LPC2294HBD144 codes reading

LPC2294HBD144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
16/32-bit ARM microcontrollers; 256 kB ISP/IAP flash with CAN, 10-bit ADC and external memory interface.
16/32-bit ARM7TDMI-S microcontroller in a LQFP144 package.
16 kB on-chip static RAM and 256 kB on-chip flash program memory. 128-bit wide interface/accelerator enables high-speed 60 MHz operation.
In-System Programming/In-Application Programming (ISP/IAP) via on-chip bootloader software. Single flash sector or full chip erase in 400 ms and programming of 256 B in 1 ms.
EmbeddedICE-RT and Embedded Trace interfaces offer real-time debugging with the on-chip RealMonitor software as well as high-speed real-time tracing of instruction execution.
Two/four (LPC2292/2294) interconnected CAN interfaces with advanced acceptance filters. Additional serial interfaces include two UARTs (16C550), Fast I2C-bus (400 kbit/s) and two SPIs.

LPC2292FET144 codes reading

LPC2292FET144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
16/32-bit ARM microcontrollers; 256 kB ISP/IAP flash with CAN, 10-bit ADC and external memory interface.
Fast GPIO ports enable port pin toggling up to 3.5 times faster than the original device. They also allow for a port pin to be read at any time regardless of its function.
Dedicated result registers for ADC(s) reduce interrupt overhead. The ADC pads are 5 V tolerant when configured for digital I/O function(s).
UART0/1 include fractional baud rate generator, auto-bauding capabilities and handshake flow-control fully implemented in hardware.
Buffered SSP serial controller supporting SPI, 4-wire SSI, and Microwire formats.
SPI programmable data length and master mode enhancement.
Diversified Code Read Protection (CRP) enables different security levels to be implemented. This feature is available in LPC2292/2294/00 devices as well.
General purpose timers can operate as external event counters.

LPC2292FBD144 codes reading

LPC2292FBD144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
16/32-bit ARM microcontrollers; 256 kB ISP/IAP flash with CAN, 10-bit ADC and external memory interface
The LPC2292/2294 microcontrollers are based on a 16/32-bit ARM7TDMI-S CPU with real-time emulation and embedded trace support, together with 256 kB of embedded high-speed flash memory. A 128-bit wide memory interface and a unique accelerator architecture enable 32-bit code execution at the maximum clock rate. For critical code size applications, the alternative 16-bit Thumb mode reduces code by more than 30 % with minimal performance penalty.

LPC2290FBD144 codes reading

LPC2290FBD144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
16/32-bit ARM microcontroller with CAN, 10-bit ADC and external memory interface.
CPU clock up to 72 MHz and 64 kB of on-chip static RAM.
Fast GPIO ports enable port pin toggling up to 3.5 times faster than the original LPC2290. A port pin can be read at any time regardless of its function.
Dedicated result registers for ADC reduce interrupt overhead.
UART0/1 include fractional baud rate generator, auto-bauding capabilities and handshake flow-control fully implemented in hardware.
SSP serial controller supporting SPI, 4-wire SSI, and Microwire buses.

LPC2214FBD144 codes reading

LPC2214FBD144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
Single-chip 16/32-bit ARM microcontrollers; 128/256 kB ISP/IAP flash with 10-bit ADC and external memory interface.
With their 144-pin package, low power consumption, various 32-bit timers, 8-channel 10-bit ADC, PWM channels and up to nine external interrupt pins these microcontrollers are particularly suitable for industrial control, medical systems, access control and point-of-sale. Number of available fast GPIOs ranges from up to 76 pins (with external memory) through up to 112 pins (single-chip). With a wide range of serial communications interfaces, they are also very well suited for communication gateways, protocol converters and embedded soft modems as well as many other general-purpose applications.

LPC2214FBD144 codes reading

LPC2214FBD144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
Single-chip 16/32-bit ARM microcontrollers; 128/256 kB ISP/IAP flash with 10-bit ADC and external memory interface
The LPC2212/2214 are based on a 16/32-bit ARM7TDMI-S CPU with real-time emulation and embedded trace support, together with 128/256 kB of embedded high-speed flash memory. A 128-bit wide memory interface and a unique accelerator architecture enable 32-bit code execution at maximum clock rate. For critical code size applications, the alternative 16-bit Thumb mode reduces code by more than 30 % with minimal performance penalty.

LPC2220FET144 codes reading

LPC2220FET144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
16/32-bit ARM microcontrollers; flashless, with 10-bit ADC and external memory interface.
16/32-bit ARM7TDMI-S microcontroller in a LQFP144 and TFBGA144 package.
16/64 kB on-chip static RAM (LPC2210/2220).
Serial bootloader using UART0 provides in-system download and programming capabilities.
EmbeddedICE-RT and Embedded Trace interfaces offer real-time debugging with the on-chip RealMonitor software as well as high-speed real-time tracing of instruction execution.
Eight channel 10-bit ADC with conversion time as low as 2.44 us.
LPC2210/01 and LPC2220 only: Dedicated result registers for ADC(s) reduce interrupt overhead. The ADC pads are 5 V tolerant when configured for digital I/O function(s).
Two 32-bit timers (LPC2220 and LPC2210/01 also external event counters) with four capture and four compare channels, PWM unit (six outputs), Real-Time Clock (RTC), and watchdog.

LPC2220FBD144 codes reading

LPC2220FBD144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
16/32-bit ARM microcontrollers; flashless, with 10-bit ADC and external memory interface.
With their 144-pin package, low power consumption, various 32-bit timers, 8-channel 10-bit ADC, PWM channels, and up to nine external interrupt pins these microcontrollers are particularly suitable for industrial control, medical systems, access control and point-of-sale. The LPC2210/2220 can provide up to 76 GPIOs depending on bus configuration. With a wide range of serial communications interfaces, it is also very well suited for communication gateways, protocol converters and embedded soft modems as well as many other general-purpose applications.

LPC2210FBD144 codes reading

LPC2210FBD144 codes reading, arm crack, NXP arm chip decrypt, NXP arm code extraction, PCB cloning.
16/32-bit ARM microcontrollers; flashless, with 10-bit ADC and external memory interface.
The LPC2210/2220 microcontrollers are based on a 16/32-bit ARM7TDMI-S CPU with real-time emulation and embedded trace support. For critical code size applications, the alternative 16-bit Thumb mode reduces code by more than 30 pct with minimal performance penalty.

LPC2194HBD64 NXP chip crack

LPC2194HBD64 NXP chip crack, microcontroller decryption, arm code extraction, nxp pcb reverse, microcontroller reverse.
Single-chip 16/32-bit microcontroller; 256 kB ISP/IAP flash with 10-bit ADC and CAN.
The LPC2194 is based on a 16/32-bit ARM7TDMI-S CPU with real-time emulation and embedded trace support, together with 256 kB of embedded high-speed flash memory. A 128-bit wide memory interface and a unique accelerator architecture enable 32-bit code execution at maximum clock rate. For critical code size applications, the alternative 16-bit Thumb mode reduces code by more than 30 % with minimal performance penalty.

CY8C20247S-24LKXI Development Tool Selection

CY8C20247S-24LKXI Development Tool Selection
Software
PSoC Designer?
At the core of the PSoC development software suite is
PSoC Designer, used to generate PSoC firmware applications.
PSoC Designer is a Microsoft
?
 Windows-based, integrated
development environment for the Programmable System-onChip (PSoC) devices. The PSoC Designer IDE and application
runs on Windows XP and Windows Vista.
This system provides design database management by project,
in-system programming support, and built-in support for thirdparty assemblers and C compilers. PSoC Designer also
supports C language compilers developed specifically for the
devices in the PSoC family.

CY8C20247-24LKXIT Microcontroller Crack

CY8C20247-24LKXIT  Microcontroller Crack, MCU code extraction, dsp crack, chip reverse, PCB cloning, PCB coping . PCB reverse engineering .

System resources provide additional capability, such as
configurable I
2
C slave, SPI master/slave communication
interface, three 16-bit programmable timers, various system
resets supported by the M8C low voltage detection and poweron reset. The merits of each system resource are listed here:
■ The I2C slave/SPI master-slave module provides 50/100/
400 kHz communication over two wires. SPI communication
over three or four wires runs at speeds of 46.9 kHz to 3 MHz
(lower for a slower system clock).
■ The I2C hardware address recognition feature reduces the
already low power consumption by eliminating the need for
CPU intervention until a packet addressed to the target device
is received.
■ The I2C enhanced slave interface appears as a 32-byte RAM
buffer to the external I2C master. Using a simple predefined
protocol, the master controls the read and write pointers into
the RAM. When this method is enabled, the slave does not stall
the bus when receiving data bytes in active mode. For usage
details, see the application note I2C Enhanced Slave Operation
- AN56007.
■ Low-voltage detection (LVD) interrupts can signal the
application of falling voltage levels, while the advanced poweron reset (POR) circuit eliminates the need for a system
supervisor.
■ An internal reference provides an absolute reference for
capacitive sensing.
■ A register-controlled bypass mode allows the user to disable
the LDO regulator.

CY8C20247-24LKXI Microcontroller Crack

CY8C20247-24LKXI  Microcontroller Crack, MCU code extraction, dsp crack, chip reverse, PCB cloning, PCB coping . PCB reverse engineering .
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

CY8C20324-12LQXI MCU Reverse

CY8C20324-12LQXI MCU Reverse,mcu crack, chip decryption, pcb coping, pcb reverse engineering.

Features
■ Low power, configurable CapSense
?
? Configurable capacitive sensing elements
? operating voltage
? Operating voltage: 2.4 V to 5.25 V
? Low operating current
? Active 1.5 mA (at 3.0 V, 12 MHz)
? Sleep 2.8 μA (at 3.3 V)
? Supports up to 25 capacitive buttons
? Supports one slider
? Up to 10 cm proximity sensing
? Supports up to 28 general-purpose I/O (GPIO) pins
? Drive LEDs and other outputs
? Configurable LED behavior (fading, strobing)
? LED color mixing (RBG LEDs)
? Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
? Internal ±5.0% 6 or12 MHz main oscillator
? Internal low-speed oscillator at 32 kHz
? Low external component count
? No external crystal or oscillator components
? No external voltage regulator required
■ High-performance CapSense
? Ultra fast scan speed —1 kHz (nominal)
? Reliable finger detection through 5 mm thick acrylic
? Excellent EMI and AC noise immunity
■ Industry best flexibility
? 8 KB flash program storage 50,000 erase and write cycles
? 512-bytes SRAM data storage
? Bootloader for ease of field reprogramming
? Partial flash updates
? Flexible flash protection modes
? Interrupt controller
? In-system serial programming (ISSP)
? Free complete development tool (PSoC Designer?)
? Full-featured, in-circuit emulator and programmer
? Full-speed emulation
? Complex breakpoint structure
? 128 KB trace memory
■ Additional system resources
? Configurable communication speeds
? I2C slave
? SPI master and SPI slave
? Watchdog and sleep timers
? Internal voltage reference
? Integrated supervisory circuit

CY8C20324-12LQXIT MCU Reverse

CY8C20324-12LQXIT MCU Reverse,mcu crack, chip decryption, pcb coping, pcb reverse engineering.
Additional System Resources
System resources, some of which are previously listed, provide
additional capability useful to complete systems. Additional
resources include low voltage detection (LVD) and power on
reset (POR). Brief statements describing the merits of each
system resource follow.
■ The I
2
C slave and SPI master-slave module provides 50, 100,
or 400 kHz communication over two wires. SPI communication
over three or four wires runs at speeds of 46.9 kHz to 3 MHz
(lower for a slower system clock).
■ LVD interrupts signal the application of falling voltage levels,
while the advanced POR circuit eliminates the need for a
system supervisor.
■ An internal 1.8-V reference provides an absolute reference for
capacitive sensing.
■ The 5 V maximum input, 3 V fixed output, low dropout regulator
(LDO) provides regulation for I/Os. A register controlled bypass
mode enables the user to disable the LDO.

CY7C028-15AI MCU Code Reading

CY7C028-15AI  MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.

Features
 True dual-ported memory cells which allow
simultaneous access of the same memory location
 32K x 16 organization (CY7C027V/027AV
 64K x 16 organization (CY7C028V)
 32K x 18 organization (CY7C037AV)
 64K x 18 organization (CY7C038V)
 0.35 micron Complementary metal oxide semiconductor
(CMOS) for optimum speed and power
 High speed access: 15, 20, 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 32/36 bits or more using Master/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
 Dual chip enables
 Pin select for Master or Slave
 Commercial and Industrial temperature ranges
 100-pin Pb-free Thin quad plastic flatpack (TQFP) and 100-pin
TQFP

CY7C037AV-20AXC MCU Code Reading

CY7C037AV-20AXC MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.

Features
 True dual-ported memory cells which allow simultaneous
access of the same memory location
 32 K × 16 organization (CY7C027)
 64 K × 16 organization (CY7C028)
 0.35 micron CMOS for optimum speed and power
 High speed access: 15 and 20 ns
 Low operating power
 Active: ICC = 180 mA (typical)
 Standby: ISB3
= 0.05 mA (typical)
 Fully asynchronous operation
 Automatic power down
 Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
 On-chip arbitration logic
 Semaphores included to permit software handshaking
between ports
 INT flags for port-to-port communication
 Separate upper-byte and lower-byte control
 Dual chip enables
 Pin select for Master or Slave
 Commercial and industrial temperature ranges
 Available in 100-pin TQFP
 Pb-free packages available

CY7C028-15AXC MCU Code Reading

CY7C028-15AXC MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
Features
 True dual-ported memory cells which allow simultaneous
access of the same memory location
 32 K × 16 organization (CY7C027)
 64 K × 16 organization (CY7C028)
 0.35 micron CMOS for optimum speed and power
 High speed access: 15 and 20 ns
 Low operating power
 Active: ICC = 180 mA (typical)
 Standby: ISB3
= 0.05 mA (typical)
 Fully asynchronous operation
 Automatic power down
 Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
 On-chip arbitration logic
 Semaphores included to permit software handshaking
between ports
 INT flags for port-to-port communication
 Separate upper-byte and lower-byte control
 Dual chip enables
 Pin select for Master or Slave
 Commercial and industrial temperature ranges
 Available in 100-pin TQFP
 Pb-free packages available

CY7C028-15AXI MCU Code Reading

CY7C028-15AXI MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
Features
 True dual-ported memory cells which allow simultaneous
access of the same memory location
 32 K × 16 organization (CY7C027)
 64 K × 16 organization (CY7C028)
 0.35 micron CMOS for optimum speed and power
 High speed access: 15 and 20 ns
 Low operating power
 Active: ICC = 180 mA (typical)
 Standby: ISB3
= 0.05 mA (typical)
 Fully asynchronous operation
 Automatic power down
 Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
 On-chip arbitration logic
Semaphores included to permit software handshaking
between ports
 INT flags for port-to-port communication
 Separate upper-byte and lower-byte control
 Dual chip enables
 Pin select for Master or Slave
 Commercial and industrial temperature ranges
 Available in 100-pin TQFP
 Pb-free packages available

CY7C027-20AXCT MCU Code Reading

CY7C027-20AXCT MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
Features
 True dual-ported memory cells which allow simultaneous
access of the same memory location
 32 K × 16 organization (CY7C027)
 64 K × 16 organization (CY7C028)
 0.35 micron CMOS for optimum speed and power
 High speed access: 15 and 20 ns
 Low operating power
 Active: ICC = 180 mA (typical)
 Standby: ISB3
= 0.05 mA (typical)
 Fully asynchronous operation
 Automatic power down
 Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
 On-chip arbitration logic
 Semaphores included to permit software handshaking
between ports
 INT flags for port-to-port communication
 Separate upper-byte and lower-byte control
 Dual chip enables
 Pin select for Master or Slave
 Commercial and industrial temperature ranges
 Available in 100-pin TQFP
 Pb-free packages available

CY7C027-20AXCT MCU Code Reading

CY7C027-20AXCT MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
Features
 True dual-ported memory cells which allow simultaneous
access of the same memory location
 32 K × 16 organization (CY7C027)
 64 K × 16 organization (CY7C028)
 0.35 micron CMOS for optimum speed and power
 High speed access: 15 and 20 ns
 Low operating power
 Active: ICC = 180 mA (typical)
 Standby: ISB3
= 0.05 mA (typical)
 Fully asynchronous operation
 Automatic power down
 Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
 On-chip arbitration logic
 Semaphores included to permit software handshaking
between ports
 INT flags for port-to-port communication
 Separate upper-byte and lower-byte control
 Dual chip enables
 Pin select for Master or Slave
 Commercial and industrial temperature ranges
 Available in 100-pin TQFP
 Pb-free packages available

CY7C027-20AXIT MCU Code Reading

CY7C027-20AXIT MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption. 
Features
 True dual-ported memory cells which allow simultaneous
access of the same memory location
 32 K × 16 organization (CY7C027)
 64 K × 16 organization (CY7C028)
 0.35 micron CMOS for optimum speed and power
 High speed access: 15 and 20 ns
 Low operating power
 Active: ICC = 180 mA (typical)
 Standby: ISB3
= 0.05 mA (typical)
 Fully asynchronous operation
 Automatic power down
 Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
 On-chip arbitration logic
 Semaphores included to permit software handshaking
between ports
 INT flags for port-to-port communication
 Separate upper-byte and lower-byte control
 Dual chip enables
 Pin select for Master or Slave
 Commercial and industrial temperature ranges
 Available in 100-pin TQFP
 Pb-free packages available

M16C/28 series Renesas MCU reverse

M16C/28 series Renesas MCU reverse, chip decryption, code

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

inverter motor control function): 8 channels
Input Capture/Output Compare Timer (Timer S)
Base Timer: 16-bit x 1 channel
I/O: 8 channels
UART/Clock Synchronous Serial Interface: 3 channels
Clock Synchronous Serial Interface: 2 channels*
Multi-Master I2C-bus: 1 channel
10-bit A/D Converter: 24 channels (Normal-ver.)*, 27 channels

(T-ver./V-ver.)*
DMAC: 2 channels
CRC Calculation Circuit (Except for Normal-ver.)
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub

Clock Generation Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Voltage Detection Circuit (Except for T-ver. and V-ver.)

inverter motor control function

inverter motor control function): 8 channels
Input Capture/Output Compare Timer (Timer S)
Base Timer: 16-bit x 1 channel
I/O: 8 channels
UART/Clock Synchronous Serial Interface: 3 channels
Clock Synchronous Serial Interface: 2 channels*
Multi-Master I2C-bus: 1 channel
10-bit A/D Converter: 24 channels (Normal-ver.)*, 27 channels

(T-ver./V-ver.)*
DMAC: 2 channels
CRC Calculation Circuit (Except for Normal-ver.)
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub

Clock Generation Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Voltage Detection Circuit (Except for T-ver. and V-ver.)
I/O Ports: 71*
External Interrupt Pins: 11
Data Flash: 2KB × 2 blocks (Flash Memory Version only)

M16C/28 series Renesas MCU reverse

M16C/28 series Renesas MCU reverse, chip decryption, code

extraction. 
Key Features:

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

inverter motor control function): 8 channels
Input Capture/Output Compare Timer (Timer S)
Base Timer: 16-bit x 1 channel
I/O: 8 channels
UART/Clock Synchronous Serial Interface: 3 channels
Clock Synchronous Serial Interface: 2 channels*
Multi-Master I2C-bus: 1 channel
10-bit A/D Converter: 24 channels (Normal-ver.)*, 27 channels

(T-ver./V-ver.)*
DMAC: 2 channels
CRC Calculation Circuit (Except for Normal-ver.)
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub

Clock Generation Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Voltage Detection Circuit (Except for T-ver. and V-ver.)
I/O Ports: 71*
External Interrupt Pins: 11
Data Flash: 2KB × 2 blocks (Flash Memory Version only)
*: Spec of 85-pin version and 80-pin version.

M30260F3AGP

M30260F3AGP M30260F6AGP M30260F8AGP M30260M3A-XXXGP M30260M6A-

XXXGP M30260M8A-XXXGP M30263F3AFP M30263F6AFP M30263F8AFP

M30263M3A-XXXFP M30263M6A-XXXFP M30263M8A-XXXFP M30260F8BGP

M30263F8BFP M30260F3TGP M30260F6TGP M30260F8TGP

Key Features

Key Features:

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

inverter motorcontrol function): 8 channels
UART/Clock Synchronous Serial Interface: 3 channels*
10-bit A/D Converter: 12 channels*
DMAC: 2 channels
CRC Calculation Circuit
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub

ClockGeneration Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Voltage Detection Circuit (M16C/26A and M16C/26B only)
I/O Ports: 39*
External Interrupt Pins: 11
Data Flash: 2KB × 2 blocks (Flash Memory Version only)
*: Spec of 48-pin version.

M16C/26A series Renesas MCU reverse

M16C/26A series Renesas MCU reverse, chip decryption, code

extraction.

Key Features:

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

inverter motorcontrol function): 8 channels
UART/Clock Synchronous Serial Interface: 3 channels*
10-bit A/D Converter: 12 channels*
DMAC: 2 channels
CRC Calculation Circuit
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub

ClockGeneration Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Voltage Detection Circuit (M16C/26A and M16C/26B only)
I/O Ports: 39*
External Interrupt Pins: 11
Data Flash: 2KB × 2 blocks (Flash Memory Version only)
*: Spec of 48-pin version.

M30260F3AGP M30260F6AGP M30260F8AGP M30260M3A-XXXGP M30260M6A-

XXXGP M30260M8A-XXXGP M30263F3AFP M30263F6AFP M30263F8AFP

M30263M3A-XXXFP M30263M6A-XXXFP M30263M8A-XXXFP M30260F8BGP

M30263F8BFP M30260F3TGP M30260F6TGP M30260F8TGP

M16C/24 (M30245)series Renesas MCU reverse

M16C/24 (M30245)series Renesas MCU reverse, chip decryption,

code extraction.
Product Overview:

The M30245 (M16C/24 Group) consists of 16-bit single-chip MCUs

compliantwith the Full-Speed USB2.0. Embedding a powerful M16C

CPU core, the M16C familyhas rich peripheral functions and

handles high-speed processing withsophisticated instructions in

addition to its various USB control functionssuch as the USB

pull-up power source circuit, USB pull-up power source

circuit,USB clock generator. The maximum 9 endpoints are

equipped with FIFO to handleall USB transfer types.

audio applications

With the M30245, the addition of multi-bit serial interface

realizes audiointerface function, the generator CRC calculating

function enhances memory cardinterface function and other steps

are taken for audio applications making thissystem simple to

configure for use in memory card application fields. USBfunction

is also improved with the mounting of large-capacity

FIFO,programmable FIFO volume capacity settings and strengthened

continuous transferfunction. Besides this, an onboard rewritable

flash memory version is alsoavailable, while highly demanded

external bus access is available as well. Forevaluation tools of

this group, please click left navigation "Software andTools".

Key Applications:

USB peripheral equipment

Telephone
Audio System
PC Peripheral
Communication Apparatus
Pocket Apparatus
Scanner
Digital Camera
Memory Card Reader, others

XELTEK SuperPro 500P Universal IC Chip Device Programmer

XELTEK SuperPro 500P Universal IC Chip Device Programmer
SKU    SP500P
Weight    3.00 lbs
Number of Devices Supported     30,900+
Number of Manufacturers Supported     219
Number of Pins Available     48
Stand-Alone (PC-Free)     No
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
ARM7 MCU for ultra-fast programming experience.
Programs devices with Vcc as low as 1.2V
Built-in 48 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 and 64Mb EEPROM in 43 seconds.
Built with 48 universal pin-drivers for support of today’s most complex devices. Universal and device independent socket adapters are available for various packages.
The programmer operates in either PC hosted mode.
Under PC hosted mode, a PC controls the programmer via a high-speed USB2.0 connection to program a chip.
ISP/ICP programming capability through optional ISP/ICP adapter.
Programming / testing features for TTL/CMOS logic ICs and memories.
Only IC manufacturer approved programming algorithms provide high reliability. Vcc verification at (+5%~-5%) and (10%~-10%) enhances programming reliability.
Provides over-current and over-voltage protection for safety of the chip and programmer hardware.
Compatible with Windows 7 & Vista & XP 32/64 bit
Includes the following advanced and powerful software functions:
Chip operation starts immediately upon proper chip insertion in Production Mode.
The 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.
The 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.
A Log file provides 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)
Power supply: AC Adapter: Input AC 90V- 250V, 50/60Hz; DC Output: 12V/2A; power 15W
Main unit: Dimensions 178mm (L) * 130mm (W) * 40mm (H) Weight 0.85 lbs (0.8Kg)
Package: Dimensions 320mm (L) * 300mm (W) * 85mm (H) Weight 3 lbs (1.8Kg)

Items Included
SuperPro 500P Programmer w/ 48pin driver
AC adapter
Software CD
USB Cable
Optional Accessories:

Socket Adapters in various packages
ISP Header for serial programming

Items Included

Items Included
SuperPro 500P Programmer w/ 48pin driver
AC adapter
Software CD
USB Cable
Optional Accessories:

Socket Adapters in various packages
ISP Header for serial programming

Hardware & electrical Specifications

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)
Power supply: AC Adapter: Input AC 90V- 250V, 50/60Hz; DC Output: 12V/2A; power 15W
Main unit: Dimensions 178mm (L) * 130mm (W) * 40mm (H) Weight 0.85 lbs (0.8Kg)
Package: Dimensions 320mm (L) * 300mm (W) * 85mm (H) Weight 3 lbs (1.8Kg)

Programs devices with Vcc as low as 1.2V.

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 and 64Mb EEPROM in 43 seconds.
Built with 48 universal pin-drivers for support of today’s most complex devices. Universal and device independent socket adapters are available for various packages.
The programmer operates in either PC hosted mode.
Under PC hosted mode, a PC controls the programmer via a high-speed USB2.0 connection to program a chip.
ISP/ICP programming capability through optional ISP/ICP adapter.
Programming / testing features for TTL/CMOS logic ICs and memories.
Only IC manufacturer approved programming algorithms provide high reliability. Vcc verification at (+5%~-5%) and (10%~-10%) enhances programming reliability.
Provides over-current and over-voltage protection for safety of the chip and programmer hardware.
Compatible with Windows 7 & Vista & XP 32/64 bit
Includes the following advanced and powerful software functions:
Chip operation starts immediately upon proper chip insertion in Production Mode.
The 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.
The 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.
A Log file provides quality tracking.
CE and RoHS Compliant

XELTEK SuperPro 500P Universal IC Chip Device Programmer

XELTEK SuperPro 500P Universal IC Chip Device Programmer
SKU    SP500P
Weight    3.00 lbs
Number of Devices Supported     30,900+
Number of Manufacturers Supported     219
Number of Pins Available     48
Stand-Alone (PC-Free)     No
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

SuperPro 5004GP Universal Production/ Gang Device Programmer

SuperPro 5004GP Universal Production/ Gang Device Programmer
SKU    SP5004GP
Weight    24.00 lbs
Number of Devices Supported     83,100+
Number of Manufacturers Supported     297
Number of Pins Available     144
Stand-Alone (PC-Free)     No
Socket Number     4
Clustering Ability     No
Free User Requested Device Update     Yes
Windows Support     Win XP/Vista/7 32/64 bit
RoHS & CE Compliance     Yes
Warranty     2 Years

Highlights
The largest device support in the industry: Supports 80,000+ IC devices from 293 manufacturers and continuing
Ultra-Fast Programming Speed: Programs and verifies 64 Mb NOR Flash memory in 11.3 seconds and 1 Gb NAND Flash in 108 seconds.
Concurrent & independent modules: 4 independent programming modules operating concurrently for high speed programming.
Built-in 144 universal pin drivers
Comes with free device update request support within the warranty period.
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 and 1 GB NAND in 108 seconds.
Built with 144 universal pin-drivers for support of today’s most complex devices.
Universal and device independent socket adapters available for various package types up to 144 pins.
4 independent programming modules operating concurrently for high speed programming.
USB2.0 interface to a PC for high speed programming.
ISP/ICP programming capability through optional ISP/ICP adapter.
Only IC manufacturer approved programming algorithms provide high reliability. Vcc verification at (+5%~-5%) and (10%~-10%) enhances programming reliability.
Over-current and over-voltage protection for safety of the chip and programmer hardware.
Compatible with Windows 7 & Vista & XP 32/64 bit
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 & NAND), BPROM, NVRAM, SPLD, CPLD, EPLD, Firmware HUB, Microcontroller, MCU, Standard Logic
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)
Power supply: AC Adapter: Input AC 100V- 240V; Output: 12V/6A
Main unit: Dimensions 438 * 216 * 94 mm ; Weight 9.5 Lbs (4.3 Kg)
Package: Dimensions 550 * 252 * 145 mm; Weight 13 Lbs (5.9Kg)

Hardware & electrical Specifications SuperPro 5004GP

Hardware & electrical Specifications
Devices Supported: EPROM, Paged EPROM, Parallel and Serial EEPROM, FPGA Configuration PROM, FLASH memory (NOR & NAND), BPROM, NVRAM, SPLD, CPLD, EPLD, Firmware HUB, Microcontroller, MCU, Standard Logic
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)
Power supply: AC Adapter: Input AC 100V- 240V; Output: 12V/6A
Main unit: Dimensions 438 * 216 * 94 mm ; Weight 9.5 Lbs (4.3 Kg)
Package: Dimensions 550 * 252 * 145 mm; Weight 13 Lbs (5.9Kg)

Expanded Features Programs devices

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 and 1 GB NAND in 108 seconds.
Built with 144 universal pin-drivers for support of today’s most complex devices.
Universal and device independent socket adapters available for various package types up to 144 pins.
4 independent programming modules operating concurrently for high speed programming.
USB2.0 interface to a PC for high speed programming.
ISP/ICP programming capability through optional ISP/ICP adapter.
Only IC manufacturer approved programming algorithms provide high reliability. Vcc verification at (+5%~-5%) and (10%~-10%) enhances programming reliability.
Over-current and over-voltage protection for safety of the chip and programmer hardware.
Compatible with Windows 7 & Vista & XP 32/64 bit
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

Highlights OF 5004GP

Highlights
The largest device support in the industry: Supports 80,000+ IC devices from 293 manufacturers and continuing
Ultra-Fast Programming Speed: Programs and verifies 64 Mb NOR Flash memory in 11.3 seconds and 1 Gb NAND Flash in 108 seconds.
Concurrent & independent modules: 4 independent programming modules operating concurrently for high speed programming.
Built-in 144 universal pin drivers
Comes with free device update request support within the warranty period.
CE and ROHS Compliant

SuperPro 5004GP Universal

SuperPro 5004GP Universal Production/ Gang Device Programmer
SKU    SP5004GP
Weight    24.00 lbs
Number of Devices Supported     83,100+
Number of Manufacturers Supported     297
Number of Pins Available     144
Stand-Alone (PC-Free)     No
Socket Number     4
Clustering Ability     No
Free User Requested Device Update     Yes
Windows Support     Win XP/Vista/7 32/64 bit
RoHS & CE Compliance     Yes
Warranty     2 Years

LabTool-48UXP Programmer Auto-sensing and self-programming

LabTool-48UXP Programmer Auto-sensing and self-programming

    To meet mass-production requirements the LabTool-48UXP has

implemented new patented technology in both its hardware and

software. After entering the Mass-production Mode, the

production line operator inserts a device into the ZIF socket.

An LED on the LabTool-48UXP indicates the device is ready and

the operator simply removes it and replaces it with a new one.

No formal training is necessary adding flexibility and saving

time and money. In addition, the LabTool-48UXP's auto-sensing

feature ensures the device has been inserted correctly and then

automatically programs the device. Furthermore, in the mass-

production mode the system keyboard is automatically disabled

preventing the operator from making any inadvertent mistakes.

LabTool-48UXP Programmer Project file save and load

LabTool-48UXP Programmer Project file save and load

    User can create and save a project file which contains

device selection, buffer data and all the programming set-up

options, this project file can be called upon at any time for

future use without having to go through the setting up procedure

again, your design file can easily pass to production department

without making any mistake.

LabTool-48UXP Programmer Serialization function

LabTool-48UXP Programmer Serialization function

    If your memory devices need individual serial numbers with

different increment sequence and initial value, the LabTool-

48UXP has an Auto Increment function. This simply increments the

serial numbers in the buffer each time a new device is inserted.

This saves time and money.

LabTool-48UXP Programmer User-selectable verify voltage

LabTool-48UXP Programmer User-selectable verify voltage, one or

two-pass verification

    The LabTool-48UXP lets you select the verify voltage after

you have programmed the device, e.g., Vcc, Vcc ±5%, Vcc ±10%.

The Vcc voltage can be 2.0V to 6.5V. This feature ensures that

your device has been programmed properly, preventing failures

due to programming errors and ensuring data retention.

LabTool-48UXP Programmer Non-DIL device

LabTool-48UXP Programmer Non-DIL device support through

versatile converters

    The LabTool-48UXP's universal pin driver capability lets it

program all 48-pin DIL devices, including all single-chip Micro

-controllers, without DIL-to-DIL adapters. However there are

many different packages beside DIL package, such as PLCC, SOP,

TSOP, QFP and SDIP. We have developed over 100 different

adapters to support these special-package devices.

LabTool-48UXP Programmer Software update via web

LabTool-48UXP Programmer Software update via web

    The LabTool-48UXP has additional safety features such as a

built-in current limit and pin continuity check function. This

prevents damage from faulty chips during the programming cycle.

Software updates via web .

LabTool-48UXP Programmer Universal 44-pin PLCC, QFP, PSOP and TQFP

LabTool-48UXP Programmer Universal 44-pin PLCC, QFP, PSOP and

TQFP adapter supports 44-pin chips

    The universal pin driver on the LabTool-48UXP enables you to

support all 44-pin chips such as EPLD, EPROM, Flash, EPLD and

Micro-controllers. You need only one 44-pin universal adapter

which eliminates the need to buy multiple adapters and saves

money. Moreover, different package devices within 48 pins will

only require one adapter.

LabTool-48UXP Programmer

LabTool-48UXP Programmer Low voltage chip support

    The LabTool-48UXP support 2.0V ~ 5.0V logic level

input/output, and it can supply 2.0V~21V analog voltage (such as

VCC). Support lower then 2.7V low voltage chip such as 1.8V also

possible by special low voltage adapter on top of its 48 pin ZIF

socket.

MC68HC705C4A breack

The model can’t all list due to the variety of MC68HC11/711 MCUs. Please contact us for specific information.

MC68HC705 MCU attack MC68HC705C4A breack MC68HC705B16

MC68HC705 MCUs from Freescale are very popular on the market, which have their program
memory stored in a built-in EPROM (Erasable-Programmable-Read-Only-Memory) or OTP (One-Time-Programmable) memory instead of the usual ROM (Read-Only-Memory). The difference between the EPROM and OTP part, is that there is a window in the package on the EPROM version which makes it possible to erase it under an UV-lamp for re-use. On the plastic OTP part, this window is missing, thus the EPROM array cannot be erased. OTPs are normally packaged in plastic which ensures a low cost high volume product. we provide all the series of MC68HC705 MCU decryption,

MPCseries

MPCseries

MPC89E51   MPC89E52   MPC89E53   MPC89E54   MPC89E58   MPC89E515
MPC89LE51  MPC89LE52  MPC89LE53  MPC89LE54  MPC89LE58  MPC89LE515
MPC82E52   MPC82E54   MPC82LE52  MPC82LE54

MG series

MG87FE04  MG87FE2051  MG87FE4051  MG87FE6051  MG87FE52  MGFE316  MGFE308   MG87FL04  MG87FL2051  MG87FL4051  MG87FL6051  MG87FL52  MGLFE316   MGFL308

MPC series

Part of the models are as follows:

MPC series
MPC89E51    MPC89E52    MPC89E53    MPC89E54    MPC89E58    MPC89E515
MPC89LE51             MPC89LE52    MPC89LE53    MPC89LE54    MPC89LE58    MPC89LE515
MPC82E52           MPC82E54    MPC82LE52    MPC82LE54       
MG series
MG87FE04                               MG87FE2051    MG87FE4051    MG87FE6051    MG87FE52    MGFE316
MGFE308    MG87FL04    MG87FL2051    MG87FL4051    MG87FL6051    MG87FL52
MGLFE316    MGFL308               

We can’t all list for the various model, please contact us for more details.

Freescale's single chip

Freescale's single chip product is rich, has from 8 bits to 32 bits microcontroller. And the 8-bit microcontroller most popular use, such as HC05、HC11(already discontinued)、HC08、HCS08. HCS08 is the current flagship product, such as MC9S08AW16、MC9S08AC32 are HCS08 products.Sichip provides a full range of MOTOROLA MCU crack services.

IC design and sale specialists

Megawin Technologywas formed by a group of IC design and sale specialists in 1999.Since March 31, 2012, Megawin has applied 134 patents, of which 60 have been certified, growing rapidly in MCU industry. The production of 8051 MCU is favoured with strong anti-interference ability and low price. STC's STC89 and STC12 series are produced by Megawin, pasted and sold by Shenzhen Hongjing. The Megawin's MPC89E series microcontrollers can be completely compatible instead of STC89 Series MCU, MPC82 series of microcontrollers can be fully compatible instead of STC12 Series MCU, which means you can replace the STC MCU.We offer the full range of Megawin MCU crack service.

MG87FE2051

We can’t all list for the various model, please contact us for more details.



MPCseries

MPC89E51   MPC89E52   MPC89E53   MPC89E54   MPC89E58   MPC89E515
MPC89LE51  MPC89LE52  MPC89LE53  MPC89LE54  MPC89LE58  MPC89LE515
MPC82E52   MPC82E54   MPC82LE52  MPC82LE54

MG series

MG87FE04  MG87FE2051  MG87FE4051  MG87FE6051  MG87FE52  MGFE316  MGFE308   MG87FL04  MG87FL2051  MG87FL4051  MG87FL6051  MG87FL52  MGLFE316   MGFL308

Megawin Technologywas

Megawin Technologywas formed by a group of IC design and sale specialists in 1999.Since March 31, 2012, Megawin has applied 134 patents, of which 60 have been certified, growing rapidly in MCU industry. The production of 8051 MCU is favoured with strong anti-interference ability and low price. STC's STC89 and STC12 series are produced by Megawin, pasted and sold by Shenzhen Hongjing. The Megawin's MPC89E series microcontrollers can be completely compatible instead of STC89 Series MCU, MPC82 series of microcontrollers can be fully compatible instead of STC12 Series MCU, which means you can replace the STC MCU.We offer the full range of Megawin MCU crack service.

Part of the models are as follows:

MPC series
MPC89E51    MPC89E52    MPC89E53    MPC89E54    MPC89E58    MPC89E515
MPC89LE51             MPC89LE52    MPC89LE53    MPC89LE54    MPC89LE58    MPC89LE515
MPC82E52           MPC82E54    MPC82LE52    MPC82LE54       
MG series
MG87FE04                               MG87FE2051    MG87FE4051    MG87FE6051    MG87FE52    MGFE316
MGFE308    MG87FL04    MG87FL2051    MG87FL4051    MG87FL6051    MG87FL52
MGLFE316    MGFL308   

Syncmos international Co., LTD

Syncmos international Co., LTD was formally established in Hsinchu Science Park in Taiwan in 2001. It is under the MOsel Group, shareholders by the group members and staff. The Mosel Group has always attached great importance to the vertical integaration. From the market, research and development, before and after production of semiconductor, sales are key operations.

In addition to the vertical integration, The Group of Mosel desire to expand its non-DRAM product line to play the strengths of its semiconductor manufacturing and OEM. Syncmos was founded in this chance encounter, and specialized in embedded, volatie high order products.

Beijing sichip can provide a full range of Syncmos MCU attack, Most of the model can be decrypt successfully while you wait.

Part of the SYNCMOS decryption model

Part of the SYNCMOS decryption model are as follows:

SM59XX series decryption
SM5964    SM59264    SM59128           
SM89XX series crack
SM8951    SM8952    SM8954    SM8958    SM89516    SM894051
SM79XX series break
SM79108    SM79164               
SM59DXX series attack
SM59D04G2C    SM59D04G2L    SM59D03G2C    SM59D03G2L       

At present in the chip production date with G or S for industrial chip, the new version. In order to enhance the encryption features of the chip, Syncmos updated on chip constantly. The decryption difficulty of the new version is relatively high, so the decryption cost will be slightly higher, the decryption time more than one day to complete. Beijing sichip can provide SM series MCU attck, including SM8951 attack, SM8952 crack, The new version also can be decrypted, SM894051 crack.

Syncmos international Co., LTD

Syncmos international Co., LTD was formally established in Hsinchu Science Park in Taiwan in 2001. It is under the MOsel Group, shareholders by the group members and staff. The Mosel Group has always attached great importance to the vertical integaration. From the market, research and development, before and after production of semiconductor, sales are key operations.

In addition to the vertical integration, The Group of Mosel desire to expand its non-DRAM product line to play the strengths of its semiconductor manufacturing and OEM. Syncmos was founded in this chance encounter, and specialized in embedded, volatie high order products.

Beijing sichip can provide a full range of Syncmos MCU attack, Most of the model can be decrypt successfully while you wait.

Part of the SYNCMOS decryption model are as follows:

SM59XX series decryption
SM5964    SM59264    SM59128          
SM89XX series crack
SM8951    SM8952    SM8954    SM8958    SM89516    SM894051
SM79XX series break
SM79108    SM79164              
SM59DXX series attack
SM59D04G2C    SM59D04G2L    SM59D03G2C    SM59D03G2L      

At present in the chip production date with G or S for industrial chip, the new version. In order to enhance the encryption features of the chip, Syncmos updated on chip constantly. The decryption difficulty of the new version is relatively high, so the decryption cost will be slightly higher, the decryption time more than one day to complete. Beijing sichip can provide SM series MCU attck, including SM8951 attack, SM8952 crack, The new version also can be decrypted, SM894051 crack.

TMS320 DMAN3 Functions

TMS320 DMAN3 Functions

DMAN3_grantDmaChannels()     Grant logical channel resources to one of more algorithm instances sharing a common groupId.
DMAN_exit()     Finalization method of the DMAN module.
DMAN3_init()     Initialize the DMAN3 module.
DMAN3_releaseDmaChannels()     Remove logical channel resources from one or more algorithm instances.
DMAN3_createChannels()     Allocate DMA resources and initialize memory for one or more logical DMA channels.
DMAN3_freeChannels()     Free DMA resources and memory allocated to one or more logical DMA channel.

TMS320 IDMA3 Protocol Object (IDMA3_ProtocolObj)

TMS320 IDMA3 Protocol Object (IDMA3_ProtocolObj)

name     The name of the optional custom protocol that will be used by the algorithm requesting the IDMA3 channel resources.

This object contains function pointers to be used when determining channel “env” memory requirements and for custom channel initialization and finalization.
getEnvMemRec     When not NULL, points to the function called by the DMA manager to query the IDMA3 protocol's memory requirements for the IDMA3 channel’s environment (“env”) pointer.
initHandle     When not NULL, points to the function to be called by DMA manager after allocation of the “env” memory to perform custom IDMA3 protocol initialization of channel state.
deInitHandle     When not NULL, points to the function to be called by DMA manager when a channel is freed to perform any custom IDMA3 protocol de-initialization.

TMS32O IDMA3 Channel (IDMA3_Obj)

TMS32O IDMA3 Channel (IDMA3_Obj)

numTccs     The number of TCCs allocated to this channel.
numPaRams     The number of PaRAM entries allocated to this channel.
tccTable     Array of TCCs assigned to this channel.
paRamAddr     PaRAMs assigned to channel.
qdmaChan     Physical QDMA Channel assigned to handle.
transferPending     Run-time channel state that must be maintained by channel owner. Must be set to true when a new transfer is started on this channel. Must be set to false when a wait/sync operation is performed on this channel.
env     When the channel IDMA3_Protocol requires it, “env” points to the private channel memory allocated for the channel by the framework DMA resource manager.
protocol     The IDMA3_Protocol handle used by the DMA manager to determine memory requirements for the “env”.
persistent     Indicates if the channel has been allocated with persistent property.

TI c2000 Decryption

We can crack all the types of TI C2000 series chips such as TMS320LF2401A,TMS320LF2401,TMS320LF2406 TMS320LF2407  TMS320F2802 TMS320F2808 TMS320F2812

For details please contact us techip688@gmail.com for more information.

Z86Eserial MCU decryption

Beijing Techip provide MCU crack and decryption service for all Z86Eserial MCU, part of the Z86E serial models are listed below:

Z86E03 Z86E04 Z86E06 Z86E07 Z86E08 Z86E11 Z86E122 Z86E123 Z86E124 Z86E125 Z86E126 Z86E132 Z86E133 Z86E134 Z86E135 Z86E136 Z86E142 Z86E143 Z86E144 Z86E145 Z86E146 Z86E18 Z86E21 Z86E23 Z86E30 Z86E31 Z86E33 Z86E34 Z86E40 Z86E43 Z86E44 Z86E61 Z86E63 Z86E73 Z86E74 Z86E83 Z89371 Z86E001 Z8PE00 Z8PE003

Please contact us :techip688@gmail.com

pcb clone business

PCBs intended for extreme environments often have a conformal coating, which is applied by

dipping or spraying after the components have been soldered. The coat prevents corrosion and

leakage currents or shorting due to condensation.The earliest conformal coats were

wax;modern conformal coats are usually dips of dilute solutions of silicone

rubber,polyurethane,acrylic,or epoxy. Another technique for applying a conformal coating is

for plastic to be sputtered onto the PCB in a vacuum chamber. The chief disadvantage of

conformal coating is that servicing of the board is rendered extrmely difficult.
Many assembled PCBs are static sensitive,and therefore must be placed in antistatic bags

during transport.When handling these boards,the user must be grounded (earthed).Improper

handling techniques might transmit an accumlated static charge through the board ,damaging

or destroying components.Even bare boards are sometimes static sensitive.Traces have become

so fine that it's quite possible to blow an etch off the board(or change its

characteristics) with a static charge.This is especially true on non-traditional PCBs such

as MCMs and microwave PCBs.

Foxconn reportedly begins pilot production of Apple TV set

Foxconn, the China-based manufacturing partner of Apple, is in the "trial production stage" of producing the Cupertino company's long-awaited television set, according to China Business News.
No further details were released. It goes without saying: take this with a pinch of salt.
What makes this interesting is that it comes only a fortnight after Foxconn Chief Executive Terry Gou said the company was "making preparations" for the forthcoming television, which was followed by a stern denial a few days later claiming that any reports were "inaccurate".
What may sound like a backtrack is at very least a case of "he said, she said."
Local publication China Daily, who reported the original claims, said the product would be dubbed 'iTV', which has already had the Telegraph suggesting the U.K. broadcaster with the same name could sue over the trademark, despite ITV's chief executive refuting such claims. The report said the television set would include feature an aluminium body, with voice-activated assistant Siri and FaceTime video calling.
One J.P. Morgan analyst said the Cupertino-based technology giant would not release a television set until 2014. Mark Moskowitz said Apple would need a "major pull factor." He also said his firm's research "does not indicated any looming TV-related product launch."
However, Piper Jaffray analyst Gene Munster was confident to claim the television set would be announced this year.
Munster said Apple could unveil the slightly differently named "iHub" television set as soon as December, with the product going on sale in early 2013. He estimates Apple could take more than 10 percent of the market within 1-3 years after the launch.
December is an odd time to launch a product, particularly if the launch was set for the following month in January or February.
Looking at the other major product launches, the early months of the year, usually around March-April is generally when we get our hands on the latest iPad tablet set for a summer launch. During the middle-months of the year, typically around June-July, we are presented with the next iPhone, which is due in time for the Christmas holiday season.
A launch in January 2013 would the Christmas holiday sales patch -- crucial for end-of-year sales -- but also chips into "depressing" January where most people can barely pinch the pennies together. For a television set to cost in the region of $1,500-$2,000, according to Munster, it will likely prove to be an impossible time for a product launch.
We contacted Apple for comment, and we will update this story when we have more information.

Single-Chip Architecture

The NVIDIA nForce media and communications processors (MCPs) deliver advanced technologies and unmatched performance to desktop, mobile, and professional systems, and continue the NVIDIA tradition of industry-leading platform technology.^¹ Coupled with the NVIDIA Unified Driver Architecture (UDA), which ensures a stable software image for simplified deployment and upgrades in the enterprise, the feature-rich NVIDIA MCP platforms deliver value without compromising performance, and enable a new generation of highly efficient and scalable systems.

• Lowered latencies: The single-chip NVIDIA architecture provides an inherent performance advantage compared to dual-chip implementations of the same functionality. In addition to overall latency reductions, the NVIDIA nForce MCP significantly boosts device throughput. An extremely fast dedicated HyperTransport link lets the NVIDIA MCPs communicate with the CPU at up to 8.0GBps, which ensures ample system bandwidth. This is especially beneficial when multiple devices are active, or for supporting high-bandwidth devices.
  
  
• Design efficiency: The NVIDIA single-chip architecture uses 0.15 micron process technology compared with the 0.22 micron process used by existing solutions on the market today. This solution offers unmatched integration of features and functionality and results in: Simplified board layouts and more room for on-board features and add-on chipsets. Lower power consumption and dissipated heat. Simplified inventory management and cost efficiencies.
  
  
• Advanced technology features: Built-in NVIDIA RAID technology delivers optimized disk performance through disk striping and fault tolerance through disk mirroring. Select versions of the NVIDIA nForce MCPs incorporate a native Gigabit Ethernet port TCP/IP acceleration. NVIDIA delivers the highest performance networking solution for desktops and workstations. In addition, NVIDIA nForce solutions offer support for the latest graphics processors.

The NVIDIA nForce MCPs uphold NVIDIA’s traditions of reliability, stability, and compatibility. Adherence to the Company’s standards for engineering excellence continues to ensure the success of a growing base of design partners building systems and solutions with AMD and NVIDIA technology.


1. NVIDIA nForce single-chip solutions include NVIDIA nForce Professional, NVIDIA nForce4, NVIDIA nForce3 Professional, and NVIDIA nForce3.
source:.nvidia.com