Search results for "process m"
Miniware Miniware DS213 4-ch Mini Oscilloscope (15 MHz)
The DS213 is a "5-track, 4-wave-line" oscilloscope with digital storage for general electrotechnical tasks and is based on an ARM Cortex-M3 core. The DS213 uses an FPGA to control the external A/D Converter and manage the data cache. It provides 4 partitions for applications to load and upgrade up to 4 different firmware versions. It also has a built-in 8 MB USB flash drive for storing waveforms and upgrading the firmware. The application layer of the oscilloscope code is open source, and users can develop firmware for the oscilloscope according to their own needs. Features Mini size, light weight, portable and handheld. It can store waveforms, making waveform analysis clearer and more effective. Multiple trigger modes, support Ascend/Descend Edge Trigger, Positive/Negative Pulse Trigger, and Logic Trigger. Powerful ability to process waveforms, it can automatically measure parameters such us voltage, frequency and pulse width. Specifications Analoge bandwidth 15 MHz Sampling rate 100 MSa/s CPU ARM Cortex-M3 FIFI & control FPGA ADC HWD9288-100 Analog channels 2 ([CH_A] [CH_B] Digital channels 2 ([CH_C] [CH_D] Analog input impedance 1 MΩ Max input voltage ±40 V (X1 probe)±400 V (X10 probe) Coupling AC/DC Vertical sensitivity 10 mv/Div~10 V/Div (1-2-5 steps) Horizontal sensitivity 100 nS/Div~1 S/Div (1-2-5 steps) Vertical resolution 8 bits Standaard digital channel input impedance 100 KΩ Max digital channel input voltage +5 V Trigger types Ascend/Descend Edge Trigger Mode, Positive/Negative Pulse Trigger, Logic Trigger Trigger modes Auto, Normal, Single, Slow Trigger source [CH_A] [CH_B] [CH_C] [CH_D] Storage Built-in 8 MB U disk storage for waveform data and images Power supply Internal 1000 mAh Lithium battery, external Micro USB port Display 2.8" Full Color TFT LCD (240x400 pixels) Dimensions 99.5 x 59 x 13.5 mm Weight 129 g (with battery) Included 1x DS213 Mini Oscilloscope 2x Probes 1x Date line 1x Allen key 1x USB cable 1x User manual Downloads Manual App Schematics
€ 249,00
Members € 224,10
Microchip Microchip MPLAB ICD 5 in-circuit debugger/programmer
The MPLAB ICD 5 In-Circuit Debugger/Programmer offers advanced connectivity and power options for developers of designs based on PIC, AVR and SAM devices and dsPIC Digital Signal Controllers (DSCs). It debugs and programs with the powerful and easy-to-use graphical user interface of MPLAB X Integrated Development Environment (IDE). This next-generation tool offers a variety of capabilities and features that you would normally find in more expensive products to speed up your development and reduce your debug time. With its support for Fast Ethernet connectivity and Power over Ethernet Plus (PoE+), the MPLAB ICD 5 Debugger/Programmer offers flexibility and the convenience of remote development while isolating your application from environmental conditions. Whether you're an experienced developer or just starting out, the MPLAB ICD 5 In-Circuit Debugger/Programmer will accelerate your development process and help you take your designs to the next level. Features USB-C interface makes it easy to connect to a PC High-Speed USB 2.0 host PC interface supports speeds up to 480 Mbps for fast data transfer rates PoE+ (IEEE 802.3at) offers a convenient and flexible option to power up the debugger/programmer and deliver power to the target Fast Ethernet connectivity supports speeds up to 100 Mbps Wired/DHCP/APIAP IP addressing Static IP addressing Connects to more targets using an RJ11 or RJ45 modular cable Includes adapter board that supports JTAG, SWD, ICSP and AVR MCU protocols Professional-grade safety features and support for devices ranging from 1.2 V to 5.5 V Safely powers the target at up to 1 A using the PoE power supply or a PC with a USB-C connector Receives feedback from debugger when an external power supply is needed for the target CE and RoHS compliant, conforms to industry standards Advanced trace capabilities Support for instrumented trace via the Arm Serial Wire Debug (SWD) interface Power monitoring Allows you to optimize your design's power consumption Captures power data, such as current and voltage values Works with MPLAB Data Visualizer, which graphically analyzes power data Data gateway interfaces UART over Windows Virtual COM Port (VCP) Power Continuous Integration/Continuous Delivery (CI/CD) Support Can be implemented over Ethernet using hardware in the loop Works with CI/CD wizard available with MPLAB X IDE v6.10 and later to set up system using Jenkins and Docker Powerful debugging High-powered debugging with MPLAB X IDE Multiple breakpoints, stopwatch and source code file debugging Selectable pull-up/pull-down option to the target interface in MPLAB X IDE’s editor for quick program modification and debugging High-speed programming Quick firmware reloading for fast debugging and in-circuit reprogramming Debugging speed can be adjusted for optimized programming Included MPLAB ICD 5 In-Circuit Debugger and Programmer USB-C cable Adapter kit Downloads User guide Datasheet
€ 649,00
Members € 584,10
Evil Mad Science AxiDraw SE/A3 Writing and Drawing Machine
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
€ 849,00
Members € 764,10
Multitasking with Raspberry Pi
Multitasking and multiprocessing have become a very important topic in microcontroller-based systems, namely in complex commercial, domestic, and industrial automation applications. As the complexity of projects grows, more functionalities are demanded from the projects. Such projects require the use of multiple inter-related tasks running on the same system and sharing the available resources, such as the CPU, memory, and input-output ports. As a result of this, the importance of multitasking operations in microcontroller-based applications has grown steadily over the last few years. Many complex automation projects now make use of some form of a multitasking kernel.This book is project-based and its main aim is to teach the basic features of multitasking using the Python 3 programming language on Raspberry Pi. Many fully tested projects are provided in the book using the multitasking modules of Python. Each project is described fully and in detail. Complete program listings are given for each project. Readers should be able to use the projects as they are, or modify them to suit their own needs.The following Python multitasking modules have been described and used in the projects: Fork Thread Threading Subprocess Multiprocessing The book includes simple multitasking projects such as independently controlling multiple LEDs, to more complex multitasking projects such as on/off temperature control, traffic lights control, 2-digit, and 4-digit 7-segment LED event counter, reaction timer, stepper motor control, keypad based projects, car park controller, and many more. The fundamental multitasking concepts such as process synchronization, process communication, and memory sharing techniques have been described in projects concerning event flags, queues, semaphores, values, and so on.
€ 34,95
Members € 31,46
Evil Mad Science AxiDraw V3/A3 Writing and Drawing Machine
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
€ 849,00
Members € 764,10
Technical Modeling with OpenSCAD
Create Models for 3D Printing, CNC Milling, Process Communication and DocumentationEngineers dread designing 3D models using traditional modeling software. OpenSCAD takes a refreshing and completely different approach. Create your models by arranging geometric solids in a JavaScript-like language, and use them with your 3D printer, CNC mill, or process communication.OpenSCAD differs from other design systems in that it uses programmatical modeling. Your model is made up of primitives that are invoked using a C-, Java- or Python-like language. This approach to model design is close to the “mechanical work” done in the real world and appeals to engineers and others who are not a member of the traditional creative class.OpenSCAD also provides a wide variety of comfort functions that break the 1:1 relationship between code and geometry. This book demonstrates the various features of the programming language using practical examples such as a replacement knob for a LeCroy oscilloscope, a wardrobe hanger, a container for soap dispensers, and various other real-life examples.Written by an engineer with over 15 years of experience, this book is intended for Linux and Windows users alike. If you have programming experience in any language, this book will have you producing practical three-dimensional objects in short order!
€ 29,95
Members € 26,96
Elektor Digital Multitasking with Raspberry Pi (E-book)
Multitasking and multiprocessing have become a very important topic in microcontroller-based systems, namely in complex commercial, domestic, and industrial automation applications. As the complexity of projects grows, more functionalities are demanded from the projects. Such projects require the use of multiple inter-related tasks running on the same system and sharing the available resources, such as the CPU, memory, and input-output ports. As a result of this, the importance of multitasking operations in microcontroller-based applications has grown steadily over the last few years. Many complex automation projects now make use of some form of a multitasking kernel. This book is project-based and its main aim is to teach the basic features of multitasking using the Python 3 programming language on Raspberry Pi. Many fully tested projects are provided in the book using the multitasking modules of Python. Each project is described fully and in detail. Complete program listings are given for each project. Readers should be able to use the projects as they are, or modify them to suit their own needs. The following Python multitasking modules have been described and used in the projects: Fork Thread Threading Subprocess Multiprocessing The book includes simple multitasking projects such as independently controlling multiple LEDs, to more complex multitasking projects such as on/off temperature control, traffic lights control, 2-digit, and 4-digit 7-segment LED event counter, reaction timer, stepper motor control, keypad based projects, car park controller, and many more. The fundamental multitasking concepts such as process synchronization, process communication, and memory sharing techniques have been described in projects concerning event flags, queues, semaphores, values, and so on.
€ 29,95
Members € 23,96
Elektor Digital Technical Modeling with OpenSCAD (E-book)
Create Models for 3D Printing, CNC Milling, Process Communication and Documentation Engineers dread designing 3D models using traditional modeling software. OpenSCAD takes a refreshing and completely different approach. Create your models by arranging geometric solids in a JavaScript-like language, and use them with your 3D printer, CNC mill, or process communication. OpenSCAD differs from other design systems in that it uses programmatical modeling. Your model is made up of primitives that are invoked using a C-, Java- or Python-like language. This approach to model design is close to the “mechanical work” done in the real world and appeals to engineers and others who are not a member of the traditional creative class. OpenSCAD also provides a wide variety of comfort functions that break the 1:1 relationship between code and geometry. This book demonstrates the various features of the programming language using practical examples such as a replacement knob for a LeCroy oscilloscope, a wardrobe hanger, a container for soap dispensers, and various other real-life examples. Written by an engineer with over 15 years of experience, this book is intended for Linux and Windows users alike. If you have programming experience in any language, this book will have you producing practical three-dimensional objects in short order!
€ 24,95
Members € 19,96
Cytron Cytron Maker Line Sensor
Maker Line is a line sensor with 5 x IR sensors array that is able to track line from 13 mm to 30 mm width. The sensor calibration is also simplified. There is no need to adjust the potentiometer for each IR sensor. You just have to press the calibrate button for 2 seconds to enter calibration mode. Afterwards you need to sweep the sensors array across the line, press the button again and you are good to go. The calibration data is saved in EEPROM and it will stay intact even if the sensor has been powered off. Thus, calibration only needs to be carried out once unless the sensor height, line color or background color has changed. Maker Line also supports dual outputs: 5 x digital outputs for the state of each sensor independently, which is similar to conventional IR sensor, but you get the benefit of easy calibration, and also one analog output, where its voltage represents the line position. Analog output also offers higher resolution compared to individual digital outputs. This is especially useful when high accuracy is required while building a line following robot with PID control. Features Operating Voltage: DC 3.3 V and 5 V compatible (with reverse polarity protection) Recommended Line Width: 13 mm to 30 mm Selectable line color (light or dark) Sensing Distance (Height): 4 mm to 40 mm (Vcc = 5 V, Black line on white surface) Sensor Refresh Rate: 200 Hz Easy calibration process Dual Output Types: 5 x digital outputs represent each IR sensor state, 1 x analog output represents line position. Support wide range of controllers such as Arduino, Raspberry Pi etc. Documentation Datasheet Tutorial: Building A Low-Cost Line Following Robot
€ 14,95
Members € 13,46
OWON OWON XDM1041 Multimeter
The OWON XDM1041 is a fast, high-precision digital True RMS benchtop multimeter with a high-resolution 3.5-inch LCD and 50,000 counts. Its DC voltage accuracy is up to 0.05% and it can measure up to 65 values per second. Features 3.5" high-resolution LCD (480x320 pixels) 55000 counts, DC voltage accuracy up to 0.05% Up to 65 readings per second Dual line display supported Trend analysis accessible in chart mode AC True RMS measurements (bandwidth: 20 Hz – 1 kHz) SCPI support: Remote control the multimeter through PC software via USB port Data record function, you can record the measured data into internal memory, and then read and process the recorded data with your computer. Specifications Measurement Range Resolution Accuracy DC Voltage 50.000 mV 0.001 mV 0.1% +10 500.00 mV 0.01 mV 0.05% +5 5.0000 V 0.0001 V 0.05% +5 50.000 V 0.001 V 0.05% +5 500.00 V 0.01 V 0.1% +5 1000.0 V 0.1 V 0.1% +10 AC Voltage 500 mV~750 V 20 Hz~45 Hz 1% +30 45 Hz~65 Hz 0.5% +30 65 Hz~1 KHz 0.7% +30 DC Current 500 uA 0.01 uA 0.15% +20 5000 uA 0.1 uA 0.15% +10 50 mA 0.001 mA 0.15% +20 500 mA 0.01 mA 0.15% +10 5 A 0.0001 A 0.5% +10 10 A 0.001 A 0.5% +10 AC Current 500 uA~500 mA 20 Hz~1 KHz 0.5% +20 5 A-10 A 1.5% +20 Resistance 500 Ω 0.01 Ω 0.15% +10 5 KΩ 0.0001 KΩ 0.15% +5 50 KΩ 0.001 KΩ 0.15% +5 500 KΩ 0.01 KΩ 0.15% +5 5 MΩ 0.0001 MΩ 0.3% +5 50 MΩ 0.001 MΩ 1% +10 Frequency 10.000 Hz~60 MHz / ±(0.2% +10) Capacitance 50 nF~500 uF / 2.5% +10 5 mF~50 mF 5% +10 Diode 3.0000 V 0.0001 V / Continuity 1000 Ω 0.1 Ω Adjustable threshold Temperature K type, PT100 Max Display 55,000 counts Data-logging Function Logging Duration 15ms~9999.999s Logging Length 1,000 points Display 3.5" TFT LCD (480x320 pixels) Power supply 230 V AC mains voltage Dimensions 200 x 88 x 150 mm Weight approx. 0.5 kg Included 1x OWON XDM1041 Multimeter 1x Power cord 2x Test leads 1x Fuse 1x USB cable 1x Manual Downloads Programming Manual PC Software
€ 109,95
Members € 98,96
OWON OWON XDM1141 Multimeter
The OWON XDM1141 is a fast, high-precision digital True RMS benchtop multimeter with a high-resolution 3.5-inch LCD and 50,000 counts. Its DC voltage accuracy is up to 0.05% and it can measure up to 65 values per second. Features 3.5" high-resolution LCD (480x320 pixels) 55000 counts, DC voltage accuracy up to 0.05% Up to 65 readings per second Dual line display supported Trend analysis accessible in chart mode AC True RMS measurements (bandwidth: 20 Hz – 1 kHz) SCPI support: Remote control the multimeter through PC software via USB port Data record function, you can record the measured data into internal memory, and then read and process the recorded data with your computer. Specifications Measurement Range Resolution Accuracy DC Voltage 50.000 mV 0.001 mV 0.1% +10 500.00 mV 0.01 mV 0.05% +5 5.0000 V 0.0001 V 0.05% +5 50.000 V 0.001 V 0.05% +5 500.00 V 0.01 V 0.1% +5 1000.0 V 0.1 V 0.1% +10 AC Voltage 500 mV~750 V 20 Hz~45 Hz 1% +30 45 Hz~65 Hz 0.5% +30 65 Hz~1 KHz 0.7% +30 DC Current 500 uA 0.01 uA 0.15% +20 5000 uA 0.1 uA 0.15% +10 50 mA 0.001 mA 0.15% +20 500 mA 0.01 mA 0.15% +10 5 A 0.0001 A 0.5% +10 10 A 0.001 A 0.5% +10 AC Current 500 uA~500 mA 20 Hz~1 KHz 0.5% +20 5 A-10 A 1.5% +20 Resistance 500 Ω 0.01 Ω 0.15% +10 5 KΩ 0.0001 KΩ 0.15% +5 50 KΩ 0.001 KΩ 0.15% +5 500 KΩ 0.01 KΩ 0.15% +5 5 MΩ 0.0001 MΩ 0.3% +5 50 MΩ 0.001 MΩ 1% +10 Frequency 10.000 Hz~60 MHz / ±(0.2% +10) Capacitance 50 nF~500 uF / 2.5% +10 5 mF~50 mF 5% +10 Diode 3.0000 V 0.0001 V / Continuity 1000 Ω 0.1 Ω Adjustable threshold Temperature K type, PT100 Max Display 55,000 counts Data-logging Function Logging Duration 15ms~9999.999s Logging Length 1,000 points Display 3.5" TFT LCD (480x320 pixels) Dimensions 200 x 88 x 150 mm Weight approx. 0.5 kg Included 1x OWON XDM1141 Multimeter 1x Power cord 2x Test leads 1x Fuse 1x USB cable 1x Manual Downloads Programming Manual PC Software
€ 144,95€ 119,95
Members identical
Elecrow Raspberry Pi Pico Advanced Kit with 32 Modules and 32 Projects
This Raspberry Pi Pico advanced kit is designed for people who already have some electronics knowledge and programming skills and are interested in the Raspberry Pi. If you want to continue to strengthen your thinking, hands-on ability, and innovation ability, the Raspberry Pi Pico Advanced Kit will take you to create different scenarios and explore more applications. The Raspberry Pi Pico Advanced Kit includes a Raspberry Pi Pico H based on the official RP2040 chip, 32 sensor modules, 1 smart car kit, and 32 Raspberry Pi Pico projects. With this kit, you can complete several interesting and practical projects. In the process, the learners' thinking ability and creativity are continuously stimulated. Features Suitable for all users, from beginners to advanced programmers. 32 detailed lessons to lead your experiment 32 kinds of sensor modules and the smart cart can also be customized for interesting functions. Raspberry Pi Pico is a lightweight, compact, high-performance microcontroller multifunction board using a dual-core ARM Cortex-M0+ processor More powerful functions Projects RGB Colorful Light: Through PWM pulse width modulation, the LED light is controlled to light up gradually, and then gradually turn off, so as to form a breathing light effect in a cycle. Electronic Clock: The hour and minute data of the clock are displayed through the TM1637 4-Bits digital tube, and the clock point is controlled to flash circularly to make an electronic clock. Colorful Flowing Light: Through the GP port of the Pico, the 5 LED lights are controlled to light up in turn, and then turn off in turn to form a colorful flowing light. Billboard: The first line of LCD1602 scrolls from right to left to display the string of "Hello Pico", simulating the effect of billboard scrolling. Plant Doctor: Real-time detection of soil humidity. Under normal soil humidity, the green light lights up and the buzzer does not sound; when the soil humidity is too low, the red light lights up and the buzzer sounds. Alarm of Fire: Simulate a fire alarm system, judge whether a fire occurs by judging whether the induction probe of the flame sensor detects the fire source, control the RGB lights to flash red and blue, and display the alarm information on the LCD1602 liquid crystal screen. Obstacle Avoidance Car: Real-time detection of the distance measurement value of the ultrasonic ranging sensor, when the distance value is less than the preset value, the car will be controlled to turn left to avoid obstacles, so as to achieve the effect of the obstacle avoidance car. Traffic Light: Control the red light to turn on, the red light goes off after the 4-Bits digital tube counts down for 30 seconds; then the yellow light flashes 5 times with a time interval of 0.3 seconds. Finally the green light turns on for 10 seconds and then turns off, reciprocating, simulating the effect of traffic lights. Included 1x Raspberry Pi Pico H 2x 400 holes solderless breadboard 10x Colorful 5 mm LEDs: 1pcs each in green, red, blue, yellow and white 1x RGB module 1x Button 1x Sound sensor 1x Mini PIR motion sensor 1x Photoresistor module 1x Laser transmitter 1x Passive buzzer 1x Vibration sensor 1x Mini magnetic spring module 1x Soil moisture sensor 1x Rotary potentiometer 1x DC motor with male Dupont Wire + 1x fan blade 1x 9G servo 1x Dual-axis XY Joystick module 1x RC522 RFID module 1x 4 Bits digital LED display module 1x Traffic light display module 1x Rotary encoder module 1x 1602 LCD display module (blue) 1x Temperature & humidity sensor 1x Raindrops module 1x Flame mensor 1x OLED module 1x Membrane switch keyboard 1x Smart car kit 2x Crash sensor 2x Tracking sensor 1x Ultrasonic sensor 1x Infrared remote control 1x Infrared receiver module 1x Micro USB cable (30 cm) 1x 170 holes solderless breadboard 1x 65 Jumper wire 1x 20 cm Dupont wire (male to female) 1x Clear Case 2x M2.5x30 mm copper pillar 10x Phillips pan head screw 10x M2.5 Nickel hex nuts 1x 2-inch dual-purpose screwdriver 1x Magnet (Diameter: 8 mm, Thickness: 5 mm) 1x DC stepper motor driver board Downloads Tutorial Sample Code Map and Assembly Manual
€ 59,95
Members € 53,96