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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

Перечислите 10 распространенных вопросов и ответов, связанных с применением TM4C1230D5PMIR в технических решениях.

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.