Search results for "fire"
BeagleBoard BeagleV-Fire SBC with RISC-V and FPGA
BeagleV-Fire is a revolutionary single-board computer (SBC) powered by the Microchip’s PolarFire MPFS025T 5x core RISC-V System on Chip (SoC) with FPGA fabric. BeagleV-Fire opens up new horizons for developers, tinkerers, and the open-source community to explore the vast potential of RISC-V architecture and FPGA technology. It has the same P8 & P9 cape header pins as BeagleBone Black allowing you to stack your favorite BeagleBone cape on top to expand it’s capability. Built around the powerful and energy-efficient RISC-V instruction set architecture (ISA) along with its versatile FPGA fabric, BeagleV-Fire SBC offers unparalleled opportunities for developers, hobbyists, and researchers to explore and experiment with RISC-V technology. Chipset Features Microchip Polarfire MPFS025T SoC FPGA FPGA Fabric 23K logic elements (4-input LUT + DFF) 68 Math blocks (18x18 MACC) 4 SerDes lanes of 12.7 Gbps Microprocessor Subsystem Processor 1x 64-bit RV64IMAC monitor/boot core (E51) 4x 64-bit RV64GC Application cores (U54-MC) Fmax of 667 MHz (–40°C to 100°C Tj) 3.125 CoreMarks/MHz, 1.714 DMIPS/MHz Storage MMC 5.1 SD/SDIO 1 Quad SPI flash controller 128 KB eNVM 56 KB sNVM Memory Interfaces 36-bit DDR4/DDR3/LPDDR4/LPDDR3 memory controller with SECDED Communication Interfaces 2x GigE MACs, USB 2.0 OTG, 5x multi-mode UARTs, 2x SPI, 2x I²C, 2x CAN 2.0 Controllers. 2x PCIe Gen2 End Points/Root Ports Board Features On-board Memory 2 GB LPDDR4 16 GB Kingston eMMC 128 Mbit SPI flash Connectors and Expansion USB Type-C with high-Speed (480 Mbps) dual-role support and power input Gigabit Ethernet M.2 E-Key socket for WiFi and other PCIe/SDIO modules microSD card socket SYZYGY high-speed connector CSI 22-pin camera connector 2x46-pin BeagleBone Cape add-on headers with on-board ADC Screw terminal for 5 V power input 6-pin 3.3 V UART header JTAG TAG-CONNECT footprint Downloads Documentation
€ 199,95
Members € 179,96
Elektor Digital Elektor November/December 2021 (PDF)
IMAGE PROCESSING WITH THE NVIDIA JETSON NANO (PART 2)Image Recognition Using Edge Impulse ELEKTOR JUMPSTARTER NEWSUpcoming Campaigns AN OPEN-SOURCE GPS TRACKING PLATFORMTraccar Maps Vehicle Tracking Without the Need for a Third-Party Cloud Server JOY-IT LCR-T7 MULTI-FUNCTION TESTERTesting Passives, Discrete Semiconductors and IR Remote Controls NOISE SYNTHESIZERFrom Noise to Music with the PRBSynth1 STARTING OUT IN ELECTRONICSEasier than Imagined! ... Continuing with the Coil UNDERSTANDING THE NEURONS IN NEURAL NETWORKS (PART 2)Logical Neurons ISSUES WITH SECURITY? FIGHT FIRE WITH FIRE!Flashbulb-Protected Analogue Memory Add-on For the Tamper-Evident Box LCR METER POSTER BLUETOOTH BEACONS IN PRACTICEBeacons Light the Way Ahead C PROGRAMMING ON RASPBERRY PICommunicating over Wi-Fi (Sample Chapter) EMC PRE-COMPLIANCE TEST FOR YOUR DC-POWERED PROJECT (PART 2)The Hardware and How to Use It HANDS ON THE PARALLAX PROPELLER 2 (PART 5)Inside the Smart Pin MODBUS OVER WLAN (PART 1)Hardware and Programming HOMELAB TOURSWhere the Junior Computer Is Brought to Life Again BUILD YOUR OWN HIGH-PRECISION CALIBRATOR-10 V to +10 V, 0 to 40 mA, 0.001% ARDUINO NANO RP2040 CONNECTRaspberry Pi RP2040 + Wi-Fi + Bluetooth THE PHYSICAL BODY OF ARTIFICIAL INTELLIGENCE ERR-LECTRONICSCorrections, Updates and Readers’ Letters CREATE GUIS WITH PYTHONIntroducing guizero CO2 METER KIT FOR THE CLASSROOMAn ESP8266-Based Device from the University of Applied Sciences Aachen NOSTALGIC MK484 MW/LW RADIO...Always Fun to Build! ELEKTOR @ 60Let There Be Light! HEXADOKUThe Original Elektorized Sudoku
€ 7,50
Members € 6,75
Elektor November/December 2021
IMAGE PROCESSING WITH THE NVIDIA JETSON NANO (PART 2)Image Recognition Using Edge Impulse ELEKTOR JUMPSTARTER NEWSUpcoming Campaigns AN OPEN-SOURCE GPS TRACKING PLATFORMTraccar Maps Vehicle Tracking Without the Need for a Third-Party Cloud Server JOY-IT LCR-T7 MULTI-FUNCTION TESTERTesting Passives, Discrete Semiconductors and IR Remote Controls NOISE SYNTHESIZERFrom Noise to Music with the PRBSynth1 STARTING OUT IN ELECTRONICSEasier than Imagined! ... Continuing with the Coil UNDERSTANDING THE NEURONS IN NEURAL NETWORKS (PART 2)Logical Neurons ISSUES WITH SECURITY? FIGHT FIRE WITH FIRE!Flashbulb-Protected Analogue Memory Add-on For the Tamper-Evident Box LCR METER POSTER BLUETOOTH BEACONS IN PRACTICEBeacons Light the Way Ahead C PROGRAMMING ON RASPBERRY PICommunicating over Wi-Fi (Sample Chapter) EMC PRE-COMPLIANCE TEST FOR YOUR DC-POWERED PROJECT (PART 2)The Hardware and How to Use It HANDS ON THE PARALLAX PROPELLER 2 (PART 5)Inside the Smart Pin MODBUS OVER WLAN (PART 1)Hardware and Programming HOMELAB TOURSWhere the Junior Computer Is Brought to Life Again BUILD YOUR OWN HIGH-PRECISION CALIBRATOR-10 V to +10 V, 0 to 40 mA, 0.001% ARDUINO NANO RP2040 CONNECTRaspberry Pi RP2040 + Wi-Fi + Bluetooth THE PHYSICAL BODY OF ARTIFICIAL INTELLIGENCE ERR-LECTRONICSCorrections, Updates and Readers’ Letters CREATE GUIS WITH PYTHONIntroducing guizero CO2 METER KIT FOR THE CLASSROOMAn ESP8266-Based Device from the University of Applied Sciences Aachen NOSTALGIC MK484 MW/LW RADIO...Always Fun to Build! ELEKTOR @ 60Let There Be Light! HEXADOKUThe Original Elektorized Sudoku
€ 10,95
Members € 9,86
JOY-iT JOY-iT Zero Delay Encoder USB Joystick
The Zero Delay Encoder Encoder makes it simple to attach your own arcade joysticks and buttons, and to connect to the Raspberry, PC or other devices. Create your own controller and enjoy your games without any compromises or control your robot project according to your ideas. Features Compatible with Linux, Windows, MAME and other common emulators and systems. Complete controller base with all cables included Supports up to 12 buttons Auto, Fire and Turbo modes Additional connection: Sanwa/Seimitsu 5-Pin LEDs: 1 × Power-LED, 1 × Mode-LED The scope of delivery includes Zero Delay Encoder, USB Cable, 13 × 4.8 mm cable.
€ 14,95
Members € 13,46
4tronix M.A.R.S. Rover Robot Kit for Raspberry Pi Zero
Inspired by NASA's “Curiosity” and “Perseverance” Mars Rovers, this innovative M.A.R.S. Rover is an autonomous vehicle designed to drive around on rough terrain here on Earth. It uses the same rocker arm, bogey and differential arm mechanism. M.A.R.S. is an acronym for "Mobile Autonomous Robotic System". Features 6 Motors: 80 rpm 6 V, N20 micro gear motors 4 Servos: MG90S metal gear analog micro servos 4 FireLEDs Ultrasonic distance sensor on steerable mast Total number of special PCBs: 30 Number of different PCB designs: 11 Length: 200 mm Width: 185 mm Height with Mast: 170 mm Weight excluding Raspberry Pi Zero and batteries: 460 g There is a Python library module for the Raspberry Pi Zero that makes it easy to control the unit. Required Raspberry Pi Zero 4 rechargeable AA batteries Downloads Assembly of 4tronix M.A.R.S. Rover Kit Programming M.A.R.S. Rover on Raspberry Pi Zero Coding using Microsoft Makecode on GitHub
€ 184,95
Members € 166,46
Elektor Labs Elektor US-Style Siren Kit
A great way to explain the workings of an electronic circuit is to position the discrete parts on the board exactly as in the schematic. Press the button and this "Elektor Classic" responds with 1 of 3 siren sounds: police, ambulance, or fire brigade. The kit is composed of through-hole parts only and includes a wooden desktop stand. A full explanation of the circuit operation appears on the back of the circuit board. Features Realistic Sound from Onboard Speaker Unique PCB Layout Equals Schematic Elektor Heritage Circuit Symbols Tried & Tested by Elektor Labs Educational & Geeky Project Through-Hole Parts Only Included Printed Circuit Board All Components Wooden Desktop Stand
€ 34,95€ 24,95
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
iDraw iDraw 1.0 A4 Drawing Machine (XY Plotter)
iDraw is a versatile pen plotter, handwriting-imitated drawing machine and XY plotter. Based on open-source, iDraw is the best tool and aid for makers, geeks, DIYers, students, teachers with multi-functional features. It can imitate handwriting, draw masterpieces or cartoon, laser engrave on paper, leather, wood. Without soldering or programming, iDraw can run within several minutes. Specifications Version A4 Metal Charger DC 12 V/1 A Communication USB port, Offline Mode Unsupportable Mode Writing/Drawing/Laser Engraving Working Area 210 x 297 mm OS Windows/Mac/Linux Support Format INPUT/DRAW/SVG/JPG/BMP/PNG/DXF Repeatibility 0.1 mm XY Moving Precision 0.1 mm Motor 42 Stepper Motor, A4988 Driver Software Inkscape V1.0 Motherboard Drawcore, EBBV2.3 compatible Fireware Coding Type C, EBB Fireware Package 100 x 100 x 550 mm Weight 2.3 kg Downloads GitHub Software Step by step guide to assemble the hardware and install the software Seven Unboxing Tips for Metal iDraw How to assemble motors for iDraw How to install the servo and pen holder for iDraw What to buy a laser head? Video tutorials
€ 349,00
Members € 314,10
Arduino Arduino MKR WiFi 1010
The board's main processor is a low-power ARM Cortex-M0 32-bit SAMD21, like in the other boards within the Arduino MKR family. The WiFi and Bluetooth connectivity is performed with a module from u-blox, the NINA-W10, a low-power chipset operating in the 2.4 GHz range. On top of that, secure communication is ensured through the Microchip ECC508 crypto chip. Besides that, you can find a battery charger, and an RGB LED on-board. Official Arduino WiFi Library You can get your board to connect to any kind of existing WiFi network, or use it to create your own Arduino Access Point. The specific set of examples we provide for the MKR WiFi 1010 can be consulted at the WiFiNINA library reference page. Compatible with other Cloud Services It is also possible to connect your board to different Cloud services, Arduino's own among others. Here are some examples of how to get the MKR WiFi 1010 to connect to: Blynk: a simple project from the Arduino community connecting to Blynk to operate your board from a phone with little code IFTTT: in-depth case of building a smart plug connected to IFTTT AWS IoT Core: Arduino made this example on how to connect to Amazon Web Services Azure: visit this GitHub repository explaining how to connect a temperature sensor to Azure's Cloud Firebase: you want to connect to Google's Firebase, this Arduino library will show you how Specifications Microcontroller SAMD21 Cortex-M0+ 32bit low power ARM MCU Radio Module u-blox NINA-W102 Power Supply 5 V Secure Element ATECC508 Supported Battery Li-Po Single Cell, 3.7 V, 1024 mAh Minimum Operating Voltage 3.3 V Digital I/O Pins 8 PWM Pins 13 UART 1 SPI 1 I2C 1 Analog Input Pins 7 Analog Output Pins 1 External Interrupts 10 Flash Memory 256 KB SRAM 32 KB EEPROM no Clock Speed 32.768 kHz, 48 MHz LED_Builtin 6 USB Full-Speed USB Device and embedded Host Length 61.5 mm Width 25 mm Weight 32 g
€ 39,95
Members € 35,96
Arduino Arduino Nano 33 IoT with Headers
The board's main processor is a low-power Arm® Cortex®-M0 32-bit SAMD21. The WiFi and Bluetooth® connectivity is performed with a module from u-blox, the NINA-W10, a low-power chipset operating in the 2.4GHz range. On top of that, secure communication is ensured through the Microchip® ECC608 crypto chip. Besides that, you can find a 6 axis IMU, which makes this board perfect for simple vibration alarm systems, pedometers, the relative positioning of robots, etc. WiFi and Arduino IoT Cloud You can get your board to connect to any kind of existing WiFi network, or use it to create your own Arduino Access Point. The specific set of examples we provide for the Nano 33 IoT can be consulted at the WiFiNINA library reference page. It is also possible to connect your board to different Cloud services, Arduino's own among others. Here are some examples of how to get the Arduino boards to connect to: Arduino's own IoT Cloud: Arduino's IoT Cloud is a simple and fast way to ensure secure communication for all of your connected Things. Check it out here. Blynk: a simple project from our community connecting to Blynk to operate your board from a phone with little code. IFTTT: see an in-depth case of building a smart plug connected to IFTTT. AWS IoT Core: we made this example on how to connect to Amazon Web Services. Azure: visit this GitHub repository explaining how to connect a temperature sensor to Azure's Cloud. Firebase: you want to connect to Google's Firebase, this Arduino library will show you how. Microcontroller SAMD21 Cortex®-M0+ 32bit low power ARM MCU Radio Module u-blox NINA-W102 Secure Element ATECC608A Operating Voltage 3.3 V Input Voltage 21 V Digital I/O Pins 14 PWM Pins 11 DC Current per I/O Pin 7 mA Analog Input Pins 8 Analog Output Pins 1 External Interrupts all digital pins UART 1 SPI 1 I2C 1 Flash Memory 256 KB SRAM 32 KB EEPROM none Clock Speed 48 MHz LED_Builtin 13 USB Native in the SAMD21 Processor IMU LSM6DS3 Length 45 mm Width 18 mm Weight 5 g
€ 32,95
Members € 29,66
PeakTech PeakTech 5615 Thermal Imaging Camera (160x120) with USB and Software
The PeakTech 5615 is a full-fledged thermal imaging camera with a thermal resolution of 160x120 thermal image points and a high-quality sensor, which makes even the smallest temperature differences visible.All thermal images can be opened and evaluated using the enclosed software, with subsequent changes, e.g. can be done on the pallet selection.Use this new development e.g. to find thermal bridges in thermography, leaks in systems and pipe systems or track heating pipes in walls and floors.In electrical engineering, this thermal imager offers the possibility of contact problems and contact resistances e.g. to be found in sub-distributions and thus to prevent a fire risk in good time. Modern IR thermal imaging technology 2.4 'LCD color display and graphic menu navigation Thermal image resolution of 160 x 120 pixels High temperature measuring range up to + 550 °C High quality thermal image sensor with high temperature sensitivity Fast thermal imaging with 25 Hz Four color palettes (Iron, Rainbow, White, Black) Crosshairs, as well as cold and hot spot display Minimum and maximum value display Photo record with internal memory Records with time and date documentation USB interface for data transfer Also suitable for longer ranges (e.g. building thermography) IP 54 protected against dust and splash water Accessories: USB cable, software, charger and user manual Thermal Resolution 160 x 120 Pixel Temperature Range -20°C … 550°C / -4°F … 1022°F; 0,1° Resolution Accuracy +/- 2% +/- 2°C Display 2,4“ Color TFT Thermal Sensivity < 40 mK Field of View (FOV) 37,2° x 50° Wave Length 8 ... 14 µm Emissivity 0.01 ~ 1.0 Image Frequency 25 Hz Storage Micro SD - 8 GByte Data Interface USB Operation voltage 3350 mAh / 3.6 V Li-Ion Dimensions (WxHxD) 59 x 196 x 78 mm Weight approx. 350 g
€ 549,00
Members € 494,10
Building a High-Tech Alarm System with Raspberry Pi
This book discusses the basic components of any alarm system. All alarm systems have two basic functions. First, they monitor their environment looking for a change such as a door or window opening or someone moving about in the room. Second, they alert the legal owner or user to this change. The system described in this book uses a scanning type software to detect intruders. It behaves like a guard dog, pacing up and down the fence line on the lookout for either an intruder or a familiar person. If you have an alarm key, you can disarm the system and enter. With the scanning method, the software is easy to write and explain. It can scan eight alarm zones plus two special fire zones in about one second. You don’t have to be an electrical engineer to install an alarm system, just a decent carpenter, painter, and plasterer! Because this alarm system runs on 12 volts, you don’t have to be a licensed electrician either to install it. The alarm system presented here uses Python software on the Raspberry Pi combined with some elementary electronic circuits. The code described in the book, as well as CAD files and a bill of materials for the alarm panel, are available for free downloading. The book provides the reader with examples of typical configurations coming straight from the author‘s experience. After reviewing the hardware components typically used in common alarm systems, the author shows how to plan one yourself. To implement a modular alarm, no matter if it is for a single house or for a business or restaurant, the book shows how to skillfully combine a Raspberry Pi with small auxiliary electronic circuits. These are not installation instructions but food for thought that will enable readers to find a solution to their needs.
€ 24,95
Members € 22,46