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

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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.

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

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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.

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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.

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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.

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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.

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常见的机械臂控制由数控发展而来，强调运动过程恒速稳定，很多控制器的速度控制采用混合式PID，在启动阶段产生极大的加速度以求快速到达所设定速度，由于固体本身的刚度，这种剧烈的速度变化对于数控加工场景或一般的固体搬运场景非常有效。但在液体搬运场景却会产生极大的影响，因此需要提出新的控制方法。这种控制方法必须对加速度

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很少的电梯维修管理员却需要管理维护大量的电梯，导致很难及时发现电梯故障。作者基于ST的SensorTile，实现传感器对电梯到站和故障的自动检测，为可能的智能控制系统作为输入，进而可以实现更高效便捷的电梯使用和管理。

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随着中国“基建狂魔”称号的广为人知，越来越多的劳动者们从事到一些危险工作中，如高空，井下，隧道，工程车辆。为了保证这些施工者的安全，发生事故能及时得到救援，我设计了这个工程人员安全黑匣子。该设备能够采集工程施工人员的心率、周围环境的温度，湿度，识别运动状态，判断是否发生坠落，碰撞事故。通过网络传输给远程监控中心，监控人员一旦发现异常，可以立即组织救援。

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本项目采用LSM6DSOX+STEVAL-MKI109V3模式进行前期传感器学习与研究，主要是从训练加速度传感器检测振动和录制振动波形，训练陀螺仪传感器检测振动方向和偏移量，并记录波形进行分析；结合加速度传感器和陀螺仪传感器的动作数据就可以确定风机塔筒在各种工况下的振动强度和振动方向；在实际运用中，LSM6DSOX传感器结合低功耗芯片STM32L010RBT6芯片，就地侧主控板引出报警继电器出口用于风机塔筒侧的报警输出，通过485串口通讯接入风机scada系统将就地侧上传记录数据实时反馈风机塔筒的工作状态，可以用于分析风机塔筒振动反向和风机塔筒摆动方向记录，也可以记录分析风机塔筒正常情况下的风机塔筒固有频率和故障时候的固有频率，多方面的数据形成可以提前感知的风机塔筒灾难预警系统；

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本项目采用LSM6DSOX高性能传感器和LIS25BA高精度骨传导传感器，实现对四轴机械臂的控制。通过LSM6DSOX结合FMS和MLC可实现对机械臂的物品抓取和放下。而通过LIS25BA可实现对震动的识别从而控制舵机完成相应动作。

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GNSS evaluation board based on Teseo-LIV3F for SPC5 microcontrollers

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Bluetooth communication board based on BlueNRG-1

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Class D automotive audio amplifier board with advanced diagnostics

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快速简便地从DC端口迁移至Type-C

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