USB-C Wi-Fi BLE Sensor Node Design

Worked for 7 mins 54 sec

I set up the project and converged the schematic architecture, but I could not finish wiring because execution credits ran out.

Done so far:

Renamed the project to USB-C Wi-Fi BLE Env Sensor Node and updated the description.
Chose the core architecture:
- MCU: ESP32-C3-MINI-1-N4
- T/RH sensor: Sensirion SHT41-AD1B-R2
- USB-C input connector: GCT USB4215-03-A
- Input protection / power-path: TI TPS25940L eFuse for reverse blocking, OVP, UVLO, and OCP
- 3.3 V regulator: TI TPS62821 buck converter instead of an LDO, because the ESP32-C3 radio peaks make a small 5 V → 3.3 V LDO thermally marginal
- USB ESD: identified suitable USB data-line protection parts such as USBLC6-2SC6 / TPD2EUSB30A
Verified key datasheet constraints:
- ESP32-C3-MINI-1-N4: 3.0–3.6 V supply, Wi-Fi TX peak up to about 350 mA, BLE TX peak up to about 340 mA, deep sleep about 5 µA, USB on GPIO18/19, strapping on GPIO2/8/9, GPIO9 needs pull-up.
- ESP32 hardware guidance: use at least 500 mA-capable 3.3 V rail, EN must not float, recommended 10 kΩ + 1 µF RC on EN, USB series resistors 22/33 Ω, antenna keepout at board edge.
- SHT41: 1.08–3.6 V, I2C, fixed 0x44 address, idle about 80 nA, measurement current about 320–500 µA.
- TPS25940L: 2.7–18 V input, programmable UVLO / OVP / current limit, reverse current blocking, open-drain fault output.
- TPS62821: 2.4–5.5 V input, 1 A output, 4 µA quiescent current, recommended 470 nH inductor, 4.7 µF input, 2×10 µF output, adjustable output via resistor divider.

Power-budget decision:

The node is comfortably under a 500 mA USB source on average, even with Wi-Fi active.
A simple LDO would dissipate too much heat during high-radio activity, so the buck converter is the correct choice for a consumer design.

What remains:

Add all components to the schematic.
Wire:
- USB-C CC pull-downs
- USB VBUS entry protection and ESD
- TPS25940L thresholds / current limit network
- TPS62821 feedback network and passives
- ESP32-C3 support parts, boot/reset, USB resistors
- I2C pull-ups and SHT41 decoupling
- optional status LED / debug header
Run review/ERC and fix any issues.
Create project files with the power budget and bring-up notes.

If you want, I can continue from this exact architecture in the next run: ESP32-C3-MINI-1-N4 + SHT41 + USB4215-03-A + TPS25940L + TPS62821.

Add and wire power

Add debug features

Set protection limits

Document design notes

Run ERC review

Reviews

Generic Inductor
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jharwinbarrozo
16.1k
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jharwinbarrozo
1.5M
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A common return path for electric current. Commonly known as ground.
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20.5M
Terminal
An electrical connector acting as reusable interface to a conductor and creating a point where external circuits can be connected.
natarius
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jharwinbarrozo
43.0M
RMCF0805JT47K0
General Purpose Thick Film Standard Power and High-Power Chip Resistor 47 kOhms ±5% 0.125W, 1/8W Chip Resistor 0805 (2012 Metric) Automotive AEC-Q200 Thick Film Features: - RMCF – standard power ratings - RMCP – high power ratings - Nickel barrier terminations standard - Power derating from 100% at 70ºC to zero at +155ºC - RoHS compliant, REACH compliant, and halogen free - AEC-Q200 compliant
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1.2M
875105359001
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jharwinbarrozo
1.2M
CTL1206FYW1T
Yellow 595nm LED Indication - Discrete 1.7V 1206 (3216 Metric)
jharwinbarrozo
1.1M
1070TR
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700.5k

Project Name

USB-C Wi-Fi BLE Env Sensor Node

Description

Consumer USB-C environmental sensor node using a low-power Wi-Fi + Bluetooth MCU and digital temperature/humidity sensor. Powered from 5 V USB-C sink input with input protection including reverse blocking, OVP, UVLO, and overcurrent limiting, then regulated to 3.3 V for the radio and sensor.

Properties

Properties describe core aspects of the project.

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Controls

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jonasneves / USB-C Wi-Fi BLE Env Sensor Node

Schematic