Power-Up Procedure Courses PDF Student Guides... · is 172.16.0.1. It is necessary for the NIPR...
Transcript of Power-Up Procedure Courses PDF Student Guides... · is 172.16.0.1. It is necessary for the NIPR...
Power-Up Procedure Apply power to the Power Distribution Panel.
1. Push in Circuit Breakers (CB) L1 & L2 located at the top of the AC Control Panel.
2. Push in the DC Control CB located at the top of the DC Control Panel. 3. Place the MAIN POWER Circuit Breaker to ON. 4. Set the BATTERY CHARGER CB to ON. 5. Set the BLACKOUT BYPASS switch to ON. 6. Set the MAIN LIGHTS CB to ON. 7. Push the Battery Bank CB in. 8. Press the DC ON/OFF push button / indicators switch to ON. 9. Set the DC CONTROLS CB to ON.
Apply power to the UPS in the correct order.
10. Set UPS 1 AC INPUT CB to ON. 11. Set UPS 2 AC INPUT CB to ON. 12. Set UPS 1 DC INPUT CB to ON. 13. Set UPS 2 DC INPUT CB to ON. 14. At UPS 1, set the main power toggle switch to ON by holding the
toggle switch to the right until you hear a beep. You will see five green lights lit when UPS is fully charged.
15. At UPS 2, set the main power toggle switch to ON holding the toggle switch to the right until you hear a beep as you did for UPS 1.
16. At the UPS Power Bay CB panel, set UPS 1 AC OUTPUT CB to ON. 17. At the UPS Power Bay CB panel, set UPS 2 AC OUTPUT CB to ON. 18. Set ROADSIDE CB to ON. 19. Set CURBSIDE CB to ON.
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Power Down Procedure
Shutdown power to the UPS in the correct order.
1. Set CURBSIDE Circuit Breaker to off.
2. Set ROADSIDE Circuit Breaker to off
3. At the AC UPS Power Bay CB panel, set UPS2 AC OUTPUT Circuit Breaker
to off.
4. At the AC UPS Power Bay CB panel, set UPS1 AC OUTPUT Circuit Breaker to off.
5. At the UPS2, set the main power toggle switch to off by pushing to the
left. Hold this position for a few seconds until all the lights are extinguished then release.
6. At the UPS1, set the main power toggle switch to off just as you did for
UPS2.
7. Set UPS2 DC INPUT Circuit Breaker to off.
8. Set UPS1 DC INPUT Circuit Breaker to off.
9. Set UPS2 AC INPUT Circuit Breaker to off.
10. Set UPS1 AC INPUT Circuit Breaker to off.
11. Set the DC CONTROLS CB to off.
12. On the Power Control panel press the DC ON/OFF pushbutton indicator switch to off.
13. Push the red switches on the Battery Bank Circuit Breaker in.
14. Set the MAIN LIGHTS Circuit Breaker to off.
15. Set the BLACKOUT BYPASS switch to off.
16. On the AC side set the BATTERY CHARGER Circuit Breaker to off.
17. Place the MAIN POWER Circuit Breaker to off.
18. On the DC Control panel pull out in the DC Control CB. 19. On the AC Control panel pull out CBs L2 and L1.
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Lot 10 Passwords
Equipment Type User Name Password
Routers & Switches gdadmin Gd1234$ (Default) cisco cisco
STT Laptop On Laptop Firewall gdadmin GenDyn12#$
(Group A) none none (Default) cisco cisco
Firewall IPS (Default) cisco cisco (Group A) cisco cisco@123
cisco GenDyn12#$ Community Strings Read Only ASSAULT Read/Write TLUASSA Computer Login PASSWORD Call Manager ( & Laptop) administrator GenDyn1234567*( administrator GenDyn1234567*(Call Manager Application (On Server) administrator GenDyn1234567*(Call Manager Web (On B CPN & Java) ccmadministrator GenDyn1234567*(Promina (Default) NETOP TAKECARE NETOP GenDyn12#$ Redcom root yam MRV InReach access
Superuser Password: system
WanScaler admin wanscaler KVM (Default) admin Test1234$ gdadmin GenDyn12#$ AntiVirus (Default) scmadmin scmchangeme scmadmin GenDyn12#$ Element Manager gdadmin GenDyn12#$ EM SNMPC none none FlexMux admin admin WanManager , all Managers & Servers gdadmin GenDyn12#$
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TFTP Directions To a Router Assign an IP address and Subnet Mask to the interface
Assign an IP address within the range of the IP of the interface to the computer with the interface as the gateway of the computer, same subnet mask.
Open your command prompt and ensure you can ping your gateway. Ex: Router# conf t Router(conf)# int g0/1 Router (conf-if)# ip address 10.0.0.1 255.0.0.0 Router (conf-if)# no shut On the computer Ip address : 10.0.0.2 Subnet Mask: 255.0.0.0 Gateway: 10.0.0.1 Cmd prompt: ping 10.0.0.1 Open your tftp server, ensure that the IP address of the computer appears in the bottom of the window. Click on configure, ensure that the TFTP server is pointing to the correct folder which holds your configs. Go back to your router Router# copy tftp star IP address of TFPP server# 10.0.0.2
Source Filename[ ] (go to the folder where the file is and right click on file and select rename, now you can highlight the name and copy it, paste it into the router. !!!!!!!!!!!!!!!!!!!!!!!!!! OK
Router# Sh start When you show start, you should be able to view the TFTP config file, if the file is correct move forward.
Router# Copy Start Run
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To A Switch Assign an IP address to any VLAN with a subnet. Go into VLAN Database and ensure the VLAN is in the database. Switch# conf t Switch (conf-t)# int vlan 10 Switch (conf vlan) # ip address 10.0.0.1 255.0.0.0 Switch (conf vlan)# no shut Switch# vlan d Vlan 10 Applied VLAN d# exit Now you must go into the port that the computer will be connecting to and give that port switchport access to the vlan. Switch# conf t Switch (conf)#int g 0/1 Switch (conf-if)#switchport access vlan 10 Switch (conf-if)#no shut Now go to your computer and set the TCP/IP settings. IP Address : 10.0.0.2 Subnet: 255.0.0.0 Gateway: 10.0.0.1 Ensure you can ping the gateway ip address from the computers command prompt. Open your tftp server, ensure that the IP address of the computer appears in the bottom of the window. Click on configure, ensure that the TFTP server is pointing to the correct folder which holds your configs. Go back to your switch Router# copy tftp star IP address of TFPP server# 10.0.0.2
Source Filename[ ] (go to the folder where the file is and right click on file and select rename, now you can highlight the name and copy it, paste it into the router. !!!!!!!!!!!!!!!!!!!!!!!!!! OK
Switch# Sh start If the config is correct Switch# copy start run TFTP Config in VG-224 Must go to Config > stcapp To show Registration with the CCM > Type in Show SCCP
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KG-175D (TACLANE Micro) PROCEDURES KG-175 (TACLANE Micro) Installation/Operation As the KG-175D requires an Ethernet interface for programming, the Network Manager Laptop must be connected to the KG-175D Ethernet port (with a straight Ethernet cable) and the laptop’s IP address must be configured to be compatible with the KG-175D. The following steps illustrate the procedures needed to install and operate the TACLANE Micro in the JNN/SSS application. The default IPv4 address for the TACLANE Micro console/HMI interface port is 172.16.0.1. It is necessary for the NIPR Management Laptop to be on the 172.16 network. Change the NIPR Management laptop IP address to 172.16.0.2 255.255.0.0 to enable communication with the TACLANE Micro172.16.0.1 console interface. STEP 1:
On the Node Manager Laptop, open up internet explorer and enter the default IP address of the TACLANE 172.16.0.1 in the URL.
STEP 2: Enable SSO privileges: Maintenance>Security>Administration>Enable SSO Privileges STEP 3: Enter PIN number>Select YES STEP 4: Maintenance>Date & Time
*time must be within 55 min of other TACLANES in the network* STEP 5: Select Security>Traffic Flow Security>Fixed Packet Length *Ensure mode is set to 0800* STEP 6: Select Security>Traffic Flow Security>Bypass
*Select TOS Bypass and scroll to the bottom of the screen, Select Set All and confirm selections*
STEP 7: Connect the fill device STEP 8: On the TACLANE GUI select Key Management>Firefly *Ensure there are no fireflies already loaded, then select fill* STEP 9: From the Offline Mode Key Management>PPK (PrePlaced Key) STEP 10: Select Empty Chain>Select Manage Keys in chain icon>FILL STEP 11: Type Field=SDD, Set Date to FIRST OF THE MONTH, then fill device
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STEP 12: From the Initialize Mode go to Network>IP COMM>IPv4 Address STEP 13:
Enter the assigned address with prefix length for both PT and CT>Enter the Gateway address for both the PT and CT
STEP 14: Select yes to save changes, TACLANE will restart>then log back in>Change Initialize Mode back to Offline mode.
STEP 15: PPK Assignment Security>PPK Assignment>Select PPK you just loaded STEP 16:
Enter the IPv4 multicast address of 239.255.0.1 and select the add icon, Ensure the TACLANE is in SECURE COMM (online) and choose proper security classification.
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TDMA SWITCH BACKBONE
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CTM-100 SETTINGS
Settings LOS JNN CDI JNN Fiber Win-T Inc. 1a Delta
STT*
Mode CTM100/B NRZ-CDI
CTM100/B NRZ-CDI
Fiber Optic
Fiber Optic Fiber Optic
Input (Fiber only)
NRZ NRZ NRZ
Link Rate 1024 or other rate
1024 or other rate
1024 or other rate
2048 or other rate
1024 or other rate
Mode EIA-530A EIA-530A EIA-530A EIA-530A EIA-530A NRZ
Config. DCE/INT DCE/EXT DCE/EXT DCE/EXT DTE/INT
Clock Source
CDI SCTE INPUT EXT-5 FIBER
Clock Edge Normal Normal Normal Normal Normal Data
Polarity Invert Normal Normal Normal Normal
Test Pattern
OFF OFF OFF OFF OFF
TMODE (Test Mode)
OFF OFF OFF OFF OFF
Loop OFF OFF OFF OFF OFF Error Count Disabled
unless in Test Mode
Disabled unless in
Test Mode
Disabled unless in
Test Mode
Disabled unless in
Test Mode
Disabled unless in
Test ModeError Rate Disabled
unless in Test Mode
Disabled unless in Test Mode
Disabled unless in Test Mode
Disabled unless in Test Mode
Disabled unless in Test Mode
* Note: If using Lot 9 + STT, the STT NRZ Config. is DTE/INT
<C> CDI port is active and is system clock source
<E> EXT clock port is active and is system clock src
<P> Phased locked system clock source is equal to data rate
<c> cdi port is active and is not system clock source
<e> ext clock port is active and is not system clock source
<P+> Phased locked system clock source is higher than data rate
<N> NRZ port is active and
<F> FIBER port is
<P-> Phased locked
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is system clock source
active and is system clock source
system clock source is lower than data rate
<n> nrz port is active and is not system clock source
<f> fiber port is active and is not system clock src
<Lx> x is a no. between 0 and 9 where 9 is the best CDI signal level
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WIN-T Inc 1 KIV-7M Strapping
Revision - A
For KIV-19 Functionality (Routers Only) Setup Setup Item Setting Comments
- - SelPers KG-194 Sets Unit's Personailty
(Ch
ann
el)
1 o
r 2
SecLvl Secret Security Level (set appropriately)
A
ClkSel Normal Clock Mode SyncSel COOP Synchronization Mode CommSel FDX Communications Mode Mode MODE A Crypto Mode Invert
Inverts Selected Signals
BLK TX Inverted BLK RX Inverted RED RX Inverted RED TX Inverted SYNCTX (None) SYNCRX (None) BlkTClk (None) BlkRClk (None) RedTClk Inverted RedRClk Inverted PTTT (None) CTTT Inverted
Timeout 2^0bit Sets timeout period
B
PTRS I Forced
Sets control signal characteristics
PTTR I Normal PTCS O Normal PTRR O Normal PTDM O Normal CTCS I Forced CTRR I Forced CTDM I Forced CTRS O Normal CTTR O Normal
RsncLvl Edge SYNCTX/SYNCRX edge or level
detection FIL I/F DS-102 Sets Fill port electrical interface Filaddr 1 Fill port address FilBaud 2400 Fill port baud rate
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WIN-T Inc 1 KIV-7M Strapping
Revision - A
For KIV-19 Functionality (SA-TRK Only) Setup Setup Item Setting Comments
- - SelPers KG-194 Sets Unit's Personailty
(Ch
ann
el)
1 o
r 2
SecLvl Secret Security Level (set appropriately)
A
ClkSel Normal Clock Mode SyncSel COOP Synchronization Mode CommSel FDX Communications Mode Mode MODE A Crypto Mode Invert
Inverts Selected Signals
BK TX Inverted BLK RX Inverted RED RX Inverted RED TX Inverted SYNCTX (None) SYNCRX (None) BlkTClk (None) BlkRClk (None) RedTClk Inverted RedRClk Inverted PTTT (None) CTTT Inverted
Timeout 2^0bit Sets timeout period
B
PTRS I Forced
Sets control signal characteristics
PTTR I Invert PTCS O Normal PTRR O Normal PTDM O Normal CTCS I Forced CTRR I Forced CTDM I Forced CTRS O Normal CTTR O Normal
RsncLvl Edge SYNCTX/SYNCRX edge or level
detection FIL I/F DS-102 Sets Fill port electrical interface Filaddr 1 Fill port address FilBaud 2400 Fill port baud rate
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WIN-T Inc 1 KIV-7M Strapping Revision - A
For KIV-7 Functionality (Routers Only) Setup Setup Item Setting Comments
- - SelPers KIV-7 Sets Unit's Personailty (C
han
nel
) 1
or
2
SecLvl Secret Security Level (set appropriately)
A
ClkSel Master Clock Select
SyncSel Red Synchronization Mode Options
CommSel FDX Communications Mode
DataMod BB Data Modulation
DataLen Synch/S Data Length
Tx Rate Ext DRC Transmit Data Rate
Rx Rate Ext DRC Receive Date Rate
TTY Mode AUTO Teletype Mode
B
Invert
Inverts Selected Signals
BK TX (None)
BLK RX (None)
RED RX (None)
RED TX (None)
SYNCTX (None)
SYNCRX (None)
BlkTClk (None)
BlkRClk (None)
RedTClk (None)
RedRClk (None)
PTTT (None)
CTTT (None)
Tx Clock contTXC Gate/continuous Terminal Tx clk
Rx Clock contRXC Gate/continuous Terminal Rx clk
SyncOOS Disabld Synchronous out-of-sync detection
IdleSel Disabld Idle Select
UpdateU Enabled Enable auto update of KEK
HDR Byp Disabld Enable header bypass
OTART/O 5 sec Sets OTAR timeout
C
Red I/F EIA-530 Red-side Electrical Interface
Black I/F EIA-530 Blk-side Electrical Interface
PTRS I Normal
Sets control signal characteristics
PTTR I Normal
PTCS O Normal
PTRR O Normal
PTDM O Normal
CTCS I Normal
CTRR I Normal
CTDM I Normal
CTRS O Normal
CTTR O Normal
RsncLvl Edge SYNCTX/SYNCRX edge or level detection
FIL I/F DS-102 Sets Fill port electrical interface
Filaddr 1 Fill port address
FilBaud 2400 Fill port baud rate
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Cisco Unified Call Manager WIN-T Inc 1A Setup 1. Service Activation Application >> CCM Serviceability >> Tools >>
Service Activation [Click] CCM IP [Check] Cisco Callmanager, Cisco Tftp, Cisco IP Voice Media Streaming App, Cisco CTIManager, Cisco MOH Audio Translator, Cisco RIS Data Collector, Cisco Database Layer Monitor, Cisco Extended Functions, Cisco Serviceability Reporter [Update]
2. Service Activation Application >> CCM Serviceability >> Tools >>
Control Center [Click] CCM IP [Stop] [Start]
3. Cisco Callmanager Application >> CCM Administration >> System >>
Cisco Callmanager CCM Name* = (CCM IP Address) Starting Directory Number* = 7700000 (Example if using auto registration) Ending Directory Number* = 7700080 (Example if using auto registration) [Check] Auto-registration Disabled on this CCM (If using BAT file) [Update] [Reset]
4. Enterprise Parameters System >> Enterprise Parameters
MLPP Parameters: MLPP Indication Status* = MLPP Indication turned on MLPP Preemption Setting* = Forceful Preemption [Update] Read Note below before modifying all Fields containing only the “HTTP://” URL from Hostname to an IP Address.
NOTE:
To change the CCM configuration and modify the Enterprise Parameters screen: Go to System > Enterprise Parameters screen and modify all
HTTP://URL’s Hostname references and change the Host Name to an IP address. As an example, for the parameter “URL Help”, change the field from “http://it4-ccm/help” to “http://Your Call Manager I.P./help”. After
modifying all relevant URLs within the Enterprise Parameters Screen, click update to set the entries. For these new parameters to go out to phones
that are already registered, you must also restart the Call Manager service.
Click “Update”
5. REGIONS System >> Regions (Modify Default) G.711 Region G.729 Region
G.711 Codec = G.711 G.711 Codec = G.729 G.729 Codec = G.729 G.729 Codec = G.729 Bandwidth= (200k) both Bandwidth = (200k) both [Update] [Reset] [Insert]
*Note: G.729 appears under G.711 after G.729 region is added.
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6. Device Pools System >> Device Pools (Modify Default) G.711 Device Pool G.729 Device Pool
CCM GRP=Default CCM GRP=Default Date/Time=CMLocal Date/Time=CMLocal Region=G.711 Region=G.729 SRST=Disable SRST=Disable
7. Service Parameters Service >> Service Parameters >>
CCM Clusterwide Parameters (Service) Maximum Ad Hoc Conference = 20 (Default = 4) Maximum MeetMe Conference = 20 (Default = 4)
Clusterwide Parameters (Device – General)
T302 Timer (msec)* = 4000 (Default = 15000) T305 Timer (msec)* = 6000 (Default = 30000) Call Classification* = OnNet
Clusterwide Parameters (Device – H.323)
Send H225 User Info Message* = H225 Info for Call Progress Tone
Clusterwide Parameters (Feature–Multilevel Precedence and Preemption)
Location-based MLPP Enable* = True
Clusterwide Parameters (System - QoS) DSCP for Immediate Audio Calls* = 101011 DSCP for ICCP Protocol Links* = CS5 (Precedence 5) DSCP (101000)
8. Service Parameters Service >> Service Parameters >> Cisco IP Media Streaming App
Clusterwide Parameters (Parameters that apply to all servers) Supported MOH Codecs* = 711 mulaw Default TFTP MOH IP Address* = (CCM IP address)
9. Media Resources Service >> Media Resource >> (The Resource that is
being added or modified)
NOTE 1: Transcoder (xcode001) and IOS MTP (mtp001) must match the names in the router configuration, and must show as registered with the Call Manager to
function. If status displays as “not found”, verify the “sccp ccm group 1” configuration in the respective (SIPR or NIPR) Tier 2 router. (example: associate
profile 1 register xcode001.)
NOTE 2: Software MTP, Annunciator, Conf. Bridge, and MOH Server are automatically
added when IP Voice Media Streaming Applications is checked in Service Activation (Step 1). If these devices are not shown or are incorrect, stop and restart the IP Voice Media streaming in the Service Activation Control Center.
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Likewise, they are automatically removed when the IP Streaming service is unchecked or stopped. As a result, steps b.ii, c, d, and e should not be “add”
actions, rather “verify” actions.
a. Transcoder Transcoder Type = Cisco IOS Enhanced Media Termination Point Description = xcode001 Device Name* = xcode001 Device Pool* = G.711 Device Pool
b. Media Termination Point
IOS MTP
MTP Type = Cisco IOS Enhanced Software MTP MTP Name* = mtp001 Description = mtp001 Device Pool* = G.711 Device Pool
Software MTP MTP Type = Cisco Media Termination Point Software MTP Name* =
MTP_xxx.xxx.xxx (x = 1st 3 octets of CCM IP) Description =
MTP_xxx.xxx.xxx (x = 1st 3 octets of CCM IP) Device Pool* = G.711
Device Pool
c. Annunciator
Annunciator Name = ANN_xxx.xxx.xxx (x= 1st 3 octets of CCM IP)
Description = ANN_xxx.xxx.xxx (x= 1st 3 octets of CCM IP) Device Pool*
= G.711 Device Pool
d. Conference Bridge Conference Bridge Name* = CFB_xxx.xxx.xxx Description = CFB_xxx.xxx.xxx Device Pool* = G.711 Device Pool
e. Music On Hold Server
MOH Server Name* = MOH_xxx.xxx.xxx Description = MOH_xxx.xxx.xxx Device Pool* = G.711 Device Pool Maximum Multicast Connections* = 30
10. Media Resource Group Service >> Media Resources >> Media Resource Group
ANN_xxx.xxx.xxx into ANN-MRG CFB_xxx.xxx.xxx into CFB-MRG MOH_xxx.xxx.xxx into MOH-MRG MTP_xxx.xxx.xxx into MTP-SOFT-MRG mtp001 into MTP-IOS-MRG xcode001 into XCODE-MRG
11. Media Resource Group List Service >> Media Resources >> Media Resource Group List
a. G.711 MRGL XCODE-MRG MTP-IOS-MRG MTP-SOFT-MRG ANN-MRG CFB-
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MRG MOH-MRG b. G.729 MRGL
MTP-IOS-MRG XCODE-MRG MTP-SOFT-MRG ANN-MRG CFB-MRG MOH-MRG
12. Go back to the Device Pools and add the MGRL to each. 13. Location System >> Location
Create 3 locations: TDMA, FDMA, and LOS (NOTE* may need to make more based on varying link bandwidths) Audio Bandwidth = 480 kbps (For a 4Mb TDMA Link) Audio Bandwidth = 480, 960, 2000 or 4000kbps (For a 1, 2, 4 or 8Mb FDMA Link) Audio Bandwidth = 480, 960, 2000 or 4000kbps (For a 1, 2, 4 or 8Mb LOS Link) Video Bandwidth = 200 (For all locations)
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14. Partitions Route Plan >> Class of Control >> Partition Add a New Partition for each of the following: 90-94_Routes BLOCK SET_F SET_FO SET_I SET_P SET_R
15. Calling Search Space Route Plan >> Class of Control >> Calling Search
Space Add a New Calling Search Space for each of the following: Calling Search Space Name* = PREC_FO Description = Flash Override Precedence Select Partitions* = SET_FO, SET_F, SET_I, SET_P, & SET_R Calling Search Space Name* = PREC_F Description = Flash Precedence Select Partitions* = SET_F, SET_I, SET_P, SET_R, & BLOCK Calling Search Space Name* = PREC_I Description = Immediate Precedence Select Partitions* = SET_I, SET_P, SET_R, & BLOCK Calling Search Space Name* = PREC_P Description = Priority Precedence Select Partitions* = SET_P, SET_R, & BLOCK Calling Search Space Name* = PREC_R Description = Routines Precedence Select Partitions* = SET_R, & BLOCK Calling Search Space Name* = 90-94_Routes Description = Precedence Routes Select Partitions* = 90-94_Routes
16. Intercluster Trunks Device >> Trunk
Create one for each link Type = Inter-Cluster Trunk (Non-Gatekeeper Controlled) Protocol = Inter-Cluster Trunk [Next] Name* = JNN_77010_SCMX (Example) Description = JNN_77010_SCMX (Example) Device Pool* = G.729 Call Classification* = OnNet Location = TDMA (Base on type of link) [UnCheck] Media Termination Point Required (Unless going to a CME) Significant Digits* = All Calling Search Space = PREC_FO (All trunks) Calling Party Selection* = Originator Server 1 IP Address/Host Name* = (IP of remote CCM or CME) [Check] Passing Precedence Level through UUIE (User-to-User Information Element)
17. VOIP Phones After phones are registered, go into each and configure Calling Search Space on device and Max Calls to 4 and Busy Trigger to 1on the line.
MGCP Gateway T1 Configure T1 CCM MGCP Gateway using the CISCO 3825 Router as the Gateway. Device >> Gateway >> Add a new Gateway Gateway Type > 3825
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Device Protocol > MGCP Domain Name > HOST NAME OF NT2R ROUTER Domain > .jntc.army.mil CCM Group > Default Installed Voice Interface Cards > Slot 0 > NM-4VWIC-MBRD Global ISDN Switch > 4ESS > Insert Sub Unit 0 > VWIC-2MFT-T1E1-T1 Update
*Note: If gateway does not register with the Call Manager, check the portion of
your NT2R config that specifies mgcp. Ensure that the Call Manager’s I.P. is in the mgcp statement and not the hostname. Since there is no DNS
server, the router cannot translate the hostname to an address. Configure T1: In the “Endpoint Identifier” Section Click on the Endpoint “0/0/0” (IF the T1 card is located in that slot) The Device Protocol is “T1-PRI” Device Pool is “G.711” Leave all other settings default. You can scroll down to “Product Specific Configuration” Section and change to Clock Source if Necessary. Click “Insert” Under the field: Interface Information
PRI Protocol Type: PRI 4ESS Protocol Side: User Channel Selection Order: Top Down
Click “Insert” then “Update” and “Reset Gateway”
18. Adding VG224 Gateway 1. Select device then Gateway
2. Gateway Type = VG224 Device Protocol = SCCP
3. [Next]
4. Enter the last 10 characters (minus the zeros) of the VG224 MAC address into the MAC address field.
5. Cisco Unified Call Manager Group = Default
6. Module in slot 2 is ANALOG
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7. [Insert]
8. Subunit is 24FXS-SCCP
9. [Update]
10. At this step, your 24 VG224 Ports appear. Click each port and assign a
phone number to each with the Device Pool being G.711 and the Phone button template being Standard Analog.
19. Translation Pattern Route Plan >> Translation Pattern
Add a New Translation Pattern for each of the following in JNN/SSS/CPN SIPR & NIPR Translation Pattern = 9[0-4]! Partition = BLOCK Description = Block Unauthorized Precedence MLPP Precedence = Default [UnCheck] Provide Outside Dial Tone Route Option = Block this pattern Precedence Level Exceeded [Insert] Translation Pattern = 90! Partition = SET_FO Description = Set Call Precedence to Flash Override Calling Search Space = 90-94 Routes MLPP Precedence = Flash Override [Uncheck] Provide Outside Dial Tone Route Option = Route this pattern [Insert]
Translation Pattern = 91! Partition = SET_F Description = Set Call Precedence to Flash Calling Search Space = 90-94 Routes MLPP Precedence = Flash [UnCheck] Provide Outside Dial Tone Route Option = Route this pattern [Insert] Translation Pattern = 92! Partition = SET_I Description = Set Call Precedence to Immediate Calling Search Space = 90-94 Routes MLPP Precedence = Immediate [UnCheck] Provide Outside Dial Tone Route Option = Route this pattern [Insert] Translation Pattern = 93! Partition = SET_P Description = Set Call Precedence to Priority Calling Search Space = 90-94 Routes MLPP Precedence = Priority [UnCheck] Provide Outside Dial Tone Route Option = Route this pattern [Insert] Translation Pattern = 94! Partition = SET_R Description = Set Call Precedence to Routine Calling Search Space = 90-94 Routes MLPP Precedence = Routine [UnCheck] Provide Outside Dial Tone Route Option = Route this pattern [Insert] Translation Pattern = 9[0-4].9[0-1]X[2-8][0-1]XXXXXXXX Partition = 90-94_Routes Description = 90-94 Calls to Callmanager Routes and PBX MLPP Precedence = Default [UnCheck] Provide Outside Dial Tone Route Option = Route this pattern Under Called Party Transformations Discard Digits = PreDot
20. Route Groups Route Plan >> Route/Hunt >> Route Group
Route Group Name* = JNN_XXXX_RG Distribution Algorithm* = Top Down Select Trunk or Gateway [Add to Route Group] (Can add more than one for alt. routing) [Insert]
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*Note: Create a group for each trunk
21. Route Lists Route Plan >> Route/Hunt >> Route List
Route List Name* = JNN_XXXX_RL CCM Group* = Default [Insert] [Ok] [Add Route Group] Route Group* = JNN_XXXX_RG (Select from drop down menu) [Insert] [Reset] *Note: Create a list for each JNN/SSS trunk Add more than one group to each for alt. routing in order of preference
22. Route Patterns Route Plan >> Route/Hunt >> Route Patterns
Route Pattern* = [2-8][2-9]XXXXX (7 Digit Dialing) Gateway or Route List* = (Select appropriate list or trunk) Route Option = Route this pattern
*NOTE* - Need one for HUB link
Route Pattern* = 9[0-1]X[2-8][0-1]XXXXXXXX (13 Digit Dialing) Gateway or Route List* = (Select appropriate list or trunk) Route Option = Route this pattern [Uncheck] Provide Outside Dial Tone [Check] Urgent
Priority [Insert]
*NOTE* -
Need one for each SSS link Route Pattern* = 5724[0-4]XX (Example of remote SSS pattern)
Gateway or Route List* = (Select appropriate list or trunk) Route Option = Route this pattern [Uncheck] Provide Outside Dial Tone [Check] Urgent
Priority [Insert]
*NOTE* - Need one for each SSS link
Route Pattern* = 7700[2-7]XX (Example of remote CPN pattern) Gateway or Route List* = (Select appropriate list or trunk) Route Option
= Route this pattern [Uncheck] Provide Outside Dial Tone [Check] Urgent Priority [Insert]
*NOTE* -
Need one for each local CPN The following pattern is for local REDCOM only:
Route Pattern* = 7700[0-1]XX (Ex. of REDCOM Route pattern) Gateway or Route List* = (Select appropriate gateway) Route Option =
Route this pattern [Uncheck] Provide Outside Dial Tone [Check] Urgent Priority
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NX-1000 Quick Reference
DELETING AND ADDING A NEW DATABASE
INSTALLING CARDS AND PORTS
ADDING A GATEWAY (Only if your node is directly
connected to a different Domain (Gateway). i.e. STEP
site, GIG, DISA) 1.) Logon to NX1000: Username: NETOP Password: GenDyn12#$ or TAKECARE 2.) (1)- operator interface 3.) (1)- continue with session 4.) (7)- session parameters 5.) (2)- modify 6.) (2)- change to expert 7.) Press the ESC key twice. 8.) (1)- continue with session 9.) Enter init data then ENTER. 10.) *wait until Promina reboots* 11.) Logon to NX1000: Username: NETOP Password: GenDyn12#$ or TAKECARE 12.) (1)- operator interface 13.) (1)- continue with session 14.) Enter DOMAIN# ( Domain number of your switch) 15.) Enter NODE# (example 6511= 11) ( Last two numbers of your switch) 16.) Enter NODE NAME ( Name of your switch, example JNN6511 or N11) 17.) Enter SERIAL# ( NX1000 serial number on front of unit) 18.) INSTALL NEIGHBOR NODES= YES 19.) NODE# (example 6511=
SX 1.) Ins Card,C0 Accept defaults PPM 2.) Ins Card,C3 Accept defaults BX 3.) Ins Card,C30 Accept defaults 4.) Ins Card,C46 Accept defaults 5.) Ins Card,C62 Accept defaults PSM 6.) Ins PSM Accept defaults URD 9.) Ins Card,C48 (timing) Accept defaults 10.) Ins Port,C48P2 [0] Ans-Only [4] Port Speed= 256000 [19] Local CTS=Yes [47] Clk Ref= 0 SA TRK 11.) Ins Card,C17, C18 (C17 is CDIM 2A) (C18 is CDIM 2B) [0] Neighbor Node=XX (example 6511= 11) (xx or DxxNxx if not in same domain) [15] Clk Ref=0 (C17) [17] Logical Slots=X (1 = 0-2048) (2 = 4096) (4 = 8192)
1.) Logon to NX1000: Username: netop Password: GenDyn12#$ or TAKECARE 2.) (1)- operator interface 3.) (1)- continue with session 4.) (7)- session parameters 5.) (2)- modify 6.) (2)- change to expert 7.) Press the ESC key twice. 8.) (1)- continue with session 9.) Enter MOD LDM Then ENTER. 10.) Option 0 Domain Number=X (your domain number) 11.) Option 1 Gateway Node= YES 12.) Option 2 Transit Domain= 0 *Note: if you have to go through another domain to get to the domain of the switch you are connecting to then that will be your transit domain number 13.) Enter INS NGW Then ENTER. 14.) INSTALL NGW ON WHICH NODE [This Node] Node ID= ENTER. 22
11) *Note: any Switch that you are directly connected to in
your same domain 20.) NODE NAME=X (example SSS6511) ( Name of neighbor switch you just added) 21.) INSTALL ANY OTHER NEIGHBOR NODES Yes Or No= NO *Note: repeat steps 18,19 & 20 until all neighbor nodes have be added, then enter NO 22.) WILL NODE PROVIDE MASTER CLOCK Yes Or No= NO 23.) REFERENCE INDEX= 6 24.) SLOT NUMBER= 48 25.) PRIORITY= 1 26.) REFERENCE INDEX= 2 27.) SLOT NUMBER= 17 28.) PRIORITY= 2 29.) IS THIS TIMING SOURCE EXTERNAL TO THE NETWORK= YES 30.) REFERENCE INDEX= 3 31.) SLOT NUMBER= 18 32.) PRIORITY= 3 33.) IS THIS TIMING SOURCE EXTERNAL TO THE NETWORK= YES 34.) DO YOU WANT TO INSTALL ANY LINKS AT THIS TIME= YES 35.) INSTALL WHICH LINK [all on this node] LINK ID= Press ENTER. *Note: keep repeating until all of the switches you have added have been installed. 36.) INSTALL ANY OTHER LINKS AT THIS TIME Yes Or
[18] Transmit Rate [19] Receive Rate [22] Modify Card (1) Ext Clk= EXT (5) Impedance= 78 Ohms (6) RT/ST Ref Src= ST HSD 12.) Ins Card,C21 Accept defaults 13.) Ins Port,C21P0-3 [0] Ans-Only Or Orig-Only *Note: If you use Orig-Only then you must set the destination point : NxxC21Px [4] Port Speed= HSD'S Data Rate [19] Local CTS=Yes NVX (PVS-E) 7.) Ins Card,C19 [11] ins/mod digroup Digroup#=0 Digroup Type=T1 [4] Framing=esf [6] Zero Suppression=B8ZS [Y] To activate ports 8.) Ins Port, c19p0-7 [0] ORIG/ANS [1] Destination Port NxCxPx [6] Call Answer Signal = Demand [7] Call Orig Signal = Demand [12] Speech Compression [1] 9.6 LDCELP [21] Signaling Protocol [10] MLPP [48] Echo Canceller = Preferred [79] PVS Secure Required = Yes
15.) GATEWAY NODE ID= DxxNxx Dxx= The domain number of the switch you are going to over the gateway Nxx=This is the last two numbers of any switch that you are connecting to in a different domain 16.) NODE NAME=X (example SSS6517) This is the name of the switch you have just added as a neighbor. 17.) INSTALL ANY OTHER NEIGHBOR NODES Yes or NO= NO *Note: repeat steps13, 14, and 15 until all neighbor nodes have been added 18.) Enter INS GWL Then ENTER. 19.) GATEWAY LINK ID= DxxNxxDxxNxx *Note: The 1st DxxNxx= Is your domain # and the last two numbers of your switch *Note: The 2nd DxxNxx= Is th
other switch’s domain # and the
last two numbers of their switch 20.) Enter INS DPM Then ENTER. 21.) INSTALL DPM ON WHICH NODE [This Node] Node ID= ENTER. 22.) INSTALL FOR WHICH
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No= NO ***DATABASE HAS BEEN SAVED*** 37.) *wait until Promina reboots* 38.) Logon to NX1000: Username: netop Password: Gd1234567$ or TAKECARE 39.)You will be required to change the password Username: netop Password: GenDyn12#$
PORT PORT ID= DxxNxxC*P* Dxx= The domain # of your switch Nxx= The last two numbers of your switch 23.) Option 0 Inbound Calls Allowed= YES Option 1 Outbound Calls Allowed= YES Option 2 Transit Calls Allowed= YES Option 7 Query Path Allowed = YES cancel alarms Can ala, n#/all/nof/y/c (n# is your node number)
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PBX REDCOM SLICE Clearing the REDCOM
1. Delete Database a. Enter “Login: root” as the username b. Enter “Password: yam” as the password c. rsh/tmp>del *.db d. Unseat PCMCIA card in slot 1. e. rsh/tmp>cd /sys f. rsh/tmp>del *.db g. rsh/tmp>dup /sys /sysrom h. rsh/tmp>cd /tmp
2. Reboot the switch
a. rsh/tmp>dbunlk b. rsh/tmp>reset c. “Okay to reboot the shelf?” y d. “Enter the confirmation code. teser e. “Database changes may be lost, ok to continue? <y/n>” y
Wait for the login prompt before continuing.
GEN JOB
1.GEN/System Configuration: a. Login into the PBX b. Enter “Login: root” as the username c. Enter “Password: yam” as the password d. rsh/tmp>gen e. gen>system f. Set Switch Type: gen/system>switch_type=mil g. “This command will overwrite Dial Code Tables…
Do you wish to continue? (Y)es, (N)o, (C)ustomize or (S)witch setting only? Y
h. gen/system>sequence=none i. gen/system>specific=yes j. gen/system>fill k. Use “gen/system>exit;act” command to return to the main GEN
screen and apply changes and to the active database.
2. Gen/Hardware Configuration: a. Gen>hardware b. Gen/hardware>fill (Fills all the PBX cards.) c. “How many primary circuits for met board in MSU 0/0 (0-4)[0]?” 1
(Enter the number of PRI Trunks needed) d. “How many announcer circuits for met in MSU 0/0 slot 1 (0-8)[0]? 4
(Enter the number of Announcer circuits required) e. Span type for met 0/0. 1/0 (t1, e1_cas_on, e1_cas_off, e1)[t1]?
T1(set the MET type to T1) f. Gen/hardware>exit;act (to exit and save changes)
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3. Gen/Ethernet Configuration a. Gen>Ethernet b. Gen/Ethernet>ip=<IP Address> c. Gen/Ethernet>netmask=<Mask> d. Gen/Ethernet>gateway=<gateway IP> e. Gen/Ethernet>exit;act
ADM JOB 1. Setting up Area code and Switch code:
a. Open up the NPA Table: Rsh/tmp>adm(Gets you into the admin job) Adm>npa
b. Enter Home area code: Adm/npa>npa=______ (601)
c. Enter Home switch code: Adm/npa>hmx=______(example: 672)
d. Adm/npa>exit;act
2. Assign the Home NATO Code in DCT=11 a. Open Dial Code Table 11:
Adm>dct=11 b. Verify that the default entries meet network needs.
Adm/dct>entry=1;pattern=914 (Default for U.S. NATO Area Code) c. Assign the NATO route to CUCM:
Adm/dct>entry=8;pattern=90xxxxxxxxxxx;type=rte;val=7 (Count your “xxxx” carefully! There are 11 x’s)
d. Assign the NATO route to CUCM: Adm/dct>entry=9;pattern=91xxxxxxxxxxx;type=rte;val=7 (Count your “xxxx” carefully! There are 11 x’s)
e. Adm/dct>exit;act (save and exit)
3. Assign the Home Area Codes in the NIPR Voice network a. Open Dial Code Table 6:
Adm>dct=6 b. Assign the Home Area Code:
Adm/dct>entry=1;patt=_____ (Fill in the blank with your Home Area Code) (NPA)
c. Assign the HMX redirect: Adm/dct>entry=7;patt=nnx;type=dct;val=7;mark=0
d. Assign the Area Code route to CUCM: Adm/dct>entry=8;patt=n0xxxxxxxx;type=rte;val=7 (Count your X’s. There are 8)
e. Assign the Area Code route to CUCM: Adm/dct>entry=9;patt=n1xxxxxxxx;type=rte;val=7 (Count your X’s. There are 8)
f. Adm/dct>exit;act(save and exit)
4. Assign the Home Switch Code in DCT=7: a. Open Dial Code Table 7:
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Adm>dct=7 b. Assign the Home Switch Code:
Adm/dct>entry=1;patt=_____ (Fill in the blank with your Home Switch Code)
c. Assign the HMX route to CUCM: Adm/dct>entry=9;patt=nnxxxxx;type=rte;val=7 (Count your X’s. There are 5)
d. Adm/dct>exit;act(save and exit)
5. Assign the Local Station block – Used to define routes to foreign switches that share the same Home Switch Code, and internal VoIP interfaces in DCT=8.
a. Open Dial Code Table 8: Adm>dct=8
b. Increase the size of the table: Adm/dct>quantity=12
c. Assign routing to other local Nodes (Note: DO NOT ASSIGN ROUTING TO YOURSELF! Locate the entry for your own Home Station numbers and do not enter that line!)
1. Adm/dct> entry=1;patt=0xxx;type=rte;val=7 2. Adm/dct>entry=2;patt=1xxx;type=rte;val=7 3. Adm/dct>entry=3;patt=2xxx;type=rte;val=7 4. Adm/dct>entry=4;patt=3xxx;type=rte;val=7 5. Adm/dct>entry=5;patt=4xxx;type=rte;val=7 6. Adm/dct>entry=6;patt=5xxx;type=rte;val=7 7. Adm/dct>entry=7;patt=6xxx;type=rte;val=7 8. Adm/dct>entry=8;patt=7xxx;type=rte;val=7 9. Adm/dct>entry=9;patt=8xxx;type=rte;val=7 10. Adm/dct>entry=10;patt=9xxx;type=rte;val=7
d. Assign routing to the local Call Manager: Adm/dct>line=7;trunk=7
e. Assign the route for local POTS phones: Adm/dct>entry=11;patt=xxxx;type=stn
f. Adm/dct>exit;act(save and exit)
6. Change precedence in DCT 3 for Flash a. Open DCT 3
Adm>dct=3 b. Assign the route for local POTS phones:
Adm/dct>entry=4;pattern=1 c. Adm/dct>exit;act(save and exit)
7. ADM Class of Service (COS) Sets
a. Adm>cos=1(To enter the Class of Service screen for Analog Phones.) b. Adm/cos>trkx=on (To allow REDCOM subscribers to transfer a call to
the NIPR Call Manager.) c. Adm/cos>exit;act(save and exit)
8. Set line circuit attributes for the first phone on Card Slot 4 (circuit 4/0)
a. Adm>cct=4/0 b. Adm/cct>circuit (Enters the Line Circuit Attributes screen)
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c. Priority: 1. Adm/line>idle=r 2. Adm/line>default=r 3. Adm/line>max=fo 4. Adm/line>exit;act
9. Set line attributes for the second phone on Card Slot 4 (Circuit 4/1)
a. Adm>cct=4/1 b. Adm/cct>circuit (Enters the Line Circuit Attributes screen) c. Priority:
1. Adm/line>idle=r 2. Adm/line>default=r 3. Adm/line>max=f 4. Adm/line>exit;act
10. Program the Attendant Group
a. Program the Attendant Group 1. Adm>group 2. adm/group>new=lin (Sets up an Attendant Group) 3. adm/group>group=1 (Takes you to the new Group’s Attributes Screen) 4. adm/group>name=Attendant (Sets the name of the group) 5. adm/group>type=atn (Changes the type to Attendant) 6. adm/group>night=774X000 (X is the first digit of your switch’s
subscriber extension code.) 7. adm/group>exit;act 8. adm>dct=0 9. adm/dct>entry=4 10. adm/dct>val=1 (Change value to 1, this sends dialed 0 back to the
Attendant Group 1) 11. adm/dct>dct=3 12. adm/dct>entry=2;pattern=1;type=dct;val=4 (Sends “911” calls to
operator) 13. adm/dct>entry=3;val=1 (This sends “911” <eod> calls to the operator) 14. adm/dct>entry=4;val=1 15. adm/dct>dct=4 16. adm/dct>entry=2;pattern=1;type=grp;val=1 (This is to make 911
Work) 17. adm/dct>exit;act
11. Primary Rate interface link to Tier 2 Router
a. Setup the first slot level attributes for the first T1 card slot 1/0 1. Rsh/tmp>adm 2. Adm>cct=1/0 3. Adm/cct>line=b8zs;framing=esf;alarm=frame;pri=0
b. Setup the signaling on all link circuits to clear channel: 1. Adm/cct>cct=1/0/0 2. Adm/cct><CTRL><A>+<L> 3. Adm/cct>[Count Command] 24, signal=clear;+ 4. Adm/cct>exit;act
c. Program Group=7 as “Trunk” Group
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1. Adm>group 2. Adm/group><CTRL><A>+<L> 3. Adm/group> [Count Command] 7, new=trk 4. Adm/group>del=2 5. Adm/group>del=3 6. Adm/group>del=4 7. Adm/group>del=6
d. Setup group=7 as PRIM link 1. Adm/group>group=7 2. Adm/group> name=”Tier 2 Router” 3. Adm/group>max=f0 4. Adm/group>dial=prim 5. Adm/group>dct=0 6. Adm/group>type=4ess 7. Adm/group> side=network 8. Adm/group>sym=nosym 9. Adm/group>pri_cct=0/0.1/10/0 10. Adm/group>d_ch=0/0.1/0/23 11. Adm/group>prem=on 12. Adm/group>ttar=on 13. Adm/group>a619=on
e. Setup membership for Group=7 1. Adm/group>member 2. Adm/group>add=0/0.1/0/0;qty=23 3. Adm/group>exit;act
f. Setup Route=7 for PRIM Link 1. Adm> route 2. Adm/route>route=7 3. Adm/route>name=”Rte to CUCM any dig” 4. Adm/route>group=7 5. Adm/route>pref=”9o”;del=0;comp=on;out=any 6. Adm/route>exit;act
12.12 Channel MFna link to foreign PBX over TRG
a. Setup the required slot level attributes for the second T1 card slot 1/1 1. Rsh/tmp>adm 2. Adm>cct=1/1 3. Adm/cct>line=b8zs;framing=esf;alarm=frame;pri=4
b. Setup the signaling on all link circuits to E&M 1. Adm/cct>cct=1/1/0 2. Adm/cct><CTRL><A>+<L> 3. Adm/cct> [Count Command] 24,signal=em;+ 4. Adm/cct>exit;act
c. Program Group=5 as “Trunk” group (Skip this step if a trunk group is already created)
1. Adm>group 2. Adm/group><CTRL><A>+<L> 3. Adm/group> [Count Command] 5, new=trk 4. Adm/group>del=2 5. Adm/group>del=3
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6. Adm/group>del=4 d. Setup Group=5 as MFna link
1. Adm/group>group=5 2. Adm/group>name=”MFna Trunk to PBX” 3. Adm/group>max=fo 4. Adm/group>dial=mfna 5. Adm/group>dct=9 6. Adm/group>wnki=on 7. Adm/group>wnko=on 8. Adm/group>atrk=on
e. Setup membership for Group=5 (12 Channels) 1. Adm/group>member 2. Adm/group>add=0/0.1/1/0;qty=12 3. Adm/group>exit;act
f. Setup Route=3 ( 9 digit), Route=4 (12 digit), Route 5 (15 digit) for MFna link
1. Adm>route 2. Adm/route>route=3 3. Adm/route>group=5 4. Adm/route>name=”Route to PBX 9 dig” 5. Adm/route>pref=”oV”;del=0;out=9 6. Adm/route>route=4 7. Adm/route>group=5 8. Adm/route>name=’Route to PBX 12 dig” 9. Adm/route>pref=”oV”;del=0;out=9 10. Adm/route>route=5 11. Adm/route>group=5 12. Adm/route>name=”Route to PBX 15 dig” 13. Adm/route>pref=”oV”;del=0;out=15 14. Adm/route>exit;act
g. Setup DCT=8 to support outward dialing to PBX 1. Adm>dct=8 2. Adm/dct>entry=____;patt=____;type=rte;val=3 (Find the entry
for the distant end and change the route value to route=3. Example for switch 1xxx the entry would be Adm/dct>entry=2;patt=1xxx;type=rte;val=3)
3. Adm/dct>exit;act h. Patch T1 at the T1 configuration panel
1. Insert one end of RJ-45 straight patch into jack PBX T1 1/1. 2. Insert other end of RJ-45 patch into TRC C19P0. 3. Verify that all T1 alarms on PBX E1/T1 Interface 1 go out.
i. Make calls between PBX phones (both directions) to test link.
13. 24 channel DTMF link to foreign PBX over copper. a. Setup the required slot level attributes for the second T1 card slot 1/1
1. Rsh/tmp>adm 2. Adm>cct=1/1 3. Adm/cct>line=b8zs;framing=esf;alarm=frame;pri=4
b. Setup the signaling on all link circuits to E&M 1. Adm/cct>cct=1/1/0
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2. Adm/cct><CTRL><A>+<L> 3. Adm/cct> [Count, Command] 24, signal=em;+ 4. Adm/cct>exit;act
c. Program Group=5 as “Trunk” group (Skip this step if already a trunk group)
1. Adm>group 2. Adm/group><CTRL><A>+<L> 3. Adm/group> [Count, Command] 5, new=trk 4. Adm/group>del=2 5. Adm/group>del=3 6. Adm/group>del=4
d. Setup Group=5 as DTMF link 1. Adm/group>group=5 2. Adm/group>name=”DTMF Trunk to PBX” 3. Adm/group>max=fo 4. Adm/group>dial=dtmf 5. Adm/group>dct=11 6. Adm/group>wnki=on 7. Adm/group>wnko=on 8. Adm/group>atrk=on
e. Setup membership for Group=5 (12 channels) 1. Adm/group>member 2. Adm/group>add=0/0.1/1/0;qty=24 3. Adm/group>exit;act
f. Setup Route=5 (any digit) for DTMF link 1. Adm>route 2. Adm/route>route=5 3. Adm/route>group=5 4. Adm/route>name=”Route to PBX any dig” 5. Adm/route>pref=”o”;del=0;out=any 6. Adm/route>exit;act
g. Setup DCT=8 to support outward dialing to PBX 1. Adm>dct=8 2. Adm/dct>entry=__;patt=___;type=rte;val=5 (Find the entry for the
distant end and change the route value to Route=3. Example for switch 1xxx the entry would be adm/dct> entry=2;patt=1xxx;type=rte;val=5)
3. Adm/dct>exit;act Redcom HDX Configuration (HUB) Erase Database When generating a database from scratch, remove any card that is inserted in the HDX-C and erase the current database as follows: Rsh/tmp> cd /sys Rsh/sys> del *.db Rsh/sys> dup /sys /sysrom enter y to proceed. Rsh/sys>dbunlk Rsh/sys>reset
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Okay to reboot the shelf <y/n> y Enter confirmation code: teser Database changes may be lost, ok to continue? <y/n> y After the system reboots, you will have a blank database. Database Read Copy the database from flash card to /sys: Rsh/tmp> copy /card/*.db /sys Run the database load job: Rsh/tmp> xld xld> upload (verify the directory is set to /sys or enter dir=/sys) xld> upload xld> activate Then duplicate the files in /sys: Rsh/tmp>dup /sys /sysrom Database Write Rsh/tmp> xld xld> download xld> download To store the database copy the database files from /sys to /card as detailed in the next section. Flash Card Read/Write You cannot write databases directly to flash card using the XLD job. To write database to flash card, first save the database to /sys using the XLD job. Rsh/tmp> xld xld> download xld> download Then go to the rsh> shell and copy the database to flash by entering: Rsh/tmp> copy /sys/*.db /card. Verify the files were transferred (check the date & time): Rsh/tmp> dir /card Then duplicate the files in /sys: Rsh/tmp> Dup /sys /sysrom If you want to add a folder to the card use the make directory command as follows: Rsh/tmp> mkdir /card/folder_name Switch Type Rsh/tmp> gen Gen> system Gen/system> switch_type=mil This command will overwrite Dial Code tables, Tone and Ring Tables, System options, Timers and Line class marks. Do you wish to continue? (Y)es, (N)o, (C)ustomize or (S)witch setting only? y Set HMX to the first 3 digits of your 7 digit numbers Gen/system> hmx=XXX (e.g. HMX=672),
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Gen/system> SEQUENCE=none Gen/system> SPECIFIC=yes Gen/system> ex;act.
Note: The SPECIFIC slot id is used in a commercial Central Office switch to allow the
interchange of different line and trunk cards without modification of the Gen>hardware screens. The downside is that certain special features that a card might support may be inoperative when that card operates under a “generic” PID. The Army will not be swapping out different types of line cards so SPECIFIC slot
id is set to “yes”.
Note: Do not set NPA. If it is set, the Caller ID will be a 10 digit number rather than a 7
digit number.
Hardware Configuration gen> hardware gen> TSAUTO=on;PORTAUTO=on;fill. Set the number of T1 circuits to 2. Set the span type for met circuit to t1. Set the number of channels to 24 for each MET circuit. Repeat steps for slots 5/1, 6/0, 6/1, 7/0, 7/1, 3/0, 3/1, 4/0, and 4/1, then exit; activate. Hardware Timeslot Assignment The HDX T1 MET cards provide 8 announcement circuits (each). These 8 Time slots must be manually configured for each MET card. Therefore, the T1 card slots need to be reassigned for the additional 8 timeslots. gen> timeslot gen/timeslot-> slot=7; TS1=204; TSQTY=56; PT1=132; PTQTY=58 gen/timeslot-> slot=6; TS1=148; TSQTY=56; PT1=74; PTQTY=58 gen/timeslot-> slot=5; TS1=92; TSQTY=56, PT1=16; PTQTY=58 gen/timeslot-> slot=4; TS1=316; TSQTY=56; PT1=298; PTQTY=58 gen/timeslot-> slot=3; TS1=260; TSQTY=56; PT1=240; PTQTY=58 Set Attributes Timeslots for T1 Gen/timeslot-> slot=7; attribute; CIRCUIT=9; TS1=48; TSQTY=8; PT1=50; PTQTY=8 gen/timeslot-> slot=6; CIRCUIT=9; TS1=48; TSQTY=8; PT1=50; PTQTY=8 gen/timeslot-> slot=5; CIRCUIT=9; TS1=48; TSQTY=8; PT1=50; PTQTY=8 gen/timeslot-> slot=4; CIRCUIT=9; TS1=48; TSQTY=8; PT1=50; PTQTY=8 gen/timeslot-> slot=3; CIRCUIT=9; TS1=48; TSQTY=8; PT1=50; PTQTY=8 gen/timeslot-> ex; act
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Configuring a IP Address gen->Ethernet gen/Ethernet> ip=XXX.XXX.XXX.XXX (Set IP to the HDX VLAN 222 IP address) gen/Ethernet> gateway=XXX.XXX.XXX.XXX; netmask=XXX.XXX.XXX.XXX (GATEWAY to the switch VLAN 222 IP address, and set the NETMASK to the switch VLAN 222 subnet mask.) gen/Ethernet> exit; activate
HDX Dial Code Tables NPA Table – Used to define the Local Area Code and Switch Code for Line Circuit Attributes display and Phone Book Generation.
Open the NPA Table: rsh/tmp>adm adm>npa Adm/npa>hmx=______ ( Example: 672. Leave NPA blank.) Adm/npa>ex;act Assign the Home NATO Code in DCT=11 Adm>dct=11 Adm/dct>entry=1;pattern=914 (Default for U.S. NATO Area Code) Adm/dct>entry=8;patt=90xxxxxxxxxxx;type=rte;val=2 (11 x’s!) Adm/dct>entry=9;patt=91xxxxxxxxxxx;type=rte;val=2 (11 x’s!) Adm/dct>exit;act Assign the Home Area Codes in the NIPR Voice network.
Adm>dct=6 Adm/dct>entry=1;pattern=_______(Fill in the blank with the Home Area Code) Adm/dct>entry=2;patt=nnx;type=dct;val=7;mark=0 Adm/dct>entry=8;patt=n0xxxxxxxx;type=rte;val=2 (8 x’s!) Adm/dct>entry=9;patt=n1xxxxxxxx;type=rte;val=2 (8 x’s!) Adm/dct>exit;activate
Assign the Home Switch Code in DCT=7. Open Dial Code Table 7; Adm>dct=7 Adm/dct>entry=1;pattern=______(Fill in the blank with the Home Switch Code) Adm/dct>entry=9;pattern=nnxxxxx;typ=rte;val=2 (5 x’s!) Adm/dct>exit;activate Assign the Local Station (Defines routes to foreign Switches that share the same Home Switch Code, and internal VoIP interfaces in DCT=8.)
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Adm>dct=8 Adm/dct>quantity=16 Adm/dct>entry=1;pattern=3000;type=grp;val=1 (Local Operator). Adm/dct>entry=2;pattern=1xxx;type=rte;val=2 (Switch nnx-1xxx). Adm/dct>entry=3;pattern=2xxx;type=rte;val=2 (Switch nnx-2xxx). Adm/dct>entry=4;pattern=4xxx;type=rte;val=2 (Switch nnx-4xxx). Adm/dct>entry=5;pattern=5xxx;type=rte;val=2 (Switch nnx-5xxx). Adm/dct>entry=6;pattern=6xxx;type=rte;val=2 (Switch nnx-6xxx). Adm/dct>entry=7;pattern=7xxx;type=rte;val=2 (Switch nnx-7xxx). Adm/dct>entry=8;pattern=8xxx;type=rte;val=2 (Switch nnx-8xxx). Adm/dct>entry=9;pattern=9xxx;type=rte;val=2 (Switch nnx-9xxx). Adm/dct>entry=10;pattern=000x;type=stn (POTS 672-000x). Adm/dct>entry=11;pattern=001x;type=stn (POTS 672-001x). Adm/dct>entry=13;pattern=xxxx;type=rte;val=2 (Local CUCM Phones). Adm/dct>line=0;trunk=0 (Intercept). Adm/dct>exit;activate
HDX Subscriber Line Circuits
COS, allows the PBX Programmer to define the default set of classmarks that will apply to all POTS subscribers. Adm>cos=1 Adm/cos> BSYO=on (Allows busy override operations from an attendant.) Adm/cos> CFWD=on (Turns on Call Forward privilege) Adm/cos> CNF=on (Turns on Conference privilege) Adm/cos> DID=on (Allows station to receive digits directly from an inbound dialing trunk) Adm/cos> DTMF=on (Stations send digits DTMF instead of pulse dialing) Adm/cos> LNR=on (Turns on Last Number Redial privilege) Adm/cos> PREM=on (Turns on Preemtion privilege) Adm/cos> TRKX=on (Allows REDCOM subscribers to transfer a call to the NIPR Call Manager) Adm/cos> XFR=on (Turns on Call Transfer privilege) Adm/cos>exit;activate Configure Phone numbers for each line. Adm> stn_lst Adm/stn_lst> cct=1/0;stn=0001 Adm/stn_lst> cct=1/1;stn=0002 Adm/stn_lst> cct=1/2;stn=0003 Adm/stn_lst> cct=1/3;stn=0004 Adm/stn_lst> cct=1/4;stn=0005 Adm/stn_lst> cct=1/5;stn=0006 Adm/stn_lst> cct=1/6;stn=0007 Adm/stn_lst> cct=1/7;stn=0008 Adm/stn_lst> cct=1/8;stn=0009 Adm/stn_lst> cct=1/9;stn=0010 Adm/stn_lst> cct=1/10;stn=0011
35
Adm/stn_lst> cct=1/11;stn=0012 Adm/stn_lst> cct=1/12;stn=0013 Adm/stn_lst> cct=1/13;stn=0014 Adm/stn_lst> cct=1/14;stn=0015 Adm/stn_lst> cct=1/15;stn=0000 Program the Attendant Group Adm>group Adm/group>new=lin Adm/group>group=1 Adm/group>name=“Attendant”” Adm/group>type=atn Adm/group>night=6720000 Adm/group>exit;activate Adm>dct=0 Adm/dct>Entry=4 Adm/dct>val=1 (Change value to 1) This sends dialed 0 back to the attendant Group 1. Adm>dct=4 Adm/dct>Entry=1 Adm/dct>val=1 (Change value to 1) This sends priority dialed 0 back to the attendant Group 1. Adm/dct> ex;act
HDX Hub Node Trunk Circuits Set up timing to PBX from the TRC (C19P1 in TRC must be installed/activated and programmed for B8ZS and ESF) rsh/tmp>adm adm>cct=7/0 adm/cct>line=b8zs;framing=esf;alarm=frame;pri=4 Patch T1 at the T1 Configuration Panel: PBX T1 7/0 to TRC C19P1. Verify that all T1 alarms on HDX E1/T1 Interface go out. Configure Primary Rate Interface link to Tier 2 Router rsh/tmp>adm adm>cct=4/0 adm/cct>line=b8zs;framing=esf;alarm=frame;pri=0 adm/cct>cct=4/0/0 adm/cct><CTRL><A> Release then <L> adm/cct>(count, command) 24, signal=clear;+ adm/cct>exit;activate adm>cct=4/1
36
adm/cct>line=b8zs;framing=esf;alarm=frame;pri=0 adm/cct>cct=4/1/0 adm/cct><CTRL><A> Release then <L> adm/cct>(count, command) 24, signal=clear;+ adm/cct>exit;activate adm>cct=5/0 adm/cct>line=b8zs;framing=esf;alarm=frame;pri=0 adm/cct>cct=5/0/0 adm/cct><CTRL><A> Release then <L> adm/cct>(count, command) 24, signal=clear;+ adm/cct>exit;activate adm>cct=5/1 adm/cct>line=b8zs;framing=esf;alarm=frame;pri=0 adm/cct>cct=5/1/0 adm/cct><CTRL><A> Release then <L> adm/cct>(count, command) 24, signal=clear;+ adm/cct>exit;activate Program Group 2 through 5 as “Trunk” groups adm >group adm/group><CNTL><A> Release then <L> adm/group>(count, command) 4, new=trk Set up Group=2 as PRIM link adm/group>group=2 adm/group>name=”PBX 4/0 to T2R 3/0” adm/group>max=fo adm/group>dial=prim adm/group>dct=11 adm/group>type=4ess adm/group>side=network adm/group>sym=nosym adm/group>pri_cct=0/0.4/10/0 adm/group>d_ch=0/0.4/0/23 adm/group>a619=on adm/group>mamb=on adm/group>ttar=on adm/group>prem=on Set up membership for Group=2 adm/group>member adm/group>add=0/0.4/0/0;qty=23
37
adm/group>exit;activate Set up Group=3 as PRIM link adm>group=3 adm/group>name=”PBX 4/1 to T2R 3/1” adm/group>max=fo adm/group>dial=prim adm/group>dct=11 adm/group>type=4ess adm/group>side=network adm/group>sym=nosym adm/group>pri_cct=0/0.4/10/1 adm/group>d_ch=0/0.4/1/23 adm/group>a619=on adm/group>mamb=on adm/group>ttar=on adm/group>prem=on Set up membership for Group=3 adm/group>member adm/group>add=0/0.4/1/0;qty=23 adm/group>exit;activate Set up Group=4 as PRIM link adm>group=4 adm/group>name=”PBX 5/0 to T2R 0/0” adm/group>max=fo adm/group>dial=prim adm/group>dct=11 adm/group>type=4ess adm/group>side=network adm/group>sym=nosym adm/group>pri_cct=0/0.5/10/1 adm/group>d_ch=0/0.5/1/23 adm/group>a619=on adm/group>mamb=on adm/group>ttar=on adm/group>prem=on Set up membership for Group=4 adm/group>member adm/group>add=0/0.5/0/0;qty=23 adm/group>exit;activate
38
Set up Group=5 as PRIM link adm>group=5 adm/group>name=”PBX 5/1 to T2R 0/1” adm/group>max=fo adm/group>dial=prim adm/group>dct=11 adm/group>type=4ess adm/group>side=network adm/group>sym=nosym adm/group>pri_cct=0/0.5/10/1 adm/group>d_ch=0/0.5/1/23 adm/group>a619=on adm/group>mamb=on adm/group>ttar=on adm/group>prem=on Set up membership for Group=5 adm/group>member adm/group>add=0/0.5/1/0;qty=23 adm/group>exit;activate Set up Route=2 for Group=2 PRIM link adm >route adm/route>route=2 adm/route>name=”T1 to NT2R 0/3/0” adm/route>group=2 adm/route>alt1=3;alt2=4;alt3=5 adm/route>pref=;del=0;comp=on;out=any
Set up Route=3 for Group=3 PRIM link adm/route>route=3 adm/route>name=”T1 to NT2R 0/3/1” adm/route>group=3 adm/route>pref=;del=0;comp=on;out=any
Set up Route=4 for Group=4 PRIM link adm/route>route=4 adm/route>name=”T1 to NT2R 0/0/0” adm/route>group=4 adm/route>pref=;del=0;comp=on;out=any Set up Route=5 for Group=5 PRIM link adm/route>route=5 adm/route>name=”T1 to NT2R 0/0/1” adm/route>group=5
39
adm/route>pref=;del=0;comp=on;out=any adm/route>exit;activate Make the following patch at the T1 Patch Panel using crossover T1 patch cords: Patch NT2R T1 3/0 to PBX T1 4/0 Patch NT2R T1 3/1 to PBX T1 4/1 Patch NT2R T1 0/1 to PBX T1 5/1
40
Physical Port to TCP Port Mappings for SSH (PuTTY)
• NIPR• Term Svr Port Attached Device Port• Port 0 TS Mgmt Port 2022• Port 1 T1 Router 2122• Port 2 T2 Router 2222• Port 3 Border Firewall 2322• Port 4 CM KVM 2422• Port 5 Host Firewall 2522• Port 6 GPS 2622• Port 7 AV Server KVM 2722• Port 8 TRC Console 1 2822• Port 9 PBX 2922• Port 10 CSUM1 3022• Port 11 CSUM2 3122• Port 12 CDIM1 3222• Port 13 CDIM2 3322• Port 14 CDIM3 3422• Port 15 FLEXMUX 3522• Port 16 Ethernet Switch 3622• Port 17 UPS #1 3722• Port 18 UPS #2 3822• Port 19-27 NOT USED• Port 28 PEP 4822• Port 29-30 NOT USED• Port 31 TRC Console 2 5122• Port 32 NOT USED
• SIPR• Term Svr Port Attached Device Port• Port 0 TS Mgmt Port 2022• Port 1 T1 Router 2122• Port 2 T2 Router 2222• Port 3 Border Firewall 2322• Port 4 CM KVM 2422• Port 5 Host Firewall 2522• Port 6 NOT USED• Port 7 AV Server KVM 2722• Port 8 Vantage 2822• Port 9-14 NOT USED• Port 15 PEP 3522• Port 16 Ethernet Switch 3622
41
Tier 2 RTR
GiG 0/1
GiG 0/0
FW Mgt.IPS Mgt.
Eth0/2
Eth0/3
Eth0/0
233
233
Host LAN FW - 5510
Tier 2 ESWLayer 3 IOS
13x
14x
15x
16x
7x8x
Eth0/1.58 Vlan 58Eth0/1.224 Vlan 224Eth0/1.222 Vlan 222Eth0/1.233 Vlan 233
802.1q Trunk 58, 222, 224, 233, ...
802.1q Trunk 322, 324, 333, 358, ...
Tier 1 RTR
233 FW Mgt.IPS Mgt.
Eth0/1
Eth0/3
GiG 0/0
233
802.1q Trunk 332
802.1q Trunk 6, 101-116, 175, 254, 322, 324, 331,333, 358, 777
10x
9x
Eth0/1.332 Vlan 332
331
332 Eth1
Eth0
AV
Perimeter FW - 5510
Eth0/0
36x
35x
6x
5x
40x
39x
233
LAN1 PCI1
58Voice
358
224Data
324Spare
224
59
Citrix
User Access Ethernet Switch
233 IA Management VLAN
VLAN Tag Key
Router Tier 1 / Tier 2 VLANs
222
Voice
Routing
IA
Spare
Management VLAN
Voice VLAN
xT2R / xT2S Routing VLAN
IA Context
Spare Context
332 331
Host User Host LAN
Five (5) Contexts Available
L3
74
74 NETOPS Plug-n-Play
Five (5) Contexts Available
Eth0/2
43x
44x aPA.2
Loopback
Intra-TOC Inter-TOC
aPB.1 aPB.2 aPA.1
Primary222
175PT CTTo SIPR
254
802.1q Trunk 6, 58, 101-116, 222, 777
To SATCOM RTR (UHN Only)
To UHN TV_ESW(UHN only)
12x
34x
30x – 33x
11x
Intra-TOC
Inter-TOC
802.1q Trunk 1, 4, 6, 7, 58, 59, 61-64, 71-74, 222, 233, 1002-1005
802.1q Trunk 1, 6, 1002-1005
Date: 6/25/2008
Admin
FW Admin ContextAdmin
802.1q Trunk 6, 777
To STT(JNN,SSS only)
26x/27x
233
333
Netops Ethernet Switch
71
71
71
IA Remote
CSMARS
CSM
222
58
802.1q1,4,6,7,58,59,61-64,70-74,
222,233,1002-1005
74
59
802.1q1,4,6,7,58,59,61-64,70-74,
222,233,1002-1005
71 NETOPS VLAN
Eth0/0.324 Vlan 324Eth0/0.322 Vlan 322Eth0/0.333 Vlan 333Eth0/0.358 Vlan 358
Trusted
UnTrusted
IPS222
Mgnt322
Eth0/1
IA
IPSPerimeter
WIN-T Tier 1/Tier 2 Layer 2/3 Connectivity UHN, JNN, SSS - NIPR
42
Tier 2 RTR
GiG 0/1
GiG 0/0
FW Mgt.IPS Mgt.
233
233
Host LAN FW - 5510
Tier 2 ESWLayer 3 IOS
13x
14x
15x
16x
7x8x
Eth0/1.58 Vlan 58Eth0/1.224 Vlan 224Eth0/1.222 Vlan 222Eth0/1.233 Vlan 233
802.1q Trunk 58, 222, 224, 233, ...
802.1q Trunk 322, 324, 333, 358, ...
Tier 1 RTR
233 FW Mgt.IPS Mgt.
Eth0/1
Eth0/3
GiG 0/0
233
802.1q Trunk 332
802.1q Trunk 6, 175, 322, 324, 331,333, 358
10x
9x
Eth0/1.332 Vlan 332
331
332 Eth1
Eth0
AV
Perimeter FW - 5510
Eth0/0
36x
35x
6x
5x
40x
39x
233
LAN1 PCI1
224
59
Citrix
233 IA Management VLAN
VLAN Tag Key
Router Tier 1 / Tier 2 VLANs
222
Voice
Routing
IA
Spare
Management VLAN
Voice VLAN
xT2R / xT2S Routing VLAN
IA Context
Spare Context
332 331
Host User Host LAN
Five (5) Contexts Available
L3
74
74 NETOPS Plug-n-Play
Five (5) Contexts Available
Eth0/2
43x
44x aPA.2
Loopback
Intra-TOC
Inter-TOCaPB.1 aPB.2 aPA.1
Primary222
175PTCTTo NIPR 12x
11x
Intra-TOC
Inter-TOC
802.1q Trunk 1, 4, 6, 7, 58, 59, 61-64, 71-74, 222, 233, 1002-1005
802.1q Trunk 1, 6, 1002-1005
Date: 6/25/2008
Admin
FW Admin ContextAdmin
User Access Ethernet Switch
Netops Ethernet Switch
71
71
71
IA Remote
CSMARS
CSM
222
58
802.1q1,4,6,7,58,59,61-64,70-74,
222,233,1002-1005
74
59
71 NETOPS VLAN
Eth0/0.324 Vlan 324Eth0/0.322 Vlan 322Eth0/0.333 Vlan 333Eth0/0.358 Vlan 358
Trusted
UnTrusted
Eth0/2
Eth0/3
Eth0/0
58Voice
358
224Data
324Spare
233
333IPS
222Mgnt
322
Eth0/1
IA
IPSPerimeter
WIN-T Tier 1/Tier 2 Layer 2/3 Connectivity UHN, JNN, SSS - SIPR
43
TDMA Signal Flow
AES
NT2S
26x
12x TACLANE1
ST2S
12x 10x
TDMA
10x
NIPR User Access Case
Ge0/0
ST2R
CT PT
Ge0/0
NT2RSIPR User Access Case
J1 MP3 SEP
44
EOIP Signal Flow
CDIM 1A KIV-7M (3-1) NT2R NT2S KG-175D ST2S ST2R
Port 10x
Ge0/0
S0/1/0
Ge0/0
Port 10x
Port 12x
CT PT
Port 12x
45
FDMA Signal Flow
CDIM 1A, 2A To STT SA-TRK C17, C18
HSD C21P0-1NT1R
S0/0/0, S0/0/1
ProminaNX-1000 TRC Multiplexer
TED 5-1, 5-2
ST1RS0/0/0, S0/0/1
HSD C21P3-4
T1 Config.Patch Panel CAS / MFNA
T1-1 12 Ch.
REDCOMSLICEPBX
TRC C19P0
J4
PVS-E C19P0-12DED 4-1, 4-2
46
47
48
49
50
51
52
Notes Page
Notes Page
Notes Page
Notes Page
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