Description

The AT88SC0104C member of the CryptoMemory® family is a high-performance secure memory providing 1 Kbit of user memory with advanced security and cryptographic features built in. The user memory is divided into four 32-byte zones, each of which may be individually set with different security access rights or effectively combined together to provide space for 1 to 4 data files.

Features

• One of a Family of 9 Devices with User Memories from 1 Kbit to 256-Kbit

• 1-Kbit (128-byte) EEPROM User Memory

⎯ Four 32 byte (256 bit) Zones

⎯ Self-timed Write Cycle

⎯ Single Byte or 16-byte Page Write Mode

⎯ Programmable Access Rights for Each Zone

• 2-Kbit Configuration Zone

⎯ 37-byte OTP Area for User-defined Codes

⎯ 160-byte Area for User-defined Keys and Passwords

• High Security Features

⎯ 64-bit Mutual Authentication Protocol (Under License of ELVA)

⎯ Encrypted Checksum

⎯ Stream Encryption

⎯ Four Key Sets for Authentication and Encryption

⎯ Eight Sets of Two 24-bit Passwords

⎯ Anti-tearing Function

⎯ Voltage and Frequency Monitor

• Smart Card Features

⎯ ISO 7816 Class A (5V) or Class B (3V) Operation

⎯ ISO 7816-3 Asynchronous T = 0 Protocol (Gemplus® Patent) *

⎯ Multiple Zones, Key Sets and Passwords for Multi-application Use

⎯ Synchronous 2-wire Serial Interface for Faster Device Initialization *

⎯ Programmable 8-byte Answer-To-Reset Register

⎯ ISO 7816-2 Compliant Modules

• Embedded Application Features

⎯ Low Voltage Operation: 2.7V to 5.5V

⎯ Secure Nonvolatile Storage for Sensitive System or User Information

⎯ 2-wire Serial Interface

⎯ 1.0 MHz Compatibility for Fast Operation

⎯ Standard 8-lead Plastic Packages, Green Compliant (exceeds RoHS)

⎯ Same Pinout as 2-wire Serial EEPROM’s

• High Reliability

⎯ Endurance: 100,000 Cycles

⎯ Data Retention: 10 years

⎯ ESD Protection: 4,000V min

Smart Card Applications

The AT88SC0104C provides high security, low cost, and ease of implementation without the need for a microprocessor operating system. The embedded cryptographic engine provides for dynamic and symmetric mutual authentication between the device and host, as well as performing stream encryption for all data and passwords exchanged between the device and host. Up to four unique key sets may be used for these operations. The AT88SC0104C offers the ability to communicate with virtually any smart card reader using the asynchronous T = 0 protocol (Gemplus Patent) defined in ISO 7816-3.

Embedded Applications

Through dynamic and symmetric mutual authentication, data encryption, and the use of encrypted checksums, the AT88SC0104C provides a secure place for storage of sensitive information within a system. With its tamper detection circuits, this information remains safe even under attack. A 2-wire serial interface running at 1.0 MHz is used for fast and efficient communications with up to 15 devices that may be individually addressed. The AT88SC0104C is available in industry standard 8-lead packages with the same familiar pinout as 2-wire serial EEPROMs.

If you need to read the code from the protected chip AT88SC0104C. we can help you to crack the MCU and extract the code from AT88SC0104C succesfully. Welcome to contact us by Email or Skype.

Email: hetelltech@gmail.com

Skype:hetell0755

The main applications of DSP are audio signal processing, audio compression, digital image processing, video compression, speech processing, speech recognition, digital communications, RADAR, SONAR, seismology, and biomedicine.

DSP is often implemented using specialised microprocessors such as the DSP56000, the TMS320, or the SHARC.

Following are the DSP Chip decryption that we are able to provide secure services, if you want to more details about IC Crack, welcome to contact us.

dsPIC DSP Code Extraction
dsPIC30FXXSeries
dsPIC30F1010# dsPIC30F2010 dsPIC30F2011 dsPIC30F2012 dsPIC30F2020
dsPIC30F2023 dsPIC30F3010 dsPIC30F3011 dsPIC30F3012 dsPIC30F3013
dsPIC30F3014 dsPIC30F4011 dsPIC30F4012 dsPIC30F4013 dsPIC30F5011
dsPIC30F5013 dsPIC30F5015 dsPIC30F5016 dsPIC30F6010 dsPIC30F6010A
dsPIC30F6011 dsPIC30F6011A dsPIC30F6012 dsPIC30F6012A dsPIC30F6013
dsPIC30F6013A dsPIC30F6014 dsPIC30F6014A dsPIC30F6015
dsPIC33FXXSeries
dsPIC33FJ128GP206 dsPIC33FJ128GP306 dsPIC33FJ128GP310
dsPIC33FJ128GP706 dsPIC33FJ128GP708 dsPIC33FJ128GP710 dsPIC33FJ128MC506
dsPIC33FJ128MC510 dsPIC33FJ128MC706 dsPIC33FJ128MC708
dsPIC33FJ128MC710 dsPIC33FJ12GP202 dsPIC33FJ12MC201
dsPIC33FJ12MC202 dsPIC33FJ16GP304 dsPIC33FJ16MC304
dsPIC33FJ256GP506 dsPIC33FJ256GP510 dsPIC33FJ256GP710 dsPIC33FJ256MC510
dsPIC33FJ256MC710 dsPIC33FJ32GP202 dsPIC33FJ32GP204
dsPIC33FJ32MC202 dsPIC33FJ32MC204 dsPIC33FJ64GP306
dsPIC33FJ64GP206 dsPIC33FJ64GP310 dsPIC33FJ64GP706 dsPIC33FJ64GP708
dsPIC33FJ64GP710 dsPIC33FJ64MC506 dsPIC33FJ64MC508
dsPIC33FJ64MC510 dsPIC33FJ64MC706 dsPIC33FJ64MC710
TMS320 DSP Chip Decryption?
TMS320F206 TMS320F243 TMS320F240 TMS320F241
TMS320LF2407 TMS320LF2403A TMS320LF2402A TMS320LF2407A
TMS320LF2406A TMS320LF2401A TMS320LF2406 TMS320LF2402

Lattice CPLD/SPLD Chip decryption is difficult, and many electronics engineers feel confused. To this end, The MCU Breaking Institute organized a number of technical engineers to develop CPLD/SPLD Chip decryption. At present, we have a major breakthough in Lattice IC decryption and can provide safe and reliable CPLD, FPGA, ASIC and GAL Code Extraction.

LATTICE CPLD Chip decryption
Most Versatile Non-Volatile PLD   MachXO
LCMXO256   LCMXO640   LCMXO1200 LCMXO2280

Ultra Low Power CPLD    ispMACH 4000ZE
4032ZE   4064ZE   4128ZE   4256ZE

Mainstream CPLD   ispMACH 4000V/B/C/Z
4032C  4064C   4128C   4256C   4384C   4512C
4032B   4064B   4128B   4256B   4384B   4512B
4032V   4064V   4128V   4256V   4384V   4512V

Automotive CPLD    LA-ispMACH 4000V/Z
4032V   4064V   4128V
4032Z   4064Z   4128Z

LATTICE SPLD Chip decryption
In-System Programmable GAL    ispGAL
ispGAL22V10AC   ispGAL22V10AB   ispGAL22V10AV
ispGAL22LV10   ispGAL22V10

Simple PLD   GAL
GAL16LV8   GAL22LV10   GAL16V8   GAL16V8Z
GAL18V10   GAL20RA10   GAL20V8   GAL22V10
GAL26CV12   GAL26V12