RADIO CALCULATIONS
by Harry Lythall - SM0VPO

Here are a few calculators for electronic/radio circuits. They are quite crude, but they work. Note that these formulas now accept "floating point" variables (an inductance value of 0.01 is a valid number).

Resistors In Series (or Capacitors in Parallel)

Just add them together!

Resistors In Parallel (or Capacitors in Series)

Formula: Effective Resistance = (R1 x R2) / (R1 + R2)
(all units are the same, Ohms/Farads etc.)

R1
R2
Effective Resistance

Reactance of a Capacitor

Formula: Reactance = 1 / (2 * Pi * F * C)

Freq (Hz) [F]
Cap (pF) [C]
Reactance (Ohms)

Reactance of an Inductor

Formula: Reactance = 2 * Pi * F * L

Freq (Hz) [F]
Induct (uH) [L]
Reactance (Ohms)

Basic frequency

Formula: Frequency (F) = 1 / (2 * Pi * Sqrt(LC))

Capacitance (pF) [C]
Inductance (uH) [L]
Frequency (F)(Hz)

Single Layer Coil

Formula:

Inductance (uH) [L]
Length of Winding [l]
Coil Outside Radius [r]
All sizes in millimeters
Turns required [N]

Multi-Layer Coil

Formula:

Inductance (uH) [L]
Winding depth+Form Dia [a]
Winding Length [b]
Winding Depth [c]
Turns required
(All sizes in millimeters)

Heatsink Evaluation

Calculates the effective temperature rise coefficient of a measured heatsink. Area is EXPOSED surface area of heatsink in square centimeters.

Formula: Degrees Centigrade per Watt = 50 / Sqrt(Area sq-cm )

Area (sq-cm) [A]
Exposed areas only.
Degrees C / Watt

Heatsink Calculation

Calculates heatsink surface area needed for a given heatsink temperature coefficient.

Formula: Area Required (sq-cm) = Sq (50/C-watt)

Degrees C / Watt
Exposed areas only
Area Required (sq-cm)

Attenuators - "T" and "H" Type

Formulas:

The Input/Output powers may be in any electrical unit you prefer, eg: Meggawatts, Picowatts, Joules, Hamster-treadmill revolutions per hour etc.

Enter Input Power
Enter Output Power
Enter Input Impedance
Enter Output Impedance
R1 value (for unbalanced)
R2 value (for unbalanced)
R1/2 value (for balanced)
R2/2 value (for balanced)
R3 value

Negative values of resistance occur when impossible values of input and output impedance and attenuation are entered. For example, it is not possible to drive a 50-ohm line from a 600-ohm line and have a voltage attenuation factor of less than 6.78

Attenuators - Square (or Box) Type

Formulas:

The Input/Output powers may be in any electrical unit you prefer, eg: Meggawatts, Picowatts, Joules, Hamster-treadmill revolutions per hour, etc.

Enter Input Power
Enter Output Power
Enter Input Impedance
Enter Output Impedance
R1 value
R2 value
R3 value (for unbalanced)
R3/2 value (for balanced)
SM0VPO

Again, negative values indicate an impossible attenuation situation.

I will now research formulas for the calculation of alcoholic strength/sugar quantity for brewing as well as for calculating alcoholic content of the "mash" when the boiling temperature is known. If you have any information in these fields, or you think another aspect of radio/electronis would be usefull then please drop me a line. Very best regards from Harry - SM0VPO

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