BSC-ZTE

Presentation for Qualification

Achievement Probation Period

ZTE Indonesia Mid Plaza 2 15th floor

By

Rudy Kusuma Setiadi

Ass Maintenance Engineer

Main Job During Probation

My first duty in Lampung with Mr. Luo Li Tao

Try to debug BSC in Lampung

Hardware & Cabling of BSC Installation

BSC Software Installation

Debugging BSC

Contents

Rack 1

Shelf 1 (BUSN)

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

DTB DTB IWFB IWFB IWFB IWFB IWFB IWFB UIMU UIMU IWFB VTCD VTCD VTCD SPB SDU SDU

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

RUIM1 RUIM1 RGIM2

Front plug

Rear plug

CABLING OF RACK 1

Shelf 1 (L3 - BUSN)

L3-10 (RUIM1)-FE-

C1/2 from L4-15

(RCHB1)-FE 17-24

L3-9 (RUIM1)-FE-

C1/2 from L4-15

(RCHB1)-FE 17-24

L3-10 (RUIM1)-

CLKIN from L4-13

(RCKG1)-CLKOUT

L3-9 (RUIM1)-

CLKIN from L4-13

(RCKG1)-

CLKOUT

L3-1(RDTB)-

8KOUT/DEBUG-232

from L4-13(RCKG1)-

8KIN1

L3-1 (RDTB)-T1/E1

1-10 from DDF

L3-2 (RDTB)-T1/E1

11-21 from DDF

L3-2 (RDTB)-T1/E1

22-32 from DDF

L3-1 (RDTB)-T1/E1

11-21 from DDF

L3-1 (RDTB)-T1/E1

22-32 from DDF

L3-2 (RDTB)-T1/E1

1-10 from DDF

Rack 1 Shelf 1 (BUSN)

Rack 1

Shelf 2 (BCTC) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

MP MP MP MP MP MP UIMC UIMC OMP OMP CLKG CLKG CHUB CHUB

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

RUIM2 RUIM3 RMPB RMPB RCKG1 RCKG2 RCHB1 RCHB2

Front plug

Rear plug

CABLING OF RACK 1

Shelf 2 (L4-BCTC) L4-15(RCHB1)-FE17-24 from :

1.L3-10(RUIM1)-FE-C1/2

2.L3-9(RUIM1)-FE-C1/2

3.L6-9(RUIM1)-FE-C1/2

4.L6-10(RUIM1)-FE-C1/2

L4-14(RCKG2)-PP2S/16CHIP from L7

GCMCLK0(GCMLK1)

L4-13(RCKG1)-CLKOUT from :

1.L4-10(RUIM3)-CLKIN

2.L4-9(RUIM2)-CLKIN

3.L3-9(RUIM1)-CLKIN


5.L6-9(RUIM1)-CLKIN


CABLING OF RACK 1

Shelf 2 (L4-BCTC)

L4-14(RCKG2)-CLKOUT from

(Cabinet 2) :

1. L3-10(RUIM1)-CLKIN




L4-12(RMPB)-OMC2 from

switch port 3 (vlan2)

L4-11(RMPB)-OMC2 from


L4-9(RUIM2)-FE7

from switch port 5

(vlan2)

L4-15(RCHB1)-FE 9-16 from (Cabinet

2):

1.L3-10(RUIM1)-FE-C1/2

2.L3-9(RUIM1)-FE-C1/2

3.L4-16(RUIM3)-FE-2

4.L4-15(RUIM2)-FE-1

CABLING OF RACK 1

Shelf 2 (L4-BCTC) L4-13(RCKG1)-8KIN1 from L3-

1(RDTB)-8KOUT/DEBUG-232

L4-13(RCKG1)-8KIN2 from L7-

GCM8K

L4-11(RMPB)-GPS485 from L7-GCM

RS485

L4-11(RMPB)-PD485 from L1- RS485

L4-10(RUIM3)-CLKIN from L4-

13(RCKG1)-CLKOUT


13(RCKG1)-CLKOUT

Rack 1 Shelf 2 (BCTC)

Rack 1

Shelf 3 (L6-BUSN) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

DTB IPCFE IPCFE UPCF UPCF ABPM ABPM UIMU UIMU SDU SDU SDU

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

RDTB RMNIC RMNIC RMNIC RUIM1 RUIM1

Front plug

Rear plug

CABLING OF RACK 1

Shelf 3 (L6-BUSN) L6-10(RUIM1)-FE-C1/2 from L4-

15(RCHB1)-FE17-24

L6-9(RUIM1)-FE-C1/2 from L4-

15(RCHB1)-FE17-24


13(RCHB1)-FE17-24


13(RCHB1)-FE17-24

L6-4(RMNIC)-FE1 from SWITCH

PORT 13 (vlan3)


PORT 14 (vlan3)


PORT 21 (vlan4) L6-3(RMNIC)-FE2 from SWITCH

PORT 22 (vlan4)

CABLING OF RACK 1

Shelf 3 (L6-BUSN)

L6-1 (RDTB)-T1/E1 1-10 from DDF



Rack 1

Shelf 4 (L7-BGCM)

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

GCM GCM

CABLING OF RACK 1

Shelf 4 (L7-BGCM)

L7-GCM-RS485 from L4-11(RMPB)-GPS485

L7-GCM CLK0 GCM CLK1 from L4-14

(RCKG2)-PP2S/16CHIP

L7-GPSSANTA/A from GPS 1/B

L7-GPSSANTB/A from GPS 2/B

L7(GCM)-GCM8K from L4-13(RCKG1)-8KIN2

Rack 1 Shelf 4 (BGCM)

Rack 2

Shelf 1 (BUSN) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

DTB IWFB IWFB IWFB IWFB IWFB IWFB IWFB UIMU UIMU VTCD IWFB SPB SDU

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

RDTB RUIM1 RUIM1

Front plug

Rear plug

CABLING OF RACK 2

Shelf 1 (L3-BUSN) L3-10(RUIM1)-FE-C1/2

from L4-15(RCHB1)-FE9-

16 (Cabinet 1)

L3-9(RUIM1)-FE-C1/2 from

L4-15(RCHB1)-FE9-16

(cabinet 1)

L3-10(RUIM1)-CLKIN from

L4-14(RCKG2)-CLKOUT


L4-14(RCKG2)-CLKOUT

L3-1 (RDTB)-T1/E1

1-10 from DDF L3-1 (RDTB)-T1/E1

11-21 from DDF

L3-1 (RDTB)-T1/E1

22-32 from DDF

RACK 2

Shelf 2 (BPSN) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

GLIQV GLIQV PSN4V PSN4V UIMC UIMC

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17

RPSN RUIM2 RUIM3

Front plug

Rear plug

CABLING OF RACK 2

Shelf 2 (L4-BPSN) L4-16(RUIM3)-FE2 from

L4-15(RCHB1)-FE 9-16

(Cabinet 1)

L4-15(RUIM2)-FE1 from

L4-15(RCHB1)-FE 9-16

(Cabinet 1)


L4-14(RCKG2)-CLKOUT


L4-14(RCKG2)-CLKOUT

L4-15(RUIM2)-FE7 from


RACK 2 SHELF 2 (BPSN)

SWITCH 2950 BSC SERVER

switch port 3 (vlan2) from L4-12(RMPB)-OMC2 (Cabinet 1)

switch port 4 (vlan2) from L4-11(RMPB)-OMC2 (Cabinet 1)

switch port 5 (vlan2) from L4-9(RUIM2)-FE7 (Cabinet 1)

SWITCH PORT 13 (vlan3) from L6-4(RMNIC)-FE1 (Cabinet 1)




switch port 6 (vlan2) from L4-15(RUIM2)-FE7 (Cabinet 2)

Switch port 24 (vlan1) from MGW server port 24

Swtich port 9 (vlan2) from BSC ALARM

Switch port 11 (vlan2) from client 1

Switch port 12 (vlan2) from client 2

Switch port 10 (vlan2) from CPU server 1

Switch port 15 (vlan3) from MPLS port 16 (PDSN)

Switch port 23 (vlan3) from router 2600

Switch port 19 (vlan4) from CPU server 2

3

4 6

5

10

9

12

11

14

13 15 19 21

22 23

24

Router 2600 BSC Server

Router 2600 from MPLS DCN port 17

Router 2600 from

switch 2950 port 23

OMP module use straight

Client switch use stright

Router switch use stright

Switch switch use cross

Alarm box switch use straight

Straight :

White orange, orange, white green,

blue, white blue, green, white

brown, brown

Remote

Fe0/0 Fe0/1

BSCB ROUTER MPLS MGW SWITCH

23 trunk

24 vlan 10

trunk

BSCB SWITCH

24 trunk 1 vlan 10

BSCB SERVER

1

OPTIC FIBER

OPTIC FIBER

BUSN 1 & 2 BUSN 3

BUSN 4 GLIQV

CLKG

X40 X47

Pin 1 & 2 had jumper.

It mean resistance 75 ohm

1 2 3

CLKG

X40 X47

Now Pin 2 & 3 had jumper.

It mean resistance 120 ohm

1 2 3

DTB

S1 S2 S3

S4

S6

S5

S12

S9 S7

S8 S10

S11

S1, S2, S3, S4,

S5, S6, S7, S8,

S9, S12 all 4

pin must off

S10, S11 all 4

pin must on

RDTB

All jumper must take off

TRIB ID, RACK ID & SHELF ID

CABINET 1 RACK 1,2,3

BEFORE AFTER BEFORE AFTER

1110

(Lampung ID)

0000 (Cabinet 1)

0000 (shelf 1)

1000 (shelf 2)

0100 (shelf 3)

TRIB ID, RACK ID & SHELF ID

CABINET 2 RACK 1 & 2

BEFORE AFTER BEFORE AFTER

1110

(Lampung ID)

1000 (Cabinet 2)

0000 (shelf 1)

1000 (shelf 2)

0100 (shelf 3)

Rack switcher

0001 (cabinet 2)

0000 (cabinet 1)

Node Switcher

Cabinet 2

3 & 4 jumper

7 & 8 jumper

Cabinet 1

1 & 2 jumper

9 & 10 jumper

Connection between cabinet 1 &

Cabinet 2

DDF ZTE

32 E1 1 DTB module had 32 E1 (10 11 11)

And BSC had 4 module

DTB

It means there are 128 E1

E1 from DTB module

CLIENT CONSOLE

1.Choose application. 2.Choose configuration management.

3.Right click OMMR_3G[100007][Bandar

Lampung] and choose add BSS

4.Choose for device id : 7 and device alias :

Bandar Lampung

5.Right click BSSB[7][Bandar Lampung] and

choose add BSC system

Module of Rack 1

1.Right click physical configuration and choose add ip rack. 2.Fill for rack :1 and rack type : ip rack

3.Right click IP Rack[1] and fill shelf : 1

and shelf type : BUSN shelf


and shelf type : BCTC shelf


and shelf type : BUSN shelf


and shelf type : GCM shelf

Configuration module of

rack 1 shelf 2

1.Right click shelf 2 port 9 (UIM) and choose add board then

choose for B type : BT_3G_UIM_2

2.Right click shelf 2 port 10 (UIM) and choose add board

then choose for B type : BT_3G_UIM_2

3.Right click shelf 2 port 11&12 (MPl2) and choose add

board then choose at MP board for B type : BT_3G_WPBCB

at MP board

4.Right click shelf 2 port 11 (MPl2) and choose configure

module type then fill module 1 for MT_3G_OMP and fill

module 2 for MT_3G_RPU

5.Right click shelf 2 port 13 & 14 (CLKG) and choose add

board then choose for B type : BT_3G_CLKG

6.Right click shelf 2 port 15 & 16 (CHUB) and choose add

board then choose for B type : BT_3G_CHUB

7.Right click shelf 2 port 1 & 2 (SPCFMP) and choose add

board then choose for Logic type : UT_3G_BSC_SPCF_MP

8Right click SPCFMP and choose config module type and

choose MT_3G_CMP_HRPD

9.Right click shelf 2 port 3 & 4 (MPl2) and choose add board

then choose at MP board for B type : BT_3G_WPBCB at

MP board


module type then fill module 3 for MT_3G_DSMP_HDMP

and fill module 4 for MT_3G_CMP_HDMP

11.Right click shelf 2 port 5 & 6 (MPl2) and choose add

board then choose at MP board for B type : BT_3G_WPBCB

at MP board


module type then fill module 3 for MT_3G_RMP and fill

module 4 for MT_3G_CMP_HDMP

13.Right click shelf 2 port 9 (UIM) and choose configure

MDM type then fill in all MDM type (call, hand off, HRPD

trnsmitt, paging respond, register)

15.Right click all module and choose config module / unit

relationship

Configuration of module rack 1

shelf 1

1.Right click port 9 & 10 and choose add board then choose UT_3G_UIM_T_GXS (Logic type) ; BT_3G_UIM_2 (B type)

2.Right click port 1 & 2 and choose add board then choose UT_3G_DTB (Logic type)

3.Right click port 3,4,5,6,7,8 & 11 and choose add board then choose UT_3G_IWFB (Logic type)

4.Right click port 12,13 & 14 and choose add board then choose UT_3G_VTC_DSP16 (Logic type)

5.Right click port 15 and choose add board then choose UT_3G_SPB_8260 (Logic type)

6.Right click port 16 and choose add board then choose UT_3G_SDU_PPC775_BSS (Logic type)

7.Right click port 17 and choose add board then choose UT_3G_SDU_PPC775_HRPD (Logic type) (for EVDO services)


shelf 3

1.Right click port 9 & 10 and choose add board then choose UT_3G_UIM_T_GXS (Logic type) ; BT_3G_UIM_2 (B type)

2.Right click port 7 and choose add board then choose UT_3G_ABPM_1200_FE8_MHPC (Logic type)

3.Right click port 7 and choose 1+1 back up mode for add port 8

4.Right click port 1 and choose add board then choose UT_3G_DTB (Logic type)

5.Right click port 3 and choose board then choose UT_3G_IPCF_1200_FE8 (Logic type)

6.Right click port 3 and choose 1+1 back up mode for add port 4

7.Right click port 5 & 6 and choose board then choose UT_3G_UPCF_1200_FE8 (Logic type)

8.Right click port 15, 16 & 17 and choose add board then choose UT_3G_SDU_PPC775_BSS (Logic type)

9.Right click port 3 and choose configure A12A13 then choose A12


shelf 1

1.Right click port 9 & 10 and choose add board then choose UT_3G_UIM_T_GXS (Logic type) ;

BT_3G_UIM_2 (B type)

2.Right click port 1 and choose add board then choose UT_3G_DTB (Logic type)

3.Right click port 2, 8 & 12 and choose add board then choose UT_3G_IWFB (Logic type)

4.Right click port 12 and choose add board then choose UT_3G_VTC_DSP16 (Logic type)

5.Right click port 16 and choose add board then choose UT_3G_SPB_8260 (Logic type)

6.Right click port 17 and choose add board then choose UT_3G_SDU_PPC775_BSS (Logic type)

7.Right click all module and choose config module / unit relationship


shelf 2

1.Right click port 15 & 16 and choose add board then choose UT_3G_UIM_GCS (Logic type) ; BT_3G_UIM_2 (B type)

2.Right click port 7 & 8 and choose add board

3.Right click port 1 & 2 and choose UT_3G_GLIQV_USER (Logic type)

Configure CMP & HMP

1.Right click physical configuration and choose configure

CMP

2.Because of there were 2 CMP at shelf 2 port 3 & 4 so

choose unit no 0-7 for module 4 and unit no 8-15 for

module 6

1.Right click physical configuration and choose configure

HMP

2.Select all unit no from 0-15 for module 100

Configure the connection between DSMP and

RMP, modify A9 timing para & unify VTC

workmode

1.Right click physical configuration and choose configure the connection between DSMP and RMP

2.Change Instance Num : 720 (on line user)

1.Right click physical configuration and choose

modify A9 Timing Para

2.All data default

1.Right click physical configuration and choose unify

VTC workmode

2.All data default

Configure PCM at DTB module

1.Right click rack 1 shelf 1 port 1 (DTB) and choose configure PCM

2.Then add PCM from 0-31 ( E1 from 0-31)


4.Then add PCM from 32-63 (E1 from 0-31)


6.Then add PCM from 64-71 (E1 from 0-7)

7.And for DTB module, pick 4 PCM (right click at PCM and choose configuration relay) so

there were 12 PCM which TS 16 use for signalling (so must delete TS 16)

Configure Physical link 2 at SPB

module

1.Right click rack 1 shelf 1 port 15 and choose configure physical link 2

2.SPB have 4 CPU and because there were 2 DTB so there was 8 CPU at rack 1

(change cpuid : 1-4 ; change DTE1 : 0-3 ; change DT unit : 1-2)

3.Right click rack 2 shelf 1 port 16 and choose configure physical link 2

4.SPB have 4 CPU and because there were 1 DTB so there was 4 CPU at rack 2

(change cpuid : 1-4 ; change DTE1 : 0-3 )

Configure GLI/UIM connection at GLI

module

1.Right click rack 2 shelf 2 port 1 (GLI) and choose GLI/UIM connection

2.Connect GLI port : 0, subsystem : 6 to UIM rack 1 shelf 1 port 1 (subsystem 1)



Configure SPCFMP

1.Right click rack 1 shelf 2 port 1 (SPCFMP)

and choose SPCF CPU1

2.Choose configure PCF mode and choose

pCF PCF



4.Choose configure PCF firewall and A10

Para

5.Fill in for PCF_A10 Value & SPCF

Firewall IP :192.168.201.122



7.Choose connection between SPCF and

PDSN (all data default)

8.Choose configure SPCF CPU1 and

choose configure PCFSPI

9.Fill in SPI Value : 100

10.Fill in KeyCoding & KeyDecode :

1234567890ABCDEF

Configure the number of FE ports

of IPCF

1.Right click rack 1 shelf 3

port 3 (IPCF) and choose

configure ports number of

FE (all data default)

2.Right click rack 1 shelf 3

port 3 (IPCF) and choose

configure A12A13 then

choose A12

Configure PDSN

1.Right click physical configuration and choose configure PDSN

2.Fill in IP address and broker Ip same as IP PDSN Jakarta (192.168.49.33)

3.Fill in name : PDSN

4.Fill in location : Jakarta

5.Fill in UDP port : 699

Configure IP Interface

1.Right click physical configuration and choose configure IP interface 2.Then choose UT_3G_BSC_SPCF_MP

3.Fill in IP address : 192.168.201.122 (A10)

4.Fill in Subnetmask and Broadcastaddr :

255.255.255.255

5.Fill in MAC : 00-D0-D0-A0-00-10

6.Then choose UT_3G_IPCF_1200_FE8


8.Fill in subnetmask : 255.255.255.0

9.Fill in Broadcastaddr : 255.255.255.255

10.Fill in MAC : 00-D0-D0-A0-00-9

Must input again for IPCF :

12.Fill in port : 2


14.Fill in MAC : 00-D0-D0-A0-00-11

Configure Static Route

1.Right click physical configuration and choose configure static route

2.Fill in route prefix : 192.168.49.0

3.Fill in next hope (MPLS Lampung)

: 192.168.201.121

BSC configuration & MSC configuration

1.Goes to no. 7 signal and choose BSC

configuration

2.Fill in network type : network8[8]

3.Fill in LAC of the network for local office : 30-

00-07-21

4.Fill in test code : 12345678000000

5.Fill in at 24 signalling point; Main signaling

point : 6, Seed signalling point : 61, signaling

point : 5 (free option)

6.Fill in at 14 signalling point; Main signaling

point : 6, Seed signalling point : 61, signaling

point : 5

1.Goes to no. 7 signal and choose MSC configuration

2.Fill in network type : network7[7]

3.Fill in Signaling Link Code; Main Signaling point : 6,

Seed signaling point : 56, Signaling point : 5

4.Fill in test flag : Need tes[1]

5.Protocol type : CHINA[1]

6.Subsystem field : Domestic Signalling Link Code [8]

MTP Configuration

1.Goes to MTP configuration and choose signal link set (data default)

2.Choose signal link

Because there were 2 SMP module so:

3.Fill in link id : 1 - 12

4.Fill in SMP module id : 4

5.Fill in signalling link code : 0 - 11

So there was 12 signal for module id 4

6.Choose signal route (data default)

7.Choose signal office (data default)

SSN Configuration

1.Choose SSN configuration 2.Add 10 times; office id 0 mean

BSC and office id 1 mean

MSC/MGW

Radio configuration

1.Goes to radio configuration 2.Fill in CDMA channel

frequency 0 : 201 (voice)

3.Fill in CDMA frequency

0bandclass : 800M[0]

4.Fill in CDMA channel

frequency 1 : 242 (EVDO)

5.Fill in CDMA frequency

1bandclass : 800M[0]

BSS Para

1.Choose BSS para 2.Choose BSS parameter

3.Fill in market id : 1

4.Fill in switch number : 1

5.Fill in MS MCC : 510

(Indonesia)

6.Fill MS MNC : 03

(Indonesia)

7.Fill in MS IMSI_11_12 : 03

(Indonesia)

8.Fill in MSC support group

CIC operator indicator : Not

supported (0)

A12 interface parameter at HRPD para

1.Choose HRPD para

2. Choose A12 interface parameter

3.Fill in AN IP address : 192.168.200.100

4.Fill in AAA IP address : 192.168.200.129

Access network parameter & user

rank at HRPD para

1.Choose HRPD para 2.Choose access network parameter

3.Change system identification :

10817

4.Change network identification :

65535

1.Choose HRPD para

2.Choose user rank

3.Add 9 times (data default)

Add BTS (BDS & RFS rack)

1.Right click BSSB[7][Bandar Lampung] and choose add BTS

2.Choose add IP BTS

3.Fill in system alias (BTS name)

1.Right click physical configuration and

choose add BDS rack

2.Right click one of module and choose add

subrack then choose add down subrack

Add board for shelf 1 of BDS rack

1.Right click SAM board and choose add board then choose add SAM board

2.Right click GCM board and choose add board (2 board)

3.Right click CHM board and choose add board then choose CHM0 board

3,5. Right click CHM0 and choose configure CSM5000 and group id must 0 all

4.Right click CHM board and choose add board then choose CHM1 board (only for EVDO services)

5.Right click CCM board and choose add board (2 board)

6.Right click RIM board and choose add board (2 board)

7.Right click DSM0 board and choose add board then choose add DSM0 board

8.Right click GCM board and choose configure GCM receivable mode ( 1 board only)

9.Right click GCM board and choose configure CCB work mode

10.Right click CHM1 board and choose configure Rlm then fill in RevChips num : 4 (only for EVDO services)

11.Right click CHM1 board and choose configure Flm (data default) (only for EVDO services)


12.Right click DSM0 and configure HDLC then choose configure the Ts of HDLC (only for EVDO services)

13.Right click DSM0 and configure UID (only for EVDO services)

14.Right click DTB (BSC rack 1 shelf 3 port 1) and choose configure BSC HDLC then choose configure the Ts

of HDLC (only for EVDO services)

15.Right click ABPM (BSC rack 1 shelf 3 port 7) and choose configure BSC UID then choose configure UID (only for

EVDO services)

16.Right click ABPM (BSC rack 1 shelf 3 port 7) and choose configure the connection between BSC and BTS


1.Right click SAM board and choose add board then choose add SAM1 board

2.Right click TRX board and choose add board then choose add TRX board ( 3

board)

3.Right click RMMIE board and choose add board then choose add RMM0 board

4.Right click RMMIE board and choose configure connection between RIM and

RMM

Add board for shelf 3 & 4 of BDS rack

1.Right click RFEA board and choose add board then choose add RFEA board ( 3 board)

2.Right click PIM board and choose add board

3.Right click LPA board and choose board then choose DPA board (3 board)

4.Right click RFEA board and choose configure connection between TRX and RFE_PA then connect ( 3 board)

5.Right click DPA board and choose configure connection between TRX and RFE_PA then connect ( 3 board)

Configure procedural address and

configure UCFSN check at BTSB

1.Right click BTSB[1] and

choose configure procedural

address then add 2 times

1.Right click BTSB[1] and

choose configure UcFSN check

Add cell at radio configuration

1.Goes to radio configuration and fill in country code : 510

(only for EVDO services)

2.Right click radio configuration and choose add cell

3.Choose cell paramater

4.Fill in cell alias : name of BTS

5.Fill in system identification : 10817

6.Fill in network id : 65535

7.Location : 721 (local area Lampung)

8.CI : 14100 (based on planning)

9.PTT dispatch : 0 (random)

10.Pilot PN sequence offset index : 3 (based on planning)

11.Band class : 800M[0]

11.Pilot PN sequence offset index increment: 3

12.Search window size for the remaining set : 8

13.Choose system parameter

14.Fill in registration zone : 721 (local area Lampung)

15.Fill in base station id : 14100 (based on planning)

16.Fill in authentication mode : include authentication data (1)

17.Fill in random challenge value: 123456 (random)

18.Fill in offset of local time from system : 14

19. Fill in maximum slot cycle slot index : 1

Add new carrier at BSS channel

1.Right click BSS cell and choose add

carrier then choose new carrier

2.Fill TRX element Id : 1

3.At carrier parameter, fill in carrier rated

power (0.1dbm) : 400

3.Choose pilot channel (add with data

default)

4.Choose sync channel (add with data

default)

5.Choose page channel (add with data

default)

6.Choose access channel (add with data

default)

HRPD Cell

1.Choose HRPD cell then choose Cell parameter

2.Fill in cell alias : name of BTS

3.Fill in Pilot PN : 3 (based on planning)

4.Fill in sector id : 0000000000000001

5.Fill in color code : 1

6.Choose cell state parameter

7.Fill in offset of the local time : 14

8.Choose sector hand off parameter

9.Fill in pilot PN sequence increment : 3

10.Right click HRPD cell and choose

add carrier

11.Fill TRX element Id : 1

12.At carrier parameter, fill in carrier

rated power (0.1dbm) : 400

13.Choose control channel (data

default)

14.Choose acces channel (data default)

15.Choose forward traffic channel (data

default)

BSS Cell

1.Choose BSS cell and choose link cell (data based on planning)

2.Choose BSS carrier and choose neighbor cell list then fill in neighbor

transmitt time offset (data based on planning) and fill in neighbor

transmit time offset : 0

ALARM MANAGEMENT

Choose views and choose fault management

then choose alarm management.

At alarm management, we can know and

check all module which had alarm or not.

VERSION MANAGEMENT

1.Choose Views and choose

System tools then choose version

management.

2.Choose Version Func and choose

Query Version then choose Query

running information after that select

the module.

At version management, we can

know the version type of all module

RFS Attenuation Configuration

1.Choose views and

choose System Tools then

choose Dynamic Data

Management

2.Choose RFS Attenuation

Configuration

At here, we can know RFE

transmission power and we

can rise up & down

transmission power with

change attenuation control

value (standard for Rfe

transmission power is 38

dBm)

DATA SYNCHRONIZATION

1.Choose configuration management

2.Right click OMM_3G and

choose Data Sync

At Data Synchronization,

after we had done

something with module so

we must synchronization

data first

SAVE CONTROL

1.Choose configuration

management

2.Right click OMM_3G and

choose Save control

At Save control, after we had

done something with module

so we can save control

ALARM BOX

Server IP : 129.168.7.10

Alarm IP : 129.168.7.254

Port : 6700

No 7 Signaling Link

Choose Views->System Tools->Dynamic Data Management->Resource Observe-

>MTP SIGNALINK->MTP LINKSET[1]->SMP[4]

good

No 7 Signaling Link

Choose Views->System Tools->Probe->BSSB->BSCB-

>BSC_CMP_HDMP[4]->select R_Office for Table Name-

>View Table.

good

No 7 Signaling Link

1.Check first IP CMP (128.112.35.9)

2.Add your computer IP (ip address : 128.112.35.9 ; subnet mask : 255.0.0.0)

3. Use the command telnet 128.112.35.9

4.Log in : zte

5.Password : zte

6.WPBCB : ShowCallState

bTRegCallbackExist 0

bTMainCmpReqExist 0

bTGetDbConfigExist 0

bTforbid 0

bTa1_4 0

bTa1_13 0

bBSCReset 0

ForbidState: 0

ucA1ResetState: 0

ucSSNState: 0

ucSPState: 0

g_bMainCMP: 1

g_wSelfCMPModuleId: 3

MainCmpCallMainVpid wModule: 3

MainCmpFacilityMainVpid wModule: 3

CONNECTION WITH JAKARTA Change your ip comp ( ip

address : 192.168.201.122 ;

subnet mask :

255.255.255.248 ; default

gateway : 192.168.201.121)

CONNECTION WITH JAKARTA

IF NOT SUCCSESS :

1, Generally there one folder of 3GPlatOMC in the

path of Release\ip\tool\ of the Server and client,

open it and find 3GPLATWIN_MGT.ini. Open this

file and modify 3 parameters as follows:

SETUPCOMM=1

BoardIpAddr=129.168.7.1This IP address is OMC IP of OMP module which communicate with

the server, must input it correctly. LocalIpAddr=IP address (If in the server, set it at

random and just make it be same segment with

BoardIpAddr, such as 129.168.7.20; but if in the

client, this IP address must be same with the IP

address of the client, such as 129.168.7.100).

2, Copy this modified 3gPlatWIN_MGT.ini file to

the folder of WINDOWS in disk C:, but for win2000

system, this folder is WINNT.

3, Run 3GPLATWINNTTCP.exe,

EXECUTEVC.exeINTERPRETPROC.exeTELSERVER.exe in order in the folder of

3GPlatOMC. (If system prompts that can not

connect to the database, dont click OK and dont care.)

Input telnet 127.0.0.1 in the Run window and enter

the following interface.(Blue character need to

input by ourselves.)

************************************************************

Welcome to the world of 3GPlatForm!

************************************************************

Username:root

Password:no password 3GPlatForm>en

3GPlatForm#pro

3GPlatForm(config-protocol)#sh i i b

Interface Stat Pro IP Mask

2:1:7:2:250 down down unassigned unassigned



2:1:1:1:250 up up 192.168.200.138 255.255.255.255

3:1:3:1:1 up up 192.168.200.140 255.255.255.0




3:1:7:1:1 up up unassigned unassigned











The meaning of interface is as follows, for example: 2:1:1:1:250

2subsystemcan see through double clicking SPCF module 1modulecan see in IP interface 1unitcan see through double clicking SPCF module 1sunitcan see through double clicking SPCF module 250local portcan see through double clicking SPCF module

MTP3 Signal Trace

Choose Views System tools Dynamic Data Management Resource observe - BSSB Trunk PCM Block ( at check status )

MTP3 Signal Trace

Choose Views System Tools Signal Trace Tool MTP3 Signal Trace Trace Set

If direction send and receive, It means connection between BSC MGW MSC already good

MTP3 Signal Trace

Alarm Query

Choose Alarm Management Query Alarm

In Alarm Query, We can check if the problem still continuous or not

Service Observation

Choose Views System Tools Service Observation Set

If we made call, so we can know ESN and

IMSI number of handset

Signal Trace Choose Signal Trace Tools BSS Signal Trace Trace Set

Fill in Trace type with

Specify BTS.

After we can know IMSI

and ESN phone number

Signal Trace

Choose Signal Trace Tools BSS Signal Trace Trace Set

Put IMSI phone number first

After that we can check signal trace

Upgrade BSC module 1.Find 3GVER 18.16.04 folder -> release -> IP -> BSC

& BTS folder

2.Put it into ZXOMC -> UMS -> UMS SVR -> Version

3.Choose add version :

a. Choose BSC CPU WPBCB OMP 755 WPBCB

b. Choose BSC FPGA WPBCB 040401 WPBCB

c. Choose BSC CPU WPBCB RPU 755 WPBCB

d. Choose BSC CPU WPBCB SPCF e. Choose BSC CPU WPBCB RMP f. Choose BSC CPU WPBCB CMP g. Choose BSC CPU DSMP HDMP h. Choose BSC CPU HMP - HDMP 4.Choose configure OMP

a. Choose OMP Left, double click then choose 04

and right click choose configuration

b. Choose OMP Right, double click then choose 04


c. Choose FPGA Left, double click then choose 04


d. Choose FPGA Right, double click then choose 04


Then reset both OMP at same time

5.Choose active version

a. RPU

b. HDMP_DSMP

c. CMP_HDMP

d. RMP

e. CMP_HRPD

f. BSC_SPCF

Then reset all MP

6.Choose active version

a.CPU/ UIM2/ MDM/ 755/ GCS

b.CPU/ UIM2/ UIM/ 755/ GXS

c.FPGA/ UIM2/ 040204/ UIM2/ FPGA

Then reset all UIM module

d.CPU/ DTB/ DTB/ 852/ DTB

Then reset all DTB module

e.CPU/ VTCD/ VTC/ 8260

f. DSP/ EVRC IND/ VTCD

Then reset all VTCD module

g.CPU/ WPBCA/ RLSASDU/ 755/ SDU BSS

h. CPU/ WPBCA/ HSDU/ 755/ SDU- HRPD

i. FPGA/ WPBCA/ 030800/ FPGA

Then reset all SDU module

Upgrade BSC module 5.j. CPU/ SPB/ SPB/ 8260/ SPB8260 Then reset all module SPB

k. CPU/ PSN/ PSN/ 860/ PSN4V

Then reset all module PSN

l. CPU/ MNIC/ UPCF/ BEARM/ UPCF Microcode

m. CPU/ MNIC/ UPCF/ BEARM/ UPCF CPU

Then reset all module UPCF

n. CPU/ MNIC/ IPCF/ BEARM/ IPCF Microcode

o. CPU/ MNIC/ IPCF/ BEARM/ IPCF CPU

Then reset all module IPCF

p. CPU/ MNIC/ ABPM/ BEARM/ ABPM Microcode

q. CPU/ MNIC/ ABPM/ BEARM/ ABPM CPU

r. CPU/ MNIC/ ABPM/ 755/ ABPM

s.FPGA/ MHPC/ 031101/ FPGA

Then reset all module ABPM

t. CPU/ IWFB/ IWF/ 8250

u. DSP/ IWFB/ IWFB

Then reset all module IWFB

v. CPU/ GLIQV/ GLI/ XSCALE/ Microcode

w. CPU/ GLIQV/ GLI/ XSCALE/ Microcode

x. CPU/ GLIQV/ GLI/ XSCALE/ CPU2

y. CPU/ GLIQV/ GLI/ XSCALE/ CPU

z. FPGA/ GLIQV/ 040202/ GLIQV

Then reset all module

A. CPU/ CHUB/ CHUB/ 8245/ CHUB

B. BTS/ MCU/ GCM1/ BSC GCM1

C. BTS/ FPGA/ TFS/ GCM1/ 00002

For B & C then choose deliver version and choose MCU and choose GCM

Upgrade BTS module

Upgrade BTS module

a. Choose add version :

1. CPU/ CCM/ CCM/ 755/ CCM

2. CPU/ RMM/ RMM/ 8245/ RMM0

3. CPU/ CHM1X/ CHM1X/ 755/ CHM1X

4. CPU/ DSM/ 8245/ DSM

5. CPU/ TRX/ TRX/ 850/ TRX

6. MCU/ SAM/ SAM0

7. MCU/ GCM0/ GCM

FPGA/ TFS/ GCM0/ D47/ GCM0

8. MCU/ RIM0/ RIM

9. MCU/ SAM1/ SAM1

10. MCU/ RFE_A/ RFE_A

11. MCU/ PIM/ PIM

12. MCU/ DPA/ DPA

Upgrade BTS module 1.Choose Version management

2.Choose Deliver Version

3.Choose Create Deliver Task Monitor then choose cancel

4.Choose CPU first

5.Choose 5 modules (CCM, RMM, CHM1X, DSM, TRX)

6.Choose Mate Syn

7.Choose All IP board and cancel BTSA board

8.Choose only UT_CCM_BIN only

9.Choose active version then choose cancel

10.Choose BTS node

11.Choose All IP Control board

12.Choose activate CPU version

13.Choose active version then choose cancel

14.Choose BTS node

15.Choose All IP Controlled Board

16.Choose Board Type Selection

17.Choose 3 modules (CHM0, DSM, TRX) and activate

CPU version

18.Reset board normally CCM master

19.Choose Active version

20.Choose BTS Node

21.Choose All IP Control board

22.Choose activate version

23.Reset board normally CCM master

24.Reset board normally RMM, CHM0, DSM0

25.Choose Query Version

26.Choose Query Running Information

27.Choose 5 modules (CCM, RMM, DSM, TRX, CHM)

28.Choose Deliver Version

29.Choose MCU

30.Choose 7 modules (SAM0, GCM, RIM0, SAM1, RFE_A,

PIM, DPA)

31.Choose Query Version

Debugging AN-AAA 1.Fill in IP address computer

IP address : 192. 168. 200. 110

Subnet mask : 255.255.255.0

2.Choose SQL Server Enterprise Manager Security and make sure that at authentication is SQL Server and Windows

3.Choose Login General

Fill in Name : aaa

Choose : SQL Server Authentication and fill in password : aaa

4.Choose Login Server roles System administrators

5.Choose Login Database Access pubs

6.Install radius-winE\DISK1\setup.exe

7.At Database option

Fill in SQL Server Name : MACHINENAME

Fill in Database name : RasA100

Fill in user name, user password, repeat password : aaa

8.At Version option

Fill in Server Run Mode : 2-AN-AAA Only

Fill in SNMP Manager IP, DNS Server IP, Wap Gate Ip, PPS

address : 1.1.1.1

9.install-config\install.bat

10.At Select Setup Module, choose Configuration module,

DBIO module, agent module

11.At Set Module Information

Fill in area code : 21

Fill in post code : 200

Fill in local module : 129

12.Change IP address computer

IP address : 192. 168. 200. 129

Subnet mask : 255.255.255.0

13.At Set Module Information

Fill in Remote module code : 201

Fill in Remote module IP address : 192.168.200.201

14.At Set Database Information

Fill in Database server IP or name : 192.168.200.129

Fill in Database : RasA100

Fill in User name and password : aaa

Fill in Database type : MS SQL Server

15. Install ZXPDSS-A100 Radius Configure

Debugging AN-AAA 16.At Radius Configure database connection

Fill in Database server name : MACHINENAME

Fill in Database driver : MSSQL

Fill in Database name : RasA100

Fill in Database account and password : aaa

17.At Radius Configure Login

Fill in operator code and operator password : admin

18.At security association

Fill in ip address : 192.168.200.129

Fill in Type : Radius

Fill in Secret Key : 1234567890ABCDEF

Fill in name : AN-AAA

19.At Manufacture ID setting

Fill in Manufacture ID and setting : zte

20.At new IMSI

Fill in IMSI : 510030303030303

Fill in MDN : 627218100100

Fill in User name : EVDO

21.At New NAI user

Fill in NAI user name : 0303030303

Fill in password & confirm password :

MODIFY IMSI at KYOCERA 1.Press 111111

2.Choose programming

3.Press 000000

4.Choose ESN (cant change)

5.Choose Basic NAM1

5a.Choose phone number (8600000000)

5b.Choose NAM1 Home SID (10817)

5c.Fill in NAM1 Name : Starone

6.Choose Extra NAM1 Info

6a.Choose Country Code : 510

6b.Choose NMSID : 038600000000

6c.Choose true IMSI : 510038600000000

6d.Choose CDMA NAM1

6d1.Choose Directory # : 8600000000

6d2.Choose SID/NID : 01=10817 / 65535

6d3.Choose Primary CHA : 201

6d4.Choose Secondary CHA : 283

6d5.Choose Primary CHB : 384

6d6.Choose Secondary CHB : 777

6d7.Choose Home Sys Reg : No

6d8.Choose Forn SID Reg : No

6d9.Choose Forn NID Reg : No

7.Choose Slot Cycle Index : 2

Telnet ABPM

Must put ip address same segment like ABPM at advanced

Then telnet ip ABPM

Login : ZTE

Password : ZTE

MNIC_J> ldm_print_all

Performance Management

1.Views Performance Management Statistics

2.BSS Global Voice Call Statistics Execute Statistics

BSS Global Voice Call Sum

BSS Global Voice call Success Number

BSS Global Voice Call Success Rate ( % )

Markov Call

From the phone :

1.System Tools Network Performance Test

2.NPT 3G BSS

3.97DTest Call Enable 1/2 rate

From the system :

3.97DTest Manual Call Service type : M_SO_Markov3 ( BSC Call )

4.Fwd RC : 3

5.Add IMSI

4.97DTest Call Set Service type : Markov3

Result

Know how to debug BSC, but still need support from the expert if there is any problem

Know how to inform to the expert if there is any problem during debugging or configuring BSC

Have knowledge about BSC, but still need to learn

Can work together with expert, local engineer and Indosat engineer during built STARONE

system

Problems Encountered

Lack of training

Need to learn more about BSC (debug and configure)

Cant understand all of document in spesific

Need another project for more knowledge

Future Plan

Keep on learning on ZTE CDMA 2000 1x Network System, background and

foreground, and also debugging BSC

Learn another equipment. Not only BSC, but MGW, MSCe and HLRe also

Always keep good relationship with other ZTE engineers, local & Chinesse

engineers and Indosat engineers

Thanks ?

BSC-ZTE

Documents

Transcript of BSC-ZTE