Ideal Transformer Calculator

Calculate transformer turns ratio, voltage ratio, and secondary parameters

Primary Voltage (V₁) *

Volts (V)

Secondary Voltage (V₂) *

Volts (V)

Primary Turns (N₁) - Optional

Number of turns

How to Use This Calculator

Enter Voltages

Enter primary and secondary voltages. The calculator will determine the turns ratio.

Enter Primary Turns (Optional)

If you know primary turns, enter it to calculate secondary turns.

Get Results

Click calculate to see turns ratio and secondary turns (if primary turns provided).

Formula

V₂ / V₁ = N₂ / N₁

N₂ = N₁ × (V₂ / V₁)

Where:

V₁ = Primary voltage (V)
V₂ = Secondary voltage (V)
N₁ = Primary turns
N₂ = Secondary turns

Example:

Primary = 120 V, Secondary = 12 V, Primary Turns = 1000

N₂ = 1000 × (12 / 120) = 1000 × 0.1 = 100 turns

About Ideal Transformer Calculator

The Ideal Transformer Calculator calculates transformer parameters assuming an ideal transformer (no losses, perfect coupling). It determines turns ratio and secondary turns based on voltage ratios and primary turns.

When to Use This Calculator

Transformer Design: Calculate turns for transformer design
Voltage Conversion: Determine transformer parameters for voltage conversion
Educational Purposes: Learn about transformer theory
Circuit Analysis: Analyze transformer circuits

Why Use Our Calculator?

✅ Accurate Calculations: Uses ideal transformer formulas
✅ Easy to Use: Simple interface
✅ Free Tool: No registration required
✅ Educational: Includes formulas and examples

Common Applications

Step-Down Transformers: Convert high voltage (120V) to low voltage (12V) for power supplies and electronics.

Step-Up Transformers: Increase voltage for applications like neon signs or high voltage power supplies.

Tips for Accurate Results

Ideal transformer assumes no losses
Voltage ratio equals turns ratio
Real transformers have losses (typically 2-5%)
For real transformers, account for efficiency

Frequently Asked Questions

What is an ideal transformer?

An ideal transformer has no losses, perfect magnetic coupling, and infinite permeability. It's a theoretical model used for calculations. Real transformers have losses due to resistance, core losses, and leakage flux.

What is the turns ratio?

The turns ratio is the ratio of secondary turns to primary turns (N₂/N₁). It equals the voltage ratio (V₂/V₁) for ideal transformers.

How do real transformers differ?

Real transformers have losses (copper losses, iron losses), leakage inductance, and finite permeability. Efficiency is typically 95-99% for power transformers. The calculator assumes ideal conditions.