Tag Sensitivity
HardwareMinimum RF power a tag IC needs to activate, wake up, and respond to a reader, measured in dBm (typically -18 to -24 dBm).
Tag Sensitivity
Tag sensitivity is the minimum RF power level, measured in dBm at the tag antenna input, that a Tag IC requires to activate, demodulate the reader's commands, and generate a backscatter response. It is the single most important specification determining the maximum read range of a passive RFID system.
Understanding the Metric
Tag sensitivity is expressed as a negative dBm value -- the more negative, the more sensitive (better). A tag with -22 dBm sensitivity requires less power to wake up than one with -18 dBm, and will therefore achieve a longer read range given identical reader power and antenna configurations.
| IC Generation | Typical Sensitivity | Example IC |
|---|---|---|
| Legacy (2010-era) | -15 to -17 dBm | Impinj Monza 4 |
| Modern (2018-era) | -20 to -22 dBm | NXP UCODE 8 |
| Current (2023+) | -22 to -24 dBm | Impinj M800 |
Each 3 dB improvement in sensitivity doubles the power budget, translating to approximately a 40% increase in read range under free-space conditions.
Factors Affecting Effective Sensitivity
The datasheet sensitivity value assumes ideal conditions. Real-world performance is degraded by:
- Material detuning -- metals, liquids, and the human body shift the tag antenna's resonant frequency away from its design centre, reducing energy capture.
- Orientation sensitivity -- misalignment between reader and tag antenna polarisation planes causes polarisation loss.
- Inlay design -- the antenna's efficiency and matching to the IC directly affect how much received RF energy reaches the chip.
- Temperature -- IC sensitivity can vary 1-3 dB across the -40 C to +85 C operating range.
Link Budget Relationship
Tag sensitivity is one term in the link budget equation. The forward link (reader to tag) is almost always the range-limiting direction for passive systems because the tag must receive enough power to activate its IC. The return link (tag to reader) is typically 10-15 dB more favourable because the reader has a sensitive receiver with low noise figure.
See also: Link Budget | Read Range | Tag IC
Related Content
How to Choose an RFID Tag IC
Tag Selection…require specialty tags. Read range — Drives antenna size, tag sensitivity , and reader power. Use the Read Range Calculator . Memory…
Impinj Monza vs M700 vs M800
Tag Selection…Series Process node Older CMOS Advanced CMOS Advanced CMOS Tag sensitivity −17 to −20 dBm −20 to −21 dBm −21 to −22 dBm Die size…
RFID Antenna Placement Guide
Implementation…gain = narrower beam, longer range in that direction - Tag sensitivity : Worst-case threshold at which the tag's chip activates…
RFID Link Budget Calculation
Advanced Topics…absorption by liquids/metals, and near-field effects. Tag Sensitivity Tag sensitivity is the minimum power the tag IC needs to…
RFID in Commercial Laundry
Industry Verticals…Use the Link Budget Calculator to verify that the minimum tag sensitivity is achieved at the maximum possible tag distance and…
RFID for Pharmaceutical Serialization (DSCSA)
Industry Verticals…embedded in the printed label at the manufacturer. Target tag sensitivity: ≤ −18 dBm. - Foil-content cartons: Specialty inlay tested…
RFID Read Rate Troubleshooting
Troubleshooting…× loss per metre Minimise with short, low-loss cable Tag sensitivity Tag datasheet Should be ≤ −18 dBm for most applications…
よくある質問
The RFID glossary is a comprehensive reference of technical terms, acronyms, and concepts used in Radio-Frequency Identification technology. It is designed for engineers, system integrators, and project managers who work with RFID and need clear definitions of terms like EPC, backscatter, anti-collision, and ISO 18000.
Yes. RFIDFYI provides glossary definitions in 15 languages including English, Korean, Japanese, Chinese, Spanish, Portuguese, Hindi, Arabic, French, Russian, German, Turkish, Vietnamese, Indonesian, and Thai.