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.
The EVALSTISO62XV1 allows a complete evaluation of the dual channel digital isolators of the STISO family.
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.
Nuvoton smart meter solution uses NuMicro® M2351/M2354 microcontroller based on Armv8-M TrustZone® architecture. By integrating in-house security technology, the solution provides the infrastructure for Advanced Meter Infrastructure (AMI), including device identification, communications security, remote management and secure over-the-air firmware updates (OTA).
This project uses the LSM6DSOX+STEVAL-MKI109V3 mode for preliminary sensor learning and research, mainly from training the acceleration sensor to detect vibration and recording vibration waveforms, training the gyroscope sensor to detect the vibration direction and offset, and recording the waveform for analysis; combined with the acceleration sensor and the action data of the gyroscope sensor can determine the vibration intensity and direction of the wind turbine tower under various working conditions; in practical applications, the LSM6DSOX sensor is combined with the low-power chip STM32L010RBT6 chip, and the main control board on the local side leads to an alarm relay. The outlet is used for alarm output on the wind turbine tower side. It is connected to the wind turbine scada system through 485 serial port communication to upload the recorded data on the local side to provide real-time feedback on the working status of the wind turbine tower. It can be used to analyze the vibration reverse and wind turbine tower vibration. Swing direction recording can also record and analyze the natural frequency of the wind turbine tower under normal conditions and the natural frequency during faults. The multi-faceted data forms a wind turbine tower disaster warning system that can be sensed in advance;
Quick and easy migration from DC ports to Type-C
5 V / 0.6 A Buck converter based on VIPER319X
15 V / 1.2 A SSR Flyback converter based on VIPer318L
Dual Output Isolated PSR Flyback Converter Using VIPER267KDTR for Smart Instruments and PLC Systems
Dual Output Isolated SSR Flyback Converter Using VIPER267KDTR for Smart Instruments and PLC Systems
Triple Output Isolated Flyback Converter Using VIPER267KDTR for STCOMET Smart Instruments and PLC Systems
STUSB4710A Evaluation Board (with onboard DC-DC)
15 V/100 mA High Voltage Buck Converter Reference Design Based on VIPER26K
5 V - 360 mA buck converter based on VIPer222XSTR
STUSB4710 Evaluation Board USB PD Controller with Onboard DC-DC
12 V - 5 W isolated flyback converter based on VIPer122LS
Resonant LCC 90 W laptop power adapter based on L6599 and STP9NK50ZF
Qi-based wireless power receiver reference design for wearable applications up to 2.5 W using STWLC68
15 V/200 mA step-down converter based on VIPER122
5 V/100 mA High Voltage Optimized Buck Converter Based on VIPer013BLS
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