Boost Step-Up Power Module Power Boost Module Boost Power Module Negative Ion Generators For Electronic DIY Science
sku: 567360248
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$9.63
Shipping from: United States
Description
Boost Step-Up Power Module Power Boost Module Boost Power Module Negative Ion Generators for Electronic DIY Science Specification: Item Type: Boost Step-Up Power ModuleModel: HX-801-2 Volume: Length: Approx. 67mm / 2.6in Diameter: Approx.28mm / 1.1in Cut Diameter: 25mm / 1in Voltage: Input: DC6-12V Output: DC800KV Current: Input 4A output 0.5A Line Length: Enter approx. 10cm / 3.9in Output: Approx. 10cm / 3.9in Structure: Integrated housing 2-Electrode Discharge Distance: Approx.0.5 ~ 1.5cm / 0.2 ~ 0.6in (more than easy to damage) How to Use: The 2 poles of the high-voltage output end ( thick wire) are fixed within the specified discharge distance and the low-voltage input end (two-color thin wire) red wire positive electrode and green wire negative electrode are connected to the battery to produce high voltage arc work. Input Requirements: This product does not require an auxiliary circuit and can be used directly after connecting the battery. The input terminal is connected to a single 3.7V lithium battery (such as battery) or nickel-/nickel-hydrogen battery pack 4V or 6V -acid battery etc. (6V battery can be For best results) Package List: 1 x Boost Step-Up Power Module Note: Precautions for using the module: 1. The high-voltage module should avoid being energized when the high-voltage is unloaded. Before energizing the appropriate distance of the high-voltage line must be adjusted. The arcing distance of the high-voltage line is proportional to the battery voltage and capacity used. When testing the arc distance the experiment should be from short to long. When energized it is strictly forbidden to exceed the maximum arc distance. Because the high-voltage energy cannot be released the module is easily damaged. 3. The power of the module is large and the internal is not suitable for heat dissipation so it is not allowed to work for a long time. 4. The method to judge whether the battery capacity can drive the maximum output power is to measure the battery voltage when the arc is drawn. If it is around 6V it can output the maximum power. 5. The two sections of small capacity lithium batteries are connected in series at 7.2V. The measurement voltage has dropped to about 4V in the arc drawing state. The smaller the capacity the lower the voltage. Therefore it is recommended to use lithium batteries above 2000MA and it is best to match batteries above 4000MA if possible.
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