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Описание:
TIDA-00324 is a power reference design that highlights the multiphase controller TPS53631 and the Smart Power Stage CSD95372BQ5M in a 12V Vin, 1.2V Vout at 120A application. This reference design can be used to help a user develop a Power Solution for CPU Vcore power or DDR4 power solution to enable faster development and quicker time to market.

Возможности:

Reference Design for a 12Vin, 1.2Vout, 120A Iout application using a 3-phase controller and Power Stage Complete BOM, schematic, and test data available for the reference design Design can be leveraged for CPU Vcore, DDR Memory Power, or applications needing a multiphase controller plus Power Stage TPS53631 is Intel® VR12.x Platform Serial VID (SVID) Compliant and can operate 1-, 2-, or 3-Phase configuration employing advanced control architecture D-CAP+ with advanced PMBus communication interface for device configurations and system telemetries CSD95372BQ5M smart power stage is a highly optimized design for use in a high-power, high-density applications which integrates the driver IC and power MOSFETs to complete the power stage switching function with accurate current sensing and temperature sensing functionality to simplify system design and improve accuracy

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
This verified reference design is a PCIe Gen-3 high-speed front-end card design to extend the PCB trace distance of a PCIe sub-system. The board is designed to fit in a x16 lane width PCIe Gen-3 slot between a motherboard and PCIe Gen3 add-in card. This reference design provides users with a useful guideline to incorporate the DS80PCI810 repeater into PCIe Root Complex ASIC and the Add-in Card designs of their own.

Возможности:

PCIe Gen-3 Riser Card compatible to a 16-lane PCIe Gen3 slot from Motherboard Extends PCB trace length of a PCIe Gen-3 sub-system Improves signal Integrity and system robustness Seamlessly compatible with link training between host from Motherboard and End-point card Proven design with compliance test report

Документация:
  • Схемотехника
  • BOM
  • Тестирование
Описание:
This reference design extends the link distance and loss budget of high speed SAS-3 data paths, using configurable equalization, de-emphasis, and output voltage. It supports SAS and SATA interfaces from 1.5 Gbps to 12 Gbps using a miniSAS-HD interface.

Возможности:

4x Lane SAS-3 design compatible to an external miniSAS-HD connector. Easily integrates to existing SAS environments with no additional software. Facilitates the use of common FR4 and other low-cost interconnect materials. Improve Signal Integrity and system rubustness Compatible with link training between host and storage system components. Compatible with OOB signaling in SAS/SATA systems

Документация:
  • Схемотехника
  • BOM
Описание:
The TIDA-00976 TI Design is a high-speed current-to-voltage circuit. This design is optimized for current-sense applications that require high-speed current measurements in the positive supply rail for voltages from 5 to 30 V. This design will reduce the common-mode voltage from 30 V and produce an output voltage centered at 2.5 V for sampling with an analog-to-digital converter (ADC). The output common mode can be easily changed by using different precision references.
Возможности:

Bandwidth > 15 MHz Convert Current-to-Voltage High-Side Voltage Range from 5 to 30 V Flexible Output Common-Mode Voltage

Документация:
  • Схемотехника
  • BOM
  • Топология платы
Описание:
The TIDA-01379 reference design permits to generate fast load transient signals required for the evaluation of converter stability. The board includes three separable load transient generators that are either regulated or non-regulated and are able to support different load configurations. The loads can be referenced to ground or floating.
Возможности:

Fast Transients Floating and GND-Referenced Loads Regulated Isolated

Документация:
  • Схемотехника
  • BOM
Описание:
This verified design can accurately measure current on a bus that carries hundreds of volts. This design is targeted for solar and server applications due to their wide high-voltage input range requirements. This design uses the INA260 current shunt monitor with integrated shunt resistor for current measurements, two P82B96 bidirectional buffers to facilitate I2C communication, and the ISOW7842 to allow isolated current measurements. The INA260 is limited by a common-mode voltage of 36 V; using the ISOW7842 allows the designer to float the INA260 side of the design to facilitate higher bus voltages.
Возможности:

Current Measurement on High-Voltage Bus (±1 kV) Power Isolated I2C Compatibility Reinforced Digital I2C Isolation to Microcontroller 1% System Accuracy

Документация:
  • Схемотехника
  • BOM
Описание:
This reference design implements a multi-MHz power stage design based on the LMG1210 half-bridge GaN driver and GaN power High Electron Mobility Transistors (HEMTs). With highly efficient switches and flexible dead-time adjustment, this design can significantly improve power density while achieving good efficiency as well as wide control bandwidth. This power stage design can be widely applied to many space-constrained and fast response required applications such as 5G telecom power, servers, and industrial power supplies.
Возможности:

Compact GaN-Based Power Stage Design With Switching up to 50 MHz Independent PWM inputs for high side and low side, or single PWM input with adjustable dead time Minimum pulse width of 3 ns High slew rate immunity of 300 V/ns Driver UVLO and overtermpertaure protection

Документация:
  • Схемотехника
  • BOM

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