This bundle contains the popular Elektor Sand Clock for Raspberry Pi Pico and the new Elektor Laser Head Upgrade, offering even more options for displaying the time. Not only can you "engrave" the current time in sand, you can now alternatively write it on a glow-in-the-dark foil or create green drawings.
Contents of the bundle
Elektor Sand Clock for Raspberry Pi Pico (normal price: €50)
NEW: Elektor Laser Head Upgrade for Sand Clock (normal price: €35)
Elektor Sand Clock for Raspberry Pi (Raspberry Pi-based Eye Catcher)
A standard sand clock just shows how time passes. In contrast, this Raspberry Pi Pico-controlled sand clock shows the exact time by "engraving" the four digits for hour and minute into the layer of sand. After an adjustable time the sand is flattened out by two vibration motors and everything begins all over again.
At the heart of the sand clock are two servo motors driving a writing pen through a pantograph mechanism. A third servo motor lifts the pen up and down. The sand container is equipped with two vibration motors to flatten the sand. The electronic part of the sand clock consists of a Raspberry Pi Pico and an RTC/driver board with a real-time clock, plus driver circuits for the servo motors.
A detailed construction manual is available for downloading.
Features
Dimensions: 135 x 110 x 80 mm
Build time: approx. 1.5 to 2 hours
Included
3x Precut acrylic sheets with all mechanical parts
3x Mini servo motors
2x Vibration motors
1x Raspberry Pi Pico
1x RTC/driver board with assembled parts
Nuts, bolts, spacers, and wires for the assembly
Fine-grained white sand
Elektor Laser Head Upgrade for Sand Clock
The new Elektor Laser Head transforms the Sand Clock into a clock that writes the time on glow-in-the-dark film instead of sand. In addition to displaying the time, it can also be used to create ephemeral drawings. The 5 mW laser pointer, with a wavelength of 405 nm, produces bright green drawings on the glow-in-the-dark film. For best results, use the kit in a dimly lit room. Warning: Never look directly into the laser beam!
The kit includes all the necessary components, but soldering three wires is required.
Note: This kit is also compatible with the original Arduino-based Sand Clock from 2017. For more details, see Elektor Magazine 1-2/2017 and Elektor Magazine 1-2/2018.
The Elektor Laser Head transforms the Elektor Sand Clock into a clock that writes the time on glow-in-the-dark film instead of sand. In addition to displaying the time, it can also be used to create ephemeral drawings. The 5 mW laser pointer, with a wavelength of 405 nm, produces bright green drawings on the glow-in-the-dark film. For best results, use the kit in a dimly lit room. Warning: Never look directly into the laser beam!
The kit includes all the necessary components, but soldering three wires is required.
Note: This kit is also compatible with the original Arduino-based Sand Clock from 2017. For more details, see Elektor Magazine 1-2/2017 and Elektor Magazine 1-2/2018.
Features Fully assembled and tested Nixie clock Six tested IN-14 Nixie tubes mounted to the clock base Two neon colon tubes installed into the clock base 12 V DC power adapter IR remote control Built-in proximity sensor User manual This clock is a combination of modern technologies and vintage Nixie tubes. It is a perfect gift for your friend and definitely will fit into any interior. Warm glowing of the neon will fill your house with soft orange light at night and will serve as a night light. The clock is built with 6 numeric IN-14 Nixie tubes. A built-in RGB LED backlight (with 10 levels for each channel) allow you to set your favorite color. Time accuracy is provided with built-in RTC (Real Time Clock DS3231) module and backuped with CR2032 battery while the clock is powered off. At the end of each minute (could be configured to be set from 1-5 minutes period or completely disabled) starts 'Slot Machine' feature that helps to prevent cathode poisoning effect. It scrolls over all numbers from 0 to 9. It is necessary to prolong tubes lifespan. Current date is shown each 1-5-th minute in 3 various formats: DD:MM:YY, MM:DD:YY or YY:MM:DD. The current time could be configured to 12 or 24 hour format. There are also three modes for colon tubes: Blinks once a second (is set as a default option) Permanently OFF Permanently ON The clock could be set to beep once an hour (when hour starts). The clock also has an alarm feature. All settings are stored in non-volatile memory (settings are restored after power-offs). Dimensions Height: 20 mm Width: 175 mm Length: 70 mm Tube height: 45 mm
Spencer is a DIY voice assistant that will teach you about AI, voice recognition, IoT, and speech synthesis.
Features
Ask about the weather forecast for your area
Hear a joke
Ask him to sing you a song
Set a stopwatch
Make Spencer display custom animations
Laugh at his corny popular culture references
Included
Spencer’s circuit board that includes a pre-soldered 144-pixel LED grid
The brain board – does smart stuff and includes a dual-core processor, a 16 MB flash memory chip, and power-management circuitry
Acrylic casing – this protects Spencer’s innards from the outside world
A big red button
Various smaller components such as resistors and pushbuttons
Micro USB cable for powering your Spencer
5W Speaker
Instruction booklet – ready for your offline knowledge consumption
Here you can find the assembly guide!
This is a kit for a pan-tilt mechanism explicitly designed for Pixy2. After assembling the kit and connecting it to Pixy2, you'll be able to follow colored objects using the Pan/Tilt demo.
It includes two laser-cut plastic pieces for the base, two different servos for the pan and tilt axes, and all the mounting hardware and cable ties you will need to assemble.
Features
The pan-tilt mechanism for Pixy2 is redesigned, making it smaller and faster than the pan-tilt for the original Pixy.
All necessary hardware is included.
The pan-tilt base is attached directly to an Arduino with Arduino-compatible hole-pattern and includes stand-offs and fasteners.
Several pan-tilt demos are provided that can run using either Arduino, Raspberry Pi or stand-alone (no controller).
Downloads
Manual
Easy to solder real time watch kit with a unique laser cut acrylic casing. Four individual acrylic parts cut to fit the internal PCB, battery and switch perfectly. Included is a velcro wrist band. After soldering the Solder:Time, the watch is built by stacking the acrylic parts with the PCB and holding it together with the included screws.
The Solder:Time was designed to be a wrist watch. It doesn't have to be limited to living on your wrist, you could also use it as a badge or desk clock.
Features
Great looking laser cut acrylic case
Unique watch
Easy to solder
Stand alone project – no computer or other programmer required. Just solder it and it's ready!
On board Dallas DS1337+ Real Time Clock (RTC) for super accurate time keeping
Jumper (on bottom) for always on use.
Hackable: Programming and I²C pads labeled on bottom
Clear front and back casing to show the internal electronics
Adjustable wrist band
Can be also be worn as a badge with optional badge clip.
Long lasting battery, with special LED lighting method and very low power processor sleeping.
Included
Solder:Time PCB with all of the electronics
Laser cut acrylic casing with four screws
Easy to use Velcro type wrist band (long enough for huge wrists, trim-able for smaller ones.
CR2032 Battery
Downloads
Documentation
Required
Soldering Iron, solder and wire snips.
The HuskyLens AI Camera intuitive design allows the user to control different aspects of the camera just by pressing buttons. You can start and stop learning new objects and even switch between algorithms from the device.
To further reduce the need to be connected to a PC the HuskyLens AI Camera comes with a 2-inch display so you can see what's going on in real time.
Specifications
Processor: Kendryte K210
Image Sensor: OV2640 (2.0 Megapixel Camera)
Supply Voltage: 3.3~5.0 V
Current Consumption (TYP): 320 mA @ 3.3 V, 230 mA @ 5.0 V (face recognition mode; 80% backlight brightness; fill light off)
Connection Interface: UART, I²C
Display: 2.0-inch IPS screen with 320x240 resolution
Built-in Algorithms: Face Recognition, Object Tracking, Object Recognition, Line Tracking, Color Recognition, Tag Recognition
Dimension: 52 x 44.5 mm (2.05 x 1.75')
Included
1x HuskyLens Mainboard
6x M3 Screws
6x M3 Nuts
1x Small Mounting Bracket
1x Heightening Bracket
1x Gravity 4-Pin Sensor Cable
Ulanzi TC001 is an LED pixel clock consisting of 256 individual addressable RGB LEDs (8x32) with built-in battery, buzzer, light, temperature and humidity sensor. The integrated rechargeable battery offers a runtime of up to 5 hours. The WiFi connection to the clock is made via an ESP32 chip. Ulanzi TC001 uses an ESP32-WROOM-32D module.
Features
Pixelated message display
Simultaneous Display of the Number of Followers: Fan growth is immediately visible, suitable for YouTube, Bilibili, and Weibo.
Pomodoro Clock Design: Manage your own time more scientifically.
Explore unlimited possibilities: Multiple programs need to be installed through the control server to achieve more functions.
Awtrix Makes it Better: Awtrix simulator in TC001’s firmware simulates an Awtrix matrix and allows you to control the clock using a standard Awtrix host.
Hi-tech and stunning appearance: Modeling simple atmosphere, LED full-color pixel screen with better imaging.
Built-in 4400 mAh battery with up to 5 hours of battery life.
Specifications
Number of LEDs: 256 (8x32)
Operating voltage: 3.7 V
Power: 3 W
Battery capacity: 4400 mAh
Interface: USB-C
Dimensions: 200.6 x 70.3 x 31.9 mm
Weight: 283 g
Inbegrepen
Ulanzi TC001 Smart Pixel Clock
USB cable
Manual
Downloads
Firmware
The AxiDraw MiniKit 2 The AxiDraw MiniKit 2 is a special compact addition to the AxiDraw lineup. Designed for lighter-duty applications, It takes up less desk space and less storage space. It's considerably more portable, too. The AxiDraw MiniKit is also the only DIY kit model of AxiDraw that you get to assemble yourself. All other AxiDraw models ship fully assembled, tested, and ready to use.) A Mini Plotter The AxiDraw MiniKit 2 has a working area of about 6 × 4 inches (150 × 100 mm): Big enough to be useful for a wide range of applications including short notes, postcards, and addressing envelopes. It's also ideally suited for use as a signature machine, for signing checks, letters, books, or artwork. Applications The AxiDraw is an extremely versatile machine, designed to serve a wide variety of everyday and specialized drawing and writing needs. You can use it for almost any task that might normally be carried out with a handheld pen. It allows you to use your computer to produce writing that appears to be handmade, complete with the unmistakable appearance of using a real pen (as opposed to an inkjet or laser printer) to address an envelope or sign one's name. And it does so with precision approaching that of a skilled artist, and – just as importantly – using an arm that never gets tired. Specifications Performance Usable pen travel (inches): 6.3 × 4 inches Usable pen travel (millimeters): 160 × 101 mm Vertical pen travel: 0.7 inch (17 mm) Maximum XY travel speed: 10 inches (25 cm) per second Native XY resolution: 2032 steps per inch (80 steps per mm) Reproducibility (XY): Typically better than 0.005 inches (0.1 mm) at low speeds Physical Major structural components are machined, extruded, or folded aluminum, manufactured and anodized in the USA. Holds pens and other drawing instruments up to 5/8' (16 mm) diameter and 25 g weight. Overall dimensions: Approximately 14.25 × 9.25 × 4.25 inches (36 × 23.5 × 11 cm) Maximum height with cable guides: Approximately 9 inches (23 cm) Footprint: Approximately 13.5 × 1.7 inches (35 x 4.5 cm) Weight: 3.2 Lb (1.5 kg) Software Compatible with Mac, Windows, and Linux Drive directly from within Inkscape, using the AxiDraw extension Comprehensive user guide available for download
Driver software software free to download and open source Internet access is required to download software Additionally, AxiDraw Merge software available at no cost to AxiDraw owners. Programming interfaces Note: Programming is not required to use the AxiDraw Stand-alone command line interface (CLI) Available AxiDraw Python API
RESTful API available for full machine control, stand-alone or accessible by running RoboPaint in the background. Simplified 'GET-only' API available as well, for use in programming environments (such as Scratch, Snap) that permit only retrieval of URLs. Direct EiBotBoard (EBB) command protocol available for use in any programming environment that supports communication with USB-based serial ports. Code that generates SVG files can also be used to (indirectly) control the machine. Included All parts and materials necessary to build the AxiDraw MiniKit 2 writing and drawing machine. Multi-plug power supply with EU adapter USB cable Small Easel (Board and clips) for paper holding Tools needed Scissors or diagonal cutters Small Phillips-head screwdrivers: #0 and #1 sizes Small flat-head screwdriver: 2 mm or 5/64' blade width recommended Miniature pliers (Recommended but not required) Small hobby knife (Recommended but not required) Downloads User Guide
Programmable Robot Kit with 344 Parts
variAnt runs and acts almost like its natural role model. Its patented walking mechanism was especially developed for the fine-boned anatomy of an insect and is driven by compact micro-geared motors.
The autonomous robot ant explores its entire environment with the help of 12 analogue sensors. This allows it to detect obstacles, markings, movements or light sources based on the slightest differences in brightness.
The control unit in the rear, which is equipped with a nano-board, offers a wide range of flexible connection options in combination with the breadboard in the head. After the exciting setup, ready-made and expandable code modules ensure an easy and quick introduction to Arduino programming up to the first experiments with artificial intelligence.
The kit already comes with a USB rechargeable 9 V Li-Ion battery, which supplies the robot ant with power for at least 5 hours.
Robot ant as a programmable kit
Compatible with Arduino IDE
Patented mechanics and sensors
Features of variAnt
24 high-quality acrylic parts
12 variable environmental sensors
2 reed sensors for step counting
2 freely programmable buttons
8 freely usable digital I/Os
15 pluggable status LEDs
Specifications
Content: 344 parts
Construction time: about 4-8 hours (no soldering required)
Dimensions: 25 x 22.5 x 9 cm (L x W x H)
Weight: 210/232 g (without/with battery)
Necessary tools
PC or tablet, micro-USB and USB-C cable, flat pliers, diagonal pliers, carpet knife, permanent marker
Downloads
Manual
Arduino library
Build your 3D led cube and create unlimited 3D effects. The unit comes standard loaded with effects. Connect to your computer (USB) and create your own!
Features
LEDs: 5 x 5 x 5 = 125 LEDs
User programmable via USB (creation of animation/scenes)
Large amount of user programmable frames
Frames are separately dimmable
4 transition speeds
Available frames: 3200
5 levels LED dimming available
No coding skills required
Software similar to (3 x 3 x 3)
Specifications
Regulated power supply: 9 VDC (not incl.)
Power consumption: 300 mA max.
Dimensions: 110 x 110 x 150 mm
If you are looking for a simple way to learn soldering, or just want to make a small gadget that you can carry, this set is a great opportunity. Reaction game is an educational kit which teaches you how to solder, and in the end, you get to have your own small game. The goal of the game is to press the button next to the LED as soon as it turns on. With every correct answer, the game gets a bit harder – the time you have to press the button shortens. How many correct answers can you get?
It’s based on ATtiny404 microcontroller, programmed in Arduino. At its back, you’ll find CR2032 battery which makes the kit portable. There’s keychain holder as well. Soldering process is easy enough based on the mark on the PCB.
Included
1x PCB
1x ATtiny404 microcontroller
4x LEDs
4x Pushbuttons
1x Switch
4x Resistors (330 ohm)
1x CR2032 battery holder
1x Battery CR2032
1x Keychain holder
M5Stamp Fly is a programmable open-source quadcopter, featuring the StampS3 as the main controller. It integrates a BMI270 6-axis gyroscope and a BMM150 3-axis magnetometer for attitude and direction detection. The BMP280 barometric pressure sensor and two VL53L3 distance sensors enable precise altitude hold and obstacle avoidance. The PMW3901MB-TXQT optical flow sensor provides displacement detection.
The kit includes a buzzer, a reset button, and WS2812 RGB LEDs for interaction and status indication. It is equipped with a 300 mAh high-voltage battery and four high-speed coreless motors. The PCB features an INA3221AIRGVR for real-time current/voltage monitoring and has two Grove connectors for additional sensors and peripherals.
Preloaded with debugging firmware, the Stamp Fly can be controlled using an Atom Joystick via the ESP-NOW protocol. Users can choose between automatic and manual modes, allowing for easy implementation of functions like precise hovering and flips. The firmware source code is open-source, making the product suitable for education, research, and various drone development projects.
Applications
Education
Research
Drone development
DIY projects
Features
M5StampS3 as the main controller
BMP280 for barometric pressure detection
VL53L3 distance sensors for altitude hold and obstacle avoidance
6-axis attitude sensor
3-axis magnetometer for direction detection
Optical flow detection for hovering and displacement detection
Buzzer
300 mAh high-voltage battery
Current and voltage detection
Grove connector expansion
Specifications
M5StampS3
ESP32-S3@Xtensa LX7, 8 MB Flash, WiFi, OTG\CDC support
Motor
716-17600kv
Distance Sensor
VL53L3CXV0DH/1 (0x52) @ max 3 m
Optical Flow Sensor
PMW3901MB-TXQT
Barometric Sensor
BMP280 (0x76) @ 300-1100hPa
3-axis Magnetometer
BMM150 (0x10)
6-axis IMU Sensor
BMI270
Grove
I²C+UART
Battery
300mAh 1S high-voltage lithium battery
Current/Voltage Detection
INA3221AIRGVR (0x40)
Buzzer
Built-in Passive Buzzer @ 5020
Operating temperature
0-40°C
Dimensions
81.5 x 81.5 x 31 mm
Weight
36.8 g
Included
1x Stamp Fly
1x 300 mAh high-voltage Lithium battery
Downloads
Documentation
M5Atom Joystick is a versatile programmable dual-joystick remote controller featuring the AtomS3 as the main controller, with an STM32 handling co-processing functions.
It is equipped with two 5-way joysticks with hall sensors, two function buttons, and built-in RGB LEDs for human-machine interaction and status indication.
The device includes two high-voltage battery charging circuits. It comes pre-loaded with the Stamp Fly control firmware and communicates with Stamp Fly via the ESP-NOW protocol. The firmware source code is open-source. This product is suitable for drone control, robot control, smart cars, and various DIY projects.
Applications
Drone control
Robot control
Smart cars
DIY projects
Features
STM32F030F4P6
Equipped with M5AtomS3
Compatible with Atom Lite, Atom Matrix, AtomS3 Lite, AtomS3
Dual joysticks, dual buttons, toggle switch
WS2812 RGB LEDs
Dual high-voltage lithium battery charging circuits
Battery detection
Specifications
MCU
STM32F030F4P6
RGB
WS2812C
Charging IC
TP4067 @ 4.35 V
Battery
300 mAh
Charging Current
500 mA
Button
Left/Right Button
Buzzer
Built-in Passive Buzzer @ 5020
Operating temperature
0-40°C
Dimensions
84 x 60 x 31.5 mm
Weight
63.5 g
Included
1x Atom JoyStick
1x 300 mAh high-voltage Lithium battery
Downloads
Documentation
The FNIRSI NVS-20 is a versatile monocular night vision device, ideal for clear observation in complete darkness or low light. It offers unlimited range in weak light and up to 300 m in total darkness.
Featuring a USB port and TF card slot, it supports firmware updates and media storage. With a color screen, it performs seamlessly day or night, enabling photo capture, video recording, playback, and up to 6x electronic zoom. The NVS-20 is the ultimate tool for enhancing night vision capabilities.
Specifications
Electronic Zoom
6x
Objective Lens Diameter
25 mm
Low Light or Daytime Observation Distance
2 m~∞
Full Black Observation Distance
300 m (max)
Video Resolution
4K (3840x2160) / 2K (2560x1440) / 1080FHD (1920x1080) / 720P (1280x720) / VGA (640x480) / QVGA (320x240)
Photo Resolution
36MP / 32MP / 30MP / 24MP / 20MP / 16MP / 12MP / 10MP / 8MP / 5MP / 3MP / VGA
IR Wavelength
850 nm
Water Resistance Level
IPX6
White Balance
Automatic, Daylight, Cloudy, Tungsten Filament, Fluorescent
ISO
Auto, 100, 200, 400, 800
LCD Brightness Adjustment
High, medium, and low levels
Light Source Frequency
50 Hz / 60 Hz
Storage
32 GB TF memory card
Voltage
3.7 V
Power supply
18650 internal battery
Charging
USB-C (5 V/1 A)
Display
1.54 inch HD IPS screen
Temperature
−5~40°C
Humidity
0-80%
Languages
Chinese / Traditional / English / Japanese / Italian / French / German / Russian / Spanish / Portuguese
Dimensions
152 x 42 x 82 mm
Weight
240 g
Included
1x NVS-20 Night Vision Monocular
1x 18650 Lithium battery
1x TF memory card (32 GB)
1x USB cable
1x Manual
Downloads
Manual
Firmware FW96675
This smart plinth lighting automatically switches on and off when you get up at night. The motion sensor sees you get out of bed and the light turns on! There is an illuminated path from bed to toilet. Obstacles on the way to the toilet are immediately visible and tripping hazards are prevented. Scientific research shows that the fear of falling is significantly reduced when using a Guide Light.
The LED lighting has a perfect light intensity. The light is subtle enough not to wake you up, but bright enough for a reliable orientation. The Guiding Light is much more than just a night light.
Pico Cube is a 4x4x4 LED cube HAT for Raspberry Pi Pico with 5 VDC operating voltage. Pico cube, a monochromatic Green with 64 LEDs, is a fun way to learn programming. It is designed to perform incandescent operations with low energy consumptions, robust outlook, and easy installation that make people/kids/users learn the effects of LED lights with a different pattern of colors via the combination of software and hardware i.e. Raspberry Pi Pico.
Features
Standard 40 Pins Raspberry Pi Pico Header
GPIO Based Communication
64 High-Intensity Monochromatic LEDs
Individual LED access
Each Layer Access
Specifications
Operating Voltage: 5 V
Color: Green
Communication: GPIO
LEDs: 64
Included
1x Pico Cube Base PCB
4x Layer PCB
8x Pillar PCB
2x Male Berg (1 x 20)
2x Female Berg (1 x 20)
70 LEDs
Note: Raspberry Pi Pico is not included.
Downloads
GitHub
Wiki
If you are looking for a simple way to learn soldering, or just want to make a small gadget that you can carry, this set is a great opportunity. Stop me game is an educational kit which teaches you how to solder, and in the end, you get to have your own small game. The LEDs go up and down, and your goal is to press the button as soon as the green LED turns on. With every correct answer, the game gets a bit harder – the time you have to press the button shortens. How many correct answers can you get?
It’s based on ATtiny404 microcontroller, programmed in Arduino. At its back, you’ll find CR2032 battery which makes the kit portable. There’s keychain holder as well. Soldering process is easy enough based on the mark on the PCB.
Included
1x PCB
1x ATtiny404 microcontroller
7x LEDs
1x Pushbutton
1x Switch
7x Resistors (330 ohm)
1x CR2032 battery holder
1x Battery CR2032
1x Keychain holder
Always Listening
With this kit, you can easily built a powerful listening device that is perfect for animal voices and quiet noises.
The manual clearly guides you through the assembly. No previous experience is required. Ideally suited for all hobby investigators and tinkerers interested in technology.
Additionally required
1x 9 V battery
Headset with 3.5 mm phone jack
If you are looking for an easy way to get started with soldering or simply want to make a small portable gadget, this set is a great opportunity. "LED cube" is an educational set for learning the soldering skill, with which you get a small electronic game at the end. After you turn on and shake this board, certain leds will light up randomly and symbolize the number, as if a real die had been thrown.
It is based on the Attiny404 microcontroller, programmed in Arduino, and there is a battery on the back which makes this gadget portable. There is also a keychain so you can always carry your new game with you! Soldering is easy according to the markings on the board.
Included
1x PCB
1x ATtiny404 microcontroller
7x LEDs
7x Resistors (330 ohm)
1x Resistor (10 kohm)
1x Battery holder
1x CR2032 battery
1x Switch
1x Vibration sensor SW-18020P
1x Keychain ring
The Mixer Geek Theremin+ is a fun and innovative electronic musical instrument inspired by the classic Theremin. Unlike traditional instruments, the Theremin+ is played without physical contact, using hand movements in the air to control pitch and volume.
The Theremin+ offers an exciting and hands-on way to explore music and sound experimentation.
Features
Ready to use out of the box
Equipped with a loudspeaker and full-color screen
Intuitive button-based navigation and confirmation
Choose from over 70 tones
Multiple customizable function settings
Displays waveform, time, frequency, volume, and corresponding piano pitch (display can be turned off)
Powered via USB-C port; compatible with power banks
Compact design with removable telescopic antenna for easy storage
Connects to headphones, external speakers, or recording devices
Dimensions: 98 x 70 x 18 mm
Included
1x Theremin+ Musical Instrument
2x Antennas
1x USB-C cable
If you’re looking for a simple way to start soldering or just want to make your own Dasduino, this soldering set is a great opportunity. "Make your own Dasduino CORE" is an educational set for learning the skill of soldering, with which you end up with a functional microcontroller board. As with the other SMD versions of the Dasduino CORE boards we offer, the possibilities are endless.
It is based on the ATmega328P microcontroller, and all SMD components are already soldered on the board. The set also includes a THT socket for the microcontroller, which simplifies the replacement of the microcontroller should it ever become necessary.
Included
1x PCB
7x Capacitors (100nF)
4x Capacitors (2.2uF)
2x Capacitors (22pF)
5x Resistors (2.2 kOhm)
5x Resistors (10 kOhm)
3x Resistors (1 kOhm)
1x Resistor (100 kOhm)
1x Resistor (100 ohm)
1x JST battery connector
1x LED (purple)
1x LED (white)
1x LED (blue)
1x LED (red)
1x LED (orange)
1x Socket for ATmega328P
1x ATmega328P microcontroller
The X500 V2 ARF Kit is an affordable, lightweight, and robust carbon fiber professional drone kit that is easy to assemble (less than 15 minutes). It comes with the X500 V2 Frame Kit and motors, ESCs, power distribution boards and propellers preinstalled. It is perfectly compatible with various flight controllers such as the Holybro Pixhawk series, Durandal, Pix32 V5, etc. There are numerous improvements compared the previous model.
Specifications
Wheelbase: 500 mm
Motor mount pattern: 16x16 mm
Frame body: 144x144 mm, 2 mm thick
Landing gear height: 215 mm
Space between top and bottom plates: 28 mm
Weight: 610 g
Flight time: ~18 minutes hover with no additional payload. Tested with 5000 mAh battery.
Payload: 1500 g (without battery, 70% throttle)
Battery recommendation: 4S 3000-5000 mAh 20C+ with XT60 Lipo battery (not Included)
Included
X500 V2 Frame Kit
With Preinstalled Items:
4x Motors: Holybro 2216 KV920 Motor (4 pcs) with XT30 Plug
4x ESCs (BLHeli S ESC 20A)
6x 1045 Propellers
Power Distribution Board – XT60 plug for battery & XT30 plug for ESCs & peripherals
Note: Depth camera mount is sold separately.
Pico Cube is a 4x4x4 LED cube HAT for Raspberry Pi Pico with 5 VDC operating voltage. Pico cube, a monochromatic Red with 64 LEDs, is a fun way to learn programming. It is designed to perform incandescent operations with low energy consumptions, robust outlook, and easy installation that make people/kids/users learn the effects of LED lights with a different pattern of colors via the combination of software and hardware i.e. Raspberry Pi Pico.
Features
Standard 40 Pins Raspberry Pi Pico Header
GPIO Based Communication
64 High-Intensity Monochromatic LEDs
Individual LED access
Each Layer Access
Specifications
Operating Voltage: 5 V
Color: Red
Communication: GPIO
LEDs: 64
Included
1x Pico Cube Base PCB
4x Layer PCB
8x Pillar PCB
2x Male Berg (1 x 20)
2x Female Berg (1 x 20)
70 LEDs
Note: Raspberry Pi Pico is not included.
Downloads
GitHub
Wiki
