SAE J1113/24 PDF
SAE J1113/24 PDF
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SAE J1113/24 PDF

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Immunity to Radiated Electromagnetic Fields; 10 kHz to 200 MHz – Crawford TEM Cell and 10 kHz to 5 GHz – Wideband TEM Cell
standard by SAE International, 08/06/2010

SAE J1113/24 – Immunity to Radiated Electromagnetic Fields; 10 kHz to 200 MHz – Crawford TEM Cell and 10 kHz to 5 GHz – Wideband TEM Cell

This part of SAE J1113 specifies the transverse electromagnetic mode (TEM) cell test methods and procedures for testing the electromagnetic immunity of electronic components (DUTs) for passenger cars, commercial vehicles and similar applications. Methods using the constant cross-section TEM cell (Crawford TEM) and the flared cross-section TEM cell (wideband TEM) are discussed in the document. The electromagnetic disturbance considered in this part of SAE J1113 will be limited to continuous narrowband electromagnetic fields. TEM cells produce both electric and magnetic fields simultaneously. The test is directly applicable to DUTs whose height is less than 1/3 the septum height; somewhat larger modules can be tested with conditions applied. The Crawford TEM and wideband TEM cell may be used for testing within the 1/3 height condition without demonstrating field uniformity within the cell, if the test set-up complies with the other provisions of this standard.

This test can be used for two purposes: a. Testing the immunity of DUTs with major field coupling to the DUT and wiring harness; b. Testing the immunity of DUTs with major field coupling to the DUT.

The methods defined in this document have some significant differences from ISO 11452-3. Careful deliberation has been given to the need to diverge from the international standard. The primary differences are the method of bringing leads from the DUT out of the TEM cell and the inclusion of the wideband TEM cell.

Immunity measurements of complete vehicles are generally only possible by the vehicle manufacturer. The reasons, for example, are the high costs of a vehicle sized absorber lined chamber, preserving the secrecy of prototypes or the large number of different vehicle models. Therefore, the TEM cell is useful for research, development, and quality control. This test method is also required by many vehicle manuafcturers.

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