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Part Manufacturer Description Datasheet BUY
WM8326GEFL/V Cirrus Logic Power Supply Management Circuit, CMOS visit Digikey
WM8326GEFL/RV Cirrus Logic Power Supply Management Circuit, CMOS visit Digikey
WM8325GEFL/V Cirrus Logic Power Management Circuit, CMOS visit Digikey
WM8321GEFL/V Cirrus Logic Power Management Circuit, CMOS visit Digikey
WM8321GEFL/RV Cirrus Logic Power Management Circuit, CMOS visit Digikey
WM8325GEFL/RV Cirrus Logic Power Management Circuit, CMOS visit Digikey

220+volt+ac+transformer+less+power+supply+90v

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: 35 45 6.0V 55 65 Ambient Temperature () 9.0V 12.0V 75 85 25 35 13.2V 45 55 65 Ambient Temperature () 6.0V 9.0V 12.0V 75 85 13.2V VOUT , Temperature () 6.0V 9.0V 12.0V 75 25 85 35 45 13.2V 6.0V 55 65 Ambient Temperature () 9.0V 12.0V 75 85 13.2V VOUT=1.2VTa=25 VOUT=1.2VTa=25 15 100 1.4 , 0.0 0.0 25 35 45 55 65 Ambient Temperature () 6.0V 9.0V 12.0V 75 85 Shindengen Electric
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HNBV280 HNBV160H HNBV160L HNBV280L 12v15m 5RE-080246-1 HNBV160/280L/H HNBV160/280DC-DC HNBV160
Abstract: AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S -70 -80 -90 -100 , =48kHz -60dB input AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B , AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S -70 -80 -90 -100 , =3.3V,PVDD=9.0V -45 -50 -55 -60 -65 -70 -75 d B F S -80 -85 -90 -95 -100 -105 -110 -115 , =48kHz AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V -80 -82.5 -85 -87.5 -90 -92.5 -95 d B F S -97.5 -100 -
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AKD4682-A AK4682 AK4114 C11323 C3622 JP36 AK4682R AKD4682-A2 DAC124 AK4682A/D
Abstract: result Input Voltage Input current 252.24mA 126.22mA 90V/60Hz 264V/50Hz Spec. - 2 Input , 2.2 Test result Input Voltage 90V/60Hz 264V/50Hz Input wattage Fs Output voltage Spec. 0.089W 0.206W 20.63KHz(690Hz) 19.87KHz(513Hz) 5.015V 5.015V < 0.3W 90V/60Hz @ NO load , 90V/60Hz 264V/50Hz Turn on time Spec. 1.57s 387.95ms < 3sec 90V/60Hz @ turn on Ch1 , result Input Voltage 90V/60Hz 264V/50Hz Output rising time Spec. 3.32ms 2.69ms < 20msec Fairchild Semiconductor
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SG6859 SSP2N60 230v 5v 2A 10W schematic electrolytic capacitor 22uf 400v ELECTROLYTIC capacitor, .10uF 50V IC PC817 transformer 230v to 5v 2A 50 Hz DIODE SMD 44w FEB184-001 TL431 PC817 PC-2194
Abstract: AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S -70 -80 -90 -100 , =48kHz -60dB input AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B , =5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S -70 -80 -90 -100 -110 -120 , =3.3V,PVDD=9.0V -45 -50 -55 -60 -65 -70 -75 d B F S -80 -85 -90 -95 -100 -105 -110 -115 , ] (ADC fs=48kHz) AK4682 THD+N vs Input Frequency fs=48kHz AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V Asahi Kasei Microdevices
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2000/XP 95/98/ME 74HC14 TA48M033F 74HC04 74VHC04
Abstract: AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S -70 -80 -90 -100 , =48kHz -60dB input AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B , AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S -70 -80 -90 -100 , =3.3V,PVDD=9.0V -45 -50 -55 -60 -65 -70 -75 d B F S -80 -85 -90 -95 -100 -105 -110 -115 , =48kHz AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V -80 -82.5 -85 -87.5 -90 -92.5 -95 d B F S -97.5 -100 Asahi Kasei Microsystems
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2X16 lcd module pic16f84 JP35 JP32 EXA50 AKD4682 rca h 936 74LS07
Abstract: input current at maximum loading 1.2 Test result Input Voltage 90V/60Hz 264V/50Hz Input current , input wattage and output voltage at no load 2.2 Test result Input Voltage 90V/60Hz 115V/60Hz 230V , waveform 90V/60Hz @ NO load Ch1: Vdd Ch2: Vds Page 4 of 36 Rev1.0 Nov.27,2007 , Set output at maximum loading. 3.2 Test result Input Voltage 90V/60Hz 264V/50Hz Measure the , between 10% to 90% output during startup. 4.2 Test result Input Voltage 90V/60Hz 264V/50Hz Max Fairchild Semiconductor
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jackcon lhk r25 smd SCK053 jackcon ST 11791 jackcon electrolytic capacitor FEB221-001 SG5851
Abstract: input AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S , =-1.0dBFS) AK4682 FFT fs=48kHz -60dB input AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 , AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V +0 -10 -20 -30 -40 -50 -60 d B F S -70 -80 -90 -100 , =3.3V,PVDD=9.0V -45 -50 -55 -60 -65 -70 -75 d B F S -80 -85 -90 -95 -100 -105 -110 -115 , ] (ADC fs=48kHz) AK4682 THD+N vs Input Frequency fs=48kHz AVDD1=AVDD2=DVDD1=DVDD2=5.0V, TVDD=3.3V, PVDD=9.0V Asahi Kasei Microdevices
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Abstract: 0A+5Vsb 0A 1. Input Current: 1.1 Test Condition: Load:Max. Load Input Current :90V~132V Max. 6A180V , 9A 6A 10.5A 13.5A 0.3A 2A Vin 90V/60Hz 115V/60Hz 230V/50Hz Input , % 4 DC Output Vin= 90V~132V&180V~264V 4.1 Test Condition: Load Regulation Vout=+/-5% Max. (-12V= +/-10% Max. ) 4.2 Test Result : Vin=90V, Vout=5Vsb/0A Vo = 5.03V Vin=90V , Vout=3.3V/0A Vo = 3.31V Vin=90V , Vout=5V/0A Vo = 5.32V Vin=90V , Vout=12V1/0A Vo = 11.63V System General
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SG6931 230v to 12v step down transformer 230v to 12v ac step down transformer TRANSFORMER ERL35 ERL35 W17 SMD transistor smps 230V PM30006-02 80PLUS SG6516 SG6858
Abstract: Input Current: 1.1 Test Condition: Load:Max. Load Input Current :90V~132V Max. 6A180V~264V Max. 3A , 10.5A 13.5A 0.3A 2A Vin 90V/60Hz 115V/60Hz 230V/50Hz Input Current A A 4.28 , Output Vin= 90V~132V&180V~264V 4.1 Test Condition: Load Regulation Vout=+/-5% Max. (-12V= +/-10% Max. ) 4.2 Test Result : Vin=90V, Vout=5Vsb/0A Vo = 5.03V Vin=90V , Vout=3.3V/0A Vo = 3.35V Vin=90V , Vout=5V/0A Vo = 5.29V Vin=90V , Vout=12V1/0A Vo = 11.84V Vin=90V , Vout System General
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smd transistor w17 w12 smd transistor atx power supply schematic dc 600 watts SOT W17 SMD transistor smd transistor w12 1N4148 SMD LL-34 PM30006-01
Abstract: -252-5L P : TO-220-5L PR : TO-220-5LR S : TO-263-5L Vout Blank : Adj 50 = 5.0V 90 = 9.0V 120 = 12V TO , : SO-8 Part Number 8962M-XX YWWSSS Package Code Output Voltage : Blank :ADJ 90 :9.0V 50 :5.0V , Number Package Code Output Voltage : Blank :ADJ 90 :9.0V 50 :5.0V 120 :12V Date Code (YWWSSS) YLast Digit , Code 8962PR-XX LOGO Output Voltage : Blank :ADJ 90 :9.0V 50 :5.0V 120 :12V YWWSSS Date Code , Number Output Voltage : Blank :ADJ 90 :9.0V 50 :5.0V 120 :12V Package Code 8962H-XX LOGO YWWSSS Advanced Power Electronics
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APE8962 APE8962-120 APE8962-ADJ 8962S-XX
Abstract: CL1 Initial Release Simple 90V 20mA Temperature Compensated Constant Current LED Driver IC , or 80mA. The device is available in SOT-89, D-PAK and TO-92 packages. 5.0V to 90V operating range , CL1 Up to 90V + VLED(total) ILED < 20mA Vb Control Circuit and Temperature Compensation + VLED , =5V Va-b=45V Va-b=90V Va-b=45V, TJ=0°C to 100°C Va-b=5.0V to 90V Output Current vs Voltage 25 20 , Strings Va Va Va Va Up to 90V +VLED(total) CL1 ILED ~20mA Vb CL1 ILED ~20mA Vb CL1 Supertex
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B0629 CL1K4 led 13w B062905
Abstract: .2 Output Voltage Ripple Output Voltage Ripple @ 90V/50Hz, Full load Demo Spec Output Ripple(Spec Max , .4 Efficiency @ Iout=1/4Po~Po 91.0 Efficiency(%) 90.0 89.0 88.0 87.0 86.0 85.0 90V 110V , @90V, Full load , Variant Max(Spec Max BCD Semiconductor
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AP1661 90W ac adapter schematic npn 13001 90w flyback 90W laptop adapter 90W ac power adapter schematic TRIAC 13001 AP3101 EN61000-3-2
Abstract: - 12 A (TO-31 File No. 524 2N6247 VCER(SUSI « -90V lc = â'"12 A (TO-31 File No.677 2N5295 2N5296 , VCER1SUS) »80V lc - 1 A (TO-39) 106E 2N4036 VCER (SUS) - -85 V lc-1 A (TO-39) 216 E 2N6178 Vcer(SUS)«90V , -39) 325 E 2N5322 VCER(SUS)-90V lc = â'"1A (TO-39) 325 E File No. (e.g. File No. 322), where shown -
OCR Scan
2N5293 2N5294 2N6106 2N6107 2N5786 2N5783 2N3055 TO-220 2N3055, TO5 complementary-pair 2N3054 ITO-2201
Abstract: 08cj-H-01 600V DTMOS 600V Power MOSFETs with New Super Junction structure TK40J60T80mMax.@VGS=10V ID=20A TK20A60UQg=27nC typ.600V/20A () TK20A60UIAR=20A@VDD=90V Rg=25 L=0.63mH - trr=500A/s@VDSS=400V,150° C VDSS (V) RDS(on)Max.() ID (A) VGS=10V Qg typ. (nC) Ciss typ. (pF) TO-220SIS TK12A60U TK12D60U 600 12 0.4 14 , ) DTMOS @L=1mH, 90V, 25° C 2 62% RonQg 500A/s@150° C 100 IF:20A/div 14 -
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TK20A60U TK12J60U TK15A60U TK15D60U TK15J60U TK20D60U N mosfet 100v 500A mosfet 600V 20A to220sis MOSFET 400V TO-220 N mosfet 400v 500A TK40J60T80 TK20A60UQ
Abstract: a nominal 12V, 24V, or 48V supplies. With a maximum rating of 90V, it is able to withstand , 90V max rating Transient immunity Overtemperature protection Increases reliability, tolerates Supertex
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CL6N5-G regulator 48V
Abstract: 100mA from a nominal 12V, 24V, or 48V supplies. With a maximum rating of 90V, it is able to withstand , external rectifier 90V max rating Transient immunity Overtemperature protection Increases Supertex
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CL6K4-G linear current regulator
Abstract: View ) APE8962X-XX Blank : Adj 50 = 5.0V 90 = 9.0V 120 = 12V 5 Vcc 4 EN 3 OUT 2 FB 1 , : Adj 50 : 5.0V 90 : 9.0V 120 : 12V Date Code (YWWSSS) Y:Last Digit Of The Year WW:Week , -XX Output Voltage - Blank : ADJ ; 50 : 5.0V 90 : 9.0V ; 120 : 12V LOGO YWWSSS Date Code (YWWSSS , Logo YWWSSS Output Voltage : Blank : Adj ; 90 : 9.0V 50 : 5.0V ; 120 : 12V Date Code (YWWSSS , ; 50 : 5.0V 90 : 9.0V ; 120 : 12V Date Code (YWWSSS) Y:Last Digit Of The Year WW:Week Advanced Power Electronics
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MO-100
Abstract: =25 VCC op unit VCC 9 V 3.514 V max unit /Ta=25,VCC=9.0V,f , LA2010 + 10F CRT 1 2 2 VCC=9.0V M 1 1k 10k 5 1 t=1kHz 10k 620 620 , C6 10F 4 plunger C1 0.047F R1 10k 9 1 R2 2k VCC 9.0V 3 7 6 LA2010 + , 9.0V f = 1kHz 200k//0.22F CNF = 0.47F CIN = 0.047F 2 4 0 2 4 6 8 10 12 , LA2010 VIN ­ f 20 VCC = 9.0V 200k//0.22F CNF = 0.47F Rg = 600 CIN = 0. 47F 10 0 ­ 10 -
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N1343D LA20101IC
Abstract: 500 ns VCC = 9.0V 400 ns Power Dissipation (PD) (Note 3) 600 mW S.O. Package , Voltage VIH 4.5V 3.15 3.15 3.15 V 9.0V 5.3 6.3 V 8.4 8.4 8.4 V , 9.0V VIL 6.3 12.0V 2.7 2.7 2.7 V 12.0V 3.6 3.6 3.6 V 170 200 , 4.5V 50 80 100 120 VIS = VCCor GND 9.0V 35 60 75 80 (Figure 1 , 20 Matching VIS = VCC to GND 9.0V 5 10 15 15 12.0V RON 5 10 Fairchild Semiconductor
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MM74HC4066 MM74HC4066M MM74HC4066WM MM74HC4066SJ MM74HC4066MTC MM74HC4066N 74HC MS-120 MS-013
Abstract: 500 ns VCC = 9.0V 400 ns Power Dissipation (PD) (Note 3) 600 mW S.O. Package , Voltage VIH 4.5V 3.15 3.15 3.15 V V 9.0V 8.4 V 0.5 0.5 0.5 V , V 9.0V VIL 6.3 12.0V 2.7 2.7 2.7 V 12.0V 3.6 3.6 3.6 V 170 , 4.5V 50 80 100 120 VIS = VCCor GND 9.0V 35 60 75 80 (Figure 1 , 20 Matching VIS = VCC to GND 9.0V 5 10 15 15 12.0V RON 5 10 Fairchild Semiconductor
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MTC14 M14D M14B N14A MO-153 MS-001
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