Long reading distance for parking management.
Widely used for paking system, logistic fleet management, access control etc.
Supports the LED/buzzer reminder functions of passive/semi-passive tags.
Read and match the built-in password of the tag for controling access.
Offer a great value/performance ROI, especially suited for outdoor portal type reading applications.
Based on the IMPINJ E710 chip, supporting tags compliant with EPC CLASS1 G2 (ISO18000-6C).
Operating frequency: 860-960MHz (adjustable according to different national or regional requirements).
Works in either FHSS or fixed-frequency transmission modes.
Output power up to 33dBm (adjustable).
Built-in 8dbi circularly polarized antenna, typical reading distance >8 meters*.
Supports active, answer and other working modes with low-power design, powered by a single +9V source.
Supports interfaces such as RS232, RS485, Wiegand, GPIO, with optional TCPIP network interface.
Customizable functions with high-reliability design, suitable for demanding working environments.
DemoApp is in the folder of "\bin\x86\Release\UHFReader188demomain.exe"
Using a UHF (Ultra-High Frequency) integrated reader for parking management can be an effective solution for vehicle identification, access control, and overall parking system efficiency. Here's a general guide on implementing a UHF integrated reader for parking management:
Steps for Implementing UHF Integrated Reader for Parking Management:
1. Define Requirements:
Clearly outline your parking management system requirements. Identify the number of parking spaces, access control needs, and any additional features you want, such as real-time monitoring, automated billing, or integration with other systems.
2. Choose UHF Technology:
Select a UHF RFID technology that suits your needs. UHF RFID is commonly used for long-range identification and tracking of vehicles. Ensure that the chosen UHF system complies with relevant standards.
3. Select UHF Integrated Reader:
Choose a UHF integrated reader that fits your requirements. Consider factors such as reading range, reading speed, environmental robustness, and compatibility with RFID tags commonly used in vehicles.
4. RFID Tags for Vehicles:
Select RFID tags that will be affixed to vehicles. UHF RFID tags come in various form factors, including windshield stickers or windshield-mounted tags. Ensure that the chosen tags are durable and suitable for outdoor use.
5. Integration with Parking Management Software:
Integrate the UHF integrated reader with your parking management software. This software should handle tasks such as identifying vehicles, managing access permissions, and logging parking activities.
6. Install UHF Readers at Entry/Exit Points:
Install UHF readers at entry and exit points of the parking facility. Ensure that the readers are strategically placed to capture RFID tag information as vehicles enter and exit.
7. Configure Access Control Rules:
Configure access control rules in the parking management software. Define which vehicles are authorized to enter, allocate parking spaces, and set up any payment or billing systems if needed.
8. Real-Time Monitoring:
Implement real-time monitoring features in your parking management system. This can include dashboards that display the current occupancy, entry/exit logs, and alerts for any unauthorized access.
9. Test the System:
Conduct thorough testing of the entire system. Test the reading range, accuracy of vehicle identification, and the responsiveness of the parking management software.
10. User Training:
Train parking attendants and relevant personnel on how to use and troubleshoot the UHF integrated reader system. Provide user manuals and support for ongoing maintenance.
11. Compliance and Regulations:
Ensure that your system complies with local regulations and privacy laws related to the collection and use of vehicle data.
By following these steps, you can implement a UHF integrated reader for parking management that provides efficient and secure access control while improving overall parking facility operations.