STMicroelectronics

STMicroelectronics is a global independent semiconductor company and is a leader in developing and delivering semiconductor solutions across the spectrum of microelectronics applications. An unrivaled combination of silicon and system expertise, manufacturing strength, Intellectual Property (IP) portfolio and strategic partners positions the Company at the forefront of System-on-Chip (SoC) technology and its products play a key role in enabling today's convergence trends.  The Company currently offers over 3,000 main types of products to more than 1,500 customers, including Alcatel, Bosch, DaimlerChrysler, Ford, Hewlett-Packard, IBM, Motorola, Nokia, Nortel Networks, Philips, Seagate Technology, Siemens, Sony, Thomson and Western Digital. The ST group was formed in June 1987 as a result of the merger between SGS Microelettronica of Italy and Thomson Semiconducteurs of France.

industry leader in the innovation of high-performance

Silicon Laboratories is an industry leader in the innovation of high-performance, analog-intensive, mixed-signal ICs. Mixed-signal ICs enable the analog world we live in to interact with the digital world of computing in customer products like set-top boxes, televisions, and cell phones. Developed by a world-class engineering team, Silicon Labs’ diverse portfolio of highly-integrated, easy-to-use solutions are designed in CMOS, the most widely available process technology, enabling significant integration advantages without sacrificing performance.
Headquartered in Austin, TX, Silicon Labs is a global enterprise with operations, sales and design activities worldwide. Founded in 1996 on the principles of constant innovation and solid execution, Silicon Labs’ strong business fundamentals and proven track record have resulted in sustained growth throughout the company's history.
Silicon Labs' portfolio of both application specific and general purpose products includes high-performance, mixed-signal 8-bit microcontrollers, 32-bit microcontrollers, broadcast audio and video solutions, wireless transmitters and receivers, digital isolators, touch sense controllers, proximity and ambient light sensors,  ISOmodem® embedded modems, ProSLIC® subscriber line interface circuits, silicon direct access arrangements (DAAs) and clocks and oscillators. These patented solutions serve a broad set of markets and applications including consumer, communications, computing, industrial and automotive.

general purpose products

Silicon Labs' portfolio of both application specific and general purpose products includes high-performance, mixed-signal 8-bit microcontrollers, 32-bit microcontrollers, broadcast audio and video solutions, wireless transmitters and receivers, digital isolators, touch sense controllers, proximity and ambient light sensors,  ISOmodem® embedded modems, ProSLIC® subscriber line interface circuits, silicon direct access arrangements (DAAs) and clocks and oscillators. These patented solutions serve a broad set of markets and applications including consumer, communications, computing, industrial and automotive.
Silicon labs C8051F series MCU break
C8051 MCU is designed and manufactured by Silicon Labs. The most widely used instruction set for 8-bit microcontrollers (MCUs), the 8051 core has a long history and a tremendous, widely used code base.  Silicon Labs’ popular 8051-based MCU portfolio leverages this broad installed base. But these are not your everyday 8051 microcontrollers.

8051 MCU architecture

Silicon Labs’ 8-bit MCUs are based on a patented implementation of the 8051 instruction set architecture designed to maximize instruction throughput while retaining complete object code compatibility. The result is a ‘hard wired’ implementation of the 8051 MCU CPU, as opposed to the original micro-coded version. The instruction set is mapped to a basic two-stage pipeline to increase throughput while maintaining an 8-bit program memory width. The result is a high-performance 8051 MCU architecture that executes most instructions within 1 or 2 clock cycles and delivers 20 to 25 times the performance of the original 8051 core. Delivering up to 100 MIPS peak throughput, Silicon Labs’ 8-bit 8051 MCUs can satisfy the performance needs of many embedded applications more economically than costlier MCUs. We can crack all kinds of C8051 MCU.
Part of the decryption model are as follows:C8051F000 C8051F001 C8051F002 C8051F005 C8051F006 C8051F007 C8051F010 C8051F011 C8051F012 C8051F015 C8051F016 C8051F017 C8051F018 C8051F019 C8051F020 C8051F021 C8051F022 C8051F023 C8051F040 C8051F041 C8051F042 C8051F043 C8051F044 C8051F045 C8051F046 C8051F047 C8051F060 C8051F061 C8051F062 C8051F063 C8051F064 C8051F065 C8051F067 C8051F206 C8051F220 C8051F221 C8051F226 C8051F230 C8051F231 C8051F236 C8051F310 C8051F311 C8051F312 C8051F313 C8051F314 C8051F315 C8051F320 C8051F321 C8051F330 C8051F331 C8051F320 C8051F340 C8051F350 C8051F360 C8051F410 C8051F01XC8051F02X C8051F1XX C8051F2XX C8051F3XX C8051F4XX C8051F7XX C8051F9XX…Because C8051F single-chip microcomputer type is various, C8051 MCU decryption are constantly updated , not listed above model please contact us, for the new model can test chip decryption.

C8051 MCU decryption

C8051F002 C8051F005 C8051F006 C8051F007 C8051F010 C8051F011 C8051F012 C8051F015 C8051F016 C8051F017 C8051F018 C8051F019 C8051F020 C8051F021 C8051F022 C8051F023 C8051F040 C8051F041 C8051F042 C8051F043 C8051F044 C8051F045 C8051F046 C8051F047 C8051F060 C8051F061 C8051F062 C8051F063 C8051F064 C8051F065 C8051F067 C8051F206 C8051F220 C8051F221 C8051F226 C8051F230 C8051F231 C8051F236 C8051F310 C8051F311 C8051F312 C8051F313 C8051F314 C8051F315 C8051F320 C8051F321 C8051F330 C8051F331 C8051F320 C8051F340 C8051F350 C8051F360 C8051F410 C8051F01XC8051F02X C8051F1XX C8051F2XX C8051F3XX C8051F4XX C8051F7XX C8051F9XX…Because C8051F single-chip microcomputer type is various, C8051 MCU decryption are constantly updated , not listed above model please contact us, for the new model can test chip decryption.

Silicon Labs’ 8-bit MCUs

Silicon Labs’ 8-bit MCUs are based on a patented implementation of the 8051 instruction set architecture designed to maximize instruction throughput while retaining complete object code compatibility. The result is a ‘hard wired’ implementation of the 8051 MCU CPU, as opposed to the original micro-coded version. The instruction set is mapped to a basic two-stage pipeline to increase throughput while maintaining an 8-bit program memory width. The result is a high-performance 8051 MCU architecture that executes most instructions within 1 or 2 clock cycles and delivers 20 to 25 times the performance of the original 8051 core. Delivering up to 100 MIPS peak throughput, Silicon Labs’ 8-bit 8051 MCUs can satisfy the performance needs of many embedded applications more economically than costlier MCUs. We can crack all kinds of C8051 MCU.

C8051F series MCU break

Silicon labs C8051F series MCU break
C8051 MCU is designed and manufactured by Silicon Labs. The most widely used instruction set for 8-bit microcontrollers (MCUs), the 8051 core has a long history and a tremendous, widely used code base.  Silicon Labs’ popular 8051-based MCU portfolio leverages this broad installed base. But these are not your everyday 8051 microcontrollers.

a global enterprise with operations

Headquartered in Austin, TX, Silicon Labs is a global enterprise with operations, sales and design activities worldwide. Founded in 1996 on the principles of constant innovation and solid execution, Silicon Labs’ strong business fundamentals and proven track record have resulted in sustained growth throughout the company's history.
Silicon Labs' portfolio of both application specific and general purpose products includes high-performance, mixed-signal 8-bit microcontrollers, 32-bit microcontrollers, broadcast audio and video solutions, wireless transmitters and receivers, digital isolators, touch sense controllers, proximity and ambient light sensors,  ISOmodem® embedded modems, ProSLIC® subscriber line interface circuits, silicon direct access arrangements (DAAs) and clocks and oscillators. These patented solutions serve a broad set of markets and applications including consumer, communications, computing, industrial and automotive.

Silicon Laboratories

Silicon Laboratories is an industry leader in the innovation of high-performance, analog-intensive, mixed-signal ICs. Mixed-signal ICs enable the analog world we live in to interact with the digital world of computing in customer products like set-top boxes, televisions, and cell phones. Developed by a world-class engineering team, Silicon Labs’ diverse portfolio of highly-integrated, easy-to-use solutions are designed in CMOS, the most widely available process technology, enabling significant integration advantages without sacrificing performance.

MCU Break, and other Altera IC Crack.

ATMEL company
For EPM3256A MCU Code Extraction, EPM3256A IC Crack, EPM3256A

MCU Break, and other Altera IC Crack.
Atmel Corporation designs, develops, manufactures, and sells

semiconductor integrated circuit (IC) products. The company’s

Microcontrollers segment provides various proprietary and

standard microcontrollers, such as Atmel’s capacitive touch

products, including maXTouch and QTouch, AVR 8-bit and 32-bit

products, ARM-based products, and Atmel’s 8051 8-bit products.

Its Nonvolatile Memories segment offers serial interface

electrically erasable programmable read-only memory and serial

interface flash memory products; and parallel interface flash

memories, as well as parallel interface electrically erasable

programmable read-only memory and erasable programmable read-

only memory devices. The company’s Radio Frequency and

Automotive segment provides products designed for the automotive

industry, including automobile electronics, networking and

access systems, and engine, lighting, and entertainment

components. This segment produces and sells wireless and wired

devices for industrial, consumer, and automotive applications;

and offers foundry services, which produce radio frequency

products for the mobile telecommunications market. Its

Application Specific Integrated Circuit segment provides custom

application specific ICs designed to meet specialized single-

customer requirements of high performance devices in a range of

specific applications. This segment provides products that

provide hardware security for embedded digital systems; and

products with military and aerospace applications, as well as

develops application specific standard products for space

applications, power management, and secure crypto memory

products. The company sells its products directly to original

equipment manufacturers; and indirectly through a network of

distributors. It has operations in the United States, Asia,

Europe, South Africa, and Central and South America. Atmel

Corporation was founded in 1984 and is headquartered in San

Jose, California.
Part of the decryption model are as follows:
AT87FXXX series MCU crack
AT87F51  AT87F52  AT87F55  AT87F51RC    AT87C51RB2   AT87C51RD2
AT88SC series MCU crack
AT88SC0104    AT88SC0204 AT88SC0404  AT88SC0808  AT88SC616 

 AT88SC3216  AT88SC6416 AT88SC12816
AT89LVXX      
AT89LV51         AT89LV52         AT89LV55
AT89CXX series MCU crack
AT89C51 AT89C52 AT89C55 AT89C55WD AT89C1051 AT89C2051

AT89C4051   AT89C51RB2 AT89C51RC AT89C51RC2 AT89C51RD2  AT89CED2
AT89SXX series MCU crack
AT89S51 AT89S52 AT89S53 AT89S54 AT89S58 AT89S8252 AT89S8253
AT90SXX series MCU crack
AT90S1200  AT90S2313  AT90S4433  AT90S8515  AT90S8535  AT90S2343

AT90LS2343
AT90CAN series MCU crack
AT90CAN128  AT90CAN64  AT90CAN32
AT90PWM series MCU crack
AT90PWM2  AT90PWM1   AT90PWM3
AT90USB series MCU crack
AT90USB1287   AT90USB1286 AT90USB162 AT90USB646 AT90USB647

AT90USB82
ATTINY series MCU crack
ATINNY10      ATINNY11(L)   ATTINY12(L/V)   ATTINY13(V)   

ATTINY15(L) ATTINY24(V)   ATTINY26(L)   ATINNY28

(V)    ATTINY2313(V)  ATTINY261(V) ATTINY44     ATTINY45

(V)    ATTINY461    ATTINY48 ATTINY84   

ATTINY85        ATTINY861    ATTINY88
ATMEGA series MCU crack
ATMEGA8(L)    ATMEGA16(L)  ATMEGA32(L)  ATMEGA48(L)  ATMEGA64

(L)  ATMEGA128(L)  ATMEGA161/162(L)(V)  ATMEGA8515(L) 

ATMEGA8535(L)   ATMEGA88   ATMEGA88V ATMEGA168   ATMEGA169
New AVR MCU crack
ATMEL introduced new version AVR MCU. Compared with the original

version of the AVR MCU, the main features if the low-power 8-bit

microcontroller. In addition, the encryption feature also made

improvement, the decryption more difficult. Beijing Sichip can

decrypt the new version of AVR MCU.
Part of the models are as follows.
MEGA8A  MEGA16A MEGA32A MEGA64A MEGA128A MEGA48PA MEGA88PA

MEGA168PA MEGA168P MEGA168PV MEGA168PA MEGA163 MEGA164 MEGA165

MEGA165P MEGA169P MENGA324 MEGA324P MENGA325 MEGA325P MENAG328P

MEGA329 MEGA329P MEAGA3250 MEGA329 MEGA329P MEGA644 MEGA644A

MEGA649 MEGA6450 MEGA6490 MEGA103 MEGA161 MEGA323 MEGA2560

MEGA2561
ATTINY4 ATTINYE5 ATTINY9 ATTINY10 ATTINY13A  ATTINY2313A 

ATTINY24A  ATTINY261A  ATTINY44A  ATTINY461A  ATTINY861A
ATMEL ARM series crack
AT91SAM3S16C AT91SAM3S1A AT91SAM3U1C AT91SAM3N2A AT91SAM7S32

AT91SAM7S321 AT91SAM7S64 AT91SAM7S64B AT91SAM7S128 AT91SAM7X128

AT91SAM7XC128 AT91SAM7SE32 AT91SAM7S256 AT91SAM7X256

AT91SAM7XC256 AT91SAM7S512 AT91SAM7X512 AT91SAM7XC512

AT91SAM7SE256 AT91SAM7SE512
For the model not listed please contact us throuth the livechat

or Email.

Atmel 8051 MCU Attack

Atmel 8051 MCU Attack

Atmel offers a broad range of microcontrollers based on the 8051 architecture ranging in code density from 2K bytes to 128K bytes. The product line includes 8-bit microcontrollers based on the powerful, low-power Single-Cycle AT89LP core as well as MCS-51® industry standard socket drop-in devices and small footprint 14/16/20/28-pin derivatives, all manufactured in advanced Flash technologies (see on-line selection table). Most members in this product line include ISP (In-System Programming) capability, while some also support the high-speed (X2) mode which doubles the internal clock frequency for CPU and peripherals upon user selection.

With the widely used of 8051 microcontrollers, the 8051 MCU Code Extraction technology has made significant development. We can extract code from MCU for our customers(only for lawful research purposes), part of the Atmel 8051 MCU Attack is as follows

AT80XX MCU Attack

AT80XX MCU Attack
AT80F51       AT80F52       ……

AT87XX MCU Attack
AT87F51      AT87F51RC      AT87F52      AT87F55
AT87LV51      AT87F55WD      AT87LV52      ……

AT89XX MCU Attack
AT89C1051      AT89C2051      AT89C4051      AT89C55(WD)
AT89C5131A      AT89C51WD      AT89C51ED2      AT89C51CC01
AT89S51      AT89C51CC02      AT89C51CC03      AT89C52
AT89C51RB2      AT89S52      AT89S8252      AT89C51RC
AT89C51RD2      AT89C51RD-CM      AT89C51RC2      AT89C51ED2
AT89C51ID2       AT87C5101      AT89C1051U      AT89C2051X2
AT89C5130AM      AT89C5130A      AT89C5131AL      AT89C5131AM
AT89C51AC3      AT89C5132      AT89C51AC2      AT89C51CC03C
AT89C51SND1C      AT89C51CC03U      AT89C51IC2      AT89C51RE2
AT89C51SND2      AT89LP2051      AT89LP2052      AT89LP213
AT89LP214      AT89LP216      AT89LP4051      AT89LP4052
AT89LP828      AT89LP428      AT89LS51      AT89LS52
AT89LV51      AT89LS53      AT89LS8252      AT89LV52
AT89S53      AT89LV55      AT89S2051      AT89S4051
AT89S54      AT89S58      AT89S64      AT89S8253

AT90XX MCU Attack
AT90CAN128      AT90CAN128-AI      AT90CAN128-AU      AT90CAN32
AT90LS2323      AT90CAN64      AT90LS2333      AT90LS2343
AT90LS8535      AT90LS4433      AT90LS4434      AT90PWM1
AT90PWM3      AT90PWM2      AT90PWM216      AT90PWM2B
AT90PWM316      AT90PWM3B      AT90S1200      AT90S1200A
AT90S2313      AT90S2323      AT90S2333      AT90S2343
AT90S4433      AT90S4414      AT90S4434      AT90S8515
AT90USB1287      AT90S8535      AT90USB1286      AT90USB162
AT90USB82      AT90USB646      AT90USB647      ……

AT91XX MCU Attack
AT91FR40162      AT91FR40162S      AT91FR4042      AT91SAM7S128
AT91SAM7S32      AT91SAM7S256      AT91SAM7S321      AT91SAM7S64
AT91SAM7X128AU      AT91SAM7SE512AU      AT91SAM7X128      AT91SAM7X256
AT91SAM7X256AU      AT91SAM7XC128AU      AT91SAM7XC256AU      ……

ATAMXX MCU Attack
ATAM862      ATAM893      ATAM894      ……

ATMEGAXX MCU Attack
ATMEGA103      ATMEGA103L      ATMEGA128      ATMEGA128A
ATMEGA1280      ATMEGA1280V      ATMEGA1281      ATMEGA1284P
ATMEGA1284PV      ATMEGA128L      ATMEGA16      ATMEGA16A
ATMEGA161      ATMEGA161L      ATMEGA162      ATMEGA162V
ATMEGA163      ATMEGA163L      ATMEGA164      ATMEGA164P
ATMEGA164PL      ATMEGA165      ATMEGA165P      ATMEGA168
ATMEGA168P      ATMEGA168PV      ATMEGA168V      ATMEGA169
ATMEGA169P      ATMEGA169PV      ATMEGA169V      ATMEGA16L
ATMEGA2560      ATMEGA2560V      ATMEGA2561      ATMEGA2561V
ATMEGA32      ATMEGA32A      ATMEGA323      ATMEGA323L
ATMEGA324      ATMEGA324P      ATMEGA324PL      ATMEGA325
ATMEGA3250      ATMEGA325P      ATMEGA325V      ATMEGA328P
ATMEGA328PV      ATMEGA329      ATMEGA3290      ATMEGA3290P
ATMEGA329P      ATMEGA329PV      ATMEGA329V      ATMEGA32L
ATMEGA406      ATMEGA48      ATMEGA48P      ATMEGA48PA
ATMEGA48PV      ATMEGA48V      ATMEGA603      ATMEGA603L
ATMEGA64      ATMEGA64A      ATMEGA640      ATMEGA644
ATMEGA644P      ATMEGA644PV      ATMEGA644V      ATMEGA645
ATMEGA6450      ATMEGA649      ATMEGA6490      ATMEGA649V
ATMEGA64      ATMEGA8      ATMEGA8A      ATMEGA8515
ATMEGA8515L      ATMEGA8535      ATMEGA8535L      ATMEGA88
ATMEGA88P      ATMEGA88PA      ATMEGA88PV      ATMEGA88V
ATMEGA8L      ……

ATtinyXX MCU Attack
ATtiny4      ATtiny5      ATtiny9      ATtiny10
ATtiny11      ATtiny11L      ATtiny12      ATtiny12L
ATtiny12V      ATtiny13      ATtiny13A      ATtiny13V
ATtiny15      ATtiny15L      ATtiny2313      ATtiny2313V
ATtiny24      ATtiny24A      ATtiny24V      ATtiny25
ATtiny26      ATtiny261      ATtiny261V      ATtiny26L
ATtiny28L      ATtiny28V      ATtiny44      ATtiny44A
ATtiny45      ATtiny461      ATtiny461V      ATtiny48
ATtiny48V      ATtiny84      ATtiny85      ATtiny861
ATtiny861V      ATtiny88      ATtiny88V      ……

T89XX MCU Attack
T89C51SND1      T89F64

Atmel ARM crack

Atmel ARM crack

Beijing sichip provide all the series of Atmel ARM crack. Take control of your application development with Atmel® ARM®-based microcontrollers. Our devices make it easier for you to create the application solutions that best meet your customers' needs.
Our portfolio ranges from low-cost, entry-level devices to advanced, highly integrated microcontrollers with extensive connectivity, refined interfaces and iron-clad security. Other advantages include high bandwidth, power efficiency, and software portability. Our ARM-based microcontrollers are backed by a worldwide ecosystem consisting of development tools, operating systems and protocol stacks, Flash programming, software and technical support from industry-leading suppliers.

Key Features
Atmel ARM Processor-based Flash MCUs — Based on the ARM® Cortex™-M4, Cortex™-M3, ARM926EJ-S™ and ARM7TDMI® processors, Atmel ARM-based Flash MCUs offer:
Up to 2MB of Flash memory and 192KB of SRAM, with operating frequencies up to 200MHz.
Innovative direct memory access (DMA) and memory implementations, which enable high-speed data transfers while freeing the processor for the application.
"Touch-ready" capability, through Atmel QTouch® capacitive touch technology.
Atmel ARM Processor-based Embedded MPUs — Based on the ARM926EJ-S™ core—with operating frequencies up to 400 MHz, a large set of high-performance peripherals, DDR2 and NAND Flash support—the Atmel SAM9 MCUs are optimized for reduced system cost in industrial applications. The devices come with a free Linux® and Android™ distribution and Microsoft® Windows® Embedded CE BSP.

SAM3N00A SAM3N00B SAM3N0A SAM3N0B SAM3N0C SAM3N1A SAM3N1B SAM3N1C SAM3N2A SAM3N2B SAM3N2C SAM3N4A SAM3N4B SAM3N4C
SAM3S16C SAM3S1A SAM3S1B SAM3S1C SAM3S2A SAM3S2B SAM3S2C SAM3S4A SAM3S4B SAM3S4C SAM3S8B SAM3S8C SAM3SD8B SAM3SD8C
SAM4S16C
SAM3U1C SAM3U1E SAM3U2C SAM3U2E SAM3U4C SAM3U4E
SAM3A4C SAM3A8C
SAM3X4C SAM3X4E SAM3X8C SAM3X8E
SAM7S16 SAM7S161 SAM7S32 SAM7S321 SAM7S64 SAM7S128 SAM7S256 SAM7S512 SAM7SE32 SAM7SE256 SAM7SE512

TMS320F2810 External Interface (XINTF)

TMS320F2812 External Interface (XINTF)
This asynchronous interface consists of 19 address lines, 16 data lines, and three chip-select lines. The
chip-select lines are mapped to five external zones, Zones 0, 1, 2, 6, and 7. Zones 0 and 1 share a single
chip-select; Zones 6 and 7 also share a single chip-select. Each of the five zones can be programmed
with a different number of wait states, strobe signal setup and hold timing and each zone can be
programmed for extending wait states externally or not. The programmable wait-state, chip-select and
programmable strobe timing enables glueless interface to external memories and peripherals.

TMS320C28x Real-Time JTAG and Analysis

TMS320C28x Real-Time JTAG and Analysis
The F281x and C281x implement the standard IEEE 1149.1 JTAG interface. Additionally, the F281x and
C281x support real-time mode of operation whereby the contents of memory, peripheral, and register
locations can be modified while the processor is running and executing code and servicing interrupts. The
user can also single step through non-time critical code while enabling time-critical interrupts to be
serviced without interference. The F281x and C281x implement the real-time mode in hardware within the
CPU. This is a unique feature to the F281x and C281x, no software monitor is required. Additionally,
special analysis hardware is provided that allows the user to set hardware breakpoint or data/address
watch-points and generate various user selectable break events when a match occurs.

TMS320C2812 Peripheral Bus

TMS320C2812 Peripheral Bus

To enable migration of peripherals between various Texas Instruments ( TI?) DSP family of devices, the
F281x and C281x adopt a peripheral bus standard for peripheral interconnect. The peripheral bus bridge
multiplexes the various busses that make up the processor “Memory Bus” into a single bus consisting of
16 address lines and 16 or 32 data lines and associated control signals. Two versions of the peripheral
bus are supported on the F281x and C281x. One version only supports 16-bit accesses (called peripheral
frame 2) and this retains compatibility with C240x-compatible peripherals. The other version supports both
16- and 32-bit accesses (called peripheral frame 1).