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PIC24EP256MC204-I/ML
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PIC24EP256MC204-I/ML

Overview

  • Category: Microcontroller
  • Use: Embedded systems, industrial control, consumer electronics
  • Characteristics: High performance, low power consumption, large memory capacity
  • Package: 44-pin QFN
  • Essence: A microcontroller designed for various applications requiring high performance and low power consumption.
  • Packaging/Quantity: Tray packaging, quantity varies

Specifications

  • Architecture: 16-bit
  • CPU Speed: Up to 70 MHz
  • Flash Memory: 256 KB
  • RAM: 16 KB
  • Operating Voltage: 2.3V - 3.6V
  • Digital I/O Pins: 36
  • Analog Input Channels: 16
  • Communication Interfaces: UART, SPI, I2C, USB
  • Timers: 5
  • ADC Resolution: 10-bit
  • Temperature Range: -40°C to +85°C

Pin Configuration

The PIC24EP256MC204-I/ML microcontroller has a total of 44 pins. The pin configuration is as follows:

  1. VDD (Power Supply)
  2. VSS (Ground)
  3. AN0 (Analog Input 0)
  4. AN1 (Analog Input 1)
  5. AN2 (Analog Input 2)
  6. AN3 (Analog Input 3)
  7. AN4 (Analog Input 4)
  8. AN5 (Analog Input 5)
  9. AN6 (Analog Input 6)
  10. AN7 (Analog Input 7)
  11. AN8 (Analog Input 8)
  12. AN9 (Analog Input 9)
  13. AN10 (Analog Input 10)
  14. AN11 (Analog Input 11)
  15. AN12 (Analog Input 12)
  16. AN13 (Analog Input 13)
  17. AN14 (Analog Input 14)
  18. AN15 (Analog Input 15)
  19. VREF- (Reference Voltage Negative)
  20. VREF+ (Reference Voltage Positive)
  21. AVSS (Analog Ground)
  22. AVDD (Analog Power Supply)
  23. REFO (Reference Output)
  24. OSC1/CLKI (Oscillator Input)
  25. OSC2/CLKO (Oscillator Output)
  26. TMS (JTAG Test Mode Select)
  27. TCK (JTAG Test Clock)
  28. TDO (JTAG Test Data Out)
  29. TDI (JTAG Test Data In)
  30. PGC (Programming and Debugging Clock)
  31. PGD (Programming and Debugging Data)
  32. MCLR (Master Clear)
  33. RB0/AN5/CN4 (General Purpose I/O)
  34. RB1/AN6/CN5 (General Purpose I/O)
  35. RB2/AN7/CN6 (General Purpose I/O)
  36. RB3/AN8/CN7 (General Purpose I/O)
  37. RB4/AN9/CN8 (General Purpose I/O)
  38. RB5/AN10/CN9 (General Purpose I/O)
  39. RB6/AN11/CN10 (General Purpose I/O)
  40. RB7/AN12/CN11 (General Purpose I/O)
  41. RB8/AN13/CN12 (General Purpose I/O)
  42. RB9/AN14/CN13 (General Purpose I/O)
  43. RB10/AN15/CN14 (General Purpose I/O)
  44. RB11/AN16/CN15 (General Purpose I/O)

Functional Features

  • High-performance 16-bit architecture for efficient processing
  • Low power consumption for extended battery life
  • Large memory capacity for storing complex programs and data
  • Multiple communication interfaces for seamless connectivity
  • Analog input channels for sensor integration
  • Timers for precise timing operations
  • Wide operating temperature range for versatile applications

Advantages

  • High processing speed enables quick execution of tasks
  • Low power consumption extends battery life in portable devices
  • Ample memory capacity allows for complex program storage
  • Versatile communication interfaces facilitate easy integration with other devices
  • Analog input channels enable sensor interfacing for data acquisition
  • Precise timing operations can be achieved using the built-in timers
  • Wide operating temperature range ensures reliability in various environments

Disadvantages

  • Limited number of I/O pins may restrict the number of external devices that can be connected simultaneously
  • 16-bit architecture may not be suitable for applications requiring higher precision or performance
  • Availability and pricing may vary depending on the region and supplier

Working Principles

The PIC24EP256MC204-I/ML microcontroller operates based on a 16-bit architecture. It executes instructions stored in its flash memory, processes data, and controls

기술 솔루션에 PIC24EP256MC204-I/ML 적용과 관련된 10가지 일반적인 질문과 답변을 나열하세요.

  1. Question: What are the key features of PIC24EP256MC204-I/ML?
    Answer: The PIC24EP256MC204-I/ML features a 70 MIPS performance, integrated peripherals, and ample memory for demanding applications.

  2. Question: How can I interface external devices with PIC24EP256MC204-I/ML?
    Answer: You can use the numerous communication interfaces such as SPI, I2C, UART, and USB to interface with external devices.

  3. Question: What development tools are available for PIC24EP256MC204-I/ML?
    Answer: Development tools such as MPLAB X IDE and MPLAB XC16 Compiler support the programming and debugging of PIC24EP256MC204-I/ML.

  4. Question: Can PIC24EP256MC204-I/ML be used in industrial applications?
    Answer: Yes, PIC24EP256MC204-I/ML is suitable for industrial applications due to its robust design and wide operating temperature range.

  5. Question: Is there support for motor control applications with PIC24EP256MC204-I/ML?
    Answer: Yes, the device offers motor control peripherals and features to support various motor control applications.

  6. Question: What is the power consumption of PIC24EP256MC204-I/ML?
    Answer: The low-power modes and efficient architecture of PIC24EP256MC204-I/ML result in minimal power consumption.

  7. Question: Can PIC24EP256MC204-I/ML be used in battery-powered applications?
    Answer: Yes, the low-power capabilities make it suitable for battery-powered applications such as portable devices.

  8. Question: Are there any security features in PIC24EP256MC204-I/ML?
    Answer: Yes, the device offers security features such as code protection and a random number generator for secure applications.

  9. Question: What kind of support is available for PIC24EP256MC204-I/ML in terms of documentation and technical resources?
    Answer: Extensive documentation, application notes, and technical support are available from Microchip to assist with PIC24EP256MC204-I/ML designs.

  10. Question: Can PIC24EP256MC204-I/ML be used in medical applications?
    Answer: Yes, the device's reliability, performance, and safety-critical features make it suitable for medical applications.