Your cart is empty
You may check out all the available products and buy some in the shop
Return to shop
Frequently Asked Questions
The primary difference between a conventional motor and a Brushless DC (BLDC) motor lies in their design and operation. Conventional motors use brushes and a commutator to deliver current to the motor windings, which causes more friction and wear. In contrast, BLDC motors use electronic controllers to switch current through the motor windings, making them more efficient, longer-lasting, and maintenance-free.
BLDC motors are designed to be more energy-efficient because they lack brushes, reducing energy loss due to friction. They also have a higher power-to-weight ratio and operate with precise electronic control, leading to efficient power consumption and reduced energy wastage compared to conventional motors.
BLDC fans often experience a small jerk at startup because of the initial force needed to overcome inertia. This is due to the rapid acceleration required by the BLDC motor’s electronic control system to initiate rotation. Once in motion, the fan stabilizes and runs smoothly.
BLDC motors offer several advantages: higher energy efficiency, longer lifespan due to the lack of brushes, quieter operation, reduced maintenance needs, and higher torque per weight. They are also typically smaller in size, making them a popular choice for applications where space is a concern.
Yes, you can typically replace conventional fans with Hybrid Econopower fans after paying the difference. Hybrid Econopower fans are designed to be compatible with conventional fan setups, making replacement straightforward.
Yes, many modern BLDC fans offer Wi-Fi connectivity that allows control via a mobile app or smart home integration, which can be an alternative if the remote is lost. Check if the specific model supports Wi-Fi functionality.
The wattage consumption depends on the specific model of the AC/DC inverter fan. On average, BLDC fans consume around 30-40 watts at 220VAC. When switched to 12V DC, the consumption may vary but generally remains energy-efficient, possibly around 15-20 watts, as it draws lower current.
Yes, many AC/DC inverter fans are designed to automatically switch between power sources. When the AC power from WAPDA is unavailable, the fan will automatically draw power from the 12V DC solar source without manual intervention.
Replacing a 2.5uf capacitor with a 3.5uf capacitor may increase RPM, but it could also impact the motor’s efficiency, longevity, and stability. It’s advisable to use the recommended capacitor value to avoid damaging the motor or compromising performance.
The ideal height from the floor to the fan blades is typically between 8 and 9 feet. This height allows for optimal air circulation and effective cooling without causing turbulence.