CY8C20324-12LQXI MCU Reverse,mcu crack, chip decryption, pcb coping, pcb reverse engineering.
Features
■ Low power, configurable CapSense
?
? Configurable capacitive sensing elements
? operating voltage
? Operating voltage: 2.4 V to 5.25 V
? Low operating current
? Active 1.5 mA (at 3.0 V, 12 MHz)
? Sleep 2.8 μA (at 3.3 V)
? Supports up to 25 capacitive buttons
? Supports one slider
? Up to 10 cm proximity sensing
? Supports up to 28 general-purpose I/O (GPIO) pins
? Drive LEDs and other outputs
? Configurable LED behavior (fading, strobing)
? LED color mixing (RBG LEDs)
? Pull-up, high Z, open-drain, and CMOS drive modes on all
GPIOs
? Internal ±5.0% 6 or12 MHz main oscillator
? Internal low-speed oscillator at 32 kHz
? Low external component count
? No external crystal or oscillator components
? No external voltage regulator required
■ High-performance CapSense
? Ultra fast scan speed —1 kHz (nominal)
? Reliable finger detection through 5 mm thick acrylic
? Excellent EMI and AC noise immunity
■ Industry best flexibility
? 8 KB flash program storage 50,000 erase and write cycles
? 512-bytes SRAM data storage
? Bootloader for ease of field reprogramming
? Partial flash updates
? Flexible flash protection modes
? Interrupt controller
? In-system serial programming (ISSP)
? Free complete development tool (PSoC Designer?)
? Full-featured, in-circuit emulator and programmer
? Full-speed emulation
? Complex breakpoint structure
? 128 KB trace memory
■ Additional system resources
? Configurable communication speeds
? I2C slave
? SPI master and SPI slave
? Watchdog and sleep timers
? Internal voltage reference
? Integrated supervisory circuit
Tuesday, October 30, 2012
CY8C20334-12LQXI MCU crack
CY8C20334-12LQXI MCU crack,chip crack, chip reverse, pcb reverse
engineering.
Features
■ 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
engineering.
Features
■ 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
CY8C20334-12LQXIT MCU crack
CY8C20334-12LQXIT MCU crack,chip crack, chip reverse, pcb
reverse engineering.
When you are ready to test the hardware configuration or move
on to developing code for the project, you perform the
“Generate
Configuration Files” step. This causes PSoC Designer to
generate source code that automatically configures the device to
your specification and provides the software for the system. The
generated code provides application programming interfaces
(APIs) with high-level functions to control and respond to
hardware events at run-time and interrupt service routines that
you can adapt as needed.
A complete code development environment allows you to
develop and customize your applications in either C, assembly
language, or both.
The last step in the development process takes place inside
PSoC Designer’s debugger (access by clicking the Connect
icon). PSoC Designer downloads the HEX image to the ICE
where it runs at full speed. PSoC Designer debugging
capabilities rival those of systems costing many times more. In
addition
to traditional single-step, run-to-breakpoint, and watch-
variable
features, the debug interface provides a large trace buffer and
allows you to define complex breakpoint events. These include
monitoring address and data bus values, memory locations, and
external signals.
reverse engineering.
When you are ready to test the hardware configuration or move
on to developing code for the project, you perform the
“Generate
Configuration Files” step. This causes PSoC Designer to
generate source code that automatically configures the device to
your specification and provides the software for the system. The
generated code provides application programming interfaces
(APIs) with high-level functions to control and respond to
hardware events at run-time and interrupt service routines that
you can adapt as needed.
A complete code development environment allows you to
develop and customize your applications in either C, assembly
language, or both.
The last step in the development process takes place inside
PSoC Designer’s debugger (access by clicking the Connect
icon). PSoC Designer downloads the HEX image to the ICE
where it runs at full speed. PSoC Designer debugging
capabilities rival those of systems costing many times more. In
addition
to traditional single-step, run-to-breakpoint, and watch-
variable
features, the debug interface provides a large trace buffer and
allows you to define complex breakpoint events. These include
monitoring address and data bus values, memory locations, and
external signals.
CY8C20334-12LQXI MCU crack
CY8C20334-12LQXI MCU crack,chip crack, chip reverse, pcb reverse
engineering.
Features
■ 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
engineering.
Features
■ 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
Thursday, October 18, 2012
CY7C027AV-25AXI MCU Code Reading
CY7C027AV-25AXI MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
Features
True dual-ported memory cells which allow
simultaneous access of the same memory location
32K x 16 organization (CY7C027V/027AV
[1]
)
64K x 16 organization (CY7C028V)
32K x 18 organization (CY7C037AV)
64K x 18 organization (CY7C038V)
0.35 micron Complementary metal oxide semiconductor
(CMOS) for optimum speed and power
High speed access: 15, 20, and 25 ns
Low operating power
Active: ICC = 115 mA (typical)
Standby: ISB3
= 10 ?A (typical)
Fully asynchronous operation
Automatic power-down
Expandable data bus to 32/36 bits or more using Master/Slave
chip select when using more than one device
On-chip arbitration logic
Semaphores included to permit software handshaking
between ports
INT flag for port-to-port communication
Separate upper-byte and lower-byte control
Dual chip enables
Pin select for Master or Slave
Commercial and Industrial temperature ranges
100-pin Pb-free Thin quad plastic flatpack (TQFP) and 100-pin
TQFP
Features
True dual-ported memory cells which allow
simultaneous access of the same memory location
32K x 16 organization (CY7C027V/027AV
[1]
)
64K x 16 organization (CY7C028V)
32K x 18 organization (CY7C037AV)
64K x 18 organization (CY7C038V)
0.35 micron Complementary metal oxide semiconductor
(CMOS) for optimum speed and power
High speed access: 15, 20, and 25 ns
Low operating power
Active: ICC = 115 mA (typical)
Standby: ISB3
= 10 ?A (typical)
Fully asynchronous operation
Automatic power-down
Expandable data bus to 32/36 bits or more using Master/Slave
chip select when using more than one device
On-chip arbitration logic
Semaphores included to permit software handshaking
between ports
INT flag for port-to-port communication
Separate upper-byte and lower-byte control
Dual chip enables
Pin select for Master or Slave
Commercial and Industrial temperature ranges
100-pin Pb-free Thin quad plastic flatpack (TQFP) and 100-pin
TQFP
CY7C026AV-25AC MCU Code Reading
CY7C026AV-25AC MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
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
CY7C026A-20AXCT MCU Code Reading
CY7C026A-20AXCT MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
The CY7C026A is a low power CMOS 16K x 16 dual-port static
RAM. Various arbitration schemes are included on the devices
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 device can be utilized as standalone 16-bit
dual-port static RAM or multiple devices can be combined to
function as a 32-bit or wider master/slave dual-port static RAM.
An M/S pin is provided for implementing 32-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 the chip enable pin.
The CY7C026A is available in 100-pin thin quad plastic flatpack
(TQFP) packages.
The CY7C026A is a low power CMOS 16K x 16 dual-port static
RAM. Various arbitration schemes are included on the devices
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 device can be utilized as standalone 16-bit
dual-port static RAM or multiple devices can be combined to
function as a 32-bit or wider master/slave dual-port static RAM.
An M/S pin is provided for implementing 32-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 the chip enable pin.
The CY7C026A is available in 100-pin thin quad plastic flatpack
(TQFP) packages.
CY7C026A MCU Code Reading
CY7C026A MCU Code Reading, Programm Reading, MCU Crack, Chip Decryption.
Features
True dual-ported memory cells that allow simultaneous access
of the same memory location
16K x 16 organization (CY7C026A)
0.35 micron CMOS for optimum speed and power
High speed access: 15, and 20 ns
Low operating power
Active: ICC = 180 mA (typical)
Standby: ISB3
= 0.05 mA (typical)
Fully asynchronous operation
Automatic power-down
Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
On-chip arbitration logic
Semaphores included to permit software handshaking
between ports
INT flags for port-to-port communication
Separate upper-byte and lower-byte control
Pin select for Master or Slave
Commercial and Industrial temperature ranges
Available in 100-pin thin quad plastic flatpack (TQFP)
Pb-free packages available
Features
True dual-ported memory cells that allow simultaneous access
of the same memory location
16K x 16 organization (CY7C026A)
0.35 micron CMOS for optimum speed and power
High speed access: 15, and 20 ns
Low operating power
Active: ICC = 180 mA (typical)
Standby: ISB3
= 0.05 mA (typical)
Fully asynchronous operation
Automatic power-down
Expandable data bus to 32 bits or more using Master/Slave
chip select when using more than one device
On-chip arbitration logic
Semaphores included to permit software handshaking
between ports
INT flags for port-to-port communication
Separate upper-byte and lower-byte control
Pin select for Master or Slave
Commercial and Industrial temperature ranges
Available in 100-pin thin quad plastic flatpack (TQFP)
Pb-free packages available
CY7C09099V-7AXI Code Extract
CY7C09099V-7AXI Code Extract, cypress MCU decryption, cypress chip crack, cypress PCB clone .
Features
True Dual-Ported memory cells which enable simultaneous
access of the same memory location
Flow-through and Pipelined devices
32 K × 9 organizations (CY7C09179V)
64 K × 8 organizations (CY7C09089V)
128 K × 8/9 organizations (CY7C09099V/199V)
3 Modes
Flow-through
Pipelined
Burst
Pipelined output mode on both ports enables fast 100 MHz
operation
0.35-micron CMOS for optimum speed and power
High speed clock to data access 6.5
3.3 V low operating power
Active = 115 mA (typical)
Standby = 10 ?A (typical)
Fully synchronous interface for easier operation
Burst counters increment addresses internally
Shorten cycle times
Minimize bus noise
Supported in Flow-through and Pipelined modes
Dual Chip Enables for easy depth expansion
Automatic power down
Commercial and Industrial temperature ranges
Available in 100-pin TQFP
Pb-free packages available
Features
True Dual-Ported memory cells which enable simultaneous
access of the same memory location
Flow-through and Pipelined devices
32 K × 9 organizations (CY7C09179V)
64 K × 8 organizations (CY7C09089V)
128 K × 8/9 organizations (CY7C09099V/199V)
3 Modes
Flow-through
Pipelined
Burst
Pipelined output mode on both ports enables fast 100 MHz
operation
0.35-micron CMOS for optimum speed and power
High speed clock to data access 6.5
3.3 V low operating power
Active = 115 mA (typical)
Standby = 10 ?A (typical)
Fully synchronous interface for easier operation
Burst counters increment addresses internally
Shorten cycle times
Minimize bus noise
Supported in Flow-through and Pipelined modes
Dual Chip Enables for easy depth expansion
Automatic power down
Commercial and Industrial temperature ranges
Available in 100-pin TQFP
Pb-free packages available
CY7C09179V-12AXC Code Extract
CY7C09179V-12AXC Code Extract, cypress MCU decryption, cypress chip crack, cypress PCB clone .
Features
True Dual-Ported memory cells which enable simultaneous
access of the same memory location
Flow-through and Pipelined devices
32 K × 9 organizations (CY7C09179V)
64 K × 8 organizations (CY7C09089V)
128 K × 8/9 organizations (CY7C09099V/199V)
3 Modes
Flow-through
Pipelined
Burst
Pipelined output mode on both ports enables fast 100 MHz
operation
0.35-micron CMOS for optimum speed and power
High speed clock to data access 6.5
3.3 V low operating power
Active = 115 mA (typical)
Standby = 10 ?A (typical)
Fully synchronous interface for easier operation
Burst counters increment addresses internally
Shorten cycle times
Minimize bus noise
Supported in Flow-through and Pipelined modes
Dual Chip Enables for easy depth expansion
Automatic power down
Commercial and Industrial temperature ranges
Available in 100-pin TQFP
Pb-free packages available
Features
True Dual-Ported memory cells which enable simultaneous
access of the same memory location
Flow-through and Pipelined devices
32 K × 9 organizations (CY7C09179V)
64 K × 8 organizations (CY7C09089V)
128 K × 8/9 organizations (CY7C09099V/199V)
3 Modes
Flow-through
Pipelined
Burst
Pipelined output mode on both ports enables fast 100 MHz
operation
0.35-micron CMOS for optimum speed and power
High speed clock to data access 6.5
3.3 V low operating power
Active = 115 mA (typical)
Standby = 10 ?A (typical)
Fully synchronous interface for easier operation
Burst counters increment addresses internally
Shorten cycle times
Minimize bus noise
Supported in Flow-through and Pipelined modes
Dual Chip Enables for easy depth expansion
Automatic power down
Commercial and Industrial temperature ranges
Available in 100-pin TQFP
Pb-free packages available
Thursday, October 11, 2012
M16C/1N series Renesas MCU reverse
M16C/1N series Renesas MCU reverse, chip decryption, code
extraction.
The M16C/1N group contains the M16C/60 CPU core. This group
incorporatesabundant peripheral functions including CAN in an
ultracompact package (7 mmsquare). Equipped with a set of large
-capacity buffers, this group is ideallysuited for high-speed
(maximum 1 Mbps), large-traffic communication
networkapplications.
extraction.
The M16C/1N group contains the M16C/60 CPU core. This group
incorporatesabundant peripheral functions including CAN in an
ultracompact package (7 mmsquare). Equipped with a set of large
-capacity buffers, this group is ideallysuited for high-speed
(maximum 1 Mbps), large-traffic communication
networkapplications.
M16C/80 series Renesas MCU reverse
M16C/80 series Renesas MCU reverse, chip decryption, code
extraction.
Support for the M16C/80 Group is limited to customers who have
already adopted these products. If adopting new products, please
consider other ranges such as the M32C/8A, M32C/8B, or R32C/111
Group.
extraction.
Support for the M16C/80 Group is limited to customers who have
already adopted these products. If adopting new products, please
consider other ranges such as the M32C/8A, M32C/8B, or R32C/111
Group.
R5F2L357CDFP Key Features
Key Features:
5 MHz operation at 1.8 V supply voltage, and 20 MHz operation
from 2.7 V available
8-bit Multifunction Timer with 8-bit prescaler (Timer RA and
RB): 2
16-bit Input Capture/Output Compare Timer (Timer RC, RD, RG): 4
8-bit Real-Time Clock Timer with compare match function (Timer
RE): 1
UART/Clock Synchronous Serial Interface: 3 channels
I2C-bus Interface/Synchronous Serial Communication Unit: 1
channel
LIN Module: 1 channel (Timer RA, UART0)
10-bit A/D Converter: 10 channels
8-bit D/A Converter: 2
Comparator: 2
LCD Drive Control Circuit
Bias: 1/2, 1/3
Duty: Static, 1/2, 1/3, 1/4
Common output: Max. 4 pins
Segment output: Max. 24 pins
Voltage multiplier and dedicated regulator integrated.
DTC (Data Transfer Controller) : 1 channel
Watchdog Timer
Clock Generating Circuits: XIN Clock Oscillation Circuit, On-
chip Oscillator (High/Low Speed), XCIN Clock Oscillation Circuit
Low Power Consumption Modes
Standard Operating Mode (Clock (High/Low speed), On-chip
Oscillator (High/Low speed))
Wait Mode, Stop mode, Power-Off Mode
Oscillation Stop Detection
Voltage Detection Circuit
Power-on Reset Circuit
I/O Ports: 41 (incl. LED drive ports)
External Interrupt Pins: 9
Data Flash with Background Operation (BGO) function : 4 KB
Please refer to Product Specifications for details on each
function.
5 MHz operation at 1.8 V supply voltage, and 20 MHz operation
from 2.7 V available
8-bit Multifunction Timer with 8-bit prescaler (Timer RA and
RB): 2
16-bit Input Capture/Output Compare Timer (Timer RC, RD, RG): 4
8-bit Real-Time Clock Timer with compare match function (Timer
RE): 1
UART/Clock Synchronous Serial Interface: 3 channels
I2C-bus Interface/Synchronous Serial Communication Unit: 1
channel
LIN Module: 1 channel (Timer RA, UART0)
10-bit A/D Converter: 10 channels
8-bit D/A Converter: 2
Comparator: 2
LCD Drive Control Circuit
Bias: 1/2, 1/3
Duty: Static, 1/2, 1/3, 1/4
Common output: Max. 4 pins
Segment output: Max. 24 pins
Voltage multiplier and dedicated regulator integrated.
DTC (Data Transfer Controller) : 1 channel
Watchdog Timer
Clock Generating Circuits: XIN Clock Oscillation Circuit, On-
chip Oscillator (High/Low Speed), XCIN Clock Oscillation Circuit
Low Power Consumption Modes
Standard Operating Mode (Clock (High/Low speed), On-chip
Oscillator (High/Low speed))
Wait Mode, Stop mode, Power-Off Mode
Oscillation Stop Detection
Voltage Detection Circuit
Power-on Reset Circuit
I/O Ports: 41 (incl. LED drive ports)
External Interrupt Pins: 9
Data Flash with Background Operation (BGO) function : 4 KB
Please refer to Product Specifications for details on each
function.
R5F2L357CDFP Key Applications
Key Applications:
Electronic Household Appliances, Office Equipment, Audio
Equipment, Consumer Products
Electronic Household Appliances, Office Equipment, Audio
Equipment, Consumer Products
R5F2L357CDFP Renesas MCU reverse
R5F2L357CDFP Renesas MCU reverse, chip decryption, code
extraction.
Key Features:
5 MHz operation at 1.8 V supply voltage, and 20 MHz operation
from 2.7 V available
8-bit Multifunction Timer with 8-bit prescaler (Timer RA and
RB): 2
16-bit Input Capture/Output Compare Timer (Timer RC, RD, RG): 4
8-bit Real-Time Clock Timer with compare match function (Timer
RE): 1
UART/Clock Synchronous Serial Interface: 3 channels
I2C-bus Interface/Synchronous Serial Communication Unit: 1
channel
LIN Module: 1 channel (Timer RA, UART0)
10-bit A/D Converter: 10 channels
8-bit D/A Converter: 2
Comparator: 2
LCD Drive Control Circuit
Bias: 1/2, 1/3
Duty: Static, 1/2, 1/3, 1/4
Common output: Max. 4 pins
Segment output: Max. 24 pins
Voltage multiplier and dedicated regulator integrated.
DTC (Data Transfer Controller) : 1 channel
Watchdog Timer
Clock Generating Circuits: XIN Clock Oscillation Circuit, On-
chip Oscillator (High/Low Speed), XCIN Clock Oscillation Circuit
Low Power Consumption Modes
Standard Operating Mode (Clock (High/Low speed), On-chip
Oscillator (High/Low speed))
Wait Mode, Stop mode, Power-Off Mode
Oscillation Stop Detection
Voltage Detection Circuit
Power-on Reset Circuit
I/O Ports: 41 (incl. LED drive ports)
External Interrupt Pins: 9
Data Flash with Background Operation (BGO) function : 4 KB
Please refer to Product Specifications for details on each
function.
Key Applications:
Electronic Household Appliances, Office Equipment, Audio
Equipment, Consumer Products
R5F2L358CNFP chip decryption
R8C/L35C Renesas MCU reverse, chip decryption, code extraction.
The R8C/L35C is based on the R8C CPU Core. Maximum operating
frequency is 20 MHz. A Flash Memory Version is available.
Internal Flash Memory is programmable on a single power source.
Key Features:
5 MHz operation at 1.8 V supply voltage, and 20 MHz operation
from 2.7 V available
8-bit Multifunction Timer with 8-bit prescaler (Timer RA and
RB): 2
16-bit Input Capture/Output Compare Timer (Timer RC, RD, RG): 4
8-bit Real-Time Clock Timer with compare match function (Timer
RE): 1
UART/Clock Synchronous Serial Interface: 3 channels
I2C-bus Interface/Synchronous Serial Communication Unit: 1
channel
LIN Module: 1 channel (Timer RA, UART0)
10-bit A/D Converter: 10 channels
8-bit D/A Converter: 2
Comparator: 2
LCD Drive Control Circuit
Bias: 1/2, 1/3
Duty: Static, 1/2, 1/3, 1/4
Common output: Max. 4 pins
Segment output: Max. 24 pins
Voltage multiplier and dedicated regulator integrated.
DTC (Data Transfer Controller) : 1 channel
Watchdog Timer
Clock Generating Circuits: XIN Clock Oscillation Circuit, On-
chip Oscillator (High/Low Speed), XCIN Clock Oscillation Circuit
Low Power Consumption Modes
Standard Operating Mode (Clock (High/Low speed), On-chip
Oscillator (High/Low speed))
Wait Mode, Stop mode, Power-Off Mode
Oscillation Stop Detection
Voltage Detection Circuit
Power-on Reset Circuit
I/O Ports: 41 (incl. LED drive ports)
External Interrupt Pins: 9
Data Flash with Background Operation (BGO) function : 4 KB
Please refer to Product Specifications for details on each
function.
Key Applications:
Electronic Household Appliances, Office Equipment, Audio
Equipment, Consumer Products
R5F2L357CDFP R5F2L357CNFP R5F2L358CDFP R5F2L358CNFP R5F2L35ACDFP
R5F2L35ACNFP R5F2L35CCDFP R5F2L35CCNFP
The R8C/L35C is based on the R8C CPU Core. Maximum operating
frequency is 20 MHz. A Flash Memory Version is available.
Internal Flash Memory is programmable on a single power source.
Key Features:
5 MHz operation at 1.8 V supply voltage, and 20 MHz operation
from 2.7 V available
8-bit Multifunction Timer with 8-bit prescaler (Timer RA and
RB): 2
16-bit Input Capture/Output Compare Timer (Timer RC, RD, RG): 4
8-bit Real-Time Clock Timer with compare match function (Timer
RE): 1
UART/Clock Synchronous Serial Interface: 3 channels
I2C-bus Interface/Synchronous Serial Communication Unit: 1
channel
LIN Module: 1 channel (Timer RA, UART0)
10-bit A/D Converter: 10 channels
8-bit D/A Converter: 2
Comparator: 2
LCD Drive Control Circuit
Bias: 1/2, 1/3
Duty: Static, 1/2, 1/3, 1/4
Common output: Max. 4 pins
Segment output: Max. 24 pins
Voltage multiplier and dedicated regulator integrated.
DTC (Data Transfer Controller) : 1 channel
Watchdog Timer
Clock Generating Circuits: XIN Clock Oscillation Circuit, On-
chip Oscillator (High/Low Speed), XCIN Clock Oscillation Circuit
Low Power Consumption Modes
Standard Operating Mode (Clock (High/Low speed), On-chip
Oscillator (High/Low speed))
Wait Mode, Stop mode, Power-Off Mode
Oscillation Stop Detection
Voltage Detection Circuit
Power-on Reset Circuit
I/O Ports: 41 (incl. LED drive ports)
External Interrupt Pins: 9
Data Flash with Background Operation (BGO) function : 4 KB
Please refer to Product Specifications for details on each
function.
Key Applications:
Electronic Household Appliances, Office Equipment, Audio
Equipment, Consumer Products
R5F2L357CDFP R5F2L357CNFP R5F2L358CDFP R5F2L358CNFP R5F2L35ACDFP
R5F2L35ACNFP R5F2L35CCDFP R5F2L35CCNFP
R8C/L35C Renesas MCU reverse
R8C/L35C Renesas MCU reverse, chip decryption, code extraction.
The R8C/L35C is based on the R8C CPU Core. Maximum operating
frequency is 20 MHz. A Flash Memory Version is available.
Internal Flash Memory is programmable on a single power source.
The R8C/L35C is based on the R8C CPU Core. Maximum operating
frequency is 20 MHz. A Flash Memory Version is available.
Internal Flash Memory is programmable on a single power source.
R5F2L357CNFP Key Features
Key Features:
5 MHz operation at 1.8 V supply voltage, and 20 MHz operation
from 2.7 V available
8-bit Multifunction Timer with 8-bit prescaler (Timer RA and
RB): 2
16-bit Input Capture/Output Compare Timer (Timer RC, RD, RG): 4
8-bit Real-Time Clock Timer with compare match function (Timer
RE): 1
UART/Clock Synchronous Serial Interface: 3 channels
I2C-bus Interface/Synchronous Serial Communication Unit: 1
channel
LIN Module: 1 channel (Timer RA, UART0)
10-bit A/D Converter: 10 channels
8-bit D/A Converter: 2
Comparator: 2
LCD Drive Control Circuit
Bias: 1/2, 1/3
Duty: Static, 1/2, 1/3, 1/4
Common output: Max. 4 pins
Segment output: Max. 24 pins
Voltage multiplier and dedicated regulator integrated.
DTC (Data Transfer Controller) : 1 channel
Watchdog Timer
Clock Generating Circuits: XIN Clock Oscillation Circuit, On-
chip Oscillator (High/Low Speed), XCIN Clock Oscillation Circuit
Low Power Consumption Modes
Standard Operating Mode (Clock (High/Low speed), On-chip
Oscillator (High/Low speed))
Wait Mode, Stop mode, Power-Off Mode
Oscillation Stop Detection
Voltage Detection Circuit
Power-on Reset Circuit
I/O Ports: 41 (incl. LED drive ports)
External Interrupt Pins: 9
Data Flash with Background Operation (BGO) function : 4 KB
Please refer to Product Specifications for details on each
function.
5 MHz operation at 1.8 V supply voltage, and 20 MHz operation
from 2.7 V available
8-bit Multifunction Timer with 8-bit prescaler (Timer RA and
RB): 2
16-bit Input Capture/Output Compare Timer (Timer RC, RD, RG): 4
8-bit Real-Time Clock Timer with compare match function (Timer
RE): 1
UART/Clock Synchronous Serial Interface: 3 channels
I2C-bus Interface/Synchronous Serial Communication Unit: 1
channel
LIN Module: 1 channel (Timer RA, UART0)
10-bit A/D Converter: 10 channels
8-bit D/A Converter: 2
Comparator: 2
LCD Drive Control Circuit
Bias: 1/2, 1/3
Duty: Static, 1/2, 1/3, 1/4
Common output: Max. 4 pins
Segment output: Max. 24 pins
Voltage multiplier and dedicated regulator integrated.
DTC (Data Transfer Controller) : 1 channel
Watchdog Timer
Clock Generating Circuits: XIN Clock Oscillation Circuit, On-
chip Oscillator (High/Low Speed), XCIN Clock Oscillation Circuit
Low Power Consumption Modes
Standard Operating Mode (Clock (High/Low speed), On-chip
Oscillator (High/Low speed))
Wait Mode, Stop mode, Power-Off Mode
Oscillation Stop Detection
Voltage Detection Circuit
Power-on Reset Circuit
I/O Ports: 41 (incl. LED drive ports)
External Interrupt Pins: 9
Data Flash with Background Operation (BGO) function : 4 KB
Please refer to Product Specifications for details on each
function.
R5F2L357CDFP Key Applications
R5F2L357CDFP Key Applications:
Electronic Household Appliances, Office Equipment, Audio
Equipment, Consumer Products
R5F2L357CDFP R5F2L357CNFP R5F2L358CDFP R5F2L358CNFP R5F2L35ACDFP
R5F2L35ACNFP R5F2L35CCDFP R5F2L35CCNFP
Electronic Household Appliances, Office Equipment, Audio
Equipment, Consumer Products
R5F2L357CDFP R5F2L357CNFP R5F2L358CDFP R5F2L358CNFP R5F2L35ACDFP
R5F2L35ACNFP R5F2L35CCDFP R5F2L35CCNFP
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