MOTOROLA 188987-008R High-Performance 32-bit RISC Digital Signal Processor

Description

• • Structural and Environmental Parameters
    • Package Type: Adopts 176-pin LQFP package, which features good solderability and heat dissipation performance, and is easy for automated assembly on circuit boards.
    • Operating Temperature: Maintains stable operation in the temperature range of -40°C to +85°C, resisting extreme cold and high-temperature environments in various application scenarios.
• Function Features
  • High-Speed Signal Processing: The combination of 300 MHz clock frequency and 32-bit RISC core enables the processors to quickly handle complex digital signal tasks such as filtering, modulation, and demodulation. They can process large volumes of signal data in real time without delays, which is essential for high-speed communication and precision control.
  • Excellent Instruction Set Compatibility: The DSP56800E instruction set provides rich signal processing instructions, which can directly support common algorithms in audio and video processing, wireless communication, and industrial control. It reduces the difficulty of program development and improves the efficiency of software transplantation.
  • Reliable Harsh Environment Adaptability: The wide operating temperature range from -40°C to +85°C allows the processors to withstand extreme temperature fluctuations in outdoor equipment, industrial workshops, and automotive engine compartments, ensuring consistent performance without downtime.
  • Easy System Integration: The 176-pin LQFP package complies with mainstream electronic component installation standards. It can be seamlessly integrated into existing circuit board designs, reducing the need for structural modifications to equipment and lowering the overall R&D and production costs of the system.
  • Stable Data Operation: The built-in 272 kb on-chip memory shortens the data access path, reducing data transmission delays during processing. It ensures the stability and accuracy of data when the processor is running complex tasks continuously.
• Application Scenarios
  • Wireless Communication Systems: They are applied to base stations, wireless routers, and wireless communication terminals. They efficiently process uplink and downlink communication signals, support signal modulation and demodulation in multiple frequency bands, and improve the signal quality and transmission rate of communication systems.
  • Automotive Electronic Systems: Integrated into automotive electronic control units, they are responsible for processing signals from engine sensors, body control modules, and in-car entertainment systems. They help optimize engine operating efficiency, enhance the stability of body electronic functions, and ensure the smooth operation of in-car audio and video playback.
  • Industrial Control Systems: Used in industrial controllers, servo system drivers, and automated production line detection equipment. They process real-time signals from position sensors, pressure transmitters, and other devices, and quickly output control commands to improve the precision and responsiveness of industrial automation equipment.
  • Medical Equipment: Applied to medical devices such as patient monitors and diagnostic imaging equipment. They process physiological signals like electrocardiograms and ultrasonic images, converting analog signals collected by sensors into digital data for analysis, which provides accurate data support for clinical diagnosis.
  • Audio and Video Processing Equipment: Deployed in professional audio mixers, video encoders, and surveillance video processing devices. They complete audio noise reduction, video compression, and real-time encoding and decoding tasks, ensuring clear and stable audio and video output.