AN-4137 SMPS 仙童反激式隔離開關(guān)電源設(shè)計(jì)工具.xls

FPS Design Assistant ver 1 20 By Choi Blue cellis the input parameters RedRed cellcellis the output parameters 1 1 DefineDefine thethe systemsystem specificationsspecifications Minimum Line voltage Vlinemin 85 V rms Maximum Line voltage Vlinemax 265 V rms Line frequency fL 60 Hz V Vo n o n I Io n o n P Po n o n K KL n L n 1st output for feedback3 3 V2 00A7 7WW1 14 4 2nd output5 V2 00A1 10 0WW2 21 1 3rd output12 V1 50A1 18 8WW3 38 8 4th output18 V0 50A9 9WW1 19 9 5th output33 V0 10A3 3WW7 7 6th outputVA0 0WW0 0 MaximumMaximum outputoutput powerpower P Po o 4 46 6 9 9WW Estimated efficiency Eff 70 MaximumMaximum inputinput powerpower P Pinin 6 67 7 0 0WW 2 2 DetermineDetermine DCDC linklink capacitorcapacitor andand DCDC linklink voltagevoltage rangerange DC link capacitor CDC 150 uF MinimumMinimum DCDC linklink voltagevoltage V VDCDCmin min 9 92 2V V MaximumMaximum DCDC linklink voltagevoltage V VDCDCmax max 3 37 75 5V V 3 3 DetermineDetermine MaximumMaximum dutyduty ratioratio Dmax Dmax Maximum duty ratio Dmax 0 48 MaxMax nominalnominal MOSFETMOSFET voltagevoltage V Vdsdsnom nom 4 46 60 0V V OutputOutput voltagevoltage reflectedreflected toto primaryprimary V VRORO 8 85 5V V 4 4 DetermineDetermine transformertransformer primaryprimary inductanceinductance Lm Lm Switching frequency of FPS fs 66 kHz Ripple factor KRF 0 33 PrimaryPrimary sideside inductanceinductance L Lmm 6 67 71 1uHuH MaximumMaximum peakpeak draindrain currentcurrent I Idsdspeak peak 2 2 0 01 1A A RMSRMS draindrain currentcurrent I Idsdsrms rms 1 1 0 07 7A A151 MaximumMaximum DCDC linklink voltagevoltage inin CCMCCM V VDCDCCCM CCM 3 37 75 5V V 5 5 ChooseChoose thethe properproper FPSFPS consideringconsidering thethe inputinput powerpower andand currentcurrent limitlimit Typical current limit of FPS Iover 2 50A MinimumMinimum I Iover over consideringconsidering tolerancetolerance ofof 12 12 2 2 2 20 0A A 2 012 01A A O K O K 6 6 DetermineDetermine thethe properproper corecore andand thethe minimumminimum primaryprimary turnsturns Saturation flux density Bsat 0 35T Cross sectional area of core Ae 109 4 mm2 ID EDC I EDC RF I I K 2 D 1 1 CCMK DCMK RF RF 7 7 1st1st outputoutput forfor feedbackfeedback3 3 3 3 V V0 5 V2 2 2 2nd2nd outputoutput5 5 V V0 5 V2 2 9 9 3 3 3rd3rd outputoutput1 12 2 V V1 2 V6 6 9 9 7 7 4th4th outputoutput1 18 8 V V1 2 V1 10 0 1 1 1 10 0 5th5th outputoutput3 33 3 V V1 2 V1 18 8 0 0 1 18 8 6th6th outputoutput0 0 V V0 V0 0 0 0 0 0 VF Forward voltage drop of rectifier diodePrimaryPrimary turnsturns N Np p 4 45 5 enough enough turnsturns Ungapped AL value AL 2130 nH T2 GapGap lengthlength G G centercenter polepole gapgap 0 0 3 34 46 63 31 14 4 mmmm 8 8 DetermineDetermine thethe wirewire diameterdiameter forfor eacheach windingwinding DiameterDiameterParallelParallelI ID n D n rms rms A mm A mm2 2 PrimaryPrimary windingwinding0 5 mm1 T1 1 1 1A A5 5 4 44 4 VccVcc windingwinding0 3 mm2 T0 0 1 1A A0 0 7 71 1 1st1st outputoutput windingwinding0 4 mm4 T3 3 5 5A A6 6 9 97 7 2nd2nd outputoutput windingwinding0 4 mm4 T3 3 7 7A A7 7 3 30 0 3rd3rd outputoutput windingwinding0 4 mm3 T2 2 8 8A A7 7 3 30 0 4th4th outputoutput windingwinding0 4 mm2 T0 0 9 9A A3 3 7 76 6 5th5th outputoutput windingwinding0 4 mm1 T0 0 2 2A A1 1 5 55 5 6th6th outputoutput windingwindingmmT DIV 0 DIV 0 A A DIV 0 DIV 0 CopperCopper areaarea A Ac c 1 19 9 7 70 0mmmm2 2 Fill factor KF 0 15 RequiredRequired windowwindow areaarea A Awrwr 1 13 31 1 3 33 3mmmm2 2 9 9 ChooseChoose thethe rectifierrectifier diodediode inin thethe secondarysecondary sideside V VD n D n I ID n D n rms rms VccVcc diodediode7 70 0V V0 0 1 10 0A A 1st1st outputoutput diodediode2 20 0V V3 3 5 50 0A A 2nd2nd outputoutput diodediode2 29 9V V3 3 6 67 7A A 3rd3rd outputoutput diodediode7 70 0V V2 2 7 75 5A A 4th4th outputoutput diodediode1 10 03 3V V0 0 9 95 5A A 5th5th outputoutput diodediode1 18 84 4V V0 0 1 19 9A A 6th6th outputoutput diodediode0 0V V DIV 0 DIV 0 A A 10 10 DetermineDetermine thethe outputoutput capacitorcapacitor C Co n o n R RC n C n I Icap n cap n V Vo n o n 1st1st outputoutput capacitorcapacitor2000 uF100 m 2 2 9 9A A0 0 6 64 4 2nd2nd outputoutput capacitorcapacitor2000 uF100 m 3 3 1 1A A0 0 6 67 7 3rd3rd outputoutput capacitorcapacitor330 uF300 m 2 2 3 3A A1 1 5 53 3 4th4th outputoutput capacitorcapacitor470 uF300 m 0 0 8 8A A0 0 5 52 2 5th5th outputoutput capacitorcapacitor47 uF480 m 0 0 2 2A A0 0 1 18 8 6th6th outputoutput capacitorcapacitoruFm DIV 0 DIV 0 A A DIV 0 DIV 0 11 11 DesignDesign RCDRCD snubbersnubber Primary side leakage inductance Llk 4 uH Maximum Voltage of snubber capacitor Vsn 160 V Maximum snubber capacitor voltage ripple7 SnubberSnubber resistorresistor R Rsnsn 2 22 2 4 4 SnubberSnubber capacitorcapacitor C Csnsn 9 9 7 7nFnF0 185 PowerPower lossloss inin snubbersnubber resistorresistor P Psnsn 1 1 1 1WW In In NormalNormal Operation Operation PeakPeak draindrain currentcurrent atat V VDCDCmax max I Ids2 ds2 1 1 7 75 5A A MaxMax VoltageVoltage ofof CsnCsn atat V VDCDCmax max V Vsn2 sn2 1 14 47 7V V MaxMax VoltageVoltage stressstress ofof MOSFETMOSFET V Vdsdsmax max 5 52 21 1V V 12 12 DesignDesign FeedbackFeedback controlcontrol looploop Control to outputControl to output DCDC gaingain 2 2 Control to outputControl to output zerozero w wz z 5 50 00 00 0rad srad s f fz z 7 79 96 6HzHz Control to outputControl to output RHPRHP zerozero w wrz rz 6 69 94 47 76 65 5rad srad s f frz rz 1 11 10 0 6 63 31 1HzHz Control to outputControl to output polepole w wp p 2 21 15 53 3rad srad s f fp p 3 34 43 3HzHz Voltage divider resistor R1 5 6 VoltageVoltage dividerdivider resistorresistor R R2 2 1 18 8 Opto coupler diode resistor RD 1 KA431 Bias resistor Rbias 1 2 Feeback pin capacitor CB 33 nF Feedback Capacitor CF 47 nF Feedback resistor RF 1 2 FeedbackFeedback integratorintegrator gaingain w wi i 1 11 13 39 98 8rad srad s f fi i 1 1 8 81 15 5HzHz CompensatorCompensator zerozero w wzczc 3 31 12 29 9rad srad s f fzczc 4 49 98 8HzHz CompensatorCompensator polepole w wpcpc 1 10 01 10 01 1rad srad s f fpcpc 1 1 6 60 08 8HzHz 16 3 641052 41 44 7416 2 88 73 25 3 629999 37 40 8625 2 88 02 403 60099 33 36 7640 4 86 83 63 3 531666 29 32 7863 6 85 03 100 3 362215 25 28 69100 9 82 2 160 2 965164 21 24 44160 14 77 87 250 2 205747 1820 3250 19 72 18 400 0 895573 15 15 93400 23 65 19 630 0 6501 13 12 07630 23 59 71 1000 2 01851 11 8 7541000 20 58 34 1600 2 901659 5 7421600 15 62 13 2500 3 327536 2 7352500 11 68 5 4000 3 525743 0 794000 8 75 19 6300 3 59833 0 4 486300 7 80 19 10000 3 61068 5 8 3510000 8 83 71 vo1 RD iD Rbias R1 R2 B ibias CB vFB 1 1 FPS vo1 CF RF KA431 10000010000100010010 40 20 0 20 40 60 frequency Hz Gain dB Control to output Com pensator T Closed loop gain 10000010000100010010 180 150 120 90 60 30 0 frequency Hz Phase degree Control to output Com pensator T Closed loop gain 16000 3 56971 9 12 316000 10 86 04 25000 3 44848 16 125000 14 87 46 40000 3 13338 19 840000 21 88 41 63000 2 44798 23 163000 30 88 99 100000 1 07449 25 7100000 42 89 36 10000010000100010010 180 150 120 90 60 30 0 frequency Hz Phase degree Control to output Com pensator T Closed loop gain T T T T T T T T T T T T T T T T V V V V V V V V V Vo n o n V V V V vo1 RD iD Rbias R1 R2 B ibias CB vFB 1 1 FPS vo1 CF RF KA431 10000010000100010010 40 20 0 20 40 60 frequency Hz Gain dB Control to output Com pensator T Closed loop gain 10000010000100010010 180 150 120 90 60 30 0 frequency Hz Phase degree Control to output Com pensator T Closed loop gain 10000010000100010010 180 150 120 90 60 30 0 frequency Hz Phase degree Control to output Com pensator T Closed loop gain Flyback Transformer Design 步步驟驟參參數(shù)數(shù)數(shù)數(shù)據(jù)據(jù)單單位位NoteNote step0step0 DefineDefine thethe systemsystem Specifications Specifications VINVIN acac minmin85Vac rms VINVIN acac maxmax265Vac rms VinVin dcdc minmin100 19VVIN min 85 2 20 100V VinVin dcdc maxmax354 71V fsfs70000Hz TsTs1 43E 05s VoVo12V dc IoIo0 5A VfVf1V輸出整流管壓降 VdsVds10VMos 源漏極導(dǎo)通壓降 0 7 PoPo6W PtPt14 57143WPt Po Po 傳遞功率 DmaxDmax0 45 DminDmin0 187719Dmin Dmax 1 Dmax Ku Dmax KuKu3 540373Ku Upi max Up1 min DonDons DoffDoffs t t60o C CCM DCMCCM DCM Note step1step1 選選擇擇CORECORE材材質(zhì)質(zhì) 確確定定 B B CORE材質(zhì)TDK PC44 i i 2400 25 PvcPvc300KW m2100KHZ 100 BSBS0 39T飽和磁通 BrBr0 06T剩磁 100 Tc 215 BmBm0 33T工作磁感應(yīng)強(qiáng)度 0 12 0 25T 與輸出功率和頻率成反比 B B0 198T step2step2 確確定定CORECORE SIZESIZE和和TYPE TYPE 1 求core AP以確定 size PtPt14 57143WPt Po Po 傳遞功率 J J 400A cm 2 電流密度 A cm2 300 500 KuKu0 2繞組系數(shù) 0 2 0 5 APAP0 065708cm 4 AP AW Ae Pt 10 4 2 B fs J Ku 2 形狀及規(guī)格確定 AeAe23mm 2 磁芯有效截面積 AwAw54 04mm 2 繞線截面積 鐵芯窗口面積 ALAL1250nH N2磁芯無氣隙時(shí)的等效電感 le le39 4mm磁路長(zhǎng)度 APAP0 124292cm 4面積乘積 VeVe900mm 3磁芯體積 WtWt4 8g 磁芯重量 PclPcl 0 42100 W 磁芯最大損耗 PtPt10 8Watts 50kHz 承載功率 典型值 DimensionsDimensions 19 1 7 95 5 0 mm step3step3 確確定定臨臨界界電電流流 I IOBOB 以IL達(dá)80 Iomax時(shí)為臨界點(diǎn)設(shè)計(jì)變壓器 I IOBOB0 4 A IOB 80 Io max step4step4 設(shè)設(shè)定定匝匝數(shù)數(shù)比比 CHECK CHECK D Dmax max n n 6 305664n VIN min Vo Vf Dmax 1 Dmax 取整后 n6 CHECK Dmax DmaxDmax0 437735 Dmax n Vo Vf VINmin n Vo Vf step5step5 DCMDCM CCMCCM臨臨界界時(shí)時(shí)二二次次側(cè)側(cè)峰峰值值電電流流 ISB ISB計(jì)計(jì)算算 ISB ISB1 422816648 A ISB 2IOB 1 Dmax 2 2 528 1 0 52 10 533 step6step6 計(jì)計(jì)算算原原 副副邊邊電電感感 Lp Ls Lp Ls LsLs73 39009043 uHLs Vo Vf 1 Dmax Ts ISB LpLp2642 043256 uHLp n 2 Ls 6 2 12 76 459 4 uH 460 uH 此電感值為臨界電感 若需電路工作於CCM 則可增大此值 若需工作於DCM則可適當(dāng)調(diào)小些 step7step7 求求CCMCCM時(shí)時(shí)副副邊邊峰峰值值電電流流 Isp Isp Io max 2 Is ISB 1 Dmax 2 Is Io max 1 Dmax ISB 2 isp isp1 600669A Isp ISB Is Io max 1 Dmax ISB 2 step8step8 求求CCMCCM時(shí)時(shí)原原邊邊峰峰值值電電流流 Ipp Ipp ipp ipp0 266778A Ipp isp n n為匝數(shù)比 step9step9 確確定定Np Np NsNs 1 1 NpNp 154 7736796Np Lp Ipp B Ae 2 2 NsNs25 79561326Ns Np n 3 3 NvccNvcc 輔助繞組 VaVa 0 503961657 V TsVa Vo Vf Ns每匝伏特?cái)?shù) NvccNvcc25 79561326 Ts Nvcc Vcc Vf Va Step10Step10 計(jì)計(jì)算算AIRAIR GAPGAP lg lg0 261921873 mmlg Np 2 o Ae Lp LgLg2 620547232 mmLg 0 4 PI NP 2 Ae 10 8 Lp LgLg0 262055mmLg 0 4 PI Lp1 Ip1 2 Ae Bm 2 LgLg0 261838mmLg 0 0012556 Np Ip Bm step11step11 計(jì)計(jì)算算線線徑徑 估估算算銅銅窗窗占占用用率率 1 1 d dwpwp 一一次次側(cè)側(cè)線線圈圈線線徑徑 J J4A mm 2 IprmsIprms0 085552AIprms Po VIN min IavIav0 190115Iav Pout Vin min n D AwpAwp0 047529mm 2Awp Ip Iprms J J取4A mm 2 或5A mm 2 dpdp0 245999直徑D 2 Squrt Aws PI 2 dws 二次側(cè)線圈線徑 d dwsws0 125mm 2Aws Io J dsds0 398942mm直徑D 2 Squrt Aws PI 考量可繞性及趨膚效應(yīng) 采用多線並繞 單線不應(yīng)大於 0 4 0 4之Aw 0 126mm2 線數(shù)0 992063492線數(shù) dws 0 126 3 dwvcc 輔助繞組 AwvccAwvcc0 025 mm2 Awvcc Iv J 0 1 4 0 025mm2 0 18mm dvccdvcc0 178412412mm直徑D 2 Squrt Aws PI 上述繞組線徑均以4A mm2之計(jì)算 以降低銅損 若結(jié)構(gòu)設(shè)計(jì)時(shí)線包過胖 可適當(dāng)調(diào)整J之取值 4 估算銅窗占有率 0 4Aw0 4Aw 21 616 Np rp Np rp 7 188240774Np Ip 1 2dwp 2 Ns rs 1 2dws 2 Nvcc rv 1 2dwv 2 21 616 7 1882408 OK step12 估算損耗及溫升 1 求出各繞組之線長(zhǎng) l l40 mml為每匝長(zhǎng)度 LpLp6190 947183 mmLp Np l LsLs1031 824531 mmLs Ns l LnvcLnvc1031 824531 mm輔助繞組Lnvc Lnvc l 2 求出各繞組之RDC和Rac 100 查線阻表可知 Rdc1Rdc1370 2 Km 0 25mm WIRE km 20 Rdc2Rdc2141 7 Km 0 40mm WIRE cm 20 Rdc3Rdc3715 Km 0 18mm WIRE cm 20 以下為 100 的電阻率 Rdc1Rdc10 000518 mm 0 35mm WIRE cm 100 Rdc2Rdc20 000198 mm 注 R 100 1 4 R 20 Rdc3Rdc30 001001 mm 導(dǎo)線交直流電阻 RpdcRpdc3 208644 Rp Lp Rdc1 RpacRpac5 133831 Rpac 1 6Rpdc RsdcRsdc0 204693 Rs Ls Rdc2 RsacRsac0 327509 Rsac 1 6Rsdc RnvcdcRnvcdc1 032856 Rnvc Lnvc Rdc3 RnvcacRnvcac1 65257 Rnvcac 1 6Rnvcdc 求求副副邊邊各各電電流流值值 已已知知IoIo IoIo0 5A 副邊平均峰值電流 IspaIspa0 909090909A Ispa Io 1 Dmax 副邊直流有效電流 IsrmsIsrms0 674199862A Isrms 1 Dmax I 2spa 副邊交流有效電流 IsacIsac0 452267A Isac I 2srms Io 2 求求原原邊邊各各電電流流值值 Np Ip Ns Is 原邊平均峰值電流 IppaIppa0 151515152A Ippa Ispa n 原邊直流有效電流 Iprms0 068181818A Iprms Dmax Ippa 原邊交流有效電流 IpacIpac0 0154A Ipac D I 2ppa 3 求各繞組之損耗功率 計(jì)算各繞組交直流損耗 副邊直流損 PsdcPsdc0 802161027 WPSDC Io 2 Rsdc 交流損 PsacPsac0 066990551 WPsac I 2sac Rsac 副邊總損耗Total PsPs0 869151578 WPs Psdc Psac 原邊直流損 PpdcPpdc0 014916217 WPpdc Irms 2RPDC 原邊交流損 Ppac0 001217526 WPpac I 2pac Rpac 原邊總損耗Total PpPp 0 016133744 W Pp Ppdc Ppac 忽略Vcc繞組損耗 因其電流甚小 總的線圈損耗 銅損 PcuPcu0 885285321 WPcu Ps Pp 2 計(jì)算鐵損 PFe 查TDK DATA BOOK可知PC40材之 B 0 2T 時(shí) Pv 0 025W cm2 PvPv0 025 W cm2 VeVe0 9 cm 3EE19之Ve 0 9cm 3 PfePfe0 0225 WPFe Pv Ve 3 總損耗Ptotal PtotalPtotal0 907785321 WPtotal Pcu Pfe 4 估算溫升 t 依經(jīng)驗(yàn)公式 t60 51031727 t 23 5 P Ap 23 5 0 972 0 88 24 3 估算之溫升 t小於SPEC 設(shè)計(jì)OK step13 結(jié)構(gòu)設(shè)計(jì) 查L(zhǎng)P32 13 BOBBIN之繞線幅寬為 21 8mm 考量安規(guī)距離之沿面距離不小於6 4mm 為減小LK提高效率 采用三明治結(jié)構(gòu) 其結(jié)構(gòu)如下 X FMRX FMR結(jié)結(jié)構(gòu)構(gòu) Np 13 2 3 2 2 A 0 35 2301L SHI 23 2 3 2 SHI 42mils 1213L Ns 33 2 3 28 9 6 7 0 4 6103L SHI 43 2 3 2SHI 42mils 1211L Np 53 2 3 2A 1 0 35 2301L Nvcc 63 2 3 23 4 0 1872L 7連 結(jié) 兩 A 點(diǎn)2L step14 SAMPLE制作 結(jié)構(gòu)確認(rèn) step15 DQ及設(shè)計(jì)優(yōu)化 step0step0 DefineDefine thethe systemsystem Specifications Specifications step1step1 選選擇擇CORECORE材材質(zhì)質(zhì) 確確定定 B B 工作磁感應(yīng)強(qiáng)度 0 12 0 25T 與輸出功率和頻率成反比 step2step2 確確定定CORECORE SIZESIZE和和TYPE TYPE step3step3 確確定定臨臨界界電電流流 I IOBOB step4step4 設(shè)設(shè)定定匝匝數(shù)數(shù)比比 CHECK CHECK D Dmax max 0 443113 Np Ip 1 2dwp 2 Ns rs 1 2dws 2 Nvcc rv 1 2dwv 2 Device Recommend New Device FunctionProtection Mode Soft Start Option PKG Cross Reference Application Application Note FeaturesVdmax V Ipeak A Pin max W open frame adaptor type Fopr KHz Rds on max Over Load Over Current Over Voltage Thermal Shutdown 85 265VAC230VAC 1st Generation 800V Class KA1M0280RBKA5x0280R8001 22530677 0A RNOA RA RNOTO 220F 4LTOP223YDVDAN4105 AN4106KA1x0380RBKA5x0380R8002 15405067 505 0A RNOA RA RNOTO 220F 4LTOP224YVCR DVD KA1x0680BFS7M06808004 080100100 672 0LatchNOLatchLatchYESTO 3P 5L OriginalPC SMPS AN4105 AN4104 KA1H0680RFBFS7M06808004 0801001002 0A RNOA RA RYESTO 3PF 5L KA1M0680RBFS7M06808004 080100672 0A RNOA RA RYESTO 3P 5L KA1M0880B F FS7M08808005 0110130671 5LatchNOLatchLatchYESTO 3P F 5L OriginalPC SMPS KA1M0880DFS7M08808005 0110130671 5LatchNOLatchLatchYESTO 3P 5LOptimized for forward converter KA2S0680BFS8S0765RCB8004 08010020 1502 0LatchNOLatchLatchYESTO 3P 5LSTR F6653MonitorAN4105 AN4103KA3S0680RFBKA5Q0765RTH8004 08010020 1502 0A RNOA RA RYESTO 3PF 5L STR S6707C TV AN4105 AN4102KA3S0880RFBKA5Q12656RT8005 011013020 1501 5A RNOA RA RYESTO 3PF 5L 1st Generation 650V Class KA1H0165RNKA5x0165RN6500 6101010010A RNOA RA RYES8DIPTOP222P Charger AN4105 AN4101KA1H0165RKA5x0165R6500 6151510010A RNOA RA RNOTO 220F 4LTOP222Y KA1M0265RKA5x0265R6501 22530676 0A RNOA RA RNOTO 220F 4LTOP223YAuxiliary Power AN4105 AN4106 KA1M0365RKA5x0365R6502 154050674 5A RNOA RA RNOTO 220F 4LTOP224YSTB KA1x0565RFSDM0565R6503 55060100 672 2A RNOA RA RNOTO 220F 4LTOP227YNote PC Adaptor KA1M0765RKA5M0765RQC6505 0100120671 6A RNOA RA RYESTO 3P 5L OriginalSMPSAN4105 KA1M0965RKA5M0965Q6506 0120145671 2A RNOA RA RYESTO 3P 5L 2nd Generation 800V Class KA5x0280R8001 22530100 677 0A RA RA RA RNOTO 220F 4LTOP223YDVDAN4105 AN4106KA5x0380R8002 154050100 67 505 0A RA RA RA RNOTO 220F 4LTOP224YSTB KA5P0680C8004 08010020 1502 0A RLatchA RLatchYESTO 220 5LOriginalPC SMPSAN4105 AN4104Intelligent Power Saving Mode 2nd Generation 650V Class KA5x0165R6500 61515100 67 5010A RA RA RA RNOTO 220F 4LTOP222Y TOP222P Charger Auxiliary AN4105 AN4101 KA5x0165RNFSDL0165RN6500 61010100 67 5010A RA RA RA RNO8DIP KA5x02659RNFSDx0265RN6500 91517100 676 0A RA RA RA RNO8DIP TOP223YAuxiliary PowerKA5H0265RC6501 225301006 0A RA RA RA RYESTO 220 5L AN4105 AN4106 KA5x0265R6501 2253067 506 0A RA RA RA RNOTO 220F 4L KA5x0365RNFSDx0365RN6502 15253067 504 5A RA RA RA RNO8DIPTOP224P STB KA5x0365R6502 154050100 67 504 5A RA RA RA RNOTO 220F 4LTOP224Y KA5M0765RQC6505 0100120671 6A RA RA RA RYESTO 220 5L OriginalSMPSAN4105 KA5M0965Q6506 0120145671 2LatchLatchLatchLatchYESTO 3P 5L KA5S0765CFS8S0765RCB6504 080100Sync 1 6LatchLatchLatchLatchYESTO 220 5LSTR F6653 Monitor AN4105 AN4103 KA5S0965FS6S0965RCB6506 0120145Sync 1 2LatchLatchLatchLatchYESTO 3P 5LSTR F6654 KA5S12656FS6S1265RE6506 0120145Sync 0 9LatchLatchLatchLatchYESTO 3P 5LSTR F6656 KA5S1265FS6S1265RE6508 0160190Sync 0 9LatchLatchLatchLatchYESTO 3P 5LSTR F6656 KA5Q0565RT6503 57080QRC2 2A RLatchA RLatchNOTO 220F 5L C TV AN4105 AN4102 1 Burst Mode Operation for low stdby 2 Simple application with both primary and secondary side regulation KA5Q0740RT4005 0100 QRC1 1A RLatchA RLatchNOTO 220F 5L KA5Q0765RTHFSCQ0765RT6505 0100130QRC1 6A RLatchA RLatchNOTO 220F 5LSTR F6653 KA5Q12656RT6506 0150180QRC0 9A RLatchA RLatchNOTO 220F 5LSTR F6654 KA5Q1265RF6508 0200230QRC0 9A RLatchA RLatchNOTO 3PF 5LSTR F6656 KA5Q1265RFH6508 0200230QRC0 9A RLatchA RLatchNOTO 3PF 5LSTR F6656 KA5Q1565RF65011 5270300QRC0 65A RLatchA RLatchNOTO 3PF 5L 3rd Generation FS6M07652RTCFSDM07652R6502 05565701 6A RA RA RLatchYESTO 220F 5L OriginalLCD Monitor AN4105 AN4116 Burst Mode Operation for low stdby FS6M12653RTC6503 28095700 9A RA RA RLatchYESTO 220F 5L FS6S0765RCHFS8S0765RCB6504 080100Sync 1 6A RA RA RA RYESTO 220 5LSTR F6653 Monitor AN4105 AN4108 Burst Mode Operation for low stdby FS6S0965RTFS6S0965RCB6506 0120145Sync 1 2A RLatchA RLatchYESTO 22