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| 1/16 XC62FJ series 10v input, 200ma low consum ption current regulator 0.0 0.5 1.0 1.5 2.0 2.5 3.0 0246810 consumption current: i ss (ua) input voltage: v in (v) XC62FJ3302pr-g ta=-40 ta=25 ta=85 general description the XC62FJ series is a highly precise, low power consumpt ion, positive voltage regulato r manufactured with cmos and laser trimming technologies. the series provides large currents with a significantly small dropout voltage. the XC62FJ consists of a current limiter circuit, a driver tran sistor, a precision reference voltage and an error amplifier. the output voltage is selectable in 0.1v steps between 1.7v ~ 6.0v. a pplications smart meter walky-talky blood pressure manometer applications with 2li-ion batteries typical application circuit typical performance characteristics etr03086-001 consumption current vs. input voltage features maximum output current : 200ma dropout voltage : 160mv i out =100ma (v out =5.0v) operating voltage range : 1.8v 10v output voltage range : 1.7v 6.0v (2.0%) 0.1v increments consumption current : 2.0 a (typ.) external capacitor : ceramic capacitor operating ambient temperature : -40 +85 package : sot-89 environmentally friendly : eu rohs compliant, pb free
2/16 XC62FJ series block diagram XC62FJ series * diodes inside the circuits are esd protection diodes and parasitic diodes. pin configuration pin assignment pin number pin name function sot-89 1 v ss ground 2 v in power supply input 3 v out output 1 3 v in v out sot-89 (top view) v ss 3/16 XC62FJ series product classification ordering information XC62FJ ?????- designator description symbol description ? output voltage 17 60 e.g. 30: 3.0v, 50: 5.0v ? output voltage accuracy 02 2.0% ?- (*1) package (order unit) pr -g sot-89 (1,000/reel) (*1) the ?-g? suffix denotes halogen and antimony free as well as being fully eu rohs compliant. absolute maximum ratings parameter symbol ratings units input voltage v in - 0.3 + 12.0 v output current i out 500 (*1) ma output voltage v out - 0.3 v in + 0.3 or +12.0 (*2) v power dissipation (*1) sot-89 pd 1000 (pcb mounted) (*3) mw operating ambient temperature topr -40 +85 storage temperature tstg -55 +125 all voltages are described based on v ss . (*1) i out Q pd/ (v in -v out ) (*2) the maximum value should be either v in +0.3 or +12.0 in the lowest (*3) the power dissipation figure shown is pcb mo unted. please refer to page 14 for details. ta = 2 5 4/16 XC62FJ series electrical characteristics parameter symbol conditions min typ max unit circuit output voltage v out(e) (*2) v in =v out(t) (*1) +1.0v i out = c1 (*6) ma e-1 (*5) v out(t) e-1 (*5) v maximum output current i outmax v in =v out(t) +1.0v v out(e) R v out(t) 0.9 e-2 (*5) - - ma load regulation ? v out v in =v out(t) +1.0v 1ma Q i out Q c2 (*6) ma - e-3 (*5) mv dropout voltage1 vdif1 (*3) i out = c3 (*6) ma - e-4 (*5) mv dropout voltage2 vdif2 (*3) i out = c4 (*6) ma - e-5 (*5) mv consumption current i ss v in =v out(t) +1.0v - 2.0 e-6 (*5) a line regulation ? v out / ( ? v in ? v out ) v out(t) +1.0v Q v in Q 10.0v i out = c5 (*6) ma - 0.2 0.3 %/v input voltage (*6) v in - 1.8 - 10 v - output voltage temperature characteristics ? v out / ( ? topr ? v out ) i out = c1 (*6) ma -40 Q topr Q 85 - 100 - ppm/ (*1) v out(t) is nominal output voltage (*2) v out(e) is effective output voltage (i.e. the output voltage when (v out(t) + 1.0v) is provided at the v in pin while maintaining a certain i out value.) (*3) vdif={v in1 v out1 } v in1 is the input voltage when v out1 appears at the v out pin while input voltage is gradually decreased. v out1 is the voltage equal to 98% of the normal output voltage when amply stabilized v out(t) +1.0v is input at the v in pin. (*4) over 1.8v input voltage (minimum operation voltage) is required when the v out is lower than 1.8v. (*5) refer to the voltage chart (*6) refer to the voltage conditions chart ta = 2 5 5/16 XC62FJ series electrical characteristics voltage chart symbol e-1 e-2 e-3 e-4 e-5 e-6 nominal output voltage output voltage maximum output current load regulation dropout voltage1 dropout voltage2 consumption current (v) (ma) (mv) (mv) (mv) ( a) v out(t) v out(e) i outmax ? v out vdif1 vdif2 i ss min. max. min. typ. max. typ. max. typ. max. max. 1.7 1.666 1.734 80 10 30 200 370 450 710 5.0 1.8 1.764 1.836 80 10 30 200 370 450 710 5.0 1.9 1.862 1.938 80 10 30 200 370 450 710 5.0 2.0 1.960 2.040 100 15 40 200 370 450 710 5.0 2.1 2.058 2.142 100 15 40 200 370 450 710 5.0 2.2 2.156 2.244 100 15 40 200 370 450 710 5.0 2.3 2.254 2.346 100 15 40 200 370 450 710 5.0 2.4 2.352 2.448 100 15 40 200 370 450 710 5.0 2.5 2.450 2.550 100 15 40 200 370 450 710 5.0 2.6 2.548 2.652 100 15 40 200 370 450 710 5.0 2.7 2.646 2.754 100 15 40 200 370 450 710 5.0 2.8 2.744 2.856 100 15 40 200 370 450 710 5.0 2.9 2.842 2.958 100 15 40 200 370 450 710 5.0 3.0 2.940 3.060 150 20 50 200 360 450 700 5.0 3.1 3.038 3.162 150 20 50 200 360 450 700 5.0 3.2 3.136 3.264 150 20 50 200 360 450 700 5.0 3.3 3.234 3.366 150 20 50 200 360 450 700 5.0 3.4 3.332 3.468 150 20 50 200 360 450 700 5.0 3.5 3.430 3.570 150 20 50 200 360 450 700 5.0 3.6 3.528 3.672 150 20 50 200 360 450 700 5.0 3.7 3.626 3.774 150 20 50 200 360 450 700 5.0 3.8 3.724 3.876 150 20 50 200 360 450 700 5.0 3.9 3.822 3.978 150 20 50 200 360 450 700 5.0 4.0 3.920 4.080 180 25 60 180 350 420 630 6.0 4.1 4.018 4.182 180 25 60 180 350 420 630 6.0 4.2 4.116 4.284 180 25 60 180 350 420 630 6.0 4.3 4.214 4.386 180 25 60 180 350 420 630 6.0 4.4 4.312 4.488 180 25 60 180 350 420 630 6.0 4.5 4.410 4.590 180 25 60 180 350 420 630 6.0 4.6 4.508 4.692 180 25 60 180 350 420 630 6.0 4.7 4.606 4.794 180 25 60 180 350 420 630 6.0 4.8 4.704 4.896 180 25 60 180 350 420 630 6.0 4.9 4.802 4.998 180 25 60 180 350 420 630 6.0 5.0 4.900 5.100 200 30 70 160 340 400 600 6.0 5.1 4.998 5.202 200 30 70 160 340 400 600 6.0 5.2 5.096 5.304 200 30 70 160 340 400 600 6.0 5.3 5.194 5.406 200 30 70 160 340 400 600 6.0 5.4 5.292 5.508 200 30 70 160 340 400 600 6.0 5.5 5.390 5.610 200 30 70 160 340 400 600 6.0 5.6 5.488 5.712 200 30 70 160 340 400 600 6.0 5.7 5.586 5.814 200 30 70 160 340 400 600 6.0 5.8 5.684 5.916 200 30 70 160 340 400 600 6.0 5.9 5.782 6.018 200 30 70 160 340 400 600 6.0 6.0 5.880 6.120 200 30 70 150 330 400 600 6.0 6/16 XC62FJ series electrical characteristics (continued) voltage conditions chart nominal output voltage c1 c2 c3 c4 c5 output voltage load regulation dropout voltage1 dropout voltage2 line regulation v out(t) i out (ma) i out (ma) i out (ma) i out (ma) i out (ma) 1.7 40 40 40 80 40 1.8 40 40 40 80 40 1.9 40 40 40 80 40 2.0 40 60 60 120 40 2.1 40 60 60 120 40 2.2 40 60 60 120 40 2.3 40 60 60 120 40 2.4 40 60 60 120 40 2.5 40 60 60 120 40 2.6 40 60 60 120 40 2.7 40 60 60 120 40 2.8 40 60 60 120 40 2.9 40 60 60 120 40 3.0 40 80 80 160 40 3.1 40 80 80 160 40 3.2 40 80 80 160 40 3.3 40 80 80 160 40 3.4 40 80 80 160 40 3.5 40 80 80 160 40 3.6 40 80 80 160 40 3.7 40 80 80 160 40 3.8 40 80 80 160 40 3.9 40 80 80 160 40 4.0 40 100 100 200 40 4.1 40 100 100 200 40 4.2 40 100 100 200 40 4.3 40 100 100 200 40 4.4 40 100 100 200 40 4.5 40 100 100 200 40 4.6 40 100 100 200 40 4.7 40 100 100 200 40 4.8 40 100 100 200 40 4.9 40 100 100 200 40 5.0 40 100 100 200 40 5.1 40 100 100 200 40 5.2 40 100 100 200 40 5.3 40 100 100 200 40 5.4 40 100 100 200 40 5.5 40 100 100 200 40 5.6 40 100 100 200 40 5.7 40 100 100 200 40 5.8 40 100 100 200 40 5.9 40 100 100 200 40 6.0 40 100 100 200 40 7/16 XC62FJ series test circuits circuit circuit operational explanation 8/16 XC62FJ series notes on use 1. for temporary, transitional voltage drop or voltage rising phen omenon, the ic is liable to malfunction should the ratings be exceeded. 2. where wiring impedance is high, operations may become unst able due to noise and/or phase lag depending on output current. 3. an oscillation may occur by the impedance between a power supply and the input of the ic. where the impedance is 10 ? or more, please use an input capacitor (c in ) of at least 1 f. in case of high output current, operation can be stabilized by increasing the input capacitor value. also an oscillation may occur if the input capacitor value is smaller than the input impedance when the output capacitance (c l ) is large. in such cases, operations can be stabilized by either increasing the input capacitor value or reducing the output capacitor value. 4. torex places an importance on improvi ng our products and their reliability. we request that users incorporate fail-safe designs and post- aging prevention treatment when us ing torex products in their systems. 9/16 XC62FJ series typical performance characteristics (1)output voltage vs. output curren t (2) output voltage vs. input voltage (3)dropout voltage vs. output current (4)consumption current vs. input voltage 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0 100 200 300 400 500 output voltage: v out (v) output current: i out (ma) XC62FJ3302pr-g ta=-40 ta=25 ta=85 v in =4.3v c in =c l =1.0uf(ceramic) 2.5 2.7 2.9 3.1 3.3 3.5 2.8 3.3 3.8 output voltage: v out (v) input voltage: v in (v) XC62FJ3302pr-g iout=0ma iout=1ma iout=10ma iout=40ma ta=25 c in =c l =1.0uf(ceramic) 3.0 3.1 3.2 3.3 3.4 3.5 45678910 output voltage: v out (v) input voltage: v in (v) XC62FJ3302pr-g iout=0ma iout=1ma iout=10ma iout=40ma ta=25 c in =c l =1.0uf(ceramic) 0.0 0.5 1.0 1.5 2.0 2.5 3.0 0246810 consumption current: i ss (ua) input voltage: v in (v) XC62FJ3302pr-g ta=-40 ta=25 ta=85 0.0 0.2 0.4 0.6 0.8 1.0 0306090120150 dropout voltage: vdif(v) output current: i out (ma) XC62FJ3302pr-g ta=- 40 ta=25 ta=85 c in =c l =0.1uf(ceramic) 10/16 XC62FJ series typical performance characteristics (continued) (5)output voltage vs. ambient temperature (6)consumption current vs. ambient temperature 3.20 3.25 3.30 3.35 3.40 -40-20 0 20406080100 output voltage: v out (v) ambient temperature: ta( ) XC62FJ3302pr-g iout=0ma iout=1ma iout=10ma iout=40ma v in =4.3v c in =c l =1.0uf(ceramic) 1.0 1.5 2.0 2.5 3.0 3.5 4.0 -40-20 0 20406080100 consumption current: i ss (ua) ambient temperature: ta( ) XC62FJ3302pr-g v in =4.3v 11/16 XC62FJ series typical performance characteristics (continued) (7) input transient response (8) load transient response c in =1.0uf(ceramic) c l =1.0uf(ceramic) ta=25 time(100 s/div) time(100 s/div) tr=tf=5us v in =4.3v i out =0.1ma ? 40ma tr=tf=5us v in =4.3v i out =40ma ? 0.1ma XC62FJ3302pr-g XC62FJ3302pr-g c in =1.0uf(ceramic) c l =1.0uf(ceramic) ta=25 c in =1.0uf(ceramic) c l =1.0uf(ceramic) ta=25 time(200 s/div) time(400 s/div) XC62FJ3302pr-g tr=tf=5us v in =4.3v ? 5.3v i out =40ma tr=tf=5us v in =5.3v ? 4.3v i out =40ma XC62FJ3302pr-g c in =1.0uf(ceramic) c l =1.0uf(ceramic) ta=25 v in :1.0v/div v out :200mv/div v in :1.0v/div v out :200mv/div v out :200mv/div i out :50ma/div v out :200mv/div i out :50ma/div 12/16 XC62FJ series typical performance characteristics (continued) (9) rising response time (10) power supply rejection ratio (11) output noise density tr=5us v in =0v ? 4.3v i out =10ma tr=5us v in =0v ? 4.3v i out =40ma XC62FJ3302pr-g c l =1.0uf(ceramic) ta=25 time(100us/div) time(100us/div) XC62FJ3302pr-g c l =1.0uf(ceramic) ta=25 XC62FJ3302pr-g c l =1.0uf(ceramic) ta=25 time(100us/div) tr=5us v in =0v ? 4.3v i out =1ma v in :2.0v/div v out :2.0v/div v in :2.0v/div v out :2.0v/div v in :2.0v/div v out :2.0v/div 0 10 20 30 40 50 60 70 0.01 0.1 1 10 power supply rejection ratio : (db) frequency: f(khz) XC62FJ3302pr-g v in =4.3v+1.0v p-p ac i out =40ma c in =c l =1.0uf(ceramic) ta=25 0.01 0.1 1 10 0.1 1 10 100 output noise density:(uv/ hz) frequency:f(khz) XC62FJ3302pr-g v in =4.3v i out =40ma ta=25 c in =c l =1.0uf(ceramic) 13/16 XC62FJ series packaging information sot-89 unit : mm 2.50.1 4.00.25 1.50.1 (0.1) (0.4) 1.00.2 0.4) 1.85) 0.25) 14/16 XC62FJ series sot-89 power dissipation power dissipation data for the sot-89 is shown in this page. the value of power dissipation varies with the mount board conditions. please use this data as the reference data taken in the following condition. ambient temperature ( ) power dissipation pd (mw) thermal resistance ( /w) 25 1000 100.00 85 400 1. measurement condition condition: mount on a board ambient: natural convection soldering: lead (pb) free board: dimensions 40 x 40 mm (1600mm 2 in one side) copper (cu) traces occupy 50% of the board area in top and back faces package heat-sink is tied to the copper traces material: glass epoxy (fr-4) thickness: 1.6mm through-hole: 5 x 0.8 diameter evaluation board (unit: mm) 2. power dissipation vs. ambient temperature board mount (tjmax=125 ) pd vs ta 0 200 400 600 800 1000 1200 25 45 65 85 105 125 ambient temperature ta power dissipation pdmw 15/16 XC62FJ series marking rule sot-89 mark product series 7 XC62FJ******-g mark output voltage range (v) product series 0 1.7 3.0 XC62FJ******-g 1 3.1 6.0 mark output voltage(v) mark output voltage(v) 0 3.1 f 4.6 1 3.2 h 1.7 4.7 2 3.3 k 1.8 4.8 3 3.4 l 1.9 4.9 4 3.5 m 2.0 5.0 5 3.6 n 2.1 5.1 6 3.7 p 2.2 5.2 7 3.8 r 2.3 5.3 8 3.9 s 2.4 5.4 9 4.0 t 2.5 5.5 a 4.1 u 2.6 5.6 b 4.2 v 2.7 5.7 c 4.3 x 2.8 5.8 d 4.4 y 2.9 5.9 e 4.5 z 3.0 6.0 represents product series represents output voltage range represents output voltage range , represents assembly lot number 01 09, 0a 0z, 11 9z, a1 a9, aa az, b1 zz in repeated (g i j o q w excluded) * no character inversion used. sot-89 (top view) 123 16/16 XC62FJ series 1. the products and product specifications cont ained herein are subject to change without notice to improve performance characteristic s. consult us, or our representatives before use, to confirm that the informat ion in this datasheet is up to date. 2. we assume no responsibility for any infri ngement of patents, pat ent rights, or other rights arising from the use of any info rmation and circuitry in this datasheet. 3. please ensure suitable shipping controls (including fail-safe designs and aging protection) are in force for equipment employing products listed in this datasheet. 4. the products in this datasheet are not devel oped, designed, or approved for use with such equipment whose failure of malfuncti on can be reasonably expected to directly endanger the life of, or cause significant injury to, the user. (e.g. atomic energy; aerospace; transpor t; combustion and associated safety equipment thereof.) 5. please use the products listed in this datasheet within the specified ranges. should you wish to use the products under conditions exceeding the specifications, please consult us or our representatives. 6. we assume no responsibility for damage or loss due to abnormal use. 7. all rights reserved. no part of this dat asheet may be copied or reproduced without the prior permission of torex semiconductor ltd. |
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