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Overview of: GRM188R60J106ME47D by Murata Manufacturing Co Ltd

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View this part on Avnet Americas 0 4,000 Reel
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View this part on Avnet Americas 0 1 Ammo Pack
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View this part on Newark 224,000 4,000 TAPE & REEL FULL
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View this part on Newark 153,770 1 TAPE & REEL CUT
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Part Details for: GRM188R60J106ME47D

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Reference Designs

  • 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 FPGA Power Supply Reference Design - PMP9357.1 - TI Tool Folder
    PMP9357: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • Bluetooth Smart to Wi-Fi IoT Gateway Reference Design
    TIDC-BLE-TO-WIFI-IOT-GATEWAY: The gateway connects Bluetooth® Smart devices to the Internet over Wi-Fi®. It allows Bluetooth Smart nodes to be used in home/building automation and retail environments. The reference design is complete with connection of the SimpleLink™ SensorTag data to the IBM Bluemix cloud service using the SimpleLink ultra-low power CC2650 wireless MCU and SimpleLink WiFi CC3200 wireless MCU.
  • Automotive Hall Sensor Rotary Encoder
    TIDA-00480: This is an incremental rotary encoder that uses contactless magnetic sensing to detect rotational speed and direction. The two Hall Effect sensors measure the 66-pole ring magnet and output two signals in quadrature. This automotive-qualified solution is a low-cost and far more reliable alternative to conventional mechanical contact-based encoders, as it uses solid-state sensing that is immune to physical wear, dirt, corrosion, and RF noise.
  • Automotive Cluster Wide Vin Power Supply Design
    TIDA-00275: This TI reference design is an automotive cluster wide Vin power supply solution that includes a wide Vin buck converter with an integrated LDO. Also includes a highly efficient synchronous step-down, dc-dc converter. Along with a linear regulator designed to meet JEDEC SSTL-2 and JEDEC SSTL-18 specifications for DDR termination. This cluster power solution is optimized for the mid-end cluster market with the entire solution supporting 6.0V-40V system capabilities that can withstand start stop, and load dump conditions. The front end buck converter (TPS65320-Q1) is capable of supporting 4.5V cold crank conditions.
  • Dual-Stage Triple-Output Buck Converter
    PMP7800.2: The PMP7800.2 reference design is a Buck which uses a LMR14203 and was intended for Computers and Peripherals applications. It can generate a Non-Isolated 1.8 volt output at 0.23 Amps from an input 21.6 to 26.4 Volts DC.
  • Altera Arria V GZ FPGA Discrete Power Solution Reference Design
    PMP9357: The PMP9357 reference design is a complete power solution for Altera's Arria V series FPGAs. This design uses several TPS54620 synchronous step down converters, LDOs, and a DDR termination regulator to provide all the necessary rails to power the FPGA. To provide correct power sequencing, a UCD90120A power supply sequencer/monitor is used and can be controlled through I2C.
  • Wi-Fi Enabled IoT Node with High Performance MCU Reference Design
    TIDM-TM4C129XWIFI: A system example to show how to build a Wi-Fi Node by integrating the TM4C1294 MCU from the TM4C product family and the CC3100 network processor. This reference design demonstrates the capability of remotely controlling MCU operation via the internet.
  • Altera Arria V GX FPGA Power Solution Reference Design
    PMP9449: The PMP9449 reference design provides all the power supply rails necessary to power Altera's Arria® V GX family of FPGAs. It utilizes a TPS38600 to monitor the input supply and provide power on sequencing. This design features low cost, small footprint discrete ICs and is powered from a single 5V input.
  • 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.
  • 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.
  • SimpleLink™ Wi-Fi® Enabled NFC Card Reader
    CC3200_NFC_CARD_READER: This TI design combines TI’s Wireless microcontroller (CC3200) and the TRF7970 NFC BoosterPack from third party provider DLP Design, in order to emulate a near field communication (NFC) reader, which securely transfers the data scanned from an NFC card to any remote location or database, in real time over Wi-Fi networks. Disclaimer: DLP Design, Inc. is not associated with DLP® products of Texas Instruments.
  • Altera Stratix Vgx Reference Design
    PMP9284: Reference Design for the Stratix Vgx. This design takes into account sequencing needs. Applicable for 25W applications
  • 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.
  • 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.
  • Reference Design using TMS320C6657 to Implement Efficient OPUS Codec Solution
    TIDEP0036: The TIDEP0036 reference design provides an example of the ease of running TI optimized Opus encoder/decoder on the TMS320C6657 device. Since Opus supports a a wide range of bit rates, frame sizes and sampling rates, all with low delay, it has applicability for voice communications, networked audio and even high performance audio processing application. This design also highlights the performance improvements achieved when implementing the Opus codec on a DSP vs. a general purpose processor, like ARM. Depending upon the level of optimization of the code running on the genral purpose processor, implementing the Opus Codec on a C66x TI DSP core can have 3X the performance of an ARM CORTEX A-15 implementation. TMS320C66x DSPs support both audio and video codecs.
  • Altera Arria V FPGA Power Supply Reference Design
    PMP9357.1: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • Automotive 60W Brushless DC (BLDC) Motor Drive
    TIDA-00143: This TIDA-00143 reference design is a BLDC motor controller and is designed to operate from a single 12V (nominal) power supply which can vary over a wide range of voltages as found in typical automotive applications. The board is designed to drive motors in the 60W range, which require currents of 5 Amps. The size and layout of the board is intended to facilitate evaluation of the drive electronics and firmware, with easy access to key signals on individual test points. Connection to a wide variety of motors is possible using either the 3-contact connector or by soldering motor phase wires to plated-through holes in the board. The 12Vdc power is fused to prevent damage to the board or to bench power supplies in case of a motor fault during testing. Command and status of the motor can be communicated through the standard JTAG connector, or through PWM input and output signals. Users can also re-program the microcontroller through the JTAG connector, allowing customization to a wide variety of applications.
  • Dual-Stage Triple-Output Buck Converter
    PMP7800.3: The PMP7800.3 reference design is a Buck which uses a LMR14203 and was intended for Computers and Peripherals applications. It can generate a Non-Isolated 1.8 volt output at 0.23 Amps from an input 21.6 to 26.4 Volts DC.
  • Wi-Fi Enabled IoT Node With NFC Connection Handover Reference Design
    TIDM-TM4C129XNFC: Configuring Wi-Fi network connection parameters in embedded applications can be completed with a simple tap using NFC technology. This reference design illustrates NFC connection handover (pairing) and URL sharing with a Wi-Fi node using a TM4C1294 high-performance microcontroller, CC3100 network processor and TRF7970A NFC Transceiver or RF430CL330H NFC Transponder.
  • SimpleLink Multi-Standard CC2650 SensorTag Reference Design
    TIDC-CC2650STK-SENSORTAG: The new SimpleLink Multi-Standard SensorTag IoT kit invites you to realize your cloud-connected product idea. Including 10 low-power MEMS sensors in a tiny package, the kit is expandable with DevPacks to make it easy to add your own sensors or actuators. Connect to the cloud with Bluetooth Smart® and get your sensor data online in three minutes. The SensorTag is ready to use out of the box with an iOS and Android app, with no programming experience required to get started. The new SensorTag is based on the CC2650 wireless MCU, offering 75% lower power consumption than previous Bluetooth Smart products. This allows the SensorTag to be battery powered, and offer years of battery lifetime from a single coin cell battery. The Bluetooth Smart SensorTag includes iBeacon technology. This allows your phone to launch applications and customize content based on SensorTag data and physical location. Additionally, the SensorTag can be enabled with ZigBee® and 6LoWPAN technology. Visit www.ti.com/sensortag for more information.
  • Microstepping Stepper Motor Control With MCU and Wi-Fi for IoT Reference Design
    TIDM-TM4C123IOTSTEPPERMOTOR: A system example to show how to control a stepper motor via Wi-Fi connectivity. The TM4C123x MCU is integarated with the DRV8833 stepper motor driver to drive the stepper moter in full step, half step and microstep (up to 256) modes. The SimpleLinkTM Wi-Fi CC3100 network processor is also integrated into the system to demostatrate the capability of remotely controlling MCU/stepper motor operation via the Internet.
  • 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.
  • 2-port 40GbE/10GbE QSFP+ Signal Conditioner Reference Design
    TIDA-00417: This verified reference design is a signal conditioning solution for front-port QSFP+ supporting two 40GbE ports compatible with 40G-CR4/SR4/LR4 and 10G SFF-8431 requirements. The design is applicable to optical and passive/active copper cables. It allows for reach extension between the Switch ASIC and the front-port QSFP+ which is often required for the outermost ports of a Top-of-Rack (ToR) switch or for add-in mezzanine implementations of QSFP+ line cards.
  • Altera Arria V FPGA Power Supply Reference Design
    PMP9357.2: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • Dual-Stage Triple-Output Buck Converter
    PMP7800.1: The PMP7800.1 reference design is a Buck which uses a LMR14203 and was intended for Computers and Peripherals applications. It can generate a Non-Isolated 3.3 volt output at 0.07 Amps from an input 21.6 to 26.4 Volts DC.
  • Altera Arria V FPGA Power Supply Reference Design - PMP9357.2 - TI Tool Folder
    PMP9357: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • Dual-Stage Triple-Output Buck Converter - PMP7800.1 - TI Tool Folder
    PMP7800: The PMP7800.1 reference design is a Buck which uses a LMR14203 and was intended for Computers and Peripherals applications. It can generate a Non-Isolated 3.3 volt output at 0.07 Amps from an input 21.6 to 26.4 Volts DC.
  • 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.
  • 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.
  • Evaluation Module (EM) Adaptor
    TIDM-LPBP-EMADAPTER: This BoosterPack kit contains one "EM Adapter BoosterPack". The purpose of the EM adapter board is to provide an-easy-to-use bridge between any of the TI MCU LaunchPads and the vide variety of TI RF evaluation modules (EM), for instance the CCxxxx Low-Power RF evaluation modules. No specific software is provided, so it is up to the user to write the appropriate code to interconnect the MCU with the RF device.
  • Altera Arria V FPGA Power Supply Reference Design
    PMP9357.5: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • 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.
  • SimpleLink™ Bluetooth Smart® SensorTag Reference Design
    CC2650STK-RD: The new SensorTag IoT kit invites you to realize your cloud-connected product idea. The new SensorTag now includes 10 low-power MEMS sensors in a tiny red package. And it is expandable with DevPacks to make it easy to add your own sensors or actuators. Connect to the cloud with Bluetooth Smart and get your sensor data online in 3 minutes. The SensorTag is ready to use right out the box with an iOS and Android app, with no programming experience required to get started. The new SensorTag is based on the CC2650 wireless MCU, offering 75% lower power consumption than previous Bluetooth Smart products. This allows the SensorTag to be battery powered, and offer years of battery lifetime from a single coin cell battery. The Bluetooth Smart SensorTag includes iBeacon technology. This allows your phone to launch applications and customize content based on SensorTag data and physical location. Visit www.ti.com/sensortag for more information, and to download software and design files.
  • 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.
  • Noise-immune Capacitive Proximity Sensor System Reference Design
    TIDA-00466: The FDC2214 proximity and capacitive sensing design demonstrates the use of TI's capacitive sensing technology to sense and detect the presence of various objects. The design is a complete hardware and firmware solution. The firmware processes the data from one proximity sensor and two capacitive touch buttons via the FDC2214 to determine whether an object is in the intended sensing area. Dedicated colored LEDs light up once the device detects a target in close proximity to the board or detects a press on the buttons. The design is powered by one AA-battery.
  • 1-GHz Bandwidth Dual Channel Transmitter up to 4-GHz Reference Design
    TIDA-00409: The TSW38J84 EVM reference design provides a platform to demonstrate a wideband dual transmit solution that incorporates an integrated LO. The reference design utilizes the 2.5 GSPS DAC38J84 device with the high performance modulators: TRF3722 (including integrated PLL/VCO) and TRF3705. The TRF3722 and TRF3705 can be combined to form a dual transmit solution with the TRF3722 generating the local oscillator (LO) for both modulators. The interface between the DAC38J84 and the modulators is discussed as well as measurements showing the combined performance of the DAC and modulators. The measurements illustrate the bandwidth performance, output third order intercept performance, harmonic distortion and sideband suppression performance.
  • 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.
  • 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.
  • Altera Arria V FPGA Power Supply Reference Design
    PMP9357.6: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • Synchronizing Multiple JESD204B ADCs for Emitter Position Location Reference Design
    TIDA-00467: A common technique to estimate the position of emitters uses the amplitude and phase shift data of a signal derived from an array of spatially distributed sensors. For such systems, it is important to guarantee a deterministic phase relationship between the sensors to minimize errors in the actual measured data. This application design will discuss how multiple Analog to Digital Converters (ADCs) with a JESD204B interface can be synchronized so that the sampled data from the ADCs are phase aligned.
  • 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 FPGA Power Supply Reference Design
    PMP9357.4: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • Wi-Fi Camera Application for SimpleLink Wi-Fi CC3200 Launchpad
    TIDC-CC3200CAMBOOST: This SimpleLink Wi-Fi CC3200 Launchpad & Camera BoosterPack based design brings Wi-Fi camera capability to new applications as well as existing ones such as door bells. It enables the capture, remote control and transmission of JPEG (VGA or QVGA) images via Wi-Fi.
  • 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.
  • Altera Arria V FPGA Power Supply Reference Design
    PMP9357.3: This reference design provides all the power supply rails necessary to power Altera's Arria V FPGA. This design uses the TPS54620 to generate the rails to power the FPGA.
  • High Fidelity Audio Headphone Playback Reference Design for Portable and Smartphone Applications
    TIDA-00385: Since the use of high fidelity headphones is a growing trend for portable audio playback, higher performance DAC and Headphone Amplifiers are demanded. This system converts digital audio from USB, SPDIF, or optical sources into analog using PCM5242 audio DAC. A high performance TPA6120A2 headphone amplifier in conjunction with the differential DAC achieves stunning musical clarity and definition as well as industry leading noise performance, critical for low noise headphone playback. The power supply architecture is designed to work from a 3.3V source to increase flexibility and integration into existing products and systems.
  • Direct Down-Conversion System with I/Q Correction
    TIDA-00078: The I/Q Correction block implemented in the Field Programmable Gate Array (FPGA) of the TSW6011EVM helps users to adopt a direct down conversion receiver architecture in a wireless system. The I/Q correction block consists of a single-tap blind algorithm, which corrects the frequency-independent I/Q imbalance in a complex zero-IF receiver system. Along with the I/Q correction block, the FPGA includes a digital gain block, a digital power-measurement block, x2 of interpolation block, an I/Q offset correction block, and a quadrature mixing block.

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