M30624FG AFP#U3 Automotive High-Performance Microcontroller
The 16-bit microcontroller M30624FGAFP#U3 launched by Renesas Technology features a high processing capability of 15 MI/S and various interface functions. It includes a large-capacity memory, DMAC circuit, multifunctional timers, serial I/O, as well as a watchdog timer and CRC verification circuit. The M30624FGAFP#U3 microcontroller has a built-in multiplier, which allows 16×16 bit multiplication to be completed in just 5 machine cycles. It offers many powerful instructions, with a short instruction cycle—71% of the operational instructions are completed within three cycles (0.2 μs at a 16 MHz oscillation frequency). High-speed multiplication, enhanced operations between memory, improved bit manipulation capabilities, efficient 4-bit and 8-bit operations, and high-speed 16-bit processing significantly increase processing speed. The M30624FGAFP#U3 microcontroller features both general and compact instruction formats, making it suitable for both computation-oriented and control-oriented applications, allowing for indirect and compact programming. Developing applications using C language will achieve high development efficiency.
Features
Data Processing Capability
Memory Capacity
Peripheral Support
Power Consumption and Performance Balance
Application Areas
Comparison with 32 - bit MCUs
Compatibility
Specifications
Main Specifications
Package Type
Temperature Range
Applications
Communication
The M30624FGAFP#U3 is a microcontroller primarily based on Renesas's M16C series. It can be applied in various fields, and here are some typical application scenarios:1. Industrial Automation 2. Consmer Electronics 3. Automotive Electronics 4. Medical Devices5. Communication Equipment 6. Internet of Things (IoT) 7. Embedded Systems In summary, the M30624FGAFP#U3 microcontroller is suitable for multiple fields including industrial, consumer electronics, automotive, medical, communication, and IoT, due to its flexibility and multifunctionality. Specific applications depend on design requirements and system architecture.
