ESP32-C5 Dual-Band IoT Development Kit — Wi-Fi 6 (2.4GHz + 5GHz) + Matter + RISC-V Architecture
$1,200.00
Build next-generation IoT and connected products using dual-band Wi-Fi (2.4 GHz + 5 GHz), Wi-Fi 6, and Matter-ready architecture powered by the ESP32-C5.
This professional-grade development kit provides a complete embedded firmware foundation for modern wireless systems — from prototyping to production.
Description
The ESP32-C5 Dual-Band IoT Development Kit is designed for engineers, startups, and product teams building reliable, scalable, and future-ready wireless embedded systems.
Unlike traditional ESP32 platforms limited to congested 2.4 GHz networks, this kit enables 5 GHz Wi-Fi operation, significantly improving performance in dense environments such as offices, factories, and urban deployments.
Built on a RISC-V dual-core architecture, and supporting Wi-Fi 6, BLE 5, Zigbee, Thread, and Matter, this platform provides a unified connectivity stack for next-generation IoT ecosystems.
⚙️ Key Features
📡 Advanced Wireless Connectivity
- Dual-band Wi-Fi: 2.4 GHz + 5 GHz
- Wi-Fi 6 (802.11ax) — up to 150 Mbps
- Bluetooth Low Energy (BLE 5) — up to 2 Mbps
- Zigbee + Thread (802.15.4) — up to 250 kbps
- Matter-ready (Wi-Fi + Thread support)
🧠 Processing Architecture
- Dual-core RISC-V MCU
- 240 MHz (high-performance core)
- 40 MHz (low-power core)
💾 Memory & Storage
- 320 KB ROM
- 400 KB SRAM
- 8 MB PSRAM
- 8 MB Flash
🔐 Security & Production Readiness
- Secure Boot
- Flash Encryption
- Hardware Crypto Accelerators
🔌 Interfaces & Peripherals
- 19 GPIOs
- I²C, SPI, UART
- ADC + DAC
- SDIO
- CAN FD (industrial-grade communication)
🔧 Development & Debugging
- USB-C with Serial + JTAG (no external debugger required)
- Supports:
- ESP-IDF
- Arduino IDE
- MicroPython (pre-configured option)
🔋 Power & Battery System
- LiPo battery support
- Onboard charger + fuel gauge
- Dual voltage regulators (core + peripherals)
- Ultra-low power: < 20 µA deep sleep
💽 Expansion & Ecosystem
- MicroSD card slot (mass storage)
- Qwiic connector (plug-and-play I²C ecosystem)
💡 Onboard Components
- Addressable RGB LED
- Power + charge indicator LEDs
- Reset + Boot buttons
🧪 What You Get (Deliverables)
📁 Firmware Architecture (Production-Ready)
- Modular firmware framework (ESP-IDF based)
- Dual-band Wi-Fi configuration templates
- BLE + Thread + Matter integration hooks
- Power management (deep sleep + low-power modes)
📡 Connectivity Examples
- Wi-Fi scanning (2.4 GHz + 5 GHz)
- Access Point (AP) + Station mode
- Multi-protocol communication stack
🔧 Peripheral Drivers
- GPIO abstraction
- I²C / SPI / UART drivers
- ADC / DAC examples
- CAN FD interface templates
📄 Documentation
- System architecture overview
- Hardware abstraction guide
- Connectivity design patterns
- Power optimization strategies
🎯 Who This Is For
- IoT startups building connected products
- Embedded systems engineers
- Product teams developing wireless devices
- Industrial automation & control engineers
- Smart home / Matter ecosystem developers
🧭 Use Cases
- Smart home devices (Matter-enabled)
- Industrial IoT nodes (CAN + Wi-Fi)
- Edge AI + connected sensing systems
- Battery-powered wireless products
- High-density Wi-Fi deployments
⚡ Why This Kit Matters
Most embedded systems still rely on 2.4 GHz Wi-Fi, leading to:
- Interference
- Connectivity drops
- Performance limitations
This kit enables:
✅ Reliable communication in congested environments
✅ Future-ready IoT with Matter + Thread
✅ Unified wireless stack in a single MCU
✅ Faster path from prototype → production
🧩 Optional Add-ons (Upsell Opportunities)
- Custom firmware development
- Hardware design (PCB + schematic)
- Cloud integration (AWS / Azure IoT)
- OTA update infrastructure
- Compliance & certification support
🔒 Commercial Terms
- One-time purchase — no lock-in
- Source code included
- Commercial usage allowed
- Customization available as add-on
📣 Call to Action
👉 Build your next-generation IoT product with dual-band Wi-Fi + Matter-ready embedded architecture
