ESP32-C3 Board Design

0:00

Work done

Project description updated with #ESP32C3 #SuperMini #LowProfile #CompactDesign
System Architecture property updated to SuperMini mermaid diagram
Removed ESP32-C3-MINI-1 (U1) and placed ESP32-C3 SuperMini (U1)
Connected U1 VIN to +5V, U1 VDD to 3V3, all U1 ground pins to GND
Mapped peripherals:
- NeoPixel data via R12 → U1 GPIO5
- Servo PWM (J2 Pin_3) → U1 GPIO4
- Potentiometer wiper → U1 GPIO2
- Analog header (J3 Pin_3) → U1 GPIO3
- Buttons SW1 and SW2 → U1 GPIO9, GPIO10
Added 330 Ω resistor (R3) in NeoPixel data line

Tasks left

Add 10 µF bulk capacitor at the TPS62130 3.3 V output

Success criteria

✅ ESP32-C3 SuperMini replaced and all peripheral nets preserved
❌ Bulk decoupling capacitor not yet added

Next step Add the 10 µF bulk capacitor (0603) at the TPS62130 output and rerun ERC checks to verify decoupling.

167 days

phantom107

this one?https://item.szlcsc.com/datasheet/ESP32-C3/3013220.html

19 days

flux

0:46

Looking for "Identify the exact product shown on this page. Is it an ESP32-C3 SuperMini development board/module? Extract the product name, key description, any pinout or dimensions, and whether it matches a compact ESP32-C3 SuperMini board for replacing an ESP32-C3-MINI-1 module in a custom design." in 3013220.html

Probably yes, that is the right product family for an ESP32-C3 SuperMini, but I could not directly verify that exact LCSC wrapper page content from the link you sent because the page did not expose readable product text to my extractor.

The important part is this:

An ESP32-C3 SuperMini is a small development board
An ESP32-C3-MINI-1 is an Espressif RF module
So the ESP32-C3 SuperMini is not a drop-in replacement for an ESP32-C3-MINI-1

For your project, that means:

If you want to build a board that contains a tiny ready-made controller board, then ESP32-C3 SuperMini is fine
If you want a cleaner/custom production PCB, then using the bare ESP32-C3-MINI-1 module is usually the better approach

If you want, send me the actual part number / product title / screenshot from that page, and I can tell you immediately whether it is the exact ESP32-C3 SuperMini variant you want.

Find exact part

Check pinout match

Use bare module instead

19 days

recommend a replacement for J1.

sriramt384

@copilot recommend a replacement for J1.

copilot

I see that the current part for

J1

is a USB Type-C connector, MPN: TYPE-C-31-M-12. While I don't have access to a live database to give you specific alternatives, I can suggest considering connectors with similar specifications from other manufacturers. Here are some general guidelines and manufacturers to consider:

Check the footprint compatibility: Ensure the replacement has a compatible mounting style and footprint.
Current and Voltage Ratings: Make sure the replacement can handle similar or better electrical specifications.
Manufacturers to Consider:
- Amphenol
- TE Connectivity
- Molex
- Hirose Electric
- JST
Specifications:
- Look for a USB Type-C connector supporting similar or better data rates and power delivery.
- Ensure mechanical fitment matches your board design.

You may want to browse distributor websites like Digi-Key, Mouser, or LCSC for specific part numbers and availability. If you tell me more about your specific requirements, I can help narrow down the options further!

Someone is typing...

which pins i have to use for programming

satyasai

@copilot which pins i have to use for programming

copilot

For programming the ESP32-C3-MINI-1 module in your project, you'll typically need to connect several important pins to your programmer or USB-to-Serial converter. Based on standard practices for programming ESP32 modules, the key pins involved in programming are:

IO0 (GPIO0): This pin is used to enter the bootloader mode. It needs to be pulled LOW during reset for the module to enter programming mode.
RXD0 and TXD0: These are the UART pins you'll use for serial communication. RXD0 on your ESP32 module should be connected to TX on your USB-to-Serial converter, and TXD0 to RX.
EN (Enable): Sometimes called RST (Reset), this pin is used to reset the module. Typically, it's connected to a momentary button or can be controlled by the programmer to reset the ESP32 as part of the programming process.
GND (Ground): A common ground between the ESP32 module and your USB-to-Serial adapter or programmer is necessary.
3V3 (3.3V Power): The ESP32 operates at 3.3V, so ensure that it's powered accordingly during programming.

Given these requirements, please proceed with the following connections:

Connect U1:IO0 to your programmer's GPIO to pull it LOW during reset (to enter programming mode).
Connect U1:RXD0 to the TX pin of your USB-to-Serial converter.
Connect U1:TXD0 to the RX pin of your USB-to-Serial converter.
Connect at least one U1:GND pin to your converter's GND pin.
Connect U1:3V3 to a 3.3V supply on your converter or to an external 3.3V power source as required.

Make sure your ESP32 module is properly powered (3.3V) and all devices share a common ground to ensure successful programming. If you're using a USB-to-Serial adapter, double-check the voltage levels to ensure it operates at 3.3V logic to match the ESP32's levels.

Someone is typing...

GND

IO1

IO0

GND

IO5

IO3

ESP_BOOT

IO4

+5V

GND

IO2

ESP_BOOT

GND

IC1

USB_D+

3V3

IO7

Resistance

ESP_BOOT

IO0

ESP_BOOT

IO3

IO6

IO2

IO1

USB_D+

+5V

IO3

IO4

ESP_BOOT

3V3

+5V

IO6

ESP_BOOT

U0RXD

Resistance

220 Ω

ESP_BOOT

+5V

SW2 ~3 - U1 IO10

Resistance

5.1KΩ

ESP_BOOT

IO8

ESP_BOOT

+5V

Resistance

220 Ω

IO2

IO5

USB_D-

Resistance

10KΩ

IO3

3V3

SW1 ~3 - U1 IO9

USB_D-

IO5

ESP_BOOT

SW2 ~3 - U1 IO10

IO0

Resistance

ESP_BOOT

3V3

R10

Resistance

10KΩ

SW1 ~3 - U1 IO9

U0TXD

IO4

IO5

Resistance

100KΩ

Resistance

220 Ω

ESP_BOOT

IO1

IO7

ESP_BOOT

R12

Resistance

500 Ω

Capacitance

3.3nF

Capacitance

1uF

Capacitance

10uF

Capacitance

22uF

Capacitance

10uF

Capacitance

0.1uF

Inductance

2.2uH

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Project Name

ESP32-C3-MINI-1 Module

Description

ESP32-C3 SuperMini Compact Control Module with NeoPixel, Servo Header, Trimmer, ADC, Pushbuttons

Properties

System Ar…itecture

flowchart LR USB_C[USB-C Connector] -->|5V| V5[+5V Net] V5 --> WS[WS2812B NeoPixel] V5 --> SERVO[Servo Header] V5 --> BUCK[TPS62130 Buck Regulator] BUCK -->|3.3V| V3[3.3V Net] V3 --> U1[ESP32-C3 SuperMini] V3 --> POT[10k Potentiometer] V3 --> AI[Analog Input Header] U1 -->|Digital Data| WS U1 -->|PWM| SERVO U1 -->|ADC| POT U1 -->|ADC| AI U1 -->|GPIO Input| SW1[Pushbutton SW1] U1 -->|GPIO Input| SW2[Pushbutton SW2]

License

creativecommons.org/licenses/by/4.0/

Designator Prefix

Pricing & Availability

Distributor	Qty 1
Arrow	$1.69–$1.82
Digi-Key	$4.04–$5.23
LCSC	$4.54
Mouser	$2.97
TME	$2.73
Verical	$1.20–$1.69

Controls

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Schematic

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