Experimental method of electromagnetic pulse irradiation effect The experimental method of the electromagnetic effect of the electromagnetic pulse on the electric pre-system is simply to place the electronic system under test in the electromagnetic pulse radiation field, receive the electromagnetic pulse, and study the interference and damage of the system under test under the electromagnetic pulse irradiation. Happening. The experimental configuration is shown in Figure 1. It is mainly composed of Gigatron electromagnetic transmission room (GTEM Cell), Marx generator, console and test system. The Marx generator is used to generate high voltages that, in conjunction with the GTEM chamber, produce a uniform electromagnetic field within the GTEM chamber. The console consists primarily of an oscilloscope, an optical receiver, and a Marx control panel. The optical receiver and the electric field sensor form an analog fiber field measurement system, which is mainly used to convert the radiation electromagnetic field into a voltage signal; the oscilloscope is used to display the electric field waveform; the Marx control panel is used to control the charge and discharge operation of the Marx generator and the steepening gap. Adjustment. Fault reproduction principle Fault recurrence concept Computer systems can cause hardware damage, increased data acquisition errors, memory data changes, program jumps, restarts, and crashes under electromagnetic pulse. These fault phenomena are the aggregates of fault phenomena that occur after a large number of different computers are disturbed in different environments and at different times. If you take out any computer to do experiments, you can only produce a few faults. Because these computers do not have automatic detection function, some faults are not observed even if they occur. Such as If the fault phenomenon is incomplete, it is impossible to find out the law and cause of the fault, let alone the research on protection technology. Therefore, it is necessary to design a computer system dedicated to electromagnetic pulse effect experiments, which has the following functions: Automatically detect and display faults in the system itself; · The most common fault occurs when interference occurs; · The most types of failures occur; · Has a fault reproduction function. Fault recurrence refers to actively taking certain technical means to make the fault recurring. I want to see which kind of fault can occur, and I want to see it happen several times. This is quite different from the design idea of ​​taking effective measures to prevent interference in general circuits. The typical Electrical Wire harnesses that ETOP supplies include dozens of wires and sometimes hundreds of different components and terminations. Our engineering staff is well versed in the design and construction of wire harnesses and is available to assist in the development of the most efficient wiring harness to meet your demands. A basic Wire Harness may include as few as three discreet components, while the more classic harnesses include many more wires and other passive, and potentially active, components. Electrical Wiring Harness, terminal wiring, wire assembling,bullet terminals, lead wire assembly ETOP WIREHARNESS LIMITED , https://www.oemmoldedcables.com