BIPOLAR ANALOG INTEGRATED CIRCUN uPC78L00 SERIES THREE TERMINAL POSITIVE VOLTAGE REGULATORS DESCRIPTION CONNECTION DIAGRAM The uPC78L00 series are monolithic three terminal positive regulators which employ internally current limiting, thermal HPCTBLOOJ Series shut down, output transistor safe area protection make them essentiaily 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 100 mA. / t \ . QUTPUT GND INPUT @ Low noise. High Ripple Rejection. HPC78LOOT Series Internal output transistor safe area protection. GND Internal thermal overload protection. ane Internal short circuit current limiting. ORDER INFORMATION Marking nutter | fehge | Pactoue | ieee ya pPC7BLO5J TO-92 OUTPUT GND INPUT uPCTBLOST Sv SOT-89 HPCT8LO6J TO-92 APCTBLOGT BV SOT-89 HPCT8LO7J Vv TO-92 HPC7BLO7T SOT-89 uPC78L08J av TO-92 Standard pPC7BLO8T SOT-89 HPCTEL105 tov TO-92 uPCTBLIOT SOT-89 uPC78L125 wv TO-92 yPC78L12T SOT-89 pPC7BL155 Vv TO-92 ePC78L15T SOT-89 Please refer to Quality grade on NEC Semiconductor Devices (Document number IE1-1209} published by NEC Corporation to know the specification of quality grade on the devices and its recommended applications. Document No. IC-1758 {0.D. No. 1C-6582} Date Published August 1992 M NEC ion 19% Printed in Japan Corporation 354EQUIVALENT CIRCUIT ABSOLUTE MAXIMUM RATINGS (Ts = 25 C) UPC78LO00 Series INPUT Rio OUTPUT RATINGS PARAMETER SYMBOL UNIT UPCTBLOOJ Series | uPC7BLOOT Series Input Voltage Vin 30/35 Mote v internal Power Dissipation Pr 700 | 400/2000 er2 mw Operating Ambient Temperature Range Tom -20 to +85 C Operating Junction Temperature Range Tore ti -20 to +150 c Storage Tamperature Range Tots ~5 to +150 coy Thermal Resistance (junction to ambient) Rn ret 180 315/62.5'Notw2) C/W {Note 1) uPC78L05, 06, 07, 08 : 30 V, wPC7BL10, 12, 15 : 35 V {Note 2} with 2.5 cm? x 0.7 mm ceramic substrate TYPICAL CONNECTION Dr uPC78L00 OUTPUT D2 T_ C1: Required if regulator is located an appreciable distance from power supply filter C2: More than 0.1 uF Di: Needed for Vin < Vo Dz: Needed for Vo < GND 355NEC LPC78LO00 Series RECOMMENDED OPERATING CONDITIONS CHARACTERISTIC SYMBOL TYPE NUMBER MIN, TYP. MAX. | UNIT uPC7BLOS 7 10 20 HPC7BLOG 3.5 WW 21 uPC7BLO7 9.5 12 22 input Voltage Vin HPC78L08 10.5 14 23 v HPC7BLIO 12.5 17 25 uPC78L12 14.5 19 27 uPC78L15 17.5 23 30 Output Current lo Alt o 40 70 mA Operating Temperature Range Tom All ~20 +85 c Operating Junction Temperature Range Tort @ All -20 4125 C ELECTRICAL CHARACTERISTICS yuPC78L05 (VIN = 10 V, to = 40 mA, 0 C Tj S$ + 125 C, Cin = 0.33 uF, Cour = 0.1 pF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Ti = 25C 4.8 5.0 .2 Output Voltage Vo 7V 8 Vin S20 V, 1 MAS lo 46 MA 4.75 6.25 Vv Vn = 10V, 1mMASto 70 mA 4.75 5.25 Ti = 25C, 7 VS Vw $ 20V 6 150 Line Regulation REGIN mV Ti = 25C, 8V S Vin $ 20 V 4 100 Ti = 25C, 1 mA $ lo $ 100 MA 3 & Load Regulation REG: mV Ti = 25C, 1mMA Slo S 40 MA 4 30 Quiescent Current laias Ti = 26C 23 5.5 | mA BV EVN S 20 V, lo= 40 mA 1.6 Quiescent Current Change Alas mA Vin = 10V, 1mA lo 40 MA 0.1 Output Noise Voltaga Ve Tj = 25 C, 10 Hz $ f $ 100 kHz a5 120 [4Vrme Ripple Rejection R-R Ti = 25 C, f= 120 Hz, BV S Vin S 18V 55 75 dB Dropout Voltage Vor T= 25C 7 v Short Circuit Currant loshort Ti = 25 C, Vn = 20 V a8 mA Peak Output Current lopesk Tj = 25C 125 | 160 | 205 | mA Temperature coefficient of Output Voltage] dVo/AT lo=5 mA 0.4 mvPc 356NEC ELECTRICAL CHARACTERISTICS pPC78L06 (Vin = 11 V, lo = 40 mA, 0 C ST) S + 125 C, Cin = 0.33 pF, Cout = 0.1 pF) uUPC78LOO Series CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Tj = 26 C 5.76 6.0 | 6.24 Output Voltage Vo 8.5 VS Vin 21V, 1 mA Slo S 40 mA 5.70 6.30 v Vn = 11V, 1mMASlo $70 mA 5.70 6.30 Tie 25C, 85 V8 Vn 21V 165 Line Regulation REGin mv Ti = 25C, 9VEVin$21V 4 105 T= 28C, 1 mA Slo 3100 MA 19 65 Load Regulation REGL mv Ti = 28C, 1 mA slo $40 mA 4 35 Quiescent Current loas Ti = 26C 23 5.5 | mA 9VSVin $ 21V, lo= 40 mA 1.5 Quiescent Current Change Almas mA Vin=11V, 1MA Silos 40mA 0.1 Output Noise Voltage Vn Tj = 25C, 10 Hz $f $ 100 kHz 55 | 145 iuVeme Ripple Rejection AOR T= 28C, f= 120Hz,9VEVNS19V | 54 | 75 dB Dropout Vokege Vow Tj = 28C 1.7 v Short Circuit Current foehort Ti = 25C, Vin = 27V a5 mA Peak Output Current lopaek Tis 26C 125 | 160 | 205 | mA Temperature coefficient of Output Voltage) 4Vo/4T loz SG mA 0.5 mvc ELECTRICAL CHARACTERISTICS uPC78L07 (Vin x 12 V, lo = 40 mA, 0 C S$ Ti S$ + 125 C, Cw = 0.33 uF, Cour = 0.7 uF} CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. [| TYP. | MAX.| UNIT Ti = 25C 6.72 7.0 7.28 Output Voltage Vo 9.5 VS Vin S22 V, 1 MAS ilo 3 40 mA 6.65 7.35 v Vin = 12 V, 1mAS lo S70 mA 6.65 7.35 Ti= 25 C,9.5 VE Vin 22 V 8 165 Line Regulation REG mv Ti = 25C, 10V 5 Vin 22 V 5 115 Ti = 25 C, 1 mA Slo 100 MA 12 75 Load Regulation REG: mV Ti=25C, TMA Slo S40 mA 5 38 Quiescent Current latas. Ti = 25C 23 5.5 | mA 10 V S Vin $ 22 V, lo= 40 MA 15 Quiescent Currant Change diaias mA Vin= 12 V, 1MAS lo S 40 MA 0.1 Output Noise Voltage Va Ti = 25 C, 10 Hz $ f $ 100 kHz 70 180 juVime. Ripple Rejection R-R Tis 25 C, f = 120 Hz, 10 V Vin S$ 20 V 52 74 dB Dropout Voltage Vor Ti = 25C V7 v Short Circuit Current loehoet Fie 25C, Vn = 22V 83 mA Peak Output Current fopeak Ti = 25C 125 160 | 205 | mA Temperature coefficient of Output Voltage] 4Vo/AT lo= 5 mA 0.6 mvc 357NEC uUPC78L00 Series ELECTRICAL CHARACTERISTICS yPC78L08 {Vin = 14 V, lo = 40 mA, 0 C Tj S$ + 125 C, Cin = 0.33 wF, Cout = 0.1 pF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Ti = 25C VT 8.0 | 8.3 Output Voltage Vo 10.5 V8 Vin S$ 23. V,1mMASloS 40 mA 7.6 8.4 v Vin = 14V, IMA Slo $70 mA 7.6 8.4 Ti = 25 C, 10.5 VE Vn S$ 23 V 10 176 Line Regulation REGin mV Ti = 268C, 17 VE Vw S 23 V 6 125 Ti = 25 C, 1 mA Sto $ 100 MA 14 80 Load Regulation REG. mv Ti = 25C, 1 MAS to $ 40 MA 6 40 Quiescent Current leis Ti = 25C 2.4 5.5 | mA 12. V $ Vin $ 23 V, fo = 40 MA 15 Quiescent Current Change Alstas mA Vin= 14V, TMA Slo 40 mA 0.1 Output Noise Voltage Vn Tj = 25 C, 10 Hz $f S 100 kHz a5 190 [pVemae. Rippia Rejection R-R Ti = 25C, f= 120 Hz, 12 VEVnS22V] 51 73 dB Drapout Voltage Vor Ti = 25C 17 v Short Circuit Current loshort Ti= 25 C, Vin = 23 V a0 mA Peak Output Current lopeak Ti = 25 C 125 160 | 205 | mA Temperature coefficient of Output Voltage] 4Vo/ AT loz 5 mA 0.6 mVFC ELECTRICAL CHARACTERISTICS uPC78L10 {Vin = 17 V, lo = 40 mA, 0 C $ T) S$ + 125 C, Cin = 0.33 uF, Cout = 0.1 pF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.) UNIT Ti = 25C 9.6 10 10.4 Output Voltage Vo 12.5 V8 Vin S$ 25 V, 1MA Slo 5 40 mA 9.5 10.5 Vv Vn= 17V, 1mMASloS70mMA 3.5 10.5 Ti= 25C, 12.5 V5 Vn 25 V 42 200 Line Regulation REGin mv T= 25C, 19V 5 Vin S$ 25 V 8 150 Ti = 25 C, 1 mA Slo 100 mA 18 90 Load Regulation REG. mv Ti= 25C, 1 mA Slo S$ 40 MA 8 45 Quiescent Current Jaas Ti = 25C 2.5 5.5 | mA 13 V Vin 25 V, lo = 40 MA 1.5 Quiescent Current Change Alpias mA Vin= 17V, 1mMA Slo $40 mA 0.1 Output Noise Voltage Ve Tj = 25 C, 10 Hz S$ f 100 kHz 100 | 230 [pVrme. Ripple Rejection R-R Ti = 25 C, f = 120 Hz, 14 VS Vin S 24V 49 69 dB Dropout Voltage Voir Ti+ 25C 7 Vv Short Circuit Current loehort Tj = 25 C, Vin = 25 V 70 mA Peak Output Current lopask Tj = 25C 125 160 | 205 | mA Tamperature coefficient of Output Valtage| 4Vo/ 4T loz 5 mA 0.8 mvPC 358ELECTRICAL CHARACTERISTICS uPC78L12 (Vin = 19 V, fo = 40 mA, 0 C $ Ti) S + 125 C, Ciw = 0.33 UF, Cout = 0.1 LF) uUPC78LO00 Series CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT Ti = 26C 11.6 12 12.5 Output Voltage Vo 14V 5 Vin $27 V, 1 MAS lo $ 40 MA 11.4 12.6 Vv Vn= 19V, 1mMA$lo8 70 mA 11.4 12.6 Ti = 28C, 4.5V 8 Vin $ 27V 14 250 Line Regulation REGin mv Ti= 25C, 18VEVNS27V 10 200 Ti = 25C, 1 MA Sto $ 100 mA 20 100 Load Regulation REG. mv Ti = 28C, 1 MAS lo $ 40 MA 10 50 Quiescent Current leas Ti = 25C 2.6 5.5 | mA 16. V 3 Vin $ 27 V, lo = 40 MA 16 Quiescent Current Change Aleias mA Vn = 19V, 1mMAS lo $40 mA 9.1 Output Noise Voltage Vo Ti = 25 C, 10 Hz Sf 100 kHz 118 280 [uVeme. Ripple Rejection R-R Ti = 25 C, f = 120 Hz, 15 VE Vin S 25 V 47 66 dB Oropout Voitage Vote Ti = 25C Ve Vv Short Circuit Current toshon Ti = 25 C, Vin = 27 V 64 mA Peak Output Current lopeak Ti = 25 C 125 | 160 | 205 | mA Temperature coefficient of Output Voltage} AVo/4T loz 5mMA I Vi mv/c ELECTRICAL CHARACTERISTICS yPC78L15 (Vin = 23 V, lo = 40 mA, 0 C ST) S$ + 125 C, Cin = 0.33 uF, Cout = 6.1 pF) CHARACTERISTIC SYMBOL TEST CONDITIONS MIN. | TYP. | MAX.| UNIT T= 25C 14.4 15 18.6 Output Voltage Vo 17.5 VS Vn $30 V,1MASlo 5 40 mA | 14.25 15.75) V Vin = 23 V, 1MA Slo $ 70 MA 14,25 15.75 T= 25C, 17.5 Vs Vin $ 30 V 18 300 Line Regulation REGin mv Ti = 25 C, 20V Ss Vn $ 30 V 13 250 Ti = 25 C, 1 MA Slo $ 100 mA 25 150 Load Regulation REGc mv Tj = 25 C, 1 mA to $ 40 MA 12 75 Quiescent Current teas Ti = 26C 2.7 55 | mA 20 V $ Vin $ 30 V, fo = 40 mA 45 Quiescent Current Change Aleias mA Vin = 23V, 1mMA glo S40 mA 0.1 Output Noise Voltage Vn Ti = 25 C, 10 Hz $f 100 kHz 135 | 350 [pVeme. Ripple Rejection R-R T= 25C, f= 120 Hz, 18S VS Vn S285 V, 45 61 dB Dropout Voltage Voie Ti = 265C V7 Vv Short Circuit Current loshort Tj = 25 C, Vin= 30 V 53 mA Peak Output Current lopeak Ti = 25C 125 | 160 | 205 | mA Temperature coefficient of Output Voltage) 4Vo/ AT lo= 5 mA 1.4 mvc 359NEC uUPC78LOO Series TYPICAL CHARACTERISTICS (Ta = 25 C} Pr-Te Avo -Te 2.0 NY 1 +150 aa 3 z No 3%oy f g ' Nese gt = Se6. PT = & Ne, oy : 2 1.2 fo & +50 , N 8 & 0.8 twPC78LO0N 3 0 3 780 ow 3 2 yPC7BLOOT } 2 y 0.4 315 Cy 8 750 < 1 i 3 ~100 fox 5mA 0 20 40 60 80 100 ~25 0 25 50 75 100 125 150 Ta ~ Ambient Temperature ~ C 7 - Junction Temperature ~ C Vo - Vin leuas Vix > i ood % 5 & S g 8 > = 3 5 oO - ww 3 3 ' o co t > 8 a lo= 40 mA 9 5 19 15 20 9 ate} 20 30 Vin ~ Input Voltage - V Vin ~ Input Voltage - V RR -f Ro ~ f (uPC7BLO5) 100 2 Gq 1 > 10 4 Oo 2 & e 4 2 e 8 a WA 3 Z o x Cc 0.01 10 100 1k 10k 100 k 10 100 ik 10k 100 k f - Frequency - Hz f - Frequency - Hz 360NEC uPC78LO00 Series lope ~ Peak Output Current - mA AVo~ Qutput Voltage Viv - input Voltage - V Deviation - mV lopeek (Vin-Vo} Vor Tj 250 2.5 fo | | 200 > ' e *}oy in 2 p12 = 100 ma P| = | $ i18-= | wo : Pt Oo ee 1 4 50 $ i J 0 5 10 15 20 25 30 ~25 0 25 50 75 100 125 150 (Vie-Vo) ~ Input to Output Voitage Differential - V T,~ Junction Temperature - C LINE TRANSIENT RESPONSE LOAD TRANSIENT RESPONSE uPC7SLO5 lo = 40 < HPC7BLOB Vn = 10 20 ! @Q 15 5 vO a 10 8 ad 2 0 : S 0 a7 -50 o g s 0 2 4 6 8 0 10 20 30 40 t- Time - ys t- Time - ys 361NEC PACKAGE DIMENSIONS (Unit: mm) UPC78LO0J Series 3PIN PLASTIC SIP (TO-92) LUPC78L00 Series A N | = 1 3 {Pq qt > | Wat Vv CH U -r~F [66 @ P3J-1278 NOTE ITEM MILLIMETERS INCHES Each lead centerline is located within 0.12 mm prs (0.008 inch) of its true position (T.P.) at maxi- A 5.2 MAX. 9.208 MAX. mum material condition. F 0.578% 0.02 8838 G 0.12 0.005 H 1.27 0.05 a! 1.33 MAX. 0.053 MAX. M 5.5 MAX. 0.217 MAX N 42 MAX 0.166 MAX 1 U 2.8 MAX. 0.111 MAX voy 0.5! 0.02888! y | 18.077 0.591 8838 362uPC78L00 Series NEC uPC78LOOT Series 4.50.1 363NEC UPC78L00 Series RECOMMENDED SOLDERING CONDITIONS The foltowing 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 SURFACE MOUNT DEVICE> For more details, refer to our document SMT MANUAL (1E}-1207). {uPC78LOOT Series] Soldering process Soldering condition Symbol Infrared ray reflow Peak packages surface temperature: 230 C or below, Reflow time: 30 seconds or below (210 C or higher), IR30-00 Number of reflow process: 1, Exposure limit*: None VPS Peak packages surface temperature: 215 C or below, Reflow time: 40 seconds or below (200 C or higher), VP 15-00 Number of reflow process: 1, Exposure fimit*: None *, Exposure limit before soldering after dry-pack package is opened. Storage conditions: 25 C and relative humidity at 65% or less. Note: Do nct apply more than a single process at once, except for Partial haating method. <TYPES OF THROUGH HOLE MOUNT DEVICE> {uPC78LO0J Series} Soldering process Soldering condition Symboi Wave soldering Solder temperature: 260 C or below, Flow time: 10 seconds or below 364