OfficeServ100 Installation Guide

Enterprise IP Solutions

OfficeServ 100

Installation

Guide

Publication Information

Samsung Business Communications reserves the right without prior notice to revise information in this publication for any reason.

Samsung Business Communications also reserves the right without prior notice to make changes in design or components of equipment as engineering and manufacturing may warrant.

Disclaimer

Samsung Business Communications is not responsible for errors or problems arising from customers not installing, programming or operating their Samsung systems as described in this manual.

Copyright 2004

Samsung Business Communications

All rights reserved. No part of this manual may be reproduced in any form or by any means – graphic, electronic or mechanical, including recording, taping, photocopy or information retrieval system – without express written permission of the publisher of this material.

2004/12/OS100(IG) Version 1.0

EU Declaration of Conformity (RTTE)

Samsung Electronics Co., Ltd.

259 Gongdan-Dong, Gumi-City Kyungbuk, Korea, 730-030

(factory name, address) declare under our sole responsibility that the product

Digital Keyphone System "OfficeServ 100"

to which this declaration relates is in conformity with

RTTE Directive 1999/5/EC ( Annex II )

Low Voltage Directive 73/23/EEC:93/68/EEC

EMC Directive 89/336/EEC:92/31/EEC

By application of the following standards

EN55022 : 1998 + A1:2000 + A2:2003, EN55024 : 1998 + A1:2001 + A2:2003

EN61000-3-2:2000, EN61000-3-3 : 1995 + A1:2001

EN61000-4-2:1995 + A1:1998 + A2:2001, EN61000-4-3:2002

EN61000-4-4:1995 + A1:2001 + A2:2001, EN61000-4-5:1995

EN61000-4-6:1996 + A1:2001, EN61000-4-11:1994 + A1:2001

EN60950-1: 2001(1st Edition) and/or EN60950-1: 2001

(Manufacturer)

Samsung Electronics Co., Ltd

259, Gongdan-Dong, Gumi-City

Kyungbuk, Korea, 730-030

2004-12-04

Tae-eok Jang / General Manager

TE Jang

................................................. .................................................................................

(place and date of issue) (name and signature of authorized person)

(Representative in the EU)

Samsung Electronics Euro QA Lab.

Blackbushe Business Park

Saxony Way, Yateley, Hampshire

GU46 6GG, UK

Peter Park / Manager


EU Declaration of Conformity (RTTE)

Samsung Electronics Co., Ltd.

259 Gongdan-Dong, Gumi-City Kyungbuk, Korea, 730-030

(factory name, address) declare under our sole responsibility that the product

Digital Keyphone System "iDCS 100"

to which this declaration relates is in conformity with

RTTE Directive 1999/5/EC ( Annex II )

Low Voltage Directive 73/23/EEC:93/68/EEC

EMC Directive 89/336/EEC:92/31/EEC

By application of the following standards

EN55022 : 1998 + A1:2000 + A2:2003, EN55024 : 1998 + A1:2001 + A2:2003

EN61000-3-2:2000, EN61000-3-3 : 1995 + A1:2001

EN61000-4-2:1995 + A1:1998 + A2:2001, EN61000-4-3:2002

EN61000-4-4:1995 + A1:2001 + A2:2001, EN61000-4-5:1995

EN61000-4-6:1996 + A1:2001, EN61000-4-11:1994 + A1:2001

EN60950-1: 2001 (1st Edition) and/or EN60950-1: 2001

(Manufacturer)

Samsung Electronics Co., Ltd

259, Gongdan-Dong, Gumi-City

Kyungbuk, Korea, 730-030

2004-12-04

Tae-eok Jang / General Manager

TE Jang

................................................. .................................................................................


(Representative in the EU)

Samsung Electronics Euro QA Lab.

Blackbushe Business Park

Saxony Way, Yateley, Hampshire

GU46 6GG, UK

Peter Park / Manager


Intended Use

This telephone system is intended to provide the user with voice communication between the system extensions and connection to the public switched telephone network by digital or analogue links.

The telephone system may be provided with the ability to communicate with local computer networks to provide

CTI functions and features. In this case, it is capable of passing information to the computer network via a specified link.

The system is powered by mains voltage and can optionally be powered by batteries. Details of all connections and power arrangements are provided in the instructions for use. It should not be used in any other way.

Preface

About This Guide

The OfficeServ 100 Digital Communication System is designed for small to medium–sized businesses. This guide provides the information needed to install and configure the system, including details for connecting interface cards, station equipment and optional devices.

The guide comprises the following chapters. You should read Chapter 1 before you begin installation. To guide you through the installation procedure, read Chapters 2–7 in sequence. Chapters 8 and 9 provide essential additional information.

• Chapter 1: Site Requirements

What you need to know before starting installation

• Chapter 2: Installing Basic Key Service Unit and Expansion Cabinet

Installing and connecting the main KSU and expansion cabinet

• Chapter 3: Installing Interface Cards

How and where to insert the supplied interface cards (such as TRK, BRI, DLI).

• Chapter 4: Power Up Procedures

Switching on the system and checking for correct operation

• Chapter 5: Connecting Central Office Circuits

Connecting trunk lines

• Chapter 6: Connecting Station Equipment

How to connect telephones, add-on modules, door phones, Wireless LAN systems, ISDN stations

• Chapter 7: Connecting Optional Equipment

How to connect equipment such as PCs and printers, and setting up devices for paging, music-on-

hold and other optional functions

• Chapter 8: Installing Keyset Daughterboards

Attaching daughterboards to keysets to provide additional connections for station equipment

• Chapter 9: SVMi-8 Voice Mail Setup

Configuring the optional Samsung SVMi-8 Voice Mail card

• Appendix A: Interface Card LED Indications

What the status of the card LEDs means during system operation i

Supporting Documents

This guide is supported by the following OfficeServ 100 system guides which are available from

Samsung:

•

OfficeServ 100 General Description Guide

Provides a comprehensive description of the OfficeServ 100, including system hardware, features and facilities, and specifications.

•

OfficeServ 100 Programming Guide

Provides complete instructions for programming your system using MMC programs at a digital keyset.

•

OfficeServ System Administration Guide

A useful guide to system administrators for programming the most commonly used features of all

OfficeServ telephone systems.

•

Keyset and Phone User Guides

Guides are available for using a variety of Samsung keysets, standard telephones and mobile phones with your OfficeServ 100

•

System Administrator PC Programming User Guide

A guide to programming your OfficeServ 100 system using the Microsoft Windows-based PCMMC application from a PC. ii

Contents

Preface ........................................................................................................................... i

About This Guide..............................................................................................................................i

Supporting Documents.....................................................................................................................ii

Chapter 1 Site Requirements ................................................................................1-1

Chapter 2 Installing Basic KSU and Expansion Cabinet...................................2-1

Unpacking and Inspection.............................................................................................................2-1

Basic KSU Installation..................................................................................................................2-1

Expansion KSU Installation..........................................................................................................2-1

Ring Generator Unit (RGU) Installation.......................................................................................2-2

MDF Cabling ................................................................................................................................2-2

Power Failure Options ..................................................................................................................2-3

Chapter 3 Installing Interface Cards ..................................................................3-1

MCP1 Card ...................................................................................................................................3-1

AC15 Card (UK Only)..................................................................................................................3-1

3TRK Card....................................................................................................................................3-1

6TRK Card....................................................................................................................................3-1

2SLI Card......................................................................................................................................3-1

8SLI Card......................................................................................................................................3-2

8DLI Card .....................................................................................................................................3-2

MISC 3 or MISC 4 Card ...............................................................................................................3-2

MODEM Card...............................................................................................................................3-2

TEPRI Card...................................................................................................................................3-2

2BRI (2S0T0) Card.......................................................................................................................3-3

4BRI (4S0T0) Card.......................................................................................................................3-3

PLL Card.......................................................................................................................................3-3

6MWSLI .......................................................................................................................................3-3

SVMi-4 Card.................................................................................................................................3-3

SVMi-8 Card.................................................................................................................................3-4

MGI3 Card ....................................................................................................................................3-4

3BSI Card......................................................................................................................................3-4

4WLI Card ....................................................................................................................................3-4

Chapter 4 Power Up Procedures .........................................................................4-1

Connect Power to the System .......................................................................................................4-1

Check the MCP1 Card ..................................................................................................................4-1

Card Verification...........................................................................................................................4-1

Default Trunk and Station Numbering..........................................................................................4-2

SVMi-8 Voice Mail System..........................................................................................................4-2

Chapter 5 Connecting Central Office Circuits.....................................................5-1

Safety Precautions.........................................................................................................................5-1

Loop-Start Lines ...........................................................................................................................5-1

AC15 Tie Lines.............................................................................................................................5-1

Off Premises Extensions (OPX) ...................................................................................................5-1

ISDN Lines ...................................................................................................................................5-2 iii

Contents

Chapter 6 Connecting Station Equipment.........................................................6-1

Safety Precautions.........................................................................................................................6-1

Digital Keysets..............................................................................................................................6-1

IP Phones ......................................................................................................................................6-1

Mounting Keysets .........................................................................................................................6-2

Add-On Modules...........................................................................................................................6-2

Single Line Telephones.................................................................................................................6-3

Door Phone and Door Lock Release.............................................................................................6-3

ISDN Station (ISDN Phone, G4 Fax, etc) ....................................................................................6-3

DECT Base Station (DBS)............................................................................................................6-4

Connecting the Wireless LAN Base Station (WBS24) With the 4WLI Card ..............................6-4

Chapter 7 Connecting Optional Equipment........................................................7-1

External Paging .............................................................................................................................7-1

Common Bell ................................................................................................................................7-2

Ring Over Page .............................................................................................................................7-2

SMDR/UCD/Traffic/Alarm Reports.............................................................................................7-2

PC Programming...........................................................................................................................7-3

Remote Programming—Internal Modem .....................................................................................7-3

Remote Programming—External Modem ....................................................................................7-3

Power Failure Transfer (PFT) .......................................................................................................7-3

Voice Mail/Auto Attendant...........................................................................................................7-3

Chapter 8 Installing Keyset Daughterboards.....................................................8-1

DCS Keyset Daughterboards ........................................................................................................8-2 iDCS Keyset Daughterboards .......................................................................................................8-4

Chapter 9 SVMi-8 Voice Mail Setup ....................................................................9-1

Introduction...................................................................................................................................9-1

LED Indications ............................................................................................................................9-1

Reset Button..................................................................................................................................9-1

Power Requirements .....................................................................................................................9-1

Configuring the SVMi-8 Card ......................................................................................................9-2

Testing the Hardware ....................................................................................................................9-2

Appendix A Interface Card LED Indications ..................................................... A-1

TEPRI LED Definitions...............................................................................................................A-1

MGI3 LED Definitions ................................................................................................................A-1

MCP1 LED Definitions ...............................................................................................................A-2 iv

Chapter 1 Site Requirements

When planning the installation of the OfficeServ 100 system, take careful note of the following requirements.

• This equipment is to be installed only in a restricted access area (e.g. dedicated equipment room,

• Ensure that there is sufficient space and adequate lighting to carry out floor or wall mounting.

• Allow at least 15cm (6”) clearance on both sides and above the system to ensure proper ventilation and access to the interior of the cabinet(s).

• The environment should maintain a temperature range of 32°–104°F (0°–40°C) and a humidity range of 10%–90% non-condensing.

• The equipment should not be exposed to direct sunlight, corrosive fumes, dust, constant vibration or strong magnetic fields such as those generated by motors and copying machines.

• Ensure that the location minimises cable lengths. See the Cable Requirements table, below.

• A direct commercial AC power outlet is required. Do not use extension cords. Preferably, a dedicated circuit should be used to minimize the risk of other electrical equipment being connected that could adversely affect system operation.

• Ensure that all wires and cables to and from the OfficeServ 100 are properly routed. Do not cross fluorescent lights or run parallel with AC wires.

• Do not install in close proximity to a fire sprinkler head or to other sources of water.

Meeting these requirements will help to ensure optimum performance and greater life expectancy of the system.

CABLE REQUIREMENTS

EQUIPMENT CABLE MAX FEET MAX METRES

DIGITAL KEYSET 1PR. TWISTED 1300 400

ADD-ON MODULE

SINGLE LINE STATION

1PR. TWISTED

1PR. TWISTED

1300

3000

400

1000

100 DOOR PHONE 2PR. TWISTED

ENVIRONMENTAL LIMITS

ITEM

Operating Temperature

330*

0 – 40 °C (32 – 104 °F)

SPECIFICATION

Storage Temperature -10.5 – 70 °C (13 – 158 °F)

Humidity 10% – 90% non-condensing

1-1

Chapter 2 Installing Basic KSU and

Cabinet

Unpacking and Inspection

Unpack the Key Service Unit (KSU) package and inspect each item for signs of physical damage. If you received an Expansion cabinet, also check the included items. If you detect damage to any item, do not attempt to proceed with the installation. Contact the Samsung Technical

Support Department.

The following items should be included in the KSU package:

Basic KSU Spare fuse

Wall-mounting kit Cable tie and screw

MCP1 Card Battery connection cable

Mains power cable Ferrite cores (for electromagnetic interference suppression of cables)

Power supply

The following items should be included in the Expansion cabinet package:

KSU

Ribbon cable

2 x 2-wire connectors

F-GND cable

Screws

Basic KSU Installation

The Basic KSU cabinet is made of metal and can be wall or rack mounted. If wall mounted, the KSU should be mounted on a plywood backboard at least 15mm (5/8 inch) thick. The backboard should be large enough to accommodate the Expansion cabinet next to the Basic KSU.

Attach a mounting screw to the backboard. Next, hang the KSU on the screw and secure it to

the backboard by inserting the screws supplied into the mounting holes. ( Figure 2–1 )

Expansion KSU Installation

There are two types of Expansion cabinet: A and B. These cabinets have different configurations of card slots. However, the installation procedure is identical for both types. The illustrations in this chapter show type A for convenience only.

The Expansion KSU is attached to the Basic KSU as follows.

2-1

Chapter 2 Installing Basic KSU and Expansion Cabinet

1. Remove the covers of both the Basic and Expansion KSU.

2. Remove the dummy tabs on the right-hand side of the Basic KSU using a suitable tool.

( Figure 2–2 .)

3. Place the Expansion cabinet next to the Basic KSU and attach it via the tongue and groove.

If the system is wall-mounted, ensure the Expansion cabinet is fixed securely to the backboard

by inserting the screws supplied into the mounting holes. ( Figure 2-3 ).

4. Secure the Expansion cabinet to the Basic KSU using the screws provided. The screw positions are indicated by the small arrows in Figure 2–3.

5. Connect the flat ribbon cable between the Basic KSU and the Expansion cabinet. Also connect the two 2-wire power connectors and the F–GND cable. These connections are shown in the dotted boxes indicated by the large arrows in Figure 2-3.

Installation of the Expansion cabinet is complete and requires only installation of interface

cards as described in Chapter 3 .

Ring Generator Unit (RGU) Installation

1

The RGU is mounted in the Basic KSU using the screws supplied ( Figure 2 –4 ). Connect the ca-

ble assembly (4 pin) from the RGU to connector P11 on the baseboard.

CAUTION: Failure to provide an adequate ground may cause unpredictable operation or even card failure.

The system is equipped with a third wire AC ground provided through the power cord. If you suspect that there is a problem with the ground, you may need to connect a new ground. Contact your dealer or the Samsung Technical Support department for advice and refer to the

ground connection (GND) shown in Figure 2–5.

WARNING: Hazardous voltage may cause death or injury. Observe extreme caution when working with AC power. If you encounter a problem, unplug the power cord from

the AC outlet before attempting to connect a new ground.

MDF Cabling

All connections to the system are made by way of a customer-provided main distribution frame

(MDF). The KSU and Expansion cabinet are each connected to the MDF using a 25-pair female amphenol-type cable. These cables can be routed into the main KSU from below ( Figure

2 –5).

Push the MDF cables through the opening in the bottom of the Basic KSU. These connect

to the Champ connectors as shown in Figure 2–6 . However, it is recommended not to plug

them in until you have completed the power up procedure described in Chapter 4.

1

The RGU is pre-installed in all new KSUs

2-2


The cables are supplied with ferrite cores attached for electrical “noise” suppression. Do not remove these cores.

Power Failure Options

Back-up is essential if you want to continue using your system if a power failure occurs. For this, you can use a back-up battery or an uninterruptible power supply.

Battery

It is recommended that you select a battery conforming to the following specifications.

Charge Discharge

Minimum Load Current (A) 0 0.05

Maximum Load Current (A) 0.4 0.7

Norminal Load Current (A) 0.1 0.5

Norminal Output Voltage (V) 54 49 o

Maximum keyset current consumption =30mA

If you use a battery whose capacity is too large, the system may shut down; if too small, the system may not operate. Use the battery cable supplied with the system.

Installation Procedure

CAUTION: Switch OFF the mains power supply before connecting the battery. Make sure the correct polarity is observed. Equipment damage will result if polarity is reversed.

Run the battery cable through the opening in the bottom of the KSU (together with the MDF cable). Then, connect the cable to the battery: RED to positive (+), BLACK to negative (–)

and insert the housing connector into the head pin in the power supply. ( Figure 2-7.)

Uninterruptible Power Supply (UPS)

For information on the use of a UPS, contact your dealer or Samsung directly.

2-3


FIGURES 2-1 TO 2-7

2-4


OfficeServ100

2-5

FIGURE 2–1 BASIC KSU


A

B

Remove tabs A and B.

Slot A is for MDF cable and F-GND cable. Slot B is for ribbon cable and 2-wire power cables for connecting to the Expansion KSU (see Fig. 2–3).

FIGURE 2–2 VIEW OF RIGHT SIDE OF BASIC KSU

2-6


F-GND Cable T

2-7

FIGURE 2–3 CONNECTING BASIC KSU &

EXPANSION CABINET

( Type A Expansion Cabinet shown as example only)


Connect RGU cable assembly to P11

FIGURE 2–4 INSTALLING RING GENERATOR

UNIT IN BASIC KSU

2-8


MDF Cable Route

Bottom of KSU

Optional Ground

Connection

2-9

FIGURE 2–5 MDF CABLE ROUTING &

OPTIONAL GROUND CONNECTION


FIGURE 2–6 MDF CABLE CONNECTIONS

2-10


Head pin connection

48V

FIGURE 2–7 CONNECTING A BATTERY

2-11

Chapter 3 Installing Interface Cards

For full descriptions of all the cards discussed in this chapter, and to determine which you will need to install for your selected system configuration, refer to the OfficeServ 100 General De-

scription Guide. Before installing any card, unpack it and check for signs of physical damage. If you detect any, do not attempt to install the card—call your system supplier immediately.

A Basic KSU comprises three universal slots (1–3), a 2SLI card slot, MISC card slot, MEM

card slot (for the MCP1 card) and PLL card connectors on the baseboard ( Figures 3–1a and

3–1b ).

A type “A” Expansion cabinet comprises three universal slots (4–6) and a dedicated card slot.

(Figure 3–1a )

A type “B” Expansion cabinet comprises two universal slots (4 and 5) and two dedicated slots.

(Figure 3–1b )

MCP1 Card

The Main Control Processor (MCP1) card ( Figure 3–2 ) has a 32-bit processor and controls the

overall operation of the OfficeServ 100 system. The card is mounted in the MEM slot of the basic cabinet.

To prevent accidental damage to the MCP1 card, the connector on the back-plane is positioned to mate only with the MCP1 card. Push firmly in the middle of the MCP1 card to ensure that it is

fully inserted into the back-plane connector. See Appendix A for LED definitions.

AC15 Card (UK Only)

Contains three 4-wire tielines. This card ( Figure 3–3 ) has no selectable options. Insert the

card into any universal slot and push firmly in the middle of both card connectors to ensure that it is fully inserted into the back-plane connector.

3TRK Card

Three loop-start trunk ports and two PFT ports for power failure transfer This card ( Figure

3–4 ) has no selectable options. Insert the card into any universal slot. Push firmly in the middle

of both card ejectors to ensure that it is fully inserted into the back-plane connector.

6TRK Card

Six loop-start trunk ports and two PFT ports for power failure transfer. This card ( Figure 3–4 )

has no selectable options. Insert as many cards as are needed into any universal slots. Push firmly in the middle of both card ejectors on each card to ensure that it is fully inserted into the back-plane connector.

2SLI Card

Two subscriber station ports. This card ( Figure 3–5 ) has no selectable options. Insert the card

into the 2SLI card slot in the KSU. Push firmly in the middle of both card ejectors to ensure that it is fully inserted into the back-plane connector.

3-1

Chapter 3 Installing Interface Cards

8SLI Card

Eight subscriber station ports. This card ( Figure 3–5 ) has no selectable options. Insert the card

into any universal slot. Push firmly in the middle of both card ejectors to ensure that it is fully inserted into the back-plane connector.

8DLI Card

Eight digital phone ports. This card ( Figure 3–6 ) has no selectable options. Insert the card

into any universal slot. Push firmly in the middle of both card ejectors to ensure that it is fully inserted into the back-plane connector.

MISC 3 or MISC 4 Card

MISC 3 provides a number of features including DTMF receiver (4 channels), BGM, paging and optional Modem (see Modem Card, below). MISC 4 provides all the MISC 3 card functions and also provides a 4-port AA function. If required, you should install the Modem card on the MISC card before installing the MISC card in the KSU.

Insert the card ( Figure 3–7 ) into the MISC slot in the KSU and push firmly in the middle of both

card ejectors to ensure that it is fully inserted into the back-plane connector.

OfficeServ Modem Card

Optional internal modem card ( Figure 3–8 ) for the MISC 3 or MISC 4 card. Push firmly in the

middle of the 14-pin female connector to ensure that it is fully inserted into the MISC card.

TEPRI Card

The TEPRI card ( Figure 3–9 ) is installed in a dedicated slot in the Expansion cabinet. (This

must be the second dedicated slot in an Expansion B cabinet.) The OfficeServ 100 supports either E1 or ISDN PRI service. The first set of four LEDs on the front of the card provides the status of the service (Sync, AIS, Loss and Layer 2 Active states). The second set of four LEDs on the front of the card display the type of service. There are two RJ-45 modular jacks on the face of the card. The settings for E1 or PRI service are selected by a bank of DIP switches, as defined in the table below.

Push firmly in the middle of both card ejectors on the card to ensure that it is fully inserted into the back-plane connector.

TEPRI CARD DIP SWITCHES

Switch No. OFF ON

1 E1

2 T1/E1

3 24B+D

T1

PRI

24B

4 USER NETWORK

5 . AFT

6

7

Not Used

Not Used

Not Used

Not Used

8 Reserved Default

3-2


The TEPRI card requires that a PLL card also be installed.

TEPRI LED DEFINITIONS

There are a number of LED indicators on the front of the TEPRI card showing the status of the

card. The indications are described in Appendix A .

2BRI (2S0T0) Card

Supports both S and T reference points defined by ITU-T. You can select the S/T mode of each port using MMC programming. There are no options to select on this card. Insert the

card ( Figure 3–10 ) into any universal slot. Push firmly in the middle of both card ejectors to en-

sure that it is fully inserted into the back-plane connector.

Note: Each ISDN circuit is terminated by a 100 Ohm resistor on the BRI card. No other terminator is required. The presence of additional terminators could cause problems.

The 2BRI card requires that a PLL Card also be installed.

4BRI (4S0T0) Card

Supports both S and T reference points defined by ITU-T. You can select the S/T mode of each port using MMC programming. There are no options to select on this card Insert the

card ( Figure 3–10 ) into any universal slot. Push firmly in the middle of both card ejectors to

ensure that it is fully inserted into the back-plane connector.

Note: Each ISDN circuit is terminated by a 100 Ohm resistor on the BRI card. No other terminator is required. The presence of additional terminators could cause problems.

The 4BRI card requires that a PLL card also be installed.

PLL Card

Always required when a TEPRI or BRI card is installed. This card ( Figure 3–11 ) has no se-

lectable options. Insert the card into the PLL card connectors on the baseboard in the KSU.

Push firmly in the middle of the 14-pin female connector to ensure that it is fully inserted.

NOTE: The PLL card is pre-installed in all new KSUs.

6MWSLI

There are no options to select on this card ( Figure 3–12 ). Insert as many cards as are

needed into any universal slots. Push firmly in the middle of both card ejectors to ensure that it is fully inserted into the back-plane connector.

SVMi-4 Card

Only one card is permitted per system ( Fig 3–13 ) and it can be installed in any universal slot.

There are no selectable options.

3-3


SVMi-8 Card

Before installing this card ( Figure 3–14 ), it should be correctly configured with a hard disk

drive and the appropriate number of voice processing modules. One additional Voice

Processing Module can be added. Refer to your SVMi-8 documentation for details.

The SVMi-8 card is installed in a dedicated slot of the Expansion cabinet. (This must be the

first dedicated slot in an Expansion B cabinet.) Only one card can be installed in a system and it counts as eight (8) stations of the power supply rating. Check that the cabinet power switch is in the OFF position. Next, position the card in the grooves of the card guide and gently slide the card in until it makes contact with the connector. Press gently but firmly on the top and bottom of the front edge of the card until the card sits in its connector.

MGI3 Card

This card ( Figure 3–15) p

rovides an 8-channel interface which can be upgraded to 16 channels by the addition of an MGI3D daughterboard. Uses the G.711, G.723 and G.729 Codecs for speech compression and T.38 protocol for fax or IP communication. Acts as a universal gateway for generic types of VoIP handsets. A maximum of three cards can be installed in a system.

Insert into any universal slot in the KSU. Push firmly in the middle of both card ejectors to ensure the card is firmly seated into the back-plane connector.

MGI3 LED INDICATIONS

There are a number of LED indicators on the front of the MGI3 card showing the status of the

card. The indications are described in Appendix A .

3BSI Card

There are no options to select on this card ( Figure 3–16 ). Insert into any universal slot. Push

firmly in the middle of both card ejectors to ensure that it is fully inserted into the back-plane connector.

4WLI Card

The 4WLI card ( Figure 3–17) provides a cable interface between the OfficeServ 100 system and

a COMBO type Wireless LAN (WLAN) Base Station (WBS24), which is the access point for a

WLAN.

Push firmly in the middle of both card ejectors to ensure the card is firmly seated into the backplane connector.

NOTE: This card is planned for a future release.

3-4


FIGURES 3-1 TO 3-17

3-5


Dedicated Slot for TEPRI / SVMi-8 Card

3-6

FIGURE 3–1a INTERFACE CARD SLOTS WITH EXPANSION

TYPE A CABINET


Dedicated Slot for SVMi-8 Card

Dedicated Slot for TEPRI Card

FIGURE 3–1 b INTERFACE CARD SLOTS WITH EXPANSION

TYPE B CABINET

3-7


3-8

FIGURE 3– 2 MCP1 CARD


FIGURE 3– 3 AC15 CARD

3-9


3TRK 6TRK

Sockets for

MPD/PRS hybrids

3-10

FIGURE 3– 4 3TRK AND 6TRK CARDS


2SLI 8SLI

FIGURE 3– 5 2SLI AND 8SLI CARDS

3-11


3-12

FIGURE 3– 6 8DLI CARD

FIGURE 3– 7 MISC 3/4 CARD


FIGURE 3– 7 MISC 3/4 CARD

3-13


3-14

FIGURE 3– 8 OFFICESERV MODEM CARD


FIGURE 3– 9 TEPRI CARD

3-15


Termination ON/OFF switches

3-16

FIGURE 3– 10 2BRI / 4BRI CARD


FIGURE 3–1 1 PLL CARD

3-17


3-18

FIGURE 3–1 2 6MWSLI CARD


FIGURE 3–1 3 SVMi-4 CARD

3-19


3-20

FIGURE 3–1 4 SVMi-8 CARD


PWR

SRV

Tx

Rx

RUN

IPC

DSP

MOD

LED DISPLAY

FIGURE 3–15 MGI3 CARD

3-21


3-22

FIGURE 3–1 6 3BSI CARD


FIGURE 3–1 7 4WLI CARD

3-23

Chapter 4 Power Up Procedures

Before powering up your system for the first time, ensure that all of the procedures described in the previous chapters have been followed carefully.

Connect Power to the System

TIP: During the initial installation, it is best to verify proper system operation before plugging in any amphenol-type cables to the MDF. If you have already plugged the cables in, unplug them and reconnect them after completing these power-up procedures.

1. Verify that the AC voltage at the dedicated AC outlet is in the range 180–270 VAC.

2. Make sure the AC power switch on the OfficeServ 100 KSU and the battery switch

on the MCP1 card are both OFF. Then plug one end of the power cord into the power input connector on the KSU and plug the other end of the cable into the dedicated AC outlet or power strip.

3. Turn the AC power switch to the ON position.

Both the AC LED and DC LED by the power switch should light. (Only the DC LED will light if power is supplied from the back-up battery.)

If the AC LED does not light when mains power is supplied, switch off the system and unplug the power cord. Remove the power supply and check the fuse located on the bottom.

If the fuse is good, check the AC mains outlet. If this is not the problem, unplug all cards using the card ejectors. Replace the power supply, plug in the power cord and turn the system on. Check the LEDs again. If the problem is corrected, you have a defective card. Test for and remove the faulty card before continuing. If the LED still does not light, unplug the KSU and change the power supply. This should solve the problem. If it does not, contact Samsung Technical Support.

Check the MCP1 Card

Having verified that the power supply is operating correctly, check the MCP1 card. The MP and

SP Run LEDs on the card should flicker rapidly, indicating the main processor is functioning.

Switch the battery ON.

Now connect a digital display keyset to a DLI port via a test cable and check that it is working correctly.

Card Verification

Run MMC 812 to set the correct country of operation (e.g. UK). Then use MMC 727 to verify the system and software versions and to confirm that all cards are recognised by the CPU. It is also recommended that the system customer database be cleared (defaulted) using MMC 811.

Finally, remove the test cable and plug in all amphenol-type cables to the MDF.

4-1

Chapter 4 Power Up Procedures

Default Trunk and Station Numbering

Upon initial power up, the CPU reads each slot for the existence of a card and identifies the type of card. It stores this information as the default configuration. The system assigns trunk numbers from 701 onwards. Station numbers are assigned from 201 onwards. Keyset daughterboards are assigned from 301 onwards.

By default, the digital keyset in the lowest port is assigned to the operator group and all trunks ring that station unless the default is changed. It is recommended that the operator station default to a 24-button keyset as extension 201. Using MMC 724, station and trunk numbers can be changed, rear- ranged and reassigned as needed.

SVMi-8 Voice Mail System

If you have installed an SVMi-8 Voice Mail card, refer to Chapter 9, SVMi-8 Voice Mail Setup ,

for information on configuring the card.

4-2

Chapter 5 Connecting Central Office

Circuits

Safety Precautions

Use caution when installing or modifying telephone lines. To limit the risk of personal injury, always follow these precautions before connecting Central Office (C.O.) circuits:

! Never install telephone wiring during a lightning storm.

! Never install telephone jacks in a wet location unless the jack is specifically designed for wet locations.

! Never touch non-insulated telephone wires or terminals unless the telephone line has been disconnected at the network interface.

Loop-Start Lines

All C.O. lines and stations are connected to the system via the MDF. Using one pair twisted #24

AWG (0.5mm) or #26 AWG (0.4mm) jumper wire, cross-connect each loop-start line to the trunk

port of your choice ( Figure 5-1 ).

AC15 Tie Lines

Using two pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) jumper wire, cross-connect

each tie line to the AC15 card port of your choice ( Figure 5-2 ).

Off Premises Extensions (OPX)

Using one pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) jumper wire, cross-connect sin-

gle line telephone (SLT) extensions to telephone company OPX circuits ( Figure 5-3 ). Circuits on

the 2SLI card are specifically designed to meet telephone company requirements for OPX use.

These circuits are provided with the same over-voltage and over-current protection as that of

C.O. line circuits. Using SLTs on any other SLI card or a KDB-SLI requires the installation of externally mounted protection devices.

There is no special programming required for OPX use; however, it is suggested that the OPX ports are set for C.O. ring in MMC 208. The telephone company service facility interface code for OPX circuits is OL13C.

5-1

Chapter 5 Connecting Central Office Circuits

ISDN Lines

PRI LINES

TEPRI cards support an RJ-45 connector to access ISDN PRI lines from C.O. Connect a cable to the TEPRI port and run the cable along the MDF cable path to the connector on the card

( Figure 5–4 ) in the dedicated card slot.

BRI Lines

The Basic Rate Interface (BRI) card can be used as ISDN TE (Terminal Equipment) or NT2

(Network Termination 2 / Multi-way ISDN Interface). When programmed for T-mode (the default setting) this port provides an ISDN2 network connection.

NOTE: Each ISDN circuit is terminated by a 100 Ohm resistor on the BRI card.

No other terminator is required. The presence of additional terminators could cause problems.

Both the 4BRI and 2BRI card can support S and T modes defined by ITU-T. If S mode is re-

quired, the ISDN C.O line must be connected as shown in Figure 5–5

(4BRI) or Figure 5–6

(2BRI).

5-2



5-3


25 PAIR CABLE WITH FEMALE CONNECTOR TO BASIC P2

25 PAIR CABLE WITH FEMALE CONNECTOR TO EXPANSION P5

PSTN ANALOGUE

TRUNKS

CONNECT TO ANY CIRCUIT

ON ANY TRUNK CARDS

PIN NO.

3 T R K 6 TRK C I R C U I T SLOT NO.

2 5 , 5 0 C.O 1 C.O 1 1

2 4 , 4 9 C.O 2 C.O 2 2

23,48

22,47

C.O 3 C.O 3

C.O 1

3

4

6 C I R C U I T

S L O T

2 4 , 2C.O 2 2

1

2 1 , 4 6 PFT1 C.O 5 5 1

SLOT NO.

23,48 PFT2 C.O 6 6 S

22,47 N.C C.O 4 4

L

1 8 , 4 3 2 1 , 4 6 N.C P F T 2 5

O

T

20,45 6 6 C.O 4 C.O 7 1

16,41 N.C N . C C.O

8

2

15,40 1 8 , 4 3 C.O 6 C.O 9 N.

3

14,39 N.C

C.O 10 4

S L O T

S L O T

13,38 PFT3 C.O 11 5

2

2

4

S

14,39 N.C C.O 10

10,35 N . C P F T 4 5

4

L

O

T

5 12,37 C.O 7 N.C C.O 12 1 6

8,33 C.O 8 C.O 14 2

7,32 C.O 9 C.O 15 3

6,31 N . C C.O 16 4

S L O T

8,33 C.O PFT5 C.O 17 5

4,29 7,3 PFT6 C.O 18 6

3

S L O T

3

3,28 N N.C P F T 5

2,27 N . C P F T 6 5

S

L

O

T

4,29 PFT6 C.O 18 6

6

3,28 N.C P F T 5

2,27 N . C P F T 6

FIGURE 5–1 MDF CONNECTIONS: LOOP START LINE

TO TRUNK CARDS

5-4


PSTN AC15

CIRCUIT



CONNECT ANY CIRCUIT

ON ANY AC15 CARD

PIN NO.

F U N C T I O N C I R C U I T SLOT NO.

25,50(T,R) Ear 1 from C.O.

24,49(T,R) Mouth 1 to C.O.

1

23,48(T,R)

22,47(T,R)

21,46(T,R)

Ear 2 from C.O.

25,50

S

R

SxB, SxA (To N.T.)

A (From N.T.)

B R I

2

SLOT NO.

0

3

S L O T

1

20,45(T,R)

SxA (To N.T.)

1

22,47 S

R

B, S

R

A (From N.T.)

1 8 , 4 3

21,46 SxB, SxA (To N.T.)

17,42(T,R) m N.T.) Ear 4 from C.O.

16,41(T,R)

SxA (To N.T.)

15,40(T,R) 1 Ear 5 from C.O.




2

3

0

1

1

2

3

S L O T

2

14,39 S

R

B, S

R

A (From N.T.)








2

3

0

1

2

3

1

6,31 S

R

B, S

R

A (From N.T.)

N . C

5,30 Ear 9 frim C.O.


3,28

2,27

S L O T

3

3

N . C

S

L

O

T

4

S

L

O

T

5

S

L

O

T

6

5-5

FIGURE 5–2 MDF CONNECTIONS: AC15

LINE TO AC15 CARD



P I N FUNCTION CIRCUIT

1 6 SLT TIP

1

4 1 SLT RING

1 5 SLT TIP

4 0 SLT RING

2

LONG LINE

EXTENSION

CONNECT TO ANY

C I R C U I T

ON THE 2SLI CARD

FIGURE 5– 3 MDF CONNECTIONS: OFF PREMISES

EXTENSION FROM 2SLI CARD

5-6


RJ-45 CONNECTOR

ON TEPRI CARD

(IN D EDICATED SLOT)

5-7

TEPRI CABLE

NOTE: Expansion type A cabinet is shown as an example.

TEPRI card installs in second dedicated

slot of type B cabinet

FIGURE 5– 4 ISDN INTERFACE CONNECTION: TEPRI CARD


PSTN BASIC RATE

(BRI)

TRUNKS


ON ANY 4BRI CARD



PIN NO.

F U N C T I O N


24,49 S

R

B, S

R

A (From N.T.)

C I R C U I T SLOT NO.

1


22,47

21,46

20,45

19,44

22,47 S

R

B, S

R

A (From N.T.)

1 8 , 4 3


17,42

20,45 S

R

B, S

R

A (From N.T.)

16,41

19,44 R SxB, SxA (To N.T.)

15,40

1 8 , 4 3 S

R

B, S

R

A (From N.T.)

14,39


13,38

16,41 S

R

B, S

R

A (From N.T.)

12,37


11,36

14,39 S

R

B, S

R

A (From N.T.)

10,35


9,34

12,37 S

R

B, S

R

A (From N.T.)

8,33


7,32

10,35 S

R

B, S

R

A (From N.T.)

6,31


5,30

8,33 S

R

B, S

R

A (From N.T.)

4,29


3,28

6,31 S

R

B, S

R

A (From N.T.)

2,27


1,26


24,49 S

R

B, S

R

A (From N.T.)


4,29 S

R

B, S

R

A (From N.T.)

2

SLOT NO.

0

3

1

4

2

1

3

2

0

3

1

4

2

1

3

2

0

3

1

4

2

S L O T

1

S L O T

2

S L O T

3

S

L

O

T

L

L

4

S

O

T

5

S

O

T

6


2,27 S

R

B, S

R

A (From N.T.)

4

1,26

FIGURE 5– 5 MDF CONNECTIONS: ISDN C.O LINE

TO 4BRI CARD

5-8


PSTN BASIC RATE

(BRI)

TRUNKS


ON ANY 2BRI CARD



PIN NO.

F U N C T I O N C I R C U I T SLOT NO.


24,49 S

R

B, S

R

A (From N.T.)

1


22,47

21,46


24,49 S

R

B, S

R

A (From N.T.)

B R I

2

0

SLOT NO.

S L O T

1

20,45


19,44

22,47 S

R

B, S

R

A (From N.T.)

1

S

L

O

1 8 , 4 3

17,42


20,45 S

R

B, S

R

A (From N.T.)

16,41

19,44

S

R SxB, SxA (To N.T.)

15,40

1 8 , 4 3 S

R

B, S

R

A (From N.T.)

14,39


13,38

16,41 S

R

B, S

R

A (From N.T.)

12,37


2

3

0

1

2

S L O T

2

T

4

1

S

L

11,36

14,39 S

R

B, S

R

A (From N.T.)

10,35

9,34

8,33

13,3 SxA (To N.T.)

R

B, S

R

R

B, S

R

A (From N.T.)

A (From N.T.)

2

1

O

T

5

3

7,32

10,35 S

R

B, S

R

A (From N.T.)

6,31


5,30

8,33 S

R

B, S

R

A (From N.T.)

0

2

S L O T

3

4,29

3,28


6,31 S

R

B, S

R

A (From N.T.)

1

S

L

2,27

1 , 2 6


4,29 S

R

B, S

R

A (From N.T.)

2

O

T

6

3,28

2,27

1,26

FIGURE 5– 6 MDF CONNECTIONS: ISDN C.O LINE

TO 2BRI CARD

5-9

Chapter 6 Connecting Station

Equipment

Safety Precautions

To limit the risk of personal injury, always follow these precautions before connecting telephone circuits:

! Never install telephone wiring during a lightning storm.

! Never install telephone jacks in a wet location unless the jack is specifically de-

signed

! Never touch non-insulated telephone wires or terminals unless the telephone line has been disconnected at the network interface.

Use caution when installing or modifying telephone lines.

Digital Keysets

You can connect 5000 series keysets, DCS (“Euro”) series keysets or iDCS series keysets to the telephone system. For Internet (IP) phones, refer to IP Phones , below.

NOTE: OfficeServ 100 is a self-configuring system. If you connect, say, a 12-button Euro keyset to a DLI port that previously had a 24-button Euro keyset installed, the existing data will be rewritten with 12-button keyset default data (MMC 723). This can be avoided if you first SAVE the keyset data using MMC 720. This rule also applies to all keysets.

Using one pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) jumper wire, cross-connect

each keyset to a DLI port on the base board ( Figure 6–1)

or on the 8DLI card ( Figure 6–2 ) or

plug into the keyset daughterboard of your choice (see Chapter 8 ).

CAUTION: To reduce the risk of fire, use only #26 AWG (0.4mm) or larger telecommunication line cord.

IP Phones

An IP phone allows calls through the Ethernet LAN network to other devices (such as a digital phone) connected to the telephone system. The connection between the device and the IP phone is established using the IP address through the LAN connected to the MCP1 card. When connected, a device converts analogue voice data to PCM voice data, and sends it to the MGI3 card. The PCM voice data is converted to packet data by the MGI3 card, and transferred to the

IP phone. The IP phone converts the packet voice data to analogue voice data sent through the handset or speaker.

6-1

Chapter 6 Connecting Station Equipment

Analogue voice data entered into the IP phone is likewise converted to packet data, transferred to the MGI3 card, converted to PCM voice data, transferred to the receiving device through the

16DLI card, and finally converted to analogue voice data at the destination.

To use an IP phone, you need an MGI3 card and you should connect the MCP1 card and the

MGI3 cards’ Ethernet ports to the IP network. ( Figure 6-3 .)

Mounting Keysets

All keysets can be used as desk phones. Most can also be wall mounted if you prefer. The procedure for wall mounting is described here for each type of keyset.

Wall Mounting 5000 Series Keysets

All 5000 series keysets—except large LCD types (5012L)—have a support bracket which slides

into the lower left- and right-hand slots on the base of the phone ( Figure 6-4 ). The phone can

then be mounted on the wall using the mounting holes, as shown. You should also remove the handset hook (by pushing it forwards), turn it through 180 0 and reinsert it into its holder. This will support the handset when the phone is mounted.

Wall Mounting DCS (Euro) Keysets

DCS keysets are provided with a reversible base wedge which can be removed and reattached to allow the keyset to be fitted to a wall. Lay the keyset face down and remove the wedge. Turn the wedge through 180 degrees and reattach it to the keyset. Mount the keyset on the wall us-

ing the mounting holes ( Figure 6-5 ). (You may find it easier to attach the wedge to the wall first

before reattaching the keyset.)

Wall Mounting iDCS Series Keysets

Keysets such as the 28D and 18D have a reversible base wedge which can be removed and reattached to allow the keyset to be fitted to a wall. To remove the wedge, lay the keyset face down, press the sides of the wedge inwards and pull firmly outwards to release it from the retaining clips. Turn the wedge through 180 degrees and reattach it to the keyset. Mount the key-

set on the wall using the mounting holes 1-3 ( Figure 6-6 ). (You may find it easier to attach the

wedge to the wall first before reattaching the keyset.)

Add-On Modules

Using one pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) jumper wire, cross-connect

each add-on module (AOM) to a DLI port on the base board ( Figure 6–7

) or the 8DLI card ( Figure 6–8)

, or plug into the keyset daughterboard of your choice (see Chapter 8 ). If an AOM is

to operate as a standalone unit, there is nothing else required other than assigning soft keys.

When an AOM is to be used with a station, it must be assigned to that station in MMC 209.

Add-on modules can be assigned to any keyset or single line telephone.

CAUTION: To reduce the risk of fire, use only #26 AWG (0.4mm) or larger telcommunication line cord.

6-2


Single Line Telephones

Using one pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) jumper wire, cross-connect each

single line telephone (SLT) to a 2SLI port ( Figure 6–9

), 8SLI or 6MWSLI port ( Figure 6–10 ), or

into the keyset daughterboard of your choice (see Chapter 8 ).

CAUTION: To reduce the risk of fire, use only #26 AWG (0.4mm) or larger telecommunication line cord.

Door Phone and Door Lock Release

Using one pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) jumper wire, cross-connect each

door phone interface module (DPIM) to a DLI port on the base board ( Figure 6–11 ) or on the

8DLI card ( Figure 6–12

) or plug into the keyset daughterboard of your choice (see Chapter 8 ).

Next, connect the DPIM to the door phone using #24 AWG (0.5mm) or #26 AWG (0.4mm) twisted pair wire.

CAUTION: To reduce the risk of fire, use only #26 AWG (0.4mm) or larger telecommunication line cord.

When a customer-provided electric door release is installed, cross-connect the corresponding door release contacts on the DPIM to the door lock mechanism (Figures 6–9 and 6–10). Use MMC 501 to program the duration of the contact closure as required. The door release contacts on the DPIM are to be used for low voltage relay control only. The contacts are rated at 24 VDC–1 amp.

WARNING: Do not attempt to connect commercial AC power to these contacts.

ISDN Station (ISDN Phone, G4 Fax, etc)

Using two pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) wire, cross connect each ISDN

TE to the BRI card’s ‘S’ mode port ( Figure 6–13 ). As NT2, the BRI card supports S points for

ISDN TEs (ISDN phone, G4 FAX, etc). This S mode (ISDN Station Interface Mode) must be programmed in MMC 423 first, since its default state is T mode (ISDN Trunk Interface Mode).

Also, MMC 419 is used to determine whether power is supplied to that port. After programming the BRI card it must be restarted using MMC 418. Refer to the Samsung OfficeServ 100 Programming

Guide for details of MMC programming.

6-3


DECT Base Station (DBS)

Use two pair twisted wire: #24 AWG (0.5mm) up to 600m, or #26 AWG (0.4mm) up to 400m.

Connect MDF cables to the 3BSI card and make a connection between the card and the DBS. Refer to your Samsung DECT documentation for details.

Connecting the Wireless LAN Base Station (WBS24)

With the 4WLI Card

The WBS24 allows you to use WIP-5000M mobile phones with your system.

WBS24

One 4WLI should be installed in the basic cabinet, universal slot 3. Two 0.64mm twisted pair cables

(max. length 600 m) or two 0.40mm twisted pair cables (max. length 400 m) should be used when connecting the 4WLI card and WBS24. 4WLI uses the 50-pin champ connector, and WBS24 uses the

8-pin RJ-45 connector. ( Figure 6–14 ).

NOTE: These base stations will be available in a future release.

6-4


FIGURES 6-1 TO 6-14

6-5



PIN C I R C U I T F U N C T I O N

25 D L I TIP

50

1

D L I R I N G

2 4

4

2

D L I TIP

2 3 D L I T I P

48

3

D LI R I N G

2 2 D L I TIP

4 7

4

D LI R I N G

21

5

46

D L I T I P

D LI R I N G

20 D L I T I P

45

6

D L I R I N G

19

4 4

7

D L I T I P

1 8 D L I T I P

4 3

8

D L I R I N G

CONNECT TO ANY DLI CIRCUIT ON

BASIC KSU.

6-6

FIGURE 6–1 MDF CONNECTIONS: DIGITAL KEYSET TO

BASIC KSU P1




S

L

O

T

5

S

L

O

T

6

S

L

O

T

4

SLOT NO. PIN NO. CIRCUIT 8 DLI

25,50 1 STN 1

24,49 2 STN 2

SLOT NO.

PIN NO.

8 DLI 6 DLI

STN 3

S L O T 22,47 4

1 24 , 4 9 STN 2 STN 2

S L O T

2

S L O T

3

23,48 3 STN 3

STN 6

22,47 4 STN 4

STN 7

2 1 , 4 6

18,43 8

STN 5

STN 8

20,45 STN 6 STN 6

STN 9

19,44 STN 7 N.C

STN 10

1 8 , 4 3 STN 8 N.C

STN 11

17,42 STN 9

4

STN 1

STN 12

16,41 STN 10 STN 2

STN 13

15,40 STN 11 STN 3

STN 14

14,39 STN 12 STN 4

STN 15

13,38 STN 13

8

STN 5

STN 16

12,37 STN 14 STN 6

STN 17

11,36 STN 15

2

N.C

STN 18

10,35 STN 16 N . C

STN 19

6,31 4

STN 1

STN 20

8,33 STN 18 STN 2

STN 21

7,32 STN 19 STN 3

STN 22

6,31 STN 20 STN 4

STN 23

5,30 STN 21

8

STN 5

STN 24

4,29 6 STN 22

3,28 7 STN 23

2,27 8 STN 24


ANY 8DLI CARD

FIGURE 6–2 MDF CONNECTIONS: DIGITAL KEYSET TO

8DLI CARD

6-7

RST

RST

ON

OFF

OfficeServ 100

Digital Phone

MCP1 Ethernet

MGI3 Ethernet

IP Phone


LAN

FIGURE 6-3 IP PHONE CONNECTION

6-8

RST

RST


MOUNTING HOLES

ON

OFF

ON

OFF

SUPPORT

3

Remove and reverse handset hook

FIGURE 6-4 CONNECTING BASE SUPPORT TO

5000 SERIES KEYSET (WALL MOUNT)

6-9

RST

RST

ON

OFF

ON

OFF


6-10

FIGURE 6-5 WALL-MOUNTING A DCS (EURO) KEYSET


FIGURE 6–6 WALL MOUNTING AN iDCS KEYSET

6-11




25 D L I TIP

1

50 D L I R I N G

2 4 D L I TIP

2

4 9 DLI RING

2 3 D L I T I P

3

4 8 DLI RING

2 2

4 7

4

D L I TIP

DLI RING

21

5

46

D L I T I P

DLI RING

20

6

45

D L I T I P

DLI RING

19

7

4 4

1 8

8

4 3

D L I T I P

DLI RING

D L I T I P

DLI RING


BASIC KSU

6-12

FIGURE 6–7 MDF CONNECTIONS: AOM TO

BASIC KSU P1





25,50 1 STN 1

S

L

O

T

6

S

L

O

T

5

S

L

O

T

4

24,49 2 STN 2

SLOT NO.

PIN NO.

23,48 3

6 DLI

STN 3

S L O T

1

2 5 , 5 0 STN 1 STN 1

STN 4

2 4 , 4 9 STN 2 STN 2

STN 5

23,48 STN 3 STN 3

STN 6

22,47 STN 4 STN 4

STN 7

2 1 , 4 6 STN 5

20,45 STN 6

STN 5

STN 6

19,44 STN 7 N.C

STN 10

1 8 , 4 3 STN 8 N.C

STN 11

S L O T

2

17,42 STN 9 STN 1

STN 12

16,41 STN 10

5

STN 2

STN 13

15,40 STN 11 STN 3

STN 14

14,39 STN 12 STN 4

STN 15

13,38 STN 13 STN 5

STN 16

12,37 STN 14

1

STN 6

STN 17

11,36 STN 15 N.C

STN 18

10,35 STN 16

3

N . C

STN 19

S L O T

3

9,34 STN 17 STN 1

STN 20

5,30 5

STN 2

STN 21

7,32 STN 19 STN 3

STN 22

3,28 7

STN 4

STN 23

5,30 STN 21 STN 5

STN 24

4,29 6 STN 22

3,28 7 STN 23

2,27 8 STN 24


ANY 8DLI CARD

FIGURE 6–8 MDF CONNECTIONS: AOM TO 8DLI CARD

6-13




1 6 S L I TIP

1

4 1 S L I R I N G

1 5 S L I TIP

2

4 0 S LI R I N G


ON THE 2 SLI CARD

FIGURE 6–9 MDF CONNECTIONS: SLT TO 2SLI CARD

6-14




SLOT NO. PIN NO. CIRCUIT 8 SLI 6 M W S L I

25,50 1 SLT 1 MWSLT 1

S

L

O

T

6

S

L

O

T

4

1

24,49 2 SLT 2 MWSLT 2

SLOT NO.

PIN NO.

C I R C U I T 8 SLI MW6 SLI

MWSLT 3

S L O T 2 5 , 5 0 1

4

SLT 1 MWSLT 1

MWSLT 4

2 4 , 4 9 2 SLT 2 MWSLT 2

MWSLT 5

23,48 3

6

SLT 3 MWSLT 3

MWSLT 6

S L O T

22,47 4

2 1 , 4 6 5

20,45 6

19,44 7

8

2

SLT

SLT 5

SLT 6

SLT 7

4 MWSLT 4

MWSLT 5

MWSLT 6

SLT 10

N.C

1 8 , 4 3 8 SLT 8 N . C

14,39 4 SLT 12

SLT 9

2 16,41 2 SLT 1 0 MWSLT 2

MWSLT 11

15,40 3

6

SLT 11 MWSLT 3

MWSLT 12

14,39 4 SLT 12 MWSLT 4

N . C

13,38 5

8 SLT 16 N . C

S L O T

3

12,37 6

1

SLT 14 MWSLT 6

MWSLT 13

8,33 2

SLT 15 N . C

MWSLT 14

10,35 8 SLT 16 N . C

MWSLT 15

6,31 4

SLT 17

SLT 20 MWSLT 16

8,33 2 SLT 18 MWSLT 2

MWSLT 17

7,32 3

6

SLT 19 MWSLT 3

MWSLT 18

6,31 4 SL0 MWSLT 4

N.C

5,30 5

8

SLT 21 MWSLT 5

N . C

4,29 6 SLT 22 MWSLT 18

3,28 7 SLT 23 N.C

2,27 8 SLT 24 N . C

CONNECT TO ANY SLI CIRCUIT ON

ANY 8SLI OR 6MWSLI CARD

FIGURE 6–10 MDF CONNECTIONS: SLT TO 8SLI OR

6MWSLI CARD

6-15




25

1

50

D L I TIP

DLI RING

2 4

2

4 9

D L I TIP

DLI RING

2 3

3

4 8

D L I T I P

DLI RING

2 2

4

4 7

D L I TIP

DLI RING

21

5

46

D L I T I P

DLI RING

20

6

45

D L I T I P

DLI RING

19

7

4 4

1 8

8

4 3

D L I T I P

DLI RING

D L I T I P

DLI RING

CONNECT TO ANY DLI C ARD

6-16

FIGURE 6–11 MDF CONNECTIONS: DOOR PHONE & DPIM

TO BASIC KSU P1





25,50 1 STN 1

S

L

O

T

5

S

L

O

T

6

S

L

O

T

4

24,49 2 STN 2

SLOT NO.

PIN NO.

8 DLI

3

6 DLI

STN 3

S L O T

1

2 5 , 5 0 1TN 1

4 STN 4

2 4 , 4 9 STN 2

5

STN 2

STN 5

23,48 STN 3

6

STN 3

STN 6

22,47 STN 4

7 STN 7

STN 4

2 1 , 4 6 STN 5

8

20,45 STN 6 STN 6

19,44 STN 7N.C

2 STN 10

1 8 , 4 3 STN 8

3 STN 11

N.C

S L O T

2

S L O T

3

17,42 STN 9 STN 1

STN 12

16,41 STN 10

5

STN 2

STN 13

15,40 STN 11 STN 3

STN 14

14,39 STN 12 STN 4

STN 15

13,38 STN 13

8

STN 5

STN 16

9,34 1

STN 6

STN 17

8,33 2

N.C

STN 18

10,35 STN 1N . C

3 STN 19

9,34STN 1

4 STN 20

8,3 3 STN 18

5

STN 2

STN 21

7,32 STN 19

6

STN 3

STN 22

6,31 STN 20

7

STN 4

STN 23

5,30 STN 21

8

STN 5

STN 24

4,29 6 STN 22

3,28 7 STN 23

2,27 8 STN 24

CONNECT TO ANY 8DLI CARD

FIGURE 6–12 MDF CONNETIONS: DOOR PHONE & DPIM

TO 8DLI CARD

6-17


4

5

3 6

TWO PAIR TWISTED

SHEATHED STATION CABLE

(0.5 OR 0.4 mm)

1 2 3 4 6 8 5 7

CONNECT TO ANY CIRCUIT ON THE

BRI CARD

FIGURE 6–13 MDF CONNECTIONS: ISDN STATION TO

2BRI / 4BRI CARD

6-18


1 2 3 4 5 6 7 8

RJ-45

WBS24

RJ-45 Pin

4, 5

3, 6

4, 5

3, 6

4, 5

3, 6

4 5

3, 6

4, 5

3, 6

3, 6

4, 5

3,6

4, 5

3, 6

4, 5

3, 6

4, 5

3, 6

4, 5

3, 6

4, 5

3, 6

4,5

SLOT2

# 4

SLOT3

# 1

SLOT3

# 2

SLOT3

# 3

SLOT3

# 4

SLOT1

# 4

SLOT2

# 1

SLOT2

# 2

SLOT2

# 3

Basic

Cabinet

Station #

SLOT1

# 1

SLOT1

# 2

SLOT1

# 3

Signal

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

D Channel data

Sync line

4WLI

Champ Pin

12, 37

11, 36

10, 35

9, 34

8, 33

7, 32

6, 31

5, 30

4, 29

3, 28

2, 27

25, 50

24, 49

23, 48

22, 47

21, 46

20, 45

19, 44

18, 43

17, 42

16, 41

15, 40

14, 39

13, 38

FIGURE 6–14 MDF CONNECTIONS: WBS24 TO 4WLI CARD

6-19

Chapter 7 Connecting Optional

Equipment

Optional equipment covered in this chapter includes:

• Music-On-Hold/Background

Paging

Over

• Printer for SMDR/UCD/traffic/alarm reports

Bell

• PC for programming programming

• Power Failure Transfer

• Voice Mail/Auto Attendant

(For full details of MMC programming for these options, see the Samsung OfficeServ 100 Program-

ming Guide)

Music On Hold/Background Music

Connect each customer-provided music source to the music input on the KSU connecting

block ( Figure 7–1 ). Each C.O. line (trunk) can be programmed to receive a music source, sys-

tem-generated tone or ‘NO MUSIC’ when it is put on hold. Each keyset can receive a music source or ‘NO MUSIC’ for background music.

External Paging

The system provides a voice pair and a dry contact pair to be used with customer-provided paging equipment. Connect the customer-provided paging equipment to the page output pins on the KSU

connecting block ( Figure 7–2 ). The relay must be assigned to the page zone in MMC 605. The

page voice pair is 600 Ohm impedance. If the amplifier page input is not 600 Ohm, use an impedance matching transformer.

By default, the system provides one paging zone. If a MISC card is installed, three further zone

control relays are available, making a total of four zones ( Figure 7–3 ). The paging contact pairs are

for control of low voltage circuits or amplifier output. The contacts are rated at 24 VDC–1 amp.

WARNING: Do NOT attempt to connect commercial AC power to these contacts.

7-1

Chapter 7 Connecting Optional Equipment

Common Bell

A customer-provided loud ringing device can be controlled using a dry contact pair on the

KSU connecting block ( Figure 7–4 ). Using MMC 204, programming allows for interrupted or

continuous operation of the contacts. The interrupted selection follows the C.O. ring cadence: one second ON / two seconds OFF.

After connecting a common bell, you must assign it in MMC 601 to a group as a ring destination by using the code for common bell. The steps for common bell operation are as follows:

● Wire the loud ringing device to the common bell control contact pair.

● Set contacts for continuous or steady operation.

● Program the hunt group to include the common bell.

● Assign the trunk to ring the hunt group containing the common bell.

Common bell control can be used with station hunt groups, individual stations and Universal

Answer. Contacts are rated at 24 VDC–1 amp.

WARNING: Do NOT attempt to connect commercial AC power to these contacts.

Ring Over Page

When a customer-provided paging system is installed, incoming calls can be assigned to ring over page (ROP). Program the line or lines to ring a hunt group. Using MMC 601, assign ROP as a destination in this hunt group. Ring over page can be used for day or night operation, or both.

SMDR/UCD/Traffic/Alarm Reports

To receive SMDR (Station Message Detail Recording), UCD statistics, traffic or alarm reports, connect a customer-provided printer to the Serial I/O port or the LAN port on the MCP1 card.

For SIO connection, use a pin-to-pin RS232C cable (see Figure 7–5a for the required pins.) If

the printer or optional call accounting device needs to be more than 5m (15 ft) away from the main cabinet, use shielded computer cable. Connect the customer-provided equipment to the port selected. Attach a male DB9 connector to the SIO end of the cable—the other end must meet the requirements of the device or printer. This cable should not exceed 90m (300 ft).

Use MMC 725 to set SMDR print options and use MMC 804 to set the port and transmission parameters. MMC 804 is also used to select the required report(s). MMC 829 allows you to set up network printers.

7-2


PC Programming

To program the system via a personal computer (PC) running the PCMMC program, connect the PC to the Serial I/O connector or LAN port on the MCP1 card. For SIO connection,

use a pin-to-pin RS232C cable (see Figure 7–5b for the required pins.) If the PC needs to be

more than 3m (10 ft) away from the KSU, use shielded computer cable. Attach a male DB9 connector to the SIO end of the cable and a connector that meets the requirements of the

PC to the other end. This cable should not exceed 90m (300 ft). Use MMC 804 to set the transmission parameters for the serial port.

To program the ports, refer to MMC 804 in the Samsung OfficeServ 100 Programming Guide.

Use MMC 830 to set the IP address for the system.

Remote Programming—Internal Modem

To remotely program a system using an internal modem, connect a Modem card to the MISC

card in the KSU. (See Chapter 3 .)

Remote Programming—External Modem

To remotely program a system using an external (customer-provided) modem, connect the modem to the Serial I/O connector or LAN port on the MCP1 card. For SIO connection,use

a pin-to-pin RS232C cable. (See Figure 7–5c

for the required pins.) If the modem needs to be more than 5m (15 ft) away from the KSU, use shielded computer cable. Attach a male

DB9 connector to the SIO end of the cable and attach a connector that matches the requirements of the modem to the other end. This cable must not exceed 90m (300 feet). Use MMC

804 to set the transmission parameters for the serial port.

Power Failure Transfer (PFT)

If the system loses AC power and has no back-up, the first two loop-start lines in the 3TRK or

6TRK card are automatically switched to the PFT ports. Directly connect these outputs to single line phones.

Voice Mail/Auto Attendant

The system provides special programming and hardware for use with a customer-provided

Voice Mail/Auto Attendant (VM/AA) system. All single line stations on the 2SLI, 8SLI and

6MWSLI cards provide a disconnect signal required for VM/AA operation.

Use one pair twisted #24 AWG (0.5mm) or #26 AWG (0.4mm) jumper wire to cross-connect

SLI circuits to the VM/AA system. See Figure 7–6

for 2SLI connections or Figure 7–7 for 8SLI

and 6MWSLI connections. For information on programming these ports, refer to MMCs 207,

601 and 726 in the Samsung OfficeServ 100 Programming Guide. See also the Samsung Single

Line Telephone User Guide for feature codes and instructions.

7-3



7-4

7-5


25 PAIR CABLE WITH FEMALE CONNECTOR TO KSU P1


1 1 OPEN A

3 6 OPEN B

1 0 1 BGM 1A

35 BGM 1B

9 2 BGM 2A

3 4 BGM 2B

8 PAGE 1A

33 PAGE 1B

7 PAGE 2A

32 PAGE 2B

5 TACT 1A

3 0 TACT 1B

4 TACT 2A

29 TACT 2B

3 TACT 3A

2 8 TACT 3B

2 ALARM 1

2 7 ALARM 2

CUSTOMER-PROVIDED

MUSIC SOURCE

CUSTOMER-PROVIDED

MUSIC SOURCE

CONNECT ONE MUSIC SOURCE TO

EACH INPUT AS NEEDED

NOTE: MOH 2 REQUIRES A

MISC CARD

FIGURE 7–1 MDF CONNECTIONS: MOH SOURCE TO KSU




1 1 OPEN A

1

3 6

OPEN B

1 0 BGM 1A

35 BGM 1B

9 BGM 2A

3 4

BGM 2B

8 PAGE 1A

1

33 PAGE 1B

7

PAGE 2A

32 PAGE 2B

5

TACT 1A

3 0

TACT 1B

4 TACT 2A

2 9 TACT 2B

3 TACT 3A

2 8 TACT 3B

2 ALARM 1

2 7 ALARM 2

IN

CUSTOMERP ROVIDED

PAGING AMPLIFIER

FIGURE 7–2 MDF CONNECTIONS: PAGE AMPLIFIER TO KSU

7-6




1 1

3 6

1

OPEN A

OPEN B

1 0 BGM 1A

35

BGM 1B

9

3 4

BGM 2A

BGM 2B

8

33

1

PAGE 1A

PAGE 1B

7

PAGE 2A

32

5

PAGE 2B

TACT 1A

2

3 0

TACT 1B

4 TACT 2A

3

2 9 TACT 2B

3

2 8

4

TACT 3A

TACT 3B

ALARM 1

2

2 7 ALARM 2

NOTE: THE TACT RELAYS REQUIRE A

MISC CARD

I N

CUSTOMER-PROVIDED

PAGING AMPLIFIER

O U T

ZONE 5

ZONE 6

ZONE 7

ZONE 8

7-7

FIGURE 7–3 MDF CONNECTIONS: PAGE AMPLIFIER TO KSU

(MISC CARD)




1 1 OPEN A

3 6

OPEN B

1 0 BGM 1A

35

BGM 1B

9

3 4

BGM 2A

BGM 2B

8

33

7

PAGE 1A

PAGE 1B

PAGE 2A

32

5

3 0

1

PAGE 2B

TACT 1A

TACT 1B

4 TACT 2A

2

2 9 TACT 2B

3

2 8

2

3

TACT 3A

TACT 3B

ALARM 1

2 7 ALARM 2

CONNECT THE COMMON BELL TO ANY

TACT PORTS 1/2/3 AS REQUIRED

FOR CORRECT OPERATION.

24V DC / 1A

SOURCE

CUSTOMER-PROVIDED

COMMON BELL

FIGURE 7–4 MDF CONNECTIONS: COMMON BELL

7-8

7-9


A: Printer

MISC Card

RXD 2

TXD 3

GND 5

DTR 4

( 9 pin )

B: PC

MISC Card

RXD 2

TXD 3

GND 5

DTR 4

C: MODEM

MISC Card

RXD 2

TXD 3

DTR 4

GND 5

RTS 7

CTS 8

(

3

7

Printer

2 OR 3 T X D

20

25 pin )

2 R X D

5 GND

4 DTR

( 9 pin )

PC

2 OR 3 RXD

3 2 TXD

5 7 GND

4 20 DTR

( 9 pi n) ( 25 pin )

Modem

2 TXD

3 RXD

20 DTR

7 GND

4 RTS

5 CTS

FIGURE 7–5 PIN CONNECTIONS: MISC CARD TO

OPTIONAL EQUIPMENT




1 6 1 SLT TIP

4 1 SLT RING

15 2 SLT TIP

4 0 SLT RING

CONNECT TO ANY CIRCUIT ON 2SLI

CARD

VOICE MAIL

SYSTEM

FIGURE 7–6 MDF CONNECTIONS: CUSTOMER-PROVIDED

VOICE MAIL SYSTEM TO 2SLI CARD

7-10




SLOT NO.

PIN NO.

CIRCUIT 8 SLI 6 M W S L I

25,50 1 SLT 1 MWSLT 1

T

6

S

L

O

S

L

O

T

4

SLOT NO.

PIN NO.

23,48

S L O T

24,49 2

3

8

SLT 2 MWSLT 2

SLT 3 MWSLT 3

2 5 , 5 0 1 4 SL SLT 4 MWSLT 4

1

S L O T

2

2 4 , 4 9

21,46 5

MWSLT 2

23,48 3

6 SLT 6 MWSLT 6

22,47 4

7

SLT 4

2 1 , 4 6 5

8 SLT 8 NC

17,42 1

SLT 6

19,44 7 SLT 7 N.C

MWSLT 8

1 8 , 4 3

15,40 3

N . C

17,42 1

4

S

13,38 5

SL

SLT 12 MWSLT 10

SLT 13 MWSLT 11

S L O T

3

15,40 3

6 SLT 14 MWSLT 12

14,39 4

7

SLT 12

13,38 5

8 SLT 16 NC

9,34 1

SL

SLT 17 MWSLT 13

11,36 7

2 SLT 18 MWSLT 14

10,35 8

3

SLT 16

9,34 1 4 SLT 20 MWSLT 16

8,33 2

5

SLT 18

7,32 3

6 SLT 22 MWSLT 18

3,28 7

SL

SLT 23 NC

5,30 5

8 SLT 24 NC

4,29

6 SLT 22 MWSLT 18

3,28 7 SLT 23 NC

2,27

8 SLT 24 NC

VOICE MAIL

SYSTEM

CONNECT TO ANY CIRCUIT ON 8SLI

OR 6MWSLI CARD

FIGURE 7–7 MDF CONNECTIONS: CUSTOMER-PROVIDED

VOICE MAIL SYSTEM TO 8SLI / 6MWSLI CARD

7-11

Chapter 8 Installing Keyset

Daughterboards

5000 Series Keyset Daughterboards

One of three types of daughterboard can be installed in a DS-5014D, DS-5021D or DS-5038S keyset: a KDB-D, KDB-S, or KDB-F.

KDB-Digital Line Interface (KDB-DLI)

The KDB-D provides one additional DLI circuit for the connection of any digital station device such as another keyset, an add-on module or door phone interface module. The KDB-D will only operate when the keyset is connected to an 8-port DLI card so that it can use the second B channel. Each port on this card is intended for connection to one telephone.

CAUTION: Connecting multiple telephones to a port may result in incorrect operation or damage to the card.

Read Installation Procedure , below.

KDB-Single Line Interface (KDB-SLI)

The KDB-S provides one additional SLI circuit for the connection of any standard telephone

(SLT). The KDB-S will only operate when the keyset is connected to an 8-port DLI card so that it can use the second B channel. Each port on this card is intended for connection to one telephone.

CAUTION: Connecting multiple telephones to a port may result in incorrect operation or damage to the card

NOTE: The circuitry on a KDB-S does not provide a loop open disconnect signal or have the over-voltage protection necessary for OPX operation.


8-1

Chapter 8 Installing Keyset Daughterboards

KDB-Full Duplex (KDB-F)

The standard speakerphone mode of operation for a keyset is “half duplex”. This means that you cannot transmit and receive speech at the same time. Adding a KDB-F to your keyset will convert the speakerphone into full duplex mode, enhancing its operation. In addition, the KDB-F may have up to three external microphones attached to it for conference room type applications.

These microphones require an “EXTMIC” key programmed on the keyset to activate or deactivate them (refer to the Samsung OfficeServ 100 Programming Guide for details).


Installation Procedure

Always unplug the keyset line cord before installing a daughterboard.

1. Place the keyset face down on a flat surface.

2. Remove the two knockouts marked “Expansion Module” on the base using a flat-bladed screwdriver or similar tool.

3. Position the daughterboard over the Expansion Module connectors on the base and push it onto the base.

4. Secure the daughterboard onto the keyset using the screws provided.

If you removed cables from cable runs, replace them as required.

Connecting Devices to 5000 Series Keyset Daughterboards

There are two methods for connecting devices to keyset daughterboards. The simplest method is to connect a device (e.g. another keyset) directly by means of an RJ11 line cord using the jack on the daughterboard. (If connecting a single line telephone, use a line cord fitted with a mastering unit.)

The second method is to use a multi-pair station cable, connecting separate station jacks to the first two pairs. A line cord can now be connected between the daughterboard and the second jack. This returns the daughterboard port to the MDF for cross-connection to another cable run.

DCS Keyset Daughterboards

There are two types of daughterboard which can be installed in a DCS (Euro) 12- or 24-button keyset: a KDB-DLI or KDB-SLI.

KDB-Digital Line Interface (KDB-DLI)

The KDB-DLI provides one additional DLI circuit for the connection of any digital station device such as another keyset, an add-on module or door phone interface module. The KDB-DLI will only operate when the keyset is connected to a DLI port on the KSU (extensions 201

−208) so

8-2

Chapter 8 Installing Keyset Daughterboards that it can use the second B channel. Each port on this card is intended for connection to one telephone.



KDB-Single Line Interface (KDB-SLI)

The KDB-SLI provides one additional SLI circuit for the connection of any standard telephone

(SLT). The KDB-SLI will only operate when the keyset is connected to a DLI port on the KSU

(extensions 201

−208) so that it can use the second B channel. Each port on this card is intended for connection to one telephone.

CAUTION: Connecting multiple telephones to a port may result in incorrect operation or damage to the card.

NOTE: The circuitry on a KDB-SLI does not provide a loop open disconnect signal or have the over-voltage protection necessary for OPX operation.




1. Unplug the line cord from the keyset.

2. Place the keyset face down on a soft surface.

3. Remove the two knockouts marked “Expansion Module” and “Extra” on the base ( Figure 8-1 )

using a flat-bladed screwdriver or similar tool.

4. Position the daughterboard over the Expansion Module connector and push it into the socket.


Connecting Devices to DCS Daughterboards

There are two methods for connecting devices to keyset daughterboards. The simplest method is to connect a device (e.g. another keyset) directly by means of an RJ11 line cord to the “Extra” connector. (If connecting a single line telephone, use a line cord fitted with a mastering unit.) Af-

ter connecting the line cord, secure it in place with the supplied clamping plate and screw. ( Figure 8-2.

)

8-3



( Figure 8-3.

)

iDCS Keyset Daughterboards

One of three types of daughterboard can be installed in an 18D or 28D keyset: an FKDBD,

FKDBS, or FKDBF.

KDB-Digital Line Interface (FKDBD)

The FKDBD provides one additional DLI circuit for the connection of any digital station device such as another keyset, an add-on module or door phone interface module. This FKDBD will only operate when the keyset is connected to a DLI port on the KSU (extensions 201




KDB-Single Line Interface (FKDBS)

The FKDBS provides one additional SLI circuit for the connection of any standard telephone

(SLT). This FKDBS will only operate when the keyset is connected to a DLI port on the KSU

(extensions 201



NOTE: The circuitry on a FKDBS does not provide a loop open disconnect signal or have the over-voltage protection necessary for OPX operation.


KDB-Full Duplex (FKDBF)

The standard speakerphone mode of operation for an iDCS keyset is “half duplex”. This means that you cannot transmit and receive speech at the same time. Adding an FKDBF to your keyset will convert the speakerphone into full duplex mode, enhancing its operation. In addition, the

FKDBF may have up to three external microphones attached to it for conference room type applications. These microphones require an “EXTMIC” key programmed on the keyset to activate or deactivate them (refer to the Samsung OfficeServ 100 Programming Guide for details).

8-4





1. Place the keyset face down on a flat surface.

2. Remove the base wedge by firmly pushing inwards from each side and pulling it off the retaining clips. (You may need to remove line and handset cords from their cable runs before doing this.)

3. Remove the two knockouts marked “Expansion Module” on the base ( Figure 8-4 ) using a flat-

bladed screwdriver or similar tool.

4. Position the daughterboard over the Expansion Module connectors on the base and push it onto the base.


6. Replace the base wedge.

If you removed cables from cable runs, replace them as required.

(Note that Figure 8-2 shows the 28D keyset. However, the procedure is the same for 18D keysets.)

Connecting Devices to iDCS Daughterboards

There are two methods for connecting devices to keyset daughterboards. The simplest method is to connect a device (e.g. another keyset) directly by means of an RJ11 line cord using the jack on the daughterboard. (If connecting a single line telephone, use a line cord fitted with a mastering unit.)


8-5



8-6

RST

RST

RST

RST


1. BEFORE FITTING DAUGHTERBOARD (UNPLUG LINE CORD)

EXTRA TEL

HANDSET

ON

OFF

ON

OFF

REMOVE BLANKING PLATES (KNOCKOUTS)

2. AFTER FITTING DAUGHTERBOARD

EXTRA TEL

HANDSET

DAUGHTERBOARD

A = SCREW-HOLES FOR SECURING KDB

FIGURE 8–1 INSTALLING DCS KEYSET DAUGHTERBOARDS

8-7

KDB-DLI


KDB-SLI

8-8

FIGURE 8–2 CONNECTING PHONES TO A DCS KEYSET

DAUGHTERBOARD


FIGURE 8–3 CONNECTING A STATION DEVICE TO A DCS

KEYSET DAUGHTERBOARD VIA MAIN DISTRIBUTION FRAME

8-9


FIGURE 8–4 INSTALLING iDCS KEYSET DAUGHTERBOARDS

8-10

Chapter 9 SVMi-8 Voice Mail Setup

Introduction

This chapter provides the additional steps required to set up the SVMi-8 Voice Mail card to operate with the OfficeServ 100 keyphone system.

This is a brief overview of the setup procedure which is described in full detail in the Samsung

SVMi-8 Technical Manual supplied with your voice mail card. Refer to this manual during installation; it provides all the information on configuring the hardware and software for the card and includes a User Guide for operating the SVMi-8 system from stations.

LED Indications

There are eight LEDs on the card. The hard disk drive (HDD) LED will flash green whenever the drive is being accessed. The AP/D and SD LEDs show the status of the card. Green indicates that the card is not operating and can be switched off. Red indicates that it is operating normally and cannot be switched off safely without possible corruption of the database.

Reset Button

The red button marked RST is the reset button. Immediately after plugging in the SVMi-8 card, turning the system power switch on and programming the card, you MUST press this button to initialize the card. (See Configuring the SVMi-8 Card, below.) Pressing this button during operation will disconnect all callers to the Voice Mail system and restart the card.

Power Requirements

All the power to run this self-contained Voice Mail system comes from the phone system power supply. The power supply is rated according to how many stations it will support.

When the card is installed in the OfficeServ 100, it counts as eight (8) stations of the PSU rating regardless of the number of voice processing modules installed. (Refer to your

SVMi-8 documentation for more details.)

9-1

Chapter 9 SVMi-8 Voice Mail Setup

Configuring the SVMi-8 Card

Follow the steps below to configure your SVMi-8 card.

1. INSPECTION AND INSTALLATION

Install the card as described in Chapter 3 . The card should be labelled “SVMi-8” or “Cadence (VM8A)”. If it is not, you have the wrong card. Ensure that the system power is

switched OFF before installing.

2. POWER UP

Complete installation of all other required system interface cards (as described in Chapter 3 ) and turn the system power switch ON.

3. CONFIRM OPERATION

Wait for the ACT LED to be either OFF or ON steady green. Either of these conditions indicates normal operation as defined in the table above.

4. OfficeServ 100 PROGRAMMING

Perform the following programming steps. It is necessary to perform these now so that the

Voice Mail system will be initialized accordingly.

MMC 601: All Voice Mail ports must be assigned to the Voice Mail group.

MMC 601: Select either SEQUENTIAL or DISTRIBUTED ring mode.

MMC 207: Set Voice Mail ports for VMAA use. This will be done automatically. You are simply confirming at this point.

If you are using SVMi-8 for Auto Attendant, use MMC programming to set the desired trunk(s) to ring the Voice Mail group .

If you are using SVMi-8 for Voice Mail, make sure that all desired stations are forwarded to the Voice Mail group.

MMC 751: Select “NO” for each station for which you DO NOT want to create a mailbox.

5. INITIALIZE VM

Press the red RST button to read the new MMC information and initialize the SVMi-8 card accordingly.

Testing the Hardware

1. Call each Voice Mail port individually and confirm that the Voice Mail system answers.

2. Call the Voice Mail group and confirm that the Voice Mail system answers.

If these tests are successful you have completed the installation and setup of the Voice Mail hardware. You are now ready to begin programming the Voice Mail/Auto Attendant system parameters. Refer to your SVMi-8 documentation for programming procedures.

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Appendix A Interface Card LED

Indications

TEPRI LED Definitions

LED Name

SYN

LOS

Status

Function

Normal Status Error Status

Synchronization Loss. Indicates wander or loss of framing.

OFF ON

Loss of Signal. No PCM Clocking is being received. OFF ON

AIS

L2

IPC

CLK

MODE

Alarm Indicating Signal. Indicating that all ‘1’s are being received.

OFF ON

Layer 2 is active. PRI messaging is being received. ON OFF

IPC link set up.

Card clock status.

LEDs TP1 & TP2 show the span type

E1 mode

E1 PRI mode

T1 mode

OFF: IPC link set up

OFF: Card is secondary source

ON: Card is primary source.

TP1 TP2

OFF

OFF

ON

OFF

ON

OFF

T1 PRI mode ON ON

MGI3 LED Definitions

LED Colour Description

PWR Light

Green

Displays the power supply status of the MGI3 card.

- On : Power is supplied normally.

- Off : No power supply.

SRV Light Displays voice service availability.

Green - Flashing : Service is available.

- Off : Service is unavailable.

Green - Flashing : Data is being transmitted.

- Off : No data is being transmitted.

Rx Light Displays the status of data reception through Ethernet.

Green - Flashing : Data is being received.

RUN Light

Green

- Off : No data is being received..

Displays the operating status of the MGI3 card.

- On : MGI3 card is operating normally.

- Off : MGI3 card is not operating normally.

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Appendix A Interface Card LED Indications

LED Colour Description

IPC Light Displays if messages are transferred between MGI3 card and the main control.

Green - Flashing : Messages are transferred normally.

- Off : No message transfer.

DSP Light Displays the usage rate of the DSP channel.

Green - Flashing : DSP channel is being used. Flashes every 1 second for 1 to 4 channels, every 0.5 seconds for 5 to 8 channels, every 0.25 seconds for 9 to 12 channels, and every 0.125 seconds for 13 to 15 channels.

- On : All 16 channels are being used.

MOD Light

Green

- Off : No DSP channel in use.

Displays if RTP data is incoming through LAN.

- Flashing : RTP data is received normally.

- Off : No RTP data is being received.

MCP1 LED Definitions

LINK

10/100

RXD

MP

LAN Link Status

OFF there is no link from the LAN link connection

ON the link from the LAN connection is being set up

LAN 10 or 100Mbps Transmit/Receive Data Speed Status

OFF LAN Transmit/Receive data speed is 10 Mbps

ON LAN Transmit/Receive data speed is 100 Mbps

LAN Data Rx(Receive) Status

OFF there is no received data from the LAN connection

ON the link from the LAN interface is being set up (flashing indicates a message has been received).

MP(XRC855T in the MCP1 Card) Processor Status : MP Run LED

SP

ON the MP is booting (flashing indicates normal operation).

SP (68EC000 in the 008 Base Board) C#2) Processor Status : SP Run LED

ON the SP is booting (flashing indicates normal operation).

A-2

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