ST25TV02KNFC Type 5 / RFID tag IC with 2-Kbit EEPROM, product identification and protection | RFID, RF Access, Monitoring ICs | 5 | Active | ST25TV02K and ST25TV512 are NFC/RFID tag ICs with a tamper-proof feature, and specific modes to protect tag access, such as Untraceable mode.
These devices feature a digital signature used to prove the origin of the chip in cloning detection, embed a configurable EEPROM with 60-year data retention, and can be operated from a 13.56 MHz long-range RFID reader or an NFC phone.
The contactless interface is compatible with the ISO/IEC 15693 standard and NFC Forum Type 5 tag. |
ST25TV02KCNFC Type 5 / RFID tag IC with EEPROM with 2.5-Kbit, product identification and protection | RFID, RF Access, Monitoring ICs | 5 | Active | The ST25TV02KC and ST25TV512C devices are NFC/RFID tag ICs with an Augmented NDEF feature, a tamper detection interface, and specific modes to protect customer privacy.
The Augmented NDEF feature is a contextual automatic NDEF message service, allowing the tag to respond dynamic content without an explicit update of the EEPROM by the end-user.
The tamper detection interface is available on ST25TV02KC-T devices only. This interface is not available on ST25TV02KC‑A and ST25TV512C devices.
The ST25TV02KC and ST25TV512C devices hold a digital signature generated by TruST25 (a set of software and procedures) to prove the origin of the chip in cloning detection, embeds a configurable EEPROM with 60-year data retention, and can be operated from a 13.56 MHz long range RFID reader or an NFC phone.
The contactless interface is compliant with the ISO/IEC 15693 standard and NFC Forum Type 5 tag specification. |
| Evaluation Boards | 1 | Active | The ST25TV02KC-ASEAL is a ready-to-use demonstration board allowing the user to assess the features and capabilities of the ST25TV series NFC tags.
To demonstrate the tamper detect function the ST25TV02KC-ASEAL can be used in conjunction with ST25R-based readers or directly with smart-phones. |
ST25TV04K-PNFC Type 5 / RFID tag IC with 4-Kbit EEPROM and protection | RFID, RF Access, Monitoring ICs | 1 | Active | The ST25TV04K-P device is a NFC and RFID tags, with 4 Kbits of electrically erasable programmable memory (EEPROM). This devie acts as a contactless memory accessed through a RF link, following ISO/IEC 15693 or NFC forum type 5 recommendations, and powered by the received carrier electromagnetic wave.
The GPO pin of the ST25TV04K-P provides data informing the contact world about incoming events, like RF field detection, RF activity in progress or can be directly controller by an RF reader. An energy harvesting feature is also proposed when external conditions make it possible. |
ST25TV16KCNFC Type 5 / RFID tag IC with 16-Kbit EEPROM and protection | RFID, RF Access, Monitoring ICs | 1 | Active | The ST25TV16KC and ST25TV64KC devices are NFC and RFID tags, with, respectively, 16 and 64 Kbit of electrically erasable programmable memory (EEPROM). These devices act as a contactless memory accessed through an RF link, following ISO/IEC 15693 or NFC Forum Type 5 recommendations, and are powered by the received carrier electromagnetic wave. |
ST25TV512NFC Type 5 / RFID tag IC with 512-bit EEPROM, product identification and protection | RF and Wireless | 4 | Active | ST25TV02K and ST25TV512 are NFC/RFID tag ICs with a tamper-proof feature, and specific modes to protect tag access, such as Untraceable mode.
These devices feature a digital signature used to prove the origin of the chip in cloning detection, embed a configurable EEPROM with 60-year data retention, and can be operated from a 13.56 MHz long-range RFID reader or an NFC phone.
The contactless interface is compatible with the ISO/IEC 15693 standard and NFC Forum Type 5 tag. |
ST25TV512CNFC Type 5 / RFID tag IC with 512-bits EEPROM, product identification and protection | RFID, RF Access, Monitoring ICs | 2 | Active | The ST25TV02KC and ST25TV512C devices are NFC/RFID tag ICs with an Augmented NDEF feature, a tamper detection interface, and specific modes to protect customer privacy.
The Augmented NDEF feature is a contextual automatic NDEF message service, allowing the tag to respond dynamic content without an explicit update of the EEPROM by the end-user.
The tamper detection interface is available on ST25TV02KC-T devices only. This interface is not available on ST25TV02KC‑A and ST25TV512C devices.
The ST25TV02KC and ST25TV512C devices hold a digital signature generated by TruST25 (a set of software and procedures) to prove the origin of the chip in cloning detection, embeds a configurable EEPROM with 60-year data retention, and can be operated from a 13.56 MHz long range RFID reader or an NFC phone.
The contactless interface is compliant with the ISO/IEC 15693 standard and NFC Forum Type 5 tag specification. |
ST25TV64KNFC Type 5 / RFID tag IC with 64-Kbit EEPROM and protection | RFID, RF Access, Monitoring ICs | 1 | Unknown | The ST25TV16K and ST25TV64K devices are NFC and RFID tags, with, respectively, 16 and 64 Kbit of electrically erasable programmable memory (EEPROM). These devices act as a contactless memory accessed through an RF link, following ISO/IEC 15693 or NFC Forum Type 5 recommendations, and are powered by the received carrier electromagnetic wave. |
ST25TV64KCNFC Type 5 / RFID tag IC with 64-Kbit EEPROM and protection | RFID, RF Access, Monitoring ICs | 1 | Active | The ST25TV16KC and ST25TV64KC devices are NFC and RFID tags, with, respectively, 16 and 64 Kbit of electrically erasable programmable memory (EEPROM). These devices act as a contactless memory accessed through an RF link, following ISO/IEC 15693 or NFC Forum Type 5 recommendations, and are powered by the received carrier electromagnetic wave. |
ST26C31BCMOS quad 3-state differential line driver | Interface | 2 | Active | The ST26C31B is a quad differential line driver designed for digital data transmission over balanced lines and meets all the requirements of EIA standard RS-422 while retaining the low power characteristics of CMOS.
The ST26C31B accepts TTL or CMOS input levels and translates these to RS-422 output levels. This part uses special outputs circuitry common to all four drivers. All outputs are protected against damage due to electrostatic discharge by diode to VCCand ground. |
