Hollyland Solidcom C1 Wireless Single-Ear Remote Headset (with 2 battery)
True Wireless Self-contained Headset Communication Solution
Master Headset / Remote Headset(s)
With no belt pack or base station, it offers a highly portable and hands-free coordinating experience for media production teams or any team looking for real-time non-blocking voice communication in socially distanced working scenarios.
Ready Out of Box
The headset system automatically pair up right out of the box.
Power up to kick off your day!
Comfortable to Wear All Day Long
Each single headset weighs only 168g, which is lighter than an iPhone12, offering a comfortable wearing experience for long hours. The headset is exquisitely crafted with PC-ABS materials, guaranteeing outstanding flexibility and durability.
On-ear foams and over-ear cushions are provided for
different wearing preferences. Easy to replace and free to share
Easy to Use
Tactile Volume Button
Auto Mute Mic Boom
Indicator Lights
Battery life
- Master Headset
5 hours working time
*With 5 remote headsets connection
- Remote Headset
10 hours working time
- 2.5 hours for a full charge
Rechargeable & Replaceable Battery for Extended Working Time
Each intercom headset comes with a spare lithium battery for convenient field replacement, keeping systems up and running with minimal downtime.
Wideband Clear Audio Quality for Precise Coordination
Supporting a Wideband frequency response from 150Hz to 7KHz and premium AEC (Acoustic Echo Cancellation) performance, the Solidcom C1 intercom headsets ensure authentic and clear audio quality for effective teamwork. Equipped with a directional microphone that captures the speaker's voice precisely while minimizing unwanted noise, the system renders an effortless conversation experience even in noisy environments.
1,000 ft Two-Way Communication
The transceiver built into the Solidcom C1 master headset creates a reliable wireless communication radius up to 1,100ft(350m). The team can keep connected and move freely at a major event, filming site, or mass area operation.