Texas Instruments

RM44L920APGET  

Microcontrollers

The Texas Instruments RM44L920APGET is a high-performance microcontroller unit (MCU) that is designed for a variety of applications. This MCU is based on the ARM Cortex-M4F processor, which provides high performance and low power consumption.

Description:

The RM44L920APGET is a member of Texas Instruments' Sitara™ AM4 family of MCUs. It features a 32-bit ARM Cortex-M4F processor with a floating-point unit (FPU) and a maximum clock speed of 200 MHz. The MCU is built on a 28-nanometer process technology and includes a range of integrated peripherals and interfaces to support a wide range of applications.

Features:

Some of the key features of the RM44L920APGET include:

1. ARM Cortex-M4F processor with FPU for high performance and low power consumption.
2. Integrated memory with up to 256 KB of SRAM and up to 2 MB of flash memory.
3. Advanced peripherals, including UART, SPI, I2C, and CAN interfaces.
4. High-speed USB 2.0 interface for fast data transfer.
5. Integrated graphics accelerator for high-quality graphics and video processing.
6. Advanced security features, including secure boot and secure debug.
7. Low-power modes to extend battery life in portable devices.

Applications:

The RM44L920APGET is suitable for a wide range of applications, including:

1. Industrial control systems, such as motor control and power management.
2. Automotive applications, including infotainment systems and advanced driver assistance systems (ADAS).
3. Robotics and automation, including drones and autonomous vehicles.
4. Medical devices, such as imaging systems and patient monitoring equipment.
5. Consumer electronics, including smart home devices and wearable technology.
6. IoT devices, such as smart sensors and gateways.

In summary, the Texas Instruments RM44L920APGET is a powerful and versatile MCU that offers high performance, low power consumption, and a range of integrated features. Its wide range of applications makes it an ideal choice for developers working on a variety of projects.

RM44L920APGET Documents

Download datasheets and manufacturer documentation for RM44L920APGET

Images :

Mechanical Outline Drawing      

PCN :

Product Change Notification (PDF)      

Application Notes :

Important ARM Ltd Application Notes for TI Hercules ARM Safety MCUs       Calculating Equivalent Power-on-Hours for Hercules Safety MCUs       Monitoring PWM Using N2HET       FreeRTOS on Hercules Devices_new       Verification of Data Integrity Using CRC       Hercules PLL Advisory SSWF021#45 Workaround (Rev. B)       Use of All 1's and All 0's Valid in Flash EEPROM Emulation       Initialization of Hercules ARM Cortex-R4F Microcontrollers (Rev. D)       NHET Getting Started (Rev. B)       UART Bootloader for Hercules RM46 MCU       ECC Handling in TMSx70-Based Microcontrollers       Configuring a CAN Node on Hercules ARM Safety MCUs       Continuous Monitor of the PLL Frequency With the DCC       Triggering ADC Using Internal Timer Events on Hercules MCUs       Interfacing the Embedded 12-Bit ADC in a TMS570LS31x/21x and RM4x Series MCUs (Rev. A)       Nested Interrupts on Hercules ARM Cortex-R4/5-Based Microncontrollers       Hercules Family Frequency Slewing to Reduce Voltage and Current Transients       Sine Wave Generation Using PWM With Hercules N2HET and HTU       Hercules SCI With DMA       3.3 V I/O Considerations for Hercules Safety MCUs (Rev. A)       Sharing Exception Vectors on Hercules™ Based Microcontrollers       PWM Generation and Input Capture Using HALCoGen N2HET Module       Execution Time Measurement for Hercules ARM Safety MCUs (Rev. A)       Sharing FEE Blocks Between the Bootloader and the Application       CAN Bus Bootloader for Hercules Microcontrollers       Triangle/Trapezoid Wave Generation Using PWM With Hercules N2HET       SPI Bootloader for Hercules RM46 MCU       HALCoGen CSP Without LDRA Release_Notes       Generating Operating System Tick Using RTI on a Hercules ARM Safety MCU       Usage of MPU Subregions on TI Hercules ARM Safety MCUs       Enabling Functional Safety Using SafeTI Diagnostic Library       Hercules AJSM Unlock (Rev. A)       CAN Bus Bootloader for RM46 MCU       Interfacing TPS65381 With Hercules Microcontrollers (Rev. A)       How to Create a HALCoGen Based Project For CCS (Rev. B)       High Speed Serial Bus Using the MibSPIP Module on Hercules-Based MCUs       Using the CRC Module on Hercules™-Based Microcontrollers       Configuring the Hercules ARM Safety MCU SCI/LIN Module for UART Communication (Rev. A)       Limiting Clamp Currents on TMS470/TMS570 Digital and Analog Inputs (Rev. A)       Migrating from RM48x or RM46x to RM44x Safety MCUs       Leveraging the High-End Timer Transfer Unit on Hercules ARM Safety MCUs (Rev. A)       ADC Source Impedance for Hercules ARM Safety MCUs (Rev. B)       Basic PBIST Configuration and Influence on Current Consumption (Rev. C)       Interrupt and Exception Handling on Hercules ARM Cortex-R4/5-Based MCUs