FS32K148 (7)
FS32K148 is available from Freescale Semiconductor at Xecor. Designed for high-performance embedded applications, the FS32K148 offers a powerful ARM® Cortex®-M4F core, 32-bit single-core architecture, and a clock speed of 80MHz. With key features such as 2MB of FLASH memory, 256KB of RAM, and a wide range of connectivity options including CANbus, Ethernet, I²C, and SPI, it provides exceptional flexibility and performance. Available in a 176-LQFP package, it is ideal for automotive, industrial, and IoT applications. Whether used in advanced driver-assistance systems (ADAS), motor control, or smart devices, this series ensures reliability, scalability, and efficiency for demanding applications. Xecor is an authorized distributor for Freescale Semiconductor Please view our extensive selection of the FS32K148 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| FS32K148UJT0VLQT | The FS32K148UJT0VLQT is a 32-bit microcontroller unit with a powerful ARM Cortex-M4F RISC processor, perfect for demanding applications | LQFP-144 | 8,384 | |
| FS32K148UJT0VLLT | ARM Cortex-M4F RISC | LQFP-100 | 7,775 | |
| FS32K148HAT0MLQT | 32-bit ARM Cortex M4F MCU | LQFP-144 | 9,578 | |
| FS32K148UJT0VMHT | 32-bit ARM Cortex M4F Processor | BGA-100 | 8,873 | |
| FS32K148UAT0VLQT | The FS32K148UAT0VLQT is a powerful 32-bit ARM Cortex M4F MCU with 2MB of flash memory | LQFP-144 | 8,712 | |
| FS32K148UAT0VLQR | FS32K148UAT0VLQR boasts high-performance capabilities with its ARM Cortex M4F RISC architecture | 144-LQFP | 5,157 | |
| FS32K148HAT0MLLT | ARM Microcontroller | LQFP-100 | 9,560 |
Key Featrues
ARM® Cortex®-M4F Core: The 32-bit single-core ARM Cortex-M4F processor, operating at 80MHz, provides high computational power and efficiency. Its floating-point unit (FPU) enhances performance in applications requiring complex mathematical operations, such as signal processing and control systems.
2MB FLASH Memory: With 2MB of FLASH program memory, the microcontroller supports large application codes and data storage. This ample memory capacity is ideal for advanced embedded systems, enabling the implementation of sophisticated algorithms and extensive firmware updates.
Comprehensive Connectivity Options: The microcontroller features a wide range of connectivity peripherals, including CANbus, Ethernet, FlexIO, I²C, LINbus, SPI, and UART/USART. This versatility allows seamless integration into diverse communication networks, making it suitable for automotive, industrial, and IoT applications.
Advanced Peripherals: Integrated peripherals such as I²S, POR, PWM, and WDT enhance the microcontroller's functionality. These features support tasks like audio processing, power management, motor control, and system monitoring, improving overall system reliability and performance.
Wide Operating Voltage Range (2.7V ~ 5.5V): The microcontroller's ability to operate across a broad voltage range ensures compatibility with various power supply configurations. This flexibility is crucial for battery-powered devices and systems with fluctuating power sources, enhancing energy efficiency and adaptability.
2MB FLASH Memory: With 2MB of FLASH program memory, the microcontroller supports large application codes and data storage. This ample memory capacity is ideal for advanced embedded systems, enabling the implementation of sophisticated algorithms and extensive firmware updates.
Comprehensive Connectivity Options: The microcontroller features a wide range of connectivity peripherals, including CANbus, Ethernet, FlexIO, I²C, LINbus, SPI, and UART/USART. This versatility allows seamless integration into diverse communication networks, making it suitable for automotive, industrial, and IoT applications.
Advanced Peripherals: Integrated peripherals such as I²S, POR, PWM, and WDT enhance the microcontroller's functionality. These features support tasks like audio processing, power management, motor control, and system monitoring, improving overall system reliability and performance.
Wide Operating Voltage Range (2.7V ~ 5.5V): The microcontroller's ability to operate across a broad voltage range ensures compatibility with various power supply configurations. This flexibility is crucial for battery-powered devices and systems with fluctuating power sources, enhancing energy efficiency and adaptability.
Applications
Automotive Control Systems: The S32K microcontroller is ideal for automotive control systems, such as engine management, body control modules, and advanced driver-assistance systems (ADAS). Its ARM Cortex-M4F core, CANbus connectivity, and robust peripherals like PWM and LINbus enable precise control and communication in harsh automotive environments, ensuring reliable performance under extreme temperatures and voltage conditions.
Industrial Automation: The S32K microcontroller is well-suited for industrial automation applications, including motor control, robotics, and process monitoring. With its 32-bit processing power, FlexIO, and SPI connectivity, it can handle complex control algorithms and interface with various sensors and actuators. Its wide operating voltage range and industrial temperature tolerance make it a reliable choice for factory automation systems.
IoT Edge Devices: The S32K microcontroller is an excellent choice for IoT edge devices, such as smart meters, environmental sensors, and connected appliances. Its Ethernet and UART/USART connectivity, combined with its 2MB Flash memory and 256KB RAM, enable efficient data processing and communication. The microcontroller's low-power capabilities and robust peripherals make it ideal for battery-powered or energy-efficient IoT applications.
Medical Devices: The S32K microcontroller is suitable for medical devices, such as patient monitoring systems, infusion pumps, and diagnostic equipment. Its ARM Cortex-M4F core and 12-bit ADC ensure accurate signal processing for sensors like ECG, blood pressure, and temperature monitors. The microcontroller's reliability, compact package, and compliance with medical standards make it a strong candidate for healthcare applications.
Industrial Automation: The S32K microcontroller is well-suited for industrial automation applications, including motor control, robotics, and process monitoring. With its 32-bit processing power, FlexIO, and SPI connectivity, it can handle complex control algorithms and interface with various sensors and actuators. Its wide operating voltage range and industrial temperature tolerance make it a reliable choice for factory automation systems.
IoT Edge Devices: The S32K microcontroller is an excellent choice for IoT edge devices, such as smart meters, environmental sensors, and connected appliances. Its Ethernet and UART/USART connectivity, combined with its 2MB Flash memory and 256KB RAM, enable efficient data processing and communication. The microcontroller's low-power capabilities and robust peripherals make it ideal for battery-powered or energy-efficient IoT applications.
Medical Devices: The S32K microcontroller is suitable for medical devices, such as patient monitoring systems, infusion pumps, and diagnostic equipment. Its ARM Cortex-M4F core and 12-bit ADC ensure accurate signal processing for sensors like ECG, blood pressure, and temperature monitors. The microcontroller's reliability, compact package, and compliance with medical standards make it a strong candidate for healthcare applications.
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