Perform fast calculations with our user-friendly online calculator! Conveniently crunch numbers and solve equations instantly. Ideal for quick math tasks, our tool simplifies your daily computations effortlessly. Try our intuitive calculator for accurate results on the go!
Easily calculate transformer voltage online using our free Transformer Voltage Calculator. Enter source voltage and winding ratio for instant accurate results.
Ever wondered how to quickly find a transformer's output voltage? You’re in the right place. Our Transformer Voltage Calculator makes it simple. Just enter your source voltage and winding details, and you’ll get the exact transformer voltage instantly.
Transformers are used everywhere from phone chargers to power grids. Knowing how voltage changes between the primary and secondary coils helps in designing safe and efficient systems. That’s why we built this calculator to save you time and ensure precision.
The formula for transformer voltage is very easy to use.
Transformer Voltage (Vt) = Source Voltage (Vs) × (Primary Windings / Secondary Windings)
Here:
Vt = Transformer Voltage (volts)
Vs = Source Voltage (volts)
P = Number of primary windings
S = Number of secondary windings
This formula shows how voltage changes with coil turns. If the primary coil has more turns than the secondary, the output voltage drops. If it’s the other way around, the output rises.
Let’s break it down in plain words:
Example:
If Vs = 60 volts, P = 10 turns, and S = 5 turns, then:
Vt = 60 × (10 / 5) = 120 volts
So, the transformer’s output voltage is 120V.
You don’t need to do the math yourself. Our online Transformer Voltage Calculator does it instantly.
Just follow these steps:
You’ll get the exact transformer voltage in your selected unit. It’s quick, accurate, and perfect for both students and engineers.
Think of a transformer like a see-saw for voltage. When one side (windings) goes up, the other adjusts. If the primary coil has more turns, the voltage steps down. If it has fewer, it steps up.
That’s how power stations transmit electricity over long distances efficiently by stepping up voltage to reduce loss and stepping it down for safe home use.
Our calculator was developed to help users perform transformer voltage calculations with ease. It converts units automatically, checks for input errors, and gives results instantly. You’ll never have to worry about manual math mistakes again.
It’s handy for electrical students, technicians, or anyone who works with circuit design.
The Transformer Voltage Calculator is your quick solution for transformer design and analysis. Whether you’re checking power supply ratings or testing small circuits, this tool ensures accuracy and saves time.
By using this calculator, you’ll understand voltage behavior in transformers in a more visual, practical way no complex math required.
The formula is Vt = Vs × (P / S), where Vs is source voltage, P is primary windings, and S is secondary windings.
Yes. It supports volts (V), millivolts (mV), kilovolts (kV), and megavolts (MV).
Core material, winding resistance, and load conditions can affect efficiency. High-quality materials mean less energy loss.
No, transformers only work with AC (alternating current). For DC conversion, devices like rectifiers and inverters are used.
Voltage changes because of the turns ratio. More turns in the primary coil reduce output voltage, and fewer turns increase it.