Search results for "module transceiver"
Kuongshun nRF24L01+ Wireless Transceiver Module (2.4 GHz)
NRF24L01 is a universal ISM band monolithic transceiver chip works in the 2.4-2.5 GHz. Features Wireless transceiver including: Frequency generator, enhanced type, SchockBurstTM, mode controller, power amplifier, crystal amplifier, modulator, demodulator The output power channel selection and protocol settings can be set extremely low current consumption, through the SPI interface As the transmit mode, the transmit power is 6 dBm, the current is 9.0 mA, the accepted mode current is 12.3 mA, the current consumption of the power-down mode and standby mode are lower Built-in 2.4 GHz antenna, supports up to six channels of data reception Size: 15 x 29 mm (including antenna)
€ 7,95
Members € 7,16
Seeed Studio Seeed Studio RFM95 Ultra-long LoRa Transceiver Module (EU868)
The RFM95 is a LoRa / SigFox module to be used with Arduino / ESP32 / Raspberry Pi and many other. With ideal conditions, you can get ranges up to 2km+ while having only small power consumption. It is equipped with the LoRa long range modem that provides ultra-long range spread spectrum communication and high interference immunity. Using the patented LoRa™ modulation technique RFM95 can achieve a sensitivity of over -148dBm using a low-cost crystal and bill of materials. The high sensitivity combined with the integrated +20 dBm power amplifier yields industry leading link budget making it optimal for any application requiring range or robustness. Features maximum link budget: 168 dB +20 dBm - 100 mW constant RF output vs. V supply +14 dBm high efficiency PA Programmable bit rate up to 300 kbps. High sensitivity: down to -148 dBm. Bullet-proof front end: IIP3 = -12.5 dBm. Built-in bit synchronizer for clock recovery. Excellent blocking immunity. Low RX current of 10.3 mA, 200 mA register retention. Fully integrated synthesizer with a resolution of 61 Hz. FSK, GFSK, MSK, GMSK, LoRa™ and OOK modulation. Preamble detection. 127 dB Dynamic Range RSSI. Automatic RF Sense and CAD with ultra-fast AFC. Packet engine up to 256 bytes with CRC. Built-in temperature sensor Low battery indicator. Dimensions: 16 x 16 mm Applications Automated Meter Reading Home and Building Automation Wireless Alarm and Security Systems Industrial Monitoring and Control Long range Irrigation Systems
€ 15,95
Members € 14,36
Makerfabs CAN Module MCP2515
This CAN Module is based on the CAN bus controller MCP2515 and CAN transceiver TJA1050. With this module, you will easy to control any CAN Bus device by SPI interface with your MCU, such as Arduino Uno and so on. Features Support CAN V2.0B Communication rate up to 1 MB/s Working Voltage: 5 V Working Current: 5 mA Interface: SPI Downloads MCP2515 Datasheet TJA1050 Datasheet
€ 9,95
Members € 8,96
Kuongshun ESP-01 Adapter Module 3.3-5 V (Arduino compatible)
Don't send 5 V signals to your ESP8266. The use of an ESP8266 with Arduino requires logic level translation of the UART signal, as provided by this easy 3.3 V - 5 V adapter. It makes the ESP-01 ESP8266 WiFi module (150445-91) the easiest WiFi transceiver for your Arduino (5 V). Adapter module for ESP-01 Wi-Fi module 3.3 V voltage regulator circuit & onboard level conversion for easy use of 5 V microcontroller with ESP-01 Wi-Fi module Compatible with Uno R3 4.5 ~ 5.5 V (on-board 3.3 V LDO Regulator) Interface logic voltage: 3.3 V / 5 V compatible (on-board level shift) Current: 0 - 240 mA
€ 5,95
Members € 5,36
Elektor Labs Elektor SDR Shield 2.0
This board is a newer version of the Elektor SDR Reloaded, the difference is that on this new version with two PLL outputs and two LF-outputs, which are accessible via additional connectors on the board (not included in the kit). This allows the user to use this Arduino shield as a signal generator, SW transmitter or even transceiver. Specifications Operating Voltage 5 V and 3.3 V from Arduino Frequency Range 150 kHz to 30 MHz Sensitivity 1 µV Overall Gain 40 dB Maximum signal level at antenna 10 mV Dynamic Range 80 dB Please note: The module doesn't come pre-soldered. Links Elektor SDR Shield 2.0 (1) Elektor SDR Shield 2.0 (2) Elektor SDR Shield 2.0 (3)
€ 39,95€ 29,95
Members € 26,96
iLabs iLabs Challenger RP2040 LoRa (EU868)
The Challenger RP2040 LoRa is an Arduino/CircuitPython compatible Adafruit Feather format microcontroller board based on the Raspberry Pi Pico (RP2040) chip.The transceiver features a LoRa long range modem that provides ultra-long range spread spectrum communication and high interference immunity whilst minimizing current consumption.LoRaThe integrated module LoRa module (RFM95W) can achieve a sensitivity of over -148 dBm utilizing a low cost crystal and bill of materials. The high sensitivity combined with the integrated +20 dBm power amplifier yields industry leading link budget making it optimal for any application requiring range or robustness. LoRa also provides significant advantages in both blocking and selectivity over conventional modulation techniques, solving the traditional design compromise between range, interference immunity and energy consumption.The RFM95W is connected to the RP2040 via SPI channel 1 and a few GPIO’s that is required for signaling. A U.FL connector is used to attach your LoRa antenna to the board. 168 dB maximum link budget +20 dBm – 100 mW constant RF output vs. V supply +14 dBm high efficiency PA Programmable bit rate up to 300 kbps High sensitivity: down to -148 dBm Bullet-proof front end: IIP3 = -12.5 dBm Excellent blocking immunity Low RX current of 10.3 mA, 200 nA register retention Fully integrated synthesizer with a resolution of 61 Hz FSK, GFSK, MSK, GMSK, LoRaTM and OOK modulation Built-in bit synchronizer for clock recovery Preamble detection 127 dB Dynamic Range RSSI Automatic RF Sense and CAD with ultra-fast AFC Packet engine up to 256 bytes with CRC Specifications Microcontroller RP2040 from Raspberry Pi (133 MHz dual-core Cortex-M0) SPI Two SPI channels configured (second SPI connected to RFM95W) I²C One I²C channel configured UART One UART channel configured Analog inputs 4 analog input channels Radio module RFM95W from Hope RF Flash memory 8 MB, 133 MHz SRAM memory 264 KB (divided into 6 banks) USB 2.0 controller Up to 12 MBit/s full speed (integrated USB 1.1 PHY) JST Battery connector 2.0 mm pitch On board LiPo charger 450 mA standard charge current Dimensions 51 x 23 x 3,2 mm Weight 9 g Downloads Datasheet Design files
€ 24,95
Members € 22,46
WCH CH32V307V-EVT-R1 RISC-V Development Board
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
€ 19,95€ 11,95
Members identical
SparkFun SparkFun DataLogger IoT (9DoF)
The SparkFun DataLogger IoT (9DoF) is a data logger that comes preprogrammed to automatically log IMU, GPS, and various pressure, humidity, and distance sensors. All without writing a single line of code! The DataLogger automatically detects, configures, and logs Qwiic sensors. It was specifically designed for users who just need to capture a lot of data to a CSV or JSON file and get back to their larger project. Save the data to a microSD card or send it wirelessly to your preferred Internet of Things (IoT) service! Included on every DataLogger IoT is an IMU for built-in logging of a triple-axis accelerometer, gyro, and magnetometer. Whereas the original 9DOF Razor used the old MPU-9250, the DataLogger IoT uses the ISM330DHCX from STMicroelectronics and MMC5983MA from MEMSIC. Simply power up the DataLogger IoT, configure the board to record readings from supported devices, and begin logging! Data can be time-stamped when the time is synced to NTP, GNSS, or RTC. The DataLogger IoT is highly configurable over an easy-to-use serial interface. Simply plug in a USB-C cable and open a serial terminal at 115200 baud. The logging output is automatically streamed to both the terminal and the microSD card. Pressing any key in the terminal window will open the configuration menu. The DataLogger IoT (9DoF) automatically scans, detects, configures, and logs various Qwiic sensors plugged into the board (no soldering, no programming!). Specifications ESP32-WROOM-32E Module Integrated 802.11b/g/n WiFi 2.4 GHz transceiver Configurable via CH340C Operating voltage range 3.3 V to 6.0 V (via VIN) 5 V with USB (via 5 V or USB type C) 3.6 V to 4.2 V with LiPo battery (via BATT or 2-pin JST) Built-in MCP73831 single cell LiPo charger Minimum 500 mA charge rate 3.3 V (via 3V3) MAX17048 LiPo Fuel Gauge Ports 1x USB-C 1x JST style connector for LiPo battery 2x Qwiic enabled I²C 1x microSD socket Support for 4-bit SDIO and microSD cards formatted to FAT32 9-axis IMU Accelerometer & Gyro (ISM330DHCX) Magnetometer (MMC5983MA) LEDs Charge (CHG) Status (STAT) WS2812-2020 Addressable RGB Jumpers IMU interrupt Magnetometer interrupt RGB LED Status LED Charge LED I²C pull-up resistors USB Shield Buttons Reset Boot Dimensions: 1.66 x 2.0" (4.2 x 5.1 cm) Weight: 10.7 g Downloads Schematic Eagle Files Board Dimensions Hookup Guide CH340 Drivers Firmware GitHub Hardware Repo
€ 94,95
Members € 85,46
SparkFun SparkFun MicroMod nrf Processor
This module includes an integrated trace antenna, fits the IC to an FCC-approved footprint, and includes decoupling and timing mechanisms that would need to be designed into a circuit using the bare nRF52840 IC. The Bluetooth transceiver included on the nRF52840 boasts a BT 5.1 stack. It supports Bluetooth 5, Bluetooth mesh, IEEE 802.15.4 (Zigbee & Thread) and 2.4Ghz RF wireless protocols (including Nordic's proprietary RF protocol) allowing you to pick which option works best for your application. Features ARM Cortex-M4 CPU with a floating-point unit (FPU) 1MB internal Flash -- For all of your program, SoftDevice, and file-storage needs! 256kB internal RAM -- For your stack and heap storage. Integrated 2.4GHz radio with support for: Bluetooth Low Energy (BLE) -- With peripheral and/or central BLE device support Bluetooth 5 -- Mesh Bluetooth! ANT -- If you want to turn the device into a heart-rate or exercise monitor. Nordic's proprietary RF protocol -- If you want to communicate, securely, with other Nordic devices. Every I/O peripheral you could need. USB -- Turn your nRF52840 into a USB mass-storage device, use a CDC (USB serial) interface, and more. UART -- Serial interfaces with support for hardware flow-control if desired. I²C -- Everyone's favourite 2-wire bi-directional bus interface SPI -- If you prefer the 3+-wire serial interface Analogue-to-digital converters (ADC) -- Eight pins on the nRF52840 Mini Breakout support analogue inputs PWM -- Timer support on any pin means PWM support for driving LEDs or servo motors. Real-time clock (RTC) -- Keep close track of seconds and milliseconds, also supports timed deep-sleep features. Three UARTs Primary tied to USB interface. Two hardware UARTs. Two I²C Buses Two SPI Buses Secondary SPI Bus primarily used for Flash IC. PDM Audio Processing Two Analog Inputs Two Dedicated Digital I/O Pins Two Dedicated PWM Pins Eleven General Purpose I/O Pins
€ 29,95
Members € 26,96
Arduino Arduino Giga R1 WiFi
The Arduino Giga R1 WiFi brings the power of the STM32H7 to the same form factor as the popular Mega and Due, being the first Mega board to include onboard Wi-Fi and Bluetooth connectivity. The board provides 76 digital inputs/outputs (12 with PWM capability), 14 analog inputs and 2 analog outputs (DAC) all easily accessible via pin headers. The STM32 microprocessor with dual-core Cortex-M7 and Cortex-M4, together with onboard memory and audio jack enables you to perform machine learning and signal processing on the edge. Microcontroller (STM32H747XI) This dual core 32-bits microcontroller allows you have two brain talking to each other (a Cortex-M7 at 480 MHz and a Cortex-M4 at 240 MHz) you can even run micropython in one and Arduino in the other. Wireless communication (Murata 1DX) Whether you prefer Wi-Fi or Bluetooth, the Giga R1 WiFi got you covered. You can even quickly connect to the Arduino IoT Cloud and keep track of your project remotely. And if you are concerned about the security of the communication, the ATECC608A keeps everything under control. Hardware ports and communication Following the legacy of the Arduino Mega and the Arduino Due, the Giga R1 WiFi has 4x UARTs (hardware serial ports), 3x I²C ports (1 more than its predecessors), 2x SPI ports (1 more than its predecessors), 1x FDCAN. GPIOs and extra pins By keeping the same form factor of the Mega and the Due, you can easily adapt your custom made shields to the Giga R1 WiFi (remember this board works at 3.3 V though!). Also, additional headers have been added so that the total number of GPIO pins is now 76, and two new pins have been added: a VRTC so you can connect a battery to keep the RTC running while the board is off and an OFF pin so you can shut down the board. Connectors The Giga R1 WiFi has extra connectors on board which will facilitate the creation of your project without any extra hardware. This board has: USB-A connector suitable for hosting USB sticks, other mass storage devices and HID devices such as keyboard or mouse. 3.5 mm input-output jack connected to DAC0, DAC1 and A7. USB-C to power and program the board, as well as simulate an HID device such as mouse or keyboard. Jtag connector, 2x5 1.27 mm. 20-pin Arducam camera connector. Higher voltage support: In comparison with its predecessors that support up to 12 V, the Giga R1 WiFi can handle a range of 6 to 24 V. Specifications Microcontroller STM32H747XI dual Cortex-M7+M4 32-bit low power ARM MCU (datasheet) Radio Module Murata 1DX dual WiFi 802.11b/g/n 65 Mbps and Bluetooth (datasheet) Secure Element ATECC608A-MAHDA-T (datasheet) USB USB-C Programming Port / HID USB-A Host (enable with PA_15) Pins Digital I/O pins 76 Analog input pins 12 DAC 2 (DAC0/DAC1) PWM pins 12 Misc VRT & OFF pin Communication UART 4x I²C 3x SPI 2x CAN Yes (requires an external transceiver) Connectors Camera I²C + D54-D67 Display D1N, D0N, D1P, D0P, CKN, CKP + D68-D75 Audio Jack DAC0, DAC1, A7 Power Circuit operating voltage 3.3 V Input voltage (VIN) 6-24 V DC Current per I/O Pin 8 mA Clock Speed Cortex-M7 480 MHz Cortex-M4 240 MHz Memory STM32H747XI 2 MB Flash, 1 MB RAM Dimensions 53 x 101 mm Downloads Datasheet Schematics Pinout
€ 89,95
Members € 80,96
LILYGO LILYGO T-Beam V1.2 ESP32 LoRa Development Board with 0.96" Display (EU868)
This LILYGO T-Beam V1.2 ESP32 LoRa Development Board comes with pre-installed Meshtastic and soldered 0.96" display. The board has a built-in Semtech SX1262 LoRa transceiver and is equipped with a NEO-6M GPS receiver. GPS NEO-6M GPS module: Support GPS protocol Onboard RTC crystal: Support interrupt/wakeup LoRa Long Range Low Power LoRa Transceiver High sensitivity: -i48 dBm Transceive rate: 300 kbps Version: SX1276 (868 MHz) Firmware: Meshtastic Display OLED: 0.96 inch Driver: SSD1306 Specifications Microcontroller ESP32 Flash 4 MB PSRAM 8 MB Serial Chip CH9102 Wireless protocol Wi-Fi + Bluetooth 4.2 PMU AXP2101 Onboard functions 3 buttons (Power + IO38 + Reset) Power supply Micro USB, 18650 battery Antenna 3D WiFi Antenna LoRa antenna GPS ceramic antenna Included 1x LILYGO T-Beam V1.2 CH9102 1x 868 MHz Antenna 1x Soldered 0.96" LCD (128x64) 2x Pin headers Downloads GitHub Schematics
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, by Jean-François Simon The RC-RICK-868-EV Wireless Modem: A Compelling Addition to Your Workbench
The RC-RICK-868 is a radio modem with a UART interface using LoRa modulation, designed for easy point-to-point communication. Let's take a look.