SR5E1E770C30F00X

SR5E1E770C30F00X

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SR5E1E770C30F00Y

SR5 E1 line of Stellar electrification MCUs, 32-bit Arm Cortex-M7 automotive MCU 2x cores, 2 MB Flash, rich analog, high-resolution timer, HSM, ASIL-D

Operating Temp Min Celsius-40.0
Operating Temp Max Celsius125.0
CoreDual split-lock ARM Cortex-M7
ECCN US5A991.b.4.a
ECCN EUNEC
Packing TypeTray
RoHs compliantEcopack2
GradeIndustrial
Package NameLQFP 176 24x24x1.4

The SR5E1E3, SR5E1E5, SR5E1E7 MCU family has been designed to meet the enhanced digital control and high-performance analog requested by the new wide bandgap power technologies, silicon carbide and GAN, from power conversion applications such as on-board charger and DC/DC converters as well as...
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Key features
    • AEC-Q100 automotive qualification on going
    • SR5 high-performance analog MCUs offering:
      • Digital and analog high-frequency control requested by new wide-bandgap technologies (silicon carbide and gallium nitride)
      • Superior real-time and functional safety performance (ASIL-D capability)
      • Built-in fast and cost-optimized OTA (over-the-air) reprogramming capability (with built-in dual-image storage)
      • High-speed security cryptographic services (HSM)
  • Cores
    • 2× 32-bit Arm®
      Cortex®‑M7 with double-precision FPU, L1 cache and DSP instructions running at up to 300 MHz to reach 1284 DMIPS/2.14 DMIPS/MHz/Core (Dhrystone 2.1)
      • Split-lock configuration, allowing either 2 cores in parallel or 1 core in lockstep configuration
    • 2 DMA engines in lockstep configuration
  • Memories
    • Up to 2 MB on-chip flash memory with read while write support
      • 1920 KB code flash memory split in two banks allowing 960 KB OTA reprogramming support
      • 160 KB HSM dedicated code flash memory
    • 96 KB data flash memory (64 KB + 32 KB dedicated to HSM)
    • 488 KB on-chip general-purpose SRAM:
      • 2× 32 KB instruction TCM + 2× 64 KB data TCM
      • 256 KB system RAM
      • 40 KB HSM dedicated system RAM
  • Security: hardware security module (HSM)
    • On-chip high-performance security module with EVITA medium support with dedicated RAM and flash memory
    • Based on Cortex®‑M0+ core running at up to 150 MHz
    • Hardware accelerator for symmetric cryptography
  • Safety: comprehensive new generation ASIL-D safety concept
    • State of the art safety measures at all level of the architecture for most efficient implementation of ISO26262 ASIL-D functionalities
    • FCCU for collection and reaction to failure notifications with enhanced configurability
    • Memory error management unit (MEMU) for collection and reporting of error events in memories
    • Cyclic redundancy check (CRC) unit
  • Enhanced peripherals for fast control loop capability
    • 12 Timers:
      • 2× HRTIM (high-resolution and complex waveform builder): 12× 16-bit counters, up to 102 ps resolution, 24 PWM in total
      • 2× 16-bit 6-channel advanced control timers, with up to 12× PWM, in total
      • 2× 32-bit general purpose timers, with up to 8× IC/OC/PWM or pulse counter and quadrature encoder input in total
      • 4× 16-bit general purpose timers, with up to 11× PWM, 2 of which paired, in total
      • 2× 16-bit basic timers
    • Enhanced analog-to-digital converter system with:
      • 5 separate 12-bit SAR analog converters, 8 channels each. Sampling rate up to 2.5 MSPS in single mode, 5 MSPS in dual mode
      • 2 separate 16-bit sigma-delta analog converters
    • 12-bit digital-to-analog converters (DAC)
      • 2 buffered external channels 1 MSPS
      • 8 unbuffered internal channels 15 MSPS
    • 8 rail-to-rail analog comparators, 50 ns propagation delay
    • Hardware accelerator
      • 1× CORDIC for trigonometric functions acceleration
  • Communication interfaces
    • 4 modular controller area network (MCAN) modules, all supporting flexible data rate (ISO CAN-FD)
    • 3 UART modules with LIN functionality
    • 4 serial peripheral interface (SPI) modules, 2 multiplexed with I²S interfaces
    • 2 I²C modules
  • Advanced debug and trace for high-performance automotive application development
    • Built around Arm® CoreSight™-600
    • Debug interface: Arm® CoreSight™ JTAG (IEEE 1149.1) or SWD
    • 4 KB embedded trace FIFO for both on- and off-chip tracing
    • Trace port for off-chip tracing: parallel trace port configurable from 1 to 8 data lines
  • Others
    • Power efficiency management, through separate power modes for any selected cores, peripherals or memories
    • Boot assist flash (BAF) supports factory programming using a serial loader through CAN or UART
    • Junction temperature range -40 °C to 150 °C
    • Integrated power supply scheme:
      • Integrated internal SMPS regulator
      • 3.3 V supply & GPIOs
Coming Soon
Quantity $ per unit Savings
1-9$20.050%
10-24$18.498%
25-99$17.6612%
100-249$15.7921%
250-399$15.0625%
400-500$14.3428%
Contact sales
$20.05
Operating Temp Min Celsius-40.0
Operating Temp Max Celsius125.0
CoreDual split-lock ARM Cortex-M7
ECCN US5A991.b.4.a
ECCN EUNEC
Packing TypeTray
RoHs compliantEcopack2
GradeIndustrial
Package NameLQFP 176 24x24x1.4

The SR5E1E3, SR5E1E5, SR5E1E7 MCU family has been designed to meet the enhanced digital control and high-performance analog requested by the new wide bandgap power technologies, silicon carbide and GAN, from power conversion applications such as on-board charger and DC/DC converters as well as...
Read More

Key features
    • AEC-Q100 automotive qualification on going
    • SR5 high-performance analog MCUs offering:
      • Digital and analog high-frequency control requested by new wide-bandgap technologies (silicon carbide and gallium nitride)
      • Superior real-time and functional safety performance (ASIL-D capability)
      • Built-in fast and cost-optimized OTA (over-the-air) reprogramming capability (with built-in dual-image storage)
      • High-speed security cryptographic services (HSM)
  • Cores
    • 2× 32-bit Arm®
      Cortex®‑M7 with double-precision FPU, L1 cache and DSP instructions running at up to 300 MHz to reach 1284 DMIPS/2.14 DMIPS/MHz/Core (Dhrystone 2.1)
      • Split-lock configuration, allowing either 2 cores in parallel or 1 core in lockstep configuration
    • 2 DMA engines in lockstep configuration
  • Memories
    • Up to 2 MB on-chip flash memory with read while write support
      • 1920 KB code flash memory split in two banks allowing 960 KB OTA reprogramming support
      • 160 KB HSM dedicated code flash memory
    • 96 KB data flash memory (64 KB + 32 KB dedicated to HSM)
    • 488 KB on-chip general-purpose SRAM:
      • 2× 32 KB instruction TCM + 2× 64 KB data TCM
      • 256 KB system RAM
      • 40 KB HSM dedicated system RAM
  • Security: hardware security module (HSM)
    • On-chip high-performance security module with EVITA medium support with dedicated RAM and flash memory
    • Based on Cortex®‑M0+ core running at up to 150 MHz
    • Hardware accelerator for symmetric cryptography
  • Safety: comprehensive new generation ASIL-D safety concept
    • State of the art safety measures at all level of the architecture for most efficient implementation of ISO26262 ASIL-D functionalities
    • FCCU for collection and reaction to failure notifications with enhanced configurability
    • Memory error management unit (MEMU) for collection and reporting of error events in memories
    • Cyclic redundancy check (CRC) unit
  • Enhanced peripherals for fast control loop capability
    • 12 Timers:
      • 2× HRTIM (high-resolution and complex waveform builder): 12× 16-bit counters, up to 102 ps resolution, 24 PWM in total
      • 2× 16-bit 6-channel advanced control timers, with up to 12× PWM, in total
      • 2× 32-bit general purpose timers, with up to 8× IC/OC/PWM or pulse counter and quadrature encoder input in total
      • 4× 16-bit general purpose timers, with up to 11× PWM, 2 of which paired, in total
      • 2× 16-bit basic timers
    • Enhanced analog-to-digital converter system with:
      • 5 separate 12-bit SAR analog converters, 8 channels each. Sampling rate up to 2.5 MSPS in single mode, 5 MSPS in dual mode
      • 2 separate 16-bit sigma-delta analog converters
    • 12-bit digital-to-analog converters (DAC)
      • 2 buffered external channels 1 MSPS
      • 8 unbuffered internal channels 15 MSPS
    • 8 rail-to-rail analog comparators, 50 ns propagation delay
    • Hardware accelerator
      • 1× CORDIC for trigonometric functions acceleration
  • Communication interfaces
    • 4 modular controller area network (MCAN) modules, all supporting flexible data rate (ISO CAN-FD)
    • 3 UART modules with LIN functionality
    • 4 serial peripheral interface (SPI) modules, 2 multiplexed with I²S interfaces
    • 2 I²C modules
  • Advanced debug and trace for high-performance automotive application development
    • Built around Arm® CoreSight™-600
    • Debug interface: Arm® CoreSight™ JTAG (IEEE 1149.1) or SWD
    • 4 KB embedded trace FIFO for both on- and off-chip tracing
    • Trace port for off-chip tracing: parallel trace port configurable from 1 to 8 data lines
  • Others
    • Power efficiency management, through separate power modes for any selected cores, peripherals or memories
    • Boot assist flash (BAF) supports factory programming using a serial loader through CAN or UART
    • Junction temperature range -40 °C to 150 °C
    • Integrated power supply scheme:
      • Integrated internal SMPS regulator
      • 3.3 V supply & GPIOs