|
AN-6208
|
|
1N4004,
1N4148,
1N4148WS,
1N4148WT,
FAN6208,
FAN6982,
FAN7621,
FAN7621B,
FAN7621S,
FCPF11N60,
FDP025N06,
FSFR2100,
FSFR2100US,
FSFR2100XS
|
Secondary-Side Synchronous Rectifier (SR) for LLC Resonant Converter Using FAN6208
|
|
AN-6012
|
|
|
Design of Power Factor Correction Circuit Using FAN7528
|
|
AN-4107
|
|
|
Design of Power Factor Correction Using FAN7527
|
|
AN-6026
|
|
|
Design of Power Factor Correction Circuit Using FAN7529
|
|
AN-6206
|
|
|
Primary-Side Synchronous Rectifier (SR) Trigger Solution for Dual-Forward Converter
|
|
AN-6027
|
|
|
Design of Power Factor Correction Circuit Using FAN7530
|
|
AN-8025
|
|
1N4148,
1N4148WS,
1N4148WT,
FAN7527B,
FAN7529,
FAN7530,
FQPF8N80C,
GBU8J,
GF1J,
KA358,
KA358A,
KA431,
KA431A,
KA431L,
KA431S,
RGF1J,
UF4005
|
Design Guideline of Single-Stage Flyback AC-DC Converter Using FAN7530 for LED Lighting
|
|
AN-8035
|
|
1N4148,
1N4148WS,
1N4148WT,
FAN7530,
FAN7930,
FAN7930B,
FAN7930C,
FAN9611,
FAN9612,
FCPF20N60,
FFPF08H60S,
MMBT2222A,
MMBT2222AT,
PN2222,
PN2222A,
PZT2222A
|
Design Consideration for Boundary Conduction Mode Power Factor Correction (PFC) Using FAN7930
|
|
AN-6300
|
|
|
FAN6300/A/H Highly Integrated Quasi-Resonant PWM Controller
|
|
AN-6961
|
|
|
Critical Conduction Mode PFC Controller
|
|
AN-4121
|
|
|
Design of Power Factor Correction Circuit Using FAN7527B
|
|
AN-42034
|
|
|
Synchronizing the ML4824 to Wide Frequency Ranges
|
|
AN-6004
|
|
1N4747A,
1N5401,
1N5406,
2N3904,
2N3906,
FAN4810,
FDH44N50,
FGH50N6S2D,
FQA13N50CF,
FQA19N60,
FQL40N50,
GBPC2506,
GF1A,
HGTG20N60A4,
HGTG20N60A4D,
HGTG20N60B3,
HGTG20N60B3D,
HGTG30N60A4,
HGTG30N60A4D,
ISL9R1560P2,
ISL9R3060P2,
ISL9R860P2,
RGF1A
|
500W Power-Factor-Corrected (PFC) Converter Design with FAN4810
|
|
AN-6032
|
|
1N5401,
1N5406,
FAN4800A,
FAN4800AS,
FAN4800AU,
FAN4800CU,
FAN4801S,
FAN4802S,
FQPF9N50CF,
GF1J,
MBR2545CT,
MMBT3904,
MMBZ5245B,
RGF1J,
UF4001
|
FAN4800 Combo Controller Applications
|
|
AN-8026
|
|
1N5406,
2N7002,
2N7002DW,
2N7002K,
2N7002KW,
2N7002MTF,
2N7002T,
2N7002V,
2N7002VA,
2N7002W,
ES1J,
FAN4810,
FAN9611,
FAN9612,
FCA20N60,
FCP16N60,
FCP20N60,
FCPF11N60,
FCPF16N60,
FCPF20N60,
FDA18N50,
FDP18N50,
FDPF18N50,
FDPF20N50,
FFPF08S60S,
FQP13N50,
FYPF2006DN,
KA431,
KA431A,
KA431L,
KA431S,
LL4148,
MBR0530,
ML4800,
MMBT3904,
MMBT3904T,
MMBT3906,
MMBT3906T
|
FAN9611 / FAN9612 400W 1-Layer Evaluation Board User Guide (FEB301)
|
|
AN-8018
|
|
2N7002,
2N7002DW,
2N7002K,
2N7002KW,
2N7002MTF,
2N7002T,
2N7002V,
2N7002VA,
2N7002W,
ES1J,
FAN9611,
FAN9612,
FDPF18N50,
MBR0530,
RURP860
|
FAN9612 400W 4-Layer Evaluation Board User Guide (FEB279) OBSOLETE! FEB279 Replaced by FEB388
|
|
AN-8021
|
|
2N7002,
2N7002DW,
2N7002K,
2N7002KW,
2N7002MTF,
2N7002T,
2N7002V,
2N7002VA,
2N7002W,
FAN9611,
FAN9612
|
Building Variable Output Voltage Boost PFC Converters with the FAN9612 Interleaved BCM PFC Controller
|
|
AN-6920MR
|
|
ES1H,
ES1J,
ES3J,
FAN6204,
FAN6920MR,
FAN6921ML,
FAN6921MR,
FAN7382,
FCB11N60,
FDB031N08,
KA431,
KA431A,
KA431L,
KA431S,
RS1D
|
Integrated Critical-Mode PFC / Quasi-Resonant Current-Mode PWM Controller FAN6920MR
|
|
AN-9717
|
|
|
FAN9611/12 400W Interleaved Dual BCM PFC Evaluation Board User Guide (FEB388)
|
|
AN-8027
|
|
FAN4800A,
FAN4800AS,
FAN4800AU,
FAN4800C,
FAN4800CS,
FAN4800CU,
FAN4801,
FAN4801S,
FAN4802,
FAN4802L,
FAN4802S,
FAN4803,
FAN4810,
FCA16N60N,
FCA20N60,
FCA20N60F,
FCA20N60_F109,
FCP11N60,
FCP11N60F,
FCP11N60N,
FCP16N60,
FCP16N60N,
FCP20N60,
FCPF11N60,
FCPF11N60NT,
FCPF11N60T,
FCPF16N60,
FCPF16N60NT,
FCPF20N60,
FDA18N50,
FDP18N50,
FDP20N50,
FDP20N50F,
FDPF18N50,
FDPF18N50T,
FDPF20N50,
FDPF20N50FT,
FDPF20N50T,
FFP08H60S,
FFP08S60S,
FFP08S60SN,
FQA13N50CF,
FQP13N50,
FQPF13N50CF,
FQPF9N50CF,
FYPF2006DN,
KA431,
KA431A,
KA431L,
KA431S,
ML4800
|
FAN480X PFC+PWM Combination Controller Application
|
|
AN-6008
|
|
|
FAN4810 Design Tools
|
|
AN-6982
|
|
FAN4810,
FAN6982,
FCA20N60,
FCP11N60,
FCP16N60,
FCP20N60,
FCPF11N60,
FCPF16N60,
FCPF20N60,
FDA18N50,
FDP18N50,
FDP20N50,
FDPF18N50,
FDPF20N50,
FFP08H60S,
FFP08S60S,
FQP13N50,
FQPF13N50CF,
FSBH0F70A_F116
|
Power Factor Correction Converter Design with FAN6982
|
|
AN-42047
|
|
|
Power Factor Correction (PFC) Basics
|
|
AN-6204
|
|
|
FAN6204 - Synchronous Rectification Controller for Flyback and Forward Freewheeling Rectification
|
|
AN-6921
|
|
|
Integrated Critical Mode PFC / Quasi-Resonant
|
|
AN-6086
|
|
|
Design Consideration for Interleaved Boundary Conduction Mode PFC Using FAN9611 / FAN9612
|
|
AN-9738
|
|
FAN7621,
FAN7621B,
FAN7621S,
FAN7930,
FAN7930B,
FAN7930C,
FAN9611,
FAN9612,
FDPF17N60NT,
FDPF7N60NZ,
FFPF08H60S,
FFPF20UA60DN,
FL7930B,
KA431,
KA431A,
KA431L,
KA431S,
LL4148,
LM358,
LM358A,
MMBT2222A,
MMBT2222AT,
MMBT2907,
MMBT2907A,
RS1M
|
Design Guideline on 150W Power Supply for LED Street Lighting Design Using FL7930B and FAN7621S
|
|
AN-9754
|
|
|
FAN9611, 300W (FEBFAN9611_S01U300A), Low-Profile , PFC Evaluation Board User Guide
|
|
AN-9732
|
|
|
LED Application Design Guide Using BCM Power Factor Correction (PFC) Controller for 200W Lighting System
|
|
AN-9731
|
|
FAN9612,
FDLL4148,
FDLL4448,
FDLL914,
FDLL914A,
FDP12N60NZ,
FFPF08H60S,
FL7930B,
FL7930C,
MMBT2222A,
PN2222A,
PZT2222A
|
LED Application Design Guide Using BCM Power Factor Correction (PFC) Controller for 100W Lighting System
|
|
AN-9066
|
|
FDA16N50_F109,
FDA18N50,
FDA20N50F,
FDA20N50_F109,
FDA24N40F,
FDA24N50,
FDA24N50F,
FDA28N50,
FDA28N50F,
FDA50N50,
FDB12N50F,
FDB12N50U,
FDB15N50,
FDD5N50,
FDD5N50U,
FDD6N50,
FDD6N50F,
FDH44N50,
FDH45N50F,
FDP12N50,
FDP18N50,
FDP20N50,
FDP20N50F,
FDP5N50NZ,
FDP7N50,
FDPF10N50FT,
FDPF10N50UT,
FDPF12N50FT,
FDPF12N50NZ,
FDPF12N50T,
FDPF12N50UT,
FDPF13N50FT,
FDPF16N50,
FDPF16N50T,
FDPF16N50UT,
FDPF18N50,
FDPF18N50T,
FDPF20N50,
FDPF20N50FT,
FDPF20N50T,
FDPF5N50FT,
FDPF5N50T,
RURP860
|
UniFET™ Optimized Switch for Discontinuous Current Mode Power Factor Correction
|
|
AN-9090
|
|
|
PFC SPM® 3 Series Ver. 2 for Boost PFC Topology
|
|
AN-42009
|
|
|
ML4824 Combo Controller Applications
|
|
AN-42045
|
|
|
ML4824, A Novel Method for an Off-Line PFC-PWM Combo Controller
|
|
AN-6902
|
|
|
Applying SG6902 to Control a CCM PFC and Flyback/PWM Power Supply
|
