User Guide for FEBFAN6100QMPX_CH07U15A Evaluation Board
Contents
1. FEBFAN6100QMPX_CHO7U15A Rev 1 0 25 2014 Fairchild Semiconductor Corporation FAIRCHILD SIVE Figure 56 Line 230 Vac 50 Hz 8 9 Vo Figure 57 Neutral 230 Vac 50 Hz 8 9 Vo Figure 58 Line 115 Vac 60 Hz amp 12 Vo Figure 59 Neutral 115 Vac 60 Hz 8 12 Vo Rigo BIT RE wan anv M jg tenu Figure 60 Line 230 Vac 50 Hz amp 12 Vo Figure 61 Neutral 230 Vac 50 Hz 812 Vo 9 16 Qualcomm QC2 0 Compatible Test Result Test Condition Mode change function test with Qualcomm protocol 90Vac minimum load Table 19 QC2 0 DP DN Section Table 2014 Fairchild Semiconductor Corporation 26 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD Waveforms Stop 220 my 5 500kS slEdge Negative 11832365 11876285 X2 4392ms bat 842 015 mHz CH1 DP CH2 DN CH4 Vo BC1 2 Process LeCroy a amun ambes 4 s de A X1 25000005 A 49999985 Figure 64 CH1 DP CH2 DN CH4 Vo Mode Change from 9 V to 5 V LeCroy i H T a i e ve 49 8s X2 24999985 1 4 200 00008 mHz Figure 66 CH1 D2. 83 84 86 26 86 29 84 94 85 33 eon A 115 Vac 60 Hz 82 51 84 21 85 21 86 34 86 67 96 85 61 115 Vac 230 Vac 230 Vac 50 Hz 80 62 82 94 85 33 86 34 86 82 85 36 Average gt 84 51 264 Vac 50 Hz 79 77 81 95 84 50 85 91 86 58 84 74 NE o Vo 12V 90 Vac 60 Hz 77 21 81 45 84 67 86 34 86 45 84 73 CoC Tiere 115 Vac 60 Hz 79 03 83 48 86 13 85 88 86 88 85 59 115 Vac 230 Vac 230 Vac 50 Hz 76 76 81 94 85 79 86 74 87 63 85 52 Average gt 84 50 264 Vac 50 Hz 75 99 81 14 84 65 86 07 87 13 84 75 10 gt 4 13 2014 Fairchild Semiconductor Corporation 21 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD Four Point Average Efficiency 115VAC 60Hz 230VAC 50Hz 84 71 E CoC Tier2 83 83 83 71 83 28 __ Efficiency 81 68 10141000001 75 Loading Figure 41 5 V Efficiency Curve 4 Point Average 100 75 50 25 Four Point Average Efficiency 115VAC 60Hz 230VAC 50Hz 1 CoC Tier 85 245 _ Efficiency 82 94 50 75 Loading Figure 42 9 V Efficiency Curve 4 Point Average 100 75 50 25 Four Point Average Efficiency 115VAC 60Hz 87 63 86 74 230VAC 50Hz E CoC Tier2 2 o c R q q LL 81 94 50 75 Loading Figure 43 12 V Efficiency Curve 4 Point Averag
3. Efficiency at 12 V 1 1 A Fixed Output Current Setting 2014 Fairchild Semiconductor Corporation 33 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD 11 Revision History pm Date Rena NN July 2014 Initial Release WARNING AND DISCLAIMER Replace components on the Evaluation Board only with those parts shown on the parts list or Bill of Materials in the Users Guide Contact an authorized Fairchild representative with any questions This board is intended to be used by certified professionals in a lab environment following proper safety procedures Use at your own risk The Evaluation board or kit is for demonstration purposes only and neither the Board nor this User s Guide constitute a sales contract or create any kind of warranty whether express or implied as to the applications or products involved Fairchild warrantees that its products meet Fairchild s published specifications but does not guarantee that its products work in any specific application Fairchild reserves the right to make changes without notice to any products described herein to improve reliability function or design Either the applicable sales contract signed by Fairchild and Buyer or if no contract exists Fairchil s standard Terms and Conditions on the back of Fairchild invoices govern the terms of sale of the products described herein DISCLAIMER FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS
4. Specification Specification Specification FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD 1200 1600 1800 2000 2200 2400 lo mA 800 1000 1400 Figure 35 5 V CC Deviation Curve 1000 1400 1600 1800 2000 lo mA 800 1200 Figure 36 9 V CC Deviation Curve gt 5 gt 0 200 400 9 8 7 gt 5 6 gt 5 4 3 0 200 o gt 0 100 200 90Vac 115Vac 230Vac 264Vac 1000 1100 1200 1300 1400 500 600 700 800 900 lo mA 300 400 2014 Fairchild Semiconductor Corporation Figure 37 12 V CC Deviation Curve 19 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD 9 11 Constant Voltage Regulation Test Condition Aging five seconds at minimum load and measure the output current and output voltage each load one second interval Electric load 1s in CR mode Table 15 Test Result with CV Input Voltage 90 Vac 60 Hz 115 Vac 60 Hz 230 Vac 50 Hz 264 Vac 50 Hz Input Voltage 90 VAC 60 Hz Maximum Voltage 9 06 V Total 115 Vac 60 Hz 230 Vac 50 Hz 264 Vac 50 Hz Total Vo 5V Minimum Voltage 5 015 V 5 021 V 5 021 V 5 021 V 5 021 V Vo 9V Minimum Voltage 9 037 V 9 036 V 9 038 V 9 038 V 9 036 V Tolerance 0 1 0 1 0 2 0 2 0 3 Tolerance 0 1 0 1 Specification Specification 0 1 0 1 0 1 Vo 12V Tolerance 0 1 0 1 Minimum Voltage 12 03
5. 23 Z e AR D Function Test eere nnn MU 24 OMS CA AAA neuen O 25 9 16 Qualcomm QC2 0 Compatible Test Result 26 9 1 O SIT OKS scsi EE 28 10 App aaa 0 32 10 1 Test for 1 5 A Output Current Fixed Output Curent aaa aaa aaa 32 11 Revision Hisisk uo NA 34 O 2014 Fairchild Semiconductor Corporation 2 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD This user guide supports the evaluation kit for the FAN6100Q It should be used in conjunction with the FAN6100Q datasheets as well as Fairchild s application notes and technical support team Please visit Fairchild s website at https www fairchildsemi com 1 Introduction This document is an engineering report describing a 15 W charger design using FANSOIA and FAN6100Q which is for adaptive charger to comply with Qualcomm Quick Charger 2 0 specifications The output voltages current adaptively varies between 5 V 2 A 9 V 1 67 A and 12 V 1 25 A according to protocol command The FAN6100Q is a highly integrated secondary side power adaptor controller that is compatible with Qualcomm Quick Charger 2 0 It is designed for use in application that requires constant voltage CV and constant current CC regulation The controller consists of two operational amplifiers for voltage and current loop regulation with adjustable voltage references The CC control loop also incorporates a current sense amplifier with gain of 10 Outputs of the CV and CC amplifiers are tied togethe
6. en ECH AER LOS Jug 9 OXL 0 bl EE LOLO 819 ctu iH O00 L9NV4 61 1 en T 09 LGL u ALL LO ii O9 L LH i N DNS E ii O 9 18004 T 448 SE i O00L en JUL due UMI H 914 zig 69 6zH i wm S gt ii OZ N a E DAL S ON Z09N006NDA giy a CE are 22H ZU v LO N Q e HH O a N er ii HOL ONE ONG 6v Lyl z ESOHOS 4 DAM om 1 LHL OW001 024 f g u gt gt GWO OWOOL 6 LY INC 9 9 T q u Lu i m NI OV q e AMLJUL OMOOE lt O6 6 LH a SN O ei O 9 cu EM A d d gt NOSENG 5l 5 so9nozgSL Za i O 5 j 2 0000 ASOLECIN O LH 91110d3 Hoge LXL d JUL 081 80 8lH FEBFAN6100QMPX_CHO7U15A Rev 1 0 Figure 6 Evaluation Board Schematic 2014 Fairchild Semiconductor Corporation FAIRCHILD 6 Bill of Materials Sw Res c60300 5 sen 2 swoRes 0603160 REL nm SWO Ras 0609 100 9 38 REL R6 R34 R36 SMD Res 0603 1 KO 5 REEL IE R21 R22 R29 R30 Kl Kl kl M SMD Res 0603 10 KO 5 REEL 5 R5 R25 N R35 R33 R32 SMD Res 0603 47 KO 1 REEL SMD Res 0603 30 1 KO 1 REEL SMD Res 0603 7 5 KO 5 REEL SMD Res 0603 7 32 KO 5 REEL SMD Res 0805 1 6 0 5 REEL C bI J C 0603 X7R 10 473P 50 V 0603 X7R 10 474P 16 V ca S 8 16 5 mm Elec Cap 22uF 0 40 400 V 105 C G Luxon GSM126M400T2H5G160 C1 C2 0805 X5R 20 10 uF 35 V REEL C23 C10 C11 SD Rs anan S m manages naona 1 1
7. 0QMPX_CHO7U15A Rev 1 0 FAIRCHILD MOSFET 78 6 MOSFET Primary Snubber VDD BJT Secondary 12 V 1 25 A MOSFET uut Side Transformer Snubber Diode SS Transformer Core 2014 Fairchild Semiconductor Corporation 30 FEBFAN6100QMPX CH07U15A Rev 1 0 FAIRCHILD DIODE Pil snubber diode de e MDD alena SIN 2 5 Secondary Primary 12 V 1 25 A MOSFET ek Side Transformer Transformer Snybber VDD BJT Snubber Diode 2014 Fairchild Semiconductor Corporation 31 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD 10 Appendix 10 1 Test for 1 5 A Output Current Fixed Output Current Test Condition QP resistance R36 is shorted and QN resistance R34 is left open to program for 1 5 A constant output current condition in 5 V and 9 V mode Only in 12 V mode the maximum current is 1 1 A Table 20 Different Current Mode with QP QN Section Max Current Level 5V 2A 9V 1 67A 12V 1 25A 9V 1 5A 9V 1 5A 12V 1 1 A Table 21 Efficiency Measurement at Fixed Output Current Setting Input Voltage 50 100 Avg Specification 90 Vac 60 Hz 82 40 84 32 84 35 84 97 83 66 84 33 COC Ter 115 Vac 60 Hz 82 43 84 43 84 19 83 56 84 46 84 16 115 Vac 230 Vac Average 230 Vac 50 Hz 80 00 82 22 82 46 83 45 84 19 83 08 gt 76 88 264 Vac 50 Hz 79 17 81 28 81 73 82 65 83 39 82 26 10 gt 67 65 Vo 9V Input Voltage 50
8. 100 Specification 90 Vac 60 Hz 80 73 82 57 85 82 86 07 85 70 85 04 COC Tiere 115 Vac 60 Hz 81 79 83 97 86 36 87 37 86 37 86 02 119 Vac 230 Vac Average 230 Vac 50 Hz 80 43 83 19 85 80 87 00 87 13 85 78 gt 83 93 264 Vac 50 Hz 79 65 82 53 85 06 86 42 86 54 85 14 10 gt 99 Vo 12V 90 Vac 60 Hz 77 67 81 35 85 73 87 01 86 80 85 22 COC Tiere 115 Vac 60 Hz 79 77 83 98 85 74 86 40 87 96 86 02 119 Vac 230 Vac Average 230 Vac 50 Hz 77 99 82 61 85 71 87 64 87 98 85 99 gt 83 8 264 Vac 50 Hz 77 40 81 97 85 04 87 20 87 43 85 41 0 gt 9 47 2014 Fairchild Semiconductor Corporation 32 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD Four Point Average Efficiency 15VAC 60Hz 230VAC 50Hz 84 439 7 84 19 83 56 CoC Tier2 84 19 2 Q c Lu 82 46 50 75 Loading Figure 69 Efficiency at 5 V 1 5 A Fixed Output Current Setting Four Point Average Efficiency 115VAC 60HZ 230VAC 50Hz E COC Tier2 87 13 86 37 Efficiency 50 75 100 Loading Figure 70 Efficiency at 9 V 1 5 A Fixed Output Current Setting Four Point Average Efficiency a 115VAC 60Hz 230VAC 50Hz E CoC Tier2 87 64 Efficiency 50 75 Loading Figure 71
9. 5 V 0 1 12 035 V 0 1 Input Voltage 90 Vac 60 Hz 115 Vac 60 Hz 230 Vac 50 Hz 264 Vac 50 Hz Total Specification 90Vac 115Vac 1 230Vac 264Vac 0 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 2400lo mA Figure 38 5 V CV Deviation Curve 2014 Fairchild Semiconductor Corporation 20 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD 9 45 i 9 25 9 15 9 05 8 95 8 85 8 75 8 65 8 55 90Vac 115Vac 230V ac 264Vac Vo V 0 200 400 600 800 1000 1200 1400 1600 1800 2000lo mA Figure 39 9 V CV Deviation Curve 90Vac 115Vac 230V ac 1 264Vac 0 100 200 300 400 500 600 700 800 900 1000 1100 1200 1300 1400 lo mA Figure 40 12 V CV Deviation Curve 9 12 Efficiency Test Condition Measure input wattage and output wattage at PCB end Average efficiency 1s obtained from 25 50 75 and 100 load condition Table 16 Test Result Vo 5 V 90 Vac 60 Hz 83 19 83 47 83 35 83 56 83 23 83 40 BY Tier 2 115Vac 60 Hz 83 40 83 83 83 71 84 71 83 28 83 88 115 Vac 230 Vac 230 Vac 50 Hz 80 62 81 68 82 69 83 76 83 79 82 98 Average gt 9 10 264 Vac 50 Hz 79 65 80 85 81 25 83 02 83 08 82 05 POS dida 90 Vac 60 Hz 80 97
10. FAIRCHILD User Guide for FEBFAN61000MPX CHO7U15A Evaluation Board Fairchild W2B Adaptive Charger Featured Fairchild Products FAN501A FAN6100Q Direct questions or comments about this evaluation board to Worldwide Direct Support Fairchild Semiconductor com 2014 Fairchild Semiconductor Corporation FEBFAN6100GMPX CHO7U15A Rev 1 0 FAIRCHILD Table of Contents bs AEO UCHO a es 3 2 Evaluation Board Specifications me aaa aaa aaa aana 4 3 Photographs sss I iii n iii ini in ii ina 5 4 Printed Circuit Board U ooo krovie 6 5 Schematic MM IE 7 6 Bill of Materials o M sss sss sss ss ssc se ss season 8 7 Transform ddnc anding Specifications OS ns 10 6 Test Udine AC Equipment TT REOR 11 9 Pernia ala tion Board M gt A 11 9 Ip Rar o Load Condilion Nga a ee 11 OZNI O KANG MU IU 12 5 0 A Hp een E 12 ID a udani Rising Time A iii MA 13 JS Sn Response TU iii TINO 14 TOE ODER ipple amp Noise AU sss IINA 15 ara kos ircuit Protection SCEN Zaw REDZIE 16 Du ey Oltage Level I U sss sss sss RUN 17 Dole Stress on MOSFET AROCO Nissan HU 17 SAKA emstant Current Regulation MNA HEIN 18 M onat Voltage Regulation MO U 20 3 2 E Aa J 21 9 13 Output Over Voltage Protection Vo OVP sss sss sss sss aaa aaa aaa aaa nennen nnne
11. HEREIN TO IMPROVE RELIABILITY FUNCTION OR DESIGN FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS NOR THE RIGHTS OF OTHERS LIFE SUPPORT POLICY FAIRCHILD S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR CORPORATION As used herein 1 Life support devices or systems are devices or systems which a 2 Acritical component is any component of a life support device or are intended for surgical implant into the body or b support or system whose failure to perform can be reasonably expected to sustain life or c whose failure to perform when properly used in cause the failure of the life support device or system or to affect its accordance with instructions for use provided in the labeling can be safety or effectiveness reasonably expected to result in significant injury to the user ANTI COUNTERFEITING POLICY Fairchild Semiconductor Corporation s Anti Counterfeiting Policy Fairchil s Anti Counterfeiting Policy is also stated on our external website www fairchildsemi com under Sales Support Counterfeiting of semiconductor parts is a growing problem in the industry All manufacturers of semiconductor products are experiencing counterfeiting of their parts Customers who inadve
12. P CH2 DN CH4 Vo Mode Change from 12 V to 5 V 2014 Fairchild Semiconductor Corporation Figure 63 CH1 DP CH2 DN CH4 Vo Mode Change from 5 V to 9 V LeCroy d TUN SEEM POORE PEREZ ZAB o APG ORA FAME JL 2 GE Positve X1 2500000s amp 4 999998 s X2 21999992 1 4X 200 00008 mHz Mode Change from 5 V to 12 V LeCroy 1 00 Vidiv ge Positive 4 999998 s X2 24999985 1 amp X 200 00008 mHz CH1 DP CH2 DN CH4 Vo Mode Change from 9 V to 12 V Figure 67 FEBFAN6100QMPX CH07U15A Rev 1 0 FAIRCHILD 5 00 MS 500 kS s 0 N X1 25000003 amp 4 999998 X2 24999985 1 4Xx 200 00008 mHz Figure 68 CH1 DP CH2 DN CH4 Vo Mode Change from 12 V to9 V 9 17 Component Temperature Test Condition Burn in 60 min and measure component temperature 5 V 2 A 9 V 1 67 A and 12 V 1 25 A at 115 Vac 230 Vac Ambient 24 C MOSFET 15 6 Secondary Transformer Transformer 115 Vac 76 1 C 93 8 C 93 3 C 69 C 63 7 C 2014 Fairchild Semiconductor Corporation 28 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD core 65 8 MOSFET Wire73 1 v 73 5 g Secondary Transformer Transformer 14 z g core 64 6 MOSFET wire 3 5 72 3 v Secondary Transformer Transformer 115Vac 73 5 C 89 2 C 84 9 C 72 3 C 64 6 C O O 2014 Fairchild Semiconductor Corporation 2 FEBFAN610
13. Vac 50 Hz O 2014 Fairchild Semiconductor Corporation 12 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD 9 4 DC Output Rising Time Test Condition Measure the time interval between 10 to 90 of output voltage during startup CR mode electric load at 5 V output mode Table 8 Test Result Input Voltage Full Load Specification 90 Vac 60 Hz 26 03 ms 24 12 ms lt 30 ms 264 Vac 50 Hz 25 47 ms 23 8 ms Waveforms LeCroy Figure 14 C4 Vo 90 Vac 60 Hz Full Load LeCroy Figure 15 C4 Vo 264 Vac 50 Hz Minimum Load Figure 16 C4 Vo 264 Vac 50 Hz Full Load 2014 Fairchild Semiconductor Corporation 13 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD 9 5 Dynamic Response Test Condition Dynamic loading 0 100 50 duty cycle 5 ms 2 5 A usec rise fall time Measured at PCB end Table 9 Test Result Input Voltage Undershoot Specification 90 Vac 60 Hz 5 576 V 4 750 V gt 4 5V 264 Vac 50 Hz 5 466 V 4 794 V V Vo 9 Input Voltage Undershoot Specification 90 Vac 60 Hz 9 560 V 8 828 V 81V 28 264 Vac 50 Hz 9 512 V 8 912 V Vo z 12V Input Voltage Undershoot Specification 90 Vac 60 Hz 12 532 V 11 886 V 10 8 V 264 Vac 50 Hz 12 524 V 11 998 V oss Waveforms LeCroy LeCroy 200 midha 5 0780 Y 5 00 MS 100 MS sjEdge Positive 5 466 V 4 794 Y Figure 17 C4 Vo 90 Vac 60 Hz Vo 5 V Figure 18 C4 Vo 264 Vac 50 Hz
14. Vo 5 V LeCroy LeCroy 600 mM Figure 19 C4 Vo 90 Vac 60 Hz Vo 9 V Figure 20 C4 Vo 264 Vac 50 Hz Vo 9 V O 2014 Fairchild Semiconductor Corporation 14 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD 9 6 LeCroy LeCroy mebase 00m3 Tracer EM iz 12 e ositive Figure 21 C4 Vo 90 Vac 60 Hz Vo 12 V Figure 22 C4 Vo 264 Vac 50 Hz Vo 12 V Output Ripple amp Noise Test Condition Measure the output voltage ripple at full load condition at EVB end with 10 uF electrolytic capacitor in parallel with 0 1 uF MLCC Table 10 Test Result Input Voltage Vo 12V Specification 90 Vac 60 Hz 103 mVp p 121 mVp p 116 mVp p 115 Vac 60 Hz 115 mVp p 110 mVp p 150 mVp p 230 Vac 50 Hz 106 mVp p 136 mVp p 125 mVp p 264 Vac 50 Hz 108 mVp p 130 mVp p 125 mVp p Waveforms Figure 23 C4 Vo 90 Vac 60 Hz Figure 24 C4 Vo 264 Vac 50 Hz loz2 A lo 2 A Vo 5 V Vo 5 V 2014 Fairchild Semiconductor Corporation 15 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD LeCroy Figure 25 C4 Vo 90 Vac 60 Hz lo 1 8 A Figure 26 C4 V 264 Vac 50 Hz lo 1 8 A Voz9 V Voz9 V LeCroy LeCroy Figure 27 C4 Vo 90 Vac 60 Hz lo 1 67 A Figure 28 C4 Vo 264 Vac 50 Hz lo 1 67 A Vo 12 V Vo 12 V 9 7 Short Circuit Protection SCP Test Condition Short output voltage then the power supply should enter hiccup mode protection with less than 1 W
15. e 100 75 50 25 2014 Fairchild Semiconductor Corporation 22 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD 9 13 Output Over Voltage Protection V OVP Test Condition Measure the maximum output voltage when second side VREF resistor is open When Vo OVP is triggered OVP signal is pulled low pulling down FB signal Vo 5 V Table 17 Test Results Input Voltage Specification 90 Vac 60 Hz 7 38 V 264 Vac 50 Hz 7 38 V Vo 9V Input Voltage Specification 90 Vac 60 Hz 12V 264 Vac 50 Hz 12V Vo 12V 90 Vac 60 Hz 14 8 V 15 3 V 16 V 264 Vac 50 Hz 14 6 V 15 3 V Waveforms LeCroy LeCroy een dada d E nm o E dh 2 ou Stop L 5 00M8 250 MS sjEdge Positive Figure 44 CZ VrB C3 Vovp C4 Vo Figure 45 C2 Vrg C3 Vovp C4 Vo Vo OVP Test 5 V Vo OVP Test 9 V P a Pt max Ca P2 P3 4 PS P6 1477 V tus w imebase 000m4 Trigger vie 10 0 Vidiv 2 00 Wan Figure 46 C2 Vrs C3 Vovp C4 Vo Vo OVP Test 12 V 2014 Fairchild Semiconductor Corporation 23 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD 9 14 Bleeder BLD Function Test Test Condition Measure time when mode changes from high voltage to low voltage Function turns on for 320 ms to discharge output voltage Table 18 Test Result Mode Change Change Time TE 12435 GER Waveforms LeCroy y LeCroy Figure 47 CZ VBup C4 Vo 90 Vac Figure 48 CZ VBu
16. input power 5 V 9 V and 12 V mode has the same power loss at this condition Table 11 Test Result with Input Power EA Maximum Output Load Minimum Output Load Specification 90 Vac 60 Hz 0 18 W 0 18 W 1W lt 264 Vac 50 Hz 0 37 W 0 35 W Waveforms LeCroy LeCroy Figure 29 C2 Vcs C4 Vo 264 Vac 50 Hz lo 0 A Figure 30 C2 Vcs C4 Vo 264 Vac 50 Hz Voz12 V lo 1 25 A Vo 12 V 2014 Fairchild Semiconductor Corporation 16 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD 9 8 Vp Voltage Level Test Condition Measure VDD level at 5 V and 12 V system in minimum load and CC point Table 12 Test Result Input Voltage CC Point Specification 90 Vac 60 Hz 7 14 V 13 1 V 26 5 V 264 Vac 50 Hz 7 10 V 13 1 V Vaz212V 12 8V 13 1V 12 8V 13 1V Waveforms LeCroy LeCroy Figure 31 C1 Vpp l C2 Vcs 90 Vac 60 Hz Figure 32 C1 Vool C2 Vcs 264 Vac 50 Hz 0 A Vo 5 V 2 3 A Vo 5 V 9 9 Voltage Stress on MOSFET amp Rectifiers Test Condition Measure the voltage and current stress on MOSFET and secondary rectifier under below the conditions in 12 V mode where the maximum voltage stress occurs Table 13 Test Result 90 Vac 60 Hz 264 Vac 50 Hz A ry ecitication Rectifier 27 8 V 35 2 V 53 6 V 54 3 V Vos lt 640 V Short MOSFET 272 V 320 V 534 V 581 V Vp 60 V Circuit Rectifier 273v 33v 539V 543v 2014 Fairchild Semiconduc
17. lt Ripple AL lt 150mVpp o Measured at PCB End ES 028 5 V at Full Load lt 150 mVp p 136 mVp p Max al lt oi ho 3 gt 4 5 V at 5 V Mode 4 67 V Measure at PCB End gt 8 1 V at 9 V Mode 8 73 V Measure at PCB End co lt Input Power at Output Short Circuit A 1W 0 37W Max 264 Vac Protection SCP 12V 640 V 581V 264 Vac Voltage Stress o 115 Vac 230 Vac 69 73 at 5 V 79 6596 at 5 V A 79 77 at 9 V 74 14 at 9 V 12 V PY Efficiency 32 05 aue Meets CoC Tier 2 Avg 0000 0 84 74 S 9 V 84 5 at 9 V 12 V 84 73 at 12 V Meets Conducted EMI All Under 6 dB 3 dB Margin CISPER22B EN55022B IE C950 UL 1950 Class II 5 V Dynamic 12 V 210 8 V at 12 V Mode 11 79 V Measure at PCB End N lt 10 Load 2014 Fairchild Semiconductor Corporation 4 FEBFAN6100QMPX CH07U15A Rev 1 0 FAIRCHILD 3 Photographs RECS MY d ME B Figure 2 Photograph W x L 45 x 31 mm2 Bottom View Figure 3 Photograph H 15 mm Side View 2014 Fairchild Semiconductor Corporation 5 FEBFAN6100QMPX CH07U15A Rev 1 0 FAIRCHILD 4 Printed Circuit Board Figure 5 Bottom View 2014 Fairchild Semiconductor Corporation 6 FEBFAN6100QMPX CHO7U15A Rev 1 0 Schematic FAIRCHILD 5 UNS 4UO0Zy AHtosZSINN ssy 619 pa JUL 029 N SM8t LEN L 4dOOL 40L ES za AD VZZZZ LENIN 4U0 g bn duzy db VES uns AP 47 9 18004 ONZE Z T
18. m 0603 NPO 5 22P 50 V C7 4 Continued on the following page 2014 Fairchild Semiconductor Corporation 8 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD Y1 Cap 100P 250 V 20 D7xF7xT9 5 mm 1 y Ne SMD Zener 1 2 W 5 1 V MMSZ5231B Fairchild SMD Zener 1 2 W 14V MMSZ5244B Fairchild Inductor 330 WH 10 EC0410 330K TX1 F 1 D7 Q2 J1 ZDI Parallel on R24 Bridge diode MDB10SV SMD Diode 1N4148WS 1 A 100 V SOD 323 Fairchild KN m 2014 Fairchild Semiconductor Corporation 9 FEBFAN6100QMPX_CHO7U15A Rev 1 0 FAIRCHILD 7 Transformer and Winding Specifications Core EPC1716 z Bobbin EPC1716 7 pins 1 APPEARANCE 1 1 DIMENSION mm 1 2 STAMP sumida 1006 XXXX 1 p Y Primary 1 e o Y X X b Winding 2 0 2x1 Shielding 3 GND 5 0 025x1 E Secondary 6 Winding 2 7 O eo e o e b O 0 7x1 4 GND 5 Auxiliary Winding 6 4 Shielding GND 5 S o o nao gt O 0 1 5 Primary 3 lt Winding Drain 2 eee e b 0 2x1 d BOBBIN Figure 7 Transformer Specifications 8 Construction Table 2 Winding gt Isolation FI Winding Winding Turns corpor SJ B mE 07mm 9 oz 2 Bobbin EPC1716 2014 Fairchild Semiconductor Corporation 10 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD Table 3 Electrical Charac
19. o U S law is prohibited U S origin products and products made with U S origin technology are subject to U S Re export laws In the event of re export the user will be responsible to ensure the appropriate U S export regulations are followed 2014 Fairchild Semiconductor Corporation 34 FEBFAN6100QMPX CHO7U15A Rev 1 0
20. p C4 Vo 90 Vac 60 Hz 8 lo 0 A 9 V to 5 V 60 Hz 8 lo 0 A 12 V to 5 V LeCroy ATA ampo a Ra I 2 857 V Figure 49 90 Vac 60 Hz amp lo 0 A 12 V to 9 V 2014 Fairchild Semiconductor Corporation 24 FEBFAN6100QMPX CHO7U15A Rev 1 0 Aa FAIRCHILD ar Conducted EMI 9 15 Test Condition jaa go o A gt En E Z Ss SET At v 20 AM JE O i 060 E S O A 5 5 NOR sto ON O kk N A ez NASA G lt 2421 OHNE o de N NE A Zo go w o Ad wi gt as DO 4 noa c 0 un GM c Z egg pm E O oS Z I 123 S s a gt GEM E O EN Ka LI Lago Test Result gt N N a m m X v o E gt SS m NS o H o B ep 8 bed St o n Neutral 115 Vac 60 Hz 5 Vo Figure 51 Line 115 Vac 60 Hz amp 5 Vo Figure 50 lu z a E B A gt N am m x v o z no n no N o N U v E 1 Cut Ch L U ly R JH e ia E MI j MU i n F igure 52 a a v z 9 m Neutral Figure 53 Line 230 Vac 50 Hz amp 5 Vo 230 VAC 50 Hz 85 Vo n u Z Neutral 115 VAC 60 Hz 8 9 Vo Figure 55 Line 115 Vac 60 Hz amp 9 Vo Figure 54
21. r in open drain configuration When used in conjunction with primary side PWM controller FANSOIA battery chargers can be implemented to support adaptive output current and output voltage in the range of 5 V 9 V 12 V The FAN6100Q enables power adaptor s output voltage adjustment if it detects an adaptive capable powered device If a non compliant powered device is detected the controller disables adaptive output voltage to ensure safe operation with smart phone and tablets that support only 5 V FAN6100Q also incorporates an internal charge pump circuit to maintain CC regulation down to power supply s output voltage of 2 V without external voltage supply to the IC Programmable cable drop compensation allows precise CV regulation at end of the cable This design shows excellent efficiency satisfying Code of Conduct CoC Tier 2 specification while providing ultra low standby power consumption This document contains the design specifications schematics bill of materials transformer specifications PCB layout and performance data 2014 Fairchild Semiconductor Corporation 3 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD 2 Evaluation Board Specifications All data for this table was measured with 90 V4c 264 Vac line input at an ambient temperature of 25 C Table 1 Summary of Features and Performance Specification Mi Max Unt Desonpion Mode Design Spec Testfesuk Comments Output Voltage E al
22. rtently purchase counterfeit parts experience many problems such as loss of brand reputation substandard performance failed applications and increased cost of production and manufacturing delays Fairchild is taking strong measures to protect ourselves and our customers from the proliferation of counterfeit parts Fairchild strongly encourages customers to purchase Fairchild parts either directly from Fairchild or from Authorized Fairchild Distributors who are listed by country on our web page cited above Products customers buy either from Fairchild directly or from Authorized Fairchild Distributors are genuine parts have full traceability meet Fairchild s quality standards for handling and storage and provide access to Fairchild s full range of up to date technical and product information Fairchild and our Authorized Distributors will stand behind all warranties and will appropriately address any warranty issues that may arise Fairchild will not provide any warranty coverage or other assistance for parts bought from Unauthorized Sources Fairchild is committed to combat this global problem and encourage our customers to do their part in stopping this practice by buying direct or from authorized distributors EXPORT COMPLIANCE STATEMENT These commodities technology or software were exported from the United States in accordance with the Export Administration Regulations for the ultimate destination listed on the commercial invoice Diversion contrary t
23. teristics Specification Effective Leakage 30 uH Max Short Other Pin 8 Test Conditions amp Test Equipment Table 4 Test Conditions amp Test Equipment Evaluation Board FEBFAN6100Q CH07U15A Test Date 2014 07 04 AC Power Source 6800 AC POWER SOURCE Electronic Load Chroma 63030 and 63102 Power Meter WT210 Oscilloscope LeCory 24Xs A Test Equipments 9 Performance of Evaluation Board 9 1 Input Power at No Load Condition Test Condition Measure the input power at three output voltage level at no load condition Table 5 Test Result 90vac 115vac 230vac 264vac Figure 8 5 V Input Power Curve 2014 Fairchild Semiconductor Corporation 11 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD 9 2 Startup Time Test Condition Measure the time from AC plug in to nominal output voltage build up at full load condition Table 6 Test Result Input Voltage Startup Time Specification Waveform HMMM yoni in Figure 9 C2 Vin C4 Vo 90 Vac 60 Hz Figure 10 C2 Vin C4 Vo 264 Vac 50 Hz 9 3 Input Current Test Condition Measure the AC input current at 9 V 1 67 A output where the maximum input power occurs Table 7 Test Result Input Voltage Input Current Specification 90 Vac 60 Hz 349 mA 264 Vac 50 Hz 165 mA Waveforms LeCroy LeCroy Figure 11 C1 Vop C2 Vcs C3 GATE Figure 12 C1 Vop C2 Vcs C3 GATE C4 Vol 90 Vac 60 Hz C4 Vol 264
24. tor Corporation 17 FEBFAN6100QMPX CHO7U15A Rev 1 0 FAIRCHILD Waveforms Figure 33 LeCroy C3 Vos 264 Vac 50 H Hz 12 V Full Load 9 10 Constant Current Regulation Test Condition Figure 34 C2IFB C3 Vos CA Vo 264 Vac 50 Hz 12 V Full Load Output Short Aging five seconds at minimum load and measure the output current and output voltage each load one second interval Electric load is in CV mode Table 14 Test Result with CC 2014 Fairchild Semiconductor Corporation Input Voltage 90 Vac 60 Hz 115 Vac 60 Hz 230 Vac 50 Hz 264 Vac 50 Hz Total Input Voltage 90 Vac 60 Hz 115 Vac 60 Hz 230 Vac 50 Hz 264 Vac 50 Hz Total Input Voltage 90 Vac 60 Hz 115 Vac 60 Hz 230 Vac 50 Hz 264 Vac 50 Hz Total 1379 06 mA 1375 31 mA Vo 5 V Until 3 V 2372 81 mA 2367 18 mA 2366 25 mA 2369 06 mA 2372 81 mA Maximum Current Tolerance 0 4 0 4 0 4 0 4 0 5 Vo 9 V Until Enter UVP Point Maximum Current 1875 00 mA 1873 12 mA 1871 25 mA 1877 81 mA 1877 81 mA Minimum Current 1869 37 mA 1868 43 mA 1877 81 mA 1873 12 mA 1866 56 mA Tolerance 0 2 0 1 0 1 0 1 0 3 Vo 12 V Until Enter UVP Point Maximum Current 1379 06 mA 1379 06 mA 1378 12 MA 1377 18 mA Minimum Current 1378 12 MA 1377 18 mA 1376 25 mA 1375 31 mA Tolerance 0 1 0 1 0 1 0 1
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