Suchergebnisse für "outrigger OR feet OR for OR axidraw OR v3"

Der Stativadapter ist individuell aus einem massiven Aluminiumblock gefertigt und bietet zwei Standard-Stativbefestigungspunkte mit 3/8-16- bzw. leichtem 1/4-20-Gewinde. Dadurch können Sie den AxiDraw bei Bedarf auf einem Stativ montieren. Wir empfehlen dringend die Verwendung eines stabilen Stativs mit einem 3/8-16-Anschlusspunkt und einem geeigneten Gegengewicht (Sandsack, Hebegewichte usw.), um das Gewicht des AxiDraw während des Gebrauchs auszugleichen. Die Installation ist unkompliziert und erfordert keine anderen Werkzeuge als die im Lieferumfang von AxiDraw enthaltenen: Entfernen Sie die vorhandenen Fußpolster vom AxiDraw (entweder Standard- oder Auslegerfüße, je nach Modell) und befestigen Sie diese Platte an den festgehaltenen Muttern in der Unterseite des AxiDraw. Bei AxiDraw SE/A3 (April 2019 und neuer) wird der Stativadapter direkt an den Gewindelöchern in der Basis der Maschine befestigt. Dieser robuste Stativadapter ist mit AxiDraw V3, AxiDraw V3/A3 und AxiDraw V3 XLX kompatibel. Es ist auch mit AxiDraw SE/A3 kompatibel, das im April 2019 und neuer hergestellt wurde. Spezifikationen Material: Eloxiertes 6061-T6-Aluminium Größe: 3,90 x 2,36 x 0,35 Zoll (99,1 x 60 x 8,3 mm) Gewicht: ca. 144 g Montagematerial: im Lieferumfang enthalten (vier M4x10-Montageschrauben aus hochfestem Stahl)

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Diese starre Endeffektorplatte ist als Ersatz für den standardmäßigen AxiDraw-Stiftlift-Z-Tisch konzipiert und bietet ein alternatives Montageschema für die Montage verschiedener Dinge am Ende des AxiDraw-Arms für Anwendungen, bei denen eine größere Steifigkeit, aber die Hebefähigkeit wichtig sind des Standard-Z-Tisches ist nicht erforderlich. Der starre Endeffektor ist speziell aus Aluminium gefertigt und verfügt über sechs M3-Gewindelöcher und zwei M4-Gewindelöcher für die Montage dessen, was Sie am Ende des AxiDraw montieren möchten, um ihn als 2D-Roboterarm zu verwenden. Das Lochmuster ist mit dem AxiDraw-Stiftclip kompatibel, sodass Sie bei Bedarf den AxiDraw-Stiftclip an diesem Endeffektor montieren können. Die Installation ist unkompliziert, erfordert jedoch einen Pozidrive PZ2-Schraubendreher, der nicht im Lieferumfang enthalten ist*. Entfernen Sie den Stiftclip des AxiDraw und entfernen Sie dann die Z-Stufe für den Stiftlift, indem Sie zwei Schrauben mit dem PZ2-Schraubendreher entfernen. Installieren Sie die starre Endeffektorplatte mit den beiden mitgelieferten Montageschrauben und dem PZ2-Schraubendreher an ihrer Stelle. Möglicherweise möchten Sie auch die Kabelführungen des AxiDraw zurückbinden oder vollständig entfernen, die normalerweise zur Stromversorgung der Stifthubstufe dienen. Spezifikationen Material: Eloxiertes 6061-T6-Aluminium Größe: 1,97 x 1,38 x 0,19 Zoll (50 x 35 x 4,8 mm) Gewicht: ca. 11g Montagematerial: im Lieferumfang enthalten (zwei selbstschneidende M4x12-Pozidrive-Schrauben) Kompatibilität Alle Stiftplotter der AxiDraw V3-Familie AxiDraw V3/A3 AxiDraw SE/A3 AxiDraw MiniKit-Modelle

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Zusätzliche Staffeleibretter für AxiDraw V3/A3 können als Ersatz oder zur Bereitstellung zusätzlicher Werkstücke für den schnellen Wechsel zum nächsten Plot verwendet werden. Dieses Set besteht aus einer 11,75 x 17 Zoll (29,85 x 43,18 cm) großen Hartfaserplatte mit angebrachten Gummifüßen sowie acht Mikrobinderklammern.

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PiKVM V3 ist ein auf Raspberry Pi-basiertes Open Source KVM over IP-Gerät. Es hilft Ihnen bei der Fernverwaltung von Servern oder Workstations, unabhängig vom Status des Betriebssystems oder davon, ob eines installiert ist. Mit PiKVM V3 können Sie Ihren Computer ein-/ausschalten oder neu starten, das UEFI/BIOS konfigurieren und sogar das Betriebssystem mithilfe der virtuellen CD-ROM oder des Flash-Laufwerks neu installieren. Sie können Ihre Remote-Tastatur und -Maus verwenden oder PiKVM kann eine Tastatur, Maus und einen Monitor simulieren, die dann in einem Webbrowser angezeigt werden, als ob Sie direkt an einem Remote-System arbeiten würden. Features HDMI Full HD Aufnahme basierend auf dem TC358743-Chip (extra niedrige Latenz ~100 ms und viele Funktionen wie Kompressionskontrolle) OTG Tastatur & Maus; Emulation von Massenspeicherlaufwerken Fähigkeit zur Simulation von "Entfernen und Einstecken" für USB Integrierte ATX-Stromsteuerung Integrierte Lüftersteuerung Echtzeituhr (RTC) RJ-45 und serieller USB-Konsolenanschluss (zur Verwaltung des PiKVM OS oder zur Verbindung mit dem Server) Optionales AVR-basiertes HID (für einige seltene und seltsame Motherboards, deren BIOS die OTG-emulierte Tastatur nicht versteht) Optionaler OLED-Bildschirm zur Anzeige des Netzwerkstatus oder anderer gewünschter Informationen Fertig aufgebautes Board, kein Löten oder Breadboarding erforderlich. PiKVM OS – die Software ist vollständig quelloffen Lieferumfang PiKVM V3 HAT Karte für Raspberry Pi 4 USB-C Bridge Board, um den HAT mit dem RPi über USB-C zu verbinden ATX-Controller-Adapterplatine und Verkabelung, um den HAT mit dem Motherboard zu verbinden (wenn Sie die Stromversorgung über die Hardware verwalten möchten) 2 flache CSI-Kabel Schrauben und Messingabstandshalter Erforderlich Raspberry Pi 4 MicroSD-Karte USB-C nach USB-A Kabel HDMI-Kabel Gerades Ethernet-Kabel (für den Anschluss der ATX-Erweiterungskarte) Netzteil (5,1 V/3 A USB-C, offizielles Raspberry Pi-Netzteil wird empfohlen) Downloads User Guide Images GitHub Links Das PiKVM-Projekt und seine Lehren: Ein Interview mit Maxim Devaev (Entwickler von PiKVM) Raspberry Pi als KVM-Fernsteuerung

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Space, the final frontier, will become more and more popular. The space industry is continually growing and new products and services will be required. Innovation is needed for the development of this industry. Today it is no longer possible to follow all the events in field of space. The space market is growing and activities are increasing, especially the market for small-satellites. This book wants to help close the gap and encourage electronic engineers to enter into the fascinating field of space electronics. One of the main difficulties is finding people with knowledge of space electronics design. Nowadays companies have to invest a lot of time and resources to instruct electronic engineers with no experience of space. Only a brief and basic introduction of this topic is typically achieved at university in space engineering lectures. Professionals with practical experience and the necessary theoretical knowledge are scarce. Companies from the space sector are searching for staff with knowledge of space electronics. This book will bring space closer aspiring to the space electronic hobbyists.

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Example projects with Node-RED, MQTT, WinCC SCADA, Blynk, and ThingSpeak This comprehensive guide unlocks the power of Modbus TCP/IP communication with Arduino. From the basics of the Modbus protocol right up to full implementation in Arduino projects, the book walks you through the complete process with lucid explanations and practical examples. Learn how to set up Modbus TCP/IP communication with Arduino for seamless data exchange between devices over a network. Explore different Modbus functions and master reading and writing registers to control your devices remotely. Create Modbus client and server applications to integrate into your Arduino projects, boosting their connectivity and automation level. With detailed code snippets and illustrations, this guide is perfect for beginners and experienced Arduino enthusiasts alike. Whether you‘re a hobbyist looking to expand your skills or a professional seeking to implement Modbus TCP/IP communication in your projects, this book provides all the knowledge you need to harness the full potential of Modbus with Arduino. Projects covered in the book: TCP/IP communication between two Arduino Uno boards Modbus TCP/IP communication within the Node-RED environment Combining Arduino, Node-RED, and Blynk IoT cloud Interfacing Modbus TCP/IP with WinCC SCADA to control sensors Using MQTT protocol with Ethernet/ESP8266 Connecting to ThingSpeak IoT cloud using Ethernet/ESP8266

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Program and build Arduino-based ham station utilities, tools, and instruments In addition to a detailed introduction to the exciting world of the Arduino microcontroller and its many variants, this book introduces you to the shields, modules, and components you can connect to the Arduino. Many of these components are discussed in detail and used in the projects included in this book to help you understand how these components can be incorporated into your own Arduino projects. Emphasis has been placed on designing and creating a wide range of amateur radio-related projects that can easily be built in just a few days. This book is written for ham radio operators and Arduino enthusiasts of all skill levels, and includes discussions about the tools, construction methods, and troubleshooting techniques used in creating amateur radio-related Arduino projects. The book teaches you how to create feature-rich Arduino-based projects, with the goal of helping you to advance beyond this book, and design and build your own ham radio Arduino projects. In addition, this book describes in detail the design, construction, programming, and operation of the following projects: CW Beacon and Foxhunt Keyer Mini Weather Station RF Probe with LED Bar Graph DTMF Tone Encoder DTMF Tone Decoder Waveform Generator Auto Power On/Off Bluetooth CW Keyer Station Power Monitor AC Current Monitor This book assumes a basic knowledge of electronics and circuit construction. Basic knowledge of how to program the Arduino using its IDE will also be beneficial.

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The Raspberry Pi is a $35 credit-card sized computer with many applications, such as in desktop computing, audio and video playback, and as a controller in many industrial, commercial and domestic applications. This book is about the Raspberry Pi computer and its use in control applications. The book explains in simple terms, with examples, how to configure the RPi, how to install and use the Linux operating system, how to write programs using the Python programming language and how to develop hardware based projects. The book starts with an introduction to the Raspberry Pi computer and covers the topics of purchasing all the necessary equipment and installing/using the Linux operating system in command mode. Use of the user-friendly graphical desktop operating environment is explained using example applications. The RPi network interface is explained in simple steps and demonstrates how the computer can be accessed remotely from a desktop or a laptop computer. The remaining parts of the book cover the Python programming language, hardware development tools, hardware interface details, and RPi based hardware projects. All the 23 projects given in the book have been tested and are working. The following headings are given for each project: Project title Project description Project block diagram Project circuit diagram Project program description using the Program Description Language (PDL) Complete program listing Description of the program The book is ideal for self-study, and is intended for electronic/electrical engineering students, practising engineers, research students, and hobbyists.

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Program and build RPi Pico-based ham station utilities, tools, and instruments Although much classical HF and mobile equipment is still in use by large numbers of amateurs, the use of computers and digital techniques has now become very popular among amateur radio operators. Nowadays, anyone can purchase a €5 Raspberry Pi Pico microcontroller board and develop many amateur radio projects using the “Pico” and some external components. This book is aimed at amateur radio enthusiasts, Electronic Engineering students, and anyone interested in learning to use the Raspberry Pi Pico to shape their electronic projects. The book is suitable for beginners in electronics as well as for those with wide experience. Step-by-step installation of the MicroPython programming environment is described. Some knowledge of the Python programming language is helpful to be able to comprehend and modify the projects given in the book. The book introduces the Raspberry Pi Pico and gives examples of many general-purpose, software-only projects that familiarize the reader with the Python programming language. In addition to the software-only projects tailored to the amateur radio operator, Chapter 6 in particular presents over 36 hardware-based projects for “hams”, including: Station mains power on/off control Radio station clock GPS based station geographical coordinates Radio station temperature and humidity Various waveform generation methods using software and hardware (DDS) Frequency counter Voltmeter / ammeter / ohmmeter / capacitance meter RF meter and RF attenuators Morse code exercisers RadioStation Click board Raspberry Pi Pico based FM radio Using Bluetooth and Wi-Fi with Raspberry Pi Pico Radio station security with RFID Audio amplifier module with rotary encoder volume control Morse decoder Using the FS1000A TX-RX modules to communicate with Arduino

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The Red Pitaya (STEMlab) is a credit card-sized, open-source test and measurement board that can be used to replace most measurement instruments used in electronics laboratories. With a single click, the board can transform into a web-based oscilloscope, spectrum analyser, signal generator, LCR meter, Bode plotter, and microcontroller. The Red Pitaya (STEMlab) can replace the many pieces of expensive measurement equipment found at professional research organisations and teaching laboratories. The device, that based on Linux, includes an FPGA, digital signal processing (DSP), dual core ARM Cortex processor, signal acquisition and generation circuitry, micro USB socket, microSD card slot, RJ45 socket for Ethernet connection, and USB socket – all powered from an external mains adaptor. This book is an introduction to electronics. It aims to teach the principles and applications of basic electronics by carrying out real experiments using the Red Pitaya (STEMlab). The book includes many chapters on basic electronics and teaches the theory and use of electronic components including resistors, capacitors, inductors, diodes, transistors, and operational amplifiers in electronic circuits. Many fun and interesting Red Pitaya (STEMlab) experiments are included in the book. The book also makes an introduction to visual programming environment. The book is written for college level and first year university students studying electrical or electronic engineering.

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This book contains more than 400 simple electronic circuits which are developed and tested in practice by the authors. The technical solutions presented in the book are intended to stimulate the creative imagination of readers and broaden their area of thought. This should allow readers to look beyond the horizons of possibilities and use ordinary electronic items in a new way. This book includes new and original radio electronic multipurpose circuits. The chapters of the book are devoted to power electronics and measuring equipment and contain numerous original circuits of generators, amplifiers, filters, electronic switches based on thyristors and CMOS switch elements. Wired and wireless systems as well as security and safety systems are presented. Due to the high relevance and increased interest of readers in little-known or not readily available information, the different chapters of this book describe the use of electronic devices in industrial electronics and for research, as well as new instruments and equipment for medical use, gas-discharge and Kirlian photography. A number of technical devices presented in this book are related to research of the mysteries of the earth, nature and human beings by using radio electronic devices. This book will be useful for both radio amateurs and professionals.

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