This fiberglass outdoor antenna is optimized for receiving signals in the 868 MHz ISM band, supporting technologies such as Sigfox, LoRa, Mesh Networks, and Helium. The antenna consists of a half-wave dipole with 4.4 dBi gain, encapsulated inside a fiberglass radome with an aluminum mounting base.
Specifications
Frequency
868-870 MHz
Antenna type
Dipole 1/2 wave
Connector
N female
Installation type
Mast Diam 35-60 mm (mounting bracket included)
Gain
4.4 dBi
SWR
≤1.5
Type of Polarization
Vertical
Maximum power
10 W
Impedance
50 Ohms
Dimensions
52.5 cm
Tube diameter
26 mm
Base antenna
32 mm
Operating temperature
−30°C to +60°C
Included
ISM Band Antenna (868 Mhz)
Mast bracket (for installation on a 35 to 60 mm diameter mast)
A lightweight, 70 cm diameter parabolic reflector with pole/mast mounting bracket and feed guide
The Kraken Discovery Dish is a 70-cm aluminum satellite dish with an active filtered feed. It is designed for receiving real-time weather data from GOES HRIT, GK-2A LRIT, FengYun LRIT, NOAA HRPT, Metop HRPT, Meteor M2 HRPT, and other weather satellites that operate around 1.69 GHz.
The dish weighs less than one kilogram and splits into three petals for easy shipping. The 1.69 GHz feed contains a built-in LNA and filter right at the feed point, which means there is almost no noise figure loss from cables or connectors. The feed electronics are encased in a waterproof enclosure, meaning no external waterproofing work is required. There are also feeds for 1.42 GHz hydrogen line radio astronomy and 1.5 GHz Inmarsat STD-C and AERO.
To amplify the weak signals transmitted by weather satellites, Discovery Dish incorporates the Qorvo QPL9547 high-linearity, ultra-low-noise amplifier in a small 2 x 2 mm surface-mount package.
Included
1x 70 cm diameter lightweight aluminum dish (three petals) + screws
1x Dish-to-pole mount
Required (at least one)
1x L-Band Weather Satellite Discovery Feed
1x Inmarsat Discovery Feed
1x Hydrogen Line Discovery Feed
This ultrasonic distance sensor (ME007-ULA V1) offers high performance with a robust, waterproof probe. Operating on the principle of ultrasonic echo ranging, the sensor determines the distance to a target by measuring the time elapsed between sending a pulse and receiving the echo. Its non-contact design allows it to detect a wide range of materials, including transparent or non-ferrous objects, metals, non-metals, liquids, solids, and powders.
Specifications
Detecting Distance
27~800 cm
Output Interface
RS232, Voltage Analog
Operating Voltage
5-12 V
Average Current
<10 mA
Operating Temperature
−15~60°C
Dimensions
60 x 43 x 31 mm
Excellent quality, high-torque 'NEMA 17' bipolar stepper motor for all of your motion control needs. Features a 5 mm precision ground shaft with a machined flat. Wiring harness included, various wire lengths available. Useful for all kinds of robotics projects! For example, this is the same stepper motor used in the EggBot kit and AxiDraw. Specifications Motor type: Bipolar stepper motor (4-wire) 1.8 degree step angle (200 steps per revolution) 5 mm output shaft, w/ machined flat 24 mm (0.95 inches) shaft length from screw face plate NEMA 17 form factor 31 mm (1.22 inches) mounting hole distance Mounting screw type: M3 with 3.5 mm min. thread depth 42 mm (1.65 inch) square body size Coil voltage 3.1 V Current 1 A per phase Winding resistance 3.1 ohms per phase Holding torque 1440 g*cm Leads are tinned, wrapped in heat shrink tubing (black or gray) Wire colors: Red and Yellow for the first coil, green and gray for the second coil. Downloads Datasheet
The Dragino MS14N-S supports generic OpenWrt Linux version or modified OpenWrt version such as Arduino Yun. It has USB host port and has full Ethernet and 802.11 b/g/n WiFi capabilities.
Applications for MS14N include remote control of robots, data logging, web applications for data presentation, mesh networking over WiFi and many more.
Hardware System
CPU: AR9331
DDR RAM: 64 MB
LASH: 16 MB
Interfaces
2x 10 M/100 M RJ45 interface
1x power input: 9 ~ 12 VDC
1x USB Host Port
1x internet USB interface
14x screw terminal positions
WiFi Specs
Protocol: 802.11 b/g/n
Frequency: 2,412 - 2,472 GHz
Power: 100 mW
Valentine's Hearts, 28 blinking LEDs, romantic LED lighting Valentine's Hearts – 28 blinking LEDs for a romantic atmosphere. The perfect Valentine's gift to express your love. Battery-powered and portable, ideal for Valentine's Day.
Downloads
Manual
Waveshare Core3S500E is an FPGA core board that features an XC3S500E device onboard supporting further expansion.
Features
Onboard 1x XCF04S
Integrated FPGA basic circuit, such as clock circuit
Onboard nCONFIG button, RESET button, 4x LEDs
All the I/O ports are accessible on the pin headers
Onboard JTAG debugging/programming interface
2.0 mm header pitch design, suitable for being plugged-in your application system
Downloads
Wiki
These boards are the maximum substrate size the V-One can handle. Just clamp them to the printing platform and press print to dispense the ink.
Pack of 6
Exact size is 4” x 5.3”
The V-One Drill includes everything you need to start making double sided boards right away: Drill Bit set (0.7 m, 0.8 mm, 0.9 mm, 1.0 mm, 1.6 mm) Sacrificial Layer (Black FR1) Copper Rivets (2 sizes, 200 pcs) Safety Glasses (clear) Rivet Tools (2 sizes) Hey Key Also included Power Supply (12 V, 25 W) Power Cable (1.8 m) Power Adapter Zip Ties (2 pcs) 4 Long Thumbscrews (10 mm) 2' x 3' FR1 Substrates (10 pcs) 3' x 4' FR1 Substrates (6 pcs) Zip Tie Mount
UNI-T UPO1102CS is a multifunctional, low-cost 2-channel digital phosphor oscilloscope with 100 MHz bandwidth and 1 GSa/s sampling rate. It can be widely used in the fields of electronic and electrical design, debugging, education and industrial design.
UPO1000CS series adopts parallel digital signal processing technology, which greatly improves the data processing speed and waveform capture rate. The original Ultra Phosphor technology can present the cumulative effect of the tested signal as a multi-layered afterglow. Compared with traditional digital storage oscilloscopes, the persistence of digital phosphor oscilloscopes can present three-dimensional waveform data of amplitude, time and signal intensity. Fast Acquire technology can accurately capture abnormal events such as video, jitter, noise and runt signals.
Specifications
UPO1102CS
UPO1202CS
Bandwidth
100 MHz
200 MHz
Analog channels
2
2
Sampling rate
1 GSa/s
1 GSa/s
Storage depth
56 Mpts per channel
56 Mpts per channel
Rise time
≤3.5ns
≤1.8ns
Capture rate
500,000 wfms/s
500,000 wfms/s
Waveform record
100,000 frames
100,000 frames
Features
7' WVGA (800 x 480) TFT LCD
Ultra Phosphor super fluorescent display effect, up to 256 levels of gray display
Support RS232, I²C, SPI, CAN and LIN trigger
Innovative RS232, I²C, SPI, CAN and LIN hardware decoding
Vertical scale: 1 mV/div-20 V/div
Low background noise: <100 μVrms
1M points enhanced FFT function. Support frequency setting, waterfall diagram, detection setting and marker measurement etc
36 kinds of waveform parameters can be automatically measured
Rich trigger functions (edge, pulse width, video, slope, runt, overshoot, delay, timeout, duration, setup and hold, Nth edge and pattern trigger)
Multi-Scopes support dual-channel independent trigger fluorescence display
Multi-channel independent 7-bit hardware frequency counter
DVM supports dual-channel independent AC and DC true RMS measurement
Waveform arithmetic functions (FFT, +, -, ×, ÷, digital filtering, logic operations, and advanced operations)
Rich interfaces: USB Host, USB Device, LAN, EXT Trig, AUX Out (Trig Out, Pass/Fail)
Support SCPI programmable instrument standard command
Support WEB access and control
Downloads
Datasheet
Programming Manual
User's Manual
Quick Start Guide
Software
The Siglent SPD4323X is a 4-channel DC Linear Programmable Power Supply equipped with a 4.3-inch TFT-LCD display, friendly human-machine interface, and excellent performance indicators. Real-time waveform display provides engineers with an informative user interface.
SPD4323X offers a total output power of 240 W with a resolution of 1 mV/1 mA. The maximum voltage and current for each channel are as follows:
CH1: 6 V/3.2 A
CH2: 32 V/3.2 A
CH3: 32 V/3.2 A
CH4: 6 V/3.2 A
Features
Rated output power: 240 W
Rated voltage: 32 V, 12 V, 30 V
Up to four high-precision power supplies with independent controllable outputs, supporting CH2 and CH3 series and parallel connections
Clear graphical interface with waveform and timer display modes
5-digit voltage and current display with minimum resolution of 1 mV, 1 mA
Fast output response time: <50us
The high current channel support remote voltage compensation sense function. The maximum compensation voltage is 0.6 V
Overvoltage protection and overcurrent protection or safe and accurate operation
Equipped with a 4.3-inch TFT-LCD display (480 x 272 resolution)
USB and LAN standard communication
USB-GPIB module is optional
Excellent channel density with up to 4 channels in a 3U half rack package
Internal data storage for setups and parameters
Embedded Web Server with instrument communication that doesn’t require software installation
Fully SCPI programming command set support as well as a LabView driver for remote control and system automation
Specifications
SPD4323X
SPD4121X
SPD4306X
Channel Output
CH1: Voltage 0 to 6 V Current 0 to 3.2 ACH2: Voltage 0 to 32 V Current 0 to 3.2 ACH3: Voltage 0 to 32 V Current 0 to 3.2 ACH4: Voltage 0 to 6 V Current 0 to 3.2 A
CH1: Voltage 0 to 15 V Current 0 to 1.5 ACH2: Voltage 0 to 12 V Current 0 to 10 ACH3: Voltage 0 to 12 V Current 0 to 10 ACH4: Voltage 0 to 15 V Current 0 to 1.5 A
CH1: Voltage 0 to 15 V Current 0 to 1.5 ACH2: Voltage 0 to 30 V Current 0 to 6 ACH3: Voltage 0 to 30 V Current 0 to 6 ACH4: Voltage 0 to 15 V Current 0 to 1 A
Resolution
1 mV, 1 mA
1 mV, 1 mA
1 mV, 1 mA
Setting Accuracy
Voltage: ±(0.03% of reading+10) mV, Current: ±(0.3% of reading+10) mA
Voltage: ±(0.03% of reading+10) mV, Current: ±(0.3% of reading+10) mA
Voltage: ±(0.03% of reading+10) mV, Current: ±(0.3% of reading+10) mA
Readback Accuracy
Voltage: ±(0.03% of reading+10) mV, Current: ±(0.3% of reading+10) mA
Voltage: ±(0.03% of reading+10) mV, Current: ±(0.3% of reading+10) mA
Voltage: ±(0.03% of reading+10) mV, Current: ±(0.3% of reading+10) mA
Display
4.3" TFT-LCD 5-digit voltage and current display
4.3" TFT-LCD 5-digit voltage and current display
4.3" TFT-LCD 5-digit voltage and current display
Output power
240 W
285 W
400 W
Included
1x Siglent SPD4323X Power Supply
1x Power cord (EU)
1x Output test cord (3 A)
1x USB cable
1x Quick start guide
Downloads
Datasheet
Manual
Quick start
Reinforcing its commitment to widening the accessibility to and innovation in the area of deep learning, NVIDIA has created a free, self-paced, online Deep Learning Institute (DLI) course, “Getting Started on AI with Jetson Nano.” The course's goal is to build foundational skills to enable anyone to get creative with the Jetson Developer Kit. Please be aware that this kit is for those who already own a Jetson Nano Developer Kit and want to join the DLI Course. A Jetson Nano is not included in this kit.
Included in this kit is everything you will need to get started in the “Getting Started on AI with Jetson Nano” (except for a Jetson Nano, of course), and you will learn how to
Set up your Jetson Nano and camera
Collect image data for classification models
Annotate image data for regression models
Train a neural network on your data to create your own models
Run inference on the Jetson Nano with the models you create
The NVIDIA Deep Learning Institute offers hands-on training in AI and accelerated computing to solve real-world problems. Developers, data scientists, researchers, and students can get practical experience powered by GPUs in the cloud and earn a competency certificate to support professional growth. They offer self-paced, online training for individuals, instructor-led workshops for teams, and downloadable course materials for university educators.
Included
32 GB microSD Card
Logitech C270 Webcam
Power Supply 5 V, 4 A
USB Cable - microB (Reversible)
2-Pin Jumper
Please note: Jetson Nano Developer Kit not included.
The SDRplay RSPdx-R2 is a wideband full featured single-tuner 14-bit SDR receiver which covers the entire RF spectrum from 1 kHz to 2 GHz giving up to 10 MHz of spectrum visibility. It contains three antenna ports, two of which use SMA connectors and operate across the full 1 kHz to 2 GHz range and the third uses a BNC connector which operates up to 200 MHz.
The RSPdx-R2 is an enhanced version of the RSPdx with further design improvements for use at frequencies below 2 MHz. Housed in a strong steel case, in addition to the functionality of the RSP1B, the RSPdx-R2 provides three software selectable antenna inputs and an external clock input. It offers excellent performance through HF and VHF frequencies all the way up to 2 GHz. The RSPdx-R2 also supports an "HDR mode" optimised for the demanding radio reception conditions below 2 MHz.
The RSPdx-R2, when used in conjunction with SDRplay’s own software, introduces a special HDR (High Dynamic Range) mode for reception within selected bands below 2 MHz. HDR mode delivers improved intermodulation performance and fewer spurious responses for those challenging bands.
Features
Covers all frequencies from 1 kHz through VLF, LF, MW, HF, VHF, UHF and L-band to 2 GHz, with no gaps
Receive, monitor and record up to 10 MHz of spectrum at a time
Significantly improved noise performance below 1 MHz (i.e. for some MF, LF and below)
Improved dynamic range below 2 MHz both in tuner mode and HDR mode
HDR mode below 2 MHz giving overall dynamic range and selectivity advantages
Software selectable choice of 3 antenna ports
External clock input for synchronisation purposes, or connection to GPS reference clock for extra frequency accuracy
Excellent dynamic range for challenging reception conditions
Free use of Windows-based SDRuno software (check website for versions supported)
Free use of SDRconnect SDR and server software for Windows, MacOS and Linux (Check website for versions supported)
Multiplatform driver and API support including Windows, Linux, Mac and Raspberry Pi 4/5
Strong and growing software support network
Calibrated S meter/RF power and SNR measurement with SDRuno (including datalogging to .CSV file capability)
Documented API provided to allow demodulator or application development on multiple platforms
Applications (Amateur)
Shortwave radio listening
Broadcast DXing (AM/FM/TV)
Panadaptor
Aircraft (ADS-B and ATC)
Slow Scan TV
Multi-amateur band monitoring
WSPR & digital modes
Weather fax (HF and satellite)
Satellite monitoring
Geostationary environmental satellites
Trunked radio
Utility and emergency service monitoring
Fast and effective antenna comparison
Applications (Industrial)
Spectrum Analyser
Surveillance
Wireless microphone monitoring
RF surveying
IoT receiver chain
Signal logging
RFI/EMC detection
Broadcast integrity monitoring
Spectrum monitoring
Power measurement
Applications (Educational/Scientific)
Teaching
Receiver design
Radio astronomy
Passive radar
Ionosonde
Spectrum analyser
Receiver for IoT sensor projects
Antenna research
Specifications
Frequency Range
1 kHz – 2 GHz
Antenna Connector
SMA
Antenna Impedance
50 Ohms
Current Consumption (Typical)
190 mA @ >60 MHz (excl. Bias-T)120 mA @ <60 MHz (excl. Bias-T)
USB Connector
USB-B
Maximum Input Power
+0 dBm Continuous+10 dBm Short Duration
ADC Sample Rates
2-10.66 MSPS
ADC Number of Bits
14 bit 2-6.048 MSPS12 bit 6.048-8.064 MSPS10 bit 8.064-9.216 MSPS8 bit >9.216 MSPS
Bias-T
4.7 V100 mA guaranteed
Reference
0.5ppm 24 MHz TCXOFrequency error trimmable to 0.01ppm in field
Operating Temperature
−10˚C to +60˚C
Dimensions
113 x 94 x 35 mm
Weight
315 g
Downloads
Datasheet
Software
RSPdx-R2 vs RSPduo
RSPdx-R2
RSPduo
Continuous coverage from 1 kHz to 2 GHz
✓
✓
Up to 10 MHz visible bandwidth
✓
✓
14-bit ADC silicon technology plus multiple high-performance input filters
✓
✓
Software selectable AM/FM & DAB broadcast band notch filters
✓
✓
4.7 V Bias-T for powering external remote antenna amplifier
✓
✓
Powers over the USB cable with a simple type B socket
✓
✓
50Ω SMA antenna input(s) for 1 kHz to 2 GHz operation (software selectable)
2
2
Additional software selectable Hi-Z input for up to 30 Mhz operation
✓
Additional software selectable 50Ω BNC input for up to 200 MHz operation
✓
Additional LF/VLF filter for below 500 kHz
✓
24 MHz reference clock input (+ output on RSPduo)
✓
✓
Dual tuners enabling reception on 2 totally independent 2 MHz ranges
✓
Dual tuners enabling diversity reception using SDRuno
✓
Rugged black painted steel case
✓
✓
Overall performance below 2 MHz for MW and LF
++
+
Multiple simultaneous applications
+
++
Performance in challenging fading conditions (*using diversity tuning)
+
*++
This is an add-on kit for the Seeed Studio Grove Beginner Kit for Arduino.
Applications
Suitable for Arduino beginners
Suitable for infrared control and motion detect
Suitable for getting started with open-source hardware and Arduino coding
Included
1x Grove Water Atomization
1x Grove Mini Fan
1x Grove Servo
1x Grove Ultrasonic Distance Sensor
1x Grove Infrared Receiver
1x Grove Mini PIR Motion Sensor
1x Grove Green Wrapper
1x Grove Blue Wrapper
5x Grove Cable
1x Infrared Remote Control Key
1x Ultrasonic Sensor Bracket Set
1x Motor Bracket Set
1x Servo Base
This 14-way MonoDAQ-compatible connector allows the user to create, reuse and archive test fixtures instead of rewiring the connector furnished with the MonoDAQ everytime a measurement or test has to be repeated. Helps the user to build a library of plug-and-play test setups. Features Time saving push-in connection, tools not required Defined contact force ensures that contact remains stable over the long term Intuitive use through colour coded actuation lever Operation and conductor connection from one direction enable integration into front of device All necessary technical data can be found here.
TapNLink modules provide wireless interfaces for linking electronic systems to mobile devices and the Cloud. TapNLink connects directly to the target system's microcontroller. It integrates into and is powered by the target system. All TapNLink products are easily configured to control access by different types of users to data in the target system.
TapNLink facilitates rapid creation of Human Machine Interfaces (HMI) that run on Android, iOS and Windows mobiles. HMI apps are easily customized for different users and can be deployed and updated to keep pace with evolving system requirements and user needs.
TapNLink Wi-Fi modules can also be configured to connect the target system permanently to a wireless network and the Cloud. This enables permanent logging of target system data and alarms.
Features
Wireless Channels
Wi-Fi 802.11b/g/n
Bluetooth Low Energy (BLE 4.2)
Near Field Communication (NFC) Type5 tag (ISO/IEC 15693)
Supported Target Connections: Connects on 2 GPIO of the target microcontroller and supports:
Serial interface with Software Secure Serial Port (S3P) protocol
Serial interface with ARM SWD debug protocol.
UART with Modbus protocol
Mobile Platform Support
HTML5 web apps (Android, iOS)
API for Cordova (Android, iOS, Windows 10)
Java (Android, iOS native)
Auto-app generator for Android and iOS mobiles
Security
Configurable access profiles
Configurable, encrypted passwords
AES-128/256 module-level data encryption
Configurable secure pairing with NFC
Dimensions: 38 mm x 28 mm x 3 mm
Electrical Characteristics
Input voltage: 2.3V to 3.6 V
Low power consumption:
Standby: 100 µA
NFC Tx/Rx: 7 mA
Wi-Fi Rx: 110 mA
Wi-Fi Tx : 280 mA (802.11b)
Temperature Range: -20°C ~ +55°C
Compliance
CE (Europe), FCC (USA), IC (Canada)
REACH
RoHS
WEEE
Ordering Information
Base Part Number: TnL-FIW103
MOQ: 20 modules
TapNLink modules pre-qualified, pre-programmed and ready to configure.
IoTize Studio configuration and testing software
Software for HMI on mobile devices (iOS, Android, Windows 10)
IoTize Cloud MQTT infrastructure (open source)
For more information, check out the datasheet here.
The CubeCell series is designed primarily for LoRa/LoRaWAN node applications.
Built on the ASR605x platform (ASR6501, ASR6502), these chips integrate the PSoC 4000 series MCU (ARM Cortex-M0+ Core) with the SX1262 module. The CubeCell series offers seamless Arduino compatibility, stable LoRaWAN protocol operation, and straightforward connectivity with lithium batteries and solar panels.
The HTCC-AB02 is a developer-friendly board, ideal for quickly testing and validating communication solutions.
Features
Arduino compatible
Based on ASR605x (ASR6501, ASR6502), those chips are already integrated the PSoC 4000 series MCU (ARM Cortex M0+ Core) and SX1262
LoRaWAN 1.0.2 support
Ultra low power design, 3.5 uA in deep sleep
Onboard SH1.25-2 battery interface, integrated lithium battery management system (charge and discharge management, overcharge protection, battery power detection, USB/battery power automatic switching)
Good impendence matching and long communication distance
Onboard solar energy management system, can directly connect with a 5.5~7 V solar panel
Micro USB interface with complete ESD protection, short circuit protection, RF shielding, and other protection measures
Integrated CP2102 USB to serial port chip, convenient for program downloading, debugging information printing
Onboard 0.96-inch 128x64 dot matrix OLED display, which can be used to display debugging information, battery power, and other information
Specifications
Main Chip
ASR6502 (48 MHz ARM Cortex-M0+ MCU)
LoRa Chipset
SX1262
Frequency
863~870 MHz
Max. TX Power
22 ±1 dBm
Max. Receiving Sensitivity
−135 dBm
Hardware Resource
2x UART1x SPI2x I²C1x SWD3x 12-bit ADC input8-channel DMA engine16x GPIO
Memory
128 Kb FLASH16 Kb SRAM
Power consumption
Deep sleep 3.5 uA
Interfaces
1x Micro USB1x LoRa Antenna (IPEX)2x (15x 2.54 Pin header) + 3x (2x 2.54 Pin header)
Battery
3.7 V lithium battery (power supply and charging)
Solar Energy
VS pin can be connected to 5.5~7 V solar panel
USB to Serial Chip
CP2102
Display
0.96" OLED (128 x 64)
Operating temperature
−20~70°C
Dimensions
51.9 x 25 x 8 mm
Included
1x CubeCell HTCC-AB02 Development Board
1x Antenna
1x 2x SH1.25 battery connector
Downloads
Datasheet
Schematic
Quick start
GitHub
ESP32-C3-WROOM-02U is a general-purpose Wi-Fi and Bluetooth LE module. The rich set of peripherals and high performance make the module an ideal choice for smart homes, industrial automation, health care, consumer electronics, etc. ESP32-C3-WROOM-02U features an external SPI flash and comes with a connector for an external antenna. ESP32-C3-WROOM-02U has an operating ambient temperature option of –40∼85°C, embedded with the ESP32-C3 chip. ESP32-C3 has a 32-bit RISC-V single-core processor. It integrates a rich set of peripherals, ranging from UART, I²C, I²S, remote control peripheral, LED PWM controller, general DMA controller, TWAI controller, USB Serial/JTAG controller, temperature sensor, ADC, etc. It also includes SPI, Dual SPI and Quad SPI interfaces. Features Flash: 4 MB (Quad SPI) Dimensions: 18.0 x 20.0 x 3.2 mm Downloads Datasheet
The set of magnets and spring clips is designed for use with the AxiDraw magnetic easel boards for letter/A4 and tabloid/A3 sizes, but can be used with almost any magnetic surface. The set includes a pair of special spring clips with magnetic bases, as well as six skinny magnets for holding down paper. The two special spring clips each have two curved tines that apply gentle pressure to your paper. They allow you to slide paper directly in and out, quickly and easily, without touching any magnets, clips, or tape. They have a long reach to be positioned behind the rulers on our magnetic easels. Magnetic bases allow you to position them where needed. Two of these spring clips provide just enough pressure to keep a sheet of paper steady while you write or draw on it. This set also includes six cylindrical magnets, 4 mm in diameter and 10 mm tall, which are easy to position and firmly hold paper. The tall aspect ratio makes them particularly easy to grasp (unlike disc magnets). Perhaps more importantly, they tend to yield and tip over if hit by an errant pen tip, rather than holding so fast as to damage your pen or move your paper.
This is the standard AxiDraw pen clip that is included with current-generation AxiDraw V3 family plotters. It fits pens and other instruments up to 5/8' (16 mm) in diameter. It includes a black nylon 8-32 thumbscrew for holding the pen in place, as well as spare mounting screws. You may wish to get this as a replacement, as a spare, or to have multiple pen clips for custom applications. Compatibility The pen clip is compatible only with AxiDraw V3 family pen plotters that mount the pen on a 2-hole vertical slide. This includes all AxiDraw SE/A3, AxiDraw V3/A3, AxiDraw V3 XLX, AxiDraw MiniKit, and all AxiDraw V3 units manufactured after February 2017.
The AxiDraw SE/A3 has the same extended plotting area as the AxiDraw V3/A3. In place of the central extrusion that makes up the body of that machine, the AxiDraw SE/A3 has a central beam that is CNC machined from a solid billet of 6061-T6 aluminum, and then anodized to a sleek black finish.This heavy, rigid structure – it's a solid block of metal! – provides dramatically better straightness and stiffness, even compared to the already-stiff AxiDraw V3/A3. This design adds mass exactly where you want it: to the non-moving base that forms the X-axis of the machine. In order to keep the weight light where it matters, the moving Y-axis of the AxiDraw SE/A3 uses the same stiff and light custom aluminum extrusion that we use on the AxiDraw V3/A3.Beyond this, the central beam and X-axis of the AxiDraw SE/A3 feature an all-new geometry for the rolling wheels, which provides more stable and uniform motion along the axis.Getting StartedThe AxiDraw comes fully assembled, tested, and ready to use, right out of the box. A universal-input plug-in power supply is included with the AxiDraw, as is a USB cable, and an optional paper-holding easel. Assuming that you've installed the software first, you can be up and plotting within minutes of opening the box. Our comprehensive PDF user guide walks you through every step of the process.To operate AxiDraw, you will need a reasonably modern computer with an available USB port (Mac, Windows or Linux), plus internet access to download necessary software. Pens and paper are not included. (You can use your own; AxiDraw does not require proprietary pens or paper.)AxiDraw is normally controlled through a set of extensions to Inkscape, the excellent, popular and free vector graphics program. Basic operation is much like that of a printer driver: you import or make a drawing in Inkscape, and use the extensions to plot your text or artwork. It's all handled through a straightforward graphical user interface, and works cleanly on Mac, Windows and Linux.SpecificationsPerformance
Usable pen travel (inches): 16.93 × 11.69 inches
Usable pen travel (millimeters): 430 × 297 mm
Vertical pen travel: 0.7 inch (17 mm)
Maximum XY travel speed: 15 inches (38 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 and/or folded aluminum.
Holds pens and other drawing instruments up to 1' (25.4 mm) diameter.
Overall dimensions: Approximately 26 × 19 × 5 inches (66 × 48 × 13 cm)
Maximum height with cable guides: Approximately 11 inches (29 cm)
Footprint: Approximately 26 × 5 inches (66 x 13 cm)
Weight: 8.4 Lb (3.8 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
AxiDraw SE/A3 writing and drawing machine (fully assembled, tested, and ready to use)
Multi-plug power supply with EU adapter
USB cable
Tabloid/A3 Clip Easel (Board and clips) for paper holding
Standard AxiDraw pen clip and XL pen clip
Italic pen adapter
DownloadsUser Guide
Arduino Alvik is a powerful and versatile robot specifically designed for programming and robotics education.
Powered by the Arduino Nano ESP32, Arduino Alvik offers diverse learning paths through different programming languages, including MicroPython, Arduino C, and block-based coding, enabling different possibilities to explore robotics, IoT and AI.
Arduino Alvik simplifies coding and complex robot projects, enabling users of all levels to immerse themselves in the exciting world of programming and robotics. It’s also a cross-discipline tool that bridges the gap between education and the future of robotics with CSTA and NGSS-Aligned free courses. This innovative and versatile robot makes learning and creating more accessible and fun than ever before.
Features
Powered by the versatile Nano ESP32, Alvik streamlines the learning curve in robotics with its comprehensive programming suite that includes MicroPython and Arduino language. Designed to accommodate users of all skill levels, Alvik soon plans to introduce block-based coding, further enhancing accessibility for younger students and providing an engaging entry point into robotics design.
Alvik’s Time of Flight, RGB color and line-following array sensors, along with its 6-axis gyroscope and accelerometer, allow users to tackle a range of innovative, real-world projects. From an obstacle avoidance robot to a smart warehouse automation robot car, the possibilities are endless!
Alvik comes equipped with LEGO Technic connectors, allowing users to personalize the robot and expand its capabilities. Additionally, it features M3 screw connectors for custom 3D or laser-cutter designs.
The Servo, I²C Grove, and I²C Qwiic connectors allow users to expand Alvik’s potential and take robotics projects to a whole new level. Add motors for controlling movement and robotic arms, or integrate extra sensors for data collection and analysis.
Specifiations
Alvik main controller
Arduino Nano ESP32:
8 MB of RAM
u-blox NORA-W106 (ESP32-S3)
Processor up to 240 MHz
ROM 384 kB + SRAM 512 kB
16 MB External FLASH
Alvik on-board Core
STM32 Arm Cortex-M4 32 Bit
Power supply
Nano ESP32 USB-C rechargeable and replaceable 18650 Li-Ion battery (included)
Programming language
MicroPython, Arduino & block-based programming
Connectivity
Wi-Fi, Bluetooth LE
Inputs
Time of Flight Distance Sensor (up to 350 cm)RGB Color Sensor6-axis Gyroscope-Accelerometer3x Line follower Array7x Touchable Buttons
Outputs
2x RGB LEDs6 V Motors (No load speed 96 rpm, No load current 70 mA)
Extensions
4x LEGO Technic connectors8x M3 screw connectorsServo motorI²C GroveI²C Qwiic
Downloads
Datasheet
Documentation
