NXP Automobile 32 Bit Microprocessor SPC5601PEF Flash Data Extraction is a process to unlock system on chip secured microcontroller locking bits, and copy extracted firmware from both code flash and data flash to new NXP MCU;
Up to 79 configurable general purpose pins supporting input and output operations (package dependent)
Real Time Counter (RTC) with clock source from 128 kHz or 16 MHz internal RC oscillator supporting autonomous wakeup with 1 ms resolution with max timeout of 2 seconds
Up to 4 periodic interrupt timers (PIT) with 32-bit counter resolution
1 System Timer Module (STM)
Nexus development interface (NDI) per IEEE-ISTO 5001-2003 Class 1 standard
Device/board boundary Scan testing supported with per Joint Test Action Group (JTAG) of IEEE (IEEE 1149.1)
On-chip voltage regulator (VREG) for regulation of input supply for all internal levels.
These 32-bit automotive microcontrollers are a family of system-on-chip (SoC) devices designed to be central to the development of the next wave of central vehicle body controller, smart junction box, front module, peripheral body, door control and seat control applications.
This family is one of a series of next-generation integrated automotive microcontrollers based on the Power Architecture technology and designed specifically for embedded applications especially for cracking microcontroller locked bit by focus ion beam.
The advanced and cost-efficient e200z0h host processor core of this automotive controller family complies with the Power Architecture technology and only implements the VLE (variable-length encoding) APU (auxiliary processing unit), providing improved code density.
It operates at speeds of up to 48 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 the user’s implementations after reverse engineering mcu embedded heximal from flash memory.
The device platform has a single level of memory hierarchy and can support a wide range of on-chip static random access memory (SRAM) and internal flash memory.