Break IC, Recover MCU, Microcontroller Reverse Engineering

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The PIC16F917 is a powerful 8-bit microcontroller by Microchip, commonly used in embedded systems for industrial control, consumer electronics, and automation products. Featuring integrated EEPROM, Flash memory, analog-to-digital converters, and a built-in LCD module driver, it supports a wide range of commercial and industrial applications. Its protective architecture includes code protection bits to prevent unauthorized access or duplication of the firmware or program data. However, there are cases where legitimate needs arise to break chip PIC16F917 heximal content for restoration, analysis, or system migration purposes.

we specialize in the secure and ethical unlocking, decoding, and decryption of secured, encrypted, or locked heximal and binary firmware from microcontrollers like the PIC16F917. Our expertise lies in bypassing security mechanisms to extract, clone, or duplicate essential data while preserving system integrity.

Our Proven Procedure to Break Chip PIC16F917 Heximal
Device Identification and Preparation
We begin by identifying the chip model and reading its configuration settings. For the PIC16F917, special care is taken to handle the code protection bits and memory map.

Hardware Interface Setup
Using specialized ICSP (In-Circuit Serial Programming) hardware, we establish communication with the target chip without disturbing its operation in the circuit (if required).

Data Access Strategy
With our custom-designed tools and methods, we crack through security layers to gain access to the flash, EEPROM, and configuration bits. Depending on the protection level, this may involve advanced techniques like glitching, fault injection, or voltage manipulation.

Firmware Dump and Analysis
Once data is accessed, we perform a complete heximal firmware dump and verify integrity. This file is then converted to readable source code through a combination of disassembly and decompilation processes.

Restoration or Duplication
The final stage involves either restoring the firmware to another device, cloning it for migration, or delivering the decoded, decrypted archive in readable format (such as C/C++ or Assembly) for further development or auditing.

Applications and Use Cases
The PIC16F917 is widely used in products like smart meters, home appliances, automotive control panels, and programmable LCD interfaces. In many cases, original firmware files may be lost or no longer supported by the manufacturer. Our service helps clients recover, unlock, and reuse these embedded systems efficiently.

Whether you need to copy, clone, or open a protected firmware, or decode a legacy program file, we provide safe, confidential solutions tailored to your technical and legal needs.

 

 

Break Chip PIC16F917 tamper resistance system and readout MCU PIC16F917 heximal from flash memory and eeprom memory, the program and data will be exactly the same as master original PIC16F917 microprocessor;

High-Performance RISC CPU:

· Only 35 instructions to learn:

– All single-cycle instructions except branches

· Operating speed:

– DC – 20 MHz oscillator/clock input

– DC – 200 ns instruction cycle

· Program Memory Read (PMR) capability

· Interrupt capability

· 8-level deep hardware stack

· Direct, Indirect and Relative Addressing modes

Special Microcontroller Features:

· Precision Internal Oscillator:

– Factory calibrated to ±1%

– Software selectable frequency range of 8 MHz to 32 kHz

– Software tunable

– Two-Speed Start-up mode

– Crystal fail detect for critical applications

– Clock mode switching during operation for power savings

· Power-saving Sleep mode

· Wide operating voltage range (2.0V-5.5V)

· Industrial and Extended temperature range

· Power-on Reset (POR)

· Power-up Timer (PWRT) and Oscillator Start-up Timer (OST)

· Brown-out Reset (BOR) with software control option

· Enhanced Low-Current Watchdog Timer (WDT) with on-chip oscillator (software selectable nominal 268 seconds with full prescaler) with software enable

· Multiplexed Master Clear with pull-up/input pin

· Programmable code protection

· High-Endurance Flash/EEPROM cell:

– 100,000 write Flash endurance

– 1,000,000 write EEPROM endurance

– Flash/Data EEPROM retention: > 40 years

Low-Power Features:

· Standby Current:

– <100 nA @ 2.0V, typical

· Operating Current:

– 8.5 ìA @ 32 kHz, 2.0V, typical

– 100 ìA @ 1 MHz, 2.0V, typical

· Watchdog Timer Current:

– 1 ìA @ 2.0V, typical

Peripheral Features:

· Liquid Crystal Display module:

– Up to 60 pixel drive capability on 28-pin devices

– Up to 96 pixel drive capability on 40-pin devices

– Four commons

· Up to 35 I/O pins and 1 input-only pin:

– High-current source/sink for direct LED drive

– Interrupt-on-pin change

– Individually programmable weak pull-ups

· In-Circuit Serial Programming™ (ICSP™) via two pins

· Analog comparator module with:

– Two analog comparators

– Programmable on-chip voltage reference (CVREF) module (% of VDD)

– Comparator inputs and outputs externally accessible

· A/D Converter:

– 10-bit resolution and up to 8 channels

· Timer0: 8-bit timer/counter with 8-bit programmable prescaler

· Enhanced Timer1:

– 16-bit timer/counter with prescaler

– External Gate Input mode

– Option to use OSC1 and OSC2 as Timer1 oscillator if INTOSCIO or LP mode is selected

· Timer2: 8-bit timer/counter with 8-bit period register, prescaler and postscaler

· Addressable Universal Synchronous

Asynchronous Receiver Transmitter (AUSART)

· Up to 2 Capture, Compare, PWM modules:

– 16-bit Capture, max. resolution 12.5 ns

– 16-bit Compare, max. resolution 200 ns

– 10-bit PWM, max. frequency 20 kHz

· Synchronous Serial Port (SSP) with I2C™