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GB/T 2423.1-2008 PDF in English


GB/T 2423.1-2008 (GB/T2423.1-2008, GBT 2423.1-2008, GBT2423.1-2008)
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GB/T 2423.1-2008: PDF in English (GBT 2423.1-2008)

GB/T 2423.1-2008
Environmental testing for electric and electronic products - Part 2. Test methods - Tests A. Cold
ICS 19.040
K04
National Standards of People's Republic of China
GB/T 2423.1-2008/IEC 60068-2-1.2007
Replace GB/T 2423.1-2001
Environmental testing of electrical and electronic products
Part 2. Test methods Test A. Low temperature
(IEC 60068-2-1.2007, Environmental Testing-
Part 2-1. Tests-TestA. Cold, IDT)
Released on.2008-12-30
Implementation of.2009-10-01
General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China
China National Standardization Administration issued
Content
Foreword I
1 range 1
2 Normative references 1
3 Terms and Definitions 1
4 Comparison of test methods for non-heat-dissipation test samples and heat-dissipation test samples 2
5 Test Description 3
6 Test procedure 4
7 Relevant specifications should give information 6
8 Information to be given in the test report 6
Appendix NA (informative) Component 8 of the GB/T 2423 standard
Appendix NB (informative) Test A. Low temperature and test B. relationship between high temperature classification code lowercase letters 11
GB/T 2423.1-2008/IEC 60068-2-1.2007
Foreword
GB/T 2423.1 is the first part of the GB/T 2423 standard, and the components of the GB/T 2423 standard are listed in the informative appendix NA.
This part is equivalent to IEC 60068-2-1.2007 "Environmental Test Part 2-1. Test Test A. Low Temperature" (English version).
Compared with IEC 60068-2-1.2007, this section mainly made the following editorial changes.
--- The name of this section was changed to. "Environmental Testing of Electrical and Electronic Products - Part 2. Test Method Test A. Low Temperature";
--- The word "this standard" was changed to "this part";
--- Removed the preface to IEC 60068-2-1.2007;
--- Removed the introduction of IEC 60068-2-1.2007, and translated its contents into the content of the additional informative Appendix NB;
--- Added the informative appendix "components of the GB/T 2423 standard" (see Appendix NA);
--- Added the informative appendix "Test A. Low Temperature and Test B. Relationship between Lowercase Letters of High Temperature Classification Codes" (see Appendix)
NB);
--- Removed "for non-heat-dissipation test samples," in paragraph 1 of Chapter 1.
--- The contents of the last two paragraphs in Chapter 1 were moved to 4.1;
---4.3 heading "non-heat-dissipation test sample" was changed to "test of non-heat-dissipation test sample";
---6.2 The last paragraph is the original text, and this section is changed to Note.
For the sake of clarity, the above changes have been added to the corresponding position in the text.
This part replaces GB/T 2423.1-2001 "Electrical and Electronic Products Environmental Test Part 2. Test Method Test A. Low Temperature",
In comparison, the main changes are as follows.
--- Removed test Aa. low temperature test of temperature change of non-heat-dissipation test sample;
--- Removed Appendix A, Appendix B, Appendix C, Appendix D, Appendix E;
--- Added test Ae. Low temperature test for temperature gradient of heat test sample---The test sample was energized throughout the test.
Appendix NA and Appendix NB of this part are informative annexes.
This part is proposed and managed by the National Technical Committee for Environmental Conditions and Environmental Testing Standardization of Electrical and Electronic Products (SAC/TC8).
This part is drafted by Guangzhou Electric Apparatus Research Institute.
The main drafters of this section. Zhang Zhiyong.
The previous versions of the standards replaced by this section are.
---GB/T 2423.1-1981, GB/T 2423.1-1989, GB/T 2423.1-2001.
GB/T 2423.1-2008/IEC 60068-2-1.2007
Environmental testing of electrical and electronic products
Part 2. Test methods Test A. Low temperature
1 range
The low temperature test specified in this part of GB/T 2423 is applicable to non-heat and heat test samples. Test Ab and test Ad and early
There is no substantial difference in the version 1), the purpose of increasing the test Ae is mainly to detect those requirements during the entire test process including cooling adjustment
The device to be powered on.
The purpose of this low temperature test is limited to the ability to determine the use, transport or storage of components, equipment or other products in low temperature environments.
This low temperature test cannot be used to evaluate the ability of the test sample to withstand temperature changes and the ability to operate in a temperature changing environment.
In case of this, GB/T 2423.22 should be used.
The low temperature test method is subdivided into the following types.
--- Non-heating test sample low temperature test.
● Test Ab, temperature gradient.
---Heat test sample low temperature test.
● Test Ad, temperature gradient;
● Test Ae, temperature gradient, test sample is energized throughout the test.
The test methods given in this section are typically used for test samples that are temperature stable during the test.
2 Normative references
The terms in the following documents become the provisions of this part by reference to this part of GB/T 2423. Quotations with dated
And all subsequent amendments (not including errata content) or revisions do not apply to this section, however, encouragement is achieved in accordance with this section.
The parties to the agreement study whether the latest versions of these documents can be used. For undated references, the latest edition applies to this
section.
GB/T 2421 Environmental testing of electrical and electronic products - Part 1. General (GB/T 2421-1999, idt IEC 60068-1.1988)
GB/T 2422 Environmental Test Terminology for Electrical and Electronic Products (GB/T 2422-1995, eqv IEC 60068-5-2..1990)
GB/T 2423.22 Environmental testing of electric and electronic products - Part 2. Test methods Test N. Temperature change (GB/T 2423.22-
2002, IEC 60068-2-14. 1984, IDT)
GB/T 2424.1 Environmental testing for electric and electronic products - Guide to high temperature and low temperature test (GB/T 2424.1-2005, IEC 60068-3-
1.1974, IDT)
GB/T 2424.5 Electrical and electronic products environmental test temperature test chamber performance confirmation (GB/T 2424.5-2006, IEC 60068-
3-5.2001, IDT)
GB/T 2424.7 Measurement of temperature test chambers for environmental test A and B (with load) for electric and electronic products
(GB/T 2424.7-2006, IEC 60068-3-7..2001, IDT)
IEC 60721 (all parts) Classification of environmental conditions
1) The original IEC 60068-2-1.2007 has “for non-heat-dissipation test samples,” before the sentence.
3 Terms and definitions
The following terms and definitions established by GB/T 2422 apply to this section.
GB/T 2423.1-2008/IEC 60068-2-1.2007
3.1
Refers to the adjusted airflow rate of the workspace, which maintains the set conditions, but is also low enough that the temperature at any point on the test sample will not
Reduced by more than 5K due to air circulation (if possible, no more than 0.5m/s).
3.2
Refers to the adjusted airflow velocity of the workspace, in order to maintain the set conditions, while making the temperature at any point on the test sample due to air circulation
The effect of the ring is reduced by more than 5K.
4 Comparison of test methods for non-heat-dissipation test samples and heat-dissipation test samples
4.1 General
The manufacture and confirmation of the temperature test chamber are carried out in accordance with the provisions of GB/T 2424.5 and GB/T 2424.7. 2)
For high temperature and low temperature test guidelines, see GB/T 2424.1, and general see GB/T 2421. 3)
The test sample is considered to be dissipated only under the following conditions. when the temperature is stable (see GB/T 2421 for the corresponding content),
The temperature at the hottest surface of the test sample measured under free air conditions (for example, low airflow speed cycle) exceeds the air around the test sample.
The temperature is above 5K. When the relevant specification requires a storage or transportation test, or does not specify a load to be applied during the test, the low temperature test Ab is
suitable.
4.2 Workspace is the determination of high airflow speed or low airflow speed
Under the standard environmental conditions of measurement and test (see GB/T 2421), and the air flow rate < 0.2m/s, according to the low temperature strip to be tested
The provisions under the device energize the test sample or add an electrical load.
When the temperature of the test sample is stable, a suitable monitoring device should be used to measure several representative samples on or around the test sample.
The temperature of the location. After that, the temperature rise of each location should be recorded.
Turn on the ventilation of the test chamber to circulate the air, and when the temperature is stable, re-measure the temperature at the above position. If this test
The temperature obtained differs from the temperature measured when no air flow last time exceeds 5K (or other values specified in the relevant specifications) and should be in the test report.
These temperature values were recorded and the test chamber was considered to have a high gas flow rate cycle. Then power off the test sample and remove any load
condition.
4.3 Test of non-heat-dissipation test samples
In the temperature gradient test Ab, the test sample is placed in a test chamber at the temperature of the test chamber, and then the temperature in the test chamber is slowly lowered.
Prevents harmful effects on the test sample due to temperature changes. High airflow speed cycling is recommended as this reduces the temperature
The time required for stability.
4.4 Test of heat dissipation test sample 4)
Test Ad and Test Ae describe the test procedure for the heat test sample at low gas flow rate cycling. This allows the test sample to be in the bureau
The case where the heating point expands inside, similar to what happens in the application after the installed product.
2) This paragraph is located in Chapter 1 of the original IEC 60068-2-1.2007.
3) This paragraph is located in Chapter 1 of the original IEC 60068-2-1.2007.
4) IEC 60068-2-1.2007 is the original "heat dissipation test sample".
4.5 Temperature monitoring
A temperature sensor should be used to measure the temperature of the air in the test chamber. The distance of the temperature sensor from the test sample should be ensured
The effects of thermal diffusion are negligible. Care should be taken to avoid the effects of thermal radiation on these measurements. See GB/T 2424.5 for more information.
4.6 Packaging
For storage and transportation tests, the equipment can be tested with packaging. However, since the low temperature test specified in this section is a steady state test,
The equipment will eventually stabilize at the test chamber temperature, so the package should be removed for testing unless the relevant specifications require packaging or the heating element is
GB/T 2423.1-2008/IEC 60068-2-1.2007
Integrated with the packaging.
4.7 icon
To facilitate the selection of test methods, Figure 1 shows an illustration of several different test methods.
Figure 1 Test A. Block diagram of low temperature test
5 test description
5.1 General
Test Ab, Test Ad, and Test Ae are similar. The differences are found in 5.2.2, 5.3.2, and 5.4.2. The other parts from Chapter 6 are
These tests are common. The rate of temperature change in the chamber should not exceed 1 K/min (the average of no more than 5 min). Related regulations
Fan shall specify the functional requirements for the test sample test.
It should be noted that any cooling device for the test sample is to comply with the relevant specifications.
5.2 Test A犫. Low-temperature test of temperature gradient of non-heat-dissipation test samples
5.2.1 Purpose
This test method is used to carry out the low temperature test of the non-heat-dissipation test sample, and the test sample is placed under low temperature conditions for a long time to reach
The temperature is stable.
5.2.2 Overview
Place the test sample in a test chamber at the temperature of the test chamber, and then adjust the temperature to a severity level that meets the relevant specifications.
temperature. When the temperature of the test sample has stabilized, it is exposed to the specified duration under this condition. For the test, it needs to be powered on.
Test samples (even if they are not heat test samples) should be energized after the test sample temperature has stabilized, and functional tests are performed as needed
Measurement. In this case, it may take some time for the temperature to stabilize, and then the test sample is exposed to the relevant specification at the low temperature.
The duration of the decision.
Test samples are usually tested under non-operating conditions.
This test typically uses a high airflow rate cycle.
5.3.1 Purpose
This test method is used to carry out the low temperature test of the heat test sample, and the test sample is placed under a low temperature condition for a long time to reach the temperature.
Stable.
5.3.2 Overview
If necessary, the test can determine whether the test chamber can meet the requirements of low air flow speed. Put the test sample into the temperature for the test room temperature
GB/T 2423.1-2008/IEC 60068-2-1.2007
In the test chamber, the temperature is then adjusted to a severe temperature that meets the relevant specifications.
The test sample is energized or energized, and the test sample is inspected to determine if its function meets the requirements of the relevant specifications. Test sample should
The duty cycle and load conditions (if applicable) in accordance with the relevant specifications are in operation.
When the temperature of the test sample has stabilized, it is exposed to the duration specified in the relevant specification under this condition.
This test typically uses a low airflow rate cycle.
5.4.1 Purpose
This test method is used to carry out the low temperature test of the heat test sample, and the test sample is placed under a low temperature condition for a long time to reach the temperature.
The degree is stable and the test sample is required to be energized throughout the test.
5.4.2 Overview
If necessary, the test can determine whether the test chamber can meet the requirements of low air flow speed. Put the test sample into the temperature for the test room temperature
In the test chamber, the test sample is energized and functionally tested as needed (see 5.4.3).
The temperature is then adjusted to a stringent grade temperature that meets the relevant specifications. When the temperature of the test sample reaches a stable state,
Exposure to the specified duration.
This test typically uses a low airflow rate cycle.
5.4.3 Powering the test sample
The test sample is then energized or energized and the test sample is inspected to determine if its function meets the relevant specifications.
Test samples shall be in operation according to the duty cycle and load conditions specified in the relevant specifications, if applicable.
6 test procedure
6.1 Performance Confirmation
GB/T 2424.5 gives a guide to the performance verification of the temperature test chamber. GB/T 2424.1 gives the general test A and test B
Operation guide.
The test chamber should be large enough compared to the size and number of heat test samples.
6.2 Work space
The test sample should be fully contained in the workspace of the test chamber.
At steady state, the air temperature flowing to the test sample shall be within ±2K of the test severity level. Empty space
The gas temperature should be measured in accordance with 4.5.
Note. When the above tolerance cannot be maintained due to the size of the test chamber, the tolerance can be relaxed, and the test temperature is ±3K when the temperature is greater than or equal to -25 °C;
The temperature is greater than or equal to -65 ° C, but less than -25 ° C is ± 5K. When the above tolerances are used, they should be indicated in the test report. 5)
6.3 Thermal radiation
The ability of the test sample to transfer heat by means of thermal radiation should be limited as much as possible, usually by heating or cooling elements that block the test sample.
And the method of ensuring that the temperature of the components constituting the inner wall of the test chamber is not significantly different from the temperature of the conditioned air.
6.4 Test samples with artificial cooling device
The relevant specifications should specify the characteristics of the cooling medium of the test sample. When the cooling medium is air, care should be taken to keep the air from being contaminated, and
Keep it dry enough to avoid moisture problems.
5) This paragraph in the original text of IEC 60068-2-1.2007 is the text. Considering that the content of this paragraph is an additional explanation for the relaxation of the temperature tolerance, it should be noted. in
The corresponding content in the original text of IEC 60068-2-2.2007 is the note.
6.5 Installation
The heat transfer and other relevant characteristics of the test sample during installation and connection shall be specified in the relevant specifications. When the test sample is used, it is installed.
These devices should be used during the test in a particular device.
GB/T 2423.1-2008/IEC 60068-2-1.2007
6.6 Severe rating
The relevant specification shall specify the severity of the test expressed by the temperature and the duration of the test. The severity shall be.
a) selected from the values given in 6.6.1 and 6.6.2;
b) from a known environment, if the environment gives a numerical value that is significantly different;
c) Quoted from other well-known related data sources (eg IEC 60721).
6.6.1 Temperature
● -65°C
● -55°C
● -50°C
● -40°C
● -33°C
● -25°C
● -20 ° C
● -10°C
● -5°C
● +5°C
6.6.2 Duration
● 2h
● 16h
● 72h
● 96h
When this test method is used in conjunction with tests related to durability and reliability, attention should be paid to the relevant standards or specifications for such tests.
Specific recommendations for duration.
6.7 Pretreatment
Pretreatment is carried out in accordance with the requirements of the relevant specifications.
6.8 Initial detection
The initial state of the test sample can be obtained by visual inspection and/or functional testing as required by relevant specifications.
6.9 Conditional test
Test samples shall be exposed to low temperature conditions for a specified duration as specified in the relevant specifications.
For the exception that the test sample does not reach temperature stability, the test duration is calculated from the time the test sample is energized. Code
Type, this situation is caused by samples with long working cycles.
6.10 Intermediate detection
The relevant specification may require loading and/or loading at the end of the conditional test or at the end of the conditional test (the test sample is still in the test chamber).
measuring. If such measurements are required, the relevant specifications shall specify the content and time interval of such measurements. For this measurement, try
The test sample should not be removed from the test chamber.
Note. If you are asked to know the performance of a test sample before the end of the specified test duration, you should prepare one for each different test duration.
A separate batch of test samples. Each batch of samples should be individually recovered and final tested.
6.11 Final linear heating
If the test sample remains in operation or load conditions during the test, the power should be removed or the load removed before the temperature rises, but the test
Except for Ae, as this test requires the test sample to remain energized throughout the recovery period.
When the specified test duration is over, the test sample shall be kept in the test chamber and then slowly raised to the temperature of the test standard conditions.
Within the deviation range. The temperature change in the test chamber should not exceed 1K/min (the average value of the time not exceeding 5min).
GB/T 2423.1-2008/IEC 60068-2-1.2007
6.12 Recovery
The test sample shall be subjected to a recovery process or other suitable process in the test chamber. Appropriate steps should be taken to remove water droplets as required, not
Damage test sample.
The test sample is recovered under standard environmental conditions and the recovery time should be sufficient to stabilize the temperature for at least 1 h.
If required by the relevant specification, the test sample shall be continuously energized or loaded and measured during recovery.
If the above standard conditions are not suitable for the test sample to be tested, the relevant specifications may require additional recovery conditions.
6.13 Final inspection
Visual inspection of test samples and performance testing required by relevant specifications shall be performed.
7 Relevant specifications should give information
When the relevant specification contains Test A. Low Temperature, the following details of the applicable project should be given.
a) type of test;
b) pretreatment;
c) initial detection;
d) a detailed description of the installation and support;
e) the state of the test sample (including the cooling system) during the condition test;
f) the severity level, ie the temperature and the duration of the test;
g) temperature change rate;
h) measurement and/or loading during the condition test;
i) recovery (if it is a non-standard condition);
j) final detection;
k) any deviation from the test procedure agreed by the supplier and the buyer;
l) Temperature differences at low airflow rates (see 4.2) are not available.
8 Information to be given in the test report
At least the following information should be given in the test report.
a) customer (name and address);
b) the testing laboratory (name and address, if any, also includes details of the accreditation);
c) the date of testing;
d) type of test (Ab, Ad, Ae);
e) the purpose of the test (development, quality identification, etc.);
f) test standard, version (reference to this section of the date);
g) relevant laboratory testing procedures (code and issue number);
h) description of the test sample (drawings, photographs, quantities, structures, states, etc.);
i) test box identification (manufacturer, model, unique identifier, etc.);
j) performance of the test chamber (set temperature point control, air flow, etc.);
k) air velocity and direction (air flow rate and direction to the test sample);
l) uncertainty of the measurement system;
m) calibration date (the date of the most recent calibration and the next calibration);
n) initial, intermediate and final testing;
o) the required severity level (from the test specification);
GB/T 2423.1-2008/IEC 60068-2-1.2007
p) the severity of the test (measurement points, data, etc.);
q) the performance of the test sample (the result of functional testing, etc.);
r) observations and measures taken during the test;
s) test summary;
t) Distribution.
Note. A log should be completed for each trial, which can be attached to the report.
GB/T 2423.1-2008/IEC 60068-2-1.2007
Appendix NA
(informative appendix)
Part of the GB/T 2423 standard
In addition to this section, the other components of the GB/T 2423 standard are as follows.
GB/T 2423.2-2008 Environmental testing of electrical and electronic products - Part 2. Test methods Test B. High temperature (IEC 60068-2-
2.2007, IDT)
GB/T 2423.3-2006 Environmental testing for electric and electronic products - Part 2. Test method test Cab. constant damp heat test
(IEC 60068-2-78.2001, IDT)
GB/T 2423.4-2008 Environmental testing for electric and electronic products - Part 2. Test methods Test Db Alternating damp heat (12h+
12h cycle) (IEC 60068-2-30.2005, IDT)
GB/T 2423.5-1995 Environmental testing for electric and electronic products - Part 2. Test methods Test Ea and guide. Impact
(idt IEC 60068-2-27.1987)
GB/T 2423.6-1995 Environmental testing for electric and electronic products - Part 2. Test methods Test Eb and guide. Collision
(idt IEC 60068-2-29. 1987)
GB/T 2423.7-1995 Environmental testing for electric and electronic products - Part 2. Test methods Test Ec and guide.
Pour (mainly for equipment type samples) (idt IEC 60068-2-31. 1982)
GB/T 2423.8-1995 Environmental testing of electric and electronic products - Part 2. Test method test Ed. Free fall
(idt IEC 60068-2-32.1990)
GB/T 2423.10-2008 Environmental testing of electric and electronic products - Part 2. Test method test Fc. Vibration (sinusoidal)
(IEC 60068-2-6.1995, IDT)
GB/T 2423.15-2008 Environmental testing of electric and electronic products - Part 2. Test methods Tests Ga and guidance. Steady-state acceleration
Degree (IEC 60068-2-7.1986, IDT)
GB/T 2423.16-2008 Environmental testing for electric and electronic products - Part 2. Test methods Test J and guide.
(IEC 60068-2-10.2005, IDT)
GB/T 2423.17-2008 Environmental testing of electric and electronic products - Part 2. Test method test Ka. Salt spray (IEC 60068-
2-11.1981, IDT)
GB/T 2423.18-2000 Environmental testing for electric and electronic products - Part 2. Test method Tests Kb. salt spray, alternating (chlorination
Sodium solution) (idt IEC 60068-2-52.1996)
GB/T 2423.21-2008 Environmental testing for electric and electronic products - Part 2. Test methods Test M. Low-pressure test method
(IEC 60068-2-13.1983, IDT)
GB/T 2423.22-2002 Environmental testing of electric and electronic products - Part 2. Test methods Test N. Temperature change
(IEC 60068-2-14. 1984, IDT)
GB/T 2423.23-1995 Environmental testing test for electrical and electronic products Q. Sealing
GB/T 2423.24-1995 Environmental testing of electric and electronic products - Part 2. Test method test Sa. Simulated on the ground too
Radiation (idt IEC 60068-2-5.1975)
GB/T 2423.25-2008 Environmental testing of electric and electronic products - Part 2. Test method Test Z/AM. Low temperature/low pressure
Comprehensive test (IEC 60068-2-40. 1976, IDT)
GB/T 2423.26-2008 Environmental testing for electric and electronic products - Part 2. Test method Test Z/BM. High temperature/low pressure
Comprehensive test (IEC 60068-2-41. 1976, IDT)
GB/T 2423.27-2005 Environmental testing of electric and electronic products - Part 2. Test method Test Z/AMD. low temperature/low gas
Pressure/wet heat continuous comprehensive test (IEC 60068-2-39.1976, IDT)
GB/T 2423.1-2008/IEC 60068-2-1.2007
GB/T 2423.28-2005 Environmental testing of electrical and electronic products - Part 2. Test methods Test T. Soldering (IEC 60068-
2-20. 1979, IDT)
GB/T 2423.30-1999 Environmental testing for electric and electronic products - Part 2. Test methods Test XA and guide.
Impregnation in the agent (idt IEC 60068-2-45.1993)
GB/T 2423.31-1985 Basic environmental test procedures for electric and electronic products - Tilt and sway test methods
GB/T 2423.32-2008 Environmental testing of electric and electronic products - Part 2. Test methods Tests Ta. Wet Weighing Method
(IEC 60068-2-54.2006, IDT)
GB/T 2423.33-2005 Environmental testing of electric and electronic products - Part 2. Test method test Kca. high-concentration
Sulfur test
GB/T 2423.34-2005 Environmental testing for electric and electronic products - Part 2. Test methods Test Z/AD. Temperature/Humidity
Combined cycle test (IEC 60068-2-38. 1974, IDT)
GB/T 2423.35-2005 Environmental testing of electric and electronic products - Part 2. Test method test Z/AFc. heat dissipation and non-dispersion
Low temperature/vibration (sinusoidal) comprehensive test of thermal test samples (IEC 60068-2-50.1983, IDT)
GB/T 2423.36-2005 Environmental testing for electric and electronic products - Part 2. Test method Test Z/BFc. heat dissipation and non-dispersion
High temperature/vibration (sinusoidal) comprehensive test of thermal test samples (IEC 60068-2-51.1983, IDT)
GB/T 2423.37-2006 Environmental testing for electric and electronic products - Part 2. Test methods Test L. Dust test
(IEC 60068-2-68.1994, IDT)
GB/T 2423.38-2008 Environmental testing of electric and electronic products - Part 2. Test method test R. Water test method and guide
Then (IEC 60068-2-18.2000, IDT)
GB/T 2423.39-2008 Environmental testing of electric and electronic products - Part 2. Test methods Test Ee. Bounce (IEC 60068-
2-55.1987, IDT)
GB/T 2423.40-1997 Environmental testing of electric and electronic products - Part 2. Test method test Cx. Unsaturated high-pressure steam
Constant damp heat (idt IEC 60068-2-66.1994)
GB......
 
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