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Octel 250 and 350 MWI problem

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RVstew

Technical User
Oct 11, 2005
25
CA
Background: Octel 250 and 350 connected to 2 DMS Centrex switches and a 350 connected to a SL100.

Having an issue with MWIndicators either not coming on or not turning off. When you check the CDR you do see the message for toggling the lamp on or off (dir 0 or 1) but I constantly get complaints. Does anyone know of any issues with the octels regarding this, is there a timer involved if the VM is very busy does the buffer? start dropping if a timer is reached?

Thanks all help is appreciated.
 
The SL100 has a known problem with message waiting in that it considers it a low priority, So if the Octel is telling you it sent it out then it did, what are you getting in the stat ? a 0 means ok but if it is not a 0 that means the far end told it there was a problem. Also I assume that the DMS is RS232 but what are you using for the integration to the SL100 ?

Has this been ongoing or is this new ? you may want to slow the message waiting down on the Octel side. I can help you trouble shoot this so can you give me more detail on the Octels and the PBX's software level for all and the type of flt and PIC's you are using would help.

Ken Means

 
Octel 350
Message Server
Configuration Note 4032 - Ver C (3/01)
Nortel SL-100*


1.0 METHOD OF INTEGRATION
With RS232 integration, call information is transmitted over a digital RS232 link between the SL100 and the Octel system
With RS232 integration, call information is transmitted over a digital RS232 link between the SL100 switch and the Octel system. Voice communications are provided over a separate path created by analog lines on the switch that connect to the Octel system. When an incoming call is received, it is accompanied by a digital message from the SL100 switch containing call information. The Octel system then answers the call and plays the appropriate greeting. To set or cancel message-waiting indicators, the Octel system sends a digital message over the RS232 link to the SL100.
2.0 OCTEL 350 ORDERING INFORMATION
Octel 350 requirements
• SMDI Integration kit - includes RS232 Integration software
• ATICs Analog TICs (12 ports/card)
§ Disk Drives
• Asynchronous Communications Processor (ACP), to support three or more RS232 links
• 25-pair, right-angle, male-amphenol cables, one per ATIC
• Null modem, one per local PBX, and per local terminal
NOTE: Determine whether direct integration or Asynchronous Communications Processor (ACP) integration will be used. To do so, count the number of RS232 links and system management terminals that will be supported. The allowable combinations of integration links and system management terminals without an ACP are shown in Table 1.

3.0 SL100 HARDWARE REQUIREMENTS
SL100 hardware requirements
• Ground-start line appearances, one per Octel 350 port
• One single-line channel for remote service access (RDAC)
• Nortel Cable - NTNX36AQ
• One Series “3002” private line data channel
• I/O channel for RS232 link
3.1 SL100 SOFTWARE REQUIREMENTS
SL100 software requirements
• Minimum Software Stream: MSL003 and above
• Simplified Message Desk Interface (SMDI)
• Feature Packages: NTX119AA - Message Waiting NTXE47AA - Meridian Display Communication NTX732AA - SMDI Interface
• Octel ports must be in a UCD group
• Message-waiting feature for each subscriber extension as required
• User programmable DFB/RNA software package for Call forward on busy/ring-no-answer to the appropriate multiline hunt-group pilot number for each subscriber extension
3.2 CUSTOMER PROVIDED EQUIPMENT
• One modem provided by the CO - see section 8.8
NOTE: One 202-T data set (modem) provided by CO/Customer premise, the 202T or 212A-type modems are not required, however, the RS232 data link is still required.
4.0 SUPPORTED INTEGRATION FEATURES
Supported integration features
• Station forward to personal greeting
- All Calls
• System forward to personal greeting
- Busy
- Ring-No-Answer
• Message Waiting Indicator
- stutter dial tone
• Outcalling
• Multiple Return-to-Operator
• Direct Call
• Reply to message left by subscriber in internal telephone-answering mode
• Personal greeting of original-called party on multiple-call forward
• Multiple SMDI Links
• Call Sender
• Centralized voice mail - See section 8.8
• Multiple greetings
5.0 CONFIGURING THE SL100 TO INTEGRATE
Configuring the SL100 to integrate
* The decibel level of the lines coming into the Octel system should be -5.5 db or higher or else call volume might be insufficient.
* For exact SL100 programming instructions, refer to Nortel’s SMDI interface document (NTP 555-4151-100).
Configure the I/O channel
o The I/O channel should be configured as follows: TABLE: TERMDEV TERMDES: OCTEL IOCNO: CKTNO: TERM TYPE: SMDI BAUDRT: B1200 (see note) INTYP: EIA EQPEC: 1X67FA PRTY: EVEN GUAR: N MODEM: NONE COMCLASS: ALL
The I/O port must be full duplex, asynchronous, and have computer-to-computer communications.
Configure the I/O channel
NOTE: The baud rate must match the baud rate defined in menu 6.5.
o Create a UCD hunt group for the analog lines connected to the Octel 350. Configure the UCD hunt group as a group using the SMDI feature. The following table is used to configure the UCD group.
TABLE UCDGRP:
UCDNAME: Voice mail ACD: N CUSTGRP: (enter a name to define this customer) UCDRNGTH: 30 THROUTE: OFRT NSROUTE: 75 PRIOPRO: OFRT MAXPOS: 75 DBG: 12 DEFPRIO: 144 RLSCNT: N MAXWAIT: 1 0 MAXCQSIZ: 1880 OPTIONS: 144
(AUDIO 10 Y AUDIO2) (UCD_SMDI OCTEL 1 $) $
o Define the SL100 link using the following table:
TABLE: SLLNKDEV DEVNAME: OCTEL DEVTYPE: HS1X67 XLATION: NONE PROTOCOL: NONE DRECTION: INOUTLK ZFERS:
(SMDIDATA $) $
o Define the Directory Number Route using the following table:
TABLE: DNROUTE DNNM: ( Define the number to reach the Octel system) DNRESULT: FEAT UCD VOICE_MAIL PRIM 0


Create the analog lines connected to the Octel system
o If you are using loop-start station appearances, the Cut-off on Disconnect (COD) feature must be programmed. In the Table OFCVAR (Office Variables), program the COD mnemonic for greater than 600 ms. This programming causes the SL100 to disconnect the Octel ports immediately when callers hang up. If this is not programmed correctly, subscribers might receive messages with a recording of “Please hang up and dial again” at the end.
o Modify each subscriber’s extension profile to allow message-waiting notification.
o For subscriber phones with lights, assign one position on the phone set for message-waiting notification.
o Forward all subscriber phones to the pilot number of the UCD hunt group on busy and ring-no-answer. The pilot number is the Octel System Access Number.
6.0 CONFIGURING OCTEL 350 SYSTEM MANAGEMENT
Configuring the Octel system management menus
o Menu 1.1 - System Parameters
• Type of PBX/CO: 3 - #1AESS/SMDI, Full Duplex
• ACP Used for Integration: answer Y if using ACP Integration method. Answer N if using Direct SMDI Integration method.
o Menu 4.1 - Port Assignments
• Extension/Phone No.: It is important that this column contain the nine-digit number associated with each link, defined as LLGGGMMMM:
LL = physical link number (01-02*)
GGG = message desk number (001-063)
MMMM = terminal number (0001-2047)
* If ACP Integration is being used, up to 16 SMDI links are possible, numbered 01 to 16.
For direct integrations, the physical link number corresponds with the actual connector on the distribution board used to make the connection. See Figure 7 and Table 2.

For ACP Integrations, enter the link number assigned to each serial port. The assignments are labeled on the ACP board. See Figure 6 and Table 3.
• Enter the message desk number assigned by the PBX. For the LTNs associated with each link, number them 0001, 0002, 0003, etc. Begin again at 0001 for each link.


All nine digits must be entered. Each entry must be unique. The use of the physical link number, however, allows redundant message desk/terminal number coordinates to be used as long as they are spread across separate links.
For example, an Octel 350 is being integrated with two SL100 switches. Switch #1 has a six-member multiline hunt group connecting to the Octel 350 ports 1A through 1F, and the SMDI link connects to the main distribution board connector J44. Switch #2 has a six-member multiline hunt group connecting to the Octel 350 ports 1G through 1L, and the SMDI link connects to the main distribution board connector J43. Both groups use the same message desk number (001). See Table 4 for Menu 4.1 entries for this example.


NOTE: If the port configuration is ever changed, i.e., additional ports and/or SMDI links are added, the appropriate fields in Menu 4 must be updated. Any time the Extension/Phone No. field in Menu 4.1 is changed, the affected integration link must be reset in Menu 6.5.5.
• Line Type: 35 loop start or
52 ground start
• M column: Enter N for all ports. Entering Y for any port might cause message-waiting errors.
o Menu 4.3 - RS232 Message Waiting:
• Special RS232 Message Waiting: set to Y
o Menu 6.1 - Dialing Parameters
• Flash On-hook time: 500 milliseconds
• Pause Time: 1000 milliseconds
• Dialing Sequence to Transfer a Call: FPPN
• Dialing Sequence to Reconnect a Call:
Ring no answer: FF Busy: FF
NOTE: Verify that these dialing sequences match for all PBXs applicable to your installation.
o Menu 6.3 - Define CPU Serial Channels
• For each configurable serial channel (channels 1 and 2) to be used for direct integration, assign channel type 3 - Direct Integration.
When “Direct Integration” is chosen for a serial channel configuration, you will need to program menu 6.5.2 for each link. (See bullet on Menu 6.5.)
• If ACP integration is being used, configure the integration links in Menu 6.5. ACP integration links do not use CPU serial channels and so do not require programming in Menu 6.3.
NOTE: The Octel 350 must be rebooted to apply any changes to serial channel parameters in Menu 6.3.
¨ Menu 6.5 - Integration Link Management
Link Number: (1-3 or 1-16 with ACP)
Link Name: (up to 20 characters)
Type of Switch to which the System is Integrated: 3 - 1A ESS/SMDI, Full Duplex
Baud Rate: 0 - 1200 Baud (see note 2)
Bits: 0 - 7 Data Bits
Number of Stop Bits: 0 - 1 Stop Bits
Parity (None/Odd/Even): 2 - Even Parity
XON/XOFF: 1 - Ignore XON/XOFF
Carrier Detect: 1 - Carrier Detect Not Used
Extension to Check SMDI Message Waiting: 0000
Max. Msg. Waiting Operations per second: 1
Switch Number to which this Link is Associated:
SMDI link down alarm threshold counter: 1
NOTE: After any changes are made in Menu 6.5.2, reset the affected integration link using Menu 6.5.5.
NOTE 2: Octel can support the link at 9600 Baud, however the Central Office must match the baud rate of the Octel.
o Menu 8/9.1 - Mailbox Profile
• Subscriber’s Extension : If the subscriber is allowed to have message waiting, enter all seven digits of his or her phone number in this entry.
• Message Waiting : Enter Yes only for valid extensions on the switch configured for MWI
• SMDI Link Number : Enter the physical link number of the SMDI link, which is associated with the subscriber.
7.0 CONNECTING THE ANALOG VOICE CHANNELS
Connecting analog voice channels
o Each Analog TIC (ATIC) supports 12 ports and connects to the PBX via a single cable. The first port uses the first pairs of conductors (1,26), the second port uses the second pair (2,27), etc. For a detailed description of the pinout of the ATIC, refer to the Octel 350 Service Manual.
o Physically connect the lines used for the voice path between the SL100 and the Octel 350. The voice lines are connected to the switch using customer-supplied cables, which terminate on the main backplanes of the Octel 350. See Figures 1 and 2.





7.1 CABLING NOTES
• When a system management terminal is connected to one of the configurable serial channels (J44 & J43) or to the secondary SMT channel (J46), a null modem adapter must be installed and supplied by the customer.
• If modems are not used in the installation, a null modem must be installed on the end of the cable connected to the PBX. See Figure 3 for proper wiring of the null modem connector.

7.2 CONNECTING THE SMDI LINKS USING DIRECT INTEGRATION METHOD
Connecting the serial channel using direct integration
The main distribution board has four serial channels: J44 (channel 1), J43 (channel 2), J46 (channel 3), and J50 (channel 4). Channels 1 and 2 are configurable as either SMDI links or system management (SMT) channels. See Figure 4. A maximum of two SMDI links can be directly connected to the main distribution board.
Channels 3 and 4 are not configurable; channel 4 is for the primary SMT/local service and channel 3 is for a secondary SMT. Channels 1, 2, and 3 require a null modem to support an SMT. Channel 4 does not require a null modem.

o The arrangement chosen for the serial ports must be configured within the Octel 350 platform using menu 6.3 - Serial Channel Parameters.
o Physically connect the SMDI links to the Octel 350 platform using the DB-25 data cables. Connect each cable to the distribution board located on the back of the Octel 350. The end of the cable with the right-angle DB-25 connector is connected to the main distribution board. See Figure 4.
7.3 CONNECTING THE SERIAL CHANNELS USING ACP INTEGRATION (ACP MSA) METHOD
Connecting the serial channels using ACP integration
The ACP provides up to 16 SMDI link connections, as shown below in Figure 5.


o For ACP, the MSA (Multiple Switch Access) software option must be enabled. This option is listed in Menu 13.7 as “ACP Integration.” Verify that it is set.
o Physically connect the SMDI links to the ACP I/O distribution board installed on the Octel 350 platform using the DB-25 data cables. Connect each cable to the appropriate channel on the ACP I/O distribution board located on the back of the Octel 350. See Figure 6. Use the channels labeled ‘Integration’. The end of the cable with the right-angle DB-25 connector is connected to the ACP I/O distribution board. Software configuration information is included in section 6.0.


7.4 TESTING THE INSTALLATION
Testing the installation when completed
o Create two Octel 350 mailboxes associated with two test extensions. Record a name and personal greeting for each mailbox.
o System forward one test extension to the Octel 350 System Access Number.
o Using one test extension, call the other test extension. You should hear the personal greeting.
o Leave a message. Verify that message-waiting indication turns on.
o Verify that return-to-operator works properly.
o Call the Octel 350 from a test extension. You should immediately hear the recorded name and be asked to enter your password.
o Review the message in the mailbox. Verify the direct reply feature works by pressing 8 at the end of the message.
o Delete the message. Verify that message-waiting indication turns off.
8.0 CONSIDERATIONS
Important notes regarding this integration

8.1 At software levels BCS 26 and below, extensions on the SL100 are not allowed to transfer calls directly to a UCD group. A suggested workaround is to create a hardware-supported analog station that is ring-no-answer forwarded to the voice module. Use this station as a transfer target to the Octel system. In this scenario, the person transferring the call must stay on the line until at least one burst of ringing is heard. If not, the SL100 will re-ring the transferring party and the transfer will not be completed. MSL03 or higher does allow calls to be directly transferred to the Octel 350 Server.
8.2 If you are using loop-start station appearances, the Cut-off on Disconnect (COD) feature must be programmed for proper disconnect signaling. The programming is covered in section 5.0 of this note. If this feature is not available on your PBX, ground-start lines are recommended for immediate disconnect. If loop-start lines are used, users might hear silence or “Please hang up and dial again” recorded at the end of messages.
8.3 For proper disconnect, a PBX patch must be removed. The patch #RPG50A24 prevents the SL100 from providing the required cutoff for disconnect supervision. This patch if installed on the SL100 must be removed.
8.4 In order to use the 1X67FA card, you must enable Patch #DDK14A29 on the SL100. (Later software might incorporate the patch. Check with your Nortel representative.) The 1X67FA card transmits data at multiple baud rates. The voice module’s RS-232 link accepts SMDI messages at 1200 baud only.
8.5 The decibel level of the analog lines that connect to the Octel 350 should be a minimum of -5.5 db or else call volume might be insufficient.
8.6 The reply to internal telephone-answering message feature may require greater mailbox length. The PBX sends a seven-digit calling party ID over the RS-232 link to the Octel system when the caller is located on the same switch, whether or not she/he is a subscriber. The Octel voice module interprets this as a call from another subscriber, attempts to match a mailbox number. If successful, the recipient is allowed to mistakenly reply to the message. To prevent subscribers from inadvertently replying to messages not sent by another subscriber, system managers have two choices. Menu 1, part 1, option “Sender ID used for Telephone Answering” should be set to “1 - Outside Caller,” which will disable the automatic reply feature for telephone-answering messages. Otherwise, the mailbox length defined in the system must be expanded to guarantee uniqueness.
8.7 If the SMDI I/O port on the SL100 is located more than 50 feet from the Octel 350 system, data sets are required.
8.8 Nortel announced the support of NMS (Network Message Service Software), however Octel must validate which features are supported in this environment.



















©2001 AVAYA Inc. All rights reserved. All trademarks identified by the ®, SM and TM are registered trademarks, servicemarks or trademarks respectively. All other trademarks are properties of their respective owners. The above information is based on knowledge available at the time of publication and is subject to change without notice. Printed in U.S.A.


AVAYA Inc.
1001 Murphy Ranch Road
Milpitas, CA 95035-7912
(408) 321-2000



Ken Means

 
Octel 250
Message Server
Configuration Note 5013 - Ver E (3/01)
Nortel DMS-100*

1.0 METHOD OF INTEGRATION
With RS-232 integration, call information is transmitted over a digital link between the DMS-100 and the Octel 250
With RS-232 integration, call information is transmitted over a digital link between the DMS-100 and the Octel 250?. Voice communications are provided by a separate path created by a hunt group of single-line stations on the DMS-100 that connect to Fax line TICs within the Octel 250. When an incoming call is received by the hunt group, it is accompanied by a digital message from the DMS-100 which contains call information. The Octel 250 then answers the call on the specified port and plays the appropriate greeting. To set or cancel message-waiting notification, the Octel 250 sends a digital message over the RS-232 link to the DMS-100.
2.0 OCTEL 250 ORDERING INFORMATION
Octel 250 requirements
• Fax Line TIC (FLT) Boards, 8 ports per FLT
• Disk drives
• RS-232 integration software
NOTE: Serial channels 1, 2, and 3 in the Octel 250 are configurable as either RS232 integration links or system management terminals (SMTs). When used to support an SMT these channels require a null modem. Channel 4 is reserved for SMT use and does not require a null modem.
The following table shows the allowable combinations of integration links and SMTs:

3.0 DMS-100 HARDWARE REQUIREMENTS
DMS-100 hardware requirements
• Station appearances, one per Octel port, see section 8.2
• One single-line channel for remote service access
• 25-pair, male Amphenol cables, one per FLT
• DMS-100 I/O channel
• One Series “3002” private line data channel
• One modem provided by the CO - see section 8.8
• One modem for customer site
NOTE: If the Octel 250 is not co-located with the DMS-100, it will be necessary to use modems and a private data line for the RS-232 link. Co-located systems require a null modem instead. The necessary hardware must be provided by the customer.
3.1 DMS-100 SOFTWARE REQUIREMENTS
DMS-100 software requirements
• Minimum Software: BCS 24
• Simplified Message Desk Interface (SMDI)
• Feature Package NTX119AA

4.0 SUPPORTED FEATURES
• Station forward to personal greeting
- all calls
• System forward to personal greeting
- busy
- ring-no-answer
• Multiple Greetings
- busy
- ring-no-answer
• Message Waiting Indicator
- lights
- stutter dial tone
• Automated Attendant
• Call Sender
• Outcalling
• Multiple return to operator
• Direct Call
• Personal greeting of original-called party on multiple-call forward
• Reply to message left by subscriber in internal telephone-answering mode
5.0 CONFIGURING THE DMS-100 TO INTEGRATE
? The I/O channel should be configured as follows:
Configure the I/O channel
• full duplex
• 1200 baud
• asynchronous
• 7 data bits, 1 stop bit
• even parity
Create a UCD hunt group for the analog lines connected to the voice module
? Create a UCD hunt group for the analog lines connected to the Octel Overture 250. Configure the UCD hunt group as a group using the SMDI feature.
? Configure the Release Count # for 0. This count sets the maximum number of times a port can take abandoned calls before logging itself out. Setting it to 0 will guarantee that ports are not locked out.
Create the analog lines connected to the Octel system
? Create the analog lines connected to the Octel 250. Place the lines in the UCD hunt group. Verify that the line identification numbers (line ID for the data link messages) for each analog line are in the same sequential order as they are connected into the Octel Overture 250 (i.e., Line ID 0001 connects to Octel port 1A, Line ID 0002 connects to Octel port 1B, etc.).
? If you are using loop-start station appearances, the Cut-off on Disconnect (COD) feature must be programmed. In the Table OFCVAR (Office Variables), program the COD mnemonic for greater than 600 ms. This programming causes the DMS-100 to disconnect the Octel ports immediately when callers hang up. If this is not programmed correctly, subscribers might receive messages with a recording of “Please hang up and dial again” at the end.
? Define the following feature codes:
• Call Request Activate (CRA)
• Call Requestor Deactivate (CRDS)
Modify each subscriber’s extension to allow message-waiting notification and forwarding
? Modify each subscriber’s extension profile to allow message-waiting notification.
? For subscriber phones with lights, assign one position on the phone set for message-waiting notification.
? Forward all subscriber phones to the pilot number of the UCD hunt group on busy and ring-no-answer. The pilot number is the Octel System Access Number.
NOTES:
* The decibel level of the lines coming into the Octel 250 should be -5.5 db or higher or else call volume might be insufficient.
* For exact DMS-100 programming instructions, refer to Northern Telecom’s SMDI interface document (NTP 555-4151-100).
6.0 CONFIGURING THE OCTEL 250
Configuring the Octel Overture 250 menus
? Menu 1.1 - System Parameters
• PBX type: 3 -Centrex 1AESS/SMDI full duplex
• Number of Digits in Extension (Used for Outcalling and ECP): Enter the number of digits in an extension on your DMS-100
• Number of Digits in Extension (Used for Message Waiting): 7
NOTE: For SMDI integrations there is a parameter to enter an extension number for SMDI link validation in menu 6.5. The CO/PBX should return an invalid extension command, which tells the Octel 250 that the link is operational. On DMS-100 switches, the extension must be 0000. To set this parameter, change the menu 1.1 parameter ‘number of digits in extensions for message waiting’ to ‘4.’ Then enter ‘0000’ as the link validation number in menu 6.5. When done, change the menu 1.1 parameter for message-waiting extension length back to 7 digits.
• Menu 4.1 - Port Assignments
? Extension/Phone No.: Refer to Table 2 for an example. It is important that this column contain the LTN of the physical station appearance that is plugged into each particular port. The LTN format is LLGGGMMMM, defined as:

LL = 01- 03 (physical link number), refer to following chart for the link numbers associated with each asynchronous port;
GGG = 001 (message desk number) - confirm with C.O.
MMMM = 0001- 2047 (logical terminal number)


? I column: Y
? T column: Y
? M column: N
? Line Type: 52 - ground start
35 - loop start
• Menu 4.3 - RS-232 Message Waiting
• RS-232 Message Waiting?: Y
? Menu 6.1 - Transfer Dialing Sequences
* "Flash" On-hook Time: 500 ms
Define transfer and reconnect dial sequences
* "Pause" Time: 1000 ms
* Dialing sequence to Transfer a Call: FPN
* Dialing sequence to Reconnect with a Call -
Ring/No Answer: FF
Busy: FF
NOTE: Verify these dialing sequences for your Switch.
Define the in-band feature codes required by your PBX to activate and cancel MWI
• Menu 6.3 - Define CPU Serial Channels:
• For each configurable serial channel (channels 1, 2 and 3) to be used for direct integration, assign channel type 3 - Direct Integration.
When 'Direct Integration' is chosen for a serial channel configuration, you will need to program menu 6.5.2 for each link. (See bullet on Menu 6.5.)
NOTES:
Channel 4 is always used for the primary system management/local service and is not configurable.
When channels 1, 2, or 3 are used for system management, a null modem is required.
The Octel 250 must be rebooted to apply any changes to serial channel parameters.
• Menu 6.5 - Integration Link Management
The following link information must be defined.
? Link Number: (1-3)
? Link Name:
Type of Switch to which the System is Integrated: 3 - 1A ESS/SMDI, Full Duplex
Baud Rate: 1 - 1200 Baud
Number of Data Bits: 0 - 7 Data Bits
Number of Stop Bits: 0 - 1 Stop Bits
Parity (None/Odd/Even): 2 - Even Parity
XON/XOFF: 1 - Ignore XON/XOFF
Carrier Detect: 1 - Carrier Detect Not Used
Extension to Check SMDI Message Waiting: 0000
Max. Msg. Waiting Operations per second: 1
Switch Number to which this Link is Associated: 1
SMDI link down alarm threshold counter: 1

The number entered in the Switch Number field must also be entered as the link number in the Extension/Phone No. column of Menu 4.1.
Note: After any changes are made in Menu 6.5.2, reset the affected integration link(s) using Menu 6.5.5
• Menu 8/9.1 - Subscriber Mailbox Profile
• Subscriber’s Extension Number:
• Message Waiting Allowed: Y
• Int. Link Number:
Note: (Message Waiting should be allowed only for valid extensions on the PBX that allow message waiting indicator.)
7.0 INSTALLING THE VOICE PORTS
Install the voice ports
? Each FLT Board supports 8 analog station appearances. Each FLT connects to the PBX via a 25 pair male amphenol cable. See Figure 1.


• Physically connect the lines used for the voice path between the switch and the Octel 250. Each FLT provides the amphenol connector on the front edge of the board. See Figure 1.
7.1 INSTALLING THE DATA LINK
Install the RS-232 data link
? Octel Communications provides a cable to connect from the I/O port on the DMS-100 to the Octel 250. Connect the cable to the appropriate channel on the CF board. Refer to Figure 2.




7.2 TESTING THE INSTALLATION
Steps for testing the integration when installation is complete
? Create two mailboxes associated with two test extensions. Record a name and personal greeting for each mailbox.
? Call forward the test extensions to the Octel System Access Number.
? Using one test extension, call the other test extension. You should hear the personal greeting.
? Leave a message. Verify that the message waiting indicator turns on.
? Verify that transfer to attendant works properly.
? Call the Octel 250 from a test extension. You should hear the recorded name and be asked to enter the password.
? Review the message in the mailbox. Verify that the direct reply feature works by pressing 8 at the end of the message.
? Delete the message. Verify that the message-waiting indicator turns off.
8.0 CONSIDERATIONS
Important notes regarding this integration
8.1 At software levels BCS 26 and below, extensions on the DMS-100 are not allowed to transfer calls directly to a UCD group. A suggested workaround is to create a hardware-supported analog station that is ring-no-answer forwarded to the voice module. Use this station as a transfer target to the Octel 250. In this scenario, the person transferring the call must stay on the line until at least one burst of ringing is heard. If not, the DMS-100 will re-ring the transferring party and the transfer will not be complete. BCS 27 or higher does allow calls to be directly transferred to the Octel 250.
8.2 If you are using loop-start station appearances, the Cut-off on Disconnect (COD) feature must be programmed for proper disconnect signaling. The programming is covered in section 5.0 of this note. If this feature is not available on your PBX, ground-start lines are recommended for immediate disconnect. If loop-start lines are used, users might hear silence or “Please hang up and dial again” recorded at the end of messages.
8.3 For proper disconnect, a PBX patch must be removed. The patch #RPG50A24 prevents the DMS-100 from providing the required cutoff for disconnect supervision. This patch if installed on the DMS-100 must be removed.
8.4 In order to use the 1X67FA card, you must enable Patch #DDK14A29 on the DMS-100. (Later software will incorporate the patch.) The 1X67FA card transmits data at multiple baud rates. The Octel 250 accepts SMDI messages at 1200 baud only.
8.5 The DMS-100 1X67BC I/O card prohibits use of the MSLU. The 1X67BC card uses X-on/X-off flow control. The MSLU does not support X-on/X-off flow control, and as a result, cannot work on a DMS-100 with this I/O card.
8.6 Loss of data link reverts the Octel 250 to interface mode. Calls can still be forwarded to the Octel 250 ports but will not have call ID.
8.7 The reply to internal telephone-answering message feature may require greater mailbox length. The PBX sends a seven-digit calling party ID over the RS-232 link to the Octel 250 when the caller is located in the same PBX switch, whether or not she/he is a subscriber. The Octel 250e interprets this as a call from another subscriber, attempts to match a mailbox number. If successful, the recipient is allowed to mistakenly reply to the message. To prevent subscribers from inadvertently replying to messages not sent by another subscriber, system managers have two choices. Menu 1, part 1, option “Sender ID used for Telephone Answering” should be set to “1 - Outside Caller,” which will disable the automatic reply feature for telephone-answering messages. Otherwise, the mailbox length defined in the system must be expanded to guarantee uniqueness.
8.8 Different Central Offices may use different modems for remote support. The Anderson-Jacobs AJ2443 modem might be used instead of the 202-T Data Set. Check with your Central Office.




©2001 AVAYA Inc. All rights reserved. All trademarks identified by the ®, SM and TM are registered trademarks, servicemarks or trademarks respectively. All other trademarks are properties of their respective owners. The above information is based on knowledge available at the time of publication and is subject to change without notice. Printed in U.S.A.


AVAYA Inc.
1001 Murphy Ranch Road
Milpitas, CA 95035-7912
(408) 321-2000



Ken Means

 
Thanks for the response Ken,

As for the output from the octel, the log we get for when the octel turns light on is

MW:(MESSAGE WAITING SET/CLEAR)
Box: 1234 Ext: 1234 Dir: 1 Stat: 0

to turn off

MW:(MESSAGE WAITING SET/CLEAR)
Box: 1234 Ext: 1234 Dir: 0 Stat: 0

Looks ok.

Integration is RS232 SMDI

This is not a new problem but a long existing problem, I have just started looking after these particular vm's, last person left the company. I have been cleaning up these systems for the last 3-4 months and this is the last problem that I have that I can't seem to find a reason for. The SW level of the SL100 is SE07,Integration SMDI RS232, I'm not sure of the DMS's SW levels, they are maintained by another Vendor. I will look over the information you have posted and check that all components are ok. Maybe it is an issue of priority.

Thanks
Stew
 
The stat 0 means that the DMS and or the SL100 told the Octel that it had turned the light on otherwise you would get a return code of a 1 - 5 to say that the light could not be turned on. What are the software levels on the Octels ?

Ken Means

 
Software Rel. .... Aria 03.00.09-1
System Type ........... 350

I have checked the programming, all looks ok, There is currently
about 9000 maiboxes. So the STAT 0 indicates that there was no problem, does the octel then get confirmation from the SL-100 or DMS?
 
Have you used TDC to monitor the actual messages being sent on the integration link?(Only works on the DMS SMDI link)
Menu 20, 9-SMT Debug Utilites >TDC<cr>
Data link ,<cr> (port to monitor)(from Menu 6)
Do not use enter from here...
A A I...
Control C to exit
OP MW:XXXXXXX! is activate MW
RMV MW:XXXXXXX! is deactivate MW

Access to menu 20 is limited unless using RDAC modem or manually actvated by dialing #C,CMMDDC,,,,,,2 into open trees.
 
Is there any pattern to this or is it random ? if you can post some of the TDC as a message I can look at it. does it only happen at certain times of the day ? at high traffic times. You could look at the time the Octel told you it turned the light on and see if that corresponds with a peak in the DMS or the SL100. It would also do the same thing if you are just turning on a light from a phone. Also what speed are your links setup for 1200 or 9600 and what is the number of operations per second are they set for in menu 6 ?

Ken Means

 

With SMDI integration there is not a positive acknowledgement sent back. Only a failure message when the phone does not have MWI enabled.

The status of 0 means that there was not a failure message received. It does not mean that the MWI was actually received by the switch and/or that the switch has set the MWI.

If the phone does not have MWI enabled the switch returns a MWI XXXXXXX INV message. This will then log an error in the VM status log.
 
You are right that there is not but if the PBX does not turn the light on or if there is a problem it will send a return code. the assumption is that if there is not a return that the PBX turned the light on.

Ken Means

 
This problem does seem to occur more on peak times, 9am to 11am, 1pm, and 3- 4pm. That is why I was wondering about a timer issue. Here is the info on the one link to the DMS

Link Name: DMS#1 1234,5678
Type of Switch to which the System is Integrated: 3 - 1A ESS/SMDI, Full Duplex

Baud Rate: 0 - 1200 Baud
Number of Data Bits: 0 - 7 Data Bits
Number of Stop Bits: 0 - 1 Stop Bits
Parity (None/Odd/Even): 2 - Even Parity
XON/XOFF: 1 - Ignore XON/XOFF
Carrier Detect: 1 - Carrier Detect Not Used
Extension to Check SMDI Message Waiting:
Max. Msg. Waiting Operations per second: 1
Switch Number to which this Link is Associated: 1
SMDI link down alarm threshold counter: 1

 
This is the SL100 Link

Link Number: 1


Link Name: SL100 8765, 4321
Type of Switch to which the System is Integrated: 3 - 1A ESS/SMDI, Full Duplex

Baud Rate: 0 - 1200 Baud
Number of Data Bits: 0 - 7 Data Bits
Number of Stop Bits: 0 - 1 Stop Bits
Parity (None/Odd/Even): 2 - Even Parity
XON/XOFF: 1 - Ignore XON/XOFF
Carrier Detect: 1 - Carrier Detect Not Used
Extension to Check SMDI Message Waiting:
Max. Msg. Waiting Operations per second: 1
Switch Number to which this Link is Associated: 1
SMDI link down alarm threshold counter: 1
 
Well the link setup looks good. One thing you may want to try is putting in an Extension to check SMDI Message Waiting in the link. This should be an invalid ext number, it is used to make sure the link does not go to sleep on the PBX/DMS side. If you do this, it will generate error messages, as the PBX should send back an MWI XXXXXXX INV message. I do not think that the link is going down or to sleep with that many users but you never know. If you look in menu 6-5-6, does it show that the link is down when you know the Octel was up and running? It should tell you why it was down also.

Ken Means

 
I have had no indications that the link goes down, I will usually know right away because the amount of mbxs that will be having problems.

I will put a test ext in for now and see if it improves anything. I do have the TDC messages, just working through them. will post soon
 
If there is high traffic (extreme peak times) would it be benificial to increase the link speed to 9600 baud? What would be the advantages?
 
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