Cliquez sur le bouclier pour Particle B Gen 3
Cliquez sur le bouclier pour Particle B Gen 3
Overview
Le Click Shield pour Particle B Gen 3 est le moyen idéal d'étendre les fonctionnalités de votre carte de développement compatible avec la série B de modules IoT cellulaires de Particle. Il fournit deux prises mikroBUS™ pour ajouter n'importe quelle fonctionnalité de notre gamme toujours croissante de cartes Click™. Nous disposons d'un stock complet de tout, des capteurs et émetteurs-récepteurs WiFi au contrôle moteur et aux amplificateurs audio.
La partie centrale de la conception de ce Shield comprend le connecteur M.2 (NGFF) SoM, deux prises mikroBUS, un connecteur pour la batterie LiPo, une antenne NFC, une LED RGB, des boutons RESET et MODE, avec un bloc d'alimentation supplémentaire situé sur le côté inférieur de la carte. Il est livré avec un connecteur USB de type C intégré et un connecteur de batterie pour l'alimentation de secours, y compris suffisamment d'énergie au cas où vous souhaiteriez changer de module à l'avenir.
Cette plate-forme de développement offre aux utilisateurs un moyen simple et courant de combiner la série B de modules IoT cellulaires de Particle avec leurs cartes Click™ préférées dans leurs projets à venir.
Remarque : les modules IoT cellulaires de la série B de Particle ne sont pas inclus dans le package.
Main features
The Click shield for Particle Gen 3 is designed with an M.2 (NGFF) 67-position connector. It comes equipped with two proprietary mikroBUS™ sockets, allowing the Click board™ devices from our ever-growing range to be interfaced with the Particle's B series of cellular IoT modules with no effort at all. It also includes the M.2 (NGFF) SoM connector,a connectors for the LiPo battery and NFC antenna, RGB LED, RESET, and MODE buttons, with an additional part of the design, the power supply unit located on the bottom side of the board.
It comes with an onboard USB type C connector and a battery connector for backup power supply, including enough power in case you want to switch modules in the future. Because of that, it can be battery-powered and used as a standalone device. It has the MC34671, a Li-Ion or Li-Polymer battery charger that allows battery charging when Click board™ is inserted in mikroBUS™ socket or plugged into a USB port with the CHG LED indicator indicating the charging in progress.
What is especially respected with the M.2 connector design is that no components are placed underneath the SoM. Since the B series SoMs are two-sided, the RF shielding may hit components under the SIM, preventing the SoM from seating correctly. That's why the ground plane and traces can and are placed in that zone, while all other components are placed in the opposite direction from this area.
In the addition of the SoM connector, what is still necessary is the hold-down screw to be added on the front side of the board. The M.2 connector does not have integrated locks, so if you don't have the hold-down screw, the module that goes in it will pop right up again. The best option for the screw is to use an M2*3 (M2 2mm screw, 3mm long) with a 4mm head. With the proper standoff and screw, like on this board, the SoM will be level with the board, and the RF shield on the bottom will not touch the baseboard.
On the right side of the top layer of the board, the user can find extra extracted pins (AN and SOM pins) from the M.2 connector that allows easy access to the AN and SoM IO pins. These are "SoM specific pins" which are different for each SoM model. Some of these SOM pins are supporting external SIM on the M.2 interface. The SIM holder is added on the bottom side of the board, allowing an easy SIM change for their future applications. In association with these pins, two of them, SOM3 and SOM4, are connected with a U.FL connector for an optional NFC antenna connection.
On the side of indications and user notifications, RGB status LED is implemented for the simple reason that it is complicated to see what the device is doing without it. The design of the RGB LED includes 1K current limiting resistors, which makes the LED less blinding but still provides sufficient current to light the LEDs. Also, the board has two additional buttons, RESET and MODE, implemented as well, which can be used for hardware reset or change of operating mode.
Once you connect the Particle's B series of cellular IoT modules with our Click shield for Particle Gen 3, it will allow you to access a thousand Click boards™ working with 3.3V or 5V logic voltage level. For checking which Click boards™ is compatible, please open our Click Shop filter. Our Click boards™ are equipped with a library containing functions and example source codes for Mikroe compilers available on LibStock, which can be used, as a reference, for further development.
Power your inventions
When the USB type C connector is connected to the Click shield for Particle Gen 3, the connected Click shield and mikroBUS™ sockets will be powered from it.
When the battery is connected to the battery connector on the bottom side of the board the power will be provided to the Click Shield from it, including mikroBUS™ sockets.
When the USB type C connector and the battery is connected to the Click shield for Particle Gen 3 at the same time, the mikroBUS™ sockets will be powered from the USB Type C connector.
Specification Table
Type | Shield |
Applications | Click shield for Particle Gen 3 allows you to combine Click boards™ with Particle's B series of cellular IoT modules. |
On-board modules | 2x mikroBUS™ connector, 1xM.2 (NGFF) 67-position connector, 1xU.FL connector for an optional NFC antenna, power management unit, SIM card holder, USB type C connector, battery connector. |
Interface | Analog,GPIO,I2C,PWM,SPI,UART |
Compatibility | mikroBUS |
Input Voltage | 3.3V,5V,External |
Frequently Asked Questions
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