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CRCW06031K00JNEA

Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE AND ROHS COMPLIANT

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Part Number Description Manufacturer Compare
ERJ3GEYJ102V Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Panasonic Electronic Components CRCW06031K00JNEA vs ERJ3GEYJ102V
CRCW06031K00JNTB Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, HALOGEN FREE Vishay Intertechnologies CRCW06031K00JNEA vs CRCW06031K00JNTB
D1106038A1001JP5 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs D1106038A1001JP5
D1106038A1001JP0 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs D1106038A1001JP0
CRCW06031K00JNEAIF Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs CRCW06031K00JNEAIF
D1106038A1001JB5 Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs D1106038A1001JB5
CRCW06031K00JNEBIF Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs CRCW06031K00JNEBIF
CRCW06031K00JNECIF Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs CRCW06031K00JNECIF
CRCW06031K00JNELIF Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs CRCW06031K00JNELIF
CRCW06031K00JNEIIF Resistors Fixed Resistor, Metal Glaze/thick Film, 0.1W, 1000ohm, 75V, 5% +/-Tol, 200ppm/Cel, Surface Mount, 0603, CHIP, ROHS COMPLIANT Vishay Intertechnologies CRCW06031K00JNEA vs CRCW06031K00JNEIIF

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Datasheets & Reference Designs

Reference Designs

  • 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.
  • Altera Arria V SoC Power Supply Reference Design - PMP9360.6 - TI Tool Folder
    PMP9360: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • 1-kW/36-V Power Stage for Brushless Motor in Battery Powered Garden and Power Tools Reference Design
    TIDA-00285: This reference design is a power stage for brushless motors in battery-powered garden and power tools rated up to 1 kW. The power stage operates from a 10-cell lithium-ion battery with a voltage range from 36 to 42 V. The design uses CSD18540Q5B NexFETs featuring a very low drain-to-source resistance (RDS_ON ) of 1.8 mΩ in a SON5x6 SMD package, which results in a very small form factor of 57 × 59 mm. The three-phase gate-driver DRV8303 is used to drive the three-phase MOSFET bridge, which can operate from 6 to 60 V and support programmable gate current with maximum setting of 2.3-A sink / 1.7-A source. The power stage can be configured for a single-shunt or three-shunt current sensing. The design supports sensorless control for brushless DC (BLDC) and permanent magnet synchronous motors (PMSM) using trapezoidal control or field oriented control (FOC). The C2000™ Piccolo™ LaunchPad™ is used with the power stage to implement InstaSPIN™-FOC using the motor current and voltage feedback. The corresponding test report evaluates the thermal performance of the board and overcurrent protection features such as cycle-by-cycle control and latch control of the DRV8303.
  • 310W PSU Using Transition Mode Bridgeless PFC and LLC-SRC - Reference Design
    PMP9640: High efficiency, high power factor and reliable power supply are the main focus of the PMP9640 design for motor driver applications. Low cost analog transition mode (TM) PFC controller UCC28051 has been used for bridgeless PFC as the first conversion stage of the PMP9640. LLC series resonant converter (SRC) with UCC25600 is applied as the second stage of the PMP9640. In addition, a high-side buck converter with UCC28710 is applied here as the bias supply. In this design, bridgeless PFC efficiency can go up to 98.5%.
  • Altera Cyclone V SoC Power Supply Reference Design - PMP9353.7 - TI Tool Folder
    PMP9353: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.6: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.8: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • 36V, 32A Power Stage for BLDC Motor with Cycle by Cycle Stall Current Limiter
    TIDA-00436: This reference design is a power stage for brushless motors in battery-powered garden and power tools rated up to 1 kW, operating from a 10-cell lithium-ion battery with a voltage range from 36 to 42 V. The design uses 60V, N-channel NexFETsTM featuring a very low drain-to-source resistance (RDS_ON ) of 1.8 mΩ in a SON5x6 SMD package, which results in a very small PCB form factor of 57 × 59 mm. The three-phase gate-driver is used to drive a three-phase MOSFET bridge, which can operate from 6 to 60 V and supports programmable gate current with maximum setting of 2.3-A sink / 1.7-A source. The C2000™ Piccolo™ LaunchPad™ LAUNCHXL-F28027 is used along with this power stage and 120 degree trapezoidal control of BLDC motor with Hall sensors is implemented in software. The cycle by cycle current limit feature in the gate-driver protects the board from excessive current that is caused during motor stalls, by limiting the maximum current allowed in the power stage to a safe level.
  • Wide Input Voltage Range Automotive Cuk LED Driver Reference Design (35V @ 0.75A)
    PMP6012: PMP6012 reference design presents the TPS92690Q1 DC-DC controller driving a 18V to 35V string of LEDs at 750mA of current in a Cuk configuration. The Cuk topology features continuous input and output currents which helps reduce EMI and also allows one end of the LED string to connect to common ground allowing for a single wire system.
  • Dual Boost with +15V@300mA and -15V@300mA Output Reference Design
    PMP10091.2: This reference design provides positive and negative output of 15V.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.4: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • 300W High-Efficiency Single-Phase Synchronous Buck Converter Reference Design
    PMP10514: PMP10514 is a High-Efficiency Single-Phase Synchronous Buck Converter using the LM25117 controller IC. The design accepts an input voltage of 30.4Vin to 33.6Vin (32Vin Nominal) and provides an output of 20 Vout capable of supplying 15A of continuous current to the load.
  • High Efficiency 400W AC/DC Power Supply Reference Design - PMP11064.1 - TI Tool Folder
    PMP11064: PMP11064 is a high-efficiency AC/DC power supply reference design with universal AC input and 20V/20A output. Interleaved transition mode PFC and LLC series resonant converter is applied for 20V/20A main power. A PSR Flyback with MOSFET integrated controller is applied as the auxiliary supply. 91.2% efficiency is achieved at low line and full load. 93.1% efficiency is achieved at high line and full load.
  • 432W High-Efficiency Single-Phase Synchronous Buck Converter Reference Design
    PMP10509: PMP10509 is a High-Efficiency Single-Phase Synchronous Buck Converter using the LM25117 controller IC. The design accepts an input voltage of 30.4Vin to 33.6Vin (32Vin Nominal) and provides an output of 24Vout capable of supplying 18A of continuous current to the load.
  • 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.
  • High Efficiency 350W AC/DC Power Supply Reference Design
    PMP11303.1: PMP11303 is high-efficiency AC/DC power supply reference design with universal AC input and 25V/13.5A and 12V/1A outputs. LLC+PFC combo IC UCC29950 is applied for the main power stages with 25V/13.5A output while UCC28730 is applied for the auxiliary power with 12V/1A output. This design has low no load power comsumption (152mW@230VAC) and over 93% peak efficiency. This design also meet 80PLUS Gold requirement for 115VAC Internal power supplies.
  • Dual-Channel Full-Bridge Converter (54V @ 30A) for PoE Power Sourcing (PSE)
    PMP6712: PMP6712 is a phase-shifted full-bridge converter capable of delivering 1600W of isolated output power and achieving efficiency of greater than 96%. This design uses the UCC28950 controller in a dual phase master-slave configuration. An LM5017 constant on-time synchronous buck regulator provides bias power to primary and secondary-side circuits using a coupled inductor with isolated flyback winding. The isolation voltage is specified as 2250VDC, allowing this design to be used as a system supply for Power Over Ethernet and other telecommunications applications.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.2: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.5: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Backup Power Solution Using Supercap with TPS61030 for Data Concentrator Circuit Reference Design
    PMP9755: This reference design delivers a backup power circuit using a supercap with the boost converter TPS61030. In the low-power system that requires a backup switchover circuit at system's failure, a supercap together with TPS61030 could provide sufficient power to maintain data communication prior to the whole system's complete shutdown.
  • 6.5V/2A Boost Converter Reference Design
    PMP10026: This reference design provides an output voltage of 6.5V from an input voltage range of 3V to 6.5V.
  • Dual Boost with +15V@300mA and -15V@300mA Output Reference Design
    PMP10091.1: This reference design provides positive and negative output of 15V.
  • Analog Front End for Motor Electronic Overload Relays with Enhanced Current Range
    TIDA-00191: This reference design is the analog front end (AFE) for an electronic overload relay, used for monitoring and protecting motors from overcurrent or undercurrent events. It is an ideal tool for developers creating overload relays for sensitive AC motors in industrial applications. This programmable gain amplifier (PGA) based analog front end is intended to be an easy evaluation platform for an accurate, industry-leading 10:1 full load ampere (FLA) range and is repeatable over a -10 to +70°C temperature range.
  • 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.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.1: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design - PMP9353.1 - TI Tool Folder
    PMP9353: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.9: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Integrated 1-3S Standalone Battery Charger with EMI Compliance Reference Design
    PMP4397: The PMP4397 is a battery charger module reference design suitable for 2-cell battery applications with a DC input of 4.5V – 15V. Detailed data for radiated emissions compliance is provided. The cell number could be trimmed by resistors over a range from 1-cell to 3-cells. A typical application is for 2-cells (8.4V/2000mAH).
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.5: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.3: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Zero drift PGA based Analog Front End Design for Circuit Breakers (ACB/MCCB-ETU)
    TIDA-00130: This reference design is intended for use in molded case circuit breakers (MCCB) electronic trip units. The programmable gain amplifier based design acts as the current monitoring for over-current earth fault relays. Utilizing a zero drift programmable amplifier, this design provides a ±10 % pick-up (A) accuracy and time delay (s) accuracy of 0 to -20%. Additionally, this solution was designed to handle harsh environment conditions by including features such as ambient insensitivity from -10 to 70 ⁰C and high electromagnetic immunity. Finally the analog front end of this design interfaces seemlessly with the TI MSP430 MCU for quicker evaluation and faster time-to-market.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.2: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.6: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • High Efficiency 350W AC/DC Power Supply Reference Design
    PMP11303.2: PMP11303 is high-efficiency AC/DC power supply reference design with universal AC input and 25V/13.5A and 12V/1A outputs. LLC+PFC combo IC UCC29950 is applied for the main power stages with 25V/13.5A output while UCC28730 is applied for the auxiliary power with 12V/1A output. This design has low no load power comsumption (152mW@230VAC) and over 93% peak efficiency. This design also meet 80PLUS Gold requirement for 115VAC Internal power supplies.
  • 85V - 265V AC in, 12V/3.3A AC/DC Open Frame Power Supply Based on PSR Flyback Reference Design
    PMP9576: This reference design provides an isolated 12V/3.3A output from a universal 85V-265V AC input. This design achieves efficiencies greater than 84%. Employing the UCC28710D Primary Side Regulation (PSR) Flyback controller eliminates the opto-coupler and secondary side regulation components. The energy saving features of the UCC28710D allow this design to consume less than 75mW when plugged into the wall with no device attached to the output.
  • Flyback with Universal Input (85 - 264Vac), Dual Output 12V/2A and 3.3V/0.5A
    PMP9638: The PMP9638 reference design uses the UCC28740 Flyback with resonant-ring valley-switching controller to generate dual DC output 12V/2A and 3.3V/0.5A from a universal AC input. This design minimize switching loss in FET to provide high efficiency. The current regulation feature of the UCC28740 provides accurate current limit protection.
  • Current Controlled Driver for 230V AC Solenoids Reference Design
    TIDA-00284: TIDA-00284 proposes to integrate current control and plunger movement detection into an AC solenoid coil. This reference design provides a solution to control the solenoid current using a PWM-based controller along with a Hall sensor to detect plunger movement and switch from peak current to hold current mode Various applications in the field of industrial automation and material processing will benefit from up-to 70% reduced power consumption, accelerated process time, greatly simplified usage and enhanced monitoring capabilities.
  • 350W PSU with Universal AC Input and 28V Output - Reference Design
    PMP9531: High efficiency, high power factor and reliable power supply are the main focus of the PMP9531 design for motor driver applications. Transition mode (TM) power factor correction (PFC) with UCC28051 and LLC series resonant converter (SRC) with UCC25600 are applied in PMP9531. In addition, a high-side buck converter with UCC28710 is applied here as the bias supply. 93% converter efficiency is achieved at high line while still obtaining 90% converter efficiency at low line.
  • Audio Boom Box/Portable Speaker Reference Design with Efficient Boost Converter.
    PMP9491: PMP9491 is a 30W highly efficient and compact Portable Speaker/Audio Boom Box reference Design which can be used in 15W +15W Stereo or 30W Woofer Applications. The Power Source for the Design is 1 or 2 Li ion in Series . The design is broadly divided into three main stages:
  • Data Isolation for Loop Powered Applications Reference Design
    TIDA-00245: The focus of this design is the bidirectional communication across an isolation for loop powered applications. The challenge of such a solution is first of all the limited size within sensor transmitters and in case of a loop powered system the overall current consumption.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.1: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.7: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.3: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.10: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • 100-240VAC Input, 60W, 2-string, PWM Dimmable LED Driver Reference Design
    PMP6024: PMP6024 is an offline, LED driver circuit consisting of an isolated, power-factor corrected, constant output voltage flyback converter followed by two DC/DC buck LED current controllers. It is suitable for indoor or outdoor area lighting applications of 3500-5000 lumens (depending upon LED selection). LED brightness is controlled by a 3.3V, 10kHz PWM signal which is converted to a DC level adjustment of the LED string currents avoiding PWM modulation of the light output.
  • 4x 16W LED Driver Reference Design
    PMP10222: The PMP10222 reference design provides a solution for 4 individual, synchronizable and dimmable LED Drivers, which convert an input voltage of 30V-40V to 1A output current with a maximum output voltage of 16V.
  • Highly Efficient Power & Data Transmission for Isolated Low Power Applications Reference Design
    TIDA-00459: TIDA-00459 provides a turnkey solution for the design and evaluation of sensor transmitters and other applications requiring isolated data transmission and isolated power conversion. The design is based on the LaunchPadTM form factor and showcases a unique power saving methode for transmitting the data accross the isolation barrier. The highly efficient on-board isolated DC/DC converter enables its use in low power applications and applications with limited input power budget like 4- to 20-mA loop powered systems. Watch a TIDA-00349 Overview video, covering the same isolated power topology as used in TIDA-00459 NOW
  • Altera Cyclone V SoC FPGA Power Reference Design
    PMP9353: The PMP9353 reference design is a complete power solution for Altera Cyclone V SoC devices. This design uses several LMZ3 series modules , two LDOs, and a DDR termination regulator to provide all the necessary rails to power the SoC chip. This design also shows correct power-up sequencing.
  • Primary Side Regulated Flyback Reference Design with 120VAC Input and 24V/4A Rated Output
    PMP10804: This reference design implements the UCC28630 PSR controller in a flyback power supply. The UCC28630 is capable of operating in both Continuous and Discontinuous Conduction Modes which enables high efficiency while reducing inductor size and cost. Safety standards such as EN60950 require that any X-capacitors in EMC filters on the AC side of the bridge rectifier quickly discharge to a safe level when AC is disconnected. Typically, this requirement is achieved by including a resistive discharge element in parallel with the X-capacitor. However, this resistance causes a continuous power dissipation that impacts the standby power performance. In order to reduce standby power and eliminate the standing loss associated with the conventional discharge resistors, the UCC28630 device incorporates active X-capacitor discharge circuitry. In this design, less than 100mW no load power comsumption and over 88% converter efficiency is achieved.
  • RS-485 / RS-232 Multiprotocol Transceiver Reference Design
    TIDA-00540: This design (TIDA-00540) allows for communication over RS-485 or RS-232 data buses without requiring separate wiring for each. Data lines are shared between two different transceiver types, and a single control signal is used to determine which protocol is to be used.
  • High Efficiency Isolated CAN & Profibus Interface Reference Design
    TIDA-00012: The High Efficiency Isolated CAN & Profibus Interface Solution TI Design is intended for use in industrial systems that require isolated power for CAN and/or Profibus transceivers. This TI Design highlights the ability to completely shut off both the power converter and data transceivers with just one GPIO signal from a microcontroller (when dropping into low power modes, for example). This isolated interface solution delivers accurately regulated rails for both primary and secondary power to TI’s Profibus and CAN transceivers without costly opto-coupler feedback circuits – making this the simplest, most efficient and flexible isolated interface solution for industrial automation on the market today. Other solutions using transformer drivers are not efficient and do not have the ability to be easily turned off and require additional components to regulated the secondary rail. Lastly, this TI Design has the additional feature of allowing the MCU to wait until power is good before transmitting data or to stop transmitting data if a power fault has occured on the interface. The Tiva C Series Launch Pad form factor of this TI Design allows easy connection to the LaunchPad board for use of the Tiva C microcontroller in handling the communications protocol to the interface. The combination of the two boards provides a complete, low cost CAN and Profibus communication solution.
  • Altera Arria V SoC FPGA Power Solution Reference Design
    PMP9360: The PMP9360 reference design is a complete power solution for Altera's Arria V™ SoC devices. This design uses several LMZ3 series modules , an LDO, and a DDR termination regulator to provide all the necessary rails to power the SoC chip. This design also shows correct power up sequencing.
  • 35V to 60V Input, 600W Output Dual-Phase Synchronous Buck Converter with Greater than 97% Efficiency
    PMP7282: This 600W wide voltage input dual phase power converter uses two emulated current-mode controllers 180 degrees out of phase to minimize input and output ripple current. Compared to conventional isolated power converters, this synchronous buck architecture provides a reduced footprint and BOM cost at higher levels of efficiency, greater than 97% over several operating conditions.
  • PSR Flyback using UCC28630 for Universal 85VAC-265VAC Input with 12V/75W Rated Output Ref. Design
    PMP10335: This design uses the PSR controller UCC28630 that is capable of operating in both CCM and DCM. With the help of X-cap discharge function of UCC28630, the safety discharge resistor can be elimiated. Full load efficiency is 83.5% at 120VAC/60Hz input and 86% at 230VAC/50Hz input.
  • Altera Arria V SoC Power Supply Reference Design
    PMP9360.7: This reference design provides all the power supply rails necessary to power Altera's Arria V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.
  • Two-Wire Interface to a HIPERFACE DSL Encoder Reference Design
    TIDA-00177: The TIDA-00177 reference design is an EMC compliant industrial interface to a two-wire HIPERFACE DSL encoder. Applications include industrial servo drives. The design features a 3.3-V supply RS485 transceiver and line termination and coupling for encoder power over RS485 as per HIPERFACE DSL specification. The design has been tested up to 100m cable length with an integrated cable, where the encoder’s two-wire twisted pair was integrated in the same motor cable. The encoder connector output is protected against over-voltage and short circuit to prevent damage to an encoder or during a cable short. The design features an industrial compliant 24-V input with wide range from 18-36V. A 3.3V I/O connector with logic signals for easy interface to a host processor with HIPERFACE DSL Master IP Core is made available.
  • Universal AC Input, 5V/10A/50W PSR Flyback Power Supply W/Rapid Load Transient Response Ref Design
    PMP10407: PMP10407 is a quasi-resonant Flyback power suppy based on the UCC28730 primary side regulation (PSR) controller demonstrating the use of wake up device UCC24650 to achieve rapid load transient response from light load condition when the system is under low frequency operation. The elimination of optocoupler using PSR topology promises higher reliability and lower system cost. The design achieves less than 50mW standby power losses and over 86% efficiency at 25% load. The design also features UCC24610 synchronous rectification controller and demonstrates the use of UCC24650's ENS pin output to enforce diode rectification at light load conditions to reduce stand-by power losses.
  • Multi-Cell Battery Manager Unit with Integrated Charging, Gauging, Authentication and Protection
    TIDA-00553: The Texas Instruments bq40z60 device is a Battery Pack Manager that integrates battery charging control output, gas gauging, and protection for completely autonomous operation of 2-series to 4-series cell Li-Ion and Li-Polymer battery packs. The architecture enables internal communication between the fuel gauging processor and battery charger controller to optimize the charging profile based on the external load conditions and power path source management during load transients and adaptor current limitations in the system. The charging current efficiency is scalable for power transfer based on the external components, such as the NFETs, inductor, and sensing resistor.
  • Universal AC Input 5V/10A/50W PSR Flyback Power Supply With Over 89% Avg Efficiency Reference Design
    PMP10974: PMP10974 is a quasi-resonant Flyback power suppy based on the UCC28730 primary side regulation (PSR) controller. The elimination of optocoupler using PSR topology promises higher reliability and lower system cost. The design achieves less than 40mW standby power losses and over 89% average efficiency. The design also features UCC2463x synchronous rectification controller.
  • Altera Cyclone V SoC Power Supply Reference Design
    PMP9353.4: This reference design provides all the power supply rails necessary to power Altera's Cyclone V SoC FPGA. This design uses LMZ3 series modules to generate the rails to power the FPGA.

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Part Number ( parts) Qty CPN Designator Partent PN

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