EnviroGo is an ESP32-S3-based wearable environmental monitor that tracks Organic Compounds (VOCs), UV index, temperature, humidity, air pressure, light, and motion via a 9-axis MEMS sensor. It is designed for indoor and outdoor use, and can be worn, clipped to a bag, or magnetically mounted, making it suitable for homes, offices, travel, labs, and daily use where real-time environmental data is needed.
EnviroGo supports built-in Wi-Fi and Bluetooth connectivity through the ESP32-S3 WiSoC, features a small 0.96-inch IPS display, a microSD card slot for local data logging, and an RTC for time-stamped records. The device samples data at configurable intervals, uses RGB LEDs and a buzzer for visual and audible alerts, and can process data locally with AI-based prediction to spot trends such as rising VOC levels or humidity changes (with a stated 7-day learning period). EnviroGo is designed for IoT developers, researchers, smart home users, and health-conscious individuals who want long-term environmental tracking and early warnings, not just real-time readings.
EnviroGo specifications:
- Main SoC – Espressif Systems ESP32-S3
- CPU – Dual-core LX7 microprocessor @ up to 240 MHz with Vector extension for machine learning
- Memory – 512KB SRAM
- Storage – 384KB ROM
- Wireless – WiFi 4 and Bluetooth 5 with LE/Mesh
- Storage – MicroSD card slot for data logging
- Display – 0.96-inch IPS screen with 160×80 resolution.
- USB – USB-C port for power and programming
- Sensors
- VOC – Sensirion digital VOC sensor
- Environmental – Bosch BME series sensor for Temperature (-40 to 85°C), Humidity (0-100% RH), and Air pressure (300-1100hPa)
- UV Sensor – 280nm – 430nm wavelength detection for UV Index monitoring
- Light Sensor – Ambient light intensity (0~88,000 Lux)
- IMU – 9-axis MEMS sensor (3-axis accelerometer, 3-axis gyroscope, 3-axis magnetometer).
- Misc
- Real Time Clock (RTC)
- Programmable RGB LED
- 2x user-programmable buttons
- Mounting – Clip and magnetic mounting
- Antenna specification is not available, but most probably using a chip antenna
- Power
- USB-C port for power
- Battery specifications are not mentioned
- Dimensions – TBD
The company mentions that EnviroGo is open-source and fully programmable, with support for C, C++, CircuitPython, and MicroPython. But at the time of writing, no official link for the source code or GitHub repository is available. This is not unusual for Kickstarter projects, as firmware, SDKs, and design files are released after the campaign ends or closer to product shipment.
EnviroGo is marketed as a “wearable,” with product images showing a lanyard and clip-based design. But the specifications table does not list any details for the battery, and there is no schematic or internal diagram to confirm the power design, so that is something to be aware of. In conclusion, the company mentions “power via USB-C,” but for a wearable, battery life is usually the most critical parameter, which is something potential backers should be aware of.
We have seen plenty of ESP32-based air quality monitors in the past, from simple DIY kits like the Novaduino Environmental Sensor Kit and SparkFun Indoor Air Quality Combo Sensor to more polished products like the ESP-SensairShuttle kit, AirGradient ONE Kit, and the M5Stack Air Quality Kit v1.1. There are also more industrial-grade options, including the Inventia MT-718 and Openviro Axe PoE.
The EnviroGo can be purchased on Kickstarter, where the limited $79 Early Bird rewards are already sold out, but the $99 “Kickstarter Special” is still available in Black or Grey, or $119 for the Transparent Edition. There is also a VIP edition with custom name engraving for $169, as well as 3-pack ($259) and 5-pack ($399) bundles. The company also mentions free worldwide shipping starting from May 2026.
Debashis Das is a technical content writer and embedded engineer with over five years of experience in the industry. With expertise in Embedded C, PCB Design, and SEO optimization, he effectively blends difficult technical topics with clear communication
Support CNX Software! Donate via cryptocurrencies, become a Patron on Patreon, or purchase goods on Amazon or Aliexpress. We also use affiliate links in articles to earn commissions if you make a purchase after clicking on those links.
