14-30 Remote control
Then, the arrays containing the level related to the tuned frequencies can be
interpreted using the data OffRec and LenRec (respectively OffRec1, LenRec1
for sweep 1 and OffRec2, LenRec2 for sweep 2) as follows:
Level Array
From here all figures represent the level referred to the tuned frequency
And are expressed in hundredth of dBm
OffRecn+1
Level Fstart
Peak
Little Endian 16 bit integer representing the level referred to start frequency
of sub sweep n.
OffRecn +2
OffRecn +3
Level Fstart
Alternate
Detector
Little Endian 16 bit integer representing the level of the alternate detector
referred to start frequency of sub sweep n.
OffRecn +4
OffRecn +5
Level Fstart
+Fstep
Little Endian 16 bit integer representing the level referred to start frequency
of sub sweep n plus step frequency of sub sweep n.
OffRecn +6
OffRecn +7
Level Fstart
+Fstep
Alternate
Detector
Little Endian 16 bit integer representing the level of the alternate detector
referred to start frequency of sub sweep n plus step frequency of sub
sweep n.
OffRecn +8
OffRecn +9
Level Fstart
+2*Fstep
Little Endian 16 bit integer representing the level referred to start frequency
of sub sweep n plus 2* step frequency of sub sweep n.
OffRecn +10
OffRecn +11
Level Fstart
+2*Fstep
Alternate
Detector
Little Endian 16 bit integer representing the level of the alternate detector
referred to start frequency of sub sweep n plus 2* step frequency of sub
sweep n.
OffRecn +12
.... ....... ..........
.... ....... ..........
OffRecn +
(2*LenRecn) +1
Level Fstop Little Endian 16 bit integer representing the level referred to Stop
frequency of sub sweep n.
OffRecn +
(2*LenRecn) +2
OffRecn +
(2*LenRecn) +3
Level Fstop
Alternate
Detector
Little Endian 16 bit integer representing the level of the alternate detector
referred to Stop frequency of sub sweep n.
OffRecn +
(2*LenRecn) +4
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