Pololu-Romi-32U4-Carte-Raspberry
Raspberry Pi interface and level shifters
The Romi 32U4 Control Board was designed to be easy to interface with a Raspberry Pi single-board computer to expand the Romi’s processing power. It has a connector and mounting holes matching the Raspberry Pi HAT (Hardware Attached on Top) specification and is designed to connect to the Model B+ and newer versions of the Raspberry Pi with 40-pin GPIO headers (including the Raspberry Pi 3 Model B and Model A+). A 2×20-pin 0.1″ female header is soldered to the control board, and it ships with a set of four standoffs, screws, and nuts.
Communication I2C
When used with a Raspberry Pi, the control board is designed to serve as an auxiliary controller, communicating with the Raspberry Pi using an I²C interface (also known as 2-wire Serial Interface, or TWI). As such, the ATmega32U4 microcontroller’s I²C data and clock lines (SDA and SCL) are connected to the corresponding lines on the Raspberry Pi’s I²C bus 1 through on-board level-shifting circuits. These bidirectional level shifters convert between the AVR’s 5 V logic level and the Raspberry Pi’s 3.3 V logic level.
We have written an Arduino library for our our 32U4 family of boards that lets them act as an I²C slave and provides a framework for communication between the ATmega32U4 and a Raspberry Pi master.
A tutorial (Pololu, Anglais) on the Pololu blog demonstrates this library and its included example code, using them to make a robot that can be remotely controlled and monitored through a web server running on the Raspberry Pi. This tutorial uses our lien pololu and a laser cut chassis, but the instructions for setting up your Raspberry Pi and Raspberry Pi slave library for Arduino still apply for the Romi 32U4 Control Board, and we will be releasing an updated tutorial with steps specific to the Romi soon.
level shifters a usage général
In addition to the dedicated I²C level shifters, the board also makes available a few general-purpose level shifters that are not connected to any signals by default.
LS1 is a dual-channel unidirectional level shifter that converts a pair of 5 V inputs (HA and HB) to a pair of corresponding 3.3 V outputs (LA and LB).
LS2 and LS3 are each single-channel, tristatable, unidirectional level shifters. Each of these exposes four pins: OE (output enable), IN (input), OUT (shifted output), and VCC (logic supply voltage).
- When OE is high, OUT is in a high impedance state.
- When OE is low, OUT matches the state of IN, shifted to the voltage supplied on VCC.
For example, if you pull OE low, connect a 3.3 V signal to IN, and connect 5V to VCC, the signal will be shifted to 5 V logic level on OUT.
The input logic level can be 1.8 V to 5.5 V, while VCC (and the output logic level) can be 3 V to 5.5 V. The IN signal can have either a lower or higher logic level than the VCC voltage: you could connect a 5 V signal to IN and a 3.3 V to VCC or a 3.3 V signal to IN and a 5 V to VCC.
Alimenter le Raspberry Pi depuis la carte contrôleur
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Basé sur "Guide utilisateur de la carte de contrôle Romi 32U4" de Pololu (https://www.pololu.com/docs/0J69) - Traduit en Français par shop.mchobby.be CC-BY-SA pour la traduction
Toute copie doit contenir ce crédit, lien vers cette page et la section "crédit de traduction". Traduit avec l'autorisation expresse de Pololu (www.pololu.com)
Based on "Pololu Romi 32U4 Control Board User’s Guide" from Pololu (https://www.pololu.com/docs/0J69) - Translated to French by shop.mchobby.be CC-BY-SA for the translation
Copies must includes this credit, link to this page and the section "crédit de traduction" (translation credit). Translated with the Pololu's authorization (www.pololu.com)