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Part Manufacturer Description Datasheet BUY
LTC3611EWP Linear Technology LTC3611 - 10A, 32V Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC3611IWP#TRPBF Linear Technology LTC3611 - 10A, 32V Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC3611EWP#TRPBF Linear Technology LTC3611 - 10A, 32V Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC3611EWP#PBF Linear Technology LTC3611 - 10A, 32V Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC3611IWP#PBF Linear Technology LTC3611 - 10A, 32V Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1272-5CCSW Linear Technology LTC1272 - 12-Bit, 3µs, 250kHz Sampling A/D Converter; Package: SO; Pins: 24; Temperature: Commercial visit Linear Technology - Now Part of Analog Devices

cuk converter 5V 10A

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: boost converter, one Cuk converter, two gate-voltage controllers, and two VCOM buffers, one of which , Converter) 1.2MHz (Boost and Cuk Converters) S Converters Run Out-of-Phase for Lower EMI S Externally , V -0.83 x VREF V CUK CONVERTER (VSL) VSL Output-Voltage Range FBN Regulation Voltage , NAME 1 COMPN Cuk Converter Error-Amplifier Compensation. Connect the compensation network from COMPN to GND. 2 INA Boost and Cuk Power Supply. Connect to the output of the buck converter or Maxim Integrated Products
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Abstract: boost converter, one Cuk converter, two gate-voltage controllers, and two VCOM buffers, one of which , Converter) 1.2MHz (Boost and Cuk Converters) S Converters Run Out-of-Phase for Lower EMI S Externally , V -0.83 x VREF V CUK CONVERTER (VSL) VSL Output-Voltage Range FBN Regulation Voltage , NAME 1 COMPN Cuk Converter Error-Amplifier Compensation. Connect the compensation network from COMPN to GND. 2 INA Boost and Cuk Power Supply. Connect to the output of the buck converter or Maxim Integrated Products
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Abstract: boost converter, one Cuk converter, two gate-voltage controllers, and two VCOM buffers, one of which , Converter) 1.2MHz (Boost and Cuk Converters) S Converters Run Out-of-Phase for Lower EMI S Externally , V -0.83 x VREF V CUK CONVERTER (VSL) VSL Output-Voltage Range FBN Regulation Voltage , NAME 1 COMPN Cuk Converter Error-Amplifier Compensation. Connect the compensation network from COMPN to GND. 2 INA Boost and Cuk Power Supply. Connect to the output of the buck converter or Maxim Integrated Products
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12v to 20v cuk converter

Abstract: 12 to -12v cuk converter performance of both Cuk and SEPIC converters. A 1.8V to 4.5V to 5V/2A Boost Converter Figure 4 shows a 5V , Converter in Figure 1 CSS 0.1µF GATE M1 VOUT 5V 2A R2 34k 1% FBX GND INTVCC VC CC2 , . Boost Converter Produces 5V/2A Output from 1.8V to 4.5V Input Data Sheet Download www.linear.com , noninverting converter or sometimes both. They also need to operate from a variety of power sources including , multiple configurations such as boost, SEPIC, flyback and Cuk topologies. L, LT, LTC, LTM, Linear
Linear Technology
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12v to 20v cuk converter

Abstract: ROHM CROSS Devices: ! 5V-to-12V Boost Converter ! Positive-to-Negative Converter w/ Direct Feedback ! Dual Output Flyback Converter w/ Overvoltage Protection ! Low Ripple 5V to ­3V "Cuk" Converter ! High Efficiency CCFL Supply ! 2 Li-Ion Cell to 5V SEPIC Converter ! Low Noise Step-Up DC-DC Converter Availability , 1.0A: Diodes: 420mV, Zetex: 440mV - Typ VF @ IF = 1.5A: Diodes: 475mV, Zetex: 530mV Rohm RB491D
Diodes
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BAT750 ZHCS750 BAT720 12v to 20v cuk converter ROHM CROSS ZHCS750 equivalent dc dc sepic 5V converter sot23 Flyback Converter
Abstract: VDD pin falls below the UVLO threshold. The flying capacitor in the Cuk converter (C1) is , will be regulated by the sum of Rs2a and Rcs2. Damping Circuit Reference The Cuk converter is , Cuk converter. An internally trimmed voltage reference of 1.25V (+/- 3%) is provided at the REF , designed to control an LED lamp driver using a low noise boost-buck (Cuk) topology. The HV9930 uses , capacitor to GND; IREF = 0; VDD = 7.5V; PWMD = 5V VREFLINE Line regulation of reference voltage 0 Supertex
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NR053105 MS-012AA DSFP-HV9930

LAS6330

Abstract: LAS6331 APPLICATIONS DC-TO-DC STEP-DOWN CONVERTER VIN Vin = 24V V0UT = 5V @ 3A DC-TO-DC STEP-UP CONVERTER V,N = , integrated circuits designed for fixed frequency, pulse width modulated, switching converter applications such as step-down, step-up, flyback, forward, Cuk and voltage inverting DC-to-DC converters and motor , LAS 6330 SERIES ELECTRICAL CHARACTERISTICS Test conditions are as follows: Vcc = 24V, V0 = 5V, lp = , VOLTAGE 25 50 75 100 CASE TEMPERATURE (°C) \ 12V 3A 5V, 3 r 15 20 25 30 INPUT
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LAS6330 LAS6331 6331P1 LAS6330P1 LAS6331P1 6330 24v to 5V 3A converter 6330P1 6331P S6330

6330 SERIES SWITCHING REGULATORS operation

Abstract: vsk64 SERIES TYPICAL APPLICATIONS DC-TO-DC STEP-DOWN CONVERTER V,N VIN = 24V Vqut = 5V @ 3A DC-TO-DC STEP-UP CONVERTER VIN = 12V V0UT = 24V @ 1.0A 45 This Material Copyrighted By Its Respective , integrated circuits designed for fixed frequency, pulse width modulated, switching converter applications such as step-down, step-up, flyback, forward, Cuk and voltage inverting DC-to-DC converters and motor , Test conditions are as follows: Vcc = 24V, V0 = 5V, lp = 3A, Ct = 0.0056^, Tj = 25°C, unless otherwise
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6330 SERIES SWITCHING REGULATORS operation vsk64 t03 package transistor pin dimensions 6331-1 LAS63 0J92J
Abstract: CD43-220 U2A, U2B: LT1490 3.3M RT 10k NTC 1534 TA05 Ultralow Noise 5V to â'"3V Cuk , 15 VIN 1534 TA06 A Cuk converter is a natural topology for a low noise converter. The Cuk , GND 1,8, 9,16 C1 47µF 6.3V ×2 10â"¦ L2 RCSL 11 2 NFB FB 10 L3 50µH A + SYNC 3300pF 220pF 1N5817 1nF B + 5V 650mA C2 47µF 5V Output , B08T (28nH) OR PC TRACE B 2mV/DIV 10µs/DIV 1534 TA02 Figure 1. Low Noise 3.3V to 5V Boost Linear Technology
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LT1534/LT1534-1 1534/LT1534-1 ECGC0JB470 VP2-0216 LT1129 LT1175

6330 SERIES SWITCHING REGULATORS operation

Abstract: LAS6430P STEP-DOWN CONVERTER V,N = 24V V 0UT = 5V (il 3A DC-TO-DC STEP-UP CONVERTER V,N = 12V V 0UT = 24V (fi 1.0A 11-29 S E M T E C H C O R P U S CHRISTI SEMTECH CORP 5ÖE D 013^13^ G00307E , integrated circuits designed for fixed frequency, pulse width modulated, switching converter applications such as step-down, step-up, flyback, forward, Cük and voltage inverting DC-to-DC converters and motor , Test conditions are as follows: Vcc = 24V, V0 = 5V, l0 = 3A, Ct = 0.0056fxF, L = 25°C, Fsx = 55Khz
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LAS6430P voltage regulators 10 amp to3 LAS6331A transistor TO-3 Outline Dimensions LAS 6330P1 voltage regulators 6 amp to3 0DD30 LAS-6330 LAS-6330/31 LAS-6430/31 LAS-6330A/31A LAS-6330/LAS-6430

MAX2173

Abstract: MAX17880 220µF VOUT1 (5V, 5A) 0.1µF VOUT1 DH1 N1 22mâ"¦ 2.2µH LX1 PV3 188µF , ERR 24kâ"¦ SYNC SYNC 100kâ"¦ 94µF PGND2 BIAS BIAS 4 10â"¦ 1µF 1µF , Step-down converter MAX16952 36 Controller 2.0 No 90 Step-down converter MAX16956 36 0.3 2.1 Optional 3 Mini buck converter MAX16990 36 Controller 0.4 , 45 Step-down converter MAX16963 5.5 1.5 2.2 Optional 45 Dual channel δVDO
Maxim Integrated Products
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MAX2173 MAX17880 MAX17823 MAX17841 MAX2136A MAX3601

MIC4686

Abstract: MIC23250 . External N-FET/P-FET, 1A to 10A 95% 600µA Flyback/Forward Converter/Push-Pull Controllers for , 3.3V, 5V, Adj. 1.3A 200kHz SOIC-8 MIC4681 4V to 30V Adj. 2A Peak 200kHz SOIC , SOIC-8 500kHz: Small Inductor. MIC4574 4V to 24V 3.3V, 5V, Adj. 0.5A 200kHz PDIP-8, SOIC-14 MIC4575 4V to 24V 3.3V, 5V, Adj. 1A 200kHz TO220-5, TO263-5 MIC4576 4V to 36V 3.3V, 5V, Adj. 3A 200kHz TO220-5, TO263-5 LM2574 4V to 40V 3.3V, 5V, 12V
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MLF-12 MIC2207 MIC4686 MIC2295 MIC23250 Vin 24V DC to Vout 5V 1A DC flyback converter 24V INPUT DC to 5V 1A OUTPUT DC flyback converter 24v 12v 20A regulator transformer lm2576 MIC4721 MSOP-10 MIC4722 MIC4723
Abstract: regulators based on boost, SEPIC, flyback, and Cuk topologies. 1 â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ â , 1 qualified. APPLICATIONS â'¢ â'¢ LED Drivers Constant Current Regulator: Boost, Cuk , Transconductance bandwidth gm IADJ = 5V â'"6dB Error Amp reference voltage Precise value implied in , main N-channel MOSFET gate of switching converter. 14 IS I Connect to drain of main , to input supply of converter. Bypass with 100nF ceramic capacitor to AGND as close to the device as Texas Instruments
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TPS92690 TPS92690/90Q1 TPS92690Q1 AEC-Q100 TSSOP-16 ISO/TS16949

LT1070

Abstract: LT1070CT APPLICATIO S s s s s s s s Logic Supply 5V at 10A 5V Logic to ±15V Op Amp Supply Off-Line Converter Up to , * APPLICATIONS Logic Supply 5V at 10A 5V Logic to ± 15V Op Amp Supply Offline Converter up to 200W Battery , Boost Converter (5V to 12V) L2 10µH OUTPUT FILTER D1 VIN C3* 100µF VSW C3 100µF Maximum Output Power , LOAD = 10mA ­ VOUT 5V 10A · VIN VSW · LT1070 GND VC FB R3 C2 1070/71 TA13 R2 , R2 1k GND VC FB VIN 7 2 R7 1.24k N 0.25 D1 R5 5k R4 1.24k VOUT 5V 10A C2 5000µF 1070/71 TA19
Linear Technology
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LT1070CT LTspice LT1172 boost converter 60v cuk converter 5V 10A LT1074 design manual pin diagram of LM308 Op Amp IC LT1070/LT1071 1070/LT1071 T0-220 LT1070HVCT LT1070HVIT

48V to 12V buck transformer

Abstract: Delta EFD20 Cuk converter but it applies equally well to the SEPIC and the single inductor Buck-Boost topologies , typically 3.3V, 5V and 12V. With the addition of the VPH products to the range the Versa-Pac can now be , and the calculated turns ratio rounded up or down to the nearest achievable value. Vo = 5V, Io = , Forward Converter Transformer Although the data used in the Power v. Frequency curve was derived using a , , 0.667, 1, 1.5, 2, 3 etc). Single Ended Forward Converter Design Procedure 3.3/48 = Nsec/Npri x
Cooper Bussmann
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48V to 12V buck transformer Delta EFD20 EFD20 7W J-STD-020B PM-191
Abstract: regulators based on boost, SEPIC, flyback, and Cuk topologies. 1 â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ â'¢ â , 1 qualified. APPLICATIONS â'¢ â'¢ LED Drivers Constant Current Regulator: Boost, Cuk , IADJ = 1V, 0V < VCSP < 0.8V Transconductance bandwidth gm IADJ = 5V â'"6dB Error Amp , switching converter. 14 IS I Connect to drain of main N-channel MOSFET or to source of MOSFET if , capacitor to provide bias supply for controller. 16 VIN I Connect to input supply of converter Texas Instruments
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1000 watt buck converter scheme

Abstract: 48v to 24v buck converter is the simplest regulator that can deliver currents above 350 mA with a varying output voltage. As with linear and buck regulators, a boost converter with a feedback-divider network can be , the LED. A boost converter differs in that the internal switch sees a higher current that varies , conditions. Possible topologies include the buck-boost, SEPIC, Cuk, flyback, and VIN referenced boost (also , , the gain of a switched capacitor converter must be large enough to supply enough boost at minimum
National Semiconductor
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1000 watt buck converter scheme 48v to 24v buck buck pfc flyback led driver with pwm dimming Aluminum Base LED PCB Application Note Nationals LM2623

mallory capacitor fp 150

Abstract: lt1072 ripple and slightly lower efficiency. Example 1: Negative buck converter with VIN = ­ 24V, VOUT = ­ 5V , Example 2: Flyback converter with VIN = 6V, VOUT = ±15V at 35mA and 5V at 0.2A, N = 0.4 (primary to 5V , VIN D2 7V Q7 VSW Buck Converter Figure 10a shows the basic buck topology. S1 and S2 open , optimum power transfer from input to output. 'Cuk Converter Peak switch current in a flyback , ) (9) The 'Cuk converter in Figure 13 is named after Slobodan 'Cuk, a professor at Cal Tech. It is
Linear Technology
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mallory capacitor fp 150 lt1072 tapped inductor boost converter mallory capacitor fp MALLORY CAPACITORS sx an19fc AN19-79 AN19-80

lt 1172

Abstract: IT 1172 ) Applications · · · · · · Logic Supply (5V, 10A) 5V Logic to ±15V Op-Amp Supply Offline Converter up to 200W Battery Up Converter Power Inverter ( + t o - ) or ( - t o +) Fully Floating Multiple Outputs Pin , TPUT FILTER Figure 1 Boost Converter (5V to 12V) 6-94 , "Cuk" . A high current, high efficiency switch is included on the die along with all oscillator, control
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MIC1171 MIC1172 lt 1172 IT 1172 flyback 1224 8 4-lead to-3 MIC1170 MIC1170/1/2 IC1170/1/2

Ferroxcube 3C8

Abstract: AN19-16 which can be realized with the LT1070, but AN19-12 Buck Converter Figure 10a shows the basic buck , OUT = IOUT continuous mode VIN 1 - DC ) (9) The 'Cuk converter in Figure 13 is named after Slobodan 'Cuk, a professor at Cal Tech. It is like a buck-boost converter in that input and output , optimum topology version of the 'Cuk converter eliminates the disadvantage of needing two inductors by , AN19 F13 Figure 13. 'Cuk Converter VIN AN19 F14 ­ Figure 14. Flyback Converter AN19
Linear Technology
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Ferroxcube 3C8 AN19-16 Ferrite 3c8 flyback zener f41 6W Buck Topology kelvin 1102
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