Difference between revisions of "Pico-4g-expansion"

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       in main.py file
 
       in main.py file
 
     * To turn on GPS, you need to uncomment this line Gps = EG25_4G.gps() in main.py file
 
     * To turn on GPS, you need to uncomment this line Gps = EG25_4G.gps() in main.py file
   * You need to enter your mobile number in the code pico_2g_exp.py to make a call and send the message
+
   * You need to enter your mobile number in the code main.py to make a call and send the message
 
 
  
 
===Use Pico 4G Expansion without Pico===
 
===Use Pico 4G Expansion without Pico===

Revision as of 06:15, 13 January 2022

Pico 4G Expansion

The Raspberry Pi Pico 4G Expansion is a Quectel EG25-G module-based 4G Expansion board that includes an LTE category 4 module, built-in WiFi, multi-constellation GNSS, USB 2.0 High-Speed Interface.

Pico 4G Expansion supports maximum downlink rates of 150Mbps and uplink rates of 50Mbps over LTE, while backward compatibility with current 2G networks guarantees connectivity even in places where 3G or 4G coverage is not available.

Pico 4G Expansion also includes a 1.14-inch display with a resolution of 240 x 135 pixels, 65K RGB colors, and a sharp and vivid exhibiting effect, designed primarily for user engagement via SPI connection by incorporating a GPIO header. The 1.14-inch LCD includes the ST7789 Driver and SPI Interface, decreasing the amount of IO pins required.


Features

  • 1.14" LCD
  • Low Power Consumption
  • Max. 150Mbps downlink /50Mbps uplink under LTE
  • Feature refinements: supports DFOTA*, eCall* and DTMF*
  • MIMO technology meets demands for data rate and link reliability in modem wireless communication systems


Specifications

  • Operating Voltage - 5V(via USB)
  • Communication - UART/USB 2.0
  • Module - Quectel EG25-G
  • Compatibility - Raspberry Pi Pico
  • Operating Temperature - -400 ' 800 C
  • Coverage - LTE, UMTS/HSPA. and GSM/GPRS/ EDGE (Worldwide)


Pico 4G Expansion
Buy it From : Click Here


Installation

MicroPython

  • Stack Raspberry Pi Pico on the female header of Pico Sense HAT.
  • Connect USB cable on Raspberry Pi Pico USB port.
  • Choose interpreter as MicroPython (Raspberry Pi Pico).

Thonny-interpreter.PNG

  • In the folder you see 3 python files:
    * Lcd1_14driver.py -> This file contain a library of LCD display
    * EG25_4G.py -> This file contains the library of the module (including AT commands), you need to add this file to pico.
    * main.py -> This is the main file you need to run
    
  • Inside the "main.py" file, you see three functions
    * To make a call, you need to uncomment this line Call = EG25_4G.call(Mobile_number,10) in the main.py file
    * To make a message, you need to uncomment this line Message = EG25_4G.message(Mobile_number, Write_message) 
      in main.py file
    * To turn on GPS, you need to uncomment this line Gps = EG25_4G.gps() in main.py file
  * You need to enter your mobile number in the code main.py to make a call and send the message

Use Pico 4G Expansion without Pico

4g without pico.jpg

First turn on the module by pressing the power button for three seconds ( with pico you don't need to press this button because the module is turned on with the help of code) button is in the module as you see in the image. Then open any terminal which has AT command facility.

  * for example download XCTU software, as shown in figure

Xctu.jpg

Then go to tools-> serial console as shown in figure

Xctu2.png

After that you see different serial/USB port as shown in figure, then choose Quectel USB AT port, for at command

Xctu3.jpg

Resources

Github