From b9892ef10bd1de8b32a2bf08d417c40b4d795aa5 Mon Sep 17 00:00:00 2001 From: RogueM Date: Sat, 22 Oct 2016 14:42:31 +0100 Subject: [PATCH] killed pt - duplicated en but never translated --- README.md | 1 - src/pt/404.md | 7 - src/pt/index.md | 27 -- src/pt/overlay/ground.md | 27 -- src/pt/overlay/i2c.md | 50 --- src/pt/overlay/spi.md | 65 ---- src/pt/overlay/uart.md | 39 --- src/pt/overlay/wiringpi.md | 79 ----- src/pt/pi-pinout.yaml | 371 --------------------- src/pt/pin/pin-1.md | 3 - src/pt/pin/pin-10.md | 7 - src/pt/pin/pin-12.md | 1 - src/pt/pin/pin-14.md | 1 - src/pt/pin/pin-17.md | 1 - src/pt/pin/pin-2.md | 6 - src/pt/pin/pin-20.md | 1 - src/pt/pin/pin-25.md | 1 - src/pt/pin/pin-27.md | 1 - src/pt/pin/pin-28.md | 1 - src/pt/pin/pin-3.md | 4 - src/pt/pin/pin-30.md | 1 - src/pt/pin/pin-34.md | 1 - src/pt/pin/pin-39.md | 1 - src/pt/pin/pin-4.md | 1 - src/pt/pin/pin-5.md | 3 - src/pt/pin/pin-6.md | 1 - src/pt/pin/pin-8.md | 7 - src/pt/pin/pin-9.md | 1 - src/pt/settings.yaml | 39 --- src/pt/template/boards.html | 67 ---- src/pt/template/layout.html | 69 ---- src/pt/translate/ab-1-wire-plus.md | 34 -- src/pt/translate/ab-adc-differential-pi.md | 51 --- src/pt/translate/ab-adc-pi-plus.md | 51 --- src/pt/translate/ab-adc-pi-zero.md | 51 --- src/pt/translate/ab-io-pi-plus.md | 48 --- src/pt/translate/ab-rtc-pi-plus.md | 34 -- src/pt/translate/ab-serial-pi-plus.md | 35 -- src/pt/translate/adafruit-cap-mpr121.md | 41 --- src/pt/translate/adafruit-servo-hat.md | 42 --- src/pt/translate/analog-zero.md | 41 --- src/pt/translate/blinkt.md | 28 -- src/pt/translate/carberry.md | 46 --- src/pt/translate/cirruslogic-audio-card.md | 80 ----- src/pt/translate/discohat.md | 87 ----- src/pt/translate/display-o-tron-hat.md | 52 --- src/pt/translate/display-o-tron.md | 75 ----- src/pt/translate/drum-hat.md | 43 --- src/pt/translate/enviro-phat.md | 60 ---- src/pt/translate/espiot-phat.md | 42 --- src/pt/translate/explorer-hat-pro.md | 119 ------- src/pt/translate/explorer-hat.md | 100 ------ src/pt/translate/explorer-phat.md | 99 ------ src/pt/translate/iface-1wire.md | 30 -- src/pt/translate/iface-dpi.md | 58 ---- src/pt/translate/iface-gpclk.md | 31 -- src/pt/translate/iface-jtag.md | 33 -- src/pt/translate/iface-pcm.md | 19 -- src/pt/translate/iface-sd.md | 25 -- src/pt/translate/iqaudio-pi-dac.md | 56 ---- src/pt/translate/iqaudio-pi-digiamp.md | 48 --- src/pt/translate/microdot-phat.md | 48 --- src/pt/translate/phat-dac.md | 39 --- src/pt/translate/pi-liter.md | 59 ---- src/pt/translate/piano-hat.md | 52 --- src/pt/translate/piborg-ledborg.md | 55 --- src/pt/translate/pibrella.md | 84 ----- src/pt/translate/piglow.md | 39 --- src/pt/translate/propeller-hat.md | 39 --- src/pt/translate/raspio-duino.md | 37 -- src/pt/translate/redbear-iot-hat.md | 59 ---- src/pt/translate/rpf-dots.md | 124 ------- src/pt/translate/rtk-000-001.md | 63 ---- src/pt/translate/scroll-phat.md | 53 --- src/pt/translate/sense-hat.md | 32 -- src/pt/translate/skywriter-hat.md | 50 --- src/pt/translate/traffic-hat.md | 56 ---- src/pt/translate/unicorn-hat.md | 53 --- src/pt/translate/unicorn-phat.md | 54 --- src/pt/translate/uugear-7port-usb-hub.md | 24 -- src/pt/translate/uugear-witty-pi-2.md | 55 --- src/pt/translate/uugear-witty-pi.md | 54 --- src/pt/translate/uugear-zero4u.md | 24 -- src/pt/translate/wifi-pants.md | 46 --- src/pt/translate/zero-lipo.md | 37 -- 85 files changed, 3679 deletions(-) delete mode 100644 src/pt/404.md delete mode 100644 src/pt/index.md delete mode 100644 src/pt/overlay/ground.md delete mode 100644 src/pt/overlay/i2c.md delete mode 100644 src/pt/overlay/spi.md delete mode 100644 src/pt/overlay/uart.md delete mode 100644 src/pt/overlay/wiringpi.md delete mode 100644 src/pt/pi-pinout.yaml delete mode 100644 src/pt/pin/pin-1.md delete mode 100644 src/pt/pin/pin-10.md delete mode 100644 src/pt/pin/pin-12.md delete mode 120000 src/pt/pin/pin-14.md delete mode 120000 src/pt/pin/pin-17.md delete mode 100644 src/pt/pin/pin-2.md delete mode 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src/pt/translate/skywriter-hat.md delete mode 100644 src/pt/translate/traffic-hat.md delete mode 100644 src/pt/translate/unicorn-hat.md delete mode 100644 src/pt/translate/unicorn-phat.md delete mode 100644 src/pt/translate/uugear-7port-usb-hub.md delete mode 100644 src/pt/translate/uugear-witty-pi-2.md delete mode 100644 src/pt/translate/uugear-witty-pi.md delete mode 100644 src/pt/translate/uugear-zero4u.md delete mode 100644 src/pt/translate/wifi-pants.md delete mode 100644 src/pt/translate/zero-lipo.md diff --git a/README.md b/README.md index 50ad615..096b737 100644 --- a/README.md +++ b/README.md @@ -35,7 +35,6 @@ Notable contributions: * [es](http://es.pinout.xyz/) - [@ResonantWave](https://github.com/ResonantWave) and [@IkerGarcia](https://github.com/IkerGarcia) * [fr](http://fr.pinout.xyz/) - [@RogueM](https://github.com/RogueM) and [@smileyn64](https://github.com/smileyn64) * [it](http://it.pinout.xyz/) - [@LizardM4](https://github.com/LizardM4) -* [pt](http://pt.pinout.xyz/) - [@Maslor](https://github.com/Maslor) * [tr](http://tr.pinout.xyz/) - [@Ardakilic](https://github.com/Ardakilic) If you would like to provide support for a language not yet in the repository you should start by duplicating the `src/en` directory to the appropriate language-code. For example, if you want to create a German translation you would create the folder `src/de`. diff --git a/src/pt/404.md b/src/pt/404.md deleted file mode 100644 index de3cf17..0000000 --- a/src/pt/404.md +++ /dev/null @@ -1,7 +0,0 @@ -#404 - Uh Oh! - -###Pedimos desculpa, não conseguimos encontrar o que procuras! - -Usa o menu à esquerda para explorar os pinos e funções do Diagrama de Pinos do Raspberry Pi. - -Usa o menu acima para descobrir novas placas, aprender sobre interfaces e descobrir guias de conexões do Diagrama de Pinos. \ No newline at end of file diff --git a/src/pt/index.md b/src/pt/index.md deleted file mode 100644 index cc31857..0000000 --- a/src/pt/index.md +++ /dev/null @@ -1,27 +0,0 @@ -#Diagrama de Pinos! - -###O guia detalhado do diagrama de pinos GPIO do Raspberry Pi, agora com o Raspberry Pi Model B+, Raspberry Pi 2 e Pi Zero incluídos - -Este diagrama de pinos GPIO não foi feito com o propósito de ser imprimido mas é tanto um bom guia de referência rápida como um guia para os pinos GPIO do teu Raspberry Pi. - -##O que é que estes números significam, afinal? - -* BCM - Número de pino Broadcom (Broadcom pin number), frequentemente chamados "GPIO", estes são os que provavelmente vais querer usar com o RPi.GPIO -* WiringPi - Número de pino Wiring Pi, para a biblioteca Wiring Pi de Gordon Henderson. -* Physical - Número correspondente à localização física dos pinos no cabeçalho. - -##Raspberry Pi Zero - -Como o lançamento do Pi Zero traz o Raspberry Pi para as mãos de muitas mais pessoas, estamos a empurrar o Pinout um pouco mais para a vanguarda com alguns melhoramentos visuais e menus categorizados para te ajudar a encontrar o que precisas. - -##Raspberry Pi 2 - -Para celebrar o lançamento do Pi 2 e os novos Pi-entusiastas que vai trazer, o diagrama de pinos foi atualizado para ser mais limpo, detalhado e preciso e vai continuar a ser melhorado. - -##Raspberry Pi Model A+ and B+ - -Agora que o Raspberry Pi Model B Plus está disponível, atualizei o diagrama de pinos com os 14 pinos extras que vais encontrar na tua placa novinha em folha. - -##Raspberry Pi Model "A" and "B" - -O Pinout foi originalmente desenhado para os antigos modelos Raspberry Pi de 26 pinos, vais ver que o outline deste cabeçalho original mostrava um tom ligeiramente mais escuro à esquerda. Se clicares num pino, verás detalhes sobre a sua colocação BCM no Rev 1 Pi original. \ No newline at end of file diff --git a/src/pt/overlay/ground.md b/src/pt/overlay/ground.md deleted file mode 100644 index 1ffd52b..0000000 --- a/src/pt/overlay/ground.md +++ /dev/null @@ -1,27 +0,0 @@ - -#Ground - -The Ground pins on the Raspberry Pi are all electrically connected, so it doesn't matter -which one you use if you're wiring up a voltage supply. - -Generally the one that's most convenient or closest to the rest of your connections is tidier -and easier, or alternatively the one closest to the supply pin that you use. - -For example, it's a good idea to use Physical Pin 17 for 3v3 and Physical Pin 25 for ground when using -the SPI connections, as these are right next to the important pins for SPI0. diff --git a/src/pt/overlay/i2c.md b/src/pt/overlay/i2c.md deleted file mode 100644 index 4070dda..0000000 --- a/src/pt/overlay/i2c.md +++ /dev/null @@ -1,50 +0,0 @@ - -#I2C - Inter Integrated Circuit ---- -###I2C pins in BCM mode are: 2, 3 -###I2C pins in WiringPi are: 8, 9 ---- -The Raspberry Pi's I2C pins are an extremely useful way to talk to many different types of external peripheral; from the MCP23017 digital IO expander, to a connected ATmega. - -The I2C pins include a fixed 1.8 kohms pull-up resistor to 3.3v. This means they are not suitable for use as general purpose IO where a pull-up is not required. - -You can verify the address of connected I2C peripherals with a simple one-liner: - -```bash -sudo apt-get install i2c-tools -sudo i2cdetect -y 1 -``` - -You can then access I2C from Python using the smbus library: - -```python -import smbus -DEVICE_BUS = 1 -DEVICE_ADDR = 0x15 -bus = smbus.SMBus(DEVICE_BUS) -bus.write_byte_data(DEVICE_ADDR, 0x00, 0x01) -``` diff --git a/src/pt/overlay/spi.md b/src/pt/overlay/spi.md deleted file mode 100644 index 96a6ac2..0000000 --- a/src/pt/overlay/spi.md +++ /dev/null @@ -1,65 +0,0 @@ - -#SPI - Serial Peripheral Interface ---- -###SPI0 pins in BCM mode are: 9, 10, 11 + 7/8 -###SPI0 pins in WiringPi are: 12, 13, 14 + 10/11 ---- -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 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 ). You can also use the SPI port to "Bit-Bang" an ATmega 328, loading Arduino sketches onto it with Gordon Hendersons' modified version of AVRDude. - -To talk to an SPI device, you assert its corresponding chip-select pin. By default the Pi has CE0 and CE1. - -```python -import spidev -spi = spidev.SpiDev() -spi.open(0, CHIP_SELECT_0_OR_1) -spi.max_speed_hz = 1000000 -spi.xfer([value_8bit]) -``` diff --git a/src/pt/overlay/uart.md b/src/pt/overlay/uart.md deleted file mode 100644 index acb2a19..0000000 --- a/src/pt/overlay/uart.md +++ /dev/null @@ -1,39 +0,0 @@ - -#UART - Universal Asynchronous Receiver/Transmitter ---- -###UART pins in BCM mode are: 14, 15 -###UART pins in WiringPi are: 15, 16 ---- -UART is an asynchronous serial communication protocol, meaning that it takes bytes of data and transmits the individual bits in a sequential fashion. - -Asynchronous transmission allows data to be transmitted without the sender having to send a clock signal to the receiver. Instead, the sender and receiver agree on timing parameters in advance and special bits called 'start bits' are added to each word and used to synchronize the sending and receiving units. - -UART is commonly used on the Pi as a convenient way to control it over the GPIO, or access the kernel boot messages from the serial console (enabled by default). - -It can also be used as a way to interface an Arduino, bootloaded ATmega, ESP8266, etc with your Pi. Be careful with logic-levels between the devices though, for example the Pi is 3.3v and the Arduino is 5v. Connect the two and you might conjure up some magic blue smoke. - -Assuming you have WiringPi2-Python installed, the following python example opens the Pi's UART at 9600baud and puts 'hello world' - -```python -import wiringpi2 as wiringpi -wiringpi.wiringPiSetup() -serial = wiringpi.serialOpen('/dev/ttyAMA0',9600) -wiringpi.serialPuts(serial,'hello world!') -``` diff --git a/src/pt/overlay/wiringpi.md b/src/pt/overlay/wiringpi.md deleted file mode 100644 index a6bb73a..0000000 --- a/src/pt/overlay/wiringpi.md +++ /dev/null @@ -1,79 +0,0 @@ - -#WiringPi - -WiringPi is an attempt to bring Arduino-wiring-like simplicity to the Raspberry Pi. - -The goal is to have a single common platform and set of functions for accessing the Raspberry Pi GPIO across multiple 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. - -WiringPi uses its own pin numbering scheme, here you'll learn how WiringPi numbers your GPIO pins, what those pins do and how to do shiny things with them from within Python or Ruby. - -Installing to Python couldn't be easier, just: - -```bash -sudo pip install wiringpi2 -``` - -For more information about WiringPi you should visit the official WiringPi website. diff --git a/src/pt/pi-pinout.yaml b/src/pt/pi-pinout.yaml deleted file mode 100644 index 29189d2..0000000 --- a/src/pt/pi-pinout.yaml +++ /dev/null @@ -1,371 +0,0 @@ ---- -name: Raspberry Pi GPIO Pinout -pins: - '1': - name: 3v3 Power - type: "+3v3" - '2': - name: 5v Power - type: "+5v" - '3': - name: SDA - description: I2C Data - type: GPIO/I2C - scheme: - wiringpi: 8 - bcm: 2 - bcmAlt: 0 - functions: - alt0: I2C1 SDA - alt1: SMI SA3 - alt2: DPI V-Sync - '4': - name: 5v Power - type: "+5v" - '5': - name: SCL - description: I2C Clock - type: GPIO/I2C - scheme: - wiringpi: 9 - bcm: 3 - bcmAlt: 1 - functions: - alt0: I2C1 SCL - alt1: SMI SA2 - alt2: DPI H-Sync - '6': - name: Ground - type: GND - '7': - name: GPCLK0 - type: GPIO - scheme: - wiringpi: 7 - bcm: 4 - functions: - alt0: GPCLK0 - alt1: SMI SA1 - alt: Blue 2 - alt5: JTAG TDI - '8': - name: TXD - description: UART Transmit - type: GPIO/UART - scheme: - wiringpi: 15 - bcm: 14 - functions: - alt0: UART0 TXD - alt1: SMI SD6 - alt2: DSI Green 6 - alt5: UART1 TXD - '9': - name: Ground - type: GND - '10': - name: RXD - description: UART Receive - type: GPIO/UART - scheme: - wiringpi: 16 - bcm: 15 - functions: - alt0: UART0 RXD - alt1: SMI SD7 - alt2: DPI Green 7 - alt5: UART1 RXD - '11': - name: '' - type: GPIO - scheme: - wiringpi: 0 - bcm: 17 - functions: - alt0: Reserved - alt1: SMI SD9 - alt2: DPI Red 3 - alt3: UART0 RTS - alt4: SPI1 CE1 - alt5: UART1 RTS - '12': - name: PWM0 - description: PWM0 - type: GPIO - scheme: - wiringpi: 1 - bcm: 18 - functions: - alt0: PCM CLK - alt1: SMI SD10 - alt2: DPI Red 4 - alt3: BSCSL SDA / MOSI - alt4: SPI1 CE0 - alt5: PWM0 - '13': - name: '' - type: GPIO - scheme: - wiringpi: 2 - bcm: 27 - bcmAlt: 21 - functions: - alt0: SD0 DAT3 - alt1: Reserved - alt2: Reserved - alt3: SD1 DAT3 - alt4: JTAG TMS - '14': - name: Ground - type: GND - '15': - name: '' - type: GPIO - scheme: - wiringpi: 3 - bcm: 22 - functions: - alt0: SD0 CLK - alt1: SMI SD14 - alt2: Reserved - alt3: SD1 CLK - alt4: JTAG TRST - '16': - name: '' - type: GPIO - scheme: - wiringpi: 4 - bcm: 23 - functions: - alt0: SD0 CMD - alt1: SMI SD15 - alt2: Reserved - alt3: SD1 CMD - alt4: JTAG RTCK - '17': - name: 3v3 Power - type: "+3v3" - '18': - name: '' - type: GPIO - scheme: - wiringpi: 5 - bcm: 24 - functions: - alt0: SD0 DAT0 - alt1: SMI SD16 - alt2: Reserved - alt3: SD1 DAT0 - alt4: JTAG TDO - '19': - name: MOSI - type: GPIO/SPI - scheme: - wiringpi: 12 - bcm: 10 - functions: - alt0: SPI0 MOSI - alt1: SMI SD2 - alt2: DPI Green 2 - '20': - name: Ground - type: GND - '21': - name: MISO - type: GPIO/SPI - scheme: - wiringpi: 13 - bcm: 9 - functions: - alt0: SPI0 MISO - alt1: SMI SD1 - alt2: DPI Blue 7 - '22': - name: '' - type: GPIO - scheme: - wiringpi: 6 - bcm: 25 - functions: - alt0: SD0 DAT1 - alt1: SMI SD17 - alt2: Reserved - alt3: SD1 DAT1 - alt4: JTAG TCK - '23': - name: SCLK - type: GPIO/SPI - scheme: - wiringpi: 14 - bcm: 11 - functions: - alt0: SPI0 SCLK - alt1: SMI SD3 - alt2: DPI Green 3 - '24': - name: CE0 - description: SPI Chip Select 0 - type: GPIO/SPI - scheme: - wiringpi: 10 - bcm: 8 - functions: - alt0: SPI0 CE0 - alt1: SMI SD0 - alt2: DPI Blue 6 - '25': - name: Ground - type: GND - '26': - name: CE1 - description: SPI Chip Select 1 - type: GPIO/SPI - scheme: - wiringpi: 11 - bcm: 7 - functions: - alt0: SPI0 CE1 - alt1: SMI SWE_N / SRW_N - alt2: DPI Blue 5 - '27': - name: ID_SD - description: HAT EEPROM i2c Data - type: GPIO/I2C - scheme: - wiringpi: 30 - bcm: 0 - functions: - alt0: I2C0 SDA - alt1: SMI SA5 - alt2: DPI CLK - '28': - name: ID_SC - description: HAT EEPROM i2c Clock - type: GPIO/I2C - scheme: - wiringpi: 31 - bcm: 1 - functions: - alt0: I2C0 SCL - alt1: SMI SA4 - alt2: DPI DEN - '29': - name: '' - type: GPIO - scheme: - wiringpi: 21 - bcm: 5 - functions: - alt0: GPCLK1 - alt1: SMI SA0 - alt2: DPI Blue 3 - alt5: JTAG TDO - '30': - name: Ground - type: GND - '31': - name: '' - type: GPIO - scheme: - wiringpi: 22 - bcm: 6 - functions: - alt0: GPCLK2 - alt1: SMI SOE_N / SE - alt2: DPI Blue 4 - alt5: JTAG RTCK - '32': - name: PWM0 - type: GPIO - scheme: - wiringpi: 26 - bcm: 12 - functions: - alt0: PWM0 - alt1: SMI SD4 - alt2: DPI Green 4 - alt5: JTAG TMS - '33': - name: PWM1 - type: GPIO - scheme: - wiringpi: 23 - bcm: 13 - functions: - alt0: PWM1 - alt1: SMI SD5 - alt2: DPI Green 5 - alt5: JTAG TCK - '34': - name: Ground - type: GND - '35': - name: MISO - description: SPI Master-In - type: GPIO/SPI - scheme: - wiringpi: 24 - bcm: 19 - functions: - alt0: PCM FS - alt1: SMI SD11 - alt2: DPI Red 5 - alt3: BSCSL SCL / SCLK - alt4: SPI1 MISO - alt5: PWM1 - '36': - name: '' - type: GPIO - scheme: - wiringpi: 27 - bcm: 16 - functions: - alt0: Reserved - alt1: SMI SD8 - alt2: DPI Red 2 - alt3: UART0 CTS - alt4: SPI1 CE2 - alt5: UART1 CTS - '37': - name: '' - type: GPIO - scheme: - wiringpi: 25 - bcm: 26 - functions: - alt0: SD0 DAT2 - alt1: Reserved - alt2: Reserved - alt3: SD1 DAT2 - alt4: JTAG TDI - '38': - name: MOSI - description: SPI Master-Out - type: GPIO/SPI - scheme: - wiringpi: 28 - bcm: 20 - functions: - alt0: PCM DIN - alt1: SMI SD12 - alt2: DPI Red 6 - alt3: BSCSL MISO - alt4: SPI1 MOSI - alt5: CPCLK0 - '39': - name: Ground - type: GND - '40': - name: SCLK - description: SPI Clock - type: GPIO/SPI - scheme: - wiringpi: 29 - bcm: 21 - functions: - alt0: PCM DOUT - alt1: SMI SD13 - alt2: DPI Red 7 - alt3: BSCSL CE - alt4: SPI1 SCLK - alt5: GPCLK1 diff --git a/src/pt/pin/pin-1.md b/src/pt/pin/pin-1.md deleted file mode 100644 index 6b4c7bc..0000000 --- a/src/pt/pin/pin-1.md +++ /dev/null @@ -1,3 +0,0 @@ -###O 3v3, 3.3 volt, pino de alimentação no Pi tem um máximo de corrente disponível de cerca de 50 mA. É suficiente para alimentar um par de LEDs ou um microprocessador, mas não muito mais. - -Deves geralmente usar a alimentação de 5v, em conjunto com o regulador 3v3 para projetos 3.3v \ No newline at end of file diff --git a/src/pt/pin/pin-10.md b/src/pt/pin/pin-10.md deleted file mode 100644 index d15a969..0000000 --- a/src/pt/pin/pin-10.md +++ /dev/null @@ -1,7 +0,0 @@ -This pin doubles up as the UART recieve pin, RXD. It's also commonly known as "Serial" and, by default, will output a Console from your Pi that, with a suitable Serial cable, you can use to control your Pi via the command-line. - -Thus, The UART pins are useful for setting up a "headless" Pi (a Pi without a screen) and getting it connected to a network. - -UART can also be extremely useful if you want to talk to Arduino or Propeller boards from your Pi, but you must make sure you disable the Serial Console in raspi-config first. - -[Learn more about UART](/pinout/uart) \ No newline at end of file diff --git a/src/pt/pin/pin-12.md b/src/pt/pin/pin-12.md deleted file mode 100644 index 1dee236..0000000 --- a/src/pt/pin/pin-12.md +++ /dev/null @@ -1 +0,0 @@ -The PWM0 output of BCM 18 is particularly useful, in combination with some fast, direct memory access trickery, for driving tricky devices with very specific timings. The WS2812 LEDs on the [Unicorn HAT](/pinout/unicorn_hat) are a good example of this in action. \ No newline at end of file diff --git a/src/pt/pin/pin-14.md b/src/pt/pin/pin-14.md deleted file mode 120000 index d0abe28..0000000 --- a/src/pt/pin/pin-14.md +++ /dev/null @@ -1 +0,0 @@ -pin-6.md \ No newline at end of file diff --git a/src/pt/pin/pin-17.md b/src/pt/pin/pin-17.md deleted file mode 120000 index 5fc74dd..0000000 --- a/src/pt/pin/pin-17.md +++ /dev/null @@ -1 +0,0 @@ -./pin-1.md \ No newline at end of file diff --git a/src/pt/pin/pin-2.md b/src/pt/pin/pin-2.md deleted file mode 100644 index b71f5cd..0000000 --- a/src/pt/pin/pin-2.md +++ /dev/null @@ -1,6 +0,0 @@ -###Os pinos de alimentação 5v estão conectados diretamente à entrada de energia do Pi e consegue fornecer a corrente completa do teu adaptador mains, menos do que é usado pelo Pi. - -Com uma fonte de energia decente, como o adaptador Pi oficial, podes esperar conseguir cerca de 1.5A. - -Não te deixes dissuadir pelo que parece ser uma fraca voltagem. Consegues fazer bastante com 5v. -Power Arduinos, e mesmo um pequeno fio inversor Eletroluminiscente logo a partir do pino± \ No newline at end of file diff --git a/src/pt/pin/pin-20.md b/src/pt/pin/pin-20.md deleted file mode 120000 index d0abe28..0000000 --- a/src/pt/pin/pin-20.md +++ /dev/null @@ -1 +0,0 @@ -pin-6.md \ No newline at end of file diff --git a/src/pt/pin/pin-25.md b/src/pt/pin/pin-25.md deleted file mode 120000 index d0abe28..0000000 --- a/src/pt/pin/pin-25.md +++ /dev/null @@ -1 +0,0 @@ -pin-6.md \ No newline at end of file diff --git a/src/pt/pin/pin-27.md b/src/pt/pin/pin-27.md deleted file mode 100644 index 1aa0b3e..0000000 --- a/src/pt/pin/pin-27.md +++ /dev/null @@ -1 +0,0 @@ -These pins are generally reserved for i2c communication with a HAT EEPROM. \ No newline at end of file diff --git a/src/pt/pin/pin-28.md b/src/pt/pin/pin-28.md deleted file mode 120000 index 70eec8c..0000000 --- a/src/pt/pin/pin-28.md +++ /dev/null @@ -1 +0,0 @@ -pin-27.md \ No newline at end of file diff --git a/src/pt/pin/pin-3.md b/src/pt/pin/pin-3.md deleted file mode 100644 index a53ceba..0000000 --- a/src/pt/pin/pin-3.md +++ /dev/null @@ -1,4 +0,0 @@ -SDA (i2c Data) is one of the i2c pins on the Pi, [learn more about i2c](/pinout/i2c). - -SDA includes a fixed, 1.8 kohms pull-up to 3.3v, which means this pin is not suitable for use as a general purpose IO where no pullup resistor is desired. - diff --git a/src/pt/pin/pin-30.md b/src/pt/pin/pin-30.md deleted file mode 120000 index d0abe28..0000000 --- a/src/pt/pin/pin-30.md +++ /dev/null @@ -1 +0,0 @@ -pin-6.md \ No newline at end of file diff --git a/src/pt/pin/pin-34.md b/src/pt/pin/pin-34.md deleted file mode 120000 index d0abe28..0000000 --- a/src/pt/pin/pin-34.md +++ /dev/null @@ -1 +0,0 @@ -pin-6.md \ No newline at end of file diff --git a/src/pt/pin/pin-39.md b/src/pt/pin/pin-39.md deleted file mode 120000 index d0abe28..0000000 --- a/src/pt/pin/pin-39.md +++ /dev/null @@ -1 +0,0 @@ -pin-6.md \ No newline at end of file diff --git a/src/pt/pin/pin-4.md b/src/pt/pin/pin-4.md deleted file mode 120000 index 253c8f3..0000000 --- a/src/pt/pin/pin-4.md +++ /dev/null @@ -1 +0,0 @@ -pin-2.md \ No newline at end of file diff --git a/src/pt/pin/pin-5.md b/src/pt/pin/pin-5.md deleted file mode 100644 index 814ea07..0000000 --- a/src/pt/pin/pin-5.md +++ /dev/null @@ -1,3 +0,0 @@ -SCL (i2c Clock) is one of the i2c pins on the Pi, [learn more about i2c](/pinout/i2c). - -SCL includes a fixed, 1.8 kohms pull-up to 3.3v, which means this pin is not suitable for use as a general purpose IO where no pullup resistor is desired. \ No newline at end of file diff --git a/src/pt/pin/pin-6.md b/src/pt/pin/pin-6.md deleted file mode 100644 index 5c029cb..0000000 --- a/src/pt/pin/pin-6.md +++ /dev/null @@ -1 +0,0 @@ -Terra! \ No newline at end of file diff --git a/src/pt/pin/pin-8.md b/src/pt/pin/pin-8.md deleted file mode 100644 index 61500e3..0000000 --- a/src/pt/pin/pin-8.md +++ /dev/null @@ -1,7 +0,0 @@ -This pin doubles up as the UART transmit pin, TXD. It's also commonly known as "Serial" and, by default, will output a Console from your Pi that, with a suitable Serial cable, you can use to control your Pi via the command-line. - -Thus, The UART pins are useful for setting up a "headless" Pi (a Pi without a screen) and getting it connected to a network. - -UART can also be extremely useful if you want to talk to Arduino or Propeller boards from your Pi, but you must make sure you disable the Serial Console in raspi-config first. - -[Learn more about UART](/pinout/uart) \ No newline at end of file diff --git a/src/pt/pin/pin-9.md b/src/pt/pin/pin-9.md deleted file mode 120000 index d0abe28..0000000 --- a/src/pt/pin/pin-9.md +++ /dev/null @@ -1 +0,0 @@ -pin-6.md \ No newline at end of file diff --git a/src/pt/settings.yaml b/src/pt/settings.yaml deleted file mode 100644 index a034be3..0000000 --- a/src/pt/settings.yaml +++ /dev/null @@ -1,39 +0,0 @@ ---- -default_desc: The comprehensive Raspberry Pi GPIO Pinout guide for the original Raspberry - Pi, B+ and Pi 2 -default_title: Raspberry Pi GPIO Pinout - Pi 1, B+, Pi 2 -title_suffix: " at Raspberry Pi GPIO Pinout" -base_url: /pinout/ -resource_url: /resources/ -domain: pinout.xyz -url_suffix: -urls: - GND: ground -strings: -- made_by: 'Made by {manufacturer}' -- type_hat: 'HAT form-factor' -- type_phat: 'pHAT form-factor' -- type_classic: 'Classic form-factor' -- pin_header: '{} pin header' -- uses_eeprom: 'Uses EEPROM' -- uses_i2c: 'Uses I2C' -- uses_spi: 'Uses SPI' -- wiring_pi_pin: 'Wiring Pi pin {}' -- uses_n_gpio_pins: 'Uses {} GPIO pins' -- bcm_pin_rev1_pi: 'BCM pin {} on Rev 1 ( very early ) Pi' -- physical_pin_n: 'Physical pin {}' -- more_information: 'More Information' -- github_repository: 'GitHub Repository' -- buy_now: 'Buy Now' -- details: 'Details' -featured: -- i2c -- spi -- uart -- wiringpi -overlays: -- ground -- i2c -- spi -- uart -- wiringpi diff --git a/src/pt/template/boards.html b/src/pt/template/boards.html deleted file mode 100644 index 36346ad..0000000 --- a/src/pt/template/boards.html +++ /dev/null @@ -1,67 +0,0 @@ - - - - - {{title}} - - - - - - - - {{hreflang}} - - - -
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Raspberry Pi HATs, pHATs & Add-ons

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Spotted an error, want to add your board's pinout? Head on over to our GitHub repository and submit an Issue or a Pull Request!

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Originally part of pi.gadgetoid.com

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Maintained by @Gadgetoid and @RogueHAL13

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Raspberry Pinout

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Originally part of pi.gadgetoid.com

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Translation @Maslor

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- - - - - - - - diff --git a/src/pt/translate/ab-1-wire-plus.md b/src/pt/translate/ab-1-wire-plus.md deleted file mode 100644 index 07768d0..0000000 --- a/src/pt/translate/ab-1-wire-plus.md +++ /dev/null @@ -1,34 +0,0 @@ - -#1 Wire Pi Plus - -The 1 Wire Pi Plus from AB Electronics UK is a communication board supporting the 1-Wire® protocol designed for use on the Raspberry Pi A+, Raspberry Pi B+ and Raspberry Pi 2 Model B computer platforms. A 5V buffered I2C port is also provided on the board. - -The 1-Wire® port on the 1 Wire Pi Plus is based around a DS2482-100 I2C to 1-Wire® bridge device. The DS2482-100 provides bi-directional protocol conversion between the I2C port on the Raspberry Pi and any attached 1-Wire® slave devices. An ESD Protection Diode is used to protect the 1 Wire Pi Plus and Raspberry Pi from electrostatic spikes on the 1-Wire® port. Connections to the 1-Wire® port can be made through the RJ-12 socket or the solder points on the PCB. - -The Quick2wire lib from [https://github.com/quick2wire/quick2wire-python-api](https://github.com/quick2wire/quick2wire-python-api) allows easy access to the I2C port via Python. - -[https://www.abelectronics.co.uk/kb/article/3/owfs-with-i2c-support-on-raspberry-pi](https://www.abelectronics.co.uk/kb/article/3/owfs-with-i2c-support-on-raspberry-pi "Configuring and using the 1-Wire® port on your Raspberry Pi") \ No newline at end of file diff --git a/src/pt/translate/ab-adc-differential-pi.md b/src/pt/translate/ab-adc-differential-pi.md deleted file mode 100644 index dca0b1e..0000000 --- a/src/pt/translate/ab-adc-differential-pi.md +++ /dev/null @@ -1,51 +0,0 @@ - -#ADC Differential Pi - -The ADC Differential Pi is an 8 channel 18 bit analogue to digital converter designed to work with the Raspberry Pi A+, Raspberry Pi B+ and Raspberry Pi 2 Model B. The ADC Differential Pi is based on two Microchip MCP3424 A/D converters each containing 4 analogue inputs. The MCP3424 is a delta-sigma A/D converter with low noise differential inputs. - -##Features - -- 8 x 18-bit differential inputs -- Control via the Raspberry Pi I2C port -- Stack up to 4 ADC Differential Pi boards on a single Raspberry Pi -- Jumper selectable I2C addresses (8 choices) -- Buffered 5V I2C port -- Based on the MCP3424 from Microchip Technologies Inc -- Input range of ±2.048V -- On-board 2.048V reference voltage (Accuracy ± 0.05%, Drift: 15 ppm/°C) -- On-Board Programmable Gain Amplifier (PGA): Gains of 1, 2, 4 or 8 -- Programmable Data Rate Options: - - 3.75 SPS (18 bits) - - 15 SPS (16 bits) - - 60 SPS (14 bits) - - 240 SPS (12 bits) -- One-Shot or Continuous Conversion Options - -Arduino, C, Windows 10 IOT, Python 2 and Python 3 libraries available on GitHub. \ No newline at end of file diff --git a/src/pt/translate/ab-adc-pi-plus.md b/src/pt/translate/ab-adc-pi-plus.md deleted file mode 100644 index 39d61f4..0000000 --- a/src/pt/translate/ab-adc-pi-plus.md +++ /dev/null @@ -1,51 +0,0 @@ - -#ADC Pi Plus - -The ADC Pi Plus is an 8 channel 17 bit analogue to digital converter designed to work with the Raspberry Pi A+, Raspberry Pi B+ and Raspberry Pi 2 Model B. The ADC Pi Plus is based on two Microchip MCP3424 A/D converters each containing 4 analogue inputs. The MCP3424 is a delta-sigma A/D converter with low noise differential inputs. - -##Features - -- 8 x 17-bit 0 to 5V Single Ended Inputs -- Control via the Raspberry Pi I2C port -- Stack up to 4 ADC Pi Plus boards on a single Raspberry Pi -- Jumper selectable I2C addresses -- Buffered 5V I2C port -- Based on the MCP3424 from Microchip Technologies Inc -- Single Ended full-scale range of 5.0V -- On-board 2.048V reference voltage (Accuracy ± 0.05%, Drift: 15 ppm/°C) -- On-Board Programmable Gain Amplifier (PGA): Gains of 1, 2, 4 or 8 -- Programmable Data Rate Options: - - 3.75 SPS (17 bits) - - 15 SPS (15 bits) - - 60 SPS (13 bits) - - 240 SPS (11 bits) -- One-Shot or Continuous Conversion Options - -Arduino, C, Windows 10 IOT, Python 2 and Python 3 libraries are available on GitHub. \ No newline at end of file diff --git a/src/pt/translate/ab-adc-pi-zero.md b/src/pt/translate/ab-adc-pi-zero.md deleted file mode 100644 index f863fc0..0000000 --- a/src/pt/translate/ab-adc-pi-zero.md +++ /dev/null @@ -1,51 +0,0 @@ - -#ADC Pi Zero - -The ADC Pi Zero is an 8 channel 17 bit analogue to digital converter designed to work with the Raspberry Pi Zero. The ADC Pi Zero is based on two Microchip MCP3424 A/D converters each containing 4 analogue inputs. The MCP3424 is a delta-sigma A/D converter with low noise differential inputs. - -##Features - -- 8 x 17-bit 0 to 5V Single Ended Inputs -- Control via the Raspberry Pi I2C port -- Stack up to 4 ADC Pi Zero boards on a single Raspberry Pi -- Jumper selectable I2C addresses -- Buffered 5V I2C port -- Based on the MCP3424 from Microchip Technologies Inc -- Single Ended full-scale range of 5.0V -- On-board 2.048V reference voltage (Accuracy ± 0.05%, Drift: 15 ppm/°C) -- On-Board Programmable Gain Amplifier (PGA): Gains of 1, 2, 4 or 8 -- Programmable Data Rate Options: - - 3.75 SPS (17 bits) - - 15 SPS (15 bits) - - 60 SPS (13 bits) - - 240 SPS (11 bits) -- One-Shot or Continuous Conversion Options - -Arduino, C, Windows 10 IOT, Python 2 and Python 3 libraries are available on GitHub. \ No newline at end of file diff --git a/src/pt/translate/ab-io-pi-plus.md b/src/pt/translate/ab-io-pi-plus.md deleted file mode 100644 index 399712f..0000000 --- a/src/pt/translate/ab-io-pi-plus.md +++ /dev/null @@ -1,48 +0,0 @@ - -#IO Pi Plus - -The IO Pi Plus is a 32 channel digital expansion board designed for use on the Raspberry Pi A+, Raspberry Pi B+ and Raspberry Pi 2 Model B computer platform. The board is based around the MCP23017 16-bit I/O expander from Microchip Technology Inc. - -A pair of MCP23017 expanders are included on the board allowing you to connect up to 32 digital inputs or outputs to the Raspberry Pi. The IO Pi Plus Expander is powered through the host Raspberry Pi using the GPIO port and extended pins on the GPIO connector allow you to stack the IO Pi Plus along with other expansion boards. - -##Features - -- 32 Digital Inputs/Outputs -- Control via the Raspberry Pi I2C port -- Stack up to 4 IO Pi boards on a single Raspberry Pi -- Jumper selectable I2C addresses -- External 5V Input with isolation jumper -- Based on the MCP23017 from Microchip Technologies Inc -- Configurable interrupt output pins - Configurable as active-high, active-low or open-drain -- INTA and INTB can be configured to operate independently or together -- Configurable interrupt source - Interrupt-on-change from configured register defaults or pin changes -- Polarity Inversion register to configure the polarity of the input port data - -Arduino, C, Windows 10 IOT, Python 2 and Python 3 libraries are available on GitHub. \ No newline at end of file diff --git a/src/pt/translate/ab-rtc-pi-plus.md b/src/pt/translate/ab-rtc-pi-plus.md deleted file mode 100644 index ed4c3ec..0000000 --- a/src/pt/translate/ab-rtc-pi-plus.md +++ /dev/null @@ -1,34 +0,0 @@ - -#RTC Pi Plus - -The RTC Pi Plus is a battery backed real-time clock module for the Raspberry Pi A+, Raspberry Pi B+ and Raspberry Pi 2 Model B. It keeps track of the time while the Raspberry Pi is switched off and allows the Raspberry Pi to retrieve the current date and time from the RTC Pi Plus when it is switched back on. - -The RTC Pi Plus is powered through the host Raspberry Pi using the GPIO port and extended pins on the GPIO connector allow you to stack the RTC Pi Plus along with other expansion boards. The RTC Pi Plus uses the DS1307 RTC real time clock and a CR2032 battery to maintain the date and time when the main system power is not available. - -Unlike most other DS1307 based RTC modules the RTC Pi also includes an I2C logic level converter allowing you to connect other 5V I2C devices to your Raspberry Pi. - -Python 2 and 3 libraries are available on GitHub. \ No newline at end of file diff --git a/src/pt/translate/ab-serial-pi-plus.md b/src/pt/translate/ab-serial-pi-plus.md deleted file mode 100644 index 38dc2cd..0000000 --- a/src/pt/translate/ab-serial-pi-plus.md +++ /dev/null @@ -1,35 +0,0 @@ - -#Serial Pi Plus - -The Serial Pi Plus is a UART to RS232 serial converter for the Raspberry Pi. - -The RS232 port is connected to the UART port on the Raspberry Pi using a MAX3232 interface. The MAX3232 IC converts the 3.3V UART port to RS232 voltages allowing communication with RS232 compatible devices over a DB9 serial cable or with the use of a null-modem cable the board allows terminal access with linux on the Raspberry Pi using a terminal application. The RS232 port can be accessed through the DB9 port or the solder points on the PCB. - -##Features - -- RS232 Master Port. -- Control the Raspberry Pi over RS232 or connect to external serial accessories. -- Stackable with other Raspberry Pi A+, Raspberry Pi B+ and Raspberry Pi 2 and Raspberry Pi accessory boards. -- Mounting holes for use with the AB Electronics UK mounting kits (sold separately) - -[Configuring the RS232 communication on the Raspberry Pi](https://www.abelectronics.co.uk/kb/article/20/raspberry-pi-serial-port-usage) \ No newline at end of file diff --git a/src/pt/translate/adafruit-cap-mpr121.md b/src/pt/translate/adafruit-cap-mpr121.md deleted file mode 100644 index e17890e..0000000 --- a/src/pt/translate/adafruit-cap-mpr121.md +++ /dev/null @@ -1,41 +0,0 @@ - -#Capacitive Touch HAT - -This Raspberry Pi add-on board provides 12 capacitive touch inputs and all the logic to read them over a simple I2C communication bus. - -Baded on the MPR121 chip, this HAT allows you to create electronics that can react to human touch, with up to 12 individual sensors. \ No newline at end of file diff --git a/src/pt/translate/adafruit-servo-hat.md b/src/pt/translate/adafruit-servo-hat.md deleted file mode 100644 index a35d644..0000000 --- a/src/pt/translate/adafruit-servo-hat.md +++ /dev/null @@ -1,42 +0,0 @@ - -#Servo/PWM HAT - -The Adafruit Servo/PWM HAT allows you to drive up to 16 servos or PWM outputs over I2C with only 2 pins. -The on-board PWM controller will drive all 16 channels simultaneously with no additional processing overhead for the Raspberry Pi. Using a binary addressing system set by jumpers you can solder on the PCB, it is possible to stack up to 62 HATs to control up to 992 servos, using nothing more than the I2C bus. - -Important note: servos can use a lot of power and it is not a good idea to use the Raspberry Pi's 5v pin to power them up. Electrical noise and 'brownouts' from excess current draw could cause your Pi to act erratically, reset and/or overheat. Keep the Pi power supply and the servos power supply completely separate! \ No newline at end of file diff --git a/src/pt/translate/analog-zero.md b/src/pt/translate/analog-zero.md deleted file mode 100644 index c6af4f0..0000000 --- a/src/pt/translate/analog-zero.md +++ /dev/null @@ -1,41 +0,0 @@ - -#Analog Zero - -The RasPiO Analog Zero offers a compact, inexpensive, easy way to add eight analog channels to your Raspberry Pi. RasPiO Analog Zero uses an MCP3008 analog to digital converter. It's an SPI driven, 10-bit, 8-channel ADC. - -With RasPiO Analog Zero you can: - -* read up to 8 analog inputs at once -* make a weather station -* make a digital thermometer -* make a voltmeter -* use potentiometer dials for control and display -* read analog sensors or voltages -* make your own embedded device with minimal footprint \ No newline at end of file diff --git a/src/pt/translate/blinkt.md b/src/pt/translate/blinkt.md deleted file mode 100644 index 2f76692..0000000 --- a/src/pt/translate/blinkt.md +++ /dev/null @@ -1,28 +0,0 @@ - -#Blinkt! - -Blinkt! is a super slimline Raspberry Pi Add-on board with 8 APA-102 LEDs. \ No newline at end of file diff --git a/src/pt/translate/carberry.md b/src/pt/translate/carberry.md deleted file mode 100644 index 8f6ca5a..0000000 --- a/src/pt/translate/carberry.md +++ /dev/null @@ -1,46 +0,0 @@ - -#Carberry - -Carberry is an add-on board for Raspberry Pi that can be used to inteface between car electronics and your Pi. It allows the development of end-user applications, such as media centers, vehicle diagnostics, data logging, fleet management, tracking, blackboxes, burglar alarms, carputing, internet, and much more. - -##Features -- Accelerometer -- Magnetometer -- RTCC -- 2x CAN BUS -- 2x GMLAN -- 2x LADDER -- 1x LIN -- 2x GPI -- 2x GPO -- 1x GPIO CMOS -- 1x IGNITION IN -- 1x IGNITION OUT diff --git a/src/pt/translate/cirruslogic-audio-card.md b/src/pt/translate/cirruslogic-audio-card.md deleted file mode 100644 index 434f7b2..0000000 --- a/src/pt/translate/cirruslogic-audio-card.md +++ /dev/null @@ -1,80 +0,0 @@ - -#Cirrus Logic Audio Card - -###Offers a wealth of features, perfect for avid audiophiles wanting to use their Raspberry Pi for audio applications. - -* Capable of rendering HD Audio, at 24-bit, 192kHz -* 3.5mm 4-pole jack for a headset/boom mic combination for gaming or VoIP applications -* Two DMIC microphones onboard for stereo recording -* 3.5mm jack for Stereo Line Input for high quality audio recording or capture -* 3.5 mm jack Stereo Line Output for connection to devices such as external stereo amplifiers or powered speakers -* Stereo Digital input and output (SPDIF) diff --git a/src/pt/translate/discohat.md b/src/pt/translate/discohat.md deleted file mode 100644 index d61a328..0000000 --- a/src/pt/translate/discohat.md +++ /dev/null @@ -1,87 +0,0 @@ - -#DiscoHAT - -###DiscoHAT is a small board allowing you to do computer controlled lights, sounds and special effects. - -It is an essential building block for making custom light and sound systems. You can easily create your own home disco based on it. It is also usable for small theatre groups, bands or school projects. - -With DiscoHAT you can control DMX equipment and LED strips. It also has interfaces for up to 8 pushbuttons that can be configured to start light and sound sequences. - -DiscoHAT was created to be used with QLC+ an Open Source light and sound control software that is absolutely AMAZING. The push buttons can trigger scenes (steady lights), chases (lights changing in a pattern) and shows (lights synced to music) from stage without need for displays, keyboards or mice. With a WiFi dongle you can also control the lights from your tablet or mobile phone. - -The Raspberry Pi 2 has a bit more power and is recommended for DiscoHAT. You can also exchange the 40 pin connector with the 26 pin connector for using it on older Raspberries but then you lose HAT functionality and 4 buttons. The connectors are not soldered to DiscoHAT. It uses SMD through pin sockets. - -DiscoHAT is being used by myself in our theater productions. The DMX output and the pushbuttons are optically isolated and ESD protected to cope with static electricity that easily builds up on stage due to long wires, hot air, plastic surfaces and nylon clothing. - -The system has been in use for two plays so far and it is time to share the good things with other entertainers. - -Break a leg, - -Karri diff --git a/src/pt/translate/display-o-tron-hat.md b/src/pt/translate/display-o-tron-hat.md deleted file mode 100644 index 62c0c5e..0000000 --- a/src/pt/translate/display-o-tron-hat.md +++ /dev/null @@ -1,52 +0,0 @@ - -#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. - -To get the HAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/displayotron | bash -``` - -And follow the instructions! diff --git a/src/pt/translate/display-o-tron.md b/src/pt/translate/display-o-tron.md deleted file mode 100644 index b4b227f..0000000 --- a/src/pt/translate/display-o-tron.md +++ /dev/null @@ -1,75 +0,0 @@ - -#Display-o-Tron 3000 - -The Display-o-Tron 3000 is a 3-line character LCD with an RGB backlight and joystick - -To get the module set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/displayotron | bash -``` - -And follow the instructions! diff --git a/src/pt/translate/drum-hat.md b/src/pt/translate/drum-hat.md deleted file mode 100644 index e1ef6a0..0000000 --- a/src/pt/translate/drum-hat.md +++ /dev/null @@ -1,43 +0,0 @@ - -#Drum HAT - -Drum HAT is the companion to Piano HAT. It uses the same cap touch sensor to provide 8 finger-sized drum pads. Use it to play music in Python, control software drum synths on your Pi, take control of hardware drum machines, or just build it into an elaborate drum-controlled project. - -Features: 8 touch sensitive buttons and 8 LEDs. Works with Piano HAT (it uses a CAP1188 chip with a non-conflicting i2c address at 0x2c). - -To get the HAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/drumhat | bash -``` - -And follow the instructions! diff --git a/src/pt/translate/enviro-phat.md b/src/pt/translate/enviro-phat.md deleted file mode 100644 index b253a52..0000000 --- a/src/pt/translate/enviro-phat.md +++ /dev/null @@ -1,60 +0,0 @@ - -#Enviro pHAT - -Coupled with a Pi Zero, Enviro pHAT is an affordable mix of sensors, ideal for monitoring server rooms, bedrooms, ballrooms or anything you might want to observe. It also includes a 4-channel ADC, for adding sensors of your own. It works with all of the 40-pin Raspberry Pi variants - 3/2/B+/A+/Zero. - -Features: - -BMP280 temperature/pressure sensor (0x77 on the i2c bus) -TCS3472 light and RGB colour sensor (0x29 on the i2c bus) -(with two LEDs for illumination) -LSM303D accelerometer/magnetometer sensor (0x1d on the i2c bus) -ADS1015 4-channel 3.3v 12-bit ADC (0x48 on the i2c bus) - -To get the pHAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/envirophat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -from envirophat import light, motion, weather, analog, leds -``` diff --git a/src/pt/translate/espiot-phat.md b/src/pt/translate/espiot-phat.md deleted file mode 100644 index 0b4c15f..0000000 --- a/src/pt/translate/espiot-phat.md +++ /dev/null @@ -1,42 +0,0 @@ - -#ESP IoT pHAT - -The ESP IoT pHAT is an ESP8266 based add-on for the Raspberry Pi. It provides some GPIO and one ADC channel, broken out to use alongside a small prototyping area. Perfect for RPi Zero but works with A+/B+/2 too! - -To get the pHAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/iotphat | bash -``` diff --git a/src/pt/translate/explorer-hat-pro.md b/src/pt/translate/explorer-hat-pro.md deleted file mode 100644 index e780ebc..0000000 --- a/src/pt/translate/explorer-hat-pro.md +++ /dev/null @@ -1,119 +0,0 @@ - -#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. - -To get the HAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/explorerhat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import explorerhat -explorerhat.light.on() -``` diff --git a/src/pt/translate/explorer-hat.md b/src/pt/translate/explorer-hat.md deleted file mode 100644 index 0517453..0000000 --- a/src/pt/translate/explorer-hat.md +++ /dev/null @@ -1,100 +0,0 @@ - -#Explorer HAT - -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: - -```bash -curl -sS get.pimoroni.com/explorerhat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import explorerhat -explorerhat.light.on() -``` diff --git a/src/pt/translate/explorer-phat.md b/src/pt/translate/explorer-phat.md deleted file mode 100644 index a2c374d..0000000 --- a/src/pt/translate/explorer-phat.md +++ /dev/null @@ -1,99 +0,0 @@ - -#Explorer pHAT - -5V inputs and outputs, analog inputs and an H-Bridge motor driver make up the Explorer pHAT; a jack of all trades prototyping side-kick for your Raspberry Pi. Perfect for RPi Zero but works with A+/B+/2 too! - -To get the pHAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/explorerhat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import explorerhat -``` diff --git a/src/pt/translate/iface-1wire.md b/src/pt/translate/iface-1wire.md deleted file mode 100644 index 938f208..0000000 --- a/src/pt/translate/iface-1wire.md +++ /dev/null @@ -1,30 +0,0 @@ - -# W1-GPIO - One-Wire Interface - -To enable the one-wire interface you need to add the following line to /boot/config.txt, beofre rebooting your Pi: - -``` -dtoverlay=w1-gpio -``` - -Alternatively you can enable the one-wire interface on demand using: - -``` -sudo modprobe w1-gpio -``` - -once either of the steps above has been performed, you can list the devices your Raspberry Pi can probe via (by default) GPIO4, like so: - -``` -ls /sys/bus/w1/devices/ -``` diff --git a/src/pt/translate/iface-dpi.md b/src/pt/translate/iface-dpi.md deleted file mode 100644 index e78c5d2..0000000 --- a/src/pt/translate/iface-dpi.md +++ /dev/null @@ -1,58 +0,0 @@ - -#DPI - Display Parallel Interface - -DPI (Display Parallel Interface) is a 24-bit parallel interface with 28 clock and synchronisation signals. The Pi uses a cut-down, 6-bit, 22 pin version omitting the least significant R, G and B colour bits. - -DPI, combined with a simple adaptor consisting of 20 resistors, allows you to add a VGA connector to the Pi which supports resolutions from 640 x 480 up to 1920 x 1024 at 60fps and 6bits per channel. \ No newline at end of file diff --git a/src/pt/translate/iface-gpclk.md b/src/pt/translate/iface-gpclk.md deleted file mode 100644 index 52eb5e6..0000000 --- a/src/pt/translate/iface-gpclk.md +++ /dev/null @@ -1,31 +0,0 @@ - -#GPCLK - General Purpose CLock - -General Purpose Clock pins can be set up to output a fixed frequency without any ongoing software control. - -The following clock sources are available: - -``` -0 0 Hz Ground -1 19.2 MHz oscillator -2 0 Hz testdebug0 -3 0 Hz testdebug1 -4 0 Hz PLLA -5 1000 MHz PLLC (changes with overclock settings) -6 500 MHz PLLD -7 216 MHz HDMI auxiliary -8-15 0 Hz Ground -``` \ No newline at end of file diff --git a/src/pt/translate/iface-jtag.md b/src/pt/translate/iface-jtag.md deleted file mode 100644 index 073071d..0000000 --- a/src/pt/translate/iface-jtag.md +++ /dev/null @@ -1,33 +0,0 @@ - -#JTAG - Joint Test Action Group - -JTAG is a standardised interface for debugging integrated circuits which you can use to debug your Raspberry Pi. \ No newline at end of file diff --git a/src/pt/translate/iface-pcm.md b/src/pt/translate/iface-pcm.md deleted file mode 100644 index 9c2636c..0000000 --- a/src/pt/translate/iface-pcm.md +++ /dev/null @@ -1,19 +0,0 @@ - -#PCM - Pulse-code Modulation - -PCM (Pulse-code Modulation) is a digital representation of sampled analog. On the Raspberry Pi it's a form of digital audio output which can be understood by a DAC for high quality sound. \ No newline at end of file diff --git a/src/pt/translate/iface-sd.md b/src/pt/translate/iface-sd.md deleted file mode 100644 index eca159c..0000000 --- a/src/pt/translate/iface-sd.md +++ /dev/null @@ -1,25 +0,0 @@ - -#SDIO - SD Card Interface - -SDIO is the SD host/eMMC interface on the Raspberry Pi. SD host signals are normally used for the microSD slot. - -These pins are "SD host" on Alt0 and "eMMC" on Alt3. \ No newline at end of file diff --git a/src/pt/translate/iqaudio-pi-dac.md b/src/pt/translate/iqaudio-pi-dac.md deleted file mode 100644 index 8b297fb..0000000 --- a/src/pt/translate/iqaudio-pi-dac.md +++ /dev/null @@ -1,56 +0,0 @@ - -#Pi-DAC+ - -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 -Texas Instruments TPA6133A headphone amp, supports the direct use of headphones via -the Pi-DAC+ 3.5mm audio jack. - -The Pi-DAC+ uses GPIO22 to mute/unmute the Pi-AMP+. - -You can use GPIO25 to connect an IR sensor and GPIO23/24 for a rotary encoder. Both of -these parts are optional, but are broken out on the Pi-DAC+ for convenient access. - -Note: pins reserved for the rotary encoder and IR sensor can be used for other purposes if those add-ons have not been fitted and enabled by software. diff --git a/src/pt/translate/iqaudio-pi-digiamp.md b/src/pt/translate/iqaudio-pi-digiamp.md deleted file mode 100644 index 8ffda41..0000000 --- a/src/pt/translate/iqaudio-pi-digiamp.md +++ /dev/null @@ -1,48 +0,0 @@ - - -#Pi-DigiAMP+ - -The Pi-DigiAMP+ is an add-on board that includes a Digital to Analog Converter (DAC) and powerful 35w stereo amplifier. If you want to turn your Raspberry Pi into a working Hi Fi stereo, just add speakers and you're off. - -You can use GPIO25 to connect an IR sensor and GPIO23/24 for a rotary encoder. Both of these parts are optional, but are broken out on the Pi-DAC+ for convenient access. -Note: pins reserved for the rotary encoder and IR sensor can be used for other purposes if those add-ons have not been fitted and enabled by software. \ No newline at end of file diff --git a/src/pt/translate/microdot-phat.md b/src/pt/translate/microdot-phat.md deleted file mode 100644 index 53a191e..0000000 --- a/src/pt/translate/microdot-phat.md +++ /dev/null @@ -1,48 +0,0 @@ - -#Micro Dot pHAT - -An unashamedly old school LED matrix display board, with up to 30x7 pixels, using Lite-On LTP-305 matrices (or any similar matrices). Perfect for building a retro scrolling message display, a tiny 30-band spectrum analyser, or a retro clock. - -The board uses three IS31FL3730 matrix driver chips, each driving two of the matrix displays. The board and supporting software was designed to use these driver chips in an efficient manner, in effect round-robin-ing them and updating them extremely quickly one after the other to drive two displays at once. - -To get the pHAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/microdotphat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import microdotphat -``` diff --git a/src/pt/translate/phat-dac.md b/src/pt/translate/phat-dac.md deleted file mode 100644 index 8fd5d9c..0000000 --- a/src/pt/translate/phat-dac.md +++ /dev/null @@ -1,39 +0,0 @@ - -#pHAT DAC - -The pHAT DAC provides a high-quality digital to analog audio converter for the Raspberry Pi: 24-bits at 192KHz via the I2S interface on the 2x20 pin GPIO header. It has a 3.5mm stereo jack pre-assembled and can accommodate an optional RCA phono connector. - -Though designed to match the format of the Raspberry Pi Zero it is compatible with all 40-pin GPIO Raspberry Pi variants (2/B+/A+/Zero). - -To get the pHAT DAC set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/phatdac | bash -``` diff --git a/src/pt/translate/pi-liter.md b/src/pt/translate/pi-liter.md deleted file mode 100644 index 579f4f9..0000000 --- a/src/pt/translate/pi-liter.md +++ /dev/null @@ -1,59 +0,0 @@ - -#Pi-LITE-r - -The Pi-LITEr is a fully assembled add on board for the Raspberry Pi. It has 8 ultra-bright white LED's on a board which plugs directly onto the GPIO header. It can be used alongside other I/O projects to give status indication. Lighting all 8 LEDs consumes a tiny amount of current, less than a single standard LED (which is 20ma nominal vs 14.4ma for the Pi-LITEr). - -Applications: - -* I/O status indicator -* Bar graph -* Light chaser -* Activity indicator -* Lighting effects \ No newline at end of file diff --git a/src/pt/translate/piano-hat.md b/src/pt/translate/piano-hat.md deleted file mode 100644 index bcde914..0000000 --- a/src/pt/translate/piano-hat.md +++ /dev/null @@ -1,52 +0,0 @@ - -#Pimoroni 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. - -It uses two Microchip CAP1188 chips with the i2c addresses 0x28 and 0x2b. - -To get the HAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/pianohat | bash -``` - -And follow the instructions! diff --git a/src/pt/translate/piborg-ledborg.md b/src/pt/translate/piborg-ledborg.md deleted file mode 100644 index 593be25..0000000 --- a/src/pt/translate/piborg-ledborg.md +++ /dev/null @@ -1,55 +0,0 @@ - -#LedBorg - -The PiBorg LedBorg is an ultra-bright RGB LED board for the Raspberry Pi. It 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: - -WiringPi pin 0: Red LED -WiringPi pin 2: Green LED -WiringPi pin 3: Blue LED - -This is easy using WiringPi in Python: - -```python -import wiringpi2 as wiringpi -wiringpi.wiringPiSetup() - -wiringpi.softPwmCreate(0,0,100) -wiringpi.softPwmCreate(2,0,100) -wiringpi.softPwmCreate(3,0,100) - -# Purple! -wiringpi.softPwmWrite(3,100) # Full Blue -wiringpi.softPwmWrite(0,100) # Full Red -wiringpi.softPWMWrite(2,0) # No Green -``` diff --git a/src/pt/translate/pibrella.md b/src/pt/translate/pibrella.md deleted file mode 100644 index 470d65f..0000000 --- a/src/pt/translate/pibrella.md +++ /dev/null @@ -1,84 +0,0 @@ - -#Pibrella - -The all-in-one light, sound, input and output add-on board that 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 -curl -sS get.pimoroni.com/pibrella | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import pibrella -pibrella.light.red.on() -``` diff --git a/src/pt/translate/piglow.md b/src/pt/translate/piglow.md deleted file mode 100644 index b440b11..0000000 --- a/src/pt/translate/piglow.md +++ /dev/null @@ -1,39 +0,0 @@ - -#PiGlow - -The PiGlow is a small add-on board for the Raspberry Pi that provides 18 individually controllable LEDs. - -The board uses the SN3218 8-bit 18-channel PWM chip to drive surface mount LEDs. Communication is done via I2C over the GPIO header with a bus address of 0x54. Each LED can be set to a PWM value of between 0 and 255. - -To get the module set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/piglow | bash -``` - -And follow the instructions! diff --git a/src/pt/translate/propeller-hat.md b/src/pt/translate/propeller-hat.md deleted file mode 100644 index 86d154b..0000000 --- a/src/pt/translate/propeller-hat.md +++ /dev/null @@ -1,39 +0,0 @@ - -#Propeller HAT - -Propeller HAT brings the 8-core Parallax Propeller microcontroller to HAT form-factor. Program and talk to it over Serial using Propeller IDE and you'll have a powerful, realtime co-processor for your Pi. - -It's like a little software programming logic device. Great for realtime IO, servo control and even convincingly synthesizing a SID chip. \ No newline at end of file diff --git a/src/pt/translate/raspio-duino.md b/src/pt/translate/raspio-duino.md deleted file mode 100644 index e38362a..0000000 --- a/src/pt/translate/raspio-duino.md +++ /dev/null @@ -1,37 +0,0 @@ - -#Duino - -The RasPiO Duino is a small plug-on board for Raspberry Pi. It has similar functionality to an Arduino Uno, with an ATMega 328P-PU at its heart, but is fully programmable from the Raspberry Pi. Once programmed, it can be removed from the Pi and used on its own. - -Pins on the ATMega are broken out to a cluster of three holes. The ATMega328 features a 6 channel analog to digital converter and 14 digital I/O pins, 6 of which can also be used for PWM. The Pi’s GPIO ports are also broken out on the board as well and there is a 72 point prototyping area, with GND, 3V3 and 5V rails, where you can add your own components. - -Note: the RasPiO Duino runs on 3v3 at 12 MHz (not 5V at 16 MHz like the Uno). \ No newline at end of file diff --git a/src/pt/translate/redbear-iot-hat.md b/src/pt/translate/redbear-iot-hat.md deleted file mode 100644 index 5e42b89..0000000 --- a/src/pt/translate/redbear-iot-hat.md +++ /dev/null @@ -1,59 +0,0 @@ - -#PiZero IoT HAT - -The RedBear IoT HAT brings the BCM43438 used on the Raspberry Pi 3 to HAT format, compatible with the Pi Zero. - -The chip supports Wi-Fi 802.11n and Bluetooth 4.1 (Dual Mode). - -* Bluetooth 4.1 -* WiFi -* Low power -* External antenna support -* Compatible with the same WiFi/Bluetooth software used on the Pi 3 -* Supports Pi Zero, Model A+, Model B+, Pi 2 diff --git a/src/pt/translate/rpf-dots.md b/src/pt/translate/rpf-dots.md deleted file mode 100644 index e68452e..0000000 --- a/src/pt/translate/rpf-dots.md +++ /dev/null @@ -1,124 +0,0 @@ - -#Dots Board - -###Dots is a Dot to Dot board for the Raspberry Pi that lets you join-the-dots with BARE Conductive Paint! - -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: - -```python -import RPi.GPIO as GPIO -GPIO.setmode(GPIO.BCM) -GPIO.setup(dot_pin, GPIO.IN, GPIO.PUD_UP) -state = GPIO.input(dot_pin) -``` - -It's good practice to only turn on the PULLUP when you actually want to read the Dot, so a method like this is recommended for reading: - -```python -def is_dot_connected(dot_pin): - GPIO.setup(dot_pin, GPIO.IN, GPIO.PUD_UP) - state = GPIO.input( dot_pin ) - GPIO.setup(dot_pin, GPIO.IN, GPIO.PUD_OFF) - return state == 0 -``` diff --git a/src/pt/translate/rtk-000-001.md b/src/pt/translate/rtk-000-001.md deleted file mode 100644 index 7fbb806..0000000 --- a/src/pt/translate/rtk-000-001.md +++ /dev/null @@ -1,63 +0,0 @@ - -#Motor Controller Board - -###A quick and easy way to start driving motors on your Raspberry Pi - -```python -##Simple motor script for the RTK-000-001 -import RPi.GPIO as GPIO -import time -#Set to broadcom pin numbers -GPIO.setmode(GPIO.BCM) - -#Motor 1 = Pins 17 and 18 -#Motor 2 = Pins 22 and 23 -GPIO.setup(17, GPIO.OUT) -GPIO.setup(18, GPIO.OUT) - -#Now loop forever turning one direction for 5 seconds, then the other -while (True): - #Sleep 1 second then turn 17 on - GPIO.output(18, 0) - time.sleep(1) - GPIO.output(17, 1); - time.sleep(5); - #And now the other way round - GPIO.output(17, 0) - time.sleep(1); - GPIO.output(18, 1); - time.sleep(5); - #And loop back around -#And final cleanup -GPIO.cleanup() -``` diff --git a/src/pt/translate/scroll-phat.md b/src/pt/translate/scroll-phat.md deleted file mode 100644 index 15505da..0000000 --- a/src/pt/translate/scroll-phat.md +++ /dev/null @@ -1,53 +0,0 @@ - -#Scroll pHAT - -The Scroll pHAT provides a matrix of 55 white LED pixels that is ideal for writing messages, showing graphs, and drawing pictures. Perfect for RPi Zero but works with A+/B+/2 too! - -To get the pHAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/scrollphat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import scrollphat -``` diff --git a/src/pt/translate/sense-hat.md b/src/pt/translate/sense-hat.md deleted file mode 100644 index e121e83..0000000 --- a/src/pt/translate/sense-hat.md +++ /dev/null @@ -1,32 +0,0 @@ - -#Sense HAT - -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 communicating via i2c at address 0x46 with the Pi. The Multi-Directional SKRHABE010 Switch/Joystick is similarly controlled. - -The sensors themselves also operate 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. - -Environmental 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. diff --git a/src/pt/translate/skywriter-hat.md b/src/pt/translate/skywriter-hat.md deleted file mode 100644 index f7ff652..0000000 --- a/src/pt/translate/skywriter-hat.md +++ /dev/null @@ -1,50 +0,0 @@ - -#Skywriter HAT - -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! diff --git a/src/pt/translate/traffic-hat.md b/src/pt/translate/traffic-hat.md deleted file mode 100644 index ee07ff3..0000000 --- a/src/pt/translate/traffic-hat.md +++ /dev/null @@ -1,56 +0,0 @@ - -#Traffic HAT - -###A quick and easy way to learn the basics of GPIO on a budget. All in a nice HAT. - -```python -import RPi.GPIO as IO -from time import sleep - -IO.setmode(IO.BCM) - -#Lights -IO.setup(22,IO.OUT) -IO.setup(23,IO.OUT) -IO.setup(24,IO.OUT) - -#Buzzer -IO.setup(5,IO.OUT) - -#Button -IO.setup(25,IO.IN,pull_up_down=IO.PUD_UP) -``` diff --git a/src/pt/translate/unicorn-hat.md b/src/pt/translate/unicorn-hat.md deleted file mode 100644 index 1504904..0000000 --- a/src/pt/translate/unicorn-hat.md +++ /dev/null @@ -1,53 +0,0 @@ - -#Unicorn HAT - -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! - -To get the HAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/unicornhat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import unicornhat -unicornhat.set_pixel(0, 0, 255, 255, 255) -unicornhat.show() -``` diff --git a/src/pt/translate/unicorn-phat.md b/src/pt/translate/unicorn-phat.md deleted file mode 100644 index ae1fd5f..0000000 --- a/src/pt/translate/unicorn-phat.md +++ /dev/null @@ -1,54 +0,0 @@ - -#Unicorn pHAT - -32 blindingly bright LEDs packed into a pHAT 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 pHAT 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! - -To get the HAT set up and ready to go you can use the one-line product installer: - -```bash -curl -sS get.pimoroni.com/unicornhat | bash -``` - -Then import it into your Python script and start tinkering: - -```bash -import unicornhat -unicorn.set_layout(unicorn.PHAT) -unicornhat.set_pixel(0, 0, 255, 255, 255) -unicornhat.show() -``` diff --git a/src/pt/translate/uugear-7port-usb-hub.md b/src/pt/translate/uugear-7port-usb-hub.md deleted file mode 100644 index 227943a..0000000 --- a/src/pt/translate/uugear-7port-usb-hub.md +++ /dev/null @@ -1,24 +0,0 @@ - -#7-port USB hub for Raspberry Pi - -This is a 7-Port USB hub designed for Raspberry Pi. It extends one USB port on Raspberry Pi to 7 usable USB ports, which allows you to connect much more USB devices to your Raspberry Pi. There is a red LED on board as the power indicator, and seven green LEDs aside the USB ports as transaction indicators. - -This USB hub is compatible with all versions of Raspberry Pi, including the old A/B model, A+/B+ model, compute module (with development kit), Raspberry Pi 2 (B model), Raspberry Pi Zero and Raspberry Pi 3 (B model). The board size of this USB hub is the same with Raspberry Pi B+ or Raspberry Pi 2/3 (B model). The old Raspberry Pi A and B model also have the same size, except that they don’t have those rounded corners. This USB hub has 6 mounting holes at correct positions and could be mounted under any Raspberry Pi model except the compute module. - -For different models of Raspberry Pi, this USB hub uses different approaches to (optionally) back-power the Raspberry Pi, which significantly simplifies your wiring and allows you to power both the USB hub and Raspberry Pi with only one power supply. - -There are also 7 digital output pins on board, which can tell whether a USB port is in used. These output pins are in 3.3V level and can be directly connected to Raspberry Pi’s GPIO pin, or connected to an external microcontroller. diff --git a/src/pt/translate/uugear-witty-pi-2.md b/src/pt/translate/uugear-witty-pi-2.md deleted file mode 100644 index 8f6d498..0000000 --- a/src/pt/translate/uugear-witty-pi-2.md +++ /dev/null @@ -1,55 +0,0 @@ - -# Witty Pi 2 - -Witty Pi 2 is the second generation of Witty Pi, which adds realtime clock and power management to your Raspberry Pi. - -You can turn on/off your Raspberry Pi with a single tap on the button on Witty Pi 2, and the power supply for Raspberry Pi and all its USB peripherals will get fully cut after the shutdown. - -Witty Pi 2 has a CR2032 backed realtime clock (DS3231) on board, and can accurately keep time for Raspberry Pi. The built-in temperature sensor can tell the temperature around your Raspberry Pi too. - -You can schedule next shutdown/startup of your Pi via the software. Complex ON/OFF sequence for Raspberry Pi can be achieved by applying a user-defined schedule script. - -If you are using power bank as power supply, the new dummy load feature can keep power bank alive with low current consumption. The newly added 6-pin female header breaks out some important signals for integration/extension. - -You can use the two commands below to install software for Witty Pi 2: - -```bash -wget http://www.uugear.com/repo/WittyPi2/installWittyPi.sh - -sudo sh installWittyPi.sh -``` -After the installation is done, reboot your Raspberry Pi and your Witty Pi 2 is ready to go. - -Witty Pi 2 supports all Raspberry Pi models that have 40-pin header, including A+, B+, 2B, 3B and Zero. diff --git a/src/pt/translate/uugear-witty-pi.md b/src/pt/translate/uugear-witty-pi.md deleted file mode 100644 index 47ed0ae..0000000 --- a/src/pt/translate/uugear-witty-pi.md +++ /dev/null @@ -1,54 +0,0 @@ - -#Witty Pi - -Witty Pi is an extension board that adds realtime clock and power management to your Raspberry Pi. - -You can turn on/off your Raspberry Pi with a single tap on the button on Witty Pi, and the power supply for Raspberry Pi and all its USB peripherals will get fully cut after the shutdown. - -Witty Pi has a CR2032 backed realtime clock (DS1337) on board, and can keep time for Raspberry Pi when it is off. You can schedule next shutdown/startup of your Pi via the software. A user-defined schedule script could be used for complex use case, which requires scheduling multiple shutdowns and startups at different moments. - -You can use the two commands below to install software for Witty Pi: - -```bash -wget http://www.uugear.com/repo/WittyPi/installWittyPi.sh - -sudo sh installWittyPi.sh -``` -After the installation is done, reboot your Raspberry Pi and your Witty Pi is ready to go. - -Witty Pi supports all Raspberry Pi models that have 40-pin header, including A+, B+, 2B, 3B and Zero. diff --git a/src/pt/translate/uugear-zero4u.md b/src/pt/translate/uugear-zero4u.md deleted file mode 100644 index 58bfa60..0000000 --- a/src/pt/translate/uugear-zero4u.md +++ /dev/null @@ -1,24 +0,0 @@ - -#Zero4U - -Zero4U is a 4-port USB hub for Raspberry Pi Zero, and it can be mounted to Raspberry Pi Zero back-to-back. The 4 pogo pins on the back will connect the PP1, PP6, PP22 and PP23 testing pads on Raspberry Pi Zero, hence no soldering will be needed to make it work. - -The USB hub will take power directly from your Raspberry Pi Zero, so you don’t need to power the USB hub separately. However you can use the JST XH2.54 connector on board as the alternative power input. - -There are one blue LED on board as the power indicator, and four white LED aside the USB ports as transaction indicators. - -This USB hub can also work with other types of computer. You can use a USB cable to connect the mini-USB port on board to a USB port on the computer. diff --git a/src/pt/translate/wifi-pants.md b/src/pt/translate/wifi-pants.md deleted file mode 100644 index e43dff6..0000000 --- a/src/pt/translate/wifi-pants.md +++ /dev/null @@ -1,46 +0,0 @@ - -#WiFi Pants - -WiFi Pants is a WiFi and 5V boost power supply add-on board for your Raspberry Pi based around the ESP-12F. - -The WiFi Pants board fits the outline of the Pi Zero, with only a small protrusion for the antenna, and only six GPIOs are needed on the Pi's expansion connector. - -It communicates over the SDIO interface to provide WiFi capability for a direct alternative to a USB WiFi adapter for low-bandwidth applications, sufficient in most embedded projects. - -Most notably, WiFi Pants can add WiFi to a Pi Zero while leaving the USB port free, and boosts any battery from as low as 3V to 5V at up to 2A to power the Pi and any other add-ons. - -A JST-PH connector compatible with Sparkfun and Adafruit battery packs is included with the board. An undervoltage lock-out prevents batteries from draining below 2.7V. A soft power switch input lets a microcontroller or switch easily turn off or on the power supply. - -Along with the soft power switch input, the 5 pin header exposes the Raspberry Pi's serial console, great for IoT projects where there is no screen but shell access is needed for setup. The header fits the 6 pin FTDI USB-to-UART cable. - -WiFi Pants also works great with the Pi A+, B+, and 2 models. \ No newline at end of file diff --git a/src/pt/translate/zero-lipo.md b/src/pt/translate/zero-lipo.md deleted file mode 100644 index ecbb96b..0000000 --- a/src/pt/translate/zero-lipo.md +++ /dev/null @@ -1,37 +0,0 @@ - -#Zero LiPo - -The Zero LiPo aims to give you the most compact Raspberry Pi power supply possible. - -The board includes power on and battery low indicator LEDs as well as a JST connector, to which you can connect a LiPo, LiIon, or other battery with a JST plug. The TPS61232 step-up boost converter from Texas Instruments converts the 3-4.2V input voltage from the LiPos/LiIons to 5V, providing a stable 5V supply perfect for your Pi. - -Features: - -* 0.8mm thick PCB -* Shaped to sit as low as possible on the Raspberry Pi 3, 2, Zero, A+, B+ -* 2-pole JST connector ideal for most LiPo/LiIon batteries -* Power and low battery LED indicators -* Supplies up to 1.5A continuous current -* Low battery warning at 3.4V (assets GPIO #4 high) -* Automatic shutdown at 3.0V to protect your battery -* VBAT+, GND, and EN pins available to break out -* 15uA quiescent current