Feature

●Compact Powerhouse (Size: 2.6 x 0.9 x 0.9in): Our High Voltage Pulse Generator Inverter is incredibly compact, making it a portable powerhouse for your experiments. With dimensions of just 65 x 24 x 22mm, its easy to handle and store.
●Voltage Versatility (6V-12V Input): This module adapts to your power source with an input voltage range of 6V-12V. The input current varies based on voltage, ensuring optimal performance for your specific setup.
●Lightning-Fast Ignition (80KV Output): With an output voltage of about 80KV, this module delivers lightning-fast ignition for various applications. Safety is paramount, so please exercise caution when using.
●Precision Ignition Control (≤1.5cm Ignition Distance): Achieve precision in your experiments with an ignition distance of ≤1.5cm. For safety and efficiency, 1cm is even better, ensuring controlled and reliable ignition.
●Versatile Applications (0.5A Output Current): This module offers versatile applications, making it suitable for a wide range of experiments and projects. The 0.5A output current ensures consistent performance, whether youre testing, igniting, or experimenting.


Description

Product Description:
Upgrade your electronic experiments with our 80kV High Voltage Pulse Generator Inverter. This super arc pulse ignition module is engineered for high performance, providing instant ignition for cigarettes and paper, and it can work continuously for up to 20 seconds. Whether youre a science enthusiast, electronic hobbyist, or need a high-voltage source, this module has you covered.

Specifications:
Size: Approx. 65 x 24 x 22mm / 2.6 x 0.9 x 0.9in
Input voltage: 6V-12V
Input Current: 0.5A-2A (depending on the input voltage)
Input line length: about 10cm/3.94inch
High Voltage type: DC type
Output voltage: about 80KV (please pay attention to safety when used)
Output current: 0.5A
Output line length: about 10cm/3.94inch
High voltage poles ignition distance: ≤1.5cm (1.5cm is maximum distance, 1cm is better)

Product Safety and Usage:
Avoid powering on when there is no load. Adjust the high-voltage terminals distance before powering on; the arc distance is proportional to the battery voltage and capacity.
Ensure that the arc distance remains within 1cm.
This module cannot work continuously for extended periods due to limited heat dissipation.
To determine if the battery capacity can drive the maximum output power, measure the battery voltage while in the arc state.
It is recommended to use lithium batteries with a capacity above 2000mAh for optimal performance.