Monday, November 19, 2012

LPC2478FBD208 NXP ARM Crack

LPC2478FBD208 NXP ARM  Crack, nxp chip decryption, nxp crack, mcu code extraction, PCB copying, PCB cloning.
Single-chip 16-bit/32-bit micro; 512 kB flash, Ethernet, CAN, LCD, USB 2.0 device/host/OTG, external memory interface
NXP Semiconductors designed the LPC2478 microcontroller, powered by the ARM7TDMI-S core, to be a highly integrated microcontroller for a wide range of applications that require advanced communications and high quality graphic displays. The LPC2478 microcontroller has 512 kB of on-chip high-speed flash memory. This flash memory includes a special 128-bit wide memory interface and accelerator architecture that enables the CPU to execute sequential instructions from flash memory at the maximum 72 MHz system clock rate. This feature is available only on the LPC2000 ARM microcontroller family of products. The LPC2478, with real-time debug interfaces that include both JTAG and embedded trace, can execute both 32-bit ARM and 16-bit Thumb instructions.

LPC2470FET208 NXP ARM Crack

LPC2470FET208 NXP ARM  Crack, nxp chip decryption, nxp crack, mcu code extraction, PCB copying, PCB cloning.
Flashless 16-bit/32-bit microcontroller; Ethernet, CAN, LCD, USB 2.0 device/host/OTG, external memory interface
The LPC2470 microcontroller incorporates an LCD controller, a 10/100 Ethernet Media Access Controller (MAC), a USB full-speed device/host/OTG controller with 4 kB of endpoint RAM, four UARTs, two Controller Area Network (CAN) channels, an SPI interface, two Synchronous Serial Ports (SSP), three I2C interfaces, and an I2S interface. Supporting this collection of serial communications interfaces are the following feature components; an on-chip 4 MHz internal oscillator, 98 kB of total RAM consisting of 64 kB of local SRAM, 16 kB SRAM for Ethernet, 16 kB SRAM for general purpose DMA, 2 kB of battery powered SRAM, and an External Memory Controller (EMC). These features make this device optimally suited for portable electronics and Point-of-Sale (POS) applications. Complementing the many serial communication controllers, versatile clocking capabilities, and memory features are various 32-bit timers, a 10-bit ADC, 10-bit DAC, two PWM units, and up to 160 fast GPIO lines. The LPC2470 connects 64 of the GPIO pins to the hardware based Vector Interrupt Controller (VIC), allowing the external inputs to generate edge-triggered interrupts. All of these features make the LPC2470 particularly suitable for industrial control and medical systems.

LPC2470FBD208 NXP ARM Crack

LPC2470FBD208 NXP ARM  Crack, nxp chip decryption, nxp crack, mcu code extraction, PCB copying, PCB cloning.
Flashless 16-bit/32-bit microcontroller; Ethernet, CAN, LCD, USB 2.0 device/host/OTG, external memory interface
NXP Semiconductors designed the LPC2470 microcontroller, powered by the ARM7TDMI-S core, to be a highly integrated microcontroller for a wide range of applications that require advanced communications and high quality graphic displays. The LPC2470 microcontroller is flashless. The LPC2470, with real-time debug interfaces that include both JTAG and embedded trace, can execute both 32-bit ARM and 16-bit Thumb instructions.

LPC2468FET208 NXP ARM Crack

LPC2468FET208 NXP ARM  Crack, nxp chip decryption, nxp crack, mcu code extraction, PCB copying, PCB cloning.
Single-chip 16-bit/32-bit micro; 512 kB flash, Ethernet, CAN, ISP/IAP, USB 2.0 device/host/OTG, external memory interface.
The LPC2468 microcontroller is ideal for multi-purpose communication applications. It incorporates a 10/100 Ethernet Media Access Controller (MAC), a USB full-speed Device/Host/OTG Controller with 4 kB of endpoint RAM, four UARTs, two Controller Area Network (CAN) channels, an SPI interface, two Synchronous Serial Ports (SSP), three I2C interfaces, and an I2S interface. Supporting this collection of serial communications interfaces are the following feature components; an on-chip 4 MHz internal precision oscillator, 98 kB of total RAM consisting of 64 kB of local SRAM, 16 kB SRAM for Ethernet, 16 kB SRAM for general purpose DMA, 2 kB of battery powered SRAM, and an External Memory Controller (EMC). These features make this device optimally suited for communication gateways and protocol converters. Complementing the many serial communication controllers, versatile clocking capabilities, and memory features are various 32-bit timers, an improved 10-bit ADC, 10-bit DAC, two PWM units, four external interrupt pins, and up to 160 fast GPIO lines. The LPC2468 connects 64 of the GPIO pins to the hardware based Vector Interrupt Controller (VIC) that means these external inputs can generate edge-triggered interrupts. All of these features make the LPC2468 particularly suitable for industrial control and medical systems.

LPC2468 NXP ARM Crack

LPC2468 NXP ARM  Crack, nxp chip decryption, nxp crack, mcu code extraction, PCB copying, PCB cloning.
Single-chip 16-bit/32-bit micro; 512 kB flash, Ethernet, CAN, ISP/IAP, USB 2.0 device/host/OTG, external memory interface.
NXP Semiconductors designed the LPC2468 microcontroller around a 16-bit/32-bit ARM7TDMI-S CPU core with real-time debug interfaces that include both JTAG and embedded trace. The LPC2468 has 512 kB of on-chip high-speed flash memory. This flash memory includes a special 128-bit wide memory interface and accelerator architecture that enables the CPU to execute sequential instructions from flash memory at the maximum 72 MHz system clock rate. This feature is available only on the LPC2000 ARM microcontroller family of products. The LPC2468 can execute both 32-bit ARM and 16-bit Thumb instructions. Support for the two instruction sets means engineers can choose to optimize their application for either performance or code size at the sub-routine level. When the core executes instructions in Thumb state it can reduce code size by more than 30 % with only a small loss in performance while executing instructions in ARM state maximizes core performance.

Friday, October 26, 2012

CY8C20246A chip reverse

CY8C20246A chip reverse, chip decryption, chip crack, mcu code

extraction, mcu crack, mcu reverse.
Features
■ Wide operating range: 1.71 V to 5.5 V
■ Ultra low deep sleep current: 100 nA
 Configurable capacitive sensing elements
 7 μA per sensor at 500 ms scan rate
 Supports SmartSense Auto-tuning
 Supports a combination of CapSense buttons, sliders,
touchpads, touchscreens, and proximity sensors
 SmartSense_EMC offers superior noise immunity for
applications with challenging conducted and radiated noise
conditions
■ Powerful Harvard-architecture processor
 M8C CPU – Up to 4 MIPS with 24 MHz Internal clock, external
crystal resonator or clock signal
 Low power at high speed
■ Temperature range: –40 °C to +85 °C
■ Flexible on-chip memory
 Three program/data storage size options:
 8 KB flash/1 KB SRAM
 16 KB flash/2 KB SRAM
 32 KB flash/2 KB SRAM
 50,000 flash erase/write cycles
 Partial flash updates
 Flexible protection modes
 In-system serial programming (ISSP)
■ Full-speed USB
 12 Mbps USB 2.0 compliant
■ Precision, programmable clocking
 Internal main oscillator (IMO): 6/12/24 MHz ± 5%
 Internal low speed oscillator (ILO) at 32 kHz for watchdog
and sleep timers
 Precision 32 kHz oscillator for optional external crystal
■ Programmable pin configurations
 Up to 36 general-purpose I/Os (GPIOs) (depending on
package)
 Dual mode GPIO: All GPIOs support digital I/O and analog
inputs
 25-mA sink current on each GPIO
 120 mA total sink current on all GPIOs
 Pull-up, high Z, open-drain modes on all GPIOs
 CMOS drive mode –5 mA source current on ports 0 and 1
and 1 mA on ports 2, 3, and 4
 20 mA total source current on all GPIOs
■ Versatile analog system
 Low-dropout voltage regulator for all analog resources
 Common internal analog bus enabling capacitive sensing on
all pins
 High power supply rejection ratio (PSRR) comparator
 8 to 10-bit incremental analog-to-digital converter (ADC)
■ Additional system resources
 I2C slave:
 Selectable to 50 kHz, 100 kHz, or 400 kHz
 SPI master and slave: Configurable 46.9 kHz to 12 MHz
 Three 16-bit timers
 Watchdog and sleep timers
 Integrated supervisory circuit
 Emulated E2PROM using flash memory
■ Complete development tools
 Free development tool (PSoC Designer?)
 Full-featured, in-circuit emulator (ICE) and programmer
 Full-speed emulation
 Complex breakpoint structure
 128 KB trace memory
■ Versatile package options
 16-pin 3 × 3 × 0.6 mm QFN
 24-pin 4 × 4 × 0.6 mm QFN
 32-pin 5 × 5 × 0.6 mm QFN
 48-pin SSOP
 48-pin 7 × 7 × 1.0 mm QFN
 30-ball WLCSP

CY8C20246A-24LKXIT chip reverse

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The PSoC family consists of on-chip controller devices, which
are designed to replace multiple traditional microcontroller

unit
(MCU)-based components with one, low cost single-chip
programmable component. A PSoC device includes
configurable analog and digital blocks, and programmable
interconnect. This architecture allows the user to create
customized peripheral configurations, to match the requirements
of each individual application. Additionally, a fast CPU, Flash
program memory, SRAM data memory, and configurable I/O are
included in a range of convenient pinouts.
The architecture for this device family, as shown in the Logic
Block Diagram on page 2, consists of three main areas:
■ The Core
■ CapSense Analog System
■ System Resources (including a full-speed USB port).
A common, versatile bus allows connection between I/O and the
analog system.
Each CY8C20X36A/46A/66A/96A/46AS/66AS PSoC device
includes a dedicated CapSense block that provides sensing and
scanning control circuitry for capacitive sensing applications.
Depending on the PSoC package, up to 36 GPIO are also
included. The GPIO provides access to the MCU and analog
mux.

CY8C20246AS-24LKXI chip reverse


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PSoC Designer? is the revolutionary integrated design
environment (IDE) that you can use to customize PSoC to meet
your specific application requirements. PSoC Designer software
accelerates system design and time to market. Develop your
applications using a library of precharacterized analog and

digital
peripherals (called user modules) in a drag-and-drop design
environment. Then, customize your design by leveraging the
dynamically generated application programming interface (API)
libraries of code. Finally, debug and test your designs with the
integrated debug environment, including in-circuit emulation and
standard software debug features. PSoC Designer includes:
■ Application editor graphical user interface (GUI) for device

and
user module configuration and dynamic reconfiguration
■ Extensive user module catalog
■ Integrated source-code editor (C and assembly)
■ Free C compiler with no size restrictions or time limits
■ Built-in debugger
■ In-circuit emulation
■ Built-in support for communication interfaces:
 Hardware and software I2C slaves and masters
 Full-speed USB 2.0
 Up to four full-duplex universal asynchronous
receiver/transmitters (UARTs), SPI master and slave, and
wireless
PSoC Designer supports the entire library of PSoC 1 devices and
runs on Windows XP, Windows Vista, and Windows 7.

MC9S08XXX crack

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S9S08AW16 S9S08AW8

CY8C20247-24LKXI chip reverse

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code extraction, mcu crack, mcu reverse.
Features
■ QuietZone? Controller
 Patented Capacitive Sigma Delta PLUS (CSD PLUS?)
sensing algorithm for robust performance
 High Sensitivity (0.1 pF) and best-in-class SNR performance
to support:
 Ideal for proximity solutions
 Overlay thickness of 15 mm for glass and 5 mm plastic
 Superior noise immunity performance against conducted and
radiated noise and ultra low radiated emissions
 Reliable and robust touch performance in noisy environments
 Standardized user modules for overcoming noise
■ Low power CapSense

 block with SmartSense? auto-tuning
 Supports a combination of up to 31 buttons or 6 sliders,

proximity sensors
 Low average power consumption - 28 ?A for each sensor at
runtime (wake from sleep and scan sensors every 125 ms)
 SmartSense auto-tuning
 Sets and maintains optimal sensor performance during
runtime
 Eliminates system tuning during development and production
 Compensates for variations in manufacturing process
■ Driven shield available on five GPIO pins
 Max load of 100 pF at 3 MHz
 Frequency range: 375 kHz to 3 MHz
 Delivers best-in class water tolerant designs
 Robust proximity sensing in the presence of metal objects
■ Powerful Harvard-architecture processor
 M8C CPU with a maximum speed of 24 MHz
 Operating range: 1.71 V to 5.5 V
 Standby mode: 1.1 μA (typ)
 Deep sleep: 0.1 μA (typ)
 Temperature range: –40 °C to +85 °C
■ Flexible on-chip memory
 8 KB flash, 1 KB SRAM
 16 KB flash, 2 KB SRAM
 32 KB flash, 2 KB SRAM
 50,000 flash erase/write cycles
 In-system programming capability
■ Four clock sources
 Internal main oscillator (IMO): 6/12/24 MHz
 Internal low-speed oscillator (ILO) at 32 kHz for watchdog
and sleep timers
 RC crystal oscillator
 Clock input
■ Programmable pin configurations
 Up to 32 general-purpose I/Os (GPIOs)
 Dual mode GPIO
 High sink current of 25 mA for each GPIO. Total 120 mA
maximum sink current per chip
 5 mA source current on port 0 and 1 and 1 mA on port 2,3
and 4
 Configurable internal pull-up, high-Z, and open drain modes
 Selectable, regulated digital I/O on port 1
 Configurable input threshold on port 1
■ Versatile analog mux
 Common internal analog bus
 Simultaneous connection of I/O
 High power supply rejection ratio (PSRR) comparator
 Low-dropout voltage regulator for all analog resources
■ Additional system resources
 I2C slave:
 Selectable to 50 kHz, 100 kHz, or 400 kHz
 Selectable clock stretch or forced Nack mode
 Implementation during sleep modes with less than 100 μA
 I2C wake from sleep with hardware address validation
 12 MHz SPI master and slave
 Three 16-bit timers
 Watchdog and sleep timers
 Internal voltage reference
 Integrated supervisory circuit
 10-bit incremental analog-to-digital converter (ADC)
 Two general-purpose high speed, low power analog comparators
■ Complete development tools
 Free development tool (PSoC Designer?)
■ Package options
 16-pin SOIC (150 mil)
 16-pin QFN – 3 × 3 × 0.6 mm
 24-pin QFN – 4 × 4 × 0.6 mm
 32-pin QFN – 5 × 5 × 0.6 mm
 48-pin QFN – 6 × 6 × 0.6 mm
 30-ball WLCSP





Tuesday, October 16, 2012

CY7C025AV-20AXC chip decryption

CY7C025AV-20AXC chip decryption,cypress MCU code extraction, PCB

cloning . 

Features
 True dual-ported memory cells which enable simultaneous
access of the same memory location
 4, 8 or 16 K × 16 organization
(CY7C024AV/025AV/026AV)
 0.35 micron CMOS for optimum speed and power
 High speed access: 20 ns and 25 ns
 Low operating power
 Active: ICC = 115 mA (typical)
 Standby: ISB3
= 10 ?A (typical)
 Fully asynchronous operation
 Automatic power down
 Expandable data bus to 32 bits or more using Master and Slave
chip select when using more than one device
 On chip arbitration logic
 Semaphores included to permit software handshaking
between ports
 INT flag for port-to-port communication
 Separate upper byte and lower byte control
 Pin select for Master or Slave (M/S)
 Commercial and industrial temperature ranges
 Available in 100-pin Pb-free TQFP and 100-pin TQFP

Wednesday, October 10, 2012

M32C/85 Renesas series chip decryption

M32C/85  Renesas series chip decryption, code extraction,

programm reading.

The M32C/85 is based on the M32C/80 CPU Core and has 16MB of

address space.Maximum operating frequency is 32MHz. Mask ROM and

Flash Memory Versions areavailable. Internal Flash Memory is

programmable on a single power source.

M32C/87 code extraction

M32C/87  Renesas series chip decryption, code extraction,

programm reading.
The M32C/87 is based on the M32C/80 CPU Core and has 16MB of

address space.Maximum operating frequency is 32MHz. Mask ROM and

Flash Memory Versions areavailable. Internal Flash Memory is

programmable on a single power source.

M32C/87 Key Features

Key Features:

16-bit Multifunction Timer (Timer A and B, incl. 3-phase

inverter motorcontrol function): 11 channels
Clock Synchronous / Asynchronous Serial Interface: 7 channels*
10-bit A/D Converter: 34 channels*
8-bit D/A Converter: 2
DMAC: 4 channels
DMAC II: Can be activated by all peripheral function interrupt

factors
Intelligent I/O
Time Measurement (Input Capture) Function: 16-bit x 8 channels
Waveform Generating (Output Compare) Function: 16-bit x 16

channels*
Communication Function
2-phase Pulse Signal Processing (2-phase encoder input)
CAN (2.0B)
M32C/87: 2 channels, M32C/87A: 1 channel, M32C/87B: Not

Available
CRC Calculation Circuit
X/Y Converter
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub

ClockGeneration Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Power Supply Voltage Detection
ROM Correction Function
I/O Ports: 123*
External Interrupt Pins: 14*
Data Flash: 4KB (Flash Memory Version only)
*: Spec of 144-pin version.

M30873FHGP Key Applications

Key Applications:

Audio, Cameras, Office Equipment, Communication/Portable

Devices.
M30873FHGP M30873MH-XXXGP M30875FHGP M30875MH-XXXGP M30876FJGP
M30876MJ-XXXFP M30876MJ-XXXGP M30878FJGP M30878MJ-XXXGP

M30879FKGP M30879FLFP M30879FLGP M3087BFKGP M3087BFLGP

M30873FHAGP M30873MHA-XXXGP M30875FHAGP M30875MHA-XXXGP

M30876FJAGP M30876MJA-XXXFP M30876MJA-XXXGP M30878FJAGP

M30878MJA-XXXGP M30879FKAGP M30879FLAFP M30879FLAGP M3087BFKAGP

M3087BFLAGP M30873FHBGP M30873MHB-XXXGP M30875FHBGP M30875MHB-

XXXGP M30876FJBGP M30876MJB-XXXFP M30876MJB-XXXGP M30878FJBGP

M30878MJB-XXXGP M30879FKBGP M30879FLBFP M30879FLBGP M3087BFKBGP

M3087BFLBGP

M32C/87 Renesas series chip decryption

M32C/87  Renesas series chip decryption, code extraction,

programm reading.
The M32C/87 is based on the M32C/80 CPU Core and has 16MB of

address space.Maximum operating frequency is 32MHz. Mask ROM and

Flash Memory Versions areavailable. Internal Flash Memory is

programmable on a single power source.
Key Features:

16-bit Multifunction Timer (Timer A and B, incl. 3-phase

inverter motorcontrol function): 11 channels
Clock Synchronous / Asynchronous Serial Interface: 7 channels*
10-bit A/D Converter: 34 channels*
8-bit D/A Converter: 2
DMAC: 4 channels
DMAC II: Can be activated by all peripheral function interrupt

factors
Intelligent I/O
Time Measurement (Input Capture) Function: 16-bit x 8 channels
Waveform Generating (Output Compare) Function: 16-bit x 16

channels*
Communication Function
2-phase Pulse Signal Processing (2-phase encoder input)
CAN (2.0B)
M32C/87: 2 channels, M32C/87A: 1 channel, M32C/87B: Not

Available
CRC Calculation Circuit
X/Y Converter
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub

ClockGeneration Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Power Supply Voltage Detection
ROM Correction Function
I/O Ports: 123*
External Interrupt Pins: 14*
Data Flash: 4KB (Flash Memory Version only)
*: Spec of 144-pin version.

Key Applications:

Audio, Cameras, Office Equipment, Communication/Portable

Devices.
M30873FHGP M30873MH-XXXGP M30875FHGP M30875MH-XXXGP M30876FJGP
M30876MJ-XXXFP M30876MJ-XXXGP M30878FJGP M30878MJ-XXXGP

M30879FKGP M30879FLFP M30879FLGP M3087BFKGP M3087BFLGP

M30873FHAGP M30873MHA-XXXGP M30875FHAGP M30875MHA-XXXGP

M30876FJAGP M30876MJA-XXXFP M30876MJA-XXXGP M30878FJAGP

M30878MJA-XXXGP M30879FKAGP M30879FLAFP M30879FLAGP M3087BFKAGP

M3087BFLAGP M30873FHBGP M30873MHB-XXXGP M30875FHBGP M30875MHB-

XXXGP M30876FJBGP M30876MJB-XXXFP M30876MJB-XXXGP M30878FJBGP

M30878MJB-XXXGP M30879FKBGP M30879FLBFP M30879FLBGP M3087BFKBGP

M3087BFLBGP

Tuesday, September 25, 2012

PIC18F25K22 MCU CRACK

PIC18F25K22 MCU CRACK,microchip chip decrypt, chip code

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products clone.PCB cLone.
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

PIC18F45K20 MCU CRACK,microchip chip decrypt

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High Performance RISC CPU:
C Compiler Optimized Architecture:- Optional extended

instruction set designed tooptimize re-entrant code
Up to 1024 bytes Data EEPROM
Up to 64 Kbytes Linear program memoryaddressing
Up to 3936 bytes Linear data memory addressing
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 multiplierFlexible 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:
Operating Voltage Range: 1.8V to 3.6V
Self-Programmable under Software Control
Programmable 16-Level High/Low-VoltageDetection (HLVD) module:-

Interrupt on High/Low-Voltage Detection
Programmable Brown-out Reset (BOR):- With software enable option
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 PinsExtreme Low-Power

Managementwith nanoWatt XLP™:
Sleep mode: 100 nA
Watchdog Timer: 500 nA
Timer1 Oscillator: 500 nA @ 32 kHzAnalog Features:
Analog-to-Digital Converter (ADC) module :- 10-bit resolution,

13 External Channels- Auto-acquisition capability- Conversion

available during Sleep- 1.2V Fixed Voltage Reference (FVR)

channel- Independent input multiplexing
Analog Comparator module:- Two rail-to-rail analog comparators-

Independent input multiplexing
Voltage Reference (CVREF) module- Programmable (% VDD), 16

steps- Two 16-level voltage ranges using VREF pinsPeripheral

Highlights:
Up to 35 I/O pins plus 1 input-only pin:- High-Current

Sink/Source 25 mA/25 mA- Three programmable external interrupts-

Four programmable interrupt-on-change- Eight programmable weak

pull-ups- Programmable slew rate
Capture/Compare/PWM (CCP) module
Enhanced CCP (ECCP) module:- One, two or four PWM outputs-

Selectable polarity- Programmable dead time- Auto-Shutdown and

Auto-Restart
Master Synchronous Serial Port (MSSP) module- 3-wire SPI

(supports all 4 modes)- I2C™ Master and Slave modes with

addressmask
Enhanced Universal Synchronous AsynchronousReceiver Transmitter

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

operation using internal oscillator- Auto-Wake-up on Break-

Auto-Baud Detect

PIC18F44K20 MCU CRACK

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The PIC18F2XK20/4XK20 family offers the advantages of all PIC18

microcontrollers – namely, high computational performance at an

economical price – with the addition of high-endurance, Flash

program memory. On top of these features, the PIC18F2XK20/4XK20

family introduces design enhancements that make these

microcontrollers a logical choice for many highperformance,

power sensitive applications.

Thursday, September 13, 2012

SuperPro 5000E Universal IC Chip Device Programmer


SuperPro 5000E Universal IC Chip Device Programmer
SKU     SP5KE
Weight     7.00 lbs
Number of Devices Supported     71,000+
Number of Manufacturers Supported     277
Number of Pins Available     144
Stand-Alone (PC-Free)     Yes
Built-in Processor     ARM7 RISC MCU
Free User Requested Device Update     No
Windows Support     Win XP/Vista/7 32/64 bit
RoHS & CE Compliance     Yes
Warranty     2 Years


 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


 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

    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)



Items Included

    SuperPro 5000E Programmer with a DIP48 Adapter
    AC adapter
    Software CD
    USB Cable

Optional Accessories:

    Socket Adapters in various packages
    CF card for stand-alone operation
    ISP Header for serial programming



Hardware & electrical Specifications of Xeltek 6000 Programmer

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 Feature: Supported, Compact FLASH Card
    Power supply: AC Adapter: Input AC 90V- 250V; Output: 12V / 2A
    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)

Expanded Features of Xeltek SuperPro 6000 Universal Programmer

Expanded Features

    Support devices with Vcc from 1.2V - 5V.
    30% faster programming speed compared to SuperPro5000 with ARM9 MCU Processor + Linux ultra-fast algorithm processing engine.
    Support files up to 256 GBytes.
    Built with 144 universal pin-drivers. Universal adapters are available for various package types up to 144 pins. More efficient for new device support. 
    Stand-alone mode (No PC required) and PC hosted mode.
        Under PC hosted mode the programmer is controlled by a PC via USB2.0 (high speed) to program a chip.
        Under stand-alone mode, the programmer is controlled via the 6-KEY keypad and the 20 character by 4 line LCD display.
        A CF (compact flash) card is used to store the project files. 
    Cluster 1-15 units for flexible volume production. Operate multiple units to construct a concurrent multi-programming system.
    ISP / ICP programming capability available via ISP / ICP adapter.
    Over-current and over-voltage protection for safety of the chip and programmer hardware.
    Compatible with Windows XP / Vista / 7 32/64 bit
    Only IC manufacturer approved programming algorithms used for high reliability.
    Vcc verification at (+5%~-5%) and (10%~-10%) enhances programming reliability.
    Advanced and powerful software functions:
        Production mode start chip operation the moment the chip is inserted properly.
        Project function simplifies processes such as Device Selection, File Loading, Device Configuration Setting, Program Option, and Batch File Setting into one step.
        Password for project files can be set for volume production control
        Batch command combines device operations like Program, Verify,and Security into a single command at any sequence.
        Serial numbers generators are available as standard or customer-specific functions.
        Log file is useful for quality tracking.

Wednesday, September 12, 2012

EPROM and Flash memory ID detection and Search

LabTool-48UXP Programmer  Device insertion and contact checks--

No mistakes!

    The LabTool-48UXP performs device insertion and contact

checks before it programs each device. It can detect poor pin

contact and devices inserted upside down or in the wrong

position. This function protects your pocketbook by preventing

expensive chip damage due to operator error.




LabTool-48UXP Programmer EPROM and Flash memory ID detection and

Search

    Many EPROM and Flash memories have a build-in device ID and

manufacturer ID. The LabTool-48UXP can read the device's ID by

press hot key to detect the ID and compare its database and

determined the chip's correct vendor and product number. This

feature is especially useful with secondhand chips and devices

that have had their part number accidentally (or intentionally)

removed (this function only applied to 28 pin or 32 pin EPROM

and Flash).

LabTool-48UXP Programmer Universal pin driver

LabTool-48UXP Programmer Universal pin driver
    Universal pin driver--No adapter required for DIL devices
    The LabTool-48UXP features universal pin driver, each pin

can supply four different voltage, ground, it also can be

configurable as TTL high/low levels with pull-high/pull-low,

high-speed clock and high impedance. This advanced pin design

lets you program any DIL device of up to 48 pins without needing

an adapter.


LabTool-48UXP Programmer Unbeatable programming speed

    The LabTool-48UXP's on-board intelligence reduces system

overhead to a minimum. The LabTool-48UXP has 100% more

performance then its predecessor product in program the high

density flash chip, it can program a Intel 32 M bit flash chip

in less then 60 seconds.

LabTool-48UXP Programmer Features


LabTool-48UXP Programmer Intelligent Universal Programmer

Features

    USB or parallel port interface with auto-switch power
    Support 5V and 3.3V low voltage devices, 1.8V chip support

through low voltage adapter.
    Less then 2 seconds per Mbit Programming speed for high

density flash chip.
    No adapter required for DIL chip up to 48-pin
    48-pin universal pin driver and current limit
    Auto-sense/ Self programming with statistical report
    Device insertion /continuity check
    Universal adapter for 44-pin PLCC/ QFP/ TQFP/PSOP and 40/48

TSOP
    Supports OS : Windows 95 / 98 / ME / NT / 2000 / XP / Vista

(32bit) / 7(32bit) (Parallel port)
    Windows 98SE / ME / 2000 / XP / Vista(32bit) / 7(32bit /

64bit) (USB port)
    Automatic EPROM/ Flash ID search
    Serialization for Memory/μP chip
    Memory buffer H / L byte swap
    Project file save / load function
    User-selectable verify Vcc with one or two-pass verify

voltage
    Automatic file format detection and conversion
    User-changeable programming parameters
    1 year warranty
    Software update via web

Thursday, September 6, 2012

AT86RF231 MCU code extraction

AT86RF231 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Feature rich, low-power 2.4GHz transceiver designed for industrial and consumer IEEE 802.15.4, ZigBee, RF4CE, SP100, WirelessHART™, ISM, and high data rate applications. It is a true SPI-to-antenna solution providing a complete radio transceiver interface between the antenna and the microcontroller.

It comprises the analog radio transceiver and the digital demodulation including time and frequency synchronization, and data buffering. All RF-critical components are integrated on a single chip minimizing the number of required external components to the antenna, crystal and decoupling capacitors. The bidirectional differential antenna pins, used for transmission and reception, eliminate the need for an external antenna switch.

An internal 128 byte RAM buffers transmit and receive data. Two on chip low dropout (LDO) voltage regulators provide the internal analog and digital 1.8V supply.

AT86RF232 MCU code extraction

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Key Parameters
Parameter
Value

Crypto Engine:

AES

SRAM (Kbytes):

0

EEPROM (Bytes):

0

Operating Voltage (Vcc):

1.8 to 3.6

Timers:

0

Frequency Band:

2.4 GHz

Max Data Rate (Mb/s):

0.25

Antenna Diversity:

Yes

External PA Control:

Yes

Power Output (dBm):

3

AT86RF233 MCU code extraction

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Feature rich, low-power 2.4GHz transceiver designed for industrial and consumer IEEE 802.15.4, ZigBee, SP100, WirelessHART™, ISM, and high data rate applications. It is a true SPI-to-antenna solution providing a complete radio transceiver interface between the antenna and the microcontroller.

It comprises the analog radio transceiver and the digital demodulation including time and frequency synchronization, and data buffering. All RF-critical components are integrated on a single chip minimizing the number of required external components to the antenna, crystal and decoupling capacitors. The bidirectional differential antenna pins, used for transmission and reception, eliminate the need for an external antenna switch.

An internal 128 byte RAM buffers transmit and receive data. Two on chip low dropout (LDO) voltage regulators provide the internal analog and digital 1.8V supply.

AT89C2051 MCU code extraction


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Low-voltage, high-performance CMOS 8-bit microcomputer with 2KB of flash programmable and erasable read-only memory. The device is manufactured using Atmel high-density nonvolatile memory technology and is compatible with the industry-standard MCS-51 instruction set. This versatile 8-bit CPU with flash provides a highly flexible and cost-effective solution for many embedded control applications.
Parameter
Value

Flash (Kbytes):

2 Kbytes

Max. Operating Frequency:

24 MHz

CPU:

8051-12C

Max I/O Pins:

15

UART:

1

SRAM (Kbytes):

0.125

Operating Voltage (Vcc):

2.7 to 6.0

Timers:

2

AT89C4051 MCU code extraction

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A low-voltage, high-performance CMOS 8-bit microcontroller with 4KB of flash programmable and erasable read-only memory (PEROM). The device uses Atmel’s high-density nonvolatile memory technology and is compatible with the industry-standard MCS-51 instruction set. This versatile 8-bit CPU with flash provides a highly-flexible and cost-effective solution for many embedded control applications.

Key Parameters
Parameter
Value

Flash (Kbytes):

4 Kbytes

Max. Operating Frequency:

24 MHz

CPU:

8051-12C

Max I/O Pins:

15

UART:

1

SRAM (Kbytes):

0.125

Operating Voltage (Vcc):

2.7 to 6.0

Timers:

2

AT89C5115 MCU code extraction

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High performance flash version of the 80C51 single chip, 8-bit mqicrocontroller. It contains a 16-KB flash memory block for program and data.

Flash memory can be programmed either in parallel or serial mode using ISP capability or using software. The programming voltage is internally generated from the standard VCC pin.

Key Parameters
Parameter
Value

Flash (Kbytes):

16 Kbytes

Max. Operating Frequency:

40 MHz

CPU:

8051-12C

Max I/O Pins:

20

UART:

1

ADC channels:

8

ADC Resolution (bits):

10

ADC Speed (ksps):

62.5

SRAM (Kbytes):

0.5

EEPROM (Bytes):

2048

AT89C5130A-M MCU code extraction

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High-performance flash version of the 80C51 single-chip 8-bit microcontroller with full-speed USB functions. This device retains the features of the Atmel 80C52 and adds 1024 bytes of on-chip expanded ERAM, dual data pointer, 16-bit up/down timer, programmable counter array, up to four programmable LED current sources, programmable hardware watchdog, and power-on reset.

Two software-selectable modes of reduced activity further reduce power consumption. In the idle mode the CPU is frozen while the timers, serial ports, and interrupt system operate. In the power-down mode the RAM is saved and the peripheral clock is frozen, but the device has full wake-up capability through USB events or external interrupts.

AT89C5131A-L MCU code extraction

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High-performance flash version of the 80C51 single-chip 8-bit microcontroller with full speed USB functions. It features a full-speed USB module compatible with the USB specifications Version 1.1 and 2.0. The module integrates the USB transceivers with a 3.3V voltage regulator. The serial interface engine integrates digital phase locked loop and 48-MHz clock recovery. The module also contains USB event detection logic and FIFO buffers which support the mandatory control endpoint and up to six versatile endpoints with minimum software overhead.

This device retains the features of the Atmel 80C52 and adds 1024 bytes of on-chip ERAM, dual- data pointer, 16-bit up/down timer, programmable counter array, up to four programmable LED current sources, programmable hardware watchdog, and power-on reset.

Two software-selectable modes of reduced activity further reduce power consumption. In the idle mode the CPU is frozen while the timers, serial ports and interrupt system operate. In the power-down mode, the RAM is saved and the peripheral clock is frozen, but the device has full wake-up capability through USB events or external interrupts.

AT89C5131A-M MCU code extraction

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High-performance flash version of the 80C51 single-chip 8-bit microcontroller with full-speed USB functions. This device retains the features of the Atmel 80C52 and adds 1024 bytes of on-chip expanded ERAM, dual data pointer, 16-bit up/down timer, programmable counter array, up to four programmable LED current sources, programmable hardware watchdog, and power-on reset.

Two software-selectable modes of reduced activity further reduce power consumption. In the idle mode the CPU is frozen while the timers, serial ports, and interrupt system operate. In the power-down mode the RAM is saved and the peripheral clock is frozen, but the device has full wake-up capability through USB events or external interrupts.

AT89C5132 MCU code extraction

AT89C5132 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB

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Mass storage device that controls data exchange between flash modules, HDD, and CD-ROM. The device includes 64KB of flash memory and ISP through an embedded 4KB of boot flash memory.

It includes 2304 bytes of RAM and provides all necessary features for man-machine interface, including timers, keyboard port, and serial or parallel interface.

Wednesday, August 29, 2012

MC68HC908xxxx crack

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Tuesday, August 28, 2012

MOTOROLA MCU crack

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MC9S08XXX crack

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HCS08 is the current flagship product, such as MC9S08AW16、
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Wednesday, August 15, 2012

TMS320 CE Engine Integrator

TMS320 CE Engine Integrator

The CE Engine integrator defines various engine configurations. This can include the names of the engines, as well as the codecs and their names within each engine, whether each codec is local or remote relative to the application, which groups each codec should be integrated into (for environments which support resource sharing), the name of the server image if a particular engine contains remote codecs, etc. This is done via a XDC configuration script (*.cfg).

This script, when run at a later time by the application author, generates code and build instructions appropriate for the configuration.
Responsibilities    

An engine config file (.cfg). If the Engine uses remote codecs, this may reference a Codec Server
Inputs    

    Various Codec packages from Algorithm Creators
    A Codec Server DSP executable from the Server Integrator if codec will run on a DSP
    An Engine config file (.cfg) from the Engine Integrator

Inputs

Inputs    

Various Codec packages, Codec Engine and dependent packages (e.g. ti.bios, ti.sdo.fc.dskt2, etc), XDCtools
Outputs    

A Codec Server package, containing a DSP executable
Notes    

Resources:

    Codec Engine Server Integrator User's Guide
    Configuration Reference Guide. $(CE_INSTALL_DIR)/xdoc/index.html
    Example Codec Servers. $(CE_INSTALL_DIR)/examples
    Codec Engine's multi-codec Server Wizard (available in CE 2.20+)
        Single-codec Server Wizard (supports older CE releases)
The Server Integrator hands the DSP executable to the Engine Integrator (preferably as a Codec Server package. The Server Integrator should also provide a list of the codecs in the Codec Server, as well as documentation about how they've been configured (for example, thread priorities and resource configuration).

On GPP-only (e.g. DM355, DM365) and DSP-only (e.g. DM6437, DM648) platforms, Codec Servers (and therefore this role!) are not applicable.

TMS320 CE Server Integrator

TMS320 CE Server Integrator
To support engines with remote codecs, a Server must be created. The Server integrates the various components necessary to house the codecs (e.g. BIOS, Framework Components, DSP Link, codecs, CE, etc.) and generates an executable.

Responsibilities    

    Config scripts
        For BIOS 6-based systems (i.e. >= CE 3.x), both Server and BIOS use the same config file (.cfg)
        For BIOS 5-based systems (i.e. <= CE 2.x), the Server uses a .cfg script and BIOS uses a separate tconf script (.tcf)
    A simple main() routine to do minimal initialization (e.g. CERuntime_init()).
    Execute the configuration scripts and compile the output into an executable.

Monday, July 16, 2012

Originally, every electronic component had wire leads, and the PCB had holes drilled for each wire of each component. The components' leads were then passed through the holes and soldered to the PCB trace. This method of assembly is called through-hole construction. In 1949, Moe Abramson and Stanislaus F. Danko of the United States Army Signal Corps developed the Auto-Sembly process in which component leads were inserted into a copper foil interconnection pattern and dip soldered. The patent they obtained in 1956 was assigned to the U.S. Army.  With the development of board lamination and etching techniques, this concept evolved into the standard printed circuit board fabrication process in use today. Soldering could be done automatically by passing the board over a ripple, or wave, of molten solder in a wave-soldering machine. However, the wires and holes are wasteful since drilling holes is expensive and the protruding wires are merely cut off.

Monday, June 25, 2012

MC68HC11/711 decryption

MC68HC11/711 decryption  
MC68HC11 A8AB9ST) MC68HC11 A8C96N
MC68HC11A8D26E) MC68HC11 E203E22B
MC68HC11 E91B60R) MC68HC11 E9D82R
MC68HC11 E9E22B) MC68HC11 E9E28B
MC68HC11 EA92D47J) MC68HC11 F12F37E
MC68HC11 F1E87J) MC68HC11 K12D58N
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MC68HC11 KS40E57S) MC68HC11 KS40F60M
MC68HC11 P22E53M) MC68HC711 E201H19S
MC68HC711 E94K81H) MC68HC711 E95C47M
MC68HC711 EA90D46J) MC68HC711 K4K59D

Wednesday, June 6, 2012

Atmel megaAVR Code Extraction

We have great advantage on decrypting Atmel megaAVR 8 bits Microcontrollers, please contact

us :techip688@gmail.com.

About Atmel megaAVR:
You need the megaAVR if you need extra muscle for your designs.megaAVR is ideal for

applications requiring large amounts of code,the megaAVR offers substantial program and data

memories with perforamnce up to 20 MIPS. Innovative picoPower technology minimizes power

consumption. All megaAVRs offer self-programmability for fast, secure, cost-effective in-

circuit upgrades. You can even upgrade the flash while running your application.

Based on industry-leading, proven technology, the megaAVR family offers our widest selection

of devices in terms of memories, pin counts and peripherals. Choose from general-purpose

devices to models with specialized peripherals like USB, or LCD controllers, or CAN, LIN and

Power Stage Controllers. It's easy to find the perfect fit for your project in the megaAVR

product family.
The mega device:
ATmega48

8-bit AVR Microcontroller, 4KB Flash, 28/32-pin
ATmega48A

8-bit AVR Microcontroller, 4KB Flash, 28/32-pin
ATmega48P

8-bit picoPower AVR Microcontroller, 4KB Flash, 28/32-pin
ATmega48PA

8-bit picoPower AVR Microcontroller, 4KB Flash, 28/32-pin
ATmega8

8-bit AVR Microcontroller, 8KB Flash, 28/32-pin
ATmega8515

8-bit AVR Microcontroller, 8KB Flash, 40/44-pin
ATmega8535

8-bit AVR Microcontroller, 8KB Flash, 40/44-pin
ATmega88

8-bit AVR Microcontroller, 8KB Flash, 28/32-pin
ATmega88A

8-bit AVR Microcontroller, 8KB Flash, 28/32-pin
ATmega88P

8-bit picoPower AVR Microcontroller, 8KB Flash, 28/32-pin
ATmega88PA

8-bit picoPower AVR Microcontroller, 8KB Flash, 28/32-pin
ATmega8A

8-bit AVR Microcontroller, 8KB Flash, 28/32-pin
ATmega16

8-bit AVR Microcontroller, 16KB Flash, 40/44-pin
ATmega162

8-bit AVR Microcontroller, 16KB Flash, 40/44-pin
ATmega164A

8-bit AVR Microcontroller, 16KB Flash, 40/44/49-pin
ATmega164P

8-bit picoPower AVR Microcontroller, 16KB Flash, 40/44-pin
ATmega164PA

8-bit picoPower Microcontroller, 16KB Flash, 40/44/49-pin
ATmega165P

8-bit picoPower AVR Microcontroller, 16KB Flash, 64-pin
ATmega165PA

8-bit picoPower AVR Microcontroller, 16KB Flash, 64-pin
ATmega168

8-bit AVR Microcontroller, 16KB Flash, 28/32-pin
ATmega168A

8-bit AVR Microcontroller, 16KB Flash, 28/32-pin
ATmega168P

8-bit picoPower AVR Microcontroller, 16KB Flash, 28/32-pins
ATmega168PA

8-bit picoPower AVR Microcontroller, 16KB Flash, 28/32-pin
ATmega16A

8-bit AVR Microcontroller, 16KB Flash, 40/44-pin
ATmega32

8-bit AVR Microcontroller, 32KB Flash, 40/44-pin
ATmega324A

8-bit AVR Microcontroller, 32KB Flash, 40/44/49-pin
ATmega324P

8-bit picoPower AVR Microcontroller, 32KB Flash, 40/44-pin
ATmega324PA

8-bit picoPower AVR Microcontroller, 32KB Flash, 40/44/49-pin
ATmega325

8-bit AVR Microcontroller, 32KB Flash, 64-pin
ATmega3250

8-bit AVR Microcontroller, 32KB Flash, 100-pin
ATmega3250A

8-bit AVR Microcontroller, 32KB Flash, 100-pin
ATmega3250P

8-bit picoPower AVR Microcontroller, 32KB Flash, 100-pin
ATmega325A

8-bit AVR Microcontroller, 32KB Flash, 64-pin
ATmega325P

8-bit picoPower AVR Microcontroller, 32KB Flash, 64-pin
ATmega325PA

8-bit picoPower AVR Microcontroller, 32KB Flash, 64-pin
ATmega328

8-bit AVR Microcontroller, 32KB Flash, 28/32-pin
ATmega328P

8-bit picoPower AVR Microcontroller, 32KB Flash, 28/32-pin
ATmega32A

8-bit AVR Microcontroller, 32KB Flash, 40/44-pin
ATmega64

8-bit AVR Microcontroller, 64KB Flash, 64-pin
ATmega640

8-bit AVR Microcontroller, 64KB Flash, 100-pin
ATmega644

8-bit AVR Microcontroller, 64KB Flash, 40/44-pin
ATmega644A

8-bit AVR Microcontroller, 64KB Flash, 40/44/49-pin
ATmega644P

8-bit picoPower AVR Microcontroller, 64KB Flash, 40/44-pin
ATmega644PA

8-bit picoPower AVR Microcontroller, 64KB Flash, 40/44/49-pin
ATmega645

8-bit AVR Microcontroller, 64KB Flash, 64-pin
ATmega6450

8-bit AVR Microcontroller, 64KB Flash, 100-pin
ATmega6450A

8-bit AVR Microcontroller, 64KB Flash, 100-pin
ATmega6450P

8-bit picoPower AVR Microcontroller, 64KB Flash, 100-pin
ATmega645A

8-bit AVR Microcontroller, 64KB Flash, 64-pin
ATmega645P

8-bit picoPower AVR Microcontroller, 64KB Flash, 64-pin
ATmega64A

8-bit AVR Microcontroller, 64KB Flash, 64-pin
ATmega128

8-bit AVR Microcontroller, 128KB Flash, 64-pin
ATmega1280

8-bit AVR Microcontroller, 128KB Flash, 100-pin
ATmega1281

8-bit AVR Microcontroller, 128KB Flash, 64-pin
ATmega1284

8-bit AVR Microcontroller, 128KB Flash, 40/44-pin
ATmega1284P

8-bit AVR Microcontroller, 128KB Flash, 40/44-pin
ATmega128A

8-bit AVR Microcontroller, 128KB Flash, 64-pin
ATmega2560

8-bit AVR Microcontroller, 256KB Flash, 100-pin
ATmega2561

8-bit AVR Microcontroller, 256KB Flash, 64-pin
AT90CAN128

8-bit AVR Microcontroller, 128KB Flash, 64-pin, CAN Controller
AT90CAN32

8-bit AVR Microcontroller, 32KB Flash, 64-pin, CAN Controller
AT90CAN64

8-bit AVR Microcontroller, 64KB Flash, 64-pin, CAN Controller
ATmega16M1

8-bit AVR Microcontroller, 16KB Flash, 32-pin, LIN and CAN Controller
ATmega32M1

8-bit AVR Microcontroller, 32KB Flash, 32-pin, LIN and CAN Controller
ATmega64M1

8-bit AVR Microcontroller, 64KB Flash, 32-pin, LIN and CAN Controller
AT90PWM1

8-bit AVR Microcontroller, 8KB Flash, 24-pin, Lighting
AT90PWM216

8-bit AVR Microcontroller, 16KB Flash, 24-pin, Lighting
AT90PWM2B

8-Bit Microcontroller with 8KB Flash, 24-pin, Lighting
AT90PWM316

8-bit AVR Microcontroller, 16KB Flash, 32-pin, Lighting
AT90PWM3B

8-Bit Microcontroller with 8KB Flash, 32-pin, Lighting
AT90PWM81

8-bit AVR Microcontroller, 8KB Flash, 20/32-pin, Lighting
AT90PWM161

8-bit AVR Microcontroller, 16KB Flash, 20/32-pin, Lighting
AT90USB1286

8-bit AVR Microcontroller, 128KB Flash, 64-pin, USB Controller
AT90USB1287

8-bit AVR Microcontroller, 64KB Flash, 64-pin, USB Controller
AT90USB162

8-bit AVR Microcontroller, 16KB Flash, 32-pin, USB Controller
AT90USB646

8-bit AVR Microcontroller, 64KB Flash, 64-pin USB Controller
AT90USB647

8-bit AVR Microcontroller, 64KB Flash, 64-pin, USB Controller
AT90USB82

8-bit AVR Microcontroller, 8KB Flash, 32-pin, USB Controller
ATmega16U2

8-bit AVR Microcontroller,16KB Flash, 32-pin, USB Controller
ATmega16U4

8-bit AVR Microcontroller, 16KB Flash, 44-pin, USB Controller
ATmega32U2

8-bit AVR Microcontroller,32KB Flash, 32-pin, USB Controller
ATmega32U4

8-bit AVR Microcontroller, 32KB Flash, 44-pin, USB Controller
ATmega8U2

8-bit AVR Microcontroller, 8KB Flash, 32-pin, USB Controller
ATmega169A

8-bit AVR Microcontroller, 16KB Flash, 64-pin, LCD Controller
ATmega169P

8-bit picoPower AVR Microcontroller, 16KBP Flash, 64-pin, LCD Controller
ATmega169PA

8-bit picoPower AVR Microcontroller, 16KB Flash, 64-pin, LCD Controller
ATmega329

8-bit AVR Microcontroller, 32KB Flash, 64-pin, LCD Controller
ATmega3290

8-bit AVR Microcontroller, 32KB Flash, 100-pin, LCD Controller
ATmega3290A

8-bit AVR Microcontroller, 32KB Flash, 100-pin, LCD Controller
ATmega3290P

8-bit picoPower AVR Microcontroller, 32KB Flash, 100-pin, LCD Controller
ATmega329A

8-bit AVR Microcontroller, 32KB Flash, 64-pin, LCD Controller
ATmega329P

8-bit picoPower AVR Microcontroller, 32KB Flash, 64-pin, LCD Controller
ATmega329PA

8-bit picoPower AVR Microcontroller, 32KB Flash, 64-pin, LCD Controller
ATmega649

8-bit AVR Microcontroller, 64KB Flash, 64-pin, LCD Controller
ATmega6490

8-bit AVR Microcontroller, 64KB Flash, 100-pin, LCD Controller
ATmega6490A

8-bit AVR Microcontroller, 64KB Flash, 100-pin, LCD Controller
ATmega6490P

8-bit picoPower AVR Microcontroller, 64KB Flash, 100-pin, LCD Controller
ATmega649A

8-bit AVR Microcontroller, 64KB Flash, 64-pin, LCD Controller
ATmega649P

8-bit picoPower AVR Microcontroller, 64KB Flash, 64-pin, LCD Controller

Tuesday, May 29, 2012

TMS320F2407 crack/decryption

TMS320F2407 series DSP is a series of 32 bits fixed-point digital signal processor. It is the most advanced and most powerful DSP chip. TSM320F2407 have the capability of digital signal processing, event management and embedded controlment, with which features,it is specially applicable to the monitor and control conditions with large amount of datas needed to be processed, for example:Industrial Automatic Control,  power electronic applications technology, Intellectural instrument and motors,motor servo control and so on.
Currently, many servo control instruments,UPS,transducer adopt TI's TMS320F2407.
If you take the devices or chips to our office, we can decrypt them  within one hour. We can supply the test chips to our clients. 
Please contact us for more information:techip688@gmail.com

Thursday, May 3, 2012

The MSP430 is a 16-bit, ultra-low power, mixed signal microcontroller from Texas Instruments. The strengths of the MSP430 lie in its easy-to-learn, C-compiler friendly, 16-bit CPU partnered with flexible low power modes and intelligent, low-power peripherals. As a catalog market product, its versatility is applied across a number of different end-equipments including medical equipment, electricity and sub-metering, and home appliances such as smoke detectors, thermostats, etc... With over 230 parts available, there is likely to be an MSP430 for almost any application.