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GRM188R71E104KA01D by: Murata Manufacturing Co Ltd

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

Part Details for GRM188R71E104KA01D by Murata Manufacturing Co Ltd

Overview of GRM188R71E104KA01D by Murata Manufacturing Co Ltd

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Price & Stock for GRM188R71E104KA01D

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View GRM188R71E104KA01D on Digi-Key 		0
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Digi-Reel® 		Digi-Reel
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  • 16,000 $0.0136
View GRM188R71E104KA01D on Bristol Electronics 		431621
View GRM188R71E104KA01D on Bristol Electronics 		48000
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  • 3,991 $0.0113
View GRM188R71E104KA01D on ComSIT USA 		Europe - 92000
View GRM188R71E104KA01D on NexGen Digital 		296909
View GRM188R71E104KA01D on Chip 1 Exchange 		19592
View GRM188R71E104KA01D on Chip 1 Exchange 		57200
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View GRM188R71E104KA01D on Component Electronics, Inc 		18684
  • 1 $0.5000
  • 100 $0.3800
  • 1,000 $0.3300
View GRM188R71E104KA01D on element14 Asia-Pacific 		0 Reel
  • 100 $0.0230
  • 500 $0.0178
  • 1,000 $0.0148
  • 2,000 $0.0141
View GRM188R71E104KA01D on element14 Asia-Pacific 		0 Cut Tape
  • 10 $0.0274
  • 100 $0.0230
  • 500 $0.0178
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  • 2,000 $0.0141
View GRM188R71E104KA01D on Farnell 		0 Cut Tape
  • 10 $0.0212
  • 100 $0.0178
  • 500 $0.0137
  • 1,000 $0.0117
  • 2,000 $0.0106
View GRM188R71E104KA01D on Farnell 		0 Reel
  • 4,000 $0.0096
  • 20,000 $0.0090
  • 40,000 $0.0088

Part Details for GRM188R71E104KA01D

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GRM188R71E104KA01D Part Data Attributes

Parametric Data
GRM188R71E104KA01D Murata Manufacturing Co Ltd
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GRM188R71E104KA01D Murata Manufacturing Co Ltd Capacitor, Ceramic, Chip, General Purpose, 0.1uF, 25V, ±10%, X7R, 0603 (1608 mm), 0.031"T, -55º ~ +125ºC, 7" Reel/Paper Tape
Source Content uid GRM188R71E104KA01D
Pbfree Code Yes
Rohs Code Yes
Part Life Cycle Code Obsolete
Ihs Manufacturer MURATA MANUFACTURING CO LTD
Part Package Code 0603
Package Description , 0603
Reach Compliance Code compliant
ECCN Code EAR99
Capacitance 0.1 µF
Capacitor Type CERAMIC CAPACITOR
Dielectric Material CERAMIC
Height 0.8 mm
JESD-609 Code e3
Length 1.6 mm
Mounting Feature SURFACE MOUNT
Multilayer Yes
Negative Tolerance 10%
Number of Terminals 2
Operating Temperature-Max 125 °C
Operating Temperature-Min -55 °C
Package Shape RECTANGULAR PACKAGE
Package Style SMT
Packing Method TR, PAPER, 7 INCH
Positive Tolerance 10%
Rated (DC) Voltage (URdc) 25 V
Size Code 0603
Surface Mount YES
Temperature Characteristics Code X7R
Temperature Coefficient 15% ppm/°C
Terminal Finish Matte Tin (Sn) - with Nickel (Ni) barrier
Terminal Shape WRAPAROUND
Width 0.8 mm

Alternate Parts for GRM188R71E104KA01D

This table gives cross-reference parts and alternative options found for GRM188R71E104KA01D. The Form Fit Function (FFF) tab will give you the options that are more likely to serve as direct pin-to-pin alternates or drop-in parts. The Functional Equivalents tab will give you options that are likely to match the same function of GRM188R71E104KA01D, but it may not fit your design. Always verify details of parts you are evaluating, as these parts are offered as suggestions for what you are looking for and are not guaranteed.

Part Number Description Manufacturer Compare
B37931K0104K001 Capacitors CAPACITOR, CERAMIC, MULTILAYER, 25V, X7R, 0.1uF, SURFACE MOUNT, 0603, CHIP TDK Epcos GRM188R71E104KA01D vs B37931K0104K001
0603X7R104K25V Capacitors CAP,CERAMIC,100NF,25VDC,10% -TOL,10% +TOL,X7R TC CODE,-15,15% TC,0603 CASE Synton-Tech Corp GRM188R71E104KA01D vs 0603X7R104K25V
0603B104K250NB Capacitors Ceramic Capacitor, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, -/+15ppm/Cel TC, 0.1uF, 0603, Hitano Enterprise Corp GRM188R71E104KA01D vs 0603B104K250NB
CM105X7R104K25AN Capacitors CAPACITOR, CERAMIC, MULTILAYER, 25 V, X7R, 0.1 uF, SURFACE MOUNT, 0603, CHIP, ROHS COMPLIANT KYOCERA Crystal Device Corporation GRM188R71E104KA01D vs CM105X7R104K25AN
MCH182CN104KL Capacitors CAPACITOR, CERAMIC, MULTILAYER, 25V, X7R, 0.1uF, SURFACE MOUNT, 0603, CHIP ROHM Semiconductor GRM188R71E104KA01D vs MCH182CN104KL
0603B104K250SB Capacitors Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP Fenghua (HK) Electronics Ltd GRM188R71E104KA01D vs 0603B104K250SB
C0603X104K3RALAUTO Capacitors Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP KEMET Corporation GRM188R71E104KA01D vs C0603X104K3RALAUTO
X7R104K25V0603 Capacitors Ceramic Capacitor, Ceramic, 25V, X7R, -/+15ppm/Cel TC, 0.1uF, 0603 Jyh Hsu Electronics Co Ltd GRM188R71E104KA01D vs X7R104K25V0603
CS1608X7R104K250NRB Capacitors Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, -/+15ppm/Cel TC, 0.1uF, 0603, Samwha Electronics GRM188R71E104KA01D vs CS1608X7R104K250NRB
0603B104K250CR Capacitors Ceramic Capacitor, Multilayer, Ceramic, 25V, 10% +Tol, 10% -Tol, X7R, 15% TC, 0.1uF, Surface Mount, 0603, CHIP, ROHS COMPLIANT Walsin Technology Corporation GRM188R71E104KA01D vs 0603B104K250CR

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    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
  • 12V Input 3W Dual 5V Output Synchronous Buck Converter
    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%.
  • 110W Industrial POE Isolated Flyback Reference Design
    PMP20497 is an isolated flyback converter utilizing the LM5022 for industrial applications. This design accepts input voltage of 12V. The test report here is 12Vin/~54V out @ 2A of load current.  Switching frequency is set to 100kHz. A custom Pulse transformer is used in this test report for all the scope capture.
  • Multi-MHz GaN Power Stage Reference Design for High-Speed DC/DC Converters
    This reference design implements a multi-MHz power stage design based on the LMG1210 half-bridge GaN driver and GaN power High Electron Mobility Transistors (HEMTs). With highly efficient switches and flexible dead-time adjustment: this design can significantly improve power density while achieving good efficiency as well as wide control bandwidth. This power stage design can be widely applied to many space-constrained and fast response required applications such as 5G telecom power: servers: and industrial power supplies.
  • TPS92075 - 120VAC: 5W: Phase Dimmable Non-Isolated Buck PFC LED Driver
    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: ●90VAC to 132VAC: 60Hz Input Voltage ●30V LED Voltage ●130mA LED Current ●≥79% System Efficiency ●> 0.95 Power Factor
  • Automotive Audio I2S over Coax Class D Amplifier Reference Design
    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.
  • 280W Automotive Dual-Phase Synchronous Buck Reference Design with 24VDC Input: 12VDC Output
    This 280W two phase synchronous buck converter for automotive applications is designed for a nominal input voltage of 24V to 28V with support for cranking (down to 18V) and load dump < 58V. It provides up to 20A output current at an output voltage of 12 to 14V: which can be set externally through a trimmer. Through addition of an input filter: this design has very low EMI and conducted emissions. The output current can be monitored through a current sense amplifier included in this design.
  • TPS54160A Tiny Buck Reference Design to Supply Noise Sensitive RF Predriver
    The PMP30122 reference design is for an input voltage range from 40V to 55V with an output voltage of 28V@ 0.5A. This design is also tested for a maximum peak output current of 1A. The buck converter is dedicated to supply sensitive loads on one hand - and on the other hand equipped w/ input filter to attenuate reflected ripple to source. The layout itself is made for lowest radiated noise: no VHF ringing at the switch node. Feedback divider is calculated for 24V: 28V and 32V output.
  • Wide input range 3-W power reference design with four outputs
    This reference design is a tiny 3-W auxiliary power supply reference design driving four outputs – two of them isolated to power some drivers.  The wide input range is 6 V to 60 V: so 1:10 - here a discrete LDO is needed to expand BIAS voltage for controller LM51551. For lowest EMI: a SEPIC topology is used to ensure low reflected ripple and to avoid RF ringing at the switch node. The control loop is closed on the primary side to save additional cost of optoisolator. Dual feedback allows any weighted feedback in between 3.3-V / 11-V outputs.
  • 100-W: High-Resolution: 16-bit Color-Tunable: 0.15% Dimmable RGBW LED Luminaire Reference Design
    This reference design demonstrates the finest range of color control of individual RGBW LED strings with > 16 bits of PWM resolution while supporting the PWM modulation frequencies as high as 30 and 50 kHz. This reference design demonstrates the finest range of individual RGBW LED strings color control and enables development of highly efficient DC-DC LED luminaires capable of wide color gamut generation with trillions of colors while at the same time being imperceptible to high-end cameras and video broadcast equipment.
  • Always-on Low-power Gas Sensing with 10+ Year Coin Cell Battery Life Reference Design
    This reference design uses nano-power operational amplifiers: comparators: system timers: temperature sensors and the SimpleLink™ ultra-low power 2.4-GHz wireless microcontroller (MCU) platform to demonstrate an ultra-low power carbon-monoxide detector implementation. These technologies lead to an extremely long battery life of over 10 years with a standard CR2032 lithium-ion coin-cell battery: which could be used for applications including gas detection or air quality monitoring. The carbon monoxide detector has sensitivity up to 1000 ppm with a standby current of 1.07 µA. The design guide includes techniques for system design: detailed test results and information to get the design up and running quickly.
  • High Efficiency 200V/520W LLC Series Resonant Converter Reference Design
    PMP10949 is a high-efficiency LLC power supply reference design converting from 380VDC input to 200V/2.6A output. 96.7% efficiency is achieved at full load and over 95% efficiency at 150W load.
  • PMP4123 36Vdc-75Vdc 输入、6V/20A 输出有源钳位正向
    PMP4123 参考设计可通过标准 48V 电信输入,在 120W 时提供 6V 的电源,效率达 94% 以上。此设计使用 UCC2897A 有源钳位控制器和 ISO721 数字隔离器及 TPS28225 驱动同步整流器。该电路内置行业标准四分之一砖型封装。
  • PMP11107 适用于 PoE 应用的 3 类双路输出隔离式反激转换器参考设计
    该转换器用于需要 3.3V/1A 和 5V/1A 输出的 3 类 PoE 应用。采用同步整流器的双输出反激式转换器效率出色,尺寸小,适合 IP 电话等 PoE 应用。TPS23753A 包含基于 PoE 的器件和 PWM 控制器功能。
  • PMP4246 12V 输入、1.8V-5V 可调节输出(3A 时),同步降压
    PMP4246 参考设计可配置 1.8V 至 5V 范围内的各种输出电压。此设计使用 TPS54325 同步降压转换器降低 12V 输入源的电压并提供高达 3A 的输出电流。此设计仅使用陶瓷电容器,用于紧凑型、低成本解决方案。
  • PMP8877 基于 UCD3138 数字控制器的 1/8 砖型隔离式 DC/DC 电信电源模块
    PMP8877 is a full-function 1/8th brick isolated DC/DC telecom power module based on the UCD3138 digital power controller. The reference design features secondary side control and hard switching full bridge power topology to deliver 12V/180W of output power operating across a wide range 36V-72V in
  • PMP40280 双向电池初始化系统控制板参考设计
    PMP40280 是一款电池初始化参考设计解决方案,适用于汽车和电池应用。MCU TM4C123GH6PZ 可设置充电/放电电流,还可实时监控电池电压和充电/放电电流。在环境温度变化时,它将通过校准系统增益误差来达到 0.1% 的充电/放电电流精度要求。当系统出现故障时,MCU 可以停用功率转换器。通过标准 CAN 总线实现通信。
  • TIDA-00580 汽车级 16 位旋转正交解码器参考设计
    People prefer to use knobs over touchscreens in many situations.  This solution minimizes the required connections to a microcontroller to monitor a rotary quadrature encoder's direction and distance of rotation.
  • PMP30271 24.0V@0.5A 汽车升压参考设计
    该汽车升压转换器参考设计可通过 6V 至 16V 的输入电压范围提供 24.0V 电压(电流为 0.5A)。它可承受高达 42V 的输入峰值电压,并在广泛的负载范围内提供高效率。
  • TIDEP0018 用于 Sitara 处理器的并行摄像机接口
    This camera interface design connects to a 10-bit parallel interface to the AM335x general purpose memory controller (GPMC) 16-bit multiplexed address/data bus. This design consumes roughly 150mW less power than typical USB solutions, and is ideal for applications like portable data terminals, ru
  • CC1125EM-420-470-RD CC1125EM 420/470MHz 参考设计
    The CC1125 420/470MHz EM reference design contains schematics and layout files for the CC1125EM 420/470MHz evaluation module. The reference design demonstrates good techniques for CC1125 decoupling and RF layout. For optimum RF performance, these parts should be copied accurately. This is a 4-lay
  • PMP5657 TPS40210,26V SEPIC
    Two sepics, 12Vout and 26Vout, both w/ TPS40210, to deal with wide input voltage range 10Vdc to 32Vdc
  • TIDM-FRAM-EEPROM 使用 MSP430 FRAM 微控制器实现的 EEPROM 仿真和感测
    此 TI 参考设计描述了如何仿真 EEPROM,仿真时在 MSP430™ 超低功耗微控制器 (MCU) 上使用铁电随机存取存储器 (FRAM) 技术,并与使用 MCU 时可启用的其他感应功能相结合。此参考设计同时支持通过 I2C 和 SPI 接口连接至主机处理器,可进行多个从机寻址。
  • PMP7263 90VAC 至 270VAC 输入、+/-12V/3W 准谐振反激式 (-12V (10mA))
    此参考设计采用 UCC28600 准谐振反激式控制器,可从通用交流输入生成隔离型 +12V/250mA 和 -12V/10mA 输出。UCC28600 的电能存储功能可最大程度地减少空载和全负荷条件下的功率损耗。此设计布局在 36mm X 46mm 的印刷电路板上。
  • LM3445-REF 具有 6 个 LED 的 230 Vac 离线 Triac 调光器改良参考设计
    The main purpose of the power supply is to convert the rectified AC Input to DC regulated current for 6 LEDs.  The power supply provides protection for the LEDs, limits the transient input voltage and protect against inrush current at plug in.  The overall power supply conformity (e.g.
  • Automotive Isolated 15V/4.5W Bias Power Supply Reference Design
    This reference design displays a power supply solution to generate an isolated 15V rail with a maximum load current of 300mA from an input voltage between 8V and 28V. It also contains an optional Buck converter on the secondary side to provide a 5V rail with 200mA load current for a microcontroller.
  • 12Vin to 50Vin; 54Vout @ 2.5A; Single-Phase Synchronous Boost Converter Reference Design
    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.
  • 230Vac TRIAC Dimmable LED Driver Reference Design for 5W GU10
    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 Engineering Equipment Fuel Injector
    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.
  • 100W Negative Output Power Supply Reference Design for Industrial Applications
    The PMP20904 reference design is a negative buck utilizing the LM5117 controller for industrial applications. This design can operate at 24Vin at +/-10%. The design has an output of -24V and capable of sourcing 2A continuous current and up to 4A transient. Switching frequency is set to 200kHz: and a 4 layer PCB is used.
  • Small Negative Bias Supply for Low Noise Applications Reference Design
    This circuit reference design is realized in Cuk Topology. The output voltage is -12V / -15V. The output current of 200mA is possible over an input voltage range of 10V to 60V  (even with a low input voltage of 6V 140mA output current is possible).  The perfect switching behavior of the circuit results in lowest radiated emissions.
  • 8V @ 7A Synchronous Boost Reference Design with LM5121
    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.
  • Small Solution Size Multi Rail Reference Design for Server Line Card
    The TIDA-00596 shows small solution size and high curren density power rails. Supports Internal Sequencing and high output voltage accuracy.
  • Power Solution for an Automotive Fuel Injector
    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.
  • 30-W SEPIC reference design with extended input voltage range
    This reference design is a wide input voltage range SEPIC converter delivering up to 30-W continuous output power using a cost-effective: discrete startup circuitry that allows it to be supplied up to a 80-V input. Another discrete UVLO circuitry prevents from large input currents at low input voltage: so the power supply is able to handle an input range of 1:8. The internal driver of the controller is boosted by a small external push- pull stage using bipolar transistors. This allows it to be used with a coupled inductor from stock results in less amount and stress for the flying capacitors. Furthermore: there is no need for additional damping RC network. 
  • Highly Integrated Power Reference Design for SSD
    This reference design shows small highly integrated power size for SSD. It supports internal sequencing and high output voltage accuracy.
  • Tiny automotive 2-W bias power supply reference design
    This reference design provides a tiny auxiliary +12-V supply for general purpose. In this case: SEPIC topology supports wide input range from 6 V to 60 V. Even at inputs as low as 3.5 V: this reference design is able to provide half of the output power. Another benefit of SEPIC is low reflected ripple: resulting in less conducted emissions. The small magnetizing inductance sets right half plane zero fairly high: so loop bandwidth can be increased and allows a small output capacitance by keeping good transient response.
  • Automotive Wide Vin Front-End Power Reference Design w/Cold Crank Operation &amp; Transient Protection
    The TIDA-01179 reference design is an automotive front-end power supply that is able to supply 30W maximum output for the 12V car battery. The first stage is a buck-boost DC/DC converter that maintains a stable 15V output voltage over the full DC range of the 12V battery conditions specified in ISO 7637-2 and ISO 16750-2 standards. The second stage is a compact buck converter that enables up to 20W output.
  • 2-W auxiliary power supply for a single IGBT driver reference design
    This reference design is a dual-output: isolated fly-buck power module for a single IGBT driver bias using the TPS54308 synchronous buck converter. The converter generates one non-isolated output of +3.3 V with 400-mA current capability and two isolated outputs of +15 V and -8 V with 80-mA current capability from  an input voltage range of 9 V to 22 V.
  • 3.3V 1A: Low EMI: 92% Efficiency DC/DC Module in Single Layer TO-247 Form Factor Reference Design
    This reference design demonstrates a 15 mm x 20 mm: 92% efficiency: low electromagnetic interference (EMI) DC/DC module with TPS54202: replacing low dropout regulator (LDO) in major home appliance applications. The high efficiency eliminates the need of heat sink for a smaller and cheaper solution. The higher current capability enables additional features to be added (WiFi: sensors: etc ). The high efficiency and low-current consumption help achieve stringent energy ratings.
  • Low-Power PIR Motion Detector With Bluetooth Smart &amp; 10-Year Coin Cell Battery Life Reference Design
    This reference design uses nano-power operational amplifiers: comparators and the SimpleLink™ ultra-low power 2.4-GHz wireless microcontroller (MCU) platform to demonstrate a low-power wireless motion detector implementation.  These technologies lead to an extremely long battery life of over 10 years with a standard CR2032 lithium-ion coin-cell battery which could be used for applications including motion detection or lighting control through occupancy detection.  The PIR sensor has sensitivity of up to 30 feet with a shutdown current of 1.63 µA.  The design guide includes techniques for system design: detailed test results and information to get the design up and running quickly.
  • High efficiency power supply architecture reference design for protection relay processor module
    This reference design showcases various power architectures for generating multiple voltage rails for an application processor module: requiring >1A load current and high efficiency . The required power supply is generated using 5-: 12- or 24-V DC input from the backplane. Power supplies are generated using DC-DC converters with an integrated FET and a power module with an integrated inductor for size. The design features a HotRod™ package type for applications requiring low EMI. It is also optimal for design time constrained applications. Additional features include DDR termination regulator: input supply OR-ing: voltage sequencing: eFuse for overload protection: and voltage and load current monitoring. This design can be used with a  processor: digital signal processor and field-programmable gate array. It has been tested for radiated emission: per CISPR22 meeting class A and B requirements.
  • 5-V: 1-A: Cost-Effective: Single-Layer TO-247 LDO Replacement Reference Design With 93% Efficiency
    This reference design demonstrates a small solution size: high-efficiency: and low-EMI DC/DC module for LDO replacement in major home appliances. Replacing LDOs with DC/DC modules drastically improves system efficiency: saving on solution size and BOM cost while also eliminating the need for heat sinks. The module takes up the same amount of space as a TO-247 package and is pin-to-pin compatible with the TO-220 LDO: such as UA7805: enabling quick evaluation and reduced time to market. The TPS561201 power converter enables a higher output current and lower power consumption at full-load: low-load: and standby operation. This module is the same size with a TO-247 package and is pin compatible with the TO-220 LDO: enabling a quick evaluation and time to market.
  • Hi-Fi Headphone Amplifier Power Supply Reference Design
    Headphone amplifiers usually require positive and negative voltages. In this reference design: both voltages are generated from a single input voltage with an integrated split-rail charge-pump converter. It provides small solution size with five capacitors and four resistors.
  • Automotive Boost Converter Reference Design with Reverse Battery Protection
    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.
  • I/O supply 3.3V@1.3A out of 5V to Drive uProcessors Reference Design
    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.
  • High-Efficiency 4 Phase Synchronous Boost Conv for Automotive Trunk Amplifier App Reference Design
    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.
  • Automotive emergency call (eCall) audio subsystem reference design
    The efficiency and diagnostics necessary for automotive emergency call (eCall) systems generate unique requirements for the audio subsystem: such as speaker diagnostics and low-power consumption.  This reference design shows how to use our automotive two-channel audio codec (TLV320AIC3104-Q1) and a class-D audio amplifier (TAS5411-Q1) for eCall applications.

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