Noise curves specify the acoustic ambient noise in an indoor environment. The unoccupied room is measured to produce a single maximum value across the complete sound spectrum. This value is used to determine if the ambient noise will be annoying to people occupying the room. The value also influences of the intelligibility of speech.
Different rooms, locations, regulations and applications may allow different acceptable noise ratings. In most cases, the goal is that background noise should not interfere with the purpose of the room, e.g. the noise of an office air-conditioning system and the noise of traffic outside the building should not interfere with telephone calls or conversations.
Background noise that is annoying creates fatigue and can negatively affect productivity and safety. Too much noise also affects the ability to communicate. Therefore standard methodologies for quantifying such noise have been developed.
For all ambient noise measurement methods, a measured noise spectrum is superimposed on a family of contours (or curves).
In Europe, the International Organization for Standardization (ISO) defines Noise Rating (NR) as a graphical method for assigning a single number rating to a noise spectrum. It can be used to specify the maximum acceptable level in each octave band of a frequency spectrum, or to assess the acceptability of a noise spectrum for a particular application. The method was originally proposed for use in assessing environmental noise, but it is now used frequently for describing noise from mechanical ventilation systems in buildings. The NR of the spectrum corresponds to the value of the first NR contour that is entirely above the spectrum.
Noise Rating NR32
The American National Standards Institute (ANSI) defines the NC rating to describe the noise in a space by examining a range of frequencies. The NC rating of a spectrum is designated as the value of the lowest NC curve above the measured octave-band spectrum. The measured noise criteria, e.g. NC50, informs that the room under test performs better than that. The designating number for any NC curve is, approximately, its speech interference level (SIL); the average of the levels in the 500, 1000, 2000 and 4000 Hz octave bands.
Noise Criteria NC30
The RNC method is used to determine noise ratings when the noise from heating, ventilating and air-conditioning (HVAC) systems at low frequencies is high, and which is also suspected of containing sizeable fluctuations or surging. It essentially represents a rumble criterion. The RNC curves also provide a procedure that reduces the result essentially back to the NC curves when systems are well designed and acoustically well-behaved.
Room Noise Criteria RNC48
The RC criterion curves are a system for use in the design of heating, ventilating and air-conditioning (HVAC) systems in office buildings, dwelling units, etc., where the desired mid-frequency levels are in the range of 25 to 50 dB. Each RC criterion curve bears a rating number equal to the level at 1000 Hz.
Room Criteria RC32
The American Statistical Association (ASA) defines the PNC curves as an extension of the basic Noise Criteria system. They have been used in the past to judge the acceptability of ventilation and other background broadband noise.
PNC curves are less often used than Noise Criteria curves because they are more stringent at lower frequencies than the Noise Criteria curves, and also because the latest (2008) version of Noise Criteria curves includes an extended frequency range somewhat mitigating the original motivation for PNC.
Preferred Noise Criteria PNC34
The XL2 Acoustic and Audio Analyzer, with the Spectral Limit Option installed, supports these Noise Curve types:
The XL2 measures all noise curve types at the same time, thus you can switch to your required report after the measurement. 測定画面には16 Hzから8 kHzの周波数スペクトルが表示されており、基準値に影響を与えている低減させるべき主要な周波数帯域が分かります。
NC-2008、NC-1995規格のNC値の場合、SIL値（speech interference level）が、オクターブバンド500 Hz、1000 Hz、2000 Hz、4000 Hzにおける音圧レベルを平均して計算されます。