Arduino Nano Every with Headers ABX00033
🔷 Arduino Nano Every
A powerful upgrade to the classic Nano, the Arduino Nano Every delivers more memory, better performance, and improved reliability — while keeping the same compact Nano footprint. Perfect for robotics, embedded systems, and educational projects.
🚀 KEY FEATURES (Point-by-Point)
🧠 1️⃣ Upgraded Microcontroller
ATmega4809 (newer generation AVR)
20 MHz clock (faster than classic Nano)
Improved peripheral architecture
👉 More powerful than ATmega328P used in old Nano.
💾 2️⃣ Increased Memory
| Memory Type | Nano Every | Classic Nano |
|---|---|---|
| Flash | 48 KB | 32 KB |
| SRAM | 6 KB | 2 KB |
| EEPROM | 256 B | 1 KB |
✔ 50% more Flash
✔ 3× more SRAM
🔌 3️⃣ I/O Capabilities
| Feature | Details |
|---|---|
| Digital I/O Pins | 14 |
| PWM Pins | 5 |
| Analog Inputs | 8 |
| UART | 1 |
| I²C | Yes |
| SPI | Yes |
✔ Fully compatible with most Nano shields and accessories
⚡ 4️⃣ Power Specifications
Operating Voltage: 5V
VIN Input: 7–21V supported
USB Powered (Micro-USB)
5V logic compatible (good for legacy sensors & modules)
📏 5️⃣ Compact Nano Form Factor
Breadboard friendly
Same size as classic Nano
With pre-soldered headers (plug-and-play ready)
🛠️ Ideal Applications
✅ Robotics Projects
✅ Sensor Interfacing
✅ Industrial Automation Prototypes
✅ Educational STEM Kits
✅ Motor Control Systems
✅ Embedded Product Development
🆚 Nano Every vs Classic Nano
| Feature | Nano Every | Nano (ATmega328P) |
|---|---|---|
| Clock Speed | 20 MHz | 16 MHz |
| Flash Memory | 48 KB | 32 KB |
| SRAM | 6 KB | 2 KB |
| Architecture | ATmega4809 | ATmega328P |
| Price | More Affordable | Slightly Higher |
👉 Nano Every is a modern replacement for the classic Nano.
🎯 Why Choose Arduino Nano Every?
✔ More memory & speed
✔ 5V compatible (easy integration)
✔ Reliable for long-term projects
✔ Arduino IDE supported
✔ Perfect for upgrading older Nano designs
If you're expanding your robotics or educational product range (like your previous Arduino & IoT boards), Nano Every is a great mid-level board between Classic Nano and advanced IoT boards.
