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Merge pull request #22 from RogueM/master 

tr-TR install retrofit + credits for es-ES
This commit is contained in:
Philip Howard 2015-11-11 18:54:10 +00:00
parent f3b756bb11 b7afcf36a9
commit 2762a36819
32 changed files with 213 additions and 124 deletions
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6
README.md
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@ -24,14 +24,14 @@ The contents of this GitHub repository are used to build http://pinout.xyz and i
Current known contributors are:
* tr-TR - @Ardakilic
* de-DE - @rdmueller and KojoePi
* es-ES - @ResonantWave
* fr-FR - @RogueM
* tr-TR - @Ardakilic
We're looking for ( based on traffic ):
* German, de-DE
* Italian, it-IT
* Spanish ( Spain ), es-ES
* Polish pl-PL
* And any others!

6
src/en-GB/overlay/explorer-hat-pro.md
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@ -7,6 +7,8 @@ github: https://github.com/pimoroni/explorer-hat
buy: http://shop.pimoroni.com/products/explorer-hat
description: An all-in-one light, input, motor, touch and output add-on board.
install:
'devices':
- 'i2c'
'apt':
- 'python-smbus'
- 'python3-smbus'
@ -14,6 +16,8 @@ install:
- 'python3-dev'
'python':
- 'explorerhat'
'python3':
- 'explorerhat'
'examples': 'examples/'
pincount: 40
i2c:
@ -98,7 +102,7 @@ pin:
mode: output
active: high
-->
#Explorer HAT and Explorer HAT Pro
#Explorer HAT Pro
5V inputs and outputs, touch pads, LEDs, analog inputs and an H-Bridge motor driver make up the Explorer HAT Pro- a jack of all trades prototyping side-kick for your Raspberry Pi.

8
src/en-GB/overlay/explorer-hat.md
View File

@ -20,6 +20,10 @@ install:
- 'explorerhat'
'examples': 'examples/'
pincount: 40
i2c:
'0x28':
name: Cap Touch
device: cap1208
pin:
'7':
name: LED 1
@ -70,9 +74,9 @@ pin:
mode: output
active: high
-->
#Explorer HAT and Explorer HAT Pro
#Explorer HAT
5V inputs and outputs, touch pads, LEDs, analog inputs and an H-Bridge motor driver make up the Explorer HAT Pro- a jack of all trades prototyping side-kick for your Raspberry Pi.
5V inputs and outputs, touch pads and LEDs make up the Explorer HAT, a jack of all trades prototyping side-kick for your Raspberry Pi.
To get the HAT set up and ready to go you can use the one-line product installer:

1
src/en-GB/template/layout.html
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@ -52,7 +52,6 @@
</div>
</div>
<div class="footer" style="clear: both;padding: 20px 0px;text-align:center;">
<p>Thanks to <a href="https://twitter.com/roguehal13">@RogueHAL13</a>, <a href="https://twitter.com/ardadev">@ardadev</a></p>
<p>Spotted an error, want to add your board's pinout? <a href="https://github.com/gadgetoid/Pinout2">Head on over to our GitHub repository</a> and submit an Issue or a Pull Request!</p>
</div>
</div>

6
src/es-ES/overlay/explorer-hat-pro.md
View File

@ -7,6 +7,8 @@ github: https://github.com/pimoroni/explorer-hat
buy: http://shop.pimoroni.com/products/explorer-hat
description: Una placa completa, con luz, entradas, entradas táctiles y salidas.
install:
'devices':
- 'i2c'
'apt':
- 'python-smbus'
- 'python3-smbus'
@ -14,6 +16,8 @@ install:
- 'python3-dev'
'python':
- 'explorerhat'
'python3':
- 'explorerhat'
'examples': 'examples/'
pincount: 40
i2c:
@ -98,7 +102,7 @@ pin:
mode: salida
active: alto (encendido)
-->
#Explorer HAT y Explorer HAT Pro
#Explorer HAT Pro
Entradas y salidas de 5V, paneles táctiles, LEDs, entradas analógicas y un Puente-H para controlar motores componen el Explorer HAT Pro.

4
src/es-ES/overlay/explorer-hat.md
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@ -70,9 +70,9 @@ pin:
mode: salida
active: alto (encendido)
-->
#Explorer HAT y Explorer HAT Pro
#Explorer HAT
Entradas y salidas de 5V, paneles táctiles, LEDs, entradas analógicas y un Puente-H para controlar motores componen el Explorer HAT Pro.
Entradas y salidas de 5V, paneles táctiles y LEDs componen el Explorer HAT.
Para preparar e instalar el HAT utiliza la siguiente línea:

13
src/fr-FR/overlay/arduino-spi.md
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@ -1,7 +1,7 @@
<!--
---
name: Arduino SPI
description: Program Arduino with Raspberry Pi SPI
description: Programmer une carte Arduino avec une Raspberry Pi
pin:
19:
name: MOSI
@ -26,13 +26,16 @@ pin:
-->
#ATmega 328p / Arduino over SPI
###Did you know that your Pi could power and program an ATmega 328p/Arduino directly, with nothing but a few wires, a breadboard, a 16Mhz crystal oscillator and some 22pF capacitors?
###Saviez-vous qu'il était possible de programmer une carte Arduino ou un ATmega328 à partir d'une Raspberry Pi, en utilisant juste quelques cables, un 'breadboard', Quartz de 16 MHz et quelques condensateurs?
Read my [complete Pico PiDuino tutorial](http://pi.gadgetoid.com/article/building-the-pico-piduino) to get started for just over &pound;5
Did you know that your Pi could power and program an ATmega 328p/Arduino directly, with nothing but a few wires, a breadboard, a 16Mhz crystal oscillator and some 22pF capacitors?
You'll need to install [Gordon's modified AVRDude](https://projects.drogon.net/raspberry-pi/gertboard/arduino-ide-installation-isp/).
Voici un article qui vous guidera dans cette entreprise:
[Construire un Arduino](https://itechnofrance.wordpress.com/2013/04/13/construire-un-arduino/)
Connect 8/CEO to your ATmega's Reset/RST pin, 9/MISO to its MISO pin (D12), 10 to its MOSI pin (D11) and 11/SCLK to its SCLK pin (D13).
Une fois votre 'Arduino' assemblé, il vous faudra installer une version modifiée de [AVRDude](https://projects.drogon.net/raspberry-pi/gertboard/arduino-ide-installation-isp/).
Connectez la broche 8 de la Raspi à l'ATmega Reset/RST, la broche 9 à son MISO/D12, la broche 10 à son MOSI/D11, et finalement la broche 11 au SCLK/D13.
Power your ATmega with the 3.3v and GND pins from your Pi, and you're good to go.

17
src/fr-FR/overlay/display-o-tron-hat.md
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@ -3,7 +3,7 @@
name: Display-o-Tron HAT
manufacturer: Pimoroni
url: https://github.com/pimoroni/dot3k
description: A 3-line character LCD with a 6-zone RGB backlight and 6 touch buttons
description: Un LCD 3x16 avec rétro-éclairage sur 6 zones RGB et buttons tactiles
pincount: 40
pin:
3:
@ -17,28 +17,25 @@ pin:
19:
mode: spi
22:
name: LCD Register Select
name: Selection Registre LCD
mode: output
23:
mode: spi
24:
name: LCD Chip Select
name: Selection Puce LCD
mode: chipselect
active: high
32:
name: LCD Reset
name: Reset LCD
mode: output
active: low
-->
#Display-o-Tron HAT
Display-o-Tron HAT uses both SPI and I2c to drive the LCD display, backlight and touch.
However both of these busses can be shared with other devices.
Le chapeau Display-o-Tron est un LCD 3x16 caractères avec rétro-éclairage sur 6 zones RGB et buttons tactiles. Il communique avec la Raspberry Pi par l'intermédiaire des bus SPI et I2C.
You can use the one-line product installer to get Display-o-Tron HAT set up and ready to go, just:
Pour l'installation et mise en route exécutez simplement les commandes ci-dessous et suivez les instructions présentées à l'écran:
```bash
curl get.pimoroni.com/dot3k | bash
curl -sS get.pimoroni.com/dot3k | bash
```
And follow the instructions!

24
src/fr-FR/overlay/display-o-tron.md
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@ -4,7 +4,7 @@ name: Display-o-Tron 3000
manufacturer: Pimoroni
github: https://github.com/pimoroni/dot3k
url: https://github.com/pimoroni/dot3k
description: A 3-line character LCD with an RGB backlight and joystick
description: Un écran LCD 3 lignes avec rétro-éclairage et joystick
install:
'devices':
- 'i2c'
@ -24,29 +24,29 @@ pin:
5:
mode: i2c
7:
name: Joystick Button
name: bouton Joystick
mode: input
active: low
11:
name: Joystick Left
name: Joystick gauche
mode: input
active: low
13:
name: Joystick Up
name: Joystick haut
mode: input
active: low
15:
name: Joystick Right
name: Joystick droit
mode: input
active: low
19:
mode: spi
21:
name: Joystick Down
name: Joystick bas
mode: input
active: low
22:
name: LCD CMD/DATA
name: Données/Commandes LCD
mode: output
active: high
23:
@ -54,10 +54,10 @@ pin:
-->
#Display-o-Tron 3000
You can use the one-line product installer to get Display-o-Tron 3000 set up and ready to go, just:
Le Display-o-Tron 3000 est un écran LCD avec 3 lignes, rétro-éclairage et joystick
Pour l'installation et mise en route exécutez simplement les commandes ci-dessous et suivez les instructions présentées à l'écran:
```bash
curl get.pimoroni.com/dot3k | bash
```
And follow the instructions!
curl -sS get.pimoroni.com/dot3k | bash
```

3
src/fr-FR/overlay/dots.md
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@ -94,6 +94,9 @@ pin:
###Dots is a Dot to Dot HAT board for the Raspberry Pi that lets you join-the-dots with BARE Conductive Paint!
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
Every Dot on the Dots board is a "floating" metal contact just waiting to be pulled down to ground with a dab of paint.
To read a Dot you should set its corresponding pin as an INPUT and make sure it's pulled up like so:

45
src/fr-FR/overlay/explorer-hat-pro.md
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@ -5,8 +5,10 @@ manufacturer: Pimoroni
url: https://github.com/pimoroni/explorer-hat
github: https://github.com/pimoroni/explorer-hat
buy: http://shop.pimoroni.com/products/explorer-hat
description: An all-in-one light, input, motor, touch and output add-on board.
description: Un chapeau multi-usage avec entrées analogiques et contrôle moteurs
install:
'devices':
- 'i2c'
'apt':
- 'python-smbus'
- 'python3-smbus'
@ -14,14 +16,16 @@ install:
- 'python3-dev'
'python':
- 'explorerhat'
'python3':
- 'explorerhat'
'examples': 'examples/'
pincount: 40
i2c:
'0x28':
name: Cap Touch
name: Capteur tactile
device: cap1208
'0x48':
name: Analog Input
name: Entrées analogiques
device: ads1015
pin:
'3': {}
@ -42,21 +46,21 @@ pin:
mode: output
active: high
'15':
name: Input 2
name: Entrée 2
mode: input
active: high
'16':
name: Input 1
name: Entrée 1
mode: input
active: high
'18':
name: Input 3
name: Entrée 3
mode: input
active: high
'19': {}
'21': {}
'22':
name: Input 4
name: Entrée 4
mode: input
active: high
'23': {}
@ -66,48 +70,49 @@ pin:
mode: output
active: high
'31':
name: Output 1
name: Sortie 1
mode: output
active: high
'32':
name: Output 2
name: Sortie 2
mode: output
active: high
'33':
name: Output 3
name: Sortie 3
mode: output
active: high
'35':
name: Motor 1 +
name: Moteur 1 +
mode: output
active: high
'36':
name: Output 4
name: Sortie 4
mode: output
active: high
'37':
name: Motor 2 -
name: Moteur 2 -
mode: output
active: high
'38':
name: Motor 1 -
name: Moteur 1 -
mode: output
active: high
'40':
name: Motor 2 +
name: Moteur 2 +
mode: output
active: high
-->
#Explorer HAT and Explorer HAT Pro
#Explorer HAT Pro
5V inputs and outputs, touch pads, LEDs, analog inputs and an H-Bridge motor driver make up the Explorer HAT Pro- a jack of all trades prototyping side-kick for your Raspberry Pi.
L'Explorer HAT pro est un chapeau multi-usage avec entrées et sorties en 5V, entrées analogiques et contrôle moteurs. Tout cela agrémenté de LED et touches tactiles. C'est donc d'un véritable couteau Suisse dont il s'agit!
Pour l'installation et mise en route exécutez simplement les commandes ci-dessous et suivez les instructions présentées à l'écran:
```bash
sudo apt-get install python-pip
sudo pip install explorer-hat
curl -sS get.pimoroni.com/explorerhat
```
Then import it into your Python script and start tinkering:
Puis, sous Python, en guise de test que tout fonctionne bien:
```bash
import explorerhat

33
src/fr-FR/overlay/explorer-hat.md
View File

@ -5,7 +5,7 @@ manufacturer: Pimoroni
url: https://github.com/pimoroni/explorer-hat
github: https://github.com/pimoroni/explorer-hat
buy: http://shop.pimoroni.com/products/explorer-hat
description: An all-in-one light, input, touch and output add-on board.
description: Un chapeau multi-usage avec entrées et sorties 5V
install:
'devices':
- 'i2c'
@ -20,6 +20,10 @@ install:
- 'explorerhat'
'examples': 'examples/'
pincount: 40
i2c:
'0x28':
name: Capteur tactile
device: cap1208
pin:
'7':
name: LED 1
@ -34,19 +38,19 @@ pin:
mode: output
active: high
'15':
name: Input 2
name: Entrée 2
mode: input
active: high
'16':
name: Input 1
name: Entrée 1
mode: input
active: high
'18':
name: Input 3
name: Entrée 3
mode: input
active: high
'22':
name: Input 4
name: Entrée 4
mode: input
active: high
'29':
@ -54,32 +58,33 @@ pin:
mode: output
active: high
'31':
name: Output 1
name: Sortie 1
mode: output
active: high
'32':
name: Output 2
name: Sortie 2
mode: output
active: high
'33':
name: Output 3
name: Sortie 3
mode: output
active: high
'36':
name: Output 4
name: Sortie 4
mode: output
active: high
-->
#Explorer HAT and Explorer HAT Pro
#Explorer HAT
5V inputs and outputs, touch pads, LEDs, analog inputs and an H-Bridge motor driver make up the Explorer HAT Pro- a jack of all trades prototyping side-kick for your Raspberry Pi.
L'Explorer HAT est un chapeau multi-usage avec entrées et sorties en 5V, LED et touches tactiles. Une extension utile pour tout prototype!
Pour l'installation et mise en route exécutez simplement les commandes ci-dessous et suivez les instructions présentées à l'écran:
```bash
sudo apt-get install python-pip
sudo pip install explorer-hat
curl -sS get.pimoroni.com/explorerhat
```
Then import it into your Python script and start tinkering:
Puis, sous Python, en guise de test que tout fonctionne bien:
```bash
import explorerhat

3
src/fr-FR/overlay/iqaudio-pi-dac.md
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@ -36,6 +36,9 @@ pin:
-->
#IQaudIO Pi-DAC+
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
The Pi-DAC+ takes the digital audio signals (I2S) from the Raspberry Pi and through the
onboard Texas Instruments PCM5122 DAC delivers variable output (hardware volume
control) analog audio to the Pi-DAC+ Phono connectors. The PI-DAC+ also, via the

20
src/fr-FR/overlay/piano-hat.md
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@ -3,15 +3,15 @@
name: Piano HAT
manufacturer: Pimoroni
url: https://github.com/pimoroni/piano-hat
description: A tiny Pi piano with 16 touch-sensitive buttons
description: Un mini-piano avec 16 touches tactiles
pincount: 40
i2c:
'0x28':
name: Cap Touch A
name: Capteur tactile A
device: cap1188
datasheet: http://ww1.microchip.com/downloads/en/DeviceDoc/CAP1188%20.pdf
'0x2b':
name: Cap Touch B
name: Capteur tactile B
device: cap1188
datasheet: http://ww1.microchip.com/downloads/en/DeviceDoc/CAP1188%20.pdf
pin:
@ -20,13 +20,13 @@ pin:
5:
mode: i2c
7:
name: Alert A
name: Alerte A
mode: input
11:
name: Reset A
mode: output
13:
name: Alert B
name: Alerte B
mode: input
15:
name: Reset B
@ -34,14 +34,12 @@ pin:
-->
#Piano HAT
Piano HAT has 16 touch-sensitive buttons. 13 of these are a single Piano octave, the rest give you octave up/down and instrument select functionality.
Le Piano HAT est un mini-piano pour la RasPi muni de 16 touches tactiles. 13 d'entre elles forment le clavier en lui-même, s'étendant sur une octave. Les autres quant à elles servent à déplacer l'octave vers le haut ou le bas, ainsi que la sélection d'instrument.
It uses two Microchip CAP1188 chips with the i2c addresses 0x28 and 0x2b.
Les microchips responsables de la gestion des touches tactiles sont deux CAP1188, communiquant par l'interface i2c, aux adresses 0x28 et 0x2b.
You can use the one-line product installer to get Piano HAT set up and ready to go, just:
Pour l'installation et mise en route exécutez simplement les commandes ci-dessous et suivez les instructions présentées à l'écran:
```bash
curl get.pimoroni.com/pianohat | bash
curl -sS get.pimoroni.com/pianohat | bash
```
And follow the instructions!

3
src/fr-FR/overlay/piborg-ledborg.md
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@ -22,6 +22,9 @@ pin:
-->
###The PiBorg LedBorg is an ultra-bright RGB LED board for the Raspberry Pi.
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
PiBorg has its own driver, so you don't need to drive it manually.
If you want a much, much wider range of colours, though, you can drive it manually using softPwm in WiringPi. The pin assignments for this are as follows:

6
src/fr-FR/overlay/pibrella.md
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@ -61,13 +61,15 @@ pin:
-->
#Pibrella
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
The all-in-one light, sound, input and output add-on board from Pimoroni vs Cyntech uses lots of IO on the Pi but leaves both Serial and I2C free leaving plenty of room for expansion if you get creative.
Pibrella is easy to use, first you should install the module using LXTerminal/Command Line:
```bash
sudo apt-get install python-pip
sudo pip install pibrella
curl -sS get.pimoroni.com/pibrella
```
Then import it into your Python script and start tinkering:

8
src/fr-FR/overlay/rtk-000-0001.md → src/fr-FR/overlay/rtk-000-001.md
View File

@ -2,9 +2,8 @@
---
name: Ryanteck Motor Controller Board
manufacturer: Ryanteck
url: http://www.ryanteck.uk/store/ryanteck-rpi-motor-controller-board
buy: http://www.ryanteck.uk/store/ryanteck-rpi-motor-controller-board
description: A budget motor controller with quick start guides.
url: https://ryanteck.uk/add-ons/6-ryanteck-rpi-motor-controller-board-0635648607160.html
buy: https://ryanteck.uk/add-ons/6-ryanteck-rpi-motor-controller-board-0635648607160.html
pincount: 26
pin:
'11':
@ -28,6 +27,9 @@ pin:
###A quick and easy way to start driving motors on your Raspberry Pi
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
```python
##Simple motor script for the RTK-000-001
import RPi.GPIO as GPIO

19
src/fr-FR/overlay/sense-hat.md
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@ -34,8 +34,17 @@ pin:
-->
#Sense HAT
LED Matrix: LED2472G -> ATTINY88 -> SPI
Joystick: SKRHABE010 -> ATTINY88 -> GPIO23/24/25
Axis/IMU: LSM9DS1 -> i2c 0x1c(1e),0x6a(6b) (INT on MCU)
Pressure/Temp: LPS25H -> i2c 0x5c
Humidity/Temp: HTS221 -> i2c 0x5f
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
The Sense HAT is an add-on board for Raspberry Pi comprising of a 8×8 RGB LED matrix, a five-button joystick and the following sensors:
Gyroscope, Accelerometer, Magnetometer, Temperature, Barometric pressure and Humidity.
The shift register driving the LED Matrix is a LED2472G connected via an ATTINY88 to the SPI bus of the Pi. The Multi-Directional SKRHABE010 Switch/Joystick is similarly connected to the SPI bus.
The sensors themselves operate (mostly) over the i2c bus:
The IMU (Gyroscope, Accelerometer, Magnetometer) through a LSM9DS1 found at i2c address 0x1c(0x1e),0x6a(0x6b), with Interrupts on the ATTINY88.
Environemental sensors are represented by a LPS25H Pressure+Temperature sensor at address 0x5c and by a HTS221 Humidity+Temp sensor at 0x5f on the i2c bus.

11
src/fr-FR/overlay/skywriter-hat.md
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@ -28,7 +28,18 @@ pin:
-->
#Skywriter HAT
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
Skywriter HAT senses your finger's position above it in 3 dimensions, outputting an X, Y, Z axis
which you can use in your Python scripts.
It also recognises gestures, including swipes and more.
To get the HAT set up and ready to go you can use the one-line product installer:
```bash
curl -sS get.pimoroni.com/skywriter | bash
```
And follow the instructions!

27
src/fr-FR/overlay/spi.md
View File

@ -44,23 +44,22 @@ pin:
-->
#SPI - Serial Peripheral Interface
###Known as the four-wire serial bus, SPI lets you daisy-chain multiple compatible devices off a single set of pins by assigning them different addresses.
###Known as the four-wire serial bus, SPI lets you daisy-chain multiple compatible devices off a single set of pins by assigning them different chip-select pins.
A simple example of an SPI peripheral is the MCP23S17 digital IO expander chip Note the S in place of the 0 found on the I2C version. Using it in WiringPi2 is a doddle:
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
A useful example of an SPI peripheral is the MCP23S17 digital IO expander chip Note the S in place of the 0 found on the I2C version.
To talk to an SPI device, you assert its corresponding chip-select pin. By default the Pi has CE0 and CE1.
```python
import wiringpi2 as wiringpi
HIGH = 1
OUTPUT = 1
PIN_BASE = 65
SPI_ADDR = 0x20
wiringpi.wiringPiSetup()
wiringpi.mcp23S17Setup(PIN_BASE,SPI_ADDR)
# 16 pins including the starting pin
mcp23S17pins = range(PIN_BASE,PIN_BASE+15)
for pin in mcp23S17pins:
wiringpi.pinMode(pin,OUTPUT)
wiringpi.digitalWrite(pin,HIGH)
import spidev
spi = spidev.SpiDev()
spi.open(0, CHIP_SELECT_0_OR_1)
spi.max_speed_hz = 1000000
spi.xfer([value_8bit])
```
You can also use the SPI port to "Bit-Bang" an ATmega 328, loading Arduino sketches onto it with Gordon's modified version of AVRDude.

3
src/fr-FR/overlay/traffic-hat.md
View File

@ -33,6 +33,9 @@ pin:
###A quick and easy way to learn the basics of GPIO on a budget. All in a nice HAT.
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
```python
import RPi.GPIO as IO
from time import sleep

3
src/fr-FR/overlay/uart.md
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@ -16,6 +16,9 @@ pin:
###The 2 UART pins in WiringPi are: 15, 16
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
UART is a handy, straight forward way to interface an Arduino ( or bootloaded ATmega ) with your Pi. You must, however, be careful with logic-levels between the two devices: the Pi is 3.3v and the Arduino is 5v. Connect the two and you might conjure up some magic blue smoke.
Personally I'm a fan of building out a Arduino Bootloaded ATmega 328 circuit on a breadboard with a voltage regulator to take the Pi's 5v line and convert it to 3.3v. The ATmega 328 seems to run quite happily at 3.3v using a 16Mhz crystal and you'll then have an Arduino clone with 3.3v logic.

7
src/fr-FR/overlay/unicorn-hat.md
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@ -26,16 +26,19 @@ pin:
-->
#Unicorn HAT
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
64 blindingly bright LEDs packed into a HAT and driven with an ultra-fast, C library that you can talk to
from Python make Unicorn HAT PiGlow's bigger, brighter brother.
Note: Unicorn HAT uses some special PWM trickery, performed with the same hardware that lets you Pi produce sound
through the audio jack ( analog audio ) so you can't use both at the same time!
Setup is easy, just:
To get the HAT set up and ready to go you can use the one-line product installer:
```bash
curl get.pimoroni.com/unicornhat | bash
curl -sS get.pimoroni.com/unicornhat | bash
```
Then import it into your Python script and start tinkering:

3
src/fr-FR/overlay/wiringpi.md
View File

@ -60,6 +60,9 @@ pin:
###WiringPi is an attempt to bring Arduino-wiring-like simplicity to the Raspberry Pi.
##AWAITING TRANSLATION
##EN COURS DE TRADUCTION
The goal is to have a single common platform and set of functions for accessing the Raspberry Pi GPIO across muliple languages. WiringPi is a C library at heart, but it's available to both Ruby and Python users who can "gem install wiringpi" or "pip install wiringpi2" respectively.
Python users note the 2 on the end, the WiringPi2-Python library finally brings a whole host of existing WiringPi functionality to Python including brand new features from WiringPi 2.

4
src/fr-FR/template/layout.html
View File

@ -25,9 +25,9 @@
<body>
<div id="container">
<ul class="main-nav">
<li><a href="http://pi.gadgetoid.com/">Blogue Pi</a></li>
<li><a href="http://eagle.gadgetoid.com">Leçons Eagle</a></li>
<li><a href="http://planet.raspfr.org">Blog Pi</a></li>
<li><a href="https://twitter.com/gadgetoid"><i class="fa fa-twitter"></i> @Gadgetoid</a></li>
<li><a href="https://twitter.com/roguehal13"><i class="fa fa-twitter"></i> @RogueHAL13</a></li>
<li><a href="https://github.com/Gadgetoid/Pinout2"><i class="fa fa-github"></i> Contribuez!</a></li>
{{lang_links}}
</ul>

2
src/tr-TR/overlay/display-o-tron.md
View File

@ -45,7 +45,7 @@ pin:
Aşağıdaki tek satır kodla Display-o-Tron 3000'u kurup kullanmaya başlayabilirsiniz. Yapmanız gereken tek şey terminalde şu komutu çalıştırmak,
```bash
curl get.pimoroni.com/dot3k | bash
curl -sS get.pimoroni.com/dot3k | bash
```
ve de karşınıza gelen yönergeleri takip etmek.

18
src/tr-TR/overlay/explorer-hat-pro.md
View File

@ -7,6 +7,19 @@ github: https://github.com/pimoroni/explorer-hat
buy: http://shop.pimoroni.com/products/explorer-hat
description: Hepsi-bir-arada, hafif, hızlı, dokunma, giriş ve çıkış destekleyen eklenti
kartı.
install:
'devices':
- 'i2c'
'apt':
- 'python-smbus'
- 'python3-smbus'
- 'python-dev'
- 'python3-dev'
'python':
- 'explorerhat'
'python3':
- 'explorerhat'
'examples': 'examples/'
pincount: 40
i2c:
'0x28':
@ -90,13 +103,12 @@ pin:
mode: output
active: high
-->
#Explorer HAT ve Explorer HAT Pro
#Explorer HAT Pro
5V giriş ve çıkışları, dokunmatik paneli, LEDler, analog girişler ve bir H-Bridge motor ile Explorer HAT Pro, Raspberry Pi'de prototipleme için tam teşekkürlü bir araç olarak teşkil etmekte.
```bash
sudo apt-get install python-pip
sudo pip install explorer-hat
curl -sS get.pimoroni.com/explorerhat
```
Ardından Python scriptinize aşağıdaki kodları ekleyip prototipinizi kurcalamaya başlayabilirsiniz:

20
src/tr-TR/overlay/explorer-hat.md
View File

@ -7,6 +7,19 @@ github: https://github.com/pimoroni/explorer-hat
buy: http://shop.pimoroni.com/products/explorer-hat
description: Hepsi-bir-arada, hafif, hızlı, dokunma, giriş ve çıkış destekleyen eklenti
kartı.
install:
'devices':
- 'i2c'
'apt':
- 'python-smbus'
- 'python3-smbus'
- 'python-dev'
- 'python3-dev'
'python':
- 'explorerhat'
'python3':
- 'explorerhat'
'examples': 'examples/'
pincount: 40
pin:
'7':
@ -58,13 +71,12 @@ pin:
mode: output
active: high
-->
#Explorer HAT ve Explorer HAT Pro
#Explorer HAT
5V giriş ve çıkışları, dokunmatik paneli, LEDler, analog girişler ve bir H-Bridge motor ile Explorer HAT Pro, Raspberry Pi'de prototipleme için tam teşekkürlü bir araç olarak teşkil etmekte.
5V giriş ve çıkışları, dokunmatik paneli ve LEDler ile Explorer HAT, Raspberry Pi'de prototipleme için tam teşekkürlü bir araç olarak teşkil etmekte.
```bash
sudo apt-get install python-pip
sudo pip install explorer-hat
curl -sS get.pimoroni.com/explorerhat
```
Ardından Python scriptinize aşağıdaki kodları ekleyip prototipinizi kurcalamaya başlayabilirsiniz:

3
src/tr-TR/overlay/pibrella.md
View File

@ -66,8 +66,7 @@ Pibrella Pimoroni tarafından hazırlanmış hepsi-bir-arada, hafif, ses, giriş
Pibrella'yı kullanmak çok kolay. Öncelikle terminalden aşağıdaki komutları çalıştırıp kurulumu gerçekleştirin:
```bash
sudo apt-get install python-pip
sudo pip install pibrella
curl -sS get.pimoroni.com/pibrella | bash
```
Ardından Python kodunuzda aşağıdaki gibi modülü ekleyip kurcalamaya başlayabilirsiniz:

6
src/tr-TR/overlay/skywriter-hat.md
View File

@ -21,4 +21,8 @@ pin:
Skywriter HAT X, Y ve Z ekseninde parmağınızın pozisyonunu algılamanızı, ve de bu değerleri Python Scriptinizde kullanmanızı sağlar.
Ayrıca kaydırma (tıpkı telefonlardaki "swipe" hareketi gibi) gibi hareketleri de algılama yeteneğine sahiptir.
Ayrıca kaydırma (tıpkı telefonlardaki "swipe" hareketi gibi) gibi hareketleri de algılama yeteneğine sahiptir.
```bash
curl -sS get.pimoroni.com/skywriter | bash
```

2
src/tr-TR/overlay/unicorn-hat.md
View File

@ -24,7 +24,7 @@ Not: Unicorn HAT bazı PWM kurnazlıkları kullanmakta. Bunun içnde analog ses
Kurulumu çok basit, sadece aşağıdaki komutu çalıştırın:
```bash
curl get.pimoroni.com/unicornhat | bash
curl -sS get.pimoroni.com/unicornhat | bash
```
Ardından Python scriptinize modülü ekleyip kurcalamaya başlayabilirsiniz:

3
src/tr-TR/template/layout.html
View File

@ -25,9 +25,8 @@
<div id="container">
<ul class="main-nav">
<li><a href="http://www.raspi.gen.tr/">Raspberry Pi Türkiye</a></li>
<li><a href="https://twitter.com/RPiTR"><i class="fa fa-twitter"></i> @RPiTR</a></li>
<li><a href="http://forum.raspi.gen.tr/">Forumlar</a></li>
<li><a href="http://pi.gadgetoid.com/">Pi Blog</a></li>
<li><a href="https://twitter.com/RPiTR"><i class="fa fa-twitter"></i> @RPiTR</a></li>
<li><a href="https://twitter.com/gadgetoid"><i class="fa fa-twitter"></i> @Gadgetoid</a></li>
<li><a href="https://github.com/Ardakilic/Pinout2"><i class="fa fa-github"></i> Destekleyin</a></li>
{{lang_links}}