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GB/T 17619-1998 PDF English

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GB/T 17619-1998: Limits and methods of testing for immunity of electrical/electronic sub-assemblies in vehicles to electromagnetic radiation
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GB/T 17619-199890 Add to Cart Auto, 9 seconds. Limits and methods of testing for immunity of electrical/electronic sub-assemblies in vehicles to electromagnetic radiation  

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GB/T 17619-1998: Limits and methods of testing for immunity of electrical/electronic sub-assemblies in vehicles to electromagnetic radiation


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GB ICS 33.100 L 06 National Standard of the People’s Republic of China Limits and methods of testing for immunity of electrical / electronic sub-assemblies in vehicles to electromagnetic radiation Issued on. DECEMBER 14, 1998 Implemented on. DECEMBER 1, 1999 Issued by. State Quality Technical Supervision Bureau

Table of Contents

Foreword... 3 1 Scope... 4 2 Normative references... 4 3 Definitions... 4 4 Immunity limit... 6 5 Measurement requirements... 6 6 ESA condition during test... 6 7 Frequency range and withstanding time... 7 8 Test signal characteristics... 7 9 Measurement methods... 8 Annex A... 17 Annex B... 21 Annex C... 22 Annex D... 24

1 Scope

This Standard specifies the limits and methods of testing for electromagnetic radiation immunity of electrical / electronic sub-assemblies (ESA) in vehicles. This Standard applies to the electrical / electronic sub-assemblies in vehicles.

2 Normative references

The articles contained in the following standards become the articles of this Standard through reference in this Standard. When this Standard is published, all shown editions are effective. All standards can be revised. All parties who use this Standard are encouraged to explore the possibility of using the latest edition of the following standards. GB/T 4365-1995 Terminology for electromagnetic compatibility GB/T 6113.1-1995 Specifications for radio disturbance and immunity measuring apparatus

3 Definitions

This Standard adopts the following definitions. 3.1 Electromagnetic compatibility (EMC) The ability of equipment or system that can work normally in its electromagnetic environment and does not cause such electromagnetic disturbance to any thing in this environment that they cannot withstand. 3.2 Electromagnetic disturbance Any electromagnetic phenomenon which may cause performance reduction of device, equipment or system, or harm to living or lifeless substances. The electromagnetic disturbance can be the change of electromagnetic noise, unwanted signal or media itself. 3.3 Immunity (to a disturbance) The ability of device, equipment or system that will not reduce the operating performance when encountering electromagnetic disturbances. 3.4 Electromagnetic environment The sum of all electromagnetic phenomenon that is existed in the given site. 3.5 Immunity limit The specified minimum immunity electrical level. 3.6 Reference antenna Within 20MHz~80MHz, it refers to the short-balanced dipole antenna that is half-wave resonance dipole at 80MHz. Above 80MHz, it refers to the balanced half-wave resonance dipole which is tuned at the measuring frequency. 3.7 Shielded enclisure [Translator. enclosure] Screen-grid or overall metal enclosed chamber which is specially designed to insulate indoor and outdoor electromagnetic environment. Its purpose is to prevent the outdoor electromagnetic field to interfere indoor environment, and to prevent various outdoor electromagnetic activities to generate interference emission. 3.8 Semi-anechoic chamber The shield enclosure of which the internal surfaces, except floor, are installed with absorbing materials.

4 Immunity limit

CONDUCT test according to the measurement method described in this Standard and the immunity electrical level specified in Table 1.ESA can work normally under the normal working conditions. The field intensity shall be expressed in V/m, and the injection current shall be expressed in mA.

5 Measurement requirements

5.1 The test equipment shall be able to generate the required test signals in the entire frequency range as specified in this Standard. The test equipment shall meet the requirement of GB/T 6113.1. 5.2 The measuring equipment shall be placed outside the shield enclosure.

6 ESA condition during test

6.1 The measured ESA shall be at normal working condition. Unless that there already have a dedicated measurement method, otherwise, the measured ESA shall be placed according to the methods defied in this Standard. 6.2 The power supply shall be applied to the measured ESA through a (5μH/50Ω) artificial network (AN), and this network must be earthed. The voltage of power supply shall maintain constantly; its deviation shall not exceed ±10% of the nominal value of system working voltage; any fluctuated voltage measured in the monitoring port of artificial network shall be less than 1.5% of the nominal value of system working voltage. 6.3 When calibrating, place the auxiliary equipment that are required by ESA’s operation according to the specification. And the distance between the auxiliary equipment and the reference point must not be less than 1m. 6.4 In order to guarantee to obtain repeatable test results, the technical conditions used in test signal generating device and its line configuration shall be the same as those used in each corresponding calibration (9.2.2, 9.2.4.3, 9.3.4, 9.4.2, 9.5.2 of this Standard).

7 Frequency range and withstanding time

7.1 It shall conduct tests within the frequency range of 20MHz~1000MHz. 7.2 In order to guarantee ESA meeting the requirements of this Standard, the test shall be conducted at least at 14 frequency points within this frequency range, for example.

8 Test signal characteristics

8.1 The maximum envelope amplitude The maximum envelope amplitude of test signals shall be equal to the maximum envelope amplitude of a unmodulated sine wave. The chapter 4 of this Standard specifies the root- mean-square values of this sine wave, see Figure 1. 8.2 Test signal waveform The test signal shall be a sine wave, its amplitude is modulated by a 1kHz sine wave, and the modulation depth m is 0.8±0.04. 8.3 Modulation depth The definition of modulation depth m is.

9 Measurement methods

9.1 Selection of measurement method Within the frequency range of 20MHz~1000MHz, ESA may be tested by selecting the following measurement methods. 9.2 Strip-line method 9.2.1 Test method This test method is to put the connection wire-harness connecting the parts in ESA in a specific field intensity. This is a kind of method to conduct immunity test. 9.2.2 Field intensity calibration in the strip-line In each expected test frequency, it shall input a certain-grade power to the strip-line. And under the situation that measured ESA does not exist, it shall generate required field intensity in test region. 9.2.3 150mm strip-line method 9.2.3.1 Test method This test method is to generate a uniform field intensity between an active conductor (strip- line 50Ω impedance) and an earthed plate (electric conductive plane of mounting table). And it can insert some connection wire-harness in the center of field intensity. The electric controller of measured ESA shall be installed on the earthed plate, but shall be placed outside the strip-line. 9.2.3.2 The minimum length of connection wire-harness, including power cables placed at the electric control part in the strip-line, shall be 1.5m. Unless this connection wire-harness on vehicles is smaller than 1.5m, in this case, the length of connection wire-harness is the maximum length of the wire-harness used in vehicle installment. 9.2.3.3 The full extension length of connection wire-harness, including the maximum length of all branches, is chosen to be 1.5m. 9.2.4 800mm strip-line method 9.2.4.1 Test method This strip-line consists of two parallel metal plates at a distance of 800mm. The measured equipment is placed at the central position between the metal plates, and withstands electromagnetic field (see Figure A3 and Figure A4 of Annex A). 9.2.4.2 Strip-line layout The strip-line shall be placed in the shield enclosure (to avoid external radiation). And the distance BETWEEN it AND walls and metal shield shells shall be greater than 2m, so as to avoid electromagnetic reflection. The radio frequency and absorbing materials can be used to weaken these reflections. The strip-line shall be placed on the non-conductive support which is above the ground at least 0.4m. 9.2.4.3 Strip-line calibration Before the measured system is put in the strip-line, place a field intensity probe in the center of the space between the metal plates of strip-line. The three-dimensional size of this space is 1/3 of the length, width, and height of the space between the plates respectively. The relevant measuring equipment shall be placed outside the shield enclosure. 9.2.4.4 Installation of measured EAS The main control unit shall be placed in the space between parallel plates. The three- dimensional size of this space is 1/3 of the length, width, and height of the space between plates respectively. It shall be placed on a table made by non-conductive materials. 9.2.4.5 Main wiring protective sleeve and sensor cable or exciter cable Main wiring protective sleeve and sensor cable or exciter cable shall be traced vertically and upwardly from the control unit to the internal surface of earthed plate (to make the maximization of electromagnetic field coupling); reach to a free surface along the internal surface of metal plate; surround to the external surface of earthed plate; along the trend of strip-line and feed-in line, connect to the relevant equipment placed on the site where is free of influence from electromagnetic field. For example, at strip-line length direction, the relevant equipment on the ground of shield enclosure which is over 1m apart from the strip- line. 9.3 Free field method 9.3.1 Test method This test method is to expose ESA in the radiation field which is produced by antenna. 9.3.2 Test rack The test shall be conducted on a rack in a semi-anechoic chamber. The rack shall be woody or equivalent non-conductive tables. 9.3.2.1 Earthed plate 9.3.2.2 Installation of measured ESA For large equipment installed on the metal test rack, during the test, the metal rack shall be regarded as a part of earthed plate for corresponding bonding-connection. The surface of test sample shall be put at least 200mm away from the earthed plate edge. The minimum distance BETWEEN all wires and cables AND earthed plate edge is 100mm, and 50mm±5mm above the earthed plate (from the lowest point of wire-harness). The power supply shall be applied to measured ESA through a (5μH/50Ω) artificial network (AN). 9.3.3 Type, position, and direction of field generator 9.3.3.1 Type of field generator 9.3.3.2 Test height and distance 9.3.3.3 Position of antenna against measured ESA 9.3.4 Generate the required field intensity 9.3.4.1 USE "Replacement method" to establish test sites. 9.3.4.2 Replacement method. In each required test frequency, input a certain-grade power to field generator to make it generate required field intensity at reference points (under the situation that measured ESA does not exist, according to the reference points defined in 9.3.3.4). It shall measure and record the pre-determined power grade or other parameters - that directly influence the pre-determined power that are required for determining the field intensity; these parameters - will be used in ESA test. Unless when the test chamber or the equipment changes, then this procedure is required to be carried out repeatedly. 9.3.4.3 In calibration process, the additional equipment is at least 1m away from the reference point. 9.3.4.4 Field intensity measuring equipment. when using replacement method to calibrate the field intensity, use suitable small field intensity measuring equipment to determine the field intensity size. 9.3.5 Field intensity contour 9.3.5.1 When calibrating field intensity by replacement method (before measured ESA being put in test sites), at a straight line – it is parallel to the earthed plate edge where is the nearest to the antenna AND it passes through the reference point, at 0.5m±0.05m positions of reference point’s two sides, the field intensity shall not be less than 50% of rated value. 9.4 TEM cell method 9.4.1 Test method The TEM cell generates a uniform field intensity between inner conductors (core plates) and outer covers (earthed plate), to test ESA immunity (see Figure C1). 9.4.2 Field intensity calibration in TEM cell 9.4.2.1 The electric-field intensity in TEM cell shall be determined according to the following equation. 9.4.3 TEM cell size To maintain a uniform field intensity in TEM cell and obtain repeatable test results, the height of measured ESA shall not be higher than 1/3 of height from the upper plate of cell to the core plate. In Annex C, Figure C2 and Table C1 provide the recommended size of TEM cell. ......
Source: Above contents are excerpted from the full-copy PDF -- translated/reviewed by: www.ChineseStandard.net / Wayne Zheng et al.
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