...
- the Interefering link transmitter uses a Power of 33 dBm; (#1 of Figure 86)
- the Interefering link transmitter uses an omni-directional antenna of 11 dBi gain; (#2)
- the Interefering link transmitter uses an antenna height of 30m; (#3)
- the Interefering link transmitter uses an emission bandwidth of 200 kHz and a reference bandwidth Bref = 200 kHz. (#4)
The emission bandwidth of 200 kHz is defined through the emission mask (see Figure 86). This interefering link transmitter emission mask is defined in dBc. Then, enter an attenuation given in a reference bandwidth, the corresponding power is derived using the following equation:
Unit body P(dBm/Bref) = Pe (dBm)+Att(dBc/Bref)
...
(Eq. 18)
Where Pe is the power of the Interefering link transmitter within the emission bandwidth (also know as the in-band power). The sign of Att(dBc/Bref) is explained in section A7.5. Then, in this example, within the emission bandwidth (200kHz- offset between –0.1 MHz and 0.1 MHz), the power is 33 dBm, if the reference bandwidth is supposed to be equal to the emission bandwidth then Att = 0 dBc/Bref, this gives:
...
Unit body 33 (dBm/200kHz) = 33 +0 (dBc/Bref)
...
The attenuation in dBc should be taken equal to 0 dBc/200 kHz (the link between the mask given in a reference bandwidth and the mask defined in 1 MHz is explained in ANNEX 6:).
...
Figure 87: Spectrum emission mask settingsAnchor F087 F087
...