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Lee Binder

Automation Field Engineer

  • Lee Binder
    • Product training systems developer
    • Time Machine
  • Learning Arduino Topics
    • Arduino Coding concepts:
      • Port Registers
      • Logic
        • Logic: For Next Loop
        • Logic: Switch Case
        • Logic: If … Then
      • Communications
        • I2C serial communications
        • SPI communications
        • IDE Serial Monitor
      • Sketch SETUP
    • Understanding Loops for, while, and do while Explained
    • Understanding Variables and Data Types
    • Conditional Logic (if, else if, else)
    • AI Prompts
      • AI Prompt: Pin Register Scanner
      • AI Prompt: I2c Scanner
      • AI Prompt Blinker
    • setup() and loop() in Arduino
    • Analog Inputs and Sensors: Potentiometer & LDR
    • Digital Input and Output
    • Writing and Using Functions
    • PWM (Pulse Width Modulation)
    • IDE Integrated Design Environment
    • Timing with delay() and millis()
    • Arduino Board Layout and Pin Functions
    • Kits
    • Accessories
      • Using a Circuit Breadboard
      • Balloon Helium Tank 7.9 cu ft. 224 Liters of gas
    • Debugging Basics and Troubleshooting
    • Arrays in Arduino: Handling Multiple Values Easily
  • Arduino Microcontrollers
    • Arduino Architecture
      • Arduino Boards
        • Arduino UNO Q Microcontroller
        • Arduino Uno
        • Arduino Mega
        • Arduino UNO R4 WiFi
    • Components
      • Resistors
      • Capacitor
      • Diode
      • Switchs
        • SPST Relay: Simple Switching Power
    • Devices
      • RTC 3231
      • Displays
        • LCD Displays: Bringing Data to Life
        • #749 (no title)
        • 20×4 Led Display I2C
      • Sensors
        • BMP180 Sensor: Measuring Weather and Altitude!
      • ZMCT103C 5A Current Sensor HW670
      • WIFI D1 MINI DATA LOGGER SHIELD
  • Workshop
    • Accessories
    • Tech Notes
      • Arduino Uno USB Driver Installation Guide
      • Dupont Jumper Wires: The Beginner’s Best Friend
      • Arduino Voltages: 3.3V, 5V & 12V — What Goes Where?
      • USB Cables for Arduino: Pick the Right One
      • USB Drivers
      • Breadboard
    • Projects
      • Serial Scanner
      • Blinker
      • Arduino Mega
      • Arduino Energy Monitoring Project with ZMCT103C
    • Modules
    • Videos
  • test
    • Qualcomm QRB2210 + STM32U585
    • Arduino UNO Q – Hybrid RISC-V + ARM MCU
    • Quad-core Application Processor + Cortex-M33
    • Quad-core Application Processor
    • MPU / MCU
    • AVR
    • ATmega Family
    • ATmega2560
    • ATmega32u4
    • ATmega328P
    • ATtiny
    • ARM Cortex-M0+
    • ARM Cortex-M3
    • RISC Core Type
    • RISC-V / Hybrid Low-Power
    • RISC-V vs ARM – Key Differences for Designers
    • RISC-V Ecosystem Overview
    • RISC-V Toolchain and IDE Setup
    • RISC-V Debugging and Testing Tools – Guide for Makers
    • Renesas ARM Cortex-M4
    • Renesas RA Series Overview – Scalable MCU Family
    • #903 (no title)
    • Renesas Smart Configurator – Complete Deep Dive Guide
    • ARM Cortex-M0+ – Low-Power 32-Bit Microcontroller
    • ARM Cortex-M3 vs M4 – Balanced vs Precision Power
    • ARM Cortex-M7 – High-Performance 32-Bit MCU
    • ATSAMD21G18 – 32-bit ARM MCU for Arduino Projects
    • ATSAMD11 – Compact 32-bit ARM Microcontroller
    • nRF52840 – Bluetooth 5 ARM Cortex-M4 MCU
    • nRF5340nRF5340 – Dual-Core ARM Cortex-M33 MCUnRF5340
    • ESP32 – Dual-Core Wi-Fi and Bluetooth MCU
    • ESP32-S3 – AI-Enabled Wi-Fi and Bluetooth MCU
    • ESP32-C3 – RISC-V Wi-Fi and Bluetooth MCU
    • ESP32-C6 – RISC-V Wi-Fi 6 and Bluetooth 5.3 MCU
    • Hybrid MCU Architecture – Arduino UNO R4 WiFi
    • Arduino Portenta H7 – Dual-Core ARM MCU
    • Arduino Portenta X8 – Hybrid Linux MCU Platform
    • Renesas RA4M1 – Arduino UNO R4 Microcontroller
    • ESP32-S3 – Dual-Core Wi-Fi and Bluetooth MCU
    • STM32H747 – Dual-Core ARM Microcontroller
    • STM32H747 Dual-Core Architecture Explained
    • RA4M1 + ESP32-S3 – Arduino Hybrid Architecture
    • What Is a Quad-Core ARM + MCU System?
  • IoT
    • Arduino and IoT – Building Smart Connected Devices
    • Arduino IoT Cloud – Getting Started Guide
    • Building an IoT Dashboard – Visualizing Data
    • IoT Automation – Making Devices Think Smart
    • Integrating Voice and AI – Smarter IoT Control
    • Edge AI and Local Processing with Arduino
    • Edge Computing vs Cloud Computing in IoT
    • Designing a Hybrid IoT System with Arduino
    • IoT Security and Data Privacy with Arduino
    • IoT Standards and Protocols for Arduino
    • IoT Data Flow: From Sensor to Cloud with Arduino
    • IoT Dashboards and Data Visualization Guide
    • IoT Automation and Control Logic with Arduino
    • Edge AI and TinyML on Arduino Explained
    • Arduino Boards for AI and IoT Projects
    • Building Your First AIoT Project with Arduino
    • Publishing and Sharing Your IoT Projects
    • Monetizing Your IoT Knowledge and Projects
    • The Future of Arduino and IoT Innovation
    • What Is RX66T / RX72T Microcontroller Series
    • RX66T / RX72T vs STM32H7 and Cortex-M4
    • Learn LOLIN WEMOS D1 R2 & Mini – Step-by-Step Guide
    • Getting Started with the LOLIN D1 Mini Board
    • HW-171
    • OLED DISPLAY .91
    • JOYSTICK
    • DHT11 Humidity Sensor
    • AUDIO AMPLM386 Audio Amplifier Board
    • LED 6 SHIELD
    • MCP 4725
    • MPU 6050
    • TOUCH SENSOR
    • USB SOCKET
    • HW-307 RELAY
    • MH-B IR SENSOR
    • MOTOR DRIVER
    • MH LED SERIAL TO I2C BACKPACK
    • GY-521
  • Lee Binder
  • Learning Arduino Topics
  • Arduino Microcontrollers
  • Workshop
  • test
  • IoT

Workshop

Motherboards

Sensors

compnents

Shields

  • Lee Binder
    • Product training systems developer
    • Time Machine
  • Learning Arduino Topics
    • Arduino Coding concepts:
      • Port Registers
      • Logic
        • Logic: For Next Loop
        • Logic: Switch Case
        • Logic: If … Then
      • Communications
        • I2C serial communications
        • SPI communications
        • IDE Serial Monitor
      • Sketch SETUP
    • Understanding Loops for, while, and do while Explained
    • Understanding Variables and Data Types
    • Conditional Logic (if, else if, else)
    • AI Prompts
      • AI Prompt: Pin Register Scanner
      • AI Prompt: I2c Scanner
      • AI Prompt Blinker
    • setup() and loop() in Arduino
    • Analog Inputs and Sensors: Potentiometer & LDR
    • Digital Input and Output
    • Writing and Using Functions
    • PWM (Pulse Width Modulation)
    • IDE Integrated Design Environment
    • Timing with delay() and millis()
    • Arduino Board Layout and Pin Functions
    • Kits
    • Accessories
      • Using a Circuit Breadboard
      • Balloon Helium Tank 7.9 cu ft. 224 Liters of gas
    • Debugging Basics and Troubleshooting
    • Arrays in Arduino: Handling Multiple Values Easily
  • Arduino Microcontrollers
    • Arduino Architecture
      • Arduino Boards
        • Arduino UNO Q Microcontroller
        • Arduino Uno
        • Arduino Mega
        • Arduino UNO R4 WiFi
    • Components
      • Resistors
      • Capacitor
      • Diode
      • Switchs
        • SPST Relay: Simple Switching Power
    • Devices
      • RTC 3231
      • Displays
        • LCD Displays: Bringing Data to Life
        • #749 (no title)
        • 20×4 Led Display I2C
      • Sensors
        • BMP180 Sensor: Measuring Weather and Altitude!
      • ZMCT103C 5A Current Sensor HW670
      • WIFI D1 MINI DATA LOGGER SHIELD
  • Workshop
    • Accessories
    • Tech Notes
      • Arduino Uno USB Driver Installation Guide
      • Dupont Jumper Wires: The Beginner’s Best Friend
      • Arduino Voltages: 3.3V, 5V & 12V — What Goes Where?
      • USB Cables for Arduino: Pick the Right One
      • USB Drivers
      • Breadboard
    • Projects
      • Serial Scanner
      • Blinker
      • Arduino Mega
      • Arduino Energy Monitoring Project with ZMCT103C
    • Modules
    • Videos
  • test
    • Qualcomm QRB2210 + STM32U585
    • Arduino UNO Q – Hybrid RISC-V + ARM MCU
    • Quad-core Application Processor + Cortex-M33
    • Quad-core Application Processor
    • MPU / MCU
    • AVR
    • ATmega Family
    • ATmega2560
    • ATmega32u4
    • ATmega328P
    • ATtiny
    • ARM Cortex-M0+
    • ARM Cortex-M3
    • RISC Core Type
    • RISC-V / Hybrid Low-Power
    • RISC-V vs ARM – Key Differences for Designers
    • RISC-V Ecosystem Overview
    • RISC-V Toolchain and IDE Setup
    • RISC-V Debugging and Testing Tools – Guide for Makers
    • Renesas ARM Cortex-M4
    • Renesas RA Series Overview – Scalable MCU Family
    • #903 (no title)
    • Renesas Smart Configurator – Complete Deep Dive Guide
    • ARM Cortex-M0+ – Low-Power 32-Bit Microcontroller
    • ARM Cortex-M3 vs M4 – Balanced vs Precision Power
    • ARM Cortex-M7 – High-Performance 32-Bit MCU
    • ATSAMD21G18 – 32-bit ARM MCU for Arduino Projects
    • ATSAMD11 – Compact 32-bit ARM Microcontroller
    • nRF52840 – Bluetooth 5 ARM Cortex-M4 MCU
    • nRF5340nRF5340 – Dual-Core ARM Cortex-M33 MCUnRF5340
    • ESP32 – Dual-Core Wi-Fi and Bluetooth MCU
    • ESP32-S3 – AI-Enabled Wi-Fi and Bluetooth MCU
    • ESP32-C3 – RISC-V Wi-Fi and Bluetooth MCU
    • ESP32-C6 – RISC-V Wi-Fi 6 and Bluetooth 5.3 MCU
    • Hybrid MCU Architecture – Arduino UNO R4 WiFi
    • Arduino Portenta H7 – Dual-Core ARM MCU
    • Arduino Portenta X8 – Hybrid Linux MCU Platform
    • Renesas RA4M1 – Arduino UNO R4 Microcontroller
    • ESP32-S3 – Dual-Core Wi-Fi and Bluetooth MCU
    • STM32H747 – Dual-Core ARM Microcontroller
    • STM32H747 Dual-Core Architecture Explained
    • RA4M1 + ESP32-S3 – Arduino Hybrid Architecture
    • What Is a Quad-Core ARM + MCU System?
  • IoT
    • Arduino and IoT – Building Smart Connected Devices
    • Arduino IoT Cloud – Getting Started Guide
    • Building an IoT Dashboard – Visualizing Data
    • IoT Automation – Making Devices Think Smart
    • Integrating Voice and AI – Smarter IoT Control
    • Edge AI and Local Processing with Arduino
    • Edge Computing vs Cloud Computing in IoT
    • Designing a Hybrid IoT System with Arduino
    • IoT Security and Data Privacy with Arduino
    • IoT Standards and Protocols for Arduino
    • IoT Data Flow: From Sensor to Cloud with Arduino
    • IoT Dashboards and Data Visualization Guide
    • IoT Automation and Control Logic with Arduino
    • Edge AI and TinyML on Arduino Explained
    • Arduino Boards for AI and IoT Projects
    • Building Your First AIoT Project with Arduino
    • Publishing and Sharing Your IoT Projects
    • Monetizing Your IoT Knowledge and Projects
    • The Future of Arduino and IoT Innovation
    • What Is RX66T / RX72T Microcontroller Series
    • RX66T / RX72T vs STM32H7 and Cortex-M4
    • Learn LOLIN WEMOS D1 R2 & Mini – Step-by-Step Guide
    • Getting Started with the LOLIN D1 Mini Board
    • HW-171
    • OLED DISPLAY .91
    • JOYSTICK
    • DHT11 Humidity Sensor
    • AUDIO AMPLM386 Audio Amplifier Board
    • LED 6 SHIELD
    • MCP 4725
    • MPU 6050
    • TOUCH SENSOR
    • USB SOCKET
    • HW-307 RELAY
    • MH-B IR SENSOR
    • MOTOR DRIVER
    • MH LED SERIAL TO I2C BACKPACK
    • GY-521
  • Lee Binder
  • Learning Arduino Topics
  • Arduino Microcontrollers
  • Workshop
  • test
  • IoT
Lee Binder Field Engineer and Amatuer Radio KD3U