ma 75 v in = 6.5 v, i o = 1 a quiescent current change d i bias 20 ma 8.5 v v in 22 v, i o = 1 a output noise voltage v n 130 m v rms 10 hz f 100 khz ripple rejection rr 57 62 db f = 120 hz, 8.5 v v in 18.5 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 1.2 a v in = 22 v peak output current i opeak 1.65 2.2 3.1 a temperature coefficient of d v o / d t 0.4 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage m pc2408a (v in = 13 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 7.85 8.0 8.15 v 7.75 8.25 9 v v in 23 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 7.75 8.25 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 9 80 mv 9.5 v v in 23 v load regulation reg l 5 80 mv 5 ma i o 1 a quiescent current i bias 2.3 3.2 ma i o = 0 960 i o = 1 a start-up current i bias(s) 15 ma v in = 7.5 v, i o = 0 ma 75 v in = 7.5 v, i o = 1 a quiescent current change d i bias 20 ma 9.5 v v in 23 v, i o = 1 a output noise voltage v n 150 m v rms 10 hz f 100 khz ripple rejection rr 56 61 db f = 120 hz, 9.5 v v in 19.5 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 1.2 a v in = 23 v peak output current i opeak 1.6 2.2 3.05 a temperature coefficient of d v o / d t 0.5 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage 6 m pc2400a series m pc2409a (v in = 14 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 8.82 9.0 9.18 v 8.73 9.27 10 v v in 24 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 8.73 9.27 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 11 90 mv 10.5 v v in 24 v load regulation reg l 5 90 mv 5 ma i o 1 a quiescent current i bias 2.4 3.2 ma i o = 0 960 i o = 1 a start-up current i bias(s) 15 ma v in = 8.5 v, i o = 0 ma 75 v in = 8.5 v, i o = 1 a quiescent current change d i bias 20 ma 10.5 v v in 24 v, i o = 1 a output noise voltage v n 170 m v rms 10 hz f 100 khz ripple rejection rr 55 60 db f = 120 hz, 10.5 v v in 20.5 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 1.0 a v in = 24 v peak output current i opeak 1.6 2.2 3.05 a temperature coefficient of d v o / d t 0.9 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage m pc2410a (v in = 15 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 9.8 10 10.2 v 9.7 10.3 11 v v in 25 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 9.7 10.3 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 12 100 mv 11.5 v v in 25 v load regulation reg l 6 100 mv 5 ma i o 1a quiescent current i bias 2.4 3.2 ma i o = 0 960 i o = 1 a start-up current i bias(s) 15 ma v in = 9.5 v, i o = 0 ma 75 v in = 9.5 v, i o = 1 a quiescent current change d i bias 20 ma 11.5 v v in 25 v, i o = 1 a output noise voltage v n 190 m v rms 10 hz f 100 khz ripple rejection rr 54 59 db f = 120 hz, 11.5 v v in 21.5 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 1.0 a v in = 25 v peak output current i opeak 1.6 2.2 3.05 a temperature coefficient of d v o / d t 0.8 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage 7 m pc2400a series m pc2412a (v in = 18 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 11.75 12 12.25 v 11.65 12.35 13 v v in 27 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 11.65 12.35 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 14 120 mv 14 v v in 27 v load regulation reg l 7 120 mv 5 ma i o 1 a quiescent current i bias 2.4 3.2 ma i o = 0 10 60 i o = 1 a start-up current i bias(s) 15 ma v in = 11.5 v, i o = 0 ma 75 v in = 11.5 v, i o = 1 a quiescent current change d i bias 20 ma 14 v v in 27 v, i o = 1 a output noise voltage v n 230 m v rms 10 hz f 100 khz ripple rejection rr 53 58 db f = 120 hz, 14 v v in 24 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 0.8 a v in = 27 v peak output current i opeak 1.58 2.2 3.03 a temperature coefficient of d v o / d t 0.8 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage m pc2415a (v in = 22 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 14.7 15 15.3 v 14.55 15.45 16 v v in 27 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 14.55 15.45 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 18 150 mv 17 v v in 27 v load regulation reg l 9 150 mv 5 ma i o 1a quiescent current i bias 2.5 3.2 ma i o = 0 10 60 i o = 1 a start-up current i bias(s) 15 ma v in = 14.5 v, i o = 0 ma 75 v in = 14.5 v, i o = 1 a quiescent current change d i bias 20 ma 17 v v in 27 v, i o = 1 a output noise voltage v n 290 m v rms 10 hz f 100 khz ripple rejection rr 51 56 db f = 120 hz, 17 v v in 27 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 0.8 a v in = 27 v peak output current i opeak 1.55 2.2 3.0 a temperature coefficient of d v o / d t 1.6 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage 8 m pc2400a series m pc2418a (v in = 25 v, i o = 500 ma, t j = 25 ?c, unless otherwise specified) parameter symbol min. typ. max. unit test conditions output voltage v o 17.64 18 18.36 v 17.46 18.54 19 v v in 28 v, 5 ma i o 500 ma, 0 ?c t j 125 ?c 17.46 18.54 5 ma i o 1 a, 0 ?c t j 125 ?c line regulation reg in 22 180 mv 20 v v in 28 v load regulation reg l 11 180 mv 5 ma i o 1 a quiescent current i bias 2.5 3.2 ma i o = 0 10 60 i o = 1 a start-up current i bias(s) 15 ma v in = 17.5 v, i o = 0 ma 75 v in = 17.5 v, i o = 1 a quiescent current change d i bias 20 ma 20 v v in 28 v, i o = 1 a output noise voltage v n 350 m v rms 10 hz f 100 khz ripple rejection rr 49 54 db f = 120 hz, 20 v v in 28 v dropout voltage v dif 0.5 1.0 v i o = 1 a, 0 ?c t j 125 ?c short circuit current i oshort 0.8 a v in = 28 v peak output current i opeak 1.55 2.2 3.0 a temperature coefficient of d v o / d t 2.5 mv/?c i o = 5 ma, 0 ?c t j 125 ?c output voltage 9 m pc2400a series typical characteristics 20 15 10 1.92 0 p d - t a p d ?power dissipation ?w 5 25 50 75 100 125 150 with infinite heatsink with 10 ?c/w heatsink without heatsink 85 ?c ?0 100 50 0 0 d v o ?output voltage deviation ?mv 50 100 150 t a ?ambient temperature ??c v in = 9 v i d = 5 ma ?00 m d v o - t j ( pc2405a) t j ?junction temperature ??c 8 7 4 1 0 v o - v in ( pc2405a) v o ?output voltage ?v 2 1 2 4 5 7 8 v in ?input voltage ?v t j = 25 ?c v o = 0 ma 500 ma 1 a 6 5 3 3 6 m 20 10 2 i bias ?quiescent current ?ma 0 m i bias (i bias(s) ) - v in ( pc2405a) v in ?input voltage ?v t j = 25 ?c 4 6 8 10 0.2 1 0.8 0.6 0 v dif ?ropout voltage ?v 50 100 150 i o = 1 a 0 v dif - t j t j ?junction temperature ??c i o = 1 a 500 ma 0 ma 0.4 3 0 i opeak ?eak output current ?a 10 20 i opeak - (v in - v o ) (v in - v o ) ?input output differential ?v 2 1 t j = ?0 ?c 25 ?c 125 ?c 10 m pc2400a series typical characteristics 80 60 40 20 0 10 1 10 2 10 3 10 4 10 5 f ?frequency ?hz r ?r - f ( pc2405a) m t j = 25 ?c i o = 500 ma r ?r ?ripple rejection ?db 1 0.8 0.6 0.2 0 0 i o ?output current ?a v dif - i o t j = 25 ?c d v o = ? % v dif ?dropout voltage ?v 0.4 0.2 0.4 0.6 0.8 1 1.0 0.5 0 0 t ?time ? s load transient response ( pc2405a) t j = 25 ?c v in = 9 v c in = 0.33 f c out = 47 f d v o ?output voltage deviation ?v i o ?output current ?a +0.1 m m 0 ?.1 20 40 60 m 80 m 20 15 0 0 t ?time ? s line transient response ( pc2405a) t j = 25 ?c i o = 0.5 a c in = 0.33 f c out = 47 f d v o ?output voltage deviation ?v v in ?input voltage ?v +0.2 m m 10 ?.2 20 40 60 m 80 m 11 m pc2400a series package dimensions (unit: mm) m pc2400ahf series 3pin plastic sip (mp-45g) 12 m pc2400a series recommended soldering conditions the following conditions (see table below) must be met when soldering this product. please consult with our sales offices in case other soldering process is used, or in case soldering is done under different conditions. types of through hole mount device m pc2400ahf series soldering process soldering conditions symbol wave soldering solder temperature: 260 ?c or below. flow time: 10 seconds or below. reference document name document no. nec semiconductor device reliability/quality control system. iei-1212 quality grade on nec semiconductor devices. iei-1209 semiconductor device mounting technology manual. iei-1207 semiconductor device package manual. iei-1213 guide to quality assurance for semiconductor devices. mei-1202 semiconductor selection guide. mf-1134 13 m pc2400a series [memo] m pc2400a series no part of this document may be copied or reproduced in any form or by any means without the prior written consent of nec corporation. nec corporation assumes no responsibility for any errors which may appear in this document. nec corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. no license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of nec corporation or others. while nec corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. to minimize risks of damage or injury to persons or property arising from a defect in an nec semiconductor device, customer must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. nec devices are classified into the following three quality grades: standard, special, and specific. the specific quality grade applies only to devices developed based on a customer designated quality assurance program for a specific application. the recommended applications of a device depend on its quality grade, as indicated below. customers must check the quality grade of each device before using it in a particular application. standard: computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots special: transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) specific: aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. the quality grade of nec devices in standard unless otherwise specified in nec's data sheets or data books. if customers intend to use nec devices for applications other than those specified for standard quality grade, they should contact nec sales representative in advance. anti-radioactive design is not implemented in this product. m4 94.11 |
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