DATA SHEET BIPOLAR ANALOG INTEGRATED CIRCUIT uPC78N00 SERIES THREE TERMINAL POSITIVE VOLTAGE REGULATOR DESCRIPTION HPC78NO00 series are monolithic three terminal positive regulators which employ internally current limiting, thermal shut down, output transistor safe operating area protection make them essentially indestructible. They are intended as fixed voltage regulators in a wide range of application including local on card regulation for elimination of distribution problems associated wide single point regulation. FEATURES Output current in excess of 300 mA. Built-in some protection circuits. (over current protection, SOA protection and thermal shut down) Small package, TO-126 ORDER INFORMATION Type Number Output Voltage Package Quality Grade yPC78NO5H BV yPC78NO8H BV pPC78N10H 10 V pEPC78N12H 12V TO-126 Standard pPC78N15H 15 V uPC78N18H 18 V UPC78N24H 24V Please refer to Quality grade on NEC Semiconductor Devices (Document number IEI-1209) published by NEC Corporation to know the specification of quality grade on the devices and its recommended applications. EQUIVALENT CIRCUIT CONNECTION DIAGRAM Vin ao Vout INPUT GND OUTPUT GND Document No. IC-3267 (0.D. No. |C-6835) Date Published August 1993 M oration Printed in Japan , NEC Comp 1993NEC , uPC78NO00 Series ABSOLUTE MAXIMUM RATINGS (Ta = 25 C) CHARACTERISTIC SYMBOL RATING UNIT Input Voltage Vin 35/40 (Note) Vv Internal Power Dissipation Pr 12.5 (Note2) Ww Operating Ambient Temperature Range Topt -20 to +85 C Operating Junction Temperature Range Topt (i) -20 to +150 C Storage Temperature Range Tstg 55 to +150 c Thermal Resistance (junction to case) Rth (j-c) 10 C/W Thermal Resistance (junction to ambient) Rth (j-a) 110 C/AV (Note 1) uPC78N05, 08, 10, 12, 15, 18 : 35 V, uPC78N24: 40 V (Note 2) Internally limited TYPICAL CONNECTION Di INPUT OUTPUT o Oo Cin 7 com ae De sca C1: Required if regulator is located an appreciable distance from power supply filter C2: More than 0.1 pF D1: Needed for Vin < Vo Dz: Needed for Vo < GND RECOMMENDED OPERATING CONDITIONS CHARACTERISTIC SYMBOL TYPE NUMBER MIN. TYP. MAX. UNIT LPC78NO05H 7 10 25 uPC78N08H 10.5 14 25 pPC78N10H 12.5 17 30 Input Voltage Vin pPC78N12H 14.5 19 30 Vv HPC78N15H 17.5 23 30 pPC78N18H 21 27 33 BPC78N24H 27 33 38 Output Current lo All 0 300 mA Operating Temperature Range Topt All -20 +85 C Operating Junction Temperature Range Topt (i) All -20 +125 CNEC UPC78NO00 Series ELECTRICAL CHARACTERISTICS uPC78N05 (Vin = 10 V, lo = 200 mA, 0 C $ Tj S$ + 125 C, Cin = 0.33 wF, Cout = 0.1 pF) ~ CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.) UNIT Tj = 25 C 4.8 5.0 5.2 Output Voltage Vo Vv 7V 8 Vin $ 20 V,5 mA lo $ 200 mA 4.75 5.25 Ti = 25C, 7VSVinS25V 15 50 Line Regulation REGin mV Ti =25C,8VSVinS20V 10 25 Ti = 25 C, 1 MAS lo $ 300 mA 6 100 Load Regulation REG. mV Ti = 25 C, 5 mA S$ lo S$ 200 mA 4 50 Quiescent Current IBias Ti = 25 C 3.5 5.0 mA 7VSVnS25V 0.8 Quiescent Current Change Alsias mA 1 mA $lo $300 mA 0.5 Output Noise Voltage Vo Ti = 25 C, 10 Hz Sf S$ 100 kHz 50 120 | uVrmes. Ripple Rejection R-R Ti = 25 C, f= 120 Hz, 8VEViInS 18V 62 70 dB Dropout Voltage Voir Tj-= 25 C 1.7 Vv Short Circuit Current loshort Tj = 25 C, Vin = 25 V 170 mA Peak Output Current lopeak Tj = 25C 360 |; 500 | 640 | mA Temperature coefficient of Output Voltage| AVo/ 4T lo=5 mA 0.1 mvV/C ELECTRICAL CHARACTERISTICS u:PC78N08 (Vin = 14 V, lo = 200 mA, 0 C $ Tj $ + 125 C, Cin = 0.33 pF, Court = 0.1 pF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Tj = 25 C 77 8.0 8.3 Output Voltage Vo Vv 10.5VsVinn $23 V,5mASloS 200 mAl 7.6 8.4 Tj = 25 C, 10.5 V S$ Vin $ 25 V 18 80 Line Regulation REGin mV Ti = 25C, 12 VE Vin S$ 23 V 13 40 Ti = 25C, 1 MA Slo $300 mA 8 160 Load Regulation REG. mV Tj = 25 C, 5 mA S$ lo 200 mA 6 80 Quiescent Current Istas Tj = 25 C 3.5 5.0 mA 10.5VsVnS25V 0.8 Quiescent Current Change Alsias mA 1mA Slo 300 mA 0.5 Output Noise Voltage Vn Tj = 25 C, 10 Hz S f S$ 100 kHz 65 190 | uVrme, Ripple Rejection R-R Tj = 25 C, f= 120Hz,11VSVinS21V] 56 68 dB Dropout Voltage Voir Tj = 25 C 1.7 Vv Short Circuit Current loshort Tj = 25 C, Vin = 25 V 170 mA Peak Output Current lopeak Tj = 25 C 360 490 | 640 | mA Temperature coefficient of Output Voltage| AVo/ AT lo=5 mA 0.2 mv/CNEC uUPC78NO00 Series ELECTRICAL CHARACTERISTICS uPC78N10 (Vin = 17 V, lo = 200 mA, 0 C Ti S$ + 125 C, Cin = 0.33 uF, Cout = 0.1 pF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Tj = 25 C 9.6 10 10.4 Output Voltage Vo Vv 12.5 VS Vin S25 V,5 MAS lo S200 mAl 9.5 10.5 Ti = 25 C, 12.5.V S$ Vin S$ 30 V 25 100 Line Regulation REGw mV Ti = 25 C, 13 VS Vin $ 25 V 17 50 Ti = 25 C, 1 MA Slo $ 300 mA 12 200 Load Regulation REG. mV Ti = 25 C, 5 mA Slo S$ 200 mA 8 100 Quiescent Current Ibias Tj = 25 C 3.6 5.0 mA . . 13 Vs Vin 30V 0.8 Quiescent Current Change Alpias mA 1 mA $ lo 300 mA 0.5 Output Noise Voltage Vn Tj = 25 C, 10 Hz & f S$ 100 kHz 80 230 | uVr.ms. Ripple Rejection R-R Ti = 25 C, f= 120 Hz, 13 VEVNnE23V] 56 66 dB Dropout Voltage Voir Tj = 25C 17 Vv Short Circuit Current loshort Tj = 25 C, Vin = 30 V 100 mA Peak Output Current lopeak Tj = 25 C 360 480 | 640 mA Temperature coefficient of Output Voltage] 4Vo/AT lo=5 mA 0.2 mv/C ELECTRICAL CHARACTERISTICS uPC78N12 (Vin = 19 V, lo = 200 mA, 0 C $ Tj $ + 125 C, Cin = 0.33 uF, Cout = 0.1 yF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Tj = 25 C 11.5 12 12.5 Output Voltage Vo Vv 14.5 VS Vin S$ 27 V,5 MAS lo S 200 mA! 11.4 12.6 T= 25C, 145 V2 Vin 30V 30 100 Line Regulation REGin mV Ti =25C, 16VS Vin S27V 20 50 Ti = 25 C, 1 MA Slo S$ 300 mA 18 240 Load Regulation REG. mV Ti = 25 C, 5 mA Slo S$ 200 mA 12 120 Quiescent Current IBias Tj = 25 C 3.6 5.0 mA 14.5 Vs Vin S30 V 0.8 Quiescent Current Change Alpias mA 1mA Slo 300 mA 0.5 Output Noise Voltage Vn Jj = 25 C, 10 Hz Sf S 100 kHz 90 280 | uVr.ms. Ripple Rejection R-R Ti = 25 C, f= 120 Hz, 15VEVnS25V| 55 64 dB Dropout Voltage Voir Tj = 25 C 1.7 Vv Short Circuit Current loshort Tj = 25 C, Vin = 30 V 100 mA Peak Output Current lopeak Tj = 25 C 360 | 480 | 640 | mA Temperature coefficient of Output Voltage} 4Vo/AT lo=5 mA 0.3 mvV/CNEC uPC78NO0O0 Series ELECTRICAL CHARACTERISTICS uPC78N15 (VIN = 23 V, lo = 200 mA, 0 C S$ Tj S$ + 125 C, Cin = 0.33 uF, Cout = 0.1 uF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Tj = 25 C 14.4 15 15.6 Output Voltage Vo Vv 17.5 V s Vin 30 V,5 mA Slo 200 mA; 14.25 15.75 Ti = 25C, 17.5V Ss Vin S$ 30V 32 100 Line Regulation REGin mV Ti = 25C, 20 VS Vin S 30V 25 50 Ti = 25C, 1 mA Slo 300 mA 25 300 Load Regulation REG. mV Ti = 25 C, 5 MAS lo 200 mA 16 150 Quiescent Current IBtas Tj = 25 C 3.7 5.0 mA 17.5 VsVn = 30V 0.8 Quiescent Current Change Alsias mA 1 mA Slo S300 mA 0.5 Output Noise Voltage Vn Tj = 25 C, 10 Hz Sf S 100 kHz 100 350 | Vim. Ripple Rejection R-R Tj = 25 C, f= 120 Hz, 18.5VSVinS285V) 54 62 dB Dropout Voltage Voir Tj = 25 C 1.7 Vv Short Circuit Current loshort Tj = 25 C, Vn = 30 V 100 mA Peak Output Current lopeak Ti = 25 C 360 470 | 640 | mA Temperature coefficient of Output Voltage] 4Vo/4T lo=5 mA 0.5 mv/C ELECTRICAL CHARACTERISTICS yuPC78N18 (Vin = 27 V, lo = 200 mA, 0 C Tj S + 125 C, Cin = 0.33 uF, Cout = 0.1 pF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Tj = 25 C 17.3 18 18.7 Output Voltage Vo Vv 21VeVin 33 V,5mMAS lo S200 mA | 17.1 18.9 Ti = 25 C, 21V Ss Vin S$ 33 V 32 100 Line Regulation REGin mV Ti = 25C, 22 VS VnS33V 25 50 Tj = 25 C, 1 MA Slo S 300 mA 30 360 Load Regulation REG. mV Tj = 25C, 5 mA Slo S$ 200 mA 20 180 Quiescent Current leias Tj = 25 C 3.7 5.0 mA 21VsVin $33 V 0.8 Quiescent Current Change Alsias mA 1 mA Slo 300 mA 0.5 Output Noise Voltage Vo Tj = 25 C, 10 Hz f S 100 kHz 115 420 | uVi.ms, Ripple Rejection R-R Tj = 25 C, f= 120 Hz, 22VS Vn S32V| 53 60 dB Dropout Voltage Voir Tj = 25 C 1.7 Vv Short Circuit Current loshort Tj = 25 C, Vin = 33 V 60 mA Peak Output Current lopeak Tj = 25 C 360 460 | 640 | mA Temperature coefficient of Output Voltage} 4Vo/ AT loz 5mA 0.5 mv/CNEC UPC78NO0 Series ELECTRICAL CHARACTERISTICS puPC78N24 {VIN = 33 V, lo = 200 mA, 0 C Tj $+ 125 C, Cin = 0.33 WF, Court = 0.1 uF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Tj = 25 C 23 24 25 Output Voltage Vo Vv 27V Vin $ 38 V,5 mAS lo 200 mA 22.8 25.2 Ti = 25 C, 27 VS Vin S$ 38 V 40 100 Line Regulation REG mV Ti = 25 C, 28 VS Vin $ 38 V 30 50 Ti = 25 C, 1 MA Slo 300 mA 35 480 Load Regulation REG. mV Tj = 25 C, 5 mAs lo $ 200 mA 23 240 Quiescent Current IBias Tj = 25C 3.7 5.0 mA 27V S Vin S 38 V 0.8 Quiescent Current Change Alsias mA 1 mA $ lo 300 mA 0.5 Output Noise Voltage Vn Jj = 25 C, 10 Hz $f S$ 100 kHz 135 | 560 | uVemes. Ripple Rejection R-R Tj = 25 C, f= 120 Hz,28VEVNE38V] 50 57 dB Dropout Voltage Voir T= 25C 1.7 Vv Short Circuit Current loshort Ti = 25 C, Vin = 38 V 5 mA Peak Output Current lopeak Tj = 25 C 360 460 640 mA Temperature coefficient of Output Voltage} AVo/AT lo=5mA 0.7 mvV/CNEC UPC78NO00 Series TYPICAL CHARACTERISTICS (T. = 25 C) Vo Output Voltage - V Prt Power Dissipation W igias - Quiescent Current - mA PrTa C 0 25 50 75 100 125 150 Ta~ Ambient Temperature C Vo Vin (uPC78N05) oOo wn Oo wo kf oO 0 1 2 3 4 5 6 7 8 Vin Input Voltage - V leas Vin (UPC78N05) lo = 200 mA 0 5 10 15 20 25 30 35 Vin Input Voltage - V Vo - Output Voltage Deviation - mV Vo Output Voltage - V lopeak Peak Output Current -mA 4Vo - Tj 100 lo=5mA uPC78N24 50 pPC78N12 -25 0 25 50 75 100 125 150 Tj - Junction Temperature C Vo Vin UPC78N24 18 uPC78N15 12 10 uPC78NO05 0 5 10 15 20 25 30 35 Vin - Input Voltage - V lo peak (Vin -Vo) 700 Mo =2% -Vo 600 500 400 300 200 100 0 5 10 15 20 25 30 (Vin Vo)-Input to Output Voltage Differential VNEC uUPC78NO00 Series Vor Tj 2.0 > _ 4 > a lo = 300 _| MA g 15 r/o = 200 mA a M[J - o lo oO = 20 S 1.0 [S50 > . rh ~25 0 25 50 75 100 125 150 Tj - Junction Temperature C R-R lo (uPC78N05) 8 VS VinS 18 f = 120 Hz mo 80 oa ! 5 | @ 70 g p~ 2. rad I io oe 60 0 100 200 300 lo - Output Current -mA LOAD TRANSIENT R AVo Output Voltage lo- Load Current -mA Deviation - V ESPONSE Vin = 10V t-Time - ys 4Vo Output Voltage Vin input Voltage - V R-R - Ripple Rejection - dB RR-f- lo = 200 mA 80 TM SET / I ZL | arcsN2 70 / NI i Y 4 Pp N LT i / he N 60 Le] ; Y ~~! N d NI YY y | / \ in y uPC7BN24 N ( | N | 10 100 1k 10k 100 k f - Frequency Hz LINE TRANSIENT RESPONSE lo = 200 mA 20 itPC78NO05 15 10 > 10 Ee 4 0 L 2 2-10 o a 0 20 40 60 80 t-Time -LsNEC uUPC78NO00 Series PACKAGE DIMENSIONS (Unit: mm) uUPC78NOO0H Series 3 PIN PLASTIC SIP (TO-126) A N E pt = a 1 3 x HTN UL > J Vv U Cc F P3HP-230B NOTE ITEM MILLIMETERS INCHES Each lead centerline is located within 0.23 mm (0.009 inch) of its true position (T.P.) at maxi- A 8.5 MAX. 0.335 MAX. mum material condition. Cc 1.1. MIN. 0.043 MIN. D 9.7493 0.392 20.012 E $3,220" 30.1 2. 20.004 F 0.807% 0.03 1 8:882 G 0.23 0.009 H 2.3 0.091 J 1.95 MAX. 0.077 MAX. K 2.3 MIN. 0.09 MIN. M 11.5 MAX. 0.453 MAX. N 2.779? 0.10678388 Q 14.5 MAX. 0.571 MAX. U 1.7 MAX. 0.067 MAX. v 0.55*! 0.022 18885 Y 13.5797 0.531 73:838NEC UPC78NO00 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> [wPC78NOOH Series] Soldering process Soldering condition Symbol Wave soldering Solder temperature: 260 C or below, Flow time: 10 seconds or below 10NEC Reference Application note name No. Quality control of NEC semiconductor devices TEI-1202 Quality control guide of semiconductors devices MEI-1202 Assembly manual of semiconductors devices [El-1207 NEC semiconductor device reliability/quality control system IE1-1212 uPC78N00 Series 11NEC UPC78NO0O0 Series [MEMO] 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. The devices listed in this document are not suitable for use in aerospace equipment, submarine cables, nuclear reactor control systems and life support systems. If customers intend to use NEC devices for above applications or they intend to use "Standard" quality grade NEC devices for applications not intended by NEC, please contact our sales people in advance. Application examples recommended by NEC Corporation. Standard: Computer, Office equipment, Communication equipment, Test and Measurement equipment, Machine tools, Industrial robots, Audio and Visual equipment, Other consumer products, etc. Special: Automotive and Transportation equipment, Traffic control systems, Antidisaster systems, Anticrime systems, etc. M4 92.6