Chips
All kinds of chips, from memory to microprocessors and cryptographs. For all needs. With and without contacts. Several chips in the same card. And of course EMV.
Products / Chips / EMV
MODELS:
SAETA EMV DUAL INTERFACE: PAYPASS
SAETA EMV (VISA DDA 1.4) V1
Fraud is still the main reason for chip migration all around the world. Despite the fact that value added services are becoming more important for market, minimizing losses from fraud remains the key for card issuers.
This migration is World Wide based mainly on EMV standard.
SAETA EMV has been specifically tailored to address this need with two things in mind: security plus low cost. Based on advanced authentication technology allows safe payment transactions while remaining cost efficient.
With SAETA EMV, financial institutions benefit from the highest level of security without compromising on costs or product performance
ROM
VISA VSDC 1.4.1- General Purpose Application
Specification
- Visa Integrated Circuit Card
- Application Specification 1.4.1 June 2008 + VIS 1.4.1 Updates List V1.0 March 2009
- EMV 2000 V4.1
H/W
- Chip Type SLE66CX80PE
- Chip Technology 0.22µm
- Chip supplier INFINEON
- Hardware crypto SDA ( DES )µ
- ACE RSA/EC max. 2048 bits
- CMOS technology 0,22µ
- Internal clock frequency max. 33Mhz
Protocol
- Contact ISO 7816 T=0
- Transfer rate 9.600 bit/s
OS
- SAETA EMV v.9.0
Memory Sizes
- ROM 96 Kb
- EEPROM 8 Kb
- RAM 4Kb
Payment Applications
- SDA, DDA, CDA
- PSE
Cryptographic Features
- DES/3DES yes
- RSA yes
- SHA-1
Electronic Characteristics
- Supply Voltage range 3V and 5V
- Frequency Ranges(External clock) 1-5Mhz
SAETA EMV (VISA SDA 1.4) V2
Fraud is still the main reason for chip migration all around the world. Despite the fact that value added services are becoming more important for market, minimizing losses from fraud remains the key for card issuers.
This migration is World Wide based mainly on EMV standard.
SAETA EMV has been specifically tailored to address this need with two things in mind: security plus low cost. Based on advanced authentication technology allows safe payment transactions while remaining cost efficient.
With SAETA EMV, financial institutions benefit from the highest level of security without compromising on costs or product performance
ROM
- VISA VSDC 1.4.1
- General Purpose Application
Specification
- Visa Integrated Circuit Card
- Application Specification 1.4.0 October 2001 + VIS1.4.0. Corrections September 2005.
- EMV 2000 V4.1
H/W
- Chip Type SLE66C84PE
- Chip Technology 0.22 µm
- Chip supplier INFINEON
- Hardware crypto SDA
- CMOS technology 0,22µ
- Internal clock frequency 1-33Mhz
Protocol
- Contact ISO 7816 T=0
- Transfer rate 9.600 bit/s
OS
- SAETA EMV v.5.0
Memory Sizes
- ROM 68 Kb
- EEPROM 8 Kb
- RAM 2Kb
Cryptographic Features
- DES/3DES yes
- RSA no
Electronic Characteristics
- Supply Voltage range 3V and 5V
- Frequency Ranges(External clock) 1-5Mhz
SAETA EMV (MChip 4 DDA) V1
Fraud is still the main reason for chip migration all around the world. Despite the fact that value added services are becoming more important for market, minimizing losses from fraud remains the key for card issuers.
This migration is World Wide based mainly on EMV standard.
SAETA EMV has been specifically tailored to address this need with two things in mind: security plus low cost. Based on advanced authentication technology allows safe payment transactions while remaining cost efficient.
With SAETA EMV, financial institutions benefit from the highest level of security without compromising on costs or product performance
ROM
- MasterCard M/Chip 4 Select.
- General Purpose Application
Specification
- M/Chip 4 Card Applications
- Specification for Debit and Credit v1.0
- EMV 2000 V4.1
H/W
- Chip Type SLE66CX80PE
- Chip Technology 0.22µm
- Chip supplier INFINEON
- Hardware crypto SDA ( DES )µ
- ACE RSA/EC max. 2048 bits
- CMOS technology 0,22µ
- Internal clock frequency max. 33Mhz
Protocol
- Contact ISO 7816 T=0
- Transfer rate 9.600 bit/s
OS
- SAETA EMV v.7.0
Memory Sizes
- ROM 96 Kb
- EEPROM 8 Kb
- RAM 4Kb
Payment Applications
- SDA, DDA, CDA
- PSE
Cryptographic Features
- DES/3DES yes
- RSA yes
- SHA-1
Electronic Characteristics
- Supply Voltage range 3V and 5V
- Frequency Ranges(External clock) 1-5Mhz
SAETA EMV (MChip 4 SDA) V3
Fraud is still the main reason for chip migration all around the world. Despite the fact that value added services are becoming more important for market, minimizing losses from fraud remains the key for card issuers.
This migration is World Wide based mainly on EMV standard.
SAETA EMV has been specifically tailored to address this need with two things in mind: security plus low cost. Based on advanced authentication technology allows safe payment transactions while remaining cost efficient.
With SAETA EMV, financial institutions benefit from the highest level of security without compromising on costs or product performance
ROM
- MasterCard M/Chip 4 Lite.
- General Purpose Application.
Specification
- M/Chip 4 Card Applications.
- Specification for Debit and Credit v1.0.
- EMV 2000 V4.1.
H/W
- Chip Type SLE66C86PE.
- Chip Technology 0.22 µm.
- Chip supplier INFINEON.
- Hardware crypto SDA
- CMOS technology 0,22µ.
- Internal clock frequency max. 33Mhz
Protocol
- Contact ISO 7816 T=0
- Transfer rate 9.600 bit/s.
OS
- SAETA EMV v.10.0.
Memory Sizes
- ROM 68 Kb
- EEPROM 8 Kb
- RAM 2Kb
Cryptographic Features
- DES/3DES yes
- RSA no
Electronic Characteristics
- Supply Voltage: Range 3V and 5V
- Frequency Ranges(External clock) 1-5Mhz
SAETA PayPass MChip 4 EMV DDA Dual
This EMV card is a combined transport and banking applications card.
Transport applications are used for payment of public transport as part of a secure contactless system including a central system, reloading equipment and validators:
All parts of the system must be designed with some of the major goals of a secure contactless system in mind, particularly the speed and security of transactions.
MasterCard PayPass technology enables fast, easy and globally accepted payments through the use of contactless chip technology. The PayPass – Mchip 4 application is designed specifically for authorization networks that currently support chip card authorizations for credit or debit applications.
MasterCard PayPass Mag Stripe allows contactless chip payments to use authorization networks (proprietary and shared) that presently support magnetic stripe authorizations for credit or debit applications.
Private Pay is a private payment scheme Based on EMV Entry Point.
It support the following applications:
- Calypso v2 application with Electronic Purse.
- Universal Transaction application
- MasterCard M/Chip 4 application
- MasterCard PayPass M/Chip 4 application
- MasterCard PayPass Mag Stripe application
- Support MChip 4 Lite (SDA) as MChip 4 Select (DDA)
- Private Pay application
It is a Dual Contact & Contactless smartcard that
- Complies with Contact Protocol ISO 7816-2
- Complies with ISO 7816-4 and EMV (application)
- Complies with MasterCard PayPass ISO/IEC 14443
- Complies with innovatron protocol (contactless)
- Allows coding of the ENV 1545 transport data structures
- Ensures a high security of transactions
Specification supported
- Proprietary (Spanish network) electronic purse specifications
- ISO/IEC 1545
- ISO/IEC 7816 1-2-3-4
- ISO/IEC 14443 Type B and B’ (innovatron)
Cryptographic Features
- DES-X, DES3, ISO 9797
- Enhanced NESCRYPT crypto-processor for public key criptography
Hardware Features
- Chip Type ST23YR
- Chip Technology 0.13 µm
- Hardware crypto SDA
- RF Interface
- CPU clock frequency up to 29 MHz
- External clock frequency up to 10 MHz
Memory Sizes
- ROM 230 Kbytes
- EEPROM 18 Kbytes
- RAM 4Kbytes
- NESCRYPT RAM 2Kbytes
Electrical Characteristics
- Supply Voltage Range 3V and 5V
- The card works in contactless operations at 13.56MHz
Protocol
- Contact ISO 7816 T=0
- RF frame up to 512 bytes
- RFUART (RF universal asynchronous receiver transmitter) up to 848 Kbits/s
- Transfer rate in contactless 106Kbps
- Contactless ISO 14443 Type B
