The NXP S87C752-2A28 is a high-performance microcontroller that is part of NXP's renowned 8-bit microcontroller portfolio. Designed to offer both efficiency and versatility, this microcontroller is an ideal solution for a wide range of applications in industrial control, automotive systems, home appliances, and consumer electronics.

Key Features

• Core: The S87C752-2A28 is built around a powerful 80C51 microcontroller core, known for its robust instruction set and efficient operation.
• Clock Speed: It operates at a clock speed of up to 24 MHz, providing the computational power needed for complex tasks without compromising on power consumption.
• Memory: This microcontroller comes equipped with 2 kB of on-chip OTP (One-Time Programmable) ROM and 128 bytes of RAM, allowing for efficient program and data storage.
• I/O Ports: It features 32 programmable I/O lines that are highly flexible and can be configured to interface with a variety of peripherals and other digital systems.
• Timers: Two 16-bit timers/counters are included, which can be used for event counting, pulse generation, and time-related operations.
• Serial Communication: The device includes a full-duplex serial port that facilitates easy data communication with other microcontrollers, computers, and peripheral devices.
• Power Management: With its power-saving modes, including Idle and Power-down modes, the S87C752-2A28 ensures efficient energy usage, which is critical for battery-operated devices.

Applications

The versatility of the NXP S87C752-2A28 makes it suitable for a diverse range of applications. It is commonly used in:

• Automotive control systems
• Industrial automation
• Home appliance control
• Consumer electronics
• Embedded systems

With its robust set of features, the NXP S87C752-2A28 microcontroller is a reliable choice for developers looking to create sophisticated and power-efficient applications. Its industry-standard architecture ensures ease of development and integration, making it a go-to option for both new designs and upgrades to existing systems.