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32-bit Power Architecture MCU for Automotive Chassis and Safety Applications

Quantity $ per Unit Savings
1 - 9$12.210%
10 - 24$11.0410%
25 - 99$10.5214%
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Out of stock
Parameter NameParameter Value
Supply Voltage Min Volt3.0
Supply Voltage Max Volt5.5
Operating Temp Min Celsius-40.0
Operating Temp Max Celsius125.0
ECCN US5A991.b.4.a
Packing TypeTape And Reel
RoHs compliantEcopack2
GradeAutomotive Safety
Package NameTQFP 64 10x10x1.0

The SPC570Sx is a family of next generation microcontrollers built on the Power Architecture embedded category.

The SPC570Sx family of 32-bit microcontrollers is the latest achievement in integrated automotive application controllers. It belongs to an expanding family of automotive-focused products designed to address the next wave of Chassis and Safety electronics applications within the vehicle. The advanced and cost-efficient host processor core of this automotive controller family complies with the Power Architecture embedded category and only implements the VLE (variable-length encoding) APU, providing improved code density. It operates at speeds of up to 80 MHz and offers high performance processing optimized for low power consumption. It capitalizes on the available development infrastructure of current Power Architecture devices and is supported with software drivers, operating systems and configuration code to assist with users implementations.

Key features
  • AEC-Q100 qualified
  • High performance e200z0h dual core
    • 32-bit Power Architecture technology CPU
    • Core frequency as high as 80 MHz
    • Single issue 4-stage pipeline in-order execution core
    • Variable Length Encoding (VLE)
  • Up to 544 KB (512 KB code + 32 KB data, suitable for EEPROM emulation) on-chip flash memory: supports read during program and erase operations, and multiple blocks allowing EEPROM emulation
  • Up to 48 KB on-chip general-purpose SRAM
  • Multi-channel direct memory access controller (eDMA paired in lockstep) with 16 channels
  • Comprehensive new generation ASILD safety concept
    • Safety of bus masters (core+INTC, DMA) by delayed lockstep approach
    • Safety of storage (Flash, SRAM) by mainly ECC
    • Safety of the data path to storage and periphery by mainly End-to-End EDC (E2E EDC)
    • Clock and power, generation and distribution, supervised by dedicated monitors
    • Fault Collection and Control Unit (FCCU) for collection and reaction to failure notifications
    • Memory Error Management Unit (MEMU) for collection and reporting of error events in memories
    • Boot time MBIST and LBIST for latent faults
    • Check of safety mechanisms availability and error reaction path functionality by dedicated mechanisms
    • Safety of the periphery by application-level measures supported by replicated peripheral bridges and by LBIST
    • Further measures on dedicated peripherals (e.g. ADC supervisor)
    • Junction temperature sensor
    • 8-region system memory protection unit (SMPU) with process ID support (tasks isolation)
    • Enhanced SW watchdog
    • Cyclic redundancy check (CRC) unit
  • Dual phase-locked loops with stable clock domain for peripherals and FM modulation domain for computational shell
  • Nexus Class 3 debug and trace interface
  • Communication interfaces
    • 2 LINFlexD modules, 3 deserial serial per