If you like Findchips… You will love Findchips PRO. Try it Now.

CRCW0603100RFKEA

Fixed Resistor, Metal Glaze/thick Film, 0.1W, 100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT

Choose Manufacturer
Price Range $0.0060 / $0.1260

Part Details

CAD Models Information

Model Data Powered by Samacsys
  • Part Symbol
  • Footprint
  • 3D Model
Available Download Formats
Altium Eagle OrCad PADS KiCad

Sign in to download this CAD model.

Register or Sign In

By downloading CAD models from Samacsys, you agree to our Terms & Conditions and Privacy Policy

Distributors with Stock

Part Number Description Manufacturer Compare
CRCW0603100RFKBA Resistors RESISTOR, METAL GLAZE/THICK FILM, 0.1W, 1%, 100ppm, 100ohm, SURFACE MOUNT, 0603, CHIP Vishay Intertechnologies CRCW0603100RFKEA vs CRCW0603100RFKBA
D1106038B1000FP0 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW0603100RFKEA vs D1106038B1000FP0
CR0603TT100X100R+/-1% Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, LEAD FREE Precision Resistive Products Inc CRCW0603100RFKEA vs CR0603TT100X100R+/-1%
D1106038B1000FP5 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW0603100RFKEA vs D1106038B1000FP5
CR0603T100X100R+/-1% Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP Precision Resistive Products Inc CRCW0603100RFKEA vs CR0603T100X100R+/-1%
D1106038B1000FB5 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW0603100RFKEA vs D1106038B1000FB5

Global Popularity

Popularity in Resistors

Popularity in Fixed Resistors

Popularity by Region

Very High

Medium

Good

Low

  • 1. United States of America
    100
  • 2. India
    95
  • 3. China
    88
  • 4. Canada
    77
  • 5. Germany
    75
  • 6. Brazil
    74
  • 7. Spain
    71
  • 8. Malaysia
    70
  • 9. Slovakia
    69
  • 10. Russia
    68

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available

Datasheets & Reference Designs

CRCW0603100RFKEA

Vishay Dale

Also for: CRCW251297R6FKEG, CRCW06033R90FKEA, CRCW08053M09FKEA and 94 others.
  • CRCW201038R3FKEF,
  • CRCW2010392RFKEF,
  • CRCW0402976KFKED,
  • CRCW08051R00JNEAC,
  • CRCW201047R5FKEF,
  • CRCW020122R6FNED,
  • CRCW120666R5FKEA,
  • CRCW0201127KFNED,
  • CRCW06036K04FKEAC,
  • CRCW0201267RFNED,
  • CRCW02014K70FNED,
  • CRCW020112K1FNED,
  • CRCW04021M15FKED,
  • CRCW080537R4FKEAC,
  • CRCW0805221RFKEB,
  • CRCW0402360KFKED,
  • CRCW0805221RFKEA,
  • CRCW06038R06FNEA,
  • CRCW120610K7FKEA,
  • CRCW1206102KFKEA,
  • CRCW2010100KJNEFHP,
  • CRCW12102R49FKEA,
  • CRCW08051R54FKEA,
  • CRCW0805274KFKEA,
  • CRCW060348K7FKEA,
  • CRCW0805205RFKEA,
  • CRCW040224R0JNEDC,
  • CRCW060349K9FKEB,
  • CRCW060349K9FKEA,
  • CRCW020117K4FKED,
  • CRCW06035K69FKEA,
  • CRCW060349K9FKEC,
  • CRCW040230K1FKEDC,
  • CRCW040231K6FKED,
  • CRCW2010453RFKEF,
  • CRCW0402453RFKEDHP,
  • CRCW06031R20FKEAHP,
  • CRCW2010226RFKEF,
  • CRCW251218R2FKEGHP,
  • CRCW0201210RFNED,
  • CRCW2512270RJNEG,
  • CRCW0603402KFKEAC,
  • CRCW12061M18FKEA,
  • CRCW040212R0JNEDC,
  • CRCW1206287KFKEA,
  • CRCW04021K37FKED,
  • CRCW1206287KFKEB,
  • CRCW0603127KFKEA,
  • CRCW12101R37FNEA,
  • CRCW1206680KJNEA,
  • CRCW12106R98FKEA,
  • CRCW120627R0FKEA,
  • CRCW020122R1FNED,
  • CRCW080569K8FKEAE6,
  • CRCW2512160RJNEG,
  • CRCW0805182KFKEAC,
  • CRCW080515R0FKEA,
  • CRCW040234R0FKED,
  • CRCW020115K4FKED,
  • CRCW0805147RFKEA,
  • CRCW1210182RFKEA,
  • CRCW04023K90FKED,
  • CRCW201012K1FKEF,
  • CRCW04022M37FKED,
  • CRCW0201620KFNED,
  • CRCW08053M30FKEA,
  • CRCW060328K0DKEAP,
  • CRCW0805390KJNEA,
  • CRCW060314R7FKEA,
  • CRCW0201348RFNED,
  • CRCW25128K20JNEG,
  • CRCW201053R6FKEF,
  • CRCW02011K00FKED,
  • CRCW201015R8FKEF,
  • CRCW0805100RFKEAHP,
  • CRCW0201360RFNED,
  • CRCW06036M49FKEA,
  • CRCW06036K49FKEA,
  • CRCW120644K2FKEAC,
  • CRCW020143K0JNED,
  • CRCW06031K10FKEAC,
  • CRCW040249K9FKEE,
  • CRCW08056K34FKEA,
  • CRCW040249K9FKED,
  • CRCW0201360KJNED,
  • CRCW020163K4FNED,
  • CRCW12061M20JNEA,
  • CRCW121036K0JNEA,
  • CRCW040215K0FKEDC,
  • CRCW020175K0FKED,
  • CRCW0201953RFNED,
  • CRCW060313K7DKEAP,
  • CRCW08052R40FKEAHP,
  • CRCW121066R5FKEA

Reference Designs

  • System Level Power Reference Design for A13 Automotive Wireless Charger Transmitter
    PMP10709: PMP10709 is a system optimized 50 W power designs for A13 Wireless Charger Transmitter used in automotive system. The design has various front end automotive protections such as Load dump through TVS (ISO pulse testing), Reverse Voltage (Through PFET’s body diode), Battery Disconnect Switch with OVP protection (PFET). PMP10709 is primarily four Switch synchronous Buck – Boost design, which supports wide Input voltage range (7V-20V) and delivers any output from 1V-10V based on DAC output of the A13 Wireless Charger. The DAC output changes from 1V to 3.3V which in turn changes the output voltage from 10V to 1V (on the fly) as needed by the algorithm of A13 wireless charger’s transmitter. This design utilizes best in Class Synchronous four Switch Buck Boost Controller LM5175. The design accepts an input voltage of 7Vin to 20Vin and provides the output of 1V- 10V@5 A. Output current never exceeds 5A to protect the charging Coil. The average current regulation loop of the IC at the output is used for this protection.
  • Low Power Flyback with Ultra Wide Input Voltage Range Reference Design
    PMP10098: This reference design has an ultra-wide input voltage range from 19-375V DC / 19-265V AC, and provides an isolated output of 12.0V/40mA. A linear regulator provides a second output of 5.0V/15mA.
  • 12Vin to 67Vin; 54Vout @ 4.8A; Dual-Phase Synchronous Boost Converter
    PMP7979: A dual-phase synchronous boost converter that accepts an input voltage of 12Vin to 67Vin and provides an output of 54Vout capable of supplying 4.8A. Whenever the input voltage is at or above the 54Vout threshold, the output voltage will follow the input voltage, minus a small voltage drop.
  • Automotive Range Boost Converter Drives Two Strings of LEDs Reference Design
    PMP8948: This wide input voltage range boost operates from an input of 9V - 32V and regulates current in two strings of 13 LEDs. Additionally, a second control loop monitors and regulates the input current during drop outs or faults. This low cost design operates at greater than 94% efficiency.
  • 220W Synchronous 4 Switch Buck-Boost Converter
    PMP9490: PMP9490 is a 225W four Switch Buck –Boost Design utilizing best in Class Synchronous Buck Boost Converter LM5175. The design accepts an input voltage of 9.5Vin to 20Vin and provides the outputs of 15V@15 A for Constant Voltage Output Application such as Voltage stabilizer or as Power amplifier SMPS, 10.8V to 15V@12.5A for CC/CV Battery Charger application, and 12.5 A for Constant Current LED Drive application. It features an inexpensive and more efficient solution to using discrete Buck and boost converters. The average current regulation loop of the IC at the output is used for Battery Charging profiling with no external circuit being involved.
  • 1-kW/36-V Power Stage for Brushless Motor in Battery Powered Garden and Power Tools Reference Design
    TIDA-00285: This reference design is a power stage for brushless motors in battery-powered garden and power tools rated up to 1 kW. The power stage operates from a 10-cell lithium-ion battery with a voltage range from 36 to 42 V. The design uses CSD18540Q5B NexFETs featuring a very low drain-to-source resistance (RDS_ON ) of 1.8 mΩ in a SON5x6 SMD package, which results in a very small form factor of 57 × 59 mm. The three-phase gate-driver DRV8303 is used to drive the three-phase MOSFET bridge, which can operate from 6 to 60 V and support programmable gate current with maximum setting of 2.3-A sink / 1.7-A source. The power stage can be configured for a single-shunt or three-shunt current sensing. The design supports sensorless control for brushless DC (BLDC) and permanent magnet synchronous motors (PMSM) using trapezoidal control or field oriented control (FOC). The C2000™ Piccolo™ LaunchPad™ is used with the power stage to implement InstaSPIN™-FOC using the motor current and voltage feedback. The corresponding test report evaluates the thermal performance of the board and overcurrent protection features such as cycle-by-cycle control and latch control of the DRV8303.
  • Public Announcement Audio Reference Design utilizing best in class Boost Controller
    PMP10710: PMP10710 is a 200W design for public announcement audio system which can be used in 100W +100W Stereo or 200W Woofer Applications. The design is broadly divided into four main stages:
  • Dual Phase Synchronous Buck
    PMP7884: This is a dual-phase, synchronous buck converter with an input voltage range of 30.6V-to-37.4Vin and an output of 9Vout @ 15A.
  • 36V, 32A Power Stage for BLDC Motor with Cycle by Cycle Stall Current Limiter
    TIDA-00436: This reference design is a power stage for brushless motors in battery-powered garden and power tools rated up to 1 kW, operating from a 10-cell lithium-ion battery with a voltage range from 36 to 42 V. The design uses 60V, N-channel NexFETsTM featuring a very low drain-to-source resistance (RDS_ON ) of 1.8 mΩ in a SON5x6 SMD package, which results in a very small PCB form factor of 57 × 59 mm. The three-phase gate-driver is used to drive a three-phase MOSFET bridge, which can operate from 6 to 60 V and supports programmable gate current with maximum setting of 2.3-A sink / 1.7-A source. The C2000™ Piccolo™ LaunchPad™ LAUNCHXL-F28027 is used along with this power stage and 120 degree trapezoidal control of BLDC motor with Hall sensors is implemented in software. The cycle by cycle current limit feature in the gate-driver protects the board from excessive current that is caused during motor stalls, by limiting the maximum current allowed in the power stage to a safe level.
  • Highly Efficient and Compact 100W Automotive Amplifier Reference Design with Boost Converter
    PMP9484: PMP9484 is a 100W highly efficient and compact automotive amplifier reference design which can be used in 50W +50W stereo or 100W woofer applications. The design is broadly divided into three main stages: 1.) Highly efficient single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 7.5Vin to 20Vin (12Vin nominal) and provides an output of 24V capable of supplying 5A of continuous current to the load. The peak efficiency acheived is 98 percent. 2.) 50W+ 50W stereo audio amplifier with TPA3116D2 Class D device 3.) Very low cost stereo input to woofer bass input conversion
  • 300W High-Efficiency Single-Phase Synchronous Buck Converter Reference Design
    PMP10514: PMP10514 is a High-Efficiency Single-Phase Synchronous Buck Converter using the LM25117 controller IC. The design accepts an input voltage of 30.4Vin to 33.6Vin (32Vin Nominal) and provides an output of 20 Vout capable of supplying 15A of continuous current to the load.
  • High Efficiency 400W AC/DC Power Supply Reference Design - PMP11064.1 - TI Tool Folder
    PMP11064: PMP11064 is a high-efficiency AC/DC power supply reference design with universal AC input and 20V/20A output. Interleaved transition mode PFC and LLC series resonant converter is applied for 20V/20A main power. A PSR Flyback with MOSFET integrated controller is applied as the auxiliary supply. 91.2% efficiency is achieved at low line and full load. 93.1% efficiency is achieved at high line and full load.
  • 8V @ 7A Synchronous Boost Reference Design with LM5121
    PMP10092: The PMP10092 reference design is a synchronous boost converter that can operate over a 3V to 8V input range and produce an 8V output at 7A load. The circuit has an output disconnection switch for safety. Due to the synchronous design a high efficiency of 97% can be achieved.
  • 24V Input 700mA Output Buck Regulator LED Driver - Reference Design
    PMP10596: The PMP10596 reference design is an LED driver based on SIMPLE SWITCHER® LM46002 buck regulator. The driver board takes 24V +/-25% input voltage and supplies700mA output current to drive up to 4 LEDs in series. The LM46002 is a 60V, 2A synchronous buck regulator with integrated FETs, and in this design it is configured as a high efficiency constant current converter. This is accomplished by using the voltage across a current sense resistor as the feedback signal. To reduce the sense resistor power loss, a 2V voltage reference is used to bias the FB pin via a resistor network, and, as a result, the equivalent feedback reference voltage becomes 0.35V, lower than the 1V feedback of the LM46002. The reference board employs 3 dimming schemes, which allows the output current to be adjusted via the potentiometer, an analog voltage or a PWM signal. It also offers easy and flexible control to dim the LED brightness and adds output overvoltage protection from LED open-circuit failure.
  • 432W High-Efficiency Single-Phase Synchronous Buck Converter Reference Design
    PMP10509: PMP10509 is a High-Efficiency Single-Phase Synchronous Buck Converter using the LM25117 controller IC. The design accepts an input voltage of 30.4Vin to 33.6Vin (32Vin Nominal) and provides an output of 24Vout capable of supplying 18A of continuous current to the load.
  • Sepic with Adjustable Output Voltage and Input Current Limit Reference Design
    PMP10151: This reference design provides an adjustable output voltage between 20V and 25V and an input voltage range of 10V to 14V. It also provides the functionality to limit the input current of the converter between 70mA and 135mA. The adjustable values are set by a VID interface which is either discrete or integrated.
  • Reverse Power Supply - Eight Inputs One Output Reference Design
    PMP10099: This reference design is a power solution for reverse-powered telecom applications. Up to eight isolated inputs provide one common output; the load is shared equally between all active converters.
  • Power Solution for an Automotive Voltage Quality Module
    PMP7916: The PMP7916 is a boost converter that can be used by a voltage quality module in a start-stop car to condition the battery voltage seen by electronic loads. For such a car to utilize existing electronic assemblies, input voltage to the assemblies is not allowed to dip to 6V during warm cranking or else they will momentarily shut down. The PMP7916 keeps the input voltage above 10.5V during cranking, and bypasses the battery voltage when it goes above 12V. When boosting a low battery voltage during cranking, the PMP7916 can support a 500W load for 5 seconds.
  • 12V/400W Dual-Phase 1/4 Brick Buck Converter Reference Design Delivers 97% Peak Efficiency
    PMP7819: This 400W ¼ brick DC/DC converter leverages the LM5119’s dual-phase capability to drive a 33A load in an industry-standard ¼ brick module footprint. This compact design delivers 97% peak efficiency while maintaining balanced current through each phase, which reduces thermal stress and enables lower system cost by eliminating the need to over-design the surrounding power components.
  • 6V to 8.4V input, 12Vout @ 84A Peak Pulse Multi-Phase Boost Converter Reference Design
    PMP7921: PMP7921 is a multi-phase boost converter. The design accepts an input voltage of 7V to 8V, and outputs 12V, capable of providing 84A peak current for 5msec. The design outputs 1000W of peak power, and peak efficiency reaches 96%.
  • 18Vin to 20Vin; 53Vout to 84Vout @ 1A; Single-Phase Synchronous Boost Converter
    PMP7950: A single-phase synchronous boost converter that accepts an input voltage of 10.8Vin to 13.2Vin and provides an output of 53Vout to 84Vout capable of delivering 1A.
  • Getting Power from Earphone Jack Reference Design
    PMP9777: This design is for powering a small system attached to a smartphone audio jack. The reference design includes a charge pump and a boost converter. The charge pump is used to filter AC input into a DC voltage and the ultra-low quiescent current boost converter TPS610981 is used to generate a stable 3.3V.
  • 24VDC 10A eFuse and Protection Circuit for Programmable Logic Controllers (PLC)
    TIDA-00233: This sub system design shows an IC based implementation of over voltage, over current, reverse current, reverse polarity and miss wire protection which is more accurate, lower power and faster compared to fuses, PTCs and diodes. Programmable Logic Controller (PLC) I/O modules connected to a field power supply benefit from protection on the 24V field input connectors as power supply faults or miss wiring might damage or cause the module to not operate correctly.
  • 51V@1.25A Automotive Range Sync Boost converter
    PMP8532: This wide input voltage range boost design operates from an input of 6.5V to 36V and provides two outputs of 51V@1.25A.
  • 14Vin to 15.5Vin, 24Vout @ 8A Synchronous Boost Converter Reference Design
    PMP9386: PMP9385 is a synchronous dual-phase boost converter accepts an input voltage of 14V to 15.5V, and outputs 24V, capable of providing 8A of current to the load.
  • 8 Channel 1A/Ch High Side Driver for Programmable Logic Controller (PLC) Reference Design
    TIDA-00183: The TIDA-00183 shows a high density, high power digital output circuitry with full protection and isolation for programmable logic controllers in factory automation and control environment. The BeagleBone-Black cape formfactor allows easy evaluation of the used driver chips and the interoperation with an MSP430 MCU for innovative protection schemes.
  • 192W Dual-Phase Synchronous Boost Converter Reference Design
    PMP9403: PMP9403 is a high-efficiency dual-phase synchronous boost converter using the LM5122 controller ICs. The design accepts an input voltage of 9Vin to 15Vin (12Vin Nominal) and provides an output of 48Vout capable of supplying 4A of continuous current to the load.
  • High-Efficiency Dual-Phase Synch Boost Conv for Automotive Voltage Stabilizing App Reference Design
    PMP10502: PMP10502 is a synchoronous dual phase boost converter accepting an input voltage of 6Vin to 8Vin and providing an output of 12Vout capable of supplying 17A continuous current (34A peak).
  • Primary-Side Regulated Flyback with 85 to 265VAC Input (12V @ 1A) Reference Design
    PMP8780: The PMP8780 reference design uses the UCC28700 primary-side regulated flyback controller to generate a 12V/1A output from a univeral AC input. The valley switching of the UCC28700 allows this low-cost design to achieve an average efficiency over 83%; no load losses are less than 40mW.
  • Analog Front End for Motor Electronic Overload Relays with Enhanced Current Range
    TIDA-00191: This reference design is the analog front end (AFE) for an electronic overload relay, used for monitoring and protecting motors from overcurrent or undercurrent events. It is an ideal tool for developers creating overload relays for sensitive AC motors in industrial applications. This programmable gain amplifier (PGA) based analog front end is intended to be an easy evaluation platform for an accurate, industry-leading 10:1 full load ampere (FLA) range and is repeatable over a -10 to +70°C temperature range.
  • Dual Phase Synchronous Buck (30Vout@10A)
    PMP7885: This is a dual-phase, synchronous buck converter with an input voltage range of 30.6V-to-37.4Vin and providing an output of 30Vout @ 10A.
  • 200W Natural Interleaving Transition-Mode PFC Flyback LED Driver Reference Design
    PMP10116: This design uses the UCC28063A transition-mode pfc controller to drive LEDs up to 700mA current from an AC input. This flyback pfc topology provides isolation and uses quasi-resonant mode control. It supports analog dimming on the output side.
  • Non-Isolated Synchronous Buck
    PMP7882: This is a synchronous buck converter with an input voltage range of 10.8V-to-13.2Vin and provinding an output of 1.2Vout @ 3A.
  • Offline AC/DC 75W 2-Switch Quasi-Resonant Flyback Converter Reference Design
    PMP10035: This design uses the LM5023 flyback controller for the 2-Switch Quasi-Resonant Flyback Topology. It generates an isolated output (19.5V@3.84A) from an universal input (85VAC - 265VAC).
  • SEPIC Converter Regulates 0.5A in LED String Reference Design
    PMP8943: This wide input voltage range SEPIC operates from an input of 6V - 36V and regulates the current in a string of 8 LEDs to 0.5A. An external PWM input allows dimming over a wide duty cycle.
  • 9 to 42Vin 5V/12V/20V @ 5A Synchronous 4-Switch Buck-Boost Converter Reference Design - PMP10698.3 - TI Tool Folder
    PMP10698: PMP10698 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 12V or 20V at 5A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 6.25A.
  • Zero drift PGA based Analog Front End Design for Circuit Breakers (ACB/MCCB-ETU)
    TIDA-00130: This reference design is intended for use in molded case circuit breakers (MCCB) electronic trip units. The programmable gain amplifier based design acts as the current monitoring for over-current earth fault relays. Utilizing a zero drift programmable amplifier, this design provides a ±10 % pick-up (A) accuracy and time delay (s) accuracy of 0 to -20%. Additionally, this solution was designed to handle harsh environment conditions by including features such as ambient insensitivity from -10 to 70 ⁰C and high electromagnetic immunity. Finally the analog front end of this design interfaces seemlessly with the TI MSP430 MCU for quicker evaluation and faster time-to-market.
  • Multi-Phase Boost (Step-Up) Converter
    PMP7850: PMP7850 is a Multiphase Boost (Step-Up) reference design with an input of 6 Volts to 8 volts while generating an output of 12 volts out at 17 Amps continuous and a max of 34 amps. This design is used in industrial applications.
  • 9 to 42Vin 5V/9V/12V @ 3A Synchronous 4-Switch Buck-Boost Converter Reference Design
    PMP10624.3: PMP10624 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 9V or 12V at 3A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 4A.
  • Universal Input 45W AC-DC LED Driver Reference Design
    PMP6011: This design provides the ability to drive multiple LED strings with current matching from an AC source from 90VAC to 300VAC. The circuit is power factor corrected and provides high efficiency and good line regulation.
  • 150W Boost Converter with LM5121 Reference Design
    PMP8673: The PMP8673 reference design is a synchronous boost converter optimized for high efficiency while maintaining a small form factor. This reference design has a voltage input range of 34.5-37.5V (35V nominal) and provides an output voltage of 55.5V. The synchronous boost topology enables efficiencies greater than 97% in the 2-3A load range. The switching frequency is set for 400Khz allowing the use of smaller external components and a total board area of less than 60 square centimeters.
  • 9 to 42Vin 5V/12V/20V @ 5A Synchronous 4-Switch Buck-Boost Converter Reference Design
    PMP10698.3: PMP10698 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 12V or 20V at 5A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 6.25A.
  • 24V 65W Nominal 130W Surge Offline Flyback Power Supply for Industrial Rails Reference Design
    PMP9643: 24V Output, Constant Voltage / Constant Current, 65W Flyback power supply with 130W surge capability. Primary side regulation eliminates feedback opto-coupler and provides 1% regulation down to no-load. Average efficiency of > 89% and no load power of < 70mW are achieved. Voltage input range is 85VAC-265VAC Input.
  • Complete PMBus Power System for Enterprise Ethernet Switches Reference Design
    PMP10896: Complete PMBus power system for 3 ASIC/FPGA cores, DDR3 core memory, and auxiliary voltages found on high-performance Ethernet Switches.
  • Measurement Module for Branch Current Monitor
    TIDA-00221: This reference design is designed to measure only branch current and is created for accuracy across the majority of the rated current range while at the same time being cost efficient. This is achieved by using a highly integrated SoC device which has up to 7 channels of the 24bit Delta-Sigma ADCs available for current measurement. This solution also has several options for communication supported. such as UART, JTAG, etc. Applications include load management, sub-panels, etc.
  • 230-V, 250-W, High Efficiency BLDC Motor Drive w/DC Bus Voltage Ripple Compensation Reference Design
    TIDA-00472: The TIDA-00472 is a discrete IGBT-based three-phase inverter for driving brushless DC (BLDC) motors rated up to 250 W, for example, used in cooker hoods, using a sensor-less, trapezoidal control method. The design provides software implementation for DC bus voltage ripple compensation resulting in 30% reduction in the DC bus capacitor requirement and reduced overall BOM cost. The cycle-by-cycle overcurrent protection feature protects the power stage from large current spikes and the board can work up to 65°C ambient. This design has also been tested to pass EN55014 standards for conducted emissions, Surge and EFT.
  • 9 to 42Vin 5V/9V/12V @ 3A Synchronous 4-Switch Buck-Boost Converter Reference Design
    PMP10624.1: PMP10624 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 9V or 12V at 3A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 4A.
  • 135W Single-Phase Synchronous Boost Converter Reference Design
    PMP9431: The PMP9431 reference design is a high-efficiency single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 12Vin to 50Vin and provides an output of 54Vout capable of supplying 2.5A of current to the load.
  • Reference Design - High Efficiency Two-Phase Synchronous Buck Delivers 300W
    PMP9700: This two-phase synchronous buck operates from 24VDC and supplies an output of 15V@20A. Operation at 300KHz (per phase) delivers small size and greater than 96% efficiency.
  • Current Controlled Driver for 24-V DC Solenoid with Plunger Fault Detection Reference Design
    TIDA-00289: The TI Design TIDA-00289 proposes to integrate current control and plunger movement detection into the solenoid coil. Various applications in the field of industrial automation and material processing will benefit from up-to 70% reduced power consumption, accelerated process time, greatly simplified usage and enhanced monitoring capabilities.
  • 14V-24Vdc Input Voltage, 3-series Cell Li-Ion Battery Charger Reference Design
    PMP10921: The PMP10921 reference design uses the BQ24600 Li-Ion synchronous buck controller to charge up to three series cells. It is designed to charge the cells at 0.372A, but can charge at higher currents by changing one resistor. The board area is less than 20mm x 20mm.
  • High-Efficiency Adjustable Output Synchronous Boost Converter Reference Design
    PMP10538: PMP10538 is a Single-Phase Synchronous Boost Converter using the LM5122 controller IC. The design accepts an input voltage of 18Vin to 20Vin and provides an output of 30Vout to 54Vout, capable of supplying 1.7A of continuous current to the load or 0A to 3.4A Max. The output voltage can be adjusted between 30Vout and 54Vout by driving the Vadj. input of the Op-Amp circuit between 0V and 3V.
  • Power Solution for an Automotive Voltage Stabilizer
    PMP7919: The PMP7919 is a 2-phase synchronous boost converter that can take a minimum 5.5V input and put out 11.5V or higher at 15A. It is used in the Voltage Quality Module in a start-stop vehicle where warm cranking is not allowed to cause certain electronic loads (such as the head unit) to power cycle. When the start-stop vehicle goes through warm cranking, the lead acid battery voltage may dip to 6V (in the US) momentarily. The PMP7919 boost converter will, in this case, immediately respond to the transient so that its output voltage will stay in specifications, preventing downstream electronic loads from shutting down. When the battery voltage is higher than the boost converter's output regulation point (typically 11.5V), the synchronous boost converter will operate in bypass mode and leave the high-side FETs on 100%, saving extra bypass FETs and a control circuit that would be required if a non-synchronous boost converter were to be used.
  • Automotive Boost Converter with Reverse Battery Protection
    PMP7936: PMP7936 is a boost converter capable of 138W output power and targeted for automotive appli-cations. This design uses the LM5122 synchronous boost current-mode PWM controller. The circuit will start at a minimum input of 6.5V and has an operating input voltage range of 4.5V to 42V. The output is 13.8V at 8A continuous, 10A peak. The LM5122 incorporates bypass mode operation, so that when VIN > 13.8V, VOUT is approximately equal to VIN. Reverse battery protection is provided by the LM5050-1 high side OR-ing FET controller.
  • 4-Channel LED Spotlight Driver Reference Design
    PMP10171: The PMP10171 reference design is a boost LED driver with four outputs. It has an input voltage range of 10 .. 30V and provides 500mA at 40V maximum. A microcontroller provides an adjustable PWM signal for adjusting the brightness of the LEDs.
  • 14-Channel Active Cell Balance Battery Management Reference Design
    TIDA-00239: Active Balance chipset for use in large format Lithium-ion batteries that provides monitoring, balancing, and communications. With precise and robust active balancing, the Active Balance BMS is capable of bidirection power transfer at each cell. Each EM1401EVM can manage 6 to 14 cells (60V max) for Li-ion battery applications. The EM1401EVM modules can be stacked up to 1300V. The system provides fast cell balancing, diagnostics, and module to controller communication. Independent protection circuitry is also provided.
  • 9 to 42Vin 5V/12V/20V @ 5A Synchronous 4-Switch Buck-Boost Converter Reference Design
    PMP10698.2: PMP10698 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 12V or 20V at 5A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 6.25A.
  • Self or Dual-Powered Supply for Protection Relay, MCCBs & ACBs Ref Design
    TIDA-00229: This power supply solution for Protection Relays & MCCBs handles both the current input from a Current Transformer (CT) or input from an Auxillary (Aux) source. The "self-powered" capability comes from being able to harness the power available in the grid through the CT. The flexibility of this solution's "dual-power" input comes from the ability to also handle the Aux input - which is often a battery source.
  • 33Vin to 60Vin; 12Vout @ 30A; Dual-Phase Synchronous Buck Converter
    PMP7990: A dual-phase synchronous buck converter accepting an input voltage of 33Vin to 60Vin and providing an output of 12Vout capable of supplying 30A
  • 9 to 42Vin 5V/12V/20V @ 5A Synchronous 4-Switch Buck-Boost Converter Reference Design
    PMP10698.1: PMP10698 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 12V or 20V at 5A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 6.25A.
  • Low Power Off-line Buck Supplies a Fixed Voltage 13V@120mA from Universal Line
    PMP8550: The PMP8550 reference design uses the UCC28880 low power, low cost, off-line buck converter with integrated 700V MOSFET to generate a non-isolated 13V/120mA output from a Universal AC line input. Thanks to its hysteretic mode, no loop compensation is needed reducing BOM count to 23 components producing a single sided, double layer board size of just 38mmx32mmx22mm which can be used in numerous industrial applications such as smart meters, home automation equipment and white goods.
  • Phase Compensated 8-Ch Multiplexed Data Acquisition System for Power Automation Reference Design
    TIPD167: This TI Verified Design provides the theory, component selection, TINA-TI simulations, Verification & Measurement Performance, Altium Schematics, PCB Layout for a Phase Compensated 8-Ch Multiplexed Data Acquisition System for Power Automation. The design uses a 16-bit, 8-Channel, 500ksps SAR ADC, ADS8688 with integrated analog front-end circuit for ease of system hardware design. The design introduces the concept of phase and phase Compensation, compares the additional phase delay introduced between the input channels of a non-simultaneous sampling ADC with a simultaneous sampling ADC, and provides a optimal algorithm to compensate for the phase delay introduced in a non-simultaneous implementation. Measured results demonstrate how the phase compensation algorithm used in this design compensates for the additional phase delay introduced by a multiplexed ADC, resulting in an equivalent performing solution as compared to a simultaneous sampling ADC solution.
  • Primary Side Regulated Flyback Reference Design with 120VAC Input and 24V/4A Rated Output
    PMP10804: This reference design implements the UCC28630 PSR controller in a flyback power supply. The UCC28630 is capable of operating in both Continuous and Discontinuous Conduction Modes which enables high efficiency while reducing inductor size and cost. Safety standards such as EN60950 require that any X-capacitors in EMC filters on the AC side of the bridge rectifier quickly discharge to a safe level when AC is disconnected. Typically, this requirement is achieved by including a resistive discharge element in parallel with the X-capacitor. However, this resistance causes a continuous power dissipation that impacts the standby power performance. In order to reduce standby power and eliminate the standing loss associated with the conventional discharge resistors, the UCC28630 device incorporates active X-capacitor discharge circuitry. In this design, less than 100mW no load power comsumption and over 88% converter efficiency is achieved.
  • Triac Dimmable AC-DC LED Driver Reference Design
    PMP6013: This reference design provides a high-brightness LED driver based on the TPS92310 configured as a power factor corrected flyback regulator that is triac dimmable. It is designed to operate with an input voltage in the range of 90VAC to 135VAC with a 120VAC nominal input voltage. This design is set up for a default output current of 340mA with an output voltage range of 21V to 27V or approximately 6 to 8 LEDs depending on the forward voltage of each.
  • 360W Phase Shift Full Bridge Resonant LLC with High Side Low Side Driver Reference Design
    TIDA-00381: The power supply employs Full Bridge Resonant LLC with phase shift operating at ramp up, light load, low output voltage. This operating mode can replace PWM operating mode in LLC, which can improve efficiency signficantly in light load.
  • 270W Dual-Phase Boost Converter for Automotive Applications Reference Design
    PMP9595: This two-phase boost operates from 6V - 36Vin and supplies 18V at 15A out (inputs higher than 18V pass through to the output). Small surface mount components are realized thanks to a high switching frequency and ripple cancellation on input and output capacitors.
  • Power Solution for an Automotive Fuel Injector
    PMP7966: PMP7966 is a 4-phase boost converter rated for 52V output at 2.5A from an input voltage of 6V to 42V. This design uses LM5122 boost controllers at a switching frequency of 100 kHz each phase, resulting in 400 kHz input and output ripple. 680μF aluminum electrolytic capacitors are used at the output of each phase, providing hold-up to support large transient currents.
  • High-Efficiency Single-Phase Synchronous Boost Conv for Automotive Infotainment Reference Design
    PMP10503: PMP10503 is a Single-Phase Synchronous Boost Converter using the LM5122 controller IC. The design accepts an input voltage of 7Vin to 36Vin (14Vin Nominal) and provides an output of 48Vout capable of supplying 1A of continuous current to the load. The design was built on the PMP7896 RevB PCB, which was modified to the PMP10503 design configuration and requirements.
  • PSR Flyback using UCC28630 for Universal 85VAC-265VAC Input with 12V/75W Rated Output Ref. Design
    PMP10335: This design uses the PSR controller UCC28630 that is capable of operating in both CCM and DCM. With the help of X-cap discharge function of UCC28630, the safety discharge resistor can be elimiated. Full load efficiency is 83.5% at 120VAC/60Hz input and 86% at 230VAC/50Hz input.
  • 5V/2.5A AC/DC Flyback PSU for USB Adaptor Applications Reference Design
    PMP8965: The PMP8965 is a 12.5W USB adapter reference design using the UCC28740 quasi-resonant/discontinues flyback controller, with synchronous rectification to improve efficiency using the UCC24610 Green Rectifier Controller.
  • Universal Sensor IF SAR Booster Pack Reference Design
    TIDA-00564: The TIDA-00564 TI design is meant to be a universal sensor Interface (IF) based on a SAR ADC built in a BoosterPack form factor to be easily connected to TI LaunchPad for development and testing. The analog front-end (AFE) circuitry has been carefully designed to reduce the noise and increase the sensitivity of the system, which makes it ideal choice for sensor interfaces such as thermopiles, Infrared (IR) thermometers, thermocouple amplifiers, pH electrode buffers and Piezoelectric accelerometers.
  • 9 to 42Vin 5V/9V/12V @ 3A Synchronous 4-Switch Buck-Boost Converter Reference Design
    PMP10624.2: PMP10624 is a synchronous 4-switch buck-boost converter which utilizes the LM5175 controller for USB type C applications. The output voltage can be selected for 5V, 9V or 12V at 3A using jumpers or open drain control switches. The LM5175 average current loop sets a maximum output current of 4A.
  • Reference Design - SEPIC Converter Delivers 3.3V at 3.25A from Low Input Voltage
    PMP9512: This coupled-inductor, 3.3V at 3.25A, SEPIC converter delivers high current in a compact area. This circuit is optimized for input voltages within 3.0V - 3.6V. It is also suitable for battery application.
  • High Efficiency, High Power Factor 1300W AC/DC Power Supply Reference Design - PMP10948.1 - TI Tool Folder
    PMP10948: PMP10948 is a high-efficiency, high power factor AC/DC power supply reference design using UCC28063 interleaved transition-mode PFC controllers. There are two PFC stages in this design, 750W output power generates from one of the PFC stages and 550W output power generates from the other PFC stage. This design achieve 95.6% efficiency at 120VAC input and 98% efficiency at 220VAC input with over 1300W output power.
  • Universal AC Input 5V/10A/50W PSR Flyback Power Supply With Over 89% Avg Efficiency Reference Design
    PMP10974: PMP10974 is a quasi-resonant Flyback power suppy based on the UCC28730 primary side regulation (PSR) controller. The elimination of optocoupler using PSR topology promises higher reliability and lower system cost. The design achieves less than 40mW standby power losses and over 89% average efficiency. The design also features UCC2463x synchronous rectification controller.

Related Parts

Add to list:
Create New List

Confirm BOM Data

! Unable to save document.
Please try again.

!

Part Number ( parts) Qty CPN Designator Partent PN

BOM Options

Preferred distributors for this list (10)

Select preferred distributors

!  

Working...

Your FindChips PRO license has expired.

Please update your account details for future billings.

Update Account Details → or Request Extension →
You have a Findchips Basic account.

Your account has reached its list limit (3 Lists). To create a new list, an existing list must be removed.

Upgrade to Findchips Pro to increase your List count to 200

Upgrade to FindChips PRO →