power management � sc5014 high efciency 4-channel hb led driver with i 2 c interface and phase-shifte d pwm dim ming revisionf2.0 features inputfvoltageff4.5vftof27vf outputfvoltageffupftof50v step-upf(boost)fcontroller ultra-fastftransientfresponsef(< � 00s) programmablefswitchingffrequency linearfcurrentfsinks 4fstrings,fupftof � 20ma/string currentfmatchingf �%f currentfaccuracyf2%f pwmfdimming string-by-stringfphasefshifting inputfdimmingffrequencyf � 00hz-30khz userfselectablef9forf � 0-bitsfdimmingfresolution 5-bitsfanalogfdimming i 2 cfinterface faultfstatusffopen/shortfled,fuvlo,fotp devicefcontrol:fpllfsetting protectionffeatures open/shortedfled(s)fandfadjustablefovpf over-temperaturefandfuvlofshutdownfprotection 4mmfxf4mmf20-pinfqfnfpackage applications ultrabooks tm ,f all-in-onef pcs,f monitors,f automotive - displayfbacklighting backlightingfforfmid-sizefdisplays ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? description thefsc50 � 4fisfaf4-channel,fhighlyfintegrated,fhigh-ef - ciencyfstep-upf(boost)fhbfledfdriverfdesignedftofreducef thefthicknessfoffmid-sizeflcdfdisplays.fitffeaturesfafwidef inputfvoltagefrangef(4.5vftof27v),fphase-shiftedfpwmf dimming,fanalogfdimming,faffexiblefoutputfconfgura - tion,fanfi 2 cfinterface,fandfnumerousfprotectionffeatures.f thefsc50 � 4fexhibitsf2%ftof4%fhigherfefficiencyfwhenf usingfthefsamefsizefinductorsfasfexistingfledfdrivers.fbut,f unlikefexistingfdevices,fitfcanfalsofoperatefwithfinductorsf thatfarefupftof � 0xfsmallerfwithoutfsacrifcingfefciency.f thisfpartfcanfalsofusefveryflow-proflefinductorsf(asfsmallf asf2.2h,f � mmfheight),fwhichfallowsfledfdriversftofbef builtf directlyf intof thef lcdf panelf tof enablef ultra-thinf displays.f thefboostfcontroller,fwithfprogrammablefswitchingffre - quencyffromf200khzftof2.2mhz,fmaximizesfefciencyfbyf dynamicallyfminimizingfthefoutputfvoltagefwhilefmain - tainingfledfstringfcurrentfaccuracy.fitfprovidesfexcellentf linefandfloadfresponsefwithfnofexternalfcompensationf components.fanfexternalfresistorfadjustsfthefcurrentffromf 20-� 20mafperfstring.fitfalsoffeaturesfpwmfdimmingfreso - lutionfoff9forf � 0-bitsf(userfselectable)foverfafdimmingffre - quencyffromf � 00hzftof20khz,fsynchronizedftofthefboostf oscillator.f string-by-stringf phasef shiftingf reducesf thef demandfonfthefinput/outputfcapacitance,fdecreasesfemi,f andfimprovesfdimmingflinearity. uvlo e - pad iset fset cpll scp sc 5014 r 3 r 6 flt c 3 ref flt vcc pgnd r 11 r 7 c 4 r 10 r 1 r 2 ovp io 4 r 9 r 8 v in = 4 . 5 to 27 v up to 120 ma / string io 1 io 2 io 3 c 5 r 5 pwmi pwmi sda scl for i 2 c en en l 1 q 1 r 4 ndrv cs d 1 v out up to 50 v v cc = 4 . 5 to 5 . 5 v typical application circuit
sc5014 2 pin confguration marking information ordering information device package sc50� 4mltrt (�)(2) mlpq-20f44 sc50� 4evb evaluationfboard notes: (�)f availablefinftapefandfreelfonly.ffafreelfcontainsf3,000fdevices. (2)f lead-freefpackagingfonly.ffdevicefisfweeefandfrohsfcompliant,f andfhalogenffree. agnd ovp 15 io 1 14 io 2 13 io 3 12 io 4 11 e n 20 c s 16 p g n d 17 18 v c c 19 uvlo 1 scp 2 ref 3 fset 4 cpll 5 p w m i 10 i s e t 8 f l t 9 s d a 7 s c l 6 n d r v 5014 yyww xxxxx xxxxx nnnn = part number yyww = date code xxxxx = semtech lot no. xxxxx = semtech lot no.
sc5014 3 exceedingfthefabovefspecifcationsfmayfresultfinfpermanentfdamageftofthefdeviceforfdevicefmalfunction.ffoperationfoutsidefoffthefparametersf specifedfinfthefelectricalfcharacteristicsfsectionfisfnotfrecommended. notes: (�)f testedfaccordingftofjedecfstandardfjesd22-a �� 4-b. (2)ff calculatedffromfpackagefinfstillfair,fmountedftof3fxf4.5in,f4-layerffr4fpcbfwithfthermalfviasfunderfthefexposedfpadfperfjesd5 � fstandards. absolute maximum ratings (refer to pgnd) vccfpinf(v)f f. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . f -0.3f tof +6.0 vin,fio� ftofio4f(v) f. . . . . . . . . . . . . . . . . . . . . . . . . . f-0.3ffftofff+30 drvn,fovp,fcs,fen,fuvlo,fscp,fref,f flt f(v) f f. . f -0.3f tof +6.0 fset,fcpll,fscl,fsda,fiset,fpwmif(v)f f. . . . . . . f -0.3f tof +6.0 pgndftofagndf(v) f. . . . . . . . . . . . . . . . . . . . . . . . . f-0.3ffftofff+0.3 esdfprotectionflevel (�) f(kv)f f. . . . . . . . . . . . . . . . . . . . . . . . . . . . f2 recommended operating conditions ambientftemperaturefrangef(c) f. . . . . . . . f-40f < ft a f < f+85 vinf(v) f f. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . f 4.5f tof 27f io� ftofio4fcurrentfperfstringff(ma)f f. . . . . . . . . . . ff � 25f(max)f thermal information thermalfresistance,fjunctionftofambient (2)f (c/w)f f. . . . f 32 maximumfjunctionftemperaturef(c) f. . . . . . . . . . . . . . + � 50 storageftemperaturefrangef(c) f. . . . . . . . . . . ff-65ftof+ �50 peakfirfrefowftemperaturef( � 0sftof30s)f(c)f f. . . . . . +260 unlessfnotedfotherwise,ft a f=f25cfforftypical,f-40cf sc5014 4 parameter symbol conditions min typ max units boostfoscillatorffrequency f sw r fset f=f�00k 0.85 � �.�5 mhz boostfoscillatorffrequency f osc r fsetf varies 0.2 2.2 mhz maximumfdutyfcycle d max 88 92 % control signals: en, pwmi, sda, scl highfvoltagefthreshold v ih v cc ff=f4.5vftof5.5v 2.� v lowfvoltagefthreshold v il v cc ff=f4.5vftof5.5v 0.8 v sdafoutputflow v sda(l) -6maffromfv cc ftofsda 0.3 v pinfleakagefcurrent i leak v en f=f0v,fffv pwmi f=ffv iset f=fv fset f=fv sda f=fv scl f=f5.0v -� � a pwm dimming input pwmifinputfdimmingffrequency f pwmi �00 30k hz pwmifinputfresolution � 00hzf sc5014 5 electrical characteristics (continued) parameter symbol conditions min typ max units fault protection ledfshort-circuitfprotectionfthreshold v ion(scp) r 4f andfr 5f (3) �7xv scp 20xv scp 23xv scp v ledfopen-circuitfprotectionfthreshold v io_ocp 0.2 v ledfshort-circuitffaultfdelay t scp(delay) v ovpf setftof � .5v,ff flt fgoesflow � s flt fpinfleakagefcurrent i flt (leak) v en f=f0v,ffv flt f=ff5.0v -� � a flt foutputflow v flt (low) -5maffromf flt ftofv cc 0.3 v over-temperature protection thermalfshutdownftemperature t otp �50 c thermalfshutdownfhysteresis t otp-h �0 c i 2 c control interface: sda, scl timing specifcations sclfclockffrequency f scl 400 khz sclfclockflowfperiod t low(scl) �.3 s sclfclockfhighfperiod t high(scl) 0.6 s holdftimefstartfcondition t hd(start) 0.6 s sdafsetupftime t su(sda) f �00 ns sdafholdftime t hd(sda) 0 0.9 s setupftimefstopfcondition t su(stop) 0.6 s busffreeftimefbetweenfstopf&fstart t bf �.3 s notes: (�)f ensuredfbyfdesignfandfcharacterization,fnotfproductionftested. (2) f ledfcurrentfmatchingfforf4fchannelsfisfdefinedfasftheflargestfofftheftwofnumbers,fi.e.,f(max-avg)/avgfandf(avg-min)/avg;fwherefmaxfisfthef maximumfledfchannelfcurrent,fminfisfthefminimumfledfchannelfcurrentfandfavgfisfthefaveragefoffthef4fledfchannelfcurrents. (3)f referftofthefapplicationfcircuitfonfpagef23,ffiguref2.
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sc5014 7 temperature ( c) led string current matching vs. temperature led string current vs. r iset �?�
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�? led string current vs. r iset r fset (k ) switching frequency vs. r fset idac register value (in decimal format) analog dimming 0 25 50 75 100 125 0 4 8 12 16 20 24 28 32 dec iled(ma) io1 led string current vs. analog dimming control register (idac) value led string current matching (%) boost switching frequency (khz) led string current (ma) typical characteristics (continued) led string current matching vs. temperature �?��? �?��?�?��? �?��? �?��? �?��?�?��? �?��? �?��? �?��?�?��? �?��? �?�� �?���?�� �?�� �?��? �?��?�?��? �?��? ��?�? ��?�?��?�? ��?�? ��?�? ��?�?��?�? ��?�? �? �?�? �? �?�? �?�?�?�? �?�? �?�? �?�?�?�? �?�? ��? ��?��? ��? �?�? �?�?�?�? �?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�����?���?�������?�?�:�? �?�?�����?���?�������?�?�:�? �?�?�����?���?�������?�?�:�? �?�?�����?���?�������?�?�:�? �?�?��3�?���������3�?�������?�����3��?���?�?�����?�?�? �?�?��3�?���������3�?�������?�����3��?���?�?�����?�?�? �?�?��3�?���������3�?�������?�����3��?���?�?�����?�?�? �?�?��3�?���������3�?�������?�����3��?���?�?�����?�?�? v cc =5v, 120ma/ch led string current vs. r iset �?�
����?�?�����3����?�����?���?���3� ����3�? ��?�?�? �? �?�? �? �? �? �? �?�? �? �? �? � �? � �?� �? � �? � �? � �?� �? � �? �? �? �? �? �? �? �? �? �? �? �? �? �? � �? �? � �? �? � �? �? � �? �? �?�? �? �? �? �? �?�? �? �? �? �? �? �? �?�? �? �? �? � �? � �?� �? � �? �? �? �? �?�? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? �? ��?�?�? �?�t��? ��������?���?�? r iset (k ) led string current (ma) led string current accuracy vs temperature current accuracy vs. temperature ��a�? ��a�? ��a�? ��a�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?� �?�?� �?�?� �?�?� �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�? ��?�? ��?�?��?�? ��?�? ��?�? ��?�?��?�? ��?�? �? �?�? �? �?�? �?�?�?�? �?�? �?�? �?�?�?�? �?�? ��? ��?��? ��? �?�? �?�?�?�? �?�? �?�?�? �?�?�? �?�?�? �?�?�? �?�?�����?���?�������?�3�?�:�? �?�?�����?���?�������?�3�?�:�? �?�?�����?���?�������?�3�?�:�? �?�?�����?���?�������?�3�?�:�? �?�?��3�?���������3�?�������?�����3�?�?�?�����?�?���3�?��? �?�?��3�?���������3�?�������?�����3�?�?�?�����?�?���3�?��? �?�?��3�?���������3�?�������?�����3�?�?�?�����?�?���3�?��? �?�?��3�?���������3�?�������?�����3�?�?�?�����?�?���3�?��? temperature ( c) led string current accuracy (ma) v cc =5v, 120ma/ch time (20ms/div) vin start up testing condition: vin=12v,vcc=5v, leds=10s4p@120ma , rfset=100k � �� � , 25 �: �:�: �: iout vout vin sw vin start up v in 10v/div. v sw 20v/div. v out 20v/div. i out 300ma/div. 10s4p, 120ma/ch
sc5014 8 time (100ms/div) testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120/ch , pwm indirect mode; pwm=10khz, pwmi on / off, duty=0% to 100% led current fade in/out (logarithmic) v_io4 iout vout pwmi led current fade in/out (logarithmic) line transient response led open circuit protection 100% dimming, 120ma/ch x 4 typical characteristics (continued) pwmi 5v/div. v io1 10v/div. v out 20v/div. i out 200ma/div. time (100ms/div) testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120/ch , pwm indirect mode; pwm=10khz, pwmi on / off, duty=0% to 100% fade in/fade out (linear) v_io4 iout vout pwmi pwmi 5v/div. v io1 10v/div. v out 20v/div. i out 200ma/div. led current fade in/out (linear) time (4us/div) test condition: 8vin to 20vin, 10s4p@120ma per stri ng, rfset=100k � �� � , vin rt=1us line transient response v_io4 il vout pwmi v in 10v/div. v out 1v/div. v io1 1v/div. il 3a/div. time (20ms/div) leds open-circuit protection testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, ch4 open, rfset=100khz, rovp2=357k � �� � en iout vout flt v en 5v/div. flt 5v/div. v out 20v/div. i out 200ma/div. starting with one led string open-circuit load transient response load transient response pwmi(10khz)=2% to 98%, vin=12v, 120ma/ch x 4 fading disabled time (100us/div) load transient response testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, pwmi=10k, duty=2% to 98% iout vout pwmi pwmi 5v/div. v out 200mv/div. i out 200ma/div. time (100ms/div) load transient response testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, pwmi=10k, duty=98% to 2% iout vout pwmi 8v 20v pwmi(10khz)=98% to 2%, vin=12v, 120ma/ch x 4 fading disabled pwmi 5v/div. v out 200mv/div. i out 200ma/div.
sc5014 9 time (2ms/div) led dimming without phase shift testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, pwmi=200hz, duty=10% il v_io1 v_io2 iout led dimming without phase shift led dimming without phase shift led dimming with phase shift 35% dimming@200hz, v in =12v, 4p10s, 120ma/ch typical characteristics (continued) v io1 10v/div. v io2 10v/div. i l 1a/div. i out 400ma/div. led dimming with phase shift testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, pwmi=200hz, duty=10% il v_io1 v_io2 iout led dimming with phase shift led dimming without phase shift testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, pwmi=200hz, duty=35% il v_io1 v_io2 iout led dimming with phase shift testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, pwmi=200hz, duty=35% il v_io1 v_io2 iout 35% dimming@200hz, v in =12v, 4p10s, 120ma/ch time (40us/div) analog dimming transient via i 2 c testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, 60ma/ch to 120ma/ch iout vout sda sw v sw 20v/div. i out 300ma/div. analog dimming transient via i 2 c testing condition: vin=12v, 25 �: �:�: �: , leds=10s4p@120ma/ch, rfset=100khz, 120ma/ch to 60ma/ch iout vout sda sw time (2ms/div) v io1 10v/div. v io2 10v/div. i l 1a/div. i out 400ma/div. 10% dimming@200hz, v in =12v, 4p10s, 120ma/ch 10% dimming@200hz, v in =12v, 4p10s, 120ma/ch time (2ms/div) v io1 10v/div. v io2 10v/div. i l 1a/div. i out 400ma/div. time (2ms/div) v io1 10v/div. v io2 10v/div. i l 1a/div. i out 400ma/div. analog dimming transient via i 2 c analog dimming transient via i 2 c 60ma/ch to 120ma/ch 120ma/ch to 60ma/ch v sda 5v/div. v out 2v/div. time (40us/div) v sw 20v/div. i out 300ma/div. v sda 5v/div. v out 2v/div.
sc5014 �0 pin descriptions pin # (qfn) pin name pin function � uvlo inputfunder-voltageflockoutfpinffdevicefisfdisabledfwhenfthisfpinfisflessfthanf � .23vf(nominal).ffaddfafresistorf dividerffromfthisfpinftofthefinputfvoltagefandfagnd,frespectively. 2 scp short-circuitfledfprotectionfprogrammingfpinffshortedfledfprotectionfdisablesfthefindividualfchannelfwhenfthef currentfsinkfvoltagefexceedsfthefprogrammedfvoltagefthreshold.ffaddingfafresistorfdividerffromfthisfpinftofreffandf pgndfprogramsfthefshorted-ledfprotectionfupftof20xfthefv scp fvoltage.ffpullingfthefpinfhighftofvccfdisablesfthefscpf featurefonfallfchannels. 3 ref � .23vfreferencefvoltagefoutputfpinffconnectfaf� ffceramicfbypassfcapacitorffromfthisfpinftofground. 4 fset step-upf(boost)ffrequencyfsetfpinffconnectfafresistorffromfthisfpinftofgroundftofsetftheffrequencyffromf200khzftof 2.2mhz. 5 cpll compensationfforfthefinternalfpllffconnectfafcompensationfresistorfandfcapacitorffromfthisfpinftofground.fthisf pinfcanfbefleftffoatingfiffnotfused. 6 scl i 2 cfserialfclockfinputffthisfpinfmustfbefconnectedftofgroundfiffnotfused. 7 sda i 2 cfserialfdatafinputffthisfpinfmustfbefconnectedftofgroundfiffnotfused. 8 iset ledfcurrentfprogrammingfpinffconnectfanfexternalfresistorftofgroundftofprogramfthefcurrentfinfthefledfstrings.f forfmorefdetailsfpleasefreferftofledfstringfpeakfcurrentfprogrammingfon fpagef�3. 9 flt logicflowffaultfstatusfpinffopen-drainfoutputfisflatchedflowfwhenffaultfconditionfisfdetected:fopen/shortfled,f shortedfstring,fovpforfotp.ffffaultfstatusfcanfbefresetfbyfremovingffaultfcondition(s)fandftogglingfthefen,fvccforf uvlofpins.fthisfpinfcanfbefleftffoatingfiffnotfused. �0 pwmi ledfstringfpwmfdimmingfcontrolfinput. ��f~�4 io4f~fio� regulatedfcurrentfsinkfledfchannelf4ftofchannelf � frespectivelyffconnectfthefrelatedfiofpinftofthefcathodefoff thefbottomfledfinfstringf4ftofstringf � frespectively.fconnectfthefrelatedfiofpinftofgroundftofdisablefthefrelatedfledf stringfduringfpowerfon. �5 ovp over-voltageffeedbackfpinffover-voltagefactivatedfwhenfpinfvoltagefexceedsf � .2v.ffusefafresistorfdividerftiedftof thefoutputfandfgndftofsetfthefovpflevel. �6 cs step-upf(boost)fswitchfcurrentfsensefpinffconnectfafresistorffromfthisfpinftofgroundffforfcurrentfsensef-futilizedfinf peakfcurrentfmodefcontrolfloopfandfover-currentfsensefcircuitry. �7 pgnd powerfgroundfftiefthisfpinftofthefpowerfgroundfplanefcloseftofinputfandfoutputfdecouplingfcapacitors. �8 ndrv gatefdriveffforfthefexternalfstep-upf(boost)fn-channelfmosfet. �9 vcc inputfbiasfvoltagefsupplyfforftheficffacceptsf4.5-5.5vfinputs.ffaddfaf � fforflargerfceramicfbypassfcapacitorffromf thisfpinftofground. 20 en logicfhighfenablefpinffpullflogicfhighftofenablefthefdeviceforfpullflowftofdisablefandfmaintainflowfshutdownf current. - pad agndfthermalfpadfforfheatsinkingfpurposesffitfshouldfbefconnectedftofgroundfplanefforfproperfcircuitfoperation.
sc5014 �� block diagram duty cycle mux iset ea minimum voltage detection otp ndrv ls 4 io 1 io 2 io 3 ovp en pwmi cpll vcc cp vco led open / short fault sda scl pwm dim adjust otp 8 fset i 2 c interface cs iset adjust 1 / n pll i - ref adj led freq adjust i 2 c ( pll range ) pwm freq . adjust 18 5 - bit dac uvlo boost oscillator vbg scp ref x 20 sc _ ref duty cycle extractor recycle generator i 2 c interface and led control logic control logic flt oc / sc detection sc _ ref io 4 comp 10 5 4 osc clim + + - pwm comp slope comp 10 mhz ( system clk ) pgnd 10 4 4 dc dc bg ilim + - + - ovp + -
sc5014 �2 general description thefsc50 � 4fcontainsfafhighffrequency,fcurrent-mode,f internallyfcompensatedfboostfcontrollerfwithf4fconstantf currentfsinksfforfdrivingfledfstrings.ffthefledfcurrentfforf allfstringsfisfprogrammedfbyfanfexternalfresistor.fthefboostf converterfoperatesftofmaintainfminimalfrequiredfoutputf voltagefforfregulatingfthefledfcurrentftofthefprogrammedf value.ffaftypicalfbacklightfapplicationfusesf3ftof � 4fledsf perfeachfstring,fwithfcurrentfdrivenfupftof � 20ma. fthef uniquefcontrolfloopfoffthefsc50 � 4fallowsffastftransientff responsefinfdealingfwithflinefandfloadfdisturbances. thef sc50� 4,foperatingfwithfanfexternalfpowerfmosfet,fregu - latesfthefboostfconverterfoutputfvoltagefbasedfonfthef instantaneousfrequirementfoffthef4fstringfcurrentfsources.f thisfprovidesfpowerftofthefentireflightingfsubsystemfwithf increasedfefciencyfandfreducedfcomponentfcount.ffitf supportsfpwmfdimmingffrequenciesffromf � 00hzftof30khzf andfthefsupplyfcurrentfisfreducedftof2maftypicalffwhenfallf ledfstringsfarefof.ff start-up whenfthefenfpinfisfpulledfupfhighf(>2. � v),fthefdevicefisf enabledfandfthefuvlofandfvccfpinfvoltagesfarefchecked.f thefvccfvoltagefhasffxedfunder-voltagefrisingfandffallingf tripfpoints.fiffthefvccfpinfisfhigherfthanf4.2vfandfthefuvlof pinfvoltagefisfgreaterfthanf � .23v,fthefsc50 � 4fgoesfintofaf start-upfsequence.fthefuvlofpinfvoltagefcanfbefusedftof programf thef inputf powerf sourcef voltagefvinf turn-onf thresholdfandfitsfhysteresisf(referftofthefdetailedfapplica - tionfcircuitfonfpagef23,ffiguref2)fasfshownfbyftheffollow - ingfequations: f v in_turnon f[v]f=f �.23fxf(r �f +fr 2 )f/fr � f v in_hysteresis f[v]f=f �0 -5 fxfr 2f [] infthefnextfphase,fthefsc50 � 4fchecksfeachfiofpinftofdeter - minefiffthefrespectivefledfstringfisfenabled.feachfiofpinfisf pulledfupfwithfaf � 00 a fcurrentfsource.fiffanyfiofpinfisfcon - nectedftofground,fitfwillfbefdetectedfasfanfunusedfstring,f andfwillfbefturnedfof.fthisfunusedfstringfcheckingfproce - dureftypicallyftakesf � ms.fafterfthis,fthefsc50 � 4fentersfintof afsoft-startfsequence. thefsoft-startffunctionfhelpsftofpreventfexcessfinrushf currentfthroughfthefinputfrailfduringfstart-up.finfthef sc50� 4,fthefsoft-startfisfimplementedfbyfslowlyframpingf upfthefreferencefvoltageffedftoftheferrorfamplifer.fthisf closedfloopfstart-upfmethodfallowsfthefoutputfvoltagef toframpfupfwithoutfanyfovershoot.fthefdurationfoffthef soft-startfinfthefsc50 � 4fisfcontrolledfbyfanfinternalftimingf circuit,fwhichfisfusedfduringfstart-upfandfisfbasedfonfthef boostfconverterfswitchingffrequency.fforfexample,fwithf switchingf frequencyf atf � mhz,f itf isf 8msf typicalf andf becomesf4msftypicalfwhenfthefswitchingffrequencyfisf 2mhz.ff iffthefpwmfvoltagefgoesflowfwhilefthefsc50 � 4fisfinfsoft - startfoperation,fthefsc50 � 4fswitchesftofstandbyfmode,f wherefthefexternalfpowerfmosfetfandfthefledfcurrentf sourcesfwillfbefturnedfoffimmediately.fthefinternalfsoft- startftimerfisfturnedfoffandfthefsoft-startfvaluefisfsaved.f whenfthefpwmfvoltagefgoesfhi ghfagain,fthefsoft-startf resumesffromfthefpreviouslyfsavedfvalue. eachfledfcurrentfsourcef(io � ftofio4)ftriesftofregulatefthef ledfcurrentftofitsfsetfpoint.fthefcontrolfloopfwillfregulatef thefoutputfvoltagefsuchfthatfallfthefiofpinfvoltagesfarefatf leastf0.9vftypical. shutdown whenfthefenfpinfisfpulledfdownfbelowf0.8v,fthefdevicef entersfintofshutdownfmode.finfthisfmode,fallfthefinternalf circuitryfisfturnedfoffandfthefsupplyfcurrentfisflessfthanf � af(max).f infthefscenariofwherefthefenfpinfvoltagefisfhigh,fbutfvccf voltageffallsfbelowfthefrespectivefuvlofthreshold,fthef sc50 � 4fgoesfintofafsuspendfmode.finfthisfmode,fallfthef internalfcircuitryfexceptfthefreferencefandfthefoscillatorf arefturnedfof. thermal shutdown (tsd) iffthefthermalfshutdownftemperaturefofftypicalf � 50cfisf reached,fthefboostfconverterfandfallfiofcurrentfsourcesf arefturnedfof.fthef flt fpinfisfforcedflowfinfthisfcondition.ff whenftheftemperatureffallsfbelowftheftsdftripfpointfbyf � 0c,f thef sc50 � 4f willf restartf followingf thef start-upf sequencefasfdescribedfbefore.fthef flt fpinfisflatchedffandf willfstayflow,fitfisfresetfbyfcyclingfthefen,fvccforfuvlo.f applications information
sc5014 �3 applications information (continued) boost converter operation thefsc50 � 4fincludesfafboostfcontrollerfwithfprogramma - blefswitchingffrequency.fitfappliesfafcurrent-modefcontrolf methodfwithfanfintegratedfcompensationfloopfasfshownf infthefdiagramfbelow.fthefclockf(seefblockfdiagramfonf page �� )ffromfthefoscillatorfsetsftheflatchfandfturnsfonfthef externalfpowerfmosfet,fwhichfservesfasfthefmainfpowerf switch.fthefcurrentffowingfthroughfthisfswitchfisfsensedf byfthefcurrentfsensefresistorfinfseriesfwithfthefswitch.fthef sensedfswitchfcurrentfisfsummedfwithfthefslope-com - pensatedframpfandffedfintofthefmodulatingfinputfoffthef pwmfcomparator.fwhenfthefmodulatingframpfintersectsf theferrorfampliferfoutputf(comp),ftheflatchfisfresetfandf thefpowerfmosfetfisfturnedfof.ffthefsensefresistorfalsof setsfthefpeakfcurrentflimitfoffthefpowerfmosfet,fi ocp fusingf theffollowingfequation: f i ocp [a]f=f0.4f/fr csf [] ea min . voltage detection boost oscillator control logic comp osc + + - pwm comp slope comp dc + - v in = 4 . 5 to 27 v io c 5 l 1 q 1 d 1 ls cs ndrv r cs thefcurrent-modefcontrolfsystemfcontainsftwofloops.fforf thefinnerfcurrentfloop,ftheferrorfamplifierf(ea)foutputf (comp)fcontrolsfthefpeakfinductorfcurrent.finfthefouterf loop,fthefeafregulatesfthefoutputfvoltagefforfdrivingfthef ledfstrings.f boost converter switching frequency selection thefresistorfbetweenffsetfandfgndfsetsfthefboostfcon - verterfswitchingffrequencyf(200khzftof2.2mhz)fusingfthef followingfequation: f f sw f[khz]f=f �0 5 /fr fsetff [k] afhigherfswitchingffrequencyfallowsfthefusefofflow-proflef heightfinductorsfforfspace-constrainedfandfcost-sensitivef applications.ff over-voltage protection (ovp) thefsc50 � 4fffeaturesfprogrammablefoutputfover-voltagef protectionftofpreventfdamageftoftheficfandfoutputfcapaci - torfinfthefeventfoffafledfstringfopen-circuit.fthefboostfcon - verterfoutputfvoltagefisfsensedfatfthefovpfpinfthroughffthef resistorfvoltagefdivider.fthefovpftripfthresholdf(referftof detailedfapplicationfcircuitfonfpagef23,ffiguref2)fcanfbefcal - culatedfusingftheffollowingfequation: f ovpftripfvoltagef[v]f=f � .2fxf(r �� f+fr � 2 )f/fr � 2 whenfthefovpfpinfvoltagefexceedsf � .2v,fthefboostfcon - verterfturnsfoffandfthef flt fpinfisfpulledflow.fwhenfthef ovpfpinfvoltageffallsfbelowfthefovpfthresholdf(falling),f thefboostfconverterfrestartsfandfthef flt fpinfisfreleased.f therefisf � 0mvfhysteresisfbetweenfthefovpfpinfthresholdf (falling)fandfthefovpfpinfthresholdf(rising).fthisfresultsfinf anfoutputfvoltagefhysteresisfexpressedfas:f ffffffoutputfovpfhysteresisf[mv]f=f �0fxf(r ��f +fr �2 )f/fr �2 led current sink thefsc50 � 4fprovidesf4fcurrentfsinksfandfeachfcanfsinkfupf tof � 20mafcurrent.ffitfincorporatesfledfstringfshort-circuitf protectionf(trip-levelfprogrammable;fcanfbefdisabled)f andfledfstringfopen-circuitfprotection. led string peak current programming ledfstringfpeakfcurrentf(atf � 00%fdimming)fcanfbefsetfbyf selectingfresistorfr iset ,ffconnectedfbetweenfisetfandfgnd.f thefrelationshipfbetweenfr iset fresistancefandfsinglefledf stringf peakf currentf isf calculatedf usingf thef followingf equation: f i led f[ma]f=f2fxf( �036fxf�.23)f/fr isetf [k]f thefstringfcurrentfcanfbefprogrammedfupftof �20ma. unused strings thefsc50 � 4fmayfbefoperatedfwithflessfthanf4fstrings.ffinf thisfmodefoffoperation,fallfunusedfiofpinsfshouldfbefcon - nectedftofground.fduringfstart-up,fthesefunusedfstringsf arefdetectedfandfdisabledfwhilefotherfactivefstringsfworkf normally,fandf flt fdoesfnotf getf pulledflow.
sc5014 �4 led short-circuit protection (scp) thefsc50 � 4ffeaturesfafprogrammablefledfshort-circuitf protectionf(scp).fthisfallowsfthefpartftofbefcustomizedf basedfonftheffledfforwardfvoltagef(v f )fmismatchesfbetweenf thefledfstrings.fiffoneforfmorefledsfarefdetectedfasfshort- circuited,fthefcorrespondingfstringfwillfbeflatchedfof.ffthef voltagesfonfallfiofpinsfarefmonitoredftofcheckfiffanyfiofpinf exceedsfthefscpftripfpoint.fthefiofvoltagefforfledfstring(s)f withffaultyfshort-circuitfled(s)fwillfbefhigherfthanfotherf normalfiofpinfvoltages.ffthisfledfshort-circuitfprotectionf tripf levelf (seef detailedf applicationf circuitf onf pagef 23,ffff figuref2)fisfexpressedfbyftheffollowingfequation: f v scp_trip f[v]f=f20fxf( � .23fxfr 4 )f/f(r 4 f+fr 5 ) iffanyfiofpinfvoltagefexceedsftheftripfvoltage,fthefiofcurrentf sinkfwillfbeflatchedfoffandfthef flt fwillfgoflow.fthisflatchfcanf befresetfbyfcyclingfuvlo,fvccforfen.fotherfledfstringsfaref unafectedfandfcontinuefinfnormalfoperation.fthisfprotec - tionfwillfbefdisabledfiffscpfisftiedftofvcc.f therefisfaftypicalf � 0sfscpfdetectionftime fin fpwmfdimmingf applications.fiffthefpwmfdimmingfon-timefisflessfthanfthef scpfdetectionftime,fthefscpfcannotfbefenabled. infmanyfapplications,fledfstringsfarefconnectedftofthefiof pinsfthroughfafmechanicalfconnector,fwhichfcannotfsupportff anfelectricalfconnectionfatfspecifcftimes.fthisfconnectionf applications information (continued) mightf causef noisef onf thef iof pins.f iff thisf noisef isf largef enough,fitfmayftriggerfaffalsefscpfmode.funderfsuchfcondi - tion,f af ceramicf decouplingf capacitorf ( � 00pff ~f 8.2nf)f betweenfiofpinftofgroundfcanfhelpfpreventfthefsc50 � 4f fromfenteringfthefprotectionfmodefbyffalseftrigger.for,f simplyfdisablefthisffeaturefbyfconnectingfscpfpinftofvccf pin. led open-circuit protection iffanyfledfstringfbecomesfopen,fthefrespectivefiofpinf voltagefwillfbefpulledftofground.fconsequently,fthefinter - nalfcompfnodef(outputfofferrorfamplifer)fisfdrivenfhigh,f whichfcausesfthefboostfoutputfvoltageftofincrease.fthef outputfvoltagefwillfbefeventuallyfclampedftofafvoltagef setfbyfthefovpfresistorfdivider.funderfthisfcondition,fthef faultyfstringfisflatchedfoffandfthef flt fpinfisfpulledflow.f thefboostfvoltagefgetsfregulatedftofthefvoltagefrequiredf tofsetfallfnon-faultyfiofpinsfabovef0.9vf(typ).fthefremain - ingfstringsfremainfinfnormalfoperation.fthef flt fandfthef fault-outfledfcurrentfsinkflatch-offcanfbefresetfbyfcyclingf uvlo,fvccforfen. led analog dimming control thefledfcurrentfinfsc50 � 4fcanfbefdimmedfviafthef5-bitf analogfdimmingfregisterf(registerfaddress:f0x02).fthefledf currentfcanfbefadjustedfinf32fstepsffromf0maftofmaximumf value,fwhichfisfdeterminedfbyfthefr iset fresistor. soft - start 1 i 2 c interface 1 0 int _ duty bit d [ 9 : 0 ] bits 10 pwm generator freq bits 10 phase shifting fastfreq bit ph _ shift bit 8 en 1 0 pwm input 4 int _ pwm bit extracted duty cycle from pwmi input led frequency and phase - shifter block pwm _ ps [ 4 : 1 ] all bits identical when phase shifting disabled 4 pwm [ 4 : 1 ] 10 duty cycle extractor pwm input figure 1 led pwm dimming control
sc5014 �5 applications information (continued) thefsc50 � 4fhasfafuniquefdacfarchitecturefwhichfallowsfitf tofhavefexcellentfledfcurrentfaccuracyfandfstring-to-stringf matchingfoverfthefentirefdacfrange.f thefanalogfdimmingfmethodfcanfbefusedfinfconjunctionf withfpwmfdimmingftofincreasefthefdimmingfresolution. f thef fastf loopf responsef off thef sc50 � 4f allowsf thef ledf currentftoftransitionftofafnewfvaluefwithinf � 60sforfso.f pleasefreferftofthefgraphsfinftheftypicalfcharacteristicsf section. led pwm dimming control thef sc50 � 4f supportsf threef pwmf dimmingf modesf forf controllingfthefbrightnessfoffthefleds.f thefdimmingfmodesfare:f (� )fpwmfdirect,f (2)fpwmfindirectfandf (3)fi 2 cfcontrol itfprovidesfflexibilityfinfsettingfthefdutyfcyclefandffre - quencyfoffthefledfpwmfsignal.fthefpwmfdimmingfmodef isfsetfthroughfthefdevicefcontrolfregisterf(registerfaddress:f 0x0�)fdcrf[� :0]fbits.freferftoftablef� fforfmorefdetails. (1) pwm direct control thefpwmfinputfneedsftofbefheldfhighfforfnormalfopera - tion.ffpwmfdimmingfcanfbefachievedfbyfcyclingfthefpwmf inputfatfafgivenffrequencyfwherefaflowfonfthefpwmf inputfturnsfoffallfiofcurrentfsinksfandfafhighfturnsfonfallf iofcurrentfsinks.ffthefpwmfpinfcanfbeftoggledfbyfexternalf circuitryftofallowfpwmfdimming.ffinfaftypicalfapplication,f afmicrocontrollerfsetsfafregisterforfcounterfthatfvariesfthef pulsefwidthfonfafgpiofpin.ffthefsc50 � 4fallowsfdimmingf overfafwideffrequencyfrangef( � 00hz-30khz)finforderftof allowfcompatibilityfwithfafwidefrangefoffdevices.fthisf includesfthefnewestfdimmingfstrategiesfthatfavoidfthef audiofbandfbyfusingfhighffrequencyfpwmfdimming.finf thisfmanner,fafwidefrangefoffilluminationfcanfbefgener - atedf whilefkeepingfthefinstantaneousfledfcurrentfatfitsf peakfvaluefforfhighfefciencyfandfcolorftemperature.ffthef sc50 � 4fprovidesfaf � 000: � fdimmingfrangefatf � khzfpwmf frequency.fthefledfcurrentfsinksfturnfon/offveryfrapidlyf (<25ns,ftypical).ffthisfallowsfafwidefdimmingfratio.fanfaddi - tionalfadvantagefoffpwmfdimmingfisfthatfitfavoidsfin-rushf currentsfwhenffllingfthefboostfoutputfcapacitor.fsimplyf applyfthefpwmfsignalftofthefdevicefatf � 0%fdutyfforfafmilli - secondf orf two,f andf in-rushf currentf isf reduced.f f thisf dimmingftimefwillfvaryfbasedfonfthefnumberfoffledsfandf thefsizefoffthefoutputfcapacitor.fthisfcanfbefeasilyfdeter - minedfduringftestingfandfprogrammedfintofthefmicrocon - trollerffrmware. table 1 led dimming control methods pwm dim - ming mode register settings dcr[1:0] pwm input source led pwm output phase shift option pwm frequency pwm duty cycle pwmfdirectf control 00 pwmifpinf input samefasfthefpwmifinput f (rangef � 00fhzftof30khz) samefasfthefpwmifinput no pwmfindirectf control (default option) 0� pwmifpinf input setfviaftheffreqfregisterf f (0x05)fandffast_freqfbit � 0khzf(max):ffast_freq=0 20khzf(max):ffast_freq= � samefasfthefdutyfcyclefoffthefpwmfinput yes i 2 c f control �� i 2 c f control setfviaftheffreqfregisterf f (0x05)fandffast_freqfbit � 0khzf(max):ffast_freq=0 20khzf(max):ffast_freq= � setfviafthefdutyfcyclefcontrolf f registerf(0x03,f0x04) �0-bitsf@f� 0khzfoutput 9-bitsf@f20khzfoutput yes
sc5014 �6 applications information (continued) (2) pwm indirect control thisfisfthefdefaultfmodefforfledfpwmfdimmingfinfthef sc50 � 4.finfthisfmode,fthefinputfsignalfappliedfonfthefpwmf pinfisfpassedfthroughfafdutyfcyclefextractorfblockfafterfthef systemfhasfdetectedftwofsuccessivefdutyfcyclesfthatfarefthef same.fthefextractorfmeasuresfthefdutyfcyclefoffthefpwmf input,fand,fdependingfonfthefvaluefofffast_freq,fthefdutyf cyclefisfconvertedftofaf9-bitfvaluef(fast_freqf=f � )forfaf � 0- bitfvaluef(fast_freqf=f0).fthisfvaluefisfthenfpassedftofthef pwmfgeneratorfblockfasfshownfinffiguref � . thefledfpwmfoutputffrequencyfisfsetfviaftheffreqfregis - terf(addressf0x05)fandftheffast_freqfbit. withffast_freqf=f0,flowfdimmingffrequencyfoptionfisf selectedfandfthefpwmfdimmingffrequencyfwillfbefaccord - ingftoftheffollowingfequation: 10khz(max) ]1 ]0 : 7[ freq [ 1024 mhz 10 frequency dimming pwm = + = withffast_freqf=f �, fthefh ighfdimmingffrequencyfoptionf isfselectedfandfthefpwmfdimmingffrequencyfisfshownfbyf theffollowingfequation: 20khz(max) ]1 ]0 : 7[ freq [ 512 mhz 10 frequency dimming pwm = + = the fdefaultfoptionfisffast_freqf=f � .fthisfgivesf9-bitfdutyf cyclef resolutionf andf upf tof 20khzf dimmingf frequencyf range.fthefpwmfinputfisfusuallyfgeneratedfbyfthefsystemf graphicsfprocessor.fthisfmodefallowsfthefuserftofsetfthef pwmf outputf dimmingf frequencyf independentf off thef pwmifinput. iffthefpwmfsignalfhasfjitter,fthefsc50 � 4fprovidesfanfoptionf tofflterfitfout.fhysteresisfisfalsofprovidedfbyfselectingfthef wnd[ � :0]fbitsfinfthefdcrfregisterf(addressf0x0 � ).fwnd[ � :0]f bitsfsetfthefwindowfcomparatorfsuchfthatfiffafchangefinf thefdutyfcyclefisfdetectedfwhichfisfsmallerfthanfthefsetf window,fthenfitfisfignored. (3) i 2 c control infi 2 cfdimmingfmodef(referftoffiguref � ,fpagef � 4),fbothfthef outputfledfdimmingfdutyfcyclefandfthefdimmingffre - quencyfarefsetfviafthefinternalfregisters.fthefpwmifpinf shouldfbefconnectedftofground.finfthisfmode,fthefledf dimmingf dutyf cyclef isf setf viaf thef dutyf cyclef registersf (addressesf0x03,f0x04);fandfthefdimmingffrequencyfisfsetf viaftheffreqfregisterf(addressf0x05)fandftheffast_freqf bit. withffast_freqf=f0,fthefledfdutyfcyclefcanfachievef � 0-bitf resolution,fd[9:0],fwhichfisfcombinedfbyftwofportions:f( � )f msbfportionf-fregisterfaddressf0x03f[ � :0]fandf(2)flsbfportionf -fregisterfaddressf0x04f[7:0]fasfshownfbelow.f thefdimmingfdutyfcyclefwithffast_freqf=f0fcanfbefcalcu - latedfas: f ledfdimmingfdutyfcyclef=f{d[9:0] decimalf }/2 � 0 - � withffast_freqf=f � ,fthefledfdutyfcyclefcanfachievef9-bitf resolution,fd[9: � ],fwhichfisfcombinedfbyftwofportions:f( � )f msbfportionf-fregisterfaddressf0x03f[ � :0]fandf(2)flsbfportionf -fregisterfaddressf0x04f[7: � ]fasfshownfbelow. thefdimmingfdutyfcyclefwithffast_freqf=f � fcanfbefcalcu - latedfas: f ledfdimmingfdutyfcyclef=f{d[9: � ] decimalf }/2 9 - � infbothfcasesfmentionedfabove,fthefdutyfcyclefisffxedftofbef 0fwhenfd[9:0]fisfsetfasf0x00. thefpwmfdimmingffrequencyfisfcontrolledfthefsamefwayfasf infindirectfcontrol. f
sc5014 �7 phase-shift pwm dimming thefsc50 � 4fprovidesfanfoptionfforfphase-shiftedfledfpwmf dimming.fthisfoptionfisfavailablefinfbothfpwmifindirectf controlfandfi 2 cfcontrol.fthefphase-shiftfoptionfisfsetfbyftheffff ph_shiftfbitfinfthefdevicefcontrolfregisterf(registerfaddressf 0x0 � ).fthisfoptionfdelaysfthefturn-onfoffthefledfstringsf basedf onf thef numberf off thef stringsf inf operationf (thef numberfoffthefstringsfinfoperationfisfdeterminedfduringf thefstart-up).ffthefdelayftimefcanfbefcalculatedfbyfthefffffffff followingfequation: frequency dimming pwm led f operation in strings of number n , n f t pwm pwm phase , , , f 1 �f phase-shiftfmodefisfdisabledfduring fthefs oft-startfperiod.f thisfallowsfthefoutputftoframpfupftofthefcorrectfvoltagefinf afcontrolledffashion. phase-shiftin gfreducesfthefpeakfinputfcurrent,fdecreasesf emifandfimprovesfthefdimmingflinearity.ftheffguresfinfthef typicalf characteristicsf sectionf onf pagef 6f showf thef improvementfinfdimmingflinearityfwithfphase-shiftedf versusfnon-phase-shiftedfdimming. backlight fade-in and fade-out options thefsc50 � 4ffeaturesfanfoptionfforffade-infandffade-outf brightnessfcontrol,fwhichfallowsfafsmoothftransitionffromf onefbrightnessflevelftofanother. registersf associatedf withf thesef fadingf functionsf aref shownfinfthisfsection. fadef optionf (registerf addressf 0x09)f f setsf fadef enablefoptions,ffadeftime,ffadeftype. fadef ratef (registerf addressf 0x0a)f f setsf fadef stepf sizefoption. theffadefoptionfregisterfallowsfthefuserftofselectffading,f choosefbetweenflinearforflogarithmicffading,fandftofsetf theffadingftime.fthefdefaultfsettingfisffadingfenabledfwithf logarithmicfmode.ftheffadingftimefisfdeterminedfbyfthef ledfpwmfdimmingffrequency.ftheffadefsettingfisfshownf inftablef2. �. 2. anfexamplefforfcalculatingftheffadingftimefisfshownfinf thisfsection.fassumingfledfpwmfdimmingffrequencyfisf � 0khz,f thenf � 0-bitsf aref assignedf forf � 024f dutyf cyclef settings.f tablef2fffadefsetting dutyf cyclef zone dutyfcyclef range stepf increment stepf interval totalfstepsf withinfthef range � 0ftof5 �� � 2 5�2 2 5� 2ftof767 � � 256 3 768ftof �024 2 � 256 thef timef requiredf tof gof fromf � 0%f ( � 02/ � 024)f tof 90%f (922/� 024)fdutyfcyclefcanfbefcalculatedffusingftheffollow - ingfequation: t pwm f=f�00fsf(withf� 0khzfdimmingffrequency) cyclefinfzonef# � f=f(5�� f-fstartingfdutyfcycle)fxf[(zonef#�f stepfinterval)f/f(zonef# � fstepfincrement)]f cyclefinfzonef#2f=ftotalfstepsfinfzonef#2fxf[(zonef#2fstepf interval)f/f(zonef#2fstepfincrement)] cyclefinfzonef#3f=f(endfdutyfcyclef-f768)fxf[(zonef#3fstepf interval)f/f(zonef#3fstepfincrement)]f infthisfcase,ftheftotalfcyclefwillfbe: totalfcyclef=f2fxf(5 ��-�02)f+f�fxf256f+f0.5fxf(922f-f768)f f ffffff=f��5� totalffadingftimef=ftotalfcyclefxf t pwm f f fffff=f��5�fxf �00fsf=f��5.�ms timef requiredf tof gof fromf � 0%f ( � 02/ � 024)f tof 90%f (922/� 024)fdutyfcyclefcanfbefcalculatedffusingftheffollow - ingfequation: ms 115.1 t 1151 time total ) ( ) ( cycle total period) dimming (pwm s 100 t pwm pwm s r r s 1151 768 922 2 1 256 102 511 2 applications information (continued)
sc5014 �8 table 3 fault protection descriptions type of fault user disable? fault criteria action on fault recovery device flt pin (latching / non-latching condition(s) flt pin inputf under-voltagef atfvin f (uvlo) no v in ff�.23vf f (rising) high no v in ff�.23vf f (rising) high inputf f under-volt - agefatfvccf f (uvlo) no vccff4.2v f (rising) high no vccff4.2v f (rising) high over-voltagef protectionf (ovp) no v ovp f>f�.23v f (rising) regulateftofovpf threshold: f i o(n) f=fon low f (non-latching) v ovp ff0.4v limitfq� ffetfdrainf currentff0.4v high shortedf led(s) yes,ftief scpftof vcc v io(n) f>f20fxfv scp devicefon: f i o(n) f=fof f otherfi o(all) f=fon low f (latching) replacefshortedf led(s)fandftogglef en,fvccforfuvlo high v io(all) f>f20fxfv scp deviceflatch-of; f i o(all) f=fof low f (latching) replacefshortedf led(s)fandftogglef en,fvccforfuvlo high open f led(s) no v io(n) ff� 50ocf(typ) devicefof; f i o(all) f=fof low f (latching) satisfyft hys f>f�0oc; f devicefon; i o(all) f=fon; f togglefen,fvccforf high note:ffreferftofthefapplicationfcircuitfexamplefforfr � fandfr 2 fonfpagef23,ffiguref2 .
sc5014 �9 applications information (continued) fault protection thef sc50 � 4f providesf faultf detectionf forf lowf supplyf voltage,fledfrelatedffaults,fboostfconverterfover-voltagef andfthermalfshutdown.fthefopenfdrainfoutputfpinf( flt )f indicatesfafsystemffault.fthefnaturefofftheffaultfcanfbefreadf fromftheffaultfstatusfresistorf(registerfaddress:f0x00)fviafi 2 cf interface.freferftoftablef3fforfafdescriptionfofftheffaultf protectionfmodes. other possible confgurations dependingfonfdifferentfapplicationfrequirements,fthef sc50� 4fcanfalsofbefeasilyfconfguredftofotherftopologies,f suchfasfthefsepicfconfgurationfshownfinffiguref4,fpagef 24.f li-ion powered display confguration iffafli-ionfpoweredfdisplayfapplicationfisfrequired,fv cc f fisf neededftofpowerfwithf5v.fhowever,fv in fcanfbefsetflowerf fromf3vftof4.2vfforfexample.fanfadvantagefoffthisftypefoff confgurationfisfthatfitfprovidesfhigherfefciency.ffpleasef useffiguref3fonfpagef23fforfreference. high output voltage confguration iffafhighfoutputfvoltagefapplicationfisfrequired,fanfaddi - tionalfexternalfcascodefmosfetfcanfbefaddedfonfeachfiof pinftofmeetfsuchfrequirement,fpleasefreferftoffiguref5fonf pagef24fforfreference. infthisfcase,fthefupperflimitfonfthefoutputfvoltagefisfmainlyf determinedfbyfthefratingfoffthefexternalfmosfet,fheatf dissipation,fetc. pcb layout considerations thefplacementsfoffthefpowerfcomponentsfoutsidefthef sc50 � 4fshouldffollowftheflayoutfguidelinesfoffafgeneralf boostfconverter.fthefdetailedfapplicationfcircuitfisfusedf asfanfexample. capacitorf(c2)fshouldfbefplacedfasfclosefasfpossibleftof thefvccfandfagndftofachievefthefbestfperformance. capacitorf(c � )fisfthefinputfpowerfflteringfcapacitorfforf thefboost.fitfneedsftofbeftiedftofpgnd. �. 2. thefconverterfpowerftrainfinductorf(l � )fisfthefboostf converterfinputfinductor.fusefwidefandfshortfftracesf connectingfthesefcomponents. thefoutputfrectifyingfdiodef(d � )fusesfafschottkyfdiodef forffastfreversefrecovery.ftransistorf(q � )fisfthefexternalf switch.fresistorf(r9)fisfthefswitchfcurrentfsensingfresis - tor.ftofminimizefswitchingfnoisefforfthefboostfcon - verter,fthefoutputfcapacitorf(c6)fshouldfbefplacedf suchfthatfthefloopfformedfbyfq � ,fd � ,fc6fandfr9,fisf minimized.fthefoutputfoffthefboostfconverterfisfusedf tofpowerfupfthefleds.fusefwidefandfshortftracefcon - nectingfpinfndrvfandfthefgatefoffq � .fthefgndsfforfr9f andfc6fshouldfbefpgnd.fthesefcomponentsfshouldf befcloseftofthefsc50 �4. resistorf(r8)fisfthefoutputfcurrentfadjustingfresistorf forfio � fthroughfio4fandfshouldfreturnftofagnd.fplacef itfnextftofthefic. resistorf (r6)f isf thef switchingf frequencyf adjustingf resistorfandfshouldfreturnftofagnd.fplacefitfnextftof thefic. thef decouplingf capacitorf (c3)f forf pinf reff shouldf returnftofagnd.fplacefitfnextftofthefic. resistorsf(r4,fr5)fformfafdividerftofsetfthefscpflevel,fr4f shouldfreturnftofagnd.fplacefitfnextftofthefic. resistorsf(r2,fr � )fformfafdividerftofsetfthefuvloflevelf forfuvlofpin.fr � fshouldfreturnftofagnd.fplacefitfnextf tofthefic. r �� fandfr � 0fformfafdividerftofsetfthefovpflevelfforf vout,fr � 0fshouldfreturnftofagnd.fplacefitfnextftofthef ic. allftheftracesfforfcomponentsfwithfagndfconnectionf shouldfavoidfbeingfroutedfcloseftofthefnoisyfareas. anfexposedfpadfisflocatedfatfthefbottomfoffthefsc50 � 4f forfheatfdissipationfandfanalogfground.fafcopperfareaf underneathfthefpadfisfusedfforfbetterfheatfdissipation.f onfthefbottomflayerfoffthefpcbfanotherfcopperfarea,f connectedfthroughfviasftoftheftopflayer,fisfusedfforf betterfthermalfperformance.fthefpadfatfthefbottomfoff thef sc50 � 4f shouldf bef connectedf tof agnd.f agndf shouldfbefconnectedftofpgndfatfafsinglefpointfforf betterfnoisefimmunity. 3. 4. 5. 6. 7. 8. 9. �0. ��. �2.
sc5014 20 components selection inductor selection thefchoicefoffthefinductorfafectsfthefconvertersfsteadyf statefoperation,ftransientfresponse,fandfitsfloopfstability.f specialfattentionfneedsftofbefpaidftofthreefspecifcationsf offthefinductor,fitsfvalue,fitsfdcfresistancefandfsaturationf current.fthefinductorsfinductancefvaluefalsofdeterminesf thef inductorf ripplef current.fthef boostf converterf willff operatefinfeitherfccmf(continuousfconductionfmode)forf dcmf(discontinuousfconductionfmode)fdependingfonfitsf operatingfconditions.fthefinductorfdcfcurrentforfinputf currentfcanfbefcalculatedfusingftheffollowingfequation. v i v i in out out in i in - input current;i out C output current; v out C boost output voltage; v in C input voltage; C effciency of the boost converter thenfthefdutyfratiofunderfccmfisfshownfbyftheffollowingf equation. d out d in out v v v v v d v d fCfforwardfconductionfdropfofffoutputfrectifyingf diode f whenfthefboostfconverterfrunsfunderfdcmf(flffl boundary ),fnormallyf thefconverterfhasfhigherf efciency. whenfselectingfanfinductor,fanotherffactorftofconsiderfisf thefpeak-to-peakfinductorfcurrentfripple,fwhichfisfgivenf byftheffollowingfequation: l f d v i sw in l usuallyfthisfpeak-to-peakfinductorfcurrentfripplefcanfbef chosenfbetweenf30%ftof50%foffthefmaximumfinputfdcf current.fthisf givesf thef bestf compromisef betweenf thef inductorfsizefandfconverterfefciency.fthefpeakfinductorf currentfcanfbefcalculatedfusingftheffollowingfequation: l f 2 d v i i sw in in peak -l v forfmostfapplications,fanfinductorfwithfafvaluefoff2.2 hftof 22 hfshouldfbefacceptable,f(referftofthefdetailedfapplica - tionf circuitf onf pagef 23,f figuref 2).fthef inductorf peakf currentfmustfbeflessfthanfitsfsaturationfrating.fwhenfthef inductorfcurrentfisfcloseftofthefsaturationflevel,fitsfinduc - tancefcanfdecreasef20%ftof35%ffromfthef0afvaluefdepend - ingfonfthefvendorfspecifications.ffusingfafsmallfvaluef inductorfforcesfthefconverterfinfdcm,finfwhichfcasefthef inductorfcurrentframpsfdownftofzerofbeforefthefendfoff eachfswitchingfcycle.fitfreducesfthefboostfconvertersf maximumfoutputfcurrentfandfproducesfaflargerfinputf voltagefripple.fthefdcrfoffthefinductorfplaysfafsignifcantf rolefforftheftotalfsystemfefciencyfandfusuallyftherefisfaf trade-offbetweenfthefdcrfandfsizefoffthefinductor.fftablef 4flistsfsomefrecommendedfinductorsfandftheirfvendors. ffffffffffffffffffffff tablef4.ffrecommendedfinductors inductor vendorfwebsite hcm0703,f2.2uh~�0uh www.cooperindustries.com ihlp-2525cz-0 �,f4.7uh~�0uh www.vishay.com mlpc0730l,f2.2uh~4.7uh www.nec-tokin.com/english output capacitor selection thefnextfdesignftaskfisftargetingfthefproperfamountfoff outputfripplefvoltagefdueftofthefconstant-currentfledf loads.fusuallyfx5rforfx7rfceramicfcapacitorfisfrecom - mended.fthefceramicfcapacitorfminimumfcapacitancef neededfforfafgivenffripplefcanfbefestimatedfusingftheffol - lowingfequation: ripple sw out out in out out v f v i v v c v
sc5014 2� application information (continued) v ripple C peak to peak output ripple. thefripplefvoltagefshouldfbeflessfthanf200mvf(pk-pk)ftof ensurefgoodfledfcurrentfsinkfregulation.fforfexample,faf typicalf applicationf wheref � 20ma/channelf currentf isf needed,ftheftotalfoutputfcurrentfforf4fchannelsfwillfbef 480ma,fandf6xf4.7 fffcapacitorsfarefrecommended. duringfloadftransient,fthefoutputfcapacitorfsuppliesforf absorbsfadditionalfcurrentfbeforefthefinductorfcurrentf reachesfitsfsteadyfstatefvalue.flargerfcapacitancefhelpsf withfthefovershoot/undershootfduring loadftransientfandf loopfstability.f input capacitor selection x5rforfx7rfceramicfcapacitorfisfrecommendedfforfinputf bypassfcapacitor.ffaf � ffcapacitorfisfsufcientfforfthefvccf input.fbypassfthefvinfinputfwithfaf � 0 fforflargerfceramicf capacitor. output freewheeling diode selection schottkyfdiodesfarefthefidealfchoicefforfthefsc50 � 4fdueftof theirflowfforwardfvoltagefdropfandffastfswitchingfspeed.ff tablef5fshowsfseveralfdiferentfschottkyfdiodesfthatfworkf properlyf withf thef sc50 � 4.fverifyf thatf thef diodef hasf af voltagefratingfgreaterfthanfthefmaximumfpossiblefoutputf voltage.fthefdiodefconductsfcurrentfonlyfwhenfthefpowerf switchfisfturnedfof.fthefdiodefmustfbefratedftofhandlefthef averagef outputf current.f af diodef ratedf forf � af averagef currentfwillfbefsufcientfforfmostfdesigns. tablef5.ffrecommendedfrectiferfdiodes rectiferfdiode vendorfwebsite dfls�40 www.diodes.com ss�4/�5/�6,fss24/25/26 www.vishay.com external power mosfet selection thefboostfconverterfinfsc50 � 4fusesfanfexternalfpowerf mosfetftofregulatefthefoutputfvoltagefandfoutputfpowerf tofdrivefledfloads.ffthisfboostfswitchingfstructurefhasfanf advantagef inf thatf thef sc50 � 4f isf notf exposedf tof highf voltage.ffonlyfthefexternalfpowerfmosfet,ffreewheelingf diodefandfthefinductorfwillfbefexposedftofthefoutputf voltage.fthefexternalfpowerfmosfetfshouldfbefselectedf withfitsfvoltagefratingfhigherfthanfthefoutputfvoltagefbyf minimumf30%.fthefcurrentfratingfshouldfbefenoughftof handlefthefinductorfpeakfcurrent.flowfr ds (on)fmosfetsf arefpreferredfforfachievingfbetterfefciency. thefgdf(gatefdriver)fonfsc50 � 4fprovidesf � af(peak)fcurrentf drivingfcapabilityfwhichfisfsuitablefforfmostfmosfetsfforf highffrequencyfoperation.fthefaveragefcurrentfrequiredftof drivefthefmosfetfisfgivenfbyftheffollowingfequation. i gate = q g x f sw q g gate charge thefr ds(on) fandfitsfrmsfcurrentfi s_rms foffthefpowerfmosfetf willfgeneratefthefconductionflossfusingftheffollowingf equation. p cond = i s_rms 2 x r ds(on) thefmosfetsfswitchflossfcanfbefcalculatedfusingftheffol - lowingfequation. p sw = ? x v in x i l_peak x f sw x (t on + t off ) where t on and t off are the mosfets on and off time and they can be estimated by the following equations. ( ) ( ) g plateau gd r on r / v q t t + ? + = 5 5 ( ) g plateau gd f off r / v q t t + + = 5 whereft r ,ft f ,fq gd fandfv plateau fcanfusuallyfbeffoundffromfdata - sheetfoffthefselectedfmosfet.fr g fisfthefresistancefoffthef optionalfresistorfconnectedfinfseriesfonfthefgatefoffthef mosfet.
sc5014 22 components selection (continued) current sensing resistor selection thefswitchfcurrentfisfsensedfviafthefcurrentfsensingfresis - tor,fr cs .fthefsensedfvoltagefatfthisfpinfisfusedftofsetfthef peakfswitchfcurrentflimitfandfalsofusedfforfsteadyfstatef regulationfoffthefinductorfcurrent.fthefcurrentflimitfcom - paratorfhasfaftripfvoltagefoff0.4vf(typical).fr cs fvaluefisf chosenftofsetfthefpeakfinductorfandfswitchfcurrentfusingf theffollowingfequation. i 2 sw(peak) = 0.4/r cs thefpowerfdissipationfinfr sns fcanfbefcalculatedfusingfthef followingfequations. p r_cs = i rms 2 x r cs i rms = d x [i o /(1-d)] 2 i o = output dc current, d = duty cycle forftheftypicalfapplicationfcircuitfshownfinfthefdetailedf applicationfcircuitf(pagef23,ffiguref2),fthefpowerfdissipa - tionfonfthefsensingfresistorfisfshownfbyftheffollowingf equations. assumingfv in f=f6vfandfv out f=f3� .5v,fthusfdf=f8�%, p r_cs = 0.81 x (0.48/0.19) 2 x 0.08 = 0.414(w) forfthisfexample,faf0.08ff � %fthick-flmfchipfresistorfratedf atf � wfcanfbefused. pll filter component selection thefdetailedfapplicationfcircuitfonfpagef23,ffiguref2fshowsf thefoptimalfr/cfflterfcomponentsfforfthefpllfcompensa - tion.fthesefarefoptimizedfforfinternalf � mhzfswitchingffre - quency.f pleasef contactf semtechf powerf managementf applicationfgroupfiffafdifferentfswitchingffrequencyfisf selected.
sc5014 23 figure 2 application circuit example, 40 led @ 100ma c 5 2 . 7 pf v in ( 6 - 27 v ) sc 5014 vcc en uvlo scp r e f f s e t c p l l scl sda i s e t pwm io 4 io 3 io 2 io 1 ovp c s p g n d n d r v r 4 c 4 100 pf r 3 c 6 q 1 c 12 sda r 8 r 15 c 1 scl c 3 l 1 r 9 r 1 pwm r 12 v cc ( 5 v ) r 6 r 2 gnd r 11 vout 10 wleds per channel flt flt 2 . 2 f 10 k pgnd 10 f / 35 v x 2 pcs 4 . 7 f / 50 v x 6 pcs 1 f 24 . 3 k 80 m 357 k 10 k 25 . 5 k r 7 , 110 k 20 k 10 k r 5 , 40 . 2 k 100 k d 1 10 k 4 . 7 h aon 7244 b 260 pad figure 3 li-ion powered display application circuit example, 20 led @ 20ma v in ( 3 - 4 . 2 v ) s c 50�4 vcc en uvlo scp r e f f s e t n c scl sda i s e t pwm io 4 io 3 io 2 io 1 ovp c s p g n d n d r v r 4 r 3 c 6 q 1 c 12 sda r 8 r 15 c 1 scl c 3 l 1 r 1 pwm r 12 v cc ( 5 v ) r 6 r 2 gnd r 11 vout 5 wleds per channel flt flt 2 . 2 f / 10 v 10 k pgnd 10 f / 6 . 3 v x 2 pcs 1 f 13 k 100 m 249 k 10 k 127 k 20 k 10 k r 5 , 60 . 4 k 100 k d 1 10 k si 2318 b 140 pad r cs
sc5014 24 c 5 2 . 7 pf v in ( 6 - 27 v ) s c 50�4 vcc en uvlo scp r e f f s e t c p l l scl sda i s e t pwm io 4 io 3 io 2 io 1 ovp c s p g n d n d r v r 4 c 4 100 pf r 3 q 1 c 12 sda r 8 r 15 c 1 scl c 3 l 1 r 1 pwm r 12 v cc ( 5 v ) r 6 r 2 gnd r 11 vout flt flt 2 . 2 f pgnd 1 f r 7 , 110 k 20 k 10 k r 5 pad d 1 c 6 l 2 c 8 r cs figure 4 sepic confguration c 5 2 . 7 pf v in ( 12 - 19 v ) s c 50�4 vcc en uvlo scp r e f f s e t c p l l scl sda i s e t pwm io 4 io 3 io 2 io 1 ovp c s p g n d n d r v r 4 c 4 100 pf r 3 c 6 q 1 c 12 sda r 8 r 15 c 1 scl c 3 l 1 r 1 pwm r 12 v cc ( 5 v ) r 6 r 2 gnd r 11 vout up to 70 v 20 wleds per channel flt flt 2 . 2 f 10 k pgnd 10 f / 25 v x 3 pcs 2 . 2 f / 100 v x 6 pcs 1 f 75 k 50 m 787 k 10 k 25 . 5 k r 7 , 110 k 20 k 10 k r 5 , 40 . 2 k 250 k d 1 10 k aon 6482 dfls 1100 pad v in 3 . 3 h r cs figure 5 cascode confguration drives 80 leds@100ma
sc5014 25 acknowledgesfandfthefmasterfterminatesftheftransferfwithf thefstopfconditionf[p]. (2) combined format read afterfthefstartfconditionf[s],fthefslavefaddressfisfsent,ffol - lowedfbyfanfeighthfbitfindicatingfafwrite.ffthefsc50 � 4fi 2 cf thenfacknowledgesfthatfitfisfbeingfaddressed,fandfthef masterfrespondsfwithfanf8-bitfdatafbytefconsistingfoffthef registerfaddress.fthefslavefacknowledgesfandfthefmasterf sendsfthefrepeatedfstartfconditionf[sr].foncefagain,fthef slavefaddressfisfsent,ffollowedfbyfanfeighthfbitfindicatingf afread.fthefslavefrespondsfwithfanfacknowledgefandfthef 8-bitfdataffromfthefpreviouslyfaddressedfregister;fthef masterfthenfsendsfafnon-acknowledgef(nack).ffinally,fthef masterfterminatesftheftransferfwithfthefstopfconditionf[p]. (3) stop separated reads stop-separatedfreadsfcanfalsofbefused.fthisfformatfallowsf afmasterftofsetfupfthefregisterfaddressfpointerfforfafreadf andfreturnftofthatfslavefatfaflaterftimeftofreadfthefdata.finf thisfformatfthefslavefaddressffollowedfbyfafwritefcommandf aref sentf afterf af startf [s]f condition.fthef sc50 � 4f thenf acknowledgesf itf isf beingf addressed,f andf thef masterf respondsfwithfthef8-bitfregisterfaddress.fthefmasterfsendsf afstopforfrestartfconditionfandfmayfthenfaddressfanotherf slave.fafterfperformingfotherftasks,fthefmasterfcanfsendfaf startf orf restartf conditionf tof thef sc50 � 4f withf af readf command.fthefdevicefacknowledgesfthisfrequestfandf returnsf thef dataf fromf thef registerf locationf thatf hadfffffffff previouslyfbeenfsetfup. serial interface the i 2 c general specifcation thefsc50 � 4fisfafread-writefslave-modefi 2 cfdevicefandf compliesfwithfthefnxpfb.v.fi 2 cfstandardfversionf2. � ,fdatedf januaryf2000.fthefsc50 � 4fhasf �� fuser-accessiblefinternalf 8-bitfregisters.fthefi 2 cfinterfacefhasfbeenfdesignedfforf programfflexibility,fsupportingfdirectfformatfforfwritef operation.freadfoperationsfarefsupportedfonfbothfcom - binedfformatfandfstopfseparatedfformat.fwhileftherefisfnof autofincrement/decrementfcapabilityfinfthefsc50 � 4fi 2 cf logic,faftightfsoftwarefloopfcanfbefdesignedftofrandomlyf accessfthefnextfregisterfindependentfoffwhichfregisterf youfbeginfaccessing.fthefstartfandfstopfcommandsfframef thefdata-packetfandfthefrepeatfstartfconditionfisfallowedf iffnecessary. limitations to the i 2 c specifcations thefsc50 � 4fonlyfrecognizesf7-bitfaddressing.fthisfmeansf thatf � 0-bitfaddressingfandfcbusfcommunicationfarefnotf compatible.f thefdevicefcanfoperatefinfeitherfstandardf modef(� 00kbit/s)forffastfmodef(400kbit/s). slave address assignment thef7-bitfslavefaddressfisf0 � 0 � f ��� x.fthefeighthfbitfisfthef datafdirectionfbit.f0x5ffisfusedfforfreadfoperationfandf 0x5efisfusedfforfwritefoperation. supported formats thefsupportedfformatsfarefdescribedfinftheffollowingf subsections. (1) direct format write thefsimplestfformatfforfanfi 2 cfwritefisfdirectfformat.ffafterf thefstartfconditionf[s],fthefslavefaddressfisfsent,ffollowedf byfanfeighthfbitfindicatingfafwrite.fthefsc50 � 4fi 2 cfthenf acknowledgesfthatfitfisfbeingfaddressed,fandfthefmasterf respon dsfwithfanf8-bitfdatafbytefconsistingfoffthefregisterf address.fthefslavefacknowledgesfandfthefmasterfsendsf thefappropriatef8-bitf datafbyte.foncefagain,fthefslavef
sc5014 26 i 2 c direct format write slave address register address data s w a a a p s C start condition w C write = 0 a C acknowledge ( sent by slave ) p C stop condition slave address C 7 - bit register address C 8 - bit data C 8 - bit i 2 c stop separated format read slave address register address slave address b data nack s w a a s / sr r a p p slave address s register address setup access master addresses other slaves register read access s C start condition w C write = 0 r C read = 1 a C acknowledge ( sent by slave ) nak C non - acknowledge ( sent by master ) sr C repeated start condition p C stop condition slave address C 7 - bit register address C 8 - bit data C 8 - bit i 2 c combined format read slave address register address slave address data nack s w a a sr r a p s C start condition w C write = 0 r C read = 1 a C acknowledge ( sent by slave ) nak C non - acknowledge ( sent by master ) sr C repeated start condition p C stop condition slave address C 7 - bit register address C 8 - bit data C 8 - bit
sc5014 27 register map address bit 7 bit 6 bit 5 bit 4 bit 3 bit 2 bit 1 bit 0 reset value description 0x00 clf pll_rdy led_ short led_ open otp ovp fault 0x00 faultfstatus 0x0� wnd� wnd0 fast_ freq flt_en phase_ shift int_ duty int_ pwm 0xb5 devicefcontrol 0x02 idac4 idac3 idac2 idac � idac0 0x�f analogfdimmingf control 0x03 d9 d8 0x00 dimmingfdutyfcyclef controlf � 0x04 d7 d6 d5 d4 d3 d2 d� d0 0x00 dimmingfdutyfcyclef controlf2 0x05 freq7 freq6 freq5 freq4 freq3 freq2 freq� freq0 0x00 dimmingffrequencyf select 0x06 npll�7 npll�6 0x00 pllfdividerfmsb 0x07 npll�5 npll�4 npll�3 npll�2 npll�� npll�0 npll9 npll8 0x00 pllfdividerflsb2 0x08 npll7 npll6 npll5 npll4 npll3 npll2 npll� npll0 0x08 pllfdividerflsb� 0x09 fade_en fade_ type step_ mul2 step_ mul� step_ mul0 0x80 fadefoptions 0x0a fade_ rate6 fade_ rate5 fade_ rate4 fade_ rate3 fade_ rate2 fade_ rate � fade_ rate0 0x00 fadefrate
sc5014 28 defnition of registers and bits fault status register bit field defnition read / write description 0x00f[7] clf w clearflatchingffagsfbit.f f (setf=f � ftofclearfotp,fled_open,fled_shortfandfmaskfovpfforf32ftof64s) 0x00f[6] pll_rdy r pllfreadyfstatus 0x00f[5] led_short r oneforfmorefledfstringsffaultedfshorted 0x00f[4] led_open r oneforfmorefledfstringsffaultedfopen 0x00f[2] otp r thermalfshutdownf( � f=fthermalfotpffault) 0x00f[�] ovp r outputfover-voltageffaultf(f �f=fovpf) 0x00f[0] fault r orfoffallffaultfconditionsf(0=fnoffault,f � f=ffaultfcondition)
sc5014 29 device control register bit field defnition read / write description 0x0�f[7:6] win[�:0] r/w afmodifedfdutyfcyclefsentfintofthefpwmifpinfreplacesfthefexistingfsavedfdutyfcyclefwhenfitsf deviationffromfthefsavedfdutyfisfoutsidefthefwindowfforftwofconsecutivefsamples.f 00f=f0fbitsf(nofwindow) 0�f=f� fbitfwindow � 0f=f2fbitfwindow �� f=f3fbitfwindow 0x0�f[5] fast_freq r/w determinesfthefledfpwmfdimmingffrequencyfselection: � f=fhighfpwmfdimmingffrequencyfmodefassumingf9-bitfpwmfdutyfcyclefdimming,fdividingf thefsystemfclockf � 0mhzf/f(5�2fxf(freq+�)). 0f=flowfpwmfdimmingffrequencyfmodefassumingf � 0-bitfpwmfdutyfcyclefdimming,fdividingf thefsystemfclockf � 0mhzf/f(�024fxf(freq+�)). 0x0�f[4] flt_en r/w thisfbitfenablesffaultfchecking: 0f=fled_openfandfled_shortffaultsfarefnotfchecked. � f=fled_openfandfled_shortffaultsfarefchecked. 0x0�f[2] ph_shift r/w enablesfstring-by-stringfphasefshifting.fthisfisfafdontfcarefiffint_pwm=0. 0f=fphasefshiftingfdisabled. � f=fphasefshiftingfisfenabled. 0x0�f[�] int_duty r/w determinesfthefdutyfcyclefsource.ffthisfisfafdontfcarefiffint_pwmf=f0. 0f=fledfdutyfcyclefisfsetfbyfthefpwmifinput. � f=fledfdutyfcyclefisfsetfbyfthef� 0-bitfdutyfcyclefcontrolfregisters. 0x0�f[0] int_pwm r/w setsfthefledfpwmfdimmingfsource. 0f=fledfpwmfdimmingfdrivenfdirectlyffromfthefpwmifinputfsourcef(directfpwmfdimming). � f=fledfpwmfdimmingfdrivenffromfanfinternalfoscillatorf(requiredfforfphase-shiftedfpwmf dimming);fenablesfthefpll. analog dimming control register bit field defnition read / write description 0x02f[4:0] idacf[4:0] rf/fw 5-bitfanalogfdimmingfregisterffthefledfcurrentfcanfadjustedfinf32fstepsffromf0maftofmaxf valuefdeterminedfbyfr iset . defnition of registers and bits (continued)
sc5014 30 defnition of registers and bits (continued) dimming duty cycle control register bit field defnition read / write description 0x03f[�:0] f 0x04f[7:0] df[9:0] rf/fw � 0-bitfpwmfbrightnessfsettingffthisfvaluefisfspreadfoverfregisters:ff0x03f(msb)fandf0x04f (lsb). dimming frequency select register bit field defnition read / write description 0x05f[7:0] freqf[7:0] rf/fw thisfregisterfsetsfthefledfdimmingffrequency. fast_freqf=f � ,fthenfledfdimmingffrequencyfisfequalftof� 0mhzf/f(5�2fxf(freq+�)). fast_freqf=f0,fthenfledfdimmingffrequencyfisfequalftof � 0mhzf/f(�024fxf(freq+�)). pll control registers bit field defnition read / write description 0x06f[�:0] f 0x07f[7:0] f 0x08f[7:0] npllf[�7:0] rf/fw thesefregistersfsetfthefpllffdividerfvaluefffthefsystemfclockfisfintendedftofrunfatf � 0mhz;fthisf valuefdividesfthefsystemfclockfdownftofaffrequencyfcomparableftofthefsyncfsignalsffrequen - cyftofallowfpllfsynchronization.ftypicalfvaluesfarefshownfbelow. f in n n in 60fhz �69,982 0x02f-f0x97f-f0xfe � 0mhz � fmhz 8 0x00f-f0x00f-f 0x08 � 0mhz fade options registers bit field defnition read / write description 0x09f[7] fade_en r/w enablesftheffadingffeature. fade_enf=f0:fnoffading;fjumpsfdirectlyftofnewfpwmfvalue. fade_enf=f � :fenablesffading. 0x09f[6] fade_type r/w selectsftheffadingftype. fade_typef=f0:flogarithmicffading. fade_typef=f � :flinearffading.
sc5014 3� bit field defnition read / write description 0x09f[2:0] step_mul f [2:0] r/w usedftofspeedfupffadeftime,fwhenfselectedfledfpwmfdimmingffrequencyfisflow.fdefnefaf2 n f multiplierfofftheffadefamount. step_mul[2:0]f=f000,fn=0,ffmultiplierf=f� step_mul[2:0]f=f00�,fn=�,ffmultiplierf=f2 � f=f2 step_mul[2:0]f=f0�0,fn=2,ffmultiplierf=f2 2 f=f4 step_mul[2:0]f=f0��,fn=3,ffmultiplierf=f2 3 f=f8 step_mul[2:0]f=f�00,fn=4,ffmultiplierf=f2 4 f=f�6 step_mul[2:0]f=f�0�~���,fn=5,ffmultiplierf=f2 5 f=f32 fade rate register bit field defnition read / write description 0x0af[6:0] fade_rate f [6:0] rf/fw defnesfhowfoftenfthefdutyfisfchangedfduringfaffade.f fadefratef=fpwmfoutputfratef/f( � f+ffade_rate[6:0]) defnition of registers and bits (continued)
sc5014 32 bxn bbb c a b d1 e1 e d/2 .001 max .002 - .039 nom 0.80 0.02 (0.20) 0.90 controlling dimensions are in millimeters (angles in degrees). coplanarity applies to the exposed pad as well as the terminals. notes: 2. 1. 1 2 n e1 .100 .106 .110 2.55 2.70 2.80 pin 1 indicator 4.10 3.90 4.00 4.10 3.90 .157 .154 .161 .154 .161 aaa c a c (laser mark) d e b a1 a a2 seating plane lxn e/2 inches .020 bsc b .007 bbb aaa n d1 e l e d .012 .100 dim a1 a2 a min .000 - .031 0.30 0.18 .012 0.25 .010 0.50 2.80 0.30 2.55 .004 .004 20 .016 .157 .106 .020 .110 0.10 0.10 20 0.40 4.00 2.70 0.50 bsc millimeters max 0.05 - 1.00 dimensions min 0.00 - nom (.008) .035 outline drawing mlpq-20 4x4
sc5014 33 land pattern mlpq-20 4x4 dimensions k h g z x p (c) company's manufacturing guidelines are met. 4.80 .189 z y failure to do so may compromise the thermal and/or thermal vias in the land pattern of the exposed pad shall be connected to a system ground plane. functional performance of the device. 2. this land pattern is for reference purposes only. consult your manufacturing group to ensure your notes: 1. dim x y h k p c g millimeters inches (3.95) .010 .033 .122 .020 .106 .106 (.156) 0.25 0.85 2.70 0.50 2.70 3.10
semtechfcorporation powerfmanagementfproductsfdivision 200fflynnfroad,fcamarillo,fcaff930 �2 phone:ff(805)f498-2 ��� ffffax:ff(805)f498-3804 www.semtech.com contact information sc5014 34 ?fsemtechf20 �2 allfrightsfreserved.freproductionfinfwholeforfinfpartfisfprohibitedfwithoutfthefpriorfwrittenfconsentfoffthefcopyrightf owner.fthefinformationfpresentedfinfthisfdocumentfdoesfnotfformfpartfoffanyfquotationforfcontract,fisfbelievedftofbef accuratefandfreliablefandfmayfbefchangedfwithoutfnotice.fnofliabilityfwillfbefacceptedfbyfthefpublisherfforfanyfconse - quencefoffitsfuse.fpublicationfthereoffdoesfnotfconveyfnorfimplyfanyflicensefunderfpatentforfotherfindustrialforfintellec - tualfpropertyfrights.fsemtechfassumesfnofresponsibilityforfliabilityfwhatsoeverfforfanyffailureforfunexpectedfoperationf resultingffromfmisuse,fneglectfimproperfinstallation,frepairforfimproperfhandlingforfunusualfphysicalforfelectricalfstressf including,fbutfnotflimitedfto,fexposureftofparametersfbeyondfthefspecifedfmaximumfratingsforfoperationfoutsidefthef specifedfrange. semtechfproductsfarefnotfdesigned,fintended,fauthorizedforfwarrantedftofbefsuitablefforfusefinflife- supportfapplications,fdevicesforfsystemsforfotherfcriticalfapplications.finclusionfoffsemtechfproductsf infsuchfapplicationsfisfunderstoodftofbefundertakenfsolelyfatfthefcustomersfownfrisk.fshouldfafcustomerf purchaseforfusefsemtechfproductsfforfanyfsuchfunauthorizedfapplication,fthefcustomerfshallfindemnifyfandfholdf semtechfandfitsfofcers,femployees,fsubsidiaries,fafliates,fandfdistributorsfharmlessfagainstfallfclaims,fcostsfdamagesf andfattorneyffeesfwhichfcouldfarise. notice:fallfreferencedfbrands,fproductfnames,fservicefnamesfandftrademarksfarefthefpropertyfofftheirfrespectivef owners.
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