NFC-A (Type A)
The NFC communication technology based on ISO 14443 Type A, using 100% ASK modulation and Modified Miller coding. NFC-A is the most widely deployed NFC protocol, used by NTAG, MIFARE, and most NFC Forum Type 2/4 tags.
NFC-A (Type A)
NFC-A is the NFC communication technology based on ISO 14443 Type A signaling. It uses 100% Amplitude Shift Keying (ASK) modulation for the reader-to-tag direction and Passive tag response technique varying load impedance" data-category="Communication">load modulation with a subcarrier for the tag-to-reader response. NFC-A is the most widely deployed NFC protocol in the world, underpinning the entire NTAG product line, MIFARE family, and the majority of NFC Forum Type 2 and Type 4 tags.
Modulation and Encoding
The NFC-A air interface uses distinct modulation schemes for each communication direction:
Reader to tag (downlink): - 100% encoding data on 13.56 MHz carrier" data-category="Communication">ASK modulation: The carrier is fully switched on and off to represent data. This produces strong, easily detectable signal edges but momentarily interrupts power delivery to the tag during off periods. - Modified Miller encoding: Bit values are represented by the position of a pause within a bit period. A logic 1 is encoded as a pause in the middle of the bit period; a logic 0 is encoded differently depending on the preceding bit.
Tag to reader (uplink): - Load modulation with subcarrier at 847.5 kHz (fc/16). The tag switches a load across its antenna at the subcarrier frequency, creating sidebands around 13.56 MHz that the reader demodulates. - Manchester encoding with OOK subcarrier modulation.
Data Rates
The base data rate for NFC-A is 106 kbps (fc/128). Higher data rates of 212, 424, and 848 kbps are defined by ISO 14443-4 and supported by more advanced chips like MIFARE DESFire EV3. The negotiation of higher data rates occurs during the protocol activation sequence.
Anti-Collision
NFC-A uses a deterministic bit-level anti-collision algorithm. The reader transmits an ANTICOLLISION command, and tags respond with their UID. When collisions occur (multiple tags responding simultaneously), the reader identifies the bit position of the collision and selectively queries tags to isolate each one. This process guarantees that every tag in the field will eventually be identified, unlike the probabilistic approach used by NFC-B.
Chip Compatibility
Virtually all NXP consumer NFC chips use NFC-A: NTAG 213, NTAG 215, NTAG 216, NTAG 424 DNA, MIFARE Ultralight EV1, and the entire MIFARE DESFire family. STMicroelectronics ST25TA also uses NFC-A. This dominance means NFC-A support is mandatory for any NFC reader or NFC-enabled device.
Related Terms
Related Content
NFC Tag Types Explained
Getting Started…(JIS X6319-4) ISO 14443-4 A/B iso-15693 Air interface nfc-a nfc-a NFC-F NFC-A / nfc-b nfc-v Memory (typical) 96 B…
NFC vs RFID: Detailed Comparison
Getting Started…encoding iso-14443 HF / NFC Proximity smart cards (NFC-A, NFC-B) iso-15693 HF / NFC Vicinity cards (ISO 15693 = NFC…
Android NFC Programming Guide
Programming…ndef.writeNdefMessage(message) ndef.close() } For nfc-a (Type 2) tags like NTAG, the Ndef tech handles formatting…
iOS Core NFC Programming Guide
Programming…Matrix Tag Type Protocol iOS Support Read Write Type 2 ( nfc-a ) ISO 14443-3A iOS 13+ Yes Yes (iOS 13+) Type 4A ( nfc-a )…
NFC with Arduino and Raspberry Pi
Programming…is the recommended choice: it supports all four major nfc-a and nfc-b tag types, has mature libraries for both Arduino…
NFC Reader Modules Compared
Hardware…for Arduino, Python ( nfcpy ), Raspberry Pi - Supports nfc-a , nfc-b , nfc-f , iso-15693 , peer-to-peer ( nfcip-1 ) -…
NFC in Public Transit
Industry…for Tokyo station volumes. Most Western systems use NFC-A ( ISO 14443-4 ) which achieves sufficient gate throughput…
NFC in Automotive
Industry…18013-5 defines the mobile Driver's Licence (mDL) using NFC-A (ISO 14443-4) as one of three engagement transports (NFC,…
자주 묻는 질문
The NFC glossary is a comprehensive reference of technical terms, acronyms, and concepts used in Near Field Communication technology. It is designed for developers, product managers, and engineers who work with NFC and need clear definitions of terms like NDEF, APDU, anti-collision, and ISO 14443.
Each glossary term is cross-referenced with related NFC chips, standards, and other terms. For example, the term 'AES-128' links to chips that support AES encryption (NTAG 424 DNA, DESFire EV2/EV3), and the term 'ISO 14443' links to all chips compliant with that standard.
Yes. NFCFYI provides glossary definitions in 15 languages including English, Korean, Japanese, Chinese, Spanish, Portuguese, Hindi, Arabic, French, Russian, German, Turkish, Vietnamese, Indonesian, and Thai. Use the language selector in the header to switch languages.