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TM4C1230D5PMIR
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TM4C1230D5PMIR

Product Overview

  • Category: Microcontroller
  • Use: Embedded systems development
  • Characteristics: High-performance, low-power consumption
  • Package: LQFP (Low-profile Quad Flat Package)
  • Essence: ARM Cortex-M4F based microcontroller
  • Packaging/Quantity: Tray packaging, quantity varies

Specifications

  • Processor: ARM Cortex-M4F
  • Clock Speed: Up to 80 MHz
  • Flash Memory: 256 KB
  • RAM: 32 KB
  • Operating Voltage: 2.7V - 3.6V
  • I/O Pins: 53
  • Communication Interfaces: UART, SPI, I2C, USB
  • Analog-to-Digital Converter (ADC): 12-bit, 8 channels
  • Timers: 6 x 16/32-bit timers
  • PWM Outputs: 10
  • Operating Temperature Range: -40°C to +85°C

Pin Configuration

The TM4C1230D5PMIR microcontroller has a total of 53 I/O pins. The pin configuration is as follows:

  1. Pin 1: GPIOA0
  2. Pin 2: GPIOA1
  3. Pin 3: GPIOA2
  4. Pin 4: GPIOA3
  5. Pin 5: GPIOA4
  6. Pin 6: GPIOA5
  7. Pin 7: GPIOA6
  8. Pin 8: GPIOA7
  9. Pin 9: GPIOB0
  10. Pin 10: GPIOB1
  11. Pin 11: GPIOB2
  12. Pin 12: GPIOB3
  13. Pin 13: GPIOB4
  14. Pin 14: GPIOB5
  15. Pin 15: GPIOB6
  16. Pin 16: GPIOB7
  17. Pin 17: GPIOC0
  18. Pin 18: GPIOC1
  19. Pin 19: GPIOC2
  20. Pin 20: GPIOC3
  21. Pin 21: GPIOC4
  22. Pin 22: GPIOC5
  23. Pin 23: GPIOC6
  24. Pin 24: GPIOC7
  25. Pin 25: GPIOD0
  26. Pin 26: GPIOD1
  27. Pin 27: GPIOD2
  28. Pin 28: GPIOD3
  29. Pin 29: GPIOD4
  30. Pin 30: GPIOD5
  31. Pin 31: GPIOD6
  32. Pin 32: GPIOD7
  33. Pin 33: GPIOE0
  34. Pin 34: GPIOE1
  35. Pin 35: GPIOE2
  36. Pin 36: GPIOE3
  37. Pin 37: GPIOE4
  38. Pin 38: GPIOE5
  39. Pin 39: GPIOE6
  40. Pin 40: GPIOE7
  41. Pin 41: GPIOF0
  42. Pin 42: GPIOF1
  43. Pin 43: GPIOF2
  44. Pin 44: GPIOF3
  45. Pin 45: GPIOF4
  46. Pin 46: GPIOF5
  47. Pin 47: GPIOF6
  48. Pin 48: GPIOF7
  49. Pin 49: GND
  50. Pin 50: VDD
  51. Pin 51: RESET
  52. Pin 52: NMI
  53. Pin 53: GND

Functional Features

  • High-performance ARM Cortex-M4F processor for efficient processing
  • Low-power consumption for extended battery life in portable devices
  • Ample flash memory and RAM for storing and executing code
  • Multiple communication interfaces for seamless connectivity
  • Analog-to-Digital Converter (ADC) for precise analog measurements
  • Timers and PWM outputs for accurate timing and control

Advantages and Disadvantages

Advantages

  • Powerful processor for handling complex tasks
  • Low power consumption for energy-efficient designs
  • Ample memory for storing code and data
  • Versatile communication interfaces for easy integration with other devices
  • Precise analog measurements with the built-in ADC
  • Accurate timing and control with timers and PWM outputs

Disadvantages

  • Limited I/O pins compared to some other microcontrollers
  • Higher cost compared to entry-level microcontrollers

Working Principles

The TM4C1230D5PMIR microcontroller is based on the ARM Cortex-M4F architecture, which provides high performance and low power consumption. It operates at a clock speed of up

Καταγράψτε 10 συνήθεις ερωτήσεις και απαντήσεις που σχετίζονται με την εφαρμογή του TM4C1230D5PMIR σε τεχνικές λύσεις

Sure! Here are 10 common questions and answers related to the application of TM4C1230D5PMIR in technical solutions:

  1. Q: What is TM4C1230D5PMIR? A: TM4C1230D5PMIR is a microcontroller from Texas Instruments' Tiva C Series, specifically designed for embedded applications.

  2. Q: What are the key features of TM4C1230D5PMIR? A: Some key features include a 32-bit ARM Cortex-M4F core, 256KB Flash memory, 32KB RAM, multiple communication interfaces, and various peripherals.

  3. Q: What kind of technical solutions can TM4C1230D5PMIR be used for? A: TM4C1230D5PMIR can be used in a wide range of applications such as industrial automation, consumer electronics, Internet of Things (IoT), robotics, and more.

  4. Q: How do I program TM4C1230D5PMIR? A: TM4C1230D5PMIR can be programmed using various development tools like Code Composer Studio (CCS) or Energia IDE, which support the Tiva C Series microcontrollers.

  5. Q: What programming language is commonly used with TM4C1230D5PMIR? A: The most commonly used programming language for TM4C1230D5PMIR is C/C++, although some developers also use assembly language for specific tasks.

  6. Q: Can TM4C1230D5PMIR communicate with other devices? A: Yes, TM4C1230D5PMIR has built-in communication interfaces like UART, SPI, I2C, and USB, which allow it to communicate with other devices such as sensors, displays, and actuators.

  7. Q: How can I power TM4C1230D5PMIR? A: TM4C1230D5PMIR can be powered using a 3.3V power supply. It also has built-in voltage regulators that allow it to operate within a wide range of input voltages.

  8. Q: Can TM4C1230D5PMIR connect to the internet? A: Yes, TM4C1230D5PMIR can connect to the internet using its Ethernet interface or by adding external modules like Wi-Fi or GSM modules.

  9. Q: Are there any development boards available for TM4C1230D5PMIR? A: Yes, Texas Instruments provides development boards like the Tiva C Series LaunchPad, which are specifically designed for prototyping and developing applications with TM4C1230D5PMIR.

  10. Q: Where can I find documentation and resources for TM4C1230D5PMIR? A: You can find documentation, datasheets, application notes, and other resources on the official Texas Instruments website or community forums dedicated to TM4C1230D5PMIR.