We can Attack IC TMS320BC57 Flash, please view below IC TMS320BC57 features for your reference:
Powerful 16-Bit TMS320C5x CPU 20-, 25-, 35-, and 50-ns Single-Cycle
Instruction Execution Time for 5-V
Operation
25-, 40-, and 50-ns Single-Cycle Instruction
Execution Time for 3-V Operation
Single-Cycle 16 × 16-Bit Multiply/Add 224K × 16-Bit Maximum Addressable
External Memory Space (64K Program, 64K
Data, 64K I/O, and 32K Global)
2K, 4K, 8K, 16K, 32K × 16-Bit Single-Access
On-Chip Program ROM
1K, 3K, 6K, 9K × 16-Bit Single-Access
On-Chip Program / Data RAM (SARAM)
1K Dual-Access On-Chip Program / Data
RAM (DARAM)
Full-Duplex Synchronous Serial Port for Coder/Decoder Interface to crack MCU
Time-Division-Multiplexed (TDM) Serial Port
Hardware or Software Wait-State
Generation Capability
On-Chip Timer for Control Operations
Repeat Instructions for Efficient Use of
Program Space
Buffered Serial Port
Host Port Interface
Multiple Phase-Locked Loop (PLL)
Clocking Options (×1, ×2, ×3, ×4, ×5, ×9
Depending on Device)
Block Moves for Data/Program
Management
On-Chip Scan-Based Emulation Logic
Boundary Scan
Five Packaging Options
– 100-Pin Quad Flat Package (PJ Suffix)
– 100-Pin Thin Quad Flat Package (PZ Suffix)
– 128-Pin Thin Quad Flat Package (PBK Suffix)
– 132-Pin Quad Flat Package (PQ Suffix)
– 144-Pin Thin Quad Flat Package (PGE Suffix)
Low Power Dissipation and Power-Down
Modes:
– 47 mA (2.35 mA / MIP) at 5 V, 40-MHz Clock (Average)
– 23 mA (1.15 mA / MIP) at 3 V, 40-MHz
Description
The TMS320C5x generation of the Texas Instruments (TI ) TMS320 digital signal processors (DSPs) is fabricated with static CMOS integrated circuit technology; the architectural design is based upon that of an earlier TI DSP, the TMS320C25. The combination of advanced Harvard architecture, on-chip peripherals, on-chip memory, and a highly specialized instruction set is the basis of the operational flexibility and speed of the ’C5x‡ devices. They execute up to 50 million instructions per second (MIPS).
The ’C5x devices offer these advantages: Enhanced TMS320 architectural design for increased performance and versatility Modular architectural design for fast development of spin-off devices Advanced integrated-circuit processing technology for increased performance Upward-compatible source code (source code for ’C1x and ’C2x DSPs is upward compatible with ’C5x DSPs.) Enhanced TMS320 instruction set for faster algorithms and for optimized high-level language operation New static-design techniques for minimizing power consumption and maximizing radiation tolerance Clock (Average).
– 10 mA at 5 V, 40-MHz Clock (IDLE1 Mode)
– 3 mA at 5 V, 40-MHz Clock (IDLE2 Mode)
– 5 µA at 5 V, Clocks Off (IDLE2 Mode)
High-Performance Static CMOS Technology
IEEE Standard 1149.1† Test-Access Port (JTAG)