Microchip PIC24FJ128GA306T-I/PT: A Comprehensive Technical Overview
The Microchip PIC24FJ128GA306T-I/PT represents a high-performance, 16-bit microcontroller within the expansive PIC24F family. Engineered for applications demanding robust processing capabilities, versatile connectivity, and energy efficiency, this MCU is a cornerstone for complex embedded designs across industrial, medical, and consumer markets.
At its core, the device features a powerful 16-bit modified Harvard architecture operating at up to 16 MIPS (16 MHz). It is equipped with 128 KB of self-programmable Flash memory and 8 KB of RAM, providing ample space for sophisticated application code and data handling. A key strength of this microcontroller is its rich set of integrated peripherals. It includes a high-speed 10-bit Analog-to-Digital Converter (ADC) with a sampling rate of up to 1.1 Msps, multiple 16-bit timers, and hardware support for motor control (PWM modules).
Connectivity is a major highlight. The PIC24FJ128GA306T boasts an extensive array of communication interfaces, including multiple UART, SPI, and I²C™ modules, making it ideal for systems requiring communication with a wide range of sensors, displays, and other peripherals. Furthermore, it features a CAN 2.0b module, which is critical for robust network communications in automotive and industrial automation environments.
The device is designed with power management in mind. It incorporates multiple power-saving modes (Sleep, Idle, and Doze) that allow designers to minimize power consumption dramatically in battery-operated or energy-sensitive applications. Its operational voltage ranges from 2.0V to 3.6V, further enhancing its suitability for portable devices.
Housed in a 64-pin TQFP package, the MCU offers a high number of I/O pins, maximizing its interface capabilities in space-constrained PCB layouts. Its robust design ensures high noise immunity and operational stability in electrically noisy environments.
ICGOOODFIND: The Microchip PIC24FJ128GA306T-I/PT is a highly integrated and versatile 16-bit microcontroller. Its combination of substantial memory, a rich peripheral set including CAN, advanced ADC, and exceptional low-power performance makes it an outstanding choice for developers tackling complex, connectivity-driven embedded systems that require reliability and efficiency.
Keywords: 16-bit Microcontroller, Low Power Consumption, CAN Module, High-Speed ADC, Embedded Connectivity.
