Xilinx® Zynq®7000 Series (XC7Z015) Power Solution (5W) - Reference Design

This PMP10600.1 reference design provides all the power rails required to power the Xilinx® Zynq® 7000 Series (XC7Z015) FPGA. This design uses multiple LMZ3 series modules, multiple LDOs, and a DDR termination regulator. It also has an LM3880 for power-up and power-down sequencing. This design uses a 12V input voltage.

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Smart card interface demonstration board based on ST8034AT

Smart card interface demonstration board based on ST8034AT

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DER-915 - 84W high voltage input charger using InnoSwitch3-CP and PowiGaN technology with 93% efficiency

84 W isolated flyback power supply for chargers and adapters using PowiGaN-based InnoSwitch3-CP (INN3279C-H218)

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14-Channel Active Cell Balancing Battery Management Reference Design

Active Balance chipset used in large lithium-ion batteries provides monitoring, balancing and communication functions. With precise and reliable active balancing, Active Balance BMS enables bidirectional power transfer within each cell. Each EM1401EVM can manage 6 to 14 cells (up to 60V) in Li-ion battery applications. EM1401EVM modules can be stacked up to 1300V. The system provides fast cell balancing, diagnostic functions and modules for controller communication. An independent protection circuit is also provided.

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IEEE 802.3af compliant single-port, powered device applications

Power-over-Ethernet (PoE) technology enables power-sourcing equipment (PSE, a switch/router or midspan system) to deliver up to 15W of power to IEEE® 802.3af-compliant powered devices like IP phones and wireless LAN access points. This application note describes how to design a single-port PSE system to meet the IEEE 802.3af signature, classification, and power-management requirements. The single-port PSE in this example is designed using the MAX5922A IC.

Motor control system based on ADSP-CM408

For motor control systems, ADI can provide complete solutions covering all important devices in the signal chain. Related products include analog-to-digital/digital-to-analog converters, amplifiers, embedded processors, iCoupler® digital isolators and power management devices. These high-performance devices and increased system integration help achieve newer topology designs and bring value to customers' differentiated system designs.

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Reference design for automotive USB charger with line drop compensation

The design converts an 8V-42V DC input into a 5.1V output and is protected by the TPS2546-Q1 programmable current protection switch. Its handshake protocol enables fast charging of smartphones/tablets/handheld devices. By detecting the load current and adjusting the DC/DC output voltage, this design can implement linear USB cable differential compensation function to keep the USB port voltage within a limited range. This design is suitable for devices such as vehicle-mounted hosts and remote USB hubs.

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RDR-736 - 7W wide-range input, dual output, non-isolated flyback converter based on LinkSwitch-XT2 900 V

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MCIMX7SABRE: SABER circuit board based on i.MX 7Dual application processor for smart devices

NXPProvides SABER circuit board as a development platform for i.MX7Dual application processor, using ARM® Cortex®-A7 and Cortex®-M4 dual-core.

FRDM-KL02Z: Freedom Development Platform for the Kinetis ^® KL02 Family

CN0235

Fully isolated lithium-ion battery monitoring and protection system

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RDR-802 - 60W USB PD 3.0 with 3.3 V-21 V PPS power supply, using InnoSwitch3-Pro and Weltrend WT6635P controller

60 W USB PD 3.0 with PPS charger (5 V/3 A; 9 V/3 A; 15 V/3 A; 20 V/3 A; 3.3 V-21 V PPS outputs) using InnoSwitch3-Pro (INN3379C-H302) and Weltrend (WT6635P) USB PD controller

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i.MX 8 Series Accessory Board

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PF8100/PF8200 Customer Evaluation Board

The KITPF8100FRDMEVM and KITPF8200FRDMEVM are customer evaluation boards using the PF8100 and PF8200 power management ICs.

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Human Machine Interface (HMI) Reference Design for EV Charging Infrastructure

This processor-based reference design helps speed time to market and helps customers design cost-effective human-machine interface (HMI) solutions for electric vehicle (EV) charging infrastructure or EV power supply equipment (EVSE). This reference design demonstrates the two-dimensional (2D) Qt graphical user interface (GUI) common to EVSE HMI, as well as TI processor capabilities for software-rendered graphics. The AM335x processors provide scalability and a variety of processing speeds and compatible software to meet the needs of low-end to high-end applications. They also provide ample connectivity, including key peripherals required for EVSE HMI such as universal asynchronous receiver/transmitter (UART) and CAN).

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LED toys based on GD32F350

This LED toy uses an acceleration sensor to obtain acceleration, calculates position and acceleration, and displays the sand grains on the LED display. The sand grains flow and collide with the angle of the LED.

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Intelligent desktop interactive robot based on eps32s3

This design is an intelligent desktop interactive robot. As the name suggests, it is an intelligent robot that can interact with people. A 2.4-inch LCD screen is used as an important channel for human-computer information interaction. It also has voice recognition and sound playback functions, making contactless interaction more convenient. The interface design adopts the open source LVGL 8 GUI framework and uses ESP32S3 as the main control chip. The current regional temperature can be displayed on the interface, and the sound can be broadcast through voice interaction. It also displays the dynamics of the EEWORLD forum, including the display of the daily number of posts and the total number of posts. Through voice interaction, the voice broadcast of the total number of posts can also be obtained. . And the onboard LED lights can be controlled by voice.

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Display of cool effects of 448 digital tubes simulating water flow

Kinetic Digits is a mechanical flipping digital display, consisting of 448 7-segment digital tubes, simulating the effect of water flow. For various effects, it can be produced with the help of the provided host computer.

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MAXREFDES1033: 3A/3.3V and 3A/5V, single-phase, dual-output, synchronous, step-down DC-DC converter

The MAX17509 integrates two 3A internal switch step-down regulators with programmable features. The device can be configured as two single-phase, independent, 3A power supplies or as one dual-phase, single-output 6A power supply. It operates from a 4.5V to 16V input and generates independently adjustable output voltage in the ranges of 0.904V to 3.782V and 4.756V to 5.048V, with ±2% system accuracy. This device provides maximum flexibility to the end user by allowing one to choose multiple programmable options by connecting resistors to the configuration pins.

Low-voltage, low-noise power supply reference design for ultrasound front-ends

This reference design is a power supply optimized specifically for powering eight 16-channel receive AFE ICs in ultrasound imaging systems. This design uses a single-chip DC/DC converter + LDO combo regulator to set each LDO input just above the dropout voltage while fully utilizing the LDO PSRR, thereby reducing parts count while maximizing efficiency. In addition, ultra-low noise LDOs help achieve the highest possible analog-to-digital conversion resolution, resulting in higher image quality. The design's ability to synchronize the switching frequency with the master clock frequency and the system clock frequency allows system designers to apply simple filtering techniques to eliminate power switching noise on ground loops or use spread spectrum clocking to reduce EMI. Additionally, the design implements an electronic fuse device, providing a simple and flexible method of overcurrent protection.

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