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This is an I/O expansion kit designed for Raspberry Pi, which provides 5 sets of 2x20 pinheaders, that means a handy way to 'stack' multi different HATs together, and use them as a specific combination / project. Features Standard Raspberry Pi connectivity, directly pluggable OR through ribbon cable 5 sets of 2x20 pinheaders, connect multi HATs together USB external power port, provides enough power supply for multi HATs Clear and descriptive pin labels for easy use Reserved jumper pads on the bottom side, pin connections are changeable by soldering, to avoid pin conflicts Note: make sure there are no any pin conflicts between the HATs you want to use together before connecting. Specifications Dimensions: 183 × 65 mm Mounting hole size: 3 mm Included 1x Stack HAT 1x Ribbon cable 40-Pin 1x 2x20 male pinheader 1x RPi screws pack (4pcs) x1
De Raspberry Pi PoE+ Injector voegt Power-over-Ethernet (PoE) functionaliteit toe aan een enkele poort van een niet-PoE Ethernet switch, en levert zowel stroom als data via één Ethernet-kabel. Het biedt een plug-and-play, kosteneffectieve oplossing voor het stapsgewijs introduceren van PoE capaciteit in bestaande Ethernet netwerken.
De PoE+ Injector is een single-port, 30 W apparaat geschikt voor het voeden van apparatuur die voldoet aan de IEEE 802.3af en 802.3at standaarden, inclusief alle generaties Raspberry Pi PoE HAT's. Het ondersteunt netwerk pass-through snelheden van 10/100/1000 Mbps.
Opmerking: Een aparte IEC netsnoer is vereist voor gebruik (niet meegeleverd).
Specificaties
Gegevenssnelheid
10/100/1000 Mbps
Ingangsspanning
100 tot 240 V AC
Uitgangsvermogen
30 W
Uitgangsvermogen op pinnen
4/5 (+), 7/8 (–)
Nominale uitgangsspanning
55 V DC
Gegevensconnectoren
Afgeschermde RJ-45, EIA 568A en 568B
Stroomaansluiting
IEC c13 netvoeding (niet meegeleverd)
Opslagvochtigheid
Maximaal 95%, niet-condenserend
Werkingshoogte
–300 m tot 3000 m
Werkingsomgevingstemperatuur
10°C tot +50°C
Afmetingen
159 x 51,8 x 33,5 mm
Downloads
Datasheet
A Fast-Lane Ride From Concept to Project
The core of the book explains the use of the Raspberry Pi Zero 2 W running the Python programming language, always in simple terms and backed by many tested and working example projects. On part of the reader, familiarity with the Python programming language and some experience with one of the Raspberry Pi computers will prove helpful. Although previous electronics experience is not required, some knowledge of basic electronics is beneficial, especially when venturing out to modify the projects for your own applications.
Over 30 tested and working hardware-based projects are given in the book, covering the use of Wi-Fi, communication with smartphones and with a Raspberry Pi Pico W computer. Additionally, there are Bluetooth projects including elementary communication with smartphones and with the popular Arduino Uno. Both Wi-Fi and Bluetooth are key features of the Raspberry Pi Zero 2 W.
Some of the topics covered in the book are:
Raspberry Pi OS installation on an SD card
Python program creation and execution on the Raspberry Pi Zero 2 W
Software-only examples of Python running on the Raspberry Pi Zero 2 W
Hardware-based projects including LCD and Sense HAT interfacing
UDP and TCP Wi-Fi based projects for smartphone communication
UDP-based project for Raspberry Pi Pico W communication
Flask-based webserver project
Cloud storage of captured temperature, humidity, and pressure data
TFT projects
Node-RED projects
Interfacing to Alexa
MQTT projects
Bluetooth-based projects for smartphone and Arduino Uno communications
Specifications CM4 socket Suitable for all variants of Compute Module 4 Networking Gigabit Ethernet RJ45 connectorM.2 M KEY, supports communication modules or NVME SSD Connector Raspberry Pi 40-PIN GPIO header USB 2x USB 2.0 Type A2x USB 2.0 via FFC connector Display MIPI DSI display port (15-pin 1.0 mm FPC connector) Camera 2x MIPI CSI-2 camera port (15-pin 1.0 mm FPC connector) Video 2x HDMI port (including one port via FFC connector), supports 4K 30fps output RTC N/A Storage MicroSD card socket for Compute Module 4 Lite (without eMMC) variants Fan header No fan control, 5 V Power input 5 V Dimensions 85 x 56 mm Included 1x CM4-IO-BASE-A 1x SSD mounting screw Downloads Wiki
The official Raspberry Pi mini-HDMI to HDMI (A/M) cable designed for all Raspberry Pi Zero models. 19-pin HDMI Type D(M) to 19-pin HDMI Type A(M) 1 m cable (white) Nickel-plated plugs 4Kp60 compliant RoHS compliant 3 Mohm 300 VDC insulation, withstands 300 VDC for 0.1s
De Raspberry Pi Pico 2 W is een microcontrollerbord gebaseerd op de RP2350 met 2,4 GHz 802.11n wireless LAN en Bluetooth 5.2. Het geeft u nog meer flexibiliteit in uw IoT- of slimme productontwerpen en breidt de mogelijkheden voor uw projecten uit.
De RP2350 biedt een uitgebreide beveiligingsarchitectuur gebouwd rond Arm TrustZone voor Cortex-M. Het bevat ondertekend opstarten, 8 KB antifuse OTP voor sleutelopslag, SHA-256-versnelling, een hardware TRNG en snelle glitch-detectoren.
Dankzij de unieke dual-core en dual-architectuurmogelijkheden van de RP2350 kunnen gebruikers kiezen tussen een paar industriestandaard Arm Cortex-M33-kernen en een paar open-hardware Hazard3 RISC-V-kernen. Programmeerbaar in C/C++ en Python, en ondersteund door gedetailleerde documentatie, is de Raspberry Pi Pico 2 W het ideale microcontrollerbord voor zowel liefhebbers als professionele ontwikkelaars.
Specificaties
CPU
Dual Arm Cortex-M33 of dubbele RISC-V Hazard3-processors @ 150 MHz
Wireless
Geïntegreerde Infineon CYW43439 single-band 2,4 GHz 802.11n wireless LAN en Bluetooth 5.2
Geheugen
520 KB SRAM op de chip; 4 MB ingebouwde QSPI-flitser
Interfaces
26 multifunctionele GPIO-pinnen, waaronder 4 die kunnen worden gebruikt voor AD
Randapparatuur
2x UART
2x SPI-controllers
2x I²C-controllers
24x PWM-kanalen
1x USB 1.1-controller en PHY, met host- en apparaatondersteuning
12x PIO-statusmachines
Ingangsvermogen
1,8-5,5 V DC
Afmetingen
21 x 51 mm
Downloads
Datasheet
Pinout
Schematic
Met de Raspberry Pi M.2 HAT+ kunt u M.2-randapparatuur, zoals NVMe-schijven en AI-versnellers, aansluiten op de PCIe 2.0-interface van Raspberry Pi 5, en ondersteunt snelle (tot 500 MB/s) gegevensoverdracht naar en van NVMe-schijven en andere PCIe-accessoires.
Raspberry Pi M.2 HAT+ ondersteunt apparaten met de M.2 M key edge-connector, in de 2230- en 2242-vormfactoren. Hij kan tot 3 A leveren aan aangesloten M.2-apparaten.
Kenmerken
Ondersteunt single-lane PCIe 2.0-interface (piekoverdrachtssnelheid van 500 MB/s)
Ondersteunt apparaten die de M.2 M Key Edge-connector gebruiken
Ondersteunt apparaten met de 2230- of 2242-vormfactor
Kan tot 3 A leveren aan aangesloten M.2 apparaten
Stroom- en activiteits-LED's
Inbegrepen
1x Raspberry Pi 5 M.2 HAT+
1x Lintkabel
1x GPIO-stapelheader
4x Afstandhouders
8x Schroeven
Downloads
Datasheet
Schematics
Assembly instructions
The Picon Zero is an add-on for the Raspberry Pi. It has the same size as a Raspberry Pi Zero, making it ideal to function as a pHat. Of course, it can be used on any other Raspberry Pi via a 40-pin GPIO connector.As well as two full H-Bridge motor drivers, the Picon Zero has several Input/Output pins giving you multiple configuration options. That allows you to easily add outputs or analog inputs to your Raspberry Pi without any complicated software or kernel-specific drivers. At the same time, it opens up 5 GPIO pins from the Raspberry Pi, and it provides the interface for an HC-SR04 ultrasonic distance sensor.The Picon Zero comes with all components, including the headers and screw terminals, fully soldered. Soldering isn't required. You can use it right out of the box.Features
pHat format PCB: 65 mm x 30 mm
Two full H-Bridge motor drivers. Drive up to 1.5 A continuously per channel, at 3 V - 11 V.
Each motor output has both a 2-pin male header and a 2-pin screw terminal.
The motors can be powered from the Picon Zero's 5 V or an external power source (3 V - 11 V).
The Picon Zero's 5 V can be selected to be from the Raspberry Pi's 5 V line, or a USB connector on the Picon Zero. That means that you can effectively have 2 USB battery banks: one to power the servos and motors on the Picon Zero and the other to power the Pi.
4 Inputs that can accept up to 5 V. These inputs can be configured as follows:
Digital inputs
Analog inputs
DS18B20
DHT11
6 Outputs that can drive 5 V and be configured as:
Digital Output
PWM Output
Servo
NeoPixel WS2812
All Inputs and Outputs use GVS 3-pin male headers.
4-pin female header that connects directly to an HC-SR04 ultrasonic distance sensor.
8-pin female header for Ground, 3.3 V, 5 V, and 5 GPIO signals allowing you to add their additional features.
Hardware ConfigurationPicon Zero has two jumpers for setting the hardware configuration. Ensure that you have placed them in the correct position.
JP1 – Board 5 V Selector. This jumper selects where to get the 5 V power from for the Picon Zero Outputs. The options are:
Jumper at the top between RPI and 5 V. The 5 V power for the board is taken from the Raspberry Pi pins on the GPIO connector. Because of the low power output devices and the 5 V motors, all devices can be powered with a single 5 V power input.
Jumper at the bottom between USB and 5 V. The 5 V power is taken from the microUSB connector on the Picon Zero. Useful for higher power output devices, since you can provide extra power through the micro-USB connector on the board
JP2 – Motor Power Selector. This jumper selects where the motors get the power. The two options here are the following:
Jumper at the top between MotorPower and Vin. The motors are driven via the 2-pin screw terminal. The voltage can be between 3 V and 11 V. Useful for motors that require a voltage different from 5 V, or that require more current than is available on either of the USB input connectors
Jumper at the bottom between 5 V and MotorPower. The motors are driven from the board's 5 V.
Raspberry Pi ConfigurationThe Picon Zero is an I²C device. Make sure your Raspberry Pi is set up correctly to use I²C and SMBus:
sudo apt-get install python-smbus python3-smbus python-dev python3-dev
sudo nano /boot/config.txt Add the following lines at the end of the file
dtparam=i2c1=on
dtparam=i2c_arm=on
Press Ctrl-X and use the default prompts to save
sudo reboot
Plugin the Picon Zero onto the Pi and run i2cdetect -y 1If everything goes well, you will see the Picon Zero showing up as address 22 as shown below:
Build robust, intelligent machines that combine Raspberry Pi computing power with LEGO components.The Raspberry Pi Build HAT provides four connectors for LEGO Technic motors and sensors from the SPIKE Portfolio. The available sensors include a distance sensor, a colour sensor, and a versatile force sensor. The angular motors come in a range of sizes and include integrated encoders that can be queried to find their position.The Build HAT fits all Raspberry Pi computers with a 40-pin GPIO header, including?–?with the addition of a ribbon cable or other extension device?—?Raspberry Pi 400. Connected LEGO Technic devices can easily be controlled in Python, alongside standard Raspberry Pi accessories such as a camera module.Features
Controls up to 4 motors and sensors
Powers the Raspberry Pi (when used with a suitable external PSU)
Easy to use from Python on the Raspberry Pi
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.
