Electromagnetic compatibility (EMC) problems and detection technology for lighting products

EMC test items for LED lighting products can now be classified into electromagnetic interference (EMI) and electromagnetic sensitivity (EMS). EMI (Electromagnetic Interference) is an electromagnetic disturbance that is produced by LED lighting products that may cause degradation or damage to other things, including equipment, systems, people, animals and plants. EMS (Electromagnetic Susceptibility) is an electromagnetic sensitivity (immunity resistance) test that tests the immunity of LED lighting products to electromagnetic disturbances such as lightning strikes, ESD static shock tests, and ringing waves.

Table 2 EMC test items for LED lighting products

Table 2 lists the EMC test items for LED lighting products, including the main test content, main test equipment, and test environment. The following will focus on the three aspects of EMI electromagnetic interference, electrostatic discharge, and surge impact.

2.1, EMI test

Electromagnetic interference (EMI), both conducted and radiated. Conducted interference refers to the coupling (interference) of signals on one electrical network to another electrical network through a conductive medium. Radiated interference refers to an interference source that couples (interferes) its signal to another electrical network through space. In high-speed PCB and system design, high-frequency signal lines, integrated circuit pins, various types of connectors, etc. may become radiation interference sources with antenna characteristics, which can emit electromagnetic waves and affect other systems or other subsystems in the system. normal work. As we all know, EMC's testing target is electrical and electronic equipment, and lighting equipment as an important part of it, naturally there are corresponding constraints. For example, the FCC certification in the United States and the CE certification in the European Union have proposed related test items for LED lighting equipment. When talking about electromagnetic interference, there are generally two sources of interference; one is conducted interference, mainly because the interference signals generated by electronic devices interfere with each other through conductive media or public power lines, and FCC certified conducted interference scans for LED lamps The test frequency starts from 0.15MHz to the end of 30MHz. The conducted interference scan test frequency in CE certification starts from 9KHz to 30MHz. Another type of interference is radiation interference, which mainly means that the interference signal generated by the electronic device transmits the interference signal to another electric network or electronic device through spatial coupling. The FCC certification space radiation interference scanning test frequency of the LED lamp starts from 30MHz to 1GHz. At the end, the space radiation interference scanning test frequency in CE certification starts from 30KHz to the end of 300MHz.

In the lighting industry, there are two methods for testing EMI in the 9KHz-30MHz band. One is to use Antenna (antenna) and EMI receiver, which are based on CISPR15, EN55015, GB17743. For low-frequency magnetic field devices that may be generated by lighting fixtures, the three-loop antenna specified in CISPR16-1-4 is required to measure the low-frequency magnetic field radiated disturbance. It is mainly tested by a three-ring antenna and an EMI receiver. The test is carried out in a shielded room. Note: The three-loop antenna converts the low-frequency magnetic field components in the X direction, Y direction and Z direction into RF signals, and transmits them to the EMI receiver through the coaxial switch three channels for measurement; the other is to use the LISN test method, which is required for testing. It is performed by EMI receiver + artificial power network + LISN and test software. The conducted disturbance test system is used to measure the disturbance generated by the power port of the lamp and the luminaire under normal working conditions. The LISN realizes the isolation, sampling, impedance matching of the RF signal, and provides the electrical path for the EUT, and the EMI receiver measures the RF signal. And finally analyzed, processed and judged by EMI testing software. The test should be carried out in a shielded room.

At the same time, the CDN method was adopted in the EMI test in the 9 kHz-300 MHz band. Another method of testing the radiated electric field disturbance of the illuminating device, namely the CDN common mode terminal voltage method, is also provided in the CISPR 15, EN55015 and GB17743 standards. Adopt CDN method, mainly including EMI receiver, CDN and attenuator. The test can be carried out in a shielded room.

According to relevant basic standards such as CISPR16, we have developed and produced two EMI test equipments. For the traditional and new lighting industry standards, the scanning frequency of the two devices is different. The EMI-9KB EMI scanning frequency is 9KHz~300MHz, suitable for LED and Detection of traditional lighting equipment; EMI-9KA EMI scanning frequency is 9KHz~30MHz, which is mainly suitable for the detection of traditional lighting equipment. To determine whether the measured object meets the standard, we quote the peak, quasi-peak and average values ​​to determine. Considering the difference between different standards, the software can directly call GB17743, FCC, EN55015, GB4343 and other criteria.

2.2, electrostatic discharge

LED is a semiconductor device. In all stages of LED manufacturing, assembly, transportation, storage and use, production equipment, materials, and operators may bring static loss to the LED, resulting in premature LED leakage current increase and light attenuation. Even the "dead light" phenomenon. The electro-optic discharge of the LED includes a reverse leakage current, a forward IV characteristic, and a luminous flux, which cause a certain degree of deterioration. Electrostatic discharge is one of the important factors affecting the reliability of LED and LED lighting products.

LED is a key material for LED lighting products. For the electrostatic discharge immunity test of LED, it should comply with relevant international standards such as American National Standard ANSI/ESD STM5.1, ANSI/ESD STM5.2, International Electrotechnical Association Standard JESD22-A114D, JESD22-A115-A, US Army Square standard MIL-STD-883 and so on. The ESD61000-2 electrostatic discharge generator developed by Shanghai Lixin Electronic Technology is specially designed for the determination requirements and characteristics of LED electrostatic sensitivity. It adopts machine mode (MM) and human body mode (HBM) electrostatic discharge test, and the electrostatic discharge voltage can reach up to 30KV; LED voltage and current measurement accuracy can reach 0.2%; LED forward voltage resolution is 1mV; reverse leakage current resolution is 0.01μA. For LED lighting products, the overall electrostatic discharge immunity test shall be carried out in accordance with GB/T 17626.2/IEC61000-4-2. Contact discharge is the preferred test method for 20 consecutive discharges of each accessible metal part (excluding the terminals) on the LED lighting product case, positive and negative 10 times each. Air discharge can be used at locations where contact discharge is not possible. Indirect discharge shall be applied to the horizontal or vertical coupling plate in accordance with the provisions of GB/T17626.2. In order to ensure the repeatability and consistency of the test results, the electrostatic discharge test must be arranged in accordance with the content of Section 7 of GB/T17626.2. The calibration data of ESD61000-2 electrostatic discharge generator is as follows:

Calibration data: