Traditionally, electricity is produced at power stations, which then go to substations, and then finally to households, schools, businesses etc. Therefore the electricity must be sent from the ability stations to the load centres in the foremost reliable and value-effective way. Then an electrostatic discharge device, comprising of an input/output pad, a power offer voltage line, a ground voltage line, a first protection element together with a MOS transistor diode and an insulation layer that features a gate electrode, the primary protection component configured to produce a initial path between the input/output pad and the facility offer voltage line for discharging static electricity;a second protection part configured to produce a second path between the input/output pad and the bottom voltage line for discharging the static electricity;a trigger circuit together with a resistor connected in series to the gate electrode fashioned in the insulation layer in the primary protection part, the trigger circuit configured to transmit a voltage in reaction to static electricity; anda power clamp element coupled with the trigger circuit component, the power clamp component configured to switch the power supply voltage line and the ground voltage line based mostly on the voltage transmitted from the trigger circuit in answer to the static electricity, thereby providing a third path for discharging the static electricity. This is how electricity is transmitted via a laser and/or microwave.
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