Shure UA Whip Antennas — Replacement Whip Antennas for Shure Wireless Packs
UA Whip Antennas Overview
The Shure UA Whip Antennas are precision-tuned replacement antennas engineered for use with Shure wireless audio systems, covering frequency ranges across 636-916 MHz. Available in multiple variants including Standard and Reinforced options, as well as a SAW-filtered version incorporating a Surface Acoustic Wave filter for enhanced interference rejection when Shure PSM receivers operate in close proximity to wireless microphone transmitters. These antennas are purpose-built for touring engineers, system integrators, houses of worship, and broadcast facilities that depend on Shure wireless systems for critical audio delivery.
Color-coded caps on each antenna allow for fast visual identification across frequency ranges, streamlining setup and troubleshooting in complex RF environments. Keeping spare UA Whip Antennas in your kit ensures minimal downtime when worn antennas need to be swapped in the field.
Key Features
- Precision Frequency Tuning — Each antenna is tuned for specific frequency ranges within the 636-916 MHz spectrum, ensuring optimal RF performance with compatible Shure wireless systems
- Standard Option — Provides reliable, direct-replacement performance for everyday use with Shure wireless packs
- Reinforced Option — Built for added durability in demanding touring and installation environments where antennas are subject to repeated handling
- SAW Filter Option — Integrates a Surface Acoustic Wave filter for greater interference protection, specifically designed for Shure PSM receivers operating near wireless microphone transmitters
- Color-Coded Caps — Frequency range identification at a glance, reducing setup errors in multi-channel RF deployments
- Seamless Shure Compatibility — Engineered for direct integration with Shure wireless audio systems, maintaining system performance without modification
- Field-Replaceable Design — Ideal as backup inventory or for replacing worn antennas on active systems with minimal disruption to workflow
Reviews
There are no reviews yet.