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which pins to connect with esp 32 pico v3 and type-c-31-m-12 and what resistor a...
noobot

noobot

@copilot which pins to connect with esp 32 pico v3 and type-c-31-m-12 and what resistor and capacitor to connect, as i want to give power supply and data transmission like code uploading
1y

copilot

To power your ESP32-PICO-V3 using the TYPE-C-31-M-12 USB-C connector and enable data transmission (programming the ESP32), you need to make the following connections:
Power Supply:
  • USB-C VBUS to ESP32 Power Pin:
    • Connect TYPE-C:VBUS (pins 15 and 16) to ESP32:VDDA_1 (pin 1).
  • Ground Connection:
    • Connect TYPE-C:GND (pins 7 and 8) to ESP32:GND (pin 49).
Data Transmission (USB-UART bridge):
  • USB Data Lines to ESP32 Serial Pins:
    • Connect TYPE-C:DP1 (pin 2) to ESP32:U0TXD/IO1 (pin 41).
    • Connect TYPE-C:DN1 (pin 3) to ESP32:U0RXD/IO3 (pin 40).
Additional Components:
  • Resistors and Capacitors:
    • Pull-up Resistor on EN Pin:
      • Connect a 10kΩ pull-up resistor from ESP32:EN (pin 9) to VDDA_1 (pin 1).
    • Supply Decoupling Capacitor:
      • Place a 0.1μF ceramic capacitor close to the ESP32 power pins for decoupling. Connect it between VDDA_1 (pin 1) and GND (pin 49).
  • Optional USB Type-C resistors:
    • CC Pins Resistors:
      • Connect 5.1kΩ resistors from TYPE-C:CC1 (pin 1) and TYPE-C:CC2 (pin 11) to GND for USB-C power role identification.
These connections will enable you to power the ESP32 via the USB-C connector and perform code uploading through the UART interface. Make sure your design complies with USB-C and ESP32 electrical requirements. If you're using the ESP32 for more advanced operations or need specific configurations, let me know!
1y
which pins to connect with esp 32 pico v3 and type-c-31-m-12 and what resistor a...
noobot

noobot

@copilot which pins to connect with esp 32 pico v3 and type-c-31-m-12 and what resistor and capacitor to connect
1y

copilot

To connect the ESP32-PICO-V3 with the TYPE-C-31-M-12 USB Type-C connector for power and data, you'll typically want to focus on power, USB data lines, and control signals. Here are the basic connections:
Connections for Power:
  1. 5V Power (VBUS)
    • Connect TYPE-C-31-M-12:VBUS (pins 15, 16) to a power management circuit, which will step down the voltage to 3.3V needed for the ESP32.
    • After regulation, connect the regulated 3.3V to ESP32-PICO-V3:VDDA_1 (pin 1) and ESP32-PICO-V3:VDDA_2 (pin 43).
  2. Ground (GND)
    • Connect TYPE-C-31-M-12:GND (pins 7, 8) to ESP32-PICO-V3:GND (pin 49).
USB Data Connection:
  1. USB Data Lines
    • Connect TYPE-C-31-M-12:DP1 (pin 2) to appropriate GPIOs for USB functionality on ESP32-PICO-V3.
    • Connect TYPE-C-31-M-12:DN1 (pin 3) similarly to GPIOs on ESP32-PICO-V3.
Pull-up/Pull-down Resistors:
  • You might use a pull-up resistor (usually around 4.7kΩ or 10kΩ) on the CC1 and/or CC2 pins of the Type-C connector for Type-C orientation detection. Connect TYPE-C-31-M-12:CC1 (pin 1) or TYPE-C-31-M-12:CC2 (pin 11) to an appropriate GPIO on the ESP32 if needed for your project.
Capacitors:
  • Place a 10μF and a 0.1μF capacitor close to the power pins of the ESP32 for power stability.
  • For USB lines stability and noise filtering, it might be useful to use small capacitors (e.g., 22pF) close to the USB data pins.
Summary of Connections:
  • Connect TYPE-C-31-M-12:VBUS to a voltage regulator, then to ESP32-PICO-V3:VDDA_1, ESP32-PICO-V3:VDDA_2.
  • Connect TYPE-C-31-M-12:GND to ESP32-PICO-V3:GND.
  • Add pull-up resistors to TYPE-C-31-M-12:CC1 or CC2 if needed.
  • Use bypass capacitors on the ESP32's power pins.
These are typical connections for integrating USB Type-C with ESP32 for basic power and potential data communication. Let me know if you have specific requirements or need further assistance!
1y
2
please explain what type c does.
noobot

noobot

@copilot please explain what type c does.
1y

copilot

The USBUSB Type-C connector is a versatile and widely adopted standard for connecting, charging, and transferring data across various devices. Here are its key functions and features:
  • Reversible Design: The USBUSB Type-C connector is symmetrical and reversible, meaning it can be plugged in either way, which enhances user convenience.
  • Power Delivery: It supports scalable power delivery, allowing devices to charge rapidly. The power capability can go up to 100W100W ($20V$, $5A$) depending on the specification used.
  • Data Transfer: USBUSB Type-C supports high-speed data transfer. It is compatible with USBUSB 3.1 Gen 2, which can offer up to 1010 GbpsGbps throughput.
  • Video Output: The connector can transmit video signals. It's compatible with DisplayPort and HDMI, enabling it to connect to monitors and TVs for display purposes.
  • Audio Transmission: Some versions support audio transmission, replacing traditional headphone jacks in many devices.
  • Widely Used: This standard is used in a variety of devices, including smartphones, laptops, tablets, and more, due to its versatility and efficient design.
In the context of your project, the USBUSB Type-C connector provides power and data interface for your device, but specific applications will depend on how it's connected within your circuit. Would you like to explore how to connect it to other components of your project?
1y
3
D9
12V
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A01
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IR SENSOR
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MESHMARIZE PCB

MESHMARIZE PCB
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Last updated by noobot
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noobot

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