Koss KOSS INFRARED CORDLESS HDPHONES
$ 44.21 $ 59.99 Not Available
Condition:
New
Item No.
385590
Mfg Part No.
HB70 05

Product Information for Koss KOSS INFRARED CORDLESS HDPHONES

Highlights for Koss KOSS INFRARED CORDLESS HDPHONES

  • Connectivity Technology:Wireless
  • Sound Mode:Stereo

Marketing Information

The HB70 Infrared (line of sight) Stereophone system consists of a single channel wireless headphone and a compact infrared transmitter. Incorporating infrared technology, the HB70 is ideal for home audio, video and computer use. The transmitter connects to most home systems through a 3.5mm headphone jack or audio output. Utilizing infrared (IR) technology, it transmits an invisible, infrared signal to the headphone which then reproduces the audio signal. Unlike conventional wireless systems the HB70 is relatively small and lightweight for extended listening periods. When a conventional headband is too cumbersome, the HB70 behind-the-head headphone provides maximum comfort during extended wearing periods while providing the same excellent sound of Koss.

Digital Signal Processing

Network & Communication

  • Wireless Technology: Infrared
  • General Information

  • Manufacturer: Koss Corporation
  • Manufacturer Part Number: HB70 05
  • Manufacturer Website Address: www.koss.com
  • Product Type: Headphone
  • Product Model: HB70
  • Brand Name: Koss
  • Technical Information

  • Impedance: 10000 Ohm
  • Sound Mode: Stereo
  • Connectivity Technology: Wireless
  • Minimum Frequency Response: 30Hz
  • Maximum Frequency Response: 15kHz
  • Plating: Not Applicable
  • Operating Distance: 30ft
  • Physical Characteristics

  • Form Factor: Semi-open
  • Weight: 4.5 oz
  • Miscellaneous

    Package Contents

  • HB70 Infrared Headphone
  • Compact Infrared Transmitter
  • Warranty

  • Standard Warranty: Lifetime Limited
  • Interfaces/Ports

  • Host Interface: Not Applicable
  • Earpiece

  • Earpiece Design: Behind-the-neck
  • Earpiece Type: Binaural
  • Controls/Indicators

  • Earpiece Controls: Volume
  • Digital Signal Processing