Passive tags are the most cost-effective tags. Passive tags do not have their own power sources. They operate with the power from RFID readers. These are the cheapest tags and are the most commonly used. Most RFID systems are built using passive tags. They have a very wide range of applications in various sectors.
T92GT RFID Adhesive Vehicle Window Tag 110x40 mm (Tamper Proof Pro)
RFGate T92 Transparent UHF RFID Tag has a reinforced structure with a suitable and enhanced design. Complete your projects quickly and reliably with RFGATE, which is a premium UHF RFID tag.
Datasheet - RFGATE Transparent T92 UHF Vehicle Tag
Applications
Used in areas such as scale automation, vehicle fast-pass systems, parking systems, warehouse, and logistics.
Features
- RFGate is powered by the Impinj Monza 4QT chip, with a volume-focused structure.
- With the EPC Global Class1 Gen2 ISO 18000-6C protocol, it achieves the highest levels of reading and writing performance.
- Operates in the 860-960 MHz range.
- The RFGate T92 has EPC 128 bits, User 512 bits, and TID 48 bits memory, and can be read from 4 meters with the appropriate reader and antenna.
- Can be used on wood, plastic, glass, and cardboard surfaces.
- Designed with dimensions of 110 mm x 40 mm.
- Operates between -20°C and +80°C.
- Has a low-power operation principle for both reading and encoding.
Dear customers, the RFID tags you are reviewing have not been encoded. Encoding and other technical processes are your responsibility. Please pay attention to this when placing your order. For more detailed information, you can contact us.
| Specification |
Description |
| Protocol |
EPC Global Class1 Gen2 ISO 18000-6C |
| Operating Frequency |
860-960 MHz |
| Chip |
Monza 4QT |
| Memory |
EPC 128 bits, User 512 bits, TID 48 bits |
| Maximum Read Range |
4 Meters |
| Applicable Surface Areas |
Wood, plastic, glass, and cardboard |
| Tag Material |
Writable Paper Label (Thermal Transfer) |
| Dimensions |
110x40 mm |
| Weight |
< 1 gram |
| Operating Temperature |
-20°C to +80°C |
Advancements in Car Parking Systems: RFID & Number Plate Recognition
Car parking systems have significantly evolved, using technologies like number plate identification and RFID to improve vehicle management in urban areas.
Number Plate Identification System:
This system uses optical character recognition (OCR) to read vehicle number plates, enabling automatic access control for registered vehicles. It enhances security by verifying number plates against authorized vehicle databases.
RFID Car Parking System:
RFID technology offers hands-free vehicle identification via electromagnetic fields. It enables rapid vehicle recognition, reducing congestion and optimizing parking space usage. RFID systems improve efficiency by eliminating physical interaction and contribute to alleviating traffic and reducing pollution in crowded urban environments.
Advantages of Car Parking Systems:
These systems provide real-time data, allowing operators to monitor parking occupancy and adjust strategies accordingly. With features like cashless transactions, error-free operations, and convenience, they ensure a smoother parking experience. Traditional methods with manual ticketing and human supervision are replaced by automated systems, eliminating delays and reducing human errors.
Car Parking System Uses:
Urban areas worldwide are adopting these systems to enhance traffic flow and modernize infrastructure. In dense cities, they offer a glimpse into the future of smart cities, where connectivity is key. The systems provide real-time space updates via mobile apps, guide drivers to available spaces, and optimize resource allocation, allowing parking attendants to focus on complex issues. This also leads to improved revenue for municipalities and better urban planning.
Conclusion:
Car parking systems using number plate recognition and RFID are transforming urban mobility, enhancing efficiency, user experience, and environmental benefits. For cities aiming for a sustainable future, adopting these technologies is crucial.