Reference Diffuse-Field Frequency Response Curve - Sennheiser HD 800 S Instrucciones De Manejo
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Ver también para HD 800 S:
- Instrucciones de uso (8 páginas) ,
- Instrucciones de manejo (25 páginas) ,
- Instrucciones de manejo (178 páginas)
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English | HD 800 S
6
Specifications
Frequency response
10 – 44,100 Hz (–3 dB)
4 – 51,000 Hz (–10 dB)
Transducer principle
dynamic, open
Ear coupling
circum-aural
Frequency characteristic
diffuse-field equalized
Nominal impedance
300
Sound pressure level at 1 kHz
102 dB (1 V
Long-term input power
max. 500 mW as per EN 60-268-7
THD
≤ 0.02% (1 kHz, 1 V
Contact pressure
approx. 3.4 N ± 0.3 N
Weight
approx. 330 g
(without connection cable)
Maximum value of the static
10.5 mT
magnetic field at the surface
Connector (depending on connection
stereo jack plug:
cable, see pin assignment on inside
1/4" (6.35 mm), unbalanced, 3-pin
cover page), gold-plated
4.4 mm, balanced, 5-pin
Connection cable
silver-plated, oxygen-free copper
cable (OFC), balanced, shielded,
para-aramid reinforced, 3 m
Temperature range
operation: −10 to +55°C
storage: −20 to +70°C
Relative humidity
operation: 10 to 80%
(non condensing)
storage: 10 to 90%
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Reference diffuse-field frequency response curve
The individually measured diffuse-field frequency response curve for
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your HD 800 S headphones can be found on the supplied USB flash
drive. The reference diffuse-field frequency response curve can be found
on the inside cover page.
What is the diffuse-field frequency response curve? In an anechoic
chamber, 8 highly linear loudspeakers emit noise signals independently
of each other. In the central area of the chamber, the various sound
data meet and are superimposed on each other to form a diffuse field,
in which it is no longer possible to determine from which direction the
sound is coming.
This noise is then varied in distances of a third and reproduced
alternately over the speakers and the headphones to be measured.
A large number of test persons then evaluate the difference in volume
between the room noise and the noise in the headphones.
The ideal state is when the volume impression between the diffuse field
and the headphones is the same. Diffuse-field equalized headphones
provide a clearly more spatial impression and make it easier to
determine whether sounds are coming from the front or rear. Put simply,
the sound events take place outside the head and are not confined to the
space between the ears.
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