GB/T 2423.58-2008 English PDFUS$594.00 · In stock
Delivery: <= 4 days. True-PDF full-copy in English will be manually translated and delivered via email. GB/T 2423.58-2008: Environmental testing for electric and electronic products - Part 2: Test methods - Test Fi: Vibration - Mixed mode Status: Valid
Basic dataStandard ID: GB/T 2423.58-2008 (GB/T2423.58-2008)Description (Translated English): Environmental testing for electric and electronic products - Part 2: Test methods - Test Fi: Vibration - Mixed mode Sector / Industry: National Standard (Recommended) Classification of Chinese Standard: K04 Classification of International Standard: 19.040 Word Count Estimation: 30,339 Date of Issue: 2008-05-19 Date of Implementation: 2009-01-01 Adopted Standard: IEC 60068-2-80-2005 Ed.1.0, IDT Regulation (derived from): Announcement of Newly Approved National Standards 2008 No. 8 (No. 121 overall) Issuing agency(ies): General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China Summary: This standard specifies test methods for simulating complex and need to withstand vibration test sample mixed excitation. The purpose of this section is required to verify subjected to mixed-mode excitation, the samples in the function and/or structure does not produce unacceptable decrease. When the actual ambient vibration measurement data with mixed mode, using this method is particularly suitable cut -vibration environments. This section also applies to reveal random and sine and/or cumulative effects of vibration stress random mixed, and the resulting sample mechanical defects and provisions decreased performance, this information can be combined with the relevant norms of acceptability of the samples assessed. GB/T 2423.58-2008: Environmental testing for electric and electronic products - Part 2: Test methods - Test Fi: Vibration - Mixed mode---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order. Environmental testing for electric and electronic products - Part 2.Tests methods - Test Fi. Vibration - Mixed Mode ICS 19.040 K04 National Standards of People's Republic of China GB/T 2423.58-2008/IEC 60068-2-80..2005 Environmental testing of electrical and electronic products Part 2.Test method (IEC 60068-2-80.2005Ed.1.0, IDT) 2008-05-19 released Implementation of.2009-01-01 General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Issued by the National Standardization Administration of China Environmental testing of electrical and electronic products Part 2.Test method 1 ScopeThe test methods provided in this section are suitable for samples that need to undergo complex simulation and mixed excitation vibration tests. The purpose of this section is to verify that the sample will not produce unacceptable functions and/or structure after being subjected to the specified mixed mode excitation. The reduction. When the vibration measurement data of the actual environment has mixed modes, this method is particularly suitable for tailoring the vibration environment. This section is also applicable to reveal the cumulative effect of random and sine and/or random mixed vibration stress, and the resulting mechanical defects And the reduction of specified performance, this information combined with relevant specifications can assess the acceptability of the sample. In some cases, this test method is also applicable To verify the mechanical strength of the sample. This section also applies to samples that may be subjected to random and/or random combined with certain characteristics of vibration during transportation or actual use. Such as aircraft, spacecraft and transportation will be packed in the transport container, and the transport container will be part of the sample itself. This section applies to electrical and electronic products, as well as other fields that require it.2 Normative referencesThe clauses in the following documents have become clauses of this part after being quoted in this part of GB/T 2423.All dated quotations All subsequent amendments (not including errata content) or revisions do not apply to this section. However, it is encouraged to achieve The parties to the agreement study whether the latest versions of these documents can be used. For undated reference documents, the latest version is applicable to this section. GB/T 2421-1999 General rules for environmental testing of electrical and electronic products (idt IEC 60068-1.1988) GB/T 2423.10-2008 Environmental testing of electrical and electronic products Part 2.Test method Test Fc. Vibration (sine) (IEC 60068-2-6..1995, IDT) GB/T 2423.43-2008 Environmental testing of electrical and electronic products Part 2.Test methods Vibration, shock and similar dynamic tests Installation of test samples (IEC 60068-2-47..1995, IDT) GB/T 2423.56-2006 Environmental testing of electrical and electronic products Part 2.Test method Test Fh. Broadband random vibration (Numerical Control) and Guidelines (IEC 60068-2-64..1993, IDT) IEC 60050-300..2001 International Electrotechnical Vocabulary Electrical and Electronic Measuring and Measuring Instruments IEC 60050-311 International Electrotechnical Vocabulary and General Terms Related to Measurement IEC 60050-312 International Electrotechnical Vocabulary General terms related to electrical measurement IEC 60050-313 International Electrotechnical Vocabulary Types of Electrical Measuring Instruments IEC 60050-314 International Electrotechnical Vocabulary. Special terms used according to the type of instrument IEC 60068-3-8..2003 Environmental Test Part 3-8.Vibration Test Selection IEC 60068-5-2..1990 Environmental Testing Part 5.Drafting Guidelines for Test Methods, Terms and Definitions ISO 2041..1990 Vocabulary of vibration and shock3 Terms and definitionsThe terms used in this section defined below are generally in ISO 2041-1990, IEC 60050-300..2001, GB/T 2421-1999, It has been defined in GB/T 2423.10-2008, GB/T 2423.56-2006 and IEC 60068-5-2.1990.For the convenience of the reader, this A certain definition from the above-mentioned standard is used here, and the source and differences are pointed out. GB/T 2423.58-2008/IEC 60068-2-80..2005 In addition, the terms and definitions added below are also applicable. 3.1 Movement in the non-excited direction is usually defined as two orthogonal axes. 3.2 The movement represented by the broadband signal returned from the reference point sensor. 3.3 The part where the sample is in contact with the fixture or the table surface of the vibrating table is usually the point where the sample is fixed in use. Note. If it is used as a fixture as a part of the actual installation structure, the fixed point should be the point on the installation structure, not the point from the sample. 3.4 Control points 3.4.1 By using the signal from the reference point, the vibration of the point is maintained at a prescribed level of control. 3.4.2 The signal from each detection point is realized by continuous arithmetic average or comparison technology processing according to the requirements of relevant specifications For control method, see 3.9. 3.5 The standard acceleration value produced by the gravity of the earth, which varies with altitude and geographic latitude. 3.6 Some specific points of data collected in the experiment. There are 3 types, which are defined as follows. 3.6.1 The point located on the fixture, the vibrating table or the sample as close to the fixed point as possible. The test point must be rigid with the sample in any case connection. Note 1.The number of test points should meet the requirements of the test. Note 2.If there are 4 or less fixed points, each is used as a detection point. If there are more than 4 fixed points, the relevant regulations shall specify Four representative fixed points are used as detection points. Note 3.In special cases, such as large or complex samples, if the test point is required to be elsewhere (not close to the fixed point), it should be included in the relevant specifications Regulations. Note 4.When a large number of small samples are installed in a fixture, or when a small sample has many fixed points, in order to derive the control signal, a single test can be selected Point (ie reference point). The signal is related to the fixture and not to the fixed point of the sample. In this case, only after the fixture is loaded with samples and other loads Only when the lowest resonance frequency is sufficiently higher than the upper limit of the test frequency is feasible. 3.6.2 In order to meet the requirements of this part of the selected point from the detection point, the signal at this point is used for the control test. 3.6.3 A point derived from multiple detection points manually or automatically, and the result is used to control the test to meet the requirements of this section. GB/T 2423.58-2008/IEC 60068-2-80..2005 3.6.4 A specific point on the sample where data is collected for vibration response analysis. Note. It is different from detection point and reference point. 3.7 The three axes perpendicular to each other are the most vulnerable in the sample. 3.8 The number of discrete values collected per second, used to digitally record or represent a time history. 3.9 The calculation method of reference control signal is adopted when multi-point control is adopted. The following frequency domain control strategies can be selected, see 3.4.2. 3.9.1 For the processing method of obtaining the control value from the arithmetic mean of the signal value of each frequency at more than one detection point, see 3.31. 3.9.2 For the processing method of the control value formed by the maximum or minimum value of the signal value on each frequency line at more than one detection point, see 3.31. 3.10 MAX/SUM Define the random superimposed random severity level of the narrowband ASD value (see 3.14). Note. MAX means the larger value of the background or narrowband ASD, and SUM means the sum of the two ASD values. 3.11 The ratio of the peak value to the root mean square (r.m.s.) value of the synthesized mixed waveform. 3.12 Define the strategy for calculating the reference acceleration spectral density of the sine component and the random ASD on each frequency line. 3.13 In the frequency response function, the maximum response corresponding to a resonance peak is 0.708 times the bandwidth between the two points. 3.14 ASD When the bandwidth tends to zero and the average time tends to infinity, the part of the acceleration signal that passes through the center frequency narrowband filter on each unit bandwidth The mean square value of the number. 3.15 For random signals, the actual limited frequency resolution causes a systematic error in calculating the acceleration spectral density. For sinusoidal signals, by Calculate the systematic error of the amplitude of the sinusoidal component in the mixed mode signal at the averaging time. GB/T 2423.58-2008/IEC 60068-2-80..2005 3.16 Acceleration spectral density measured at a reference point or virtual point. 3.17 It includes the following steps. --- Digitize the analog signal of the reference point mixed mode waveform; --- Carry out necessary data processing; ---Generate the updated analog hybrid mode drive waveform and output it to the power amplifier of the vibration system (see Chapter B.1). 3.18 The maximum limit of the driving signal is expressed by crest factor. 3.19 3.20 The difference between the specified acceleration spectral density value and the control acceleration spectral density value. 3.21 Minimization of acceleration spectral density error. 3.22 3.23 The width of the frequency interval in the acceleration spectral density in hertz. Note. In order to calculate the specified acceleration spectral density in digital analysis, the sampling record is divided into several parts, and the reciprocal of the sampling length of each part is the resolution rate. In the frequency range, the number of frequency lines is equal to the number of frequency intervals. 3.24 The true acceleration spectral density read from the analyzer is affected by instrument error, random error and system deviation. 3.25 3.26 The error associated with each simulation link input by the control system and each simulation link of the control system. 3.27 The actual averaging time is limited and the filter bandwidth is limited. 3.28 A collection of equally spaced data points in the time domain used for fast Fourier transform calculations. GB/T 2423.58-2008/IEC 60068-2-80..2005 3.29 The degree of consistency between the measurement results of the same number of measurements with the same value is measured individually as follows. Different test methods; ---Different measuring instruments; ---Different observers; ---Different laboratories; ---After a longer time interval relative to the duration of a single measurement; ---Different instrument usage habits. Note. The term "reproducibility" can also be applied when some of the above conditions are met. [IEC 60050 (300)..2001] 3.30 square root. Note. In this test method, the root mean square of the acceleration, velocity and displacement of the mixed mode of random or sine plus random (Sor) and random plus random (RoR) You can press B. 2.4 Calculation. 3.31 The random component of the mixed mode signal is represented by the acceleration spectral density value, and the sine component is represented by the amplitude value. 3.32 In vibration theory, the mean value of vibration is equal to zero. Therefore, the standard deviation of a random time history is equal to the root mean square value. 3.33 The ratio of the true acceleration spectral density to the indicated value of the acceleration spectral density. Note. Only for the random part of the mixed mode signal. 3.34 When using the time averaging technique to estimate the acceleration spectral density of random data, the effective number of statistical degrees of freedom depends on the frequency resolution and Effective average time. 3.35 Sweep once in the specified frequency range, for example, from 5 Hz to 500 Hz to 5 Hz. Note. Corresponding to "sweep cycle", one-way sweep means only sweep in one direction up or down. [GB/T 2423.10-2008] 3.36 The rate of change of sine frequency can be expressed in octave/minute or hertz/second. 3.37 The acceleration spectral density of the random waveform acting on the sample. GB/T 2423.58-2008/IEC 60068-2-80..20054 Test requirements4.1 General These features are suitable for a complete vibration test system. For electric and hydraulic servo test systems, the system includes power amplifiers, vibration Bench, test loading fixture and control system. The following basic movement and lateral movement should be checked before the start of the test or during the test using the additional input monitoring channel of the controller. The relevant specifications should give the inspection test magnitude and the procedures used. The standard test method consists of the following test sequence, and can be used on each axis perpendicular to each other of the sample. a) Use low-level sine or random excitation to check the initial vibration response, see 5.4 and 9.2. b) Mixed mode excitation is used as a load or stress test. c) Final response check (see 9.5), compare with the initial situation and find out possible mechanical failures caused by dynamic performance changes. However, if the dynamic performance of the sample is known or not required, the relevant specifications can waive the requirement for response inspection. 4.2 Control system The control system needs a special control software package, which should have the control and analysis of random plus random or sine plus random mixed test ability. 4.3 Basic movement Each fixed point of the sample should be stipulated by relevant specifications, their movement should be roughly the same, and its basic movement should be linear. If shipped It is difficult to achieve roughly the same movement, and multi-point control should be used. The characteristics of the basic motion, the random wave should conform to the Gaussian distribution; the periodic component is sine. 4.4 Lateral movement The sine or random lateral movement inspection shall be carried out according to the magnitude specified in the relevant specification before the test, or additional monitoring shall be used during the test. Check the lateral movement of the measuring channel. The signal value of each frequency point along any axis perpendicular to the specified axis at the check point shall not exceed the specified signal above 500 Hz Value; below 500Hz, it should not exceed -3dB of the specified value. The total root mean square of acceleration along any axis perpendicular to the specified axis shall not exceed the specified 50% of the root mean square value of the fixed axis. For example, for small samples, if relevant regulations stipulate, the allowable signal value of lateral movement should be limited to Ensure that it does not exceed -3dB of the basic movement. It is difficult to obtain these values for samples of large size or high centroid at certain frequencies. In addition, the severity level stipulated by the relevant regulations It may also be difficult to reach these values when there is a large dynamic range. In these cases, the relevant regulations should specify which of the following methods should be adopted. a) The lateral movement exceeding the above given value shall be monitored and recorded in the report; b) Lateral movement does not need to be monitored. 4.5 Installation The samples should be installed in accordance with the requirements of GB/T 2423.43-2008.In all cases, the music selected in GB/T 2423.43-2008 The line must be squared and then multiplied by the acceleration spectral density (ASD) or directly multiplied by the sine amplitude. 4.6 Measuring system The characteristics of the measurement system should be such that the actual value of the vibration measured from the reference point in the given axial direction is within the tolerance range required by the test. The entire measurement system includes sensors, signal conditioners, data collectors and data processors, and its frequency response has a significant effect on measurement accuracy The frequency response of the measurement system in this frequency range should be flat and within ±5%. GB/T 2423.58-2008/IEC 60068-2-80..20058 Initial measurementThe relevant specifications shall require the appearance, size and function inspection of the samples as well as other inspections required by the specifications.9 Test9.1 General The test is carried out in the order specified by the relevant specifications. The different steps are as follows. --- If specified, perform an initial vibration response check; --- Low-level incentives for equilibrium before the test; ---Mixed mode vibration test; ---If specified, perform a final vibration response check. Unless otherwise specified in relevant specifications, samples should be excited on each preferred axis in sequence. Unless otherwise specified in the relevant specifications, the order of the tested shafts shall not be unimportant. If the sample can only withstand the test under normal working conditions, it should be specified in the relevant procedures. The control value of each frequency at the reference point should come from a single detection point when single-point control is used; when multi-point control is used, it should come from multiple Detection points. In the latter case, the relevant regulations shall specify which of the following. ---The average value of each detection point signal (average control); ---The weighted average of the signal at the detection point (weighted average control); ---It is also the maximum or minimum extreme value on each frequency of all detection points (extreme value control). It should be controlled at a prescribed magnitude. In these cases of multipoint control, the control spectrum becomes a virtual spectrum separated from the existing detection points. If the sample with a shock absorber is usually used, some special treatment methods should be adopted when the shock absorber must be removed during the test. see GB/T 2423.43-2008. 9.2 Check of initial vibration response If specified in the relevant specifications, at least one point on the sample should be checked for dynamic response within the specified frequency range. Relevant norms The number and location of response points should be clearly defined. The vibration response inspection with sinusoidal or random vibration should be carried out in accordance with the frequency range and test magnitude specified in the relevant specifications. Sinusoidal vibration Refer to GB/T 2423.10-2008, and refer to GB/T 2423.56-2006 for random vibration. More information on the advantages and disadvantages of each method Please refer to IEC 60068-3-8.2003. The test magnitude selected for the response check should ensure that the response of the sample at this time is less than that of the mixed mode test, but it is high enough to identify the risk. Risk frequency. Use a sinusoidal exci......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of GB/T 2423.58-2008_English be delivered?Answer: Upon your order, we will start to translate GB/T 2423.58-2008_English as soon as possible, and keep you informed of the progress. The lead time is typically 2 ~ 4 working days. The lengthier the document the longer the lead time.Question 2: Can I share the purchased PDF of GB/T 2423.58-2008_English with my colleagues?Answer: Yes. The purchased PDF of GB/T 2423.58-2008_English will be deemed to be sold to your employer/organization who actually pays for it, including your colleagues and your employer's intranet.Question 3: Does the price include tax/VAT?Answer: Yes. 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