ADIY FLY RP2040 Basic Board Type C


ADIY FLY RP2040 Type C comes with a large on-chip memory, symmetric dual-core processor complex, deterministic bus fabric, and rich peripheral set augmented with a unique Programmable I/O (PIO) subsystem, RP2040 provides professional users with unrivalled power and flexibility. ADIY FLY pairs RP2040 with 4MB of Flash memory, and a power supply chip supporting input voltages from 3.3-5.5V. It provides 27 GPIO pins, 4 of which can function as analogue inputs, on 2.54mm-pitch through-hole pads. The RESET button on ADIY FLY makes the usage of module easy. On Board LED is added to indicate the power supply.

RP2040 is manufactured on a modern 40nm process node, delivering high performance, low dynamic power consumption, and low leakage, with a variety of low-power modes to support extended-duration operation on battery power.

 


Price :  excl. GST
Qty Price
1 > 232.00
6 > 224.00
21 > 215.00
50 > 211.00
100 > 208.00
200 > 205.00
500 > 201.00

ADIY FLY RP2040 Type C comes with a large on-chip memory, symmetric dual-core processor complex, deterministic bus fabric, and rich peripheral set augmented with a unique Programmable I/O (PIO) subsystem, RP2040 provides professional users with unrivalled power and flexibility. ADIY FLY pairs RP2040 with 4MB of Flash memory, and a power supply chip supporting input voltages from 3.3-5.5V. It provides 27 GPIO pins, 4 of which can function as analogue inputs, on 2.54mm-pitch through-hole pads. The RESET button on ADIY FLY makes the usage of module easy. On Board LED is added to indicate the power supply.

RP2040 is manufactured on a modern 40nm process node, delivering high performance, low dynamic power consumption, and low leakage, with a variety of low-power modes to support extended-duration operation on battery power.

 

Features:

  1. Pin to Pin as Compatible as Raspberry Pi Pico
  2. Type C connector
  3. With RESET Button
  4. With 4MB FLASH memory
  5. Dual-core Arm Cortex-M0+ processor, flexible clock running up to 133 MHz
  6. 264KB on-chip SRAM
  7. DMA controller
  8. Accelerated integer and floating-point libraries on-chip
  9. Drag-and-drop programming using mass storage over USB   
  10. 2 on-chip PLLs to generate USB and core clocks
  11. 27 GPIO pins, 4 of which can be used as analog inputs
  12. 2 × UART, 2 × SPI controllers, 2 × I2C controllers, 16 × PWM channels
  13. 1 × USB 1.1 controller and PHY, with host and device support
  14. Accurate on-chip clock, Temperature sensor
  15. 8 × Programmable I/O (PIO) state machines for custom peripheral support
  16. High quality, low cost, high availability
  17. Simple yet highly flexible power supply architecture  
  18. Various options for easily powering the unit from micro-USB, external supplies, or batteries  
  19. Comprehensive SDK, software examples and documentation