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GRM188R71E104KA01D

Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 25V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 7" Reel/Paper Tape

Manufacturer Murata Manufacturing Co Ltd

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Part Number Description Manufacturer Compare
0603B104K250CT Capacitors Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP Walsin Technology Corporation GRM188R71E104KA01D vs 0603B104K250CT
GRM188R71E104KA01J Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 25V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 13" Reel/Paper Tape Murata Manufacturing Co Ltd GRM188R71E104KA01D vs GRM188R71E104KA01J
GCM188R71E104KA57D Capacitors Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP, ROHS COMPLIANT Murata Manufacturing Co Ltd GRM188R71E104KA01D vs GCM188R71E104KA57D
VJ0603Y104KXXCW1BC Capacitors CAPACITOR, CERAMIC, MULTILAYER, 25V, X7R, 0.1uF, SURFACE MOUNT, 0603, CHIP, ROHS COMPLIANT Vishay BCcomponents GRM188R71E104KA01D vs VJ0603Y104KXXCW1BC
CGJ3E2X7R1E104K080AA Capacitors Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP, HALOGEN FREE, ROHS AND REACH COMPLIANT TDK Corporation of America GRM188R71E104KA01D vs CGJ3E2X7R1E104K080AA
CL10B104KA8NNND Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 25V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 7" Reel Samsung Electro-Mechanics GRM188R71E104KA01D vs CL10B104KA8NNND
CC0603KRX7R8BB104 Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 25V, ±10%, X7R, 0603 (1608 mm), 0.034"T, -55º ~ +125ºC, 7" Reel/Paper Tape YAGEO Corporation GRM188R71E104KA01D vs CC0603KRX7R8BB104
CC0603KPX7R8BB104 Capacitors Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 25V, ±10%, X7R, 0603 (1608 mm), 0.034"T, -55º ~ +125ºC, 13" Reel/Paper Tape YAGEO Corporation GRM188R71E104KA01D vs CC0603KPX7R8BB104
0603B104K250NT Capacitors Ceramic Capacitor, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, -/+15ppm/Cel TC, 0.1uF, 0603, Hitano Enterprise Corp GRM188R71E104KA01D vs 0603B104K250NT
MCH182CN104KL Capacitors CAPACITOR, CERAMIC, MULTILAYER, 25V, X7R, 0.1uF, SURFACE MOUNT, 0603, CHIP ROHM Semiconductor GRM188R71E104KA01D vs MCH182CN104KL

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Datasheets & Reference Designs

Reference Designs

  • Two-Switch Flyback Reference Design
    PMP10037: This Two-Switch Flyback generates isolated 12.0V @ 0.6A from an input voltage range of 36V to 72V.
  • 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.
  • Two-Switch Buck-Boost Converter for 24W Wide Input
    PMP7995: PMP7995 is a buck-boost converter rated for 12V output at 2A from an input voltage of 5V to 60V. This design uses the LM5118 buck-boost controller at a switching frequency of 300 kHz. To minimize cost the layout was done for a 2 layer printed circuit board.
  • 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.
  • Low-Power Isolated Supply, Input range: 36V to 75V, Output: 10V @ 120mA, LM5017
    PMP7798.3: An isolated bias supply is implemented in this evaluation board with LM5017 Constant-On-Time regulator using a coupled inductor. LM5017 regulator integrates both the high and low side power switches essential for creating isolated converter. The input voltage range is 36V to 75V and it drives an output of 10V @ 120mA.
  • 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.
  • 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.
  • 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%.
  • Low-Power Isolated Supply, Input range: 36V to 75V, Output: 5V @ 80mA, LM5017
    PMP7798.2: An isolated bias supply is implemented in this evaluation board with LM5017 Constant-On-Time regulator using a coupled inductor. LM5017 regulator integrates both the high and low side power switches essential for creating isolated converter. The input voltage range is 36V to 75V and it drives an output of 5V @ 80mA.
  • TPS92075 - 120VAC, 5W, Phase Dimmable Non-Isolated Buck PFC LED Driver
    PMP8023: The main purpose of this reference design is to demonstrate a high performance and low BOM cost offline phase dimmable Buck PFC LED driver based on TPS92075. This LED driver is designed for converting an AC input to a regulated LED current. The operating conditions and performance of the reference design are as follows:
  • Small Solution Size Multi Rail Reference Design for Server Line Card
    TIDA-00596: The TIDA-00596 shows small solution size and high curren density power rails. Supports Internal Sequencing and high output voltage accuracy.
  • 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).
  • Wide VIN FlyBuck™ Power Converter with Two Isolated Bias Supplies + One Non-Isolated Power
    PMP7798.1: Based on the Wide VIN COT Sync Buck regulator LM5017, this FlyBuck circuit provides excellent regulation for two isolated outputs and one non-isolated output. Compared with a conventional Flyback circuit, this design features a smaller board size and minimized BOM without the need for an optocoupler. This design is well suited for applications which need bias power. Additional output voltage versions of this board are available: see PMP7798.2 and PMP7798.3
  • 12Vin to 50Vin; 54Vout @ 2.5A; Single-Phase Synchronous Boost Converter Reference Design
    PMP7970: PMP7970 is a synchronous boost converter utilizing the LM5122 for industrial applications. This design has a minimum operating input voltage of 12V and a maximum input voltage of 54V. Capable of deliverying 135W power to the load.
  • 18V-36Vdc Input, 5V/30W Active Clamp Forward - Reference Design
    PMP4468: The PMP4468 is a DC-DC isolated module reference design targeted for industrial and telecom applications. The DC input range is 18V-36V, with 24V typical and the output is 5V/6A. An active clamp forward controller LM5025A is used in the design. The efficiency is up to 90% with good thermal performance.
  • Wide VIN FlyBuck™ Power Converter with Two Isolated Bias Supplies + One Non-Isolated Power - PMP7798.1 - TI Tool Folder
    PMP7798: Based on the Wide VIN COT Sync Buck regulator LM5017, this FlyBuck circuit provides excellent regulation for two isolated outputs and one non-isolated output. Compared with a conventional Flyback circuit, this design features a smaller board size and minimized BOM without the need for an optocoupler. This design is well suited for applications which need bias power. Additional output voltage versions of this board are available: see PMP7798.2 and PMP7798.3
  • Power-optimized 16-bit 1MSPS Data Acquisition Block for Lowest Distortion and Noise Reference Design
    TIPD149: This TI Verified Design is the realization of a high precision, 16-bit 1MSPS data acquisition system suitable for applications such as digital audio that require front-ends with very low distortion and noise. The circuit uses a high performance Successive Approximation Register Analog to Digital Converter (SAR ADC) and has been optimized to provide superior dynamic performance, without excessive power consumption.
  • 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.
  • 12V Input 3W Dual 5V Output Synchronous Buck Converter
    PMP10379: This supply uses the TPS562209 buck converter to generate a 5V/0.5A regulated output and an auxilliary 5V/0.2A unregulated output. A two winding coupled inductor is used to generate the auxilliary output. The auxilliary output is left floating, and could be used as a -5V output or as a second +5V output. This simple design results in an efficient, yet low cost solution for a dual output system. The peak efficiency is over 92%.
  • I/O supply 3.3V@1.3A out of 5V to Drive uProcessors Reference Design
    PMP10123: PMP10123 is a synchronous buck converter with 5V input voltage and 3.3V output voltage. The design is optimized for low EMI and smallest size.
  • Multi-Phase Boost with a 35V in and 38 to 55 Volt Output
    PMP7869.2: PMP7869 is a 35 Volts multi-phase synchronous Boost with 38 to 55 volts out at 6 Amps continuous.
  • 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.
  • Direct Type/ Local Dimming (Conventional TV power + Boost + LED driver)
    PMP4298: In this topology, the UCC28051 is a boost transition mode (TM) power factor corrector (PFC), which can rectify an AC input line voltage to 380V DC; the resonant LLC stage UCC25600 regulates the output to 24V/2A for an audio amplifier with feedback to the LLC controller, and 48V for the LED driver input. The flyback with UCC28610 in parallel generates 5V/3A for the system board and 5V/1A for standby power. In the LED driver stage, the 48V input voltage requires another front end boost stage to boost the output voltage to 80V, which connects to the eight-channel TLC5960 with 20LEDs at 120mA per string.This technique is the most common type of current LED backlight; the LLC design is easily implemented. The intelligent headroom voltage monitor (oriHVM™) automatically minimizes the power loss caused by the LED forward voltage change. Only a single additional resistor regulates the boost dc-dc output voltage.
  • Current Controlled Driver for 230V AC Solenoids Reference Design
    TIDA-00284: TIDA-00284 proposes to integrate current control and plunger movement detection into an AC solenoid coil. This reference design provides a solution to control the solenoid current using a PWM-based controller along with a Hall sensor to detect plunger movement and switch from peak current to hold current mode 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.
  • Two-Switch Buck-Boost Converter for 6W Telecom
    PMP7983: PMP7983 is a buck-boost converter rated for 12V output at 0.5A from an input voltage of 10V to 16V. This design uses the LM25118 buck-boost controller at a switching frequency of 100 kHz.
  • 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.
  • Power Solution for an Engineering Equipment Fuel Injector
    PMP7967: The PMP7967 converts a DC input of 6V-42V to an output of 90V at 1.5A. The design uses four interleaved LM5122 boost controllers with each controller switching at 100kHz. The resulting 4-phase boost converter has a ripple frequency of 400kHz. Freqeucny can also be synchronized to an external signal. Four 330μF aluminum electrolytic capacitors are used at the output to support sudden load current demands in the fuel injector solenoids.
  • High-Efficiency 4 Phase Synchronous Boost Conv for Automotive Trunk Amplifier App Reference Design
    PMP7969: PMP7969 is a very high efficiency 4 phase boost controller synchronizable to external clock. Light load efficiency is excellent due to phase shedding capability. Synchronous rectifier also improves efficiency. High effective switching frequency obtained with multiphase over single phase, and current sharing accuracy of ±10%. Bypass mode capable when Vin > Vout.
  • 6 to 16Vin 12V@4A Output Wide Vin SEPIC Converter Reference Design
    PMP9332: This is a Wide-Vin SEPIC converter with an operating input voltage range of 6V to 16V, and implements an output of 12V with the capability of supplying 4A of current to load.
  • 3D Printer Controller (12V)
    TIDA-00405: This design is a complete system for controlling 3-axis, single extruder-based 3D printers. The system is managed by the MSP430F5529 LaunchPad and utilizes the DRV8846 for precision stepper motor control. The CSD18534Q5A is used as a low-side switch for the hot bed heater, extruder heater, and cooling fan. The DRV5033 Hall Sensor acts as a contactless limit switch.
  • Battery Charger with 50V DC Input 20A
    PMP4308: The PMP4308 is a 50V DC in 20A battery charger solution which uses Buck upside-down topology. PWM controller UCC2809 is selected in the design.
  • Automotive Audio I2S over Coax Class D Amplifier Reference Design
    TIDA-00223: This reference design is an I²S/TDM-based, low-cost, easy-to-use alternative to fiber optics/analog copper wire for connecting an automotive (sound) control panel to an output stage/power amplifier. Supporting I²S as well as TDM, it is capable of transmitting digital audio signal to 16 independent channels of speakers with each channel output of 80W at 4Ω. It also supports bidirectional communication with the control unit or processor via I²C, over a single shielded twisted pair (STP) or coaxial. Furthermore, the TIDA-00223 reference design enables fast implementation with power supply included, and it has all the protection and diagnostics requirements needed in modern cars.
  • 230Vac TRIAC Dimmable LED Driver Reference Design for 5W GU10
    PMP6016: This reference design provides a high-brightness LED driver based on the TPS92075. It is designed to operate with an input voltage in the range of 200VAC to 240VAC with a 230 VAC nominal input voltage. This design is set up for a 150mA output current with an output voltage of 36V.
  • 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.
  • Direct Type and Local Dimming for Conventional TV power with an LED driver, no boost DC/DC
  • Isolated Forward Converter Reference Design
    PMP7806: The PMP7806 reference design is a Forward which uses a LM5025A and was intended for Metering applications. It can generate an Isolated 15 volt output at 3 Amps from an input 16 to 32 Volts DC.
  • 5KW Interleaved CCM Power Factor Correction Converter
    PMP4311: PMP4311 is for VFAC (Variable Frequency Air-Conditioner) applications, which use TI Interleaved CCM PFC controller UCC28070 to achieve 5KW two phases interleaved PFC and use UCC28610 as an auxiliary Flyback Power Supply.
  • Multi-Phase Boost with a 35V in and 38 to 55 Volt Output
    PMP7869.1: PMP7869 is a 35 Volts multi-phase synchronous Boost with 38 to 55 volts out at 6 Amps continuous.
  • -14V/150mA Inverting BuckBoost Reference Design
    PMP10210: Modified step-down converter PMP2763 to an inverting flyback. Could be easily changed to -15V output to provide negative rail out with a 15V input.
  • Charger Booster Pack Reference Design
    TIDA-00587: The TIDA-00587 reference design is a charger that has been designed as a booster pack to fit on the TI Launchpad development boards. The use of this this board for development will reduce the time spent in design and test of the bq24250 charger IC. You can charger your battery and using the on board electronic load you can discharge your battery. This will allow you to do cycle testing to measure your batteries performance and capabilities when charging with the bq24250 charger.
  • Xilinx Virtex UltraScale FPGA Power Solution with PMBus Reference Design
    PMP9475: The PMP9475 12V-input reference design provides all the power supply rails necessary to power Xilinx's Virtex® UltraScale™ family of FPGAs in a compact, highly efficient design. This design uses several of TI's PMBus Point-Of-Load voltage regulators for ease of design/configuration and telemetry of critical rails. It features a UCD90120A for flexible power up and power down sequencing as well as voltage monitoring, current monitoring, and voltage margining through the PMBus interface.

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