TM4C1230E6PMIR

Product Overview

• Category: Microcontroller
• Use: Embedded systems development
• Characteristics: High-performance, low-power consumption
• Package: 64-pin LQFP package
• Essence: ARM Cortex-M4F based microcontroller
• Packaging/Quantity: Available in reels of 250 units

Specifications

• Processor: ARM Cortex-M4F core running at 80 MHz
• Memory: 256 KB Flash, 32 KB RAM
• Peripherals: UART, I2C, SPI, GPIO, ADC, PWM, Timers
• Operating Voltage: 3.3V
• Operating Temperature: -40°C to +85°C
• Power Consumption: Low power consumption for energy-efficient applications
• Clock Sources: Internal oscillator, external crystal or clock input
• Communication Interfaces: USB, Ethernet, CAN, I2S, etc.
• Development Tools: Integrated Development Environment (IDE), software libraries, and debugging tools available

Pin Configuration

The TM4C1230E6PMIR microcontroller has a total of 64 pins. The pin configuration is as follows:

• Pins 1-8: GPIO pins
• Pins 9-16: Analog input pins
• Pins 17-24: UART communication pins
• Pins 25-32: I2C communication pins
• Pins 33-40: SPI communication pins
• Pins 41-48: PWM output pins
• Pins 49-56: Timer input/output pins
• Pins 57-64: Power supply and ground pins

Functional Features

• High-performance ARM Cortex-M4F core for efficient processing
• Ample memory for storing program code and data
• Wide range of peripherals for versatile application development
• Low power consumption for energy-efficient designs
• Multiple communication interfaces for connectivity options
• Flexible clock sources for precise timing requirements
• Integrated development tools for easy programming and debugging

Advantages and Disadvantages

Advantages: - High-performance processing capabilities - Low power consumption for energy-efficient applications - Versatile peripherals for various application needs - Wide range of communication interfaces for connectivity options - Integrated development tools for ease of programming and debugging

Disadvantages: - Limited memory capacity compared to some other microcontrollers - Higher cost compared to entry-level microcontrollers

Working Principles

The TM4C1230E6PMIR microcontroller is based on the ARM Cortex-M4F core, which provides high-performance processing capabilities. It operates at a clock speed of 80 MHz and utilizes a combination of Flash memory and RAM for program code storage and data handling.

The microcontroller integrates various peripherals such as UART, I2C, SPI, GPIO, ADC, PWM, and timers, allowing developers to interface with external devices and sensors. These peripherals enable the microcontroller to communicate with other devices, perform analog-to-digital conversions, generate PWM signals, and handle timing functions.

The TM4C1230E6PMIR microcontroller can be programmed using an integrated development environment (IDE) and software libraries provided by the manufacturer. Debugging tools are also available to aid in the development process.

Detailed Application Field Plans

The TM4C1230E6PMIR microcontroller finds applications in various fields, including but not limited to:

1. Industrial Automation: Control systems, motor control, and monitoring devices.
2. Internet of Things (IoT): Smart home automation, sensor networks, and IoT gateways.
3. Consumer Electronics: Wearable devices, home appliances, and gaming peripherals.
4. Automotive: Infotainment systems, engine control units, and vehicle diagnostics.
5. Medical Devices: Patient monitoring systems, medical imaging, and diagnostic equipment.

Detailed and Complete Alternative Models

1. TM4C123GH6PM: Similar microcontroller with higher memory capacity (256 KB Flash, 32 KB RAM).
2. TM4C1294NCPDT: Microcontroller with additional Ethernet and CAN communication interfaces.
3. STM32F407VGT6: ARM Cortex-M4 based microcontroller with similar features and peripherals.
4. PIC32MZ2048EFH144: Microcontroller with high-performance MIPS core and extensive peripheral set.
5. MSP432P401R: Low-power microcontroller with ARM Cortex-M4F core and integrated capacitive touch sensing.

These alternative models offer different specifications and features, allowing developers to choose the most suitable microcontroller for their specific application requirements.

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