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ANSI CTA-426-B-1998 Loudspeaker Optimum Amplifier Power (Formerly ANSI CEA-426-B R-2011).pdf

1、 ANSI/CTA Standard Loudspeaker, Optimum Amplifier Power ANSI/CTA-426-B R-2011 (Formerly ANSI/CEA-426-B R-2011) July 1998 NOTICE Consumer Technology Association (CTA) Standards, Bulletins and other technical publications are designed to serve the public interest through eliminating misunderstandings

2、between manufacturers and purchasers, facilitating interchangeability and improvement of products, and assisting the purchaser in selecting and obtaining with minimum delay the proper product for his particular need. Existence of such Standards, Bulletins and other technical publications shall not i

3、n any respect preclude any member or nonmember of the Consumer Technology Association from manufacturing or selling products not conforming to such Standards, Bulletins or other technical publications, nor shall the existence of such Standards, Bulletins and other technical publications preclude the

4、ir voluntary use by those other than Consumer Technology Association members, whether the standard is to be used either domestically or internationally. Standards, Bulletins and other technical publications are adopted by the Consumer Technology Association in accordance with the American National S

5、tandards Institute (ANSI) patent policy. By such action, the Consumer Technology Association does not assume any liability to any patent owner, nor does it assume any obligation whatever to parties adopting the Standard, Bulletin or other technical publication. This document does not purport to addr

6、ess all safety problems associated with its use or all applicable regulatory requirements. It is the responsibility of the user of this document to establish appropriate safety and health practices and to determine the applicability of regulatory limitations before its use. This document is copyrigh

7、ted by the Consumer Technology Association and may not be reproduced, in whole or part, without written permission. Federal copyright law prohibits unauthorized reproduction of this document by any means. Organizations may obtain permission to reproduce a limited number of copies by entering into a

8、license agreement. Requests to reproduce text, data, charts, figures or other material should be made to the Consumer Technology Association. (Formulated under the cognizance of the CTA R3 Audio Systems Committee.) Published by CONSUMER TECHNOLOGY ASSOCIATION 2015 Technology manufacturers stated rat

9、ings must clearly specify any such enclosure. No external crossover network shall be used except as specified by the manufacturer. Systems provided with enclosures and/or crossover networks are to be tested with crossover networks and enclosures intact, unless otherwise specified by the manufacturer

10、. 4 Normative references 4.1 EIA-299-A Loudspeakers, Dynamic - Magnetic Structures and Impedance 4.2 IEC-60268-5 Sound System Equipment. Part 5: Loudspeakers 4.3 Keele, D.B Low Frequency Loudspeaker Assessment by Nearfield Sound-Pressure Measurement, Journal of the Audio Engineering Society, vol. 22

11、, no. 3, p. 154 (1974) 5 Definitions Full range is defined as substantially including bass, midrange, and treble frequencies occurring in music and speech. 6 Test methods 6.1 Apparatus 6.1.1 Compact disc player with “Track Repeat“ function (if using the CEA compact disc with recorded test signals) 6

12、.1.2 Power amplifier minimally rated at the test power CEA-426-B 36.1.3 CEA compact disc with recorded test signals, or other means for generating test signals as defined in Annex A (normative) 6.1.4 True RMS voltmeter with input impedance at least ten times the loudspeaker rated impedance, and with

13、 an ac bandwidth of at least 40 Hz to 10 kHz 6.1.5 Sine wave generator covering 40 Hz to 10 kHz 6.1.6 1/3-octave real time audio analyzer using class 2 or class 3 filters, capable of displaying “total SPL“ 6.1.7 Measuring microphone, omnidirectional, with flat frequency response 0.5 dB from 40 Hz to

14、 10 kHz and dynamic range upper limit of 140 dB SPL minimum. 6.1.8 Switched 20 dB attenuator, described in Annex B (normative) 6.2 Test conditions and operator notes 6.2.1 Each test may be conducted with a fresh sample of the product, or the tests may all be performed on one sample. 6.2.2 The loudsp

15、eaker shall be tested as the manufacturer specifies it to be used. If no such specification is provided, individual transducers shall be tested on a baffle of reasonable proportions whose area is no less than ten times the nominal area of the transducer. The accelerated life test at continuous power

16、 may also be conducted with the transducers in free air. Complete systems shall be tested intact. The test shall be conducted at an ambient temperature of 25 C 5 C and relative humidity of 30% to 80% in a room or enclosure that maintains these conditions and does not change fundamental resonance fre

17、quency more than 5%. 6.2.3 If a crossover or filter network is specified by the manufacturer, it shall be installed according to the manufacturers instructions. If no such network is specified, the amplifier and voltmeter shall be connected directly to the loudspeaker terminals. 6.2.4 Verify that th

18、e speakers rated impedance complies with EIA-299-A. Calculate the test voltage to be applied to the speaker, using this rated impedance. Test voltage is equal to the square root of the product of the optimum amplifier power and the rated impedance. 6.2.5 CAUTION WEAR EAR PROTECTION! High sound level

19、s of annoying signals are produced which can cause hearing damage with prolonged exposure. The operator is advised to wear appropriate protection such as ear plugs, preferably balanced attenuation devices which will still permit the operator to listen critically for distortion or other signs of dist

20、ress in the device under test. CEA-426-B 46.2.6 Test sequence Power compression is the least stressful test and should be run first, followed by the distortion test, with the accelerated life test performed last. 6.3 Section A power compression This procedure tests the degree to which acoustic outpu

21、t of the speaker is compressed at the optimum amplifier power. 6.3.1 Procedure Refer to Annex A.1 and A.3, and to the equipment block diagram in Annex B (normative). 6.3.1 Place the microphone in a close-mic position (refer to Keele paper cited in section 4.3), on axis with its geometric center, and

22、 connect the microphone output to the input of the 1/3-octave real time analyzer. Using the switched attenuator, apply the variable rate swept sine wave test signal to the speaker at an amplitude 20 dB below the optimum amplifier power, and record the reference spectrum of the speaker output. 6.3.2

23、Reduce the drive level by 6 dB. Using the switched attenuator, simultaneously raise the amplitude of the test signal by 20 dB and attenuate the output of the microphone amplifier by 20 dB; this applies considerably less than full power to the loudspeaker. The spectrum produced should track the origi

24、nal curve, but should be about 6 dB lower in amplitude, indicating little or no compression taking place. At this time, the operator should listen for distortion; there should be minimal distortion at this reduced power level. If severe distortion occurs, the operator should stop the test, noting th

25、e frequency at which the distortion was worst, and should proceed immediately to the distortion test procedure described in section 6.4. If only minimal distortion is heard, the operator should slowly restore the drive level to the maximum value, or until power compression is observed, whichever occ

26、urs first. To avoid overheating high frequency drive units, the bursts of test sweeps should be kept brief only three or four cycles before a pause when near full power. 6.3.3 Repeat the test sweep for one full minute, and then record the output spectrum. If no compression takes place, the displayed

27、 amplitude of the measured spectrum will be identical to that of the previously recorded signal at all frequencies. The speaker shall have passed the test if each 1/3 octave band of the displayed spectrum of the full power signal is reduced in amplitude by no more than 6 dB compared to the reference

28、 level established in section 6.3.1 from 40 Hz to 10 kHz or through the bandwidth specified by the manufacturer. 6.4 Section B Distortion 6.4.1 This procedure measures harmonic distortion at the optimum amplifier power using sine wave test signals at 1/3-octave spaced IEC center frequencies. When a

29、limited frequency range is specified, the speaker need not be tested outside the specified range. The test signals are contained on the CEA compact disc. As with the power compression test, the test CEA-426-B 5signal can be started at reduced level and slowly increased to the maximum. The operator s

30、hould be particularly careful at frequencies found to be suspect in the power compression test. In general, speakers are likely to have high distortion at the lowest frequency specified and near crossover frequencies in multi-way systems. Continuous sine waves at full power can burn out tweeters in

31、a matter of seconds. Measurements in the tweeters operating range must be made very quickly. Usually, two seconds is all the time needed for the analyzer to settle. If the operator needs to see it again, allow a cool down period of ten seconds or more. 6.4.2 Procedure Place the microphone in a “clos

32、e-mic“ position (refer to Keele paper cited in section 4.3), and connect its output to the input of the 1/3-octave real time analyzer. Apply the sequence of sine wave test signals to the speaker at the optimum amplifier power. Within its specified bandwidth, the speaker shall generate harmonics whos

33、e RMS sum amplitude is less than that of the fundamental. Using a spectrum analyzer with a “total SPL“ display, the harmonic content of the signal will be less than that of the fundamental if the “total SPL“ is greater than the amplitude of the fundamental by no more than 3 dB. For speakers with mul

34、tiple drive units, repeat the procedure with the microphone centered on each drive unit. The speaker shall be considered to have passed this criterion if the “total SPL“ displays no more than 3 dB greater amplitude than the amplitude of the fundamental for each frequency tested within its specified

35、bandwidth. For speakers with multiple drive units, each iteration of the test must pass. 6.5 Section C Accelerated life test at continuous power This procedure simulates the working life of the speaker by testing its ability to withstand a test signal at half the optimum amplifier power for an exten

36、ded duration without suffering an irreversible and unacceptable change in performance parameters or integrity. The speaker is unlikely to fail quickly in this test because it has already been subjected to full-power over the entire frequency range by the previous tests. The criterion for passing thi

37、s test is that the speaker not acquire a permanent shift in parameters such as free air resonance frequency. Therefore, we will only know that the speaker failed when it has permanent damage. The risk can be reduced somewhat by monitoring the speaker during the test with a spectrum analyzer or by ea

38、r and disconnecting the test signal when a change is noted. Permanent shift may or may not have occurred at this point. If it has not, it cannot be assumed that it will either pass or fail the eight hour test. If the speaker does pass this test, then its rating has been verified. 6.5.1 Break-in Sele

39、ct the calibration sine wave tone on the compact disc, and adjust the amplifier output level to read 3 dB lower than the voltage calculated in paragraph 6.2.4, (i.e. the calculated voltage multiplied by 0.707). Set the compact disc player to repeat the band containing the weighted noise test signal

40、continuously. Apply the break-in signal to the loudspeaker for an uninterrupted period of one hour. At the end of the break-in period, let the magnet structure cool to below 35 degrees C, determine and record the speakers fundamental resonance frequency. CEA-426-B 66.5.2 Test Select the calibration

41、sine wave tone on the compact disc, and adjust the amplifier output level to read the voltage calculated in paragraph 6.2.4. Set the compact disc player to repeat the band containing the weighted noise test signal continuously. Apply the signal to the loudspeaker for an uninterrupted period of eight

42、 hours. 6.5.3 After a minimum recovery period of one hour, and after the magnet structure surface temperature has cooled below 35 C, apply a sine wave signal of half the test voltage to the loudspeaker and sweep through the rated bandwidth specified by the manufacturer, or from 40 Hz to 10 kHz if no

43、 rated bandwidth is supplied. The loudspeaker shall have passed the accelerated life test if there is no test induced noise or structural damage that render the loudspeaker unsuitable for its intended application, and the fundamental resonance frequency has not dropped more than 10% below the record

44、ed reference frequency. 7 Marking, labeling, packaging A loudspeaker or loudspeaker system may be labeled by the manufacturer with a CEA optimum amplifier power rating at or below the maximum input power in watts at which the loudspeaker or loudspeaker system passes CEA criteria for all three tests,

45、 power compression, distortion, and accelerated life. The rating must clearly specify any special test conditions such as special enclosures, ambient conditions, crossover networks, etc CEA-426-B 7Annex A (normative) This section describes the contents of the test compact disc containing the calibra

46、tion and test signals for all the tests defined in this standard. It is recommended that this compact disc be used for these tests to avoid the possibility of error in generating the test signals. For those who wish to generate their own signals, a complete description of each signal is presented in

47、 this annex following the description of the compact disc. A.1 Test CD description Contents of CEA Loudspeaker Power Rating Compact Disc 0 min Track 1. 1.0 kHz Reference sine wave. Ramps up. 1 min Track 2. Life test noise at RMS amplitude 3 dB lower than Refrence. 31 min Track 3. Variable rate sweep

48、, 0.5 second cycle time. 41 min Track 4 to 29. Pure tones at reference amplitude on ISO 1/3 octave preferred center frequencies, 20 Hz to 5 kHz. 15 seconds followed by 5 seconds silence for each frequency. 25 tones, 8:20. 49 min End. A.2 Amplitude calibration Band # 1 of the test CD contains a 1000

49、Hz sine wave to be used to calibrate the amplitude of the signals. The test tones for the distortion test and the swept sine for the power compression test signal are recorded at the same level as the calibration tone, and the noise signal is recorded at a level such that its rms level is 3 dB lower than the calibration tone. Therefore, the signal level need be set only once to achieve the proper levels for all tests, and power calculations may be based on this setting. A.3 Variable rate sweep test signal A.3.1 The test signal specified for the power compressio

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