application guide for model 6750 brtu with fujitsu fw4500 for … · 2013. 7. 12. · pin color...

Application Guide for Model 6750 with Fujitsu FW4500 for DS1 Testing using DS3 TAD Interface

Spirent Communication Rev. B

Application Guide for Model 6750 BRTU

with Fujitsu FW4500 for DS1 Testing Using DS3 TAD Interface

Revision Author Approval Date

A Victor Afable April 13, 2010 B Victor Afable April 27, 2010



Table of Contents

1.0 BRTU-99 and ADM Introduction and Preparation---------------------------------------------------------4 1.1 Objective -----------------------------------------------------------------------------------------------------4

1.2 Description ----------------------------------------------------------------------------------------------------4

1.2 Equipment Drawings and Cable Running List ----------------------------------------------------- 5-9 2.0 BRTU-99 Configuration---------------------------------------------------------------------------------------- 10

2.10 BRTU TAU Table Set Up----------------------------------------------------------------------------- 13

2.12 BRTU TAP Table Set Up----------------------------------------------------------------------------- 14

2.13 FW4500 TAP Port Configuration ------------------------------------------------------------------- 15

2.14 FW4500 User ID and Password Configuration ------------------------------------------------- 15 3.0 Circuit Access Test --------------------------------------------------------------------------------------------- 16 4.0 REACT TEST RESOURCE Example ---------------------------------------------------------------------- 22 5.0 TID Translation Set Up ---------------------------------------------------------------------------------------- 26



Section 1.0

BRTU-99 and FW4500 DS3 TAD

Introduction and Preparation



1.0 Objective

This document is made for Customer to use as an application guide for setting up the Model 6750 BRTU and REACT for accessing DS1 circuits from of Fujitsu FW4500. This document does not cover the overall acceptance/verification and focused only in configurations of Spirent Model 6750 BRTU-99 and REACT to access VT1/DS1 circuits from Fujitsu FW4500 using DS3 TAD Interface. Additional information may be obtained in the following documents for the purpose of troubleshooting, maintenance, operation requirements, etc. • ATP-6700-085 6750 Acceptance Test Procedure • HKMN-6750-101 6750 Application Drawings.

1.1 Description

This document consist of six sections � Section 1 Introduction and Preparation

� Section 2 Model 6750 BRTU

� Section 3 Circuit Access Test

� Section 4 React Test Resource Example



1.2 Equipment Drawings

Figure 1-1 Model 6750 BRTU-99 Front View

Figure 1-2 Model 6750 BRTU-99 Rear View

I I I

1 2 3 4 5 6 7 8 9 1 0 11 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 23 2 4 2 5

1 2 3 4 5 6 7 8 9 1 0 11 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 24 2 5

LC

LP

OR

T

P W R

F A I L

B U S Y

L C L

A C T

F A L

B U S Y

P W RP W R

F A IL

B U S Y

F E

P W R

FA L

B U S Y

F E

P W R

F A IL

B U S Y

F E

P W R

FA I L

B U S Y

F E

P W R

F A IL

B U S Y

F E

P W R

S I G

F A IL

B U S Y

P W R

S IG

FA I L

B US Y

P W R

B U S Y

F A L

F

1

E

2

3

P W R

B U S Y

F A L

1

2

3

4

P W R

B U S Y

F A L

P W R

F A L

B U S Y

P W R

F A L

B US Y

P W R

F A I L

B U S Y

P W R

F A L

B U S Y

P W R

F A IL

B U S Y

P W R

F AI L

B U S Y

P W R

F A I L

B U S Y

P W R

F A L

B U S Y

P W R

F A L

B U S Y

P W R

F A IL

B U S Y

P W R

F A L

B U S Y

F E

P W R

F

1

E

2

B U S Y

F A L

P W R

A C O

F A IL

A L M

+ 5 V

H D L C

L A M P

T E S T

C L K

EX P

F 1

7 . 5 A

G M T

L O C KL O C K L O C KL O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C KL O C K

6726-51 6726-51 6726-51 6726-51 6726-51 6726-51 6725-51 6725-51 6714-51 6714-54 6719-52 6718-51 6718-51 6718-51 6717-53 6717-53 6716-51 6716-51 6716-51 6716-51 6716-51 6716-51 6713-51 6712-58 6711-51

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TAD INTFC

DS3 TAD INTFC

DS1 FAD INTFC

DS1 FAD+ INTFC

PVS INTFC

PCM TEST

PCM TEST

PCM TEST

DATA TEST

DATA TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

COMM CTRL

SYSTEM CTRL

POWER SUPPLY

I I I

1 2 3 4 5 6 7 8 9 1 0 11 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 23 2 4 2 5

1 2 3 4 5 6 7 8 9 1 0 11 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 24 2 5

LC

LP

OR

T

P W R

F A I L

B U S Y

L C L

A C T

F A L

B U S Y

P W RP W R

F A IL

B U S Y

F E

P W R

FA L

B U S Y

F E

P W R

F A IL

B U S Y

F E

P W R

FA I L

B U S Y

F E

P W R

F A IL

B U S Y

F E

P W R

S I G

F A IL

B U S Y

P W R

S IG

FA I L

B US Y

P W R

B U S Y

F A L

F

1

E

2

3

P W R

B U S Y

F A L

1

2

3

4

P W R

B U S Y

F A L

P W R

F A L

B U S Y

P W R

F A L

B US Y

P W R

F A I L

B U S Y

P W R

F A L

B U S Y

P W R

F A IL

B U S Y

P W R

F AI L

B U S Y

P W R

F A I L

B U S Y

P W R

F A L

B U S Y

P W R

F A L

B U S Y

P W R

F A IL

B U S Y

P W R

F A L

B U S Y

F E

P W R

F

1

E

2

B U S Y

F A L

P W R

A C O

F A IL

A L M

+ 5 V

H D L C

L A M P

T E S T

C L K

EX P

F 1

7 . 5 A

G M T

L O C KL O C K L O C KL O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O

P W R

A C O

F A IL

A L M

+ 5 V

H D L C

L A M P

T E S T

C L K

EX P

F 1

7 . 5 A

G M T

L O C KL O C K L O C KL O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C K L O C KL O C K

6726-51 6726-51 6726-51 6726-51 6726-51 6726-51 6725-51 6725-51 6714-51 6714-54 6719-52 6718-51 6718-51 6718-51 6717-53 6717-53 6716-51 6716-51 6716-51 6716-51 6716-51 6716-51 6713-51 6712-58 6711-51

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TAD INTFC

DS3 TAD INTFC

DS1 FAD INTFC

DS1 FAD+ INTFC

PVS INTFC

PCM TEST

PCM TEST

PCM TEST

DATA TEST

DATA TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

COMM CTRL

SYSTEM CTRL

POWER SUPPLY

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TAD INTFC

DS3 TAD INTFC

DS1 FAD INTFC

DS1 FAD+ INTFC

PVS INTFC

PCM TEST

PCM TEST

PCM TEST

DATA TEST

DATA TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TEST

DS3 TAD INTFC

DS3 TAD INTFC

DS1 FAD INTFC

DS1 FAD+ INTFC

PVS INTFC

PCM TEST

PCM TEST

PCM TEST

DATA TEST

DATA TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

DS1 TEST

COMM CTRL

SYSTEM CTRL

POWER SUPPLY

-48 V D C

P ow erTB 1

TB 242-5 6V DC

(4 .8A )

B A T R T N

123456

ANCACOMANOVNCVCOMVNO

E1

6 RST

ALARM S

5

123456

IN R

IN T

IN R

IN T

O U TR

O U TT

E3

BITSCLK

E XPS H F

E2

H IGH SPEED TEST UNIT8

W15

J75F AC IN

J76

FA C O U T

W16

J77EQ P T IN

J78

E QP T O U T

7W13

J71FA C IN

J72

FAC O U T

W14

J73

J74

E Q PT IN

E Q PT O U T

6W11

J67F AC IN

J68W12

J69

J70

EQ P T IN

EQ P T O UT

FA C O U T

5W9

J63F A C IN

J64

F AC O UT

W10

J65

J66

E QP T IN

E QPT O U T

4W7

J59FA C IN

J60

FAC O U T

W8

J61

J62

E Q PT IN

E QP T O UT

3W5

J55FAC IN

J56

FAC O U T

W6

J57

J58

E Q P T IN

EQ P T O U T

2W3

J51FA C IN

J52

W4

J53

J54

EQ P T IN

EQ P T O UT

F A C O U T

1W1

J47FA C IN

J48

FA C O UT

W2

J49

J50

E Q P T IN

EQ P T O U T

W1-W16 NORMAL GND

123456

789101112

E5R T

C OM MTA LK /MO N

J21 J22

1/26

2/27

3/28

4/29

5/30

6/31

7/32

8/33

9/34

10/35

11/36

12/37

W /BL

W /O

W /G

W /BR

W /S

R/BL

R/O

R/G

R/BR

R/S

B K/BL

B K/O

TAD 1 OR FAD 1 FAC

FAD 1 EQPT

TAD 2 OR FAD 2 FAC

FAD 2 EQPT

TAD 3 OR FAD 3 FAC

FAD 3 EQPT

TAD 4 OR FAD 4 FAC

FAD 4 EQPT

TAD 5 OR FAD 5 FAC

FAD 5 EQPT

TAD 6 OR FAD 6 FAC

FAD 6 EQPT

PIN CO LOR CODE FUNCTION

DS1/E1 SIGNAL - J21 (IN) AN D J22 (OUT)

OUTIN

FOR DS3 TAD UNITUSE FAC IN ANDFAC OUT

J18

J19

J20

J37

J44

J45

FR G ND

FR G ND

FR G ND

FR G ND

FR G ND

FR G ND

E4P IN1 SH LDJ18

SYNCJ19

SYNC

J45PVS 4

J44PV S 3

J37PVS 2

J20PVS 1

R T R T1 7 LS TEST UNIT 11 DIAL LINE2 8 LS TEST UNIT 12 DIAL LINE3 9 LS TEST UNIT 13 DIAL LINE4 10 LS TEST UNIT 14 DIAL LINE5 11 LS TEST UNIT 15 DIAL LINE6 12 LS TEST UNIT 16 DIAL LINE

1 7 LS TEST UNIT 17 DIAL LINE2 8 LS TEST UNIT 18 DIAL LINE3 9 LS TEST UNIT 19 DIAL LINE4 10 LS TEST UNIT 20 DIAL LINE5 11 LS TEST UNIT 21 DIAL LINE6 12 LS TEST UNIT 22 DIAL LINE

PIN PINTALK/MONITOR

E6E5 FUNCTION

(REAR PA NEL VIEW )

6705P IN

1

2

3

4

5

6

7

8

SIGNAL G ND

PORT RE ADY OUT

DATA OUT

PORT READY IN

DA TA IN

HANDSHAKE OUT

FRA ME GND

FUNC TION

J331200 BPS8 DAT BIT

NO PARITY1 S TOP BIT

1

23456

7

89101112

E6R T

CO M MT A LK /M O N

J331200 BPS8 DATANO PARITY1 STO P

SYNC X.25 CONTROL530/V.11 OR 232/V.24

(DB-25P) <64 KBPS

ASYNC CONTROL232/V.24 (RJ45)

(11 PORT S) <9.6 KBPS

PVS IN TERFACE530/V.11 (DB-25S)

ETHERNET 10BASE -T

P O WER -48V DC200W /4.8A

DS3 IN/O UT (BNC)J47 - J78

D S1/E1 IN (25/12 PAIR)

D S1/E1 O UT (25/12 PAIR)J22

J21

TALK/MON12 LINES LOOP START ONLY

E5E6

A LARM (AUD/VIS)

RESET

E XPANSION/BITS CLOCK

J18J19

J25 - J33J39, J40

J20, J37J44, J45

J46

TB1TB2

E3

E2

E1

HE KIM IANMODEL 6705-99BROADBAND REMOTE TEST UNIT SHELF

SERIAL NO .

J40 J 39 J 25

J46 J 27 J 26

J33 J 29 J 28

J32 J 31 J 30

M ADE IN THE U.S.A. HEKIMIAN LABS, INC15200 OMEGA DRIVEROCKVILLE, MD 20850-3240U.S.A.TEL. +1- 301-590-3500FAX. +1- 301-590-3680

8

1

-48 V D C

P ow erTB 1

TB 242-5 6V DC

(4 .8A )

B A T R T N

123456

ANCACOMANOVNCVCOMVNO

E1

6 RST

ALARM S

5

123456

IN R

IN T

IN R

IN T

O U TR

O U TT

E3

BITSCLK

E XPS H F

E2


W15

J75F AC IN

J76

FA C O U T

W16

J77EQ P T IN

J78

E QP T O U T

7W13

J71FA C IN

J72

FAC O U T

W14

J73

J74

E Q PT IN

E Q PT O U T

6W11

J67F AC IN

J68W12

J69

J70

EQ P T IN

EQ P T O UT

FA C O U T

5W9


W15

J75F AC IN

J76

FA C O U T

W16

J77EQ P T IN

J78

E QP T O U T

7W13

J71FA C IN

J72

FAC O U T

W14

J73

J74

E Q PT IN

E Q PT O U T

6W11

J67F AC IN

J68W12

J69

J70

EQ P T IN

EQ P T O UT

FA C O U T

5W9

J63F A C IN

J64

F AC O UT

W10

J65

J66

E QP T IN

E QPT O U T

4W7

J59FA C IN

J60

FAC O U T

W8

J61

J62

E Q PT IN

E QP T O UT

3W5

J55FAC IN

J56

FAC O U T

W6

J57

J58

E Q P T IN

EQ P T O U T

2W3

J51FA C IN

J52

W4

J53

J54

EQ P T IN

EQ P T O UT

J63F A C IN

J64

F AC O UT

W10

J65

J66

E QP T IN

E QPT O U T

4W7

J59FA C IN

J60

FAC O U T

W8

J61

J62

E Q PT IN

E QP T O UT

3W5

J55FAC IN

J56

FAC O U T

W6

J57

J58

E Q P T IN

EQ P T O U T

2W3

J51FA C IN

J52

W4

J53

J54

EQ P T IN

EQ P T O UT

F A C O U T

1W1

J47FA C IN

J48

FA C O UT

W2

J49

J50

E Q P T IN

EQ P T O U T

W1-W16 NORMAL GND

123456

789101112

E5R T

C OM MTA LK /MO N

F A C O U T

1W1

J47FA C IN

J48

FA C O UT

W2

J49

J50

E Q P T IN

EQ P T O U T

W1-W16 NORMAL GND

123456

789101112

E5R T

C OM MTA LK /MO N

J21 J22

1/26

2/27

3/28

4/29

5/30

6/31

7/32

8/33

9/34

10/35

11/36

12/37

W /BL

W /O

W /G

W /BR

W /S

R/BL

R/O

R/G

R/BR

R/S

B K/BL

B K/O

TAD 1 OR FAD

J21 J22

1/26

2/27

3/28

4/29

5/30

6/31

7/32

8/33

9/34

10/35

11/36

12/37

W /BL

W /O

W /G

W /BR

W /S

R/BL

R/O

R/G

R/BR

R/S

B K/BL

B K/O

TAD 1 OR FAD 1 FAC

FAD 1 EQPT

TAD 2 OR FAD 2 FAC

FAD 2 EQPT

TAD 3 OR FAD 3 FAC

FAD 3 EQPT

TAD 4 OR FAD 4 FAC

FAD 4 EQPT

TAD 5 OR FAD 5 FAC

FAD 5 EQPT

TAD 6 OR FAD 6 FAC

FAD 6 EQPT



OUTIN

FOR DS31 FAC

FAD 1 EQPT

TAD 2 OR FAD 2 FAC

FAD 2 EQPT

TAD 3 OR FAD 3 FAC

FAD 3 EQPT

TAD 4 OR FAD 4 FAC

FAD 4 EQPT

TAD 5 OR FAD 5 FAC

FAD 5 EQPT

TAD 6 OR FAD 6 FAC

FAD 6 EQPT



OUTIN

FOR DS3 TAD UNITUSE FAC IN ANDFAC OUT

J18

J19

J20

J37

J44

J45

FR G ND

FR G ND

FR G ND

FR G ND

FR G ND

FR G ND

E4P IN1 SH LDJ18

SYNCJ19

SYNC

TAD UNITUSE FAC IN ANDFAC OUT

J18

J19

J20

J37

J44

J45

FR G ND

FR G ND

FR G ND

FR G ND

FR G ND

FR G ND

E4P IN1 SH LDJ18

SYNCJ19

SYNC

J45PVS 4

J45PVS 4

J44PV S 3

J37PVS 2

J20PVS 1

J44PV S 3

J37PVS 2

J20PVS 1


1 7 LS TEST UNIT 17 DIAL LINE2 8 LS TEST UNIT 18 DIAL LINE3 9 LS TEST UNIT 19 DIA


1 7 LS TEST UNIT 17 DIAL LINE2 8 LS TEST UNIT 18 DIAL LINE3 9 LS TEST UNIT 19 DIAL LINE4 10 LS TEST UNIT 20 DIAL LINE5 11 LS TEST UNIT 21 DIAL LINE6 12 LS TEST UNIT 22 DIAL LINE

PIN PINTALK/MONITOR

E6E5 FUNCTION

(REAR PA NEL VIEW )

6705P IN

1

2

3

4

5

6

7

8

SIGNAL G ND

PORT RE ADY OUT

DATA OUT

PORT READY IN

DA TA IN

HAN

L LINE4 10 LS TEST UNIT 20 DIAL LINE5 11 LS TEST UNIT 21 DIAL LINE6 12 LS TEST UNIT 22 DIAL LINE

PIN PINTALK/MONITOR

E6E5 FUNCTION

(REAR PA NEL VIEW )

6705P IN

1

2

3

4

5

6

7

8

SIGNAL G ND

PORT RE ADY OUT

DATA OUT

PORT READY IN

DA TA IN

HANDSHAKE OUT

FRA ME GND

FUNC TION



1

23456

7

89101112

E6R T

CO M MT A LK /M O N



(DB-25P) <

DSHAKE OUT

FRA ME GND

FUNC TION



1

23456

7

89101112

E6R T

CO M MT A LK /M O N



(DB-25P) <64 KBPS




ETHERNET 10BASE -T



D S1/E1 IN (25/12 PAIR)

D S1/E1 O U

64 KBPS




ETHERNET 10BASE -T



D S1/E1 IN (25/12 PAIR)

D S1/E1 O UT (25/12 PAIR)J22

J21


E5E6

A LARM (AUD/VIS)

RESET


J18J19

J25 - J33J39, J40

J20, J37J44, J45

J46

TB1TB2

E3

E2

E1

HE KIM IANMODEL 6705-99BROADBAND REMOT

T (25/12 PAIR)J22

J21


E5E6

A LARM (AUD/VIS)

RESET


J18J19

J25 - J33J39, J40

J20, J37J44, J45

J46

TB1TB2

E3

E2

E1

HE KIM IANMODEL 6705-99BROADBAND REMOTE TEST UNIT SHELF

SERIAL NO .

J40 J 39 J 25

J46 J 27 J 26

J33 J 29 J 28

J32 J 31 J 30

M ADE IN THE U.S.A. HEKIMIAN LABS, INC15200 OM

E TEST UNIT SHELF

SERIAL NO .

J40 J 39 J 25

J46 J 27 J 26

J33 J 29 J 28

J32 J 31 J 30

M ADE IN THE U.S.A. HEKIMIAN LABS, INC15200 OMEGA DRIVEROCKVILLE, MD 20850-3240U.S.A.TEL. +1- 301-590-3500FAX. +1- 301-590-3680

8

1



Note: BRTU-99 Relay Rack Configuration.

Figure 1-3 Typical Rack Elevation (7’ X 1” X 23”) of 6750 BRTU-99

0

5

1 0

1 5

2 0

2 5

3 0

4 0

5 0

5 5

6 0

6 5

7 0

3 5

4 5

l

0

5

1 0

1 5

2 0

2 5

3 0

4 0

5 0

5 5

6 0

6 5

7 0

3 5

4 5

7 3

Filtered Fuse Panel

BRTU-99

Controller Shelf

Heat Baffle is a part of the unit


6” Box

2” SPACING

11’6”

7’

0

5

1 0

1 5

2 0

2 5

3 0

4 0

5 0

5 5

6 0

6 5

7 0

3 5

4 5

l

0

5

1 0

1 5

2 0

2 5

3 0

4 0

5 0

5 5

6 0

6 5

7 0

3 5

4 5

7 3

Filtered Fuse Panel

BRTU-99

Controller Shelf



6” Box

2” SPACING

11’6”

7’



Note: 1. This document is specific for BRTU-99 using DS3 TAD to access the FW4500 for VT1/DS1 test. Normal configuration should have the BRTU DS3 TAD directly connected to the FW4500. The DS3 TAD however can be backhaul for systems with remote FW4500. As shown in this drawing the BRTU DS3 TAD is connected to the local FW4100 then backhauled to the remote FW4500. The FW4100 is transparent to the BRTU and the BRTU communicates only to the FW4500. The FW4100 should have TMUX card (P/N FC9681ETM1) card installed to be able to interface with the DS3 TAD the other end of the TMUX should be cross-connected to be backhaul to the FW4500. See Figure 1.5 for more information. Figure 1-4 Model 6750 BRTU-99

BRTU Arrangement Connection to the Fujitsu FW4500

Model 6750 BRTU-99

J467121-66P

J47 J48

DS3 PATCH PANEL

FW4100

6750-C0 Cables

Existing IP Cable

TB1–TB2

-48VDC

REACT

EthernetHub

OperationsNetwork

OperationsNetworkOperations

NetworkOperations

Network

OperationsNetwork

OperationsNetwork

OperationsNetwork


NetworkCORP

Network

OperationsNetwork

OperationsNetwork

OperationsNetwork


NetworkOperations

Network

OperationsNetwork

OperationsNetwork

OperationsNetwork


NetworkCORP

Network

Firewall

TESTER

ROUTER

ROUTER

T1

IP

FW4500

OC12



Figure 1-5 BRTU DS3 TAD with Fujitsu FW4500 Backhaul Application Note: 1. The drawing shown above is an example of FW4500 VT1 TAP backhauled with FW4100 to BRTU DS3 TAD 2. The FW4100 is transparent to the BRTU. The BRTU only communicates to the FW4500 to establish DS1 test access 3. If the BRTU DS3 TAD card is to be directly connected to the FW4500 i.e. no backhaul FW4100 is required to backhaul the TAP, the FW4500 must then equipped with the TMUX card to interface the DCS with DS3 Electrical TAD interface.

TMUX

BRTU

DS1 TEST CARD

DS1 TEST CARD

DS1 TEST CARD

DS1 TEST CARD

DS3TADSLOT1

DS3 PORT

VT1’sVT1 TAP

109-8-1-1-1

109-8-1-1-2

109-8-1-1-3

109-8-1-1-4

109-8-1-1-5

109-8-1-1-6

101102103104

105106

VT1 TACC OC12

FW4100 - LOCALFW4500 - REMOTE

KNWCWAXAK070111503A

See note 3



Cable Running List

Run No.

Cable Type

Code From Equipment

To Equipment

Remarks

EQPT PWR

1 20AWG Red/Black

BRTU-99 Connectors TB1 (Black) TB2 (Red)

-48V Fuse Panel -48VDC Power Supply

COMM/ TEST BUS

2 7121-66P BRTU-99 J46

Ethernet Hub IP Communication to REACT

3 6750-C0 BRTU-99 J47 – J48

DS3 Patch Panel DS3 TAD Connection to BRTU TAD interface card installed in slot 1

Refer to Figure 1.4 for more information



2.0 Model 6750 BRTU-99 Shelf Configuration: Pull the 6750 SCU card and ENABLE the battery backup by placing the BLUE JUMPER to pin 1 and pin 2 of J1 connector. If the BRTU is equipped with eSCU the battery backup is jumper is J3 enable the battery by placing the BLUE jumper in pin 1 and pin 2.

VBATT EN 1-2VBATT DIS 2-3 B

atte

ry

1 2 3J3

Set up a VDT (VT100) or a laptop PC for direct connection to the fixed port at 9600 bps, 8 data bits, no parity, and 1 stop bit (9600, 8, N, 1).

Using the 9-pin male/ female Straight Cable, connect the PC to the craft port at the front of the BRTU-99 unit. 2.1 Login to the BRTU-99

Enter Command: ACT-USER::SUPER:CTAG::SUPER;

2.2 Edit Date and Time

Enter Command: ED-DAT:::CTAG::100406,101500;

YRMMDD,HHMMSS 2.3 Edit Site Identifier (SID)

Enter command: ED-SID:HEKIMIAN-6700::CTAG::KNWCWAXAD15-6750;

OLD/CURRENT SID NEW SID



2.4. Edit BRTU-99 Equipment Table

Enter Command: ED-ATTR-EQPT:::CTAG::TSC=ON;

Enter Command: ED-ATTR-EQPT:::CTAG::TMO=3000; 2.5. Retrieve the Equipment table and response should be as shown below:

Enter command: RTRV-ATTR-EQPT:::CTAG;

Response: KNWCWAXAD15-6750 10-03-26 11:25:17 M D COMPLD "SHELF=99 TSC=ON REPORT=FULL EQLR=0 TMO=3000SECS LEV=ABS" "IDLE=TH CYCLETEST=ON DS1DS3=OFF IPCHECK=0MINS"

2.6 Retrieve the BRTU-99 firmware version

Enter Command: RTRV-VRSN-EQPT:::CTAG; KNWCWAXAD15-6750 10-03-26 11:25:39 M D COMPLD /*CARD APPL/PGM1 BOOT/PGM2 DSP HW ASSY */ " TD3-01-01: RA02.30 RA02.30 6700-1472-02 REV F OPT " " DS1-01-11: RG09.10 RF03.30 6700-1280-03 REV G4 OPT " " DS1-01-12: RG09.10 RF03.30 6700-1280-03 REV G4 OPT " " DS1-01-13: RG09.10 RF03.30 6700-1280-03 REV G4 OPT " " SCU-01-24: RH14.30.01 RH14.30.01 6700-1652-01 REV B8 OPT " " PSU-01-25: 3500-1624-09 REV F9 OPT " Results shown above are the latest firmware version of the BRTU-99. The SCU firmware should be at least version 14.30 or higher.

2.7 Edit the BRTU-99 IP address as required.

Enter Command: ED-ATTR-IP::J46:CTAG::ADDR=10.80.0.18; --- Example IP Address

Enter Command: ED-ATTR-IP::J46:CTAG::MASK=255.255.255.40; --- Example Subnet Mask

Enter Command: ED-ATTR-IP::J46:CTAG::GATEWAY=10.80.0.17; --- Example Gateway

NOTE: Changes to the TCP/IP parameters will take effect only after the BRTU-99 has been rebooted. You need to issue the INIT-SYS:::CTAG::4; command for the TCP/IP changes to take effect.



2.8 Retrieve the new IP address set up by entering the following command:

Enter Command: RTRV-ATTR-IP:::CTAG;

Response:

KNWCWAXAD15-6750 10-03-26 11:25:39 M D COMPLD

/* JID IP ADDRESS SUBNET MASK DEFAULT GATEWAY */ " J46 10.80.0.18 255.255.255.40 10.80.0.17 " /* JID TADR UART ECHO FLOW RAW BROAD SLAVE LOGIN DTR */ " J46 NA NA OFF ON OFF OFF OFF OFF DTR "



2.10 Edit the BRTU-99 TAU 2.10.2 TAU table set up for the Fujitsu FW4500: Note: The TID that is used in this example are based on the example drawings shown in figure 1-5.

Refer to REACT administrator for the assigned TID of each ADM. Enter Command: ED-DB-TAU::KNWCWAXAK070111503A:CTAG::TYPE=F4500,JID=J46,

ADDRESS= 113.49.16.36-2024,CTYPE=TELNET,PERSIST=YES; Enter Command: ED-DB-TAU::KNWCWAXAK070111503A:CTAG::UID=SPIRENT,PID=SPIRENT;

KNWCWAXAK070111503A = is the example Test Identifier for the FW4500. This should match with the TID in REACT test resource set for that ADM and BRTU-99. TYPE = Access Type enter F4500 for Fujitsu FW4500 JID = J46 as the TSC port ADDRESS= Address of the Fujitsu 4500 CTYPE= Connection Type (TELNET) * UID = SPIRENT – just an example contact your admin for the assigned UID * PID = SPIRENT– just an example contact your admin for the assigned PWD * See step 2.14 to set a new UID and PID in FW4500

2.11 Retrieve the TAU Table: Enter Command: RTRV-DB-TAU::ALL:CTAG;

KNWCWAXAD15-6750 10-03-26 11:24:48 M D COMPLD /* TID TYPE REVISION AIDFMT ROUTE */ /* JID ADDRESS CTYPE PERSIST MAXCONN */ /* UID PID LOGIN */ " KNWCWAXAK070111503A F4500 00.00 000 0 J46 113.49.16.36-2024 TELNET YES 1 SPIRENT SPIRENT Y “



2.12 TAP Table Set Up

Edit the BRTU TAP table for Fujitsu Flashwave 4500 by entering the following commands:

Please note that in our example the BRTU is connected to the FW4100 via DS3 TAD then backhauled the TMUX VT1 port to the remote FW4500. The TAPID to enter in this setup should be the TAP configured in the FW4500. Example of such TAP port is shown in figure 1.5 of this document.

2.12.1 TAP table for the Remote FW4500 (KNWCWAXAK070111503A) DS3 TAD see figure 1.5 for more information

Enter Command: ED-DB-TAP::1:ATP::TID=KNWCWAXAK070111503A2,TAPID=101,TAPID2=109-8-1-1-1; Enter Command: ED-DB-TAP::1:ATP::FR=M23,LC=B3ZS; Enter Command: ED-DB-TAP::1:ATP::TPA=FFFXXXXXXXXXXX,TCA=TTTTTTTTTTTTTT; Note: In the TPA field (FFFXXXXXXXXX) the “F” represents the number of simultaneous DS1 test the BRTU can access. This example is set for three DS1 accesses per the number of TAP configured in FW4500 shown in step 2.13 of this document. Replace the “X” with “F” for additional DS1 access and the “F” should match with the number of TAP set in the FW4500.

2.12.2 Retrieve the TAP table:

Enter Command: RTRV-DB-TAP::ALL:CTAG;

KNWCWAXAD15-6750 10-03-26 11:24:53 M D COMPLD /* TPID TID STATUS TAPID TAPID2 */ /* TYPE FR LC EQ TPA TCA */ /* CONCAID ACCESSRATE TAPTYPE TIMING S-TRACE */ /* OPTIONS */ " 1 KNWCWAXAK070111503A F 101 109-8-1-1-1 F4500 M23 B3ZS 1 FFFXXXXXXXXXXX TTTTTTTTTTTTTT 1 0 0 0 010000000000000000000000000000 "

;



2.13 FW4500 TAP Port Configuration

Edit the TAP port and TACC on Fujitsu Flashwave 4500 by entering the following commands:

Please note that in our example the BRTU is connected to the FW4100 via DS3 TAD then backhauled the TMUX VT1 port to the remote FW4500. VT1 TAP and TACC should need to be created in the FW4500. The VT1 TAP entered in this step (TAP example) should match with the TAP entered in the BRTU TAPID parameter. Example of such VT1 TAP port is shown in figure 1.5 of this document. The VT1 circuit used in this step is for example only. Please refer to your DCS admin for the assigned VT1 TAP to use.

Enter Command: ENT-TAP-VT1::109-8-1-1-1:CTAG::101; First TAP and assigned as TACC 101 Enter Command: ENT-TAP-VT1::109-8-1-1-2:CTAG::102; Second TAP and assigned as TACC 102 The TAP shown above is for one VT1/DS1 bi-directional testing, each DS1 test access requires two TAP’s. Create more TAP if additional test is required. Enter the following command to add more TAP’s. Enter Command: ENT-TAP-VT1::109-8-1-1-3:CTAG::103; Third TAP and assigned as TACC 103 Enter Command: ENT-TAP-VT1::109-8-1-1-4:CTAG::104; Fourth TAP and assigned as TACC 104 Enter Command: ENT-TAP-VT1::109-8-1-1-5:CTAG::105; Fifth TAP and assigned as TACC 105 Enter Command: ENT-TAP-VT1::109-8-1-1-6:CTAG::106; Sixth TAP and assigned as TACC 106

2.14 FW4500 User ID and Password configuration Create a New User for the BRTU Test System (REACT)

ENT-SECU-USER:[TID]:<AID>:<CTAG>::<NEWPID>,,<UPC>:[KEYWORD=DOMAIN]:;

TID = TID is the Target Identifier for the FLASHWAVE 4500 (ex. KNWCWAXAK070111503A)

AID = New User ID (ex. BRTU99) NEWPID = Password minimum 6 character maximum 10 character (ex SPIRENT) UPC = User Privilege Code 1-4 with 4 the highest access commands (3 is selected for this test) KEYWORD = is for setting time out (default is use in this document which is 30 minutes time out)

Enter Command: ENT-SECU-USER:KNWCWAXAK070111503A:SPIRENT:CTAG::SPIRENT,,3::;

Note: The User ID and the Password used in this step is for example only. Please refer to your DCS administrator for the assigned UID and Password to use. The User ID and Password used in this step must also be entered in BRTU TAU configuration in step 2.10.2 of this document.



3.00 Circuit Access Test 1. Assure that the signal in BRTU TAD’s are present by checking if the TAD LED are lit. If the signal is not present fix

it before moving on. 2. Ask the CO tech for a test circuit that you can access and split. Be sure that the circuit that you are about to split is not in service. If they can’t find a circuit for you, just make a monitor access but DO NOT split that circuit. 3. The circuits will come in the form of VT1 ckt i.e. 109-2-1-1-1 4. You need to have two circuits that are cross connected together in order to test both directions of the circuit. See Drawing below for more detail.

TMUX

BRTU

DS1 TEST CARD

DS1 TEST CARD

DS1 TEST CARD

DS1 TEST CARD

DS3TADSLOT1

DS3 PORT

VT1’sVT1 TAP

109-8-1-1-1

109-8-1-1-2

109-8-1-1-3

109-8-1-1-4

109-8-1-1-5

109-8-1-1-6

101102103104

105106

VT1 TACC

OC12

FW4100 - LOCAL

FW4500 - REMOTEKNWCWAXAK070111503A

Hardwire Loop

Hardwire Loop

109-2-1-1-1 109-2-2-1-2



DS1 Circuit Access Test 3.0.3.1 Enter the following command to access DS1 circuit at the remote FW4500 DCS

Enter command: CONN-TACC-VT1:KNWCWAXAK070111503A:109-2-1-1-1:ATP:999:MONE; Response:

KNWCWAXAK070111503A 06-08-25 15:11:05 M ATP COMPLD

Note: Verify the response from the access command is similar to the response as shown above. This is an indication of a successful access. 3.0.3.2 Split the access with direction towards looking at the F direction

Enter Command: CHG-ACCMD-T1::999:D:SPLTF; Response:

KNWCWAXAK070111503A 06-08-25 15:11:56 M D COMPLD

3.0.3.3 Insert test signal Enter Command: CHG-TSTSIG-T1::999:AAA:10101010,S,A;


3.0.3.4 Start the test by entering the following command:

Enter Command: MEAS-SIG-T1::999:AAA:9999-59,S,O-10101010,S,A;



3.0.3.5 Display the test results by entering the following command: Enter Command: REPT-RSLT::999:CTAG;

KNWCWAXAK070111503A 06-08-25 14:59:34 M CTAG COMPLD 0-06, 0 BPV ES=NA, TE=NA PAT ES=0, TE=0 PAT SES=0 CBIT ES=NA, TE=NA FMBIT ES=0, TE=0 FEBE ES=NA, TE=NA PBIT ES=0, TE=0 PSL=0, PSLS=0 FSL=0, FSLS=0 UAS=0, %AS=100 DGRM=0, %DGRM=0

%EFS=100, BITS=1.853e+07

Verify the test results returns with no error 3.0.3.6 Insert Bit error by entering the following command: Enter Command: TST-INSERRBITS::999:D:45,,BIT; Note – This command injects 45 bit error in the test. Verify the error by displaying the results by entering the command in the next step.



3.0.3.7 Display the test results by entering the following command: Enter Command: REPT-RSLT::999:CTAG;

KNWCWAXAK070111503A 06-08-25 14:59:53 M CTAG COMPLD

0-26, 0 BPV ES=NA, TE=NA PAT ES=1, TE=45 PAT SES=0 CBIT ES=NA, TE=NA FMBIT ES=0, TE=0 FEBE ES=NA, TE=NA PBIT ES=0, TE=0 PSL=0, PSLS=0 FSL=0, FSLS=0 UAS=0, %AS=100 DGRM=0, %DGRM=0 %EFS=96, BITS=1.2536E9 Verify results return with 45 Bit Error 3.0.3.8 Stop the test by entering the following command: Enter Command: DISC-MEAS::999:CTAG; 3.0.3.9 Change the direction of the test to EQUIPMENT direction by entering the following command:

Enter Command: CHG-ACCMD-T1::999:D:SPLTE;




3.0.3.10 Initiate the measurement by entering the following command:

Enter Command: MEAS-SIG-T1::999:AAA:9999-59,S,O-10101010,S,A; 3.0.3.11 Display the test results by entering the following command: Enter Command: REPT-RSLT::999:CTAG;

KNWCWAXAK070111503A 06-08-25 14:59:34 M CTAG COMPLD

0-34, 0 BPV ES=NA, TE=NA PAT ES=0, TE=0 PAT SES=0 CBIT ES=NA, TE=NA FMBIT ES=0, TE=0 FEBE ES=NA, TE=NA PBIT ES=0, TE=0 PSL=0, PSLS=0 FSL=0, FSLS=0 UAS=0, %AS=100 DGRM=0, %DGRM=0 %EFS=100, BITS=1.6397E9

Verify the test results returns with no error



3.0.3.12 Insert Bit error by entering the following command: Enter Command: TST-INSERRBITS::999:D:45,,BIT; Note – This command injects 45 bit error in the test. Verify the error by displaying the results by entering the command in the next step. 3.0.3.13 Display the test results by entering the following command: Enter Command: REPT-RSLT::999:CTAG;

1-45, 0 BPV ES=NA, TE=NA PAT ES=1, TE=45 PAT SES=0 CBIT ES=NA, TE=NA FMBIT ES=0, TE=0 FEBE ES=NA, TE=NA PBIT ES=0, TE=0 PSL=0, PSLS=0 FSL=0, FSLS=0 UAS=0, %AS=100 DGRM=0, %DGRM=0 %EFS=99, BITS=1.6397E9 Verify the error injected of 45 bit error appears in the test result

3.0.3.14 Stop the test by entering the following command: Enter Command: DISC-MEAS::999:CTAG; 3.0.3.15 Release the access by entering the following command: Enter Command: DISC-TACC::999:CTAG;



4.0 REACT TEST RESOURCE CONFIGURATION FOR BRTU DS1 FAD INTERFACE WITH THE FW4500 DCS. 4.1 Set the Telnet Database to include the address of the BRTU

%*BRTU 878 TCPIP_10.80.0.18_7010 Example IP address for BRTU Note: Address and ports used are examples only; refer to REACT Admin for the assigned BRTU address REACT Test resource for DS1 Test: 4.2 From REACT Administration click on EDIT then click on Test Resources (Old) and Edit Resources as shown in the example below. 4.3 Edit Resources should appear as shown below. Enter “2” to insert new test resource.



Enter the following information to create one DS1 Test Resource Enter COM-LINK Direct/Modem/Remote/PAD X28 (D/M/R/P): R 6439 module, DATS, DC/B, ADM, none (6439/DATS/D/A/N): N

Enter ABILITY: ANALOG,CHANNELIZE,PERFORMANCE,ANALOG/CHANNELIZE,DDS, DS3/E3,CELLSITE,ISDN,ADM LOOP,DSLAM,ICON,ATM SW,ADSL RTR,IP TPUT,FR SW,STM,PON,STS1,STS3C,STS12C,VC3,STM1,STM4,IP_NA/C/P/(A/C)/DDS/3/S/I/ADML/D/ICON/SW/R/IP/F/M/PON/S1/S3/S12/VC3/STM1/STM4/IP_TLS/IP_VPN): P

Is this a TR834 , natively supported , or foreign site (T/N/F): T

Enter Modem number: %*BRTU

Enter name (15 chars. max): KNWCWAXAK07

Is this a CEPT device(Y/N)?: N

Is this a Hekimian BRTU (Y/N)?: Y

Is this resource a 6750 RTU or 6750 TSC? (R/T): T

Enter FAD/TAD hardware number, 0 disables FAD locking (00-99)?: 0

Is this a STSx TAD or other access(T/O)?: O Is this a DS3 FAD, DS3 TAD, or other access(F/T/O)?: T

Enter DS1 test port in the DS3 TAD (1-14)?: 1

Individual DCS port, 6439 port (I/C): I Enter type of DCS/EDSX: WECO,WESCOM,DXCS,TELLABS,ATT3,TA203,D3-1,RDX,TAIU,TITAN-S,TITAN-D,NTEL,DCSF,TDAX,NORTEL,DSXpert,TDAX NB,OTHER(W,S,D,T,A,2,3,R,+,I,5,N,F,X,E,P,B,O): O

Enter DCS port:

Enter DCS link number, 0 to ignore: 0

Enter digroup/fad for test set: 1

Do you have a Remote controlled Reset Box for this resource (Y/N): N

Enter REACT 2001 primary test server host: HOST

Enter REACT 2001 secondary test server host: HOST

Enter REACT 2001 RTU Label: BRTU

Display only this position? (y/n): Y



4.4 Example of REACT Test Resource

TEST RESOURCE STATUS TYPE LONG TERM POS. TP/SIDE ABILITY LINK DEV. 3965 3705 MODEM/PORT1 PORT2 PASSWORD DCS/LNK D-PORT STATUS TEST NAME --------------------------------------------------------------------------------------------------------------------------------- 192 01/- DS1 REMOTE ---- TSC %*BRTU TA/DPU TN-D/00 FREE FREE KNWCWAXAK07

4.5 Establish the access using the REACT and verify a successful access from the REACT.



5.0 TID translation set up

If the TID of the device to be added as a resource is longer than 15 characters, then the TID Translator must be used. The TID Translator is enabled by placing an entry in the /hekimian/react-2001/system/data/tid_translations file. The file is a text file that may be edited with a text editor. Each TID requiring translation is a one-line entry with 3 fields separated by white space as follows: To edit the tid_translations file: 1 Log into the host computer using the hlisys username and password. The following prompt appears: Do you want to run REACT system management operations: 2 Enter N and press RETURN. The operating system prompt appears. 3 Enter the following command and press RETURN: Enter Command: cd /hekimian/react-2001/system/data 4 Enter the following command and press RETURN: Enter Command: vi tid_translations

The tid_translations file opens: # tid_translations # # This file is a database for translating network element TIDs between the # REACT database, portmap, and test set expectation. Each TID that # requires a translation must appear. Each line should have the TID as it # will appear in the database, portmap, and testset. # # Database portmap testset #



Read the file carefully. Each TID requiring translation is a one-line entry with 3 fields separated by white space as follows:

<TID_database> <TID_portmap> <TID_testset> <TID_database> - The TID as it appears in the circuit database. This TID may be greater than 15 characters. <TID_portmap> - The TID as it appears in the portmap. This TID is limited to 15 characters and must be unique within REACT-2001 TIDs. REACT-2001 uses this TID to determine how to make an access to the RTU or DSLAM . <TID_testset> - The TID as it is stored in the RTU. This field determines the TID that will be included in the TL1 command sent to the RTU. This TID may be greater than 15 characters. There is no rule on how to make a 15 character TID for use in the port map distinguishable from a TID that is greater than 15 characters. The resulting TID should be easily recognizable and unique for each router, for example: Database TID: ARMGMDAR-022220801 TID Translator entry: ARMGMDAR-022220801 ARMGMDAR0222208 ARMGMDAR-022220801 For example – The REACT needs to send TID of KNWCWAXAK0711503A to the BRTU with the actual test resource of KNWCWAXAK07. The line should be:

KNWCWAXAK07 KNWCWAXAK07 KNWCWAXAK0711503A The first field is the TID of in the database The second field is the TID in the test resource The third field is the TID in the BRTU TAP table Save the changes you made and close the tid_translations file. The operating system prompt reappears.

END

application guide for model 6750 brtu with fujitsu fw4500 for … · 2013. 7. 12. · pin color...

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