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本文(ITU-R BS 708-1990 Determination of the Electro-Acoustical Properties of Studio Monitor Headphones - Section 10C - Audio-Frequency Characteristics of Sound-Broadcasting Signals《演播室监.pdf)为本站会员(roleaisle130)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ITU-R BS 708-1990 Determination of the Electro-Acoustical Properties of Studio Monitor Headphones - Section 10C - Audio-Frequency Characteristics of Sound-Broadcasting Signals《演播室监.pdf

1、CCIR VOLUME*X-3 90 4855232 0504054 4 W The CCIR, Rec. 708 177 RECOMMENDATION 708 * DETERMINATION OF THE ELECTRO-ACOUSTICAL PROPERTIES OF STUDIO MONITOR HEADPHONES (Question 50110, Study Programme 50F/10) . (1 990) CONSIDERING (a) assessment and quality control; (b) listening rooms; (c) loudspeakers;

2、 (d) as required for loudspeaker monitoring in control rooms and high-quality listening rooms, that unified and closely specified reference listening conditions are an essential prerequisite for subjective that there are great difficulties in harmonizing the acoustical characteristics of existing co

3、ntrol rooms and that some aspects of the audio signal are more clearly perceptible by using headphones than by using that the frequency response of studio monitor headphones should provide the same sound-colour neutrality UNANIMOUSLY RECOMMENDS that the frequency response curve measured in accordanc

4、e with Annex II should be flat within the limits 1. specified in Annex I; 2. Annex II; 3. frequency range 100 Hz-8 kHz and 2 dB in the frequency range 10 kHz-16 kHz. that the frequency response of studio monitor headphones should be measured in accordance with that the difference of frequency respon

5、se between left and right earphone should not exceed 1 dB in the ANNEX I SPECIFICATION OF TOLERANCES The frequency response requirement for studio monitor headphones is defined by Fig. 1. The tolerance mask for the diffuse-field frequency response shown in Fig. 1 is based on measuring accuracy achie

6、vable by means of 16 test subjects. 6 4 2 O -2 -4 -6 z 2. 3 62.5 125 250 500 I K 2K 4 K 8 K 16 K f Hz) FIGURE 1 - Tolerance mask for the d#4sejeldj?equency response of studio monitor headphones GDs: diffusefield earphone response (dB(Pa/V) * This. Recommendation should be brought to the attention of

7、 the IEC and the Audio Engineering Society IAES). CCIR VOLUME*X-L 90 4855212 0504055 b m I78 Rec. 708 ANNEX II DIFFUSE-FIELD FREQUENCY RESPONSE OF STUDIO MONITOR HEADPHONES Measurement specification 1. General The measurement procedure is used to determine the frequency response of the individual ea

8、rphones of a headphone as a function of the frequency by means of sound-pressure measurements in the auditory canals of test subjects. In the direct measurement procedure the sound pressure in the auditory canal caused by the headphone is compared with that caused by the reference sound field. In th

9、e indirect procedure, the sound field is replaced by a reference headphone calibrated by means of the direct method. The reference sound field is the diffuse sound field CCIR, 1986-goal. The measuring Set-up consists of signal source .and signal receiving equipment. The source comprises a noise gene

10、rator, third-octave filters, at least one loudspeaker or a reference headphone and the headphone to be tested. It is also possible to use a real-time third-octave analyser to which a suitable wideband noise signal is applied, The receiving equipment contains a miniature or probe-mounted microphone t

11、o measure the sound pressure in the outer auditory canals of the test subjects and, if the direct procedure is used, a calibrated microphone with a known diffuse-field frequency response to measure the unweighted sound-pressure level in the reverberation chamber. The signal voltages of the microphon

12、es and loudspeakers should be determined by means of an r.m.s.-reading voltmeter with a sufficient integration time. 2. Probe microphone The following requirements apply to the probe-mounted microphone, which is called “probe” in this text: the sound pickup should take place within the auditory cana

13、l at least 4 mm away from its beginning; in the area of the auricle and the outer 4 mm of the auditory canal the probe should not have a cross-section of more than 5 mm2; in the following part of the auditory canal the ratio between the probe cross-section and the auditory canal section should be le

14、ss than 0.6. (The average auditory canal cross section of an adult is approximately 45 mm2.) The probe volume including fixing elements should be smaller than 130 mm3; no special requirements are made for the transfer function of the probe. However, the response of the probe should be free of resona

15、nces. It is sufficient that the response of neighbouring third octaves does not differ by more than 3 dB; it should be guaranteed that, with an occluded ear, the probe output level is at least 15 dB below that obtained with an open ear; fixing elements are necessary to keep the probe at a central po

16、sition in the auditory canal. The spring suspension of these elements should be dimensioned such that the probe fits sufficiently well into auditory canals with different cross-sections and can still be inserted and removed easily; the probe should be inspected and certified for use with regard to m

17、edical aspects by a physician. - - - - - - - 3. birect method of measurement This method is based on a comparison of output voltage levels of a probe placed in the outer auditory canal of a test subject when a noise signal is produced by alternating sources, namely the headphone under test and a dif

18、fuse sound field of a reverberation chamber. 3.1 Test signals The preferred sound signals are filtered noise signals that are obtained from pink noise by means of third-octave filters, specified in IEC Publication 225 (type b). The probe output has to be measured selectively in third octave steps. T

19、his can be done successively or at the same time with a real-time third octave analyser. The sound pressure levels of the test signals should be such that the input signals at the microphone amplifier are at least 10 dB above the inherent electric noise level and the noise level ensuing from body no

20、ise in the auditory canal. The sound pressure level at the reference point must not exceed 85 dB. The headphone voltage should be adjusted such that, at a third octave centre frequency of 500 Hz, the output level of the probe matches the output for the diffuse sound field within 3 dB. CCIR VOLUflE*X

21、-3 90 W 4855232 050L1056 8 Rec. 708 3.2 Diffuse sound jeld 179 The sound field in the reverberation chamber is considered sufficiently diffuse if the following require- ments are satisfied: * In the absence of the test subject the sound pressure levei measured by means of an omnidirectional micropho

22、ne at a distance of 15 cm before, behind, right and left of, above and below the reference point (entrance of the auditory canal of the test subject) must not deviate from the sound pressure level at the reference point by more than 2 dB; in the absence of the test subject the sound pressure evel sh

23、ould be measured at the reference point using a directional microphone which has a directivity index of at least 8 dB above 500 Hz. The sound pressure level in each third-octave band 3 500 Hz must not deviate by more than 3 dB independent of the direction of the microphone. Test subjects . The measu

24、rements in the auditory canal have to be done with at least 16 persons. Spectacles and earrings etc., have to be taken off, and the ear should not be covered by hair. There are no special requirements on the hearing ability of test subjects, but the measured outer ear should not show abnormalities.

25、If the probe does not fit sufficiently well into the auditory canal due to its dimensions, the person concerned cannot be employed as a test subject. The test subjects should move as little as possible during measurements. The headphone has to be worn as intended by the mechanical construction espec

26、ially regarding right and left hand earphones. The test subject should take care that the headphone fits as comfortably and at the same time as tightly as possible, and should carefully put the headphone on and off himself. 3.4 Measurement procedure Before the measurement the probe is inserted into

27、the test subjects auditory canal. The position in the auditory canal is uncritical provided that it lies at least 4 mm inwards. The microphone cable or the probe tube is fixed below the auricle, e.g. by a strip of plaster. The probe in the auditory canal should not change position perceptibly when t

28、he headphone is put on and off. The probe output voltage is measured for each frequency band when the test subject is exposed to sound waves in the sound field (first sound-field measurement). Immediately afterwards the test subject carefully puts on the headphone, and the voltage received from the

29、probe is then measured for each frequency band (first earphone measurement). After the test subject has put off the headphone and put it on again, the second earphone measurement is carried out. Then measurements on a different type of headphone may follow. Finally, the measurement in the sound fiel

30、d is repeated (second sound-field measurement). In order to make sure that the probe has not moved during the whole measurement cycle - which is an indispensable prerequisite for a correct result - the probe voltage levels of the first and second sound-field measurement are compared. If the value me

31、asured in one of the frequency bands deviates by more than 2.5 dB, the whole measurement cycle must be repeated. If the repeated measurements also show differences of more than 2.5 dB, the test subject should be replaced by another one. 3.5 Determination of individual diffuse-field frequency respons

32、es The arithmetic mean value of the probe voltage levels of the first and second sound-field measurement is calculated for each frequency band. The same applies to the voltage levels of the two earphone measurements. These mean values are then used to determine the individual diffuse-field frequency

33、 response of the tested earphone by means of GDsi (re 1 Pa/V) = 20 log - USK dB + LD - 94 dB - 20 log - UK USD v, dB * These requirements are met in reverberation chambers intended for acoustical measurements. If such a chamber is not available, the diffuse-field frequency response of studio monitor

34、 headphones should be determined by means of the indirect measurement procedure (see 8 4). CCIR VOLUNE*X-L 90 = 4855ZLZ 0504057 T 180 Rec. 708 where: Gsj : individual diffuse-field earphone response per frequency band, USK : r.m.s. probe output voltage with earphone as sound source, USD : r.m.s. pro

35、be output voltage in the diffuse field, UK : r.m.s. input voltage in the earphone, U, : reference voltage 1 V, Lo : diffuse-field sound pressure level at reference point. 3.6 Determination of the diSfuse-field frequency response The diffuse-field frequency response of the earphone GD is determined b

36、y arithmetically averaging the results Gosi of the test persons in each frequency band. Also the standard deviation should be calculated. 4. Indirect method of measurement If the diffuse-field frequency response of a headphone was determined by means of the direct procedure, this headphone can be us

37、ed as a reference instead of the diffuse sound field. The methods of direct measurements then apply correspondingly. The individual diffuse-field frequency response of the tested earphone is determined by : UB USB UK USK GDsi (re 1 PaV) = GDsr + 20 log - dB - 20 log - dB where: GDsr : individual dif

38、fuse-field response per frequency band of the reference earphone, USB : r.m.s. probe output voltage with reference earphone as sound source, U, : r.m.s. input voltage at the reference-earphone. If the indirect method of measurements has been chosen, the type and diffuse-field frequency response of t

39、he reference headphone has to be indicated. REFERENCES CUR Documents 1986-901: a. 10/281 (Germany (Federal Republic 00). I BIBLIOGRAPHY SPIKOFSKI, G. i9881 The diffuse-feid probe transfer function of studio-quality headphones. EBU Rev. Tech., 229, 11 1-126. THEILE, G. 1986 On the standardisation of the frequency response of high-quality studio headphones, J. Audio Eng. Soc., Vol. 34, 956-969.

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