Search results for "Android pr"
Elektor Digital C# Programming for Windows and Android (E-BOOK)
This e-book (pdf), a software-only follow up to the best-selling Elektor Visual Studio C# range of books, is aimed at Engineers, Scientists and Enthusiasts who want to learn about the C# language and development environment.It covers steps from installation, the .NET framework and object oriented programming, through to more advanced concepts including database applications, threading and multi-tasking, internet/network communications and writing DLLs. The DirectX chapters also include video capture. The e-book concludes with several chapters on writing Android applications in C# using the Xamarin add-on.This e-book is based on the Visual Studio 2015 development environment and latest C# additions including WPF applications, LINQ queries, Charts and new commands such as await and async. The latest Visual Studio debugging features (PerfTips, Diagnostic Tool window and IntellTrace) are covered. Finally, the Android chapters include GPS, E-mail and SMS applications.Additionally, the e-book provides free on-line access to extensive, well-documented examples — in a try for yourself style — together with links to the author’s videos, guiding you through the necessary steps to get the expected results.
€ 33,95
Members € 27,16
MIT App Inventor Projects
50+ Android Apps with Raspberry Pi, ESP32 and Arduino This book is about developing apps for Android compatible mobile devices using the MIT App Inventor online development environment. MIT App Inventor projects can be in either standalone mode or use an external processor. In standalone mode, the developed application runs only on the mobile device (e.g. Android). In external processor-based applications, the mobile device communicates with an external microcontroller-based processor, such as Raspberry Pi, Arduino, ESP8266, ESP32, etc. In this book, many tested and fully working projects are given both in standalone mode and using an external processor. Full design steps, block programs, circuit diagrams, QR codes and full program listings are given for all projects. The projects developed in this book include: Using the text-to-speech component Intonating a received SMS message Sending SMS messages Making telephone calls using a contacts list Using the GPS and Pin-pointing our location on a map Speech recognition and speech translation to another language Controlling multiple relays by speech commands Projects for the Raspberry Pi, ESP32 and Arduino using Bluetooth and Wi-Fi MIT APP Inventor and Node-RED projects for the Raspberry Pi The book is unique in that it is currently the only book that teaches how to develop projects using Wi-Fi and Node-RED with MIT App Inventor. The book is aimed at students, hobbyists, and anyone interested in developing apps for mobile devices. All projects presented in this book have been developed using the MIT App Inventor visual programming language. There is no need to write any text-based programs. All projects are compatible with Android-based mobile devices. Full program listings for all projects as well as detailed program descriptions are given in the book. Users should be able to use the projects as they are presented, modifying them to suit their own needs.
€ 34,95€ 14,95
Members identical
Elektor Digital MIT App Inventor Projects (E-book)
50+ Android Apps with Raspberry Pi, ESP32 and Arduino This book is about developing apps for Android compatible mobile devices using the MIT App Inventor online development environment. MIT App Inventor projects can be in either standalone mode or use an external processor. In standalone mode, the developed application runs only on the mobile device (e.g. Android). In external processor-based applications, the mobile device communicates with an external microcontroller-based processor, such as Raspberry Pi, Arduino, ESP8266, ESP32, etc. In this book, many tested and fully working projects are given both in standalone mode and using an external processor. Full design steps, block programs, circuit diagrams, QR codes and full program listings are given for all projects. The projects developed in this book include: Using the text-to-speech component Intonating a received SMS message Sending SMS messages Making telephone calls using a contacts list Using the GPS and Pin-pointing our location on a map Speech recognition and speech translation to another language Controlling multiple relays by speech commands Projects for the Raspberry Pi, ESP32 and Arduino using Bluetooth and Wi-Fi MIT APP Inventor and Node-RED projects for the Raspberry Pi The book is unique in that it is currently the only book that teaches how to develop projects using Wi-Fi and Node-RED with MIT App Inventor. The book is aimed at students, hobbyists, and anyone interested in developing apps for mobile devices. All projects presented in this book have been developed using the MIT App Inventor visual programming language. There is no need to write any text-based programs. All projects are compatible with Android-based mobile devices. Full program listings for all projects as well as detailed program descriptions are given in the book. Users should be able to use the projects as they are presented, modifying them to suit their own needs.
€ 29,95
Members € 23,96
JOY-iT JOY-iT DPH5005 Programmable Buck & Boost Power Supply
The DPH5005 meets many requirements of a lab power supply. This power supply combines analog and digital technologies in an advanced design with outstanding precision and accuracy. The adjustable output reaches up to 50 V or 5 A and can be precisely configured in 10 mV or 1 mA steps. The power supply unit is additionally equipped with a switch-off parameter memory and ten programmable data memories. The operation of the unit has been optimized for particularly easy operation and the colour display offers particularly detailed and comprehensive information. Among other things, the current voltage and current values, presettings and output powers can be displayed here. Dynamic notification symbols also facilitate clarity. The additional settings menu offers maximum control of overcurrent and overvoltage values as well as other parameters. The DPH5005 offers modern design and advanced technology in a compact package, making it the ideal power supply. In addition, you can supplement the laboratory power supply with the optionally available housing. Specifications Display Type LCD Input Voltage 6-50 V (DC) Output Voltage 0-50 V Output Current 0-5 A Output Power 0-250 W Voltage Resaolution 0.01 V Current Resolution 0.001 A Special Features Programmable, slim Ripple 100 mVpp Size (Display Module) 43 x 79 x 38 mm Size (Power Module) 93 x 35 x 72 mm Display Size 1.5" (3.8 cm) Weight 202 g Items Shipped Display and power module, 2 connection wires Downloads Datasheet Manual PC Software / Android APK
€ 74,95
Members € 67,46
Elektor Digital Raspberry Pi 3 - Basic to Advanced Projects (E-book)
This ebook is about the Raspberry Pi 3 computer and its use in various control and monitoring applications. The book explains in simple terms and with tested and working example projects, how to configure the Raspberry Pi 3 computer, how to install and use the Linux operating system, and how to write hardware based applications programs using the Python programming language. The nice feature of this book is that it covers many Raspberry Pi 3 based hardware projects using the latest hardware modules such as the Sense HAT, Swiss Pi, MotoPi, Camera module, and many other state of the art analog and digital sensors. An important feature of the Raspberry Pi 3 is that it contains on-board Bluetooth and Wi-Fi modules. Example projects are given in the book on using the Wi-Fi and the Bluetooth modules to show how real-data can be sent to the Cloud using the Wi-Fi module, and also how to communicate with an Android based mobile phone using the Bluetooth module. The book is ideal for self-study, and is intended for electronic/electrical engineering students, practising engineers, research students, and for hobbyists. It is recommended that the book should be followed in the given Chapter order. Over 30 projects are given in the book. All the projects in the book are based on the Python programming language and they have been fully tested. Full program listings of every project are given in the book with comments and full descriptions. Experienced programmers should find it easy to modify and update the programs to suit their needs. The following sub-headings are given for each project to make it as easy as possible for the readers to follow the projects: Project title Description Aim of the project Raspberry Pi type Block diagram Circuit diagram Program listing
€ 26,95
Members € 21,56
IoTize IoTize TapNLink Primer NFC-BLE-WiFi Evaluation Kit
With TapNLink Primer, it takes just minutes for system designers to create their first IoT proofs-of-concept. The Primer connects microcontroller-based systems to mobile devices via Wi-Fi, Bluetooth Low Energy (BLE) or Near Field Communication (NFC) interface. Users can rapidly and easily create Human-Machine Interfaces (HMI) that run as mobile apps for any microcontroller-based system. The Primer connects to a target MCU using only 2 GPIO and either: Serial protocol (S3P – Sofware Secure Serial Protocol) SWD (debug) protocol for ARM Cortex M-based microcontrollers The Primer implements by configuration only. There is no coding or hardware to design. Just specify the variables in the target system, set access rights and display parameters. The Primer's configuration software, IoTize Studio, automatically generates the HMI for your mobiles (Android, iOS). In just minutes, you will be able to connect a mobile to your microcontroller application, and view, or change data from your mobile app. Physical Characteristics PCB dimensions: 38 mm x 28 mm x 3 mm Security Features Configurable access profiles Configurable, encrypted passwords Configurable BLE pairing using NFC Mobile Platform Support HTML5 web apps Cordova-based hybrid apps (native, Java) Automatic app generation (Android, iOS) Included 1x TapNLink wireless module (Wi-Fi, BLE, NFC interfaces) 1x ABS plastic cover 1x Six-probe connection cable 1x STM32 sample application board and software FREE Supporting Software IoTize Studio configuration software for Windows PCs Tap Manager app for mobile devices (Android, iOS) Arduino Tap library for Arduino integration (on GitHub) MQTT relay (open source) The TapNLink Primer also includes sample microcontroller application firmware for all STM32 microcontrollers and an accompanying Sensor Demo app for Android and iOS mobiles to help you get started.
€ 59,95
Members € 53,96
FNIRSI FNIRSI IR40 Laser Rangefinder (40 m)
The FNIRSI IR40 is a compact, high-precision and fast distance measuring device with Bluetooth integration, rechargeable battery, USB-C charging port and app connection. Features It features a high precision of ±2 mm, up to 40 m measurement range, and an 8 cm skin-friendly feeling. With an intelligent algorithm, it will make the distance measurement in an instant. Has versatile functions, including single measurement, multiple measurements, area measurement, volume measurement, Pythagorean, second Pythagorean, front and rea reference, and unit switching. FNIRSI IR40 laser rangefinder is equipped with a ROHM acceleration sensor, realizes auto flip. Built-in 400 mAh battery, it can be charged with a USB-C charging port quickly. When fully charged, it can offer up to 3000 times of continuous measurement. It supports Android & iOS systems, and Link APP to realize functions such as data synchronization/remarks, length/area/volume calculation, floor plan drawing, real-time recording, etc. Specifications Measurement range 0.05~40 m Measurement accuracy ±2 mm Laser type 620-670 nm Measurement time 0.1~3s Resolution 1 mm Units m/ft/in Dimensions 79 x 34.5 x 19 mm Included FNIRSI IR40 Rangefinder USB cable Manual Downloads Manual Android App iOS App
€ 34,95
Members € 31,46
JOY-iT JOY-iT UM25C USB Measuring Instrument with Bluetooth
USB ports can be found not only at your computer at home but also at powerbanks, in the car or in the train. Although, not all ports are high-quality und deliever steady currents and voltages. The JT-UM25C allows to see all values. The measuring instrument supports additional functions like Quickcharge 2.0 and 3.0 as well as Apple 2.4 A, 2.1 A, 1 A, 0.5 A and Android DCP and offers an analysis through the radio interface. The area of measurement is up to 24 V and 5 A which makes it practical for all areas of application. The integrated 1.44' LCD-display can be regulated in five levels of brightness and offers an overview of all measured values at all time.Features Measuring device for USB applications Measured value output via LCD display Display of current, voltage, energy, power, voltage curve, internal resistance, temperature (int. sensor) Output via BT for evaluation on PC/Smartphone Supports: Quickcharge 2.0, QC 3.0, Apple 2.4 A/2.1 A/1 A/0.5 A Android DCP, Samsung Specifications USB Ports USB 2.0, Micro USB, USB Type-C Measuring range 4-24 VDC / 0-5 A / 0-99h 59min 59 sec / -10-100°C Measuring accuracy 0.001 V / 0.0001 A Refresh rate 2 Hz Display LCD Color-Display with 5 brightness levels Display size 1.44' Communication Bluetooth connection (for evaluation on Smartphone + PC) Dimensions 71.2 x 30.5 x 12.4 mm Weight 23.7 g Downloads Manual Android APK Windows Software
€ 39,95
Members € 35,96
LabNation LabNation SmartScope USB Oscilloscope
Smartscope is the only scope in the world that runs on all major platforms: Windows, macOS, Linux, Android and iOS (with WiFi bridge). Connect the SmartScope to pretty much any device! Even more, you can get mobile with it: take the SmartScope on the road, thanks to the single-cable connectivity. Everything is going to be intuitive: pointing, pinching and swiping finally replaces the clunky interfaces of old scopes. With the SmartScope you develop your digital interfaces using the 100 MS/s logic analyzer. With this tool you can design any signal you want using Excel, then upload it to the built-in Arbitrary Waveform Generator (AWG). At the end capture the voltage at any point of your design at 100 million times each second. The Software for the support of Windows / macOS) / Linux / Android and Export formats (Excel .csv / Matlab .mat) are given. Features Channel sampled at 100 MHz/s each AC/DC coupling on analog inputs 100% silent 64 Mbit RAM: x10000 zoom Arbitrary Waveform Generator 8 digital inputs at 100 MS/s each 4 digital outputs at 100 MS/s each Externally power your scope in case your mobile can't supply the juice. Specifications Oscilloscope Bandwidth 30 MHz (-3 dB point) Sample rate 2x 100 MS/s Channels 2 Max pre-trigger position 16x full scale Max post-trigger position Full scale Max full voltage scale 10 V/div (±35 V input range) Min full voltage scale 20 mV/div Analog input range -35 V, +35 V Max input peak-to-peak 40 V Signal coupling AC / DC Precision 8 bit Input impedance 1 MΩ // 10 pF Waverforms 200 waveforms/s Data delay to host Sample depth Up to 4 million samples per channel External trigger Yes Logic Analyzer Input channels 8 Input impedance 100 kOhm // 2 pF to GND Sample rate 100 MS/s Logic level 1.8 V to 5.0 V Diode protection Bidirectional Input data buffer 4 million samples Waverforms 200 waveforms/s Data delay to host Protocol decoders I²C, SPI, UART, I²S integrated User extensible Wave Generator (Analog Output) Output channels 1 Data rate Up to 50 MS/s Output level 0-3.3 V (Opamp driven) Output buffer Up to 2048 samples Max slew rate 30 ns/V Step 13 mV Wave Generator (Digital Output) Channels 4 Data rate Up to 100 MS/s Output level 3.3 V or 5 V (selectable) Output buffer Up to 2048 samples Diode protected Yes Programmable Logic USB controller MicroChip PIC18F14K50 USB interface PicKit3 or USB flashable FPGA Xilinx Spartan 6 FPGA interface JTAG and USB flashable Size & Weight Dimensions (L x W x D) 4.33 x 2.52 x 0.95" (110 x 64 x 24.2 mm) Weight 158 g Case Aluminium Connectivity Device/Host mini USB included Record waveforms Store Matlab (.mat) or Excel (.csv) files through Dropbox Analog BNC 2 probes included Digital 8x 0.1" pitch, probes (included) Sync USB micro B-B Power USB micro B (optional) Included 1x SmartScope USB Oscilloscope 2x Analog probes 1x Digital probe cable 1x Mini-B USB cable Downloads User manual Software GitHub Wiki
€ 239,00€ 149,95
Members identical
Get Started with the SensorTile.box
STmicroelectronics’ wireless IoT & wearable sensor development kit ‘SensorTile.box’ is a portable multi-sensor circuit board housed in a plastic box and developed by STMicroelectronics. It is equipped with a high-performance 32-bit ARM Cortex-M4 processor with DSP and FPU, and various sensor modules, such as accelerometer, gyroscope, temperature sensor, humidity sensor, atmospheric pressure sensor, microphone, and so on. SensorTile.box is ready to use with wireless IoT and Bluetooth connectivity that can easily be used with an iOS or Android compatible smartphone, regardless of the level of expertise of the users. SensorTile.box is shipped with a long-life battery and all the user has to do is connect the battery to the circuit to start using the box. The SensorTile.box can be operated in three modes: Basic mode, Expert mode, and Pro mode. Basic mode is the easiest way of using the box since it is pre-loaded with demo apps and all the user has to do is choose the required apps and display or plot the measured data on a smartphone using an app called STE BLE Sensor. In Expert mode users can develop simple apps using a graphical wizard provided with the STE BLE Sensor. Pro mode is the most complex mode allowing users to develop programs and upload them to the SensorTile.box. This book is an introduction to the SensorTile.box and includes the following: Brief specifications of the SensorTile.box; description of how to install the STE BLE Sensor app on an iOS or Android compatible smartphone required to communicate with the box. Operation of the SensorTile.box in Basic mode is described in detail by going through all of the pre-loaded demo apps, explaining how to run these apps through a smartphone. An introduction to the Expert mode with many example apps developed and explained in detail enabling users to develop their own apps in this mode. Again, the STE BLE Sensor app is used on the smartphone to communicate with the SensorTile.box and to run the developed apps. The book then describes in detail how to upload the sensor data to the cloud. This is an important topic since it allows the sensor measurements to be accessed from anywhere with an Internet connection, at any time. Finally, Pro mode is described in detail where more experienced people can use the SensorTile.box to develop, debug, and test their own apps using the STM32 open development environment (STM32 ODE). The Chapter explains how to upload the developed firmware to the SensorTile.box using several methods. Additionally, the installation and use of the Unicleo-GUI package is described with reference to the SensorTile.box. This PC software package enables all of the SensorTile.box sensor measurements to be displayed or plotted in real time on the PC.
€ 29,95€ 9,95
Members identical
ESP8266 and MicroPython
Recently, the development of a tiny chip called the ESP8266 has made it possible to interface any type of microcontroller to a Wi-Fi AP. The ESP8266 is a low-cost tiny Wi-Fi chip having fully built-in TCP/IP stack and a 32-bit microcontroller unit. This chip, produced by Shanghai based Chinese manufacturer Espressif System, is IEEE 802.11 b/g/n Wi-Fi compatible with on-chip program and data memory, and general purpose input-output ports. Several manufacturers have incorporated the ESP8266 chip in their hardware products (e.g. ESP-xx, NodeMCU etc) and offer these products as a means of connecting a microcontroller system such as the Android, PIC microcontroller or others to a Wi-Fi. The ESP8266 is a low-power chip and costs only a few Dollars.ESP8266 and MicroPython – Coding Cool Stuff is an introduction to the ESP8266 chip and describes the features of this chip and shows how various firmware and programming languages such as the MicroPython can be uploaded to the chip. The main aim of the book is to teach the readers how to use the MicroPython programming language on ESP8266 based hardware, especially on the NodeMCU.Several interesting and useful projects are given in the book to show how to use the MicroPython in NodeMCU type ESP8266 hardware: Project “What shall I wear today?”: You will be developing a weather information system using a NodeMCU development board together with a Text-to-Speech processor module. Project “The Temperature and Humidity on the Cloud”: You will be developing a system that will get the ambient temperature and humidity using a sensor and then store this data on the cloud so that it can be accessed from anywhere. Project “Remote Web Based Control”: You will be developing a system that will remotely control two LEDs connected to a NodeMCU development board using an HTTP Web Server application.
€ 29,95
Members € 26,96
-
, by Clemens Valens Get Precise with the Andonstar AD409 Digital Microscope
Andonstar digital microscopes are appreciated for their affordability and good performance. Let's take a look at the AD409 Digital Microscope.