GSO ISO 226:2024

ISO 226:2023
Gulf Standard   Current Edition · Approved on 14 October 2024

Acoustics — Normal equal-loudness-level contours

GSO ISO 226:2024 Files

GSO ISO 226:2024 Scope

This document specifies combinations of sound pressure levels and frequencies of pure continuous tones which are perceived as equally loud by human listeners. The specifications are based on the following conditions:

a)    the sound field in the absence of the listener consists of a free progressive plane wave;

b)    the source of sound is directly in front of the listener;

c)    the sound signals are pure tones;

d)    the sound pressure level is measured at the position where the centre of the listener's head would be, but in the absence of the listener;

e)    listening is binaural;

f)     the listeners are otologically normal persons in the age range from 18 years to 25 years inclusive.

The data are given in graphical form in Annex A and in numerical form in Annex B for the preferred frequencies in the one-third-octave series from 20 Hz to 12 500 Hz, inclusive, in accordance with ISO 266.

Best Sellers From Metrology Sector

GSO OIML R87:2021
OIML R87:2016 
Gulf Standard
Quantity of product in prepackages
BH GSO OIML R87:2022
OIML R87:2016 
Bahraini Standard
Quantity of product in prepackages
GSO OIML R79:2021
OIML R79:2015 
Gulf Standard
Labeling requirements for prepackages
BH GSO OIML R79:2022
OIML R79:2015 
Bahraini Standard
Labeling requirements for prepackages

Recently Published from Metrology Sector

GSO IEC 62055-31:2024
IEC 62055-31:2022 
Gulf Standard
Electricity metering - Payment systems - Part 31: Particular requirements - Static payment meters for active energy (classes 0,5, 1 and 2)
GSO ISO 16399:2024
ISO 16399:2023 
Gulf Standard
Agricultural irrigation equipment — Meters for irrigation water
GSO ISO 80004-1:2024
ISO 80004-1:2023 
Gulf Standard
Nanotechnologies – Vocabulary — Part 1: Core vocabulary
GSO ISO 19749:2024
ISO 19749:2021 
Gulf Standard
Nanotechnologies — Measurements of particle size and shape distributions by scanning electron microscopy