Inductive Reactance Calculator Inductive Reactance Calculator Calculate the inductive reactance using: $$ X_L = 2\pi f L $$ * Enter the operating frequency (Hz) and inductance (H) to get the reactance in ohms (Ω). Step 1: Enter Parameters Frequency, \( f \) (Hz): e.g., 1000 Hz Inductance, \( L \) (H): e.g., 0.01 H (10 […]
Read MoreInductor Quality Factor Calculator Inductor Quality Factor Calculator Calculate the quality factor using: $$ Q = \frac{2\pi f L}{R} $$ * Enter the operating frequency \( f \) (Hz), the inductance \( L \) (H), and the series resistance \( R \) (Ω). Step 1: Enter Parameters Frequency, \( f \) (Hz): e.g., 1000 Hz […]
Read MoreAir Core Inductor Inductance Calculator Air Core Inductor Inductance Calculator Calculate the inductance using: $$ L = \mu_0\,\frac{N^2\,A}{l} $$ where \( A = \pi\left(\frac{d}{2}\right)^2 \) * Enter the number of turns \(N\), coil diameter \(d\) (mm), and coil length \(l\) (mm). Values are converted to SI units, and the result is displayed in microhenries (µH). […]
Read MoreLine Inductance Calculator Line Inductance Calculator Calculate the total inductance using: $$ L_{\text{total}} = \frac{\mu_0\,L}{\pi}\ln\!\left(\frac{D}{r}\right) $$ * Enter the line length, conductor spacing, and conductor radius in millimeters (mm). They are converted to meters automatically, and the result is displayed in microhenries (µH). Step 1: Enter Parameters Line Length, \( L \) (mm): e.g., 1000 […]
Read MoreSpiral Coil Inductance Calculator Spiral Coil Inductance Calculator Estimate the inductance using: $$ L = \frac{\mu_0 \, N^2 \, d_{\text{avg}}}{2} \left[\ln\!\left(\frac{2.46}{\rho}\right) + 0.2\,\rho^2\right] $$ * Enter the number of turns \(N\), inner diameter \(d_{\text{in}}\) (mm), and outer diameter \(d_{\text{out}}\) (mm). Diameters are converted to meters; the result is in nanohenries (nH). Step 1: Enter Parameters […]
Read MoreEdge Coupled Trace Inductance Calculator Edge Coupled Trace Inductance Calculator Estimate the inductance using: $$ L = \frac{\mu_0 \, l}{\pi} \ln\!\left(\frac{2(s+w)}{w}\right) $$ * Enter the overlapping trace length \(l\), trace width \(w\), and spacing \(s\) in millimeters (mm). They will be converted to meters, and the result is in microhenries (µH). Step 1: Enter Parameters […]
Read MoreBroadside Coupled Trace Inductance Calculator Broadside Coupled Trace Inductance Calculator Estimate the inductance using: $$ L = \frac{\mu_0 \, l}{\pi} \ln\!\left(\frac{2h + w}{w}\right) $$ * Enter the overlapping trace length \(l\), trace width \(w\), and substrate thickness \(h\) in millimeters (mm). They are converted to meters, and the result is in microhenries (µH). Step 1: […]
Read MoreCoil Inductance Calculator Coil Inductance Calculator Calculate the inductance using Wheeler’s formula for a single‐layer air‐core coil: $$ L (\mu H) = \frac{d^2 \, N^2}{18\,d + 40\,l} $$ * Enter the coil diameter and coil length in millimeters (mm) and the number of turns (N). The diameters and lengths are converted to centimeters (cm). Step […]
Read MoreMicrostrip Inductor Calculator Microstrip Inductor Calculator Estimate the inductance using: $$ L = \frac{\mu_0 \, N^2 \, d_{\text{avg}}}{2} \left[\ln\!\left(\frac{2.46}{\rho}\right) + 0.2\,\rho^2\right] $$ * Enter the number of turns \( N \), inner diameter \( d_{\text{in}} \) (mm), and outer diameter \( d_{\text{out}} \) (mm). Diameters are converted to meters, and the result is given in […]
Read MoreReactance Calculator Reactance Calculator Calculate the reactance using: Inductive Reactance: $$ X_L = 2\pi f L $$ Capacitive Reactance: $$ X_C = \frac{1}{2\pi f C} $$ * Enter the operating frequency (Hz) and select the reactance type. Then provide the inductance (H) for an inductor or the capacitance (F) for a capacitor. Step 1: Enter […]
Read More