Peak UTP05E is a comprehensive CAT 5/5e/6 network cable analyzer with superb accessories. Easy to use and very fast. Automatically identifies cable type (Straight through, cross-over, token ring etc) and verifies all the connections. Faults are clearly displayed and explained on screen. The Atlas IT will even instruct you on making up standard and special cables, complete with wire colors. Display type is alphanumeric LCD (not backlit). Features Automatic connection pattern recognition. Rapid assessment of all 8 wires within your cable. Identifies missing connections, shorted connections or incorrect connections. Will display the identity number of the 'identified' terminators to allow for easy testing and identification of multiple cable runs. Can display common cable colour codes to help you make up cables. Included UTP05 instrument. 2 miniature terminators to plug into another end of the cable run. 4 short patch cables to enable testing of patch panels and wall sockets. 24 miniature identified terminators, great for testing and identifying multiple cable runs. Pair of RJ11-to-RJ45 adapters to allow for easy testing of RJ11 based cabling. RJ45 to 8 x gold plated crocodile adapter for testing unterminated cables. Detailed printed user guide, complete with full-colour Ethernet wiring chart for common cable configurations. Alkaline battery installed and a spare alkaline battery. All supplied in a durable padded carry case. Specifications Category Cat 5, 5e, 6 (UTP) Connection type RJ45 plug or socket (RJ11 using supplied adapter set) Lines tested 8 lines (shielding not tested) Max. cable length 150 metres (500 feet) Test voltage ±5 V Test current ±2.5 mA Temperature range 10°C to 50°C (50°F to 122°F) Battery operating range 7 V to 13 V Battery type GP23, L1128, MN21, V23 (12 V Alkaline) Instrument dimensions 103 x 70 x 20 mm (4.1 x 2.8 x 0.8") Terminator dimensions 18 x 15 x 14 mm (0.7 x 0.6 x 0.6") Downloads Datasheet User Guide Common Ethernet Wiring Diagrams Avoid socket damage

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Portenta H7 Lite allows you to build your next smart project. Ever wanted an automated house? Or a smart garden? Well, now it’s easy with the Arduino IoT Cloud compatible boards. It means: you can connect devices, visualize data, control and share your projects from anywhere in the world. The Arduino Pro Portenta H7 Lite is very similar to the Portenta H7, that simultaneously can run high level code along with real time tasks thanks to its two processors. It is, for example, possible to execute Arduino compiled code along with MicroPython one and have both cores to communicate with one another. However, the H7 Lite is a low-cost board with H7 functionalities that can be configured to specific use cases. Features Dual Core – Two best-in-class processors in one, running parallel tasks AI on the edge – So powerful it can run AI state machines Customization – The board is highly customizable in volumes High-level programming language support (Micropython) The Portenta H7 Lite offers twofold functionality: it can run either like any other embedded microcontroller board, or as the main processor of an embedded computer. For example, use the Portenta Vision Shield to transform your H7 Lite into an industrial camera capable of performing real-time machine learning algorithms on live video feeds. As the H7 Lite can easily run processes created with TensorFlow Lite, you could have one of the cores computing a computer vision algorithm on the fly, while the other carries out low-level operations like controlling a motor or acting as a user interface. Solutions High-end industrial machinery Laboratory equipment Computer vision PLCs Robotics controllers Mission-critical devices High-speed booting computation (ms) Two Parallel Cores The Portenta H7 Lite’s main processor is the STM32H747 dual core including a Cortex-M7 running at 480 MHz and a Cortex-M4 running at 240 MHz. The two cores communicate via a Remote Procedure Call mechanism that allows calling functions on the other processor seamlessly. Both processors share all the in-chip peripherals and can run: Arduino sketches on top of the ARM Mbed OS Native Mbed applications MicroPython / JavaScript via an interpreter TensorFlow Lite A New Standard for Pinouts The Portenta family adds two 80-pin high-density connectors at the bottom of the board. This ensures scalability for a wide range of applications: simply upgrade your Portenta board to the one suiting your needs. USB-C Multipurpose Connector The board’s programming connector is a USB-C port that can also be used to power the board, as a USB Hub, or to deliver power to OTG connected devices. Arduino IoT Cloud Use your Portenta board on Arduino’s IoT Cloud, a simple and fast way to ensure secure communication for all of your connected Things. Specifications Microcontroller STM32H747XI Dual Cortex-M7+M4 32-bit low power ARM MCU (datasheet) Secure element (default) Microchip ATECC608 Board power supply (USB/VIN) 5 V Supported battery Li-Po Single Cell, 3.7 V, 700 mAh Minimum (integrated charger) Circuit operating voltage 3.3 V Current consumption 2.95 μA in Standby mode (Backup SRAM OFF, RTC/LSE ON) Timers 22x timers and watchdogs UART 4x ports (2 with flow control) Ethernet PHY 10 / 100 Mbps (through expansion port only) SD card Interface for SD card connector (through expansion port only) Operational temperature -40 °C to +85 °C MKR headers Use any of the existing industrial MKR shields on it High-density connectors Two 80-pin connectors will expose all of the board's peripherals to other devices Camera interface 8-bit, up to 80 MHz ADC 3x ADCs with 16-bit max. resolution (up to 36 channels, up to 3.6 MSPS) DAC 2x 12-bit DAC (1 MHz) USB-C Host / Device, High / Full Speed, Power delivery Downloads Datasheet Schematics

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Portenta X8 is a powerful, industrial-grade SOM with Linux OS preloaded onboard, capable of running device-independent software thanks to its modular container architecture. Take advantage of onboard Wi-Fi/Bluetooth Low Energy connectivity to securely perform OS/application OTA updates. It’s basically two industrial products in one, with the power of no less than 9 cores. Leverage the Arduino environment to carry out real-time tasks while Linux takes care of high-performance processing. Portenta X8 features an NXP i.MX 8M Mini Cortex-A53 quad-core, up to 1.8 GHz per core + 1x Cortex-M4 up to 400 MHz, plus the STMicroelectronics STM32H747 dual-core Cortex-M7 up to 480 Mhz +M4 32-bit ARM MCU up to 240 Mhz. Features Two industrial products in one, combining Arduino’s availability of libraries/skills with container-based Linux distribution Outstanding computational density – a total of 9 cores within a compact form factor Multi-processor architecture allowing power-optimized processing Leverage popular programming languages like Python, Java and Ruby among others Real-time I/O and fieldbus/control on a dedicated core Deploy powerful AI algorithms and machine learning on the edge Secure OS/applications updates over-the-air Industrial-grade security at the hardware level, thanks to its crypto chip on dedicated bus Leverage the Arduino ecosystem to expand Portenta capabilities Implement multi-protocol routing with a single module Compatible with other Arduino Portenta products Industrial-Grade Security Portenta X8 has been designed with industrial-grade security in mind. PSA Certified and includes the NXP SE050C2 hardware security element to provide key generation, accelerated crypto operations and secure storage. Awarded Arm SystemReady certification and integrated Parsec services, making it one of the market’s first Cassini Products available to developers. Portenta X8 includes the customizable open-source Linux microPlatform OS, built using best industry practices for end-to-end security, incremental OTA updates and fleet management. Utilizing the cloud-based DevOps platform from Foundries.io to reinvent the way embedded Linux solutions are built, tested, deployed and maintained, the Portenta X8 benefits from Foundries.io continuous update service for cybersecurity. This service guarantees an updated image that contains all vulnerability patches; whilst the approach to containers decouples the operating system from the application, to seamlessly keep the whole system updated. Applications Portenta X8 enables IT professionals, system integrators and consulting firms to build and boost a wide variety of solutions for industrial contexts, and also lends itself to building automation and smart agriculture applications. Connected edge computer for manufacturing Autonomous Guided Vehicles (AGV) Interactive full-HD secure kiosks and digital signage Office & home control systems Navigation and control for smart agriculture Behavioral analytics for offices and factories Downloads Datasheet Schematics

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The only expendable component of the AxiDraw is the small, blue pen-lift servo motor. They do wear out over time but are straightforward to replace. For heavy duty applications, you may wish to keep a spare on hand. This replacement servo motor has been calibrated to the correct range, has the extended servo horn attached, and is ready to install. Includes a few cable ties to keep things neat. Compatible with: AxiDraw V3 AxiDraw V3/A3 AxiDraw SE/A3 AxiDraw V3 XLX Custom assembled AxiDraw models

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The EiBotBoard ('EBB') is a USB-based dual stepper motor controller board that is useful for many general purpose robotics applications. Originally designed for the EggBot project, it is the 'brain' of all current models of the EggBot, but also of the AxiDraw and WaterColorBot as well. The EBB was designed by Brian Schmalz of Schmalz Haus LLC. It is an open source (in both hardware and software), PIC18F46J50-based motor controller board. Standard features include two Allegro A4983 16X microstepping motor drivers for bipolar steppers. It also has a separate onboard regulator to power up to two hobby servo motors. It is 2.2 x 2.2 inches square (5.6 x 5.6 cm). We are currently shipping version 2.7 of the EBB, which features several improvements for reliability. Version 2.7 uses a standard USB micro connector and has a switch that by default turns off power to the pen-lift servo motor after one minute of inactivity. You can change the timeout duration or disable this feature using the serial command protocol. Specifications Motor driver ICs: Two Allegro A4983 Stepper motor type: Bipolar (2) Step size: Full, 1/2, 1/4, 1/8, 1/16 Motor connectors: Screw terminal USB jack type: Micro-B Power connector: Barrel Jack, 2.1 x 5.5 mm, center positive Voltage input range: 9-25 V DC Output current adjustment: 46 mA to 1.25 A per phase Downloads/Documentation GitHub

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Features Ideally suited for mounting printed circuit boards. Perfect for applications where parts, sensors, or indicators need to be visible. Almost totally transparent to infrared devices. Integral card guides accept 1.5 mm (0.062") P.C. cards. Lap joint construction provides protection against access of dust and splashing water. Designed to meet IP54. Molded from flame retardant, easy to machine, translucent polycarbonate. Material carries a UL flammability rating of UL 94 V-2. Lid is secured with M3x10 mm phillips machine screws, threaded into integral brass bushings. Part number: 1591CTRD Dimensions: 119 x 66 x 36 mm

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The Arduino Pro Portenta Max Carrier transforms Portenta modules into single-board computers or reference designs that enable edge AI for high-performance industrial, building automation and robotics applications. Thanks to dedicated high-density connectors, it can be paired with Portenta X8 or H7, allowing you to easily prototype and deploy your industrial projects. This Arduino Pro carrier further augments Portenta connectivity options with Fieldbus, LoRa, Cat-M1 and NB-IoT. Among the many available plug-and-play connectors there are Ethernet, USB-A, audio jacks, microSD, mini-PCIe, FD-CAN and Serial RS232/422/485. Max Carrier can be powered via external supply (6-36 V) or battery via the onboard 18650 Li-ion battery connector with 3.7 V battery charger. Features Easily prototype industrial applications and minimize time to market A powerful carrier exposing Portenta peripherals (e.g. CAN, RS232/422/485, USB, mPCIe) Multiple connectivity options (Ethernet, LoRa, CAT-M1, NB-IoT) MicroSD for data logging operations Integrated audio jacks (line-in, line-out, mic-in) Standalone when battery powered Onboard JTAG debugger via micro-USB (with Portenta H7 only) Specifications Connectors High-Density connectors compatible with Portenta products2x USB-A female connectors1x Gigabit Ethernet connector (RJ45)1x FD-Can on RJ111x mPCIe1x Serial RS232/422/485 on RJ12 Audio 3x audio jacks: stereo line-in/line-out, mic-inSpeaker connector Memory Micro SD Wireless modules Murata CMWX1ZZABZ-078 LoRaSARA-R412M-02B (Cat.M1/NB-IoT) Operating temperatures -40 °C to +85 °C (-40° F to 185 °F) Debugging Onboard JLink OB / Blackmagic probe Power/battery Power Jack for external supply (6-36 V)On-board 18650 Li-ion battery connector with battery charger (3.7 V) Dimensions 101.6 x 101.6 mm (4.0 x 4.0') Downloads Datasheet Schematics

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As compared to the (US Letter/A4 sized) AxiDraw V3, the AxiDraw V3/A3 has extended travel range, designed for use with paper sizes up to and including 11 × 17 inch ('tabloid' or 'ledger') and A3. It can work with any paper up to and including that size, including envelopes, regular US letter (8 1/2 × 11 inch) or A4 (297 × 210 mm) sized paper, note cards, business cards, or a whole array of smaller items. The AxiDraw comes with a mounting easel (board with clips) that can be used for holding paper, cards, and envelopes of various sizes. The AxiDraw V3/A3 also comes standard with AxiDraw Outrigger Feet pre-installed, for greater stance and stability while plotting. The unique design of the AxiDraw features a drawing head that extends beyond the body of the machine, making it possible to also draw on flat objects bigger than the machine itself. For example, you can set it right on top of a box to write an address or add decorations. You can even set it on top of a poster board, chalkboard, or whiteboard to draw graphics in place. The pen holder fits a wide variety of pens, including Sharpie fine and ultra-fine point markers, most rollerball and fountain pens, small-bodied whiteboard markers, and so forth. It can even hold a fountain pen at a proper angle of 45° to the paper. You can also use implements that aren't pens, such as pencils, chalk, charcoal, brushes, and many others. However, you'll get the best results with instruments such as fountain pens and rollerball pens, which do not require the user to apply pressure. Getting Started The 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. The 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. Specifications Performance 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 5/8' (16 mm) diameter. Overall dimensions: Approximately 26 × 18.5 × 4 inches (66 × 47 × 10 cm) Maximum height with cable guides: Approximately 11 inches (29 cm) Footprint: Approximately 26 × 5 inches (66 x 13 cm) Physical weight: 5.5 Lb (2.5 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 AxiDraw V3/A3 writing and drawing machine (fully assembled, tested, and ready to use) Multi-plug power supply with EU adapter USB cable Easel (Board and clips) for paper holding Downloads User Guide

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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

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