BPI GPIO extend module T type

From Banana Pi Wiki
Revision as of 19:23, 16 May 2018 by Sinovoip (talk | contribs) (How to use on BPI-M3)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to: navigation, search

Product Overview

Overview

This module is designed specifically for convert the GPIO electric level of Banana Pi. It can convert 3.3V electric level to 5.5V electric level. That makes the Banana Pi compatible 5V peripheral. Modules are drawn twice a 5V Vcc and 3.3V Vcc; module IO are all below the left side of the 5V level IO, the right of all to 3V level IO. It is connected via cable 2 * 13 and banana pie GPIO port, and then plug in the breadboard module can be used.

Produce Feature

  • 1. Convert 3.3V GPIO to 5V GPIO
  • 2. 3.3V GPIO and 5V FPIO classification
  • 3. Can be used in breadboard
  • 4. Use TI TXB0108 chip

Port

  • 1. 5V Vcc
  • 2. 3.3V Vcc
  • 3. 5V GPIO
  • 4. 3V GPIO
  • 5. Banana Pi connect port,also can use on raspberry pi.

Product Parameters

  • 1. Working voltage: 1.65V-5.5V
  • 2. Drive current up to 50mA
  • 3. Low Power Consumption, 4-μA Max Icc
  • 4. −40°C to +85°C operation

Typical Application

  • 1. Convert electric level
  • 2. Breadboard test
  • 3. DIY hands-on experiments

Product Specification

Gpio 3.jpg

Gpio1.png

Schematic diagram

Gpio2.png

How to use on BPI-M3

OS: BPI-M3 Ubuntu15.10 (Kernel3.4)

Version: 1.0 HDMI

GPIO extend 5.jpg

Step 1: Download WiringPI

$ git clone https://github.com/BPI-SINOVOIP/BPI-WiringPi.git111 -b BPI_M3
$ cd BPI-WiringPi
$ chmod +x ./build
$ sudo ./build```

Step 2 : Copy smaple code to led.c file

$ sudo vi led.c 

Step 3 : Compile led.c

$ gcc -o led led.c -l wiringPi 

Step 4: Run led

$ sudo ./led 

Sample Code:

#include <stdio.h>
#include <wiringPi.h>
#define	LED_1 8 //BPI SDA
#define	LED_2 11 //BPI CE1
#define	LED_3 0 //BPI GPIO0
int main (void)
{
int i;
printf ("BPI-M3 blink\n") ;
//wiringPiSetupPhys() ; //phy
//wiringPiSetupGpio(); //bcm
wiringPiSetup(); //wiringPi 
pinMode (LED_1, OUTPUT) ;
pinMode (LED_2, OUTPUT) ;
pinMode (LED_3, OUTPUT) ;
for (;;)
{
digitalWrite (LED_1, HIGH) ;	// On
digitalWrite (LED_2, HIGH) ;
digitalWrite (LED_3, HIGH) ;
delay (500) ;	// mS
digitalWrite (LED_1, LOW) ;	// Off
digitalWrite (LED_2, LOW) ;
digitalWrite (LED_3, LOW) ;
delay (500) ;
}
return 0 ;
}

Testbench

  • 1. Connect the module to Banana Pi
  • 2. Set all of the GPIO of Banana Pi to OUTPUT mode;
  • 3. Set all of GPIO to High level, find the voltage is 5V or 3.3V
  • 4. Set all of GPIO to Low level, find the voltage near 0V.;
  • 5. Finish test