1pc/2pcs DC 6-12V to 400KV Step-Up Inverter Arc Pulse Generator Power Module

1-2 pieces of High Voltage Generator, suitable for DC 6-12V input, capable of converting to 400KV Step-Up voltage. This device functions as an Inverter Arc Pulse Generator Power Module equipped with a High Voltage Transformer.

400KV Product Description: This product is a small 400KV high-frequency high-voltage output module. After inputting DC3-6V at the input end, a stable high-frequency arc of about 400KV and 10mm can be obtained. The output can be connected to a voltage doubling boost circuit, which can be used as a high-voltage source for general experiments, electronic instruments, negative ion generators, and small-scale scientific production. Pay attention to safety when using1. This module is a finished module for high-voltage inverters, transformers/boosters used in scientific small-scale production.2. After inputting DC 6V-12V voltage at the input end, tens of thousands of volts of DC high voltage can be obtained at the output end3. Can be used as a high-voltage power supply for general experiments, electronic instruments, negative ion generators, and small-scale scientific production4. The module adopts the principle of For Tesla coil to output high-voltage pulse current, with small size and high efficiency5. Simple peripheral circuit (just connect the For Switch and battery)Product parameters Input voltage: DC 3-6V Input current: 2A-4A Output voltage: 400KVModule usage precautions:1. When high voltage is energized without a load, avoid using high voltage modules. Before powering on, the appropriate distance between the ends of the high-voltage wire must be adjusted. The arc distance of high-voltage wires is proportional to the voltage and capacity of the battery used2. When testing the arc distance, conduct experiments from short to long. Do not exceed the maximum arc distance when energized. Due to the inability to release high-pressure energy, the module is easily damaged3. The module has high power and is not suitable for internal heat dissipation, making it unable to operate for a long time4. The method to determine whether the battery capacity can drive the maximum output power is to measure the battery voltage during the arc process. If it is around 6V, it can output maximum power5. Two small capacity lithium batteries are connected in series to 7.2V, and the measured voltage has dropped to about 4V in the arc state. The smaller the capacity, the lower the voltage. Therefore, it is recommended to use lithium batteries above 2000MA. If possible, it is best to match batteries with a capacity of 4000MA or above