Nokia Solutions and Networks T5CS1 Cellular CDMA Base Station User Manual IHET5SC1 GLI3 4 of 4

Nokia Solutions and Networks Cellular CDMA Base Station IHET5SC1 GLI3 4 of 4

IHET5SC1 GLI3 User Manual 4 of 4

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Document ID280606
Application IDgOXXl2isZKuMXGWSLt5Dww==
Document DescriptionIHET5SC1 GLI3 User Manual 4 of 4
Short Term ConfidentialNo
Permanent ConfidentialNo
SupercedeNo
Document TypeUser Manual
Display FormatAdobe Acrobat PDF - pdf
Filesize68.01kB (850066 bits)
Date Submitted2002-11-01 00:00:00
Date Available2002-10-31 00:00:00
Creation Date2002-11-01 14:31:53
Producing SoftwareAcrobat Distiller 4.05 for Windows
Document Lastmod2002-11-01 14:32:13
Document TitleIHET5SC1 GLI3 User Manual 4 of 4

68P09255A69-3
CDMA Operating Frequency Programming Information
Calculating 1900 MHz Center Frequencies
Table D-1 shows selected 1900 MHz CDMA candidate operating
channels, listed in both decimal and hexadecimal, and the corresponding
transmit, and receive frequencies. Center frequencies (in MHz) for
channels not shown in the table may be calculated as follows:
 TX = 1930 + 0.05 * Channel#
Example: Channel 262
TX = 1930 + 0.05 * 262 = 1943.10 MHz
 RX = TX - 80
Example: Channel 262
RX = 1943.10 - 50 = 1863.10 MHz
Actual frequencies used depend on customer CDMA system frequency
plan.
Each CDMA channel requires a 1.77 MHz frequency segment. The
actual CDMA carrier is 1.23 MHz wide, with a 0.27 MHz guard band on
both sides of the carrier.
Minimum frequency separation required between any CDMA carrier and
the nearest NAMPS/AMPS carrier is 900 kHz (center-to-center).
Table D-1: 1900 MHz TX and RX Frequency vs. Channel
Channel Number
Decimal
Hex
25
0019
50
0032
75
004B
100
0064
125
007D
150
0096
175
00AF
200
00C8
225
00E1
250
00FA
275
0113
300
012C
325
0145
350
015E
375
0177
400
0190
425
01A9
450
01C2
475
01DB
500
01F4
525
020D
550
0226
575
023F
600
0258
625
0271
650
028A
Transmit Frequency (MHz)
Center Frequency
1931.25
1932.50
1933.75
1935.00
1936.25
1937.50
1938.75
1940.00
1941.25
1942.50
1943.75
1945.00
1946.25
1947.50
1948.75
1950.00
1951.25
1952.50
1953.75
1955.00
1956.25
1957.50
1958.75
1960.00
1961.25
1962.50
Receive Frequency (MHz)
Center Frequency
1851.25
1852.50
1853.75
1855.00
1856.25
1857.50
1858.75
1860.00
1861.25
1862.50
1863.75
1865.00
1866.25
1867.50
1868.75
1870.00
1871.25
1872.50
1873.75
1875.00
1876.25
1877.50
1878.75
1880.00
1881.25
1882.50
. . . continued on next page
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
D-3
CDMA Operating Frequency Programming Information
68P09255A69-3
Table D-1: 1900 MHz TX and RX Frequency vs. Channel
Channel Number
Decimal
Hex
675
02A3
700
02BC
725
02D5
750
02EE
775
0307
800
0320
825
0339
850
0352
875
036B
900
0384
925
039D
950
03B6
975
03CF
1000
03E8
1025
0401
1050
041A
1075
0433
1100
044C
1125
0465
1150
047E
1175
0497
D-4
Transmit Frequency (MHz)
Center Frequency
1963.75
1965.00
1966.25
1967.50
1968.75
1970.00
1971.25
1972.50
1973.75
1975.00
1976.25
1977.50
1978.75
1980.00
1981.25
1982.50
1983.75
1985.00
1986.25
1987.50
1988.75
Receive Frequency (MHz)
Center Frequency
1883.75
1885.00
1886.25
1887.50
1888.75
1890.00
1891.25
1892.50
1893.75
1895.00
1896.25
1897.50
1898.75
1900.00
1901.25
1902.50
1903.75
1905.00
1906.25
1807.50
1908.75
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
CDMA Operating Frequency Programming Information
68P09255A69-3
800 MHz CDMA Channels
Figure D-2 shows the valid channels for the North American cellular
telephone frequency spectrum. There are 10 CDMA wireline or
non-wireline band channels used in a CDMA system (unique per
customer operating system).
OVERALL WIRELINE (B) BANDS
ÉÉ
ÉÉ
ËË
ËË
848.970
893.970
777
739
ËËË
ËËË
ËËË
ËËË
799
891.480
891.510
846.480
846.510
716
717
694
ÉÉ
ÉÉ
ÉÉ
ÉÉ
689
844.980
845.010
889.980
890.010
OVERALL NON-WIRELINE (A) BANDS
644
356
ËËË
ËËË
ËËË
ËËË
ËËË
ËËË
ËËË
ËËË
666
667
879.990
880.020
834.990
835.020
333
334
311
825.000
825.030
1023
CHANNEL
ÉÉ
ÉÉÉÉ
ÉÉÉÉ
ÉÉ
ÉÉÉÉ
ÉÉÉÉ
ÉÉ
ÉÉÉÉ
ÉÉÉÉ
ÉÉ
ÉÉÉÉ
ÉÉÉÉ
1013
RX FREQ
(MHz)
991
824.040
TX FREQ
(MHz)
870.000
870.030
869.040
Figure D-2: North American Cellular Telephone System Frequency Spectrum (CDMA Allocation).
CDMA NON-WIRELINE (A) BAND
CDMA WIRELINE (B) BAND
FW00402
Calculating 800 MHz Center Frequencies
Table D-2 shows selected 800 MHz CDMA candidate operating
channels, listed in both decimal and hexadecimal, and the corresponding
transmit, and receive frequencies. Center frequencies (in MHz) for
channels not shown in the table may be calculated as follows:
 Channels 1-777
TX = 870 + 0.03 * Channel#
Example: Channel 262
TX = 870 + 0.03*262 = 877.86 MHz
 Channels 1013-1023
TX = 870 + 0.03 * (Channel# - 1023)
Example: Channel 1015
TX = 870 +0.03 *(1015 - 1023) = 869.76 MHz
 RX = TX - 45 MHz
Example: Channel 262
RX = 877.86 -45 = 832.86 MHz
Table D-2: 800 MHz TX and RX Frequency vs. Channel
Channel Number
Decimal Hex
Transmit Frequency (MHz)
Center Frequency
Receive Frequency (MHz)
Center Frequency
0001
870.0300
825.0300
25
0019
870.7500
825.7500
50
0032
871.5000
Aug 2002
826.5000
. . . continued on next page
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
D-5
CDMA Operating Frequency Programming Information
68P09255A69-3
Table D-2: 800 MHz TX and RX Frequency vs. Channel
Channel Number
Decimal Hex
Transmit Frequency (MHz)
Center Frequency
Receive Frequency (MHz)
Center Frequency
75
004B
872.2500
827.2500
100
0064
873.0000
828.0000
125
007D
873.7500
828.7500
150
0096
874.5000
829.5000
175
00AF
875.2500
830.2500
200
00C8
876.0000
831.0000
225
00E1
876.7500
831.7500
250
00FA
877.5000
832.5000
275
0113
878.2500
833.2500
300
012C
879.0000
834.0000
325
0145
879.7500
834.7500
350
015E
880.5000
835.5000
375
0177
881.2500
836.2500
400
0190
882.0000
837.0000
425
01A9
882.7500
837.7500
450
01C2
883.5000
838.5000
475
01DB
884.2500
839.2500
500
01F4
885.0000
840.0000
525
020D
885.7500
840.7500
550
0226
886.5000
841.5000
575
023F
887.2500
842.2500
600
0258
888.0000
843.0000
625
0271
888.7500
843.7500
650
028A
889.5000
844.5000
675
02A3
890.2500
845.2500
700
02BC
891.0000
846.0000
725
02D5
891.7500
846.7500
750
02EE
892.5000
847.5000
775
0307
893.2500
848.2500
Channel numbers 778 through 1012 are not used.
1013
03F5
869.7000
824.7000
NOTE
1023
D-6
03FF
870.0000
825.0000
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
Appendix E
PN Offset/I & Q Offset Register
Programming Information
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
E-1
PN Offset Programming Information
68P09255A69-3
PN Offset Programming Information
PN Offset Background
All channel elements transmitted from a BTS in a particular 1.25 MHz
CDMA channel are orthonogonally spread by 1 of 64 possible Walsh
code functions; additionally, they are also spread by a quadrature pair of
PN sequences unique to each sector.
Overall, the mobile uses this to differentiate multiple signals transmitted
from the same BTS (and surrounding BTS) sectors, and to synchronize
to the next strongest sector.
The PN offset per sector is stored on the BBXs, where the
corresponding I & Q registers reside.
The PN offset values are determined by BTS sector (antenna) based on
the applicale CDF data field content. A breakdown of this information is
found in Table E-1.
PN Offset Usage
There are three basic RF chip delays currently in use. It is important to
determine what RF chip delay is valid to be able to test the BTS
functionality. This can be done by ascertaining if the CDF FineTxAdj
value was set to “on” when the MCC was downloaded with “image
data”. The FineTxAdj value is used to compensate for the processing
delay (approximately 20 mS) in the BTS using any type of mobile
meeting IS-97 specifications.
Observe the following guidelines:
 If the FineTxAdj value in the CDF is 101 (65 HEX), the FineTxAdj
has not been set. The I and Q values from the 0 table MUST be used.
If the FineTxAdj value in the cdf file is 213 (D5 HEX), FineTxAdj has
been set for the 14 chip table.
 If the FineTxAdj value in the CDF file is 197 (C5 HEX), FineTxAdj
has been set for the 13 chip table.
NOTE
CDF file I and Q values can be represented in DECIMAL or
HEX. If using HEX, add 0x before the HEX value. If necessary,
convert HEX values in Table E-1 to decimal before comparing
them to cdf file I & Q value assignments.
- If a Qualcomm mobile is used, select I and Q values from the 13
chip delay table.
- If a mobile is used that does not have the 1 chip offset problem,
(any mobile meeting the IS-97 specification), select from the 14
chip delay table.
NOTE
E-2
If the wrong I and Q values are used with the wrong FineTxAdj
parameter, system timing problems will occur. This will cause
the energy transmitted to be “smeared” over several Walsh codes
(instead of the single Walsh code that it was assigned to),
causing erratic operation. Evidence of smearing is usually
identified by Walsh channels not at correct levels or present
when not selected in the Code Domain Power Test.
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
14-Chip Delay
(Dec.)
(Hex.)
17523
32292
4700
14406
14899
17025
14745
2783
5832
12407
31295
7581
18523
29920
25184
26282
30623
15540
23026
20019
4050
1557
30262
18000
20056
12143
17437
17438
5102
9302
17154
5198
4606
24804
17180
10507
10157
23850
31425
4075
10030
16984
14225
26519
27775
30100
7922
14199
17637
23081
5099
23459
32589
17398
26333
4011
2256
18651
1094
21202
13841
31767
18890
30999
22420
20168
12354
11187
11834
10395
28035
27399
22087
2077
13758
11778
3543
7184
2362
25840
12177
10402
1917
17708
10630
6812
14350
10999
25003
2652
19898
2010
25936
28531
11952
31947
25589
11345
28198
13947
8462
9595
4473
7E24
125C
3846
3A33
4281
3999
0ADF
16C8
3077
7A3F
1D9D
485B
74E0
6260
66AA
779F
3CB4
59F2
4E33
0FD2
0615
7636
4650
4E58
2F6F
441D
441E
13EE
2456
4302
144E
11FE
60E4
431C
290B
27AD
5D2A
7AC1
0FEB
272E
4258
3791
6797
6C7F
7594
1EF2
3777
44E5
5A29
13EB
5BA3
7F4D
43F6
66DD
0FAB
08D0
48DB
0446
52D2
3611
7C17
49CA
7917
5794
4EC8
3042
2BB3
2E3A
289B
6D83
6B07
5647
081D
35BE
2E02
0DD7
1C10
093A
64F0
2F91
28A2
077D
452C
2986
1A9C
380E
2AF7
61AB
0A5C
4DBA
07DA
6550
6F73
2EB0
7CCB
63F5
2C51
6E26
367B
210E
257B
13-Chip Delay
(Dec.)
(Hex.)
29673
16146
2350
7203
19657
28816
19740
21695
2916
18923
27855
24350
30205
14960
12592
13141
27167
7770
11513
30409
2025
21210
15131
9000
10028
18023
29662
8719
2551
4651
8577
2599
2303
12402
8590
17749
16902
11925
27824
22053
5015
8492
18968
25115
26607
15050
3961
19051
29602
31940
22565
25581
29082
8699
32082
18921
1128
27217
547
10601
21812
28727
9445
29367
11210
10084
6177
23525
5917
23153
30973
31679
25887
18994
6879
5889
18647
3592
1181
12920
23028
5201
19842
8854
5315
3406
7175
23367
32489
1326
9949
1005
12968
31109
5976
28761
32710
22548
14099
21761
4231
23681
73E9
3F12
092E
1C23
4CC9
7090
4D1C
54BF
0B64
49EB
6CCF
5F1E
75FD
3A70
3130
3355
6A1F
1E5A
2CF9
76C9
07E9
52DA
3B1B
2328
272C
4667
73DE
220F
09F7
122B
2181
0A27
08FF
3072
218E
4555
4206
2E95
6CB0
5625
1397
212C
4A18
621B
67EF
3ACA
0F79
4A6B
73A2
7CC4
5825
63ED
719A
21FB
7D52
49E9
0468
6A51
0223
2969
5534
7037
24E5
72B7
2BCA
2764
1821
5BE5
171D
5A71
78FD
7BBF
651F
4A32
1ADF
1701
48D7
0E08
049D
3278
59F4
1451
4D82
2296
14C3
0D4E
1C07
5B47
7EE9
052E
26DD
03ED
32A8
7985
1758
7059
7FC6
5814
3713
5501
1087
5C81
0-Chip Delay
(Dec.)
(Hex.)
4096
9167
22417
966
14189
29150
18245
1716
11915
20981
24694
11865
6385
27896
25240
30877
30618
26373
314
17518
21927
2245
18105
8792
21440
15493
26677
11299
12081
23833
20281
10676
16981
31964
26913
14080
23842
27197
22933
30220
12443
19854
14842
15006
702
21373
23874
3468
31323
29266
16554
4096
1571
7484
6319
2447
24441
27351
23613
29008
5643
28085
18200
21138
21937
25222
109
6028
22034
15069
4671
30434
11615
19838
14713
241
24083
7621
19144
1047
26152
22402
21255
30179
7408
115
1591
1006
32263
1332
12636
4099
386
29231
25711
10913
8132
20844
13150
18184
19066
29963
1000
23CF
5791
03C6
376D
71DE
4745
06B4
2E8B
51F5
6076
2E59
18F1
6CF8
6298
789D
779A
6705
013A
446E
55A7
08C5
46B9
2258
53C0
3C85
6835
2C23
2F31
5D19
4F39
29B4
4255
7CDC
6921
3700
5D22
6A3D
5995
760C
309B
4D8E
39FA
3A9E
02BE
537D
5D42
0D8C
7A5B
7252
40AA
1000
0623
1D3C
18AF
098F
5F79
6AD7
5C3D
7150
160B
6DB5
4718
5292
55B1
6286
006D
178C
5612
3ADD
123F
76E2
2D5F
4D7E
3979
00F1
5E13
1DC5
4AC8
0417
6628
5782
5307
75E3
1CF0
0073
0637
03EE
7E07
0534
315C
1003
0182
722F
646F
2AA1
1FC4
516C
335E
4708
4A7A
750B
. . . continued on next page
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
E-3
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
14-Chip Delay
(Dec.)
(Hex.)
32743
7114
7699
19339
28212
29587
19715
14901
20160
22249
26582
7153
15127
15274
23149
16340
27052
13519
10620
15978
27966
12479
1536
3199
4549
17888
13117
7506
27626
31109
29755
26711
20397
18608
7391
23168
23466
15932
25798
28134
28024
6335
21508
26338
17186
22462
3908
25390
27891
9620
4670
14672
29415
20610
6479
10957
18426
22726
5247
29953
5796
16829
4528
5415
10294
17046
7846
10762
13814
16854
795
9774
24291
3172
2229
21283
16905
7062
7532
25575
14244
28053
30408
5094
16222
7159
174
25530
2320
23113
23985
2604
1826
30853
15699
2589
25000
18163
12555
8670
7FE7
1BCA
1E13
4B8B
6E34
7393
4D03
3A35
4EC0
56E9
67D6
1BF1
3B17
3BAA
5A6D
3FD4
69AC
34CF
297C
3E6A
6D3E
30BF
0600
0C7F
11C5
45E0
333D
1D52
6BEA
7985
743B
6857
4FAD
48B0
1CDF
5A80
5BAA
3E3C
64C6
6DE6
6D78
18BF
5404
66E2
4322
57BE
0F44
632E
6CF3
2594
123E
3950
72E7
5082
194F
2ACD
47FA
58C6
147F
7501
16A4
41BD
11B0
1527
2836
4296
1EA6
2A0A
35F6
41D6
031B
262E
5EE3
0C64
08B5
5323
4209
1B96
1D6C
63E7
37A4
6D95
76C8
13E6
3F5E
1BF7
00AE
63BA
0910
5A49
5DB1
0A2C
0722
7885
3D53
0A1D
61A8
46F3
310B
21DE
13-Chip Delay
(Dec.)
(Hex.)
28195
3557
24281
29717
14106
26649
30545
19658
10080
31396
13291
23592
19547
7637
31974
8170
13526
19383
5310
7989
13983
18831
768
22511
22834
8944
18510
3753
13813
27922
27597
26107
30214
9304
24511
11584
11733
7966
12899
14067
14012
23951
10754
13169
8593
11231
1954
12695
26537
4810
2335
7336
30543
10305
17051
23386
9213
11363
17411
29884
2898
28386
2264
17583
5147
8523
3923
5381
6907
8427
20401
4887
24909
1586
19046
26541
28472
3531
3766
32719
7122
30966
15204
2547
8111
17351
87
12765
1160
25368
24804
1302
913
29310
20629
19250
12500
27973
22201
4335
6E23
0DE5
5ED9
7415
371A
6819
7751
4CCA
2760
7AA4
33EB
5C28
4C5B
1DD5
7CE6
1FEA
34D6
4BB7
14BE
1F35
369F
498F
0300
57EF
5932
22F0
484E
0EA9
35F5
6D12
6BCD
65FB
7606
2458
5FBF
2D40
2DD5
1F1E
3263
36F3
36BC
5D8F
2A02
3371
2191
2BDF
07A2
3197
67A9
12CA
091F
1CA8
774F
2841
429B
5B5A
23FD
2C63
4403
74BC
0B52
6EE2
08D8
44AF
141B
214B
0F53
1505
1AFB
20EB
4FB1
1317
614D
0632
4A66
67AD
6F38
0DCB
0EB6
7FCF
1BD2
78F6
3B64
09F3
1FAF
43C7
0057
31DD
0488
6318
60E4
0516
0391
727E
5095
4B32
30D4
6D45
56B9
10EF
0-Chip Delay
(Dec.)
(Hex.)
22575
31456
8148
19043
25438
10938
2311
7392
30714
180
8948
16432
9622
7524
1443
1810
6941
3238
8141
10408
18826
22705
3879
21359
30853
18078
15910
20989
28810
30759
18899
7739
6279
9968
8571
4143
19637
11867
7374
10423
9984
7445
4133
22646
15466
2164
16380
15008
31755
31636
6605
29417
22993
27657
5468
8821
20773
4920
5756
28088
740
23397
19492
26451
30666
15088
26131
15969
24101
12762
19997
22971
12560
31213
18780
16353
12055
30396
24388
1555
13316
31073
6187
21644
9289
4624
467
18133
1532
1457
9197
13451
25785
4087
31190
8383
12995
27438
9297
1676
582F
7AE0
1FD4
4A63
635E
2ABA
0907
1CE0
77FA
00B4
22F4
4030
2596
1D64
05A3
0712
1B1D
0CA6
1FCD
28A8
498A
58B1
0F27
536F
7885
469E
3E26
51FD
708A
7827
49D3
1E3B
1887
26F0
217B
102F
4CB5
2E5B
1CCE
28B7
2700
1D15
1025
5876
3C6A
0874
3FFC
3AA0
7C0B
7B94
19CD
72E9
59D1
6C09
155C
2275
5125
1338
167C
6DB8
02E4
5B65
4C24
6753
77CA
3AF0
6613
3E61
5E25
31DA
4E1D
59BB
3110
79ED
495C
3FE1
2F17
76BC
5F44
0613
3404
7961
182B
548C
2449
1210
01D3
46D5
05FC
05B1
23ED
348B
64B9
0FF7
79D6
20BF
32C3
6B2E
2451
068C
. . . continued on next page
E-4
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
14-Chip Delay
(Dec.)
(Hex.)
6491
16876
17034
32405
27417
8382
5624
1424
13034
15682
27101
8521
30232
6429
27116
4238
5128
14846
13024
10625
31724
13811
24915
1213
2290
31551
12088
7722
27312
23130
594
25804
31013
32585
3077
17231
31554
8764
15375
13428
17658
13475
22095
24805
4307
23292
1377
28654
6350
16770
1290
4407
1163
12215
7253
8978
25547
3130
31406
6222
20340
25094
23380
10926
22821
31634
4403
689
27045
27557
16307
22338
27550
22096
23136
12199
1213
936
6272
32446
13555
8789
24821
21068
31891
5321
551
12115
4902
1991
14404
17982
19566
2970
23055
15158
29094
653
19155
23588
195B
41EC
428A
7E95
6B19
20BE
15F8
0590
32EA
3D42
69DD
2149
7618
191D
69EC
108E
1408
39FE
32E0
2981
7BEC
35F3
6153
04BD
08F2
7B3F
2F38
1E2A
6AB0
5A5A
0252
64CC
7925
7F49
0C05
434F
7B42
223C
3C0F
3474
44FA
34A3
564F
60E5
10D3
5AFC
0561
6FEE
18CE
4182
050A
1137
048B
2FB7
1C55
2312
63CB
0C3A
7AAE
184E
4F74
6206
5B54
2AAE
5925
7B92
1133
02B1
69A5
6BA5
3FB3
5742
6B9E
5650
5A60
2FA7
04BD
03A8
1880
7EBE
34F3
2255
60F5
524C
7C93
14C9
0227
2F53
1326
07C7
3844
463E
4C6E
0B9A
5A0F
3B36
71A6
028D
4AD3
5C24
13-Chip Delay
(Dec.)
(Hex.)
23933
8438
8517
28314
25692
4191
2812
712
6517
7841
25918
16756
15116
23902
13558
2119
2564
7423
6512
17680
15862
19241
24953
21390
1145
27727
6044
3861
13656
11565
297
12902
27970
28276
22482
28791
15777
4382
20439
6714
8829
19329
31479
24994
22969
11646
21344
14327
3175
8385
645
18087
19577
23015
16406
4489
32729
1565
15703
3111
10170
12547
11690
5463
25262
15817
18085
20324
31470
31726
20965
11169
13775
11048
11568
23023
19554
468
3136
16223
21573
24342
32326
10534
28789
17496
20271
22933
2451
19935
7202
8991
9783
1485
25403
7579
14547
20346
27477
11794
5D7D
20F6
2145
6E9A
645C
105F
0AFC
02C8
1975
1EA1
653E
4174
3B0C
5D5E
34F6
0847
0A04
1CFF
1970
4510
3DF6
4B29
6179
538E
0479
6C4F
179C
0F15
3558
2D2D
0129
3266
6D42
6E74
57D2
7077
3DA1
111E
4FD7
1A3A
227D
4B81
7AF7
61A2
59B9
2D7E
5360
37F7
0C67
20C1
0285
46A7
4C79
59E7
4016
1189
7FD9
061D
3D57
0C27
27BA
3103
2DAA
1557
62AE
3DC9
46A5
4F64
7AEE
7BEE
51E5
2BA1
35CF
2B28
2D30
59EF
4C62
01D4
0C40
3F5F
5445
5F16
7E46
2926
7075
4458
4F2F
5995
0993
4DDF
1C22
231F
2637
05CD
633B
1D9B
38D3
4F7A
6B55
2E12
0-Chip Delay
(Dec.)
(Hex.)
25414
7102
20516
19495
17182
11572
25570
6322
8009
26708
6237
32520
31627
3532
24090
20262
18238
2033
25566
25144
29679
5064
27623
13000
31373
13096
26395
15487
29245
26729
12568
24665
8923
19634
29141
73
26482
6397
29818
8153
302
28136
29125
8625
26671
6424
12893
18502
7765
25483
12596
19975
20026
8958
19143
17142
19670
30191
5822
22076
606
9741
9116
12705
17502
18952
15502
17819
4370
31955
30569
7350
26356
32189
1601
19537
25667
4415
2303
16362
28620
6736
2777
24331
9042
107
4779
13065
30421
20210
5651
31017
30719
23104
7799
17865
26951
25073
32381
16581
6346
1BBE
5024
4C27
431E
2D34
63E2
18B2
1F49
6854
185D
7F08
7B8B
0DCC
5E1A
4F26
473E
07F1
63DE
6238
73EF
13C8
6BE7
32C8
7A8D
3328
671B
3C7F
723D
6869
3118
6059
22DB
4CB2
71D5
0049
6772
18FD
747A
1FD9
012E
6DE8
71C5
21B1
682F
1918
325D
4846
1E55
638B
3134
4E07
4E3A
22FE
4AC7
42F6
4CD6
75EF
16BE
563C
025E
260D
239C
31A1
445E
4A08
3C8E
459B
1112
7CD3
7769
1CB6
66F4
7DBD
0641
4C51
6443
113F
08FF
3FEA
6FCC
1A50
0AD9
5F0B
2352
006B
12AB
3309
76D5
4EF2
1613
7929
77FF
5A40
1E77
45C9
6947
61F1
7E7D
40C5
. . . continued on next page
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
E-5
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
14-Chip Delay
(Dec.)
(Hex.)
14726
25685
21356
12149
28966
22898
1713
30010
2365
27179
29740
5665
23671
1680
25861
25712
19245
26887
30897
11496
1278
31555
29171
20472
5816
30270
22188
6182
32333
14046
15873
19843
29367
13352
22977
31691
10637
25454
18610
6368
7887
7730
23476
889
21141
20520
21669
15967
21639
31120
10878
31060
30875
11496
24545
9586
20984
30389
7298
18934
23137
24597
23301
7764
14518
21634
11546
26454
15938
9050
3103
758
16528
20375
10208
17698
8405
28634
1951
20344
26696
3355
11975
31942
9737
9638
30643
13230
22185
2055
8767
15852
16125
6074
31245
15880
20371
8666
816
22309
3986
6455
536C
2F75
7126
5972
06B1
753A
093D
6A2B
742C
1621
5C77
0690
6505
6470
4B2D
6907
78B1
2CE8
04FE
7B43
71F3
4FF8
16B8
763E
56AC
1826
7E4D
36DE
3E01
4D83
72B7
3428
59C1
7BCB
298D
636E
48B2
18E0
1ECF
1E32
5BB4
0379
5295
5028
54A5
3E5F
5487
7990
2A7E
7954
789B
2CE8
5FE1
2572
51F8
76B5
1C82
49F6
5A61
6015
5B05
1E54
38B6
5482
2D1A
6756
3E42
235A
0C1F
02F6
4090
4F97
27E0
4522
20D5
6FDA
079F
4F78
6848
0D1B
2EC7
7CC6
2609
25A6
77B3
33AE
56A9
0807
223F
3DEC
3EFD
17BA
7A0D
3E08
4F93
21DA
0330
5725
13-Chip Delay
(Dec.)
(Hex.)
7363
25594
10678
18026
14483
11449
21128
15005
21838
25797
14870
23232
32747
840
25426
12856
29766
25939
28040
5748
639
27761
26921
10236
2908
15135
11094
3091
28406
7023
20176
30481
26763
6676
32048
27701
17686
12727
9305
3184
24247
3865
11738
20588
30874
10260
31618
20223
31635
15560
5439
15530
29297
5748
25036
4793
10492
30054
3649
9467
25356
32310
25534
3882
7259
10817
5773
13227
7969
4525
18483
379
8264
27127
5104
8849
24150
14317
19955
10172
13348
18609
22879
15971
23864
4819
30181
6615
25960
19007
24355
7926
20802
3037
29498
7940
27125
4333
408
26030
1CC3
63FA
29B6
466A
3893
2CB9
5288
3A9D
554E
64C5
3A16
5AC0
7FEB
0348
6352
3238
7446
6553
6D88
1674
027F
6C71
6929
27FC
0B5C
3B1F
2B56
0C13
6EF6
1B6F
4ED0
7711
688B
1A14
7D30
6C35
4516
31B7
2459
0C70
5EB7
0F19
2DDA
506C
789A
2814
7B82
4EFF
7B93
3CC8
153F
3CAA
7271
1674
61CC
12B9
28FC
7566
0E41
24FB
630C
7E36
63BE
0F2A
1C5B
2A41
168D
33AB
1F21
11AD
4833
017B
2048
69F7
13F0
2291
5E56
37ED
4DF3
27BC
3424
48B1
595F
3E63
5D38
12D3
75E5
19D7
6568
4A3F
5F23
1EF6
5142
0BDD
733A
1F04
69F5
10ED
0198
65AE
0-Chip Delay
(Dec.)
(Hex.)
15408
6414
8164
10347
29369
10389
24783
18400
22135
4625
22346
2545
7786
20209
26414
1478
15122
24603
677
13705
13273
14879
6643
23138
28838
9045
10792
25666
11546
15535
16134
8360
14401
26045
24070
30300
13602
32679
16267
9063
19487
12778
27309
12527
953
15958
6068
23577
32156
32709
32087
97
7618
93
16052
14300
11129
6602
14460
25458
15869
27047
26808
7354
27834
11250
552
27058
14808
9642
32253
26081
21184
11748
32676
2425
19455
19889
18177
2492
15086
30632
27549
6911
9937
2467
25831
32236
12987
11714
19283
11542
27928
26637
10035
10748
24429
29701
14997
32235
3C30
190E
1FE4
286B
72B9
2895
60CF
47E0
5677
1211
574A
09F1
1E6A
4EF1
672E
05C6
3B12
601B
02A5
3589
33D9
3A1F
19F3
5A62
70A6
2355
2A28
6442
2D1A
3CAF
3F06
20A8
3841
65BD
5E06
765C
3522
7FA7
3F8B
2367
4C1F
31EA
6AAD
30EF
03B9
3E56
17B4
5C19
7D9C
7FC5
7D57
0061
1DC2
005D
3EB4
37DC
2B79
19CA
387C
6372
3DFD
69A7
68B8
1CBA
6CBA
2BF2
0228
69B2
39D8
25AA
7DFD
65E1
52C0
2DE4
7FA4
0979
4BFF
4DB1
4701
09BC
3AEE
77A8
6B9D
1AFF
26D1
09A3
64E7
7DEC
32BB
2DC2
4B53
2D16
6D18
680D
2733
29FC
5F6D
7405
3A95
7DEB
. . . continued on next page
E-6
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
14-Chip Delay
(Dec.)
(Hex.)
3698
16322
17429
21730
17808
30068
12737
28241
20371
13829
13366
25732
19864
5187
23219
28242
6243
445
21346
13256
18472
25945
31051
1093
5829
31546
29833
18146
24813
47
3202
21571
7469
25297
8175
28519
4991
7907
17728
14415
30976
26376
19063
19160
3800
8307
12918
19642
24873
22071
29563
13078
10460
17590
20277
19988
6781
32501
6024
20520
31951
26063
27203
6614
10970
5511
17119
16064
31614
4660
13881
16819
6371
24673
6055
10009
5957
11597
22155
15050
16450
27899
2016
17153
15849
30581
3600
4097
671
20774
24471
27341
19388
25278
9505
26143
13359
2154
13747
27646
0E72
3FC2
4415
54E2
4590
7574
31C1
6E51
4F93
3605
3436
6484
4D98
1443
5AB3
6E52
1863
01BD
5362
33C8
4828
6559
794B
0445
16C5
7B3A
7489
46E2
60ED
002F
0C82
5443
1D2D
62D1
1FEF
6F67
137F
1EE3
4540
384F
7900
6708
4A77
4AD8
0ED8
2073
3276
4CBA
6129
5637
737B
3316
28DC
44B6
4F35
4E14
1A7D
7EF5
1788
5028
7CCF
65CF
6A43
19D6
2ADA
1587
42DF
3EC0
7B7E
1234
3639
41B3
18E3
6061
17A7
2719
1745
2D4D
568B
3ACA
4042
6CFB
07E0
4301
3DE9
7775
0E10
1001
029F
5126
5F97
6ACD
4BBC
62BE
2521
661F
342F
086A
35B3
6BFE
13-Chip Delay
(Dec.)
(Hex.)
1849
8161
29658
10865
8904
15034
18736
26360
30233
19154
6683
12866
9932
23537
31881
14121
24033
20750
10673
6628
9236
25468
28021
21490
23218
15773
27540
9073
24998
20935
1601
31729
24390
24760
24103
26211
22639
24225
8864
19959
15488
13188
29931
9580
1900
16873
6459
9821
24900
31435
30593
6539
5230
8795
27046
9994
17154
28998
3012
10260
28763
31963
31517
3307
5485
17663
28499
8032
15807
2330
21792
28389
16973
32268
17903
23984
17822
22682
25977
7525
8225
30785
1008
28604
20680
30086
1800
17980
20339
10387
25079
31578
9694
12639
23724
32051
21547
1077
21733
13823
0739
1FE1
73DA
2A71
22C8
3ABA
4930
66F8
7619
4AD2
1A1B
3242
26CC
5BF1
7C89
3729
5DE1
510E
29B1
19E4
2414
637C
6D75
53F2
5AB2
3D9D
6B94
2371
61A6
51C7
0641
7BF1
5F46
60B8
5E27
6663
586F
5EA1
22A0
4DF7
3C80
3384
74EB
256C
076C
41E9
193B
265D
6144
7ACB
7781
198B
146E
225B
69A6
270A
4302
7146
0BC4
2814
705B
7CDB
7B1D
0CEB
156D
44FF
6F53
1F60
3DBF
091A
5520
6EE5
424D
7E0C
45EF
5DB0
459E
589A
6579
1D65
2021
7841
03F0
6FBC
50C8
7586
0708
463C
4F73
2893
61F7
7B5A
25DE
315F
5CAC
7D33
542B
0435
54E5
35FF
0-Chip Delay
(Dec.)
(Hex.)
23557
17638
3545
9299
6323
19590
7075
14993
19916
6532
17317
16562
26923
9155
20243
32391
20190
27564
20869
9791
714
7498
23278
8358
9468
23731
25133
2470
17501
24671
11930
9154
7388
3440
27666
22888
13194
26710
7266
15175
15891
26692
14757
28757
31342
19435
2437
20573
18781
18948
30766
5985
6823
20973
10197
9618
22705
5234
12541
8019
22568
5221
25216
1354
29335
6682
26128
29390
8852
6110
11847
10239
6955
10897
14076
12450
8954
19709
1252
15142
26958
8759
12696
11936
25635
17231
22298
7330
30758
6933
2810
8820
7831
19584
2944
19854
10456
17036
2343
14820
5C05
44E6
0DD9
2453
18B3
4C86
1BA3
3A91
4DCC
1984
43A5
40B2
692B
23C3
4F13
7E87
4EDE
6BAC
5185
263F
02CA
1D4A
5AEE
20A6
24FC
5CB3
622D
09A6
445D
605F
2E9A
23C2
1CDC
0D70
6C12
5968
338A
6856
1C62
3B47
3E13
6844
39A5
7055
7A6E
4BEB
0985
505D
495D
4A04
782E
1761
1AA7
51ED
27D5
2592
58B1
1472
30FD
1F53
5828
1465
6280
054A
7297
1A1A
6610
72CE
2294
17DE
2E47
27FF
1B2B
2A91
36FC
30A2
22FA
4CFD
04E4
3B26
694E
2237
3198
2EA0
6423
434F
571A
1CA2
7826
1B15
0AFA
2274
1E97
4C80
0B80
4D8E
28D8
428C
0927
39E4
. . . continued on next page
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
E-7
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
14-Chip Delay
(Dec.)
(Hex.)
13904
27198
3685
16820
22479
6850
15434
19332
8518
14698
21476
30475
23984
1912
26735
15705
3881
20434
16779
31413
16860
8322
28530
26934
18806
20216
9245
8271
18684
8220
6837
9613
31632
27448
12417
30901
9366
12225
21458
6466
8999
26718
3230
27961
28465
6791
17338
11832
11407
15553
1056
1413
3311
4951
749
6307
961
2358
28350
31198
11467
8862
6327
7443
28574
25093
6139
22047
32545
7112
28535
10378
15065
5125
12528
23215
20959
3568
26453
29421
24555
10779
25260
16084
26028
29852
14978
12182
25143
15838
5336
21885
20561
30097
21877
23589
26060
9964
25959
3294
3650
6A3E
0E65
41B4
57CF
1AC2
3C4A
4B84
2146
396A
53E4
770B
5DB0
0778
686F
3D59
0F29
4FD2
418B
7AB5
41DC
2082
6F72
6936
4976
4EF8
241D
204F
48FC
201C
1AB5
258D
7B90
6B38
3081
78B5
2496
2FC1
53D2
1942
2327
685E
0C9E
6D39
6F31
1A87
43BA
2E38
2C8F
3CC1
0420
0585
0CEF
1357
02ED
18A3
03C1
0936
6EBE
79DE
2CCB
229E
18B7
1D13
6F9E
6205
17FB
561F
7F21
1BC8
6F77
288A
3AD9
1405
30F0
5AAF
51DF
0DF0
6755
72ED
5FEB
2A1B
62AC
3ED4
65AC
749C
3A82
2F96
6237
3DDE
14D8
557D
5051
7591
5575
5C25
65CC
26EC
6567
0CDE
13-Chip Delay
(Dec.)
(Hex.)
6952
13599
22242
8410
31287
3425
7717
9666
4259
7349
10738
27221
11992
956
26087
20348
22084
10217
28949
27786
8430
4161
14265
13467
9403
10108
17374
16887
9342
4110
23690
17174
15816
13724
18832
28042
4683
17968
10729
3233
16451
13359
1615
26444
26184
23699
8669
5916
18327
20400
528
19710
18507
18327
20298
17005
20444
1179
14175
15599
22617
4431
16999
16565
14287
32574
17857
25907
29100
3556
31111
5189
21328
17470
6264
25451
26323
1784
32150
30538
25033
23345
12630
8042
13014
14926
7489
6091
32551
7919
2668
25730
26132
29940
25734
24622
13030
4982
31887
1647
1B28
351F
56E2
20DA
7A37
0D61
1E25
25C2
10A3
1CB5
29F2
6A55
2ED8
03BC
65E7
4F7C
5644
27E9
7115
6C8A
20EE
1041
37B9
349B
24BB
277C
43DE
41F7
247E
100E
5C8A
4316
3DC8
359C
4990
6D8A
124B
4630
29E9
0CA1
4043
342F
064F
674C
6648
5C93
21DD
171C
4797
4FB0
0210
4CFE
484B
4797
4F4A
426D
4FDC
049B
375F
3CEF
5859
114F
4267
40B5
37CF
7F3E
45C1
6533
71AC
0DE4
7987
1445
5350
443E
1878
636B
66D3
06F8
7D96
774A
61C9
5B31
3156
1F6A
32D6
3A4E
1D41
17CB
7F27
1EEF
0A6C
6482
6614
74F4
6486
602E
32E6
1376
7C8F
066F
0-Chip Delay
(Dec.)
(Hex.)
23393
5619
17052
21292
2868
19538
24294
22895
27652
29905
21415
1210
22396
26552
24829
8663
991
21926
23306
13646
148
24836
24202
9820
12939
2364
14820
2011
13549
28339
25759
11116
31448
27936
3578
12371
12721
10264
25344
13246
544
9914
4601
16234
24475
26318
6224
13381
30013
22195
1756
19068
28716
31958
16097
1308
3320
16682
6388
12828
3518
3494
6458
10717
8463
27337
19846
9388
21201
31422
166
28622
6477
10704
25843
25406
21523
8569
9590
22466
12455
27506
21847
28392
1969
30715
23674
22629
12857
30182
21880
6617
27707
16249
24754
31609
22689
3226
4167
25624
5B61
15F3
429C
532C
0B34
4C52
5EE6
596F
6C04
74D1
53A7
04BA
577C
67B8
60FD
21D7
03DF
55A6
5B0A
354E
0094
6104
5E8A
265C
328B
093C
39E4
07DB
34ED
6EB3
649F
2B6C
7AD8
6D20
0DFA
3053
31B1
2818
6300
33BE
0220
26BA
11F9
3F6A
5F9B
66CE
1850
3445
753D
56B3
06DC
4A7C
702C
7CD6
3EE1
051C
0CF8
412A
18F4
321C
0DBE
0DA6
193A
29DD
210F
6AC9
4D86
24AC
52D1
7ABE
00A6
6FCE
194D
29D0
64F3
633E
5413
2179
2576
57C2
30A7
6B72
5557
6EE8
07B1
77FB
5C7A
5865
3239
75E6
5578
19D9
6C3B
3F79
60B2
7B79
58A1
0C9A
1047
6418
. . . continued on next page
E-8
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
14-Chip Delay
(Dec.)
(Hex.)
17418
14952
52
27254
15064
10942
377
14303
24427
26629
20011
16086
24374
9969
29364
25560
28281
7327
32449
26334
14760
15128
29912
4244
8499
9362
10175
30957
12755
19350
1153
29304
6041
21668
28048
10096
23388
15542
24013
2684
19018
25501
4489
31011
29448
25461
11846
30331
10588
32154
30173
15515
5371
10242
28052
14714
19550
8866
15297
10898
31315
19475
1278
11431
31392
4381
14898
23959
16091
9037
24162
6383
27183
16872
9072
12966
28886
25118
20424
6729
20983
12372
13948
27547
8152
17354
17835
14378
7453
26317
5955
10346
13200
30402
7311
3082
21398
31104
24272
27123
440A
3A68
0034
6A76
3AD8
2ABE
0179
37DF
5F6B
6805
4E2B
3ED6
5F36
26F1
72B4
63D8
6E79
1C9F
7EC1
66DE
39A8
3B18
74D8
1094
2133
2492
27BF
78ED
31D3
4B96
0481
7278
1799
54A4
6D90
2770
5B5C
3CB6
5DCD
0A7C
4A4A
639D
1189
7923
7308
6375
2E46
767B
295C
7D9A
75DD
3C9B
14FB
2802
6D94
397A
4C5E
22A2
3BC1
2A92
7A53
4C13
04FE
2CA7
7AA0
111D
3A32
5D97
3EDB
234D
5E62
18EF
6A2F
41E8
2370
32A6
70D6
621E
4FC8
1A49
51F7
3054
367C
6B9B
1FD8
43CA
45AB
382A
1D1D
66CD
1743
286A
3390
76C2
1C8F
0C0A
5396
7980
5ED0
69F3
13-Chip Delay
(Dec.)
(Hex.)
8709
7476
26
13627
7532
5471
20844
19007
32357
26066
30405
8043
12187
17064
14682
12780
26348
24479
28336
13167
7380
7564
14956
2122
16713
4681
16911
28070
18745
9675
21392
14652
23068
10834
14024
5048
11694
7771
32566
1342
9509
24606
22804
27969
14724
24682
5923
27373
5294
16077
29906
20593
17473
5121
14026
7357
9775
4433
21468
5449
29461
26677
639
22639
15696
18098
7449
24823
20817
24474
12081
16971
31531
8436
4536
6483
14443
12559
10212
17176
26311
6186
6974
31729
4076
8677
27881
7189
16562
32090
17821
5173
6600
15201
16507
1541
10699
15552
12136
31429
2205
1D34
001A
353B
1D6C
155F
516C
4A3F
7E65
65D2
76C5
1F6B
2F9B
42A8
395A
31EC
66EC
5F9F
6EB0
336F
1CD4
1D8C
3A6C
084A
4149
1249
420F
6DA6
4939
25CB
5390
393C
5A1C
2A52
36C8
13B8
2DAE
1E5B
7F36
053E
2525
601E
5914
6D41
3984
606A
1723
6AED
14AE
3ECD
74D2
5071
4441
1401
36CA
1CBD
262F
1151
53DC
1549
7315
6835
027F
586F
3D50
46B2
1D19
60F7
5151
5F9A
2F31
424B
7B2B
20F4
11B8
1953
386B
310F
27E4
4318
66C7
182A
1B3E
7BF1
0FEC
21E5
6CE9
1C15
40B2
7D5A
459D
1435
19C8
3B61
407B
0605
29CB
3CC0
2F68
7AC5
0-Chip Delay
(Dec.)
(Hex.)
30380
15337
10716
13592
2412
15453
13810
12956
30538
10814
18939
19767
20547
29720
31831
26287
11310
25724
21423
5190
258
13978
4670
23496
23986
839
11296
30913
27297
10349
32504
18405
3526
19161
23831
21380
4282
32382
806
6238
10488
19507
27288
2390
19094
13860
9225
2505
27806
2408
10924
23096
22683
10955
17117
15837
22647
10700
30293
5579
11057
30238
14000
22860
27172
307
20380
26427
10702
30024
14018
4297
13938
25288
27294
31835
8228
12745
6746
1456
27743
27443
31045
12225
21482
14678
30656
13721
21831
30208
9995
3248
12030
5688
2082
23143
25906
15902
21084
25723
76AC
3BE9
29DC
3518
096C
3C5D
35F2
329C
774A
2A3E
49FB
4D37
5043
7418
7C57
66AF
2C2E
647C
53AF
1446
0102
369A
123E
5BC8
5DB2
0347
2C20
78C1
6AA1
286D
7EF8
47E5
0DC6
4AD9
5D17
5384
10BA
7E7E
0326
185E
28F8
4C33
6A98
0956
4A96
3624
2409
09C9
6C9E
0968
2AAC
5A38
589B
2ACB
42DD
3DDD
5877
29CC
7655
15CB
2B31
761E
36B0
594C
6A24
0133
4F9C
673B
29CE
7548
36C2
10C9
3672
62C8
6A9E
7C5B
2024
31C9
1A5A
05B0
6C5F
6B33
7945
2FC1
53EA
3956
77C0
3599
5547
7600
270B
0CB0
2EFE
1638
0822
5A67
6532
3E1E
525C
647B
. . . continued on next page
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
E-9
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
14-Chip Delay
(Dec.)
(Hex.)
29572
13173
10735
224
12083
22822
2934
27692
10205
7011
22098
2640
4408
102
27632
19646
26967
32008
7873
655
25274
16210
11631
8535
19293
12110
21538
10579
13032
14717
11666
25809
5008
32418
22175
11742
22546
21413
133
4915
8736
1397
18024
15532
26870
5904
24341
13041
23478
1862
5578
25731
10662
11084
31098
16408
6362
2719
14732
22744
1476
8445
21118
22198
22030
10363
25802
2496
31288
24248
14327
23154
13394
1806
17179
10856
25755
15674
7083
29096
3038
16277
25525
20465
28855
32732
20373
9469
26155
6957
12214
21479
31914
32311
11276
20626
423
2679
15537
10818
7384
3375
29EF
00E0
2F33
5926
0B76
6C2C
27DD
1B63
5652
0A50
1138
0066
6BF0
4CBE
6957
7D08
1EC1
028F
62BA
3F52
2D6F
2157
4B5D
2F4E
5422
2953
32E8
397D
2D92
64D1
1390
7EA2
569F
2DDE
5812
53A5
0085
1333
2220
0575
4668
3CAC
68F6
1710
5F15
32F1
5BB6
0746
15CA
6483
29A6
2B4C
797A
4018
18DA
0A9F
398C
58D8
05C4
20FD
527E
56B6
560E
287B
64CA
09C0
7A38
5EB8
37F7
5A72
3452
070E
431B
2A68
649B
3D3A
1BAB
71A8
0BDE
3F95
63B5
4FF1
70B7
7FDC
4F95
24FD
662B
1B2D
2FB6
53E7
7CAA
7E37
2C0C
5092
01A7
0A77
3CB1
2A42
13-Chip Delay
(Dec.)
(Hex.)
14786
18538
17703
112
17993
11411
1467
13846
16958
23649
11049
1320
2204
51
13816
9823
25979
16004
24240
20631
12637
8105
18279
16763
29822
6055
10769
17785
6516
19822
5833
25528
2504
16209
31391
5871
11273
30722
20882
22601
4368
21354
9012
7766
13435
2952
32346
18600
11739
931
2789
31869
5331
5542
15549
8204
3181
19315
7366
11372
738
24130
10559
11099
11015
23041
12901
1248
15644
12124
21959
11577
6697
903
28593
5428
31857
7837
17385
14548
1519
20982
32742
27076
30311
16366
27126
23618
32041
17322
6107
26575
15957
28967
5638
10313
20207
19207
20580
5409
39C2
486A
4527
0070
4649
2C93
05BB
3616
423E
5C61
2B29
0528
089C
0033
35F8
265F
657B
3E84
5EB0
5097
315D
1FA9
4767
417B
747E
17A7
2A11
4579
1974
4D6E
16C9
63B8
09C8
3F51
7A9F
16EF
2C09
7802
5192
5849
1110
536A
2334
1E56
347B
0B88
7E5A
48A8
2DDB
03A3
0AE5
7C7D
14D3
15A6
3CBD
200C
0C6D
4B73
1CC6
2C6C
02E2
5E42
293F
2B5B
2B07
5A01
3265
04E0
3D1C
2F5C
55C7
2D39
1A29
0387
6FB1
1534
7C71
1E9D
43E9
38D4
05EF
51F6
7FE6
69C4
7667
3FEE
69F6
5C42
7D29
43AA
17DB
67CF
3E55
7127
1606
2849
4EEF
4B07
5064
1521
0-Chip Delay
(Dec.)
(Hex.)
13347
7885
6669
8187
18145
14109
14231
27606
783
6301
5067
15383
1392
7641
25700
25259
19813
20933
638
16318
6878
1328
14744
22800
25919
4795
18683
32658
1586
27208
17517
599
16253
8685
29972
22128
19871
19405
17972
8599
10142
26834
23710
27280
6570
7400
26374
22218
29654
13043
13427
31084
24023
23931
15836
6085
30324
27561
13821
269
28663
29619
2043
6962
29119
22947
9612
18698
16782
29735
2136
8086
10553
11900
19996
5641
28328
25617
26986
5597
14078
13247
499
30469
17544
28510
23196
13384
4239
20725
6466
28465
19981
16723
4522
678
15320
29116
5388
22845
3423
1ECD
1A0D
1FFB
46E1
371D
3797
6BD6
030F
189D
13CB
3C17
0570
1DD9
6464
62AB
4D65
51C5
027E
3FBE
1ADE
0530
3998
5910
653F
12BB
48FB
7F92
0632
6A48
446D
0257
3F7D
21ED
7514
5670
4D9F
4BCD
4634
2197
279E
68D2
5C9E
6A90
19AA
1CE8
6706
56CA
73D6
32F3
3473
796C
5DD7
5D7B
3DDC
17C5
7674
6BA9
35FD
010D
6FF7
73B3
07FB
1B32
71BF
59A3
258C
490A
418E
7427
0858
1F96
2939
2E7C
4E1C
1609
6EA8
6411
696A
15DD
36FE
33BF
01F3
7705
4488
6F5E
5A9C
3448
108F
50F5
1942
6F31
4E0D
4153
11AA
02A6
3BD8
71BC
150C
593D
. . . continued on next page
E-10
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
14-Chip Delay
(Dec.)
(Hex.)
5850
5552
12589
23008
27636
17600
17000
21913
30320
28240
7260
17906
5882
22080
12183
23082
17435
18527
31902
18783
20027
7982
20587
10004
13459
13383
28930
4860
13108
24161
20067
2667
13372
28743
24489
249
19960
29682
31101
27148
26706
5148
4216
5762
245
21882
3763
206
28798
32402
23074
20250
14629
29175
13943
11072
29492
5719
7347
12156
25623
27725
28870
31478
28530
24834
9075
32265
3175
17434
12178
25613
31692
25384
18908
25816
4661
31115
7691
1311
16471
15771
16112
21062
29690
10141
19014
22141
11852
26404
30663
32524
28644
10228
23536
18045
25441
27066
13740
13815
16DA
15B0
312D
59E0
6BF4
44C0
4268
5599
7670
6E50
1C5C
45F2
16FA
5640
2F97
5A2A
441B
485F
7C9E
495F
4E3B
1F2E
506B
2714
3493
3447
7102
12FC
3334
5E61
4E63
0A6B
343C
7047
5FA9
00F9
4DF8
73F2
797D
6A0C
6852
141C
1078
1682
00F5
557A
0EB3
00CE
707E
7E92
5A22
4F1A
3925
71F7
3677
2B40
7334
1657
1CB3
2F7C
6417
6C4D
70C6
7AF6
6F72
6102
2373
7E09
0C67
441A
2F92
640D
7BCC
6328
49DC
64D8
1235
798B
1E0B
051F
4057
3D9B
3EF0
5246
73FA
279D
4A46
567D
2E4C
6724
77C7
7F0C
6FE4
27F4
5BF0
467D
6361
69BA
35AC
35F7
13-Chip Delay
(Dec.)
(Hex.)
2925
2776
18758
11504
13818
8800
8500
31516
15160
14120
3630
8953
2941
11040
17947
11541
29661
30207
15951
30079
30413
3991
31205
5002
19353
19443
14465
2430
6554
32480
30433
21733
6686
27123
32260
20908
9980
14841
28014
13574
13353
2574
2108
2881
20906
10941
22153
103
14399
16201
11537
10125
21166
30407
21767
5536
14746
17687
16485
6078
31799
30746
14435
15739
14265
12417
24453
28984
18447
8717
6089
31802
15846
12692
9454
12908
18214
29433
16697
19635
28183
20721
8056
10531
14845
24050
9507
25858
5926
13202
30175
16262
14322
5114
11768
27906
32652
13533
6870
21703
0B6D
0AD8
4946
2CF0
35FA
2260
2134
7B1C
3B38
3728
0E2E
22F9
0B7D
2B20
461B
2D15
73DD
75FF
3E4F
757F
76CD
0F97
79E5
138A
4B99
4BF3
3881
097E
199A
7EE0
76E1
54E5
1A1E
69F3
7E04
51AC
26FC
39F9
6D6E
3506
3429
0A0E
083C
0B41
51AA
2ABD
5689
0067
383F
3F49
2D11
278D
52AE
76C7
5507
15A0
399A
4517
4065
17BE
7C37
781A
3863
3D7B
37B9
3081
5F85
7138
480F
220D
17C9
7C3A
3DE6
3194
24EE
326C
4726
72F9
4139
4CB3
6E17
50F1
1F78
2923
39FD
5DF2
2523
6502
1726
3392
75DF
3F86
37F2
13FA
2DF8
6D02
7F8C
34DD
1AD6
54C7
0-Chip Delay
(Dec.)
(Hex.)
24457
17161
21314
28728
22162
26259
22180
2266
10291
26620
19650
14236
11482
25289
12011
13892
17336
10759
26816
31065
8578
24023
16199
22310
30402
16613
13084
3437
1703
22659
26896
1735
16178
19166
665
20227
24447
16771
27209
6050
29088
7601
4905
5915
6169
21303
28096
8905
26997
15047
28430
8660
2659
8803
19690
22169
8511
17393
11336
13576
22820
13344
20107
8013
18835
16793
9818
4673
13609
10054
10988
14744
17930
25452
11334
15451
11362
2993
11012
5806
20180
8932
23878
20760
32764
32325
25993
3268
25180
12149
10193
9128
7843
25474
11356
11226
16268
14491
8366
26009
5F89
4309
5342
7038
5692
6693
56A4
08DA
2833
67FC
4CC2
379C
2CDA
62C9
2EEB
3644
43B8
2A07
68C0
7959
2182
5DD7
3F47
5726
76C2
40E5
331C
0D6D
06A7
5883
6910
06C7
3F32
4ADE
0299
4F03
5F7F
4183
6A49
17A2
71A0
1DB1
1329
171B
1819
5337
6DC0
22C9
6975
3AC7
6F0E
21D4
0A63
2263
4CEA
5699
213F
43F1
2C48
3508
5924
3420
4E8B
1F4D
4993
4199
265A
1241
3529
2746
2AEC
3998
460A
636C
2C46
3C5B
2C62
0BB1
2B04
16AE
4ED4
22E4
5D46
5118
7FFC
7E45
6589
0CC4
625C
2F75
27D1
23A8
1EA3
6382
2C5C
2BDA
3F8C
389B
20AE
6599
. . . continued on next page
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
E-11
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
14-Chip Delay
(Dec.)
(Hex.)
13463
15417
23101
14957
23429
12990
12421
28875
4009
1872
15203
30109
24001
4862
14091
6702
3067
28643
21379
20276
25337
19683
10147
16791
17359
13248
22740
13095
10345
30342
27866
9559
8808
12744
11618
27162
17899
29745
31892
23964
23562
2964
18208
15028
21901
24566
18994
13608
27492
11706
3684
23715
15314
32469
9816
4444
5664
7358
27264
28128
30168
29971
3409
16910
20739
10191
12819
19295
10072
15191
27748
720
29799
27640
263
24734
16615
20378
25116
19669
14656
27151
28728
25092
22601
2471
25309
15358
17739
12643
32730
19122
16870
10787
18400
20295
1937
17963
7438
12938
3497
3C39
5A3D
3A6D
5B85
32BE
3085
70CB
0FA9
0750
3B63
759D
5DC1
12FE
370B
1A2E
0BFB
6FE3
5383
4F34
62F9
4CE3
27A3
4197
43CF
33C0
58D4
3327
2869
7686
6CDA
2557
2268
31C8
2D62
6A1A
45EB
7431
7C94
5D9C
5C0A
0B94
4720
3AB4
558D
5FF6
4A32
3528
6B64
2DBA
0E64
5CA3
3BD2
7ED5
2658
115C
1620
1CBE
6A80
6DE0
75D8
7513
0D51
420E
5103
27CF
3213
4B5F
2758
3B57
6C64
02D0
7467
6BF8
0107
609E
40E7
4F9A
621C
4CD5
3940
6A0F
7038
6204
5849
09A7
62DD
3BFE
454B
3163
7FDA
4AB2
41E6
2A23
47E0
4F47
0791
462B
1D0E
328A
13-Chip Delay
(Dec.)
(Hex.)
19355
20428
31950
19686
31762
6495
18834
27061
22020
936
19553
27422
32560
2431
19029
3351
21549
26145
30737
10138
24748
30625
16897
28955
28727
6624
11370
18499
17892
15171
13933
17275
4404
6372
5809
13581
29477
27592
15946
11982
11781
1482
9104
7514
31510
12283
9497
6804
13746
5853
1842
24685
7657
29014
4908
2222
2832
3679
13632
14064
15084
29877
18580
8455
26301
24027
22325
27539
5036
21399
13874
360
29711
13820
20159
12367
28239
10189
12558
26710
7328
31547
14364
12546
25112
19183
32594
7679
27801
22157
16365
9561
8435
23341
9200
27039
19956
27945
3719
6469
4B9B
4FCC
7CCE
4CE6
7C12
195F
4992
69B5
5604
03A8
4C61
6B1E
7F30
097F
4A55
0D17
542D
6621
7811
279A
60AC
77A1
4201
711B
7037
19E0
2C6A
4843
45E4
3B43
366D
437B
1134
18E4
16B1
350D
7325
6BC8
3E4A
2ECE
2E05
05CA
2390
1D5A
7B16
2FFB
2519
1A94
35B2
16DD
0732
606D
1DE9
7156
132C
08AE
0B10
0E5F
3540
36F0
3AEC
74B5
4894
2107
66BD
5DDB
5735
6B93
13AC
5397
3632
0168
740F
35FC
4EBF
304F
6E4F
27CD
310E
6856
1CA0
7B3B
381C
3102
6218
4AEF
7F52
1DFF
6C99
568D
3FED
2559
20F3
5B2D
23F0
699F
4DF4
6D29
0E87
1945
0-Chip Delay
(Dec.)
(Hex.)
17460
17629
10461
21618
11498
193
16140
13419
10864
28935
18765
27644
21564
5142
1211
1203
5199
16945
4883
25040
7119
17826
4931
25705
10726
17363
2746
10952
19313
29756
14297
21290
1909
8994
13295
21590
26468
13636
5207
29493
18992
12567
12075
26658
21077
15595
4921
14051
5956
21202
5164
17126
21566
21845
28149
9400
19459
7190
3101
491
25497
29807
26508
4442
4871
31141
9864
12589
5417
8549
14288
8503
20357
15381
18065
24678
23858
7610
18097
20918
7238
30549
16320
20853
26736
10327
24404
7931
5310
554
27311
6865
7762
15761
12697
24850
15259
24243
30508
13982
4434
44DD
28DD
5472
2CEA
00C1
3F0C
346B
2A70
7107
494D
6BFC
543C
1416
04BB
04B3
144F
4231
1313
61D0
1BCF
45A2
1343
6469
29E6
43D3
0ABA
2AC8
4B71
743C
37D9
532A
0775
2322
33EF
5456
6764
3544
1457
7335
4A30
3117
2F2B
6822
5255
3CEB
1339
36E3
1744
52D2
142C
42E6
543E
5555
6DF5
24B8
4C03
1C16
0C1D
01EB
6399
746F
678C
115A
1307
79A5
2688
312D
1529
2165
37D0
2137
4F85
3C15
4691
6066
5D32
1DBA
46B1
51B6
1C46
7755
3FC0
5175
6870
2857
5F54
1EFB
14BE
022A
6AAF
1AD1
1E52
3D91
3199
6112
3B9B
5EB3
772C
369E
. . . continued on next page
E-12
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
PN Offset Programming Information
68P09255A69-3
Table E-1: PnMaskI and PnMaskQ Values for PilotPn
Pilot
PN
501
502
503
504
505
506
507
508
509
510
511
14-Chip Delay
(Dec.)
(Hex.)
14301
23380
11338
2995
23390
14473
6530
20452
12226
1058
12026
19272
29989
8526
18139
3247
28919
7292
20740
27994
2224
6827
37DD
5B54
2C4A
0BB3
5B5E
3889
1982
4FE4
2FC2
0422
2EFA
4B48
7525
214E
46DB
0CAF
70F7
1C7C
5104
6D5A
08B0
1AAB
13-Chip Delay
(Dec.)
(Hex.)
19006
11690
5669
21513
11695
19860
3265
10226
6113
529
6013
9636
29870
4263
27985
18539
30279
3646
10370
13997
1112
17257
4A3E
2DAA
1625
5409
2DAF
4D94
0CC1
27F2
17E1
0211
177D
25A4
74AE
10A7
6D51
486B
7647
0E3E
2882
36AD
0458
4369
0-Chip Delay
(Dec.)
(Hex.)
11239
30038
30222
13476
2497
31842
24342
25857
27662
24594
16790
25039
24086
21581
21346
28187
23231
18743
11594
7198
105
4534
2BE7
7556
760E
34A4
09C1
7C62
5F16
6501
6C0E
6012
4196
61CF
5E16
544D
5362
6E1B
5ABF
4937
2D4A
1C1E
0069
11B6
Aug 2002
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E-13
PN Offset Programming Information
68P09255A69-3
Notes
E-14
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Aug 2002
Appendix F
Test Equipment Preparation
Aug 2002
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F-1
Test Equipment Preparation
68P09255A69-3
Test Equipment Preparation
Purpose
This appendix provides information on pre-testing set-up for the
following test equipment items (not required for the Cybertest test set):
Agilent E4406A transmitter test set
Agilent E4432B signal generator
Advantest R3267 spectrum analyzer
Advantest R3562 signal generator
Agilent 8935 analyzer (formerly HP 8935)
HP 8921 with PCS interface analyzer
Advantest R3465 analyzer
HP 437 power meter
Gigatronics 8541C power meter
GPIB adapter
Pre-testing set-up information covered includes verification and setting
GPIB addresses, inter-unit cabling, connectivity testing, pre-test control
settings, and equipment calibration for items which are not calibrated
with the Calibrate Test Equipment function of the LMF.
F-2
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Setting GPIB Addresses
68P09255A69-3
Setting GPIB Addresses
Procedures for Verifying and Setting CDMA Support Equipment GPIB
Addresses
The following procedures cover verification and changing GPIB
addresses for the various items of CDMA test equipment supported by
the LMF.
Agilent E4406A Transmitter Tester GPIB Address
Figure F-1: Setting Agilent E4406A GPIB Address
Active Function
Area
Softkey Label
Display Area
System
Key
Bk Sp
Key
Softkey
Buttons
Data Entry
Keypad
Enter
Key
Refer to Figure F-1 and follow the procedure in Table F-1 to verify and,
if necessary, change the Agilent E4406A GPIB address.
Table F-1: Verify and Change Agilent E4406A GPIB Address
Step
Action
In the SYSTEM section of the instrument front panel, press the System key.
- The softkey labels displayed on the right side of the instrument screen will change.
Press the Config I/O softkey button to the right of the instrument screen.
- The softkey labels will change.
- The current instrument GPIB address will be displayed below the GPIB Address softkey label.
If the current GPIB address is not set to 18, perform the following to change it:
3a
- Press the GPIB Address softkey button.
-- In the on-screen Active Function Area, GPIB Address will be displayed followed by the
current GPIB address.
. . . continued on next page
Aug 2002
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F-3
Setting GPIB Addresses
68P09255A69-3
Table F-1: Verify and Change Agilent E4406A GPIB Address
Step
Action
3b
- On the front panel Data Entry keypad, enter the communications system analyzer GPIB address of
18.
-- The GPIB Address label will change to Enter.
-- Characters typed on the keypad will replace the current GPIB address in the Active Function
Area.
NOTE
To correct an entry, press the Bk Sp key at the upper right of the keypad to delete one character at a
time.
3c
- Press the Enter softkey button or the keypad Enter key to set the new GPIB address.
-- The Config I/O softkey labels will reappear.
-- The new GPIB address will be displayed under the GPIB Address softkey label.
Agilent E4432B Signal Generator GPIB Address
Figure F-2: Setting Agilent E4432B GPIB Address
Active Entry
Area
Softkey Label
Display Area
Utility
Key
Softkey
Buttons
Numeric
Keypad
Backspace
Key
Refer to Figure F-2 and follow the procedure in Table F-2 to verify and,
if necessary, change the Agilent E4432B GPIB address.
Table F-2: Verify and Change Agilent E4432B GPIB Address
Step
Action
In the MENUS section of the instrument front panel, press the Utility key.
- The softkey labels displayed on the right side of the instrument screen will change.
Press the GPIB/RS232 softkey button to the right of the instrument screen.
- The softkey labels will change.
- The current instrument GPIB address will be displayed below the GPIB Address softkey label.
. . . continued on next page
F-4
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Setting GPIB Addresses
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Table F-2: Verify and Change Agilent E4432B GPIB Address
Step
Action
If the current GPIB address is not set to 1, perform the following to change it:
3a
- Press the GPIB Address softkey button.
-- The GPIB Address label and current GPIB address will change to boldface.
-- In the on-screen Active Entry Area, Address: will be displayed followed by the current
GPIB address.
3b
- On the front panel Numeric keypad, enter the signal generator GPIB address of 1.
-- The GPIB Address label will change to Enter.
-- Characters typed on the keypad will replace the current GPIB address in the Active Entry
display.
NOTE
To correct an entry, press the backspace key at the lower right of the keypad to delete one character at
a time.
3c
- Press the Enter softkey button to set the new GPIB address.
-- The new GPIB address will be displayed under the GPIB Address softkey label.
Advantest R3267 Spectrum Analyzer GPIB Address
Figure F-3: Setting Advantest R3267 GPIB Address
Softkey Lable
Display Area
Softkey
Buttons
on
REMOTE
LED
LCL Key
CONFIG
Key
Keypad
BS
Key
ENTR
Key
Refer to Figure F-3 and perform the procedure in Table F-3 to verify
and, if necessary, change the Advantest R3267 spectrum analyzer GPIB
address.
Aug 2002
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Setting GPIB Addresses
68P09255A69-3
Table F-3: Verify and Change Advantest R3267 GPIB Address
Step
Action
If the REMOTE LED is lighted, press the LCL key.
- The LED extinguishes.
Press the CONFIG key.
- The CONFIG softkey labels will appear in the softkey label display area of the instrument
display.
- The current GPIB address will be displayed below the GPIB Address softkey label.
If the current GPIB address is not set to 18, perform the following to change it:
3a
- Press the GPIB Address softkey.
-- A GPIB Address entry window will open in the instrument display showing the current
GPIB address.
3b
- Enter 18 on the keypad in the ENTRY section of the instrument front panel.
-- Characters typed on the keypad will replace the address displayed in the GPIB Address
entry window.
NOTE
To correct an entry, press the BS (backspace) key at the lower right of the keypad to delete one
character at a time.
3c
- Press the ENTR key to the lower right of the keypad to set the new GPIB address.
-- The GPIB Address entry window closes.
-- The new address is displayed in the bottom portion of the GPIB Address softkey label.
Advantest R3562 Signal Generator GPIB Address
Set the GP-IB ADDRESS switch on the rear of the Advantest R3562
signal generator to address 1 as shown in Figure F-4.
Figure F-4: Advantest R3562 GPIB Address Switch Setting
GPIB Address set to “1”
GP-IP ADDRESS
5 4 3 2 1
F-6
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Setting GPIB Addresses
68P09255A69-3
Agilent 8935 Series E6380 (formerly HP 8935) Test Set GPIB Address
Figure F-5: Agilent 8935 Test Set
Preset
Local
Inst Config
Shift
Cursor Control
FW00885
Refer to Figure F-5 and follow the procedure in Table F-4 to verify and,
if necessary, change the Agilent 8935 GPIB address.
NOTE
This procedure assumes that the test equipment is set up and
ready for testing.
Table F-4: Verify and/or Change Agilent 8935 (formerly HP 8935) GPIB Address
Step
Action
NOTE
The HP I/O configuration MUST be set to Talk & Listen, or no device on the GPIB will be
accessible. (Consult test equipment OEM documentation for additional information as required.)
To verify that the GPIB addresses are set correctly, press Shift and LOCAL on the Agilent 8935.
- The current HP-IB address is displayed at the top of the screen.
NOTE
HP-IB is the same as GPIB.
If the current GPIB address is not set to 18, perform the following to change it:
2a
- Press Shift and Inst Config.
2b
- Turn the Cursor Control knob to move the cursor to the HP-IB Adrs field.
2c
- Press the Cursor Control knob to select the field.
2d
- Turn the Cursor Control knob as required to change the address to 18.
2e
- Press the Cursor Control knob to set the address.
Aug 2002
Press Preset to return to normal operation.
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Setting GPIB Addresses
68P09255A69-3
Setting HP 8921A and HP 83236A/B GPIB Address
Figure F-6: HP 8921A and HP 83236A/B
Local
Preset
Shift
Cursor Control
Refer to Figure F-6 and follow the procedure in Table F-5 to verify and,
if necessary, change the HP 8921A HP 83236A GPIB addresses.
NOTE
This procedure assumes that the test equipment is set up and
ready for testing.
Table F-5: Verify and/or Change HP 8921A and HP 83236A GPIB Addresses
Step
Action
To verify that the GPIB addresses are set correctly, press Shift and LOCAL on the HP 8921A.
- The current HP-IB address is displayed at the top of the screen.
NOTE
HP-IB is the same as GPIB.
If the current HP-IB address is not set to 18, perform the following to change it:
2a
- Turn the Cursor Control knob to move the cursor to More and press the knob to select the field.
2b
- Turn the Cursor Control knob to move the cursor to I/O Config and press the knob to select the
field.
2c
- Turn the Cursor Control knob to move the cursor to Adrs and press the knob to select the field.
2d
- Turn the Cursor Control knob to change the HP-IB address to 18 and press the knob to set the
address.
F-8
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Setting GPIB Addresses
68P09255A69-3
Table F-5: Verify and/or Change HP 8921A and HP 83236A GPIB Addresses
Step
2e
Action
- Press Shift and Preset to return to normal operation.
To set the HP 83236A (or B) PCS Interface GPIB address=19, set the DIP switches as follows:
- A1=1, A2=1, A3=0, A4=0, A5=1, HP-IB/Ser = 1
Advantest R3465 GPIB Address
Figure F-7: R3465 Communications Test Set
GPIB and others
REF UNLOCK
EVEN
SEC/SYNC IN
CDMA
TIME BASE IN
POWER
BNC
“T”
OFF
ON
Vernier
Knob
LCL
Shift
Preset
REF FW00337
Refer to Figure F-7 and follow the procedure in Table F-6 to verify and,
if necessary, change the GPIB address for the Advantest R3465.
NOTE
This procedure assumes that the test equipment is set up and
ready for testing.
Table F-6: Verify and/or Change Advantest R3465 GPIB Address
Step
Action
To verify that the GPIB address is set correctly, perform the following:
1a
- Press SHIFT then PRESET.
1b
- Press LCL.
1c
- Press the GPIB and Others CRT menu key to view the current address.
If the current GPIB address is not set to 18, perform the following to change it:
2a
- Turn the vernier knob as required to select 18.
2b
- Press the vernier knob to set the address.
Aug 2002
To return to normal operation, press Shift and Preset.
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PRELIMINARY
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Setting GPIB Addresses
68P09255A69-3
Motorola CyberTest GPIB Address
Follow the steps in Table F-7 to verify and, if necessary, change the
GPIB address on the Motorola CyberTest. Changing the GPIB address
requires the following items:
NOTE
Motorola CyberTest communications analyzer.
Computer running Windows 3.1/Windows 95.
Motorola CyberTAME software program “TAME”.
Parallel printer port cable (shipped with CyberTest).
This procedure assumes that the test equipment is set up and
ready for testing.
Table F-7: Verify and/or Change Motorola CyberTest GPIB Address
Step
Action
On the LMF desktop, locate the CyberTAME icon. Double click on the icon to run the CyberTAME
application.
In the CyberTAME window taskbar, under Special, select IEEE.488.2.
CyberTAME software will query the CyberTest Analyzer for its current GPIB address. It then will
open the IEEE 488.2 dialog box. If the current GPIB address is not 18, perform the following
procedure to change it:
3a
- Use the up or down increment arrows or double-click in the field and type the number to set the
address to 18.
3b
- Click on the OK button.
-- The new address will be written to the CyberTest through the parallel port and saved.
F-10
Verify that the address has been set by repeating steps 2 and 3.
- The new address should now appear in the IEEE 488.2 dialog box Address field.
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Setting GPIB Addresses
68P09255A69-3
HP 437 Power Meter GPIB Address
Figure F-8: HP 437 Power Meter
PRESET
SHIFT (BLUE) PUSHBUTTON ACCESSES FUNCTION AND
DATA ENTRY KEYS IDENTIFIED
WITH LIGHT BLUE TEXT ON
THE FRONT PANEL ABOVE
THE BUTTONS
ENTER
REF FW00308
Refer to Figure F-8 and follow the steps in Table F-8 to verify and, if
necessary, change the HP 437 GPIB address.
NOTE
This procedure assumes that the test equipment is set up and
ready for testing.
Table F-8: Verify and/or Change HP 437 Power Meter GPIB Address
Step
Action
Press Shift and PRESET.
Use the arrow key to navigate to HP-IB ADRS and press ENTER.
The HP-IB address is displayed.
NOTE
HP-IB is the same as GPIB.
If the current GPIB address is not set to 13, perform the following to change it:
- Use the
arrow keys to change the HP-IB ADRS to 13.
- Press ENTER to set the address.
Press Shift and ENTER to return to a standard configuration.
Aug 2002
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F-11
Setting GPIB Addresses
68P09255A69-3
Gigatronics 8541C Power Meter GPIB Address
Figure F-9: Gigatronics 8541C Power Meter Detail
MENU
ENTER
ARROW
KEYS
REF FW00564
Refer to Figure F-9 and follow the steps in Table F-9 to verify and, if
necessary, change the Gigatronics 8541C power meter GPIB address.
NOTE
This procedure assumes that the test equipment is set up and
ready for testing.
Table F-9: Verify and/or Change Gigatronics 8541C Power Meter GPIB Address
Step
Action
! CAUTION
Do not connect/disconnect the power meter sensor cable with AC power applied to the meter.
Disconnection could result in destruction of the sensing element or miscalibration.
Press MENU.
Use the
Use the arrow key to select GPIB and press ENTER.
The current Mode and GPIB Address are displayed.
If the Mode is not set to 8541C, perform the following to change it:
Use the
arrow keys as required to select MODE.
Use the
arrow keys as required to set MODE to 8541C.
If the GPIB address is not set to 13, perform the following to change it:
Use the arrow key to select ADDRESS.
Use the
arrow keys as required to set the GPIB address to 13.
Press ENTER to return to normal operation.
F-12
arrow key to select CONFIG MENU and press ENTER.
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Setting GPIB Addresses
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RS-232 GPIB Interface Adapter
Be sure that the RS-232 GPIB interface adapter DIP switches are set as
shown in Figure F-10.
Figure F-10: RS232 GPIB Interface Adapter
DIP SWITCH SETTINGS
S MODE
DATA FORMAT
BAUD RATE
ON
GPIB ADRS
G MODE
RS232-GPIB
INTERFACE BOX
Aug 2002
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Test Equipment Inter-unit Connection, Testing, and Control
68P09255A69-3
Test Equipment Inter-unit Connection, Testing, and Control
Inter-unit Connection, Testing, and Control Settings
The following illustrations, tables, and procedures provide the
information necessary to prepare various items of CDMA test equipment
supported by the LMF for BTS calibration and/or acceptance testing.
HP 8921A with PCS Interface Test Equipment Connections
The following diagram depicts the rear panels of the HP 8921A test
equipment as configured to perform automatic tests. All test equipment
is controlled by the LMF via an IEEE-488/GPIB bus. The LMF expects
each piece of test equipment to have a factory-set GPIB address (refer to
Table F-5 and Figure F-6). If there is a communications problem
between the LMF and any piece of test equipment, verify that the GPIB
addresses have been set correctly and that the GPIB cables are firmly
connected to the test equipment.
Figure F-11 shows the connections when not using an external 10 MHz
Rubidium reference.
Table F-10: HP 8921A/600 Communications Test Set Rear Panel Connections Without Rubidium Reference
From Test Set:
To Interface:
8921A
83203B CDMA
CW RF OUT
114.3 MHZ IF OUT
IQ RF IN
DET OUT
CONTROL I/O
10 MHZ OUT
HPIB INTERFACE
CW RF IN
114.3 MHZ IF IN
IQ RF OUT
AUX DSP IN
CONTROL I/O
SYNTH REF IN
10 MHZ OUT
F-14
83236A PCS
HPIB INTERFACE
REF IN
Connector Type
SMC-female - SMC-female
SMC-female - SMC-female
SMC-female - SMC-female
SMC-female - SMC-female
45-pin custom BUS
BNC-male - BNC-male
HPIB cable
BNC-male - BNC-male
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Aug 2002
68P09255A69-3
Test Equipment Inter-unit Connection, Testing, and Control
Figure F-11: HP 8921A/600 Cable Connections for 10 MHz Signal and GPIB without Rubidium Reference
HP 83203B CDMA
CELLULAR ADAPTER
TO POWER
METER GPIB
CONNECTOR
ÌÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌÌ
TO GPIB
INTERFACE
BOX
HP 8921A CELL
SITE TEST SET
HP 83236A PCS
INTERFACE
REF IN
HP-IB
FW00368
REAR PANEL
COMMUNICATIONS TEST SET
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Test Equipment Inter-unit Connection, Testing, and Control
68P09255A69-3
Figure F-12 shows the connections when using an external 10 MHz
Rubidium reference.
Table F-11: HP 8921A/600 Communications Test Set Rear Panel Connections With Rubidium Reference
From Test Set:
To Interface:
8921A
83203B CDMA
CW RF OUT
114.3 MHZ IF OUT
IQ RF IN
DET OUT
CONTROL I/O
10 MHZ OUT
HPIB INTERFACE
10 MHZ INPUT
83236A PCS
CW RF IN
114.3 MHZ IF IN
IQ RF OUT
AUX DSP IN
CONTROL I/O
REF IN
HPIB INTERFACE
10 MHZ OUT
Connector Type
SMC-female - SMC-female
SMC-female - SMC-female
SMC-female - SMC-female
SMC-female - SMC-female
45-pin custom BUS
BNC-male - BNC-male
HPIB cable
BNC-male - BNC-male
F-16
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68P09255A69-3
Test Equipment Inter-unit Connection, Testing, and Control
Figure F-12: HP 8921A Cable Connections for 10 MHz Signal and GPIB with Rubidium Reference
10 MHZ WITH
RUBIDIUM STANDARD
HP 83203B CDMA
CELLULAR ADAPTER
TO POWER
METER GPIB
CONNECTOR
ÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌ
ÌÌÌÌÌÌÌÌ
TO GPIB
INTERFACE
BOX
HP 8921A CELL
SITE TEST SET
HP 83236A PCS
INTERFACE
REF IN
HP-IB
FW00369
REAR PANEL
COMMUNICATIONS TEST SET
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Test Equipment Inter-unit Connection, Testing, and Control
68P09255A69-3
HP 8921A with PCS Interface System Connectivity Test
Follow the steps outlined in Table F-12 to verify that the connections
between the PCS Interface and the HP 8921A are correct and cables are
intact. The software also performs basic functionality checks of each
instrument.
NOTE
Table:note. Note 10pt Helvetica
Disconnect other GPIB devices, especially system controllers,
from the system before running the connectivity software.
Table F-12: System Connectivity
Step
Action
NOTE
- Perform this procedure after test equipment has been allowed to warm-up and stabilize for a
minimum of 60 minutes.
Insert HP 83236A Manual Control/System card into memory card slot.
Press the [PRESET] pushbutton.
Press the Screen Control [TESTS] pushbutton to display the “Tests” Main Menu screen.
Position the cursor at Select Procedure Location and select it by pressing the cursor control knob. In
the Choices selection box, select Card.
Position the cursor at Select Procedure Filename and select it by pressing the cursor control knob. In
the Choices selection box, select SYS_CONN.
Position the cursor at RUN TEST and select it. The software will provide operator prompts through
completion of the connectivity setup.
Do the following when the test is complete,
 position cursor on STOP TEST and select it
 OR press the [K5] pushbutton.
To return to the main menu, press the [K5] pushbutton.
Press the [PRESET] pushbutton.
Pretest Setup for HP 8921A
Before the HP 8921A CDMA analyzer is used for LMF-controlled
testing it must be set up correctly for automatic testing.
Table F-13: Pretest Setup for HP 8921A
Step
Action
Unplug the memory card if it is plugged in.
Press the CURSOR CONTROL knob.
Position the cursor at IO CONFIG (under To Screen and More) and select it.
Select Mode and set for Talk&Lstn.
F-18
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68P09255A69-3
Test Equipment Inter-unit Connection, Testing, and Control
Pretest Setup for Agilent 8935
Before the Agilent 8935 analyzer is used for LMF controlled testing it
must be set up correctly for automatic testing.
Table F-14: Pretest Setup for Agilent 8935
Step
Action
Unplug the memory card if it is plugged in.
Press the Shift button and then press the I/O Config button.
Press the Push to Select knob.
Position the cursor at IO CONFIG and select it.
Select Mode and set for Talk&Lstn.
Aug 2002
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Test Equipment Inter-unit Connection, Testing, and Control
68P09255A69-3
Advantest R3465 Connection
The following diagram depicts the rear panels of the Advantest R3465
test equipment as configured to perform automatic tests. All test
equipment is controlled by the LMF via an IEEE-488/GPIB bus. The
LMF expects each piece of test equipment to have a factory-set GPIB
address (refer to Table F-6 and Figure F-7). If there is a communications
problem between the LMF and any piece of test equipment, verify that
the GPIB addresses have been set correctly and that the GPIB cables are
firmly connected to the test equipment.
Figure F-13 shows the connections when not using an external 10 MHz
Rubidium reference.
Figure F-13: Cable Connections for Test Set without 10 MHz Rubidium Reference
SERIAL I/O CDMA CLOCK OUT
R3561L
REAR PANEL
SYN REF IN
LOCAL IN
TO POWER METER
GPIB CONNECTOR
PARALLEL
10 MHZ OUT
AC POWER
SERIAL I/O
R3465
REAR PANEL
GATE IN EXT TRIGGER
AC POWER
GPIB
TO GPIB
INTERFACE BOX
10 MHZ REF
IF OUT
421 MHZ
FW00370
GPIB
CONNECTOR
F-20
ADVANTEST R3465
REAR PANEL
TO T-CONNECTOR
ON FRONT PANEL
(EVEN/SEC/SYNC IN)
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Test Equipment Inter-unit Connection, Testing, and Control
Figure F-14 shows the connections when using an external 10 MHz
Rubidium reference.
Figure F-14: Cable Connections for Test Set with 10 MHz Rubidium Reference
FROM 10 MHZ
RUBIDIUM REFERENCE
SERIAL I/O CDMA CLOCK OUT
R3561L
REAR PANEL
SYN REF IN
LOCAL IN
TO POWER METER
GPIB CONNECTOR
PARALLEL
10 MHZ OUT
AC POWER
SERIAL I/O
R3465/3463
REAR PANEL
GATE IN EXT TRIGGER
AC POWER
GPIB
TO GPIB
INTERFACE BOX
10 MHZ REF
IF OUT
421 MHZ
FW00371
GPIB
CONNECTOR
ADVANTEST R3465
REAR PANEL
TO T-CONNECTOR
ON FRONT PANEL
(EVEN SEC/SYNC IN)
R3465 GPIB Clock Set-up
Table F-15 describes the steps to set the clock for the Advantest R3465
equipment.
Table F-15: Advantest R3465 Clock Setup
Step
Action
Observe the current date and time displayed in upper right of the CRT display.
If the date and time are incorrect, perform the following to change them:
2a
- Push the Date/Time CRT menu key.
2b
- Rotate the vernier knob to select and set.
2c
- Push the vernier knob to enter.
2d
- Push the SHIFT then PRESET pushbutton (just below the CRT display).
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Test Equipment Inter-unit Connection, Testing, and Control
68P09255A69-3
Pretest Setup for Advantest R3465
Before the Advantest R3465 analyzer is used for LMF-controlled testing
it must be set up correctly for automatic testing.
Table F-16: Pretest Setup for Advantest R346
Step
Action
Press the SHIFT button so the LED next to it is illuminated.
Press the RESET button.
Agilent 8932/E4432B Test Equipment Interconnection
To perform FER testing on a 1X BTS with the Agilent 8935, a
1X-capable signal generator, such as the Agilent E4432B, must be used
in conjunction with the CDMA base station test set. For proper
operation, the test equipment items must be interconnected as follows:
10 MHz reference signal - Connect a BNC (M)-BNC (M) cable from
the 8935 10 MHz REF OUT connector to the E4432B 10MHz IN
connector as shown in Figure F-15
Even second pulse reference - Refer to Figure F-15, and connect a
BNC “T” connector to the 8935 EVEN SEC SYNC IN connector.
Connect a BNC (M)-BNC (M) cable from one side of the BNC “T” to
the E4432B PATTERN TRIG IN connector. Connect the other side of
the BNC “T” to the CSM board SYNC MONITOR connector using a
BNC (M)-BNC (M) cable.
Figure F-15: Agilent 8935/E4432B 10MHz Reference and Even Second Tick Connections
E4432B
PATTERN TRIG IN
E4432B
10 MHz IN
TO GPIB
ÁÁ
Á
ÁÁ
Á
ÁÁÁ
8935
EVEN SECOND
SYNC IN
WITH BNC “T”
F-22
8935
10 MHz
REF OUT
TO CSM BOARD
SYNCH MONITOR
(EVEN SEC TICK)
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TDME0011-1
Aug 2002
68P09255A69-3
Test Equipment Inter-unit Connection, Testing, and Control
Agilent E4406A/E4432B Test Equipment Interconnection
To provide proper operation during testing when both units are required,
the 10 MHz reference signal from the E4406A transmitter test set must
be provided to the E4432B signal generator. Connect a BNC (M)-BNC
(M) cable from the E4406A 10 MHz OUT (SWITCHED) connector to
the E4432B 10MHz IN connector as shown in Figure F-16.
Figure F-16: Agilent 10 MHz Reference Connections
E4432B
10 MHz IN
TO GPIB BOX
E4406A
10 MHz OUT
(SWITCHED)
TDME0009-1
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Test Equipment Inter-unit Connection, Testing, and Control
68P09255A69-3
Advantest R3267/R3562 Test Equipment Interconnection
To provide proper operation during testing when both units are required,
the R3257 spectrum analyzer must be interconnected with the R3562
signal generator as follows:
10 MHz reference signal - Connect a BNC (M)-BNC (M) cable
between the R3562 SYNTHE REF IN connector and the R3267 10
MHz OUT connector as shown in Figure F-17.
Serial I/O - Using the Advantest cable provided, connect the R3267
SERIAL I/O connector to the R3562 SERIAL I/O connector as shown
in Figure F-17.
Figure F-17: Advantest 10 MHz Reference and Serial I/O Connections
R3267
10 MHZ OUT
R3267
SERIAL I/O
TO GPIB BOX
R3562
SYNTHE REF IN
TO GPIB
BOX
R3562
SERIAL I/O
TDME0010-1
F-24
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Equipment Calibration
68P09255A69-3
Equipment Calibration
Calibration Without the LMF
Several test equipment items used in the optimization process require
pre-calibration actions or calibration verification which are not
supported by the LMF. Procedures to perform these activities for the
applicable test equipment items are covered in this section.
Agilent E4406A Transmitter Tester Self-alignment (Calibration)
Softkey Label
Display Area
System
Key
g Agilent E4406A
tion)
Softkey
Buttons
Refer to Figure F-18 and follow the procedure in Table F-17 to perform
the Agilent E4406A self-alignment (calibration).
Table F-17: Perform Agilent E4406A Self-alignment (Calibration)
Step
Action
In the SYSTEM section of the instrument front panel, press the System key.
- The softkey labels displayed on the right side of the instrument screen will change.
Press the Alignments softkey button to the right of the instrument screen.
- The softkey labels will change.
Press the Align All Now softkey button.
- All other instrument functions will be suspended during the alignment.
- The display will change to show progress and results of the alignments performed.
- The alignment will take less than one minute.
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Equipment Calibration
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Calibrating HP 437 Power Meter
Precise transmit output power calibration measurements are made using
a bolometer-type broadband power meter with a sensitive power sensor.
Follow the steps outlined in Table F-18 to enter information unique to
the power sensor before calibrating the test setup. Refer to Figure F-19
as required.
NOTE
This procedure must be done before the automated calibration to
enter power sensor specific calibration values.
Figure F-19: Power Meter Detail
CONNECT POWER SENSOR
TO POWER REFERENCE
WHEN CALIBRATING UNIT.
POWER REFERENCE IS
ENABLED USING THE SHIFT
KEYS
SHIFT (BLUE) PUSHBUTTON ACCESSES FUNCTION AND
DATA ENTRY KEYS IDENTIFIED
WITH LIGHT BLUE TEXT ON
THE FRONT PANEL ABOVE
THE BUTTONS
CONNECT POWER
SENSOR WITH POWER
METER TURNED OFF
FW00308
Table F-18: HP 437 Power Meter Calibration Procedure
Step
Action
! CAUTION
Do not connect/disconnect the power meter sensor cable with AC power applied to the meter.
Disconnection could result in destruction of the sensing element or mis-calibration.
Make sure the power meter AC LINE pushbutton is OFF.
Connect the power sensor cable to the SENSOR input.
Set the AC LINE pushbutton to ON.
NOTE
The calibration should be performed only after the power meter and sensor have been allowed to
warm-up and stabilize for a minimum of 60 minutes.
Perform the following to set or verify the correct power sensor model:
4a
- Press [SHIFT] then [ ] to select SENSOR.
4b
- Identify the power sensor model number from the sensor label.
4c
- Use the [ ] or [ ] button to select the appropriate model; then press [ENTER].
Refer to the illustration for step 8, and perform the following to ensure the power reference output is
OFF:
5a
- Observe the instrument display and determine if the triangular indicator over PWR REF is
displayed.
5b
- If the triangular indicator is displayed, press [SHIFT] then [ ] to turn it off.
. . . continued on next page
F-26
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Equipment Calibration
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Table F-18: HP 437 Power Meter Calibration Procedure
Step
Action
Press [ZERO] .
- Display will show “Zeroing ******.”
- Wait for process to complete.
Connect the power sensor to the POWER REF output.
Turn on the PWR REF by performing the following:
8a
- Press [SHIFT] then [ ].
8b
- Verify that the triangular indicator (below) appears in the display above PWR REF.
Perform the following to set the REF CF%:
9a
- Press ([SHIFT] then [ZERO] ) for CAL.
9b
- Enter the sensor’s REF CF% from the sensor’s decal using the arrow keys and press [ENTER].
(The power meter will display ”CAL *****” for a few seconds.)
NOTE
If the REF CAL FACTOR (REF CF) is not shown on the power sensor, assume it to be 100%.
10
Perform the following to set the CAL FAC %:
10a
- Press [SHIFT] then [FREQ] for CAL FAC.
10b
- On the sensor’s decal, locate an approximate calibration percentage factor (CF%) at 2 GHz.
10c
- Enter the sensor’s calibration % (CF%) using the arrow keys and press [ENTER].
-- When complete, the power meter will typically display 0.05 dBm. (Any reading between
0.00 and 0.10 is normal.)
11
To turn off the PWR REF, perform the following:
11a
- Press [SHIFT] then [ ].
11b
- Disconnect the power sensor from the POWER REF output.
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Equipment Calibration
68P09255A69-3
Calibrating Gigatronics 8541C Power Meter
Precise transmit output power calibration measurements are made using
a bolometer-type broadband power meter with a sensitive power sensor.
Follow the steps in Table F-19 to enter information unique to the power
sensor.
Table F-19: Calibrate Gigatronics 8541C Power Meter
Step
Action
! CAUTION
Do not connect/disconnect the power meter sensor cable with AC power applied to the meter.
Disconnection could result in destruction of the sensing element or miscalibration.
Make sure the power meter POWER pushbutton is OFF.
Connect the power sensor cable to the SENSOR input.
Set the POWER pushbutton to ON.
NOTE
Allow the power meter and sensor to warm up and stabilize for a minimum of 60 minutes before
performing the calibration procedure.
Connect the power sensor to the CALIBRATOR output connector.
Press ZERO.
- Wait for the process to complete. Sensor factory calibration data is read to power meter during this
process.
When the zeroing process is complete, disconnect the power sensor from the CALIBRATOR output.
Figure F-20: Gigatronics 8541C Power Meter Detail
CONNECT POWER SENSOR TO
CALIBRATOR POWER REFERENCE
WHEN CALIBRATING/ZEROING UNIT
CONNECT POWER SENSOR
WITH POWER METER
TURNED OFF
FRONT View
AC POWER
GPIB CONNECTION
REAR View
FW00564
F-28
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Manual Cable Calibration
68P09255A69-3
Manual Cable Calibration
Calibrating Test Cable Setup
Using HP PCS Interface (HP83236)
Table F-20 covers the procedure to calibrate the test equipment using the
HP8921 Cellular Communications Analyzer equipped with the HP83236
PCS Interface.
NOTE
This calibration method must be executed with great care. Some
losses are measured close to the minimum limit of the power
meter sensor (-30 dBm).
Prerequisites
Ensure the following prerequisites have been met before proceeding:
 Test equipment to be calibrated has been connected correctly for cable
calibration.
 Test equipment has been selected and calibrated.
Table F-20: Calibrating Test Cable Setup (using the HP PCS Interface)
Step
Action
NOTE
Verify that GPIB controller is turned off.
Insert HP83236 Manual Control System card into memory card slot.
Press the Preset pushbutton.
Under Screen Controls, press the TESTS pushbutton to display the TESTS (Main Menu) screen.
Position the cursor at Select Procedure Location and select it. In the Choices selection box, select
CARD.
Position the cursor at Select Procedure Filename and select it. In the Choices selection box, select
MANUAL.
Position the cursor at RUN TEST and select it. HP must be in Control Mode Select YES.
If using HP83236A:
Set channel number=:
- Position cursor at Channel
Number and select it.
- Enter the chan# using the numeric
keypad; press [Enter] and the
screen will go blank.
- When the screen reappears, the
chan# will be displayed on the
channel number line.
Set RF Generator level:
- Position the cursor at RF Generator Level and select it.
- Enter -10 using the numeric keypad; press [Enter] and the screen will go blank.
- When the screen reappears, the value -10 dBm will be displayed on the RF Generator Level line.
. . . continued on next page
Aug 2002
If using HP83236B:
Set channel frequency:
- Position cursor at Frequency Band and press Enter.
- Select User Defined Frequency.
- Go Back to Previous Menu.
- Position the cursor to 83236 generator frequency and
enter actual RX frequency.
- Position the cursor to 83236 analyzer frequency and
enter actual TX frequency.
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Manual Cable Calibration
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Table F-20: Calibrating Test Cable Setup (using the HP PCS Interface)
Step
Action
Set the user fixed Attenuation Setting to 0 dBm:
- Position cursor at Analyzer Attenuation and select it
- Position cursor at User Fixed Atten Settings and select it.
- Enter 0 (zero) using the numeric keypad and press [Enter].
10
Select Back to Previous Menu.
11
Record the HP83236 Generator Frequency Level:
Record the HP83236B Generator Frequency Level:
- Position cursor at Show Frequency and Level Details and select it.
- Under HP83236 Frequencies and Levels, record the Generator Level.
- Under HP83236B Frequencies and Levels, record the Generator Frequency Level (1850 - 1910
MHz).
- Position cursor at Prev Menu and select it.
12
Click on Pause for Manual Measurement.
13
Connect the power sensor directly to the RF OUT ONLY port of the PCS Interface.
14
On the HP8921A, under To Screen, select CDMA GEN.
15
Move the cursor to the Amplitude field and click on the Amplitude value.
16
Increase the Amplitude value until the power meter reads 0 dBm ±0.2 dB.
NOTE
The Amplitude value can be increased coarsely until 0 dBM is reached; then fine tune the amplitude
by adjusting the Increment Set to 0.1 dBm and targeting in on 0 dBm.
17
Disconnect the power sensor from the RF OUT ONLY port of the PCS Interface.
NOTE
The Power Meter sensor’s lower limit is -30 dBm. Thus, only components having losses ≤30 dB
should be measured using this method. For further accuracy, always re-zero the power meter
before connecting the power sensor to the component being calibrated. After connecting the
power sensor to the component, record the calibrated loss immediately.
18
Disconnect all components in the test setup and calibrate each one separately by connecting each
component, one-at-a-time, between the RF OUT ONLY PORT and the power sensor. Record the
calibrated loss value displayed on the power meter.
 Example:
(A) Test Cable(s)
(B) 20 dB Attenuator =
(B) Directional Coupler =
-1.4 dB
-20.1 dB
-29.8 dB
19
After all components are calibrated, reassemble all components together and calculate the total test
setup loss by adding up all the individual losses:
 Example:
Total test setup loss = -1.4 -29.8 -20.1 = -51.3 dB.
This calculated value will be used in the next series of tests.
20
Under Screen Controls press the TESTS button to display the TESTS (Main Menu) screen.
21
Select Continue (K2).
22
Select RF Generator Level and set to -119 dBm.
. . . continued on next page
F-30
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Manual Cable Calibration
68P09255A69-3
Table F-20: Calibrating Test Cable Setup (using the HP PCS Interface)
Step
Action
23
Click on Pause for Manual Measurement.
24
Verify the HP8921A Communication Analyzer/83203A CDMA interface setup is as follows (fields
not indicated remain at default):
 Verify the GPIB (HP-IB) address:
under To Screen, select More
select IO CONFIG
Set HP-IB Adrs to 18
set Mode to Talk&Lstn
 Verify the HP8921A is displaying frequency (instead of RF channel)
- Press the blue [SHIFT] button, then press the Screen Control [DUPLEX] button; this switches to
the CONFIG (CONFIGURE) screen.
- Use the cursor control to set RF Display to Freq
25
Refer toChapter 3 for assistance in setting the cable loss values into the LMF.
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Manual Cable Calibration
68P09255A69-3
Figure F-21: Cable Calibration Using HP8921 with PCS Interface
MEMORY
CARD
SLOT
POWER
SENSOR
(A)
(A)
POWER
SENSOR
(B)
(B)
20 dB / 20 WATT
ATTENUATOR
POWER
SENSOR
(C)
POWER
SENSOR
(C)
50 Ω
TERMINATION
150 W
NON-RADIA TING
RF LOAD
F-32
30 dB
DIRECTIONAL
COUPLER
FW00292
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Manual Cable Calibration
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Calibrating Test Cable Setup Using Advantest R3465
NOTE
Be sure the GPIB Interface is OFF for this procedure.
Advantest R3465 Manual Test setup and calibration must be performed
at both the TX and RX frequencies.
Table F-21: Procedure for Calibrating Test Cable Setup Using Advantest R3465
Step
Action
* IMPORTANT
- This procedure can only be performed after test equipment has been allowed to warm-up and
stabilize for a minimum of 60 minutes.
Press the SHIFT and the PRESET keys located below the display
Press the ADVANCE key in the MEASUREMENT area of the control panel.
Select the CDMA Sig CRT menu key
Select the Setup CRT menu key
Using the vernier knob and the cursor keys set the following parameters
NOTE
Fields not listed remain at default
Generator Mode: SIGNAL
Link: FORWARD
Level Unit: dBm
CalCorrection: ON
Level Offset: OFF
Select the return CRT menu key
Press FREQ key in the ENTRY area
Set the frequency to the desired value using the keypad entry keys
Verify that the Mod CRT menu key is highlighting OFF; if not, press the Mod key to toggle it OFF.
10
Verify that the Output CRT menu key is highlighting OFF; if not, press the Output key to toggle it
OFF.
11
Press the LEVEL key in the ENTRY area.
12
Set the LEVEL to 0 dBm using the key pad entry keys.
13
Zero power meter. Next connect the power sensor directly to the “RF OUT” port on the R3561L
CDMA Test Source Unit.
14
Press the Output CRT menu key to toggle Output to ON.
15
Record the power meter reading ________________________
. . . continued on next page
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Manual Cable Calibration
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Table F-21: Procedure for Calibrating Test Cable Setup Using Advantest R3465
Step
16
Action
Disconnect the power meter sensor from the R3561L RF OUT jack.
* IMPORTANT
The Power Meter sensor’s lower limit is -30 dBm. Thus, only components having losses < 30 dB
should be measured using this method. For best accuracy, always re-zer o the power meter before
connecting the power sensor to the component being calibrated. Then, after connecting the
power sensor to the component, record the calibrated loss immediately.
17
Disconnect all components in the the test setup and calibrate each one separately. Connect each
component one-at-a-time between the “RF OUT” port and the power sensor (see Figure F-22,
“Setups A, B, and C”). Record the calibrated loss value displayed on the power meter for each
connection.
Example:
(A) 1st Test Cable
= -0.5 dB
(B) 2nd Test Cable
= -1.4 dB
(C) 20 dB Attenuator
= -20.1 dB
(D) 30 dB Directional Coupler
= -29.8 dB
18
Press the Output CRT menu key to toggle Output OFF.
19
Calculate the total test setup loss by adding up all the individual losses:
Example:
Total test setup loss = 0.5 + 1.4 + 20.1 + 29.8 = 51.8 dB
This calculated value will be used in the next series of tests.
20
Press the FREQ key in the ENTRY area
21
Using the keypad entry keys, set the test frequency to the RX frequency
22
Repeat steps 9 through 19 for the RX frequency.
23
Refer to Chapter 3 for assistance in setting the cable loss values into the LMF.
F-34
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Manual Cable Calibration
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Figure F-22: Cable Calibration Using Advantest R3465
RF OUT
POWER
SENSOR
(A) & (B)
(C)
POWER
SENSOR
20 DB / 2 WATT
ATTENUATOR
POWER
SENSOR
(C)
POWER
SENSOR
(D)
FW00320
50 Ω
TERMINATION
100 W
NON-RADIA TING
RF LOAD
Aug 2002
30 DB
DIRECTIONAL
COUPLER
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Manual Cable Calibration
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Notes
F-36
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Appendix G
Download ROM Code
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G-1
Downloading ROM Code
68P09255A69-3
Downloading ROM Code
Exception Procedure - Downloading ROM Code
This procedure is not part of a normal optimization.
Perform this procedure only on an exception basis when no alternative
exists to load a BTS device with the correct version of ROM code.
NOTE
One GLI must be INS_ACT (bright green) before ROM code
can be downloaded to non-GLI devices.
CAUTION
The correct ROM and RAM codes for the software release used
on the BSS must be loaded into BTS devices. To identify the
correct device ROM and RAM code loads for the software
release being used on the BSS, refer to the Version Matrix
section of the SC CDMA Release Notes (supplied on the tapes
or CD-ROMs containing the BSS software).
All devices in a BTS must be loaded with the ROM and RAM
code specified for the software release used on the BSS before
any optimization or ATP procedures can be performed.
If a replacement device is loaded with ROM code which is not
compatible with the BSS software release being used, the device
ROM code can be changed using the LMF before performing the
BTS optimization and ATPs. A device loaded with later release
ROM code can not be converted back to a previous release ROM
code in the field without Motorola assistance
If it is necessary to download ROM code to a device from the LMF, the
procedure in Table G-1 includes steps for both ROM and RAM code
download using the LMF.
Prerequisites
Prior to performing this procedure, ensure the correct ROM and RAM
code files exist in the LMF computer’s applicable :\\cdma\loads\\code folder for each of the devices
to be loaded (refer to Table 3-3).
CAUTION
The Release level of the ROM code to be downloaded must be
the one specified for the software release installed in the BSS.
The release level of the ROM code resident in the other devices
in the BTS must also be correct for the BSS software release
being used. ROM code must not be downloaded to a frame
loaded with code for a BSS software release with which it is not
compatible.
This procedure should only be used to upgrade replacement
devices for a BTS. It should NOT be used to upgrade all devices
in a BTS. If a BTS is to be upgraded from R15.x to R16.0, the
upgrade should be done by the OMC-R using the DownLoad
Manager.
G-2
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Downloading ROM Code
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Table G-1: Download ROM and RAM Code to Devices
Step
Action
Click on the device to be loaded.
NOTE
More than one device of the same type can be selected for download by either clicking on each one to
be downloaded or from the BTS menu bar Select pull-down menu, select the device item that applies.
Where: device = the type of device to be loaded (BBX, CSM, GLI, MCC)
From the BTS menu bar Device pull-down menu, select Status.
- A status report window will appear.
Make a note of the number in the HW Bin Type column.
NOTE
“HW Bin Type” is the Hardware Binary Type for the device. This code is used as the last four digits in
the filename of a device’s binary ROM code file. Using this part of the filename, the ROM code file
can be matched to the device in which it is to be loaded.
Click OK to close the status window.
Click on the device to be loaded.
NOTE
ROM code is automatically selected for download from the :\\version folder>\ specified by the NextLoad property in
the bts-#.cdf file. To check the value of the NextLoad property, click on Util > Examine >
Display Nextload. A pop-up message will show the value of the NextLoad.
From the BTS menu bar Device pull-down menus, select Download > ROM.
- If the file matching the Hardware Binary Type of the device is found in the code folder, a status
report shows the result of the download. Proceed to Step 11.
- If a file selection window appears, select the ROM code file manually.
Double-click on the version folder with the desired version number for the ROM code file (for
example 2.16.0.x).
Double-click the Code folder.
- A list of ROM and RAM code files will be displayed.
! CAUTION
A ROM code file with the correct HW Bin Type must be chosen. Using a file with the wrong HW Bin
Type can result in unpredictable operation and damage to the device.
Click on the ROM code file with the filename which matches the device type and HW Bin Type
number noted in step 3 (for example, file bbx_rom.bin.0604 is the ROM code file for a BBX with a
HW Bin Type of 0604).
- The file should be highlighted.
10
Click on the Load button.
- A status report window is displayed showing the result of the download.
NOTE
If the ROM load failed for some devices, load them individually by clicking on one device, perform
steps 6 through 10 for it, and repeat the process for each remaining device.
11
Click OK to close the status window.
. . . continued on next page
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Downloading ROM Code
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Table G-1: Download ROM and RAM Code to Devices
Step
Action
12
From the LMF window menu bar Tools pull-down menus, select Update NextLoad > CDMA.
13
14
In the left-hand pane of the window which opens, click on the BTS number for the frame being loaded
(for example, BTS-14 ).
On the list of versions displayed in the right-hand pane, click the button next to the version number of
the folder that was used for the ROM code download (for example, 2.16.0.x) and click Save.
- A pop-up message will appear showing the CDF has been updated.
15
Click on the OK button to dismiss the pop-up message.
16
Click on the device that was loaded with ROM code.
17
NOTE
RAM code is automatically selected for download.
From the BTS menu bar Device pull-down menus, select Download > Code/Data to download RAM
code and dds file data.
- A status report is displayed showing the result of the download.
18
Click OK to close the status window.
19
Observe the downloaded non-GLI device to ensure it is OOS_RAM (yellow).
20
Click on the device which was loaded with code.
21
From the BTS menu bar Device pull-down menu, select Status.
Verify that the correct ROM and RAM version numbers are displayed in the status report window.
Click OK to close the status window.
22
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Appendix H
In-service Calibration
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Introduction
68P09255A69-3
Introduction
Purpose
This procedure is a guide to performing calibration of new BTS
expansion carriers while the system remains in service. This procedure
also supports BTS recalibration following replacement of RF chain
components while the remainder of the site stays in service.
Motorola recommends performing this procedure during a maintenance
window.
This procedure cannot be performed on BTSs with 2-to-1 combiners.
The procedure can only be performed on one carrier of the BTS at a
time. That is, LPAs 1A, 1B, 1C, and 1D can be calibrated while LPAs
3A, 3B, 3C, and 3D remain in service and vice versa.
Equipment Stabilization and Calibration
NOTE
Calibration of the communications test set (or equivalent test
equipment) must be performed at the site before calibrating the
overall test equipment set. Calibrate the test equipment after it
has been allowed to warm-up and stabilize for a minimum of 60
minutes.
CAUTION
If any component of the test equipment set (for example, a test
cable, RF adapter, signal generator) has been replaced, the test
equipment set must be recalibrated. Failure to do so could
introduce measurement errors which ultimately result in
degradation of system performance.
1X Test Equipment Requirements
In-Service Calibration (ISC) of 1X carrier functions requires using the
following test equipment for the purposes indicated:
 An Advantest R3267 spectrum analyzer to perform TX calibration
 An Advantest R3562 signal generator for R3267 Delta Power
Calibration
 An Agilent E4406A Transmitter Test Set to perform TX calibration
 An Agilent E4432A signal generator for E4406A Delta Power
Calibration
 An Agilent 8935 series E6380A equipped with option 200 (if
purchased new) or option R2K (if retrofitted) to perform TX
calibration
The CDMA communications system analyzers listed above are capable
of calibrating the BTS for both IS-95 A and B mode operation as well as
CDMA2000 1X operation.
NOTE
IS-95A/B communication test sets such as the HP8921A/600
and Advantest R3561L can not calibrate 1X carrier functions.
Calibration and test set-up for the HP 8921A/600 and Advantest
R3561L test sets is included only for situations where it is necessary to
use them for calibration of IS-95A/B mode operation.
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Power Delta Calibration
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Power Delta Calibration
Introduction
The ISC procedure has several differences from a normal calibration
procedure. One of these is the use of a spectrum
analyzer/communications test set instead of a power meter to measure
power. Power meters are broadband measurement devices and cannot be
used to measure power during ISC because other carriers are operating.
A spectrum analyzer can be used because it measures power at a given
frequency. Measuring power using a spectrum analyzer is less accurate
than using a power meter, therefore, compensation is required for the
accuracy difference (delta) between the power meter and the spectrum
analyzer.
Agilent E4406A Power Delta Calibration
The Agilent E4406A transmitter tester and E4432B signal generator test
equipment combination can be used for ISC of IS-2000 CDMA 1X as
well as IS-95A/B operation modes. The power delta calibration is
performed on the E4406A, but the E4432B is required to generate the
reference signal used to calculate the power delta offset. After the offset
value has been calculated, add it to the TX cable loss value in the LMF.
Preliminary Agilent Test Equipment Set-up
To provide proper operation during power delta calibration, be sure the
E4406A and E4432B are connected as shown in Figure F-16.
Power Delta Calibration
Follow the procedure in Table H-1 to perform the Agilent E4406A
Power Delta Calibration procedure.
Table H-1: Agilent E4406A Power Delta Calibration Procedure
Step
Action
NOTE
Perform this procedure after test equipment has been allowed to warm-up and stabilize for a minimum
of 60 minutes. After it is warmed up and stabilized, calibrate the test equipment as described in the
“Test Set Calibration” section of Chapter NO TAG.
Zero the Power Meter prior to connecting the power sensor to the RF cable from the signal generator.
NOTE
For best accuracy, always re-zero the power meter before connecting the power sensor to the
component being calibrated.
Be sure the E4406A and E4432B are connected as shown in Figure F-16.
Connect a short RF cable from the E4432B RF OUTPUT connector the HP437 power meter power
sensor (see Figure H-1).
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Power Delta Calibration
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Table H-1: Agilent E4406A Power Delta Calibration Procedure
Step
Action
Set the E4432B signal generator as follows:
- Press Preset to exit any modes for which the signal generator is configured
- Press Frequency and enter the frequency of the channel to be calibrated on the numeric keypad
- Using the soft keys to the right of the screen, select the frequency range to be measured; for
example MHz
- Press Amplitude and, using the numeric keypad, set signal amplitude to 0 (zero)
- Using the soft keys, set the measurement type to dBm
On the E4432B, press RF On/Off to toggle the RF output to RF ON.
- Note that the RF On/Off status in the screen display changes.
Measure and record the value reading on the HP437 power meter as result A____________________.
On the E4432B, press RF On/Off to toggle the RF output to RF OFF.
- Note that the RF On/Off status in the screen display changes.
Disconnect the short RF cable from the HP437 power meter power sensor, and connect it to the RF
INPUT connector on the E4406A transmitter tester (see Figure H-2).
NOTE
Do not change the frequency and amplitude settings on the E4432B when performing the following
steps.
Set the E4406A as follows:
- Press Preset to exit any modes for which the transmitter tester is configured
- Press MODE and, using the soft keys to the right of the screen, select cdmaOne
- Press MEASURE and, using the soft keys, select spectrum
- Press Frequency and, using the soft keys, select Center Frequency
- Enter the frequency of the channel to be calibrated using the numeric keypad
- Using the soft keys, select the frequency range to be measured; for example, MHz
- Press Input/Output and, using the soft keys, select Input Atten
- Using the numeric keypad, set Input Atten to 0 (zero) and, using the soft keys, select dB
- Using the soft keys, select External Atten and then select Mobile
- Using the numeric keypad, set Mobile to 0 (zero) and, using the soft keys, select dB
- Using the soft keys, select Base
- Using the numeric keypad, set Base to 0 (zero) and, using the soft keys, select dB
- Press MEASURE and, using the soft keys, select Channel Power
10
On the E4432B signal generator, press RF On/Off to toggle the RF output to RF ON.
- Note that the RF On/Off status in the screen display changes.
11
Read the measured Channel Power from the E4406A screen display and record it as
result B____________________.
12
On the E4432B, press RF On/Off to toggle the RF output to RF OFF.
- Note that the RF On/Off status in the screen display changes.
. . . continued on next page
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Table H-1: Agilent E4406A Power Delta Calibration Procedure
Step
Action
13
Calculate the Power Calibration Delta value. The delta value is the power meter measurement minus
the Agilent measurement.
Delta = A - B
Example: Delta = -0.70 dBm - (-1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm - 0.55 dBm = -0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In-Service Calibration (see step 4 in
Table H-6).
Figure H-1: Delta Calibration Setup - Agilent E4432B to HP437
Agilent E4432B and E4406A
HP437B
SENSOR
RF OUTPUT
Power
Sensor
Short RF Cable
Figure H-2: Delta Calibration Setup - Agilent E4432B to Agilent E4406A
Agilent E4432B and E4406A
RF OUTPUT
Short RF Cable
RF INPUT
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Power Delta Calibration
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Advantest R3267 Power Delta Calibration
The Advantest R3267 spectrum analyzer and R3562 signal generator test
equipment combination can be used for ISC of IS-2000 CDMA 1X as
well as IS-95A/B operation modes. The power delta calibration is
performed on the R3267. After the offset value has been calculated, add
it to the TX cable loss value.
Preliminary Advantest Test Equipment Set-up
To provide proper operation during power delta calibration, be sure the
R3267 is connected to the R3562 as shown in Figure F-17.
Power Delta Calibration
Follow the procedure in Table H-2 to perform the Advantest R3267
Power Delta Calibration procedure.
Table H-2: Advantest R3267 Power Delta Calibration Procedure
Step
Action
NOTE
Warm-up test equipment for a minimum of 60 minutes prior to this procedure. After it is warmed up
and stabilized, calibrate the test equipment as described in the “Test Set Calibration” section of
Chapter NO TAG.
Be sure the R3267 and R3562 are connected as shown in Figure F-17.
Press the SHIFT and the PRESET keys located on the right side of the control panel.
Press the ADVANCE key in the MEASUREMENT area of the control panel.
On the CRT, select RX Control by pressing ACTIVE key 1.
On the CRT, select Frequency Setup by pressing ACTIVE key 3.
On the CRT, highlight Frequency by adjusting the DISPLAY CONTROL knob.
Press FREQ key in the ENTRY section of the control panel.
Set the frequency to the desired value using the keypad ENTRY section keys.
Press the LEVEL key in the ENTRY section of the control panel.
10
Set the level to 0 dBm using the keypad ENTRY section keys.
11
On the CRT, verify OFF is highlighted in Modulation, if not press the ACTIVE key 5 to toggle it
OFF.
12
On the CRT, verify OFF is highlighted in Output, if not press the ACTIVE key 6 to toggle it OFF.
13
Zero the Power Meter prior to connecting the power sensor to the RF cable from the signal generator.
NOTE
For best accuracy, always re-zero the power meter before connecting the power sensor to the
component being calibrated.
14
Connect the RF cable from the R3562 signal generator RF OUT port to the power sensor, refer to
Figure H-4.
15
On the R3562 CRT, set the Output to ON by pressing ACTIVE key 6.
. . . continued on next page
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Table H-2: Advantest R3267 Power Delta Calibration Procedure
Step
Action
16
Record the Power Meter reading as result A________________________
17
On the R3562 CRT, set the Output to OFF by pressing ACTIVE key 6.
18
Connect the RF cable from R3562 signal generator RF OUT port to the R3267 spectrum analyzer
INPUT Port, refer to Figure H-5.
19
On the R3562 CRT, set the Output to ON by pressing ACTIVE key 6.
20
On the R3267, press the POWER key in the MEASUREMENT section of the control panel.
21
Press the LEVEL key in the ENTRY section of the control panel.
22
Set the REF LEVEL to 10 dBm using the keypad ENTRY section keys.
23
On the CRT, select dB/div by pressing ACTIVE key 1.
24
On the CRT, select 10 dB/div by pressing ACTIVE key 1.
25
Press the FREQ key in ENTRY section of the control panel.
26
Set the frequency to the desired value using the keypad ENTRY section keys.
27
On the CRT, select more 1/2 by pressing ACTIVE key 7.
28
Press the Preselector CRT menu key to highlight 3.66G.
29
Press the POWER key in the MEASUREMENT section of the control panel.
30
Press the SPAN key in the ENTRY section of the control panel.
31
On the CRT, select Zero Span by pressing ACTIVE key 2.
32
Press the COUPLE key in the ENTRY section of the control panel.
33
On the CRT, select RBW and highlight MNL by pressing ACTIVE key 3.
34
Set RBW to 30 kHz using keypad ENTRY section keys.
35
On the CRT, select VBW and highlight MNL by pressing ACTIVE key 2.
36
Set VBW to 1 MHz using keypad ENTRY section keys.
37
Press the MKR key in the DISPLAY CONTROL section of the control panel.
38
On the CRT, select Normal Marker by pressing ACTIVE key 1.
39
Record the Marker Level reading as result B________________________
40
Press Single in ENTRY section of control panel.
. . . continued on next page
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Power Delta Calibration
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Table H-2: Advantest R3267 Power Delta Calibration Procedure
Step
Action
41
Calculate the Power Calibration Delta value. The delta value is the power meter measurement minus
the Advantest measurement.
Delta = A - B
Example: Delta = -0.7 dBm - (-1.25 dBm) = 0.55 dB
Example: Delta = 0.26 dBm - 0.55 dBm = -0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In-Service Calibration (see step 4 in
Table H-6).
Figure H-3: Delta Calibration Setup - Advantest R3562 to HP437
Advantest R3562 and R3267
HP437B
SENSOR
Figure H-4: Delta Calibration Setup Advantest R3562 to HP437
Power
Sensor
RF OUT
Short RF Cable
Figure H-5: Delta Calibration Setup - Advantest R3562 to R3267
Advantest R3562 and R3267
RF IN
Short RF Cable
RF OUT
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Power Delta Calibration
68P09255A69-3
Agilent 8935 series E6380A Power Delta Calibration
The Agilent 8935 (formerly HP 8935) communications test set modified
with either option 200 or R2K and E4432B signal generator test
equipment combination can be used for ISC of IS-2000 CDMA 1X as
well as IS-95A/B operation modes. The power delta calibration is
performed on the Agilent 8935. After the offset value has been
calculated, add it to the TX cable loss value.
Follow the procedure in Table H-3 to perform the Agilent 8935 Power
Delta Calibration procedure.
Table H-3: Agilent 8935 Power Delta Calibration Procedure
Step
Action
NOTE
Perform this procedure after test equipment has been allowed to warm-up and stabilize for a minimum
of 60 minutes. After it is warmed up and stabilized, calibrate the test equipment as described in the
“Test Set Calibration” section of Chapter NO TAG.
Zero the Power Meter prior to connecting the power sensor to the RF cable from the signal generator.
NOTE
For best accuracy, always re-zero the power meter before connecting the power sensor to the
component being calibrated.
Connect a short RF cable between the Agilent 8935 Duplex Out port and the HP437 power sensor
(see Figure H-6).
Set the Agilent 8935 signal source as follows:
- Measure mode to CDMA Gen
- Frequency to the CDMA Calibration target frequency
- CW RF Path to IQ
- Output Port to Dupl
- Data Source to Random
- Amplitude to 0 dBm
Measure and record the power value reading on the HP437 Power Meter.
Record the Power Meter reading as result A ________________________.
Turn off the Agilent 8935 signal source output, and disconnect the HP437.
NOTE
Leave the settings on the source Agilent 8935 for convenience in the following steps.
Connect the short RF cable between the Agilent 8935 Duplex Out port and the RF-IN/OUT port (see
Figure H-7).
Ensure that the source Agilent 8935 settings are the same as in Step 3.
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Power Delta Calibration
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Table H-3: Agilent 8935 Power Delta Calibration Procedure
Step
Action
Set the Agilent 8935 as follows:
- Measure mode to CDMA Anl
- Frequency to the CDMA calibration target frequency
- Input Attenuation to 0 dB
- Input port to RF-IN
- Gain to Auto
- Anl Dir to Fwd
10
Turn on the Agilent 8935 signal output.
11
Set the Chn Pwr Cal to Calibrate and select to calibrate.
12
Measure and record the channel power reading on the measuring Agilent 8935 as result
B ________________________.
13
Turn off the Agilent 8935 signal output and disconnect the equipment.
14
Calculate the Power Calibration Delta value. The delta value is the power meter measurement minus
the Advantest measurement.
Delta = A - B
Example: Delta = -0.70 dBm - (-1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm - 0.55 dBm = -0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In-Service Calibration (see Step 4 in
Table H-6).
Figure H-6: Delta Calibration Setup - Agilent 8935 to HP437
Agilent Agilent
8935
ÁÁ
ÁÁ
ÁÁ
ÁÁ
HP437B
SENSOR
Power
Sensor
DUPLEX OUT
Short RF Cable
FW00805
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Power Delta Calibration
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Figure H-7: Delta Calibration Setup - Agilent 8935 to Agilent 8935
Agilent E6380A
DUPLEX OUT
RF IN/OUT
Short RF Cable
FW00806
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Power Delta Calibration
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HP8921A Power Delta Calibration
Use the HP8921A communications test set to measure power during ISC
only for IS-95A and B operation of 800 MHz systems. After the offset
value has been calculated, add it to the TX cable loss value.
Follow the procedure in Table H-4 to perform the HP8921A Power Delta
Calibration procedure.
NOTE
This procedure requires two HP8921A communication test sets.
Table H-4: HP8921A Power Delta Calibration Procedure
Step
Action
NOTE
Perform this procedure after test equipment has been allowed to warm-up and stabilize for a minimum
of 60 minutes. After it is warmed up and stabilized, calibrate the test equipment as described in the
“Test Set Calibration” section of Chapter NO TAG.
Zero the Power Meter prior to connecting the power sensor to the RF cable from the signal generator.
NOTE
For best accuracy, always re-zero the power meter before connecting the power sensor to the
component being calibrated.
Connect a short RF cable between the HP8921A Duplex Out port and the HP437 power sensor (see
Figure H-8).
Set the HP8921A signal source as follows:
- Measure mode to CDMA Generator
- Frequency to the CDMA Calibration target frequency
- CW RF Path to IQ
- Output Port to Dupl
- Data Source to Random
- Amplitude to 0 dBm
Measure and record the power value reading on the HP437 Power Meter.
Record the Power Meter reading as result A ________________________.
Turn off the source HP8921A signal output, and disconnect the HP437.
NOTE
Leave the settings on the source HP8921A for convenience in the following steps.
Connect the short RF cable between the source HP8921A Duplex Out port and the measuring
HP8921A RF-IN port (see Figure H-9).
Ensure that the source HP8921A settings are the same as in Step 3.
. . . continued on next page
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Table H-4: HP8921A Power Delta Calibration Procedure
Step
Action
Set the measuring HP8921A as follows:
- Measure mode to CDMA Anl
- Frequency to the CDMA calibration target frequency
- Input Attenuation to 0 dB
- Input port to RF-IN
- Gain to Auto
- Analyzer Direction to Fwd
10
Turn on the source HP8921A signal output.
11
Measure and record the channel power reading on the measuring HP8921A as result
B ________________________.
12
Turn off the source HP8921A signal output and disconnect the equipment.
13
Compute the delta between HP437 and HP8921A using the following formula:
Delta = A - B
Example: Delta = -0.70 dBm - (-1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm - 0.55 dBm = -0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In-Service Calibration (see Step 4 in
Table H-6).
Figure H-8: Delta Calibration Setup - HP8921A to HP437
HP 8921A
HP437B
SENSOR
Power
Sensor
DUPLEX
OUT
Short RF Cable
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Power Delta Calibration
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Figure H-9: Delta Calibration Setup - HP8921A to HP8921A
Measurement HP8921A
Source HP8921A
DUPLEX
OUT
RF
IN/OUT
Short RF Cable
FW00802
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Advantest R3465 Power Delta Calibration
Use the Advantest R3465 spectrum analyzer to measure power during
ISC only for IS-95A and B operation. After the offset value has been
calculated, add it to the TX cable loss value.
Follow the procedure in Table H-5 to perform the Advantest 3465 Power
Delta Calibration procedure.
Table H-5: Advantest Power Delta Calibration Procedure
Step
Action
NOTE
Perform this procedure after test equipment has been allowed to warm-up and stabilize for a minimum
of 60 minutes. After it is warmed up and stabilized, calibrate the test equipment as described in the
“Test Set Calibration” section of Chapter NO TAG.
Press the SHIFT and the PRESET keys located below the CRT display.
Press the ADVANCE key in the Measurement area of the control panel.
Press the CDMA Sig CRT menu key.
Press the FREQ key in the Entry area of the control panel.
Set the frequency to the desired value using the keypad entry keys.
Press the LEVEL key in the Entry area of the control panel.
Set the LEVEL to 0 dBm using the keypad entry keys.
Verify the Mod CRT menu key is highlighting OFF, if not press the Mod key to toggle it OFF.
Verify the Output CRT menu key is highlighting OFF, if not press the Output key to toggle it OFF.
10
Zero the Power Meter prior to connecting the power sensor to the RF cable from the signal generator.
NOTE
For best accuracy, always re-zero the power meter before connecting the power sensor to the
component being calibrated.
11
Connect the RF cable from the R3561L CDMA signal generator RF OUT port to the power sensor,
refer to Figure H-10.
12
Press the Output CRT menu key to toggle the Output to ON.
13
Record the Power Meter reading as result A________________________.
14
Press the Output CRT menu key to toggle the Output to OFF.
15
Connect the RF cable from the R3561L signal generator RF OUT port to the R3465 INPUT Port,
refer to Figure H-11.
16
Press the Output CRT menu key to change the Output to ON.
17
Press the CW key in the Measurement area of the control panel.
18
Press the LEVEL key in the Entry area of the control panel.
19
Set the REF LEVEL to 10 dBm using the keypad entry keys.
20
Press the dB/div CRT menu key.
21
Press the 10 dB/div CRT menu key.
. . . continued on next page
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Table H-5: Advantest Power Delta Calibration Procedure
Step
Action
22
Press the FREQ key in Entry area of the control panel.
23
Set the frequency to the desired value using the keypad entry keys.
24
Press the more 1/2 CRT menu key.
25
Press the Preselector CRT menu key to highlight 3.0G.
26
Press the FORMAT key in the Display Control area of the control panel.
27
Press the TRACE CRT menu key.
28
Press the AVG A CRT menu key.
29
Set AVG to 20 using keypad entry keys.
30
Press the return CRT menu key.
31
Press the SPAN key in the Entry area of the control panel.
32
Press the Zero Span CRT menu key.
33
Press the BW key in the Entry area of the control panel.
34
Press the RBW CRT menu key to highlight MNL. using keypad entry keys enter 30 kHz.
35
Set RBW to 30 kHz using keypad entry keys.
36
Press the VBW CRT menu key to highlight MNL.
37
Set VBW to 1 MHz using keypad entry keys.
38
Press the Marker ON key in the Display Control area of the control panel.
39
Record the Marker Level reading as result B________________________.
40
Calculate the Power Calibration Delta value. The delta value is the power meter measurement minus
the Advantest measurement.
Delta = A - B
Example: Delta = -0.70 dBm - (-1.25 dBm) = 0.55 dBm
Example: Delta = 0.26 dBm - 0.55 dBm = -0.29 dBm
These examples are included to show the mathematics and do not represent actual readings.
NOTE
Add this delta value to the TX Cable Loss value during In-Service Calibration (see Step 4 in
Table H-6).
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Figure H-10: Delta Calibration Setup - R3561L to HP437
Advantest
RF OUT
R3561L
Power
Sensor
HP437B
Short RF Cable
SENSOR
FW00803
Figure H-11: Delta Calibration Setup - R3561L to R3465
RF OUT
R3561L
Short RF Cable
R3465
INPUT
FW00804
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In-Service Calibration
CAUTION
This feature does NOT have fault tolerance at this time. The
system has no safe-guards to prevent actions which will put the
BTS out of service. If possible, perform this procedure during a
maintenance window.
Follow the procedures in this section precisely, otherwise the
entire BTS will most likely go OUT OF SERVICE.
At the CBSC, only perform operations on expansion hardware
when it is in the OOS_MANUAL state.
The operator must be trained in the LMF operation prior to
performing this procedure.
Prerequisites
 Any applicable expansion hardware has been added in the CBSC
database, and a CDF which includes the additions has been generated.
 Any expansion devices have been inserted into the SCCP cage and are
in the OOS_MANUAL state at the CBSC MM.
 The site specific CDF (with any expansion hardware) and CAL files
have been loaded onto the LMF.
 The LMF has the same device binary code and dds files as the CBSC.
CAUTION
Do not download code or data to any cards other than those
being worked on. Downloading code or data to other cards will
take the site OUT OF SERVICE.
The code file version numbers must match the current BSS
software release version numbers required for the equipped
devices (refer to Table 3-3). If the numbers do not match, the site
may go OUT OF SERVICE.
It is mandatory that the bts-#.cdf and cbsc-#.cdf files
on the LMF computer for this BTS are copies of the
corresponding files created in the CBSC database (see
Table 3-2).
The CAL file loaded on the LMF computer for this BTS must
have come from the CBSC.
 Test equipment has been connected as shown in Figure H-12 or
Figure H-13.
 An RFDS (or as a minimum, a directional coupler), whose loss is
already known, must be in the applicable TX antenna path to perform
the in-service calibration.
 Test equipment has been calibrated after a 60-minute warm up.
 A short RF cable and two BNC-N adapters are available to perform
Cable Calibration.
 N-SMA cable adapters are available to connect to TRDC or DRDC
BTS CPLD connectors, and are included in cable loss measurements.
H-18
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PRELIMINARY
Aug 2002
In-Service Calibration
68P09255A69-3
 The Power Delta Calibration has been performed (see Table H-1,
Table H-2, Table H-3, Table H-4, or Table H-5).
Figure H-12: TX Calibration Test Setup - Agilent E4406A, Advantest R3267, and Agilent 8935 with Option
200 or R2K (IS-95A/B and 1X CDMA 2000)
TEST SETS
TRANSMIT (TX) SET UP
Agilent E4406A
NOTE: IF BTS IS EQUIPPED
WITH DRDCS (DUPLEXED
RX/TX SIGNALS), CONNECT
THE TX TEST CABLE TO
THE DRDC BTS CPLD
CONNECTOR.
COMMUNICATIONS
SYSTEM ANALYZER
GPIB
RF INPUT 50Ω,
INPUT 50Ω,
OR RF IN/OUT
GPIB CONNECTS
TO BACK OF UNIT
RF INPUT
50 Ω
Advantest R3267
ANTENNA
ANTENNA
TX
ANTENNA
CONNECTOR
RX
ANTENNA
CONNECTOR
GPIB
CABLE
TRDC
RX
RX
BTS ANT
CPLD CPLD
GPIB CONNECTS
TO BACK OF UNIT
TX
TX
BTS ANT
CPLD CPLD
2O DB
IN-LINE
ATTENUATOR
INPUT 50 Ω
Agilent 8935 Series E6380A (formerly HP 8935)
ÁÁ
ÁÁ
ÁÁ
ÁÁ
HP-IB
TO GPIB
BOX
* BLACK RECTANGLES
REPRESENT THE RAISED
PART OF SWITCHES
DIP SWITCH SETTINGS
S MODE
DATA FORMAT
BAUD RATE
ON
INTERNAL
RX
CABLE
INTERNAL
TX
CABLE
GPIB ADRS
TO
MPC
BTS
TO LPA
TRUNKING
MODULE
FREQ
MONITOR
LAN
RS232 NULL
MODEM
CABLE
SYNC
MONITOR
LAN
CSM
10BASET/
10BASE2
CONVERTER
CDMA
LMF
RF IN/OUT
UNIVERSAL TWISTED PAIR (UTP)
CABLE (RJ45 CONNECTORS)
NOTE:
G MODE
RS232-GPIB
INTERFACE BOX
INTERNAL PCMCIA
ETHERNET CARD
THE AGILENT 8935 MUST BE EQUIPPED WITH OPTION 200 OR R2K
TO PERFORM 1X TX TESTING .
Aug 2002
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PRELIMINARY
H-19
In-Service Calibration
68P09255A69-3
Figure H-13: TX Calibration Test Setup - HP 8921A/600 w/PCS Interface (1.9 GHz),
HP 8921A/600 (800 MHz), and Advantest R3465 (IS-95A/B only)
TEST SETS
TRANSMIT (TX) SET UP
Hewlett Packard Model HP 8921A W/PCS Interface
(for 1900 MHz)
NOTE: IF BTS IS EQUIPPED
WITH DRDCS (DUPLEXED
RX/TX SIGNALS), CONNECT
THE TX TEST CABLE TO
THE DRDC BTS CPLD
CONNECTOR.
GPIB
CONNECTS
TO BACK OF
UNITS
COMMUNICATIONS
SYSTEM ANALYZER
GPIB
RF IN/OUT
OR INPUT 50Ω
RF
IN/OUT
ANTENNA
ANTENNA
Hewlett Packard Model HP 8921A
(for 800 MHz)
GPIB
CONNECTS
TO BACK OF
UNIT
TX
ANTENNA
CONNECTOR
RX
ANTENNA
CONNECTOR
GPIB
CABLE
TRDC
RX
RX
BTS ANT
CPLD CPLD
TX
TX
BTS ANT
CPLD CPLD
2O DB
IN-LINE
ATTENUATOR
RF
IN/OUT
* BLACK RECTANGLES
REPRESENT THE RAISED
PART OF SWITCHES
DIP SWITCH SETTINGS
S MODE
DATA FORMAT
BAUD RATE
ON
INTERNAL
RX
CABLE
Advantest Model R3465
INTERNAL
TX
CABLE
GPIB ADRS
TO
MPC
BTS
INPUT 50Ω
RS232 NULL
MODEM
CABLE
SYNC
MONITOR
LAN
CSM
10BASET/
10BASE2
CONVERTER
CDMA
LMF
UNIVERSAL TWISTED PAIR (UTP)
CABLE (RJ45 CONNECTORS)
H-20
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
G MODE
RS232-GPIB
INTERFACE BOX
FREQ
MONITOR
LAN
GPIB CONNECTS
TO BACK OF UNIT
TO LPA
TRUNKING
MODULE
INTERNAL PCMCIA
ETHERNET CARD
Aug 2002
In-Service Calibration
68P09255A69-3
Follow the procedure in Table H-6 to perform the In-Service
Calibration.
Table H-6: In-Service Calibration
Step
Action
NOTE
Perform this procedure after test equipment has been allowed to warm-up and stabilize for a minimum
of 60 minutes.
Set up the LMF for In-Service Calibration:
- Start the LMF by double-clicking the LMF icon on the Windows desktop.
- Click Tools > Options from the menu bar at the LMF application window.
- In the LMF Options window, check only the applicable communications system analyzer check
box on the Test Equipment tab.
- Ensure that the GPIB address is 18.
- Uncheck any other other equipment that is selected.
- Click the Apply button.
- Select the BTS Options tab in the LMF Options window.
- Check the In-Service Calibration check box.
- Click the Apply button.
- Click the Dismiss button to close the LMF Option window.
Log into the target BTS:
- Select the target BTS icon.
- Click the Login button at the login screen.
Measure the Cable Loss using the Cable Calibration function:
- Click Util > Cable Calibration... in the BTS menu bar at the main window.
- Set the desired channel(s) and select TX and RX CABLE CAL from the Cable Calibration
window drop-down list.
- Click the OK button to perform cable calibration.
- Follow the on-screen instructions to complete the cable loss measurement.
NOTE
- The measured value is input automatically to the cable loss file.
- To view the cable loss file, click Util > Examine > Cable Loss from the BTS menu bar.
Add the communications system analyzer power delta to the TX Cable Loss.
- In the BTS menu bar, click Util > Edit > Cable Loss... > TX.
- Add the value computed in Table H-4, Table H-5, or Table H-3 to the TX Cable Loss.
NOTE
Be sure to include the sign of the value. The following examples are included to show the mathematics
and do not represent actual readings:
- Example: 5.65 dBm + 0.55 dBm = 6.20 dBm
- Example: 5.65 dBm + (-0.29 dBm) = 5.36 dBm
- Example: -5.65 dBm + 0.55 dBm = -5.10 dBm
- Example: -5.65 dBm + (-0.29 dBm) = -5.94 dBm
. . . continued on next page
Aug 2002
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PRELIMINARY
H-21
In-Service Calibration
68P09255A69-3
Table H-6: In-Service Calibration
Step
Action
Input the Coupler Loss for the TX tests:
- In the BTS menu bar, click Util > Edit > Coupler Loss... from the menu bar at the main window.
- Select the TX Coupler Loss tab if not in the foreground.
- Enter the appropriate coupler loss for the target carrier(s) by referring to the information taken at
the time of BTS installation.
- Click the Save button.
- Click the Dismiss button to close the window.
- To view the coupler loss file, click Util > Examine > Coupler Loss in the BTS menu bar.
Input the Coupler Loss for the RX tests:
- In the BTS menu bar, click Util > Edit > Coupler Loss... from the menu bar at the main window.
- Select the RX Coupler Loss tab if not in the foreground.
- Enter the appropriate coupler loss for the target carrier(s) by referring to the information taken at
the time of BTS installation.
- Click the Save button.
- Click the Dismiss button to close the window.
- To view the couper loss file, click Util > Examine > Coupler Loss in the BTS menu bar.
If it was not previously done, have the CBSC operator put the redundant BBX OOS_MANUAL.
! CAUTION
Be sure to download OOS devices only. Loading in-service devices takes them OUT OF SERVICE
and can result in dropped calls.
The code file version numbers must match the version numbers on the other cards in the frame. If the
numbers do not match, the site may go OUT OF SERVICE.
NOTE
Be sure to include the redundant BBX in steps 8, 9, and 10.
H-22
Download code and data to the target devices:
- In the LMF window menu bar, click Tools > Update NextLoad > CDMA to set the code version
that will be downloaded.
- Check the appropriate code version in the popup window and click the Save button to close.
- Select the target BBX(s) on the SCCP cage picture.
- In the BTS menu bar, click Device > Download > Code/Data to start downloading code and data.
. . . continued on next page
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
In-Service Calibration
68P09255A69-3
Table H-6: In-Service Calibration
Step
Action
! CAUTION
Perform the All Cal/Audit procedure on OOS devices only.
Run the All Cal/Audit procedure:
- Select the target BBX(s) on the SCCP cage picture.
- In the BTS menu bar, click Tests > All Cal/Audit... from the menu bar at the main window.
- Select the target carrier and confirm the channel number in the pop up window.
- Leave the Verify BLO check box checked.
- Be sure the Test Pattern box shows Pilot.
- Click the OK button to start calibration.
- Follow the on-screen instructions, except, do not connect to the BTS antenna port. Connect to the
DRDC or TRDC BTS CPL port associated with the on-screen prompted antenna port.
10
Save the result, and download the BLO data to the target BBX(s):
- Click the Save Result button on the result screen.
-- The window closes automatically.
11
Logout from the BTS and close the LMF session:
- In the BTS menu bar, click Select > Logout to close the BTS connection.
- Close the LMF application program by selecting File > Exit from the window menu bar.
12
Disconnect all test cables from the BTS, and reconnect RFDS cables or termination loads, as
applicable, to the DRDC or TRDC BTS CPL ports used for the calibration.
13
Advise the CBSC to enable the target device(s).
14
Restore the new “bts-*.cal” file to the CBSC (refer to Table 5-2).
Aug 2002
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PRELIMINARY
H-23
In-Service Calibration
68P09255A69-3
Notes
H-24
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
Index
Aug 2002
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Index-1
Index
68P09255A69-3
Numbers
10 MHz Rubidium Standard, optional test equipment,
1-11
10BaseT/10Base2 converter
LMF to BTS connection, 3-22
remove from BTS, 5-4
2:1 combiners, description, 1-20
2:1 TX combiner location, 1-30
2-way splitter, optional test equipment, 1-11
20-pair punchblock
description, 1-20
location, 1-20
punchdowns, 3-20
50-pair punchblock
description, 1-21
location, 1-21, 3-17
RGPS punchdowns
non-expansion frame, 3-19
primary expansion frame, 3-20
secondary expansion frame, 3-19
ATP
all inclusive TX acceptance test outline, 4-8
automated introduction, 4-1
code domain noise floor acceptance test procedure,
4-23
code domain power acceptance test procedure, 4-23
failure report generation, 4-27
FER test, frame error rate testing, 4-25
pilot time offset, 4-20
prerequisites, 4-2
spectral purity TX mask, 4-16
test matrix/detailed optimization, B-1
test set-up, 3-61
Advantest R3267/R3562
DRDCs, 3-64
TRDCs, 3-66
Advantest R3465, 3-61
Agilent 8935, DRDCs, 3-61
Agilent 8935/E4432B, DRDCs, 3-63, 3-65
Agilent E4406A/E4432B
DRDCs, 3-63
TRDCs, 3-65
CyberTest, 3-61
HP 8921A, 1.9 GHz, 3-62
HP 8921A, 800 MHz, 3-62
waveform quality (Rho), 4-18
waveform quality (RHO) acceptance test procedure,
4-18
Abbreviated
RX acceptance test, all-inclusive, 4-8
TX acceptance test, all-inclusive, 4-8
ATP - Reduced, 4-1
Acceptance Test Procedure. See ATP
Attenuator, required test equipment, 1-9
ACTIVE LED
GLI, 6-30
MCC, 6-32
Basic Troubleshooting Overview, 6-1
Advantest R3465, setting GPIB address, F-8
Agilent E4406A, calibration, F-24
Battery Charge Test (Connected Batteries), 2-15
Battery Discharge Test, 2-16
ALARM LED, GLI, 6-30
Bay Level Offset calibration
description, 3-78
purpose, 3-78
when to calibrate, 3-79
Alarm Monitor window, 3-103
Bay Level offset calibration failure, 6-9
Alarm and Span Line Cable Pin/Signal Information,
3-17
BBX
carrier spectral purity, 4-15
gain set point vs SIF output considerations, C-1
primary and redundant, TX tests to be performed,
4-13
Alarm Reporting Display, 3-103
All Cal/Audit procedure, 3-86
All RX ATP Test Procedure, 4-11
All tests fail on a single antenna, Troubleshooting,
RFDS, 6-26
All TX ATP Test Procedure, 4-10
All TX/RX ATP Test Procedure, 4-9
Applying AC Power, 2-12
Index-2
BBX LED status combinations, 6-32
BBX2 Connector, 6-19
BLO. See Bay Level Offset calibration
Bringing modules into service, prepare to leave the
site, 5-4
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
Index
68P09255A69-3
Broad Band Receiver. See BBX
Cannot perform carrier measurement, 6-15
BTS
download, 3-33
Ethernet LAN interconnect diagram, 3-30
LMF connection, 3-15, 3-22
log out of session, 5-4
RX sensitivity/frame error rate, 4-14
system software download, 3-3
Cannot perform Code Domain Noise Power
measurement, 6-15
Cannot perform Rho or pilot time offset
measurement, 6-14
Cannot perform Txmask measurement, 6-14
cbsc folder, 3-11
CDF
site configuration, 3-2
site equipage verification, 3-3
site type and equipage data information, 2-1
BTS Frame Erasure Rate. See FER
BTS Log In Procedure, GUI, 3-24
BTS login
CLI environment, 3-26
General, 3-24
GUI environment, 3-24
BTS Logout
CLI environment, 3-28
GUI environment, 3-27
CDMA
allocation diagram for the North American, cellular
telephone frequency spectrum, D-4
optimization/ATP test matrix, B-1
subscriber mobile radiotelephone, optional test
equipment, 1-11
Create CAL File, 3-92
cdma Folder, 3-10
bts-nnn.cal File, 3-11
Cell Site
equipage verification, 2-1
types configuration, 3-2
cable calibration, automatic, test set-up, 3-55, 3-56
Advantest R3267/R3562, 3-56
Advantest R3465, 3-55
Agilent 8935, 3-55
Agilent E4406A/E4432B, 3-56, 3-57
CyberTest, 3-55
HP 8921A, 3-55
CAL file. See calibration data file
Clock Sync Module. See CSM
Code domain power/noise floor
acceptance test, 4-23
analyzer display, 4-24
Communications test set. See Test equipment
communications test set, TX acceptance tests, 4-6
Calibrating Test Equipment, 3-71
Connect BTS E1/T1 spans, 5-5
Calibration, In-Service, H-20
Connect BTS T1/E1 spans, 5-5
calibration
calibration data file, 3-79
Gigatronics 8542B, F-27
Connecting test equipment to the BTS, 3-50
Connector Functionality
Backplane, Troubleshooting, 6-19
Troubleshooting, Backplane, 6-19
Calibration Audit failure, 6-10
calibration data file, description of, 3-79
Cannot communicate to Communications Analyzer,
6-6
Control, TX output verification, 4-6
Copy CBSC CDF Files to the LMF, 3-5
Copying CAL files from CDMA LMF to the CBSC,
5-1
Cannot communicate to Power Meter, 6-5
Cannot Download DATA to any device card, 6-7
Aug 2002
CIO Connectors, 6-20
Communication test set, rear panel, F-14, F-16
Calibrating Test Cable Setup, PCS Interface
HP83236B, F-28
Cannot Log into cell-site, 6-2
Channel Service Unit, 3-15
code Folder, 3-12
Calibrating Cables, 3-71
Cannot ENABLE device, 6-8
Cell Site Data File. See CDF
Copying CAL files to the CBSC, 5-1
CSM
clock source, select, 3-36
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Index-3
Index
68P09255A69-3
enable, 3-37
system description, 3-40
End LMF session, 5-4
Equipment Overview, 1-16
CSM clock source, select, 3-36
Equipment warm-up, 3-54
CSM frequency verification, 3-42
establish MMI communication, 3-28
CSM LED Status Combinations, 6-28
Ethernet LAN
interconnect diagram, 3-30
transceiver, 1-7
data Folder, 3-13
Ethernet LAN termination, 2-3
DC Power Pre-test (BTS Frame), 2-7
Every test fails, Troubleshooting, RFDS, 6-25
DC Power Problems, SCCP Backplane
Troubleshooting, 6-23
DC/DC Converter LED Status Combinations, 6-27
Failure report generation, 4-27
FER, acceptance test, 4-25
Detailed, optimization/ATP test matrix, B-1
Files, intermediate file, 4-27
Devices, download. See Download
files, calibration data, 3-79
Digital Control Problems, 6-21
SCCP Backplane Troubleshooting, 6-21
Digital multimeter, required test equipment, 1-9
Directional coupler, required test equipment, 1-9
diversity receive path, definition, 3-78
companion frame, 3-78
stand-alone frame, 3-78
Filtronics, low IM Duplexer (Cm035-f2) or
equivalent, optional test equipment, 1-10
Fluke, model 8062A with Y8134 test lead kit, test
equipment, 1-9
Folder Structure Overview, 3-10
Foreword, xviii
diversity RX path. See diversity receive path
forward link problem after passing reduced ATP, 6-14
Frame, equipage preliminary operations, 2-1
Documents, required, 1-12
FREQ Monitor Connector, CSM, 6-29
Download
See also Devices
BTS, 3-33
BTS system software, 3-3
Frequency counter, optional test equipment, 1-10
Download BLO Procedure, 3-89
Gain set point, C-1
Download from the CBSC, prepare to leave the site,
5-3
General Safety, xxiii
download ROM and RAM code. See ROM code
General optimization checklist, test data sheets, A-4
Download/Enable MCCs, 3-39
Gigatronics 8541C, setting GPIB address, F-11
Download/Enable MGLIs, 3-35
Gigatronics 8542 power meter, calibration, F-27
Duplexer, optional test equipment, 1-10
GLI Connector, 6-19
GLI Ethernet A and B Connections, 6-19
GLI LED Status Combinations, 6-30
E1, isolate BTS from the E1 spans, 3-14
E4406A
calibration, F-24
setting GPIB address, F-2
E4432B, setting GPIB address, F-3
Enable CSMs. See CSM
Index-4
Generating an ATP Report, 4-27
GLI Pushbuttons and Connectors, 6-31
GLI2 Front Panel Operating Indicators, 6-31
GPIB, F-13, F-17, F-19
cables, 1-9
HP8935, F-6
interface adapter, switch settings, F-12
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
Index
68P09255A69-3
set address, F-2
Advantest R3267, F-4
Advantest R3465, F-8
Advantest R3562, F-5
Agilent 8935, F-6
Agilent E4406A, F-2
Agilent E4432B, F-3
Gigatronics 8542B, F-11
HP 437B, F-10
HP 8921, F-7
HP83236A/B, F-7
Motorola CyberTest, F-9
I and Q values, E-1
In-Service Calibration, H-20
preliminary Agilent test equipment set-up, H-2,
H-5
test set-up diagrams
DRDC, Advantest, 3-64
TRDC, Advantest, 3-66
Initial HP8921A setup, F-28
Initial Installation of Boards/Modules, preliminary
operations, 2-1
GPIB box, switch settings, F-12
Initial power tests, test data sheets, A-3
GPS, receiver operation, test data sheets, A-5
Intermediate file, generate ATP file using, 4-27
GPS Initialization/Verification
estimated position accuracy, 3-43
surveyed position accuracy, 3-43
IS-97 specification, E-1
GPS satellite system, 3-38
LAN, optional test equipment, 1-10
Group Line Interface. See GLI
LAN connectors, external, 2-3
LAN termination, 2-3
LED Status Combinations for all Modules except
GLI2 CSM BBX2 MCC24 MCC8E, 6-27
Hardware Requirements, 1-6
High Stability 10 MHz Rubidium Standard, optional
test equipment, 1-11
High-impedance conductive wrist strap, required test
equipment, 1-10
HP 437
Pre-calibration, F-25
setting GPIB address, F-10
HP 83236A, F-17
HP 8921A PCS interface, Cables Connection for 10
MHz Signal and GPIB , F-14, F-16
HP 8921A/600 test set, 1-8
HP83236A/B, setting GPIB address, F-7
LFR, receiver operation, test data sheets, A-6
LMF, F-13, F-19
1X FER acceptance test, 4-6
1X upgrade preparation
checking for required HW Bin files, 3-7
home directory, 3-5
BTS connection, 3-22
logout procedure, 5-4
platform requirements, 1-6
remove from BTS, 5-4
terminal, 1-6
to BTS connection, 3-14, 3-15
TX acceptance tests, 4-6
view CDF information, 3-3
LMF BTS displays, 3-23
HP 8921A, setting GPIB address, F-7
lmf Folder, 3-10
HP8921A, F-17
Test equipment connections , F-13
loads folder, 3-11
Local Maintenance Facility. See LMF
HP8935, GPIB, F-6
HSO Initialization/Verification, 3-41
Huber & Suhner, required test equipment, 1-9
Log out
of BTS, 5-4
of LMF PC, 5-4
HyperTerminal, Creating named HyperTerminal
connection, 3-8
Logging Into a BTS, 3-24
HyperTerminal , create named connection, 3-8
logical BTS numbering, 1-16
Aug 2002
Logging Out, 3-27
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Index-5
Index
68P09255A69-3
LORAN-C Initialization/Verification, 3-48
2-way splitter, 1-11
CDMA subscriber mobile or portable
radiotelephone, 1-11
duplexer, 1-10
frequency counter, 1-10
LAN tester, 1-10
oscilloscope, 1-11
RF circular, 1-11
RF test cable, 1-11
spectrum analyzer, 1-10
LPA errors, 6-8
LPA Module LED, 6-33
LPA Shelf LED Status Combinations, 6-33
Master Group Line Interface. See MGLI
MASTER LED, GLI, 6-30
Oscilloscope, optional test equipment, 1-11
MCC LED Status Combinations, 6-32
MMI common connections, 3-29
MMI Connector
CSM, 6-29
GLI, 6-31
Patent Notification, xxvi
MMI Connectors, MCC, 6-32
PCMCIA, Ethernet adapter
LMF to BTS connection, 3-22
remove from BTS, 5-4
MMI equipment setup, 3-29
Periodic optimization, 1-4
Module status indicators, 6-27
Pilot Time Offset. See PN
Motorola CyberTest, setting GPIB address, F-9
Pilot time offset, acceptance test, 4-20
Multi Channel Card. See MCC
Ping, 3-30
Multi-FER test Failure, 6-16
PN
offset programming information, E-1
offset usage, E-1
New installations, 1-4
PN offset per sector, E-1
No AMR control, 6-21
PN Offset Usage , E-1
No BBX2 control in the shelf, 6-22
power
applying, 2-20
AC, 2-20
DC, 2-21
removal, 2-18
AC power, 2-19
DC power, 2-18
No DC input voltage to Power Supply Module, 6-23
No DC voltage +5 +65 or +15 Volts to a specific
GLI2 BBX2 or Switch board, 6-24
No GLI2 Control through span line connection, 6-21
No GLI2 Control via LMF, 6-21
No or missing MCC24 channel elements, 6-22
No or missing span line traffic, 6-22
North American, cellular telephone system frequency
spectrum, CDMA allocation, D-4
Power Delta Calibration
Advantest, H-14
Agilent 8935, H-8
HP8921A, H-11
Power Input, 6-19
Power Meter, setting GPIB address, HP437B, F-10
Online Help, 3-29
optimization/ATP, test set-up
HP 8921A, 800 MHz, H-19
HP 8921A, 1.9 GHz, H-19
Optional test equipment, 1-10
10 MHz rubidium standard, 1-11
Index-6
Power meter
required test equipment, 1-9
setting GPIB address, Gigatronics 8542B, F-11
TX acceptance tests, 4-6
Power Supply Module Interface, 6-19
power-up, BTS. See power, applying
Pre-calibration, HP 437, F-25
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Index
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Pre-power tests, test data sheets, A-3
RF load, 1-10
RS232 to GPIB interface, 1-7
timing reference cables, 1-9
Preliminary operations
cell Site types, 2-1
test data sheets, A-2
Required test equipment and software, list, 1-6
RESET Pushbutton, GLI, 6-31
Prepare to leave site
connect BTS E1/T1 spans, 5-5
connect BTS T1/E1 spans, 5-5
remove external test equipment, 5-3
Revision History, xxv
Prepare to leave the site
bringing modules into service, 5-4
download code and data from CBSC, 5-3
Prerequisites, automated acceptance tests, 4-2
RF
attenuator, 1-9
Circular - optional test equipment, 1-11
load for required test equipment, 1-10
required test equipment load, 1-10
test cable, 1-10
Procedures to Copy CAL Files From Diskette to the
CBSC, 5-1, 6-7
RF path, fault isolation, 6-11
Procedures to Copy Files to a Diskette, 5-1
RFDS - Fault Isolation, 6-25
Pseudorandom Noise. See PN
RFDS calibration
description, 3-100
procedure, 3-101
PWR/ALM and ACTIVE LEDs, MCC, 6-32
PWR/ALM LED
BBX-1X, 6-32
BBX2, 6-32
CSM, 6-28
DC/DC Converter, 6-27
generic, 6-27
MCC, 6-32
RFDS Location, 1-29
RFDS parameters, 3-93
checking, 3-94
setting, 3-94
RFDS Test Subscriber Unit, 3-34
RFDS TSU Calibration Channel Frequencies, 3-100
RGPS distribution
description, 1-20
punchdowns
20-pair punchblock, 3-20
50-pair punchblock
non-expansion frame, 3-19
primary expansion frame, 3-20
secondary expansion frame, 3-19
R3267, setting GPIB address, F-4
R3562, setting GPIB address, F-5
RAM code, described, 3-33
receive path
calibration, 3-78
component verification, 3-79
definition, 3-78
Rho
TX waveform quality acceptance test, 4-18
waveform quality requirements, 4-18
Reduced ATP, 4-1
Remote GPS distribution. See RGPS distribution
Report generation, ATP report, 4-27
Required test equipment
communications system analyzer, 1-6, 1-8
digital multimeter, 1-9
directional coupler, 1-9
Ethernet LAN transceiver, 1-7
GPIB cables, 1-9
high-impedance conductive wrist strap, 1-10
power meter, 1-9
RF adapters, 1-10
RF attenuator, 1-9
Aug 2002
RF path calibration. See Bay Level Offset calibration
ROM code
described, 3-33
downloading, G-1
procedure, G-2
RS232 to GPIB interface
modifications required for Automated Testing, 1-7
required test equipment, 1-7
RX
acceptance tests, FER, 4-25
antenna VSWR, test data sheets, A-11
sensitivity/frame error rate, 4-14
RX and TX paths fail, Troubleshooting, RFDS, 6-26
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RX path. See receive path
SC 4812 BTS Optimization/ATP Test Matrix, B-2
SCCP Backplane Troubleshooting, Procedure, 6-20
SCLPA, convergence test data sheets, A-7
Selecting Test Equipment, 3-68
Set Antenna Map Data, 3-98
Set RFDS Configuration Data, 3-99
Setting Cable Loss Values, 3-76
Setting Control Port, 3-15
Setting TX Coupler Loss Value, 3-77
shut-down, BTS power. See power, removal
SIF, output considerations vs BBX gain set point, C-1
signal generator, 1X FER acceptance test, 4-6
Site, equipage verification, 3-3
Site documents, 1-12
site equipage, CDF file, 3-2
Test Equipment Setup Chart, 3-52
Span line
T1/E1 verification equipment, 1-11
troubleshooting, 6-34
Test equipment setup RF path calibration, 3-82
Span line configuration, troubleshooting, 6-36
Span Line connector , 6-19
SPANS LED, 6-30
Spectral purity, TX mask - primary and redundant
BBX, 4-13
Spectral purity transmit mask, acceptance test, 4-16
Spectrum analyzer, optional test equipment, 1-10
SYNC Monitor Connector, CSM, 6-29
System Connectivity Test, F-17
T1, isolate BTS from the T1 spans, 3-14
Tektronics model 2445 test equipment, 1-11
Test data sheets
Alarm verification, A-11
Index-8
Test equipment connections , preliminary Agilent
E4406A/E4432B set-up, F-22
Test Equipment Setup Calibration for TX Bay Level
Offset, F-32
Site expansion, 1-4
Supported Test Sets, 3-51
Test equipment
See also Optional test equipment; Required test
equipment
set up, TX output verification/control, 4-6
system analyzer, 1-8
TX acceptance tests, 4-6
verification data sheets, A-1
Test Equipment Setup Calibration for RX Bay Level
Offset, signal generator and spectrum analyzer,
3-74
Site checklist, verification data sheets, A-2
STATUS LED, GLI, 6-30
general optimization checklist, A-4
GPS receiver operation, A-5
initial power tests, A-3
LFR receiver operation, A-6
pre-power tests, A-3
preliminary operations, A-2
RX antenna VSWR, A-11
SCLPA convergence, A-7
site checklist, A-2
TX antenna VSWR, A-9
TX BLO, A-8
verification of test equipment used, A-1
Timing reference cables, required test equipment
Model SGLN1145A/4132A CSMs, 1-9
Model SGLN4132B CSMs, 1-9
transmit path
calibration, 3-78
component verification, 3-79
definition, 3-78
Transmit TX path audit, 3-90
Transmit TX path calibration, 3-83
Troubleshooting
DC Power Problems, 6-23
RF path fault isolation, 6-11
Set span configuration, 6-36
span problems, 6-34
TX and RX Signal Routing, 6-24
TX level accuracy fault isolation, 6-13
troubleshooting
communications system analyzer communication,
6-6
Ethernet LAN, 6-2
GLI IP address, 6-3
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Index
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LMF login failure, 6-2
power meter communication, 6-5
signal generator communication, 6-6
Agilent 8935, 3-58
Agilent E4406A, 3-60, H-18
CyberTest, 3-58
HP 8921A, 3-59
TX calibration procedure, 3-88
TSU NAM, programming
description, 3-96
parameter ranges, 3-97
parameters, 3-96
procedure, 3-102
TX combiners. See 2:1 combiners
tx fine adjust, E-1
TX
acceptance tests
code domain power/noise floor, 4-22
equipment setup, 4-6
pilot time offset, 4-20
spectral purity mask, 4-15
spectrum analyzer display, 4-17
waveform quality (rho), 4-18
all inclusive TX ATP test, 4-8
antenna VSWR, test data sheets, A-9, A-11
BLO test data sheets, A-8
level accuracy fault isolation, 6-13
output acceptance tests
code domain power noise, 4-13
pilot time offset, 4-13
waveform quality, 4-13
TX and RX Frequency vs Channel , D-2
TX and RX Signal Routing, SCCP Backplane
Troubleshooting, 6-24
TX Audit Test, 3-90
TX Bay Level Offset and TX ATP test equipment
setup calibration, signal generator and spectrum
analyzer, 3-73
TX calibration, 3-86
All Cal/Audit, 3-86
set-up, 3-58
Advantest R3267, 3-60, H-18
Advantest R3465, 3-59
Aug 2002
TX path. See transmit path
TX path calibration, 3-86
TX/RX OUT Connections, 4-3
Updating CDMA LMF Files, 5-1
UTP, LMF to BTS connection, 3-22
verification during calibration, 3-79
Verify
test equipment used, test data sheets, A-1
TX output, 4-6
Verify GLI ROM code load, 3-34
version Folder, 3-12
Waveform quality (Rho), acceptance test procedure,
4-18
XCVR Backplane Troubleshooting, 6-19
Xircom Model PE3-10B2
LMF to BTS connection, 3-22
remove from BTS, 5-4
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Index-9
Index
68P09255A69-3
Notes
Index-10
1X SC4812ET Lite BTS Optimization/ATP Software Release 2.16.1.x
PRELIMINARY
Aug 2002
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