LPC2103FHN48 icrocontroller crack, NXP mcu crack, NXP chip decryption
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
In-Application (IAP) programming is the performing of erase and write operations on the
on-chip Flash memory as directed by the end-user application code. The Flash boot
loader provides the interface for programming the Flash memory. For detailed information
on the In-Application Programming please refer to the Flash Memory System and
Programming chapter in the ARM LPC device User Manual. In this application note, code
samples are provided in C and assembly, which show how IAP may be used. The IAP
routine resides at 0x7FFFFFF0 and is Thumb code.
Monday, November 19, 2012
LPC2103FBD48 icrocontroller crack
LPC2103FBD48 icrocontroller crack, NXP mcu crack, NXP chip decryption
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
Due to their tiny size and low power consumption, the LPC2101/02/03 are ideal for applications where miniaturization is a key requirement. A blend of serial communications interfaces ranging from multiple UARTs, SPI to SSP and two I2C-buses, combined with on-chip SRAM of 2 kB/4 kB/8 kB, make these devices very well suited for communication gateways and protocol converters. The superior performance also makes these devices suitable for use as math coprocessors. Various 32-bit and 16-bit timers, an improved 10-bit ADC, PWM features through output match on all timers, and 32 fast GPIO lines with up to nine edge or level sensitive external interrupt pins make these microcontrollers particularly suitable for industrial control and medical systems.
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
Due to their tiny size and low power consumption, the LPC2101/02/03 are ideal for applications where miniaturization is a key requirement. A blend of serial communications interfaces ranging from multiple UARTs, SPI to SSP and two I2C-buses, combined with on-chip SRAM of 2 kB/4 kB/8 kB, make these devices very well suited for communication gateways and protocol converters. The superior performance also makes these devices suitable for use as math coprocessors. Various 32-bit and 16-bit timers, an improved 10-bit ADC, PWM features through output match on all timers, and 32 fast GPIO lines with up to nine edge or level sensitive external interrupt pins make these microcontrollers particularly suitable for industrial control and medical systems.
LPC2102FHN48 icrocontroller crack
LPC2102FHN48 icrocontroller crack, NXP mcu crack, NXP chip decryption
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
The LPC2101/02/03 microcontrollers are based on a 16-bit/32-bit ARM7TDMI-S CPU with real-time emulation that combines the microcontroller with 8 kB, 16 kB or 32 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 performance in interrupt service routines and DSP algorithms, this increases performance up to 30 pct over Thumb mode. For critical code size applications, the alternative 16-bit Thumb mode reduces code by more than 30 pct with minimal performance penalty.
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
The LPC2101/02/03 microcontrollers are based on a 16-bit/32-bit ARM7TDMI-S CPU with real-time emulation that combines the microcontroller with 8 kB, 16 kB or 32 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 performance in interrupt service routines and DSP algorithms, this increases performance up to 30 pct over Thumb mode. For critical code size applications, the alternative 16-bit Thumb mode reduces code by more than 30 pct with minimal performance penalty.
LPC2102FBD48 Microcontroller crack
LPC2102FBD48 Microcontroller crack, NXP mcu crack, NXP chip decryption
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
Key features
16-bit/32-bit ARM7TDMI-S microcontroller in tiny LQFP48 and HVQFN48 packages.
2 kB/4 kB/8 kB of on-chip static RAM and 8 kB/16 kB/32 kB of on-chip flash program memory. 128-bit wide interface/accelerator enables high-speed 70 MHz operation.
ISP/IAP via on-chip bootloader software. Single flash sector or full chip erase in 100 ms and programming of 256 bytes in 1 ms.
EmbeddedICE-RT offers real-time debugging with the on-chip RealMonitor software.
The 10-bit ADC provides eight analog inputs, with conversion times as low as 2.44 us per channel and dedicated result registers to minimize interrupt overhead.
Two 32-bit timers/external event counters with combined seven capture and seven compare channels.
Two 16-bit timers/external event counters with combined three capture and seven compare channels.
Low power Real-Time Clock (RTC) with independent power and dedicated 32 kHz clock input.
Multiple serial interfaces including two UARTs (16C550), two Fast I2C-buses (400 kbit/s), SPI and SSP with buffering and variable data length capabilities.
Vectored interrupt controller with configurable priorities and vector addresses.
Up to thirty-two, 5 V tolerant fast general purpose I/O pins.
Up to 13 edge or level sensitive external interrupt pins available.
70 MHz maximum CPU clock available from programmable on-chip PLL with a possible input frequency of 10 MHz to 25 MHz and a settling time of 100 us.
On-chip integrated oscillator operates with an external crystal in the range from 1 MHz to 25 MHz.
Power saving modes include Idle mode, Power-down mode with RTC active, and Power-down mode.
Individual enable/disable of peripheral functions as well as peripheral clock scaling for additional power optimization.
Processor wake-up from Power-down and Deep power-down (Revision A and higher) mode via external interrupt or RTC.
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
Key features
16-bit/32-bit ARM7TDMI-S microcontroller in tiny LQFP48 and HVQFN48 packages.
2 kB/4 kB/8 kB of on-chip static RAM and 8 kB/16 kB/32 kB of on-chip flash program memory. 128-bit wide interface/accelerator enables high-speed 70 MHz operation.
ISP/IAP via on-chip bootloader software. Single flash sector or full chip erase in 100 ms and programming of 256 bytes in 1 ms.
EmbeddedICE-RT offers real-time debugging with the on-chip RealMonitor software.
The 10-bit ADC provides eight analog inputs, with conversion times as low as 2.44 us per channel and dedicated result registers to minimize interrupt overhead.
Two 32-bit timers/external event counters with combined seven capture and seven compare channels.
Two 16-bit timers/external event counters with combined three capture and seven compare channels.
Low power Real-Time Clock (RTC) with independent power and dedicated 32 kHz clock input.
Multiple serial interfaces including two UARTs (16C550), two Fast I2C-buses (400 kbit/s), SPI and SSP with buffering and variable data length capabilities.
Vectored interrupt controller with configurable priorities and vector addresses.
Up to thirty-two, 5 V tolerant fast general purpose I/O pins.
Up to 13 edge or level sensitive external interrupt pins available.
70 MHz maximum CPU clock available from programmable on-chip PLL with a possible input frequency of 10 MHz to 25 MHz and a settling time of 100 us.
On-chip integrated oscillator operates with an external crystal in the range from 1 MHz to 25 MHz.
Power saving modes include Idle mode, Power-down mode with RTC active, and Power-down mode.
Individual enable/disable of peripheral functions as well as peripheral clock scaling for additional power optimization.
Processor wake-up from Power-down and Deep power-down (Revision A and higher) mode via external interrupt or RTC.
LPC2101FBD48 Microcontroller crack
LPC2101FBD48 Microcontroller crack, NXP mcu crack, NXP chip decryption
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
Enhanced features are available in parts LPC2101/02/03 labelled Revision A and higher:
Deep power-down mode with option to retain SRAM memory and/or RTC.
Three levels of flash Code Read Protection (CRP) implemented.
LPC2101FBD48,Single-chip 16-bit/32-bit microcontrollers; 8 kB/16 kB/32 kB flash with ISP/IAP, fast ports and 10-bit ADC
Enhanced features are available in parts LPC2101/02/03 labelled Revision A and higher:
Deep power-down mode with option to retain SRAM memory and/or RTC.
Three levels of flash Code Read Protection (CRP) implemented.
LPC2119FBD64 NXP ARM code extraction
LPC2119FBD64 NXP ARM code extraction, ARM decryption, NXP arm
7 crack.
LPC2129FBD64,Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN
16/32-bit ARM7TDMI-S microcontroller in a tiny LQFP64 package.
8/16 kB on-chip SRAM.
64/128/256 kB on-chip flash program memory. 128-bit wide interface/accelerator enables high speed 60 MHz operation.
In-System Programming (ISP) and In-Application Programming (IAP) via on-chip bootloader software. Flash programming takes 1 ms per 512 B line. Single sector or full chip erase takes 400 ms.
EmbeddedICE-RT interface enables breakpoints and watch points. Interrupt service routines can continue to execute while the foreground task is debugged with the on-chip RealMonitor software.
Embedded Trace Macrocell (ETM) enables non-intrusive high speed real-time tracing of instruction execution.
Two interconnected CAN interfaces (one for LPC2109) with advanced acceptance filters.
Four-channel 10-bit A/D converter with conversion time as low as 2.44 μs.
Multiple serial interfaces including two UARTs (16C550), Fast I2C-bus (400 kbit/s) and two SPIs.
60 MHz maximum CPU clock available from programmable on-chip Phase-Locked Loop with settling time of 100 μs.
Vectored Interrupt Controller with configurable priorities and vector addresses.
Two 32-bit timers (with four capture and four compare channels), PWM unit (six outputs), Real-Time Clock (RTC) and watchdog.
Up to forty-six 5 V tolerant general purpose I/O pins. Up to nine edge or level sensitive external interrupt pins available.
On-chip crystal oscillator with an operating range of 1 MHz to 30 MHz.
Two low power modes, Idle and Power-down.
Processor wake-up from Power-down mode via external interrupt.
Individual enable/disable of peripheral functions for power optimization.
Dual power supply:
CPU operating voltage range of 1.65 V to 1.95 V (1.8 V ± 0.15 V).
I/O power supply range of 3.0 V to 3.6 V (3.3 V ± 10 %) with 5 V tolerant I/O pads.
7 crack.
LPC2129FBD64,Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN
16/32-bit ARM7TDMI-S microcontroller in a tiny LQFP64 package.
8/16 kB on-chip SRAM.
64/128/256 kB on-chip flash program memory. 128-bit wide interface/accelerator enables high speed 60 MHz operation.
In-System Programming (ISP) and In-Application Programming (IAP) via on-chip bootloader software. Flash programming takes 1 ms per 512 B line. Single sector or full chip erase takes 400 ms.
EmbeddedICE-RT interface enables breakpoints and watch points. Interrupt service routines can continue to execute while the foreground task is debugged with the on-chip RealMonitor software.
Embedded Trace Macrocell (ETM) enables non-intrusive high speed real-time tracing of instruction execution.
Two interconnected CAN interfaces (one for LPC2109) with advanced acceptance filters.
Four-channel 10-bit A/D converter with conversion time as low as 2.44 μs.
Multiple serial interfaces including two UARTs (16C550), Fast I2C-bus (400 kbit/s) and two SPIs.
60 MHz maximum CPU clock available from programmable on-chip Phase-Locked Loop with settling time of 100 μs.
Vectored Interrupt Controller with configurable priorities and vector addresses.
Two 32-bit timers (with four capture and four compare channels), PWM unit (six outputs), Real-Time Clock (RTC) and watchdog.
Up to forty-six 5 V tolerant general purpose I/O pins. Up to nine edge or level sensitive external interrupt pins available.
On-chip crystal oscillator with an operating range of 1 MHz to 30 MHz.
Two low power modes, Idle and Power-down.
Processor wake-up from Power-down mode via external interrupt.
Individual enable/disable of peripheral functions for power optimization.
Dual power supply:
CPU operating voltage range of 1.65 V to 1.95 V (1.8 V ± 0.15 V).
I/O power supply range of 3.0 V to 3.6 V (3.3 V ± 10 %) with 5 V tolerant I/O pads.
LPC2119FBD64 NXP ARM code extraction
LPC2119FBD64 NXP ARM code extraction, ARM decryption, NXP arm
7 crack.
Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN
Key features brought by LPC2109/2119/2129/01 devices
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 LPC2109/2119/2129/00 devices as well.
General purpose timers can operate as external event counters.
7 crack.
Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN
Key features brought by LPC2109/2119/2129/01 devices
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 LPC2109/2119/2129/00 devices as well.
General purpose timers can operate as external event counters.
LPC2109FBD64 NXP ARM code extraction
LPC2109FBD64 NXP ARM code extraction, ARM decryption, NXP arm
7 crack.
Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN.
With their compact 64-pin package, low power consumption, various 32-bit timers, 4-channel 10-bit ADC, two advanced CAN channels, PWM channels and 46 fast GPIO lines with up to nine external interrupt pins these microcontrollers are particularly suitable for automotive and industrial control applications, as well as medical systems and fault-tolerant maintenance buses. With a wide range of additional serial communications interfaces, they are also suited for communication gateways and protocol converters as well as many other general-purpose applications.
7 crack.
Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN.
With their compact 64-pin package, low power consumption, various 32-bit timers, 4-channel 10-bit ADC, two advanced CAN channels, PWM channels and 46 fast GPIO lines with up to nine external interrupt pins these microcontrollers are particularly suitable for automotive and industrial control applications, as well as medical systems and fault-tolerant maintenance buses. With a wide range of additional serial communications interfaces, they are also suited for communication gateways and protocol converters as well as many other general-purpose applications.
LPC2109FBD64 NXP ARM code extractio
LPC2109FBD64 NXP ARM code extraction, ARM decryption, NXP arm
7 crack. Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN.
The LPC2109/2119/2129 are based on a 16/32-bit ARM7TDMI-S CPU with real-time emulation and embedded trace support, together with 64/128/256 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.
7 crack. Single-chip 16/32-bit microcontrollers; 64/128/256 kB ISP/IAP flash with 10-bit ADC and CAN.
The LPC2109/2119/2129 are based on a 16/32-bit ARM7TDMI-S CPU with real-time emulation and embedded trace support, together with 64/128/256 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.
Monday, November 5, 2012
CY8C20524-12PVXIT Microcontroller Reverse Engineering
CY8C20524-12PVXIT Microcontroller Reverse Engineering, chip decryption, mcu code extraction service.
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
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
CY8C20534-12PVXI Microcontroller Reverse Engineering
CY8C20534-12PVXI Microcontroller Reverse Engineering, chip decryption, mcu code extraction service.
Low power CapSense? block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
Low power CapSense? block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
CY8C20536A-24PVXI Microcontroller Reverse Engineering
CY8C20536A-24PVXI Microcontroller Reverse Engineering, chip decryption, mcu code extraction service.
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
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
CY8C20536A-24PVXIT Microcontroller Reverse Engineer
CY8C20536A-24PVXIT Microcontroller Reverse Engineering, chip decryption, mcu code extraction service.
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
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
Thursday, October 25, 2012
CY8C201A0-LDX2I Operating Modes of I2C Commands
CY8C201A0-LDX2I Operating Modes of I2C Commands
Normal Mode
In normal mode of operation, the acknowledgment time is
optimized. The timings remain approximately the same for
different configurations of the slave. To reduce the
acknowledgment times in normal mode, the registers
0x06–0x09, 0x0C, 0x0D, 0x10–0x17, 0x50, 0x51, 0x57–0x60,
0x7E are given only read access. Write to these registers can be
done only in setup mode.
Setup Mode
All registers have read and write access (except those which are
read only) in this mode. The acknowledgment times are longer
compared to normal mode. When CapSense scanning is
disabled (command code 0x0A in command register 0xA0), the
acknowledgment times can be improved to values similar to the
normal mode of operation.
Normal Mode
In normal mode of operation, the acknowledgment time is
optimized. The timings remain approximately the same for
different configurations of the slave. To reduce the
acknowledgment times in normal mode, the registers
0x06–0x09, 0x0C, 0x0D, 0x10–0x17, 0x50, 0x51, 0x57–0x60,
0x7E are given only read access. Write to these registers can be
done only in setup mode.
Setup Mode
All registers have read and write access (except those which are
read only) in this mode. The acknowledgment times are longer
compared to normal mode. When CapSense scanning is
disabled (command code 0x0A in command register 0xA0), the
acknowledgment times can be improved to values similar to the
normal mode of operation.
CY8C201A0-LDX2I MCU Crack
CY8C201A0-LDX2I MCU Crack, Cypress chip decryption, mcu code readig, mcu programm reading. Chip clone.
Features
■ Capacitive slider and button input
? Choice of configurations:
? 10-segment slider
? 5-segment slider with remaining 5 pins configurable as
CapSense
?
or GPIO
? Robust sensing algorithm
? High sensitivity, low noise
? Immunity to RF and AC noise.
? Low radiated EMC noise
? Supports wide range of input capacitance, sensor shapes,
and sizes
■ Target applications
? Printers
? Cellular handsets
? LCD monitors
? Portable DVD players
■ Low operating current
? Active current: continuous sensor scan: 1.5 mA
? Deep sleep current: 4 μA
■ Industry's best configurability
? Custom sensor tuning, one optional capacitor
? Output supports strong drive for LED
? Output state can be controlled through I
2
C or directly from
CapSense input state
? Run time reconfigurable over I
2
C
■ Advanced features
? Interrupt outputs
? User defined Inputs
? Wake on interrupt input
? Sleep control pin
? Nonvolatile storage of custom settings
? Easy integration into existing products – configure output to
match system
? No external components required
? World class free configuration tool
■ Wide range of operating voltages
? 2.4 V to 2.9 V
? 3.10 V to 3.6 V
? 4.75 V to 5.25 V
■ I
2
C communication
? Supported from 1.8 V
? Internal pull-up resistor support option
? Data rate up to 400 kbps
? Configurable I
2
C addressing
■ Industrial temperature range: –40 °C to +85 °C.
■ Available in 16-pin QFN and 16-pin SOIC Package
Features
■ Capacitive slider and button input
? Choice of configurations:
? 10-segment slider
? 5-segment slider with remaining 5 pins configurable as
CapSense
?
or GPIO
? Robust sensing algorithm
? High sensitivity, low noise
? Immunity to RF and AC noise.
? Low radiated EMC noise
? Supports wide range of input capacitance, sensor shapes,
and sizes
■ Target applications
? Printers
? Cellular handsets
? LCD monitors
? Portable DVD players
■ Low operating current
? Active current: continuous sensor scan: 1.5 mA
? Deep sleep current: 4 μA
■ Industry's best configurability
? Custom sensor tuning, one optional capacitor
? Output supports strong drive for LED
? Output state can be controlled through I
2
C or directly from
CapSense input state
? Run time reconfigurable over I
2
C
■ Advanced features
? Interrupt outputs
? User defined Inputs
? Wake on interrupt input
? Sleep control pin
? Nonvolatile storage of custom settings
? Easy integration into existing products – configure output to
match system
? No external components required
? World class free configuration tool
■ Wide range of operating voltages
? 2.4 V to 2.9 V
? 3.10 V to 3.6 V
? 4.75 V to 5.25 V
■ I
2
C communication
? Supported from 1.8 V
? Internal pull-up resistor support option
? Data rate up to 400 kbps
? Configurable I
2
C addressing
■ Industrial temperature range: –40 °C to +85 °C.
■ Available in 16-pin QFN and 16-pin SOIC Package
Tuesday, October 23, 2012
CY8C20234 chip decryption
CY8C20234 chip decryption, mcu code extraction, chip crack, pcb
duplicate.
Low power CapSense
®
block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
Complete development tools
Free development tool (PSoC Designer™)
Full-featured, in-circuit emulator, and programmer
Full-speed emulation
Complex breakpoint structure
128 KB trace memory
Precision, programmable clocking
Internal ±5.0% 6- / 12-MHz main oscillator
Internal low speed oscillator at 32 kHz for watchdog and sleep
Programmable pin configurations
Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
Up to 28 analog inputs on all GPIOs
Configurable inputs on all GPIOs
20-mA sink current on all GPIOs
Selectable, regulated digital I/O on port 1
3.0 V, 20 mA total port 1 source current
5 mA strong drive mode on port 1 versatile analog mux
Common internal analog bus
Simultaneous connection of I/O combinations
Comparator noise immunity
Low-dropout voltage regulator for the analog array
Additional system resources
Configurable communication speeds
I2C: selectable to 50 kHz, 100 kHz, or 400 kHz
SPI: configurable between 46.9 kHz and 3 MHz
I2C slave
SPI master and SPI slave
Watchdog and sleep timers
Internal voltage reference
Integrated supervisory circuit
duplicate.
Low power CapSense
®
block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
Complete development tools
Free development tool (PSoC Designer™)
Full-featured, in-circuit emulator, and programmer
Full-speed emulation
Complex breakpoint structure
128 KB trace memory
Precision, programmable clocking
Internal ±5.0% 6- / 12-MHz main oscillator
Internal low speed oscillator at 32 kHz for watchdog and sleep
Programmable pin configurations
Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
Up to 28 analog inputs on all GPIOs
Configurable inputs on all GPIOs
20-mA sink current on all GPIOs
Selectable, regulated digital I/O on port 1
3.0 V, 20 mA total port 1 source current
5 mA strong drive mode on port 1 versatile analog mux
Common internal analog bus
Simultaneous connection of I/O combinations
Comparator noise immunity
Low-dropout voltage regulator for the analog array
Additional system resources
Configurable communication speeds
I2C: selectable to 50 kHz, 100 kHz, or 400 kHz
SPI: configurable between 46.9 kHz and 3 MHz
I2C slave
SPI master and SPI slave
Watchdog and sleep timers
Internal voltage reference
Integrated supervisory circuit
CY8C20334 chip decryption
CY8C20334 chip decryption, mcu code extraction, chip crack, pcb
duplicate.
Low power CapSense® block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
Complete development tools
Free development tool (PSoC Designer™)
Full-featured, in-circuit emulator, and programmer
Full-speed emulation
Complex breakpoint structure
128 KB trace memory
Precision, programmable clocking
Internal ±5.0% 6- / 12-MHz main oscillator
Internal low speed oscillator at 32 kHz for watchdog and sleep
Programmable pin configurations
Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
Up to 28 analog inputs on all GPIOs
Configurable inputs on all GPIOs
20-mA sink current on all GPIOs
Selectable, regulated digital I/O on port 1
3.0 V, 20 mA total port 1 source current
5 mA strong drive mode on port 1 versatile analog mux
Common internal analog bus
Simultaneous connection of I/O combinations
Comparator noise immunity
Low-dropout voltage regulator for the analog array
Additional system resources
Configurable communication speeds
I2C: selectable to 50 kHz, 100 kHz, or 400 kHz
SPI: configurable between 46.9 kHz and 3 MHz
I2C slave
SPI master and SPI slave
Watchdog and sleep timers
Internal voltage reference
Integrated supervisory circuit
duplicate.
Low power CapSense® block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
Complete development tools
Free development tool (PSoC Designer™)
Full-featured, in-circuit emulator, and programmer
Full-speed emulation
Complex breakpoint structure
128 KB trace memory
Precision, programmable clocking
Internal ±5.0% 6- / 12-MHz main oscillator
Internal low speed oscillator at 32 kHz for watchdog and sleep
Programmable pin configurations
Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
Up to 28 analog inputs on all GPIOs
Configurable inputs on all GPIOs
20-mA sink current on all GPIOs
Selectable, regulated digital I/O on port 1
3.0 V, 20 mA total port 1 source current
5 mA strong drive mode on port 1 versatile analog mux
Common internal analog bus
Simultaneous connection of I/O combinations
Comparator noise immunity
Low-dropout voltage regulator for the analog array
Additional system resources
Configurable communication speeds
I2C: selectable to 50 kHz, 100 kHz, or 400 kHz
SPI: configurable between 46.9 kHz and 3 MHz
I2C slave
SPI master and SPI slave
Watchdog and sleep timers
Internal voltage reference
Integrated supervisory circuit
CY8C20434 chip decryption
CY8C20434 chip decryption, mcu code extraction, chip crack, pcb
duplicate.
Low power CapSense® block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
Complete development tools
Free development tool (PSoC Designer™)
Full-featured, in-circuit emulator, and programmer
Full-speed emulation
Complex breakpoint structure
128 KB trace memory
Precision, programmable clocking
Internal ±5.0% 6- / 12-MHz main oscillator
Internal low speed oscillator at 32 kHz for watchdog and sleep
Programmable pin configurations
Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
Up to 28 analog inputs on all GPIOs
Configurable inputs on all GPIOs
20-mA sink current on all GPIOs
Selectable, regulated digital I/O on port 1
3.0 V, 20 mA total port 1 source current
5 mA strong drive mode on port 1 versatile analog mux
Common internal analog bus
Simultaneous connection of I/O combinations
Comparator noise immunity
Low-dropout voltage regulator for the analog array
Additional system resources
Configurable communication speeds
I2C: selectable to 50 kHz, 100 kHz, or 400 kHz
SPI: configurable between 46.9 kHz and 3 MHz
I2C slave
SPI master and SPI slave
Watchdog and sleep timers
Internal voltage reference
Integrated supervisory circuit
duplicate.
Low power CapSense® block
Configurable capacitive sensing elements
Supports combination of CapSense buttons, sliders,
touchpads, and proximity sensors
Powerful Harvard-architecture processor
M8C processor speeds running up to 12 MHz
Low power at high speed
Operating voltage: 2.4 V to 5.25 V
Industrial temperature range: –40 °C to +85 °C
Flexible on-chip memory
8 KB flash program storage 50,000 erase/write cycles
512-Bytes SRAM data storage
Partial flash updates
Flexible protection modes
Interrupt controller
In-system serial programming (ISSP)
Complete development tools
Free development tool (PSoC Designer™)
Full-featured, in-circuit emulator, and programmer
Full-speed emulation
Complex breakpoint structure
128 KB trace memory
Precision, programmable clocking
Internal ±5.0% 6- / 12-MHz main oscillator
Internal low speed oscillator at 32 kHz for watchdog and sleep
Programmable pin configurations
Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
Up to 28 analog inputs on all GPIOs
Configurable inputs on all GPIOs
20-mA sink current on all GPIOs
Selectable, regulated digital I/O on port 1
3.0 V, 20 mA total port 1 source current
5 mA strong drive mode on port 1 versatile analog mux
Common internal analog bus
Simultaneous connection of I/O combinations
Comparator noise immunity
Low-dropout voltage regulator for the analog array
Additional system resources
Configurable communication speeds
I2C: selectable to 50 kHz, 100 kHz, or 400 kHz
SPI: configurable between 46.9 kHz and 3 MHz
I2C slave
SPI master and SPI slave
Watchdog and sleep timers
Internal voltage reference
Integrated supervisory circuit
CY8C20534 chip decryption
CY8C20534 chip decryption, mcu code extraction, chip crack, pcb
duplicate.
The PSoC family consists of many Programmable
System-on-Chips with On-Chip Controller devices. These
devices are designed to replace multiple traditional MCU based
system components with one low cost single chip programmable
component. A PSoC device includes configurable analog and
digital blocks and programmable interconnect. This architecture
enables 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 PSoC architecture for this device family, as shown in
Figure 1, consists of three main areas: the Core, the System
Resources, and the CapSense Analog System. A common
versatile bus enables connection between I/O and the analog
system. Each CY8C20x34 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 28 general purpose I/O (GPIO) are also
included. The GPIO provide access to the MCU and analog mux.
CY8C20634 chip decryption
CY8C20634 chip decryption, mcu code extraction, chip crack, pcb
duplicate.
The PSoC Core is a powerful engine that supports a rich
instruction set. It encompasses SRAM for data storage, an
interrupt controller, sleep and watchdog timers, IMO, and ILO.
The CPU core, called the M8C, is a powerful processor with
speeds up to 12 MHz. The M8C is a two MIPS, 8-bit
Harvard-architecture microprocessor.
System Resources provide additional capability such as a
configurable I
2
C slave or SPI master-slave communication
interface and various system resets supported by the M8C.
The Analog System consists of the CapSense PSoC block and
an internal 1.8 V analog reference. Together they support
capacitive sensing of up to 28 inputs.
duplicate.
The PSoC Core is a powerful engine that supports a rich
instruction set. It encompasses SRAM for data storage, an
interrupt controller, sleep and watchdog timers, IMO, and ILO.
The CPU core, called the M8C, is a powerful processor with
speeds up to 12 MHz. The M8C is a two MIPS, 8-bit
Harvard-architecture microprocessor.
System Resources provide additional capability such as a
configurable I
2
C slave or SPI master-slave communication
interface and various system resets supported by the M8C.
The Analog System consists of the CapSense PSoC block and
an internal 1.8 V analog reference. Together they support
capacitive sensing of up to 28 inputs.
CY8C20111-SX1I PSoC Functional Overview
CY8C20111-SX1I PSoC Functional Overview
The PSoC family consists of many Programmable
System-on-Chips with On-Chip Controller devices. These
devices are designed to replace multiple traditional MCU based
system components with one low cost single chip programmable
component. A PSoC device includes configurable analog and
digital blocks and programmable interconnect. This architecture
enables 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 PSoC architecture for this device family, as shown in
Figure 1, consists of three main areas: the Core, the System
Resources, and the CapSense Analog System. A common
versatile bus enables connection between I/O and the analog
system. Each CY8C20x34 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 28 general purpose I/O (GPIO) are also
included. The GPIO provide access to the MCU and analog mux.
The PSoC family consists of many Programmable
System-on-Chips with On-Chip Controller devices. These
devices are designed to replace multiple traditional MCU based
system components with one low cost single chip programmable
component. A PSoC device includes configurable analog and
digital blocks and programmable interconnect. This architecture
enables 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 PSoC architecture for this device family, as shown in
Figure 1, consists of three main areas: the Core, the System
Resources, and the CapSense Analog System. A common
versatile bus enables connection between I/O and the analog
system. Each CY8C20x34 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 28 general purpose I/O (GPIO) are also
included. The GPIO provide access to the MCU and analog mux.
CY8C20111-SX1I PSoC Core
CY8C20111-SX1I PSoC Core
The PSoC Core is a powerful engine that supports a rich
instruction set. It encompasses SRAM for data storage, an
interrupt controller, sleep and watchdog timers, IMO, and ILO.
The CPU core, called the M8C, is a powerful processor with
speeds up to 12 MHz. The M8C is a two MIPS, 8-bit
Harvard-architecture microprocessor.
System Resources provide additional capability such as a
configurable I
2
C slave or SPI master-slave communication
interface and various system resets supported by the M8C.
The Analog System consists of the CapSense PSoC block and
an internal 1.8 V analog reference. Together they support
capacitive sensing of up to 28 inputs.
CY8C20111-SX1I CapSense Analog System
CY8C20111-SX1I CapSense Analog System
The Analog System contains the capacitive sensing hardware.
Several hardware algorithms are supported. This hardware
performs capacitive sensing and scanning without requiring
external components. Capacitive sensing is configurable on
each GPIO pin. Scanning of enabled CapSense pins is
completed quickly and easily across multiple ports.
Figure 1. Analog System Block Diagram
Analog Multiplexer System
The Analog Mux Bus connects to every GPIO pin. Pins are
connected to the bus individually or in any combination. The bus
also connects to the analog system for analysis with the
CapSense block comparator.
Switch control logic enables selected pins to precharge
continuously under hardware control. This enables capacitive
measurement for applications such as touch sensing. Other
multiplexer applications include:
Complex capacitive sensing interfaces such as sliders and
touch pads
Chip-wide mux that enables analog input from any I/O pin
Crosspoint connection between any I/O pin combinations
The Analog System contains the capacitive sensing hardware.
Several hardware algorithms are supported. This hardware
performs capacitive sensing and scanning without requiring
external components. Capacitive sensing is configurable on
each GPIO pin. Scanning of enabled CapSense pins is
completed quickly and easily across multiple ports.
Figure 1. Analog System Block Diagram
Analog Multiplexer System
The Analog Mux Bus connects to every GPIO pin. Pins are
connected to the bus individually or in any combination. The bus
also connects to the analog system for analysis with the
CapSense block comparator.
Switch control logic enables selected pins to precharge
continuously under hardware control. This enables capacitive
measurement for applications such as touch sensing. Other
multiplexer applications include:
Complex capacitive sensing interfaces such as sliders and
touch pads
Chip-wide mux that enables analog input from any I/O pin
Crosspoint connection between any I/O pin combinations
CY8C20111-SX1I Additional System Resources
CY8C20111-SX1I Additional System Resources
System Resources provide additional capability useful to
complete systems. Additional resources include low voltage
detection and power on reset. Brief statements describing the
merits of each system resource follow:
The I2C slave or SPI master-slave module provides 50/100/400
kHz communication over two wires. SPI communication over
three or four wires run at speeds of 46.9 kHz to 3 MHz (lower
for a slower system clock).
Low voltage detection (LVD) interrupts signal the application
of
falling voltage levels, while the advanced POR (Power On
Reset) 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.
System Resources provide additional capability useful to
complete systems. Additional resources include low voltage
detection and power on reset. Brief statements describing the
merits of each system resource follow:
The I2C slave or SPI master-slave module provides 50/100/400
kHz communication over two wires. SPI communication over
three or four wires run at speeds of 46.9 kHz to 3 MHz (lower
for a slower system clock).
Low voltage detection (LVD) interrupts signal the application
of
falling voltage levels, while the advanced POR (Power On
Reset) 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.
CY8C20111-SX1I Development Tools
CY8C20111-SX1I Development Tools
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 I
2
C 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.
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 I
2
C 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.
CY8C20111-SX1I Additional System Resources
CY8C20111-SX1I Additional System Resources
System Resources provide additional capability useful to
complete systems. Additional resources include low voltage
detection and power on reset. Brief statements describing the
merits of each system resource follow:
The I2C slave or SPI master-slave module provides 50/100/400
kHz communication over two wires. SPI communication over
three or four wires run at speeds of 46.9 kHz to 3 MHz (lower
for a slower system clock).
Low voltage detection (LVD) interrupts signal the application
of
falling voltage levels, while the advanced POR (Power On
Reset) 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.
System Resources provide additional capability useful to
complete systems. Additional resources include low voltage
detection and power on reset. Brief statements describing the
merits of each system resource follow:
The I2C slave or SPI master-slave module provides 50/100/400
kHz communication over two wires. SPI communication over
three or four wires run at speeds of 46.9 kHz to 3 MHz (lower
for a slower system clock).
Low voltage detection (LVD) interrupts signal the application
of
falling voltage levels, while the advanced POR (Power On
Reset) 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.
CY8C20111-SX1I CapSense Analog System
CY8C20111-SX1I CapSense Analog System
The Analog System contains the capacitive sensing hardware.
Several hardware algorithms are supported. This hardware
performs capacitive sensing and scanning without requiring
external components. Capacitive sensing is configurable on
each GPIO pin. Scanning of enabled CapSense pins is
completed quickly and easily across multiple ports.
Figure 1. Analog System Block Diagram
Analog Multiplexer System
The Analog Mux Bus connects to every GPIO pin. Pins are
connected to the bus individually or in any combination. The bus
also connects to the analog system for analysis with the
CapSense block comparator.
Switch control logic enables selected pins to precharge
continuously under hardware control. This enables capacitive
measurement for applications such as touch sensing. Other
multiplexer applications include:
Complex capacitive sensing interfaces such as sliders and
touch pads
Chip-wide mux that enables analog input from any I/O pin
Crosspoint connection between any I/O pin combinations
The Analog System contains the capacitive sensing hardware.
Several hardware algorithms are supported. This hardware
performs capacitive sensing and scanning without requiring
external components. Capacitive sensing is configurable on
each GPIO pin. Scanning of enabled CapSense pins is
completed quickly and easily across multiple ports.
Figure 1. Analog System Block Diagram
Analog Multiplexer System
The Analog Mux Bus connects to every GPIO pin. Pins are
connected to the bus individually or in any combination. The bus
also connects to the analog system for analysis with the
CapSense block comparator.
Switch control logic enables selected pins to precharge
continuously under hardware control. This enables capacitive
measurement for applications such as touch sensing. Other
multiplexer applications include:
Complex capacitive sensing interfaces such as sliders and
touch pads
Chip-wide mux that enables analog input from any I/O pin
Crosspoint connection between any I/O pin combinations
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
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
CY7C024E-25AXI chip decryption
CY7C024E-25AXI chip decryption,cypress MCU code extraction, PCB cloning .
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
low-power CMOS 4K × 16/18 and 8K × 16/18 dual-port static
RAMs. Various arbitration schemes are included on the
CY7C024E/CY7C0241E and CY7C025E/CY7C0251E to handle
situations when multiple processors access the same piece of
data. Two ports are provided, permitting independent,
asynchronous access for reads and writes to any location in
memory. The CY7C024E/CY7C0241E and
CY7C025E/CY7C0251E can be used as standalone 16 or 18-bit
dual-port static RAMs or multiple devices can be combined to
function as a 32-/36-bit or wider master/ slave dual-port static
RAM. An M/S pin is provided for implementing 32-/36-bit or wider
memory applications without the need for separate master and
slave devices or additional discrete logic. Application areas
include interprocessor/multiprocessor designs, communications
status buffering, and dual-port video/graphics memory.
Each port has independent control pins: Chip Enable (CE), Read
or Write Enable (R/W), and Output Enable (OE). Two flags are
provided on each port (BUSY and INT). BUSY signals that the
port is trying to access the same location currently being
accessed by the other port. The Interrupt Flag (INT) permits
communication between ports or systems by means of a mail
box. The semaphores are used to pass a flag, or token, from one
port to the other to indicate that a shared resource is in use. The
semaphore logic is comprised of eight shared latches. Only one
side can control the latch (semaphore) at any time. Control of a
semaphore indicates that a shared resource is in use. An
automatic power-down feature is controlled independently on
each port by a CE pin.
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
available in 100-pin Pb-free TQFP.
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
low-power CMOS 4K × 16/18 and 8K × 16/18 dual-port static
RAMs. Various arbitration schemes are included on the
CY7C024E/CY7C0241E and CY7C025E/CY7C0251E to handle
situations when multiple processors access the same piece of
data. Two ports are provided, permitting independent,
asynchronous access for reads and writes to any location in
memory. The CY7C024E/CY7C0241E and
CY7C025E/CY7C0251E can be used as standalone 16 or 18-bit
dual-port static RAMs or multiple devices can be combined to
function as a 32-/36-bit or wider master/ slave dual-port static
RAM. An M/S pin is provided for implementing 32-/36-bit or wider
memory applications without the need for separate master and
slave devices or additional discrete logic. Application areas
include interprocessor/multiprocessor designs, communications
status buffering, and dual-port video/graphics memory.
Each port has independent control pins: Chip Enable (CE), Read
or Write Enable (R/W), and Output Enable (OE). Two flags are
provided on each port (BUSY and INT). BUSY signals that the
port is trying to access the same location currently being
accessed by the other port. The Interrupt Flag (INT) permits
communication between ports or systems by means of a mail
box. The semaphores are used to pass a flag, or token, from one
port to the other to indicate that a shared resource is in use. The
semaphore logic is comprised of eight shared latches. Only one
side can control the latch (semaphore) at any time. Control of a
semaphore indicates that a shared resource is in use. An
automatic power-down feature is controlled independently on
each port by a CE pin.
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
available in 100-pin Pb-free TQFP.
CY7C024E-25AXC chip decryption
CY7C024E-25AXC chip decryption,cypress MCU code extraction, PCB cloning .
Features
True dual-ported memory cells that allow simultaneous reads
of the same memory location
4K ×16 organization (CY7C024E)
4K × 18 organization (CY7C0241E)
8K × 16 organization (CY7C025E)
8K × 18 organization (CY7C0251E)
0.35-μ complementary metal oxide semiconductor (CMOS) for
optimum speed and power
High-speed access: 15 ns
Low operating power: ICC = 180 mA (typ), ISB3
= 0.05 mA (typ)
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
Pin select for master or slave
Available in Pb-free 100-pin thin quad flatpack (TQFP) package
Features
True dual-ported memory cells that allow simultaneous reads
of the same memory location
4K ×16 organization (CY7C024E)
4K × 18 organization (CY7C0241E)
8K × 16 organization (CY7C025E)
8K × 18 organization (CY7C0251E)
0.35-μ complementary metal oxide semiconductor (CMOS) for
optimum speed and power
High-speed access: 15 ns
Low operating power: ICC = 180 mA (typ), ISB3
= 0.05 mA (typ)
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
Pin select for master or slave
Available in Pb-free 100-pin thin quad flatpack (TQFP) package
CY7C024AV-20AXC chip decryption
CY7C024AV-20AXC chip decryption,cypress MCU code extraction, PCB cloning .
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
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
CY7C024AV-20AXI chip decryption
CY7C024AV-20AXI chip decryption,cypress MCU code extraction, PCB cloning .
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
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
CY7C0241E-25AXC chip decryption
CY7C0241E-25AXC chip decryption,cypress MCU code extraction, PCB cloning .
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
low-power CMOS 4K × 16/18 and 8K × 16/18 dual-port static
RAMs. Various arbitration schemes are included on the
CY7C024E/CY7C0241E and CY7C025E/CY7C0251E to handle
situations when multiple processors access the same piece of
data. Two ports are provided, permitting independent,
asynchronous access for reads and writes to any location in
memory. The CY7C024E/CY7C0241E and
CY7C025E/CY7C0251E can be used as standalone 16 or 18-bit
dual-port static RAMs or multiple devices can be combined to
function as a 32-/36-bit or wider master/ slave dual-port static
RAM. An M/S pin is provided for implementing 32-/36-bit or wider
memory applications without the need for separate master and
slave devices or additional discrete logic. Application areas
include interprocessor/multiprocessor designs, communications
status buffering, and dual-port video/graphics memory.
Each port has independent control pins: Chip Enable (CE), Read
or Write Enable (R/W), and Output Enable (OE). Two flags are
provided on each port (BUSY and INT). BUSY signals that the
port is trying to access the same location currently being
accessed by the other port. The Interrupt Flag (INT) permits
communication between ports or systems by means of a mail
box. The semaphores are used to pass a flag, or token, from one
port to the other to indicate that a shared resource is in use. The
semaphore logic is comprised of eight shared latches. Only one
side can control the latch (semaphore) at any time. Control of a
semaphore indicates that a shared resource is in use. An
automatic power-down feature is controlled independently on
each port by a CE pin.
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
available in 100-pin Pb-free TQFP.
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
low-power CMOS 4K × 16/18 and 8K × 16/18 dual-port static
RAMs. Various arbitration schemes are included on the
CY7C024E/CY7C0241E and CY7C025E/CY7C0251E to handle
situations when multiple processors access the same piece of
data. Two ports are provided, permitting independent,
asynchronous access for reads and writes to any location in
memory. The CY7C024E/CY7C0241E and
CY7C025E/CY7C0251E can be used as standalone 16 or 18-bit
dual-port static RAMs or multiple devices can be combined to
function as a 32-/36-bit or wider master/ slave dual-port static
RAM. An M/S pin is provided for implementing 32-/36-bit or wider
memory applications without the need for separate master and
slave devices or additional discrete logic. Application areas
include interprocessor/multiprocessor designs, communications
status buffering, and dual-port video/graphics memory.
Each port has independent control pins: Chip Enable (CE), Read
or Write Enable (R/W), and Output Enable (OE). Two flags are
provided on each port (BUSY and INT). BUSY signals that the
port is trying to access the same location currently being
accessed by the other port. The Interrupt Flag (INT) permits
communication between ports or systems by means of a mail
box. The semaphores are used to pass a flag, or token, from one
port to the other to indicate that a shared resource is in use. The
semaphore logic is comprised of eight shared latches. Only one
side can control the latch (semaphore) at any time. Control of a
semaphore indicates that a shared resource is in use. An
automatic power-down feature is controlled independently on
each port by a CE pin.
The CY7C024E/CY7C0241E and CY7C025E/CY7C0251E are
available in 100-pin Pb-free TQFP.
Wednesday, October 10, 2012
The M32C/8B Key Features
Key Features:
16-bit Multifunction Timer (Timer A and B, incl. 3-phase
inverter motor control function): 11 channels
Clock Synchronous / Asynchronous Serial Interface: 5 channels
10-bit A/D Converter: 34 channels* (in single-chip mode)
18 channels* (in memory expansion mode and microprocessor mode)
8-bit D/A Converter: 2
DMAC: 4 channels
DMAC II: Can be activated by all peripheral function interrupt
factors
CRC Calculation Circuit
X/Y Converter
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub
Clock Generation Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Power Supply Voltage Detection
I/O Ports: 121* (in single-chip mode)
81* (in memory expansion and microprocessor mode with 8-bit
external bus)
73* (in memory expansion and microprocessor mode with 16-bit
external bus)
External Interrupt Pins: 11 (in single-chip mode)
11 (in memory expansion and microprocessor mode with 8-bit
external bus)
8 (in memory expansion and microprocessor mode with 16-bit
external bus)
Data Flash: 4KB × 2 blocks (Flash Memory Version only)
*: Spec of 144-pin version.
16-bit Multifunction Timer (Timer A and B, incl. 3-phase
inverter motor control function): 11 channels
Clock Synchronous / Asynchronous Serial Interface: 5 channels
10-bit A/D Converter: 34 channels* (in single-chip mode)
18 channels* (in memory expansion mode and microprocessor mode)
8-bit D/A Converter: 2
DMAC: 4 channels
DMAC II: Can be activated by all peripheral function interrupt
factors
CRC Calculation Circuit
X/Y Converter
Watchdog Timer
Clock Generation Circuits: Main Clock Generation Circuit, Sub
Clock Generation Circuit, On-chip Oscillator, PLL Synthesizer
Oscillation Stop Detection Function
Power Supply Voltage Detection
I/O Ports: 121* (in single-chip mode)
81* (in memory expansion and microprocessor mode with 8-bit
external bus)
73* (in memory expansion and microprocessor mode with 16-bit
external bus)
External Interrupt Pins: 11 (in single-chip mode)
11 (in memory expansion and microprocessor mode with 8-bit
external bus)
8 (in memory expansion and microprocessor mode with 16-bit
external bus)
Data Flash: 4KB × 2 blocks (Flash Memory Version only)
*: Spec of 144-pin version.
M32C/8B Renesas series chip decryption
M32C/8B Renesas series chip decryption, code extraction,
programm reading.
The M32C/8B is based on the M32C/80 CPU Core and has 16MB of
address space. Maximum operating frequency is 32MHz. Flash
Memory and ROM-less Versions are available. Internal Flash
Memory is programmable on a single power source.
programm reading.
The M32C/8B is based on the M32C/80 CPU Core and has 16MB of
address space. Maximum operating frequency is 32MHz. Flash
Memory and ROM-less Versions are available. Internal Flash
Memory is programmable on a single power source.
M16C PLATFORM
M16C PLATFORM: The M16C Family offers a robust platform of
32/16-bit CISC microcomputers featuring high ROM code
efficiency, extensive EMI/EMS noise immunity, ultra-low power
consumption, high-speed processing in actual applications, and
numerous and varied integrated peripherals. Extensive device
scalability from low- to high-end, featuring a single
architecture as well as compatible pin assignments and
peripheral functions, provides support for a vast range of
application fields. In addition, our low-cost development
environment and program correction function help you shorten
product development time while greatly reducing total system
costs.
32/16-bit CISC microcomputers featuring high ROM code
efficiency, extensive EMI/EMS noise immunity, ultra-low power
consumption, high-speed processing in actual applications, and
numerous and varied integrated peripherals. Extensive device
scalability from low- to high-end, featuring a single
architecture as well as compatible pin assignments and
peripheral functions, provides support for a vast range of
application fields. In addition, our low-cost development
environment and program correction function help you shorten
product development time while greatly reducing total system
costs.
R8C/Tiny Series Key Applications
From the R8C/Tiny Series to the R8C Family
Key Applications
Audio Equipment, TV, Cameras
Communication/Portable Equipment
Electronic Household Appliances (incl. Inverter Solution), Motor
Control, Housing Equipment (Sensors, Security Systems)
Office Equipment, General Industrial Equipment, Consumer
Products
Automotive (incl. Body, Safety, Audio)
Key Applications
Audio Equipment, TV, Cameras
Communication/Portable Equipment
Electronic Household Appliances (incl. Inverter Solution), Motor
Control, Housing Equipment (Sensors, Security Systems)
Office Equipment, General Industrial Equipment, Consumer
Products
Automotive (incl. Body, Safety, Audio)
Renesas M16C series chip decryption
Renesas M16C series chip decryption, code extraction, programm
reading.
M16C PLATFORM: The M16C Family offers a robust platform of
32/16-bit CISC microcomputers featuring high ROM code
efficiency, extensive EMI/EMS noise immunity, ultra-low power
consumption, high-speed processing in actual applications, and
numerous and varied integrated peripherals. Extensive device
scalability from low- to high-end, featuring a single
architecture as well as compatible pin assignments and
peripheral functions, provides support for a vast range of
application fields. In addition, our low-cost development
environment and program correction function help you shorten
product development time while greatly reducing total system
costs.
From the R8C/Tiny Series to the R8C Family
Key Applications
Audio Equipment, TV, Cameras
Communication/Portable Equipment
Electronic Household Appliances (incl. Inverter Solution), Motor
Control, Housing Equipment (Sensors, Security Systems)
Office Equipment, General Industrial Equipment, Consumer
Products
Automotive (incl. Body, Safety, Audio)
reading.
M16C PLATFORM: The M16C Family offers a robust platform of
32/16-bit CISC microcomputers featuring high ROM code
efficiency, extensive EMI/EMS noise immunity, ultra-low power
consumption, high-speed processing in actual applications, and
numerous and varied integrated peripherals. Extensive device
scalability from low- to high-end, featuring a single
architecture as well as compatible pin assignments and
peripheral functions, provides support for a vast range of
application fields. In addition, our low-cost development
environment and program correction function help you shorten
product development time while greatly reducing total system
costs.
From the R8C/Tiny Series to the R8C Family
Key Applications
Audio Equipment, TV, Cameras
Communication/Portable Equipment
Electronic Household Appliances (incl. Inverter Solution), Motor
Control, Housing Equipment (Sensors, Security Systems)
Office Equipment, General Industrial Equipment, Consumer
Products
Automotive (incl. Body, Safety, Audio)
Tuesday, September 25, 2012
PIC18F46K22 MCU CRACK
PIC18F46K22 MCU CRACK,microchip chip decrypt, chip code
extraction, pic chip crack, pic chip clone, microchip chip
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
extraction, pic chip crack, pic chip clone, microchip chip
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
PIC18F26K22 MCU CRACK
PIC18F26K22 MCU CRACK,microchip chip decrypt, chip code
extraction, pic chip crack, pic chip clone, microchip chip
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
extraction, pic chip crack, pic chip clone, microchip chip
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
PIC18F25K80 MCU CRACK
PIC18F25K80 MCU CRACK,microchip chip decrypt, chip code
extraction, pic chip crack, pic chip clone, microchip chip
products clone.PCB cLone.
PIC18F25K80 is a high performance 8-bit MCU with Integrated
ECAN™ featuring eXtreme Low Power consumption. New features in
PIC18F25K80 include low sleep current for low power application,
1.8V to 5.5V operating voltage for automotive, building control,
elevator control and industrial application, Timers/Enhanced
Compare/Capture/PWMs for precision timing control, 12-bit ADC
for advance analog interface and Charge Time Measurement Unit
for easy capacitive touch user interface. The PIC18F25K80 family
is ideal for applications requiring cost-effective, low-power
CAN solutions with high performance and robust peripheral set in
small package.
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PIC18F25K80 is a high performance 8-bit MCU with Integrated
ECAN™ featuring eXtreme Low Power consumption. New features in
PIC18F25K80 include low sleep current for low power application,
1.8V to 5.5V operating voltage for automotive, building control,
elevator control and industrial application, Timers/Enhanced
Compare/Capture/PWMs for precision timing control, 12-bit ADC
for advance analog interface and Charge Time Measurement Unit
for easy capacitive touch user interface. The PIC18F25K80 family
is ideal for applications requiring cost-effective, low-power
CAN solutions with high performance and robust peripheral set in
small package.
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High Performance RISC CPU:
C Compiler optimized architecture/instruction set
Data EEPROM to 1024 bytes
Linear program memory addressing to 64 Kbytes
Linear data memory addressing to 4 Kbytes
Up to 16 MIPS operation
16-bit wide instructions, 8-bit wide data path
Priority levels for interrupts
31-level, software accessible hardware stack
8 x 8 Single-Cycle Hardware MultiplierExtreme Low-Power
Managementwith nanoWatt XLP™:
Sleep mode: 100 nA, typical
Watchdog Timer: 500 nA, typical
Timer1 Oscillator: 500 nA @ typical 32 kHzFlexible Oscillator
Structure:
Precision 16 MHz internal oscillator block:- Factory calibrated
to ± 1%- Software selectable frequencies range of31 kHz to 16
MHz- 64 MHz performance available using PLL –no external
components required
Four Crystal modes up to 64 MHz
Two external Clock modes up to 64 MHz
4X Phase Lock Loop (PLL)
Secondary oscillator using Timer1 @ 32 kHz
Fail-Safe Clock Monitor:- Allows for safe shutdown if peripheral
clockstops
Two-Speed Oscillator Start-upSpecial Microcontroller Features:
Full 5.5V operation (PIC18F2XK22/4XK22)
Low voltage option available for 1.8V-3.6V operation
(PIC18LF2XK22/4XK22)
Self-reprogrammable under software control
Power-on Reset (POR), Power-up Timer (PWRT)and Oscillator Start
-up Timer (OST)
Programmable Brown-out Reset (BOR)
Extended Watchdog Timer (WDT) with on-chiposcillator and
software enable
Programmable code protection
In-Circuit Serial Programming™ (ICSP™) viatwo pins
In-Circuit Debug via two pinsAnalog Features:
Analog-to-Digital Converter (ADC) module:- 10-bit resolution- 17
analog input channels (PIC18F/LF2XK22)- 28 analog input channels
(PIC18F/LF4XK22)- Auto acquisition capability- Conversion
available during Sleep
Programmable High/Low Voltage Detection(PLVD) module
Charge Time Measurement Unit (CTMU) formTouch™ support:- Up to
28 channels for button, sensor or sliderinput
Analog comparator module with:- Two rail-to-rail analog
comparators- Comparator inputs and outputs externallyaccessible
and configurable
Voltage reference module with:- Programmable On-chip Voltage
Reference(CVREF) module (% of VDD)- Selectable on-chip fixed
voltage referencePeripheral Features:
24/35 I/O pins and 1 input-only pin:- High current sink/source
25 mA/25 mA- Individually programmable weak pull-ups-
Individually programmable interrupt-on-pinchange
Three external interrupt pins
Up to seven Timer modules:- Up to four 16-bit timers/counters
with prescaler- Up to three 8-bit timers/counters- Dedicated,
low-power Timer1 oscillator
Up to two Capture/Compare/PWM (CCP) modules
Up to three Enhanced Capture/Compare/PWM(ECCP) modules with:-
One, two or four PWM outputs- Selectable polarity- Programmable
dead time- Auto-shutdown and Auto-restart- PWM output steering
control
Two Master Synchronous Serial Port (MSSP)modules with two modes
of operation:- 3-wire SPI (supports all 4 SPI modes)- I2C™
Master and Slave modes (Slave modewith address masking)
Two Enhanced Universal Synchronous AsynchronousReceiver
Transmitter modules (EUSART):- Supports RS-232, RS-485 and LIN
2.0- Auto-Baud Detect- Auto Wake-up on Start bit
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High Performance 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
PIC18F46K20 MCU CRACK
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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
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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
PIC18F25K50 MCU CRACK
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Features
High performance PIC18 core with 8x8 Hardware Multiply
Flash Program Memory with self read/write capability
256 Bytes of integrated EEPROM
Internal 48MHz Oscillator with USB Accuracy -Via Active
Clock Tuning from USB Host
Universal Serial Bus 2.0 Module
Enhanced Capture Compare PWM (ECCP) Module with up to 4
outputs
Integrated Temperature Indicator Module
Up to 25 Channel 10-bit ADC with Voltage Reference
2 Analog Comparators
5-bit Digital to Analog Converter (DAC)
MI2C / SPI Module (MSSP)
Enhanced Addressable USART Module
Charge Time Measurement Unit (CTMU) for measurement
applications
25mA Source/Sink current I/O
2x 8-bit Timers
2x 16-bit Timers
Extended Watchdog Timer (WDT)
Enhanced Power-On/Off-Reset
Low-Power Brown-Out Reset (LPBOR)
Programmable Brown-Out Reset (BOR)
In Circuit Serial Programming and Debug (ICSP/ICD)
PIC18LF2xK50 (1.8V – 3.6V) with nanoWatt XLP
PIC18F2xK50 (1.8V – 5.5V)
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Features
High performance PIC18 core with 8x8 Hardware Multiply
Flash Program Memory with self read/write capability
256 Bytes of integrated EEPROM
Internal 48MHz Oscillator with USB Accuracy -Via Active
Clock Tuning from USB Host
Universal Serial Bus 2.0 Module
Enhanced Capture Compare PWM (ECCP) Module with up to 4
outputs
Integrated Temperature Indicator Module
Up to 25 Channel 10-bit ADC with Voltage Reference
2 Analog Comparators
5-bit Digital to Analog Converter (DAC)
MI2C / SPI Module (MSSP)
Enhanced Addressable USART Module
Charge Time Measurement Unit (CTMU) for measurement
applications
25mA Source/Sink current I/O
2x 8-bit Timers
2x 16-bit Timers
Extended Watchdog Timer (WDT)
Enhanced Power-On/Off-Reset
Low-Power Brown-Out Reset (LPBOR)
Programmable Brown-Out Reset (BOR)
In Circuit Serial Programming and Debug (ICSP/ICD)
PIC18LF2xK50 (1.8V – 3.6V) with nanoWatt XLP
PIC18F2xK50 (1.8V – 5.5V)
Thursday, September 13, 2012
Xeltek SuperPro 6000
Xeltek SuperPro 6000 Universal IC Chip Device Programmer
SKU SP6K
Weight 7.00 lbs
Highlights
80,500+ devices supported from 290 IC Manufacturers.
ARM9 32 Bit MCU + Linux for algorithm processing.
Programming speed up to 30% faster than SuperPro5000.
Supports NAND / eMMC devices up to 256 GB.
Stand-alone (no PC required) and PC hosted mode.
Built-in 144 universal pin-driver.
Comes with one-year customer request free device support.
CE and RoHS Compliant.
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.
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)
Items Included
SuperPro 6000 Programmer with a DIP48 Adapter
AC adapter
Software CD
USB2.0 Cable
Optional Accessories:
Socket adapters in various packages
CF card for stand-alone operation
ISP Header for serial programming
SKU SP6K
Weight 7.00 lbs
Highlights
80,500+ devices supported from 290 IC Manufacturers.
ARM9 32 Bit MCU + Linux for algorithm processing.
Programming speed up to 30% faster than SuperPro5000.
Supports NAND / eMMC devices up to 256 GB.
Stand-alone (no PC required) and PC hosted mode.
Built-in 144 universal pin-driver.
Comes with one-year customer request free device support.
CE and RoHS Compliant.
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.
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)
Items Included
SuperPro 6000 Programmer with a DIP48 Adapter
AC adapter
Software CD
USB2.0 Cable
Optional Accessories:
Socket adapters in various packages
CF card for stand-alone operation
ISP Header for serial programming
xeltek SuperPro 501S
xeltek SuperPro 501S Universal IC Chip Device Programmer
SKU SP501S
Weight 4.00 lbs
Number of Devices Supported 37,600+
Number of Manufacturers Supported 226
Number of Pins Available 48
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
SKU SP501S
Weight 4.00 lbs
Number of Devices Supported 37,600+
Number of Manufacturers Supported 226
Number of Pins Available 48
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 of 501s
Highlights
Lowest cost Stand-alone Programmer: With ARM7 MCU it gives ultra-fast programming experience.
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.
Programs devices with Vcc as low as 1.2V
Built-in 48 universal pin drivers
CE and ROHS Compliant
Lowest cost Stand-alone Programmer: With ARM7 MCU it gives ultra-fast programming experience.
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.
Programs devices with Vcc as low as 1.2V
Built-in 48 universal pin drivers
CE and ROHS Compliant
Hardware & electrical Specifications of 501s
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 90V- 250V; Output: 12V/2A
Main unit: Dimensions 205mm (L) * 148mm (W) * 50mm (H) Weight 1.35 lbs (0.6Kg)
Package: Dimensions 320mm (L) * 300mm (W) * 85mm (H) Weight 4lbs (1.8Kg)
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 90V- 250V; Output: 12V/2A
Main unit: Dimensions 205mm (L) * 148mm (W) * 50mm (H) Weight 1.35 lbs (0.6Kg)
Package: Dimensions 320mm (L) * 300mm (W) * 85mm (H) Weight 4lbs (1.8Kg)
xeltek SuperPro 501S Universal IC Chip Device Programmer
xeltek SuperPro 501S Universal IC Chip Device Programmer
SKU SP501S
Weight 4.00 lbs
Number of Devices Supported 37,600+
Number of Manufacturers Supported 226
Number of Pins Available 48
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
Lowest cost Stand-alone Programmer: With ARM7 MCU it gives ultra-fast programming experience.
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.
Programs devices with Vcc as low as 1.2V
Built-in 48 universal pin drivers
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 90V- 250V; Output: 12V/2A
Main unit: Dimensions 205mm (L) * 148mm (W) * 50mm (H) Weight 1.35 lbs (0.6Kg)
Package: Dimensions 320mm (L) * 300mm (W) * 85mm (H) Weight 4lbs (1.8Kg)
SKU SP501S
Weight 4.00 lbs
Number of Devices Supported 37,600+
Number of Manufacturers Supported 226
Number of Pins Available 48
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
Lowest cost Stand-alone Programmer: With ARM7 MCU it gives ultra-fast programming experience.
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.
Programs devices with Vcc as low as 1.2V
Built-in 48 universal pin drivers
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 90V- 250V; Output: 12V/2A
Main unit: Dimensions 205mm (L) * 148mm (W) * 50mm (H) Weight 1.35 lbs (0.6Kg)
Package: Dimensions 320mm (L) * 300mm (W) * 85mm (H) Weight 4lbs (1.8Kg)
Tuesday, September 11, 2012
ATxmega384D3 MCU code extraction
ATxmega384D3 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 384KB in-system programmable flash memory (8KB boot code section) with read-while-write capabilities, 4KB EEPROM, 32KB SRAM, a four-channel event system, a programmable multi-level interrupt controller, 50 general purpose I/O lines, a 16-bit real time counter, five flexible 16-bit timer/counters with compare, compare and PWM channels, three USARTs, two two-wire interfaces, two serial peripheral interfaces, one 16-channel/12-bit ADC programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and a programmable brown-out detection.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 384KB in-system programmable flash memory (8KB boot code section) with read-while-write capabilities, 4KB EEPROM, 32KB SRAM, a four-channel event system, a programmable multi-level interrupt controller, 50 general purpose I/O lines, a 16-bit real time counter, five flexible 16-bit timer/counters with compare, compare and PWM channels, three USARTs, two two-wire interfaces, two serial peripheral interfaces, one 16-channel/12-bit ADC programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and a programmable brown-out detection.
ATxmega64A1 MCU code extraction
ATxmega64A1 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The AVR XMEGA A1 series features 100-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The AVR XMEGA A1 series features 100-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
ATxmega64A1U MCU code extraction
ATxmega64A1U MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The AVR XMEGA A1U series features 100-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The AVR XMEGA A1U series features 100-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
ATxmega64A3 MCU code extraction
ATxmega64A3 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The ATxmega A3 series features 64-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The ATxmega A3 series features 64-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
ATxmega64A3U MCU code extraction
ATxmega64A3U MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The ATxmega A3 series features 64-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The ATxmega A3 series features 64-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
ATxmega64A4U MCU code extraction
ATxmega64A4U MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The ATxmega A4U series features 44-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, external bus interface, 4-channel DMA controller, 8-channel event system, and up to 32 MIPS throughput at 32MHz. The ATxmega A4U series features 44-pin packages.
The device can be used in a wide range of applications, such as building, industrial, motor, board, and climate control; hand-held battery applications; factory automation; power tools; HVAC; networking, metering, large home appliances, and optical and medical devices.
ATxmega64B1 MCU code extraction
ATxmega64B1 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 8KB boot code section, 8KB SRAM, 2048-Byte EEPROM, 2-channel DMA controller, 4-channel event system, USB Full speed Device, 4x40 segment LCD controller and up to 32 MIPS throughput at 32MHz. The ATxmega B3 series features 100-pin packages.
The device can be used in a wide range of applications, such as Utility Metering, Home Automation, Climate Control, Industrial Control, Sports equipment, Toys, eToken, Medical, USB connectivity, Power tools and Fire alarm systems.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 8KB boot code section, 8KB SRAM, 2048-Byte EEPROM, 2-channel DMA controller, 4-channel event system, USB Full speed Device, 4x40 segment LCD controller and up to 32 MIPS throughput at 32MHz. The ATxmega B3 series features 100-pin packages.
The device can be used in a wide range of applications, such as Utility Metering, Home Automation, Climate Control, Industrial Control, Sports equipment, Toys, eToken, Medical, USB connectivity, Power tools and Fire alarm systems.
ATxmega64B3 MCU code extraction
ATxmega64B3 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, 2-channel DMA controller, 4-channel event system, USB Full speed Device, 4x25 segment LCD controller and up to 32 MIPS throughput at 32MHz. The ATxmega B3 series features 64-pin packages.
The device can be used in a wide range of applications, such as Utility Metering, Home Automation, Climate Control, Industrial Control, Sports equipment, Toys, eToken, Medical, USB connectivity, Power tools and Fire alarm systems.
Low power, high performance 8/16-bit AVR microcontroller featuring 64KB self-programming flash program memory, 4KB boot code section, 4KB SRAM, 2048-Byte EEPROM, 2-channel DMA controller, 4-channel event system, USB Full speed Device, 4x25 segment LCD controller and up to 32 MIPS throughput at 32MHz. The ATxmega B3 series features 64-pin packages.
The device can be used in a wide range of applications, such as Utility Metering, Home Automation, Climate Control, Industrial Control, Sports equipment, Toys, eToken, Medical, USB connectivity, Power tools and Fire alarm systems.
ATxmega64C3 MCU code extraction
ATxmega64C3 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 64KB in-system programmable flash memory (8KB boot code section) with read-while-write capabilities, 2KB EEPROM, 4KB SRAM, a four-channel event system, a programmable multi-level interrupt controller, 50 general purpose I/O lines, a 16-bit real time counter, five flexible 16-bit timer/counters with capture, compare and PWM channels, USB Full-speed Device, three USARTs, two two-wire interfaces, two serial peripheral interfaces, one 16-channel/12-bit ADC with programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and a programmable brown-out detection.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 64KB in-system programmable flash memory (8KB boot code section) with read-while-write capabilities, 2KB EEPROM, 4KB SRAM, a four-channel event system, a programmable multi-level interrupt controller, 50 general purpose I/O lines, a 16-bit real time counter, five flexible 16-bit timer/counters with capture, compare and PWM channels, USB Full-speed Device, three USARTs, two two-wire interfaces, two serial peripheral interfaces, one 16-channel/12-bit ADC with programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and a programmable brown-out detection.
ATxmega64D3 MCU code extraction
ATxmega64D3 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 64KB ISP flash memory (4KB boot code section) with read-while-write capabilities, 2KB EEPROM, 4KB SRAM, a four-channel event system, a programmable multi-level interrupt controller, 50 general purpose I/O lines, a 16-bit real time counter, five flexible 16-bit timer/counters with compare modes and PWM, three USARTs, two 2-wire interfaces, two serial peripheral interfaces, one 16-channel/12-bit A/D converter with optional differential input with programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and a programmable brown-out detection. The Program and Debug Interface (PDI), a fast 2-pin interface for programming and debugging, is available. By executing powerful instructions in a single clock cycle, the device achieves throughputs approaching 1 MIPS per MHz, balancing power consumption and processing speed.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 64KB ISP flash memory (4KB boot code section) with read-while-write capabilities, 2KB EEPROM, 4KB SRAM, a four-channel event system, a programmable multi-level interrupt controller, 50 general purpose I/O lines, a 16-bit real time counter, five flexible 16-bit timer/counters with compare modes and PWM, three USARTs, two 2-wire interfaces, two serial peripheral interfaces, one 16-channel/12-bit A/D converter with optional differential input with programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and a programmable brown-out detection. The Program and Debug Interface (PDI), a fast 2-pin interface for programming and debugging, is available. By executing powerful instructions in a single clock cycle, the device achieves throughputs approaching 1 MIPS per MHz, balancing power consumption and processing speed.
ATxmega64D4 MCU code extraction
ATxmega64D4 MCU code extraction, Chip decryption, MCU code extraction,Atmel IC reverse, atmel DSP Crack, PCB cloning ,PCB copying.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 64KB ISP flash memory (4KB boot code section) with read-while-write capabilities, 2KB EEPROM, 4KB SRAM, four-channel event system, a programmable multi-level interrupt controller, 34 general purpose I/O lines, a 16-bit real time counter, four flexible 16-bit timer/counters with compare modes and PWM, two USARTs, two Two-Wire Interfaces (TWIs), two Serial Peripheral Interfaces (SPIs), one 12-channel/12-bit A/D converter with optional differential input with programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and programmable brown-out detection. The Program and Debug Interface (PDI), a fast 2-pin interface for programming and debugging, is available. By executing powerful instructions in a single clock cycle, the device achieves throughputs approaching 1 MIPS per MHz, balancing power consumption and processing speed.
The high-performance, low-power 8/16-bit AVR XMEGA microcontroller combines 64KB ISP flash memory (4KB boot code section) with read-while-write capabilities, 2KB EEPROM, 4KB SRAM, four-channel event system, a programmable multi-level interrupt controller, 34 general purpose I/O lines, a 16-bit real time counter, four flexible 16-bit timer/counters with compare modes and PWM, two USARTs, two Two-Wire Interfaces (TWIs), two Serial Peripheral Interfaces (SPIs), one 12-channel/12-bit A/D converter with optional differential input with programmable gain, two analog comparators with window mode, a programmable watchdog timer with separate internal oscillator, accurate internal oscillators with PLL and prescaler, and programmable brown-out detection. The Program and Debug Interface (PDI), a fast 2-pin interface for programming and debugging, is available. By executing powerful instructions in a single clock cycle, the device achieves throughputs approaching 1 MIPS per MHz, balancing power consumption and processing speed.
Friday, August 31, 2012
M3026 series MCU crack
M30260F3A M30260F4A M30260F6A M30260F8A M30262F3 M30262F4
M30262F6 M30262F8 M30263F3A M30263F4A M30263F6A M30263F8A
M30280F6 M30280F8 M30280FA M30281F6 M30281F8 M30281FA
M30290F8 M30290FA M30290FC M30291F8 M30291FA M30291FC
M3010F3 M301N2F8 M30245FC M302D0F4 M302D1F4 M30620FCA
M30624FGA M3062GF8 M30620FCP M30621FCP M30622F8P M30624FGP
M30625FGP M30626FHP M30627FHP M306N4FC M306N4FG M306N5FC
M306NAFG M306NBFC M306NKFJ
More informaiton about M3026 series MCU crack, please contact us whthout hesitation. We provide whole M3026 series MCU crack.
M30262F6 M30262F8 M30263F3A M30263F4A M30263F6A M30263F8A
M30280F6 M30280F8 M30280FA M30281F6 M30281F8 M30281FA
M30290F8 M30290FA M30290FC M30291F8 M30291FA M30291FC
M3010F3 M301N2F8 M30245FC M302D0F4 M302D1F4 M30620FCA
M30624FGA M3062GF8 M30620FCP M30621FCP M30622F8P M30624FGP
M30625FGP M30626FHP M30627FHP M306N4FC M306N4FG M306N5FC
M306NAFG M306NBFC M306NKFJ
More informaiton about M3026 series MCU crack, please contact us whthout hesitation. We provide whole M3026 series MCU crack.
Renesas's M3026
The original Mitsubishi microcontroller family belonging to Renesas Technology. we can provide Renesas's M3026 series MCU crack service, such as common M30262F6GP MCU decryption. Where M denotes MITSUBISHI, 30 is representative of M16C series, 26 represents the 20 family of M16C series, F represents the FLASH memory, and then the ROM size. When you want to decrypt chip, please have s basic understanding of your chips, then tell the model to engineers. Beijing Sichip can crack M3062xxx, M3028XXX, M30260FXX, M30262FXX, M30263FXX series micorocontrollers.
Part of the models are as follows:
M30260F3A M30260F4A M30260F6A M30260F8A M30262F3 M30262F4
M30262F6 M30262F8 M30263F3A M30263F4A M30263F6A M30263F8A
M30280F6 M30280F8 M30280FA M30281F6
Part of the models are as follows:
M30260F3A M30260F4A M30260F6A M30260F8A M30262F3 M30262F4
M30262F6 M30262F8 M30263F3A M30263F4A M30263F6A M30263F8A
M30280F6 M30280F8 M30280FA M30281F6
M30260F4A
Part of the models are as follows:
M30260F3A M30260F4A M30260F6A M30260F8A M30262F3 M30262F4
M30262F6 M30262F8 M30263F3A M30263F4A M30263F6A M30263F8A
M30280F6 M30280F8 M30280FA M30281F6 M30281F8 M30281FA
M30290F8 M30290FA M30290FC M30291F8 M30291FA M30291FC
M3010F3 M301N2F8 M30245FC M302D0F4 M302D1F4 M30620FCA
M30624FGA M3062GF8 M30620FCP M30621FCP M30622F8P M30624FGP
M30625FGP M30626FHP M30627FHP M306N4FC M306N4FG M306N5FC
M306NAFG M306NBFC M306NKFJ
Mitsubishi microcontroller family
The original Mitsubishi microcontroller family belonging to Renesas Technology. we can provide Renesas's M3026 series MCU crack service, such as common M30262F6GP MCU decryption. Where M denotes MITSUBISHI, 30 is representative of M16C series, 26 represents the 20 family of M16C series, F represents the FLASH memory, and then the ROM size. When you want to decrypt chip, please have s basic understanding of your chips, then tell the model to engineers. Beijing Sichip can crack M3062xxx, M3028XXX, M30260FXX, M30262FXX, M30263FXX series micorocontrollers.
MC68HC11/711 MCUs
MC68HC11 A8(AB9ST) MC68HC11 A8(C96N)
MC68HC11A8(D26E) MC68HC11 E20(3E22B)
MC68HC11 E9(1B60R) MC68HC11 E9(D82R)
MC68HC11 E9(E22B) MC68HC11 E9(E28B)
MC68HC11 EA9(2D47J) MC68HC11 F1(2F37E)
MC68HC11 F1(E87J) MC68HC11 K1(2D58N)
MC68HC11 K4(1E62H) MC68HC11 K4(0E75J)
MC68HC11 KA4(1E59B) MC68HC11 KS2(0H95B)
MC68HC11 KS4(0E57S) MC68HC11 KS4(0F60M)
MC68HC11 P2(2E53M) MC68HC711 E20(1H19S)
MC68HC711 E9(4K81H) MC68HC711 E9(5C47M)
MC68HC711 EA9(0D46J) MC68HC711 K4(K59D)
MC68HC711 PH8(0H30R) MC68HC711 E9(5C47M)
MC68HC711 KS8(1H96P) MC68HC711 P2(1E53M)
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
MC68HC11A8(D26E) MC68HC11 E20(3E22B)
MC68HC11 E9(1B60R) MC68HC11 E9(D82R)
MC68HC11 E9(E22B) MC68HC11 E9(E28B)
MC68HC11 EA9(2D47J) MC68HC11 F1(2F37E)
MC68HC11 F1(E87J) MC68HC11 K1(2D58N)
MC68HC11 K4(1E62H) MC68HC11 K4(0E75J)
MC68HC11 KA4(1E59B) MC68HC11 KS2(0H95B)
MC68HC11 KS4(0E57S) MC68HC11 KS4(0F60M)
MC68HC11 P2(2E53M) MC68HC711 E20(1H19S)
MC68HC711 E9(4K81H) MC68HC711 E9(5C47M)
MC68HC711 EA9(0D46J) MC68HC711 K4(K59D)
MC68HC711 PH8(0H30R) MC68HC711 E9(5C47M)
MC68HC711 KS8(1H96P) MC68HC711 P2(1E53M)
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 MCU attack
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,
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,
MCU decryption
MC9S08 series MCU decryption was considered to be a complicated series of decryption in the research in Motorola and Freescale MCUs. And for a long time MC9S08 decryption technolgy is not mature in the industry, bringing a lot trouble to electronic engineers and companies. Our lab has achieved a major breakthrough in decryption MC9S08 series MCUs.
MC9S08 MC9S08AW MC9S08JM MC9S08LC MC9S08QD MC9S08AC16 MC9S08AC32 MC9S08AC60 MC9S08DZ60 MC9S08DZ48 MC9S08DZ32
MC9S08 MC9S08AW MC9S08JM MC9S08LC MC9S08QD MC9S08AC16 MC9S08AC32 MC9S08AC60 MC9S08DZ60 MC9S08DZ48 MC9S08DZ32
MC9S08AW
MC9S08 MC9S08AW MC9S08JM MC9S08LC MC9S08QD MC9S08AC16 MC9S08AC32 MC9S08AC60 MC9S08DZ60 MC9S08DZ48 MC9S08DZ32 MC9S08DZ16
MC9S08DN60 MC9S08DN48 MC9S08DN32 MC9S08DN16 MC9S08EL8 MC9S08EL16 MC9S08EL32 MC9S08EL16 MC9S08GB32 MC9S08GB64 MC9S08GT8 MC9S08GT32 MC9S08GT32 MC9S08GT64
MC9S08JM8 MC9S08JM16 MC9S08JM32 MC9S08JM60
MC9S08LC60 MC9S08LG32 MC9S08LG16 MC9S08LL16 MC9S08MP16
MC9S08QA2 MC9S08QA4 MC9S08QB4 MC9S08QD4
MC9S08QE4 MC9S08QE8 MC9S08QE16 MC9S08QE32 MC9S08QE60
MC9S08QG8 MC9S08RC8 MC9S08RC16 MC9S08RC32 MC9S08RC60
MC9S08RE8 MC9S08RE16 MC9S08RE32 MC9S08RE64 MC9S08RE60
MC9S08RG32 MC9S08RG60 MC9S08SE8 MC9S08AW16 MC9S08AW8
For the specific information of MC9S08 MCU decryption please contact us without hesitation.
MC68HC908xxxx MCU crack MC68HC908JB16 break MC68HC908JB8
MC9S08DN60 MC9S08DN48 MC9S08DN32 MC9S08DN16 MC9S08EL8 MC9S08EL16 MC9S08EL32 MC9S08EL16 MC9S08GB32 MC9S08GB64 MC9S08GT8 MC9S08GT32 MC9S08GT32 MC9S08GT64
MC9S08JM8 MC9S08JM16 MC9S08JM32 MC9S08JM60
MC9S08LC60 MC9S08LG32 MC9S08LG16 MC9S08LL16 MC9S08MP16
MC9S08QA2 MC9S08QA4 MC9S08QB4 MC9S08QD4
MC9S08QE4 MC9S08QE8 MC9S08QE16 MC9S08QE32 MC9S08QE60
MC9S08QG8 MC9S08RC8 MC9S08RC16 MC9S08RC32 MC9S08RC60
MC9S08RE8 MC9S08RE16 MC9S08RE32 MC9S08RE64 MC9S08RE60
MC9S08RG32 MC9S08RG60 MC9S08SE8 MC9S08AW16 MC9S08AW8
For the specific information of MC9S08 MCU decryption please contact us without hesitation.
MC68HC908xxxx MCU crack MC68HC908JB16 break MC68HC908JB8
high-performance 8-bit Flash
The MC68HC908 series MCU is a high-performance 8-bit Flash the structure microcontroller, launched by Freescale semiconductor, from 1KB to 60KB memory space, from 8-pin QFN 80-pin SMD variety of flexiblethe package is optional the MC68HC908 range of products to meet all of today's 8-bit machine design requirements. It provides a wide range of peripheral interfaces, such as 8 or 10 bit A / D converter, SCI, SPI, CAN, LIN, J1850 interface, multi-channel timer, as well as to meet the industrial demand site online programming FLASH, and meet the unique models such as LIN, motor control and radio frequency (RF) and other special applications. All the chips in the series use the enhanced M68HC08 processor core unit (CPU08), they are designed for different peripheral modules, memory sizes and a variety of package types.. The MC68HC908 series MCU is widely used in automotive electronics, consumer products, medical electronic products, financial electronic products, industrial control products, wireless control products, computer peripherals, communications products, motor control products, display products.
MC68HC908AB32
MC68HC908JB8 MC68HC908AB32 MC68HC08AB16A MC68HC908AB32 MC68HC908AP8 MC68HC908AP16 MC68HC908AP32 MC68HC908AP64 MC68HC08AS32 MC68HC08AZ32 MC68HC08AZ60 MC68HC908AS32 MC68HC908AS60 MC68HC908AZ32 MC68HC908AZ60 MC68HC08AZ60 MC68HC08BD24 MC68HC908BD48 MC68HC908EY8 MC68HC908EY16 MC68HC08GP16 MC68HC08GP32 MC68HC08GR16 MC68HC08GT16 MC68HC908GP32 MC68HC908GR4 MC68HC908GR16 MC68HC908GR32 MC68HC908GR48 MC68HC908GR60 MC68HC908GR8 MC68HC908GT8 MC68HC908GT16 MC68HC908GZ8 MC68HC908GZ16 MC68HC908GZ32 MC68HC908GZ48 MC68HC908GZ60 MC68HC08JT8 MC68HC08JK3 MC68HC08JK8 MC68HC08JL3 MC68HC08JL8 MC68HC908JK1 MC68HC908JK3 MC68HC908JK8 MC68HC908JL16 MC68HC908JL3 MC68HC908JL8 MC68HC08KH12 MC68HC908KX12 MC68HC908KX8 MC68HC908LB8 MC68HC908LD60 MC68HC908LD64 MC68HC908LJ12 MC68HC908JB8 MC68HC908JB16
Baseed on the above features and applications, MC68HC908 MCU decryption is needed in our life. Beijing sichip can provide the full series of MC68HC908 MCU service. And the time is short, price is low.
Baseed on the above features and applications, MC68HC908 MCU decryption is needed in our life. Beijing sichip can provide the full series of MC68HC908 MCU service. And the time is short, price is low.
Thursday, August 30, 2012
ATMEL ARM series crack
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.
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.
AT89CXX series MCU crack
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.
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.
AT87FXXX series MCU crack
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
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
Atmel Corporation
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.
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.
Tuesday, August 14, 2012
TMS320C28x M0, M1 SARAMs
TMS320C28x M0, M1 SARAMs
All C28x devices contain these two blocks of single access memory, each 1K x 16 in size. The stack
pointer points to the beginning of block M1 on reset. The M0 block overlaps the 240x device B0, B1, B2
RAM blocks and hence the mapping of data variables on the 240x devices can remain at the same
physical address on C28x devices. The M0 and M1 blocks, like all other memory blocks on C28x devices,
are mapped to both program and data space. Hence, the user can use M0 and M1 to execute code or for
data variables. The partitioning is performed within the linker. The C28x device presents a unified memory
map to the programmer. This makes for easier programming in high-level languages.
TMS320C281x ROM
TMS320C281x ROM
The C2812 and C2811 contain 128K x 16 of ROM. The C2810 has 64K x 16 of ROM. In addition to this,
there is a 1K x 16 ROM block that replaces the OTP memory available in flash devices. For information on
how to submit ROM codes to TI, see the TMS320C28x CPU and Instruction Set Reference Guide
(literature number SPRU430).
The C2812 and C2811 contain 128K x 16 of ROM. The C2810 has 64K x 16 of ROM. In addition to this,
there is a 1K x 16 ROM block that replaces the OTP memory available in flash devices. For information on
how to submit ROM codes to TI, see the TMS320C28x CPU and Instruction Set Reference Guide
(literature number SPRU430).
TMS320F281x Flash
The F2812 and F2811 contain 128K x 16 of embedded flash memory, segregated into four 8K x 16
sectors, and six 16K x 16 sectors. The F2810 has 64K x 16 of embedded flash, segregated into two 8K x
16 sectors, and three 16K x 16 sectors. All three devices also contain a single 1K x 16 of OTP memory at
address range 0x3D 7800–0x3D 7BFF. The user can individually erase, program, and validate a flash
sector while leaving other sectors untouched. However, it is not possible to use one sector of the flash or
the OTP to execute flash algorithms that erase/program other sectors. Special memory pipelining is
provided to enable the flash module to achieve higher performance. The flash/OTP is mapped to both
program and data space; therefore, it can be used to execute code or store data information.
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