38 V, 3 A synchronous step-down switching regulator evaluation board based on L6981NDR

The STEVAL-L6981NDR is based on the L6981NDR synchronous monolithic step-down regulator delivering up to 1.5 A DC.

Schematic PCB

Demonstration board for MASTERGAN4 high power density half-bridge high voltage driver with two 650 V enhancement mode GaN HEMTs

The EVALMASTERGAN4 board is an easy to use and quick to adapt tool to evaluate the characteristics of MASTERGAN4 and to quickly create new topologies without the need of complete PCB design.

DC/DC Resonant Converter for Industrial Applications Using MasterGaN1

This demonstration board is a resonant LLC converter dedicated to any kind of industrial application where minimum size and high efficiency is required, based on MasterGaN1. This device, embedding a couple of GaN power transistors and a driver in the same package, allows to interface directly any kind of SMPS controller.

Three-phase inverter based on STSPIN32F0602

The EVSPIN32F06Q2S1 board is a 3-phase complete inverter based on the STSPIN32F0602 controller, which embeds a 3‑phase 600 V gate driver and a Cortex®-M0 STM32 MCU.

Adapter board for connecting DIL 24 MEMS sensor board to SPC5 MCU discovery board

The AEK-CON-SENSOR1 connector board is designed to interface MEMS sensor boards in DIL 24 socket to an SPC5 MCU discovery board like the AEK-MCU-C4MLIT1 hosting a SPC58EC80E5 Chorus family automotive MCU with 4 MB flash.

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High power factor smart LED driver reference design using BLE Mesh network for indoor lighting

The STEVAL-LLL012V1 smart LED driver reference design is composed of a power board and a connectivity board.

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L5964-based digitally controlled DC-DC converter up to 5A designed for automotive and transportation applications

The AEK-POW-100W4V1 is a very compact DC-DC converter for automotive and transportation applications which allows regulating the output voltage in two different modes: fixed outputs and PPS (Programmable Power Supply) with 20 mV steps.

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L9026 configurable multi-channel driver evaluation board

The EVAL-L9026-YO is a low-cost tool designed to evaluate L9026, a smart power device designed by STMicroelectronics in advanced BCD technology. The L9026 is an eight channels IC, with 2 fixed HS drivers and 6 configurable HS/LS drivers designed for Automotive applications (LEDs and Relays) and compatible with resistive, inductive, and capacitive loads

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Evaluation board for ISOSD61L isolated sigma-delta converter

The EVALST-ISOSD61L is a full-featured evaluation board designed to allow the user to evaluate all the features of the ISOSD61L isolated analog-to-digital converter (ADC).

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Evaluation board for ISOSD61 isolated sigma-delta converter

The EVALST-ISOSD61T is a full-featured evaluation board designed to allow the user to evaluate all the features of the ISOSD61 isolated analog-to-digital converter (ADC).

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ST8500 PLC & RF Hybrid Connectivity Development Kit

The EVLKST8500GH hybrid connectivity solution for the ST8500 SoC platform combines the advantages of both PLC and RF technologies to enable applications with the best coverage in any network conditions and topologies.

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ST8500 PLC & RF Hybrid Connectivity Development Kit

The EVLKST8500GH hybrid connectivity solution for the ST8500 SoC platform combines the advantages of both PLC and RF technologies to enable applications with the best coverage in any network conditions and topologies.

Schematic PCB

100W ultra-wide range flyback converter based on L6566BH

The STEVAL-ISA211V1 flyback converter is designed for industrial or photovoltaic sectors to be used as an auxiliary power supply.

Schematic PCB

MASTERGAN2 High Power Density Half-Bridge High Voltage Driver Demonstration Board with Two 650V Enhancement Mode GaN HEMTs

The EVALMASTERGAN2 board is an easy to use and quick to adapt tool to evaluate the characteristics of MASTERGAN2 and to quickly create new topologies without the need of complete PCB design.

Schematic PCB

Dual Channel Digital Isolator Evaluation Board

The EVALSTISO62XV1 allows a complete evaluation of the dual channel digital isolators of the STISO family.

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Three-phase inverter based on STSPIN32F0251

The EVSPIN32F02Q1S1 board is a 3-phase complete inverter based on the STSPIN32F0251 controller, which embeds a 3‑phase 250 V gate driver and a Cortex®-M0 STM32 MCU. The power stage features STD17NF25 MOSFETS, but can be populated with any IGBT or Power MOSFET in DPAK or powerFLAT 6x5 package.

Schematic PCB

Three-phase inverter based on STSPIN32F0601

The EVSPIN32F06Q1S1 board is a 3-phase complete inverter based on the STSPIN32F0601 controller, which embeds a 3‑phase 600 V gate driver and a Cortex®-M0 STM32 MCU. The power stage features STGD6M65DF2 IGBTs, but can be populated with any IGBT or Power MOSFET in DPAK or powerFLAT 8x8 HV package.

Schematic PCB

USB to I2C/UART interface board for use with STNRG digital power controller products (STNRG01x and STone)

The STEVAL-PCC020V2 is a board with the purpose to interface a Windows® based PC with HVDPS products such as STNRG01x or STone. It is basically a bidirectional bridge between USB and I²C/UART buses.

Schematic PCB

300W high AC input voltage LED driver with digital power control

The STEVAL-LLL009V1 digitally controlled 300 W power supply consists of power factor correction (PFC) and half-bridge LCC resonant converter power stages. An STM32F334R8 microcontroller implements DC-DC and output synchronous rectification digital control, while the PFC is driven in transition mode by the L6562AT controller. The system supports constant voltage (CV) and constant current (CC) operation.

Schematic PCB

Evaluation of motion stability of the end of the robotic arm (with linux real-time waveform client source code attached)

Common robotic arm controls are developed from CNC, emphasizing constant speed and stability in the motion process. Many controllers use hybrid PID for speed control, which generates great acceleration during the startup phase in order to quickly reach the set speed. Due to the solid state of the solid itself Stiffness, this drastic speed change is very effective for CNC machining scenarios or general solid handling scenarios. However, it will have a huge impact in liquid handling scenarios, so new control methods need to be proposed. This control method must control the acceleration

Schematic PCB