Temperature and Humidity Sensor Node Design

flux

I’ll build the sensor node schematic end-to-end: choose the radio MCU, size the USB-C power path and protection, add the T/RH sensor and support passives, then wire and verify it.

flux

I’ve narrowed the architecture: ESP32-C3 module, SHT41 sensor, protected USB-C input, and a buck regulator to stay cool under Wi-Fi bursts. I’m verifying datasheet details and sizing the power path now.

flux

Architecture is locked and documented. I’m adding the full component set now in functional blocks, then I’ll wire power, USB, MCU support, and the sensor bus.

flux

Done: the USB-C Wi‑Fi/BLE environmental sensor node schematic is built, wired, and ERC-clean. I also added the supporting project files: Project Specification, Design Notes, and Firmware Starter — ESP32-C3-MINI-1-N4.
What’s in place: protected USB-C 5 V input with CC sink resistors, TVS + eFuse protection, 3.3 V buck rail, ESP32-C3 native USB, boot/reset circuitry, and SHT41 on I2C. Schematic is ready for layout; want me to go ahead?
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J1 VBUS_B - C1 P1

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USB-C Wi-Fi/BLE Environmental Sensor Node

USB-C Wi-Fi/BLE Environmental Sensor Node thumbnail
USB-C powered consumer environmental node with an ESP32-C3 Wi-Fi/BLE module, protected 5 V USB-C input, efficient 3.3 V regulation, and a digital temperature/humidity sensor.

Properties

Properties describe core aspects of the project.

Pricing & Availability

Distributor

Qty 1

Arrow

$4.01–$6.37

Digi-Key

$3.19–$4.05

HQonline

$2.35–$2.39

LCSC

$11.31–$11.41

Mouser

$8.79–$8.99

TME

$3.35–$3.48

Verical

$3.54–$7.13

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