User:Devildogatl/igx

REDCOM IGX CONFIGURATION
This will give you a basic config for the REDCOM IGX. Depending on your shelf configurations, your programming will change..

To clear all the shelves from old databases:

Login >root password >yam

>rsh/tmp>del *.db >cd /sys >del *.db >dup /sys / sysrom login in to each shelf >rlogin x (x being the shelf you are logging into) >follow previous steps to clear each shelf.

To reset all shelves >dbunlk * >reset * >yes, yes >teser

Assign system parameters >switch=mil >seq=none >spec=yes >fill >ex;act

Filling shelves with cards starting with msu=0

Gen>hardware >fill

MSU=0 is over allocated by 2 timeslots

>timeslot >slot=6 >ts1=0 >tsqty=0 >slot=10 >ts1=64 >hardware >fill=13 >ex;act

MSU=1 Over allocated by 8 time slots

>hardware >fill >timeslot >slot=6 >ts1=0 >tsqty=0 >slot=3 >ts1=72 >slot=4 >ts1=48 >slot=7 >ts1=50 >slot=8 >ts1=52 >slot=10 >ts1=54 >ex;act

MSU=2

>hardware >fill >timeslot >slot=6 >ts1=0 >tsqty=0 >slot=8 >ts1=0 >tsqty=0 >slot=2 >ts1=64 >slot=3

>ts1=72 >slot=4 >ts1=32 >hardware >fill=13 >ex;act

For msu=3 to msu=7 repeat the following steps:

Gen>msu=x (x is one msu 3-7) >hardware >fill >ex;act

Increase database size

>gen>database >table=dcta >cur=100 >table=dctm >cur=300 >ex;act

Protect table configuration

Gen>protect >entry=1 >level=100 >name=super >protect=1 >job=gen >screen=main >allow=harware >allow=timeslot >ex;ex;ex;ex;act

>lo >lo

Login to the admin screen

Adm>options >stnsz=3;atndg=0;ex;act >npa >entry=0;npa=(area code that you are in);hmx=3469;name=”pots” >entry=1;npa=(see above);hmx=3369;name=”ISDN” >dct=0 >entry=4;val=14 >ex;act >dct=4 >entry=1;val=14;ex;act >dct=11 >ent=1;patt=(NATO area code that you are in) >dct=6 >ent=1;patt=(Local area code);ex;act >dct=7 >ent=1;patt=3469 for pots >ent=2;patt=3369 for ISDN

Follow the steps above and put in all the switch codes that you are planning to talk to. For going to the tactical circut switch (CDS) use the pattern 32XX. For ULCS switches use the patter 38XX. >The last entry on this dial code table should be the pattern nnxx. >type=rte >val=0

>dct=8 >ent=1;patt=000;val=14 >entry=9;patt=xxx;ex;act

Set Class Of Service

Adm>cos >cos=1 >cnf=on >cfwd=on >dtmf=on >did=on >lnr=on >cwt=off >dyn=on >xfr=on

>cos=2 >cnf=on >cfwd=on >cwt=on >datp=on >lnt=on >xfr=on

>cos=3 >cnf=on >did=on >lnr=on >xfr=on

>cos=4 >name=”stu-III Line Class” >cnf=on >did=on >cwt=on >xfr=on >cfwd=on >lnr=on >dyn=on

To assign subscribers to your switch

FOR POTS CIRCUTS Use cut sheets to determine which circuts and which cards are being used for the op

>adm>msu=x >cct=x/x:cir (x stands for the slot, the second x stands for the circuit on that card) >sta=(format x:xxx)(the first x refers back to when you put in the npa. For entry 0 you put in the pots switch code. For entry 1 you put in the isdn switch code. If you are programming pots phones, the first x would be a 0. For isdn phones the frist x would be a 1. The 3 x’s after the colon are the phone number for that phone) >name=(name you give to the subscriber) >max=x (x being the precedence assigned to the subscriber)

Setting up the STE inside the shelter

>adm.msu=0 >cct=1/2/1 >spid=xxxxxxxxxxx (xxx is the area code of the isdn switch, xxxx is the switch code,xxx is the phone number for the phone, x is 1) >sta=1 >stn=1:xxx (xxx is the phone number) >name=”name you give” >max=x ( precedence assigned) >cct=1/2/2 >spid=xxxxxxxxxxx ( xxx is area code, xxxx is the switch code, xxx is the second phone number for the STE, x is 2) >sta=1 >stn=1:xxx (second phone number for the STE) (STE is normal through on the patch panel for these circuts)

Setting up the your groups

>adm>group >new=trk (repeat this step 13 times to make 13 new trk groups. For group 14 follow next step) >new=lin

Setting up the cti card in msu=0 >adm>msu=0;cct=8/0;cir >sta=0:000;max=fo >forward=3469001;busy=on

Setting up the attendant group

>group=14 >type=atn >name=”attendant group”;chime=on;mem >add=0/0.8/0;ex;act

Program cti card in slot 8 of msu=1

>adm>msu=1;cct=8/0;cir >sta=0:001;max=fo

>adm>group>group=14 >mem >add=0/1.8/0;ex;act

Setting up a T-1 to another DTC

>adm >msu=0 >slot=11;line=b8zs;fram=esf;alarm=frame

>group=1 >name=”dtmf_T-1” >max=fo;dial=dtmf;dct=11 >wnki=on;wnko=on;atrk=on;member >add=0/0.11/0;qty=24;ex;act

>route=4 >group=1;name=”dtmf_T-1 any digit” >out=any;del=0;pref=o;ex;act

>dct=7 >ent=x(entry going to the neighbor DTC you are setting the T-1 up to) >patt=switch code of the neighbor DTC >type=rte;val=4

Setting up a T-1 PRI link to a neighbor DTC

>msu=1;slot=(slot with PRI card);line=b8zs;fram=esf;alarm=fram >cct=slot/circuit >signal=clear

>group=2 >name=”name you designate) >max=fo;dial=prim;dct=11 >type=redcom;side=user;sym=sym >mti=0/1.10/0;d_ch=0/1.13/23 >ttar=on;men >add=0/1.13/0;qty=23;ex;act Send this group to route 5 and 6

>route=5 >grou=2;name=”name you designate” >out=7;del=0:pref=;ex;act

>route=6 >group=2;name=”xxxxxxxxx” >out=10;del=0;pref=;ex;act

>dct=7 >entry=(entry on the ISDN switch you are going to );patt=(switch code you are going to) >type=rte;val=5;ex;act

Setting up T-1 links to the TCS

The last 4 T-1 cards are set up normal through to go to the four T-1 cards in the CDS

>adm >msu=4 >slot=13 >line=b8zs;frame=esf;alarm=frame >cct=13/0 >sig=em (Do this for the T-1 cards on msu 5-7 as well) >group >new=trk >group=10 >name=”TCS_T-1” >max=fo >dial=mfna >dct=9 >wnki=on;wnko=on;atrk=on >rev=on >member >add=0/4.11/0;wty=24;add=0/5.14/0;qty=24;add=0/6.14/0;qty=24;add=0/7.14/0;qty=24;ex;act >route >route=1 >group=10;name=”TCS 9 digit” >out=9;del=0;pref=”oV” >route=2 >group=10;name=”TCS 12 digit” >out=12;del=0;pref=”oV” >route=3 >grou=10;name=”TCS 15 digit” >out=15;del=0;pref=”oV” >ex;act.

SMDR DATA COLLECTION
SMDR is an easy to program feature to collect call data. As each call is completed, whether it is answered or not, a record is generated. Once the data is imported into a database or spreadsheet the info can be sorted and analyzed. The following is an example of how to collect the data.

There are only a couple of screens that need to be programmed to collect SMDR data. At the ADM prompt go to the “dev” screen. Here is where you set the output for the SMDR report. Entry 12, turn on “smdr” and “link=18”, turn off “link=4”. This will send the report to entry 18. Entry 18, set “driv=com;stat=on;scop=0/1;port=1”. This will send the report to com port 1 on MSU 1. Any shelf can be used by changing the scope entry.

A standard ICAP configured laptop is connected to the shelf for the output device.

SMDR Data Collection with text file

Entry 12, turn on “smdr” and “link=18”, turn off “link=4”. This will send the report to entry 18. Entry 18, sends data to a file in the /tmp directory in the REDCOM.

To download a text file from the IGX to a PC 1. On the IGX, log into RSH. 2. Use the “cd” command to change to the directory that contains the files to be transferred. This will typically be /tmp. It can also be a subdirectory. 3. Use the “cat” command to print the file to be transferred to the screen. For example, to print the file “smdr.txt” to the screen, enter the command “cat delay=30 smdr.txt”. The system will wait 30 seconds and then print the file “smdr.txt” to the screen. 4. On the PC, start the file transfer from the IGX to the PC. A. For Windows Hyper Term program: a. Click on “Transfers” and select “Receive Text File…” b. Select a directory and file name to receive the file into ; example:(c:/igx/smdr.txt) c. Wait for the transfer to complete (you will see the file as it is being transferred) d. Click on “Transfers” and Select “Stop” At the “smdr” screen enter “type=igx” all of the entries will come up automatically. The SMDR report will now start appearing at the laptop. To capture the data use the features of HYPER TERMINAL to TRANSFER and CAPTURE the data to a file on to a drive. Start and stop the capture text feature every 24 hours to collect the data. The SMDR data is a space delimited text file that can easily be imported into various products such as EXEL, WORD, and NOTEPAD.

MEET ME CONFERENCE
The DTC REDCOM switchboards do not have conference cards. The conferencing is accomplished through the Expanded Timeslot Interchange (ETSI) Board. Each ETSI board supports either one 8-party or two 4-party conferences. For this example an 8-party conference is selected.

>adm >option >mesiz= 4 or 8.

To access the Meet-Me Conference, I have selected an access code of *2. This access code can be different if *2 is already in use

The local subscribers begin their dialing in Dial Code Table 0. Dial Code Table 0 matches on the * character and sends the next digits to Dial Code Table 1.

Dial Code Table 1 matches on the character 2 and sets the type of call to Meet-Me Conference (mcf). The call is then sent back to Dial Code Table 0. Now the subscriber dials the Meet-Me location. This is the phone number on which all parties are going to dial to meet. This must be a valid station number. This station does not need to be in the conference and the call will not ring his/her terminal. If this Meet-Me location joins the conference, then he/she will be the conference manager and the conference can have up to 8 parties. If the Meet-Me location does not join the conference, then the max parties is reduced to 7.

That is all that is required for the local subscribers to access the Meet-Me conference. Any local subscriber that has conference abilities can dial the Meet-Me Conference. Example: My number is 3595-777 and I will be the Meet-Me location. I dial *23595777 and join the conference. Seven other subscribers dial *23595777 and also join me on the conference. Ensure the CNF (conference) class mark is turned on for the subscribers needing conference privileges. Non-Local Subscribers

To allow outside subscribers to access the Meet-Me Conference, special digit manipulation is needed. If an outside caller dialed *2, the call would never leave the outside switch. The easiest way I have found to allow outside callers to dial the conference is to assign a phone number that points to my local switch. I have already assigned 3595-000 as my local operator and 3595-001 as my remote operator position. For this example I have chosen the phone number 3595-002 as my Meet-Me Conference and 3595-000 as my Meet-Me location.

All outside calls coming to my switchboard are in an MF dialing format. MF dialing prefixes the incoming number with a precedence digit and a PCM protect digit. For this example the call will be placed as a Routine level of precedence. The actual incoming digits will be 403595002. All incoming calls are sent to Dial Code Table 9 for processing.

Dial Code Table 9 decodes the precedence and sends the remaining digits to Dial Code Table 10.

Dial Code Table 10 assigns the PCM protect code, deletes the preceding MF digits, and sends the remaining digits (3595002) to Dial Code Table 11.

Dial Code Table 11 checks to see if the incoming call is actually destined for a NATO link. The call is not intended for NATO and is sent to Dial Code Table 6.

Dial Code Table 6 checks to see if the call is intended to enter another area code. Since the call is intended for this switchboard, the call is sent to Dial Code Table 7.

Dial Code Table 7 matches on 359 and sends the remaining digits (5002) to Dial Code Table 8.

Dial Code Table 8 matches on 5002 and sends the call to Route 4. Make sure the NEXT entry states 0. This will send the call to Dial Code Table 0 after the Route 4 screen.

This Route screen is unique. It does not point to any group or alternates. If a Route screen does not contain a group or alternate, then it processes the digits and sends the call back to the last step prior to entering this Route screen. In this instance, all digits dialed prior to this are deleted (DEL=ac) and replaced with *23595000. The call has no group and must return to Dial Code Table 8. Remember that Dial Code Table 8 said to go to Dial Code Table 0 next (NEXT=0). The digits *23595000 are sent to Dial Code Table 0 and follow the same route as a local subscriber.

This completes the set up of the Meet-Me Conference. Any subscriber (local or remote) that dials 3595-002 will access the Meet-Me Conference. There are 8 ETSI boards in the REDCOM for the DTC. This would permit the installation of 8 different 8-party Meet-Me Conferences. The set up would be the same but a unique number will have to be assigned for each conference.

REDCOM PRI TRUNK
PRI Trunk

T1 Slot Assignment (adm> MSU=x; SLOT=x) LAW=mu LINECODE=b8zs FRAMING=esf ALARM BIT=frame T1.403=off COM_RES= ci

T1 Circuit Assignment (adm>cct=x/0 [0=trunk 1] ) SIGNALLING=clear (This can be assigned here for each trunk individually, or it will be assigned automatically in the group screen when the classmark DIALING is changed to PRIM.)
 * note: If the DIALING classmark in the group screen is changed back to MFNA or DTMF, the signaling in the individual trunks will not automatically change back to E&M. You will need to change each trunk back to e&m individually..

Group Screen (adm>group) Adm/group>new=trk

PRI Group Attributes (adm>group=x) GROUP= (group#) NAME=”” TOLL_LIST=unrestricted DOD OHS_DIGITS= (this is like DAS dialing) ANI= not used PRIORITY= idle=N default=N max=FO DIALING= in=prim out=prim (you can just type DIALING=prim to change both) DCT=x (this is the DCT that you will be receiving all incoming digits on. It will be the same dialcode table that you receive dtmf digits on. You will need no specific translation for isdn digits.) SCREEN=not used HOP=not used ABSORB=not used TYPE= 5ess (5ess is the preferred type. 4ess,ni1, dms 100, and dsn are others) SIDE= User or Network (one side of the link needs to user or network and the other side needs to be the other if NOSYM is used on the SYM classmark. If SYM is used, they will both be the same.) SYM=nosym (nosym is preferred) MTI_CCT=0/x.x/x (this is the address of the card slot and circuit that you will be using to provide your D-channel services for your PRI. It is highly recommended that the MTI board is located on the same shelf as the T1 card you are using for your PRI.) D_CH= 0/x.x/23 (this will be the last channel available on your T1.) *note: because you are assigning the 23rd channel here, you will only put a quantity of 23 on your members screen RATE= 64k INTER_ID=0

-make sure to toggle the TTAR to on, and to set your trunk hunting sequence to HOM or REV or HOM and REV.

PRI MEMBER’s SCREEN (from the pri group screen type “mem” hit enter) Type “add=0/x.x/0” (this is the address of the T1 card starting with the first trunk) Type “quantity=23” (remember you already added the last trunk as the d-channel so you only need 23)

-exit and activate.

ROUTE SCREEN

ROUTE =x GROUP=x (whatever group you are using) A1= 1st alternate A2= A3= OUT=either 7 or 10 HOP= leave alone NT1/NT2=leave alone DELETE=0 PREFIX DIGITS= not used on pri MISC=not used

PROGRAMMING THE ATTENDANT CONSOLE
Pr0gramming the Attendant Console

>adm/option >atndg=0.ex >group >new=lin >group=14 >type=atn >hom=on >name=operator >chime=on >queblock=off >member >add=0/0.8/0 >add=0/1.8/0 >ex;act Go to slots >msu=0 >cct=0 >circuit >sta=1:1000 >name=lcsp >forward=(number you want to forward the CSU to) >busy=on >ex;act >dct >dct=0 >entry=4 >patt=0 >type=group >val=14

Console Admin Mode Press *# Press and release key to be programmed Enter phone number from the keypad When finished press  Displays prompt for lamp To exit press 

To delete option to program the Console Admin Mode >gen >sys >adm >dct >dct=1 >entry=10 >Type=no ( or delete entry 10)

Associating KOY-14 cards to multiple phones

press the MENU button press SELECT button scroll down 3 times press PREPARE button pull out TPA card insert user card, hit confirm

RADIO WIRE INTERFACE
Radio Wire Interface Card Setup

1.	Set the DIP switches on the card as follows:

U23: Positions 1 thru 5 to OFF. This identifies the circuits on the card as circuit 0 and circuit 1.

Positions 6 and 7 to ON. This sets the terminal interface to 9600 baud, 8 data bits, no party, 1 stop bit. Position 8 to ON. This puts the card in terminal mode instead of polling mode.

U24: Positions 7 thru 8 to OFF. This configures the card to interface with SINCGARs radios on both circuits.

2.	Connect a serial cable, thru a null modem, to the maintenance connector J3 (bottom connector) on the RWI card.

3.	Open the hyperterminal session with the card.

4.	Change the soft straps on the card:

Press “ctrl-c”, “0” then “enter”. This will bring you to the “-“ prompt. The yellow LED for circuit 0 should be flashing.

Enter “CS”, you will be asked for a password. Enter “DIVERSIFIED”.

Enter “EQUIP. SUPERVISION=NO”. This turns off the auto detections of radio types.

Enter “PTT Type=VOX”.

If no key is loaded, and the radios are set to the PT, also enter “BYPASS NTT DETECT=3”.

After the last entry, enter and additional return. You will be asked “MAKE CHANGES FINAL?” Enter “Y”.

Enter “IS” at the “-“ prompt. This will reinitialize the card and activate the changes entered.

-** Model 4520 KY Interface Remote Terminal Access (V2.1 Jun 6 1997) ** -CS Enter Password: Ok, Fine! ->EQUIP. SUPERVISION=NO ->PTT TYPE=VOX ->
 * CIRCUIT 0
 * 11/08/00 1327 HR Status: INICKT
 * Copyright © 1994-1996 DIVERSIFIED PRODUCTS, Inc.
 * CIRCUIT 0
 * 11/08/00 1327 HR Status: MAJALRM
 * MAKE CHANGES FINAL? (Y or N) :Y

CIRCUIT 0 -IS
 * 11/08/00 1328 HR Status: MAJALRM

5.	Verify the card settings by entering “RS”. They should be:

-RS
 * CIRCUIT 0
 * 11/08/00 1115 HR Status: SINCGAR


 * CIRCUIT 0 IS STRAPPED AS FOLLOWS:

SECURITY ANN                      =CONF HDX RADIO ANN                    =YES PTT TYPE                                  =VOX OFFHOOK SERVICE              =YES TRANS RINGBACK                 =YES TVOX LEVEL                           =3 TVOX HANGOVER                 =1 SECONDS XMIT TIMEOUT                      =1 MINUTES XMIT ACKNOWLEDGE        =YES INITIAL TX WINDOW           =3 SECONDS RVOX LEVEL                          =2 RVOX HANGOVER                =1 SECONDS RCV TIMEOUT                        =2 MINUTES RCV ACKNOWLEDGE           =YES SPECIAL CONSOLE                =NO SNED ALERT TONE                =YES ALLOW INCOMING CALLS =YES BYPASS NTT DETECT           =NO INACTIVITY TIMEOUT        =NO EQUIP. SUPERVISION          =NO SQUELCH DELAY                  =NONE

6.	To set the clock, which is used for both circuits, enter “CC” at the “-“ prompt. You will be prompted for a password.

7.	Enter “DIVERSIFIED”.

8.	Enter “MM/DD/YY” to set the date.

9.	Enter “XXXX” to set time.

10.	 Enter another return, you will be asked “MAKE CHANGES FINAL?” Enter “Y”.

11.	To monitor the status of the circuit, enter “MS”. This gives a readout of the circuit status.

12.	After the card and the REDCOM switch are properly configured, the card LEDs can be observed to indicate card status (LEDs are listed top to bottom):

GRN         ON                              in use Wink                          initializing Flash                          transmit mode Flash, other GRN    date mode OFF                           idle

GRN         ON                             equipment not connected Wink                         initializing Flash                         receive mode Flash, other GRN    data mode OFF                             equipment not connected

YEL         ON                              out of service by SW1 or SW2; or COMSEC disconnected Wink                          maintenance terminal access (circuit can still be in service) OFF                              idle

RED         ON                             minor alarm has occurred, circuit can still be used Flash                         major alarm, circuit out of service OFF                          no alarms

13.	Each circuit also had a toggle switch associated with it, which performs the following functions:

RIGHT     Makes circuit busy, lights YEL LED CENTER  Off, normal operation LEFT        Resets alarm RED alarm LED and latch

14.	The “DA” command can be used to download the alarm status for the connected circuit. This                                                                                       will also clear the RED LED if it is on or flashing.

SINCGARs Setup

1.	Connect the antenna connectors of the radios together with 20 watt, 50 ohm dummy loads at both ends. Connect a handset to the AUD/DATA connector of each radio.

2.	Set the controls on the radios:

COMSEC           PT MODE                 SC CHAN                  MAN PWR                    LO

3.	Turn the FCTN on each radio to SQ-ON. Verify communications between the radios.

4. To load keys into the radios: Set the CHAN switches to 1. Set the COMSEC switches to CT.

The handsets should have a COMSEC alarm tone (beeping alarm). Key the handset twice, at                               least ½ second each key, and the tone will be steady.

Connect the KYK to the AUD/FILL connector.

Enter a frequency for channel 1 of the radio:

Press FREQ, then CLR. Display will be ““ Enter 30000, then STO. Display will blink once.

Set KYK to ON.

Press LOAD. Display will flash “LOAD” then “H TEK”. Press STO, then 1. Display will blink and two beeps will be heard.

5.	Verify communications between radios.

6.	Remove the handset from one of the radios. Connect the TWI cable between circuit 0 connector   (J1) and the AUD/DATA connector on the radio.

7.	Set the VOL control on the radio to the 12 0’clock position.

REDCOM SETUPR for RWI

1.	Generate the slot for the RWI (in this case, slot 4). The card should appear as an E&M trunk.

2.	Create a group for the card. (NOTE: The card has two circuits on it, each requires it’s own group. Only Circuit 0 is shown here)

3.	Modify the group attributes. OHS (Off Hook Service) is the station number to be dialed when the radio initiates a call.

4.	Add circuit 0 as a member of the group.

5.	Create a route for the group.

6.	Add the route to DIAL CODE TABLE 0. PATT is the number to be dialed to initiate a call to the radio. VAL is the route number previously assigned.

FOR COMMON OPERATOR PROCEDURES, CLICK THE LINK BELOW. http://www.wikipedia.org/wiki/User:Devildogatl/cop