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Part Manufacturer Description Datasheet BUY
ABXS002A3X41-SRZ GE Critical Power 65W Boost Converter: Non-Isolated DC-DC Module, 8Vdc –16Vdc input; 16Vdc to 34Vdc output; 65W Output power (max.) visit GE Critical Power
ABXS001A4X41-SRZ GE Critical Power 65W Boost Converter: Non-Isolated DC-DC Module, 8Vdc –16Vdc input; 32Vdc to 54Vdc output; 65W Output power (max.) visit GE Critical Power
FNW700R GE Critical Power Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier Module; Input Range: 48V (36V-75V); Vout: 28V; Iout: 25A; Efficiency: 0.9 visit GE Critical Power
FNW500R GE Critical Power Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier Module; Input Range: 48V (36V-75V); Vout: 28V; Iout: 18A; Efficiency: 0.91; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier Module; Input Range: 48V (36V-75V); Vout: 28V; Iout: 25A; Efficiency: 0.9 visit GE Critical Power
JRCW016A0R GE Critical Power Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 28V; Iout: 16A; Efficiency: 0.94; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 48V; Iout: 9.4A; Efficiency: 0.94; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 28V; Iout: 18A; Efficiency: 0.91; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 28V; Iout: 25A; Efficiency: 0.9 visit GE Critical Power
JRCW450R GE Critical Power Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 32V; Iout: 14A; Efficiency: 0.94; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 28V; Iout: 16A; Efficiency: 0.94; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 48V; Iout: 9.4A; Efficiency: 0.94; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 28V; Iout: 18A; Efficiency: 0.91; : Orca series, Isolated DC-DC fully regulated, board-mounted power amplifier modules; Input Range: 48V (36V-75V); Vout: 28V; Iout: 25A; Efficiency: 0.9 visit GE Critical Power

tl494 PWM dc to dc boost regulator

Catalog Datasheet MFG & Type PDF Document Tags

12v 10A tl494

Abstract: tl494 PWM dc to dc boost regulator Start Package DC/DC Adj 1.5 3 to 40 0.1 - 100 - External - X DIP-8, SO-8 MC33063A DC/DC Adj 1.5 3 to 40 0.1 - 100 - External - X DIP-8, SO , ML4818 Type Switching Controller ML4823 High Frequency Power Supply Controller TL494 DC , Input (V) DC/DC Conversion ICs (Application Specific Switching Regulators) Linear Regulator , FAN4803-2 67 Average Current Boost Single-Ended PWM Output Current A pk Start-up
Fairchild Semiconductor
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KA3525A KA3846 12v 10A tl494 tl494 PWM dc to dc boost regulator uc3843 12v 5a supply design tl494 boost uc3843 boost KA3525 KA3511BS SDIP-24 KA3524 DIP-16 KA3842B

tl494 step-up converter

Abstract: Buck-boost TL494 Dropout (LDO) Regulators High-Power Regulators DC/DC Converters PWM Controllers Reference Regulators , Basic Switching Regulator Architecture Buck (Step-Down) Boost (Step-Up) Buck-Boost (Inverter , 3-9 Figure 3-9 Voltage Mode PWM Control The control technique of the PWM regulator is provided by , ERROR AMP1 PWM COMP2 + ERROR AMP2 1.0V Features REF TO INTERNAL CIRCUITRY VCC , ) Two Complete PWM Control Circuits Outputs Drive MOSFETs Directly Oscillator Frequency . 50 kHz to
Texas Instruments
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tl494 step-up converter Buck-boost TL494 tl494 flyback tl494 PWM flyback forward converter tl494 Buck converter with tl494 TPS71 TPS7148 TPS7133 TPS7150 TL1454

TL494 push-pull DC-dc converter

Abstract: mosfet triggering circuit USING TL494 input voltage range from 7 V to 40 V. For input voltages less than 7 V, the regulator will saturate , of the PWM comparator (0.5 V to 3.5 V). This is important for overall circuit stability. The , output-control input must be connected to the internal 5-V reference regulator. Under this condition, each of the , boost is needed for the amplifier to provide the design objective of 60° phase margin at the 20 , Noninverting Input FEEDBACK 2 IN- TO 5-V Converter Output IN + 14 REF Error Amplifier No. 1 PWM Comp
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TL598 TL494 push-pull DC-dc converter mosfet triggering circuit USING TL494 48V IN 12V OUT tl494 tl598 application TL494 TRANSFORMER DESIGN NOTES TL494 practical project circuit CA-198 SCA-209

tl494 buck converter

Abstract: tl594 Boost MOSFET Enhanced Features to Replace th General G l Market M k t of f UC384X the Enhanced Voltage­Mode PWM , CS51227 DC/DC Converter to have Simple Solution with Feedforward Control Function in a Small SO­8 Package , Switch This monolithic high voltage switching regulator is specifically designed to operate from a , Voltage & Current Regulation MC33341 NCP1500 PWM Buck Controller Li­ion CS5361 3­Cell Battery Pack , Switching Regulators (with On­Board Power Switch) for Non­Isolated Applications Buck Regulators Boost
ON Semiconductor
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MC33033 tl494 buck converter tl594 Boost MOSFET mc34167t TL494 PWM motor tl494 master slave MDC3205 NCP345 MC33349 NCP800 MC33340 MC33342 MC33351A

design smps 500 watt TL494

Abstract: 600 watt uc3844 smps schematic powered, requires converting off­line 115 Vac or 230 Vac power to some dc voltage for powering the , (Vdrop Iload) causes the linear regulator to only be 30 to 50 percent efficient. That means that for , ://scgtomorrow.motorola.com SMPSRM Common Topologies (continued) Table 1. Comparison of the PWM Switching Regulator , ISW 0 ID TIME Figure 6. The Boost Regulator Topology VL 0 Q CONTROL Vin Vin , I CLARGE FROM WALL SOCKET DC OUTPUT VOLTAGE CSMALL TO POWER SUPPLY POWER NOT
Motorola
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design smps 500 watt TL494 600 watt uc3844 smps schematic UC3842 smps design with TL431 250 watt uc3844 smps schematic MOSFET HALF BRIDGE SMPS AC TO DC USING TL494 p6n60e

TL494 car charger schematic diagram

Abstract: tl494 buck dc/dc converter management IC equipped with 3ch DC/DC 4ch Buck B/B Boost Inv System part VIN=2.7V to 5.5V 1ch buck , Power supply voltage range : 2.7V to 5.5V Boost DC/DC Buck DC/DC 3.3V Power supply voltage , MB39C018 Pin name Buck DC/DC 1.213 1.5 1.8 to 3.3 Vs Boost DC/DC 1.146 0.9 , Application Fujitsu's Power Management ICs select from Application, Category 3 to 6 IC Lineup of DC/DC Converter 7 Lineup from Category General-purpose DC/DC Converter 8 to 12 DC/DC
Fujitsu
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TL494 car charger schematic diagram tl494 buck dc/dc converter mb39a118 car power inverter TL494 MB39A129 converter dc-dc 24v to 12v tl494

tl494 with lm324 and mosfet power inverter

Abstract: tl494 fluorescent lamp driver Range ­40_C to +150_C 50 ns Shutdown Propagation Delay 1 A FET Driver Enhanced Voltage­Mode PWM , Driving Capability Thermal Shutdown DC/DC Converter to have Simple Solution with Feedforward Control , Output ­40_C to +85_C Operating Temperature Range Auxiliary Drive for Output Highly Integrated PWM , Compact Sub 50 W Isolated DC/DC Flyback PWM: Pulse Width Modulation PFM: Pulse Frequency Modulation , Active On­Chip 450 V FET · PWM, Fixed Frequency Adjustable up to 300 kHz DIP­16 SO
ON Semiconductor
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tl494 with lm324 and mosfet power inverter tl494 fluorescent lamp driver TL494 with fluorescent lamp driver UC3842 note buck converter non isolated lm324 inverter sensing circuit UAA2016 application SGD504/D

converter dc-dc 24v to 12v tl494

Abstract: UCC2802-Q1 Instruments. From a simple low-dropout regulator to a complete plug-in module, TI has the solution. This , 3.3Vout 26W 18 to 60V-Input Isolated DC/DC Converter 3.3V, 5A 20W Isolated DC-DC Converter 3.3V 10W 24V , Converter 5Vout 15W 24V-Input Isolated DC/DC Converter 5Vout 30W 18 to 60V-Input Isolated DC/DC Converter , -Input Isolated DC/DC Converter 5.0V 20W 24V-Input Isolated DC-DC Converter 5Vout 30W 18V to 60V Input Isolated , 24V-Input Isolated DC/DC Converter 12Vout 30W 18 to 60V-Input Isolated DC/DC Converter 12Vout 15W
Texas Instruments
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UCC2802-Q1 uc3846 push-pull DC-dc converter 48 VOLT 20AMP battery charger UC2854 uc2843 motor control uc3843 step down TPS3307-18 TPS3307-18-EP TPS3307-25 TPS3307-33 TPS3510 TPS3511

tic 1260 scr texas

Abstract: sine wave inverter tl494 circuit diagram regulator will often be used as a driver to a boost transistor. This complicates the selection and design , to or a multiple of Vref- The regulator will tend to keep V o constant by sensing any changes in V o and trying to return it to its original value. Therefore, the ideal voltage regulator could be , unity. 2. Amplifier Power Supply Sensitivity Changes in regulator output voltage due to power supply , ) equal to unity is the only viable way of improving total regulator performance, especially in reducing
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tic 1260 scr texas sine wave inverter tl494 circuit diagram PIN DETAILS OF SCR TY 6004 tl494 lm324 dc to ac inverters SCR TY 6004 how the TL494 regulate

Acid Battery charger 48 volt circuit tl494

Abstract: uc3845 lead acid battery charger management needs from Texas Instruments. From a simple low-dropout regulator to a complete plug-in module , 6.0-V Input Voltage Range Adjustable Output Voltage from 0.7 V to VIN 1-MHz Fixed-Frequency PWM , 1.8V 5A 24V-Input Isolated DC/DC Converter 1.8Vout 8A 18V to 60V Input Isolated DC/DC Converter 2.5V , -Input Isolated DC/DC Converter 3.3Vout 26W 18 to 60V-Input Isolated DC/DC Converter 3.3V, 5A 20W Isolated DC/DC , 26W 18V to 60V Input Isolated DC/DC Converter 5Vout 15W 24V-Input Isolated DC/DC Converter 5Vout 30W
Texas Instruments
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Acid Battery charger 48 volt circuit tl494 uc3845 lead acid battery charger UC3524 SYNC BUCK uc3842 unitrode 100 watt 24v input 5v output regulator 48v 2.5a charger using uc3842 TMS320 TMS320C24 TMS320C54 TMS320C5 TMS320C6000 TMS320C62

UC3842 smps design with TL431

Abstract: MC34063 Boost MOSFET , requires converting off-line 115 Vac or 230 Vac power to some dc voltage for powering the electronics. The , linear regulator to be used in higher power applications. Designing with a linear regulator is simple , then finally filtered back to DC at its output. Switching power supplies are much more efficient , require both types to be used. For example, a switching regulator may provide the initial regulation , This headroom loss causes the linear regulator to only be 35 to 65 percent efficient. For example, if
ON Semiconductor
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MC34063 Boost MOSFET mc34063 step down with mosfet computer schematic power supply circuit diagram circuit diagram of mosfet based smps power supply smps with uc3842 and tl431 mc34063 step up with mosfet

tl494 schematics

Abstract: tl494 PWM dc to dc step down 5v switching regulator controllers each designed to drive a pair of external N-channel MOSFET devices in a , the first controller's error amplifier and the input to the PWM comparator. An RC network is used at , regulator controller. It is designed to be used in a synchronous switching architecture with two external , INFORMATION 2-Step Conversion "2-step" architectures use a primary regulator to convert the input power , regulator taking a single step from a high input voltage to a 1.xV or 2.xV output must run at a very narrow
Linear Technology
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tl494 schematics tl494 PWM dc to dc step down 5v TL494 step up converter TL494 step down TL494 step up tl494 buck converter dc-dc LTC1702 0530T T510X477M006AS FDS6670A LQT12535C1ROM12 LTC1530

TL494 step up

Abstract: schematic diagram 3v to 5v dc buck boost convert switching regulator controllers each designed to drive a pair of external N-channel MOSFET devices in a , the first controller's error amplifier and the input to the PWM comparator. An RC network is used at , INFORMATION 2-Step Conversion "2-step" architectures use a primary regulator to convert the input power , regulator taking a single step from a high input voltage to a 1.xV or 2.xV output must run at a very narrow , core regulator is right there next to the hot CPU, aggravating thermal management. In a 2
Linear Technology
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schematic diagram 3v to 5v dc buck boost convert TL494 APP. NOTES Analyzing, Measuring, and Stabilizing Feedback Control Loops in Switching Regulators and Converters application irfz44 Si9402 dc-dc buck converter tl494 mosfet driver LTC1625 LTC1628 LTC1735 LTC1735-1

tl494 half bridge

Abstract: full bridge pwm controller sg3526 MC33267T, TV TJ = ­40° to +105°C, Case 314D, 314B The MC33267 is a positive fixed 5.0 V regulator that , Regulator MC34268D, DT TJ = 0° to +125°C, Case 751, 369A · · · · · · · · The MC34268 is a , regulation, while keeping power losses to a minimum. The regulator consists of a 1.0 V dropout composite PNP , Regulator Control Circuits and are designed to drive many of the standard switching topologies. The , switching regulators contain all the active functions required to implement standard dc to dc dc­to­dc
Motorola
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tl494 half bridge full bridge pwm controller sg3526 MC34262 flyback led design TL494 full bridge DC MOTOR SPEED CONTROL USING UC3844 forward converter uc3844

PWM generator based TL494

Abstract: 50W tl494 led driver , on-chip, independent switching regulator controllers. Each is designed to drive a pair of external , connected directly to the output of the first controller's error amplifier and the input to the PWM , ), voltage mode feedback switching regulator controller. It is designed to be used in a synchronous , same time, causing current pulses of up to twice the amplitude of those for one regulator to be drawn , immediately to VIN and the inductor current begins to increase. When the PWM pulse finishes, QT turns off
Linear Technology
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PWM generator based TL494 50W tl494 led driver 230V ac to 36V dc converter circuit fa08a TL494 boost converter application note tl494 soft start LTC1873 V/100 LTC1703 LTC1706-19 LTC1706-81 LTC1709

PWM generator based TL494

Abstract: 5v 10A tl494 switching regulator controllers. Each is designed to drive a pair of external N-channel MOSFETs in a voltage , on side 1 that conforms to the Intel Desktop VID specification. A constant-frequency, true PWM design , output of the first controller's error amplifier and the input to the PWM comparator. An RC network is , feedback switching regulator controller. It is designed to be used in a synchronous switching architecture , at the same time, causing current pulses of up to twice the amplitude of those for one regulator to
Linear Technology
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5v 10A tl494 variable frequency drive fault codes tl494 "Current Mode Controller" MBR0530T

"Venable, H. Dean" k-factor

Abstract: tl494 PWM dc to dc boost regulator output of the first controller's error amplifier and the input to the PWM comparator. An RC network is , on at the same time, causing current pulses of up to twice the amplitude of those for one regulator , almost immediately to Vin and the inductor current begins to increase. When the PWM pulse finishes , PWM generator. Unlike many regulators that use a resistor divider connected to a high impedance , discontinuous mode allows it to be paralleled with another regulator without fighting. A typical system might
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stability analysis made simple venable converter dc-dc tl494 tl494 buck SG1524 application tl494 stabilize LTC1753 LTC1929 18731LW

forward converter tl494

Abstract: tl494 battery charger ° to +125°C * TJ = ­40° to +125°C # TA = 0° to +70°C Special Regulators Voltage Regulator , /Supervisory (continued) Microprocessor Voltage Regulator and Supervisory Circuit MC34160P, DW TA = 0° to , to +105°C, Case 314D, 314B The MC33267 is a positive fixed 5.0 V regulator that is specifically , regulator has reached its nominal level and upon timeout, the reset output is released. Due to the low , 0.5 150 D/751, DT SCSI­2 Active Terminator Regulator MC34268D, DT TJ = 0° to +125°C, Case
Motorola
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tl494 battery charger 14n50e half bridge TL494 uc3843a a uc3843b analog devices 751n tl494 led driver

converter dc-dc 24v to 12v tl494

Abstract: MB39A134/MB39A132A transition to DC/DC Possible to select the automatic PFM/PWM selection mode or PWM-fixed mode PAF frequency , especially when usage is expected to spread widely. Lineup from Application 3 to 5 IC Lineup of DC , development. General-purpose DC/DC Converter Fujitsu Semiconductor strives to contribute to green , transient response and lower output voltage. 7 to 10 13 ・ DC/DC Converter with Switching FET DC/DC , Noteworthy Non-linear Hysteresis Control Method As a DC/DC Converter Control Method 19 to 20 Control
Fujitsu
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MB39A134/MB39A132A LQFP48 TSSOP28 TSSOP24 QFN32 WL-CSP49 SON10

ccfl inverter schematic tl494

Abstract: uc3854 Application Note kw supplies, buck, boost, flyback and forward. · 10-W to 350-W off-line and DC/DC power supplies , Isolated DC/DC Solutions AC Line: 85 to 265-V AC Rectified AC 385 to 400-V Boosted DC Output , PWM UCC38500-3 UCC28510-7 Isolated DC/DC Converters Load Share Load Share UCC39002 , Voltage (VIN) - Plug-in power solutions are designed to work from industry-standard DC bus voltages , PT6670 3.3 V 3.3-V Input 20-W Boost ISR PT6880 24 V 5-A 18- to 36-V Input Adjustable ISR PT7670
Texas Instruments
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ccfl inverter schematic tl494 uc3854 Application Note kw UC3843 application note buck ccfl inverter tl494 12v 5a charger using uc3842 tl494 application notes
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