Archive for April, 2014

PostHeaderIcon Break IC LPC2132FBD64 Firmware

break-ic-lpc2132fbd64-firmware

We can Break IC LPC2132FBD64 Firmware, please view below IC LPC2132FBD64 features for your reference:

 

The LPC2131/2132/2134/2136/2138 microcontrollers are based on a 32/16 bit

ARM7TDMI-S CPU with real-time emulation and embedded trace support, that combines

the microcontroller with 32 kB, 64 kB, 128 kB, 256 kB and 512 kB of embedded high

speed Flash memory when Break IC. 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 after Break IC.

Due to their tiny size and low power consumption, these microcontrollers are ideal for

applications where miniaturization is a key requirement, such as access control and

point-of-sale. With a wide range of serial communications interfaces and on-chip SRAM

options of 8/16/32 kB after Break IC, they are very well suited for communication gateways and protocol converters, soft modems, voice recognition and low end imaging, providing both large

buffer size and high processing power. Various 32-bit timers, single or dual 10-bit

8 channel ADC(s), 10-bit DAC, PWM channels and 47 GPIO lines with up to nine edge or

level sensitive external interrupt pins make these microcontrollers particularly suitable for

industrial control and medical systems after Break IC.

16/32-bit ARM7TDMI-S microcontroller in a tiny LQFP64 package.

8/16/32 kB of on-chip static RAM and 32/64/128/256/512 kB of on-chip Flash program

memory. 128 bit wide interface/accelerator enables high speed 60 MHz operation.

In-System/In-Application Programming (ISP/IAP) via on-chip boot-loader software after Break IC.

Single Flash sector or full chip erase in 400 ms and programming of 256 bytes in 1 ms.

EmbeddedICE RT and Embedded Trace interfaces offer real-time debugging with the

on-chip RealMonitor software and high speed tracing of instruction execution if Break IC.

One (LPC2131/32) or two (LPC2134/36/38) 8 channel 10-bit A/D converters provides

a total of up to 16 analog inputs, with conversion times as low as 2.44 µs per channel.

Single 10-bit D/A converter provides variable analog output (LPC2132/34/36/38).

Two 32-bit timers/external event counters (with four capture and four compare

channels each), PWM unit (six outputs) and watchdog after Break IC.

Low power Real-time clock with independent power and dedicated 32 kHz clock input.

Multiple serial interfaces including two UARTs (16C550), two Fast I2C-bus (400 kbit/s),

SPI and SSP with buffering and variable data length capabilities if Break IC.

Vectored interrupt controller with configurable priorities and vector addresses.

Up to 47 5 V tolerant general purpose I/O pins in tiny LQFP64 package.

Up to nine edge or level sensitive external interrupt pins available.

60 MHz maximum CPU clock available from programmable on-chip PLL with settling

time of 100 µs.

On-chip integrated oscillator operates with external crystal in range of 1 MHz to

30 MHz and with external oscillator up to 50 MHz.

Power saving modes include Idle and Power-down after Break IC

Individual enable/disable of peripheral functions as well as peripheral clock scaling

down for additional power optimization.

Processor wake-up from Power-down mode via external interrupt or BOD.

Single power supply chip with POR and BOD circuits:

CPU operating voltage range of 3.0 V to 3.6 V (3.3 V ± 10 %) with 5 V tolerant I/O pads after Break IC.

PostHeaderIcon Recover Chip MC68HC11A0FN3 Binary

recover-chip-mc68hc11a0fn3-binary

We can Recover Chip MC68HC11A0FN3 Binary, please view break IC MC68HC11A0FN3 features for your reference:

 

· Power Saving STOP and WAIT Modes

· 4 Kbytes of On-Chip ROM

· 192 Bytes of On-Chip RAM (All Saved During Standby)

· 16-Bit Timer System

— 3 Input Capture (IC) Channels

— 4 Output Compare (OC) Channels when Recover Chip

— One IC or OC Channel (Software Selectable)

· 8-Bit Pulse Accumulator

· Real-Time Interrupt Circuit

· Computer Operating Properly (COP) Watchdog System

· Synchronous Serial Peripheral Interface (SPI)

· Asynchronous Nonreturn to Zero (NRZ) Serial Communications Interface (SCI)

· 26 Input/Output (I/O) Pins after Recover Chip

— 16 Bidirectional I/O Pins

— 3 Input Only Pins

— 3 Output Only Pins (One Output Only Pin in the 40-Pin Package)

· Available in a 44-Pin Plastic Leaded Chip Carrier (PLCC) and 40-Pin Dual In-Line Package (DIP)

2.1 VDD, VSS, and EVSS

Power is supplied to the MCU through VDD and VSS. VSS is the power supply, and VSS is ground. EVSS, available on the 44-pin PLCC, is an additional ground pin that must be grounded with VSS. The MCU operates from a single 5-volt (nominal) power supply before Recover Chip. Very fast signal transitions occur on the MCU pins. The short rise and fall times place high, short duration current demands on the power supply. To prevent noise problems, provide good power supply bypassing at the MCU. Also, use bypass capacitors that have good high-frequency characteristics and situate them as close to the MCU as possible. Bypass requirements vary, depending on how heavily the MCU pins are loaded if Recover Chip.

2.2 Reset (RESET)

An active low bidirectional control signal, RESET, acts as an input to initialize the MCU to a known startup state. It also acts as an open-drain output to indicate that an internal failure has been detected in either the clock monitor or COP watchdog circuit. The CPU distinguishes between internal and external reset conditions by sensing whether the reset pin rises to a logic one in less than two E-clock cycles after a reset has occurred when Recover Chip. It is not advisable to connect an external resistor-capacitor (RC) power-up delay circuit to the reset pin of M68HC11 devices because the circuit charge time.

2.3 Crystal Driver and External Clock Input (XTAL, EXTAL)

These two pins provide the interface for either a crystal or a CMOS compatible clock to control the internal clock generator circuitry. The frequency applied to these pins is four times higher than the desired E-clock rate after Recover Chip.

The XTAL pin is normally left unterminated when an external CMOS compatible clock input is connected to the EXTAL pin. However, a 10 kΩ to 100 kΩ load resistor connected from XTAL to ground can be used to reduce RFI noise emission. The XTAL output is normally intended to drive only a crystal. The XTAL output can be buffered with a high impedance buffer, or it can be used to drive the EXTAL input of another M68HC11 before Recover Chip.

PostHeaderIcon Recover Microcontroller 430G2452 Heximal

recover-microcontroller-430g2452-heximal

We can Recover Microcontroller 430G2452 Heximal, please view below Microcontroller 430G2452 features for your reference:

 

FEATURES

Low Supply Voltage Range: 1.8 V to 3.6 V Ultra-Low Power Consumption

– Active Mode: 220 µA at 1 MHz, 2.2 V

– Standby Mode: 0.5 µA

– Off Mode (RAM Retention): 0.1 µA

Five Power-Saving Modes Ultra-Fast Wake-Up From Standby Mode in Less Than 1 µs 16-Bit RISC Architecture, 62.5-ns Instruction Cycle Time when Recover Microcontroller

Basic Clock Module Configurations

– Internal Frequencies up to 16 MHz With

Four Calibrated Frequencies

– Internal Very-Low-Power Low-Frequency (LF) Oscillator

– 32-kHz Crystal

– External Digital Clock Source

One 16-Bit Timer_A With Three Capture/Compare Registers Up to 16 Touch-Sense Enabled I/O Pins after Recover Microcontroller

Universal Serial Interface (USI) Supporting SPI and I2C 10-Bit 200-ksps Analog-to-Digital (A/D)

Converter With Internal Reference, Sample-and-Hold, and Autoscan (MSP430G2x52 Only) On-Chip Comparator for Analog Brownout Detector Serial Onboard Programming, No External Programming Voltage Needed, Programmable Code Protection by Security Fuse On-Chip Emulation Logic With Spy-Bi-Wire Interface Family Members are Summarized:

Package Options

– TSSOP: 14 Pin, 20 Pin

– PDIP: 20 Pin

– QFN: 16 Pin

For Complete Module Descriptions, See the MSP430x2xx Family User’s Guide (SLAU144)

DESCRIPTION

The Texas Instruments MSP430™ family of ultra-low-power microcontrollers consist of several devices featuring different sets of peripherals targeted for various applications if Recover Microcontroller. The architecture, combined with five low-power modes, is optimized to achieve extended battery life in portable measurement applications. The device features a powerful 16-bit RISC CPU, 16-bit registers, and constant generators that contribute to maximum code efficiency before Recover Microcontroller. The digitally controlled oscillator (DCO) allows wake-up from low-power modes to active mode in less than 1 µs. The MSP430G2x52 and MSP430G2x12 series of microcontrollers are ultra-low-power mixed signal microcontrollers with built-in 16-bit timers, and up to 16 I/O touch sense enabled pins and built-in communication capability using the universal serial communication interface and have a versatile analog comparator before Reverse engineering Microcontroller. The MSP430G2x52 series have a 10-bit A/D converter. For configuration details see Table 1. Typical applications include low-cost sensor systems that capture analog signals, convert them to digital values, and then process the data for display or for transmission to a host system when Recover Microcontroller.

PostHeaderIcon Recover MCU PIC18F2520 Binary

recover-mcu-pic18f2520-binary

We can Recover MCU PIC18F2520 Binary, please view below MCU PIC18F2520 features for your reference:

 

Power Management Features:

Peripheral Highlights (Continued):

Run: CPU on, Peripherals on

Idle: CPU off, Peripherals on

Sleep: CPU off, Peripherals off when Recover MCU

Ultra Low 50nA Input Leakage

Run mode Currents Down to 11 ìA Typical

Idle mode Currents Down to 2.5 ìA Typical

Sleep mode Current Down to 100 nA Typical

Timer1 Oscillator: 900 nA, 32 kHz, 2V

Watchdog Timer: 1.4 ìA, 2V Typical

Two-Speed Oscillator Start-up

 

· Master Synchronous Serial Port (MSSP) module after Recover MCU

Supporting 3-Wire SPI (all 4 modes) and I2C™

Master and Slave modes

· Enhanced Addressable USART module:

– Supports RS-485, RS-232 and LIN/J2602

– RS-232 operation using internal oscillator block (no external crystal required)

– Auto-wake-up on Start bit

– Auto-Baud Detect

· 10-Bit, up to 13-Channel Analog-to-Digital (A/D) for Recover MCU

 

Flexible Oscillator Structure:

· Four Crystal modes, up to 40 MHz

· 4x Phase Lock Loop (PLL) – Available for Crystal and Internal Oscillators

· Two External RC modes, up to 4 MHz

· Two External Clock modes, up to 40 MHz

· Internal Oscillator Block:

– Fast wake from Sleep and Idle, 1 ìs typical

– 8 use-selectable frequencies, from 31 kHz to 8 MHz when Recover MCU

– Provides a complete range of clock speeds from 31 kHz to 32 MHz when used with PLL

– User-tunable to compensate for frequency drift

· Secondary Oscillator using Timer1 @ 32 kHz

· Fail-Safe Clock Monitor:

– Allows for safe shutdown if peripheral clock stops

Peripheral Highlights:

 

Converter module if Recover MCU:

– Auto-acquisition capability

– Conversion available during Sleep

· Dual Analog Comparators with Input Multiplexing

· Programmable 16-Level High/Low-Voltage

Detection (HLVD) module:

– Supports interrupt on High/Low-Voltage Detection after Recover MCU

Special Microcontroller Features:

· C Compiler Optimized Architecture:

– Optional extended instruction set designed to

optimize re-entrant code

· 100,000 Erase/Write Cycle Enhanced Flash

Program Memory Typical

· 1,000,000 Erase/Write Cycle Data EEPROM

Memory Typical

· Flash/Data EEPROM Retention: 100 Years Typical when Recover MCU

· Self-Programmable under Software Control

 

High-Current Sink/Source 25 mA/25 mA

Three Programmable External Interrupts

Four Input Change Interrupts

Up to 2 Capture/Compare/PWM (CCP) modules,

 

· Priority Levels for Interrupts

· 8 x 8 Single-Cycle Hardware Multiplier before Recover MCU

· Extended Watchdog Timer (WDT):

– Programmable period from 4 ms to 131s one with Auto-Shutdown (28-pin devices)

· Enhanced Capture/Compare/PWM (ECCP) module (40/44-pin devices only):

– One, two or four PWM outputs

– Selectable polarity

– Programmable dead time

– Auto-shutdown and auto-restart

 

· Single-Supply 5V In-Circuit Serial

Programming™ (ICSP™) via Two Pins

· In-Circuit Debug (ICD) via Two Pins

· Wide Operating Voltage Range: 2.0V to 5.5V

· Programmable Brown-out Reset (BOR) with

Software Enable Option when Recover MCU

PostHeaderIcon Recover IC AT89C4051 Heximal

recover-ic-at89c4051-heximal

We can Recover MCU AT89C4051 Heximal, please view the IC AT89C4051 features for your reference:

 

Features

· Compatible with MCS®51 Products

· 4K Bytes of Reprogrammable Flash Memory

– Endurance: 1,000 Write/Erase Cycles

2.7V to 6V Operating Range when Recover IC

Fully Static Operation: 0 Hz to 24 MHz

Two-level Program Memory Lock

128 x 8-bit Internal RAM

15 Programmable I/O Lines

Two 16-bit Timer/Counters after Recover IC

Six Interrupt Sources

Programmable Serial UART Channel

Direct LED Drive Outputs

On-chip Analog Comparator

Low-power Idle and Power-down Modes before Recover IC

Brown-out Detection

Power-On Reset (POR)

Green (Pb/Halide-free/RoHS Compliant) Packaging

The AT89C4051 is a low-voltage, high-performance CMOS 8-bit microcontroller with

4K bytes of Flash programmable and erasable read-only memory when Recover IC. The device is manufactured using Atmel’s high-density nonvolatile memory technology and is

compatible with the industry-standard MCS-51 instruction set. By combining a versa-

tile 8-bit CPU with Flash on a monolithic chip, the Atmel AT89C4051 is a powerful

microcontroller which provides a highly-flexible and cost-effective solution to many

embedded control applications before Recover IC.

The AT89C4051 provides the following standard features: 4K bytes of Flash,

128 bytes of RAM, 15 I/O lines, two 16-bit timer/counters, a five-vector, two-level inter-

rupt architecture, a full duplex serial port, a precision analog comparator, on-chip

oscillator and clock circuitry. In addition, the AT89C4051 is designed with static logic

for operation down to zero frequency and supports two software-selectable power

saving modes before Recover IC. The Idle Mode stops the CPU while allowing the RAM, timer/counters,

serial port and interrupt system to continue functioning. The power-down mode saves

the RAM contents but freezes the oscillator disabling all other chip functions until the

next hardware reset for Recover IC.

Circuit Engineering Company Limited continues to be recognized as the Southern China Leader in Services for IC Break, MCU attack, Chip Recover, Microcontroller Copy service. With the advancement of today’s modern circuit board technology, it is more important than ever to have specialists available to help you at a moment’s notice. Our engineering and commercial teams collectively have a vast amount of electronic experience covering field include Consumer Electronics, Industrial Automation Electronics, Wireless Communication Electronics., etc. For more information please contact us through email.

PostHeaderIcon Copy Microcontroller P87C51X2BBD Binary

copy-microcontroller-p87c51x2bbd-binary

We can reverse engineering Microcontroller P87C51X2BBD Binary, please view below the Microcontroller P87C51X2BBD features for your reference:

 

FEATURES

· 80C51 Central Processing Unit

– 4 kbytes ROM/EPROM (P80/P87C51X2)

– 8 kbytes ROM/EPROM (P80/P87C52X2)

– 16 kbytes ROM/EPROM (P80/P87C54X2)

– 32 kbytes ROM/EPROM (P80/P87C58X2)

– 128 byte RAM (P80/P87C51X2 and P80C31X2) when Copy Microcontroller

– 256 byte RAM (P80/P87C52/54X2/58X2 and P80C32X2)

– Boolean processor

– Fully static operation

– Low voltage (2.7 V to 5.5 V at 16 MHz) operation after Copy Microcontroller

· 12-clock operation with selectable 6-clock operation (via software or via parallel programmer)

· Memory addressing capability

– Up to 64 kbytes ROM and 64 kbytes RAM

· Power control modes:

– Clock can be stopped and resumed if Copy Microcontroller

– Idle mode

– Power-down mode

· CMOS and TTL compatible

· Two speed ranges at VCC = 5 V

– 0 to 30 MHz with 6-clock operation

– 0 to 33 MHz with 12-clock operation

· PLCC, DIP, TSSOP or LQFP packages

· Extended temperature ranges before Copy Microcontroller

· Dual Data Pointers

· Security bits:

– ROM (2 bits)

– OTP (3 bits)

· Encryption array – 64 bytes

· Four interrupt priority levels

· Six interrupt sources

· Four 8-bit I/O ports

· Full-duplex enhanced UART after Copy Microcontroller

– Framing error detection

– Automatic address recognition

· Three 16-bit timers/counters T0, T1 (standard 80C51) and additional T2 (capture and compare)

· Programmable clock-out pin

· Asynchronous port reset

· Low EMI (inhibit ALE, slew rate controlled outputs, and 6-clock mode) when Copy Microcontroller

· Wake-up from Power Down by an external interrupt.

 

Circuit Engineering Company Limited continues to be recognized as the Southern China Leader in Services for IC Break, MCU recover, Chip Recover, Microcontroller Copy service. With the advancement of today’s modern circuit board technology, it is more important than ever to have specialists available to help you at a moment’s notice. Our engineering and commercial teams collectively have a vast amount of electronic experience covering field include Consumer Electronics, Industrial Automation Electronics, Wireless Communication Electronics., etc. For more information please contact us through email.

PostHeaderIcon Copy MCU Atmega32A Software

We can recovery MCU Atmega32A Software, please view below MCU Atmega32A features for your reference:

 

Features

· High-performance, Low-power AVR® 8-bit Microcontroller

· Advanced RISC Architecture

– 131 Powerful Instructions – Most Single-clock Cycle Execution when Copy MCU

– 32 x 8 General Purpose Working Registers

– Fully Static Operation

– Up to 16 MIPS Throughput at 16 MHz

– On-chip 2-cycle Multiplier

 

High Endurance Non-volatile Memory segments

– 32K Bytes of In-System Self-programmable Flash program memory after Copy MCU

– 1024 Bytes EEPROM

– 2K Byte Internal SRAM

– Write/Erase Cycles: 10,000 Flash/100,000 EEPROM

– Data retention: 20 years at 85°C/100 years at 25°C(1)

– Optional Boot Code Section with Independent Lock Bits

· In-System Programming by On-chip Boot Program

· True Read-While-Write Operation

– Programming Lock for Software Security

JTAG (IEEE std. 1149.1 Compliant) Interface

– Boundary-scan Capabilities According to the JTAG Standard if Copy MCU

– Extensive On-chip Debug Support

– Programming of Flash, EEPROM, Fuses, and Lock Bits through the JTAG Interface

Peripheral Features

– Two 8-bit Timer/Counters with Separate Prescalers and Compare Modes

– One 16-bit Timer/Counter with Separate Prescaler, Compare Mode, and Capture Mode

– Real Time Counter with Separate Oscillator

– Four PWM Channels

– 8-channel, 10-bit ADC before Copy MCU

· 8 Single-ended Channels

· 7 Differential Channels in TQFP Package Only

· 2 Differential Channels with Programmable Gain at 1x, 10x, or 200x

– Byte-oriented Two-wire Serial Interface

– Programmable Serial USART

– Master/Slave SPI Serial Interface

– Programmable Watchdog Timer with Separate On-chip Oscillator

– On-chip Analog Comparator

Special Microcontroller Features

– Power-on Reset and Programmable Brown-out Detection for Copy MCU

– Internal Calibrated RC Oscillator

– External and Internal Interrupt Sources

– Six Sleep Modes: Idle, ADC Noise Reduction, Power-save, Power-down, Standby and Extended Standby

I/O and Packages

– 32 Programmable I/O Lines

– 40-pin PDIP, 44-lead TQFP, and 44-pad QFN/MLF when Copy MCU

Operating Voltages

– 2.7 – 5.5V for ATmega32A

Speed Grades

– 0 – 16 MHz for ATmega32A

Power Consumption at 1 MHz, 3V, 25°C for ATmega32A

 

Summary

 

Active: 0.6 mA

– Idle Mode: 0.2 mA

– Power-down Mode: < 1 µA

PostHeaderIcon Attack Chip Atmega8A Binary

attack-chip-atmega8a-binary

We can recover mcu Atmega8A Binary, please view below Chip Atmega8A features for your reference:

Features

· High-performance, Low-power AVR® 8-bit Microcontroller

· Advanced RISC Architecture

– 130 Powerful Instructions – Most Single-clock Cycle Execution

– 32 x 8 General Purpose Working Registers when Attack Chip

– Fully Static Operation

– Up to 16 MIPS Throughput at 16 MHz

– On-chip 2-cycle Multiplier

 

High Endurance Non-volatile Memory segments

 

– 8K Bytes of In-System Self-programmable Flash program memory after Attack Chip

– 512 Bytes EEPROM

– 1K Byte Internal SRAM

– Write/Erase Cycles: 10,000 Flash/100,000 EEPROM

– Data retention: 20 years at 85°C/100 years at 25°C(1)

– Optional Boot Code Section with Independent Lock Bits

· In-System Programming by On-chip Boot Program

· True Read-While-Write Operation if Attack Chip

 

8-bit with 8K Bytes In-System Programmable

– Programming Lock for Software Security

Peripheral Features

– Two 8-bit Timer/Counters with Separate Prescaler, one Compare Mode

– One 16-bit Timer/Counter with Separate Prescaler, Compare Mode, and Capture Mode

– Real Time Counter with Separate Oscillator after Attack Chip

– Three PWM Channels

– 8-channel ADC in TQFP and QFN/MLF package

· Eight Channels 10-bit Accuracy

– 6-channel ADC in PDIP package

· Six Channels 10-bit Accuracy

– Byte-oriented Two-wire Serial Interface

– Programmable Serial USART

– Master/Slave SPI Serial Interface before Attack Chip

– Programmable Watchdog Timer with Separate On-chip Oscillator

– On-chip Analog Comparator

Special Microcontroller Features

– Power-on Reset and Programmable Brown-out Detection

– Internal Calibrated RC Oscillator

– External and Internal Interrupt Sources for Attack Chip

– Five Sleep Modes: Idle, ADC Noise Reduction, Power-save, Power-down, and Standby

I/O and Packages

– 23 Programmable I/O Lines

– 28-lead PDIP, 32-lead TQFP, and 32-pad QFN/MLF

Operating Voltages

– 2.7 – 5.5V for ATmega8A after Attack Chip

Speed Grades

– 0 – 16 MHz for ATmega8A

Power Consumption at 4 Mhz, 3V, 25°C

 

Flash ATmega8A

– Active: 3.6 mA

– Idle Mode: 1.0 mA

– Power-down Mode: 0.5 µA

PostHeaderIcon Attack Microcontroller PIC16C63A Heximal

We can unlock Microcontroller PIC16C63A Heximal, please view below Microcontroller PIC16C63A features for your reference:

 

Devices included in this data sheet:

PIC16C7X Peripheral Features:

· Timer0: 8-bit timer/counter with 8-bit prescaler when Attack Microcontroller

· Timer1: 16-bit timer/counter with prescaler can be incremented during SLEEP via external

PIC16CXX Microcontroller Core Features:

· High performance RISC CPU

· Only 35 single word instructions to learn

· All single cycle instructions except for program branches which are two cycle

· Operating speed: DC – 20 MHz clock input after Attack Microcontroller

DC – 200 ns instruction cycle

· 4 K x 14 words of Program Memory,

192 x 8 bytes of Data Memory (RAM)

· Interrupt capability

· Eight-level deep hardware stack

· Direct, indirect and relative addressing modes

· Power-on Reset (POR)

· Power-up Timer (PWRT) and Oscillator Start-up Timer (OST) if Attack Microcontroller

· Watchdog Timer (WDT) with its own on-chip RC oscillator for reliable operation

· Programmable code protection

· Power-saving SLEEP mode crystal/clock

· Timer2: 8-bit timer/counter with 8-bit period register, prescaler and postscaler

· Capture, Compare, PWM modules

– Capture is 16-bit, max. resolution is 200 ns after Attack Microcontroller

– Compare is 16-bit, max. resolution is 200 ns

– PWM max. resolution is 10-bit

· 8-bit multichannel Analog-to-Digital converter

· Synchronous Serial Port (SSP) with SPITM and I2CTM

· Universal Synchronous Asynchronous Receiver Transmitter (USART/SCI)

· Parallel Slave Port (PSP), 8-bits wide with external RD, WR and CS controls when Attack Microcontroller

· Brown-out detection circuitry for Brown-out Reset (BOR) Pin Diagram: PDIP, Windowed CERDIP

· Selectable oscillator options

· Low power, high speed CMOS EPROM technology

· Wide operating voltage range: 2.5V to 5.5V

· High Sink/Source Current 25/25 mA

· Commercial, Industrial and Automotive temperature ranges

· Low power consumption:

– < 5 mA @ 5V, 4 MHz for Attack Microcontroller

– 23 mA typical @ 3V, 32 kHz

– < 1.2 mA typical standby current

PostHeaderIcon Attack MCU PIC16CE625 Program

attack-mcu-pic16ce625-program

We can recover MCU PIC16CE625 Program, please view below MCU PIC16CE625 features for your reference:

Interrupt capability 16 special function hardware registers

8-level deep hardware stack

Direct, Indirect and Relative addressing modes when Attack MCU

 

Peripheral Features:

· 13 I/O pins with individual direction control

· High current sink/source for direct LED drive

· Analog comparator module with:

– Two analog comparators

– Programmable on-chip voltage reference (VREF) module after Attack MCU

– Programmable input multiplexing from device inputs and internal voltage reference

– Comparator outputs can be output signals

· Timer0: 8-bit timer/counter with 8-bit programmable prescaler

Special Microcontroller Features:

· In-Circuit Serial Programming (ICSP™) (via two pins)

· Power-on Reset (POR)

· Power-up Timer (PWRT) and Oscillator Start-up Timer (OST)

· Brown-out Reset

· Watchdog Timer (WDT) with its own on-chip RC oscillator for reliable operation if Attack MCU

 

Special Microcontroller Features (cont’d)

· 1,000,000 erase/write cycle EEPROM data memory

· EEPROM data retention > 40 years

· Programmable code protection

· Power saving SLEEP mode

· Selectable oscillator options

· Four user programmable ID locations when Attack MCU

CMOS Technology:

· Low-power, high-speed CMOS EPROM/EEPROM technology

· Fully static design

· Wide operating voltage range – 2.5V to 5.5V

· Commercial, industrial and extended temperature range

· Low power consumption

– < 2.0 mA @ 5.0V, 4.0 MHz

– 15 mA typical @ 3.0V, 32 kHz

– < 1.0 mA typical standby current @ 3.0V when Attack MCU