Sennheiser HD700 Open Back Headphones

Sennheiser

Incorporating Sennheiser’s signature sound expertise, these open, circumaural dynamic stereo headphones promises outstanding soundstage with a warm and balanced audio reproduction. 

  • Paired with specially-tuned, highly efficient drivers capable of delivering high sound pressure levels, immense audio
    enjoyment is available at your fingertips. The open-back ear cup design is not only revolutionary but also, to facilitate transparent sound. Extraordinary wearing comfort is ensured, with their ultra comfortable and luxurious earpads, together with its silicone-treated headband resulting in minimal headband resonance.

    • Open, circumaural dynamic stereo headphones
    • Outstanding soundstage with a warm and balanced audio reproduction
    • Specially-tuned, highly efficient drivers capable of delivering high sound pressure levels
    • Highly optimised ventilated magnet system minimises air turbulence and harmonic, intermodulation distortion
    • Open-back ear cups facilitate transparent sound while showcasing cutting-edge industrial design
    • Angled acoustic baffle for optimal sound projection and natural sound experience
    • Ultra comfortable velour earpads and silicone-treated headband for minimal headband resonance
    • Innovative and highly aesthetic dual-material yoke for better stability
    • Very low THD achieved by top-notch and extremely stable internal damping element
    • Symmetrical and detachable silver-plated oxygen-free four-wire copper cable
  • Color: titan  
     
    Frequency response (headphones): 15 – 40,000 Hz (–3 dB)  

    Sound pressure level (SPL): 105dB SPL (1kHz, 1 Vrms)  |

    THD, total harmonic distortion: ≤ 0.03 % (1kHz, 1Vrms)  |

    Ear coupling: Circumaural  

    Jack plug: ¼” (6.3 mm) stereo  

    Cable length: 3 m Symmetrical, silver-plated oxygen-free (OFC) copper cable  

    Transducer principle: Dynamic, open  

    Weight: w/o cable: 270 g  

    Nominal impedance: 150 Ω  

    Operating temperature: –10 °C to +55 °C  

    Frequency Diffuse field equalized