3M™ PELTOR™ Litecom Plus Headsets

3M™

3M™ PELTOR™ Litecom Plus Headsets

Sale price

Only pre-order is available. Waiting time 2-4 weeks.

Quantity:
Pickup available at Noliktava Usually ready in 2-4 days

3M™ PELTOR™ Litecom Plus Headsets

Noliktava

Pickup available, usually ready in 2-4 days

6 Kauguru iela
Rīga 1046
Latvia

+37167600319

3M™ PELTOR™ LiteCom Plus Headsets are our robust hearing protectors with a built-in analogue two-way communication radio, noise cancelling dynamic microphone, Lithium-Ion battery and level dependent functionality for ambient listening. Available in headband and helmet mounted models.

3M™ PELTOR™ LiteCom Plus Headsets feature a built-in analogue two-way radio, available in PMR version with 16 channels and 121 sub-channels – to help you communicate even more efficiently in noisy environments. The noise cancelling dynamic microphone provides voice-operated transmission (VOX) for hands free use, and an external jack allows you to connect a mobile device or another two-way radio. Sound levels constantly change in demanding situations. When the noise quiets down, you can turn up the environmental listening function to improve situational awareness or speak with co-workers who are close by, and if the hazardous noise returns the level dependent technology will kick in to help protect your hearing again. Litecom Plus Headsets have a clear battery status indicator and an auto power off function to save energy.

  • Hearing protector with built-in analogue two-way communication radio
  • Available in 16 channel PMR 446 MHz version with 121 sub-channels
  • Level-dependent technology helps improve situational awareness and communication
  • Noise cancelling dynamic microphone provides voice-operated transmission for hands free use
  • External connection jack allows connection of a mobile device or another two-way radio
  • Lithium-Ion battery
  • Auto power off and clear battery status indication
  • Available in headband and helmet mounted models
  • Use to help you communicate efficiently in high noise environments