Difference between revisions of "FR:RPi Tutorial Easy GPIO Hardware & Software"

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(Circuits de protection)
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==Circuits de protection==
==Circuits de protection==
In order to protect the Raspberry Pi hardware, it is highly recommended that the GPIO pins are protected in some form to avoid damage.
Afin de protéger l'électronique du Raspberry Pi, il est vivement recommandé d'assurer la protection des broches GPIO d'une façon ou d'une autre pour éviter tout dommage.
The following link will introduce some of the ways to do this:
Le lien suivant présente quelques manières de le faire :
[[RPi Tutorial EGHS:GPIO Protection Circuits|GPIO Protection Circuits]]
[[RPi Tutorial EGHS:GPIO Protection Circuits|Circuits de protection GPIO]]
==Plateformes de tests alternatives==
==Plateformes de tests alternatives==

Revision as of 03:52, 15 June 2013

Retour vers le Hub, ou vers la page Tutoriels.

Tutoriels logiciels et matériels GPIO :


While most of these circuits may interface directly to the RPi, the use of a buffered interface (such as the one supplied by the Gertboard) is recommended which will help protect against damage. Alternatively, experiment with one of the #Alternative Test Platforms.

The GPIO pins connect directly into the core of the ARM processer, and are static-sensitive, so you should avoid touching the pins wherever possible. If you are carrying a static charge, for example by taking off an acrylic pullover, or walking across a nylon carpet, touching the GPIO pins could destroy your R-Pi, so always earth yourself before touching the pins or anything connected to them.

Extreme caution should be exercised when interfacing hardware at a low level, you may damage your RPi, your equipment and potentially yourself and others. Doing so is at your own risk!


This tutorial is based on this thread and aims to introduce basic circuits which can be used with the RPi's General Purpose Input/Output (GPIO). Basic electronics knowledge will be required (i.e. familiarity with typical discrete components such as transistors, diodes and resistors).

It is highly recommended that additional GPIO Protection Circuits are used to protect the delicate GPIO pins if interfacing to RPi hardware.

Liens utiles/Ressources

  • The Electronics Club - An excellent resource for beginner electronics, explains many basic circuits.

Circuits de protection

Afin de protéger l'électronique du Raspberry Pi, il est vivement recommandé d'assurer la protection des broches GPIO d'une façon ou d'une autre pour éviter tout dommage.

Le lien suivant présente quelques manières de le faire :

Circuits de protection GPIO

Plateformes de tests alternatives

Until you have a RPi to test with, there are many alternative platforms available which will allow the testing of basic circuits. In addition, they may be interfaced with directly using the RPi in the future.

  • TI LaunchPad - A low cost development platform ($4.30 including free world shipping). Includes programmer/debug board, two processors (with 16 GPIO including I2C/SPI/UART, 8ch 10bit ADC etc).
  • Arduino - Common hobbyist development platform. Excellent community support and additional hardware.
  • STM32 Primer/EvoPrimer - Self-contained development platform. Mentioned since I may use one at some point (I bought the original Primer a long time ago). It includes a battery, acceleration sensors and built in display screen.

Tutoriels terminés

Until RPi devices are available, I can not confirm this will work on a real RPi.
For now, I shall be using the TI LaunchPad (see  Alternative Test Platforms
for details) to test the hardware on (as it is cheap and the logic levels similar).

Circuits de base

1. LED output

Directly driven (will need very low powered LED) or driven via transistor (allowing higher current). Includes example 8xLED Test Module.

3. Simple on/off switch input

With or without de-bouncing, protection resistors etc. Includes example 8xSwitch Test Module.

4. 12V relay driver circuit

12V relay driver circiut with opto-decoupler. Includes schema.

Tutoriels prévus

Circuits de base

1. LED output

Completed see above.

2. Small DC motor drive

MOSFET or Darlington Pair to provide high power drive and reverse bias diode to protect from motor coils.

3. Simple on/off switch input

Completed see above.

4. Analogue resistive sensor sampled as a digital input

Using a basic transistor switch circuit.

Circuits intermédiaires

1. Shift Registers - Multiplexing Data

An introduction to using additional ICs. In this case, using a parallel to serial 8-bit shift register to read 8 digital inputs using two GPIO pins.

2. Analogue to Digital Circuit

Use of a ADC chip to sample inputs.

3. PWM Driving Circuit

For example motor speed control.

4. Alpha-numeric 2x16 LCD Display

(IN-PROGRESS) Control via 4-wire data (total 6 GPIO) and also alternative 2-wire interface circuit.

5. Interfacing to I2C Devices

Interfacing to an I2C device connected to one of the Pi's I2C buses.

Circuits avancés

1. Control Hardware Over The Internet

Implement web control and monitoring of GPIO connected components.

2. Communicating With Other Micro-controllers

Communicate with other micro-controllers so that features such as ADCs can be used.

Contribuer à ce tutoriel

This is an open project so please feel welcome to add your own sections and improve its content.

Please see the Talk:RPi Tutorial Easy GPIO Hardware & Software page to discuss this page.

  1. http://www.raspberrypi.org/forum/projects-and-collaboration-general/gpios-suitable-for-microswitches-joysticks/#p35307
  2. http://www.raspberrypi.org/forum/projects-and-collaboration-general/gpios-suitable-for-microswitches-joysticks/#p35309