NXP USA Inc.
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MC9S12C64VFUE
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MC9S12C64VFUE

Product Overview

Category

MC9S12C64VFUE belongs to the category of microcontrollers.

Use

It is primarily used for embedded systems and applications that require control and processing capabilities.

Characteristics

  • 16-bit microcontroller
  • High-performance CPU
  • Integrated peripherals
  • Low power consumption
  • Enhanced security features

Package

MC9S12C64VFUE is available in a compact package, suitable for surface mount technology (SMT) assembly.

Essence

The essence of MC9S12C64VFUE lies in its ability to provide efficient control and processing capabilities within a small form factor.

Packaging/Quantity

MC9S12C64VFUE is typically packaged in reels or trays, with a standard quantity of 250 units per reel/tray.

Specifications

  • Architecture: 16-bit
  • Flash Memory: 64KB
  • RAM: 4KB
  • Operating Voltage: 2.35V to 5.5V
  • Clock Speed: Up to 25MHz
  • Number of I/O Pins: 52
  • Communication Interfaces: UART, SPI, I2C
  • Analog-to-Digital Converter (ADC): 10-bit, 8 channels
  • Timers/Counters: 8-bit and 16-bit timers/counters

Detailed Pin Configuration

The pin configuration of MC9S12C64VFUE is as follows:

  1. VDD - Power supply voltage
  2. VSS - Ground
  3. RESET - Reset signal input
  4. IRQ - Interrupt request input
  5. PT0 - Port T0
  6. PT1 - Port T1
  7. PT2 - Port T2
  8. PT3 - Port T3
  9. PT4 - Port T4
  10. PT5 - Port T5
  11. PT6 - Port T6
  12. PT7 - Port T7
  13. PTH0 - Port H0
  14. PTH1 - Port H1
  15. PTH2 - Port H2
  16. PTH3 - Port H3
  17. PTH4 - Port H4
  18. PTH5 - Port H5
  19. PTH6 - Port H6
  20. PTH7 - Port H7
  21. PTJ0 - Port J0
  22. PTJ1 - Port J1
  23. PTJ2 - Port J2
  24. PTJ3 - Port J3
  25. PTJ4 - Port J4
  26. PTJ5 - Port J5
  27. PTJ6 - Port J6
  28. PTJ7 - Port J7
  29. XTAL - Crystal oscillator input
  30. EXTAL - Crystal oscillator output
  31. VDDA - Analog power supply voltage
  32. VSSA - Analog ground
  33. AD0 - Analog input 0
  34. AD1 - Analog input 1
  35. AD2 - Analog input 2
  36. AD3 - Analog input 3
  37. AD4 - Analog input 4
  38. AD5 - Analog input 5
  39. AD6 - Analog input 6
  40. AD7 - Analog input 7
  41. ADCONV - Analog-to-digital converter control signal
  42. SS - Slave select for SPI communication
  43. SCK - Serial clock for SPI communication
  44. MOSI - Master output, slave input for SPI communication
  45. MISO - Master input, slave output for SPI communication
  46. SDA - Serial data line for I2C communication
  47. SCL - Serial clock line for I2C communication
  48. TXD - Transmit data for UART communication
  49. RXD - Receive data for UART communication
  50. T0 - Timer/Counter 0 input
  51. T1 - Timer/Counter 1 input
  52. T2 - Timer/Counter 2 input

Functional Features

  • High-performance CPU with efficient instruction set
  • Integrated peripherals for enhanced functionality
  • Low power consumption for energy-efficient operation
  • Enhanced security features to protect sensitive data
  • Flexible communication interfaces for seamless connectivity
  • Analog-to-digital converter for precise analog signal processing
  • Timers/counters for accurate timing and event counting

Advantages and Disadvantages

Advantages

  • Compact size and low power consumption make it suitable for embedded systems
  • High-performance CPU enables efficient control and processing
  • Integrated peripherals provide enhanced functionality
  • Enhanced security features ensure data protection

Disadvantages

  • Limited memory capacity compared to some other microcontrollers
  • May require additional external components for certain applications

Working Principles

MC9S12C64VFUE operates based on the principles of

Seznam 10 běžných otázek a odpovědí souvisejících s aplikací MC9S12C64VFUE v technických řešeních

Sure! Here are 10 common questions and answers related to the application of MC9S12C64VFUE in technical solutions:

  1. Q: What is MC9S12C64VFUE? A: MC9S12C64VFUE is a microcontroller from the MC9S12 family, specifically designed for embedded applications.

  2. Q: What are the key features of MC9S12C64VFUE? A: Some key features include a 16-bit CPU core, 64KB flash memory, 2KB RAM, multiple communication interfaces, and analog-to-digital converters.

  3. Q: What kind of technical solutions can MC9S12C64VFUE be used for? A: MC9S12C64VFUE can be used in various technical solutions such as automotive systems, industrial control, consumer electronics, and more.

  4. Q: How does MC9S12C64VFUE handle communication interfaces? A: MC9S12C64VFUE supports multiple communication interfaces like UART, SPI, I2C, CAN, and LIN, making it suitable for connecting with other devices.

  5. Q: Can MC9S12C64VFUE be programmed using C/C++? A: Yes, MC9S12C64VFUE can be programmed using C/C++ programming languages, along with assembly language if needed.

  6. Q: What development tools are available for MC9S12C64VFUE? A: There are several development tools available, including integrated development environments (IDEs), compilers, debuggers, and programmers.

  7. Q: Is MC9S12C64VFUE suitable for real-time applications? A: Yes, MC9S12C64VFUE is suitable for real-time applications due to its fast processing speed and support for interrupt handling.

  8. Q: Can MC9S12C64VFUE be used in low-power applications? A: Yes, MC9S12C64VFUE offers various power-saving modes and features that make it suitable for low-power applications.

  9. Q: Are there any development boards available for MC9S12C64VFUE? A: Yes, there are development boards specifically designed for MC9S12C64VFUE, which provide a convenient platform for prototyping and testing.

  10. Q: Where can I find documentation and resources for MC9S12C64VFUE? A: You can find documentation, datasheets, application notes, and other resources on the manufacturer's website or through online communities and forums dedicated to MC9S12 microcontrollers.

Please note that the answers provided here are general and may vary depending on specific requirements and use cases.