Description
Le nouveau Raspberry Pi 5 offre plus de performances que jamais. Grâce à un CPU, un GPU et une RAM plus rapides, le Raspberry Pi 5 est jusqu'à 3 fois plus rapide que son prédécesseur déjà rapide. En plus de l'augmentation de la vitesse, le Raspberry Pi 5 (qui intègre la nouvelle puce Raspberry Pi RP1 pour des capacités d'E/S avancées) offre également pour la première fois les fonctionnalités suivantes : RTC, un bouton marche/arrêt et une interface PCIe.
Nouvelles caractéristiques
- Processeur ARM Cortex-A76 quadricœur 64 bits (2,4 GHz)
- GPU VideoCore VII (800 MHz)
- 8 Go de RAM LPDDR4X (4267 MHz)
- Contrôleur d'E/S Raspberry Pi RP1
- Horloge temps réel (RTC)
- Bouton marche/arrêt
- PCIe 2.0
- Connecteur UART
- Connecteur de ventilateur
Spécifications
SoC |
Broadcom BCM2712 |
CPU |
ARM Cortex-A76 (ARM v8) 64 bits |
Fréquence d'horloge |
4x 2,4 GHz |
GPU |
VideoCore VII (800 MHz) |
RAM |
8 Go de RAM LPDDR4X (4267 MHz) |
WiFi |
IEEE 802.11b/g/n/ac (2,4 GHz/5 GHz) |
Bluetooth |
Bluetooth 5.0, BLE |
Ethernet |
Gigabit Ethernet (avec support PoE+) |
USB |
2x USB-A 3.0 (5 GBit/s) 2x USB-A 2.0 |
PCI Express |
1x PCIe 2.0 |
GPIO |
Embase GPIO standard à 40 broches |
Vidéo |
2x ports micro-HDMI (4K60) 2x MIPI à 4 voies (DSI/CSI) |
Multimédia |
H.265 (décodage 4K60) OpenGL ES 3.1, Vulkan 1.2 |
Carte SD |
microSD |
Alimentation |
5 V/5 A (via USB-C) Power over Ethernet (PoE+) |
Raspberry Pi 4 vs Raspberry Pi 5
|
Raspberry Pi 4 |
Raspberry Pi 5 |
SoC |
Broadcom BCM2711 |
Broadcom BCM2712 |
CPU |
ARM Cortex-A72 (ARM v8) 64 bit |
ARM Cortex-A76 (ARM v8) 64 bit |
Fréquence d'horloge |
4x 1,5 GHz |
4x 2,4 GHz |
Cache L2 |
1 Mo partagé |
4x 512 Ko |
Cache L3 |
N/A |
2 Mo partagés |
GPU |
VideoCore VI (500 MHz) |
VideoCore VII (800 MHz) |
RAM |
8 Go LPDDR4 (3200 MHz) |
8 Go LPDDR4X (4267 MHz) |
WiFi |
IEEE 802.11b/g/n/ac (2,4 GHz/5 GHz) |
IEEE 802.11b/g/n/ac (2,4 GHz/5 GHz) |
Bluetooth |
Bluetooth 5.0, BLE |
Bluetooth 5.0, BLE |
Ethernet |
Gigabit Ethernet (avec support PoE) |
Gigabit Ethernet (avec support PoE+) |
USB |
2x USB-A 3.0 2x USB-A 2.0 |
2x USB-A 3.0 (5 GBit/s) 2x USB-A 2.0 |
Contrôleur d'E/S |
N/A |
Silicium Raspberry Pi RP1 |
PCI Express |
N/A |
1x PCIe 2.0 |
Horloge temps réel (RTC) |
N/A |
RTC embarquée avec connecteur pour batterie |
Bouton marche/arrêt |
N/A |
Bouton d'alimentation intégré |
Refroidissement |
N/A |
Connecteur de ventilateur |
GPIO |
Embase GPIO standard à 40 broches |
Embase GPIO standard à 40 broches |
UART |
via GPIO |
1x connecteur UART |
Carte SD |
Emplacement microSD (DDR50) |
Emplacement microSD (SDR104) |
Vidéo |
2 ports micro-HDMI (4K60) 1x port MIPI DSI à 2 voies (écran) 1x port MIPI CSI à 2 voies (caméra) |
2x ports micro-HDMI (4K60) 2x MIPI à 4 voies (DSI/CSI) |
Audio |
Prise audio à 4 pôles de 3,5 mm (audio stéréo et vidéo composite) |
N/A |
Multimédia |
H.265 (décodage 4K60) H.264 (décodage 1080p60, codage 1080p30) Graphiques OpenGL ES 3.0 |
H.265 (décodage 4K60) OpenGL ES 3.1, Vulkan 1.2 |
Alimentation |
5 V/3 A (15 W) Power over Ethernet (PoE+) |
5 V/5 A (25 W), USB PD Power over Ethernet (PoE+) |
Téléchargements
Raspberry Pi 5 Essentials (livre numérique)
Program, build, and master over 60 projects with Python
The Raspberry Pi 5 is the latest single-board computer from the Raspberry Pi Foundation. It can be used in many applications, such as in audio and video media centers, as a desktop computer, in industrial controllers, robotics, and in many domestic and commercial applications. In addition to the well-established features found in other Raspberry Pi computers, the Raspberry Pi 5 offers Wi-Fi and Bluetooth (classic and BLE), which makes it a perfect match for IoT as well as in remote and Internet-based control and monitoring applications. It is now possible to develop many real-time projects such as audio digital signal processing, real-time digital filtering, real-time digital control and monitoring, and many other real-time operations using this tiny powerhouse.
The book starts with an introduction to the Raspberry Pi 5 computer and covers the important topics of accessing the computer locally and remotely. Use of the console language commands as well as accessing and using the desktop GUI are described with working examples. The remaining parts of the book cover many Raspberry Pi 5-based hardware projects using components and devices such as
- LEDs and buzzers
- LCDs
- Ultrasonic sensors
- Temperature and atmospheric pressure sensors
- The Sense HAT
- Camera modules
Example projects are given using Wi-Fi and Bluetooth modules to send and receive data from smartphones and PCs, and sending real-time temperature and atmospheric pressure data to the cloud.
All projects given in the book have been fully tested for correct operation. Only basic programming and electronics experience are required to follow the projects. Brief descriptions, block diagrams, detailed circuit diagrams, and full Python program listings are given for all projects described.
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