The power consumption control leads the industry standard. The rated power of the equipment is stable within the range of 15 watts. The power consumption during 10 hours of night operation is only 0.15 kilowatt-hours (KWH). Calculated based on the average electricity price of 0.14 US dollars per KWH for US residents, the daily cost is only 0.021 US dollars. Compared with traditional mosquito control solutions, burning a single mosquito coil for 8 hours consumes an equivalent amount of 0.32 kilowatt-hours of electricity and releases over 137 milligrams of PM2.5. The daily usage cost of chemical spray cans is as high as 0.5 US dollars. The energy efficiency assessment by the U.S. Department of Energy shows that the power of this device is 62% lower than that of a 40-watt fluorescent insecticidal lamp, and it saves up to $16.8 in electricity expenses after running for 1,000 hours.
Innovation breakthroughs in energy efficiency conversion technology have been made. The patented boost circuit has increased the energy conversion efficiency to 98%, and the peak pulse power consumption of the grid’s instantaneous discharge (≤0.05 seconds) is limited within 500 watts. A 2024 study in the IEEE Journal of Power Electronics confirmed that its intelligent load regulation technology reduces ineffective energy consumption to 2%, achieving a fundamental optimization compared to the 15% leakage loss of traditional electric shock devices. The automatic adjustment mechanism of the light-sensing system reduces power to 5 watts (saving 67% of electricity) when the ambient illuminance is greater than 50 lux. The Arizona Desert Hotel has measured that it saves 41% of ineffective lighting energy consumption throughout the year.
The long-term cost-effectiveness is remarkable. The lifespan of the LED light source reaches 35,000 hours (approximately 11.5 years), which is 33 times longer than that of traditional fluorescent tubes. It requires no replacement throughout its lifetime, saving on consumable costs. The titanium alloy electrode of the power grid can withstand more than 500,000 arc breakdowns, and the ten-year maintenance rate of structural integrity is 99%. Calculated based on a three-year usage cycle: The total cost = purchase cost of 39.99 US dollars + electricity cost (0.15 KWH ×365 days ×3 years ×0.14 US dollars =23.00 US dollars) + maintenance cost (0.8 US dollars per year ×3 years =2.4 US dollars), totaling 65.39 US dollars. Compared with the three-year expenditure of $540 (mosquito repellent) or $1,095 (spray) for the chemical plan, the cost savings rate is 88%-94%.
The environmental benefits have been officially certified. A single device can reduce carbon dioxide emissions by 12.3 kilograms per year (EPA formula: Annual electricity consumption 54.75 kilowatt-hours ×0.7kg/ kilowatt-hour). If 12.4 million households (10% of users) across the United States adopt it, 274 million kilowatt-hours of electricity can be saved annually, which is equivalent to reducing 192,000 tons of carbon emissions. Compared with the pesticide production process: Each kilogram of pyrethroid production emits 35 kilograms of carbon dioxide. Using Bug Zapper as a substitute can reduce the annual carbon footprint of each household by 28 kilograms. This equipment has passed the Energy Star certification and has been included in the California Energy Subsidy Catalogue. A rebate of 15 US dollars can be obtained for the purchase price.
The intelligent strategy dynamically optimizes energy consumption. It is equipped with an infrared sensor to monitor the activity intensity of insects. When the temperature is less than 18℃ or the rainfall is greater than 5mm/h, it automatically switches to standby mode (with a power of 1 watt). Users in Florida have tested and proved that this function reduces ineffective energy consumption by another 37%. The power grid load tracking chip achieves millisecond-level response: it maintains a reference power of 3 watts in standby mode and rises to full power of 15 watts at the moment of mosquito contact, with a voltage fluctuation deviation of less than ±1.5%. Data from the Geneva Circular Economy Laboratory shows that this device achieves carbon footprint (14.2kg CO₂) neutrality during the manufacturing stage after 1.2 years of use, and its carbon efficiency throughout the entire life cycle exceeds 99% of similar products.