ZIP Halo HD for micro:bit

CHF 30.00*

Sofort verfügbar, Lieferzeit: 14 days

Produktnummer: KIT-5672

Produktinformationen "ZIP Halo HD for micro:bit"

The Kitronik Halo HD board for the BBC micro:bit incorporates 60 individually addressable full colour ZIP LEDs. It also breaks out P1 and P2 to a standard 0.1” footprint, it features a MEMS microphone for detection of sound, and a piezo buzzer to play sound. If that weren't enough, it also features an onboard real time clock (RTC) controlled by I2C lines from the microbit. The board also has two M3 mounting holes. We think you'll agree, the board is loaded with useful features. It doesn't stop there...

Plug n Play: No tools required, not even a screwdriver, plug the micro:bit straight into the onboard edge connector and you are good to go!

Onboard Power: The board has a 3xAA battery holder mounted on the rear, with a power switch on the front of the board. A regulated supply is produced on the board which is fed into the 3V and GND connections to power the connected BBC micro:bit, removing the need to power the BBC micro:bit separately. See the Datasheet for more information.

MakeCode Blocks: Kitronik have created custom blocks for the Halo HD for use with MakeCode. To add these blocks, first go to makecode.microbit.org and start a new project. Under the “Advanced” section click on “Extensions”. In the next window search for “Halo HD”. Then, click on the tile to import it into MakeCode. You will see that the blocks are split across three categories; ZIP LEDs, Microphone and Clock. You can find more information on the MakeCode editor and also on how to write code for it with MicroPython in the Datasheet.

Examples: To get you off to a flying start we have produced a number of code examples that cover all of the onboard features and that will also serve to inspire your own projects. You will find links to these examples in the resources section below.

Features:

The board features 60 individually addressable full colour ZIP LEDs.
It breaks out P1 and P2 to a standard 0.1” footprint.
It's wired for sound with a MEMS microphone and a piezo buzzer.
It has an onboard Real time clock (RTC) controlled by I2C lines.
Plug n play with the onboard edge connector, no tools required!.
The board has a 3xAA battery holder mounted on the rear.
The On/off switch helps you maximise battery life.
It can be coded with MakeCode blocks via our custom blocks or with MicroPython.
2 x M3 Mounting holes, for secure projects.

Contents:

1 x :VIEW ZIP Halo HD Board for micro:bit.

Dimensions:

Diameter: 87mm.
M3 Mounting Holes Spacing (Center to Center): 68.4mm.

Bildungsstufe:	Tertiäre Bildung, Zyklus 3
DataLogger Schnittstellen:	BBC Micro:Bit
Fach:	Gestalten (LP21), Informatik, Medien und Informatik (LP21), Physik, Robotik/Mikrokontroller

0 von 0 Bewertungen

Bewerten Sie dieses Produkt!

Teilen Sie Ihre Erfahrungen mit anderen Kunden.

Anmelden

Ihre E-Mail-Adresse

Ihr Passwort

Bewertungen nur in der aktuellen Sprache anzeigen.

Keine Bewertungen gefunden. Teilen Sie Ihre Erfahrungen mit anderen.

Accessory Items

1m USB Type-A to Micro-B USB Noodle Cable

This 1M White Anti-Tangle USB Type-A to Micro-B USB Noodle cable is a flat type USB cable. The new flat design means that the cable resists tangling, ensuring that when it is taken out of where it is stored it's tangle free and ready to go. This USB cable is compatible with the BBC micro:bit and can be used with the newer LilyPad boards. Features: 1m length cable. Anti tangle design. Micro-B USB 5-pin port. USB 2.0 Type A port. Can be used with the BBC micro:bit. Can be used with the newer LilyPad boards. Contents: 1 x 1M White Anti-Tangle USB Type-A to Micro-B USB Cable. Dimensions: Cable Length: 1m. USB Type A Head Length: 28mm. USB Type A Head Width: 15mm. USB Micro-B Head Length: 23mm. USB Micro-B Head Width: 11mm.

CHF 32.00*

BBC micro:bit Erfinder Kit

Holen Sie sich mehr von BBC micro:bit mit dem Kitronik's unglaublichen Erfinder Kit! Ein einfacher Weg, um das Erstellen von Schaltungen und Code zu lernen. Bitte beachten Sie: BBC micro:bit ist nicht enthalten. Das Kitronik Erfinder Kit ist ein guter Einstieg in das Programmieren mit dem BBC micro:bit und deren Interaktions-Hardware. Mithilfe von LEDs, Motoren, LDRs und Kondensatoren können Sie 10 faszinierende Experimente durchführen. Das einfach umsetzbare Tutorial Buch bietet einen soliden Start und führt Sie durch alles, was Sie über die Programmierung mit dem BBC micro:bit wissen müssen. Sie benötigen keine Programmierkenntnisse. Sie programmieren und erstellen Schaltungen in kürzester Zeit mithilfe des Tutorial Buches. Das Kitronik Erfinder Kit für den BBC micro:bit bietet eine fantastische Art zu lernen, wie man elektronische Schaltungen konstruiert und steuert. Das BBC micro:bit hat mehrere zugängliche Pins (externe Anschlüsse), welche auf dem Anschlussrand der micro:bit Platine vorhanden sind. Durch die Verwendung der speziell entwickelten Randstecker-Platine und der verbundenen Steckplatine ist es einfach, zusätzliche Komponenten am BBC micro:bit anzuschliessen. Eigenschaften: Lötfreies Arbeiten - bauen Sie Ihre erste Schaltung in wenigen Minuten! Machen Sie 10 Experimente mit dem mitgelieferten Schritt-für-Schritt Tutorial Buch. Alle Teile sind enthalten, um die 10 Experimente durchzuführen (siehe unten). 21 zugängliche Pins (externe Anschlüsse) sind auf dem Anschlussrand der micro:bit Platine vorhanden. Kleine Steckplatine zum schnellen Prototyping enthalten. Benötigt wird: 1 x BBC micro:bit 1 x Kreuzschlitzschraubendreher 1 x Klemmenschraubendreher 1 x Mikro USB-Kabel

Ab CHF 48.18*

Details

Similar Items

ZIP Halo for the BBC micro:bit

Add some colour to your next coding project with our new Halo board for the BBC micro:bit. The Halo has 24 ZIP LEDs, which are individually addressable full colour LEDs. This means that each LED can display a huge spectrum of colours, allowing amazing colourful effects to be achieved. The Halo bolts directly onto the BBC micro:bit using five bolts which are secure and robust. The board also has extension connector pads (0.1 pitch) allowing more ZIP LEDs to be connected. The P1 and P2 micro:bit pins are also broken out to 0.1" pads along with power and GND. This allows for additional connections to low power components such as sensors and switches. The Halo takes a supply voltage of 3.5V-5V and provides a regulated power supply to BBC micro:bit. Power can be connected using the JST input using a 3xAAA battery holder, or LiPo battery, or JST lead. Alternatively you can solder a power supply directly to the solder pads on the PCB. The LEDs used are based on the WS2812B part which is compatible with any WS2812B driver code. They can also be coded in the MakeCode Block/Javascript editor. Features: Halo has 24 individually addressable ZIP LEDs. Compatible with Adafruit NeoPixel and other WS2812B driver code. Supply voltage: 3.5V to 5V. Halo bolts directly onto the BBC micro:bit. The board also has extension connector pads. Contents: 1 x Halo for the BBC micro:bit. 5 x Counter Sunk M3 x6mm Screws. Dimensions: Diameter: 80mm. Height: 3.2mm Height With micro:bit: 10mm. PCB Thickness: 1.5mm.

CHF 1’558.00*

NeoPixel Stick - 8 x 5050 RGB LED

Make your own little LED strip arrangement with this stick of NeoPixel LEDs. We crammed 8 of the tiny 5050 (5mm x 5mm) smart RGB LEDs onto a PCB with mounting holes and a chainable design. Use only one microcontroller pin to control as many as you can chain together! Each LED is addressable as the driver chip is inside the LED. Each one has ~18mA constant current drive so the color will be very consistent even if the voltage varies, and no external choke resistors are required making the design slim. Power the whole thing with 5VDC (4-7V works) and you're ready to rock. The LEDs are 'chainable' by connecting the output of one stick into the input of another - see the photo above. There is a single data line with a very timing-specific protocol. Since the protocol is very sensitive to timing, it requires a real-time microconroller such as an AVR, Arduino, PIC, mbed, etc. It cannot be used with a Linux-based microcomputer or interpreted microcontroller such as the netduino or Basic Stamp. Our wonderfully-written Neopixel library for Arduino supports these pixels! As it requires hand-tuned assembly it is only for AVR cores but others may have ported this chip driver code so please google around. An 8MHz or faster processor is required. Comes as a single stick with 8 individually addressable RGB LEDs assembled and tested.

CHF 96.00*