diff --git a/doc/img/AntennaTools_plugin_dipole.png b/doc/img/AntennaTools_plugin_dipole.png new file mode 100644 index 000000000..d835b2243 Binary files /dev/null and b/doc/img/AntennaTools_plugin_dipole.png differ diff --git a/doc/img/AntennaTools_plugin_dish.png b/doc/img/AntennaTools_plugin_dish.png new file mode 100644 index 000000000..22594bbbf Binary files /dev/null and b/doc/img/AntennaTools_plugin_dish.png differ diff --git a/plugins/feature/antennatools/readme.md b/plugins/feature/antennatools/readme.md index 4bcc99ee0..c47ccab07 100644 --- a/plugins/feature/antennatools/readme.md +++ b/plugins/feature/antennatools/readme.md @@ -32,7 +32,7 @@ This field displays the total length of a half wave dipole corresponding to the When a length is entered in this field, the calculator will calculate the corresponding frequency (1) and element length (5). -The dipole length is calculated as: l=0.5*k*c/f +The dipole length is calculated as: l=0.5\*k\*c/f

4: Dipole Length Units

@@ -64,7 +64,7 @@ is needed in finding the true value.

7: Frequency

-When entering a frequency in MHz in this field, the calculator will calculate the beamwidth (15) and gain (16) for a dish of the given dimensions at the entered frequency. +When entering a frequency in MHz in this field, the calculator will calculate the beamwidth (15) and gain (16) for a dish of the given dimensions (10 & 11) at the entered frequency.

8: Frequency Select

@@ -73,9 +73,9 @@ Select how the frequency is chosen: * MHz - A frequency can be manually entered in (7) in MHz. * Device set N - The frequency automatically tracks the centre frequency of Device Set N. -

9: Efficiency

+

9: Efficiency

-Specifies the efficiency of the dish in %. When entered, the calculator will calculate the gain (16), according to the entered frequency and dimensions. +Specifies the efficiency of the dish in %. When entered, the calculator will calculate the gain (16), according to the entered frequency (7) and dimensions (10 & 11).

10: Diameter

@@ -113,4 +113,4 @@ Beamwidth is calculated as: 70*lambda/D. Displays the calculated gain in dB. -The gain is calculated as: 10*log10(eff/100.0*(pi*D/lambda)^2) +The gain is calculated as: 10\*log10(eff/100.0\*(pi*D/lambda)^2)