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Product introduction: This module is a high-voltage module/high-voltage generator made of high-voltage package/transformer through component composition circuit, which can be used as a high-voltage source for students' science popularization experiment/electronic instrument/negative ion generator/small science production. The module is made using the principle of Tesla coil, which outputs high-voltage pulse, with small size, high efficiency and strong discharge intensity.
Product Name: High Voltage Generator
Model: HX-901
Volume: length 88mm, diameter 26mm, cross-sectional diameter 24mm
Voltage: Input DC3.7-6V,
Output: DC800KV
Current: Input 4A, output 0.5A
Line length: Input about 10 centimeters,
Output about 10 centimeters
Structure: Shell integrated
Discharge distance between two poles: about 0.5-1.5 centimeters (beyond which it is easy to be damaged)
Purpose: Commonly used in high-voltage production, electronic DIY, product development, high-voltage electronic anti-theft, etc
Usage: The two poles of the high-voltage output end (monochrome thick wire) are fixed within the specified discharge distance, and the low-voltage input end (two colored thin wire) has a red wire positive pole and a green wire negative pole connected to the battery, which can generate high-voltage arc operation.
Input requirements: this product does not need an auxiliary circuit, but can be directly used when connected to a battery. The input terminal is connected to a single 3.7V lithium battery (such as 18650 battery) or a nickel cadmium/Nickel–metal hydride battery pack, a 4V or 6V Lead–acid battery, etc. (6V battery can achieve the best effect)
Module usage precautions:
1. The high-voltage module should avoid being powered on when the high-voltage is unloaded. Before powering on, the appropriate distance between the high-voltage wire ends must be adjusted. The arcing distance of the high-voltage wire is proportional to the battery voltage and capacity used.
2. When testing the arc distance, the experiment should be conducted from short to long. It is strictly prohibited to exceed the maximum arc pulling distance when powered on. Due to the inability to release high-voltage energy, it is very easy to damage the module.
3. The module has high power and is not suitable for internal heat dissipation, so it cannot be operated for a long time.
4. The way to determine whether the battery capacity can drive the maximum output power is to measure the battery voltage during arc pulling. If it is around 6V, the maximum power output can be achieved.
5. A small capacity lithium battery with two sections connected in series has a voltage of 7.2V, and the measured voltage in the arcing state has dropped to around 4V. The smaller the capacity, the lower the voltage. So it is recommended to use a lithium battery with a capacity of over 2000MA, and it is best to have a battery with a capacity of over 4000MA if possible.
Model: HX-901C2 (Enhanced version 6-12V can work continuously for one minute, exceeding working hours is strictly prohibited)
Input voltage: DC6-12v
Input current: 1A-3A (voltage dependent)
High voltage type: pulse high and low voltage integrated type
Output voltage: approximately 500000 to 1 million volts (please be careful when using)
High voltage bipolar discharge distance: 5-15mm
Output high-voltage line length: approximately 100mm
Input power line length: approximately 100mm (red line represents positive pole)
Boundary dimension: 88 * 26mm
About power supply: two 3.7V lithium batteries can be used in series, such as 18650 batteries, idle mobile phone batteries (to remove the protective plate, the recommended capacity is more than 2000mAh) or nickel cadmium/Nickel–metal hydride battery packs, 6V Lead–acid battery, etc.Â
This module is a finished product of a scientific small-scale high-voltage inverter transformer/booster. After inputting DC6-12V voltage at the input end, it can obtain about tens of thousands of volts of DC high voltage (about 5-1.5cm of arc) at the output end. It can be used as a high voltage source for middle school science popularization experiments, electronic instruments, negative ion generators, and scientific small-scale production.Â
Attention:
High voltage modules should be avoided from being powered on without load. (Before powering on, the appropriate distance between the high-voltage wire ends must be adjusted. The arcing distance of the high-voltage wire is proportional to the voltage and capacity of the battery used. When testing the arcing distance, the experiment should be conducted from short to long. It is strictly prohibited to power on beyond the maximum arcing distance. Due to the inability to release high-voltage energy, it is easy to damage the module.)
Model: HX-901-2 (regular version, requires intermittent use, cannot be used continuously for a long time)
Input voltage: DC6-12v
Input current: 1A-3A (voltage dependent)
High voltage type: pulse high and low voltage integrated type
Output voltage: approximately 500000 to 1 million volts (please be careful when using)
High voltage bipolar discharge distance: 5-15mm
Output high-voltage line length: approximately 100mm
Input power line length: approximately 100mm (red line represents positive pole)
Boundary dimension: 88 * 26mm
About power supply: two 3.7V lithium batteries can be used in series, such as 18650 batteries, idle mobile phone batteries (to remove the protective plate, the recommended capacity is more than 2000mAh) or nickel cadmium/Nickel–metal hydride battery packs, 6V Lead–acid battery, etc.Â
This module is a finished product of a scientific small-scale high-voltage inverter transformer/booster. After inputting DC6-12V voltage at the input end, it can obtain about tens of thousands of volts of DC high voltage (about 5-1.5cm of arc) at the output end. It can be used as a high voltage source for middle school science popularization experiments, electronic instruments, negative ion generators, and scientific small-scale production.Â
Attention:
High voltage modules should be avoided from being powered on without load. (Before powering on, the appropriate distance between the high-voltage wire ends must be adjusted. The arcing distance of the high-voltage wire is proportional to the voltage and capacity of the battery used. When testing the arcing distance, the experiment should be conducted from short to long. It is strictly prohibited to power on beyond the maximum arcing distance. Due to the inability to release high-voltage energy, it is easy to damage the module.)
