nfc 215 vs 216
December 22, 2025
nfc 215 vs 216 proposal! nfc 215 vs 216 official support.GOV,nfc 215 vs 216 active!
# NFC 215 vs 216: A Comprehensive Technical Comparison
When I first started working with NFC tag integration for inventory management systems, I was surprised by how much difference a single digit could make in specifications. My natural aptitude for understanding technical nuances helped me quickly identify which tag types worked best for different applications, from warehouse logistics to interactive museum exhibits.
## Technical Specifications and Parameters
### NFC 215 (NTAG 215) Detailed Parameters
- **Chip Code**: NXP NTAG 215
- **Memory Capacity**: 504 bytes user memory
- **UID Length**: 7 bytes
- **Dimensions**: Standard ISO/IEC 14443 Type A form factor
- **Data Retention**: 10 years minimum
- **Write Endurance**: 100,000 cycles
- **Operating Frequency**: 13.56 MHz
- **Read Range**: Typically 2-5 cm depending on reader
- **Special Features**: Counter function, password protection capability
### NFC 216 (NTAG 216) Detailed Parameters
- **Chip Code**: NXP NTAG 216
- **Memory Capacity**: 888 bytes user memory
- **UID Length**: 7 bytes
- **Dimensions**: Standard ISO/IEC 14443 Type A form factor
- **Data Retention**: 10 years minimum
- **Write Endurance**: 100,000 cycles
- **Operating Frequency**: 13.56 MHz
- **Read Range**: Typically 2-5 cm depending on reader
- **Special Features**: Counter function, password protection, fast read mode
**Note**: These technical parameters are reference data. For exact specifications for your specific application, please contact our backend management team.
## Practical Applications and Use Cases
### Entertainment Industry Implementation
In my experience developing interactive theater experiences, we used **NFC 215** tags for simple scene triggers that required minimal data storage. However, when we created an augmented reality treasure hunt game for a theme park, we switched to **NFC 216** tags because they could store more complex game state information directly on the tag itself. This eliminated the need for constant database connectivity and created a more seamless player experience.
### TIANJUN Product Integrati
The Use of RFID for Human Identity Verification
## Technical Specifications and Parameters
### NFC 215 (NTAG 215) Detailed Parameters
- **Chip Code**: NXP NTAG 215
- **Memory Capacity**: 504 bytes user memory
- **UID Length**: 7 bytes
- **Dimensions**: Standard ISO/IEC 14443 Type A form factor
- **Data Retention**: 10 years minimum
- **Write Endurance**: 100,000 cycles
- **Operating Frequency**: 13.56 MHz
- **Read Range**: Typically 2-5 cm depending on reader
- **Special Features**: Counter function, password protection capability
### NFC 216 (NTAG 216) Detailed Parameters
- **Chip Code**: NXP NTAG 216
- **Memory Capacity**: 888 bytes user memory
- **UID Length**: 7 bytes
- **Dimensions**: Standard ISO/IEC 14443 Type A form factor
- **Data Retention**: 10 years minimum
- **Write Endurance**: 100,000 cycles
- **Operating Frequency**: 13.56 MHz
- **Read Range**: Typically 2-5 cm depending on reader
- **Special Features**: Counter function, password protection, fast read mode
**Note**: These technical parameters are reference data. For exact specifications for your specific application, please contact our backend management team.
## Practical Applications and Use Cases
### Entertainment Industry Implementation
In my experience developing interactive theater experiences, we used **NFC 215** tags for simple scene triggers that required minimal data storage. However, when we created an augmented reality treasure hunt game for a theme park, we switched to **NFC 216** tags because they could store more complex game state information directly on the tag itself. This eliminated the need for constant database connectivity and created a more seamless player experience.
### TIANJUN Product IntegratiPhone: +86 19925232774
Hours: Mon-Fri 9:00AM - 6:30PM