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基站安装配置


一 BTS 安装 1.固定 BTS 位置.打孔固定,与电源距 0.61 米.(为传输设备宽度) 2.用兰(-48V)黑(地)两种电线连接电源与 BTS. 3.给 BTS 接保护地(绿电线). 4.安装 TCU. 5.安装 1/2 馈线(避雷器到 BTS). 6.放 2M 线 8 根.DDF 到 BTS 1 2 3 4; 7.放报警线:BTS 到报警箱. DDF 到传输 1 2 7

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批注 [a2]: 批注 [a1]: 基站收发信机

二 天馈线安装 1.天线的方位角,俯仰角. 2.馈线连接. 3.馈线接入室内避雷器. 4.注意馈线进室内次序;贴标签;馈线接地;地排接地;三点接地. 注:三点接地:天线到大馈线 1 米处;大馈线离开铁塔处;大馈线进机房处.(接地 电阻=<3 欧姆)
批注 [a3]: 现在常用的是 5 欧姆

三 BTS 调测 1.记录:Model No.和 Serial No.,包括:MCU、FOX、NIU、BPSM、NPSM、TCU、 CBF、Alarm board、Cabinet、DUP、DLNB 等. 2.测量:1>电源电压 0 - -48v 的实际值(一般为-53.4v). 2>测量每根天线的 FPW(前向功率)、RPW(反向功率)、VSWR(驻波比)、 Cableloss. 3>调整 TCU 发射功率. 记录:O/P(TCU 发射功率)、Cabinet(机顶发射功 率)、Offset(补偿值). 4>校准频点,用试波器测每个 TCU 的接收线性:TCU_A 用 Cindy 软件,9-9 线接 CNTRL PRCSR 口;TCU_B 用 Procom Plus 软件,9-25 线接 TTY INTFC 口. 5>注意:测 TCU_A 时,执行 Cindy 后,单击 Carrier Setup,然后 reset TCU_A,再次单击 Carrier Setup,自动进入测试状态.击 Rx Path Calibration 调线性,完后单击 Save 一下.击 Tx Path Calibration 调发 射功率,完后击 End 自动保存.也可在 RCU Windows 下输入 Save Cal Tx; 测 TCU_B 时,先在 MMI_ROM 0000:状态执行 tcu_colock 0,然后执行 tcub_v1 进行线性调测.调测完后,要 reset TCU_B.

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3.测试告警 1-7,TCU 告警,电源告警. 4.记录仪器的 model No.和 Serial No. 5.绘制机房平面图. 6.Mcell BTS(TCU_B)测试方法: 1>打开 BTS 和 PC,连接 9-9 和 9-25 线,启动 BTS 和 PC. 2>运行 Procomm Plus Terminal 程序,设传输方式为 9600,N,8,1,将空 PCMA 卡取出,插入自带数据盘.用 set_site 站号启动 BTS;用 state 站 号 dri * * 查看 TCU 状态到 B_U; 用 lock 站号 dri 0 0 等命令锁住所有 TCU. 3>测线性:将试波器与 DLNB 连接,执行 Tcub_v1 文件,测试 TCU_B,offset<>80h. 4>测驻波比:TCU-功率计-天线.由功率计读出相应天线的 FWP、RWP、 VSWR,计算 cableloss,测所有天线. 5>测 TCU 输出功率:TCU-功率计-天线,读出所有 TCU 的 O/P 值. 6>调过顶功率:DUP-功率计-天线,用软件执行 cs <D>或<U>调整,并记录 O/P、Cabinet,offset,调测所有 TCU.调完后保存:halt c,wrenb,save cal tx,wrptc. 附录:定向站计算公式:cable loss=(1/2 馈线长)*0.11+(7/8 馈线 长)*0.042+0.312 50=(O/Pcabinet)-Cableloss-(2*3(市内)或 2*2(郊区)+16.0 记录数据:1>Model No.和 Serial No.:MCU、BPSM、Alarmboard、DUP、 FOX、NPSM、Cabinet、NIU、TCU、CBF、DLNB。 2>FWP,RWP、VSWR、Cableloss:RX1A、TX1/RX1B、RX2A、TX2/RX2B、RX3A、 TX3/RX3B. O/P、O/Pcabinet、offset:TCU(0-5). 3>室内设备位置图及机房走线架图. 4>测试告警前执行:enable_ala 19 测试完后执行:disable_ala 19 锁住所有 的 TCU:lock 19 dri 0 0 5>.gsmfw test bbh alarm off aic out act c 0 (Bring TCU into test). 四 Site_walk

1. 定位:正北方为 0˙. 2. 照相:0˙、60˙、120˙、180˙、240˙、300˙六张相.楼顶如有铁塔,天线 等物,也照下来.有机房,在机房内馈线窗处照一张;无机房,在建机房处照一 张. 3. 画草图:把楼顶平面画下来,详细标好尺寸,把楼顶建筑物及机房位置标好.

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4. 定天线:定方向和位置.同一扇区垂直距离大于 4 米,扇区之间大于 1 米. 5. 画机房图:开馈线窗,定位置. 6. 纪录经纬度:用 GPS. 7. 全部勘察完成后,要做总结报告.讨论每一个基站的天线挂高,方位角,馈线走 向及长度,基站编号等. 8. 对于每个地方的资料装订,报告+基站资料(基站报表+楼层平面图(或塔)+机 房平面图+照片(贴在白纸后)).要把扩容站,主机房都记在内.并在地图上标 出所有基站位置. 9. 回公司后用 NetPlan 录入数据.

五 audit 基站检查 1.天线; 2.机房; 详细:4.2M 线连接; 3.主机设备; 4.2M 线连接;

1>将短接头取下, 短接 BTS 用的四根线(在一侧). 2>打开 PC,执行 state mms * *,状态全部为 B_U 时为正常. 3.主设备检查: 1>disp_site 看站号

2>state 站号 dri * * 看 tcu 状态 3>当 tcu 为 B_U 状态时,disp_cal_data 站号 dri 0 0 看 tcu 数据有无 80h; disp_act_ala 站号 查看告警信息,有无告警 4>lock 站号 0 0{0 1,1 0,1 1,2 0,2 1} 给所有 TCU 上锁. 5>state 站号 dri * * 看 TCU 状态是否全部为 E_L 6>当一个 TCU 状态为 E_L 时,可以换 9-25 线接 TCU,测驻波比(正向功率 50 左右,反向功率<0.3),TCU 功率,机顶功率. 7>测试过程:在 ROM_0000_>状态下执行 tcu_clock 0 当出现 EQCP>时换 线,执行 .gsfw;test; 出现 EQCP TEST_>时执行 cs,开始测试,ESC 键 停止测试. 六 口令 3stooges 1.chg_l:

4beatles

七 与 MSC 联调 1.9-25 连接 PC 与 XCDR 中的 GPROC2 板. 2.开 PC,进入 Procomm Plus Terminal

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3.查看每块 XCDR 板是否连通. 1>在 DDF 加上自环

2>与 MSC 的人联调.

4.在 BSC 中调测 MTL 链路. 方法:1>DDF 架上自环每对线,观察对应的 XCDR 板是否连通. State 0 msi (msi 号,即插槽号;若为 cage 1,则为槽号+20) 0 2>用命令 state 0 mms (mms 号) 0 注:启动 XCDR 板:ins 0 msi (板号) 0 ins 0 mms (板号) 0 显示联接:disp_bss_conn 显示 msi 信息:disp_eq 0 msi (板号) 0 增加 msi:equip 0 msi 5.modify opc,dpc chg_el opc new 0,chg_el dpc new 0; 6.BSC 上 CIC 测试: set_mmi exec_mon 回车, rl 1 0117h filter list fliter create tag 10501h filter start 0 filter list filter end 八 BSC 安装 1.固定 BSC 机箱 2.安装直流电源线,BSC 到电源箱.最大直流电流 300A.兰(-48v)黑(地) 3.接保护地(绿线). 4.按照安装文件接光纤. 5.按照安装文检查电路板. 6.按照安装文件放 3002 线.BSC-DDF-XCDR MSC DDF-OMC 7.做线头,布线,调测. BSC-DDF-传输 XCDR-DDF显示站或 MTL 所在的 GPROC 如 0117h

九 将同一扇区一 TCU 数据装入另一 TCU 1.从基站登陆 BSC:chg_l 进入 level 3;Ctrl+N;rl 1 0115h;Ctrl+N;chg_l;disp_site,显示为 0. 2.lock 2 dri 2 2 3.clear_cal_data 2 dri 2 2 4.lock 2 dri 2 1 5.将 dri 2 1 的光纤接到 dri 2 2 上,unlock 2 dri 2 1 6.disp_cal_data 2 dri 2 1 7.lock 2 dri 2 1

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8.将光纤接回,unlock 2 dri 2 2 9.disp_cal_data 2 dri 2 2 store_cal_data 2 即可查看到 dri 2 2 的数据是否改变了. 10. 11. 注: Ctrl+d 退出 BSC

1.lock 2(站号) pchn 2(扇区号) 1(TCU 号) 0(0-7,信道号) 锁 2 号站 2 扇区 1 号 TCU 0 信道 2.store_cal_data 2(站号) 存储 2 号站 TCU 中 CAL 数据到 BSC 中. 3.clear_cal_data 2(站号) dri 2(扇区号) 2(TCU 号) 清除 BSC 中 2 号站 TCU 的 CAL 数据.



增加临近小区

1.察看所有小区及数据:disp_nei 4 6 0 0 1 28690 1093 all 4 6 0 (MCC) 0 1(NCC) 28690(LAC) 1093(CellID) 2.察看 BCCH Frequency disp_cell_status 14(站号) 3.察 BSIC 号:disp_nei 4 6 0 0 1 28688 1142 4.同一 BSC 增加相邻小区:1041 为主导小区,1271 为邻近小区 add_nei 4 6 0 0 1 28690 1041 4 6 0 0 1 28690 1271 internal :no :5 :4 :8 5.不同 BSC 增加相邻小区:1142 为主导小区,1423 为邻近小区 add_nei 4 6 0 0 1 28688 1142 4 6 0 0 1 28690 1423 external :pgsm :BCCH Frequence :BSIC :33 :5 :4 :8 (同一基站为 yes)

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十一

路测的 LOG 文件如何做 FileMark

1.接好 PC 与 Tems 和 GPS 后,拨通电话. 2.在 Control 下单击 Control of layer3 messages. 3.击 File 下 Open(打开文件) 4.在同一界面下击 Activate 后 Close. 5.注意带 Layer5 的有*的为 Activate,无*的为没做 Activate. 6.找出无来由的高电平信号线,将其 Filemark,然后在 Log 下 insert filemark. 7.整个过程必须注意,GPS 是否正常,否则 filemark 结果无效. 8.如果出现中途断话现象,必须重复上述步骤.

十二

扩容站

DLNB
RX1 RX2

ANT

ANT

TX

DUP

RX

TX

RX

CBF

CBF
注:每个扇区可接 3-4 个 TCU
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十三 1.物理连接:
BSC

菊花链

传输

BTS1 mms(0,0)<即对应 T43 板上 J1,J2(Tx,Rx)> 传输 BTS2 mms(0,0)

BTS1 mms(0,1)< 即对应 T43 板上 J7,J8(Tx,Rx)>

十四

对 BSC 或 XCDR 装载数据

1.用 9-25 线把 PC 与 BSC(或 XCDR)的主 GPROC2 板相连. 2.PC 进入 Procomm Plus Terminate.先进入 level3,依次执行: 1>sysgen on 2>reset_site 0(跳过查找 OML, msg_send 80 0 0 0 1978h ) 3>clear_da 4>在 Procomm Plus Terminate:Data/Send File 选择合适的文件执行. 5>执行完后,在 MMI_sys 0115_>状态执行 sysgen off

十五

在 BTS 登陆 BSC

1.在 BTS 进入 Level3. 2.在 1015_>状态下敲 Ctrl+N 键 3.在 1015_>状态下执行 rl 1 0115h 或 rl 1 0116h 4.在 0115%>状态下敲 Ctrl+N 键到 0115>状态进入 BSC 5.退出 BSC 敲 Ctrl+D 键

十六 名词 XBL:XCDR BSC RSL:BSC MTL:MSC BTS XCDR BSC

BTP:基站收发处理 MSI:多站接口

RTF:无限收发信号的频率

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十七 CIC 测试 1.只留下一条 MTL,其它的全部锁住.(一般留 0 0) 2.用 9-25 线连结 PC 与剩下的 MTL 对应的那块 GPROC2 板.(rl 1 0000h) 3.进入 Level3,敲 Ctrl+N 键进入 EMON 模式. 4.执行 filter creat tag 10501h(显示 filter 0 created 表示已经建立). 5.执行 filter 0 state 0(显示已经建立的 filter) 6.执行 filter start 0(显示 filter 0 started,表示 filter0 开始了). 7.完成 CIC 测试以后执行 filter 0 delete(显示 filter 0 deleted,表示 filter0 已经被删除了).

十八 调时钟 1.BTS 1>disp_site 2>disp_act_ala <No> 3>state <No> mms * * 4>state <No> btp * * 5>gclk_cal_mode Are you sure(yes/no)?:y Frequency counter connect,enter y when ready,or a to abort test:y 6>调到 8k(频率)(Adjust the OCXO control voltage using the +/- and 0 to 3 keys until the measured frequency is exactly 8000.000000Hz) 7>Enter a to abort,s to save,+(0..3) to inc,-(0..3) to dec>:s 8>输入 7 组频率(采样). 9>自动 reboot 10> state <No> gclk * * 2.BSC XCDR(先调备用,后调主用) 1>振荡器、频率计接电,振荡器接频率计背面 10Mhz 接头,频率计输出接 GCLK. 振荡器绿灯亮开始调. 2>disp_element phase_lock_gclk 0 如显示”1”,则改为”0” 3>chg_l 2-3level 4>chg_element phase_lock_gclk 0 0 状态为 GCLK in Set Freq. Mode 5>disp_gclk_avgs 0 0 disp_gclk_avgs 0 1 6>clear_gclk_avgs 0 0 clear_gclk_avgs 0 1 7>调 gclk,频率计显示 16.384mhz(+/-0.8Hz) 8>chg_element phase_lock_gclk 1 0 “1”为起始相位”0”为 BSC 站号 9>state 0 gclk * * 直到状态全为 GCLK Phase Locked 时为止.

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Note: 频率计输出接 GCLK 时地线必须先接.

十九 BSC 命令 1.disp_ele opc 0 2.disp_ele dpc 0 3.disp_rtf_channel <站号> <TCU 号> 4.chg_rtf_frequency 显示本站 TCU 信道

5.disp_cell_status <站号> 显示此站使用情况 6.lock <站号> pchn <载频号> <信道号> 锁信道 7.disp_cal_data <站号> dri <DriNo1> <DriNo2> 8.clear_cal_data <站号> dri <DriNo1> <DriNo2> 显示 TCU CAL 数据 清除 TCU CAL 数据

9.disp_ele max_tx_bts 24 cell_number=4 6 0 0 1 28688 1241 显示此小区功率等级 0-5,5 为最低发射功率,正常为 3. chg_ele max_tx_bts 5 24 cel_number=4 6 0 0 1 28688 1241 10. 改此小区发射功率为 5,最低. 11.add_cell <gsm_cell_id> <location> Configuration Management(CM) Add a new cell to the 修

database.A series of prompts will be presented where parameters defining the cell are entered. 在 CM 数据库增加新的小区.命令输入后将由一系列的提示要求输入各个参数值. 12.disp_cell <gsm_cell_id> [full] Display the add_cell database parameters for a specified cell.显示指定小区的参数设置. 13.chg_element <element> <location> <gsm_cell_id> Modify the database parameters in the Configuration Mangement(CM)database.修改 CM 数据库. 14.chg_cell_element <element> [,<index>] <value> cell_number=<cell_number> Change the value of cell related parameters,It only supports non-statistical cell elements.修改与 cell 有关的参数,(只用于非统计项目元素). 15.disp_element<database_parameter>[,<index1>][,<index2>]<location>[c ell_number=<cell_number>] Display the value of a database parameter in the Configuration Management(CM)database 16.chg_hop_params [<location>][<cell_desc>] Change hopping parameters for a site at one time.

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17.disp_hopping <site> [active]

Display the hopping information

for a site. 18.modify_neighbor <src_gsm_cell_id> <neigh_gsm_cell_id> <parameter> <value> Modify the value of a neighbour cell parameter. 19.disp_neighbor <src_gsm_cell_id> [<neighbor_cell_id>|all] Display information of a specific neighbor cell or all neighbor cells. 20.chg_stat_prop <meas_type> [<location>][<gsm_cell_id>] Change the properties of statistics. 21.disp_stat_prop <meas_type> [<location>][<gsm_cell_id>] the properties associated with a statistic. 22.chg_act_alg_data <algorithm_name> <gsm_cell_id> <bin_num> <alg_num> <alg_data>,<index> Change the actual handover and power control algorithm data. 给 LCF 分配基站 reassign 0 site 站号 LCF 基站给其他的 LCF 1. 2. Disp_a5_alg_pr: Disp_act_alarm: (LCF ID) FUNTION 从新分配 BSC 命令 Disp_a5_alg_pr Disp_act_alarm 47 Disp_alarm_site Disp_bss Display

显示当前优先级. 显示某设备的告警信息.

gclk(dri) 0 0 3. Disp_alarm_site: 4. 5. 6. Disp_bss: Disp_cal_data:

显示被打开告警的基站列表. 显示本 BSC 的所有信息. 显示 Dri 的 cal 数据.

Disp_cal_data 10 dri 1 0 Disp_cbch_state: 显示 cbch 的状态和联合属性.

Disp_cbch_state

4 6 0 0 1 5681 40101 7. Disp_cell: 显示某一扇区的所有数据. Disp_cell 4 6 0 0 1 5681 40101 8. Disp_cell_status: 显示某一基站的信息. 9. Disp_cell_status Disp_csfp: 10 显示某一基站的 csfp 信息. Disp_csfp bsc

algorithm Disp_csfp 3 flow_control Disp_csfp all Disp_csfp 10 10.disp_csfp_status: 11.disp_dte: 显示网内所有 csfp 信息. Disp_csfp_status 显示 bsc.omcr.cbc.bsc_cbc 的 dte 地址.

Disp_dte(显示所有的 dte) 12.disp_element: 显示数据库中某设备的值. Disp_element bs_p_con bsc

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Disp_element rel_tim_adv,3 10 cell_number=4 6 0 0 1 5681 40101 13.disp_enable_stat: Displays all enabled statistics by

bss,cell,location or all in the systems. Disp_enable_stat cpu_usage Disp_enable_stat total_calls Disp_enable_stat Disp_enable_stat bss Disp_enable_stat 1 Disp_enable_stat cell_number=4 6 0 0 1 5681 40101 14.disp_equipment: disp_eq <站号> all full TCU 的 M/N 和 S/N . 15.disp_flash: 16.disp_gclk_avgs: 17.disp_gclk_cal: 18.disp_gsm_cells: 19.disp_hdlc: 20.disp_hopping: 21.disp_interval: 22.disp_level: 23.disp_link_usage: 24.disp_mms_ts_usage: 25.disp_mobile_opt: 26.disp_neighbor: 27.disp_opl_data: 28.disp_options: 29.disp_processor: 30.disp_relay_contact: 31.disp_rtf_channel: 32.disp_rtf_path: 33.disp_severity: 34.disp_site: 35.disp_stat_prop: 36.disp_stats: 37.disp_throttle: 38:disp_time: 39.disp_trace_call: 显示本站的所有信息,包括

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40.disp_traffic: 41.disp_version: 42.disp_x25config:

二十 测试线连接方法 1.TCU_B 9-25 开关测实线 1> 9 25 兰(5) 5-----4 2-----3 3-----2 2.Incell9-9 测试线 公头:地 2 3 母头:地 3 2 3.BSC 9-25 测试线 母头(9 针头): 公头(25 针头): 1 8

2>9 5-----4 2-----6 3-----5 5 7 2 3 RD 2 3 2 TD 3

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9 针头:黑(地) 红(2) 绿(3)

25 针头:黑(地) 绿(2) 红(3) 兰(4) 橙(5) 黄(6) 注:母头 6-7,4-8 短接 或公头 4-6,7-8 短接 4 20 DTR 4 5 7 SG 5 6 6 DSR 6 7 4 RTS 7 8 5 CTS 8 9 22 地 9

4.Mcell 9-9 测试线 母头(9 针头): 母头(9 针头): DCD 1

公头(9 针头): 公头(9 针头): 5.并口线接法: 公头(25 针头):2 公头(25 针头):2

1 3

2 4 5

3 6

4 10

5 11 6 12 4

6 13 3

7 15 2

8 25 25

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公头(25 针头):15 公头(25 针头):15 13 12 10 11 5 6.串口线接法: 母头(9 针头):2 母头(9 针头):2 3 5 5

母头(9 针头):3 母头(9 针头):3 2 7.五类双绞线做法:

(1)绿白,绿,黄白,蓝白,兰,黄,棕白,棕 (2)橙白,橙,绿白,兰,蓝白,绿,棕白,棕 8.CTU 调测线:

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1>母头(9 针头):2 3 母头(9 针头):2 母头 公头(9 针头):3 公头(9 针头):3 2

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2>母头(9 针头):2 3 母头(9 针头):2 母头 公头(9 针头):9 公头(9 针头):9 8

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二十一 Incell (一)BTS 调测 DRCU(Incell)与 TCU_A(Mcell)调测步骤异同: 1.9-9 线的接法是 2 3 4---2 3 5,这有别于 Mcell 的 2 3 5---2 3 5. 2.9-25 线同 BSC 上接 GPROC2 板的线. 3.接 RxCalibration 调测时,不要选 A 或 B 的输入通路,而选 Autocalibration. 4.其它测发射功率的步骤与 Mcell 站的 TCU_A 相同. 5.需注意的是 RxB 的 Calibration 从柜顶输入,RxA 的 Calibration 是从双工器 的 Antenna 接口处输入. (二)机顶天馈线接法

Rx Tx
双 工 器

避 器

RxB

RxA

Tx

机顶

(三)1 个扇区 3 个 DRCU 的接法
机顶
CBF1 DUP0 CBF0

注: 一个 CBF 路 2 个 DRCU , 输 三个 DRCU 接 一 个 CBF, 路 ,输入 DUP.

DRCU2

DRCU1

DRCU0

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二十二 1.WinnT 用户:qch1306

用 NetPlan 录入数据

password:167388

2.NetPlan 用户:qch1305 password:wu1305 3.执行 exCeed 输入:userName 输入:password 4.单击左侧工作条 执行 NetPlan. 2.选 Config View…中 Geo Set…项 demosystem 选 OK,OK. 3.执行 NetPlan 中 Edit Site… 4.System 中选省号 Region 中选城市号 Site 为站号 Query 为搜索 Add 增加 Version 版本 SiteName 站名 5.输完每一个站后,用 Add 菜单增加. 等等.

6.在 System 和 Region 中增加选项,请用 Edit System 和 Edit Region. 7.最后用 Alt+F4 退出用户登录. 二十三 0.omc 系统由哪几部分组成 OMC(Operation&Maintenance Center)是一个运行 TCP/IP 协议的以太网计算 机系统,它的中心部分是 Sun 公司的若干计算机系统,通过 Sun E3000 服务器 的 HIS 接口连接到 MOTOROLA6560Mprouter 然后与 BSC 及 RXCDR 相连,BSC 和 RXCDR 的信息通过 OML 和 OMC 沟通.Sun E3000 又称为 System Processor,它 保存有了 Performance Management(PM)和 Event Subscription 数据. Sun Ultra 称作 MIB Processor,保存了 Configuration Management(CM)和 Fault Management(FM). Sun Sparc 5 称作 MMI Processor,也可细分为 MMI Server,MMI Client 两 种.MMI Server 可以带多个 Client,他们虽然没有数据库,但仍然可以提供用 户良好的界面一访问那些有其它 Processor 提供的数据. 1.OMC 中统计数据由保留 7 天该为 10 天: 在 OMC_SPLAT 文本文件中将两行 delete_flag=5…改为 delete_flag=8… 即可.(方法:用 OMC 中 xterm 中 Vi 改.W 存盘;Q 退出;X 删除.) 2.OMCR 完全排障手册 1> 告警数量超出门限,EXCEED 告警窗会有反应,此时可打开 EVENTMGMT 中的 PLMN 窗口,将 kit 类告警人工清除. 2> 磁盘空间超出最高门限,DiskFull 告警窗会有反应,登录到 OMCSYS(E3500:OMCSYS2,E3000:OMCSYS1)上,进入告警所提示目录,执行指令: >find –name core –print OMC 操作

14

找到 core 文件, 执行指令: >ls –l core >file core 记录下信息,如果磁盘分区未满 100%,执行指令: >compress core 如果磁盘分区已满 100%,执行指令: >rm core 注:指令 df –k 检查磁盘分区使用情况. 3>MMI 死机 参照 MMI 死机处理流程. 4>GUI 功能不能用 a.按 GUI 功能无反应,退出 GUI 重启. b.点 GUI 功能按钮,弹出了红色 Error Message 窗口,若依次执行以下操作仍不 可用,需作 omc stop&start. a> 退出 GUI 重启.若恢复正常,则无须执行以下操作. b>退出重新登录.若恢复正常,则无须执行以下操作. c>reboot MMI. c.MMI 突然弹出多个红色 message 窗口,提示 MIB Process died, 重启过亦然, 需作 omc stop&start. 5>MMI 处理速度突然变慢 a. b. 是否打开太多窗口?关闭不用的窗口. 没有任何事情正在进行时,在 MMI 上打开 Xterm,执行指令:

>df –k 若有分区超过门限(85%),进入该目录,找出 core 文件并处理(见 2>).再登录上 OMCSYS, 执行指令: >df –k 若有分区超过门限(85%),进入该目录,找出 core 文件并处理(见 2>). c. 若未发现异常,在 MMI 及 OMCSYS 上执行指令: >sar l 10 >vmstat l 10 若 cpuid(cpu idle)总为 0,可能有死循环,MMI 上出现此情况,则 reboot MMI,OMCSYS 上出现此情况,则 reboot OMCSYS(见 6>). 6>OMC 重启. a. Omc stop&start 登录到 OMCSYS(用 omcadmin 用户),执行指令: >omc stop 然后进入/usr/gsm/logs/omcaudit****(当日文件)执行指令: >tail –100 omcaudit **** (查看文件) 直到出现 OMC SHUTDOWN COMPLETE 信息(几分钟)执行:

15

>omc start >tail –100 omcaudit **** 直到出现 OMC SHUTDOWN COMPLETE 信息(几分钟). b. REBOOT OMCSYS 进入 OMCSYS 作 omc stop,退回 MMI >su - root >rlogin omcsys(1 or 2) >shutdown –i6 –g0 –y 进入/usr/gsm/logs/omcaudit****(当日文件)执行指令: >tail –100 omcaudit **** (查看文件) 直到出现 OMC Startup Complete 信息. Reboot omcsys 会比较长时间,但也不过十几分钟,若仍没恢复,需人工作 omc start(一般会自动 omc start). 3.如何使用 cdrom,磁带机,软磁盘 a.拷贝软盘(1.44M): 1>插入 3 寸软盘;执行 volcheck 2>cp 被拷贝文件名 /floppy/floppy0/目标文件名 3>eject floppy 弹出 floppy 方法 4>fuser –u [–k] /floppy/floppy0 -u:发现谁在使用此设备; 用此设备的进程. b.磁带使用方法:磁带设备名为 /dev/rmt/0 tar cvf /dev/rmt/0 test1.txt 保存文件 test1.txt 到磁带 tar cvf /dev/rmt/0 /home/omcadmin/XiaoWu/* 带目录保存 /home/omcadmin/XiaoWu 下的文件到磁带 tar cvf /dev/rmt/0 检查磁带内容(此带为 tar 保存的格式) cd /home/omcadmin/XiaoWu tar xvf /dev/rmt/0 把磁带中的文件恢复到硬盘 c.CDROM 使用 插入 CDROM 自动 MOUNT(等到等不闪) /cdrom/cdrom0 可以用 $ls /cdrom/cdrom0 $cp /cdrom/cdrom0/… /home/omcadmin 弹出 eject cdrom0 有 busy 话 fuser –u –k /cdrom/cdrom0 eject cdrom0 -k:杀掉使

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3.如何 backup 系统: a. 文件系统备份 SYS: Log in MIB as ROOT Cd /usr/gsm/cdrom_install ./S71backup_sysProc 选择 Remote From MIB.设备为 DAT,设备名为/dev/rmt/0 MIB: Log in mib as root Cd /usr/gsm/current/sbin ./backup_mib 设备为 DAT,设备名为/dev/rmt/0 MMI: Log in mib as root Cd /usr/gsm/current/sbin ./backup_mmi 选择 Remote From MIB.设备为 DAT,设备名为/dev/rmt/0 b. Backup DATABASE 方法 SYS: Log in mib as root Su Su –informix/bin Cd /usr/informix/bin Set term vt100 ./onmonitor archive=>tape parameter(/dev/rmt/0 64k 2000000k) ./ontape –s –l 0 MIB: Su Su –informix/bin Cd /usr/informix/bin Set term vt100 ./onmonitor archive=>tape parameter(/dev/rmt/0 96k 2000000k) ./ontape –s –l 0 4.打印文件 lp 文件名 即可打印制定文件 lpstat –t 列出打印任务 其中”lp-???”为打印任务号 cancel 打印任务号 即可终止指定的任务 5.为什么 Lexmark 打印机打印时只打出”page 1”却没有内容:

17

因为 unix 文本中只有换行,没有回车,所以要在打印机上的面板菜单中选 pcl emul menu->auto cr after lf 6.怎么知道系统各主机名,如何远程登陆到各主机 在 MIB 机上 $cat /etc/hosts 可以知道系统各主机名,及对应 IP address $rlogin 主机名 可以远程登陆到各主机 7.进入 GUI 时显示 core present,而无法启动 GUI 在用户的 Home 目录下(如果用户名为 omcadmin,则 home 目录为 /home/omcadmin)存在 core 或 core.z 文件,它们是系统不正常退出时 Dump 出 来以供厂家分析的文件. $rm core core.z 可以删除它们.再进入 GUI 即可. 8.PM report 保存的文件在/usr/gsm/ne_data/pm_reports/tabular 中,都是纯 文本文件. 9.用电话线联入 OMC 的 modem 后,root 用户不能用 modem 登陆 OMC,可以用 omcadmin login 请输入:tty_rlogin BSC 名或 RXCDR 名即可.例:tty_rlogin TY_BSC01 或 TY_RXCDR01. 10.使用 MODEM 登陆后,怎样发送.接受 OMC 机上的文件. 可以使用 sz 和 rz 工具,它们一般在/home/omcadmin/rz/目录下.PC 用 Procom. 传送文件去 OMC 在 OMC 上 /cd/home/omcadmin/rz rz 在 PC 上 选择 send 文件即可. 由 OMC 传送文件到 PC 在 OMC 上 /cd/home/omcadmin/rz sz 文件名 Procom 会自动接收,并放在 Procom 的 download 目录下. 二十四 UNIX

1.ls 列目录; ls –a 列出隐含文件(文件名前有”.”); ls –l d. 2.cp 源文件 目标文件 复制文件 列出文件详细内容,如果文件是子目录,则文件属性第一各字符为

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3.mv 源文件 目标文件 mv 旧文件名 目标文件名 4.cd 目录 进到目录内 cd 5.pwd

移动文件 文件更名

回到用户的 HOME 目录 列出当前目录 成为 omcadmin

6.su 用户名 成为”用户名”所指的用户,Ex:su omcadmin su 成为超级用户,相当于 su root 7.df –k 8.ps –ef 列出硬盘剩余空间,个文件系统配置 列出当前运行的进程 终止此进程

9.kill 进程号

二十六 1. Mcell 2/3/3 配置:RTF 配置:RTF 0 0 RTF 0 1 RTF 2 1 RTF 2 0 DRI 1 0 DRI 1 1 DRI 2 2 CSFP 0 0 MMS 0 1 SITE 0 0 RSL 0 0 PATH 0 0

基站配置

RTF 1 0 RTF 2 2 DRI 1 2 BTP 0 0 GCLK 0 0

RTF 1 1 DRI 0 0 DRI 2 0 MSI 0 0 CAB 14 0

RTF 1 2 DRI 0 1 DRI 2 1 MMS 0 0 CAB 15 0

0: SITE 0 0: SITE identifier:0 0: BTP 0 0: BTP identifier:0 0: GCLK 0 0: Device identifier for the Gclk:0 0: CSFP CSFP 0 0: CSFP identifier:0 CSFP creation method:Equip_device 0: CAB 14 0: CABINE identifier:14 Cabinet type:TCU_6 Frequency Type:PGSM[1] 0: CAB 15 0: CABINE identifier:15 Cabinet type:M_CELL_6 Frequency Type:PGSM[1] 0: PATH 0 0: Terminating SITE id is:0 The Unique PATH Identifier is:0 BSC MMS identifier:0 1 SITE idetifier:2 Upstream MMS identifiers:0 0 0: MSI 0 0: MSI identifier:0

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MCU card frame:0 NIU slot number:0 MSI type:NIU 0: MMS 0 0: MSI identifier:0 MMS identifier:0 Nthis The N-bit value for this device is:0 The BER OOS Monitor period for this device is:1 The BER restoral nmonitor period for this device is:6000 The Priority rating is:255 The lock Duration for this device(is seconds)is:50 1: MMS 0 1: MSI identifier:0 MMS identifier:1 NThe N-bit value for this device is:0 The BER OOS Monitor period for this device is:1 The BER restoral nmonitor period for this device is:6000 The Priority rating is:0 The lock Duration for this device(is seconds)is:50 0: the RSL 0 0: 1st device ID for the RSL:0 2st device ID for the RSL:0 The Unique PATH Identifier is:0 LAPD T200 Timer value for this device is:2500 NLAPD N-00 value for this device is:3 LAPD K value for this device is:7 0: RTF 0 0: Type of carrier:BCCH RTF identifier:0 0 Unique Primary Unique PATH id:0 GSM cell to which this carrier is assigned:460 01 5648 1021 Carrier absolute radio freq channel:110 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 placement SDCCH placement priority:0 Channel allocation priority:0 1: RTF 0 1: Type of carrier:NON_BCCH RTF identifier:0 1 Primary Unique PATH id:0 GSM cell to which this carrier is assigned:460 01 5648 1021 Carrier absolute radio freq channel:112

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indicators:255 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 0: RTF 1 0: Type of carrier:BCCH RTF identifier:1 0 Primary Unique PATH id:0 GSM cell to which this carrier is assigned:460 01 5648 1022 Carrier absolute radio freq channel:97 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 SDCCH placement priority:0 priority:0 Channel allocation priority:0 1: RTF 1 1: Type of carrier:NON_BCCH RTF identifier:1 1 Primary Unique PATH id:0 GSM cell to which this carrier is assigned:460 01 5648 1022 Carrier absolute radio freq channel:99 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 2: RTF 1 2: Type of carrier:NON_BCCH RTF identifier:1 2 Primary Unique PATH id:0 GSM cell to which this carrier is assigned:460 01 5648 1022 Carrier absolute radio freq channel:101 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 0: carrier:BCCH RTF 2 0: Type of carrier:BCCH RTF identifier:2 0 Primary Unique PATH id:0

21

GSM cell to which this carrier is assigned:460 01 5648 1023 Carrier absolute radio freq channel:117 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 RTF 2 1: Type of carrier:NON_BCCH 1: RTF identifier:2 1 Primary Unique PATH id:0 GSM cell to which this carrier is assigned:460 01 5648 1023 channel:119 Carrier absolute radio freq channel:119 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 2: RTF 2 2: Type of carrier:NON_BCCH RTF identifier:2 2 Unique Primary Unique PATH id:0 GSM cell to which this carrier is assigned:460 01 5648 1023 Carrier absolute radio freq channel:108 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence Codes:2 2 2 2 2 2 2 2 SDCCH load:2 placement SDCCH placement priority:0 Channel allocation priority:0 0: DRI 0 0: DRI identifier:0 0 Cabinet identifier:15 Type of connection to the Port to which the carrier RTF identifier: GSM cell ID where the DRI BTP:FOX is connected:0

appears:460 01 5648 1021 Antenna Antenna select number for this cell:1 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4

22

1: DRI 0 1: DRI identifier:0 1 Cabinet identifier:15 Type of connection to the BTP:FOX Port to which the carrier is connected:1 RTF identifier: GSM cell ID where the DRI appears:460 01 5648 1021 Antenna select number for this cell:1 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 0: identifier:1 DRI 1 0: DRI identifier:1 0 Cabinet identifier:15 Type of connection to the Port to which the carrier RTF identifier: GSM cell ID where the DRI BTP:FOX is connected:3

appears:460 01 5648 1022 Antenna select number for this cell:3 Comb id: COMB: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 1: DRI 1 1: DRI identifier:1 1 Cabinet identifier:15 Type of connection to the BTP:FOX Port to which the carrier is connected:4 RTF identifier: appears:460 GSM cell ID where the DRI appears:460 01 5648 1022 Antenna select number for this cell:3 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 2: DRI 1 2: DRI identifier:1 2 Cabinet identifier:15 Type of connection to the BTP:FOX Port Port to which the carrier is connected:5 RTF identifier:

23

GSM cell ID where the DRI appears:460 01 5648 1022 Antenna select number for this cell:3 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 0: DRI 2 0: DRI identifier:2 0 Cabinet identifier:14 Type of connection to the BTP:FMUX0 Port to which the carrier is connected:0 RTF identifier: GSM cell ID where the DRI appears:460 01 5648 1023 Antenna select number for this cell:1 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 1: DRI 2 1: DRI identifier:2 1 Cabinet identifier:14 Type of connection to the BTP:FMUX0 Port to which the carrier is connected:1 RTF identifier: GSM cell ID where the DRI appears:460 01 5648 1023 Antenna select number for this cell:1 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 2: DRI 2 2: DRI identifier:2 2 Cabinet identifier:14 Type of connection to the BTP:FMUX0 connection Port to which the carrier is connected:2 RTF identifier: GSM cell ID where the DRI appears:460 01 5648 1023 Antenna select number for this cell:1 Comb id: Cavity number for this COMB: is:1 The diversity flag for this DRI is:1

24

The fm cell type is:4 福山(烟台) 2. Incell 2/2/2 113 福山(烟台) 配置: 配置: DHP 15 0 DHP 15 1 BTP 0 0 DRI 1 0 DRI 1 1 DRI 2 0 MMS 0 0 MMS 0 1 RSL 0 0 TDM 0 0 TDM 1 0 LAN 0 0 PBUS 15 1 CBUS 15 0 CBUS 15 1 TBUS 15 0 TBUS 15 1 CAGE 15 0 PATH 0 0 RTF 0 0 RTF 0 1

DRI 0 0 DRI 2 1 GCLK 0 0 LAN 1 0 SBUS 15 0 CAB 15 0 RTF 1 0

DRI 0 1 MSI 0 0 KSW 0 0 PBUS 15 0 SBUS 15 1 SITE 0 0 RTF 1 1

RTF 2 0 RTF 2 1 MMI0118MMI-RAM 0118->disp_eq 5 dhp 15 0 Cage location of the DHP(identifier 1):15 Unique DHP identifier(identifier 2):0 Slot number:18 number:18 Number of DRIs this DHP can support:6 MMI0118MMI-RAM 0118->disp_eq 5 dhp 15 1 Cage location of the DHP(identifier 1):15 Unique DHP identifier(identifier 2):1 Slot number:19 Number of DRIs this DHP can support:6 MMI0118MMI-RAM 0118->disp_eq 5 btp 0 0 identifier:0 BTP identifier:0 Cage number:15 Slot number:20 Number of DRIs this BTP can support:3 MMI0118MMI-RAM 0118->disp_eq 5 msi 0 0 MSI identifier:0 Cage number:15 Slot number:16 MSI type:MSI MMI-RAM 0118->disp_eq 5 mms 0 0 MMI0118MSI identifier:0 MMS identifier:0 NThe N-bit value for this device is:0 The BER OOS monitor period for this device is:1 The BER restoral monitor period for this device is:6000 The Priority rating is:255 The Lock Duration for this device(in seconds)is:0

25

MMI0118MMI-RAM 0118->disp_eq 5 mms 0 1 MSI identifier:0 MMS identifier:1 NThe N-bit value for this device is:0 The BER OOS monitor period for this device is:1 The BER restoral monitor period for this device is:6000 The Priority rating is:0 The Lock Duration for this device(in seconds)is:0 MMI0118->disp_eq MMI-RAM 0118->disp_eq 5 rsl 0 0 1st device ID for the RSL:0 2st device ID for the RSL:0 LAPD T200 Timer value for this device is:2500 LAPD N200 value for this device is:3 LAPD K value for this device is:7 MMI0118MMI-RAM 0118->disp_eq 5 gclk 0 0 GCLK:0 Device identifier for the GCLK:0 Cage number:15 Slot number:5 CLKX 0(slot U7) present:NO CLKX 1(slot U6) present:NO CLKX 2(slot U5) present:NO MMI0118MMI-RAM 0118->disp_eq 5 ksw 0 0 Portion of TDM Highway Managed(identifier 1):0 TDM Identifier(identifier 2):0 Cage number:15 number:27 Slot number:27 MMI0118MMI-RAM 0118->disp_eq 5 cage 15 0 Identifier for the CAGE:15 KSW pair that manges the CAGE:0 KSWX connecting cage to KSW for TDM 0:0 KSWX connecting cage to KSW for TDM 1:0 Cabinet to which the cage belongs:15 IAS Connected:YES MMI0118->disp_eq MMI-RAM 0118->disp_eq 5 ksw 0 0 Portion of TDM Highway Managed(identifier 1):0 TDM Identifier(identifier 2):0 Cage number:15 Slot number:27

26

DRIs allowed on highway managed by this KSW?:YES MMI0118MMI-RAM 0118->disp_eq 5 cab 15 0 CABINET identifier:15 Cabinet type:BTS_DAB Frequency Type:PGSM[1] MMI0118MMI-RAM 0118->disp_eq 5 site 0 0 SITE identifier:0 MMI-RAM 0118->disp_eq 5 path 0 0 MMI0118Terminating SITE id is:0 The Unque PATH Identifier is:0 BSC MMS identifiers:1 1 SITE identifier:5 Upstream MMS identifiers:0 0 MMI-RAM 0118->disp_eq 5 rtf 0 0 MMI0118Type of carrier:BCCH RTF identifier:0 0 Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5666 1131 Carrier absolute radio freq. Channel:103 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:5 5 5 5 5 5 5 5 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0118MMI-RAM 0118->disp_eq 5 rtf 0 1 Type of carrier:NON_BCCH RTF identifier:0 1 Primary Unique PATH id GSM cell to which this Carrier absolute radio is:0 is:0 carrier is assigned:460 01 5666 1131 freq. Channel:105

Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:5 5 5 5 5 5 5 5 carrier:0 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0118MMI-RAM 0118->disp_eq 5 rtf 1 0

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Type of carrier:BCCH RTF identifier:1 0 Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5666 1132 freq. Carrier absolute radio freq. Channel:123 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:5 5 5 5 5 5 5 5 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0118->disp_eq MMI-RAM 0118->disp_eq 5 rtf 1 1 Type of carrier:NON_BCCH RTF identifier:1 1 Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5666 1132 Carrier absolute radio freq. Channel:121 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 255 Carrier training sequence codes:5 5 5 5 5 5 5 5 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0118MMI-RAM 0118->disp_eq 5 rtf 2 0 Type of carrier:BCCH RTF identifier:2 0 is:0 Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5666 1133 Carrier absolute radio freq. Channel:115 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:5 5 5 5 5 5 5 5 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0118MMI-RAM 0118->disp_eq 5 rtf 2 1 Type of carrier:NON_BCCH RTF identifier:2 1

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Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5666 1133 radio Carrier absolute radio freq. Channel:113 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:5 5 5 5 5 5 5 5 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0118MMI-RAM 0118->disp_eq 5 dri 0 0 DRI identifier:0 0 Cabinet identifier:15 DRI board type:DRIM Cage number:15 Slot number:7 TRU identifier:None RTF identifier: GSM cell ID where the DRI appears:460 01 5666 1131 Antenna select number for this cell:1 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 MMI0118MMI-RAM 0118->disp_eq 5 dri 0 1 DRI identifier:0 1 Cabinet identifier:15 DRI board type:DRIM Cage number:15 Slot number:9 TRU identifier:None RTF identifier: GSM cell ID where the DRI appears:460 01 5666 1131 Antenna select number for this cell:1 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 MMI0118MMI-RAM 0118->disp_eq 5 dri 1 0

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DRI identifier:1 0 identifier:15 Cabinet identifier:15 DRI board type:DRIM Cage number:15 Slot number:11 TRU identifier:None RTF identifier: GSM cell ID where the DRI appears:460 01 5666 1132 Antenna select number for this cell:2 COMB id: Cavity number for this COMB: this The diversity flag for this DRI is:1 The fm cell type is:4 MMI-RAM 0118->disp_eq 5 dri 1 1 MMI0118DRI identifier:1 1 Cabinet identifier:15 DRI board type:DRIM Cage number:15 Slot number:13 TRU identifier:None RTF identifier: GSM cell ID where the DRI appears:460 01 5666 1132 Antenna select number for this cell:2 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 MMI0118MMI-RAM 0118->disp_eq 5 dri 2 0 DRI identifier:2 0 Cabinet identifier:15 DRI board type:DRIM Cage number:15 Slot number:15 TRU identifier:None RTF identifier: GSM cell ID where the DRI appears:460 01 5666 1133 Antenna select number for this cell:3 COMB id:

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Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 MMI0118->disp_eq MMI-RAM 0118->disp_eq 5 dri 2 1 DRI identifier:2 1 Cabinet identifier:15 DRI board type:DRIM Cage number:15 Slot number:17 TRU identifier:None RTF identifier: GSM cell ID where the DRI appears:460 01 5666 1133 Antenna select number for this cell:3 COMB id: Cavity Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 龙口(烟台) Incell 3/3 116 龙口(烟台) 3. 配置: 配置: DHP 15 0 DHP 15 1 CSFP 0 0 DRI 0 2 DRI 0 1 DRI 1 0 MSI 0 0 MMS 0 0 MMS 0 1 GCLK 1 0 KSW 0 0 KSW 0 1 LAN 0 0 CBUS 15 1 CAGE 15 0 RTF 0 1 LAN 1 0 SBUS 15 0 CAB 15 0 RTF 0 2 PBUS 15 0 SBUS 15 1 SITE 0 0 RTF 1 0

BTP 1 0 DRI 1 1 RSL 0 0 TDM 0 0 PBUS 15 1 TBUS 15 0 PATH 0 0 RTF 1 1

DRI 0 0 DRI 1 2 GCLK 0 0 TDM 1 0 CBUS 15 0 TBUS 15 1 RTF 0 0 RTF 1 2

MMI0215MMI-RAM 0215->disp_eq 26 dhp 15 0 location Cage location of the DHP(identifier 1):15 Unique DHP identifier(identifier 2):0 Slot number:18 Number of DRIs this DHP can support:6 MMI0215MMI-RAM 0215->disp_eq 26 dhp 15 1 Cage location of the DHP(identifier 1):15 Unique DHP identifier(identifier 2):1 number:19 Slot number:19 Number of DRIs this DHP can support:6 MMI0215MMI-RAM 0215->disp_eq 26 csfp 0 0

31

CSFP identifier:0 Cage number:15 Slot number:20 CSFP creation method:Configre_csfp CSFP acquired from device type:BTP CSFP acquired from device ID:0 0 0 MMI0215MMI-RAM 0215->disp_eq 26 btp 1 0 BTPidentifier:1 Cage number:15 Slot number:24 Number of DRIs this BTP can support:3 MMI0215MMI-RAM 0215->disp_eq 26 msi 0 0 MSI identifier:0 Cage number:15 Slot number:16 MSI type:MSI MMI0215MMI-RAM 0215->disp_eq 26 mms 0 0 MSI identifier:0 identifier:0 MMS identifier:0 NThe N-bit value for this device is:0 The BER OOS monitor period for this device is:1 The BER restoral monitor period for this device is:6000 The Priority rating is:255 The Lock Duration for this device(in seconds)is:0 MMI021526 MMI-RAM 0215->disp_eq 26 mms 0 1 MSI identifier:0 MMS identifier:1 NThe N-bit value for this device is:0 The BER OOS monitor period for this device is:1 The BER restoral monitor period for this device is:6000 The Priority rating is:0 seconds)is:0 The Lock Duration for this device(in seconds)is:0 MMI0215MMI-RAM 0215->disp_eq 26 rsl 0 0 1st device ID for the RSL:0 2st device ID for the RSL:0 The Unique PATH Identifier is:0 LAPD T200 Timer value for this device is:2500 LAPD N200 value for this device is:3

32

LAPD K value for this device is:7 MMI-RAM 0215->disp_eq 26 cage 15 0 MI0215Identifier for the CAGE:15 KSW pair that manges the CAGE:0 KSWX connecting cage to KSW for TDM 0:0 KSWX connecting cage to KSW for TDM 1:0 Cabinet to which the cage belongs:15 IAS Connected:YES MMI0215MMI-RAM 0215->disp_eq 26 gclk 0 0 Device identifier for the GCLK:0 Cage number:15 Slot number:5 CLKX 0(slot U7)present:NO CLKX 1(slot U6)present:NO CLKX 2(slot U5)present:NO MMI0215MMI-RAM 0215->disp_eq 26 gclk 1 0 Device identifier for the GCLK:1 Cage number:15 Slot number:3 CLKX 0(slot U4)present:NO CLKX 1(slot U3)present:NO CLKX 2(slot U2)present:NO MMI0215MMI-RAM 0215->disp_eq 26 ksw 0 0 Portion of TDM Highway Managed(identifier 1):0 TDM Identifier(identifier 2):0 Cage number:15 Slot number:27 Managed DRIs allowed on highway Managed by this KSW?:YES MMI0215MMI-RAM 0215->disp_eq 26 ksw 0 1 Portion of TDM Highway Managed(identifier 1):0 TDM Identifier(identifier 2):1 Cage number:15 Slot number:1 DRIs allowed on highway Managed by this KSW?:YES MMI0215MMI-RAM 0215->disp_eq 26 cab 15 0 CABINET CABINET identifiter:15 Cabinet type:BTS_DAB Frequency Type:PGSM[1]

33

MMI0215MMI-RAM 0215->disp_eq 26 site 0 0 SITE identifier:0 MMI0215MMI-RAM 0215->disp_eq 26 path 0 0 Terminating SITE id is:0 The Unique PATH Identifier is:0 BSC MMS identifiter:17 0 SITE identifiter:26 Upstream MMS identifiters:0 0 MMI0215MMI-RAM 0215->disp_eq 26 cage 15 0 Identifier for the CAGE:15 KSW pair that manages the CAGE:0 KSWX connecting cage KSWX connecting cage Cabinet to which the Connected:YES IAS Connected:YES to KSW for TDM 0:0 to KSW for TDM 1:0 cage belongs:15

MMI0215MMI-RAM 0215->disp_eq 26 rtf 0 0 Type of carrier:BCCH RTF identifiter:0 0 Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5667 1161 Carrier absolute radio freq. channel:105 indicators:255 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:2 2 2 2 2 2 2 2 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0215MMI-RAM 0215->disp_eq 26 rtf 0 1 Type of carrier:NON_BCCH RTF identifiter:0 1 Primary Unique PATH id GSM cell to which this Carrier absolute radio is:0 carrier is assigned:460 01 5667 1161 freq. channel:117

Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:2 2 2 2 2 2 2 2 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0

34

Channel allocation priority:0 MMI0215MMI-RAM 0215->disp_eq 26 rtf 0 2 Type of carrier:NON_BCCH RTF identifiter:0 2 Primary Unique PATH id is:0 carrier GSM cell to which this carrier is assigned:460 01 5667 1161 Carrier absolute radio freq. channel:124 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:2 2 2 2 2 2 2 2 KSW pair that manages this carrier:0 SDCCH load:2 placement SDCCH placement priority:0 Channel allocation priority:0 MMI-RAM 0215->disp_eq 26 rtf 1 0 MMI0215Type of carrier:BCCH RTF identifiter:1 0 Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5667 1162 channel:103 Carrier absolute radio freq. channel:103 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:2 2 2 2 2 2 2 2 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0215MMI-RAM 0215->disp_eq 26 rtf 1 1 Type of carrier:NON_BCCH RTF identifiter:1 1 Primary Unique PATH id GSM cell to which this Carrier absolute radio is:0 carrier is assigned:460 01 5667 1162 freq. channel:110

Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:2 2 2 2 2 2 2 2 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0215MMI-RAM 0215->disp_eq 26 rtf 1 2

35

Type of carrier:NON_BCCH RTF identifiter:1 2 Primary Unique PATH id is:0 GSM cell to which this carrier is assigned:460 01 5667 1162 Carrier absolute radio freq. channel:119 Carrier frequency hopping indicators:255 255 255 255 255 255 255 255 Carrier training sequence codes:2 2 2 2 2 2 2 2 KSW pair that manages this carrier:0 SDCCH load:2 SDCCH placement priority:0 Channel allocation priority:0 MMI0215MMI-RAM 0215->disp_eq 26 dri 0 0 DRI identifiter:0 0 Cabinet identifiter:15 DRI board type:DRIM Cage number:15 Slot number:7 TRU identifiter:NONE identifiter: RTF identifiter: GSM cell ID where the DRI appears:460 01 5667 1161 Antenna select number for this cell:1 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 MMI0215MMI-RAM 0215->disp_eq 26 dri 0 1 DRI identifiter:0 1 Cabinet Cabinet identifiter:15 DRI board type:DRIM Cage number:15 Slot number:9 TRU identifiter:NONE RTF identifiter: GSM cell ID where the DRI appears:460 01 5667 1161 Antenna select number for this cell:1 COMB id: Cavity number for this COMB: flag The diversity flag for this DRI is:1

36

The fm cell type is:4 MMI0215MMI-RAM 0215->disp_eq 26 dri 0 2 DRI identifiter:0 2 Cabinet identifiter:15 DRI board type:DRIM Cage number:15 Slot number:11 TRU identifiter:NONE RTF identifiter: 01 GSM cell ID where the DRI appears:460 01 5667 1161 Antenna select number for this cell:1 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 MMI0215MMI-RAM 0215->disp_eq 26 dri 1 0 DRI identifiter:1 0 Cabinet identifiter:15 DRI board type:DRIM Cage number:15 Slot number:13 TRU identifiter:NONE RTF identifiter: GSM cell ID where the DRI appears:460 01 5667 1162 Antenna select number for this cell:2 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 is:4 The fm cell type is:4 MMI0215MMI-RAM 0215->disp_eq 26 dri 1 1 DRI identifiter:1 1 Cabinet identifiter:15 DRI board type:DRIM Cage number:15 Slot number:15 TRU identifiter:NONE RTF identifiter: GSM cell ID where the DRI appears:460 01 5667 1162

37

this Antenna select number for this cell:2 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 MMI0215MMI-RAM 0215->disp_eq 26 dri 1 2 DRI identifiter:1 2 Cabinet identifiter:15 DRI board type:DRIM Cage number:15 Slot number:17 identifiter:NONE TRU identifiter:NONE RTF identifiter: GSM cell ID where the DRI appears:460 01 5667 1162 Antenna select number for this cell:2 COMB id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 4.HORIZON CAB 和 DRI 配置 HORIZON 3/3/3 FOX=0 FMUX0=1

定义 CAB 14 0 的数据为

14 19 1 0: DRI 0 0: DRI identifier:0 0 Cabinet identifier:15 Type of connection to the BTP:FOX Port to which the carrier is connected:0 RTF identifier: 01 GSM cell ID where the DRI appears:460 01 5681 40581 Antenna select number for this cell:2 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 1: DRI 0 1: DRI identifier:0 1 Cabinet identifier:15 Type of connection to the BTP:FOX to Port to which the carrier is connected:1 RTF identifier:

38

GSM cell ID where the DRI appears:460 01 5681 40581 Antenna select number for this cell:2 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 DRI 2: DRI 0 2: DRI identifier:0 2 Cabinet identifier:15 Type of connection to the BTP:FOX Port to which the carrier is connected:2 RTF identifier: GSM cell ID where the DRI appears:460 01 5681 40581 Antenna select number for this cell:2 Comb id: Cavity Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 0: DRI 1 0: DRI identifier:1 0 Cabinet identifier:15 Type of connection to the BTP:FOX Port to which the carrier is connected:4 RTF identifier: where GSM cell ID where the DRI appears:460 01 5681 40582 Antenna select number for this cell:1 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 1: DRI 1 1: DRI identifier:1 1 Cabinet identifier:15 Type of connection to the BTP:FOX connection Port to which the carrier is connected:5 RTF identifier: GSM cell ID where the DRI appears:460 01 5681 40582 Antenna select number for this cell:1 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1

39

The fm cell type is:4 2: DRI 1 2: DRI identifier:1 2 Cabinet identifier:14 Type of connection to the BTP:FMUX0 Port to which the carrier is connected:0 RTF identifier: GSM cell ID where the DRI appears:460 01 5681 40582 Antenna select number for this cell:1 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 0: DRI 2 0: DRI identifier:2 0 Cabinet identifier:14 Type of connection to the BTP:FMUX0 Port to which the carrier is connected:2 RTF identifier: GSM cell ID where the DRI appears:460 01 5681 40583 Antenna select number for this cell:3 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 1: DRI 2 1: DRI identifier:2 1 identifier:14 Cabinet identifier:14 Type of connection to the BTP:FMUX0 Port to which the carrier is connected:3 RTF identifier: GSM cell ID where the DRI appears:460 01 5681 40583 Antenna select number for this cell:3 Comb id: Cavity number for this COMB: diversity The diversity flag for this DRI is:1 The fm cell type is:4 2: DRI 2 2: DRI identifier:2 2 Cabinet identifier:14 Type of connection to the BTP:FMUX0 Port to which the carrier is connected:4

40

RTF identifier: 40583 GSM cell ID where the DRI appears:460 01 5681 40583 Antenna select number for this cell:3 Comb id: Cavity number for this COMB: The diversity flag for this DRI is:1 The fm cell type is:4 二十七 报警箱接线

1.PIX INPUTS(37 pin connecter code assignment Krone IDF 1.PIX ALARM INPUTS( termination) Alarm No. 1 2 3 4 5 6 7 8 Pin No. 1 20 2 21 3 22 4 23 5 24 6 25 7 26 8 27 Colour Code White/Blue Slate/Red Blue/White Black/White White/Orange Blue/Black Orange/White Black/Orange White/Green White/Green Orange/Black Green/White Black/Green White/Brown Green/Black Brown/White Black/Bown Krone 1-1 1-1 1-2 1-2 1-3 1-3 1-4 1-4 1-5 1-5 1-6 1-6 1-7 1-7 1-8 1-8 Position LHS RHS LHS RHS LHS RHS LHS RHS LHS RHS LHS RHS LHS RHS LHS RHS Rem ark

1.

PIX RELAY OUTPUTS Relay Pin Colour Code Krone Positio Remark

41

No. 1

No. 11 29 30 Red/Blue Black/Slate Slate/Black Blue/Red Red/Orange Yellow/Blue Orange/Red Blue/Yellow Yellow/Orange Yellow/Orange Red/Green Green/Red Orange/Yellow 2-1 2-1 2-2 2-3 2-3 2-4 2-5 2-5 2-6 2-7 2-7 2-8

n LHS RHS LHS LHS RHS LHS LHS RHS LHS LHS RHS LHS N/O N/C Common N/O N/C Common N/O N/C Common N/O N/C Common

2

12 13 31

3

14 32 33

4

15 16 34

二十八 alt_qual_proc = 0 attach_detach = 1 auto_rf_loss_trace = 0

Cell Parameters List (Full) of ChengDu System

ba_alloc+proc = 1 band_preference = PGSM[1] band_preference_mode = 0 bounce_protect_cong_tmr = 0 bounce_protect_margin = 0 bounce_protect_qual_tmr = 0 bs_ag_blks_res = 1 bs_pa_mfrms = 1 for BSC1~11;3 for BSC12~99 bsic = 45 bts_p_con_ack = 1 bts_p_con_interval = 2 bts_power_control_allowed = 1 cbch_enabled = 0 ccch_conf = 0 or 2 for alol macro sites;1 for all micro-cells cch_load_period = 5 cell_bar_access_class = 0000h cell_bar_access_switch = 0
42

cell_bar_qualify = 0 cell_reselect_hysteresis = 4 cell_reselect_offset = 0 cell_reselect_param_ind = 0 channel_reconfiguration_switch = 1 data_qual_enabled = 0 dealloc_inact = 10000 decision_l_dl_rxlev_av_h = 0 decision_l_dl_rxlev_av_ih = 0 decision_l_dl_rxlev_av_p = 0 decision_l_dl_rxqual_av_h = 0 decision_l_dl_raqual_av_p = 0 decision_l_n1 = 1 decision_l_n2 = 1 decision_l_n3 = 1 decision_l_n4 = 1 decision_l_n5 = 2 decision_l_n6 = 2 decision_l_n7 = 2 decision_l_n8 = 2 decision_l_ncell_rxlev_av_h_calc = 0 decision_l_p1 = 1 decision_l_p2 = 1 decision_l_p3 = 1 decision_l_p4 = 1 decision_l_p5 = 2 decision_l_p6 = 2 decision_l_p7 = 2 decision_l_p8 = 2 decision_l_p_bgt_rxlev_av_h = 0 decision_l_tim_adv_av_alg = 0 decision_l_ul_rxlev_av_h = 0 decision_l_ul_rxlev_av_ih = 0 decision_l_ul_rxlev_av_p = 0 decision_l_ul_rxqual_av_h = 0 decision_l_ul_rxqual_av_p = 0 decision_alg_num = 1 direct_inner_zone_threshold = 63

43

dl_rxlev_ho_allowed = 0 dl_rxqual_ho_allowed = 0 dr_ho_during_assign = 0 dr_standard_congest = 1 dtx_required = 0 egsm_handover_threshold = 0 emergency_class_switch = 0 en_incom_ho = 1 ext_range_cell = 0 extended_paging_active = 1 flow_control_t1 = 2000 flow_control_t2 = 3000 frequency_type = PGSM[1] full_pwr_rfloss = 1 gsm_cell_id = 460 00 33053(811Dh) 312(0138h) handover_power_level = 5 handover_recongnized_period = 12 ho_ack = 10000 ho_exist_congest = 0 ho_margin_def = 5 ho_margin_usage_flag = 0 hop_count = 255 hop_count_timer = 0 hop_qual_enabled = 0 hopping_support = 1 immediate_assign_mode = 0 inner_zone_alg = 0 intave = 8 inter_cell_handover_allowed = 1 interbaand_ho_allowed = 1 intra_cell_handover_allowed = 1 l_rxlev_dl_h = 10 l_rxlev_dl_p = 30 l_rxlev_ul_h = 10 l_rxlev_ul_p = 25 l_rxqual_dl_h = 452 l_rxqual_dl_h_data = 0 l_rxqual_dl_h_hopping = 0

44

l_rxqual_dl_p = 113 l_rxqual_dl_p_data = 0 l_rxqual_dl_p_hopping = 0 l_rxqual_ul_h = 700 l_rxqual_ul_h_data = 0 l_rxqual_ul_h_hopping = 0 l_rxqual_ul_p = 113 l_rxqual_ul_p_data = 0 l_rxqual_ul_p_hopping = 0 layer_number = 0 link_about_to_fail = 2 link_fail = 3 max_number_of_sdcchs = 24 for non-combine mode;20 for combine mode max_q_length_full_rate_channel = 2 max_q_length_immediate_assignments = 1 max_q_length_sdcch = 1 max_retran = 3 max_tx_bts = 0 max_tx_ms = 33 missing_rpt = 0 ms_distance_allowed = 0 ms_max_range = 20 ms_p_con_ack = 1 ms_p_con_interval = 2 ms_power_control_allowed = 1 ms_power_offset = 0 ms_txpwr_max_cch = 5 ms_txpwr_max_def = 33 ms_txpwr_max_inner = 5 msc_preference = 0 mspwr_alg = 1 multiband_reporting = 0 ncc_of_plmn_allowed = ‘32’ for NCC=5;’48’for NCC=4 and 5 ncell_proc = 0 neighbor_report_timer = 10 number_of_preferrred_cells = 6 number_sdcchs_preferred = ‘8’ for 2 carriers cells;’16’ for more than 2 carriers cells;’4’ for

45

combine mode cells outer_zone_usage_level = 0 penalty_time = 0 pow_inc_step_size = 6 pow_red_step_size = 2 prioritize_microcell = 1 pwr_handover_allowed = 1 pwrc = 1 queue_management_information = 3 rach_load_period = 5 rach_load_threshold = 1000 radio_link_timeout = 3 rapid_pwr_down = 1 reestablish_allowed = 1 report_resource_tch_f_high_water_mark = 2 report_resource_tch_f_low_water_mark = 12 rf_chan_rel_ack = 10000 rpd_offset = 8 rpd_period = 2 rpd_trigger = 45 rr_nyl_rep = 20 rr_t3101 = 2000 rr_t3103 = 5000 rr_t3105 = 60 rr_t3109 = 12000 rr_t3111 = 2000 rr_t3212 =’20’ for downtown cells;’10’ for sub-urban cells rxlev_access_min = 5 rxlev_dl_zone = 63 rxlev_min_def = 5 rxlev_ul_zone = 63 sdcch_no = 1 sdcch_need_high_water_mark =’2’ for non-combine mode cells;’1’ for combine mode cells sdcch_need_low_water_mark =’12’ for non-combine mode cells;’10’for combine mode cells sdcch_timer_ho = 1 tch_congest_prevent_thres = 0

46

tch_flow_control = 1 tch_full_need_low_water_mark = 2 temporary_offset = 0 threshold = 7 timing_advance_period = 6 tx_interger = 12 tx_power_cap = 0 u_rxlev_dl_ih = 40 u_rxlev_dl_p = 40 u_rxlev_ul_ih = 35 u_rxlev_ul_p = 35 u_rxqual_dl_h = 0 u_rxqual_dl_p = 30 u_rxqual_ul_h = 0 u_rxqual_ul_p = 30 ul_rxlev_ho_allowed = 0 ul_rxqual_ho_allowed = 1 use_derived_ho_power = 0 use_neighbor_pbgt_hreqave = 0 valid_candidate_period = 4000 wait_indication_parameters = 15 zone_ho_hyst = 0 hopping_systems_enabled[0] = 1 hopping_systems_enabled[1] = 0 hopping_systems_enabled[2] = 0 hopping_systems_enabled[3] = 0 hopping_systems_hsn[0] = 1 hopping_systems_hsn[1] = 0 hopping_systems_hsn[2] = 0 hopping_systems_hsn[3] = 0 hopping_systems_mobile_alloc[0] = 52 76 hopping_systems_mobile_alloc[1] = hopping_systems_mobile_alloc[2] = hopping_systems_mobile_alloc[3] = interfer_bands[0] = 0 interfer_bands[1] = 15 interfer_bands[2] = 21 interfer_bands[2] = 27

47

interfer_bands[2] = 40 rel_tim_adv[0] = alg_num:0 alg_data:4 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rel_tim_adv[1] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rel_tim_adv[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rel_tim_adv[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_ho[0] = alg_num:0 alg_data:3 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_ho[1] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_ho[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_ho[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[0] = alg_num:0 alg_data:3 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[1] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[0] =

48

alg_num:0 alg_data:3 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[1] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_pc[0] = alg_num:0 alg_data:3 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_pc[1] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_pc[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_pc[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxqual_dl_ho[0] = alg_num:0 alg_data:4 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxqual_dl_ho[1] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxqual_dl_ho[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxqual_dl_ho[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxqual_dl_pc[0] = alg_num:0 alg_data:3 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

49

rxqual_dl_pc[1] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxqual_dl_pc[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxqual_dl_pc[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[0] = alg_num:0 alg_data:4 2 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[1] = alg_num:255 alg_data:4 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[2] = alg_num:255 alg_data:4 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_ul_ho[3] = alg_num:255 alg_data:4 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[0] = alg_num:0 alg_data:3 2 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[1] = alg_num:255 alg_data:4 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[2] = alg_num:255 alg_data:4 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 rxlev_dl_pc[3] = alg_num:255 alg_data:4 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 surround_cell[0] = alg_num:0 alg_data:4 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 surround_cell[1] =

50

alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 surround_cell[2] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 surround_cell[3] = alg_num:255 alg_data:4 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 Database Parameters Vs Statistics Parameters poor_initial_assi gnment ms_max_range Channel_reconfigu ration_switch Queue_management_ inf ormation Tch_flow_control Statistics inv_est_cause_on_rach ok_acc_proc_suc_rach Results inv_est_cause_on_rach reduced ok_acc_proc_suc_rach maintained Alloc_sdcch_fail Total_call Alloc_tch_fail Total_call Sdcch_congestion reduced Call_setup_suc_rate increase Tch_congestion reduced Total_call maintained Tch_traffic maintained Dr_preference Dr_standard_conge st Bs_pa_mfrms Extended_paging_a ctive Ul_rxqual_ho_allo wed Dl_rxqual_ho_allo wed Congest_assign_ho_suc Congest_stand_ho_atmp t Pch_agch_q_length_max Pch_agch_q_length_mea n Pch_q_page_discard Out_ho_cause_atmpt_up link_quality_downlink quality Ratio of the quality handover should be as less as possible,about 1/10 of the total handover attempt Congest_assign_ho_suc = Congest_stand_ho_atmp t Pch_q_page_discard = 0

51

Rr_t3212

Ok_acc_proc_location_ update Alloc_sdcch Alloc_sdcch_fail

Sdcch_traffic increase Sdcch-congestio maintained

三十

从 OMC Code_loading

无论 BSC 或 XCDR 都是按照设计文件,OMC 直接连接到 BSC(或 XCDR)的 MMS 0 0 口,用 PC 接 BSC(或 XCDR)CAGE0 的 GPROC0 GPROC0,进入 level 3,ctrl+n 进入 emon CAGE0 状态,用 CHG_DTE 命令修改该 BSC(或 XCDR)的 DTE 地址为你将要下在数据的 BSC(或 XCDR)的 DTE 地址,则自动下载数据.

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