Ontwikkelboards

The nRF52840 Dongle is a small, low-cost USB dongle that supports Bluetooth 5.3, Bluetooth mesh, Thread, ZigBee, 802.15.4, ANT and 2.4 GHz proprietary protocols. The Dongle is the perfect target hardware for use with nRF Connect for Desktop as it is low-cost but still support all the short range wireless standards used with Nordic devices. The dongle has been designed to be used as a wireless HW device together with nRF Connect for Desktop. For other use cases please do note that there is no debug support on the Dongle, only support for programming the device and communicating through USB. It is supported by most of the nRF Connect for Desktop apps and will automatically be programmed if needed. In addition custom applications can be compiled and downloaded to the Dongle. It has a user programmable RGB LED, a green LED, a user programmable button as well as 15 GPIO accessible from castellated solder points along the edge. Example applications are available in the nRF5 SDK under the board name PCA10059. The nRF52840 Dongle is supported by nRF Connect for Desktop as well as programming through nRFUtil. Features Bluetooth 5.2 ready multiprotocol radio 2 Mbps Long Range Advertising Extensions Channel Selection Algorithm #2 (CSA #2) IEEE 802.15.4 radio support Thread ZigBee Arm Cortex-M4 with floating point support DSP instruction set ARM CryptoCell CC310 cryptographic accelerator 15 GPIO available via edge castellation USB interface direct to nRF52840 SoC Integrated 2.4 GHz PCB antenna 1 user-programmable button 1 user-programmable RGB LED 1 user-programmable LED 1.7-5.5 V operation from USB or external Downloads Datasheet Hardware Files

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Differences between micro:bit v1 and micro:bit v2 The BBC micro:bit v2 is equipped with BLE Bluetooth 5.0 It has a Power off button(push and hold power button) MEMS microphone with a LED indicator Onboard speaker Touch-sensitive logo pin LED power indicator A notched edge connector for easier connections.

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WCH CH32V307 RISC-V development board features 8 UART ports controlled over Ethernet The CH32V307 is an interconnected microcontroller, based on 32-bit RISC-V core, with hardware stack area and fast interrupt entry. Compared with standard RISC-V, the interrupt response speed is greatly improved. With single-precision float point instruction sets added and stack area extended, the CH32V307 has higher performance, the number of U(S)ART is extended to 8, and the number of motor timer is extended to 4. The CH32V307 provides USB2.0 high-speed interface (480 Mbps) and has built-in PHY transceiver. Ethernet MAC is upgraded to GbE and integrates 10M PHY module. Features RISC-V4F processor, max 144 MHz system clock frequency Single-cycle multiplication and hardware division, hardware float point unit (FPU) 64KB SRAM, 256 KB Flash Supply voltage: 2.5 V/3.3 V, GPIO unit is supplied independently Multiple low-power modes: sleep/stop/standby Power-on/power-down reset (POR/PDR), programmable voltage detector (PVD) 2 general DMA controllers, 18 channels in total 4 amplifiers Single true random number generator (TRNG) 2x 12-bit DAC 2-unit 16-channel 12-bit ADC, 16-channel TouchKey 10 timers USB2.0 full-speed OTG interface USB2.0 high-speed host/device interface (built-in 480 Mbps PHY) 3 USARTs, 5 UARTs 2 CAN interfaces (2.0B active) SDIO interface, FSMC interface, DVP 2x I²C, 3x SPI, 2x I²S 80 I/O ports, can be mapped to 16 external interrupts CRC calculation unit, 96-bit unique chip ID Serial 2-wire debug interface Packages: LQFP64M, LQFP100 Downloads Datasheet GitHub

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Lora technologie en Lora apparaten worden op grote schaal gebruikt bij Internet of Things (IoT) toepassingen. Daarnaast leveren steeds meer mensen hier hun bijdrage aan en leren om met Lora te ontwikkelen, waardoor Lora een onmisbaar onderdeel is geworden van de IoT wereld. Om beginners te helpen de Lora technologie beter te leren kennen en te ontwikkelen is er een Lora ontwikkelingsbord speciaal voor beginners ontworpen. Deze gebruikt de RP2040 als hoofd controller, en is uitgerust met de RA-08H module die Lora en LoRaWAN protocollen ondersteunt bij het ontwikkelen.De RP2040 is een dual-core, krachtige en energiezuinige ARM Cortex-M0+ architectuurchip, geschikt voor IoT, robots, besturing, embedded systemen en andere toepassingsgebieden. RA-08H is gemaakt met de door Semtech geautoriseerde ASR6601 RF chip, die de 868 MHz-frequentieband ondersteunt, een ingebouwde 32 MHz MCU heeft, die krachtigere functies heeft dan gewone RF-modules, en ook AT-commando’s ondersteunt. Dit board bevat verschillende functionele interfaces om te kunnen ontwikkelen, zoals de Crowtail interface, een gemeenschappelijke PIN-naar-PIN header, die GPIO-poorten naar buiten voert en 3.3 V en 5 V uitgangen biedt. Hij is geschikt voor de ontwikkeling en het gebruik van veelgebruikte sensoren en elektronische modules. Daarnaast voorziet het board ook in een RS485-interface, SPI, I²C en UART-interfaces, die compatibel zijn met nog meer sensoren / modules.Naast de primair benodigde interfaces voor het ontwikkelen integreert het board ook enkele veelgebruikte functies, zoals een zoemer, instelbare knoppen, rood-geel-groene driekleurige indicatie-ledjes, en een 1,8-inch SPI-interface LCD-scherm met een resolutie van 128x160.Kenmerken Gebruikt de RP2040 als hoofd controller, met twee 32-bits ARM Cortex M0+ processorkernen (dual-core), en biedt krachtigere prestaties Is uitgerust met de RA-08H module met 32 MHz MCU, ondersteunt de 868 MHz frequentieband en AT-commando’s Uitgebreid scala aan externe interfacebronnen mogelijk, compatibel met Crowtail-serie modules en andere common interface modules Integreert veelgebruikte functies zoals zoemer, led lampjes, LCD-scherm, en instelbare knoppen, waardoor hij beknopter kan zijn en handig is bij het bouwen van projecten Ingebouwde 1,8-inch 128x160 SPI-TFT-LCD, ST7735S driver chip Compatibel met Arduino / MicroPython, geschikt om een verscheidenheid aan projecten mee te realiseren Specificaties Hoofd controller Raspberry Pi RP2040, ingebouwde 264 KB SRAM en 4 MB Flash Processor Dual Core Arm Cortex-M0+ @ 133 MHz RA-08H frequentieband 803-930 MHz RA-08H interfaces Externe antenne, SMA-interface of IPEX first-generation interface LCD-scherm Ingebouwde 1,8-inch 128x160 SPI-TFT-LCD LCD-resolutie 128x160 LCD-driver ST7735S (4-draads SPI) Ontwikkelomgeving Arduino / MicroPython Interfaces 1x passieve zoemer 4x instelbare knoppen 6x programmeerbare leds 1x RS485 communicatie interface 8x 5 V Crowtail interfaces (2x analoge interfaces, 2x digitale interfaces, 2x UART, 2x I²C) 12x 5 V universele pin header IO 14x 3,3 V universele pin header IO 1x 3,3 V / 5 V schakelbare SPI 1x 3,3 V / 5 V schakelbare UART 3x 3,3 V / 5 V schakelbare I²C Bedrijfsspanning USB 5 V / 1 A Bedrijfstemperatuur -10°C ~ 65°C Afmetingen 102 x 76,5 mm (L x B) Inbegrepen 1x Lora RA-08H Development Board 1x Lora Spring Antenne (868 MHz) 1x Lora Rubber Antenne (868 Mhz) DownloadsWiki

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SwiftIO offers a full Swift compiler and framework environment that runs on the microcontroller. The SwiftIO board is a compact electronic circuit board that runs Swift on the bare metal, giving you a system that can be used to control all kinds of electronic projects. Features NXP i.MX RT1052 Crossover Processor with ARM Cortex-M7 core @ 600 MHz 8 MB SPI Flash, 32 MB SDRAM On-board DAPLink debugger On-board USB to UART for serial communication On-board RGB LED On-board SD socket 46x GPIO, 12x ADC, 14x PWM, 4x UART, 2x I²C, 2x SPI etc. Many additional advanced features to meet the needs of advanced users Zephyr RTOS support MadMachine IDE is the premier integrated development environment for SwiftIO, which makes it easy to write Swift code and download it to the board.

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PÚCA DSP is an open-source, Arduino-compatible ESP32 development board for audio and digital signal processing (DSP) applications with expansive audio-processing features. It provides audio inputs, audio outputs, a low-noise microphone array, an integrated test-speaker option, additional memory, battery-charge management, and ESD protection all on a small, breadboard-friendly PCB. Synthesizers, Installations, Voice UI, and More PÚCA DSP can be used for a wide range of DSP applications, including but not limited to those in the fields of music, art, creative technology, and adaptive technology. Music-related examples include digital-music synthesis, mobile recording, Bluetooth speakers, wireless line-level directional microphones, and the design of smart musical instruments. Art-related examples include acoustic sensor networks, sound-art installations, and Internet-radio applications. Examples related to creative and adaptive technology include voice user interface (VUI) design and Web audio for the Internet of Sounds. Compact, Integrated Design PÚCA DSP was designed for portability. When used with an external 3.7 V rechargeable battery, it can be deployed almost anywhere or integrated into just about any device, instrument, or installation. Its design emerged from months of experimentation with various ESP32 development boards, DAC breakout boards, ADC breakout boards, Microphone breakout boards, and audio-connector breakout boards, and – despite its diminutive size – it manages to provide all of that functionality in a single board. And it dos so without compromising signal quality. Specifications Processor & Memory Espressif ESP32 Pico D4 Processor 32-bit dual core 80 MHz / 160 MHz / 240 MHz 4 MB SPI Flash with 8 MB additional PSRAM (Original Edition) Wireless 2.4 GHz Wi-Fi 802.11b/g/n Bluetooth BLE 4.2 3D Antenna Audio Wolfson WM8978 Stereo Audio Codec Audio Line In on 3.5 mm stereo onnector Audio Headphone / Line Out on 3.5 mm stereo connector Stereo Aux Line In, Audio Mono Out routed to GPIO Header 2x Knowles SPM0687LR5H-1 MEMS Microphones ESD protection on all audio inputs and outputs Support for 8, 11.025, 12, 16, 22.05, 24, 32, 44.1 and 48 kHz sample rates 1 W Speaker Driver, routed to GPIO Header DAC SNR 98 dB, THD -84 dB (‘A’ weighted @ 48 kHz) ADC SNR 95 dB, THD -84 dB (‘A’ weighted @ 48 kHz) Line input impedance: 1 MOhm Line output impedance: 33 Ohm Form Factor and Connectivity Breadboard friendly 70 x 24 mm 11x GPIO pins broken out to 2.54 mm pitch header, with access to both ESP32 ADC channels, JTAG and capacitive touch pins USB 2.0 over USB Type C connector Power 3.7/4.2 V Lithium Polymer Rechargeable Battery, USB or external 5 V DC power source ESP32 and Audio Codec can be placed into low power modes under software control Battery voltage level detection ESD protection on USB data bus Downloads GitHub Datasheet Links Crowd Supply Campaign (includes FAQs) Hardware Overview Programming the Board The Audio Codec

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Arduino, MicroPython, and CircuitPython-compatible compact development board powered by Raspberry Pi RP2040RP2040-0.42LCD is a high-performance development board with integrated 0.42' LCD (70x40 resolution) with flexible digital interfaces.It incorporates Raspberry Pi's RP2040 microcontroller chip. The RP2040 features a dual-core Arm Cortex-M0+ processor clocked at 133 MHz with 264 KB internal SRAM and 2 MB flash storage.Specifications SoC Raspberry Pi RP2040 dual-core Cortex-M0+ microcontroller at up to 125 MHz, with 264 KB SRAM Storage 2 MB SPI flash Display 0.42-inch OLED USB 1x USB Type-C port for power and programming Expansion – Qwiic I²C connector– 7-pin and 8-pin headers with up to 11x GPIOs, 2x SPI, 2x I²C, 4x ADC, 1x UART, 5 V, 3.3 V, VBAT, GND Misc – Reset and Boot buttons– RGB LED, power LED Power supply – 5 V via USB-C port or Vin– VBAT pin for battery input– 3.3 V regulator with 500 mA peak output Dimensions 23.5 x 18 mm Weight 2.5 g DownloadsGitHub

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The iCEBreaker FPGA board is an open-source educational FPGA development board. The iCEBreaker is great for classes and workshops teaching the use of the open source FPGA design flow through Yosys, nextpnr, IceStorm, Icarus Verilog, Amaranth HDL and others. This means the board is low cost and has a nice set of features to allow for the design of interesting classes and workshop exercises. At the same time it allows the user to use the proprietary vendor tools if they choose to. After the workshop the boards can be easily used as a development board as most GPIO are exposed, broken out and configurable through jumpers on the back of the board. There is only a minimal amount of buttons and LED that can't be disconnected and used for your own purposes. Documentation Workshop

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