Neumann NDH 20 - Studijske slušalice
STUDIO GRADE MONITORING – WHEREVER YOU GO
The Neumann NDH 20 is a closed-back headphone combining excellent isolation with the carefully balanced sound image and outstanding resolution you’d expect from a Neumann product. The NDH 20 is thus ideally suited to monitoring and mixing tasks, even in loud and noisy environments. Circumaural memory foam ear pads offer high long-term comfort. Now also available in a Black Edition.
Acoustic principle: Dynamic Closed
Wearing style: Headband
Foldable: Yes
Ear coupling: Circumaural
Transducer diameter: 38 mm (1 1/2")
Transducer magnet: Neodymium
Diaphragm material: Duofol
Transducer protection: Cloth covered grille
Nominal Impedance: 150 Ohms
Frequency response: 5 ... 30,000 Hz
Sensitivity at 1 kHz/1 Vrms: 114 dB SPL (1 kHz, 1 Vrms)
Max input power handling: 1000 mW
Continuous input power handling: 200 mW
THD at 1 kHz and 100 dB SPL: <0.10%
Sound isolation: >34 dB (>4 kHz)
Cable entry: Single sided, right ear cup
Connectivity: 3.5 mm (1/8") TRS jack plug (straight), adapter for 6.3 mm (1/4")
Cable length: Spiraled 1.5 - 3.0 m (5' - 10'), Straight 3.0 m (10')
Cable weight: Spiraled 100 g (3.5 oz), Straight 60 g (2.1 oz)
Ear cup contact pressure: 5.5-6.8 N
Weight excluding cable: 390 g (13 3/4 oz)
Detachable cable: Yes
Replaceable earpads: Yes
Colours - headband: RAL 9006 White Aluminium / RAL 7016 Anthracite Grey
Colours - ear cups: RAL 9006 White Aluminium
Colours - ear pads: RAL 7016 Anthracite Grey / RAL 2011 Deep orange
Colours - cable: RAL 7016 Anthracite Grey
Materials - headband: Spring steel strip, aluminium and plastic fittings, plastic trimming
Materials - ear cups: Aluminium
Materials - ear pads: Cloth covered memory foam
Operating conditions: +10° C to +40° C (+50° F to +104° F); <90% RH, non-condensing
Transport/storage conditions: -25° C to +70° C (-13° F to 158° F); <90% RH; non-condensing
Packed dimensions (height x width x depth), mm: 245 x 255 x 85 mm (9 5/8" x 10" x 3 3/8")
Packed weight: 1.22 kg (2 lbs 11 oz)
Packed cube: 0.005 m³