kopia lustrzana https://github.com/miguelvaca/vk3cpu
Updated the Notes
miguel
rodzic
d4a1043ff3
commit
e8ec1d5cfb
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@ -59,16 +59,21 @@
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<li>ℓ : Length of the coil (mm). Equal to c x N.</li>
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</ul>
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<u>Calculated parameters:</u>
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<ul>
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<ul> Frequency independent:
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<li>L : Inductance is calculated using Nagaoka's equation incorporating his coefficient.</li>
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<li>C : Capacitance is calculated using Knight's 2016 paper on self-resonance and self-capacitance of solenoid coils.</li>
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<li>Rdc : DC resistance is calculated using conductor length divided by the conductor cross-sectional area, assuming a copper conductor.</li>
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<li>SRF : Self-resonant frequency (MHz) for the unloaded coil. </li>
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<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
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<li>|Z| : Impedance at the given frequency. (Ω)</li>
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<li>wire : Length of wire required to wind the inductor. </li>
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</ul>
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<ul> Frequency dependent: (Text goes <font color="red">RED</font> when selected frequency > SRF. Inductor model is not accurate once SRF is exceeded.)
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<li>f : Selected frequency in MHz</li>
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<li>δ : Skin depth due to skin effect (μm)</li>
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<li>Rac : AC resistance is calculated using the skin effect and proximity resistance from empirical data collected by Medhurst using the spacing ratio, and length-to-diameter ratio.</li>
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<li>Q : Quality factor of device, based on reactance (X) ÷ resistance (Rac) at the given frequency.</li>
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<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
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<li>Z : Complex impedance at the given frequency. (Ω)</li>
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<li>|Z| : Impedance magnitude at the given frequency. (Ω)</li>
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<li>Q : Effective Quality Factor of the inductor at the given frequency. (|Z.im|/Z.re)</li>
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</ul>
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</div>
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</section>
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@ -59,16 +59,21 @@
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<li>ℓ : Length of the coil (inches). Equal to c x N.</li>
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</ul>
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<u>Calculated parameters:</u>
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<ul>
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<ul> Frequency independent:
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<li>L : Inductance is calculated using Nagaoka's equation incorporating his coefficient.</li>
|
||||
<li>C : Capacitance is calculated using Knight's 2016 paper on self-resonance and self-capacitance of solenoid coils.</li>
|
||||
<li>Rdc : DC resistance is calculated using conductor length divided by the conductor cross-sectional area, assuming a copper conductor.</li>
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<li>SRF : Self-resonant frequency (MHz) for the unloaded coil. </li>
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<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
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<li>|Z| : Impedance at the given frequency. (Ω)</li>
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<li>wire : Length of wire required to wind the inductor. </li>
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</ul>
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<ul> Frequency dependent: (Text goes <font color="red">RED</font> when selected frequency > SRF. Inductor model is not accurate once SRF is exceeded.)
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<li>f : Selected frequency in MHz</li>
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<li>δ : Skin depth due to skin effect (μm)</li>
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<li>Rac : AC resistance is calculated using the skin effect and proximity resistance from empirical data collected by Medhurst using the spacing ratio, and length-to-diameter ratio.</li>
|
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<li>Q : Quality factor of device, based on reactance (X) ÷ resistance (Rac) at the given frequency.</li>
|
||||
<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
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<li>Z : Complex impedance at the given frequency. (Ω)</li>
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<li>|Z| : Impedance magnitude at the given frequency. (Ω)</li>
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<li>Q : Effective Quality Factor of the inductor at the given frequency. (|Z.im|/Z.re)</li>
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</ul>
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</div>
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</section>
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@ -61,16 +61,21 @@
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<li>ℓ : Length of the coil (mm). Equal to c x N.</li>
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</ul>
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<u>Calculated parameters:</u>
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<ul>
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<ul> Frequency independent:
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<li>L : Inductance is calculated using Nagaoka's equation incorporating his coefficient.</li>
|
||||
<li>C : Capacitance is calculated using Knight's 2016 paper on self-resonance and self-capacitance of solenoid coils.</li>
|
||||
<li>Rdc : DC resistance is calculated using conductor length divided by the conductor cross-sectional area, assuming a copper conductor.</li>
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<li>SRF : Self-resonant frequency (MHz) for the unloaded coil. </li>
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<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
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<li>|Z| : Impedance at the given frequency. (Ω)</li>
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<li>wire : Length of wire required to wind the inductor. </li>
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</ul>
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<ul> Frequency dependent: (Text goes <font color="red">RED</font> when selected frequency > SRF. Inductor model is not accurate once SRF is exceeded.)
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<li>f : Selected frequency in MHz</li>
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<li>δ : Skin depth due to skin effect (μm)</li>
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<li>Rac : AC resistance is calculated using the skin effect and proximity resistance from empirical data collected by Medhurst using the spacing ratio, and length-to-diameter ratio.</li>
|
||||
<li>Q : Quality factor of device, based on reactance (X) ÷ resistance (Rac) at the given frequency.</li>
|
||||
<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
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<li>Z : Complex impedance at the given frequency. (Ω)</li>
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<li>|Z| : Impedance magnitude at the given frequency. (Ω)</li>
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<li>Q : Effective Quality Factor of the inductor at the given frequency. (|Z.im|/Z.re)</li>
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</ul>
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</div>
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</section>
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@ -59,16 +59,21 @@
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<li>ℓ : Length of the coil (inches). Equal to c x N.</li>
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</ul>
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<u>Calculated parameters:</u>
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<ul>
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<ul> Frequency independent:
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<li>L : Inductance is calculated using Nagaoka's equation incorporating his coefficient.</li>
|
||||
<li>C : Capacitance is calculated using Knight's 2016 paper on self-resonance and self-capacitance of solenoid coils.</li>
|
||||
<li>Rdc : DC resistance is calculated using conductor length divided by the conductor cross-sectional area, assuming a copper conductor.</li>
|
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<li>SRF : Self-resonant frequency (MHz) for the unloaded coil. </li>
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<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
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<li>|Z| : Impedance at the given frequency. (Ω)</li>
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<li>wire : Length of wire required to wind the inductor. </li>
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</ul>
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<ul> Frequency dependent: (Text goes <font color="red">RED</font> when selected frequency > SRF. Inductor model is not accurate once SRF is exceeded.)
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<li>f : Selected frequency in MHz</li>
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<li>δ : Skin depth due to skin effect (μm)</li>
|
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<li>Rac : AC resistance is calculated using the skin effect and proximity resistance from empirical data collected by Medhurst using the spacing ratio, and length-to-diameter ratio.</li>
|
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<li>Q : Quality factor of device, based on reactance (X) ÷ resistance (Rac) at the given frequency.</li>
|
||||
<li>Xₗ : Inductive reactance at the given frequency. (Ω)</li>
|
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<li>Z : Complex impedance at the given frequency. (Ω)</li>
|
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<li>|Z| : Impedance magnitude at the given frequency. (Ω)</li>
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<li>Q : Effective Quality Factor of the inductor at the given frequency. (|Z.im|/Z.re)</li>
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</ul>
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</div>
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</section>
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