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0603YC104KAT2A

Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), Sn/NiBar, -55º ~ +125ºC, 7" Reel

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Price Range $0.0700 / $0.1720

Part Details

Distributors with Stock

Part Number Description Manufacturer Compare
GRM188R71C104KA01J Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 13" Reel/Paper Tape Murata Manufacturing Co Ltd 0603YC104KAT2A vs GRM188R71C104KA01J
C0603C104K4RAC Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, Bulk KEMET Corporation 0603YC104KAT2A vs C0603C104K4RAC
C0603C104K4RACTU Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, 7" Reel/Unmarked KEMET Corporation 0603YC104KAT2A vs C0603C104K4RACTU
CC0603KRX7R7BB104 Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.034"T, -55º ~ +125ºC, 7" Reel/Paper Tape YAGEO Corporation 0603YC104KAT2A vs CC0603KRX7R7BB104
C0603C104K4RACAUTO Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, Bulk KEMET Corporation 0603YC104KAT2A vs C0603C104K4RACAUTO
C0603C104K4RAC7867 Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, 13" Reel KEMET Corporation 0603YC104KAT2A vs C0603C104K4RAC7867
CL10B104KO8NNNC Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 7" Reel Samsung Electro-Mechanics 0603YC104KAT2A vs CL10B104KO8NNNC
0603B104K160CT Capacitors Ceramic Capacitor, Multilayer, Ceramic, 16V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP Walsin Technology Corporation 0603YC104KAT2A vs 0603B104K160CT
0603YC104KAT4A Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), Sn/NiBar, -55º ~ +125ºC, 13" Reel AVX Corporation 0603YC104KAT2A vs 0603YC104KAT4A
GRM188R71C104KA01D Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 7" Reel/Paper Tape Murata Manufacturing Co Ltd 0603YC104KAT2A vs GRM188R71C104KA01D
Part Number Description Manufacturer Compare
C0603C104K4RACAUTO Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, Bulk KEMET Corporation 0603YC104KAT2A vs C0603C104K4RACAUTO
C0603C104K4RAC Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, Bulk KEMET Corporation 0603YC104KAT2A vs C0603C104K4RAC
0603B104K160CT Capacitors Ceramic Capacitor, Multilayer, Ceramic, 16V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP Walsin Technology Corporation 0603YC104KAT2A vs 0603B104K160CT
CL10B104KO8NNNC Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 7" Reel Samsung Electro-Mechanics 0603YC104KAT2A vs CL10B104KO8NNNC
C0603C104K4RAC7867 Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, 13" Reel KEMET Corporation 0603YC104KAT2A vs C0603C104K4RAC7867
C0603C104K4RACTU Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), -55º ~ +125ºC, 7" Reel/Unmarked KEMET Corporation 0603YC104KAT2A vs C0603C104K4RACTU
GRM188R71C104KA01D Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 7" Reel/Paper Tape Murata Manufacturing Co Ltd 0603YC104KAT2A vs GRM188R71C104KA01D
CC0603KRX7R7BB104 Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.034"T, -55º ~ +125ºC, 7" Reel/Paper Tape YAGEO Corporation 0603YC104KAT2A vs CC0603KRX7R7BB104
0603YC104KAT4A Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), Sn/NiBar, -55º ~ +125ºC, 13" Reel AVX Corporation 0603YC104KAT2A vs 0603YC104KAT4A
GRM188R71C104KA01J Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 16V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 13" Reel/Paper Tape Murata Manufacturing Co Ltd 0603YC104KAT2A vs GRM188R71C104KA01J

Global Popularity

Popularity in Capacitors

Popularity in Fixed Capacitors

Popularity by Region

Very High

Medium

Good

Low

  • 1. United States of America
    100
  • 2. China
    95
  • 3. India
    87
  • 4. Canada
    82
  • 5. Malaysia
    80
  • 6. HKG
    80
  • 7. SGP
    79
  • 8. Israel
    75
  • 9. Thailand
    74
  • 10. Mexico
    72

Estimated Price History

Estimated Stock History

Market Price Analysis

No data available
  • 1. New Advantage Corporation $0.0700 Buy Now
  • 2. Avnet $0.0879 Buy Now
  • 3. element14 Asia-Pacific $0.1720 Buy Now
  • 4. element14 Asia-Pacific $0.1720 Buy Now

Datasheets & Reference Designs

Reference Designs

  • Extending Rail-to-Rail Output Range for Fully Differential Amplifiers to Include True Zero Volts
    TIDA-00187: Operational amplifiers (op amps) have been used for decades in signal conditioning circuits and measurement systems. An op amp that has an output spanning from negative to positive supply rail are generally referred to as rail-to-rail output (RRO) op amps. These devices have been used increasingly in portable systems to drive analog to digital converters (ADCs) where reducing power consumption while not sacrificing converter dynamic range is a key concern. While the task calls for the lowest power RRO op amps, circuit designers are finding out that rail-to-rail doesn’t exactly mean rail-to-rail. In reality the output is limited to a couple hundred millivolts within the rail depending on the loading. This problem is known as headroom and is the result of the RRO architecture. This application report focuses on using a low power RRO fully differential op amp (THS4531A) and low noise negative bias generator (LM7705) to achieve true zero volts in a ground referenced single supply system.
  • JESD204B Link Latency Design Using a High Speed ADC - TIDA-00153 - TI Tool Folder
    TIDA-00153?SYS-null-null-findchips-refdes-rd-null-wwe: JESD204B links are the latest trend in data-converter digital interfaces. These links take advantage of high-speed serial-digital technology to offer many compelling benefits including improved channel densities. This reference design addresses one of the challenges of adopting the new interface: understanding and designing the link latency. An example achieves deterministic latency and determines the link latency of a system containing the Texas Instruments LM97937 ADC and Xilinx Kintex 7 FPGA.
  • Power Line Communications (PLC) System-on-Module for ARIB Frequency Band - TIDM-SOMPLC-F28M35 - TI Tool Folder
    TIDM-SOMPLC-F28M35?SYS-null-null-findchips-refdes-rd-null-wwe: The SOMPLC-F28M35 is a single-board System on Module(SOM) for PLC in the ARIB frequency band. This single hardware design supports several popular PLC industry standards including G3 and IEEE-1901.2. TI's certified PLC software is available along with the SOMPLC-F28M35. Engineers can take the SOM design and integrate it into their overall system board or keep the design as an add-on board to their application. The only additional hardware required is the AC mains line coupling circuitry. The included hardware schematics and Gerber files simplify the task for engineers to add PLC to their end system. OEMs will benefit from having the ability to rapidly evaluate and prototype Power Line Communications technology in their application.
  • Power Line Communications (PLC) System-on-Module for ARIB Frequency Band
    TIDM-SOMPLC-F28M35: The SOMPLC-F28M35 is a single-board System on Module(SOM) for PLC in the ARIB frequency band. This single hardware design supports several popular PLC industry standards including G3 and IEEE-1901.2. TI's certified PLC software is available along with the SOMPLC-F28M35. Engineers can take the SOM design and integrate it into their overall system board or keep the design as an add-on board to their application. The only additional hardware required is the AC mains line coupling circuitry. The included hardware schematics and Gerber files simplify the task for engineers to add PLC to their end system. OEMs will benefit from having the ability to rapidly evaluate and prototype Power Line Communications technology in their application.
  • Optimizing LMH6554 to Drive High Speed ADCs
    TIDA-00092: This reference design shows the ability of the high-speed amplifier, LMH6554, to perform single-ended to differential conversion to drive high-speed analog-to-digital converters (ADCs) while maintaining excellent noise and distortion performance. Performance versus input frequency is shown for both AC and DC coupled applications while interfaced to the ADS4449 quad, 250-MSPS, 14-bit ADC. Various options for common-mode voltages, power supplies, and interfaces are discussed and measured to meet the requirements of a variety of applications. Anti-aliasing filter examples are shown along with the performance improvements that they provide.
  • Extending Rail-to-Rail Output Range for Fully Differential Amplifiers to Include True Zero Volts - TIDA-00187 - TI Tool Folder
    TIDA-00187?SYS-null-null-findchips-refdes-rd-null-wwe: Operational amplifiers (op amps) have been used for decades in signal conditioning circuits and measurement systems. An op amp that has an output spanning from negative to positive supply rail are generally referred to as rail-to-rail output (RRO) op amps. These devices have been used increasingly in portable systems to drive analog to digital converters (ADCs) where reducing power consumption while not sacrificing converter dynamic range is a key concern. While the task calls for the lowest power RRO op amps, circuit designers are finding out that rail-to-rail doesn’t exactly mean rail-to-rail. In reality the output is limited to a couple hundred millivolts within the rail depending on the loading. This problem is known as headroom and is the result of the RRO architecture. This application report focuses on using a low power RRO fully differential op amp (THS4531A) and low noise negative bias generator (LM7705) to achieve true zero volts in a ground referenced single supply system.
  • Optimizing LMH6554 to Drive High Speed ADCs - TIDA-00092 - TI Tool Folder
    TIDA-00092?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design shows the ability of the high-speed amplifier, LMH6554, to perform single-ended to differential conversion to drive high-speed analog-to-digital converters (ADCs) while maintaining excellent noise and distortion performance. Performance versus input frequency is shown for both AC and DC coupled applications while interfaced to the ADS4449 quad, 250-MSPS, 14-bit ADC. Various options for common-mode voltages, power supplies, and interfaces are discussed and measured to meet the requirements of a variety of applications. Anti-aliasing filter examples are shown along with the performance improvements that they provide.
  • 16-Bit 1-GSPS Digitizer Reference Design with AC and DC Coupled Variable Gain Amplifier - TIDA-00822 - TI Tool Folder
    TIDA-00822?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design discusses the use and performance of the Digital Variable-Gain high-speed amplifier, the LMH6401, to drive the high-speed analog-to-digital converter (ADC), the ADS54J60 device. Different options for common-mode voltages, power supplies, and interfaces are discussed and measued, including AC-coupling and DC-coupling, to meet the requirements of a variety of applications.
  • JESD204B Link Latency Design Using a High Speed ADC
    TIDA-00153: JESD204B links are the latest trend in data-converter digital interfaces. These links take advantage of high-speed serial-digital technology to offer many compelling benefits including improved channel densities. This reference design addresses one of the challenges of adopting the new interface: understanding and designing the link latency. An example achieves deterministic latency and determines the link latency of a system containing the Texas Instruments LM97937 ADC and Xilinx Kintex 7 FPGA.
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