Downloading KiCad Footprint Files

1:19

Considering connector replacement.

Exploring USB Type-C guidelines.

Clarifying USB-C functionality.

Planning USB Type-C integration.

Accessing knowledge base.

Analyzing the schematic.

Formulating a plan for USB-C integration.

You want to replace Micro USB with a USB Type-C power input. I’ve prepared a plan to add a power-only USB-C (UFP) port and tie it to VIN with proper protection. Click Start on the plan bar to execute.

Planned steps:

Add a USB Type‑C Receptacle with two 5.1k Resistors from CC1/CC2 to GND for a 5 V sink.
Add VBUS protection: series Polyfuse and a low‑cap TVS Diode on VBUS; prepare data‑line TVS if D+/D− are later used (based on knowledge base guidance).
Connect VBUS -> VIN and GND -> GND; label as 5 V rail.
Leave D+/D− unconnected, with optional 0 Ω placeholders.
Run ERC/DRC and add a note “Power‑only USB‑C input.”

Quick check:

Confirm current budget for USB-C 5 V input (e.g., 500 mA via polyfuse)?
Keep D+/D− unconnected, correct?
Any connector preference (through‑hole vs SMT, mid‑mount)?

Plan

Goal

Replace Micro USB with a USB Type‑C power input for the ESP32-DEVKIT-V1 system. This involves adding a USB Type‑C receptacle configured as a power-only sink (UFP), adding the required CC pull-down resistors, implementing VBUS protection (polyfuse and TVS), and wiring the USB 5V power to the VIN (5V) rail.

Implementation plan

Add USB Type‑C Connector
1. Place a USB Type‑C receptacle symbol in the schematic.
2. Add two 5.1 kΩ resistors from CC1 and CC2 to GND to configure the connector as a power-only sink (UFP).
3. Optionally place 0 Ω placeholders on D+ and D- lines (keep unconnected unless USB data functionality is later required).
Implement VBUS Protection
1. Insert a resettable polyfuse (PTC) in series with the VBUS line.
2. Add a low-capacitance TVS diode array on VBUS to protect against voltage transients.
3. Optionally prepare TVS protection for D+ and D- if later needed for data lines.
Connect to the ESP32 Power Rail
1. Wire the VBUS line from the USB Type‑C connector (after protection) to the VIN (5V) net on the ESP32 DevKit module.
2. Ensure the ground pin of the USB Type‑C connector is connected to the system Ground.
3. Label the net as the 5V rail.
Annotate and Final Review
1. Add schematic notes indicating the board is configured for "Power-only USB‑C" operation and define maximum current assumptions and cable gauge recommendations.
2. Run ERC/DRC checks and resolve warnings if any.
3. Update project documentation to reflect the USB Type‑C power input design.

Success criteria

The USB Type‑C receptacle is properly placed with 5.1 kΩ pull-down resistors on CC1 and CC2.
VBUS protection is implemented with a polyfuse and TVS diode, and is correctly connected to the VIN (5V) rail.
D+ and D- are unconnected (or have 0 Ω placeholders) unless USB data functionality is later required.
All schematic ERC/DRC checks pass without errors, and appropriate documentation is added.

Confirm current and data use

Ask for specific connector

Ask about CC resistor values

Request full part list

Ask wiring details to VIN

123 days

Reviews

Ground
A common return path for electric current. Commonly known as ground.
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