Crack IC PIC12C671 Eeprom

Crack IC PIC12C671 Eeprom and flash means the status of the MCU will be set up to unlocked status and the firmware inside it will be readout directly:

High-Performance RISC CPU:

· Only 35 single word instructions to learn

· All instructions are single cycle (400 ns) except for program branches which are two-cycle

· Operating speed: DC – 10 MHz clock input DC – 400 ns instruction cycle when Crack IC PIC12C671 Eeprom

· 14-bit wide instructions 8-bit wide data path

· Interrupt capability

Crack IC PIC12C671 Eeprom

Crack IC PIC12C671 Eeprom

· Special function hardware registers

· 8-level deep hardware stack

· Direct, indirect and relative addressing modes for data and instructions to Break IC

Peripheral Features:

· Four-channel, 8-bit A/D converter

· 8-bit real time clock/counter (TMR0) with 8-bit programmable prescaler

· 1,000,000 erase/write cycle EEPROM data memory which is also the same features in Decrypt MCU PIC18LF4520

· EEPROM data retention > 40 years

Special Microcontroller Features:

In-Circuit Serial Programming (ICSP™)

Internal 4 MHz oscillator with programmable calibration before Crack IC PIC12C671 Eeprom

Selectable clockout

Power-on Reset (POR)

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

Timer (OST)

Watchdog Timer (WDT) with its own on-chip RC oscillator for reliable operation

Power saving SLEEP mode

Interrupt-on-pin change (GP0, GP1, GP3)

Internal pull-ups on I/O pins (GP0, GP1, GP3)

Internal pull-up on MCLR pin

Selectable oscillator options:

– INTRC: Precision internal 4 MHz oscillator

– EXTRC: External low-cost RC oscillator

– XT:   Standard crystal/resonator

– HS:   High speed crystal/resonator

– LP:   Power saving, low frequency crystal

CMOS Technology:

· Low-power, high-speed CMOS EPROM/EEPROM technology when Crack IC PIC12C671 Eeprom

· Fully static design

· Wide operating voltage range 2.5V to 5.5V

· Commercial, Industrial and Extended temperature ranges

· Low power consumption

< 2 mA @ 5V, 4 MHz

15 µA typical @ 3V, 32 kHz

< 1 µA typical standby current