MPC5554MZP132R2

Product Overview

• Category: Microcontroller
• Use: Embedded systems, automotive applications
• Characteristics:
  • High-performance microcontroller
  • Power-efficient design
  • Integrated peripherals for automotive applications
• Package: MZP132R2
• Essence: Advanced microcontroller for automotive embedded systems
• Packaging/Quantity: Single unit packaging

Specifications

• Architecture: Power Architecture
• CPU Core: e200z4
• Clock Speed: Up to 80 MHz
• Flash Memory: 1 MB
• RAM: 64 KB
• Operating Voltage: 3.3V
• Operating Temperature Range: -40°C to +125°C
• Communication Interfaces:
  • CAN (Controller Area Network)
  • LIN (Local Interconnect Network)
  • FlexRay
  • SPI (Serial Peripheral Interface)
  • I2C (Inter-Integrated Circuit)
• Analog-to-Digital Converter (ADC): 10-bit, 16 channels
• Timers: Enhanced Time Processing Units (eTPU), Quad Timer Units (eQADC)
• PWM Channels: 8
• GPIO Pins: 132

Detailed Pin Configuration

The MPC5554MZP132R2 microcontroller has a total of 132 pins. The pin configuration is as follows:

• Pins 1-32: General Purpose Input/Output (GPIO) pins
• Pins 33-48: Analog Input pins
• Pins 49-56: PWM Output pins
• Pins 57-72: Communication Interface pins (CAN, LIN, FlexRay, SPI, I2C)
• Pins 73-96: External Interrupt pins
• Pins 97-112: Serial Communication Interface pins (SCI)
• Pins 113-120: Debug and Test pins
• Pins 121-128: Power Supply and Ground pins
• Pins 129-132: Clock Input and Output pins

Functional Features

• High-performance e200z4 CPU core for efficient processing
• Integrated peripherals for automotive applications, such as CAN, LIN, and FlexRay interfaces
• Enhanced Time Processing Units (eTPU) for precise timing control
• Analog-to-Digital Converter (ADC) for accurate analog signal acquisition
• Multiple communication interfaces for seamless connectivity
• Flexible PWM channels for controlling motors and actuators
• Ample GPIO pins for interfacing with external devices

Advantages and Disadvantages

Advantages

• High-performance microcontroller suitable for demanding automotive applications
• Power-efficient design for optimized energy consumption
• Integrated peripherals reduce the need for external components
• Wide operating temperature range enables reliable operation in harsh environments
• Ample GPIO pins provide flexibility in system design

Disadvantages

• Limited flash memory and RAM compared to some other microcontrollers in the market
• Higher cost compared to lower-end microcontrollers
• Steeper learning curve due to the complexity of the Power Architecture

Working Principles

The MPC5554MZP132R2 microcontroller operates based on the Power Architecture. It utilizes the e200z4 CPU core, which provides high-performance processing capabilities. The integrated peripherals, such as CAN, LIN, and FlexRay interfaces, enable seamless communication with other automotive systems.

The microcontroller's working principle involves executing instructions stored in its flash memory. It interacts with external devices through GPIO pins, communication interfaces, and timers. The ADC allows for precise analog signal acquisition, while the PWM channels facilitate motor and actuator control.

Detailed Application Field Plans

The MPC5554MZP132R2 microcontroller finds extensive use in various automotive applications, including:

1. Engine Control Units (ECUs)
2. Transmission Control Units (TCUs)
3. Body Control Modules (BCMs)
4. Advanced Driver Assistance Systems (ADAS)
5. Infotainment Systems
6. Electric Power Steering (EPS) systems
7. Lighting Control Units (LCUs)

Its high-performance capabilities, integrated peripherals, and robust design make it suitable for demanding automotive environments.

Detailed and Complete Alternative Models

1. MPC5643L: Another microcontroller from the same family with enhanced features and higher performance.
2. SPC560B50L5: A microcontroller from a different manufacturer with similar specifications and automotive focus.
3. STM32F767ZIT6: A microcontroller from a different architecture but with comparable features and wide application support.

These alternative models offer similar functionalities and can be considered based on specific project requirements and compatibility considerations.

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