According to the BeagleBone Black (BBB) system reference manual, the TI processor supports cryptographic acceleration of AES, SHA (1 I assume), MD5 and has a hardware RNG. The performance with hardware ...
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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.
Banana Pi BPI-R4 Router board with MediaTek MT7988A (Filogic 880) quad-core ARM Corex-A73 design ,4GB DDR4 RAM,8GB eMMC,128MB SPI-NAND flash onboard, also have 2x 10Gbe SFP, 4x Gbe network port,with USB3.2 port,M.2 support 4G/5G/NVME SSD.2x miniPCIe slots with PCIe3.0 2lane interface for Wi-Fi 7 NIC (Network Interface Card). It is a very high performance open source router development board. https://docs.banana-pi.org/en/BPI-R4/BananaPi_BPI-R4 #bananapi #openwrt #wifi #wifi7 #router #iot #network #MT7988 #mediatek #Filogic880
Introduction: In recent years, the integration of Internet of Things (IoT) technology into agriculture has revolutionized the way we approach farming and gardening. One such application is the development of greenhouse monitoring systems, which enable growers to remotely monitor and control environmental conditions crucial for plant growth. In this blog post, we'll explore how to build a greenhouse monitoring system using Raspberry Pi and various sensors.
Hardware Components:
Raspberry Pi: A versatile single-board computer that will serve as the brain of our system. DHT11 Sensor: For measuring temperature and humidity levels inside the greenhouse. LDR Sensor: To detect light intensity, helping to regulate natural light exposure for plants. Capacitive Soil Moisture Sensor: For monitoring soil moisture levels, essential for plant hydration. I2C LCD: A display module to provide real-time feedback on environmental conditions. NodeMCU: A microcontroller for IoT connectivity, allowing remote monitoring and control. Fans, Pump Motor, and Light: Devices for controlling ventilation, watering, and lighting within the greenhouse. Software Components:
Python: For programming the Raspberry Pi to read sensor data and control the connected devices. MQTT Protocol: To facilitate communication between the Raspberry Pi and the NodeMCU for IoT connectivity. Node.js: For creating a web server to visualize sensor data and control the greenhouse remotely. Building the System:
Assemble the hardware components, connecting sensors and actuators to the Raspberry Pi GPIO pins. Install the necessary software libraries for interacting with the sensors and controlling the devices. Write Python scripts to read sensor data, control the devices based on predefined thresholds, and publish data to an MQTT broker. Configure the NodeMCU to subscribe to the MQTT topics published by the Raspberry Pi and actuate devices accordingly. Develop a web interface using Node.js to display real-time sensor data and provide controls for remote monitoring and management. Functionality:
Temperature and Humidity Monitoring: The DHT11 sensor continuously measures temperature and humidity levels inside the greenhouse. When the temperature exceeds a predefined threshold, indicating high temperatures, the system activates the fans to facilitate ventilation and cool down the environment. Similarly, when the humidity rises above a set limit, indicating high humidity levels, the system activates the air conditioning unit to maintain optimal humidity levels for plant growth. Light Intensity Detection: The LDR sensor detects ambient light levels. In conditions of low natural light, such as during the night or on cloudy days, the system automatically switches on the artificial lighting (bulb) to provide adequate illumination for plant growth. Soil Moisture Monitoring: The capacitive soil moisture sensor continuously monitors soil moisture levels. When the soil moisture drops below a specified threshold, indicating dry soil, the system activates the pump to irrigate the plants, ensuring they receive sufficient water for healthy growth. Conclusion: By integrating these functionalities into the greenhouse monitoring system, growers can ensure that environmental conditions are continuously monitored and adjusted to create an optimal growing environment for their plants. This automation not only simplifies greenhouse management but also helps to maximize crop yields and promote healthy plant growth.
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User in functionality when temparature increases fan should rotate, when humidity increases ac should on ,when ambient light is not there bulb should be on,when dry soil detected pump should be turned on ChatGPT Functionality:
Temperature and Humidity Monitoring: The DHT11 sensor continuously measures temperature and humidity levels inside the greenhouse. When the temperature exceeds a predefined threshold, indicating high temperatures, the system activates the fans to facilitate ventilation and cool down the environment. Similarly, when the humidity rises above a set limit, indicating high humidity levels, the system activates the air conditioning unit to maintain optimal humidity levels for plant growth. Light Intensity Detection: The LDR sensor detects ambient light levels. In conditions of low natural light, such as during the night or on cloudy days, the system automatically switches on the artificial lighting (bulb) to provide adequate illumination for plant growth. Soil Moisture Monitoring: The capacitive soil moisture sensor continuously monitors soil moisture levels. When the soil moisture drops below a specified threshold, indicating dry soil, the system activates the pump to irrigate the plants, ensuring they receive sufficient water for healthy growth.
This is the third and last lesson about how we can utilize Arduino (microcontrollers in general), in order to improve user-experience on Hi-Fi and Hi-End Audio. In this third video I'll explore further opportunities made available by the platform. We'll see how I programmed Arduino in order to perform FM Stereo / Mono switching, as well as DAC’s optical / coax switching. Furthermore, I'll talk about 'idle' energy saving mode, which stops CPU clock, but keeps the status of digital output pins; a very useful feature for sake of energy saving and noise reduction.
Hi friends in this video I have made a Overvoltage Protection Circuit. I hope you will enjoy this video circuit diagram, and code is given below please like share and subscribe
Today, we'll look into yet another standard in the embedded space: MXM. It stands for "Mobile PCI Express Module", and is basically intended as a GPU interface for laptops with PCIe, but there's way m...
You can use the Adafruit ADG728 1-to-8 Analog Matrix Switch to connect between eight analog signals, much like a set of 8 mechanical switches.These chips tend to be tiny surface mount parts, so th…...
Blues has recently released the latest entry to its Notecard family, the Notecard XP (External Power supply), an updated and more cost-effective version...
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0:00 Intro 0:06 Review
Things that we mentioned in this video: Ingcool 2.13inch E-Ink Display : B08H5MXJ71
Just for you guys, I have launched my USB-C type Arduino Nano on Amazon with the brand name Electronic Clinic. So, when you buy the Arduino Nano, be sure to check for the brand name Electronic Clinic.
I have made its packaging quite premium.
Inside this box, you will find one Arduino Nano in an anti-static plastic bag and one original USB-C type cable.
Just check out the quality, the USB-C type port has added a touch of elegance to the Arduino Nano. For your convenience, I've already soldered the male headers onto it, so you'll get it ready to use. All you need to do is connect it to your computer and start programming.
If you buy this kind of Arduino Nano board, which doesn't come with a cable, USB-C type port, or soldered male headers. You won't be able to use any cable with it, and its cable isn't available everywhere. So, you'll have to buy a separate cable for it, which means extra payment. And if the cable gets misplaced or lost, you'll have to buy another one.
So, I must say, it's time to upgrade. Instead of purchasing this kind of Arduino Nano, buy a USB-C type Arduino Nano. Because USB-C type cables are readily available in every house nowadays, and you can easily get them from any mobile shop.
Watch full video if you want to learn how to get started with Arduino Nano and blink the onboard LED. ******
DISCLAIMER: This video and description contain affiliate links, which means that if you click on one of the product links, I will receive a small commission. This helps support the channel and allows me to continue to make videos like this. Thank you for your support! **************** For more Projects and tutorials visit my Websites
About the Electronic Clinic: Electronic Clinic helps the students and other professionals to learn electronics, designing, and programming. Electronic Clinic has tutorials on Arduino, Arduino Nano, Raspberry PI, image processing, gsm based projects, Bluetooth based projects, esp8266 projects, Nodemcu projects, robotics, desktop application designing and programming, PLC, SCADA, RC Planes, Electronics, Power Generation, HMI, and much more. Check my Playlists.
#arduinoNanoUSBC #arduinoNano #Electroniclinic
Arduino Nano with USB C type port and Cable. Arduino nano USB C review Getting started with Arduino Nano USB C How to upload a program into the Arduino Nano USB C type board. Old bootloader atmega328P Why USB C type Arduino Nano by the Electronic Clinic? USB C Arduino Nano on the Amazon USA. Arduino Nano USB C full review and testing with onboard LED blinking.
This week, Kevin Bentley released the latest version of the source code to the SciFi game Descent 3.Originally released in 1999 for Windows, the game has you control a flying ship which you have …...
Fredrik Fatemi and Lawrence Kesteloot spent the summer of 1989 writing graphics programs in Turbo Pascal on a 286 PC (with EGA!) in a basement while watching The Princess Bride again and again on a…...
In this video I will be showing you how to connect to your Raspberry Pi automatically using a batch script I wrote. This script totally eliminates the need of punching in your credentials every time you connect.Hope it helps you guys!
Are you ready to dive into the exciting world of robotronics? Join us for an immersive journey where kids aged 12-17 explore the fundamentals of C++ programming on Arduino boards! Our interactive course offers hands-on experience, empowering young minds to create and code their own robotic marvels.
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In this video I show you how to create a dimmable LED controlled by a potentiometer. I will show you how to build the circuit, do the math, and code the solution. Enjoy!
[Disclosure of Material Connection: I am a participant in the Amazon Services LLC Associates Program, an affiliate advertising program designed to provide a means for sites to earn advertising fees by advertising and linking to amazon.com. ]
Key features of the board include an 8MB flash chip, a 26-pin general-purpose input/output (GPIO) header with analog inputs, physical reset, and boot-select buttons, a USB Type-C connector for power and data, and optional battery support via an onboard lithium-battery charging circuit.
FOSA 4 Inch TFT Touch Screen Review for Raspberry Pi - A Comprehensive Look! ► Latest Price & AMZN link here ► https://bit.ly/3Q2CKkC
For updated price or purchase visit this link.
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If you have a business inquiry or would like to work with us, please contact here - tessamaylv@gmail.com
Thank you for watching.
0:00 Intro 0:06 Review
Things that we mentioned in this video: 4 Inch TFT Touch : B07FTNGB81
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