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The STEVAL-MKI089V1 is an adapter board designed to facilitate the evaluation of MEMS devices in the LIS331DLH product family. The board can be plugged into a standard DIL 24 socket and provides the complete LIS331DLH pinout with required decoupling capacitors. The pinout of the adapter is fully compatible with all other available adapter boards, allowing for easy switching between sensors during device evaluation without the need for board redesign.
This file is an introduction to STEVAL-MKI088V1 LIS33DE adapter board, which introduces the features of the adapter board, including the pin definition and circuit diagram.
This data brief provides detailed information about the STEVAL-IPE010V1 energy meter demonstration kit motherboard based on the STPMC1 and STPMS1, including its features, specifications, and usage instructions.
This document describes the features and characteristics of the STPMS1 energy meter demonstration kit daughterboard, including the measurement range of voltage and current, operating temperature, etc.
This document describes the features and characteristics of the STEVAL-ILL016V2, a 15 watt regulated Triac-dimmable LED driver from STMicroelectronics. The driver is designed for the North American (115V) market and can drive strings of 4 to 12 jumper-selectable white LEDs connected in series. It has a maximum current of 1A (preset for 350mA as shipped), an undimmed power factor greater than 0.9, LED current ripple less than 20% P-P, and an isolated output for safe LED heatsinking. The driver is RoHS compliant.
This document is about STEVAL-CCM002V1 TFT-LCD panel demonstration board, which is based on STM32 as LCD controller and can display images and support static display model.
This datasheet introduces the features of the STEVAL-IEM003V1 motor driver circuit, including voltage range, power range, protection features, etc. The circuit adopts a 3-phase full bridge inverter topology, which is efficient and low power consumption.
This document details the features and characteristics of the STEVAL-IFV001V1 camera based on the STM32. The camera can be connected to the ZigBee and includes a microSD card and ZigBee module. It works with the monitoring unit (order code STEVAL-CCM003V1). The camera unit can be powered by USB or battery. A slider switch on the board allows selection of the power source.
This document describes a thermal printer-based parking ticket vending machine based on the STM32 microcontroller. It features a thermal printer interfaced through SPI2, a stepper motor driver interfaced through SPI1 used to rotate the printer head while printing, an S-Touch based keypad interfaced through I2C2 for user interface, LED indicators for battery status, and more.
This data sheet introduces the features and characteristics of the STEVAL-ISQ010V1 high-side current-sense amplifier demonstration board based on the TSC102. The board measures a very small voltage drop on a high-side shunt resistor and, using an internally fixed gain, amplifies the difference into a ground-referenced output voltage.
This document is about STEVAL-PCC008V1, which is an embedded Ethernet web client system based on the STR91 system software package with TFT, microSD card and keypad. The system is pre-programmed and can display images from the web. It includes a set of sample images to work with web server and complies with RoHS standard
This product is a 3000W photovoltaic inverter that can be connected to the grid or standalone loads, and has high efficiency and significantly reduced production costs
The STEVAL-ILL031V1 is a digital constant-current controller for LED driving based on the STM8S208x. It has a DC input voltage of 48V and adapts the output voltage through the Buck stage to drive LEDs with the selected current. The controller allows driving of 4 LED strings, managing up to 120W. Using 3W LEDs, each string can obtain 30W (10 LEDs in series in each string). Additionally, it features low voltage-sensing circuitry, logic level MOSFETs driven by the microcontroller without a gate driver (ground referred), and high efficiency (up to 98%).
