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Part Manufacturer Description Datasheet BUY
LTC3566EUF#PBF-ES Linear Technology High Efn¼üciency USB Power Manager Plus 1A Buck-Boost Converter visit Linear Technology - Now Part of Analog Devices
LTC3566EUF#TRPBF-ES Linear Technology High Efn¼üciency USB Power Manager Plus 1A Buck-Boost Converter visit Linear Technology - Now Part of Analog Devices
LTC3522EUD#PBF Linear Technology LTC3522 - Synchronous 400mA Buck-Boost and 200mA Buck Converters; Package: QFN; Pins: 16; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC3520EUF#TRPBF Linear Technology LTC3520 - Synchronous 1A Buck-Boost and 600mA Buck Converters; Package: QFN; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC3520IUF#TRPBF Linear Technology LTC3520 - Synchronous 1A Buck-Boost and 600mA Buck Converters; Package: QFN; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC3522EUD#TRPBF Linear Technology LTC3522 - Synchronous 400mA Buck-Boost and 200mA Buck Converters; Package: QFN; Pins: 16; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

buck converter 110v to 100

Catalog Datasheet MFG & Type PDF Document Tags

isl6247

Abstract: ICH4 /DC Converter, Buck/SyncRectifier, No DAC, ±1% Reg, 5/12VDC Input to 3.xVDC Output 14 Ld SOIC, 14 , ) Device HIP6301 Device Description PWM Controller, 2-4 Phase Sync Buck, 1.10V to 1.85V, ±1.0% Reg , Phase Sync Buck, 1.10V to 1.85V, ±0.8% Reg, Programmable Droop Voltage, 5-Bit Dynamic VID DAC HIP6302 PWM Controller, 2 Phase Sync Buck, 1.10V to 1.85V, ±1.0% Reg, Programmable Droop Voltage, 5-Bit VID , VR9 16 Ld SOIC HIP6302V PWM Controller, 2 Phase Sync Buck, 1.10V to 1.85V, ±0.8% Reg
Intersil
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EL7566 isl6247 ICH4 AMD Voltage regulation design QFN-12 1.5 SiS630 ethernet 1-888-INTERSIL EL7530 EL7531 EL7532 EL7534 EL7536

220v AC to 110v AC using resistor circuit diagram

Abstract: 220v AC to 110v AC transformer circuit diagram Description Specifications The HV9910BDB1 demoboard is an offline, high current LED driver designed to drive a 40V LED string at 1.4A from a 110V input. The demoboard uses Supertex's HV9910B LED driver IC to drive a buck converter. Input voltage 90 - 135Vrms, 50/60Hz Output voltage 10 - 40V , efficiency of 88%, with the buck converter efficiency (excluding the diode bridge rectifier and EMI filter , efficiency (@110V) Power factor (@110V) 0.64 Input current (@110V) The output current can be
Supertex
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CISPR-15 HV9910DB1 HV9910BNG-G 220v AC to 110v AC using resistor circuit diagram 220v AC to 110v AC transformer circuit diagram COILTRONICS CTX01 220v AC to 110v AC transformer circuit diagram an 220v 2a diode bridge converter from 110v to 220v schematic diagram

220v AC to 110v AC using resistor circuit diagram

Abstract: 1uF 250V Epcos Specifications The HV9910BDB1 demoboard is an offline, high current LED driver designed to drive a 40V LED string at 1.4A from a 110V input. The demoboard uses Supertex's HV9910B LED driver IC to drive a buck converter. Input voltage 90 - 135Vrms, 50/60Hz The HV9910BDB1 has a typical full load efficiency of 88%, with the buck converter efficiency (excluding the diode bridge rectifier and EMI filter) at 93%. The demoboard also meets CISPR-15 conducted EMI standards. Full load efficiency (@110V) 88
Supertex
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1uF 250V Epcos inductor 1000uH 2A buck converter 110v full wave bridge rectifier 40v 15a buck converter 110v to 100 220v ac led drive CL-130 SO-16

DIODE 1n4005

Abstract: buck converter 110v to 100 [m A] 11.8 0 100 200 300 400 Figure 9: Buck converter: efficiency Vout [V , and over-current protection. 1.0 NON ISOLATED POWER SUPPLY 1.1 Buck converter In the basic circuit , duty-cycle can control the output voltage. Figure 1: Buck converter S L +Vout Vin + C D - , feature can be used to switch off the converter, and is automatically activated by the regulation loop , out 2 L 3.0 APPLICATION EXAMPLES 3.1. Buck converter The schematic of the circuit is shown in Fig
STMicroelectronics
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DIODE 1n4005 off-line power supply based on Viper 22 inductor 470uH 3.3uF 400v Viper20 application 1N4007 as a transistor AN1489

Zener Diode Table

Abstract: inductor 470uH Iou t [mA] 1 1.8 0 100 200 3 00 40 0 Figure 9: Buck converter: efficiency Vout , and over-current protection. 1.0 NON ISOLATED POWER SUPPLY 1.1 Buck converter In the basic circuit , duty-cycle can control the output voltage. Figure 1: Buck converter S L +Vout Vin + C D - , feature can be used to switch off the converter, and is automatically activated by the regulation loop , < -Iout 2 L 3.0 APPLICATION EXAMPLES 3.1. Buck converter The schematic of the circuit is shown in Fig
STMicroelectronics
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Zener Diode Table transistor BC547B Bc547B TRANSISTOR buck converter output 110v 220v to 12v smps circuit current adjustable zener 15v diode 300mA

ac dc led constant current driver

Abstract: permanently, connect the PWMD pin to VDD. APPLICATIONS Buck Converter VIN 8~30VDC 3K 10uf/30V , CS FB GATE PWMD GATE FB (Buck converter) (Buck, Boost converter) PIN , ) Buck-Boost Converter 3 to 8 350mA HB LEDs VIN 8~30VDC M1910B 3K 10uf/30V 10uf/30V 5.6V , fixed switching frequency up to 300 kHz. The frequency can be programmed using a single resistor. The , voltage loop gain. The output current can be programmed between a few milliamps and up to more than 10A
MOSDESIGN Semiconductor
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ac dc led constant current driver M1910B/C M1910C 30VIN IN4004 IN4007
Abstract: permanently, connect the PWMD pin to VDD. APPLICATIONS Buck Converter VIN 8~30VDC 3K 10uf/30V , CS FB GATE PWMD GATE FB (Buck converter) (Buck, Boost converter) PIN , ) Buck-Boost Converter 3 to 8 350mA HB LEDs VIN 8~30VDC M1910B 3K 10uf/30V 10uf/30V 5.6V , fixed switching frequency up to 300 kHz. The frequency can be programmed using a single resistor. The , voltage loop gain. The output current can be programmed between a few milliamps and up to more than 10A MOSDESIGN Semiconductor
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1N5819 IRF630 IRF840

dimmable LED driver

Abstract: Non-isolated Buck LED Driver IC change. 4. Power-on after , VCDIM drops below 1.7V. The output will reset to 100%. 38 Appendix , sufficient to support dimming circuit MBI Patent 57 MBI6655: 40V/1A BUCK COST-EFFICIENT SOLUTION , ) IMS Research Press Release (July 05, 2011): Macroblock Up To 3rd in LED Driver ICs Market http , 40V NON-ISOLATED BUCK C.C. DRIVER MBI6902: Non-isolation C.C. â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ â , Non-isolation Controller EMI Test Result: LED T8(40V/500mA) L1/110V L1/220V â'¢ â'¢ PASS PASS
Macroblock
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MBI6661 dimmable LED driver Non-isolated Buck LED Driver IC DIODE SCHOTTKY 3146 smd 220V 350mA LED driver dimmable controller for LED lighting TSMC fuse 2014Q3 Y2010 IEC/UL60950-1 L1/110V N/110V N/220V
Abstract: Wide Input Voltage Range: 4.5V to 110V Input and Output Current Reporting PMOS Switch Driver for PWM , features, and also allows the converter to operate as a constantvoltage source. The maximum output current , VIN 22µH 15mΩ EFFICIENCY (%) VIN 8V TO 60V 110V (TRANSIENT) 63V OVLO 87V LED , . 110V VIN - IVINN. â'"0.3V to 4V INTVCC (Note 3 , with output VC regulates FB to 1.25V (nominal) through the DC/DC converter. If the FB input is Linear Technology
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LT3795 QFN-16 MSOP-16E LT3756/LT3756-1/ LT3756-2 LT3743
Abstract: Wide Input Voltage Range: 4.5V to 110V Input and Output Current Reporting PMOS Switch Driver for PWM , converter to operate as a constantvoltage source. The maximum output current is set by an external resistor , 22µH 15mΩ EFFICIENCY (%) VIN 8V TO 60V 110V (TRANSIENT) 63V OVLO 87V LED 400mA , . 110V VIN - IVINN. â'"0.3V to 4V INTVCC (Note 3 , with output VC regulates FB to 1.25V (nominal) through the DC/DC converter. If the FB input is Linear Technology
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QFN-28 TSSOP-28E LT3517 LT3518 LT3474/ LT3474-1
Abstract: Wide Input Voltage Range: 4.5V to 110V Input and Output Current Reporting PMOS Switch Driver for PWM , converter to operate as a constant-voltage source. The maximum output current is set by an external , 15mΩ EFFICIENCY (%) VIN 8V TO 60V 110V (TRANSIENT) 63V OVLO 4.7µF 0.1µF 0 10 , . 110V VIN - IVINN. â'"0.3V to 4V INTVCC (Note 3 , with output VC regulates FB to 1.25V (nominal) through the DC/DC converter. If the FB input is Linear Technology
Original
LT3474/LT3474-1 TSSOP-16E LT3475/LT3475-1 TSSOP-20E

DIODE 1n4005

Abstract: JAN 1N4005 . 100 200 300 400 Buck converter: efficiency Vout [V] 80.0 70.0 60.0 85V 150V , regulation circuit is introduced and analyzed in Buck and Buck-boost converter based on VIPer20, a , . . . . 6 3.1 Buck converter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , polarity to the input. Figure 2. Buck-boost converter 3/14 VIPer20 in non isolated secondary , MOSFET. This feature can be used to switch off the converter, and is automatically activated by the
STMicroelectronics
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JAN 1N4005 st viper 100 31 BC547B STTA106 Diode 1N4007 1N4005

Viper20 application

Abstract: VIPer 32 A] 11.8 0 Figure 9. 100 200 300 400 Buck converter: efficiency Vout [V , regulation circuit is introduced and analyzed in Buck and Buck-boost converter based on VIPer20, a , . . . . 6 3.1 Buck converter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . , the diode voltage waveform duty-cycle can control the output voltage. Figure 1. Buck converter , , with a zero duty cycle for the Power MOSFET. This feature can be used to switch off the converter, and
STMicroelectronics
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VIPer 32 1N4007 AN1317 VIPER IC diode 1N4005 specifications 110v smps circuits
Abstract: used to control the Buck converter with internal MOSFET and regulate the constant output current. The , ¦ ⣠VIN ⦠⣠To optimize the ripple current, the RT8468A operates the Buck converter in BCM , Description Features Built-In 500V/1A Power MOSFET Low Cost and Efficient Buck Converter Solution , cycle of the RT8468A can be up to 100% for wider input voltage applications, such as E27 and PAR30 , % 80 70% 70 75% 75 VIN_AC = 110V to 264V, IOUT = 100mA 65% 65 110 130 150 170 190 210 230 RichTek Technology
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DS8468A-00

FAN5093

Abstract: Willamette September 2001 FAN5093 Two-Phase Low Voltage Synchronous Buck Converter Product Brief , voltage can be adjusted in 25mV steps over a range of 1.10V to 1.85V by a precision 5-bit VID-code DAC , 1.10V to 1.85V in 25mV steps I Programmable Active DroopTM minimizes voltage switching time and , efficiency and low total cost which can provide in excess of 69A to the new low-voltage Pentium IV , higher reliability with reduced operating temperatures. Operating from a 12V supply at clock rates up to
Fairchild Semiconductor
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FAN5091 FAN5093MTC FAN5093MTCX Willamette Pentium super space SOIC-20 TSSOP-24

230V ac to 12v dc converter circuit

Abstract: 220v ac to 5v dc converter /DC (3) DC/AC 2 100% Figure 1 ( ) AC DC FIGURE 1. Real Power Supply has error compared to Ideal Power Supply 1 , % Load Regulation 0.02%-0.1% 0.1%-1.0% 0.5 mV-2 mV RMS Output Ripple 10 mV-100 mVP-P ± , Modulation FIGURE 4. Buck Regulator Circuit with Voltage and Current Waveforms t (1 , -556 ( ) Figure 6 ( ) 3 110V
National Semiconductor
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230V ac to 12v dc converter circuit 220v ac to 5v dc converter 230V AC to 5V DC ic 230V ac to 110V dc converter circuit 220v ac to 5v dc converter circuit center tap transformer AN-556 AN010061-03-JP 5V28V48V V-100

5091MTC

Abstract: capacitor 1000uF 16V , the FAN5091 uses a number of techniques to improve efficiency. Because a synchronous buck converter is , Fairchild P/N FAN5091 - Two Phase Interleaved Synchronous Buck Converter back to top Application notes , www.fairchildsemi.com FAN5091 Two Slice Interleaved Synchronous Buck Converter Features · Programmable output from 1.10V to 1.85V in 25mV steps using an integrated 5-bit DAC · Two interleaved , synchronous buck regulator slices with built-in current sharing operate 180° out of phase to provide the fast
Fairchild Semiconductor
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5091MTC capacitor 1000uF 16V diode ab24 200KH FAN5091MTC FAN5091MTCX AB-24 FAN5093-PB
Abstract: shown in Figure 2. Isolated Buck Converter 100 V 2 3 4 VIN VDD BOOT UV/OV , as a flyback converter and the input to output voltage relationship is similar to a buck derived , connected as a flyback converter and the input to output voltage relationship is similar to a buck derived , to the input voltage as a buck converter. SHS D1 T1 D1 T1 CIN SLS NPRI NSEC , UCC25230 www.ti.com SLUSAQ6B â'" NOVEMBER 2011 â'" REVISED APRIL 2012 12-V to 100-V Input Texas Instruments
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ISO/TS16949

buck converter 110v

Abstract: UCC25230 and output current ranges are shown in Figure 2. · · Isolated Buck Converter 100 V 7 VDD , flyback converter and the input to output voltage relationship is similar to a buck derived converter , buck since the transformer is connected as a flyback converter and the input to output voltage relationship is similar to a buck derived converter, assuming the converter is operating in steady state and , the same linear relationship to the input voltage as a buck converter. SHS T1 T1 SHS VIN C IN SLS
Texas Instruments
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100v/simulation flyback converter

Abstract: buck converter 110v shown in Figure 2. Isolated Buck Converter 100 V 2 3 4 VIN VDD BOOT UV/OV , the input to output voltage relationship is similar to a buck derived converter. Typically, an , portmanteau of flyback and buck since the transformer is connected as a flyback converter and the input to output voltage relationship is similar to a buck derived converter, assuming the converter is operating , UCC25230 www.ti.com SLUSAQ6B â'" NOVEMBER 2011 â'" REVISED APRIL 2012 12-V to 100-V Input
Texas Instruments
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100v/simulation flyback converter
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