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Details for: ERJ-3GEY0R00V

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ERJ14YJ112U
Fixed Resistor, Metal Glaze/thick Film, 0.5W, 1100ohm, 200V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 1210, CHIP, ROHS COMPLIANT

Reference Designs

  • Schematic and Layout Recommendations for the Giga Sample Per Second (GSPS) ADC - TIDA-00071 - TI Tool Folder
    TIDA-00071?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design is a guide to the schematics and layout for the system designer using a GSPS ADC in their system. Use this reference design along with the datasheet — the datasheet is always the final authority. Also, the ADC1xDxxxx(RF)RB Reference Board provides a useful reference design. All design source files for the Reference Board as well as the CAD/CAE symbols for the ADC are available on the product web page or TI-Designs for download. For the purpose of this document, ADC or GSPS ADC refers to the ADC12D1800RF, ADC12D1600RF, ADC12D1000RF, ADC12D800RF, ADC12D500RF, ADC12D1800, ADC12D1600, ADC12D1000, ADC10D1500, ADC10D1000, ADC12D1600QML, and ADC10D1000QML.
  • 10.8Vin to 13.2Vin; 48Vout @ 7.3A; 4-Phase Synchronous Boost Converter - PMP7944 - TI Tool Folder
    PMP7944?SYS-null-null-findchips-refdes-rd-null-wwe: A 4-phase synchronous boost converter that accepts an input voltage of 10.8Vin to 13.2Vin providing an output of 48Vout capable of delivering 7.3A.
  • High Resolution, Portable Light Steering Reference Design using DLP Technology
    DLP4500-C350REF: This reference design, featuring the DLP® 0.45” WXGA chipset and implemented in the DLP® LightCrafter™ 4500 evaluation module (EVM), enables flexible control of high resolution, accurate patterns for industrial, medical, and scientific applications. With a free USB-based GUI and API, developers can easily integrate TI’s innovative digital micromirror device (DMD) technology with cameras, sensors, motors, and other peripherals to create highly differentiated 3D machine vision systems, 3D printers, and augmented reality displays.
  • High Efficiency 36-60V Input Isolated Synchronous Flyback Reference Design with Dual Outputs
    PMP11065.1: PMP11065 is an isolated synchronous flyback converter with dual outputs of 3.3V/2.5A and 5V/2.8A. The 36-60V input is suitable for use in most telecom and PoE applications that require high efficiency.
  • 12Vin to 67Vin; 54Vout @ 4.8A; Dual-Phase Synchronous Boost Converter
    PMP7979: A dual-phase synchronous boost converter that accepts an input voltage of 12Vin to 67Vin and provides an output of 54Vout capable of supplying 4.8A. Whenever the input voltage is at or above the 54Vout threshold, the output voltage will follow the input voltage, minus a small voltage drop.
  • RF Sampling 4-GSPS ADC Reference Design with 8-GHz DC-Coupled Differential Amplifier
    TIDA-00431: Wideband radio frequency (RF) receivers allow greatly increased flexibility in radio designs. The wide instantaneous bandwidth allows flexible tuning without changing hardware and the ability to capture multiple channels at widely separated frequencies. This reference design describes a wideband RF receiver utilizing a 4-GSPS analog-to-digital converter (ADC), with an 8-GHz, DC-coupled, fully differential amplifier front end. The amplifier front end provides signal gain and allows capture of signals down to DC, which is not possible with a balun-coupled input.
  • 220W Synchronous 4 Switch Buck-Boost Converter
    PMP9490: PMP9490 is a 225W four Switch Buck –Boost Design utilizing best in Class Synchronous Buck Boost Converter LM5175. The design accepts an input voltage of 9.5Vin to 20Vin and provides the outputs of 15V@15 A for Constant Voltage Output Application such as Voltage stabilizer or as Power amplifier SMPS, 10.8V to 15V@12.5A for CC/CV Battery Charger application, and 12.5 A for Constant Current LED Drive application. It features an inexpensive and more efficient solution to using discrete Buck and boost converters. The average current regulation loop of the IC at the output is used for Battery Charging profiling with no external circuit being involved.
  • 16-bit 400KSPS 4-Ch. Multiplexed Data Acquisition Ref Design for High Voltage Inputs, Low Distortion - TIPD151 - TI Tool Folder
    TIPD151?SYS-null-null-findchips-refdes-rd-null-wwe: This TI Verified Design implements a 16-bit, differential 4-channel multiplexed data acquisition system at 400KSPS throughput for high voltage differential input of ±20 V (40 Vpk-pk) industrial applications. The circuit is realized with a 16-bit successive-approximation-resistor (SAR) analog-to-digital converter (ADC), a precision high voltage signal conditioning front end, and a 4-channel differential multiplexer (MUX). The design details the process for optimizing the precision high voltage front end drive circuit using the OPA192 and OPA140 to achieve excellent dynamic performance with the ADS8864.
  • High-Efficiency Single-Phase Synchronous Boost Conv for Automotive Infotainment Reference Design - PMP10503 - TI Tool Folder
    PMP10503?SYS-null-null-findchips-refdes-rd-null-wwe: PMP10503 is a Single-Phase Synchronous Boost Converter using the LM5122 controller IC. The design accepts an input voltage of 7Vin to 36Vin (14Vin Nominal) and provides an output of 48Vout capable of supplying 1A of continuous current to the load. The design was built on the PMP7896 RevB PCB, which was modified to the PMP10503 design configuration and requirements.
  • Clocking Solution Reference Design for GSPS ADCs - TIDA-00359 - TI Tool Folder
    TIDA-00359?SYS-null-null-findchips-refdes-rd-null-wwe: Low cost, high performance clocking solution for GSPS data converters. This reference design discusses the use of a TRF3765, a low noise frequency synthesizer, generating the sampling clock for a 4 GSPS analog-to-digital converter (ADC12J4000). Experiments demonstrate data sheet comparable SNR and SFDR performance.
  • 192W Dual-Phase Synchronous Boost Converter Reference Design - PMP9403 - TI Tool Folder
    PMP9403?SYS-null-null-findchips-refdes-rd-null-wwe: PMP9403 is a high-efficiency dual-phase synchronous boost converter using the LM5122 controller ICs. The design accepts an input voltage of 9Vin to 15Vin (12Vin Nominal) and provides an output of 48Vout capable of supplying 4A of continuous current to the load.
  • Public Announcement Audio Reference Design utilizing best in class Boost Controller
    PMP10710: PMP10710 is a 200W design for public announcement audio system which can be used in 100W +100W Stereo or 200W Woofer Applications. The design is broadly divided into four main stages:
  • Class 1 Non-isolated Buck Converter (5V/560mA) for PoE PD Applications Reference Design
    PMP9676: This converter is used for Class 1 PoE PD applications where isolation is not required. The TPS2378 PD controller plus LM5006 buck converter provide 5V/560mA with good efficieny in a small size. The LM5006 can be configured with a diode rectifier for lowest cost or a synchronous FET rectifier for improved efficiency.
  • High-Efficiency Adjustable Output Synchronous Boost Converter Reference Design - PMP10538 - TI Tool Folder
    PMP10538?SYS-null-null-findchips-refdes-rd-null-wwe: PMP10538 is a Single-Phase Synchronous Boost Converter using the LM5122 controller IC. The design accepts an input voltage of 18Vin to 20Vin and provides an output of 30Vout to 54Vout, capable of supplying 1.7A of continuous current to the load or 0A to 3.4A Max. The output voltage can be adjusted between 30Vout and 54Vout by driving the Vadj. input of the Op-Amp circuit between 0V and 3V.
  • 270W Dual-Phase Boost Converter for Automotive Applications Reference Design - PMP9595 - TI Tool Folder
    PMP9595?SYS-null-null-findchips-refdes-rd-null-wwe: This two-phase boost operates from 6V - 36Vin and supplies 18V at 15A out (inputs higher than 18V pass through to the output). Small surface mount components are realized thanks to a high switching frequency and ripple cancellation on input and output capacitors.
  • Synchronous Boost, Where the Output Follows the Input during Overshoot - PMP7896 - TI Tool Folder
    PMP7896?SYS-null-null-findchips-refdes-rd-null-wwe: PMP7896 is a Sychronous Boost Converter with 12 Volts to 50 volts input and a output of 48 volts at 2.5 Amps continuous. The output follows the input during overshoot.
  • Energy Harvester Booster Pack Reference Design
    TIDA-00588: The TIDA-00588 reference design is a BoosterPack that harvests energy from a wide variety of current sources or from the onboard solar cells to power any low-power TI LaunchPad. This design is a highly integrated power management solution that is well-suited for ultra-low power applications. There are three storage methods on this board: 1)A 47mF super capacitor, 2) a LIR2032 coin cell, and 3) an external battery connector. You can use the onboard solar cells or add your own AC or DC current source.
  • High Resolution, Portable Light Steering Reference Design using DLP Technology - DLP4500-C350REF - TI Tool Folder
    DLP4500-C350REF?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design, featuring the DLP® 0.45” WXGA chipset and implemented in the DLP® LightCrafter™ 4500 evaluation module (EVM), enables flexible control of high resolution, accurate patterns for industrial, medical, and scientific applications. With a free USB-based GUI and API, developers can easily integrate TI’s innovative digital micromirror device (DMD) technology with cameras, sensors, motors, and other peripherals to create highly differentiated 3D machine vision systems, 3D printers, and augmented reality displays.
  • Compact CAN-to-Ethernet Converter using 32-bit ARM Cortex-M4F MCU Reference Design - TIDA-00203 - TI Tool Folder
    TIDA-00203?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design demonstrates a small form-factor Controller Access Network (CAN)-to-Ethernet converter using the TM4C129XNCZAD 32-bit ARM® Cortex™-M4F MCU. Supporting 10/100 Base-T compliant with IEEE 802.3 standard, this reference design is useful for industrial drives monitoring and control, as well as Supervisory Control and Data Acquisition (SCADA) systems. The same hardware can be used as a CAN-to-Ethernet gateway or bridge with simple changes in the firmware. The gateway application is useful for monitoring remote CAN networks over Ethernet, while the bridge application is useful for coupling CAN networks via the the internet or local area netowork (LAN).
  • Highly Efficient and Compact 100W Automotive Amplifier Reference Design with Boost Converter
    PMP9484: PMP9484 is a 100W highly efficient and compact automotive amplifier reference design which can be used in 50W +50W stereo or 100W woofer applications. The design is broadly divided into three main stages: 1.) Highly efficient single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 7.5Vin to 20Vin (12Vin nominal) and provides an output of 24V capable of supplying 5A of continuous current to the load. The peak efficiency acheived is 98 percent. 2.) 50W+ 50W stereo audio amplifier with TPA3116D2 Class D device 3.) Very low cost stereo input to woofer bass input conversion
  • High-Efficiency Dual-Phase Synch Boost Conv for Automotive Voltage Stabilizing App Reference Design - PMP10502 - TI Tool Folder
    PMP10502?SYS-null-null-findchips-refdes-rd-null-wwe: 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).
  • Uncompressed Digital Video SerDes over Twisted Pair for Automotive Camera Systems - TIDA-00138 - TI Tool Folder
    TIDA-00138?SYS-null-null-findchips-refdes-rd-null-wwe: The TIDA-00138 reference design is a high speed serial camera interface to connect a remote automotive camera module to a display or machine vision processing system. It uses TIs FPD-Link III SerDes technology to transmit uncompressed video data and bidirectional control signals over a twisted pair cable. Application examples are back-up camera, rear view camera, surround view system, arround view monitor, camera based park assist ssytems, mirror replacement, blind spot detection. This design incorporates the DS90UB901Q-Q1 and DS90UB902Q-Q1 devices to create the solution.
  • Direct Down-Conversion System with I/Q Correction - TIDA-00078 - TI Tool Folder
    TIDA-00078?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • 12Vin to 50Vin (67Vin Peak); 48Vout @ 2.5A; Single-Phase Synchronouos Boost Converter
    PMP7965: A single-phase synchronous boost converter accepting an input voltage of 12Vin to 50Vin with a peak of 67Vin and providing an output of 48Vout capable of supplying 2.5A of current.
  • ±15A Current Sensor using Closed-Loop Compensated Fluxgate Sensor Reference Design - TIPD196 - TI Tool Folder
    TIPD196?SYS-null-null-findchips-refdes-rd-null-wwe: This single-supply, closed loop current transducer solution is designed to accurately measure dc, ac and pulsed currents. It allows for galvanically isolated current measurements up to 55 A before reaching saturation and features an integrated fluxgate sensor.
  • Automotive Audio I2S over Coax Class D Amplifier Reference Design - TIDA-00223 - TI Tool Folder
    TIDA-00223?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Single-Phase Energy Meter Solution for Advanced Applications - TIDM-EMETER-CORTEXM3 - TI Tool Folder
    TIDM-EMETER-CORTEXM3?SYS-null-null-findchips-refdes-rd-null-wwe: This design features a dual-core microcontroller implementing an integrated electricity metering solution. The meter has been tested to prove 0.5% accuracy across a current dynamic range of 2000:1 by using a precision, low-noise op-amp and a programmable gain amplifier (PGA) to provide four gain stages. The metrology calculations are performed independently of the MCUs' integrated cores, leaving both MCUs available for other applications, including Power Line Communications(PLC). Developers will benefit from this design by taking advantage of both the M3 and C28x MCUs to provide the e-meter host applications and PLC communications.
  • Driving a Stepper Motor Reference Design with High Performance MCU - TIDM-TM4C123STEPPERMOTOR - TI Tool Folder
    TIDM-TM4C123STEPPERMOTOR?SYS-null-null-findchips-refdes-rd-null-wwe: An system example to show how to drive a stepper motor in full step and halfstep modes using a TM4C123 MCU and DRV8833 stepper motor driver.
  • High Definition (HD) Automotive SerDes w/ 24 Bit RGB Interface over twisted pair for TFT LCD Display
    TIDA-00132: The TIDA-00132 reference design is a high speed serial video interface to connect a remote automotive TFT LCD display with 720px60 format and 24Bit parallel RGB Interface to a video processing system. It uses TIs FPD-Link III SerDes technology to transmit uncompressed video data (with Content Protection - HDCP option) and bidirectional control signals over shielded twisted pair. This design incorporates the DS90UB925QSEVB and DS90UB926QSEVB boards together to create the solution
  • FPGA Firmware Project for Measuring Bit Errors in the Output Word of an A to D Converter - TIDA-00070 - TI Tool Folder
    TIDA-00070?SYS-null-null-findchips-refdes-rd-null-wwe: For applications where there are bit errors and resulting sample errors (also called sparkle codes, word errors, or code errors), the ability to measure the Error rates caused by these bit errors is important. This FPGA firmware based application note proposes a method to accurately measure these errors over an indefinite time and provides an example of how this measurement can be done using a simple FPGA platform. Code is available on request for the two examples described in the application note.
  • 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.
  • 50-Ohm 2-GHz Oscilloscope Front-end Reference Design - TIDA-00826 - TI Tool Folder
    TIDA-00826?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design is part of an analog front-end for 50Ω-input oscilloscope application. System designers can readily use this evaluation platform to process input signals from DC to 2 GHz in both frequency-domain and time-domain applications.
  • Inductive Proximity Switch BoosterPack Reference Design - TIDA-00563 - TI Tool Folder
    TIDA-00563?SYS-null-null-findchips-refdes-rd-null-wwe: The TIDA-00563 TI Design offers highly integrated complete analog front end (AFE) inductance-to-digital converters (LDCs) optimized for use in industrial proximity sensors for contactless and robust applications such as presence detection and event counting. Inductive sensing technology provides reliable and accurate sensing even in the presence on dirt, oil or moisture making them ideal for use in harsh or dirty environment. This reference design uses a 1.8V to 3.3V high resolution, high speed inductance-to-digital converter which provides a programmable decision threshold setting and wide sensor frequency range. The scope of this design guide is to give system designers a head-start in integrating TI’s inductance-to-digital converter (LDC), ultra-low-power MCU and power management devices into their end-equipment systems. This design guide describes the principle of operation and basic design process for building a high performance and high reliable inductive proximity switch at lower cost than other competing solutions. All the relevant design files like schematics, BOM, layer plots, Altium files, Gerber and MSP430 MCU firmware are provided.
  • 6Vin to 16Vin; 12Vout @ 16.7A; Single-Phase Synchronous Boost Converter - PMP7959 - TI Tool Folder
    PMP7959?SYS-null-null-findchips-refdes-rd-null-wwe: A single-phase synchronous boost converter that accepts an input voltage of 6Vin to 16Vin and provides an output of 12Vout capable of supplying 16.7A.
  • 10.8Vin to 13.2Vin; 12Vout @ 5A; Non-Isolated Synchronous Flyback Converter - PMP7992 - TI Tool Folder
    PMP7992?SYS-null-null-findchips-refdes-rd-null-wwe: A synchronous flyback converter accepting an input voltage of 10.8Vin to 13.2Vin and providing a non-isolated output of 12Vout capable of supplying 5A.
  • Three-Phase BLDC / PMSM Motor Drive with High-Performance Microcontrollers Reference Design
    TIDM-RM46XDRV8301KIT: This TI design describes a motor control evaluation kit for spinning 3-phase brushless DC and brushless AC (BLAC) - often referred to as permanent magnet synchronous (PMSM) – motors with example of sensorless Field Oriented / Vector Control (FOC). The implementation leverages the DRV8301 gate-driver IC as well as the TPS65381 Power-Management IC. This reference design can be used as a high-performance, power-efficient, cost-effective platform to speed up development of PMSM control algorithms.
  • Power Solution for 450W Automotive Audio Amplifier - PMP7837 - TI Tool Folder
    PMP7837?SYS-null-null-findchips-refdes-rd-null-wwe: The PMP7837 is a 4-phase synchronous boost converter that can take a 6-17V input and put out 24V at 450W. It is used for powering up to eight 50W automotive trunk amplifiers. The 4-phase synchronous design with 450kHz switching frequency per phase results in a compact and efficient circuit well suited for such applications.
  • 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.
  • 144W Single-Phase Synchronous Boost Converter With DCR Current Sensing - PMP9393 - TI Tool Folder
    PMP9393?SYS-null-null-findchips-refdes-rd-null-wwe: PMP9393 is a Single-Phase Synchronous Boost Converter which utilizes the LM5122 controller IC. The design accepts an input voltage of 18Vin to 20Vin and provides an output of 48Vout capable of supplying a maximum of 3A of current to the load. DCR current sensing has been implemented in order to reduce the BOM cost associated with using a high power current sense resistor.
  • LED Display Driver with Serial Interface Reference Design - TIDA-00206 - TI Tool Folder
    TIDA-00206?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design drives 8 seven-segment digits with brightness control, using a low-cost MSP430 and two DRV8860 octal low-side drivers. The display module gain benefits from DRV8860 on wide supply range, high current capability, PWM brightness control, serial daisy chain connection and expandable outputs for hundreds of LEDs. A complete solution and six demo display patterns are provide with the on-board MCU program along with the integrated protection from short-circuit, under voltage, and over-temperature.
  • 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.
  • 135W Single-Phase Synchronous Boost Converter Reference Design - PMP9431 - TI Tool Folder
    PMP9431?SYS-null-null-findchips-refdes-rd-null-wwe: The PMP9431 reference design is a high-efficiency single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 12Vin to 50Vin and provides an output of 54Vout capable of supplying 2.5A of current to the load.
  • 51V@1.25A Automotive Range Sync Boost converter - PMP8532 - TI Tool Folder
    PMP8532?SYS-null-null-findchips-refdes-rd-null-wwe: This wide input voltage range boost design operates from an input of 6.5V to 36V and provides two outputs of 51V@1.25A.
  • 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%.
  • Automotive Acoustic Knock Sensor Interface
    TIDA-00152: This TIDA-00152 reference design utilizes a dual-channel, signal processing IC for detection of premature detonation in combustion (gasoline) engines. The heart of this design is the TPIC8101 that serves as an interface between acoustical sensors or accelerometers and automobile engine management systems. Programmable features on this device include the selection of engine knock detection sensitivity, engine resonance frequency, and sampling rate control of on-board ADC and DAC in signal processing chain. These features allow the TPIC8101 to be a flexible interface that can adapt to cost and/or processing time constraints of the customer.
  • Inductive Linear Position Sensing Booster Pack Reference Design - TIDA-00460 - TI Tool Folder
    TIDA-00460?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • 7.5Vin to 10Vin; 11.5Vout @ 65A; 4-Phase Synchronous Boost Converter - PMP7937 - TI Tool Folder
    PMP7937?SYS-null-null-findchips-refdes-rd-null-wwe: A 4-phase synchronous boost converter that accepts an input voltage of 7.5Vin to 10Vin and provides an output of 11.5Vout capable of delivering 65A.
  • 18Vin to 20Vin; 53Vout to 84Vout @ 1A; Single-Phase Synchronous Boost Converter
    PMP7950: A single-phase synchronous boost converter that accepts an input voltage of 10.8Vin to 13.2Vin and provides an output of 53Vout to 84Vout capable of delivering 1A.
  • Microstepping Stepper Motor Control With MCU and Wi-Fi for IoT Reference Design - TIDM-TM4C123IOTSTEPPERMOTOR - TI Tool Folder
    TIDM-TM4C123IOTSTEPPERMOTOR?SYS-null-null-findchips-refdes-rd-null-wwe: A system example to show how to control a stepper motor via Wi-Fi connectivity. The TM4C123x MCU is integrated with the DRV8833 stepper motor driver to drive the stepper motor in full step, half step and microstep (up to 256) modes. The SimpleLink™ Wi-Fi CC3100 network processor is also integrated into the system to demonstrate the capability of remotely controlling MCU/stepper motor operation via the Internet.
  • 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.
  • 12.5Vin to 15.5Vin, 24Vout @ 8A Synchronous Boost Converter Reference Design - PMP9385 - TI Tool Folder
    PMP9385?SYS-null-null-findchips-refdes-rd-null-wwe: PMP9385 is a Single-Phase Synchronous Boost Converter which accepts an input voltage of 12.5Vin to 15.5Vin and provides an output of 24Vout capable of supplying a maximum of 8A of current to the load. Design uses an LM5122 Synchronous Boost controller and CSD18531Q5A FETs.
  • 6V to 8.4V input, 12Vout @ 84A Peak Pulse Multi-Phase Boost Converter Reference Design - PMP7921 - TI Tool Folder
    PMP7921?SYS-null-null-findchips-refdes-rd-null-wwe: 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%.
  • Dual-channel XAUI to SFI Reference Design for Systems with Two or More SFP+ Optical Ports
    TIDA-00234: The TIDA-00234 XAUI to SFI reference design is intended for Enterprise and Service Provider Networking applications like Ethernet Switches and Routers that implement multiple 10G Ethernet compliant Optical (SFP+) ports. This reference design features the TLK10232 device which is the most compact Dual-channel XAUI-to-SFI Transceiver with the lowest power consumption in its category. This reference design allows access to the high-speed signals (up to 10Gbps) generated by the TLK10232 via SMA connectors or an SFP+ Module via the SFP+ optical module cage. Also, featured is the CDCM6208 device that can provide extremely low-jitter Clock input to the TLK10232 in customer systems that do not have one available (or does not meet the jitter requirement of the system).
  • Power Solution for an Engineering Equipment Fuel Injector - PMP7967 - TI Tool Folder
    PMP7967?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • 51V@1.25A Automotive Range Sync Boost converter
    PMP8532: This wide input voltage range boost design operates from an input of 6.5V to 36V and provides two outputs of 51V@1.25A.
  • 9 to 16Vin 12Vout @ 5A Single-Phase Synchronous Flyback Converter Reference Design - PMP9258 - TI Tool Folder
    PMP9258?SYS-null-null-findchips-refdes-rd-null-wwe: A single-phase synchronous flyback converter accepting an input voltage of 9VDCin to 16VDCin and providing an output of 12VDCout capable of supplying 5A.
  • DisplayPort Video 4:1 Aggregation Reference Design
    TIDA-00309: This verified reference design is a complete four channel DisplayPort aggregation and de-aggregation solution. One TLK10022 is used to aggregate four synchronous DisplayPort (DP) sources together into one 10.8 Gbps serial link. The serial data is transferred via copper or optical fiber where a second TLK10022 is used to de-aggregate and seamlessly redisplay the original video content.
  • 30W Isolated Synchronous Flyback Converter Reference Design
    PMP10506: PMP10506 is an isolated synchronous flyback converter using the LM5122 controller IC. The design accepts an input voltage of 9Vin to 60Vin and provides an isolated output of 5Vout capable of supplying 6A of continuous current to the load.
  • JESD204B Link Latency Design Using a High Speed ADC - TIDA-00153 - TI Tool Folder
    TIDA-00153?SYS-null-null-findchips-refdes-rd-null-wwe: JESD204B links are the latest trend in data-converter digital interfaces. These links take advantage of high-speed serial-digital technology to offer many compelling benefits including improved channel densities. This reference design addresses one of the challenges of adopting the new interface: understanding and designing the link latency. An example achieves deterministic latency and determines the link latency of a system containing the Texas Instruments LM97937 ADC and Xilinx Kintex 7 FPGA.
  • 12Vin; 20Vout @ 8A; Single-Phase Synchronous Boost Converter
    PMP7961: A single-phase synchronous boost converter that accepts an input voltage of 12V and provides an output of 20Vout capable of supplying 8A.
  • 14Vin to 15.5Vin, 24Vout @ 8A Synchronous Boost Converter Reference Design
    PMP9386: PMP9385 is a synchronous dual-phase boost converter accepts an input voltage of 14V to 15.5V, and outputs 24V, capable of providing 8A of current to the load.
  • Class 3 5V/2.3A High Efficiency Synchronous Flyback Converter for PoE Application Reference Design - PMP9175 - TI Tool Folder
    PMP9175?SYS-null-null-findchips-refdes-rd-null-wwe: This converter is used for Class 3 PoE applications where high efficiency and isolation are required. The specific output for this design is 5V@2.3A. The flyback converter with synchronous rectifier provides excellent efficiency and small size for PoE applications such as a IP Phones. The TPS23753APW contains both the PoE Powered Device and the PWM controller functions
  • Basestation Transceiver with DPD Feedback Path
    TIDA-00068: The design is for a small cell base station development platform. It provides two real receive paths, two complex transmit paths, and a shared real feedback path. This design has macro basestation performance, but with small cell base station footprint. The current design handles up to 20MHz of bandwidth.
  • 30W Isolated Synchronous Flyback Converter Reference Design - PMP10506 - TI Tool Folder
    PMP10506?SYS-null-null-findchips-refdes-rd-null-wwe: PMP10506 is an isolated synchronous flyback converter using the LM5122 controller IC. The design accepts an input voltage of 9Vin to 60Vin and provides an isolated output of 5Vout capable of supplying 6A of continuous current to the load.
  • Class 1 Non-isolated Buck Converter (5V/560mA) for PoE PD Applications Reference Design - PMP9676 - TI Tool Folder
    PMP9676?SYS-null-null-findchips-refdes-rd-null-wwe: This converter is used for Class 1 PoE PD applications where isolation is not required. The TPS2378 PD controller plus LM5006 buck converter provide 5V/560mA with good efficieny in a small size. The LM5006 can be configured with a diode rectifier for lowest cost or a synchronous FET rectifier for improved efficiency.
  • 1-GHz Bandwidth Dual Channel Transmitter up to 4-GHz Reference Design - TIDA-00409 - TI Tool Folder
    TIDA-00409?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Non-Standard (>25.5W) PoE - High Efficiency Forward Converter (5V@10A) Reference Design - PMP8923 - TI Tool Folder
    PMP8923?SYS-null-null-findchips-refdes-rd-null-wwe: This converter provides a high power PoE output of 5V/10A. The TPS2379 PD controller allows the use of an external hot swap FET for increased efficiency. The UCC2897A PWM controller is used to implement a high efficiency active clamp forward converter.
  • Wide-Bandwidth and High-Voltage Arbitrary Waveform Generator Front End - TIDA-00075 - TI Tool Folder
    TIDA-00075?SYS-null-null-findchips-refdes-rd-null-wwe: This design shows how to use an active interface with the current sink output of the DAC5682Z - typical applications for this include front ends for arbitrary waveform generators. The EVM includes the DAC5682Z for digital-to-analog conversion, an OPA695 to demonstrate an active interface implementation using a wide bandwidth operational amplifier and a THS3091 and THS3095 to showcase an operational amplifier with large voltage swing. Also included on board are a CDCM7005, VCXO and Reference for clock generation, and linear regulators for voltage regulation. Communication to the EVM is accomplished via a USB interface and GUI software.
  • 192W Dual-Phase Synchronous Boost Converter Reference Design
    PMP9403: PMP9403 is a high-efficiency dual-phase synchronous boost converter using the LM5122 controller ICs. The design accepts an input voltage of 9Vin to 15Vin (12Vin Nominal) and provides an output of 48Vout capable of supplying 4A of continuous current to the load.
  • Single-Phase Energy Meter Solution for Advanced Applications
    TIDM-EMETER-CORTEXM3: This design features a dual-core microcontroller implementing an integrated electricity metering solution. The meter has been tested to prove 0.5% accuracy across a current dynamic range of 2000:1 by using a precision, low-noise op-amp and a programmable gain amplifier (PGA) to provide four gain stages. The metrology calculations are performed independently of the MCUs' integrated cores, leaving both MCUs available for other applications, including Power Line Communications(PLC). Developers will benefit from this design by taking advantage of both the M3 and C28x MCUs to provide the e-meter host applications and PLC communications.
  • 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).
  • Low Vin Flyback Reference Design for High Voltage Laser Flash Drive - PMP10666 - TI Tool Folder
    PMP10666?SYS-null-null-findchips-refdes-rd-null-wwe: PMP10666 is a 12W isolated flyback design that supports very low Vin of 3.3V-6V and is capable of delivering 100mA at 120V output. The design uses LM3481 Boost controller IC which works on current mode operation and can be synchronized to any frequency between 100KHz to 1 MHz. This design was built on a 2 layer board and is a simple, low-BOM-count, and low-cost design providing an isolated output.
  • 48V Vin Nominal, 100V Vout @ 1A Single-Phase Synchronous Boost Converter
    PMP7933: PMP7933 is a single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 48Vin +/-5% and provides an output voltage of 100Vout capable of supplying a maximum of 1A of current to the load. The design was built on the PMP7896 revB PCB.
  • LED Display Driver with Serial Interface Reference Design
    TIDA-00206: This reference design drives 8 seven-segment digits with brightness control, using a low-cost MSP430 and two DRV8860 octal low-side drivers. The display module gain benefits from DRV8860 on wide supply range, high current capability, PWM brightness control, serial daisy chain connection and expandable outputs for hundreds of LEDs. A complete solution and six demo display patterns are provide with the on-board MCU program along with the integrated protection from short-circuit, under voltage, and over-temperature.
  • High Definition (HD) Automotive SerDes w/ 24 Bit RGB Interface over twisted pair for TFT LCD Display - TIDA-00132 - TI Tool Folder
    TIDA-00132?SYS-null-null-findchips-refdes-rd-null-wwe: The TIDA-00132 reference design is a high speed serial video interface to connect a remote automotive TFT LCD display with 720px60 format and 24Bit parallel RGB Interface to a video processing system. It uses TIs FPD-Link III SerDes technology to transmit uncompressed video data (with Content Protection - HDCP option) and bidirectional control signals over shielded twisted pair. This design incorporates the DS90UB925QSEVB and DS90UB926QSEVB boards together to create the solution
  • Non-Standard (>25.5W) PoE - High Efficiency Forward Converter (5V@10A) Reference Design
    PMP8923: This converter provides a high power PoE output of 5V/10A. The TPS2379 PD controller allows the use of an external hot swap FET for increased efficiency. The UCC2897A PWM controller is used to implement a high efficiency active clamp forward converter.
  • 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.
  • Synchronizing Multiple JESD204B ADCs for Emitter Position Location Reference Design - TIDA-00467 - TI Tool Folder
    TIDA-00467?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Automotive eCall Reference Design - TIDA-00159 - TI Tool Folder
    TIDA-00159?SYS-null-null-findchips-refdes-rd-null-wwe: TIDA-00159 is a reference design for vehicles equipped with eCall systems which has the capability to enable phone calls to an emergency service center in the event of an accident. Customers can accelerate the design of their eCall systems by taking advantage of a complete reference design comprised of analog AEC-Q100 qualified integrated circuits (ICs) from TI. This design creates a robust, low cost solution that is scalable with flexible power operations which allows the system to be powered from the main car battery or the back-up cell battery. Note: TIDA-00159 is the second generation eCall reference design and it replaces the previous version TI Design AUTO-ECALL-REF
  • 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.
  • 7.5Vin to 10Vin; 11.5Vout @ 65A; 4-Phase Synchronous Boost Converter
    PMP7937: A 4-phase synchronous boost converter that accepts an input voltage of 7.5Vin to 10Vin and provides an output of 11.5Vout capable of delivering 65A.
  • 150W Boost Converter with LM5121 Reference Design - PMP8673 - TI Tool Folder
    PMP8673?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Three-Phase BLDC / PMSM Motor Drive with High-Performance Microcontrollers Reference Design - TIDM-RM46XDRV8301KIT - TI Tool Folder
    TIDM-RM46XDRV8301KIT?SYS-null-null-findchips-refdes-rd-null-wwe: This TI design describes a motor control evaluation kit for spinning 3-phase brushless DC and brushless AC (BLAC) - often referred to as permanent magnet synchronous (PMSM) – motors with example of sensorless Field Oriented / Vector Control (FOC). The implementation leverages the DRV8301 gate-driver IC as well as the TPS65381 Power-Management IC. This reference design can be used as a high-performance, power-efficient, cost-effective platform to speed up development of PMSM control algorithms.
  • Low Vin, Small Form Factor Flyback Reference Design for High Voltage Laser Flash Drive - PMP10712 - TI Tool Folder
    PMP10712?SYS-null-null-findchips-refdes-rd-null-wwe: PMP10712 is a 1.2W, small form factor, isolated flyback design that supports very low Vin of 3.3V-6V and is capable of delivering 10mA at 120V output. The design uses LM3481 Boost controller IC which works on current mode operation and can be synchronized to any frequency between 100KHz to 1 MHz. This design was built on a 2 layer board and is a simple, low-BOM-count, and low-cost design providing an isolated output.
  • 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.
  • 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.
  • 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.
  • RF Sampling 4-GSPS ADC Reference Design with 8-GHz DC-Coupled Differential Amplifier - TIDA-00431 - TI Tool Folder
    TIDA-00431?SYS-null-null-findchips-refdes-rd-null-wwe: Wideband radio frequency (RF) receivers allow greatly increased flexibility in radio designs. The wide instantaneous bandwidth allows flexible tuning without changing hardware and the ability to capture multiple channels at widely separated frequencies. This reference design describes a wideband RF receiver utilizing a 4-GSPS analog-to-digital converter (ADC), with an 8-GHz, DC-coupled, fully differential amplifier front end. The amplifier front end provides signal gain and allows capture of signals down to DC, which is not possible with a balun-coupled input.
  • 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.
  • 18 to 20Vin 25 to 85Vout @3A Continuous 5.7A Peak Dual-Phase Sync Boost Converter Reference Design
    PMP9309: A dual-phase synchronous boost converter accepting an input voltage of 18VDCin to 20VDCin and providing an output of 25VDCout to 85Vout capable of supplying 3A continuous and 5.7A peak.
  • Automotive Boost Converter with Reverse Battery Protection - PMP7936 - TI Tool Folder
    PMP7936?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Sync Boost 5V@4A for USB Battery Chargers - PMP5417 - TI Tool Folder
    PMP5417?SYS-null-null-findchips-refdes-rd-null-wwe: PMP5417 is a high efficiency synchronous boost converter using the TPS43000. The 2.5V-4.2V input allows operation from a 3.3V source as well as a lithium-ion battery. The output power is 5V/4A.
  • Complete PMBus Power System for Enterprise Ethernet Switches Reference Design
    PMP10896: Complete PMBus power system for 3 ASIC/FPGA cores, DDR3 core memory, and auxiliary voltages found on high-performance Ethernet Switches.
  • Power Solution for an Automotive Voltage Quality Module - PMP7916 - TI Tool Folder
    PMP7916?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Public Announcement Audio Reference Design utilizing best in class Boost Controller - PMP10710 - TI Tool Folder
    PMP10710?SYS-null-null-findchips-refdes-rd-null-wwe: PMP10710 is a 200W design for public announcement audio system which can be used in 100W +100W Stereo or 200W Woofer Applications. The design is broadly divided into four main stages:
  • Basestation Transceiver with DPD Feedback Path - TIDA-00068 - TI Tool Folder
    TIDA-00068?SYS-null-null-findchips-refdes-rd-null-wwe: The design is for a small cell base station development platform. It provides two real receive paths, two complex transmit paths, and a shared real feedback path. This design has macro basestation performance, but with small cell base station footprint. The current design handles up to 20MHz of bandwidth.
  • 9 to 60Vin 12Vout @ 5A Single-Phase Isolated Synchronous Flyback Converter Reference Design - PMP9256 - TI Tool Folder
    PMP9256?SYS-null-null-findchips-refdes-rd-null-wwe: PMP9256 is an isolated synchronous flyback converter utilizing the LM5122 for industrial applications. The benefit of using a synchronous flyback is higher efficiency compared to a non-synchronous flyback.
  • 16-bit 400KSPS 4-Ch. Multiplexed Data Acquisition Ref Design for High Voltage Inputs, Low Distortion
    TIPD151: This TI Verified Design implements a 16-bit, differential 4-channel multiplexed data acquisition system at 400KSPS throughput for high voltage differential input of ±20 V (40 Vpk-pk) industrial applications. The circuit is realized with a 16-bit successive-approximation-resistor (SAR) analog-to-digital converter (ADC), a precision high voltage signal conditioning front end, and a 4-channel differential multiplexer (MUX). The design details the process for optimizing the precision high voltage front end drive circuit using the OPA192 and OPA140 to achieve excellent dynamic performance with the ADS8864.
  • Optimizing LMH6554 to Drive High Speed ADCs - TIDA-00092 - TI Tool Folder
    TIDA-00092?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design shows the ability of the high-speed amplifier, LMH6554, to perform single-ended to differential conversion to drive high-speed analog-to-digital converters (ADCs) while maintaining excellent noise and distortion performance. Performance versus input frequency is shown for both AC and DC coupled applications while interfaced to the ADS4449 quad, 250-MSPS, 14-bit ADC. Various options for common-mode voltages, power supplies, and interfaces are discussed and measured to meet the requirements of a variety of applications. Anti-aliasing filter examples are shown along with the performance improvements that they provide.
  • Highly Efficient and Compact 100W Automotive Amplifier Reference Design with Boost Converter - PMP9484 - TI Tool Folder
    PMP9484?SYS-null-null-findchips-refdes-rd-null-wwe: PMP9484 is a 100W highly efficient and compact automotive amplifier reference design which can be used in 50W +50W stereo or 100W woofer applications. The design is broadly divided into three main stages: 1.) Highly efficient single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 7.5Vin to 20Vin (12Vin nominal) and provides an output of 24V capable of supplying 5A of continuous current to the load. The peak efficiency acheived is 98 percent. 2.) 50W+ 50W stereo audio amplifier with TPA3116D2 Class D device 3.) Very low cost stereo input to woofer bass input conversion
  • Automotive 60W Brushless DC (BLDC) Motor Drive - TIDA-00143 - TI Tool Folder
    TIDA-00143?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • 10.8Vin to 13.2Vin; 48Vout @ 7.3A; 4-Phase Synchronous Boost Converter
    PMP7944: A 4-phase synchronous boost converter that accepts an input voltage of 10.8Vin to 13.2Vin providing an output of 48Vout capable of delivering 7.3A.
  • 18 to 20Vin 25 to 85Vout @3A Continuous 5.7A Peak Dual-Phase Sync Boost Converter Reference Design - PMP9309 - TI Tool Folder
    PMP9309?SYS-null-null-findchips-refdes-rd-null-wwe: A dual-phase synchronous boost converter accepting an input voltage of 18VDCin to 20VDCin and providing an output of 25VDCout to 85Vout capable of supplying 3A continuous and 5.7A peak.
  • 9 to 16Vin 12Vout @ 5A Single-Phase Synchronous Flyback Converter Reference Design
    PMP9258: A single-phase synchronous flyback converter accepting an input voltage of 9VDCin to 16VDCin and providing an output of 12VDCout capable of supplying 5A.
  • 135W Single-Phase Synchronous Boost Converter Reference Design
    PMP9431: The PMP9431 reference design is a high-efficiency single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 12Vin to 50Vin and provides an output of 54Vout capable of supplying 2.5A of current to the load.
  • Low Vin Flyback Reference Design for High Voltage Laser Flash Drive
    PMP10666: PMP10666 is a 12W isolated flyback design that supports very low Vin of 3.3V-6V and is capable of delivering 100mA at 120V output. The design uses LM3481 Boost controller IC which works on current mode operation and can be synchronized to any frequency between 100KHz to 1 MHz. This design was built on a 2 layer board and is a simple, low-BOM-count, and low-cost design providing an isolated output.
  • 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.
  • Power Solution for an Automotive Voltage Stabilizer - PMP7919 - TI Tool Folder
    PMP7919?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Energy Harvester Booster Pack Reference Design - TIDA-00588 - TI Tool Folder
    TIDA-00588?SYS-null-null-findchips-refdes-rd-null-wwe: The TIDA-00588 reference design is a BoosterPack that harvests energy from a wide variety of current sources or from the onboard solar cells to power any low-power TI LaunchPad. This design is a highly integrated power management solution that is well-suited for ultra-low power applications. There are three storage methods on this board: 1)A 47mF super capacitor, 2) a LIR2032 coin cell, and 3) an external battery connector. You can use the onboard solar cells or add your own AC or DC current source.
  • High-Efficiency Adjustable Output Synchronous Boost Converter Reference Design
    PMP10538: PMP10538 is a Single-Phase Synchronous Boost Converter using the LM5122 controller IC. The design accepts an input voltage of 18Vin to 20Vin and provides an output of 30Vout to 54Vout, capable of supplying 1.7A of continuous current to the load or 0A to 3.4A Max. The output voltage can be adjusted between 30Vout and 54Vout by driving the Vadj. input of the Op-Amp circuit between 0V and 3V.
  • Synchronous Boost, Where the Output Follows the Input during Overshoot
    PMP7896: PMP7896 is a Sychronous Boost Converter with 12 Volts to 50 volts input and a output of 48 volts at 2.5 Amps continuous. The output follows the input during overshoot.
  • Solar Power Energy Harvester Reference Design Using a Super Cap
    TIDA-00242: This design is a Solar charger and energy harvester using a highly integrated power management solution that is well-suited for ultra-low power applications, like those enabled by MSP430 FRAM microcontrollers. The product is specifically designed to efficiently acquire and manage the microwatts (μW) to milliwatts (mW) needed to power your design. The storage method is a 47nF Super Capacitor that is charged and maintained by 4 series low power solar elements using MPPT (Maximum Power Point Tracking) .
  • Instrumentation Amplifier with DC Rejection Reference Design
    TIPD191: This design is an ac coupled instrumentation amplifier. More specifically, the circuit amplifies ac differential input signals and rejects dc differential and common mode signals. The input is dc coupled, so it achieves effective ac coupling by shifting the instrumentation amplifier reference voltage to cancel output offset.
  • Schematic and Layout Recommendations for the Giga Sample Per Second (GSPS) ADC
    TIDA-00071: This reference design is a guide to the schematics and layout for the system designer using a GSPS ADC in their system. Use this reference design along with the datasheet — the datasheet is always the final authority. Also, the ADC1xDxxxx(RF)RB Reference Board provides a useful reference design. All design source files for the Reference Board as well as the CAD/CAE symbols for the ADC are available on the product web page or TI-Designs for download. For the purpose of this document, ADC or GSPS ADC refers to the ADC12D1800RF, ADC12D1600RF, ADC12D1000RF, ADC12D800RF, ADC12D500RF, ADC12D1800, ADC12D1600, ADC12D1000, ADC10D1500, ADC10D1000, ADC12D1600QML, and ADC10D1000QML.
  • Class 4 PoE High Efficiency Active Clamp Forward Converter (3.3V) Reference Design
    PMP10288: The PMP10288 reference design is a Power Over Ethernet (POE) active clamp forward converter. It features the TPS23754, which is a combination of a POE Powered Device (PD) controller and PWM controller. CSD17501Q5A FETs are used for high efficiency synchronous rectification. The input accepts standard Type 2 POE voltage of 42.5VDC-57VDC or a 36VDC-57VDC auxiliary voltage. The output power is an isolated 3.3VDC at 6.9A with PoE input or 3.3VDC at 7.2A with auxiliary input.
  • 16-Bit 1-GSPS Digitizer Reference Design with AC and DC Coupled Variable Gain Amplifier - TIDA-00822 - TI Tool Folder
    TIDA-00822?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design discusses the use and performance of the Digital Variable-Gain high-speed amplifier, the LMH6401, to drive the high-speed analog-to-digital converter (ADC), the ADS54J60 device. Different options for common-mode voltages, power supplies, and interfaces are discussed and measued, including AC-coupling and DC-coupling, to meet the requirements of a variety of applications.
  • 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.
  • Clocking Solution Reference Design for GSPS ADCs
    TIDA-00359: Low cost, high performance clocking solution for GSPS data converters. This reference design discusses the use of a TRF3765, a low noise frequency synthesizer, generating the sampling clock for a 4 GSPS analog-to-digital converter (ADC12J4000). Experiments demonstrate data sheet comparable SNR and SFDR performance.
  • Automotive Acoustic Knock Sensor Interface - TIDA-00152 - TI Tool Folder
    TIDA-00152?SYS-null-null-findchips-refdes-rd-null-wwe: This TIDA-00152 reference design utilizes a dual-channel, signal processing IC for detection of premature detonation in combustion (gasoline) engines. The heart of this design is the TPIC8101 that serves as an interface between acoustical sensors or accelerometers and automobile engine management systems. Programmable features on this device include the selection of engine knock detection sensitivity, engine resonance frequency, and sampling rate control of on-board ADC and DAC in signal processing chain. These features allow the TPIC8101 to be a flexible interface that can adapt to cost and/or processing time constraints of the customer.
  • 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.
  • FPGA Firmware Project for Measuring Bit Errors in the Output Word of an A to D Converter
    TIDA-00070: For applications where there are bit errors and resulting sample errors (also called sparkle codes, word errors, or code errors), the ability to measure the Error rates caused by these bit errors is important. This FPGA firmware based application note proposes a method to accurately measure these errors over an indefinite time and provides an example of how this measurement can be done using a simple FPGA platform. Code is available on request for the two examples described in the application note.
  • Dual-channel XAUI to SFI Reference Design for Systems with Two or More SFP+ Optical Ports - TIDA-00234 - TI Tool Folder
    TIDA-00234?SYS-null-null-findchips-refdes-rd-null-wwe: The TIDA-00234 XAUI to SFI reference design is intended for Enterprise and Service Provider Networking applications like Ethernet Switches and Routers that implement multiple 10G Ethernet compliant Optical (SFP+) ports. This reference design features the TLK10232 device which is the most compact Dual-channel XAUI-to-SFI Transceiver with the lowest power consumption in its category. This reference design allows access to the high-speed signals (up to 10Gbps) generated by the TLK10232 via SMA connectors or an SFP+ Module via the SFP+ optical module cage. Also, featured is the CDCM6208 device that can provide extremely low-jitter Clock input to the TLK10232 in customer systems that do not have one available (or does not meet the jitter requirement of the system).
  • High-availability Seamless Redundancy (HSR) Ethernet for Substation Automation Reference Design - TIDEP0053 - TI Tool Folder
    TIDEP0053?SYS-null-null-findchips-refdes-rd-null-wwe: The TIDEP0053 TI Design implements a solution for high-reliability, low-latency network communications for substation automation equipment in Smart Grid transmission and distribution networks. It supports the High-availability Seamless Redundancy (HSR) specification in the IEC62439 standard and Precision Time Protocol specification in IEEE1588. This solution is a lower-cost alternative to FPGA approaches and provides the flexibility and performance to add features such as IEC61850 support without additional components.
  • 12Vin to 67Vin; 54Vout @ 4.8A; Dual-Phase Synchronous Boost Converter - PMP7979 - TI Tool Folder
    PMP7979?SYS-null-null-findchips-refdes-rd-null-wwe: A dual-phase synchronous boost converter that accepts an input voltage of 12Vin to 67Vin and provides an output of 54Vout capable of supplying 4.8A. Whenever the input voltage is at or above the 54Vout threshold, the output voltage will follow the input voltage, minus a small voltage drop.
  • Automotive eCall Reference Design
    TIDA-00159: TIDA-00159 is a reference design for vehicles equipped with eCall systems which has the capability to enable phone calls to an emergency service center in the event of an accident. Customers can accelerate the design of their eCall systems by taking advantage of a complete reference design comprised of analog AEC-Q100 qualified integrated circuits (ICs) from TI. This design creates a robust, low cost solution that is scalable with flexible power operations which allows the system to be powered from the main car battery or the back-up cell battery. Note: TIDA-00159 is the second generation eCall reference design and it replaces the previous version TI Design AUTO-ECALL-REF
  • Sync Boost 5V@4A for USB Battery Chargers
    PMP5417: PMP5417 is a high efficiency synchronous boost converter using the TPS43000. The 2.5V-4.2V input allows operation from a 3.3V source as well as a lithium-ion battery. The output power is 5V/4A.
  • Wide Vin Low Noise Triple Output Step Down Converter Reference Design - PMP9462 - TI Tool Folder
    PMP9462?SYS-null-null-findchips-refdes-rd-null-wwe: The reference design PMP9462 is a single input step-down converter with three low-noise outputs. The module uses LM43603, a synchronous step-down DC-DC converter capable of driving up to 3A of load current from an input voltage ranging 7V to 36V. The 5V output from LM43603 enables the LM26420 which further steps down this voltage to produce 1.8V and 2.5V outputs, capable of driving 1A load current each. This power supply is suitable for applications that require multiple outputs from a single input DC voltage. It provides good regulation performance over an input voltage range of 7V to 36V.
  • Wide-Bandwidth and High-Voltage Arbitrary Waveform Generator Front End
    TIDA-00075: This design shows how to use an active interface with the current sink output of the DAC5682Z - typical applications for this include front ends for arbitrary waveform generators. The EVM includes the DAC5682Z for digital-to-analog conversion, an OPA695 to demonstrate an active interface implementation using a wide bandwidth operational amplifier and a THS3091 and THS3095 to showcase an operational amplifier with large voltage swing. Also included on board are a CDCM7005, VCXO and Reference for clock generation, and linear regulators for voltage regulation. Communication to the EVM is accomplished via a USB interface and GUI software.
  • High Efficiency 36-60V Input Isolated Synchronous Flyback Reference Design with Dual Outputs
    PMP11065.2: PMP11065 is an isolated synchronous flyback converter with dual outputs of 3.3V/2.5A and 5V/2.8A. The 36-60V input is suitable for use in most telecom and PoE applications that require high efficiency.
  • 14Vin to 15.5Vin, 24Vout @ 8A Synchronous Boost Converter Reference Design - PMP9386 - TI Tool Folder
    PMP9386?SYS-null-null-findchips-refdes-rd-null-wwe: PMP9385 is a synchronous dual-phase boost converter accepts an input voltage of 14V to 15.5V, and outputs 24V, capable of providing 8A of current to the load.
  • 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.
  • High Fidelity Audio Headphone Playback Reference Design for Portable and Smartphone Applications - TIDA-00385 - TI Tool Folder
    TIDA-00385?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • 12V@5A Synchronous SEPIC Converter Reference Design
    PMP10886: This reference design operates from a 6V to 16V input and supplies 12V @ 5A out. It utilizes the LM5122 synchronous boost controller to operate as a synchronous SEPIC converter. The circuit achieves greater than 95% efficiency at maximum load.
  • 220W Synchronous 4 Switch Buck-Boost Converter - PMP9490 - TI Tool Folder
    PMP9490?SYS-null-null-findchips-refdes-rd-null-wwe: PMP9490 is a 225W four Switch Buck –Boost Design utilizing best in Class Synchronous Buck Boost Converter LM5175. The design accepts an input voltage of 9.5Vin to 20Vin and provides the outputs of 15V@15 A for Constant Voltage Output Application such as Voltage stabilizer or as Power amplifier SMPS, 10.8V to 15V@12.5A for CC/CV Battery Charger application, and 12.5 A for Constant Current LED Drive application. It features an inexpensive and more efficient solution to using discrete Buck and boost converters. The average current regulation loop of the IC at the output is used for Battery Charging profiling with no external circuit being involved.
  • 60W Synchronous Boost LED Driver Reference Design for Automotive Application - TIDA-00748 - TI Tool Folder
    TIDA-00748?SYS-null-null-findchips-refdes-rd-null-wwe: TIDA-00748 is a 60W Synchronous Boost Design for automotive LED application utilizing the Synchronous Boost Converter LM5122-Q1. This design applies to automotive lighting for exterior lighting such as headlights and taillights and also interior LED lighting systems. The design accepts an input voltage of 8Vin to 15Vin and can drive multiple strings of 6 to 7 LEDS (16V to 24V) in series at 3A constant current. It is a low cost solution and provides undervoltage as well as overvoltage protection. This solutions offers 97% efficiency compared to inefficient nonsynchronous Boost solutions. The TIDA-00748 can also be modified to a Boost-to-Battery configuration by connecting the cathode of the LED string (9V to 12V) to the input rather than ground and connecting the output capacitors from input to output. In this configuration, the 8V to 15V input can power strings of LEDs that require voltages lower than, higher than, or equal to the input voltage which would not work with the standard Boost configuration which requires the output voltage to be higher than the input voltage. See Figure 1 for the Boost-to-Battery configuration along with the internal block diagram of the LM5122.
  • 12V@5A Synchronous SEPIC Converter Reference Design - PMP10886 - TI Tool Folder
    PMP10886?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design operates from a 6V to 16V input and supplies 12V @ 5A out. It utilizes the LM5122 synchronous boost controller to operate as a synchronous SEPIC converter. The circuit achieves greater than 95% efficiency at maximum load.
  • Instrumentation Amplifier with DC Rejection Reference Design - TIPD191 - TI Tool Folder
    TIPD191?SYS-null-null-findchips-refdes-rd-null-wwe: This design is an ac coupled instrumentation amplifier. More specifically, the circuit amplifies ac differential input signals and rejects dc differential and common mode signals. The input is dc coupled, so it achieves effective ac coupling by shifting the instrumentation amplifier reference voltage to cancel output offset.
  • 144W Single-Phase Synchronous Boost Converter With DCR Current Sensing
    PMP9393: PMP9393 is a Single-Phase Synchronous Boost Converter which utilizes the LM5122 controller IC. The design accepts an input voltage of 18Vin to 20Vin and provides an output of 48Vout capable of supplying a maximum of 3A of current to the load. DCR current sensing has been implemented in order to reduce the BOM cost associated with using a high power current sense resistor.
  • Power-optimized 16-bit 1MSPS Data Acquisition Block for Lowest Distortion and Noise Reference Design - TIPD149 - TI Tool Folder
    TIPD149?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • 10.8Vin to 13.2Vin; 12Vout @ 5A; Non-Isolated Synchronous Flyback Converter
    PMP7992: A synchronous flyback converter accepting an input voltage of 10.8Vin to 13.2Vin and providing a non-isolated output of 12Vout capable of supplying 5A.
  • 12Vin to 50Vin; 54Vout @ 2.5A; Single-Phase Synchronous Boost Converter Reference Design - PMP7970 - TI Tool Folder
    PMP7970?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • 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.
  • Wide Vin Low Noise Triple Output Step Down Converter Reference Design
    PMP9462: The reference design PMP9462 is a single input step-down converter with three low-noise outputs. The module uses LM43603, a synchronous step-down DC-DC converter capable of driving up to 3A of load current from an input voltage ranging 7V to 36V. The 5V output from LM43603 enables the LM26420 which further steps down this voltage to produce 1.8V and 2.5V outputs, capable of driving 1A load current each. This power supply is suitable for applications that require multiple outputs from a single input DC voltage. It provides good regulation performance over an input voltage range of 7V to 36V.
  • 48V Vin Nominal, 100V Vout @ 1A Single-Phase Synchronous Boost Converter - PMP7933 - TI Tool Folder
    PMP7933?SYS-null-null-findchips-refdes-rd-null-wwe: PMP7933 is a single-phase synchronous boost converter using the LM5122 controller IC. The design accepts an input voltage of 48Vin +/-5% and provides an output voltage of 100Vout capable of supplying a maximum of 1A of current to the load. The design was built on the PMP7896 revB PCB.
  • 12Vin to 50Vin (67Vin Peak); 48Vout @ 2.5A; Single-Phase Synchronouos Boost Converter - PMP7965 - TI Tool Folder
    PMP7965?SYS-null-null-findchips-refdes-rd-null-wwe: A single-phase synchronous boost converter accepting an input voltage of 12Vin to 50Vin with a peak of 67Vin and providing an output of 48Vout capable of supplying 2.5A of current.
  • Compact CAN-to-Ethernet Converter using 32-bit ARM Cortex-M4F MCU Reference Design
    TIDA-00203: This reference design demonstrates a small form-factor Controller Access Network (CAN)-to-Ethernet converter using the TM4C129XNCZAD 32-bit ARM® Cortex™-M4F MCU. Supporting 10/100 Base-T compliant with IEEE 802.3 standard, this reference design is useful for industrial drives monitoring and control, as well as Supervisory Control and Data Acquisition (SCADA) systems. The same hardware can be used as a CAN-to-Ethernet gateway or bridge with simple changes in the firmware. The gateway application is useful for monitoring remote CAN networks over Ethernet, while the bridge application is useful for coupling CAN networks via the the internet or local area netowork (LAN).
  • Low Vin, Small Form Factor Flyback Reference Design for High Voltage Laser Flash Drive
    PMP10712: PMP10712 is a 1.2W, small form factor, isolated flyback design that supports very low Vin of 3.3V-6V and is capable of delivering 10mA at 120V output. The design uses LM3481 Boost controller IC which works on current mode operation and can be synchronized to any frequency between 100KHz to 1 MHz. This design was built on a 2 layer board and is a simple, low-BOM-count, and low-cost design providing an isolated output.
  • 6Vin to 16Vin; 12Vout @ 16.7A; Single-Phase Synchronous Boost Converter
    PMP7959: A single-phase synchronous boost converter that accepts an input voltage of 6Vin to 16Vin and provides an output of 12Vout capable of supplying 16.7A.
  • Class 4 PoE High Efficiency Active Clamp Forward Converter (3.3V) Reference Design - PMP10288 - TI Tool Folder
    PMP10288?SYS-null-null-findchips-refdes-rd-null-wwe: The PMP10288 reference design is a Power Over Ethernet (POE) active clamp forward converter. It features the TPS23754, which is a combination of a POE Powered Device (PD) controller and PWM controller. CSD17501Q5A FETs are used for high efficiency synchronous rectification. The input accepts standard Type 2 POE voltage of 42.5VDC-57VDC or a 36VDC-57VDC auxiliary voltage. The output power is an isolated 3.3VDC at 6.9A with PoE input or 3.3VDC at 7.2A with auxiliary input.
  • 270W Dual-Phase Boost Converter for Automotive Applications Reference Design
    PMP9595: This two-phase boost operates from 6V - 36Vin and supplies 18V at 15A out (inputs higher than 18V pass through to the output). Small surface mount components are realized thanks to a high switching frequency and ripple cancellation on input and output capacitors.
  • 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.
  • 18Vin to 20Vin; 53Vout to 84Vout @ 1A; Single-Phase Synchronous Boost Converter - PMP7950 - TI Tool Folder
    PMP7950?SYS-null-null-findchips-refdes-rd-null-wwe: A single-phase synchronous boost converter that accepts an input voltage of 10.8Vin to 13.2Vin and provides an output of 53Vout to 84Vout capable of delivering 1A.
  • Power Solution for an Automotive Fuel Injector - PMP7966 - TI Tool Folder
    PMP7966?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • High-Efficiency Single-Phase Synchronous Boost Conv for Automotive Infotainment Reference Design
    PMP10503: PMP10503 is a Single-Phase Synchronous Boost Converter using the LM5122 controller IC. The design accepts an input voltage of 7Vin to 36Vin (14Vin Nominal) and provides an output of 48Vout capable of supplying 1A of continuous current to the load. The design was built on the PMP7896 RevB PCB, which was modified to the PMP10503 design configuration and requirements.
  • High Efficiency 36-60V Input Isolated Synchronous Flyback Reference Design with Dual Outputs - PMP11065.2 - TI Tool Folder
    PMP11065: PMP11065 is an isolated synchronous flyback converter with dual outputs of 3.3V/2.5A and 5V/2.8A. The 36-60V input is suitable for use in most telecom and PoE applications that require high efficiency.
  • Solar Power Energy Harvester Reference Design Using a Super Cap - TIDA-00242 - TI Tool Folder
    TIDA-00242?SYS-null-null-findchips-refdes-rd-null-wwe: This design is a Solar charger and energy harvester using a highly integrated power management solution that is well-suited for ultra-low power applications, like those enabled by MSP430 FRAM microcontrollers. The product is specifically designed to efficiently acquire and manage the microwatts (μW) to milliwatts (mW) needed to power your design. The storage method is a 47nF Super Capacitor that is charged and maintained by 4 series low power solar elements using MPPT (Maximum Power Point Tracking) .
  • 9 to 60Vin 12Vout @ 5A Single-Phase Isolated Synchronous Flyback Converter Reference Design
    PMP9256: PMP9256 is an isolated synchronous flyback converter utilizing the LM5122 for industrial applications. The benefit of using a synchronous flyback is higher efficiency compared to a non-synchronous flyback.
  • Dual High Resolution Micro-stepping Driver Reference Design - TIDA-00641 - TI Tool Folder
    TIDA-00641?SYS-null-null-findchips-refdes-rd-null-wwe: This reference design achieves a dual channel high resolution micro-stepping driver module using PWM current regulation method. Selectable micro-stepping level and current level is provided with the on-board switches. The PWM regulation scheme gives smooth phase current and ultra-low acoustic operation noise. Protections such as over current, over temperature, and short outputs are all provided along with the DRV8848 device.
  • Driving a Stepper Motor Reference Design with High Performance MCU
    TIDM-TM4C123STEPPERMOTOR: An system example to show how to drive a stepper motor in full step and halfstep modes using a TM4C123 MCU and DRV8833 stepper motor driver.
  • 12Vin; 20Vout @ 8A; Single-Phase Synchronous Boost Converter - PMP7961 - TI Tool Folder
    PMP7961?SYS-null-null-findchips-refdes-rd-null-wwe: A single-phase synchronous boost converter that accepts an input voltage of 12V and provides an output of 20Vout capable of supplying 8A.
  • 12.5Vin to 15.5Vin, 24Vout @ 8A Synchronous Boost Converter Reference Design
    PMP9385: PMP9385 is a Single-Phase Synchronous Boost Converter which accepts an input voltage of 12.5Vin to 15.5Vin and provides an output of 24Vout capable of supplying a maximum of 8A of current to the load. Design uses an LM5122 Synchronous Boost controller and CSD18531Q5A FETs.
  • 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.
  • Power Solution for 450W Automotive Audio Amplifier
    PMP7837: The PMP7837 is a 4-phase synchronous boost converter that can take a 6-17V input and put out 24V at 450W. It is used for powering up to eight 50W automotive trunk amplifiers. The 4-phase synchronous design with 450kHz switching frequency per phase results in a compact and efficient circuit well suited for such applications.
  • ±15A Current Sensor using Closed-Loop Compensated Fluxgate Sensor Reference Design
    TIPD196: This single-supply, closed loop current transducer solution is designed to accurately measure dc, ac and pulsed currents. It allows for galvanically isolated current measurements up to 55 A before reaching saturation and features an integrated fluxgate sensor.
  • Dual-Wideband RF-to-Digital Receiver Design - TIDA-00073 - TI Tool Folder
    TIDA-00073?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Complete PMBus Power System for Enterprise Ethernet Switches Reference Design - PMP10896 - TI Tool Folder
    PMP10896?SYS-null-null-findchips-refdes-rd-null-wwe: Complete PMBus power system for 3 ASIC/FPGA cores, DDR3 core memory, and auxiliary voltages found on high-performance Ethernet Switches.
  • DisplayPort Video 4:1 Aggregation Reference Design - TIDA-00309 - TI Tool Folder
    TIDA-00309?SYS-null-null-findchips-refdes-rd-null-wwe: This verified reference design is a complete four channel DisplayPort aggregation and de-aggregation solution. One TLK10022 is used to aggregate four synchronous DisplayPort (DP) sources together into one 10.8 Gbps serial link. The serial data is transferred via copper or optical fiber where a second TLK10022 is used to de-aggregate and seamlessly redisplay the original video content.
  • JESD204B Link Latency Design Using a High Speed ADC
    TIDA-00153: JESD204B links are the latest trend in data-converter digital interfaces. These links take advantage of high-speed serial-digital technology to offer many compelling benefits including improved channel densities. This reference design addresses one of the challenges of adopting the new interface: understanding and designing the link latency. An example achieves deterministic latency and determines the link latency of a system containing the Texas Instruments LM97937 ADC and Xilinx Kintex 7 FPGA.
  • Multi-Phase Boost with a 35V in and 38 to 55 Volt Output - PMP7869.2 - TI Tool Folder
    PMP7869: PMP7869 is a 35 Volts multi-phase synchronous Boost with 38 to 55 volts out at 6 Amps continuous.
  • 8V @ 7A Synchronous Boost Reference Design with LM5121 - PMP10092 - TI Tool Folder
    PMP10092?SYS-null-null-findchips-refdes-rd-null-wwe: 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.
  • Class 3 5V/2.3A High Efficiency Synchronous Flyback Converter for PoE Application Reference Design
    PMP9175: This converter is used for Class 3 PoE applications where high efficiency and isolation are required. The specific output for this design is 5V@2.3A. The flyback converter with synchronous rectifier provides excellent efficiency and small size for PoE applications such as a IP Phones. The TPS23753APW contains both the PoE Powered Device and the PWM controller functions
  • Uncompressed Digital Video SerDes over Twisted Pair for Automotive Camera Systems
    TIDA-00138: The TIDA-00138 reference design is a high speed serial camera interface to connect a remote automotive camera module to a display or machine vision processing system. It uses TIs FPD-Link III SerDes technology to transmit uncompressed video data and bidirectional control signals over a twisted pair cable. Application examples are back-up camera, rear view camera, surround view system, arround view monitor, camera based park assist ssytems, mirror replacement, blind spot detection. This design incorporates the DS90UB901Q-Q1 and DS90UB902Q-Q1 devices to create the solution.
  • 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.
  • 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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PANASONIC ELECTRONIC COMPONENTS

RES, THICK FILM, 0R, 0.1W, 0603, REEL; Resistance:0ohm; Voltage Rating:75V; Resistor Case Style:0603 [1608 Metric]; Power Rating:100mW; Resistance Tolerance:-; Product Range:ERJ3G Series; Packaging:Tape & Reel ;RoHS Compliant: Yes

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