User's Manual
Bay Level Offset Calibration68P09255A69-3
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
3-79
The second view of the array is shown in Table 3-37. This view shows
the assignment of calibration entries in each branch to each BBX slot,
carrier, and sectorization. Three sectors are allowed for an SC4812ET
Lite frame.
Table 3-37: SC4812ET Lite
bts- #.cal File Array (By BBX/Sector)
BBX Sectorization TX Branch RX Branch
RX Diversity
Branch
Slot[1] (Primary BBXs 1 through 6)
1 (Omni) C[1]-C[20] C[241]-C[260] C[481]-C[500]
2
3-Sector,
C[21]-C[40] C[261]-C[280] C[501]-C[520]
3
1st Carrier
C[41]-C[60] C[281]-C[300] C[521]-C[540]
4 C[61]-C[80] C[301]-C[320] C[541]-C[560]
5
3-Sector,
C[81]-C[100] C[321]-C[340] C[561]-C[580]
6
2nd Carrier
C[101]-C[120] C[341]-C[360] C[581]-C[600]
C[121]-C[140] C[361]-C[380] C[601]-C[620]
C[141]-C[160] C[381]-C[400] C[621]-C[640]
Not Used in SC4812ET Lite
(CAL file entries are
C[161]-C[180] C[401]-C[420] C[641]-C[660]
(CAL file entries are
Channel 0 with default
C[181]-C[200] C[421]-C[440] C[661]-C[680]
power set level.)
C[201]-C[220] C[441]-C[460] C[681]-C[700]
C[221]-C[240] C[461]-C[480] C[701]-C[720]
Slot[20] (Redundant BBX-R1)
1 (Omni) C[1]-C[20] C[241]-C[260] C[481]-C[500]
2
3-Sector,
C[21]-C[40] C[261]-C[280] C[501]-C[520]
3
1st Carrier
C[41]-C[60] C[281]-C[300] C[521]-C[540]
4 C[61]-C[80] C[301]-C[320] C[541]-C[560]
5
3-Sector,
C[81]-C[100] C[321]-C[340] C[561]-C[580]
6
2nd Carrier
C[101]-C[120] C[341]-C[360] C[581]-C[600]
C[121]-C[140] C[361]-C[380] C[601]-C[620]
C[141]-C[160] C[381]-C[400] C[621]-C[640]
Not Used in SC4812ET Lite
(CAL file entries are
C[161]-C[180] C[401]-C[420] C[641]-C[660]
(CAL file entries are
Channel 0 with default
C[181]-C[200] C[421]-C[440] C[661]-C[680]
power set level.)
C[201]-C[220] C[441]-C[460] C[681]-C[700]
C[221]-C[240] C[461]-C[480] C[701]-C[720]
When referring to the CAL file print-out and Table 3-37, it can be
seen that there is one BBX slot per sector with 20 “calibration entries”
per BBX (sector) for each branch. Two calibration entries define a
single “calibration point;” therefore there are ten calibration points in
each branch for each BBX.
- The first entry for a calibration point (all odd entries) identifies the
CDMA channel (frequency) where the BLO is measured. The
second calibration entry (all even entries) is the power set level
(PwrLvlAdj) for that frequency. The valid range for PwrLvlAdj is
3