UHF RFID Antenna
High-performance UHF RFID Antenna for warehouse, logistics, retail and industrial tracking systems.
Long-Range Reading
Up to 15m+
High Gain & Efficiency
Stable Performance
Industrial-grade
Durable & IP Rated
UHF RFID Antenna Products
Explore our full range of UHF RFID antennas designed for long-range identification, warehouse automation, and industrial tracking systems.
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
UHF Panel RFID Antenna
Frequency: 860–960 MHz
Polarizatin: Circular
Gain: 8 dBi
Mounting: Wall/Ceiling
Everything You Need to Know About UHF RFID Antenna
Explore technology,installation tips,and key factors to choose the right antenna.
application
Warehouse Management
Real-time inventory tracking and pallet management.
Logistics & Distribution
Efficient sorting and shipment tracking in supply chain systems.
Retail Inventory
Fast bulk scanning for clothing and merchandise.
Asset Tracking
Monitor high-value equipment and fixed assets.
Smart Manufacturing
Production line tracking and automation control.
RFID Gate Systems
Entry/exit detection for large-scale item movement.
UHF vs HF RFID Antenna Comparison
UHF and HF RFID antennas are designed for different application environments. Understanding their differences helps you select the right solution for your tracking, identification, or access control system.
Feature
UHF RFID ANTENNA
HF RFID ANTENNA
Frequency
860–960 MHz
13.56 MHz
Standard
EPC Gen2 / ISO 18000-6C
ISO 14443 / ISO 15693
Wavelength
Long-wave UHF
Short-wave HF
Reading Distance
Up to 15 meters or more
Typically 1–50 cm
Reading Speed
High-speed multi-tag reading
Moderate reading speed
Multi-tag Reading
Excellent
Limited
Reader Compatibility
UHF readers only
HF/NFC readers
System Complexity
Medium
Low
Typical Antenna Gain
3dBi–12dBi
Generally not specified by dBi gain
Installation & Mounting Options
UHF RFID antennas support multiple installation methods depending on your application environment and coverage requirements.
Wall Mount
- Suitable for warehouse entrances
- Stable fixed positioning
- Ideal for access control points
Ceiling Mount
- Wide-area coverage scanning
- Used in retail & logistics centers
- Reduces ground interference
Pole Mount
- Adjustable antenna angle
- Flexible deployment setup
- Outdoor RFID tracking systems
Gate Installation
- Dual-antenna configuration
- High accuracy item detection
- Logistics in/out control systems
UHF RFID Antenna FAQs
UHF RFID antennas are widely used in industrial tracking systems. Below are the most common questions to help you better understand product selection, installation, and performance.
Higher gain increases reading distance but narrows beam width. Lower gain provides wider coverage but shorter range. Selection should depend on whether the application requires long-range targeting or wide-area coverage.
Installation height directly affects read zone shape. Higher mounting improves coverage area but may reduce tag sensitivity, while lower positioning increases reading accuracy for specific zones such as gates or conveyors.
Interference can be reduced by adjusting antenna spacing, using time-division multiplexing (TDM), and optimizing polarization direction to avoid overlapping read zones.
Performance is affected by materials such as metal and water, RF reflection, tag quality, and environmental noise. Proper tuning and antenna positioning are critical for stable operation.
Yes, but performance depends on antenna beamwidth, reader processing speed, and tag density. Circular polarization antennas generally perform better in dynamic environments.
Longer cables increase signal loss. Using low-loss coaxial cables and proper connectors such as SMA or N-type ensures better RF efficiency.
Need a Custom UHF RFID Antenna Solution?
We provide customized UHF RFID antenna solutions for industrial tracking, embedded systems, and high-precision applications. Contact us for technical support and quotation.
- OEM & ODM Support
- Fast Response within 24 Hours
- Industrial-grade Quality Assurance