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GRM155R61A105KE15D

Ceramic Capacitor, Multilayer, Ceramic, 10V, 10% +Tol, 10% -Tol, X5R, 15% TC, 1uF, Surface Mount, 0402, CHIP, ROHS COMPLIANT

Manufacturer Murata Manufacturing Co Ltd

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LMK105BJ105KV-T Capacitors Ceramic Capacitor, Multilayer, Ceramic, 10V, 10% +Tol, 10% -Tol, X5R, 15% TC, 1uF, Surface Mount, 0402, CHIP TAIYO YUDEN GRM155R61A105KE15D vs LMK105BJ105KV-T

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  • 4. Canada
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Datasheets & Reference Designs

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.
  • DM388 IP Camera Reference Design
    TMDSIPCAM388X36: Single platform solution provides SVCT/H.264 1080P 60 fps + SVCT/H.264 D1 30 fps + MJPEG 1080P 5 fps, and up to 10 megapixels at reduced frame rate. Supports TI’s 4th Generation Noise Filter and Local tone mapping dual frame merged WDR together with SVCT/H.264 1080P 30 fps.
  • Wideband RF-to-Digital Complex Receiver-Feedback Signal Chain
    TIDA-00074: This is a wideband complex-receiver reference design and evaluation platform that is ideally suited for use as a feedback receiver for transmitter digital predistortion. The EVM signal chain is ideal for high intermediate-frequency (IF) complex-feedback applications and contains a complex demodulator, TI’s LMH6521 dual-channel DVGA and ADS5402 12-bit 800-MSPS dual-channel ADC. By modifying the onboard filter components, the signal chain is configurable for a variety of frequency plans. The EVM also includes TI’s LMK04808 dual-PLL clock jitter cleaner and generator to provide an onboard low-noise clocking solution. The LMH6521 DVGA gain is controlled through the GUI or alternatively through the high speed connector with an FPGA.
  • 18-60VDCin, 6V/31A Active Clamp Forward Reference Design
    PMP10395: This reference design generates a 6V/31A output from a wide range 18V to 60V DC telecom input. The UCC2897A controls an active clamp forward converter power stage. The low gate charge and low RDSon of the CSD18540Q5B, implemented as self-driven synchronous rectifiers, allow this design to achieve a max load efficiency over 94%. The compact UCC27511 drivers simplify the gate drive circuitry for the synchronous rectifiers.
  • Reference Design Realizing Output Current Sensing and Limit, Plug-in Detection in Power Bank
    PMP9776: A power bank is a portable device that can supply USB power using stored energy in its built-in batteries. This reference design demonstrates a circuit based on the TPS61236 for the USB output port of the power-bank. The reference design features a 5V and 2.4A output capability, auto detection of a portable device plug-in, output current sensing and limiting, short circuit protection, temperature protection, and battery voltage indication.
  • 85 to 265VAC Input 5V@4A Dual Port Charger For Tablets and Smart Phones Reference Design
    PMP8817: This reference design is capable of charging two devices at 2A each with over 85% efficiency. The UCC24610 synchronous rectifier controller and CSD18533Q5A FET reduce the rectifier loss and provide ultra-high efficiency with a minimal increase in cost. The UCC28700 primary-side regulated flyback further minimizes cost by eliminating the need for an opto-coupler, and yet maintains good output regulation. The TPS2561A provides accurate and independent current limit protection for each port. The TPS2513 communicates with the mobile device under charge to ensure that the charger is accepted by most phone and tablet models. This compact design consumes a volume of only 1.5" x 1.8" x 0.9".
  • 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.
  • CC2538EM Reference Design
    CC2538EM-RD: This 2.4 GHz RF Layout Reference Design demonstrates good decoupling and layout techniques for a low power RF device operating in the license free 2.4 GHz frequency band.
  • 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.
  • SimpleLink™ ZigBee® Network Range Extender Reference Design
    CC2530-CC2592EM-RD: ZigBee applications such as home and industrial automation, lighting, metering, and sensor networks could need longer RF transmission range and better sensitivity than the stand-alone CC2530 can offer. TI's new SimpleLink CC2530-CC2592 reference design pairs the cost-effective SimpleLink ZigBee CC2530 wireless MCU with SimpleLink CC2592 range extender improving the receiver sensitivity by 2-3 dB and increasing the total link budget to 120 dB, enabling significant improvements in the range of each node in the ZigBee network.
  • 18-36VDCin, 5V/4A Active Clamp Reference Design
    PMP10871: The PMP10871 reference design uses the UCC2897A to control an active clamp forward and converts an 18-36V input to an isolated 5V/4A output with efficiency over 92%. This compact design uses only surface mount components.
  • 48V-60VDC Input, 12V/250W Active Clamp Forward Reference Design
    PMP9656: This reference design generates a 12V/21A output from 54V DC input. The UCC2897A controls an active clamp forward converter power stage. The low gate charge and low RDSon of the CSD18532Q5B, implemented as self-driven synchronous rectifiers, allow this design to achieve a max load efficiency of nearly 96%. The compact UCC27511 drivers simplify the gate drive circuitry for the synchronous rectifiers.
  • Universal AC Input 5V/2A USB Adaptor with Fixed Frequency Operation Reference Design
    PMP9203: This reference design provides an isolated 5V/2A output from a universal 85-265VAC input. It uses the UCC2809 PWM controller to provide a fixed 100kHz operation. Maximum load efficiency is over 80%. The output is power limited (not current limited) so an additional load switch such as a TPS2001C may be required for some applications.
  • Wireless Thermocouple Sensor Transmitter DevPack for SensorTag Reference Design
    TIDA-00650: The TIDA-00650 reference design shows how to build a wireless thermocouple based temperature transmitter. The design is in the DevPack form factor which can be used in combination with TIs SensorTag. This allows for the development of a wireless link with Bluetooth® Smart or other wireless technologies (Zigbee, WiFi, sub 1GHz). The 24-bit ∆Σ sensor front-end utilized in this design allows for operation over the -40 to +85C temperature range.
  • 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.
  • SimpleLink™ ZigBee® Network Range Extender Reference Design - CC2530-CC2592EM-RD - TI Tool Folder
    CC2530-CC2592EMK-RD: ZigBee applications such as home and industrial automation, lighting, metering, and sensor networks could need longer RF transmission range and better sensitivity than the stand-alone CC2530 can offer. TI's new SimpleLink CC2530-CC2592 reference design pairs the cost-effective SimpleLink ZigBee CC2530 wireless MCU with SimpleLink CC2592 range extender improving the receiver sensitivity by 2-3 dB and increasing the total link budget to 120 dB, enabling significant improvements in the range of each node in the ZigBee network.
  • LP5910 and TPS61221 as Power Reference Design for devices Interacting with Ultra-Low Voltage MSP430
    TIDA-00599: The MSP430X09X can operate form ultra-low voltages (ULV) in the range of 0.9V to 1.65V; however most of the devices in the system requires higher voltages. TIDA-00599 provides a solution for those companion devices that requires 1.8V and 3.3V input voltages. A 3.3V voltage rail is generated from a 0.9V to 1.65 V batteries using the TPS61221 boost converter and a 1.8V voltage rail is generated using a high PSRR LDO (LP5910) connected in series with the boost converter output voltage rail. The combine output current is 100 mA at 1.65V input voltage and 50 mA at 0.90 V input voltage. This power solution is deal to power sensors and peripherals from the same ultra-low voltage source powering the MSP430 family line.
  • Thermocouple AFE Using RTD or Integrated Temperature Sensor for Cold Junction Compensation (CJC)
    TIDA-00168: The sole objective of this reference design is to provide comprehensive details on how to design a simple, robust, and accurate analog front end (AFE) circuit for making precision temperature measurements with thermocouple sensors. TIDA-00168 explains the theory, operation, and complications involved in a step-by-step manner. Additionally, this reference design emphasizes topics like error analysis, the necessity of an anti-aliasing filter, biasing resistors for sensor diagnostics, CJC, linearization technique for sensor data, and the design challenges of printed circuit boards.
  • Xilinx Virtex Ultrascale FPGA Multi-Gigabit Transceiver (MGT) Power Reference Design with PMBus
    PMP9408: The PMP9408 reference design provides all the power supply rails necessary to power the multi-gigabit transcievers (MGT) in Xilinx's Virtex® Ultrascale™ FPGAs. It utilizes a PMBus interface for current and voltage monitoring and meets Xilinx's low output voltage ripple requirement. This design uses a 5V input and offers a low cost discrete solution.
  • 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.
  • Dual-Wideband RF-to-Digital Receiver Design
    TIDA-00073: The TSW1265EVM is an example design of a wideband RF to digital dual receiver solution capable of digitizing up to 125MHz of spectrum. The system provides a reference on how to use the ADS4249, LMH6521, LMK0480x, and a dual mixer to achieve this. This reference EVEM coupled with a capture card such as the TSW1400 can be used to capture and analyze narrow band and wideband signals. Instructions are provided on how to change the LO and IF frequencies for different application needs. The TIDA-00073 was implemented with hardware from the TSW1265EVM.
  • Xilinx Virtex Ultrascale FPGA Multi-Gigabit Transceiver (MGT) Power Reference Design with PMBus
    PMP9407: The PMP9407 reference design provides all the power supply rails necessary to power the multi-gigabit transcievers (MGT) in Xilinx's Virtex® Ultrascale™ FPGAs. This design uses a 5V input and has a PMBus interface for current and voltage monitoring, margining, timing delays, and fault monitoring. It uses two TPS544B20's which feature internal current sensing and eliminate the need for an external current sense resistor. This design also meets Xilinx's low output voltage ripple requirements of the MGT rails.
  • Universal AC Input 5V/2A USB Adaptor with PSR Reference Design
    PMP9202: This reference design provides an isolated 5V/2A output from a universal 85-265VAC input. This design uses the UCC28710 PWM controller with primary-side regulation (PSR) eliminating the need for an optocoupler and saving cost. Maximum load efficiency is over 82%. The UCC28710 also provides accurate current limiting which eliminates the need for a load protecting switch on the output.
  • Reference Design - DDR3/DDR4 Power Supply with 5V Input and 10A Load for Industrial PCs
    PMP10029.1: This reference design shows a universal power supply solution for DDR3 and DDR4 memory. A synchronous Buck converter provides an output voltage of 1.35V for a 9A load in DDR3L configuration. A linear regulator provides a second voltage of 0.675V for a 2A load.
  • Interrupt-Based Ambient Light and Environment Sensor Node for Sub-1GHz Networks Reference Design
    TIDA-00758: The TIDA-00758 TI Design demonstrates a low-power method of wireless environmental sensing enabling up to 10 years of battery life. This design uses Texas Instruments’ SimpleLink™ ultra-low power sub-1 GHz wireless microcontroller (MCU) platform, and ambient light, humidity, and temperature sensing technologies to achieve interrupt-based sensor monitoring when running from the backup battery.
  • Optical Heart Rate + Pedometer Reference Design on ARM Based Platform
    TIDA-00682: The TIDA-00682 reference design demonstrates how biometric sensors in a watch form factor can be used to obtain a person's heart rate and steps in real time. By combining the AFE4404 front-end IC and the InvenSense ICM-20655 with the ultra-low power processing capability of the wireless CC2650, it is possible to measure step count activity plus a very robust and high performance optical heart rate signal on an ARM based platform.
  • 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.
  • Energy Harvesting Ambient Light and Environment Sensor Node for Sub-1GHz Networks Reference Design
    TIDA-00488: The TIDA-00488 TI Design demonstrates an ultra-low power and a renewable method of wireless environmental sensing using daylight energy harvesting with an extremely long backup battery life. This design uses Texas Instruments’ ultra-low power harvester power management; SimpleLink™ ultra-low power sub-1 GHz wireless microcontroller (MCU) platform; and ambient light, humidity, and temperature sensing technologies to achieve continuous monitoring while the energy harvesting circuit is active and interrupt monitoring when running from the backup battery
  • 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.
  • High Light-Load Efficient 120VAC Input, 25W/5VDC Reference Design with 4 POL Outputs - PMP11180.3 - TI Tool Folder
    PMP11180: This 25-W design uses the UCC28740 in a flyback topology to minimize no-load standby power and the UCC24636 synchronous rectifier controller to minimize power MOSFET body-diode conduction times. The design also features point-of-load converters from the main 5V rail that implement an energy-saving Ecomode. All of the devices within the design work together to improve light-load efficiency to help meet agency approvals.
  • 500mA Wireless Charger BoosterPack with Gauge Reference Design
    TIDA-00669: The TIDA-00669 is a BoosterPack reference design that provides a wireless charger and an entire battery managment solution to power any TI LaunchPad (www.ti.com/launchpad). This design is a highly integrated power management solution that is well-suited for low power applications. The primary method of storage is an exteranl Li-Polymer rechargable Battery.
  • Efficient, LDO-free Power Supply for a 12-bit 500-MSPS ADC Reference Design - PMP9767.2 - TI Tool Folder
    PMP9767: The electrical performance of data converters depends on the cleanliness of their supply voltages. Linear regulators (LDOs) are commonly used but have low efficiency and high power loss, which is unsuitable for portable applications. Using a switch mode power supply (SMPS) instead, such as the TPS62231 and TPS62237, is a cost-effective and efficient power supply solution. Such a solution does not degrade the performance of the 12-bit ADS540x family of analog to digital converters (ADCs) and does not waste excessive power. The test report shows the Signal to Noise Ratio (SNR) and Spurious-Free Dynamic Range (SFDR) comparisons between the two power supplies, which demonstrate the same performance.
  • Gauge Booster Pack Reference Design
    TIDA-00586: The TIDA-00586 reference design is a gauge 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 bq27421 gauge IC. You can select any appropriate charger to charge your battery. Attach your system to the gauge and you can monitor the current, voltage, SOC, and SOH of the battery under test.
  • 8V-36V Input 12V/7A; Active Clamp Forward Reference Design
    PMP5123: This reference design generates an isolated 12V/7A output from an 8V to 36V DC input. The UCC2897A controls an active clamp forward converter power stage. The low gate charge and low RDSon of the CSD19533Q5A and CSD19534Q5A allow this design to achieve a max load efficiency over 93%, with a peak efficiency of over 94%. The compact UCC27511 drivers simplify the gate drive circuitry for the synchronous rectifiers.
  • Power Reference Design for Xilinx Ultrascale Kintex FPGA Multi-Gigabit Transciever (MGT) with PMBus
    PMP9463: The PMP9463 reference design provides all the power supply rails necessary to power the multi-gigabit transcievers (MGT) in Xilinx's Ultrascale™ Kintex® FPGAs. It utilizes a PMBus interface for current and voltage monitoring and meets Xilinx's low output voltage ripple requirement. This design uses a 5V input and offers a low cost discrete solution.
  • 12Vin 1V 50A TPS40422 & Power Block II CSD87384 2 Phases w/PMBus Interface Reference Design
    PMP8999: It is a two phase Synchronous Buck converter to provide high current with low ripple and fast dynamic response for high speed processor core applications. Same approach can also be used to power Memory and Input / Output power voltages, typically 1.2V to 3.3V. The two phase interleave reduces output ripple and allows faster response to rapidly changing loads. The two phases distribute power loss to eliminate need for added heat sink hardware. The "Project File" for the TPS40422 to communicate with TI's Fusion GUI is included. Output voltage and current limit can be adjusted and monitored thru the GUI. Additional settings can be accessed thru the same GUI. Test Report includes thermal images to show load capability, both with and without fan cooling. Testing done at 12Vin, where voltage stresses, losses and output ripple greatest. Design will work also at 5Vin with same high speed control loop, due to Input Voltage Feed Forward in the TPS40422.
  • 85 to 265VAC Input 5V@30W Dual Port Charger For Tablets and Smart Phones Reference Design
    PMP10478: This reference design is capable of charging two devices at 2.5A each with over 82% efficiency. The UCC24610 synchronous rectifier controller and CSD17312Q5 FET reduce the rectifier loss and provide high efficiency with a minimal increase in cost. The TPS2561A provides accurate and independent current limit protection for each port. The TPS2513 communicates with the mobile device under charge to ensure that the charger is accepted by most phone and tablet models. This compact design consumes a volume of only 2.15" x 1.7" x 1.0".
  • High Density 4A DC-DC Buck Converter with PMBus Interface Reference Design
    PMP11140: The PMP11140 reference design shows 1.8V 4A (3A without fan) for CPU I/O and other applications in a 22 cm by 12.5 cm single sided footprint. Control allows external synchronization to allow improved management of system noise. A rich Test Interface is provided including an on board dynamic load.
  • Uniquely Efficient Isolated DC/DC Converter for Ultra-Low Power and Low Power Apps Reference Design
    TIDA-00349: The TIDA-00349 TI Design is an isolated DC/DC converter turn-key solution, delivering exceptionally high efficiencies up to 85% from ultra-low power up to 60mW. Open-loop control removes the need for opto-couplers, while a primary side half-bridge topology operating at 60kHz and secondary side Schottky rectification provides low switching losses, enabling highly efficient power conversion. The single side populated PCB board provides a convenient tool for evaluation and on-the-fly optimization of the design, with adequate headers, jumpers and test points for covering a wide variety of applications. Watch a TIDA-00349 Overview video on the isolated DC/DC converter turn-key solution NOW
  • Optimized Latency, Power and Memory Footprint Thermocouple Sensing Front-end Reference Design
    TIDA-00468: The TIDA-00468 Reference design shows how to build an isolated thermocouple sensing front-end with optimized power-consumption for loop powered application while: • reducing footprint from classical look-up table approach and • keeping the fast response time of linear piece wise interpolation
  • Highly Efficient Power & Data Transmission for Isolated Low Power Applications Reference Design
    TIDA-00459: TIDA-00459 provides a turnkey solution for the design and evaluation of sensor transmitters and other applications requiring isolated data transmission and isolated power conversion. The design is based on the LaunchPadTM form factor and showcases a unique power saving methode for transmitting the data accross the isolation barrier. The highly efficient on-board isolated DC/DC converter enables its use in low power applications and applications with limited input power budget like 4- to 20-mA loop powered systems. Watch a TIDA-00349 Overview video, covering the same isolated power topology as used in TIDA-00459 NOW
  • USB-C, DFP, 5V/3A Out, 85-265VAC In, Adapter, Low Cost Reference Design
    PMP11124: The PMP11124 reference design uses the UCC28700 and TPS25810 to provide an isolated 5V at 3A over a USB type C interface. The UCC28700 implements primary-side regulation, eliminating the need for an opto-coupler and reducing the size and cost of the design. Cost is further minimized by using an output diode instead of a synchronous rectifier.
  • 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.
  • Portable ZigBee Plug-In Software Framework for any OS
    TIDC-ZNP-HOST-SW3: A portable host software framework that allows ZigBee to be “bolted on” to existing products in the market, quickly enabling Internet of Things (IoT) system applications. This design can be used with any microcontrollers or processors, offering flexibility in the solution. This software framework design allows easy integration of applications on any operating system. Combined with the richness of intuitive application examples and a complete and simple API set, it allows easy integration as well as fast prototyping and product development.
  • Reference Design - DDR3/DDR4 Power Supply with 5V Input and 10A Load for Industrial PCs
    PMP10029: This reference design shows a universal power supply solution for DDR3 and DDR4 memory. A synchronous Buck converter provides an output voltage of 1.35V for a 9A load in DDR3L configuration. A linear regulator provides a second voltage of 0.675V for a 2A load.
  • High Density 600mV 200 A 5-6 Phase DC-DC Buck Converter with PMBus Interface Reference Design
    PMP10393: Advanced DCAP+ control is used to provide the high speed dynamic control needed for CPU, Memory and ASIC applications. Up to six high current synchronous power stages provide the high currents and low losses needed for these applications. Multi-phase also allows output ripple cancellation and effective higher bandwidth control for a given switching frequency. PMP10393 has same hardware as 1.0V PMP9738 but demonstrates operation at 600mV output up to 200 A off 12V input. Fixed on time mode and reduced switching frequency at 600mV help reduce losses and improve thermal balance between FETs. Testing at 120A output with 3 & 4 phases and lower cost Power Stage also included. Design focuses on ease of electrical testing and ability to make changes "on the fly" thru the PMBus interface. On board bias supplies and a high speed dynamic load round out the rich test interface.
  • High Density 900mV 220 A 6 Phase DC-DC Buck Converter with PMBus Interface Reference Design
    PMP11208: PMP11208 has same hardware as 1.0V PMP9738 and 0.6V PMP10393 but demonstrates operation at 900mV output up to 240 A off 11V, 12V and 13V inputs. While the design is in quasi fixed frequency mode for 1.0Vout and in fixed on time mode for 600mVout, it can be in either mode at 900mVout depending upon load and actual Vin. Testing focused upon detailed static and dynamic loading in and between both modes to show a seamless transition between the two modes.
  • Isolated Loop Powered Thermocouple Transmitter Reference Design
    TIDA-00189: The Isolated Loop powered Thermocouple Transmitter reference design is a system solution providing precision K-type thermocouple measurements for 4 to 20-mA isolated current-loop applications. This design is intended as an evaluation module for users to fast prototype and develop end-products for process-control and factory-automation. Potential challenges with thermocouples as a temperature sensor include tiny voltage outputs, low sensitivity and nonlinearity; in addition, because in industrial environments ground potential differences higher than 100V are common, thermocouple and signal conditioning circuitry must be galvanically isolated. The design files include design considerations, block diagrams, schematics, Bill of Materials (BOM), layer plots, Altium files, Gerber Files, and MSP430 Firmware. Watch the TIDA-00349 Overview video, covering the same isolated power topology as used in the TIDA-00189 NOW
  • Universal AC Input 5V/2A USB Adaptor with DCM/Valley-Switching and Opto Feedback Reference Design
    PMP9204: This reference design provides an isolated 5V/2A output from a universal 85-265VAC input. It uses the UCC28740 flyback controller to provide high efficiency and minimize light load losses. Maximum load efficiency is over 80%. The UCC28740 provides accurate current limiting which eliminates the need for a load protecting switch on the output.
  • 36V-72Vdc Input, 12V/200W Active Clamp Forward - Reference Design
    PMP3162: This reference design generates a 12V/16A output from a standard 48V DC telecom input. The UCC2897A controls an active clamp forward converter power stage. The low gate charge and low RDSon of the CSD19533Q51, implemented as self-driven synchronous rectifiers, allow this design to achieve a peak efficiency of 95%. The compact UCC27511 drivers simplify the gate drive circuitry for the synchronous rectifiers.
  • Universal AC Input 5V/10A/50W PSR Flyback Power Supply With Over 89% Avg Efficiency Reference Design
    PMP10974: PMP10974 is a quasi-resonant Flyback power suppy based on the UCC28730 primary side regulation (PSR) controller. The elimination of optocoupler using PSR topology promises higher reliability and lower system cost. The design achieves less than 40mW standby power losses and over 89% average efficiency. The design also features UCC2463x synchronous rectification controller.
  • 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.
  • Inductive Linear Position Sensing Booster Pack Reference Design
    TIDA-00460: Typical implementations of distance measurements use expensive rare-earth magnets. To lower overall system cost, this reference design walks through the implementation of industry’s first inductance-to-digital converters from TI for linear position sensing without the use of any expensive rare-earth magnets. Linear position sensing determines the position of a target that moves laterally across an inductive sensor that is generating a magnetic field. An inductance-to-digital converter (LDC), like the LDC1000 or LDC1101, senses inductance changes of an inductor that comes into proximity with a conductive target, such as a piece of metal. The LDC measures this inductance shift to provide information about the position of a conductive target over a sensor coil. The inductance shift is caused by eddy currents generated in the target due to the magnetic field of the sensor. These eddy currents generate a secondary magnetic field that opposes the sensor field, causing a shift in the observed inductance.
  • DM385 IP Camera Reference Design
    DM385-AR0331: Single platform solution provides SVCT/H.264 1080P 60 fps + SVCT/H.264 D1 30 fps + MJPEG 1080P 5 fps, and up to 10 megapixels at reduced frame rate.
  • 85-265VAC Input, 5V/2A PSR Flyback Reference Design
    PMP11185: The PMP11185 reference design uses the UCC28710 to provide an isolated 5V at 2A output. The UCC28710 implements primary-side regulation, eliminating the need for an opto-coupler and reducing the size and cost of the design. The supply has been optimized for minimal standby power consumption.

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