The loss during the conversion from DC to AC primarily occurs in the inverter. The efficiency of this conversion can vary based on the quality and type of inverter used. Here are some key points to consider: Efficiency of Inverters: Typical Efficiency Range: Modern inverters typically have efficiencies ranging from 90% to 98%. This means that 2% to 10% of the energy is lost during the conversion process. Factors Affecting Efficiency: Inverter Type: Different types of inverters (e.g., pure sine wave, modified sine wave, and square wave) have different efficiencies, with pure sine wave inverters generally being the most efficient. Load Conditions: Inverter efficiency can vary depending on the load. Inverters often have higher efficiency at or near their rated capacity and may be less efficient at very low or very high loads. Quality of Components: Higher quality inverters with better components and design will have higher efficiencies and lower losses. Example Calculation: If you have a DC source providing 1000 watts of power and the inverter has an efficiency of 95%, the AC power output would be: AC Power Output=DC Power Input×EfficiencyAC Power Output=DC Power Input×Efficiency AC Power Output=1000 W×0.95=950 WAC Power Output=1000W×0.95=950W So, in this case, the loss would be: Power Loss=DC Power Input−AC Power OutputPower Loss=DC Power Input−AC Power Output Power Loss=1000 W−950 W=50 WPower Loss=1000W−950W=50W Key Takeaways: Conversion Loss: The loss during the conversion from DC to AC is typically between 2% and 10%, depending on the inverter's efficiency. Energy Management: When designing a system that involves DC to AC conversion, it is essential to factor in these losses to ensure that the power supply meets the demand adequately. Choosing a high-quality inverter and operating it within its optimal range can minimize these losses and improve overall system efficiency.
@@shivkumargorge7709BLDC is not that much simple like brushed DC motor, BLDC need 3 phase inverter electronic components, efficiency is not that much good, Torque is less in Hub Motors
Good Information 👍 Good Video👍
So nice of you
Nice Video👌
Thank you 👍
What is thr loss during conversion ftom DC to AC?
The loss during the conversion from DC to AC primarily occurs in the inverter. The efficiency of this conversion can vary based on the quality and type of inverter used. Here are some key points to consider:
Efficiency of Inverters:
Typical Efficiency Range: Modern inverters typically have efficiencies ranging from 90% to 98%. This means that 2% to 10% of the energy is lost during the conversion process.
Factors Affecting Efficiency:
Inverter Type: Different types of inverters (e.g., pure sine wave, modified sine wave, and square wave) have different efficiencies, with pure sine wave inverters generally being the most efficient.
Load Conditions: Inverter efficiency can vary depending on the load. Inverters often have higher efficiency at or near their rated capacity and may be less efficient at very low or very high loads.
Quality of Components: Higher quality inverters with better components and design will have higher efficiencies and lower losses.
Example Calculation:
If you have a DC source providing 1000 watts of power and the inverter has an efficiency of 95%, the AC power output would be:
AC Power Output=DC Power Input×EfficiencyAC Power Output=DC Power Input×Efficiency
AC Power Output=1000 W×0.95=950 WAC Power Output=1000W×0.95=950W
So, in this case, the loss would be:
Power Loss=DC Power Input−AC Power OutputPower Loss=DC Power Input−AC Power Output
Power Loss=1000 W−950 W=50 WPower Loss=1000W−950W=50W
Key Takeaways:
Conversion Loss: The loss during the conversion from DC to AC is typically between 2% and 10%, depending on the inverter's efficiency.
Energy Management: When designing a system that involves DC to AC conversion, it is essential to factor in these losses to ensure that the power supply meets the demand adequately.
Choosing a high-quality inverter and operating it within its optimal range can minimize these losses and improve overall system efficiency.
Good lecture
Thanks for liking do share this video with your friends
Very good Sir
Thanks and welcome
सबसे अच्छा हाॅडोजन सैल आहे
depends upon the use
❤
super
Thank you so share this video with your friends and family
to sabse acha BLDC motor hai
Yes
No, PMSM is better for EV, bldc is good for Fans & Quadcopters
@@Universal_Bro but it needs complicated circuitry than bldc
Bldc give good performance at minimum components
@@shivkumargorge7709BLDC is not that much simple like brushed DC motor, BLDC need 3 phase inverter electronic components, efficiency is not that much good, Torque is less in Hub Motors
Hii
Hi
Hello yes?