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Power Budget - total power of your system in dBm.
Free Space Loss - power loss over distance.
System Performance - How far will it go, will it get there or what is my Operating Margin?
Fresnel Zones - How much more than LOS or how high should my antenna be?
Power Conversion - dBm to milliwatts and milliwatts to dBm

Use this calculator to walk through all the factors that make up your Power Budget. The 'Power Budget' is the the total power output from the wireless system and is the sum of:

Radio Transmit Power

Minus cables and connectors losses

Plus antenna gain

Enter one parameter in each column (or leave blank) depending on what you know and the calculator will supply the appropriate conversions automatically. Up to 2 decimal places may be entered as 0.xx or .xx.

Note: Connector loss is generally small UNLESS you've got lots of them, in which case you are probably in trouble anyway, or your cable is VERY short. Just leave the line blank if you are feeling lazy.

Radio & Antennas

Radio Power	Antenna Gain	Power

mW OR	dB(i)	= dB
dBm

Cable Loss

Cable Properties	Cable Length
(per 100 ft or m)

dB (100 ft) OR	feet OR
dB (100 m)	meters	= dB

Connector Loss

Frequency in MHz	No. of Connectors
MHz.	No.	= dB



Total Power Budget		dB

Loss of power over distance (assuming no FRESNEL Effect and nothing in the way). This a very idealized calculation and in practice everything interferes with the signal but it will give you a reasonable approximation of the actual loss over distance.

Enter the system Frequency in MHz and the distance in either Kilometers (Km) or Miles below and then click the 'Calculate' button. 1 GHz = 1000 MHz e.g. 2400 = 2.4 GHz.


Frequency	Distance	Results
MHz	Km OR	= dB
	Miles

Defines how much clearance you need (yes you need more than simple Line-of-Sight) and for longer links > 3 Km (2 miles) whether you may have a ground clearance problem from our friendly planet.

Enter the Total link distance (in Miles or Kilometers), if you do not enter an Obstacle distance (in Miles or Kilometers) the calculator will use the mid-point for all calculations (Note: assumes antennas at same height). Finally enter the system Frequency in MHz and then click the 'Calculate' button. 1 GHz = 1000 MHz e.g. 2400 = 2.4 GHz.

The calculator will generate the radius of the 1st Fresnel zone only (at the obstacle point or the mid-point), the 60% (no obstacle) radius and the height of the earth curvature at the mid-point of the Total link distance.


Total	Obstacle	1st Fresnel
Link	Distance	Zone Radius

Km OR	Km OR	m at	ft at
Miles	Miles	Km	Miles

Frequency		60% No Obstacle Radius

MHz		m	ft

		Earth Height (mid-point)

		m	ft

Power in milliwatts to dBm (and vice versa) . Enter the 'Transmit Power' in milliwatts OR the 'Power Ratio' in dBm and click the appropriate 'Calculate' button. 1 Watt = 1000 milliwatts.


Transmit Power		Result
mW		= dBm


Power Ratio		Result
dBm		= mW

This calculator will give you one of three answers:

If you leave distance blank it will apply the defined SAD factor (or default to 30%) to the Operating Margin and supply the max. distance (in Km and Miles) at which the Margin operates.
If you enter the distance it will calculate the Operating Margin and the SAD factor.
If you enter distance but leave RX or TX antenna gain (or both) blank it will apply the chosen SAD factor (or default it to 30% if none supplied) and generate the required antenna power. If both are left blank it will calculate a symmetrical antenna gain.

To RESET any parameter above just set to BLANK before clicking 'Calculate'

Notes: RX Sensitivity is ALWAYS expressed as a negative dBm (- dBm) and is the lowest power of signal your radio can handle. Its buried somewhere in your radio spec and will be typically in the range of -80 to -110 dBm. Don't guess or 'fudge' this number.


Frequency	Distance
MHz	Km OR		dB
	Miles

TX Power	TX Cable	TX Antenna
dBm OR	dBm	dB	dB
mW

RX Sensitivity	RX Cable	RX Antenna
dBm	dB	dB	dB

Margin	RX Power	SAD Factor	Theoretical Margin
	dBm	%	dB

Power Budget Calculations

mW to dBm = 10Log10(Watts) + 30

feet to meters = .3048

meters to feet = 3.28

*Calculator normalizes all distances to kilometers and meters

Connectors loss = 0.10 * square root (frequency in GHz)

Free Space Calculations

Free space loss = 36.56 + 20Log10(Frequency) + 20Log10(Distance in miles)

Calculator normalizes all distances to miles

Miles to Kilometers = 1.609

Kilometers to miles = 0.621

Fresnel Zone Calculations

Calculator normalizes all distances to kilometers and meters

Miles to Kilometers = 1.609

Kilometers to miles = 0.621

feet to meters = .3048

meters to feet = 3.28

1st Fresnel Zone radius (Km) = 17.3 x Sqr root ((Obstacle Distance x (Total Link - Obstacle Distance)) / (Frequency in GHz x Total Link))

1st Fresnel Zone radius (miles) = 72.1 x Sqr root ((Obstacle Distance x (Total Link - Obstacle Distance)) / (Frequency in GHz x Total Link))

Obstacle free radius = 0.6 x 1st Fresnel Zone radius

Radius of nth Fresnel zone (meter) = sqr root ( (n x wave length x Obstacle distance x (Total Link - Obstacle Distance)) / Total Link )

wave length (meters) = speed of light (299,792,458 m/s) / frequency in Hz

Earth curvature calculation = (Total Link) 2 /(8 * earth radius)

Earth radius = 3963 miles, 6378 Km

System Performance Calculations

Calculator normalizes all distances to miles and feet during calculations.

Free space loss = 36.56 + 20Log10(Frequency) + 20Log10(Dist in miles)

mW to dBm = 10Log10(milliWatts) + 30

dBm to mW = 10(dBm/10)

RX Power = Margin - RX sensitivity

Theoretical margin = TX power budget + RX power budget - free space loss

SAD factor = Theoretical margin/TX power budget * 100 and shows the percentage of spare power on transmission.

dBm to Watts Calculations

mW to dBm = 10Log10(Watts) + 30

dBm to mW = 10(dBm/10)

RF Coaxial Cable Comparison