Microchip Technology's PIC16C63AT-04/SO Microcontroller

The PIC16C63AT-04/SO is a high-performance, CMOS, fully-static, 8-bit microcontroller fabricated by Microchip Technology, a leading provider of smart, connected, and secure embedded control solutions. This particular model comes in a small-outline (SO) package and operates at a speed of 4 MHz, making it a suitable choice for a wide range of applications where space and power efficiency are critical factors.

Key Features

• Core: The microcontroller features the powerful PIC architecture with a 14-bit instruction set, which provides a perfect balance between low power consumption and high performance.
• Memory: It includes 4KB of on-board program memory and 192 bytes of RAM, allowing for efficient handling of complex algorithms and buffer storage.
• I/O Ports: With 22 I/O pins, this device offers ample connectivity options for interfacing with a wide range of peripheral devices and sensors.
• Timers: Equipped with two timers, it provides excellent support for time-related operations, including pulse width modulation (PWM) for motor control and other time-sensitive tasks.
• Serial Communication: The PIC16C63AT-04/SO supports USART for serial communication, which can be used for data exchange with other microcontrollers, computers, or network modules.
• Power Consumption: Designed for low-power applications, it features a power-saving sleep mode, which significantly reduces power consumption when the device is idle.

Applications

The versatility of the PIC16C63AT-04/SO makes it ideal for a variety of applications, including but not limited to:

• Automotive systems
• Industrial control systems
• Consumer electronics
• Medical devices
• Home automation systems

Microchip Technology's commitment to quality ensures that the PIC16C63AT-04/SO microcontroller is a reliable and cost-effective solution for designers looking to optimize their embedded systems. Whether it's for prototyping or mass production, this microcontroller is an excellent choice for developers seeking a balance between performance and power efficiency.