KP1101A Desktop DC Ion Fan
Model: KP1101A
application area
Product overview
KP1101A desktop DC ion fan is a static elimination device developed and produced by Kapal to eliminate static electricity on the surface of objects.
KP1101A desktop DC ion fan adopts DC ion synchronous emission technology. DC corona discharge is generated by two independent emitter electrodes, which generates a large number of positive and negative air ions, which are blown to the surface of the object to be eliminated by the fan to eliminate electricity.
KP1101A desktop DC ion fan is widely used in electronics, plastics, chemicals, printing, optoelectronics and other industries.
Product features
* The body is exquisite and beautiful in appearance.
* Large amount of ion generation, fast in addition to static electricity.
* Stepless fan speed regulation, stable performance.
* The front grille is removable for easy maintenance.
* Built-in power supply, high efficiency and energy saving, more convenient installation.
* The fan has a good grounding protection function.
Technical parameter
Input voltage | 220V/50Hz |
The output voltage | DC 12V |
power | ≤15W |
Ion balance | ≤|±10V|(300mm from the test center in front of the fan) |
Power down time | ≤2S(300mm from the test center in front of the fan) |
effective coverage | 300×600mm (W*L) |
Operating temperature | 0℃-50℃ |
Working humidity | <75% |
Air volume | 50-140CFM |
noise | ≤45dB |
Ozone concentration | ≤ 0.03 ppm (150mm from the front center of the air outlet) |
weight | About 1.27kg |
140mm(L)*75mm(W)*200mm(H)(含支架) | |
140mm(L)*75mm(W)*178mm(H)(不含支架) | |
surface | electrostatic spraying |
Test result
Test Conditions | |||
Humidity: ≤60% Test voltage: 1KV-100V Ambient temperature: 22℃ | |||
distance | 300mm | 600mm | |
Neutralization time | just | 0.7s | 1.1s |
burden | 0.7s | 1.2s | |
residual voltage | just | +5v | +7v |
burden | -7v | -8v |
* The test results of the test instrument using ME268A electrostatic comprehensive tester shall prevail.
* Tested according to IEC-61340-5-1 A·6.
* Tested data may vary due to changes in ambient temperature and humidity.