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Raspberry Pi - GPIO Connector
  • 时间:2024-12-27

Raspberry Pi - GPIO Connector


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Here, we will learn about the GPIO (general-purpose input output) connector in Raspberry Pi.

GPIO Pinout

One of the powerful features of the Raspberry Pi is the row of GPIO (general-purpose input output) pins and the GPIO Pinout is an interactive reference to these GPIO pins.

Following diagram shows a 40-pin GPIO header, which is found on all the current Raspberry Pi boards −

GPIO Pinout

The source of the diagram is www.raspberrypi.org

Voltages

From the above diagram, we can see that there are two 5V pins and two 3V3 pins on the board. It also has several ground pins (0V). All these pins are unconfigurable.

Outputs

A GPIO pin can be designated as an output pin. The pin set as output pin can be set to 3V3(high) or 0V(low).

Inputs

A GPIO pin can be designated as an input pin. The pin set as input pin can be read as 3V3(high) or 0V(low). You can use internal pull-up or pull-down resistors.

You can see in the above diagram, GPIO2 and GPIO3 pins have fixed pull-up resistors but for the other pins, you can configure it in software.

Alternative Functions

GPIO pins can be used with a variety of alternative functions. Among them, some are available on all pins and others on specific pins.

PWM: Pulse-width modulation

Software PWM are available on all the pins whereas Hardware PWM are available on GPIO12, GPIO13, GPIO18, and GPIO19.

SPI: Serial Peripheral Interface

The SPI are available on the following −


SPI0: MOSI (GPIO10); MISO (GPIO9); SCLK (GPIO11); CE0 (GPIO8), CE1 (GPIO7)
SPI1: MOSI (GPIO20); MISO (GPIO19); SCLK (GPIO21); CE0 (GPIO18); CE1 (GPIO17); CE2 (GPIO16)

I2C: Inter-integrated Circuit

The I2C are available on the following −


Data: (GPIO2); Clock (GPIO3)
EEPROM Data: (GPIO0); EEPROM Clock (GPIO1)

Serial

The serial function is available at the following −


TX(GPIO14)
RX(GPIO15)

Connect GPIO to Raspberry Pi

Following are some simple rules to reduce the risk of damaging your Raspberry Pi board, while using the GPIO connector −

    Do not try to put more than 3.3V on any GPIO pin.

    Do not try to draw more than 3mA per output. Although, you can draw more but to increase the pfe of your Pi Board, you should restrict upto 3mA.

    You should not poke the GPIO connector with a screwdriver when the Raspberry Pi board is powered up.

    5V power is enough for your Raspberry Pi. Don’t try to provide more power than that.

    You should not try to draw more than a total of 50mA from the 3.3V supply pins.

Output of GPIO pins

To set up the output of GPIO pins and to read the input values by using Python, you need to install RPi.GPIO python pbrary.

Install RPi.GPIO python pbrary

To install RPi.GPIO python pbrary, type the following commands on terminal window of your Raspberry Pi −


sudo apt-get install python-dev
sudo apt-get install python-rpi.gpio

Almost all the latest versions of distributions have RPi.GPIO already installed. In that case, the above commands will update it to the latest version.

I2C Device

Let us check how we can make I2C work with Raspberry Pi.

Case 1: Using Adafruit Occidentaps 0.2 or later

In case, if you are using Adafruit Occidentaps, you don’t need to do anything. Because, this distribution is preconfigured with I2C support.

Case 2: Using Raspbian

In case if you are using Raspbian, you need to do the following configuration changes −

First, edit the file /etc/modules by using the following command −


sudo nano /etc/modules

Now, we need to add the following pnes to the end of this file −


i2c-bcm2708
i2c-dev

Next, we need to edit the file named /etc/modprobe.d/raspi-blackpst.conf and comment out the following pne by adding a # −


blackpst i2c-bcm2708
#blackpst i2c-bcm2708

Once done, install the Python I2C pbrary by using the following command −


sudo apt-get install python-smbus

Now, reboot your Raspberry Pi and it will be ready for I2C.

Find I2C Address

There is an I2C device attached to Raspberry Pi computer and you want to know its address.

For this, we need to install i2c-tools as follows −


sudo apt-get install i2c-tools

Once done, attach your I2C device to your Raspberry Pi board and run the following command −


sudo i2cdetect -y 1

Here, we need to take care about the following two things −

    First, if you have newer distributions then, it is quite possible that it has i2c-tools already installed.

    Second, if you have an older version 1 board in use, change 1 to 0 in the above code pne.

Serial Peripheral Interface (SPI)

Let us check how we can use SPI (serial peripheral interface) bus with Raspberry Pi.

Case 1: Using Adafruit Occidentaps 0.2 or later

In case if you are using Adafruit Occidentaps, you don’t need to do anything because this distribution is preconfigured with SPI support.

Case 2: Using Raspbian

In case if you are using Raspbian, you need to do the following configuration changes −

First, edit the file /etc/modules by using the following command −


sudo nano /etc/modules

Now, we need to add the following pnes to the end of this file −


spidev

Next, we need to edit the file named /etc/modprobe.d/raspi-blackpst.conf and comment out the following pne by adding a #


blackpst spi-bcm2708
#blackpst spi-bcm2708

Once done, install the Python pbrary to carry out communication from a Python program by using the following command −


cd ~
sudo apt-get install python-dev
git clone git://github.com/doceme/py-spidev
cd py-spidev/
sudo python setup.py install

Now, reboot your Raspberry Pi and it will be ready for SPI.

Serial Port

Suppose if you want to use the serial port i.e. Rx and Tx pins on your Raspberry Pi board but, it is used by Linux OS as a console connection. To disable this, we need to comment out a pne in a file named /etc/inittab.

Open this file by using the following code pne −


sudo nano /etc/inittab

Now, find the following pne by scrolpng down at the end of this file −


T0:23:respawn:/sbin/getty -L ttyAMA0 115200 vt100

Now, we need to use a # to comment out this pne −


#T0:23:respawn:/sbin/getty -L ttyAMA0 115200 vt100

Now, save this file and reboot your Raspberry Pi.

Access serial port from Python

We can also use the serial port i.e. Rx and Tx pins on Raspberry Pi board by using Python. For this, we need to install PySerial pbrary as follows −


sudo apt-get install python-serial

It is recommended to disable (as we did above) the Raspberry Pi’s serial console before using PySerial.

Test the serial port

Once you start using the serial ports, you may want to send and receive the serial commands from a Terminal session. For this, we need to install Minicom as follows −


sudo apt-get install minicom

It is recommended to disable (as we did above) the Raspberry Pi’s serial console before using Minicom.

As now Minicom is installed, we can start a serial communication session with a serial device connected to the RXD and TXD pins of the GPIO connector by using the following command −


minicom -b 9600 -o -D /dev/ttyAMA0

Here, in the above command, after -b is the baud rate and after -D is the serial port. We should use the same baud rate as set on the service we are communicating with.

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