Abbreviation | Number | EPC Memory | User Memory | TID Prefix | TID Memory |
Higss 9 | Alien Higgs 9 | 96/496-bit | Up to 688-bit | – | 48 bits of serialized TID with 32-bit serial number |
Higgs 4 | Alien Higgs 4 | 128-bit | 128-bit | 64 bits of serialized TID with 32-bit serial number | |
M4D | Impinj Monza 4D | 128-bit | 32-bit | E280 1100 | 96 bits of serialized TID with 48-bit serial number |
M4i | Impinj Monza 4i | 256-bit | 480-bit | E280 1114 | 96 bits of serialized TID with 48-bit serial number |
M4QT | Impinj Monza 4QT | 128-bit | 512-bit | E280 1105 | 96 bits of serialized TID with 48-bit serial number |
R6-B | Impinj Monza R6-B | 96-bit | – | E280 1171 | 96 bits of serialized TID with 48-bit serial number |
R6 | Impinj Monza R6 | 96-bit | – | – | 96 bits of serialized TID with 48-bit serial number |
R6-A | Impinj Monza R6-A | 96-bit | – | – | |
R6-P | Impinj Monza R6P | 96/128-bit | 64/32-bit | E280 1170 | 96 bits of serialized TID with 48-bit serial number |
M730 | Impinj Monza M730 | 128-bit | – | E280 1191 | 96 bits of serialized TID with 48-bit serial number |
M750 | Impinj Monza M750 | 96-bit | 32-bit | E280 1190 | 96 bits of serialized TID with 48-bit serial number |
M770 | Impinj Monza M770 | ||||
M4E | Impinj Monza 4E | Up to 496-bit | 128-bit | – | 96 bits of serialized TID with 48-bit serial number |
X-2K | Impinj Monza X-2K Dura | 128-bit | 2176-bit | – | 96 bits of serialized TID |
X-8K | Impinj Monza X-8K Dura | 128-bit | 8192-bit | – | 96 bits of serialized TID |
im | NXP im | 256-bit | 512-bit | E280 680A | 96 bits of serialized TID with 48-bit serial number |
M5 | NXP UCODE 5 | 128-bit | 32-bit | E280 1102 | 96 bits of serialized TID with 48-bit serial number |
R6 | NXP UCODE 6 | 96-bit | – | E280 1160 | 96 bits of serialized TID with 48-bit serial number |
U7 | NXP UCODE 7 | 128-bit | – | E280 6810 | 96 bits of serialized TID with 48-bit serial number |
U7XM+ | NXP UCODE 7+ | 448-bit | 2K-bit | E280 6D92 | 96 bits of serialized TID with 48-bit serial number |
U7XM-1k | NXP UCODE 7XM | 448-bit | 1K-bit | E280 6D12 | 96 bits of serialized TID with 48-bit serial number |
U7XM-2k | NXP UCODE 7XM | 448-bit | 2K-bit | E280 6F12 | 96 bits of serialized TID with 48-bit serial number |
U8 | NXP UCODE 8 | 128-bit | – | E280 6894 | 96 bits of serialized TID with 48-bit serial number |
U9 | NXP UCODE 9 | 96-bit | – | 96 bits of serialized TID with 48-bit serial number | |
UDNA | NXP UCODE DNA | 224-bit | 3K-bit | E2C0 6892 | 96 bits of serialized TID with 48-bit serial number |
UDNA C | NXP UCODE DNA City | 224-bit | 1K-bit | – | 96 bits of serialized TID |
UDNA T | NXP UCODE DNA Track | 448-bit | 256-bit | 96 bits of serialized TID | |
I2C | NXP UCODE I2C | 160-bit | 3328-bit | 96 bits of serialized TID with 48-bit serial number | |
G2iM | NXP UCODE G2iM | 256-bit | 320/640-bit | E200 680A | 96 bits of serialized TID with 48-bit serial number |
G2iM+ | NXP UCODE G2iM+ | 448-bit | 512-bit | ||
G2iL | NXP UCODE G2il | 128-bit | – | E200 6806 | 64 bits of serialized TID with 32-bit serial number |
The most commonly used types of chips (IC) in NFC technology
Abbreviation | Number | Standard | User Memory |
NTAG 424 DNA | NXP NTAG 424 DNA TagTamper | ISO/IEC 14443-A NFC Forum T4T | 416-byte |
NTAG 424 DNA | NXP NTAG 424 DNA | ISO/IEC 14443-A NFC Forum T4T | 416-byte |
NTAG 213 | NXP NTAG 213 TagTamper | ISO/IEC 14443A1-3 NFC Forum T2T | 114-byte |
NTAG 213 | NXP NTAG 213 | ISO/IEC 14443A1-3 NFC Forum T2T | 114-byte |
NTAG 215 | NXP NTAG 215 | ISO/IEC 14443A1-3 NFC Forum T2T | 504-byte |
NTAG 216 | NXP NTAG 216 | ISO/IEC 14443A1-3 NFC Forum T2T | 888-byte |
NTAG 210 | NXP NTAG 210 | ISO/IEC 14443A1-3 NFC Forum T2T | 48-byte |
NTAG 212 | NXP NTAG 212 | ISO/IEC 14443A1-3 NFC Forum T2T | 128-byte |
NTAG 210µ | NXP NTAG 210 Micro | ISO/IEC 14443A1-3 NFC Forum T2T | 48 |
In most cases and applications, standard ICs with low memory can be used. More specific sectors, such as the automotive, pharmaceutical industry and applications with security needs, require chips with more memory.
As you have seen, there are many varieties of integrated circuits (ICs) that offer a world of opportunities.