Tuesday, September 25, 2012

PIC18F44K22 MCU CRACK

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High Performance RISC CPU:
C Compiler optimized architecture/instruction set
Data EEPROM to 1024 bytes
Linear program memory addressing to 64 Kbytes
Linear data memory addressing to 4 Kbytes
Up to 16 MIPS operation
16-bit wide instructions, 8-bit wide data path
Priority levels for interrupts
31-level, software accessible hardware stack
8 x 8 Single-Cycle Hardware MultiplierExtreme Low-Power

Managementwith nanoWatt XLP™:
Sleep mode: 100 nA, typical
Watchdog Timer: 500 nA, typical
Timer1 Oscillator: 500 nA @ typical 32 kHzFlexible Oscillator

Structure:
Precision 16 MHz internal oscillator block:- Factory calibrated

to ± 1%- Software selectable frequencies range of31 kHz to 16

MHz- 64 MHz performance available using PLL –no external

components required
Four Crystal modes up to 64 MHz
Two external Clock modes up to 64 MHz
4X Phase Lock Loop (PLL)
Secondary oscillator using Timer1 @ 32 kHz
Fail-Safe Clock Monitor:- Allows for safe shutdown if peripheral

clockstops
Two-Speed Oscillator Start-upSpecial Microcontroller Features:
Full 5.5V operation (PIC18F2XK22/4XK22)
Low voltage option available for 1.8V-3.6V operation

(PIC18LF2XK22/4XK22)
Self-reprogrammable under software control
Power-on Reset (POR), Power-up Timer (PWRT)and Oscillator Start

-up Timer (OST)
Programmable Brown-out Reset (BOR)
Extended Watchdog Timer (WDT) with on-chiposcillator and

software enable
Programmable code protection
In-Circuit Serial Programming™ (ICSP™) viatwo pins
In-Circuit Debug via two pinsAnalog Features:
Analog-to-Digital Converter (ADC) module:- 10-bit resolution- 17

analog input channels (PIC18F/LF2XK22)- 28 analog input channels

(PIC18F/LF4XK22)- Auto acquisition capability- Conversion

available during Sleep
Programmable High/Low Voltage Detection(PLVD) module
Charge Time Measurement Unit (CTMU) formTouch™ support:- Up to

28 channels for button, sensor or sliderinput
Analog comparator module with:- Two rail-to-rail analog

comparators- Comparator inputs and outputs externallyaccessible

and configurable
Voltage reference module with:- Programmable On-chip Voltage

Reference(CVREF) module (% of VDD)- Selectable on-chip fixed

voltage referencePeripheral Features:
24/35 I/O pins and 1 input-only pin:- High current sink/source

25 mA/25 mA- Individually programmable weak pull-ups-

Individually programmable interrupt-on-pinchange
Three external interrupt pins
Up to seven Timer modules:- Up to four 16-bit timers/counters

with prescaler- Up to three 8-bit timers/counters- Dedicated,

low-power Timer1 oscillator
Up to two Capture/Compare/PWM (CCP) modules
Up to three Enhanced Capture/Compare/PWM(ECCP) modules with:-

One, two or four PWM outputs- Selectable polarity- Programmable

dead time- Auto-shutdown and Auto-restart- PWM output steering

control
Two Master Synchronous Serial Port (MSSP)modules with two modes

of operation:- 3-wire SPI (supports all 4 SPI modes)- I2C™

Master and Slave modes (Slave modewith address masking)
Two Enhanced Universal Synchronous AsynchronousReceiver

Transmitter modules (EUSART):- Supports RS-232, RS-485 and LIN

2.0- Auto-Baud Detect- Auto Wake-up on Start bit


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     High performance PIC18 core with 8x8 Hardware Multiply
    Flash Program Memory with self read/write capability
    256 Bytes of integrated EEPROM
    Internal 48MHz Oscillator with USB Accuracy -Via Active

Clock Tuning from USB Host
    Universal Serial Bus 2.0 Module
    Enhanced Capture Compare PWM (ECCP) Module with up to 4

outputs
    Integrated Temperature Indicator Module
    Up to 25 Channel 10-bit ADC with Voltage Reference
    2 Analog Comparators
    5-bit Digital to Analog Converter (DAC)
    MI2C / SPI Module (MSSP)
    Enhanced Addressable USART Module
    Charge Time Measurement Unit (CTMU) for measurement

applications
    25mA Source/Sink current I/O
    2x 8-bit Timers
    2x 16-bit Timers
    Extended Watchdog Timer (WDT)
    Enhanced Power-On/Off-Reset
    Low-Power Brown-Out Reset (LPBOR)
    Programmable Brown-Out Reset (BOR)
    In Circuit Serial Programming and Debug (ICSP/ICD)
    PIC18LF2xK50 (1.8V – 3.6V) with nanoWatt XLP
    PIC18F2xK50 (1.8V – 5.5V)


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PIC18F43K22 MCU CRACK,microchip chip decrypt, chip code

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High Performance RISC CPU:
C Compiler optimized architecture/instruction set
Data EEPROM to 1024 bytes
Linear program memory addressing to 64 Kbytes
Linear data memory addressing to 4 Kbytes
Up to 16 MIPS operation
16-bit wide instructions, 8-bit wide data path
Priority levels for interrupts
31-level, software accessible hardware stack
8 x 8 Single-Cycle Hardware MultiplierExtreme Low-Power

Managementwith nanoWatt XLP™:
Sleep mode: 100 nA, typical
Watchdog Timer: 500 nA, typical
Timer1 Oscillator: 500 nA @ typical 32 kHzFlexible Oscillator

Structure:
Precision 16 MHz internal oscillator block:- Factory calibrated

to ± 1%- Software selectable frequencies range of31 kHz to 16

MHz- 64 MHz performance available using PLL –no external

components required
Four Crystal modes up to 64 MHz
Two external Clock modes up to 64 MHz
4X Phase Lock Loop (PLL)
Secondary oscillator using Timer1 @ 32 kHz
Fail-Safe Clock Monitor:- Allows for safe shutdown if peripheral

clockstops
Two-Speed Oscillator Start-upSpecial Microcontroller Features:
Full 5.5V operation (PIC18F2XK22/4XK22)
Low voltage option available for 1.8V-3.6V operation

(PIC18LF2XK22/4XK22)
Self-reprogrammable under software control
Power-on Reset (POR), Power-up Timer (PWRT)and Oscillator Start

-up Timer (OST)
Programmable Brown-out Reset (BOR)
Extended Watchdog Timer (WDT) with on-chiposcillator and

software enable
Programmable code protection
In-Circuit Serial Programming™ (ICSP™) viatwo pins
In-Circuit Debug via two pinsAnalog Features:
Analog-to-Digital Converter (ADC) module:- 10-bit resolution- 17

analog input channels (PIC18F/LF2XK22)- 28 analog input channels

(PIC18F/LF4XK22)- Auto acquisition capability- Conversion

available during Sleep
Programmable High/Low Voltage Detection(PLVD) module
Charge Time Measurement Unit (CTMU) formTouch™ support:- Up to

28 channels for button, sensor or sliderinput
Analog comparator module with:- Two rail-to-rail analog

comparators- Comparator inputs and outputs externallyaccessible

and configurable
Voltage reference module with:- Programmable On-chip Voltage

Reference(CVREF) module (% of VDD)- Selectable on-chip fixed

voltage referencePeripheral Features:
24/35 I/O pins and 1 input-only pin:- High current sink/source

25 mA/25 mA- Individually programmable weak pull-ups-

Individually programmable interrupt-on-pinchange
Three external interrupt pins
Up to seven Timer modules:- Up to four 16-bit timers/counters

with prescaler- Up to three 8-bit timers/counters- Dedicated,

low-power Timer1 oscillator
Up to two Capture/Compare/PWM (CCP) modules
Up to three Enhanced Capture/Compare/PWM(ECCP) modules with:-

One, two or four PWM outputs- Selectable polarity- Programmable

dead time- Auto-shutdown and Auto-restart- PWM output steering

control
Two Master Synchronous Serial Port (MSSP)modules with two modes

of operation:- 3-wire SPI (supports all 4 SPI modes)- I2C™

Master and Slave modes (Slave modewith address masking)
Two Enhanced Universal Synchronous AsynchronousReceiver

Transmitter modules (EUSART):- Supports RS-232, RS-485 and LIN

2.0- Auto-Baud Detect- Auto Wake-up on Start bit.

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Power-Managed Modes:
Run: CPU on, peripherals on
Idle: CPU off, peripherals on
Sleep: CPU off, peripherals off
Idle mode currents down to 1.0 µA, typical
Sleep mode current down to 0.1 µA, typical
Timer1 Oscillator: 1.0 µA, 32 kHz, 1.8V, typical
Watchdog Timer: 2.0 µA, 1.8V, typical
Two-Speed Oscillator Start-upPeripheral Highlights:
High-current sink/source 25 mA/25 mA
Three programmable external interrupts
Four independent input-change interrupts
8 independent weak pull-ups
Programmable slew rate
Capture/Compare/PWM (CCP) module
Enhanced Capture/Compare/PWM (ECCP)module:- One, two or four PWM

outputs- Selectable polarity- Programmable dead time- Auto-

Shutdown and Auto-Restart
Master Synchronous Serial Port (MSSP) modulesupporting 3-wire

SPI (all 4 modes) and I2C™Master and Slave modes with address

mask
Enhanced Addressable USART module:- Supports RS-485, RS-232 and

LIN 2.0- RS-232 operation using internal oscillatorblock (no

external crystal required)- Auto-Wake-up on Break- Auto-Baud

Detect
10-bit, up to 14-channel Analog-to-DigitalConverter module

(ADC):- Auto-acquisition capability- Conversion available during

Sleep- Internal 1.2V Fixed Voltage Reference (FVR)channel-

Independent input multiplexing
Dual analog comparators- Rail-to-rail operation- Independent

input multiplexing
Programmable On-Chip Voltage Reference(CVREF) module (% of VDD)

Flexible Oscillator Structure:
Four Crystal modes, up to 64 MHz
4X Phase Lock Loop (available for crystal andinternal

oscillators)
Two External RC modes, up to 4 MHz
Two External Clock modes, up to 64 MHz
Internal oscillator block:- 8 user selectable frequencies, from

31 kHz to16 MHz- Provides a complete range of clock speedsfrom

31 kHz to 64 MHz when used with PLL- User tunable to compensate

for frequency drift
Secondary oscillator using Timer1 @ 32 kHz
Fail-Safe Clock Monitor:- Allows for safe shutdown if primary or

secondaryoscillator stopsSpecial Microcontroller Features:
C compiler optimized architecture:- Optional extended

instruction set designed tooptimize re-entrant code
Self-programmable under software control
Priority levels for interrupts
8 x 8 Single-Cycle Hardware Multiplier
Extended Watchdog Timer (WDT):- Programmable period from 4 ms to

131s
Single-supply 3V In-Circuit SerialProgramming™ (ICSP™) via two

pins
In-Circuit Debug (ICD) via two pins
Operating voltage range: 1.8V to 3.6V
Programmable 16-level High/Low-VoltageDetection (HLVD) module:-

Supports interrupt on High/Low-VoltageDetection
Programmable Brown-out Reset (BOR)- With software enable option


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PIC18F24K50 MCU CRACK,microchip chip decrypt, chip code

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     High performance PIC18 core with 8x8 Hardware Multiply
    Flash Program Memory with self read/write capability
    256 Bytes of integrated EEPROM
    Internal 48MHz Oscillator with USB Accuracy -Via Active

Clock Tuning from USB Host
    Universal Serial Bus 2.0 Module
    Enhanced Capture Compare PWM (ECCP) Module with up to 4

outputs
    Integrated Temperature Indicator Module
    Up to 25 Channel 10-bit ADC with Voltage Reference
    2 Analog Comparators
    5-bit Digital to Analog Converter (DAC)
    MI2C / SPI Module (MSSP)
    Enhanced Addressable USART Module
    Charge Time Measurement Unit (CTMU) for measurement

applications
    25mA Source/Sink current I/O
    2x 8-bit Timers
    2x 16-bit Timers
    Extended Watchdog Timer (WDT)
    Enhanced Power-On/Off-Reset
    Low-Power Brown-Out Reset (LPBOR)
    Programmable Brown-Out Reset (BOR)
    In Circuit Serial Programming and Debug (ICSP/ICD)
    PIC18LF2xK50 (1.8V – 3.6V) with nanoWatt XLP
    PIC18F2xK50 (1.8V – 5.5V)


Thursday, September 13, 2012

Highlights of 5000E


 Highlights

    Two programmers in one, a double value: PC mode for engineering and Stand-alone mode for production. The programmer operates in either PC hosted mode or stand-alone mode.
        Under PC hosted mode, a PC controls the programmer via a high-speed USB connection to program a chip.
        Under stand-alone mode, the user controls the programmer via 20-characters, 4-line LCD display with 6-KEY keypad.
        A CF (compact flash) card stores the project files.
    Ultra-Fast Programming Speed: Programs and verifies 64 Mb NOR Flash memory in 11.3 seconds.
    Built-in 144 universal pin drivers
    CE and RoHS Compliant

5000E Programmer Expanded Features


 Expanded Features

    Programs devices with Vcc as low as 1.2V.
    Ultra fast programming speed: Programs and verifies 64 Mb NOR FLASH memory in 11.3 seconds.
    Built with 144 universal pin-drivers for support of today’s most complex devices. Universal and device independent socket adapters are available for various packages up to 144 pins.
    The programmer operates in either PC hosted mode or stand-alone mode.
        Under PC hosted mode, a PC controls the programmer via a high-speed USB2.0 connection to program a chip.
        Under stand-alone mode, the user controls the programmer via
        20-characters, 4-line LCD display with 6-KEY
        A CF (compact flash) card stores the project files. 
    ISP/ICP programming capability through optional ISP/ICP adapter.
    In stand-alone mode, the user can operate multiple units to construct a concurrent multiprogramming system.
    Over-current and over-voltage protection for safety of the chip and programmer hardware.
    Compatible with Windows 7 & Vista & XP 32/64 bit
    Only IC manufacturer approved programming algorithms provide high reliability.
    Vcc verification at (+5%~-5%) and (10%~-10%) enhances programming reliability.
    Includes the following advanced and powerful software functions:
        Chip operation starts immediately upon proper chip insertion in Production Mode.
        Project function simplifies processes such as device selection, file loading, device configuration setting, program option, and batch file setting into one step.
        Password protection provides security for project files and production volume control.
        Batch command combines device operations like program, verify, security into a single command at any sequence.
        Serial number generators are available as standard or customer-specific functions.
        Log file provides production quality tracking.
        CE and RoHS Compliant

Hardware & Electrical Specifications of 5000E

Hardware & Electrical Specifications

    Devices Supported: EPROM, Paged EPROM, Parallel and Serial EEPROM, FPGA Configuration PROM, FLASH memory (NOR), BPROM, NVRAM, SPLD, CPLD, EPLD, Firmware HUB, Microcontroller, MCU
    Package: DIP, SDIP, PLCC, JLCC, SOIC, QFP, TQFP, PQFP, VQFP, TSOP, SOP, TSOPII, PSOP, TSSOP, SON, EBGA, FBGA, VFBGA, uBGA, CSP, SCSP
    PC interface: USB2.0 (High speed)
    Stand-alone memory: Compact FLASH Card
    Power supply: AC Adapter: Input AC 100V- 240V; Output: 12V/1.5A
    Main unit: Dimensions 148(L) * 216(W) * 94(h) mm; Weight 3.5 lbs (1.6 Kg)
    Package: Dimensions 301(L) * 252(W) * 145(H) mm; Weight 6.2 lbs (2.8Kg)

Monday, September 10, 2012

ATxmega32C4 MCU code extraction


ATxmega32C4 MCU code extraction, Chip decryption, MCU code

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The high-performance, low-power 8/16-bit AVR XMEGA

microcontroller combines 32KB in-system programmable flash

memory (4KB boot code section) with read-while-write

capabilities, 1KB EEPROM, 4KB SRAM, four-channel event system, a

programmable multi-level interrupt controller, 34 general

purpose I/O lines, a 16-bit real time counter, four flexible 16

-bit timer/counters with capture, compare and PWM channels, USB

Full-speed Device, two USARTs, two Two-Wire Interfaces (TWIs),

two Serial Peripheral Interfaces (SPIs), one 12-channel/12-bit

ADC with programmable gain, two analog comparators with window

mode, a programmable watchdog timer with separate internal

oscillator, accurate internal oscillators with PLL and

prescaler, and programmable brown-out detection.

ATxmega32A4U MCU code extraction


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Low power, high performance 8/16-bit AVR microcontroller

featuring 32KB self-programming flash program memory, 4KB boot

code section, 4KB SRAM, 1024-Byte EEPROM, external bus

interface, 4-channel DMA controller, 8-channel event system, and

up to 32 MIPS throughput at 32MHz. The ATxmega A4 series

features 44-pin packages.

The device can be used in a wide range of applications, such as

building, industrial, motor, board, and climate control; hand-

held battery applications; factory automation; power tools;

HVAC; networking, metering, large home appliances, and optical

and medical devices.

ATxmega32A4 MCU code extraction

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Low power, high performance 8/16-bit AVR microcontroller

featuring 32KB self-programming flash program memory, 4KB boot

code section, 4KB SRAM, 1024-Byte EEPROM, external bus

interface, 4-channel DMA controller, 8-channel event system, and

up to 32 MIPS throughput at 32MHz. The ATxmega A4 series

features 44-pin packages.

The device can be used in a wide range of applications, such as

building, industrial, motor, board, and climate control; hand-

held battery applications; factory automation; power tools;

HVAC; networking, metering, large home appliances, and optical

and medical devices.

ATxmega256D3 MCU code extraction


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The high-performance, low-power 8/16-bit AVR XMEGA

microcontroller combines 256KB ISP flash memory (8KB boot code

section) with read-while-write capabilities, 4KB EEPROM, 16KB

SRAM, a four-channel event system, a programmable multi-level

interrupt controller, 50 general purpose I/O lines, a 16-bit

real time counter, five flexible 16-bit timer/counters with

compare modes and PWM, three USARTs, two 2-wire interfaces, two

serial peripheral interfaces, one 16-channel/12-bit A/D

converter with optional differential input with programmable

gain, two analog comparators with window mode, a programmable

watchdog timer with separate internal oscillator, accurate

internal oscillators with PLL and prescaler, and a programmable

brown-out detection. The Program and Debug Interface (PDI), a

fast 2-pin interface for programming and debugging, is

available. By executing powerful instructions in a single clock

cycle, the device achieves throughputs approaching 1 MIPS per

MHz, balancing power consumption and processing speed.

ATxmega256C3 MCU code extraction


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The high-performance, low-power 8/16-bit AVR XMEGA

microcontroller combines 256KB in-system programmable flash

memory (8KB boot code section) with read-while-write

capabilities, 4KB EEPROM, 16KB SRAM, a four-channel event

system, a programmable multi-level interrupt controller, 50

general purpose I/O lines, a 16-bit real time counter, five

flexible 16-bit timer/counters with capture, compare and PWM

channels, USB Full-speed Device, three USARTs, two two-wire

interfaces, two serial peripheral interfaces, one 16-channel/12

-bit ADC with programmable gain, two analog comparators with

window mode, a programmable watchdog timer with separate

internal oscillator, accurate internal oscillators with PLL and

prescaler, and a programmable brown-out detection.

ATxmega256A3U MCU code extraction

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Low power, high performance 8/16-bit AVR microcontroller

featuring 256KB self-programming flash program memory, 8KB boot

code section, 16KB SRAM, 4096-Byte EEPROM, external bus

interface, 4-channel DMA controller, 8-channel event system, and

up to 32 MIPS throughput at 32MHz. The ATxmega A3 series

features 64-pin packages.

The device can be used in a wide range of applications, such as

building, industrial, motor, board, and climate control; hand-

held battery applications; factory automation; power tools;

HVAC; networking, metering, large home appliances, and optical

and medical devices.

ATxmega256A3BU MCU code extraction

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Low power, high performance 8/16-bit AVR microcontroller

featuring 256KB self-programming flash program memory, 8KB boot

code section, 16KB SRAM, 4096-byte EEPROM, external bus

interface, 4-channel DMA controller, 8-channel event system. It

also includes dual 12-bit ADC, 2 12-bit DAC channels, 4 analog

comparators, AES and DES crypto engines, 7 16-bit

timer/counters, 6 USART, 2 SPI, and 2 TWIs, RTC battery backup

system, 4-channel DMA controller, and 8-channel event system.

The device can be used in a wide range of applications, such as

building, industrial, motor, board, and climate control; hand-

held battery applications; factory automation; power tools;

HVAC; networking, metering, large home appliances, and optical

and medical devices. This ATxmega series features 64-pin

packages.

ATxmega256A3B MCU code extraction

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Low power, high performance 8/16-bit AVR microcontroller

featuring 256KB self-programming flash program memory, 8KB boot

code section, 16KB SRAM, 4096-byte EEPROM, external bus

interface, 4-channel DMA controller, 8-channel event system. It

also includes dual 12-bit ADC, 2 12-bit DAC channels, 4 analog

comparators, AES and DES crypto engines, 7 16-bit

timer/counters, 6 USART, 2 SPI, and 2 TWIs, RTC battery backup

system, 4-channel DMA controller, and 8-channel event system.

The device can be used in a wide range of applications, such as

building, industrial, motor, board, and climate control; hand-

held battery applications; factory automation; power tools;

HVAC; networking, metering, large home appliances, and optical

and medical devices. This ATxmega series features 64-pin

packages.

ATxmega256A3 MCU code extraction


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Low power, high performance 8/16-bit AVR microcontroller

featuring 256KB self-programming flash program memory, 8KB boot

code section, 16KB SRAM, 4096-Byte EEPROM, external bus

interface, 4-channel DMA controller, 8-channel event system, and

up to 32 MIPS throughput at 32MHz. The ATxmega A3 series

features 64-pin packages.

The device can be used in a wide range of applications, such as

building, industrial, motor, board, and climate control; hand-

held battery applications; factory automation; power tools;

HVAC; networking, metering, large home appliances, and optical

and medical devices.

ATxmega192D3 MCU code extraction

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The high-performance, low-power 8/16-bit AVR XMEGA

microcontroller combines 192KB ISP flash memory (8KB boot code

section) with read-while-write capabilities, 2KB EEPROM, 16KB

SRAM, a four-channel event system, a programmable multi-level

interrupt controller, 50 general purpose I/O lines, a 16-bit

real time counter, five flexible 16-bit timer/counters with

compare modes and PWM, three USARTs, two 2-wire interfaces, two

serial peripheral interfaces, one 16-channel/12-bit A/D

converter with optional differential input with programmable

gain, two analog comparators with window mode, a programmable

watchdog timer with separate internal oscillator, accurate

internal oscillators with PLL and prescaler, and a programmable

brown-out detection. The Program and Debug Interface (PDI), a

fast 2-pin interface for programming and debugging, is

available. By executing powerful instructions in a single clock

cycle, the device achieves throughputs approaching 1 MIPS per

MHz, balancing power consumption and processing speed.

Friday, September 7, 2012

AT32UC3L032 MCU code extraction

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copying.
The high-performance 32-bit AVR microcontroller is designed for

cost-sensitive embedded applications that require low power

consumption, high code density, and high performance.

The microcontroller's Memory Protection Unit (MPU) and fast,

flexible interrupt controller support the latest real-time

operating systems. The Secure Access Unit (SAU) with MPU provide

enhanced security and integrity. Higher computation capability

is achieved using a rich set of DSP instructions.

The microcontroller embeds state-of-the-art picoPower technology

for ultra-low power consumption. A combination of power control

techniques bring active current consumption down to 165µA/MHz

and leakage down to 9nA while still retaining a bank of backup

registers. The device offers a wide range of trade-offs between

functionality and power consumption to reach the lowest possible

power usage for the application's required feature set.

AT32UC3L0256 MCU code extraction

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The high-performance 32-bit AVR microcontroller is designed for

cost-sensitive embedded applications that require low power

consumption, high code density, and high performance.

The microcontroller's Memory Protection Unit (MPU) and fast,

flexible interrupt controller support the latest real-time

operating systems. The Secure Access Unit (SAU) with MPU provide

enhanced security and integrity. Higher computation capability

is achieved using a rich set of DSP instructions.

The microcontroller embeds state-of-the-art picoPower technology

for ultra-low power consumption. A combination of power control

techniques bring active current consumption down to 165µA/MHz

and leakage down to 9nA while still retaining a bank of backup

registers. The device offers a wide range of trade-offs between

functionality and power consumption to reach the lowest possible

power usage for the application's required feature set.

AT32UC3L016 MCU code extraction

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copying.
The high-performance 32-bit AVR RISC microcontroller designed

for cost-sensitive embedded applications that require low power

consumption, high code density, and high performance.

The microcontroller's Memory Protection Unit (MPU) and fast,

flexible interrupt controller support the latest real-time

operating systems. The Secure Access Unit (SAU) with MPU provide

enhanced security and integrity. Higher computation capability

is achieved using a rich set of DSP instructions.

The microcontroller embeds state-of-the-art picoPower technology

for ultra-low power consumption. A combination of power control

techniques bring active current consumption down to 165µA/MHz

and leakage down to 9nA while still retaining a bank of backup

registers. The device offers a wide range of trade-offs between

functionality and power consumption to reach the lowest possible

power usage for the application's required feature set.

AT32UC3A4256S AT32UC3A4256 Chip decryption

AT32UC3A4256S AT32UC3A4256 Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying .
32-bit AVR microcontroller designed for exceptionally high data throughput with Hi-Speed USB OTG, SD/SDIO card and Multi-Level-Cell (MLC) NAND flash with ECC interfaces. Designed with the multi-layered 32-bit AVR databus, 128 KB on-chip SRAM with triple high speed interfaces,and multi-channel Peripheral and memory to memory DMA controller, the AT32UC3A4256S offers outstanding data throughput.

The device also features a Built-in Hi-Fi stereo Audio DAC, and a full duplex multi-channel I2S audio interface.

The AT32UC3A4256S features an AES crypto module, capable of 128 to 256-bit AES encryption at speeds of up to 22.8 MBytes/s. Note that export restrictions apply to this variant.

128KB version: AT32UC3A4128S
64KB version: AT32UC3A464S

144-pin version: AT32UC3A4356S
Non Crypto version: AT32UC3A4256

AT32UC3L0128 MCU code extraction

AT32UC3L0128 MCU code extraction, Chip decryption, MCU code

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The high-performance 32-bit AVR microcontroller is designed for

cost-sensitive embedded applications that require low power

consumption, high code density, and high performance.

The microcontroller's Memory Protection Unit (MPU) and fast,

flexible interrupt controller support the latest real-time

operating systems. The Secure Access Unit (SAU) with MPU provide

enhanced security and integrity. Higher computation capability

is achieved using a rich set of DSP instructions.

The microcontroller embeds state-of-the-art picoPower technology

for ultra-low power consumption. A combination of power control

techniques bring active current consumption down to 165µA/MHz

and leakage down to 9nA while still retaining a bank of backup

registers. The device offers a wide range of trade-offs between

functionality and power consumption to reach the lowest possible

power usage for the application's required feature set.

AT32UC3L016 MCU code extraction

AT32UC3L016  MCU code extraction, Chip decryption, MCU code

extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB

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The high-performance 32-bit AVR RISC microcontroller designed

for cost-sensitive embedded applications that require low power

consumption, high code density, and high performance.

The microcontroller's Memory Protection Unit (MPU) and fast,

flexible interrupt controller support the latest real-time

operating systems. The Secure Access Unit (SAU) with MPU provide

enhanced security and integrity. Higher computation capability

is achieved using a rich set of DSP instructions.

The microcontroller embeds state-of-the-art picoPower technology

for ultra-low power consumption. A combination of power control

techniques bring active current consumption down to 165µA/MHz

and leakage down to 9nA while still retaining a bank of backup

registers. The device offers a wide range of trade-offs between

functionality and power consumption to reach the lowest possible

power usage for the application's required feature set.

AT32UC3A4256 Chip decryption

AT32UC3A4256 Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying .
32-bit AVR microcontroller designed for exceptionally high data throughput with Hi-Speed USB OTG, SD/SDIO card and Multi-Level-Cell (MLC) NAND flash with ECC interfaces. Designed with the multi-layered 32-bit AVR databus, 128 KB on-chip SRAM with triple high speed interfaces,and multi-channel Peripheral and memory to memory DMA controller, the AT32UC3A4256 offers outstanding data throughput.

The device also features a Built-in Hi-Fi stereo Audio DAC, and a fullduplex multi-channel I2S audio interface.

128KB version: AT32UC3A4128
64KB version: AT32UC3A464

144-pin version: AT32UC3A3256
Crypto version: AT32UC3A4256S

AT32UC3L0128 MCU code extraction

AT32UC3L0128 MCU code extraction, Chip decryption, MCU code

extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB

copying.
The high-performance 32-bit AVR microcontroller is designed for

cost-sensitive embedded applications that require low power

consumption, high code density, and high performance.

The microcontroller's Memory Protection Unit (MPU) and fast,

flexible interrupt controller support the latest real-time

operating systems. The Secure Access Unit (SAU) with MPU provide

enhanced security and integrity. Higher computation capability

is achieved using a rich set of DSP instructions.

The microcontroller embeds state-of-the-art picoPower technology

for ultra-low power consumption. A combination of power control

techniques bring active current consumption down to 165µA/MHz

and leakage down to 9nA while still retaining a bank of backup

registers. The device offers a wide range of trade-offs between

functionality and power consumption to reach the lowest possible

power usage for the application's required feature set.