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

CRCW060368K1FKEA

Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT

Choose Manufacturer
Price Range $0.0060 / $0.1250

Part Details

CAD Models Information

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

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

Distributors with Stock

Part Number Description Manufacturer Compare
D1106038B6812FP5 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs D1106038B6812FP5
D11/CRCW060310068K11%ET1E3 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs D11/CRCW060310068K11%ET1E3
D1106038B6812FB5 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs D1106038B6812FB5
CRCW060368K1FKEI Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs CRCW060368K1FKEI
CRCW060368K1FKEL Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs CRCW060368K1FKEL
D1106038B6812FP0 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs D1106038B6812FP0
Part Number Description Manufacturer Compare
CRCW060368K1FKEI Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs CRCW060368K1FKEI
RK73H1JXTDD6812F Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 50V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP KOA Speer Electronics Inc CRCW060368K1FKEA vs RK73H1JXTDD6812F
D11/CRCW060310068K11%ET1E3 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs D11/CRCW060310068K11%ET1E3
D1106038B6812FP5 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs D1106038B6812FP5
RK73H1JXTP6812F Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 50V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP KOA Speer Electronics Inc CRCW060368K1FKEA vs RK73H1JXTP6812F
D1106038B6812FP0 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs D1106038B6812FP0
CRCW060368K1FKEL Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT Vishay Intertechnologies CRCW060368K1FKEA vs CRCW060368K1FKEL
D11/CRCW060310068K11%ET5E3 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, -100,100ppm/Cel, 0603 Vishay Intertechnologies CRCW060368K1FKEA vs D11/CRCW060310068K11%ET5E3
CRCW060368K1FKBA Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 68100ohm, 75V, 1% +/-Tol, 100ppm/Cel, Surface Mount, 0603, CHIP Vishay Intertechnologies CRCW060368K1FKEA vs CRCW060368K1FKBA

Global Popularity

Popularity in Resistors

Popularity in Fixed Resistors

Popularity by Region

Very High

Medium

Good

Low

  • 1. United States of America
    100
  • 2. China
    80
  • 3. Vietnam
    76
  • 4. Israel
    74
  • 5. South Korea
    74
  • 6. Taiwan
    72
  • 7. France
    68
  • 8. India
    66
  • 9. Brazil
    64
  • 10. Germany
    62

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available

Datasheets & Reference Designs

CRCW060368K1FKEA

Vishay Dale

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

Reference Designs

  • CISPR 25 Class 5 Rated Multi-Output Power Supply with Pre-Boost for Automotive Cluster Unit
    PMP9477: The PMP9477 design is a conducted EMI optimized multi-output power supply for automotive cluster units. The power supply has a pre-boost stage for cold crank and start-stop operation and two buck regulators. The pre-boost stage features the LM3481 boost controller and will start to operate and regulate a 9.5V output when the input voltage drops below 9.5V. It makes the design a wide input voltage range of 4.5V to 38V suitable for 12V automotive battery systems. The design has two buck regulators following the pre-boost to generate 3 output voltages: the first stage buck generates a 5V, 2A output using the LM26003, and the second stage generates two outputs of 2.8V, 2A and 1.8V, 2A using the LM26420 (the max output power is 15W). The LM26003 is a wide Vin non-synchronous buck regulator, and the LM26420 is a 5V input dual 2A, high frequency synchronous buck regulator. All three ICs are available in automotive grade versions, qualified in AEC-Q100 Grade 1. The board layout is optimized for improved conducted EMI performance. The power inductor in the pre-boost stage is utilized as an input EMI filter, and thus no additional filter components are required. The board is tested under the automotive EMC standard, CISPR 25, and its conducted emissions are in compliance with the CISPR 25 Class 5 requirements.
  • Xilinx® Zynq® 7000 series (XC7Z015) Power Solution, 8W - Reference Design
    PMP10601.1: The PMP10601 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z015) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator to provide all the necessary rails to power the FPGA. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Altera Arria V SoC Power Supply Reference Design - PMP9360.6 - TI Tool Folder
    PMP9360: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design - PMP9353.7 - TI Tool Folder
    PMP9353: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.6: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.8: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.4: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Xilinx® Zynq® 7000 series (XC7Z015) Power Solution, 8W - Reference Design
    PMP10601.2: The PMP10601 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z015) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator to provide all the necessary rails to power the FPGA. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Xilinx® Zynq® 7000 series (XC7Z015) Power Solution, 8W - Reference Design - PMP10601.1 - TI Tool Folder
    PMP10601: The PMP10601 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z015) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator to provide all the necessary rails to power the FPGA. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.2: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.5: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • 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.
  • CISPR 25 Class 5 Rated Multi-Output Power Supply with Pre-Boost for Automotive Cluster Unit - PMP9477.1 - TI Tool Folder
    PMP9477: The PMP9477 design is a conducted EMI optimized multi-output power supply for automotive cluster units. The power supply has a pre-boost stage for cold crank and start-stop operation and two buck regulators. The pre-boost stage features the LM3481 boost controller and will start to operate and regulate a 9.5V output when the input voltage drops below 9.5V. It makes the design a wide input voltage range of 4.5V to 38V suitable for 12V automotive battery systems. The design has two buck regulators following the pre-boost to generate 3 output voltages: the first stage buck generates a 5V, 2A output using the LM26003, and the second stage generates two outputs of 2.8V, 2A and 1.8V, 2A using the LM26420 (the max output power is 15W). The LM26003 is a wide Vin non-synchronous buck regulator, and the LM26420 is a 5V input dual 2A, high frequency synchronous buck regulator. All three ICs are available in automotive grade versions, qualified in AEC-Q100 Grade 1. The board layout is optimized for improved conducted EMI performance. The power inductor in the pre-boost stage is utilized as an input EMI filter, and thus no additional filter components are required. The board is tested under the automotive EMC standard, CISPR 25, and its conducted emissions are in compliance with the CISPR 25 Class 5 requirements.
  • Xilinx(r) Ultrascale(r) 16nm FPGA/SoC Power Solution for Mobile Radio Basestation with PMBus
    PMP10555: The PMP10555 reference design provides all the power supply rails necessary to power Xilinx® Ultrascale® 16nm family of FPGAs/SoCs in a mobile radio basestation application. This design uses a PMBus compatible 20A integrated FET buck converter for the core and two multi-output buck regulator ICs to provide the remaining supplies necessary rails to power the FPGA. It also features two LM3880's for flexible power up and power down sequencing. This design uses a 12V input.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.1: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design - PMP9353.1 - TI Tool Folder
    PMP9353: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.9: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.5: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.3: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.2: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • CISPR 25 Class 5 Rated Multi-Output Power Supply with Pre-Boost for Automotive Cluster Unit
    PMP9477.2: The PMP9477 design is a conducted EMI optimized multi-output power supply for automotive cluster units. The power supply has a pre-boost stage for cold crank and start-stop operation and two buck regulators. The pre-boost stage features the LM3481 boost controller and will start to operate and regulate a 9.5V output when the input voltage drops below 9.5V. It makes the design a wide input voltage range of 4.5V to 38V suitable for 12V automotive battery systems. The design has two buck regulators following the pre-boost to generate 3 output voltages: the first stage buck generates a 5V, 2A output using the LM26003, and the second stage generates two outputs of 2.8V, 2A and 1.8V, 2A using the LM26420 (the max output power is 15W). The LM26003 is a wide Vin non-synchronous buck regulator, and the LM26420 is a 5V input dual 2A, high frequency synchronous buck regulator. All three ICs are available in automotive grade versions, qualified in AEC-Q100 Grade 1. The board layout is optimized for improved conducted EMI performance. The power inductor in the pre-boost stage is utilized as an input EMI filter, and thus no additional filter components are required. The board is tested under the automotive EMC standard, CISPR 25, and its conducted emissions are in compliance with the CISPR 25 Class 5 requirements. As seen at APEC
  • Xilinx Kintex UltraScale FPGA Power Solution Reference Design with PMBus
    PMP9444: The PMP9444 reference design provides all the power supply rails necessary to power Xilinx's Kintex UltraScale family of FPGAs. It features two UCD90120A's for flexible power up and power down sequencing as well as voltage monitoring, current monitoring, and voltage margining through the PMBus interface. This design uses a 12V input.
  • Xilinx® Zynq®7000 series (XC7Z015) Power Solution, 5W - Reference Design
    PMP10600.2: The PMP10600.2 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z015) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.6: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • 18 to 20Vin 25 to 85Vout @3A Continuous 5.7A Peak Dual-Phase Sync Boost Converter Reference Design
    PMP9309: A dual-phase synchronous boost converter accepting an input voltage of 18VDCin to 20VDCin and providing an output of 25VDCout to 85Vout capable of supplying 3A continuous and 5.7A peak.
  • CISPR 25 Class 5 Rated Multi-Output Power Supply with Pre-Boost for Automotive Cluster Unit
    PMP9477.1: The PMP9477 design is a conducted EMI optimized multi-output power supply for automotive cluster units. The power supply has a pre-boost stage for cold crank and start-stop operation and two buck regulators. The pre-boost stage features the LM3481 boost controller and will start to operate and regulate a 9.5V output when the input voltage drops below 9.5V. It makes the design a wide input voltage range of 4.5V to 38V suitable for 12V automotive battery systems. The design has two buck regulators following the pre-boost to generate 3 output voltages: the first stage buck generates a 5V, 2A output using the LM26003, and the second stage generates two outputs of 2.8V, 2A and 1.8V, 2A using the LM26420 (the max output power is 15W). The LM26003 is a wide Vin non-synchronous buck regulator, and the LM26420 is a 5V input dual 2A, high frequency synchronous buck regulator. All three ICs are available in automotive grade versions, qualified in AEC-Q100 Grade 1. The board layout is optimized for improved conducted EMI performance. The power inductor in the pre-boost stage is utilized as an input EMI filter, and thus no additional filter components are required. The board is tested under the automotive EMC standard, CISPR 25, and its conducted emissions are in compliance with the CISPR 25 Class 5 requirements.
  • Xilinx® Zynq®7000 series (XC7Z015) Power Solution, 5W - Reference Design - PMP10600.1 - TI Tool Folder
    PMP10600: The PMP10600.1 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z015) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Xilinx Zynq 7000 Series (XC7Z045) 20W Reference Design
    PMP10613.2: The PMP10613 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z045) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator to provide all the necessary rails to power the FPGA. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Power Supply for Sensitive Loads and Input Voltages Smaller, Equal or Bigger than the Output Voltage
    PMP10070: This reference design is based on the ZETA topology for having very low output ripple. An input voltage between 8V and 16V generates an output voltage of 12V with a load of 1.5A.
  • Xilinx Zynq 7000 Series (XC7Z045) 20W Reference Design
    PMP10613.1: The PMP10613 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z045) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator to provide all the necessary rails to power the FPGA. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.1: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.7: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.3: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.10: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC FPGA Power Reference Design
    PMP9353: The PMP9353 reference design is a complete power solution for Altera Cyclone V SoC devices. This design uses several LMZ3 series modules , two LDOs, and a DDR termination regulator to provide all the necessary rails to power the SoC chip. This design also shows correct power-up sequencing.
  • 144W Single-Phase Synchronous Boost Converter With DCR Current Sensing
    PMP9393: PMP9393 is a Single-Phase Synchronous Boost Converter which utilizes the LM5122 controller IC. The design accepts an input voltage of 18Vin to 20Vin and provides an output of 48Vout capable of supplying a maximum of 3A of current to the load. DCR current sensing has been implemented in order to reduce the BOM cost associated with using a high power current sense resistor.
  • Xilinx® Zynq®7000 series (XC7Z015) Power Solution, 5W - Reference Design
    PMP10600.1: The PMP10600.1 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z015) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • Altera Arria V SoC FPGA Power Solution Reference Design
    PMP9360: The PMP9360 reference design is a complete power solution for Altera's Arria V™ SoC devices. This design uses several LMZ3 series modules , an LDO, and a DDR termination regulator to provide all the necessary rails to power the SoC chip. This design also shows correct power up sequencing.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.7: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Xilinx Zynq 7000 Series (XC7Z045) 20W Reference Design - PMP10613.1 - TI Tool Folder
    PMP10613: The PMP10613 reference design provides all the power supply rails necessary to power Xilinx® Zynq® 7000 series (XC7Z045) FPGA. This design uses several LMZ3 series modules, LDOs, and a DDR termination regulator to provide all the necessary rails to power the FPGA. It also features one LM3880 for power up and power down sequencing. This design uses a 12V input.
  • 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.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.4: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.

Related Parts

Add to list:
Create New List

Confirm BOM Data

! Unable to save document.
Please try again.

!

Part Number ( parts) Qty CPN Designator

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 →