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 UPO1104 4-channel digital oscilloscope utilizes Ultra Phosphor 2.0 technology. It features a bandwidth of 100 MHz and a real-time sampling rate of up to 2 GSa/s. It supports an independent DVM module, offers extensive trigger and bus decoding functions, and supports full-memory hardware real-time decoding.
The UPO1104 can be widely used in embedded system design, instrumentation, consumer electronics, automotive electronics, field maintenance, education, and many other fields.
Features
Bandwidth: 100 MHz
Channels: 4
Sampling rate: 2 GSa/s
Vertical scale: 500μV/div-20 V/div
Low-base noise: <100μVrms
Maximum storage depth up to 56 Mpts
Waveform capture rate of up to 500,000 wfms/s
The hardware can be continuous waveform recording 120,000 frames in real time
Automatic measurement of 36 waveform parameters, the measurement range divides into screen and cursor area
Supports 7 digits hardware frequency meter measurement
DVM supports AC/DC TRMS (true virtual value) measurement
Waveform calculation function (FFT, add, subtract, multiply, divide, digital filter, logical operation and advanced operation)
1M sampling points to enhance FFT function, it supports frequency setting, waterfall curve, demodulation mode and marker measurement
Multiple trigger functions (edge, pulse width, video, slope, runt pulse, over-amplitude pulse, delay, timeout, duration, setup hold, Nth edge and code pattern)
Supporting RS232, I²C, SPI trigger
Innovative RS232, I²C, SPI full memory hardware for real-time decoding
Ultra phosphor display effect, 256 grayscale display
7-inch WVGA (800x480) TFT LCD
Multiple interfaces: USB Host, USB Device, LAN, EXT Trig, AUX Out (Trig Out, Pass/Fail, DVM)
Supporting waveform navigation, marker and segment
Supporting SCPI programmable standard command
Support WEB access and control
Dimensions: 306 x 138 x 107 mm
Weight: 2.45 kg
Specifications
Model
UPO1104
UPO1204
Bandwidth
100 MHz
200 Mhz
Analog channels
4
4
Real-time sampling rate
2 GSa/s
2 GSa/s
Rise time
≤3.5 ns
≤1.8 ns
Storage depth
56 Mpts
56 Mpts
Waveform capture rate
500,000 Wfms/s
500,000 Wfms/s
Included
1x UNI-T UPO1104 4-ch Phosphor Oscilloscope (100 MHz)
4x Passive probe (100 MHz)
1x Power cord
1x USB cable
1x Manual
Downloads
Datasheet
Software
Waveshare DVK600 is an FPGA CPLD mother board that features expansion connectors for connecting FPGA CPLD core board and accessory boards. DVK600 provides an easy way to set up FPGA CPLD development system.
Features
FPGA CPLD core board connector: for easily connecting core boards which integrate an FPGA CPLD chip onboard
8I/Os_1 interface, for connecting accessory boards/modules
8I/Os_2 interface, for connecting accessory boards/modules
16I/Os_1 interface, for connecting accessory boards/modules
16I/Os_2 interface, for connecting accessory boards/modules
32I/Os_1 interface, for connecting accessory boards/modules
32I/Os_2 interface, for connecting accessory boards/modules
32I/Os_3 interface, for connecting accessory boards/modules
SDRAM interface
for connecting SDRAM accessory board
also works as FPGA CPLD pins expansion connectors
LCD interface, for connecting LCD22, LCD12864, LCD1602
ONE-WIRE interface: easily connects to ONE-WIRE devices (TO-92 package), such as temperature sensor (DS18B20), electronic registration number (DS2401), etc.
5 V DC jack
Joystick: five positions
Buzzer
Potentiometer: for LCD22 backlight adjustment, or LCD12864, LCD1602 contrast adjustment
Power switch
Buzzer jumper
ONE-WIRE jumper
Joystick jumper
Downloads
Schematics
Wveshare CoreEP4CE6 is an FPGA core board that features an EP4CE6E22C8N device onboard supporting further expansion.
Features
Onboard Serial Configuration Device EPCS16SI8N
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
2.54 mm header pitch design, suitable for being plugged-in your application system
Downloads
Wiki
The AxiDraw's pen holder normally holds the pen parallel to the front face of the vertical pen slide, either vertically or at 45° from vertical.
This heavy-gauge aluminum adapter sits between the front face of the vertical slide and the pen clip, and serves to rotate the pen tip an additional 45°, not from vertical but out from parallel to the front face of the vertical slide. This gives the AxiDraw the ability to hold a pen in a 'right handed' grip, as opposed to the normal 'center-handed' (for lack of a better description) position.
The right-handed grip makes it possible to hold the pen at a consistent angle suitable for use with regular pens, but also stub, italic, parallel, and chisel-point pens.
Compatibility
This adapter is compatible only with AxiDraw V3 family pen plotters that mount the pen on a 2-hole vertical slide. This includes all AxiDraw V3/A3 and AxiDraw V3 XLX units, and all AxiDraw V3 units manufactured after February 2017.
If you are going to be drilling, we recommend drilling on FR1 substrates. Unlike FR4, FR1 dust does not contain fiber glass. It is also a softer material, which means a less wear and tear on the drill bits. Download the template and incorporate them into your design here. 10 substrates included.
A set of high precision drill bits, covering the most common drill bit sizes.
Just pop them in the V-One Drill with a 2.5 mm hex key (not included) and start drilling.
The following sizes are included (2 of each):
0.70 mm
0.80 mm
0.90 mm
1.00 mm
1.60 mm
Like the mini pressure sensor, but bigger! Our 3x3 mega pressure matrix has 6 leads, allowing you to map which point you are at in the 3x3 matrix and get a pressure mapping over a surface. Each area has an analog readout that varies depending on the weight of the item on the pressure sensor. Generally, sensor values will read from 500 Kohms to 100 ohms depending on the force put onto the sensor.
Features
Component: 5 x 6.5"
Sensing Area 3.0" Square
Thickness: Approx 20 mils
The mini single pressure sensor gives you an analog read that maps to force on the sensor. The more you press, the lower the resistance goes, perfect for on-body pressure related sensing like ribcage expansion for breathing. This little one is small, but mighty, making it convenient for small surface area applications.
Features
Component: 2 x 1"
Sensing area: .75 x .75"
Thickness: Approx 20mils
Need to dispense your own UV sensitive fluids (up to 550nm)?
Included
4x 5cc UV-Blocking Syringe Barrels
4x Standard Fit Pistons (white)
4x High Viscosity Fit Pistons (red)
4x Tip Caps
4x End Caps
2x Female to Female Luer couplers
With a capacity of 15,000 mAh, the Unitree Go2 battery provides a robust power source that enables your robot to complete tasks with ease. Whether for complex exploration, research projects, or fun excursions, this powerful battery delivers the energy your robot needs.
The runtime of the Unitree Go2 battery varies depending on the application and usage. Based on the functions and activities employed, the battery can offer between 2 to 4 hours of operation. This flexibility allows you to customize the robot as needed, enabling longer exploration missions or more extensive projects.
The Unitree Go2 battery is a reliable companion for your robotics adventures. With its impressive capacity and adaptable runtime, it ensures your robot performs powerfully and with endurance, without frequent recharging.
Whether you need the Unitree Go2 battery as a replacement or an upgrade for your robot, this powerful energy storage solution provides the perfect balance of performance and reliability.
Specifications
Rated voltage: DC 28.8 V
Limited charging voltage: DC 33.6 V
Charging current: 9 A
Rated capacity: 15,000 mAh, 432 Wh
Standard: IS 16046 (Part 2) / IEC 62133-2
Self-developed battery management system (BMS)
Dimensions: 120 x 80 x 182 mm
Functions:
Power indicator
Self-discharge protection of battery storage
Equilibrium charge protection
Overcharge protection
Discharge protection
Short circuit protection
Battery charge detection protection
The reComputer J1020 v2 is a compact edge AI device powered by the NVIDIA Jetson Nano 4 GB production module, delivering 0.5 TFLOPs of AI performance. It features a robust aluminum case with a passive heatsink and comes pre-installed with JetPack 4.6.1. The device includes 16 GB of onboard eMMC storage and offers 2x SCI, 4x USB 3.0, M.2 Key M, HDMI, and DP.
Applications
Computer Vision
Machine Learning
Autonomous Mobile Robot (AMR)
Specifications
Jetson Nano 4 GB System-on-Module
AI Performance
Jetson Nano 4 GB (0.5 TOPS)
GPU
NVIDIA Maxwel architecture with 128 NVIDIA CUDA cores
CPU
Quad-core ARM Cortex-A57 MPCore processor
Memory
4 GB 64-bit LPDDR4 25.6 GB/s
Video Encoder
1x 4K30 | 2x 1080p60 | 4x 1080p30 | 4x 720p60 | 9x 720p30 (H.265 & H.264)
Video Decoder
1x 4K60 | 2x 4K30 | 4x 1080p60 | 8x 1080p30 | 9x 720p60 (H.265 & H.264)
Carrier Board
Storage
1x M.2 Key M PCIe
Networking
Ethernet
1x RJ-45 Gigabit Ethernet (10/100/1000M)
I/O
USB
4x USB 3.0 Type-A1x Micro-USB port for device mode
CSI Camera
2x CSI (2-lane 15-pin)
Display
1x HDMI Type A; 1x DP
Fan
1x 4-pin Fan Connector (5 V PWM)
CAN
1x CAN
Multifunctional Port
1x 40-Pin Expansion header
1x 12-Pin Control and UART header
Power Supply
DC 12 V/2 A
Mechanical
Dimensions
130 x 120 x 50 mm (with Case)
Installation
Desktop, wall-mounting
Operating Temperature
−10°C~60°C
Included
reComputer J1020 v2 (system installed)
12 V/2 A power adapter (with 5 interchangeable adapter plugs)
Downloads
reComputer J1020 v2 datasheet
reComputer J1020 v2 3D file
Seeed NVIDIA Jetson Product Catalog
NVIDIA Jetson Device and Carrier Boards Comparison
The unPhone is an open-source IoT development platform powered by the ESP32S3 microcontroller. It features integrated LoRa, Wi-Fi, and Bluetooth connectivity, a touchscreen, and a LiPo battery, offering a robust and versatile solution for IoT development. Its compatibility with Adafruit's FeatherWing standard enables easy expansion, making it an ideal choice for educators, makers, and developers seeking a flexible and user-friendly platform.
Features
ESP32S3 microcontroller (with 8 MB flash and 8 MB PSRAM)
LoRaWAN licence-free radio communication (plus the ESP32's excellent wifi and bluetooth support)
3.5" (320 x 480) LCD capacitive touchscreen for easy debugging and UI creation
IR LEDs for surreptitiously switching the cafe TV off
1200 mAh LiPo battery with USB-C charging
Vibration motor for notifications
Compass/Accelorometer
A robust case
SD card slot
Power and reset buttons
Programmable in C++ or CircuitPython
Expander board that supports two Featherwing sockets and a prototyping area
Open source firmware compatible with the Arduino IDE, PlatformIO and Espressif's IDF development framework
Included
unPhone (assembled)
Expander board
FPC cable (to link the expander board to unPhone)
Self adhesive mounts for the expander board
Code Examples
C++ library
Kick the tyres on everything in the box
The main LVGL demo
CircuitPython
Support forum
Textbook (especially chapter 11)
The UPO1204 4-channel digital oscilloscope utilizes Ultra Phosphor 2.0 technology. It features a bandwidth of 200 MHz and a real-time sampling rate of up to 2 GSa/s. It supports an independent DVM module, offers extensive trigger and bus decoding functions, and supports full-memory hardware real-time decoding.
The UPO1204 can be widely used in embedded system design, instrumentation, consumer electronics, automotive electronics, field maintenance, education, and many other fields.
Features
Bandwidth: 200 MHz
Channels: 4
Sampling rate: 2 GSa/s
Vertical scale: 500μV/div-20 V/div
Low-base noise: <100μVrms
Maximum storage depth up to 56 Mpts
Waveform capture rate of up to 500,000 wfms/s
The hardware can be continuous waveform recording 120,000 frames in real time
Automatic measurement of 36 waveform parameters, the measurement range divides into screen and cursor area
Supports 7 digits hardware frequency meter measurement
DVM supports AC/DC TRMS (true virtual value) measurement
Waveform calculation function (FFT, add, subtract, multiply, divide, digital filter, logical operation and advanced operation)
1M sampling points to enhance FFT function, it supports frequency setting, waterfall curve, demodulation mode and marker measurement
Multiple trigger functions (edge, pulse width, video, slope, runt pulse, over-amplitude pulse, delay, timeout, duration, setup hold, Nth edge and code pattern)
Supporting RS232, I²C, SPI trigger
Innovative RS232, I²C, SPI full memory hardware for real-time decoding
Ultra phosphor display effect, 256 grayscale display
7-inch WVGA (800x480) TFT LCD
Multiple interfaces: USB Host, USB Device, LAN, EXT Trig, AUX Out (Trig Out, Pass/Fail, DVM)
Supporting waveform navigation, marker and segment
Supporting SCPI programmable standard command
Support WEB access and control
Dimensions: 306 x 138 x 107 mm
Weight: 2.45 kg
Specifications
Model
UPO1104
UPO1204
Bandwidth
100 MHz
200 Mhz
Analog channels
4
4
Real-time sampling rate
2 GSa/s
2 GSa/s
Rise time
≤3.5 ns
≤1.8 ns
Storage depth
56 Mpts
56 Mpts
Waveform capture rate
500,000 Wfms/s
500,000 Wfms/s
Included
1x UNI-T UPO1204 4-ch Phosphor Oscilloscope (200 MHz)
4x Passive probe (200 MHz)
1x Power cord
1x USB cable
1x Manual
Downloads
Datasheet
Software
The QAV250 Kit is the perfect way to get started developing on either PX4 or Ardupilot. It pairs a carbon fiber 250 racing frame and essential electronics with Pixhawk 6C mini autopilot. The kit is easy to assemble. No soldering needed. Specifications Micro Power Module (PM06 v2) Motors: 2207 KV1950 Wheelbase: 250 mm Dimensions: 198 x 235 x 70 mm Weight: 347 g Included Carbon fiber 250 airframe with hardware Micro Power Module (PM06 v2) Motors: 2207 KV1950 5' Plastic Props Fully assembled Power Management Board with ESCs (BLHeli S ESC 20A) Battery Straps Note: LiPo battery is not included.
Temporary Delay in the Delivery of Unitree Robots
Like many other suppliers, we are currently experiencing delays in the delivery of Unitree robots. A shipment from our supplier is currently held in customs, which has unfortunately led to later-than-planned deliveries for previously placed orders. We are actively working with our supplier to resolve this issue and expect more clarity soon, but at this time, we cannot provide any guarantees.
Additionally, a new shipment is already on its way, though it will take some time to arrive. Since other suppliers are facing similar challenges, switching to a different provider is unlikely to result in a faster solution. Our top priority remains fulfilling existing orders.
If you have any questions or would like to update your order, please do not hesitate to contact our customer service team. We will keep you informed of any further developments.
Unitree Go2 series consists of quadruped robots for the research & development of autonomous systems in the fields of human-robot interaction (HRI), SLAM & transportation. Due to the four legs, as well as the 12DOF, this robot can handle a variety of different terrains. The Go2 comes with a perfected drive & power management system, which enables a speed (depending on the version) of up to 3.7 m/s or 11.88 km/h with an operating time of up to 4 hours. Furthermore, the motors have a torque of 45 N.m at the body/thighs and at the knees, which also allow jumps or backflips.
Features
Super Recognition System: 4D LIDAR L1
Max Running Speed: approx. 5 m/s
Peak Joint Torque: approx. 45 N.m
Wireless Module: WiFi 6/Bluetooth/4G
Ultra-long battery Endurance: approx. 2-4 h (long battery life measured in real life)
Intelligent Side-follow System: ISS 2.0
Specifications
Tracking module: Remote-controlled or automatic tracking
Front camera: Image tansmission Resolution 1280x720, FOV 120°, Ultra wide angle lens deliver rich clarity
Front lamp: Brightly lights the way ahead
4D LiDAR L1: 360°x90° omnidirectional ultra-wide-angle scanning allows automatic avoidance with small blind spot and stable operation
12 knee joint motors: Strong and powerful, Beautiful and simple, Brandy new visual experience
Intercom microphone: Effective communication with no scenario restrictions
Self-retracting strap: Easy to carry and load things
More stable, more powerful with advanced devices: 3D LiDAR, 4G ESIM Card, WiFi 6 with Dual-band, Bluetooth 5.2 for stable connection and remote control
Powerful Computing Core: Motion controller, High-performance ARM processor, Improved Al algorithm processor, External ORIN NX/NANO
Smart battery: Standard 8000 mAh battery, Long-endurance 15000 mAh battery, Protection from over-temp, overcharge and short-circuit
Speaker for music play: Listen to music as your pleasure
Unitree Go2 Variants
The Go2 impresses not only with its technical capabilities, but also with a modern and slim design that gives it a futuristic look and makes it a real eye-catcher. The Go2 Air is specially designed for demos and presentations. With its basic features, it offers a solid basis for demonstrating the movement capabilities and functionality of a four-legged robot. Important: The Go2 Air is delivered without a controller. This can be purchased optionally.
With a powerful 8-core high-performance CPU, the Pro and Edu offer impressive computing power required for complex tasks and demanding calculations. This enables faster and more efficient data processing and makes the Pro and Edu a reliable partner for your projects.
From the Edu version onwards, the Go2 is programmable and opens up endless possibilities for developing and researching your own robotics applications. The Go2 is also able to handle a step height of up to 14 cm. This makes it an ideal tool for research, education and entry into the world of robotics.
The Go2 Edu comes with a remote controller that gives you easy and intuitive control. You also get a docking station with impressive computing power of 100 TOPS, which is equipped with powerful AI algorithms and offers you technical support.
Go2 Edu is equipped with a powerful 15000 mAh battery that gives it an impressive runtime of up to 4 hours. This long operating time allows the robot to carry out longer exploration missions and complete demanding tasks.
Model Comparison
Air
Pro
Edu/Edu Plus
Dimensions (standing)
70 x 31 x 40 cm
70 x 31 x 40 cm
70 x 31 x 40 cm
Dimensions (crouching)
76 x 31 x 20 cm
76 x 31 x 20 cm
76 x 31 x 20 cm
Material
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Aluminium alloy + High strength engineering plastic
Weight (with battery)
about 15 kg
about 15 kg
about 15 kg
Voltage
28~33.6 V
28~33.6 V
28~33.6 V
Peaking capacity
about 3000 W
about 3000 W
about 3000 W
Payload
≈7 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 10 kg)
≈8 kg (MAX ~ 12 kg)
Speed
0~2.5 m/s
0~3.5 m/s
0~3.7 m/s (MAX ~ 5 m/s)
Max Climb Drop Height
about 15 cm
about 16 cm
about 16 cm
Max Climb Angle
30°
40°
40°
Basic Computing Power
N/A
8-core High-performance CPU
8-core High-performance CPU
Aluminum knee joint motor
12 set
12 set
12 set
Intra-joint circuit (knee)
✓
✓
✓
Joint Heat Pipe Cooler
✓
✓
✓
Range of Motion
Body: −48~48°
Body: −48~48°
Body: −48~48°
Thigh: −200°~90°
Thigh: −200°~90°
Thigh: −200°~90°
Shank: −156°~−48°
Shank: −156°~−48°
Shank: −156°~−48°
Max Torque
N/A
about 45 N.m
about 45 N.m
Super-wide-angle 3D LiDAR
✓
✓
✓
Wireless Vector Positioning Tracking Module
N/A
✓
✓
HD Wide-angle Camera
✓
✓
✓
Foot-end force sensor
N/A
N/A
✓
Basic Action
✓
✓
✓
Auto-scaling strap
N/A
✓
N/A
Upgraded Intelligent OTA
✓
✓
✓
RTT 2.0 Image Transmission
✓
✓
✓
App Basic Remote Control
✓
✓
✓
App Data Viewing
✓
✓
✓
App Graphical Programme
✓
✓
✓
Front Lamp (3 W)
✓
✓
✓
WiFi 6 with Dual-band
✓
✓
✓
Bluetooth 5.2/4.2/2.1
✓
✓
✓
4G Module
N/A
CN/GB
CN/GB
Voice Function
N/A
✓
✓
Music Playback
N/A
✓
✓
ISS 2.0 Intelligent side-follow system
N/A
✓
✓
Intelligent detection and avoidance
✓
✓
✓
Secondary development
N/A
N/A
✓
Manual controller
Optional
Optional
✓
High computing power module
N/A
N/A
Edu: 40 TOPS computing power
Edu Plus: 100 TOPS computing power
NVIDIA Jetson Orin (optional)
Smart Battery
Standard (8000 mAh)
Standard (8000 mAh)
Long endurance (15000 mAh)
Battery Life
1-2 h
1-2 h
2-4 h
Charger
Standard (33.6 V, 3.5 A)
Standard (33.6 V, 3.5 A)
Fast charge (33.6 V, 9 A)
Included
1x Unitree Go2 Edu Plus
1x Unitree Go2 Remote Controller
1x Unitree Go2 Battery (15000 mAh)
1x Unitree Docking station with 100 TOPS computing power
Downloads
Documentation
iOS/Android apps
GitHub
This pair of extended 'outrigger' feet for AxiDraw V3 and AxiDraw V3 XLX consists of a pair of machined aluminum struts with large 1/2' diameter (12 mm) rubber foot pads set securely in recesses. It greatly increases the effective base area of the AxiDraw, making it much more stable when plotting, and capable of carrying heavier tools without worry of tipping over. In addition to providing a larger footprint, the outrigger feet also provide four mounting holes that make it easier to secure your AxiDraw to a surface, should you choose to do so. Each foot strut has two top-side accessible #8/M4 clearance holes. Installation is straightforward: Remove the two screws that hold the standard foot plates to the bottom of the AxiDraw, and attach these struts in their place with the included screws. Compatible with: AxiDraw V3 AxiDraw V3 XLX
This rigid end effector plate is designed to be in place of the standard AxiDraw pen-lift Z stage, and provides an alternative mounting scheme for mounting various things to the end of the AxiDraw's arm, for applications where greater rigidity is important but the lifting ability of the standard Z stage is not required.
The rigid end effector is custom machined from aluminum, and provides six M3 tapped holes and two M4 tapped holes for mounting what ever it is that you would like to mount to the end of the AxiDraw, to use it as a 2D robot arm. The hole pattern is compatible with the AxiDraw pen clip, so you can, if you like, mount the AxiDraw's pen clip to this end effector.
Installation is straightforward, but requires a Pozidrive PZ2 screwdriver, not included*. Remove the AxiDraw's pen clip, and then remove the pen-lift Z stage by removing two screws with the PZ2 screwdriver. Install the rigid end effector plate in its place, using the two included mounting screws and the PZ2 screwdriver. You may wish to also tie back or fully remove the AxiDraw's cable guides, which normally extend to power the pen-lift stage.
Specifications
Material: Anodized 6061-T6 aluminum
Size: 1.97 x 1.38 x 0.19 inches (50 x 35 x 4.8 mm)
Weight: Approximately 11 g
Mounting hardware: included (Two M4x12 pozidrive-head self-tapping screws)
Compatibility
All AxiDraw V3 family pen plotters
AxiDraw V3/A3
AxiDraw SE/A3
AxiDraw MiniKit models
The Letter/A4 size Magnetic Easel is a sturdy work-holding tool that provides an alternative method of positioning paper or other workpieces for use with the AxiDraw. A heavy-duty alternative to the regular clip easel, it can be used with binder clips or the (included) positioning rulers and magnets. The base of the easel is a heavy-gauge sheet of magnetic steel. It has a powder-coat finish, lightly textured to help hold paper in place and light gray in color for visible contrast against most types of paper. Rubber bumpers on the bottom side (along with the weight of the steel) ensure a no-slip grip on your work table. To help index your paper in a consistent and reproducible position, the easel includes two six-inch (15 cm) rulers that you can rest your paper up against. The rulers are easy to remove and reversible, with inch and centimeter markings on the two sides. They can also be removed completely if you like, leaving just a flat sheet of steel (with a few ruler-mounting holes in it). This easel also includes six cylindrical magnets, 4 mm in diameter and 10 mm tall, that you can use to hold your paper down firmly. Their size and shape make them particularly easy to grasp and position (unlike, for example, 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. An optional set of paper holding clips can be added as well if you so choose. Overall dimensions: 12.875 × 9.580' (32.7 × 24.3 cm) Suitable for use with A4 and US letter paper sizes, envelopes, and smaller sizes of paper.
The starter kit for Jetson Nano is one of the best kits for beginners to get started with Jetson Nano. This kit includes 32 GB MicroSD card, 20 W adapter, 2-pin jumper, camera, and micro-USB cable.
Features
32 GB High-performance MicroSD card
5 V 4 A power supply with 2.1 mm DC barrel connector
2-pin jumper
Raspberry Pi camera module V2
Micro-B To Type-A USB cable with DATA enabled
Thanks to its six sturdy slots, Breakout Garden enables the users to simply plug and play with various tiny breakout board.Just insert one or more boards into the slots in the Breakout Garden HAT and you’re ready to go. The mini breakouts feel secure enough in the edge-connector slots and are very unlikely to fall out.There are a number of useful pins along the top of Breakout Garden, which lets you connect other devices and integrate them into your project.You shouldn't be worried if you insert a board the wrong way thanks to provided reverse polarity protection. It doesn't matter which slot you use for each breakout either, because the I²C address of the breakout will be recognised by the software and it'll detect them correctly in case you move them around.Features
Six sturdy edge-connector slots for Pimoroni breakouts
0.1” pitch, 5 pin connectors
Broken-out pins (1 × 10 strip of male header included)
Standoffs (M2.5, 10 mm height) included to hold your Breakout Garden securely
Reverse polarity protection (built into breakouts)
HAT format board
Compatible with Raspberry Pi 3 B+, 3, 2, B+, A+, Zero, and Zero W
It's suggested using the included standoffs to attache Breakout Garden to your Raspberry Pi.SoftwareBreakout Garden doesn't require any software of its own, but each breakout you use will need a Python library. On the Breakout Garden GitHub page you'll find an automatic installer, which will install the appropriate software for a given breakout. There are also some examples that show you what else you can do with Breakout Garden.
