Adafruit Learning System: Resizing the Raspberry Pi Boot Partition Though the Raspberry Pi computer is eminently networkable, some projects still just work best by physically moving the SD card to a desktop system to exchange data…but normally only a small section of the card is accessible to Windows and Mac computers. This guide explains one […]
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Takeoff projects help students complete their academic projects. Register at takeoff projects today to find and learn about different interesting big data projects and grab the best jobs. Get started right now.
Renesas has announced the new low-power RA0 microcontroller series based on the power-efficient Arm Cortex-M23 core and the entry-level RA0E1 Group in the...
While the Raspberry Foundation uses Arm chips for its single-board computers and compute modules, LattePanda has consistently designed its products around Intel x86 chips. LattePanda devices generally...
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The Noni module, powered by Qualcomm’s QCA9274/QCA6274 chipsets, revolutionizes wireless connectivity with advanced WiFi-7 capabilities packed into a versatile M.2 A+E form factor. Tailored for a diverse range of applications, this module thrives in both commercial and industrial environments,...
CrowdSupply recently showcased the HealthyPi Move, a biometric monitor designed in a convenient wristwatch form factor. Equipped with Nordic Semiconductor's nRF5340 SoC and multiple advanced sensors, this portable device is advertised for both personal health tracking and data logging for research...
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Hello Everyone! I designed, built and coded this Raspberry Pi & Arduino based project for my Humber College ATMN 256 Second Year Project Course utilizing Python3 and the Pi for the main control system to have a automated project.
I developed a small scale industrial product sorter utilizing RFID tags for product data, a belt conveyor for transporting it (Build for last years project) along with IR through-beam sensors for position tracking. To finish it off, I have a 4 DOF robotic arm with suction to pick and place the product into drop-off containers.
Tried to build everything somewhat "professional" utilizing DIN Rail power supplies and terminal/distribution blocks to keep some of the wiring tidy.
In trying to make a wifi repeater/extender using the esp32 board I tried the same with esp8266 and it worked quite well but I'm having problems to understand the same with esp32 I found the esp8266 code in official arduino examples ie: `ino // NAPT example released to public domain #if LWIP_FEATURES && !LWIP_IPV6 #define HAVE_NETDUMP 0 #ifndef STASSID #define STASSID "mynetwork" #define STAPSK "mynetworkpassword" #endif #include <ESP8266WiFi.h> #include <lwip/napt.h> #include <lwip/dns.h> #define NAPT 1000 #define NAPT_PORT 10 #if HAVE_NETDUMP #include <NetDump.h> void dump(int netif_idx, const char* data, size_t len, int out, int success) { (void)success; Serial.print(out ? F("out ") : F(" in ")); Serial.printf("%d ", netif_idx); // optional filter example: if (netDump_is_ARP(data)) { netDump(Serial, data, len); // netDumpHex(Serial, data, len); } } #endif void setup() { Serial.begin(115200); Serial.printf("\n\nNAPT Range extender\n"); Serial.printf("Heap on start: %d\n", ESP.getFreeHeap()); #if HAVE_NETDUMP phy_capture = dump; #endif // first, connect to STA so we can get a proper local DNS server WiFi.mode(WIFI_STA); WiFi.begin(STASSID, STAPSK); while (WiFi.status() != WL_CONNECTED) { Serial.print('.'); delay(500); } Serial.printf("\nSTA: %s (dns: %s / %s)\n", WiFi.localIP().toString().c_str(), WiFi.dnsIP(0).toString().c_str(), WiFi.dnsIP(1).toString().c_str()); // By default, DNS option will point to the interface IP // Instead, point it to the real DNS server. // Notice that: // - DhcpServer class only supports IPv4 // - Only a single IP can be set auto& server = WiFi.softAPDhcpServer(); server.setDns(WiFi.dnsIP(0)); WiFi.softAPConfig( // enable AP, with android-compatible google domain IPAddress(172, 217, 28, 254), IPAddress(172, 217, 28, 254), IPAddress(255, 255, 255, 0)); WiFi.softAP(STASSID "extender", STAPSK); Serial.printf("AP: %s\n", WiFi.softAPIP().toString().c_str()); Serial.printf("Heap before: %d\n", ESP.getFreeHeap()); err_t ret = ip_napt_init(NAPT, NAPT_PORT); Serial.printf("ip_napt_init(%d,%d): ret=%d (OK=%d)\n", NAPT, NAPT_PORT, (int)ret, (int)ERR_OK); if (ret == ERR_OK) { ret = ip_napt_enable_no(SOFTAP_IF, 1); Serial.printf("ip_napt_enable_no(SOFTAP_IF): ret=%d (OK=%d)\\n", (int)ret, (int)ERR_OK); if (ret == ERR_OK) { Serial.printf("WiFi Network '%s' with same password is now NATed behind '%s'\\n", STASSID "extender", STASSID); } } Serial.printf("Heap after napt init: %d\n", ESP.getFreeHeap()); if (ret != ERR_OK) { Serial.printf("NAPT initialization failed\n"); } } #else void setup() { Serial.begin(115200); Serial.printf("\n\nNAPT not supported in this configuration\n"); } #endif void loop() {}`
#finalyaerproject #btechprojects #electricalprojects #electronicsprojects For More Project srrobotics.in mo-9024388937
The objective of the AC Power Strength Controller with Programmable Interface is to develop a versatile and efficient system for controlling the strength of AC power supplied to electrical devices. By leveraging the capabilities of microcontroller-based programming and optocoupler-triac circuits, the project aims to enable users to regulate the voltage and intensity of AC power with precision and flexibility. This objective encompasses enhancing energy efficiency, minimizing power wastage, optimizing operational performance, and providing users with the ability to customize power settings according to specific requirements. Ultimately, the project seeks to contribute to sustainable energy practices and promote the adoption of smart power management solutions in various industrial, commercial, and residential settings.
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major project for EEE major project for ECE major project for ME major college projects ...|| Major project final year projects ideas for electronics engineering 2021 innovation ideas projects in electronics electronics projecs for final year electronics project for students final year projects ideas btech final year projects final year arduino project arduino college projecs science projects school projects college projects mechnical projects electrical projects electronics projects science projects physics project electronics education kit iot based irrigation system projects node mcu based projects wifi based college project IOT projects
Powering Raspberry Pi through 40-pin expansion port also nicknamed GPIO due to a large number of General Purpose Input-Output ports frees USB-C port for other activities like Wi-Fi, Ethernet or Bluetooth connection sharing or file sharing.
I used Android 14 installation from the previous video (https://youtu.be/sRcld-BQCo4) for a sharing demonstration.
Watch the video to see how it works! I've been amazed!
28BYJ-48 stepper motors equipped with the UNL2007 driver board and controlled with the ESp8266 NodeMCU, rotate in fixed degrees of steps, which allows for precise angular positioning of the shaft without a position sensor. This video demonstrates how to configure the 28BYJ-48 stepper motor's maximum speed, gear ratio, and revolution per step in FLProg. The step block in FLProg and programmed into the ESP8266 NodeMCU can be configured to selectively change the 28BYJ-48 stepper motor direction with a push-button switch, adjust the speed with a potentiometer, and set fixed positions selectable with a push button switch or program timer.
FLProg is a visual or graphical programming language that uses PLC's Function Block Diagram or Ladder Diagram for programming Arduino Uno, Micro, Nano, Mega Leonardo, ESP8266, EP32, Intel Galileo and lots more
28BYJ-48 Stepper Motor 0:26 Circuit Connection 1:48 Maximum Speed 2:14 Direction of Rotation 3:12 Variable Speed 4:03 Fix Position 4:46
Learn how to control RGB LED strips wirelessly using the ESP-NOW network. This tutorial demonstrates how to send specific colors to NeoPixel strips attached to a transmitter device, using a rotary encoder for color selection. Find out how to set up the ESP-XII modules and program them using the FastLED library. Enhance your DIY projects with this wireless RGB LED control method. #WirelessLEDControl #RGBLEDStrips #ESPNOWNetwork #FastLEDTutorial #DIYProjects #ColorSelection #NeoPixelStrips #ESPXII #RotaryEncoder #LEDControl
We're joined by Tamas from Silicon Labs at Embedded World 2024, talking about the collaboration that stands to shape the future of home automation and smart technology. Arduino and Silicon Labs, two giants in the world of technology and innovation, have joined forces to unveil a groundbreaking product: the new Matter version of the Nano board.
In this test, we hook the servo motor up to the Pixhawk and connect the Pixhawk and Raspberry Pi through the Mavlink protocol. We wrong a simple script (below) that overrides the PWM value and triggers the servo motor.
So finally I got my hands on a Raspberry Pi 5 and If you're an Apple HomeKit enthusiast like me, you're going to love this. Cause We're going to build a powerful smart home hub & take your HomeKit experience to the next level with the 7 wonders of building a DIY Smart Home. Last but the least, Towards the end of the video I also have a surprise App Install that will push your Smart Home Journey to the NEXT LEVEL !
⏱️ TIMESTAMPS ⏱️: ================ 00:00 - Intro 00:16 - Opening 00:31 - Raspberry Pi Changes 01:11 - DIY Smart Home Hub Changes 01:46 - DIY Smart Home Hub Benefits 02:29 - What you’ll need 03:57 - How to Flash Pi OS Lite 05:42 - Locate Pi On Network 06:54 - Use Terminal to Access Pi 07:36 - Execute Magic Script 10:54 - Portainer Configuration 11:45 - Test MQTT Service 12:15 - Zigbee2MQTT Configuration 14:40 - Scrypted Configuration 15:39 - Homebridge Configuration 17:30 - Heimdall Configuration 21:48 - Closing
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Take your engineering project to the next level! In this video, we explore LiFi technology and showcase a unique project using Arduino to build a LiFi system that transmits text data using your smartphone's flashlight! This is a perfect video for Indian engineering students or anyone interested in DIY LiFi projects. We'll guide you through:
Welcome to my channel! In this video, I'm excited to showcase my latest engineering project: an Arduino-based LiFi system that enables text data transfer via any smartphone's flashlight.
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"Hello and welcome to this tutorial where we'll be exploring how to use an RFID-RC522 module with an Arduino to control an LED. This is a fantastic project for beginners looking to delve into the world of Arduino and RFID technology."
What You'll Need:
An Arduino Uno (or any other Arduino board) RFID-RC522 Module An LED 220-ohm resistor Breadboard Jumper Wires Step 1: Overview "We will start with a brief overview of the RFID-RC522 module and its functionality. This module operates at 13.56 MHz and communicates over the SPI protocol, making it ideal for projects involving identification."
Step 2: Connections "In this section, we'll go through the process of connecting the RFID-RC522 to the Arduino. We'll attach the SDA, SCK, MOSI, MISO, RST, GND, and 3.3V pins of the RFID module to the corresponding pins on the Arduino. Remember, it's crucial to connect the 3.3V pin to the Arduino's 3.3V output, as the module is not 5V tolerant."
Step 3: LED Setup "Next, we'll connect an LED to the Arduino. We'll use a 220-ohm resistor in series with the LED to protect it from high current. The longer lead of the LED, the anode, will be connected to digital pin 7 of the Arduino, while the shorter lead, the cathode, goes to the ground."
Step 4: Code Explanation "Now, we'll dive into the code. We'll explain how to use the MFRC522 library to interface with the RFID module. The code will be set up to turn the LED on for a few seconds whenever an RFID tag is detected by the module."
Step 5: Demonstration "We'll conclude with a live demonstration of the project. You'll see how, upon bringing an RFID tag close to the reader, the LED lights up, indicating the tag's detection."
Outro: "Thank you for watching! This project is a great starting point for anyone interested in RFID technology and its applications in the world of Arduino. Don't forget to like, share, and subscribe for more exciting projects!"
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