3M™ PELTOR™ LiteCom Plus Two Way Radio Headset - Hard Hat Style
30 pre-programmed channels settings.
Ghost voice menu prompts for easy mode selections.
Operates on Lithium Ion rechargeable battery pack.
Push-to-Talk (PTT) or hands-free Voice-Activated (VOX) transmit functions.
FCC Narrow band mandate compliant.
Environmental microphones on each earcup offer level-dependent function for situational awareness.
Environmental microphone amplification limited to 82 dBA.
Operates on communications frequencies that are subject to FCC Rules & Regulations.
The 3M PELTOR LiteCom Plus, all-in-one two-way radio headset allows two-way conversation on up to 30 channels and has a range of up to 9,500 feet. Level dependent listening of ambient sound ensures you are not isolated from your surroundings, allowing you to still hear alarm signals, machinery and voices.
Designed for use in military, construction, manufacturing, processing, equipment maintenance, crane operations and many other applications in noisy environments, the 3M PELTOR LiteCom Plus headset radio helps your workgroup improve performance through better communications. It delivers the convenience of cable-free operation, while providing the hearing protection workers need to help protect them from workplace noise hazards. The headset switches off automatically if it is inactive for more than two hours, to conserve the battery life. Notification of battery status occurs every time you switch the headset on. The external microphones also allow for face-to face communication without removing the headset.. A hearing protector only provides protection when you are wearing it, so all settings and controls are designed to be intuitively simple, avoiding the need to remove the headset unnecessarily. A ghost voice prompt guides you through the menu. As you speak into the microphone, the chosen channel is opened in milliseconds, so other users can hear you regardless of the noise level, providing seamless communication. Noise-cancelling boom microphone for clear speech transmission in noisy environments.