Notes:
RF Toroid Calculator was developed to help users predict the RF characteristics of a ferrite toroid wound as an inductor.
It uses the manufacturer's (Fair-Rite) published data including the toroid's dimensions and complex permeability characteristics.
The calculator has 4 separate display areas. At the top is the chart display for showing frequency-dependent characteristics. Next is the
schematic display, where a scaled image of the toroid and windings is presented to help with intuitive design. Next is the control panel
section, where the user can select the toroid material, toroid size, wire size, number of windings and excitation voltage.
Inputs via the select widgets:
- Application : Inductor is the only application currently supported.
- Size : Selects the size of the toroid. FT240 is 2.4" in diameter. FT80 is 0.8", etc...
- Material : Manufacturers material mix code, with initial permeability [μi] in square brackets. Pick lower μi for higher frequency applications.
Inputs via the slider widgets:
- AWG : Select the wire gauge. Sliding L-R changes AWG from 40-0. (Defaults to 20 AWG)
- N% : Selects the turns or winding density. Maximum (100%) is reached when the turns are adjacent at the toroid's inner radius. (Defaults to 20%)
- Vrms : The RMS voltage applied to the inductor (Volts). Determines the flux-density (B) and field-intensity (H) within the ferrite toroid. (Defaults to 10Vrms)
- f : Shifts the frequency of interest of the chart display from left-to-right. Left towards kHz, right towards GHz.
Note: Manufacturers recommend keeping the number of turns (N) to a minimum.
Chart display:
The chart title contains manufacturer, size, material and part number of the device.
Calculated parameters are displayed against frequency (log scale). Each parameter may be displayed or hidden
by tapping on the legend key. Tapping on a data point will display the parameters for a single frequency.
- |Z|(Ω) : Impedance magnitude in Ohms.
- R(Ω) : Resistance due to core losses in Ohms.
- X(Ω) : Reactance in Ohms.
- Q : Quality factor.
- I(mA) : RMS current in milliamps. (Hidden by default.)
- μ' : Complex permeability - reactive part. (Hidden by default.)
- μ'' : Complex permeability - resistive part. (Hidden by default.)
- H(Oe) : Core field intensity in Oersted. (Hidden by default.)
- B(G) : Core flux density in Gauss. (Hidden by default.)
- Pd(mW) : Power dissipation in the core, in milliwatts.
Note: To use as an inductor, avoid using where Q is small or less than 1. When Q is less than 1, core loss energy is higher than magnetisation energy.
Schematic display:
Scaled representation of the toroid and the windings. Wire gauge and toroid dimensions are provided.
On the left of the display are the following:
- L : Inductance in microhenries.
- Vrms : Excitation RMS voltage selected.
- Rdc : Wire resistance in ohms.
- Ceff : Experimental effective-capacitance calculation to determine SRF. (Under development so greyed-out.)
- SRF : Experimental self-resonant frequency prediction in MHz. (Under development so greyed-out.)
On the right are the manufacturers data for the selected material.
- μi : Initial permeability @ B < 10 gauss.
- B : Flux density in gauss when applied with H oersted.
- H : Applied field strength in oersted.
- Br : Residual flux density in gauss.
- Hc : Coercive force at 0 gauss.
- Tc : Curie temperature in Celsius.
- ρ : Resistivity in Ω-cm.
- [NiZn] : Material composition. (NiZn, MnZn)
- [nnnn] : Manufacturer's part number.