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? 2016 microchip technology inc. ds20005578a-page 1 mic5200 features ? high output voltage accuracy ? variety of output voltages ? guaranteed 100 ma output ? low quiescent current ? low dropout voltage ? extremely tight load and line regulation ? very low temperature coefficient ? current and thermal limiting ? zero off mode current ? logic-controlled electronic shutdown ? available in 8-lead soic, mm8 8-lead msop, and sot-223 packages applications ? cellular telephones ? laptop, notebook, and palmtop computers ? battery-powered equipment ? pcmcia v cc and v pp regulation/switching ? barcode scanners ? smps post-regulator/dc-to-dc modules ? high efficiency linear power supplies general description the mic5200 is an efficient linear voltage regulator with very low dropout voltage (typically 17 mv at light loads and 200 mv at 100 ma), and very low ground current (1 ma at 100 ma output), offering better than 1% initial accuracy with a logic-compatible on/off switching input. designed especially for hand-held battery-powered devices, th e mic5200 is switched by a cmos- or ttl-compatible logic signal. the enable control may be tied directly to v in if unneeded. when disabled, power consumption drops nearly to zero. the ground current of the mic52 00 increases only slightly in dropout, further prolonging battery life. key mic5200 features include protecti on against reversed battery, current limiting, and ov ertemperature shutdown. the mic5200 is available in several fixed voltages and accuracy configurations. other options are available; contact microchip for details. typical application schematic mic5200-3.3 enable output 1f 100 ma low-dropout regulator
mic5200 ds20005578a-page 2 ? 2016 microchip technology inc. 1.0 electrical characteristics absolute maximum ratings ? input supply voltage ........................................................................................................... ........................ ?20v to +60v enable input voltage ........................................................................................................... ........................ ?20v to +60v power dissipation............................................. ................................................................. .....................internally limited operating ratings ? input voltage .................................................................................................................. ............................ +2.5v to +26v enable input voltage ........................................................................................................... ........................... ?20v to v in ? notice: stresses above those listed under ?absolute maximu m ratings? may cause permanent damage to the device. this is a stress rating only and functiona l operation of the device at those or an y other conditions above those indicated in the operational sections of this s pecification is not intended. exposure to maximum rating conditions for extended periods may affect device reliability. ? notice: the device is not guaranteed to func tion outside its operating ratings.
? 2016 microchip technology inc. ds20005578a-page 3 mic5200 table 1-1: electrical characteristics electrical characteristics: limits in standard typeface are for t j = 25c and limits in boldface apply over the junction temperature range of ?40c to +125c. unless othe rwise specified, v in = v out + 1v, i l = 1 ma, c l = 3.3 f, and v enable = v dd . ( note 1 ) . parameters sym. min. ty p. max. units conditions output voltage accuracy v o ?1 ? 1 % variation from specified v out ?2 ? 2 output voltage temperature coefficient ? v o / ? t? 40 150 ppm/c note 2 line regulation ? v o /v in ? 0.004 0.10 %v in = v out + 1v to 26v ?? 0.40 load regulation ? v o /v out ? 0.04 0.16 %i l = 0.1ma to 100ma ( note 3 ) ?? 0.30 dropout voltage ( note 4 )v in ? v o ?17? mv i l = 100 a ?130? i l = 20 ma ?150? i l = 30 ma ?190? i l = 50 ma ?230 350 i l = 100 ma quiescent current i gnd ?0.0110 av enable 0.7v (shutdown) ground pin current i gnd ?130? a v enable = v dd , i l = 100 a ?270350 i l = 20 ma ?330? i l = 30 ma ?500? i l = 50 ma ? 1000 1500 i l = 100 ma ripple rejection psrr ? 70 ? db ? ground pin current at dropout i gnddo ?270 330 a v in = 0.5v less than specified v out , i l = 100 a ( note 5 ) current limit i limit 100 250 ?ma v out = 0v thermal regulation ? v o / ? p d ?0.05?%/w note 6 output noise e n ?100? v ? note 1: specification for packaged product only. 2: output voltage temperature coefficient is defined as the worst case voltage change divided by the total temperature range. 3: regulation is measured at constant junction temper ature using low duty cycle pulse testing. parts are tested for load regulation in the load range from 0.1 ma to 100 ma. changes in output voltage due to heating effects are covered by the thermal regulation specification. 4: dropout voltage is defined as the input to output differen tial at which the output voltage drops 2% below its nominal value measured at 1v differential. 5: ground pin current is the regulator quiescent current plus pass transistor base current. the total current drawn from the supply is the sum of the load current plus the ground pin current. 6: thermal regulation is defined as the change in output voltage at a time (t) after a change in power dissipa- tion is applied, excluding load or line regulation ef fects. specifications are for a 100 ma load pulse at v in = 26v for t = 10 ms.
mic5200 ds20005578a-page 4 ? 2016 microchip technology inc. enable input input voltage level, logic low v il ??0.7 v off input voltage level, logic high v ih 2.0 ? ? on enable input current i il ?0.01 1 a v il 0.7v i ih ?15 50 v ih 2.0v table 1-1: electrical characteristics (continued) electrical characteristics: limits in standard typeface are for t j = 25c and limits in boldface apply over the junction temperature range of ?40c to +125c. unless otherwise specified, v in = v out + 1v, i l = 1 ma, c l = 3.3 f, and v enable = v dd . ( note 1 ) . parameters sym. min. typ. max. units conditions note 1: specification for packaged product only. 2: output voltage temperature coefficient is defined as the worst case voltage change divided by the total temperature range. 3: regulation is measured at constant junction temper ature using low duty cycle pulse testing. parts are tested for load regulation in the load range from 0.1 ma to 100 ma. changes in output voltage due to heating effects are covered by the thermal regulation specification. 4: dropout voltage is defined as the input to output differ ential at which the output voltage drops 2% below its nominal value measured at 1v differential. 5: ground pin current is the regulator quiescent current plus pass transistor base current. the total current drawn from the supply is the sum of the load current plus the ground pin current. 6: thermal regulation is defined as the change in output voltage at a time (t) after a change in power dissipa- tion is applied, excluding load or line regulation ef fects. specifications are for a 100 ma load pulse at v in = 26v for t = 10 ms.
? 2016 microchip technology inc. ds20005578a-page 5 mic5200 temperature specifications parameters sym. min. typ. max. units conditions temperature ranges junction operating temperature range t j ?40 ? +125 c note 1 lead temperature ? ? ? +260 c soldering, 5s package thermal resistances thermal resistance, sot-223 ? jc ?15 ?c/w? thermal resistance, soic-8 ? ja ?160 ?c/w note 2 note 1: the maximum allowable power dissipation is a functi on of ambient temperature, the maximum allowable junction temperature and the thermal resistance from junction to air (i.e., t a , t j , ? ja ). exceeding the maximum allowable power dissipation will cause the dev ice operating junction te mperature to exceed the maximum +125c rating. sustained junction temperat ures above +125c can impa ct the device reliability. 2: the maximum allowable power dissipation at any ambient temperature is calculated using: p (max) = (t j(max) ? t a ) ja . exceeding the maximum allowable power dissi pation will result in excessive die tem- perature, and the regulator will go into thermal shutdown. the jc of the mic5200-x.xys is 15c/w and ja for the mic5200ym is 160c/w mounted on a pc board (see thermal considerations for further details).
mic5200 ds20005578a-page 6 ? 2016 microchip technology inc. 2.0 typical performance curves figure 2-1: dropout voltage vs. output current. figure 2-2: dropout voltage vs. temperature. figure 2-3: dropout characteristics. figure 2-4: ground current vs. output current. figure 2-5: ground current vs. supply voltage. figure 2-6: output voltage vs. output current. note: the graphs and tables provided following this note ar e a statistical summary based on a limited number of samples and are provided for informational purposes only. the performance char acteristics listed herein are not tested or guaranteed. in some graphs or t ables, the data presented may be outside the specified operating range (e.g., outside specified power suppl y range) and therefore outs ide the warranted range. 0 50 100 150 200 250 0.01 0.1 1 10 100 1000 dropout voltage (mv) output current (ma) 0.0 0.1 0.2 0.3 0.4 -60 -30 0 30 60 90 120 150 dropout voltage (v) temperature ( c) i l = 100ma i l = 1ma 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0246810 output voltage (v) input voltage (v) i l = 100ma i l = 100 a, 1ma 0.1 1 10 0.01 0.1 1 10 100 ground current (ma) output current (ma) 0.0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 0246810 ground current (ma) supply voltage (v) i l = 100ma i l = 1ma 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0.0 0.1 0.2 0.3 output voltage (v) output current (a) c in = 2.2 f c out = 4.7 f
? 2016 microchip technology inc. ds20005578a-page 7 mic5200 figure 2-7: ground current vs. temperature. figure 2-8: ground current vs. temperature. figure 2-9: thermal regulation (3.3v version). figure 2-10: output voltage vs. temperature (3.3v version). figure 2-11: output current vs. temperature. figure 2-12: minimum input voltage vs. temperature. 0.15 0.20 0.25 0.30 -60 -30 0 30 60 90 120 150 ground current (ma) temperature ( c) i load = 100 a c in = 2.2 f c out = 4.7 f 1.0 1.1 1.2 1.3 1.4 1.5 -50 0 50 100 150 ground current (ma) temperature ( c) i load = 100ma c in = 2.2 f c out = 4.7 f -100 0 100 200 -5 0 5 10 15 20 25 30 35 load (ma) time (ms) -50 0 50 100 output (mv) c l = 4.7 f 3.0 3.1 3.2 3.3 3.4 3.5 3.6 -60 -30 0 30 60 90 120 150 output voltage (v) temperature ( c) c in = 2.2 f c out = 4.7 f 3 devices: hi / avg / lo curves applicable at 100 a and 100ma 100 120 140 160 180 200 220 240 260 280 300 -60 -30 0 30 60 90 120 150 output current (ma) temperature ( c) v out = 0v (short circuit) v out = 3.3v 3.20 3.21 3.22 3.23 3.24 3.25 3.26 3.27 3.28 3.29 3.30 -60 -30 0 30 60 90 120 150 min. input voltage (v) temperature ( c) c in = 2.2 f c out = 4.7 f i load = 1ma
mic5200 ds20005578a-page 8 ? 2016 microchip technology inc. figure 2-13: short circuit current vs. input voltage . figure 2-14: load transient . figure 2-15: load transient. figure 2-16: supply current vs. supply voltage (3.3v version) . figure 2-17: line transient . figure 2-18: line transient . 0 50 100 150 200 250 300 1234567 short circuit current (ma) input voltage (v) c in = 2.2 f c out = 4.7 f v out = 3.3v -30 -20 -10 0 10 20 output (mv) 0 100 200 300 -2 0246810 output (ma) time (ms) c l = 4.7 f 0 100 200 300 -10 0 10203040 output (ma) time (ms) -30 -20 -10 0 10 20 output (mv) c l = 47 f 0 20 40 60 80 100 120 012345678910 supply current (ma) supply voltage (v) r l = 33 -10 -5 0 5 10 output (mv) 2 4 6 8 -0.2 0 0.2 0.4 0.6 0.8 input (v) time (ms) c l = 1 f i l = 1ma -5 0 5 10 15 output (mv) 2 4 6 8 -0.1 0 0.1 0.2 0.3 0.4 0.5 0.6 input (v) time (ms) c l = 10 f i l = 1ma
? 2016 microchip technology inc. ds20005578a-page 9 mic5200 figure 2-19: supply current vs. supply voltage (3.3v version). figure 2-20: enable transient (3.3v version). figure 2-21: enable transient (3.3v version). figure 2-22: output impedance. figure 2-23: enable current threshold vs. temperature. figure 2-24: enable voltage threshold vs. temperature. 0 10 20 30 40 50 60 01234567 supply current (ma) supply voltage (v) r l = 66 -1 0 1 2 3 4 5 output (v) -2 0 2 4 -50 0 50 100 150 200 250 300 enable (v) time ( s) c l = 4.7 f i l = 1ma -1 0 1 2 3 4 5 output (v) -2 0 2 4 -50 0 50 100 150 200 250 300 enable (v) time ( s) c l = 4.7 f i l = 100ma 0.001 0.01 0.1 1 10 100 1000 1x10 0 10x10 0 100x10 0 1x10 3 10x10 3 100x10 3 1x10 6 output impedance ( ) frequency (hz) i l = 100 a i l = 1ma i l = 100ma -5 0 5 10 15 20 25 30 35 -60 -30 0 30 60 90 120 150 enable current ( a) temperature ( c) c in = 2.2 f c out = 4.7 f v en = 2v v en = 5v 0.4 0.6 0.8 1 1.2 1.4 1.6 -60 -30 0 30 60 90 120 150 enable voltage (v) temperature ( c) c in = 2.2 f c out = 4.7 f off on
mic5200 ds20005578a-page 10 ? 2016 microchip technology inc. figure 2-25: ripple vs. frequency. figure 2-26: ripple vs. frequency. figure 2-27: ripple vs. frequency. 0 20 40 60 80 100 10x10 0 100x10 0 1x10 3 10x10 3 100x10 3 1x10 6 ripple voltage (db) frequency (hz) i l = 100 a 0 20 40 60 80 100 10x10 0 100x10 0 1x10 3 10x10 3 100x10 3 1x10 6 ripple voltage (db) frequency (hz) i l = 1ma 0 20 40 60 80 100 10x10 0 100x10 0 1x10 3 10x10 3 100x10 3 1x10 6 ripple voltage (db) frequency (hz) i l = 100ma
? 2016 microchip technology inc. ds20005578a-page 11 mic5200 3.0 pin descriptions the descriptions of the pins are listed in table 3-1 . package types table 3-1: pin function table pin number sot-223 pin number soic-8, msop-8 pin name description 3 1, 2 out output: pins 1 and 2 (soic-8, msop-8 packages) must be externally connected together. ? 3, 6 nc not internally connected. co nnect to ground place for lowest thermal resistance. 2, tab 4 gnd ground: ground pin and tab (sot-223 package) are internally connected. ? 5 en enable/shutdown (input): ttl-compatible. high = enabled; low = shutdown. 1 7, 8 in supply input: pins 7 and 8 (soic-8, msop-8 packages) must be externally connected together. 1 23 in gnd out mic5200-x.xys sot-223 (s) (top view) gnd out in en out nc in nc mic5200-x.xym soic-8 (m) mic5200-x.xymm msop-8 (mm) (top view)
mic5200 ds20005578a-page 12 ? 2016 microchip technology inc. 4.0 application information 4.1 external capacitors a 1 f capacitor is recommended between the mic5200 output and ground to prevent oscillations due to instability. larger values serve to improve the regulator's transient respons e. most types of tantalum or aluminum electrolytics will be adequate; film types will work, but are costly and therefore not recommended. many aluminum electrolytics have electrolytes that freeze at about ?30c, so solid tantalum capacitors are recommended for operation below ?25c. the important parameters of the capacitor are an effective series resistance of about 5 ? or less and a resonant frequency above 500 khz. the value of this capacitor may be increased without limit. at lower values of output current, less output capacitance is required for output stability. the capacitor can be reduced to 0.47 f for current below 10 ma or 0.33 f for currents below 1 ma. a 1 f capacitor should be placed from the mic5200 input to ground if there is more than 10 inches of wire between the input and the ac filter capacitor or if a battery is used as the input. the mic5200 will remain stable and in regulation with no load in addition to the internal voltage divider, unlike many other voltage regulators. this is especially important in cmos ram keep-alive applications. when used in dual supply systems where the regulator load is returned to a negativ e supply, the output voltage must be diode clamped to ground. 4.2 enable input the mic5200 features nearly zero off mode current. when the enable input is held below 0.7v, all internal circuitry is powered off. pulling this pin high (over 2.0v) re-enables the device and allows operation. the enable pin requires a small amount of current, typically 15 a. while the logic threshold is ttl/cmos compatible, enable may be pulled as high as 30v, independent of the voltage on v in .
? 2016 microchip technology inc. ds20005578a-page 13 mic5200 5.0 thermal considerations 5.1 layout the mic5200-x.xym (8-pin surface mount package) has the following thermal characteristics when mounted on a single-layer copper-clad printed circuit board. multi-layer boards having a ground plane, wide traces near the pads, and large supply bus lines provide better thermal conductivity. the "worst case" value of 160 c/w assumes no ground plane, minimum trace widths, and a fr4 material board. 5.2 nominal power dissipation and die temperature the mic5200-x.xym at a 25c ambient temperature will operate reliably at up to 625 mw power dissipation when mounted in the "worst case" manner described above. at an ambient temperature of 55c, the device may safely dissipate 440 mw. these power levels are equivalent to a die temperature of 125c, the recommended maximum temperature for non-military grade silicon integrated circuits. for mic5200-x.xys (sot-223 package) heat sink characteristics, please refer to application hint 17, ?calculating p.c. board heat sink area for surface mount packages?. pc board dielectric ? ja fr4 160 c/w ceramic 120 c/w
mic5200 ds20005578a-page 14 ? 2016 microchip technology inc. 6.0 packaging information 6.1 package marking information xxxx xxym yywwc 8-pin soic* 5200 30ym 1610c example xxxx x.xysyww p sot-223* 5200 3.0ys618 p example xxxx x.xy 8-pin msop* 5200 3.3y example leend: xx...x product code or cust omer-specific information y year code (last digit of calendar year) yy year code (last 2 digits of calendar year) ww week code (week of january 1 is week ?01?) nnn alphanumeric traceability code pb-free jedec ? designator for matte tin (sn) * this package is pb-free. the pb -free jedec designator ( ) can be found on the outer packaging for this package. , , pin one index is identified by a dot, delta up, or delta down (triangle mark). note : in the event the full microchip part numbe r cannot be marked on one line, it will be carried over to the next line, t hus limiting the number of available characters for customer-specific informa tion. package may or may not include the corporate logo. underbar (_) symbol may not be to scale. 3 e 3 e
? 2016 microchip technology inc. ds20005578a-page 15 mic5200 sot-223 package outline and recommended land pattern note: for the most current package drawings, please see the microchip packaging specification located at http://www.microchip.com/packaging
mic5200 ds20005578a-page 16 ? 2016 microchip technology inc. 8-lead msop package outline and recommended land pattern note: for the most current package drawings, please se e the microchip packaging specification located at http://www.microchip.com/packaging
? 2016 microchip technology inc. ds20005578a-page 17 mic5200 8-lead soic-n package outline and recommended land pattern note: for the most current package drawings, please see the microchip packaging specification located at http://www.microchip.com/packaging
mic5200 ds20005578a-page 18 ? 2016 microchip technology inc.
? 2016 microchip technology inc. ds20005578a-page 19 mic5200 appendix a: revision history revision a (july 2016) ? converted micrel docu ment mic5200 to micro- chip data sheet ds20005578a. ? minor text changes throughout.
mic5200 ds20005578a-page 20 ? 2016 microchip technology inc. notes:
? 2016 microchip technology inc. ds20005578a-page 21 mic5200 product identification system to order or obtain information, e.g., on pricing or delivery, contact your local microchip representative or sales office . examples: a) mic5200-3.0ym: 100 ma low-dropout reg- ulator, 3.0v voltage, ?40c to +125c temp. range, 8- pin soic, 95/tube b) mic5200-4.8ym-tr: 100 ma low-dropout reg- ulator, 4.85 voltage, ?40c to +125c temp. range, 8- pin soic, 2,500/reel c) mic5200-3.3ymm: 100 ma low-dropout regu- lator, 3.3v voltage, ?40c to +125c temp. range, 8- pin msop, 95/tube d) mic5200-5.0ymm-tr: 100 ma low-dropout reg- ulator, 5.0v voltage, ?40c to +125c temp. range, 8- pin msop, 2,500/reel e) mic5200-3.3ys: 100 ma low-dropout reg- ulator, 3.3v voltage, ?40c to +125c temp. range, sot-223, 95/tube f) mic5200-5.0ys-tr 100 ma low-dropout regulator, 5.0v voltage, ?40 c to +125c temp. range, sot-223, 2,500/ reel part no. x x package device device: mic5200: 100 ma low-dropout regulator voltage: ( note 1 ) 3.0 = 3.0v 3.3 = 3.3v 4.8 = 4.8v 5.0 = 5.0v temperature: y = ?40c to +125c package: m = 8-pin soic mm = 8-pin msop s= sot-223 media type: tr = 2,500/reel blank= 95/tube x.x ? voltage x temperature note 1: the 8-pin msop package (mm) is only available in 3.3v and 5.0v options. x.x ? media type
mic5200 ds20005578a-page 22 ? 2016 microchip technology inc. notes:
? 2016 microchip technology inc. ds20005578a-page 23 information contained in this publication regarding device applications and the like is prov ided only for your convenience and may be superseded by updates. it is your responsibility to ensure that your application me ets with your specifications. microchip makes no representations or warranties of any kind whether express or implied, written or oral, statutory or otherwise, related to the information, including but not limited to its condition, quality, performance, merchantability or fitness for purpose . microchip disclaims all liability arising from this information and its use. use of microchip devices in life support and/or safe ty applications is entirely at the buyer?s risk, and the buyer agrees to defend, indemnify and hold harmless microchip from any and all damages, claims, suits, or expenses resulting fr om such use. no licenses are conveyed, implicitly or ot herwise, under any microchip intellectual property rights unless otherwise stated. trademarks the microchip name and logo, the microchip logo, anyrate, dspic, flashflex, flexpwr, heldo, jukeblox, keeloq, keeloq logo, kleer, lancheck, link md, medialb, most, most logo, mplab, optolyzer, pic, picstart, pic32 logo, righttouch, spynic, sst, sst logo, superflash and uni/o are registered trademarks of microchip technology incorporated in the u.s.a. and other countries. clockworks, the embedded control solutions company, ethersynch, hyper speed control, hyperlight load, intellimos, mtouch, precision edge, and quiet-wire are registered trademarks of microc hip technology incorporated in the u.s.a. analog-for-the-digital age, any capacitor, anyin, anyout, bodycom, chipkit, chipkit logo, codeguard, dspicdem, dspicdem.net, dynamic average matching, dam, ecan, ethergreen, in-circuit serial programming, icsp, inter-chip connectivity, jitterblocker, kleernet, kleernet logo, miwi, motorbench, mpasm, mpf, mplab certified logo, mplib, mplink, multitrak, netdetach, omniscient code generation, picdem, picdem.net, pickit, pictail, puresilicon, righttouch logo, real ice, ripple blocker, serial quad i/o, sqi, superswitcher, superswitcher ii, total endurance, tsharc, usbcheck, varisense, viewspan, wiperlock, wireless dna, and zena are trademarks of microchip technology incorporated in the u.s.a. and other countries. sqtp is a service mark of mi crochip technology incorporated in the u.s.a. silicon storage technology is a registered trademark of microchip technology inc. in other countries. gestic is a registered tradem arks of microchip technology germany ii gmbh & co. kg, a subsidiary of microchip technology inc., in other countries. all other trademarks mentioned herein are property of their respective companies. ? 2016, microchip technology incorporated, printed in the u.s.a., all rights reserved. isbn: 978-1-5224-0785-0 note the following details of the code protection feature on microchip devices: ? microchip products meet the specification cont ained in their particular microchip data sheet. ? microchip believes that its family of products is one of the mo st secure families of its kind on the market today, when used i n the intended manner and under normal conditions. ? there are dishonest and possibly illegal meth ods used to breach the code protection fe ature. all of these methods, to our knowledge, require using the microchip pr oducts in a manner outside the operating specif ications contained in microchip?s data sheets. most likely, the person doing so is engaged in theft of intellectual property. ? microchip is willing to work with the customer who is concerned about the integrity of their code. ? neither microchip nor any other semiconduc tor manufacturer can guarantee the security of their code. code protection does not mean that we are guaranteeing the product as ?unbreakable.? code protection is constantly evolving. we at microchip are committed to continuously improving the code protection features of our products. attempts to break microchip?s c ode protection feature may be a violation of the digital millennium copyright act. if such acts allow unauthorized access to your softwa re or other copyrighted work, you may have a right to sue for relief under that act. microchip received iso/ts-16949:2009 certification for its worldwide headquarters, design and wafer fabrication facilities in chandler and tempe, arizona; gresham, oregon and design centers in california and india. the company?s quality system processes and procedures are for its pic ? mcus and dspic ? dscs, k ee l oq ? code hopping devices, serial eeproms, microper ipherals, nonvolatile memory and analog products. in addition, microchip?s quality system for the design and manufacture of development systems is iso 9001:2000 certified. quality management s ystem by dnv == iso/ts 16949 ==
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