This is a reference design of a PCB utilizing the TMF8801-1BM time-of-flight (ToF) sensor from ams-OSRAM. It comprises electronic components such as resistors, capacitors, voltage regulators, and GPIO connectors. The logic signals are managed via Mosfets BSS138 while the Sensor IC is powered & controlled by a 3.3V AP2112K Voltage Regulator.
#industrialSensing #referenceDesign #lzer #I2C #osramusa #template #reference-design
This project designs a Linux Single Board Computer using STM32MP157FAC1, featuring DDR memory, a power management IC, USB and SD card interfaces, and essential user controls, aimed at versatile embedded applications.
A magical project with STM32 that will allow you to create an incredible impression for your friends with the help of 48 LEDs that can be controlled via PCAL6524
#led #helloween #stm32
This project designs a Linux Single Board Computer using STM32MP157FAC1, featuring DDR memory, a power management IC, USB and SD card interfaces, and essential user controls, aimed at versatile embedded applications.
Control board for autonomous or radio-controlled robots.
It has inputs to connect distance sensors and encoders for autonomous mode.
It can be radio controlled by the ESP32 bluetooth or by connecting a Flysky RC controller receiver to the IBUS port.
It also has 3 push buttons and you can connect some kind of display by I2C to visualize and select configuration modes.
Control board for autonomous or radio-controlled robots.
It has inputs to connect distance sensors and encoders for autonomous mode.
It can be radio controlled by the ESP32 bluetooth or by connecting a Flysky RC controller receiver to the IBUS port.
It also has 3 push buttons and you can connect some kind of display by I2C to visualize and select configuration modes.
This is a smart blind control system reference design designed to automate the operation of window blinds. It utilizes an ESP32 microcontroller for managing control signals and an A4988 stepper motor driver to control blinds' movement. It also includes USB interfacing and LED feedback.
#referenceDesign #edge-computing #edgeComputing #espressif #template #blind #DC #motor #servo #esp32 #reference-design
This is a 7-segment controller. It runs on a 3-bit counter so the count is from 0-7. Buttons to toggle reset, pause, increment. Knobs to control speed and lighting configuration.
Try the simulation here:
https://www.flux.ai/jbreidfjord-dev/7-seg-3-bit-counter
Control board for autonomous or radio-controlled robots.
It has inputs to connect distance sensors and encoders for autonomous mode.
It can be radio controlled by the ESP32 bluetooth or by connecting a Flysky RC controller receiver to the IBUS port.
It also has 3 push buttons and you can connect some kind of display by I2C to visualize and select configuration modes.
Forked from original project: https://www.flux.ai/jr98/esp32-robot-controller
Control board for autonomous or radio-controlled robots.
It has inputs to connect distance sensors and encoders for autonomous mode.
It can be radio controlled by the ESP32 bluetooth or by connecting a Flysky RC controller receiver to the IBUS port.
It also has 3 push buttons and you can connect some kind of display by I2C to visualize and select configuration modes.
This is a smart blind control system reference design designed to automate the operation of window blinds. It utilizes an ESP32 microcontroller for managing control signals and an A4988 stepper motor driver to control blinds' movement. It also includes USB interfacing and LED feedback.
#referenceDesign #edge-computing #edgeComputing #espressif #template #blind #DC #motor #servo #esp32 #reference-design
A smart ESP32-based battery management system controller board for Lithium ion battery packs/cells. Capable of communicating to wide varieties of hybrid-smart inverters with CANbus, RS485 and UART communication.
A smart ESP32-based battery management system controller board for Lithium ion battery packs/cells. Capable of communicating to wide varieties of hybrid-smart inverters with CANbus, RS485 and UART communication. #smartHomeDevices
This is a STM32F4 Flight Controller template with 6-axis Accelerometer, Gyroscope. With OSD generator MAX7456EUI. #drone #flightController #STM32F405 #controller #OSD #video #referenceDesign #project #MPU6000 #template
This project is a controller module that uses the ESP32-WROOM-32E and the MAX3485 to communicate with Modbus devices. It has a USB-C port for power and data, a voltage regulator for stable operation. It also has a CH340C chip for USB to serial conversion. #referenceDesign #project #ESP32 #ESP32WROOM #RF #WIFI #MCU #reusable #module #simple-embedded #espressif #template #MAX3485 #RS485 #maximintegrated
This project is a controller module that uses the ESP32-WROOM-32E and the MAX3485 to communicate with Modbus devices. It has a USB-C port for power and data, a voltage regulator for stable operation. It also has a CH340C chip for USB to serial conversion. #referenceDesign #project #ESP32 #ESP32WROOM #RF #WIFI #MCU #reusable #module #simple-embedded #espressif #template #MAX3485 #RS485 #maximintegrated
This project is a Pulse Width Modulation (PWM) Controller, built around an LM555 timer IC. It controls a load connected to a MOSFET, with adjustments via a potentiometer, and uses capacitors, resistors and diodes for various functions. #PWM #controller #project #Template #projectTemplate
Implementation of the Bone Ray tone control by Merlin Blencowe. Schematic found at https://www.guitarscience.net/tsc/boneray.htm#RIN=38k&R1=470k&R2=470k&RM=1M&RT=1M&RL=1M&C1=220p&C2=1n&C3=4.7n&C4=1n&RT_pot=Linear&RM_pot=LogB
The electronic speed controller (ESC) is an essential part of an electric propulsion system’s hardware. It acts like the brain of the system by telling the motor how fast to go based on data signals it receives from the throttle controller.
For smaller applications like drones and RC vehicles, this controller has the name ‘ESC’, whereas for larger manufacturing applications it may be called an electronic control unit, inverter, or motor controller. #drone #motorController #PCA9685 #controller #motor #esc #referenceDesign #project #EFM8BB21F16G #MPU9250 #template
This is a STM32F4 Flight Controller template with 6-axis Accelerometer, Gyroscope. With OSD generator MAX7456EUI. #drone #flightController #STM32F405 #controller #OSD #video #referenceDesign #project #MPU6000 #template
Control board for autonomous or radio-controlled robots.
It has inputs to connect distance sensors and encoders for autonomous mode.
It can be radio controlled by the ESP32 bluetooth or by connecting a Flysky RC controller receiver to the IBUS port.
It also has 3 push buttons and you can connect some kind of display by I2C to visualize and select configuration modes.
This project is a controller module that uses the ESP32-WROOM-32E and the MAX3485 to communicate with Modbus devices. It has a USB-C port for power and data, a voltage regulator for stable operation, and headers for connecting sensors and actuators. It also has a CH340C chip for USB to serial conversion. #referenceDesign #project #ESP32 #ESP32WROOM #RF #WIFI #MCU #referenceDesign #simple-embedded #espressif #template #MAX3485 #RS485 #maximintegrated #reference-design
This project is a Pulse Width Modulation (PWM) Controller, built around an LM555 timer IC. It controls a load connected to a MOSFET, with adjustments via a potentiometer, and uses capacitors, resistors and diodes for various functions. #PWM #controller #project #Template #projectTemplate
This is a LoRa remote control project built around a Raspberry Pi RP2040 SoC and the RFM95W LoRa module. The design includes user interface features such as multiple buttons and LEDs, power management components, and a temperature sensor. The project utilizes SPI, I2C, and USB interfaces for communication and control.
#referenceDesign #simple-embedded #raspberrypi #lora #template #reference-design
A smart ESP32-based battery management system controller board for Lithium ion battery packs/cells. Capable of communicating to wide varieties of hybrid-smart inverters with CANbus, RS485 and UART communication.
A smart ESP32-based battery management system controller board for Lithium ion battery packs/cells. Capable of communicating to wide varieties of hybrid-smart inverters with CANbus, RS485 and UART communication.
This is a climate control system reference design with a STM32WB5 microcontroller, power manager IC, USB Type-C, JST connectors, and an LCD driver.
#referenceDesign #edge-computing #edgeComputing #stm #template #iot #control #BLE #reference-design
This project is a controller module that uses the ESP32-WROOM-32E and the MAX3485 to communicate with Modbus devices. It has a USB-C port for power and data, a voltage regulator for stable operation. It also has a CH340C chip for USB to serial conversion. #referenceDesign #project #ESP32 #ESP32WROOM #RF #WIFI #MCU #reusable #module #simple-embedded #espressif #template #MAX3485 #RS485 #maximintegrated
This project is a controller module that uses the ESP32-WROOM-32E and the MAX3485 to communicate with Modbus devices. It has a USB-C port for power and data, a voltage regulator for stable operation. It also has a CH340C chip for USB to serial conversion. #referenceDesign #project #ESP32 #ESP32WROOM #RF #WIFI #MCU #reusable #module #simple-embedded #espressif #template #MAX3485 #RS485 #maximintegrated
Control board for autonomous or radio-controlled robots.
It has inputs to connect distance sensors and encoders for autonomous mode.
It can be radio controlled by the ESP32 bluetooth or by connecting a Flysky RC controller receiver to the IBUS port.
It also has 3 push buttons and you can connect some kind of display by I2C to visualize and select configuration modes.
This project is a Pulse Width Modulation (PWM) Controller, built around an LM555 timer IC. It controls a load connected to a MOSFET, with adjustments via a potentiometer, and uses capacitors, resistors and diodes for various functions. #PWM #controller #project #Template #projectTemplate
