TOSHIBA Digital Solutions Division Digital Business Telephone Systems CTX28, CTX100-S, CTX100 and CTX670 Installation and Maintenance Manual June 2004
Strata CTX28, CTX100 and CTX670 General End User Information The Strata CTX28, CTX100 or CTX670 Digital Business Telephone System is registered in accordance with the provisions of Part 68 of the Federal Communications Commission’s Rules and Regulations. one line should not exceed five (5.0B). To be certain of the number of devices you may connect to your line, as determined by the REN, you should contact your local telephone company to ascertain the maximum REN for your calling area. 3.
TOSHIBA AMERICA INFORMATION SYSTEMS, INC. (“TAIS”) Digital Solutions Division License Agreement IMPORTANT: THIS LICENSE AGREEMENT (“AGREEMENT”) IS A LEGAL AGREEMENT BETWEEN YOU (“YOU”) AND TAIS. CAREFULLY READ THIS LICENSE AGREEMENT.
Toshiba America Information Systems, Inc. Digital Solutions Division Limited Warranty Toshiba America Information Systems, Inc., (“TAIS”) warrants that this telephone equipment (except for fuses, lamps, and other consumables) will, upon delivery by TAIS or an authorized TAIS dealer to a retail customer in new condition, be free from defects in material and workmanship for twenty-four (24) months after delivery.
Contents Introduction Organization ........................................................................................................................................xiii Conventions ......................................................................................................................................... xiv Related Documents/Media ................................................................................................................... xv General Description ..................
Contents Chapter 2 – Strata CTX Configuration Chapter 2 – Strata CTX Configuration Strata CTX100-S/CTX100 Overview .................................................................................................2-1 CTX100-S and CTX100 Processors ...................................................................................................2-2 CPU/Memory ................................................................................................................................
Contents Chapter 3 – Strata CTX100-S/CTX100 Installation CTX100: Analog Tie, DID and/or Ground Start Lines ..............................................................2-35 Worksheet 6: Strata CTX670 Cabinet Slots ......................................................................................2-37 PCB Placement Guidelines .........................................................................................................2-38 Worksheet 7 – System Power Factor Check ..............................
Contents Chapter 5 – Rack Mount Cabinets FCC Registration Information .............................................................................................................4-5 Cabinet Installation Considerations ....................................................................................................4-6 Recommended Installation Sequence ...........................................................................................4-6 Step 1: Install Power Supply ..............................
Contents Chapter 6 – PCB Installation Step 1B:Move Flange Position (Optional) ................................................................................... 5-5 Step 2: Install First Cabinet..................................................................................................................5-5 Step 2A:Take Off Front and Back Covers.................................................................................... 5-6 Step 2B:Take Off Base of Cabinet ......................................
Contents Chapter 7 – ISDN Interfaces ASTU – Standard Telephone Interface Unit (CTX100 only) .............................................................6-4 ASTU Installation .........................................................................................................................6-4 ASTU1 Wiring .............................................................................................................................6-4 BDKU/BDKS – Digital Telephone Interface Unit ........................
Contents Chapter 8 – T1 BPTU/RPTU Overview ......................................................................................................................7-3 CSU Requirements .......................................................................................................................7-3 Slot Assignments ..........................................................................................................................7-3 BPTU Interface Unit ...........................................
Contents Chapter 9 – IP Telephony and QSIG Over IP RDTU3A Call Data Information .......................................................................................................8-10 Commands ..................................................................................................................................8-10 Indicators ....................................................................................................................................8-11 RDTU1 & 2 - T1 Interface Unit .
Contents Chapter 10 – MDF PCB Wiring IP Telephone Ping Test ...............................................................................................................9-29 LCD Network Failure Displays ..................................................................................................9-30 Collect CTX Trace Data on CTX SmartMedia Card .................................................................9-30 Collect BIPU Logs .....................................................................
Contents Chapter 11 – Station Apparatus 3000-series, IPT1020-SD Button Layouts ......................................................................................11-14 Telephone Settings ..........................................................................................................................11-17 3000-Series/IPT Telephones .....................................................................................................11-17 3000-Series Telephones ....................................
Contents Chapter 12 – Peripheral Installation Chapter 12 – Peripheral Installation Application PC and Server Interfaces ...............................................................................................12-1 Network Interface Connections ..................................................................................................12-2 Music-On-Hold/Background Music Interfaces .................................................................................
Contents Chapter 12 – Peripheral Installation xii Strata CTX I&M 06/04
Introduction This manual provides detailed step-by-step instructions for installing and maintaining the Strata CTX100-S, CTX100 and CTX670 digital business telephone systems. It is intended for qualified service technicians and system programmers. Use this manual in conjunction with the Strata CTX Programming Manual which covers the programs related to the Strata CTX28, CTX100-S, CTX100 and CTX670 systems discussed in this book.
Introduction Conventions • Chapter 10 – MDF PCB Wiring contains point-to-point wiring diagrams for connection of telephones, lines, peripheral equipment, and power supplies to the Strata CTX systems. • Chapter 11 – Station Apparatus provides instructions on how to connect telephones to the Strata CTX systems and how to configure and upgrade them for optional features. Procedures for installing direct station selection consoles, PC and conventional attendant consoles, and door phones also appear.
Introduction Related Documents/Media Conventions Tilde (~) Description Means “through.” Example: 350 ~ 640 Hz frequency range. ³ Denotes the step in a one-step procedure. ³ Denotes a procedure. Start > Settings > Printers See Figure 10 Denotes a progression of buttons and/or menu options on the screen you should select. Grey words within the printed text denote cross-references.
Introduction Related Documents/Media xvi Strata CTX I&M 06/04
1 CTX28 Installation CTX28 Installation This chapter explains how to install the Strata CTX28 system. It includes information on site requirements, wiring diagrams, and step-by-step instructions on how to install the unit(s), the ground wiring, AC power cabling, reserve power (battery backup) cabling, and Printed Circuit Board (PCB) cabling. Inspection 1. When the system is received, examine all packages carefully and note any visible damage. If any damage is found, do not open the packages.
CTX28 Installation Site Requirements Site Requirements This section defines the installation site requirements necessary to ensure a proper operating environment for the CTX28. Also included are grounding requirements. Input Power The system requires an input power source of 115VAC ± 10VAC, 50/60 Hz, 1.5 amps. The AC outlet is recommended to be dedicated and unswitched. (See “AC Power and Grounding Requirements” on page 1-4.
CTX28 Installation Site Requirements Table 1-1 provides a summary of the electrical and environmental characteristics. Summary of Electrical/Environmental Characteristics CTX28 Primary Power Input AC (Power Supply Specification) AC frequency Power AC input current 100~240VAC 50/60 Hz CTX28 - 100 watts maximum 1.
CTX28 Installation AC Power and Grounding Requirements AC Power and Grounding Requirements The CTX28 requires a solid earth ground for proper operation. The AC power cord connects to a standard AC power outlet. The ground for the CTX28 must originate at the building’s main power distribution panel and have a solid connection to earth ground. (See Figure 1-2.
CTX28 Installation AC Power and Grounding Requirements AC Power Ground Test WARNING! Hazardous voltages that may cause death or injury are exposed during the following test. Use great care when working with AC power line voltage. CTX28 Installation Test the “wire ground” for continuity by either measuring the resistance between the TB3 terminal (earth ground) on the GMAU and a metal cold water pipe (maximum: 1 ohm), or by using a commercially available earth ground indicator.
CTX28 Installation Installing the CTX28 Cabinet Installing the CTX28 Cabinet Check the items shipped. • • • • • • CHSU28A cabinet GCTU1A processor PCB AC adapter Tie wrap for cable clamp Tie wrap for AC adapter Velcro strap for AC adapter cord Step 1: Mount the Cabinet on the Wall The Base cabinet is designed to be mounted on a wall or other vertical surface. WARNING! To prevent electrical shock, make sure the power supply switch is turned Off. ³ To mount the Base KSU 1.
CTX28 Installation Installing the CTX28 Cabinet CTX28 Installation 3. Place the Base KSU on the desired location on the mounting surface and mark the location of the four screw holes. See Figures 1-4 and 1-5. 4. Using a hard board between the KSU and the wall, secure the hard board to the wall first, making certain that screws are aligned with studs. See Figure 1-5. 5. Drill holes on these marks and secure screws approximately two thirds of the way into the top two holes on the mounting surface. 6.
CTX28 Installation Installing the CTX28 Cabinet PCB Installation Overview Instructions The following is an overview for installing the Printed Circuit Boards (PCBs) into the Strata CTX28. After reading this section, proceed to the step-by-step instructions for each PCB. 1. Apply proper settings on the GMAU1A (motherboard Figure 1-7). 2. If applicable, set SW6 battery jumper to ON and install the GVMU1A Voice Mail card (Figures 1-8 and 1-9). 3.
CTX28 Installation Installing the CTX28 Cabinet SmartMedia Card CTX28 Installation BSIS (RS232-C) GCTU (Processor) GVMU (Voice Mail) installs beneath the GCTU GETS (100Base TX) GSTU (Standard Telephone) GMAU (Main Motherboard) GCDU (CO, CLID, DKT) 7108 Figure 1-6 Strata CTX I&M CTX28 Interior with PCBs 06/04 1-9
CTX28 Installation Installing the CTX28 Cabinet Step 1: Set Jumpers on the GMAU1A (Motherboard) The GMAU1A (shown in Figure 1-7) supports up to 6 CO lines with Caller ID (CLID).
CTX28 Installation Installing the CTX28 Cabinet Table 1-4 GMAU Controls, Switches and Indicators (continued) Type of Component P4 16-pin female connector P5 13-pin female connector P6 10-pin female connector P7 13-pin female connector P8 10-pin female connector P9 6-pin female connector GCDU interface P10 3-pin connector HPFB-6 external battery interface P11 3-pin female connector GSTU standard telephone interface P400 P500 F1 GSTU standard telephone interface Modular connector Inter
CTX28 Installation Installing the CTX28 Cabinet Step 2: Install the GVMU1A Voice Mail PCB (optional) 1. In the CTX28 cabinet, remove the two screws and the PCB stopper (Figure 1-8). 2. On the GVMU, set the SW6 battery jumper to ON and set the Greeting language switch (Figure 1-9). Default language is “English.” See Table 1-6 for other language settings. 3. Turn off system power and if GCTU is installed remove GCTU before installing the GVMU. 4.
CTX28 Installation Installing the CTX28 Cabinet 7395 CTX28 Installation Status LED VM Port LEDS (Ch1 ~ Ch4) Busy/Idle RS232C Maintenance Jack Note: For details, see GVMU Admin PC Connections later in this chapter.
CTX28 Installation Installing the CTX28 Cabinet Step 3: Install the GCTU1A (Processor) The GCTU1A is the main processor for the CTX28. It is shipped with the CTX28 Base cabinet. ³ To install the GCTU1A into the CTX28 1. Skip this step if you have installed a Voice Mail PCB and already removed the PCB stopper. If you have not done this, then in the CTX28 cabinet, remove the two screws and the PCB stopper (see Figure 1-8). 2.
CTX28 Installation Installing the CTX28 Cabinet GCTU Control/Indicator/ Connector P1 Type of Component Description 60 pin connector GETS Interface P2 60 pin connector BSIS Interface P501 SmartMedia house SmartMedia interface P601 Jumper plug Must always be in the “ON” position to maintain customer data P801 RCA Jack Paging interface and BGM/MOH interface P901 2 pin screw terminal Relay contact P902 44-pin male DIN connector CTX28 Back plane connector P903 44-pin male DIN connector
CTX28 Installation Installing the CTX28 Cabinet Step 4: Install the GCDU1A (DKT and Loop Start Interface) The GCDU1A PCB adds an additional 3 CO lines, 3 Caller ID units, and 8 digital telephone circuits with a single PCB. It attaches to the GMAU1A motherboard. With the GCDU1A installed, the CTX28 supports up to 16 digital telephones (DKTs), 6 CO lines and 6 Caller ID circuits. ³ To install the GCDU1A ³ Carefully place the GCDU1A pins over the GMAU connectors (see Figure 1-6 and Figure 1-11).
CTX28 Installation Installing the CTX28 Cabinet Step 5: Install the GSTU1A ³ To install the GSTU1A, align the GSTU1A pins over the GMAU1A motherboard and press down firmly (see Figure 1-6). CTX28 Installation The GSTU1A provides one additional standard telephone interface.
CTX28 Installation Installing the CTX28 Cabinet Step 7: Install the BSIS1A (optional) The BSIS provides RS-232 serial ports. ³ To install the BSIS1A, align the BSIS1A pins over the GCTU1A and press down firmly (see Figure 1-6). Step 8: Install the HPFB-6 (Reserve Power Battery/Charger) One or two HPFB-6 optional units can be added to the CTX28 to provide reserve power. The amount of reserve power time depends on the hardware (see Table 1-12).
CTX28 Installation Installing the CTX28 Cabinet Note The CTX28 KSU does not provide a battery charger, the HPFB-6 contains built-in CTX28 Installation batteries and a battery charger; therefore, do not connect any other type of batteries to the CTX28. To P10 Connector (see Fig. 1-2) 2“ #10 AWG HPFB FG Wire to TB1 (see Fig. 1-2) HPFB Unit: Reserve Power Battery and Charger (optional) 7253 From Second HPFB (optional) 2“ 2“ 2“ Figure 1-14 HPFB-6 Reserve Power Installation Step 9: Install Wiring 1.
CTX28 Installation Installing the CTX28 Cabinet BSIS (4 RS-232C) P10 (to HPFB Battery Cord) 100 Base TX Music On Hold (MOH) TB1 (to HPFB FG) External Speaker (Paging) SW1 ON CO, CLID, DKT STANDBY SW1 ON/OFF (Standby) Amphenol Connector secured under clamp Tie Wrap (supplied) Tie Wrap (supplied) AC Adapter 7158 Figure 1-15 Standard Unit Wiring (without option units) and AC Adapter 1-20 Strata CTX I&M 06/04
CTX28 Installation Digital Telephone Connection CTX28 Installation 1 2 3 4 7257 Figure 1-16 AC Adapter Wiring Procedure Digital Telephone Connection The Strata CTX28 supports any Toshiba 2000 and 3000-series digital telephones, including the new DKT3007-SD telephone (shown right). The DKT3007-SD only works on the CTX28. The DKT3007-SD works just like the DKT3020-SD and DKT3010SD, except that it has seven flexible buttons.
CTX28 Installation Loop Limits Loop Limits This section provides the maximum loop lengths for connection of telephones, lines, peripheral equipment, and power supplies. The following information applies to only the Strata CTX28 system (see Table 1-13). Diagrams that are applicable to all systems, including the CTX28, can be found in Chapter 10 – MDF PCB Wiring. Table 1-13 Digital Telephone/DIU/DDSS Console/ADM/Loop Limits Mode DKT3000-series or DKT2000-series models, DKT with BVSU or DVSU or BHEU or HHEU.
CTX28 Installation CTX28 Secondary Protection The following diagram (see Figure 1-18) shows where secondary protectors must be installed for outside wiring.
CTX28 Installation MDF Wiring MDF Wiring For Registration information refer to “CTX28 FCC/ACTA Registration Numbers” on page 1-1. Table 1-14 Station Wiring for Amphenol Connector (P1) on GMAU1 Pin No. Signal Pin No.
CTX28 Installation GVMU Administration PC Connections CTX28 Installation GVMU Administration PC Connections Strata CTX28 6-wire Modular Cord - telephone cross-pinned type (modular jack locking tabs on the same side of the cord).
CTX28 Installation GVMU Administration PC Connections PPTC-9 2 3 6 4 1 5 (female) Connect to PC 9-pin COMX Port (DTE) 5 4 3 2 1 9 8 7 6 RD TD DSR DTR DCD SG DB9 Pinout (front view) 6 5 4 3 2 1 6 5 4 3 2 1 SG DCD DTR DSR TD RD GVMU RS232C Maintenance Jack Modular Jack Pinout (front view) PPTC25-MDM (male) 2 3 20 6 8 7 2 3 4 5 6 7 8 20 7405 Connect to External Modem (DTE) RD TD DSR DTR DCD SG DB25 Pinout (front view) Jumper Pin 4-5 Figure 1-22 1-26 6 5 4 3 2 1 6 5 4 3 2 1 SG DCD DTR DSR TD
2 Strata CTX Configuration Worksheets follow this information to aid in determining the actual cabinets and interface PCBs needed for particular proposals and how these PCBs should be placed in Strata CTX cabinet slots. (Worksheets begin on page 2-22.) Strata CTX Configuration This chapter contains information and worksheets to help configure the Strata CTX100-S, CTX100 and CTX670 hardware components.
Strata CTX Configuration CTX100-S and CTX100 Processors The CTX100 easily connects to outside public and private telephone lines. All of the telephones (stations) tied to the system can have direct access to each other, as well as to the public and private network. All lines, stations, and options are tied together through the cabinets. Table 2-1 CTX100-S / CTX100 Cabinet Specifications Weight1 Height Width Depth Base Cabinet (CHSUB112A) 19.4 lbs. 14.6 in. 11.9 in. 10.2 in.
Strata CTX Configuration CTX100 Cabinet Slots Music-on-hold/Background Music Interface A 600-ohm RCA jack and volume controls are built into the processor to interface with Music-onhold and/or Background Music (BGM) sources (one of the jacks is for future use).
Strata CTX Configuration CTX100-S/CTX100 License Control CTX100-S/CTX100 License Control The system size and feature capability is controlled using a software License Key Code. This key code is obtained from Toshiba Internet FYI during the ordering process and is installed onto the system processor via Strata CTX WinAdmin. Processor license codes activate system hardware capacities in the following increments. • The first 16 line/station ports on the CTX100-S do not require a license.
Strata CTX Configuration Strata CTX670 Overview Strata CTX670 Overview The Strata CTX670 system provides sophisticated telecommunication features in a modular system designed for growth. Its universal slot architecture enables you to select the combination of Central Office (CO) lines, stations, and peripheral options that best suit your needs.
Strata CTX Configuration CTX670 Processor PCBs Large-scale Integrated (LSI) circuits The processor has LSI circuits that support the following: • BCTU provides 16 built-in DTMF receivers; 32 available using the BCTU and BEXU. For five or more DTMF receivers, appropriate licenses are required. See “CTX670 License Control” on page 2-7. • BCTU provides 16 built-in Busy Tone (BT) detectors for Auto Busy Redial (ABR); 32 available using the BCTU and BEXU.
Strata CTX Configuration CTX670 License Control CTX670 Processor PCB Subassemblies Subassemblies can be added to the BCTU processor PCB to provide additional features. The subassemblies are: • AMDS (Modem) – Provides a 33.6Kbps/V.34 modem for point-to-point local or remote connection to the CTX WinAdminTM administration PC. • BSIS interface PCB which attaches to the BCTU to provide up to four RS-232 interface ports for SMDR Call Accounting and SMDI or Toshiba Proprietary Voice Mail interface.
Strata CTX Configuration CTX670 Cabinet Slots CTX670 Cabinet Slots Base Cabinet The Base Cabinet has two dedicated slots used for the system processor PCBs and eight universal slots, labeled “S101~S108,” that can accommodate station, CO line or option PCBs (see Figure 2-3). It also houses a power supply. B101 B102 S101 S102 S103 S104 S105 S106 S107 S108 DC OUT -24V1 -24V2 BATT + - -24V3 -24V4 POW +5V AC IN -5V P.F.
Strata CTX Configuration CTX670 Remote Expansion Cabinet CTX670 Remote Expansion Cabinet A CTX670 Expansion Cabinet can be located up to three kilometers from its Base Cabinet. Remote Expansion Cabinets are enabled by the RRCU PCB. One RRCU connects to up to two ribbon-type Data Cables and applies the inter-cabinet signal to a multi-mode fiber-optic pair.
Strata CTX Configuration System Capacities Table 2-4 Station/Peripherals System Capacities (continued) CTX100 Base & Expansion CTX670 Basic Processor BCTU CTX670 Expanded Processor BCTU + BEXU Door phones 6 9 24 DSS consoles (DDSS) 3 5 16 ISDN BRI station circuits TE-1 and TA (2B+D per circuit) 12 28 96 Stations 64 144 544 35 66 66 Total Stations (Digital/Analog/ISDN BRI B channel combined) 72 160 560 Standard stations 64 144 544 Calls existing at the same time 56 96 366 C
Strata CTX Configuration System Capacities Table 2-6 Station Buttons CTX670 Basic Processor BCTU CTX670 Expanded Processor BCTU + BEXU Call Forward, Personal CF Buttons 72 160 560 CO Line Buttons 64 96 264 Group CO Line Buttons 64 96 264 Pooled CO Line Buttons 32 50 128 CO Group and Pooled Line Buttons 64 96 264 Station Loop Buttons 8 15 50 Door Unlock Buttons 4 8 16 Flexible Telephone Buttons 1600 3500 12000 Line Buttons in use at the same time 1440 3200 3200 Message
Strata CTX Configuration System Capacities Table 2-7 System Feature Capacities CTX100 Base & Expansion CTX670 Basic Processor BCTU CTX670 Expanded Processor BCTU + BEXU 100 200 256 Advisory LCD Messages (Set on a Telephone) 1 1 1 Advisory LCD Messages Lists (per System) 10 10 10 Attendant Groups 1 1 1 1 1 1 Call Forward, System CF Patterns 4 10 32 Call Park Orbits (General) 14 32 64 Features Pilot DNs Call Accounting SMDR Interface1 Call Park Orbits (Individual) Caller ID/
Strata CTX Configuration System Capacities Table 2-7 System Feature Capacities (continued) Features Off-hook Call Announce to Telephone Speakers 5 Page Mute External BGM Control Relay Page Zone Relays 4 4 CTX100 Base & Expansion CTX670 Basic Processor BCTU CTX670 Expanded Processor BCTU + BEXU 72 112 352 1 1 1 8 8 8 4 8 16 Paging – (Group Page – simultaneous stations paged) 72 120 120 Pickup Groups 5 10 32 Ring Tones (External Call Ring Tones for DKTs) 4 4 4 Ring Tones (Inter
Strata CTX Configuration Universal Slot PCBs Universal Slot PCBs Universal Printed Circuit Boards (PCBs) installed in the Strata CTX100 or CTX670 cabinets provide interfaces for stations, lines, and peripherals. Each PCB measures 7.5 x 5.5 inches (190 x 140 mm) and mounts in the slot with a 44-pin backplane connector. PCB external connections to station equipment are made to the Main Distribution Frame (MDF) using industry-standard connectors.
Strata CTX Configuration Universal Slot PCBs Table 2-8 Station PCBs (continued) Digital Telephone Interface Unit (BWDKU1A) Provides 8 or 16 digital telephone circuits. Compatible with Strata CTX and Strata DK. Jumper plugs on the PCB determine the number of DKT circuits and CTX or DK compatibility. It does not need a Ferrite Core. It has one protector for every two circuits. The BWDKU1A is similar to BDKU/BDKS, except DKT wiring is all 1 pair.
Strata CTX Configuration Universal Slot PCBs Table 2-9 CO Line PCBs Strata Net Over VoIP Interface Unit (BIPU-Q1A) Provides 16 IP QSIG channels One 100Base-TX RJ45 port Interface Options: LAN, Virtual Private Network (VPN) Internet, VPN WAN, Intranet. One RS-232 maintenance port QSIG over IP standard protocol (ECMA-336) Voice coding G.711/G.
Strata CTX Configuration Universal Slot PCBs Table 2-9 CO Line PCBs (continued) ISDN U-type Basic Rate Interface Unit (RBUU) Provides two ISDN BRI, U point circuits (2B+D each). Host for the RBUS. Interface Options: Network and/or station side. Network side requires a dealer-supplied NT1 interface. Basic Rate Interface Subassembly (RBUS) Attaches to RBUU. One RBUS subassembly per RBUU. Two ISDN BRI, U point circuits (2B+D each) subassembly for the RBUU. Interface Options: Network and/or station side.
Strata CTX Configuration Functional Block Diagrams Functional Block Diagrams The Functional Block Diagrams show the PCBs and interface connectors used for connecting the station.
Strata CTX Configuration Functional Block Diagrams Up to Four Programmable Serial (RS-232) Port Modular Jacks Available SMDR Call Accounting BCTU Processor PCB BSIS SMDI and Stratagy ES Integration Stratagy ES Voice Mail Conference SW with PAD (Optional) AMDS1 Remote Maintenance Modem Internet Hub or LAN Memory Time Switch Smart Media Maintenance and Customer Database RJ45 2 Ethernet Interface License ACD (CSTA) BEXU Memory Processor PCB DTMF/ABR Receivers ( Built-In ) Time Switch Local
Strata CTX Configuration Functional Block Diagrams CTX Expansion Cabinets Optical Fiber Cable 3 km/(1.86 mi.
Strata CTX Configuration Functional Block Diagrams BWDKU 8 or 16 Digital Telephone Circuits Cordless DKT Digital Telephone (DKT) and Add-on Module Mode Msg Spdial Mic Redial Spkr Cnf/Trn Page Scroll Feature Vol Hold BDKU 8 Digital Telephone Circuits and BDKU/BDKS 16 Digital Telephone Circuits Mode ADKU 8 Digital Telephone Circuits (max).
Strata CTX Configuration Worksheet Description Worksheet Description These configuration worksheets cover Strata CTX telephones, PCBs and cabinets; they do not cover other peripheral equipment requirements. Knowledge of all customer telephone requirements is needed to complete the worksheets. These include all telephone sets, CO line types and Strata CTX system feature options for the main location (with the Strata CTX Base Cabinet) and each remote location.
Strata CTX Configuration Worksheet 1: Toshiba DKT and IP Telephones Worksheet 1: Toshiba DKT and IP Telephones Main Location _______________ Item# Remote Location 1___ 2____ 3____ 4____ 5____ 6____ Digital Telephone Equipment Required for Cabinet Number __________ DT01 DKT3010-S - 10 button Digital Speakerphone (gray) DT02 DKT3010-S (W) - 10 button Digital Speakerphone (white) DT03 DKT3010-SD - 10 button Digital Speakerphone with LCD (gray) DT04 DKT3010-SD (W) - 10 button Digital Speakerphone wit
Strata CTX Configuration Worksheet 2: Standard Telephone, Stratagy DK, IVP8 Miscellaneous Digital Telephone Equipment (See Table 2-52) DT34 RFDM - External Microphone for DKT2020-FDSP Full Duplex Digital Speakerphone DT35 MDFB - Door Phone connected to Digital Door Phone Control Box (requires 1DDCB output) DT36 Door Lock connected to Digital Door Phone Control Box (requires 1DDCB output) DT37 BVSU - Interface for Digital Telephones that require Speaker OCA (DKT3000 and DKT2000) DT38 BPCI - PC/TAPI
Strata CTX Configuration Worksheet 3: CO Line Worksheet 3: CO Line Main Location _______________ Remote Location 1___ 2___ 3___ 4____5___ 6____ Line Qty /X= PCB Qty PCB Name Slots Required1 Item # CO Line Type Required CO1 Analog Loop Start CO Lines with RCOU /4= RCOU CO2 Analog Loop Start CO Lines with RCOU/RCOS /8= RCOU/RCOS CO3 Analog Ground Start CO Lines with RGLU /4= RGLU 1 Slot/RGLU = 1 Slot/RCIU = 1 Slot/RCOU = 1 Slot/RCOU/RCOS = Caller ID Line interface with RCIU /4= RCIU
Strata CTX Configuration Worksheet 4: Page/MOH/Control Relay Worksheet 4: Page/MOH/Control Relay Up to two BIOU interfaces can be installed to provide the following interfaces: Main Location _______________ Feature Remote Location 1___ 2___ 3___ 4___ 5___ 6___ 1 BIOU 2 BIOUs Page Zone Relays 4 8 Control Relays1 4 8 MOH/BGM Device Interface2 Page Outputs3 3 6 1 2 Enter No. of Required BIOUs 1. The CTX100 processor provides one built-in control relay. 2.
Strata CTX Configuration Worksheet 5: Strata CTX100 Cabinet Slots Notes 1. Always check the cabinet power factors using Worksheet 7 to make sure the installed PCBs and telephones do not exceed the power factor limitations. 2. ACTU processor optional subassembly functions (see “CTX100 Processor Optional Subassemblies” on page 2-3).
Strata CTX Configuration CTX100 Max. Capacity Configuration Examples CTX100 Max. Capacity Configuration Examples The tables in this section summarize the maximum capacities of digital telephones with various types of line circuits. A PCB placement diagram for each numbered configuration follows tables. Digital Telephones and Loop Start Lines With or Without Caller ID Table 2-11 CTX100 Base Cabinet with Analog, Loop Start Lines 4 Universal Slots 40 Stations (Max.) 24 CO lines (Max.
Strata CTX Configuration CTX100 Max.
Strata CTX Configuration CTX100 Max. Capacity Configuration Examples Table 2-18 CTX100 Base & Expansion: 72 stations, 20 loop start lines, 0 CLID S101 S102 S1031 S104 S105 S106 S107 S108 BDKU/ BDKS BDKU/ BDKS RCOU ADKU BDKU/ BDKS BDKU/ BDKS RCOU/ RCOS RCOU/ RCOS 16 DKTs 16 DKTs 4 lines 8 DKTs 16 DKTs 16 DKTs 8 lines 8 lines 1. S103 is only 4 lines and S104 is only 8 DKTs because of cabinet power factor.
Strata CTX Configuration CTX100 Max.
Strata CTX Configuration CTX100 Max. Capacity Configuration Examples CTX100 Base Only: Digital Telephones and T1 and/or PRI lines RPTU2 (PRI) is limited to 48 channels; RDTU2 and BPTU (T1) are limited to 64 channels. Table 2-31 CTX100 CTX Base Cabinet with T1 and/or PRI lines 4 Universal Slots 40 Stations (Max.) 48 lines (Max.) 64 Stations + T1 and/or PRI or IP-QSIG lines combined (Max.) Table No.
Strata CTX Configuration CTX100 Max. Capacity Configuration Examples CTX100 Base & Expansion: Digital Telephones and T1 and/or PRI lines 8 Universal Slots 72 Stations (Max.) 64 lines (Max.) 112 Stations + T1 and/or PRI or IP-QSIG lines combined (Max.) T1 and/or PRI lines1 72 40/40 64 48/48 56 56/48 48 64/48 Strata CTX Configuration Stations 1. PRI lines are limited to 48B channels.
Strata CTX Configuration CTX100 Max. Capacity Configuration Examples CTX100 Base Only: Digital Telephones and Analog Tie, DID, and/or Ground Start Lines Table 2-38 CTX100 Base Cabinet with Analog Tie, DID and /or Ground Start Lines 4 Universal Slots 40 Stations (Max.) 16 CO lines (Max.) 40 Stations + Analog Tie, DID, Ground Start Lines combined (Max.) Analog Tie, DID, and/or Ground Start Lines Table No. Stations 2-39 40 4 line (Ground Start only) 2-40 32 8 lines (4 Tie/DID max.).
Strata CTX Configuration CTX100 Max. Capacity Configuration Examples Table 2-42 CTX100 Base: 16 stations, 12 Tie, DID and/or Ground Start Lines S101 S102 S103 S104 BDKU/ BDKS RxxU RxxU1 RxxU 16 DKTs 4 lines 4 lines 4 lines 1. RxxU can be REMU (Tie), RDDU (DID), or RGLU ground start lines. Table 2-43 CTX100 Base: 0 stations, 16 Tie, DID and/or Ground Start Lines S102 S103 S104 RxxU RxxU RxxU 4 lines 4 lines 4 lines 4 lines Strata CTX Configuration S101 RxxU1 1.
Strata CTX Configuration CTX100 Max. Capacity Configuration Examples Table 2-47 S101 CTX100 Base & Expansion: 56 stations, 12 Tie or DID and 4 Ground Start Lines S102 BDKU/ BDKS ADKU 16 DKTs 8 DKTs S103 S104 S105 S106 S107 S108 RxxU RxxU BDKU/ BDKS BDKU/ BDKS RxxU1 RGLU2 4 lines 4 lines 16 DKTs 16 DKTs 4 lines 4 lines 1. RxxU can be REMU (Tie), RDDU (DID), or RGLU ground start lines. 2. RGLU can not be substituted with REMU or RDDU because of cabinet power factor.
Strata CTX Configuration Worksheet 6: Strata CTX670 Cabinet Slots Worksheet 6: Strata CTX670 Cabinet Slots The cabinet diagram below enables you to write in the PCBs installed in each cabinet slot. Use the PCB placement guideline below to place PCBs in the correct slots. Fill in the PCBs that go into each slot from the PCB quantities determined in the worksheets on the previous pages and the information provided in this worksheet.
Strata CTX Configuration Worksheet 6: Strata CTX670 Cabinet Slots PCB Placement Guidelines Install the RRCU PCBs in the Base Cabinet first. Station, line and option PCBs can be mixed in cabinets in any pattern. Do not skip slots except for vacant slots that provide RDTU, BPTU or RPTU capacity. Also, do not skip slots except for vacant slots that provide for BBKU/BDKS with Speaker OCA. Refer to Tables 2-54 and 2-55.
Strata CTX Configuration Worksheet 6: Strata CTX670 Cabinet Slots • Cables are provided according to the connectors on the RRCU card to which they are attached. See Table 2-53 for connector information. Table 2-53 Remote Cabinet Data Cables and Connectors RRCU Connectors Data Cables BDCL1A-MS1 M1 S1 X X M2 BDCL1A-M2 S2 X BDCL1A-S2 X X = Applies to connector.
Strata CTX Configuration Worksheet 6: Strata CTX670 Cabinet Slots Step 5: ISDN PRI Digital Line PCBs See Worksheet 3: CO Line to determine RDTU PCB requirements. The BPTU or RPTU must be placed in designated slots as shown in Table 2-55. The BPTU or RPTU PCB can provide up to 16 or 23 ISDN PRI lines. The BPTU or RPTU slot provides 16 PRI lines, an additional seven lines requires that the cabinet slot adjacent to BPTU or RPTU be vacant. Up to 11 RDTU PCBs can be installed in a fully expanded system.
Strata CTX Configuration Worksheet 6: Strata CTX670 Cabinet Slots Step 7: ISDN BRI Digital Station PCBs • See Worksheet 3: CO Line to determine BRI station PCB requirements. • RBUU, RBUU with RBUS, RBSU, RBSU with RBSS: Each PCB or PCB combination requires one slot. These PCBs can be installed in any slot, except a slot is left vacant to provide capacity for RDTU, BPTU or RPTU as shown in Tables 2-54 and 2-55.
Strata CTX Configuration Worksheet 7 – System Power Factor Check Worksheet 7 – System Power Factor Check The Strata CTX power supply was engineered for maximum cost efficiency to provide power for the most configurations. Because of this design, there are some -24VDC power limitations for telephone option hardware. Each telephone/device and PCB has been assigned Power Factors (PFs) that reflect the amount of power supply resources they consume.
Strata CTX Configuration Worksheet 7 – System Power Factor Check Table 2-58 shows the individual PCB +5VDC and -24VDC power factors. -24VDC PF numbers for telephones and devices are shown on page 2-44; telephones do not require +5VDC PF considerations. Table 2-58 PCB and Power Supply Power Factors PCB Type -24VDC PF PCB Type +5VDC PF -24VDC PF ACTU1, 2 1.1 0.5 ADKU 0.8 0.3 RCIS1 0.3 0.1 RCIU1, 2 0.7 0.2 AETS 0.2 0.1 RCIU2 0.7 0.2 ARCS 0.0 0.0 RCMS1 0.6 0.3 AMDS 1.3 0.
Strata CTX Configuration Worksheet 7 – System Power Factor Check Telephone/Device Power Factors The power supply of each cabinet supplies a limited amount of power. Use the Worksheet below to calculate the total Telephone/Device -24 VDC PF for each cabinet. Add it to the appropriate cabinet in “Cabinet Power Factor Check” on page 2-45. Telephones do not have +5VDC PFs. Main Location _______________ Telephone/ Device Remote Location 1___ 2___ 3___ 4____ 5___ 6____ Cabinet 1 (Base) Cabinet 2 (Exp.
Strata CTX Configuration Cabinet Power Factor Check Cabinet Power Factor Check 1. Enter the PCB Type and PCB Power Factor for each cabinet slot (see Worksheets 5 and 7 for PCB slot configuration). 2. Total the PCB PF for each cabinet. 3. Enter the Total Telephone PF for each cabinet (from the Telephone/Device Worksheet on the previous page). 4. Make sure the Total Cabinet PFs do not exceed the limits noted below. If either PF exceeds its limit, adjust the PCB/telephone placement to meet the PF requirement.
Strata CTX Configuration Cabinet Power Factor Check CTX670 CTX670 Cabinet 1 (base) Slot PCB Type PCB +5VDC PF CTX670 Cabinet 2 PCB -24VDC PF B101 S201 B102 S202 S101 S203 S102 S204 S103 S205 S104 S206 S105 S207 S106 S208 S107 S209 S108 PCB -24VDC PF Total PCB PF Total Phone PF Total Phone PF Total Cabinet PF Total Cabinet PF CTX670 Cabinet 3 CTX670 Cabinet 4 PCB PCB PCB Type +5VDC PF -24VDC PF PCB PCB PCB Type +5VDC PF -24VDC PF Slot CTX670 Cabinet 5 Slot S301 S401 S501
Strata CTX Configuration Worksheet 8 – CTX Primary AC and Reserve Power Worksheet 8 – CTX Primary AC and Reserve Power CTX100 AC Power Considerations The power supply in each Strata CTX100 Base and Expansion Cabinet furnishes power to all of the stations and some of the interface peripherals (see Table 2-59). The primary AC power for each cabinet is 120VAC.
Strata CTX Configuration Reserve Power (CTX100 and CTX670) Determine CTX670 system miscellaneous power components in the following worksheet. (See Tables 2-63 and 2-66 for component descriptions.) These components are not used on CTX100 systems.
Strata CTX Configuration Primary/Reserve Power Cabinet Hardware Table 2-63 CTX670 Reserve Power Characteristics Battery Charger Characteristics Maximum Battery Charger Drain (-24VDC) Charger: current limiting Nominal float voltage: 2.275 volts/cell Charge current: 0.7 amps maximum Battery discharge cut-off voltage: 20.5 ±0.5VDC 6.0 amps 2 cabinets 12.0 amps 3 cabinets 18.0 amps 4 cabinets 24.0 amps 5 cabinets 30.0 amps 6 cabinets 36.0 amps 7 cabinets 42.
Strata CTX Configuration Primary/Reserve Power Cabinet Hardware Table 2-66 Option BPSU672 CTX670 Power Cabinet Hardware Description Strata CTX670 cabinet power supply must be ordered for each cabinet. Operates with 120VAC, 208VAC, or 240VAC connected as the system’s primary AC power source. It automatically detects and adjusts to the type of primary AC power that is connected. The power supply is included with each cabinet ordered but must be installed in the field. Standard 9 ft.
Strata CTX Configuration Primary/Reserve Power Cabinet Hardware Table 2-66 CTX670 Power Cabinet Hardware (continued) Option Description Strata CTX reserve power battery distribution box is required when connecting reserve power batteries to three or more cabinets (wall or floor mount). The box is field installed into one of the Strata CTX cabinet side panels. BBDB The BBDB provides seven BBTC2A-2.
Strata CTX Configuration Primary/Reserve Power Cabinet Hardware CTX670 Cabinet AC Power Component Requirements for Wall Mounted Systems Tables 2-67 and 2-68 show the cabinet parts required to distribute AC power for various configurations of the Strata CTX cabinets.
Strata CTX Configuration Primary/Reserve Power Cabinet Hardware Cabinet AC Power Component Installation After the cabinets have been floor mounted, the AC power components should be installed Tables 2-69 and 2-70 show the primary AC power components required for floor mounted systems.
Strata CTX Configuration Worksheet 9 – Software Licenses Worksheet 9 – Software Licenses Enter the quantity of software license(s) required for your hardware configuration using the following worksheet. Strata CTX Software Licenses Comments LIC100-4 PORTS 4-port Line/Station License for CTX100. Required for every 4 ports used for trunks or stations beyond the 32 ports bundled with the CTX100 processor (maximum total of 112 ports). LIC670-4 PORTS 4-port Line/Station License for CTX670.
Strata CTX Configuration Hardware Compatibility Hardware Compatibility PCB compatibility for the Strata DK424, DK424i, CTX100 and CTX670 systems is shown in Table 2-71.4.
Strata CTX Configuration Hardware Compatibility Table 2-71 Hardware Compatibility (continued) DK280 & DK424 DK424i CTX100 CTX670 EKT2000, EKT6000, EKT6500, HDSS, HDCB X X NC NC Existing Proprietary Attendant Console X X NC NC DK424 PC Attendant X X NC NC NC NC X X X X NC NC Category Stations and Terminal Equipment Unit Name Strata CTX PC Attendant Console, BATI RPCI (RS-232C) - Data or TAPI BPCI (RS-232C) - Data or Voice Record TAPI Stations and Terminal Equipment NC NC X
Strata CTX100-S/CTX100 Installation 3 This chapter explains how to install the Strata CTX100-S/CTX100 systems. It includes information on site requirements, wiring diagrams, and step-by-step instructions on how to install the unit(s), the ground wiring, AC power cabling, reserve power (battery backup) cabling, and PCB cabling. Inspection Strata CTX100-S/ CTX100 Installation 1. When the system is received, examine all packages carefully and note any visible damage.
Strata CTX100-S/CTX100 Installation Site Requirements The AC outlet is recommended to be dedicated and unswitched, with a solid third-wire ground. (See “AC Power and Grounding Requirements” on page 3-4.) This eliminates interference from branch circuit motor noise or the like, and to prevent accidental power-off. To avoid accidental power turn-off, Toshiba recommends that you do not use an On/Off wall switch on this dedicated AC circuit.
Strata CTX100-S/CTX100 Installation Site Requirements Front View 14.5" 19.9" 24" 24" 15.
Strata CTX100-S/CTX100 Installation AC Power and Grounding Requirements Environmental Considerations Table 3-1 provides a summary of the environmental characteristics.
Strata CTX100-S/CTX100 Installation AC Power and Grounding Requirements AC Power and Third-wire Ground Test Test the “third-wire ground” for continuity by either measuring the resistance between the third prong terminal (earth ground) and a metal cold water pipe (maximum: 1 ohm), or by using a commercially available earth ground indicator. If neither procedure is possible, perform the following earth ground test procedure.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Installing the CTX100 Cabinet Step 1: Remove Cabinet Covers WARNING! Ensure the power supply AC plug is not plugged into the AC outlet. 1. Loosen the screws from the front cover to remove it. 2. Loosen the four screws from the top cover and slide it off. 3. Loosen the four screws from each side cover and pull the covers forward to remove them. 6074 Figure 3-3 Cabinet Cover Removal Step 10: Remove the Back Cover from the Cabinet(s) 1.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Step 11: Check the Base/Expansion Power Supply Jumper Plug The APSU112A power supply is used in both CTX100 cabinets. ³ Check that the “BASE/EXP.” jumper plug is connected to the proper power supply connector as shown in Figure 3-14. The power supply has two connectors: one is labeled “BASE” and the other “EXP.” • If the power supply is mounted in the CTX100 Base Cabinet, the “BASE/EXP.” jumper plug must be plugged into the “BASE” connector.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Stud Plaster Board Flange Screw A Ba se Hook Ex Ba pa se Ex ns pa ion ns ion Back Board (1/2 Inch Plywood) Flange Hook 5912 Figure 3-5 Cabinet Wall Mounting Back Cover Hanger Un Bottom left hanger is only used on the Base Cabinet m ou n rig t C ht abi an ne d tup Sl Hanger Hole id e 5937 Mo lef unt t C ab in et -S lid e Figure 3-6 3-8 Mounting CTX100 Cabinet on Back Cover Strata CTX I&M 06/04
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Step 13: Mount the Expansion Cabinet (if required) WARNING! To prevent electrical shock, make sure the power supply is not plugged into the AC outlet. 1. Turn Base Cabinet DC power switch Off. Remove the four screws on the right side cover of the Base Cabinet. 2. Remove four screws from the right side of the Base Cabinet (since they will interfere with attaching the Expansion Cabinet to the Base Cabinet later). 3.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Left side of Expansion Cabinet fits over the right side of the Base Cabinet. Flip open locks to plug in data cable. Push locks closed once cable is plugged in. Make sure locks are closed. 2 - Screws 5969 S101 S102 S103 S104 S105 S106 S107 S108 Figure 3-7 Base and Expansion Cabinet Interior Step 14: Install Reserve Power Skip this step if you are not going to install reserve power batteries.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Reserve Battery Considerations Important! Local ordinances may dictate battery type and installation details. The batteries require a well-ventilated location within nine feet of the system (the interface cable is nine feet long). WARNING! To reduce the risk of fire or injury to persons, read and follow these instructions: Use only 12VDC gelcell batteries. ³ Do not dispose of the batteries in a fire. The cells may explode.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet 2-Batteries/1-Cabinet 2-Batteries/2-Cabinets Base Cabinet Power Supply + ABCS CN-BAT – Connnector Black jumper wire Base Cabinet Power Supply + ABCS CN-BAT – Connnector 12 Volt Batteries 80 AMP/ HR Each 12 Volt Batteries 80 AMP/ HR each Exp. Cabinet Power Supply + ABCS CN-BAT – Connnector ABTC-3M Cables (9 ft.) 10A Fuse 10A Fuse ABTC-3M Cables (9 ft.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet 8. Confirm that the power supply is working properly. (AC Power lights should be On.) Connector of Battery Cable to Battery Charger CN-BAT Connector ABTC-3M Battery Cable to Battery Charger (Tuck into plastic retainer with AC power cord.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Base Cabinet Base Cabinet (side view) 6078 ABTC-3M Cable Figure 3-12 Expansion Cabinet Run ABTC-3M Cable from Base Cabinet along shelf of Exp. Cabinet to Battery Charger Cable Wiring for the Base with an Expansion Cabinet Expansion Cabinet ABTC-3M Battery Cable to Battery Charger ABTC-3M Battery Cable is secured with a tie wrap.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Step 15: Check Power Supply Circuit Breakers and Fuses This step is only needed if you experience problems with the system. WARNING! Whenever the cabinet top cover is removed, use extreme caution. Do not touch any internal power supply components because hazardous voltages may be exposed. Whenever adding/removing power supply components or checking circuit breakers and fuses, unplug the power supply AC plug from the AC source outlet.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet 4. Replace the power supply if the fuse continues to blow and a defective PCB or short cannot be found. See “Step 7D: Remove and Replace the Power Supply (if required)” on page 3-17. Step 7C: Check the Power Factor Indicator and Reset Button The front panel of APSU112 provides a Power Factor LED and Reset button. If the cabinet power factor is exceeded by overload of PCBs, the PF LED will turn on.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Step 7D: Remove and Replace the Power Supply (if required) The power supply (APSU112) comes factory-installed in the Base and Expansion Cabinets; if necessary, it can be removed and replaced. If you do not need to replace the power supply, skip this step. Removing the Power Supply WARNING! Whenever the cabinet top cover is removed, use extreme caution.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Replacing the Power Supply 1. Make sure that the power supply switch is Off and that the AC power cable is not plugged into an outlet. 2. Set the power supply in its proper place in the cabinet (see Figure 3-16). 3. Secure the power supply to the cabinet with the screws. 4. Connect the green/green-yellow wire from the AMAU motherboard to the FG screw on the power supply. 5. Plug the DC cable into the CN OUT connector. 6.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Step 16: Set Jumpers and Install Option PCBs onto the ACTU ³ To install the ACTU2A Refer to Figure 3-18 and perform the following steps on the ACTU2A. 1. Set the battery jumper, “BATT,” to the “On” position. 2. Make sure the WDT jumper plug is set to the ON position. Note Unlike the ACTU1A, the ACTU2A does not use the AETS or the ARCS option PCBs. NIC and DTMF circuits are built into the ACTU2. 3.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet ³ To Install ACTU1A Refer to Figure 3-18 with the following steps. 1. On the ACTU PCB, set the battery jumper, “BATT,” to the “On” position. 2. On the ACTU, make sure the Mu/A jumper plug is set to the Mu position (U.S. and Canada). 3. On the ACTU PCB, set the BBMS jumper “ATTACHED BBMS,” to the “NO” position.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Step 17: Install the Main Processor (ACTU) PCB The Strata CTX100 Base cabinet has one slot dedicated to the processor PCB. 1. Slide the ACTU processor PCB into the first slot on the left side of the cabinet (as shown). 2. Loosen the screw slightly, then slide the processor lock upwards. Tighten the screw so that the PCB is locked into place.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet Step 18: Install Other PCBs into the Cabinet(s) 1. Each PCB must be configured for the applicable hardware options prior to installation of the PCB to the CTX100 cabinets. Configuration instructions for individual PCBs are in Chapter 6 – PCB Installation and Chapter 10 – MDF PCB Wiring. Configuration instructions for external hardware options are provided in Chapter 12 – Peripheral Installation. 2.
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet CTX100 Cabinet and Processor Components (continued) Table 3-2 PCB Provides Comments Installs On ACTU1 only AETS (Optional) Ethernet LAN (10 BaseT) One per system. Provides 10Mbps LAN by one RJ45 for WinAdmin. AMDS (Optional) V.34 Modem One per system to provide 33.6kbps maximum modem for WinAdmin. ACTU BSIS (Optional) Serial interface unit (same unit used for CTX670).
Strata CTX100-S/CTX100 Installation Installing the CTX100 Cabinet • Do Not Run Cables Out the Top – Cabling from either cabinet should be routed out the lower sides, not from the top of the cabinet(s) (see Figure 3-22). Power Supply Power Supply 6008 Figure 3-22 Avoid Improper Cable Routing 2. Remove the left or right cover(s) of the cabinet and knock out the rectangle(s) to create a hole for the cables, as needed (see Figure 3-23). To avoid heat problems, do not store items on top of the cabinets.
Strata CTX670 Installation 4 This chapter explains how to install the Strata CTX670 system. It includes information on site requirements and provides installation instructions for various cabinet configurations. It also explains how to install ground wiring, AC power cabling, reserve power (Battery Backup) cabling, and Printed Circuit Board (PCB) cabling. Inspection When the system is received, examine all packages carefully and note any visible damage. If any damage is found, do not open the packages.
Strata CTX670 Installation Site Requirements Site Requirements Input Power The CTX670 requires an input power source of 115±10VAC or 208±20VAC or 240±20VAC, 50/ 60 Hz, single phase. For up to five cabinets; 208VAC or 240VAC is required for six or seven cabinets. The system requires one or two AC outlets that must be dedicated to system use, fused, and grounded. Each Remote Expansion Cabinet requires 3.2 amps. maximum.
Strata CTX670 Installation Site Requirements Front View Top View Wall 26.5" 24" 26.5" 14.5" Cabinets Base Cabinet 10.65 " 24" Expansion Cabinet 36" 78" Wall Expansion Cabinet Expansion Cabinet Expansion Cabinet Expansion Cabinet 78" is minimum height requirements for Wall Mounting up to 7 cabinets. Expansion Cabinet 6" Floor Front View Top View Wall Base Cabinet 13.5" 2" Brackets (RWBF) 24" Cabinets Expansion Cabinet 36" Wall 75" 12.
Strata CTX670 Installation Power Considerations Power Considerations Each CTX670 Base and Expansion Cabinet houses a power supply that furnishes power to all of the stations and some of the peripherals that interface with the cabinet (see Table 2-60, “Strata CTX670 Electrical Characteristics” on page 2-47).
Strata CTX670 Installation FCC Registration Information FCC Registration Information The unit shall be configured only with those component assemblies specified in the installation instructions and mounted only in the locations specified. See installation manual for grounding requirement. DIGITAL BUSINESS TELEPHONE SYSTEM MODEL CHSUB672A V.1A No XXXXXX INPUT: 100-120/208-240VAC 50/60Hz DC OUT 3.2/2.
Strata CTX670 Installation Cabinet Installation Considerations Cabinet Installation Considerations The Base (CHSUB672) and Expansion (CHSUE672) Cabinets can be wall or floor mounted. To make it easier to add cabinets (after the initial installation) when a customer needs to expand, install the Base Cabinet on top for wall-mount installations and on the bottom for floor-mount installations.
Strata CTX670 Installation Install Power Supply Note The backplane FG wires are not safety grounds: they are required for proper system CO line operation. 4. Plug the Back Plane DC OUT cable plug into the DC OUT connector on the power supply. (The plug has a guide key on it to ensure that it is plugged in correctly.) 5. Secure the FG wire spade lug to the power supply with the FG screw. 6. Secure the power supply to the cabinet with the four provided screws. 7.
Strata CTX670 Installation Install Power Supply Check the Power Factor Indicator and Reset Button The front panel of BPSU672A provides a Power Factor LED and Reset button. If the cabinet power factor is exceeded by overload of PCBs, the PF LED will turn on. ³ If the PF LED indicator turns on, press the PF reset button with a pointed tool or pencil. If the PF LED turns off and does not turn on again it may have been turned on by a current surge while installing a PCB while the power supply was turned-on.
Strata CTX670 Installation Install Power Supply Back Plane DC Voltage Connector Back Plane DC Voltage Cable/Plug DC OUT -27V1 -27V2 BATT + - -27V3 -27V4 POW +5V AC IN -5V P.F. RESET POWER ON EXP BASE OFF FG B101 B102 S101 S102 S103 S104 S105 S106 S107 S108 5039 Cabinet Support Post Wire Clamp Green/Green yellow wire is fastened with FG Screw Mounting Holes 24V Circuit Breaker Assignments: EXP.
Strata CTX670 Installation Mount Cabinets Step 2: Mount Cabinets There are two methods of mounting cabinets: wall or floor mounting. Wall mounting the most common and economical method is described below. The floor mounting description begins on page 4-33. Note Toshiba recommends installing cabinets (see Figures 4-4~4-10) from the top down, Base Cabinet on top, first Expansion Cabinet below it, second cabinet below that, etc.
Strata CTX670 Installation Mount Cabinets Wall Mounting Expansion Cabinets 1. Remove the front, back, and side covers from the Expansion Cabinets. Note The two screws on the front cover and the two screws on each side cover should be loosened just enough to slide the covers off. The front cover slides left and the side covers swing out and down for removal. 2.
Strata CTX670 Installation Mount Cabinets Locating Parts Plaster Board Wall 3/4" Plywood Backboard #12 X 2" (or long enough to secure to the wall stud) Wood Screws Use as many as necessary to secure plywood backboard. Dealer Supplied #12 X 1.25" Wood Screws (4 Screws Per Cabinet) Back Cover 5.0 ft. minimum for 5 cabinets or 6.5 ft.
Strata CTX670 Installation Mount Cabinets Top Cover (Base Cabinet Only) nt Fro ht Rig Back Cover Right Side Cover Remove four screws to remove back cover Loosen two screws to remove the side cover (right and left covers) 5041 Top Cover (Base Cabinet Only) Strata CTX670 Installation Loosen four screws to remove the top cover. Note: Do not remove the top cover if the Base Cabinet is the top cabinet.
Strata CTX670 Installation Mount Cabinets Marking Hole 18 .8 IN. Trace Upper Arch 9.9 Back Cover 1459 Figure 4-6 IN. CTX670 Back Cover Mounting Holes Hang cabinet on back cover then slide to right. Hanger Back Cover Hanger Hole Back Cover Mounting Strip Important! After mounting cabinet to back cover use two screws to fasten cabinet to back cover.
Strata CTX670 Installation Mount Cabinets B101 B102 S101 S102 S103 B101 B102 B101 S102 S103 S104 S105 S106 S107 S108 DC OUT -24V1 S104 S105 S106 S107 S108 -24V2 BATT + - -24V3 -24V4 POW +5V AC IN -5V P.F. POWER ON RESET EXP BASE OFF FG B101 B102 S101 S102 S103 S104 S105 S106 S107 S108 5002 DC OUT DC OUT CABINET NO. 2 CABINET NO.
Strata CTX670 Installation Install Data Cables Step 3: Install Data Cables 1. After mounting the CTX670 cabinets, install the data cables. Then, install the bonding plate per Figure 4-9.
Strata CTX670 Installation Install Data Cables 2. Wrap the cables in with the mesh tie. The purpose of the wrap is to shield the cables from EMI/ RFI effects. See Figure 4-10. Front Cable Shield (B50MT) Part No. B50MT comes with the Base Cabinet. It must be ordered separately for each Remote Cabinet pair. 1. Attach lead to grounding screw. 2. Wrap mesh around communication cables. 3. Secure with velcro strap. CAUTION! Mesh strap should not touch cabinet metal surfaces.
Strata CTX670 Installation Ground the System Step 4: Ground the System The system requires a solid earth ground for proper operation and safety. The AC power cord(s) already contains a conductor for the “third wire ground” provided by the commercial power outlet (see Figure 4-11, for grounding points “A” and “B”). An insulated conductor must connect the frame ground terminal on the Base Cabinet to a cold water pipe or the building ground (point “B”).
Strata CTX670 Installation Ground the System The Single Point Ground must always be connected to the Base Cabinet Power Supply FG Screw (Top cabinet - Wall Mount or Bottom cabinet - Floor Mount.) FG (Frame Ground) Screws Power Supply “B” Base Cabinet ONEAC 6-AP or 6-DP Solid State Secondary Protectors Point “B” is always on the Base Cabinet, whether it's on the top or bottom. Cabinet Motherboard Insulated Ground Wire “B” Note: The impedance of the link between point “A” and “B” must be less than 0.
Strata CTX670 Installation Install AC Power Components Step 5: Install AC Power Components AC Power Requirements The Strata CTX670 requires a single-phase, 50/60 cycles power source of 120, 208, or 240VAC, on a dedicated 20 ampere circuit breaker. 208VAC or 240VAC is required for six or seven cabinet systems. The CTX670 power supply, BPSU672, automatically detects and adjusts for the type of AC voltage (120/208/240) to which it is connected.
Strata CTX670 Installation Install AC Power Components Cabinet AC Power Component Description The table shown below identifies the cabinet parts required to distribute AC power within the Strata CTX670 cabinets. Table 4-1 Power Cabinet Hardware Option Description Cabinet power strip for 120VAC primary power – provides three standard 120VAC/15A outlets (NEMA 5-15R) and nine ft. AC power cord with standard 120VAC/15A plug (NEMA 5-15P). This unit is field installed inside system cabinet side panels.
Strata CTX670 Installation Install AC Power Components AC/Reserve Power and Data Cabling Overview Figures 4-12 and 4-13 show an overview of the AC power and data cabling for the CTX670. Detailed illustrations of AC power strips and cords are on the following pages.
Strata CTX670 Installation Install AC Power Components 7 BBTC2A-2M battery cables supplied with BBDB Power Supply Motherboard CHSUB672A Cabinet 1 (base) 2 3 4 5 6 7 Power supply cord for 240VAC/ 10 amps, ordered separately. BPSU672A BATT AC IN BPSU672A CHSUE672A Cabinet 2 (expansion) Caution: Three 240VAC power strips are required for all systems with 6 or 7 cabinets. Only one power cord is allowed to be connected to the 208VAC/240VAC power outlet.
Strata CTX670 Installation Install AC Power Components Cabinet AC Power Considerations The CTX670 power supply works with either 120VAC, 208VAC or 240VAC. CTX670 only requires 120VAC (up to three cabinets if one AC cord is allowed or five cabinets if two AC cords are allowed – see below). If the system has more then five cabinets, 208VAC or 240AVC is required for the primary AC power source.
Strata CTX670 Installation Install AC Power Components Cabinet Right-Side-Panel Power Strip (RPSB2 or BPSB240) RPSB2/BPSB240 RPSB2 BPSB240 Screws provided with Power Strip 5219 To AC Outlet Cabinet Bonding Plate Power Strip for 208VAC or 240VAC (only) BPSB240 Power Strip for 120VAC (only) RPSB2 Receptacle Pass & Seymour 5858 NEMA No. 6-20R 16A max. Receptacle NEMA No. 5-15R Strata CTX670 Installation Cable Length 3 m. (Approx. 9 ft.) Plug NEMA No. 5-15P 12A max.
Strata CTX670 Installation Install AC Power Components One cabinet - one AC cord exits system Cabinet 1 Two or three cabinets - one AC cord exits system Right-side panel Power Supply Cabinet 1 Power Supply Front Notes 1, 2 (120/208/240VAC) Cabinet 2 Power Supply Cabinet 3 Power Supply Two cabinets - two AC cord exit system Cabinet 1 Cabinet 2 BPSB240 (208/240VAC) or RPSB2 (120VAC) Power Supply Power Supply Note 2 (120VAC only) Notes 1, 2 (120/208/240VAC) Note 2 (120VAC only) Four or five
Strata CTX670 Installation Install AC Power Components Six or Seven cabinets - one AC cord exits system Cabinet 1 Power Supply Cabinet 2 Power Supply Cabinet 3 Power Supply Cabinet 4 Power Supply Cabinet 5 Power Supply Power Supply Cabinet 7 Power Supply Notes 1, 2 (208VAC or 240VAC only) 5462 Strata CTX670 Installation Cabinet 6 BPSB240 Figure 4-16 AC Power Cords in Six or Seven Cabinets Strata CTX I&M 06/04 4-27
Strata CTX670 Installation Install AC Power Components Right Side AC Power Cables Front Bonding Connection Plates (Required for all wall mounted expansion cabinets on both right and left sides) RPSB2 or BPSB240 Power Strip 120VAC power supply cord is shipped with each cabinet. A special AC power supply cord (BACL240) must be ordered separately for each power supply if using 208VAC or 240VAC power. Figure 4-17 4-28 5233 All Power Strip cords are 9 feet long.
Strata CTX670 Installation Install Reserve Power Step 6: Install Reserve Power Two or four customer-supplied, 12VDC batteries (80 amp hours maximum) can be connected to the system as a power failure backup. In the event of a power failure, the system automatically switches over to battery power without any interruption to existing calls or other normal system functions. Important! Batteries must be connected when normal AC power is available; they cannot be connected during an AC power failure situation.
Strata CTX670 Installation Install Reserve Power Reserve Battery Cabinet Components/Cables The part names and descriptions of the reserve battery cabinet components and cables are shown in Table 4-5. Table 4-5 Reserve Battery Cabinet Components/Cables Option PBTC-3M Description A three-meter battery cable used to connect reserve power batteries to the system power supply when the system has less than three cabinets.
Strata CTX670 Installation Install Reserve Power Reserve Power for Three or More Cabinets (Wall Mount) 1. Install the Battery Distribution Box (BBDB) to the bottom cabinet (see Figures 4-12 and 4-24). The BCCB is not required for wall mount systems. 2. Connect two Cable “C” jumper wires from the positive terminal of one 12VDC battery to the negative terminal of the second 12VDC batter, per Figure 4-18 (Cable “C” is supplied with the BBTC1A-2.0M cable). 3.
Strata CTX670 Installation Install Reserve Power 2-Batteries/1~7 Cabinets (with BBDB) BBTC1A-2M Cable consists of two (6.5 ft.) wires. 12 Volt Batteries 80 AMP/ HR Each “C” Cable, supplied with BBTC1A-2M Cable White Wire A Cabinet 1~4 (only) 15A Fuse (2 each) B B Cabinet 5~7 (only) A 2-Batteries/1-Cabinet (without BBDB) Base Cabinet 12 Volt Batteries 80 AMP/ HR Each + BPSU672 BATT – Connector PBTC-3M Cables (9 ft.) Black Wire To BPSU672 “BATT” Connectors (7 max.
Strata CTX670 Installation Install Reserve Power Cabinet Floor Mounting The part numbers and descriptions of the floor mounting hardware are shown in Table 4-6. Table 4-6 Floor Mount Hardware Option Description CTX670 conduit connection box that is installed in the base cabinet, side panel. It is used to hardwire Primary AC power and reserve battery power connections through conduit. These boxes are required by UL for three or more floor mounted cabinets.
Strata CTX670 Installation Install Reserve Power Floor Mounting Three or More Cabinets This section shows you how to mount three or more cabinets to a concrete, wood or computer room floor. Use the General Steps for all of these methods first, then the specific steps that follow for each method. 1. Make sure that cabinet power supplies (BPSU672A) are installed per “Install Power Supply” on page 4-6. 2. Remove front, side, and top covers from all cabinets.
Strata CTX670 Installation Install Reserve Power Top Cabinet Wall Securing Brackets (RWBF) (Left and Right Side) B B Front (2) Mouting Screws A Provided with BFIF Kit B Back (2) Mounting Screws Provided with BFIF Kit B B Base Cabinet (bottom) B Third Cabinet Wall Securing Bracket (RWBF) (Left and right side) A B A B A B A B A B A Anchor Bolts (2) Bottom Wall Securing Bracket (RWBF) 1 BFIF is inside of cabinet edge 5042 Figure 4-19 Anchor Bolts (2) Strata CTX670 Installation BFIF Mo
Strata CTX670 Installation Install Reserve Power RWBF RWBF RWBFs are used on left and right sides, wherever indicated RWBF “A” Front two screws, left and right sides “B” Back two screws, left and right sides RWBF A B A B RWBF BFIF RWBF BFIF A B A B A B RWBF A B A B A B A B RWBF RWBF BFIF RWBF BFIF A B A B A B A B A B A B A B A B A B A B A B RWBF RWBF RWBF RWBF BFIF 5007 BFIFs are used on left and right sides, wherever indicated Note Figure 4-20 RW
Strata CTX670 Installation Install Reserve Power Bolt Cabinets to Wooden Floor 1. Mount the CTX670 Base Cabinet on Floor Mount Fixtures (BFIF). See Figures 4-19 and 4-20. 2. Position the Base Cabinet at the selected installation location. 3. Mark the floor where holes will be drilled. Move the Base Cabinet prior to drilling. Note Cover the Base Cabinet with a drop cloth to protect the power equipment from dust created during drilling.
Strata CTX670 Installation Install Reserve Power 15. Secure the Base Cabinet to the floor using flat washers, lock washer, and hex nuts on each threaded rod.Mount Cabinets to Computer Room Floor (Unbolted). 16. Make sure that cabinet power supplies (BPSU672A) are installed per “Install Power Supply” on page 4-6. 17. Remove front, side, and top covers from all cabinets (Figure 4-5).
Strata CTX670 Installation Install Reserve Power Cabinet AC Power Component Installation After the cabinets have been floor mounted, the AC power components should be installed. Tables 4-7 and 4-8 show the primary AC power components required for floor mounted systems.
Strata CTX670 Installation Install Reserve Power Strata Up to 7 Cabinets Bottom Cabinet (Wall Mount) Second from Bottom Cabinet (Floor Mount) RPSB2 or BPSB240A Power Strips Cable from BCCB BBTCIA-2M BBDB1A Battery Distribution Box BBDB1A Battery Distribution Box BCCB120 or 240 Conduit Connection Box BBTC2A-2M Seven Cables Supplied with BBDB Floor Mounted Bottom Cabinet To BPSU672A Power Supply "BATT" Jack Cables to BBDB1A Conduit Reserve Batteries Primary AC Power Pannel Battery BFIF Floor Mo
Strata CTX670 Installation Install Reserve Power F3 F1 F4 F2 F3 F1 F4 F2 BCCB120 (top view) 3 outlets NEMA:5-15R Fused: 250VAC/15A Rated: 125VAC/15A F1~F4 Battery Fuses 250VAC/15A To BBDB Battery Distribution Box BCCB240 (top view) 2 outlets NEMA:6-20R Not Fused Rated: 250VAC/20A BCCB BATT + - AC L N Battery Wire Specifications #10 AWG minimum (2 pairs) 42A max. AC Wire Specifications: 5047 Conduit Holes to 1/2 inch trade size From 20A dedicated circuit BBCB240 #12 AWG 18A max.
Strata CTX670 Installation Install Reserve Power Reserve Power/AC Wiring for Three or More Cabinets (Floor Mount) Floor-mounted systems with three or more cabinets require a Conduit Connection Box (BCCB) to connect reserve power cabling and AC power cabling to the system. Only a qualified electrician can install cabling between the reserve power batteries and AC power cabling to the conduit connection box.
Strata CTX670 Installation Install Processor and Universal PCBs Step 7: Install Processor and Universal PCBs This section provides procedures for the installation of CTX670 processor (or common control) PCBs. The CTX670 system Base and Expansion Cabinets are shipped empty. PCBs are not installed at the factory. Universal PCBs must be placed according to the configuration information obtained and developed in Chapter 1 – Configuration. PCB installation is in Chapter 6 – PCB Installation.
Strata CTX670 Installation Install Processor and Universal PCBs PCB installation procedures in this chapter. Refer to the Strata CTX Programming Manual for detailed programming instructions. BCTU1A/BEXU1A Installation This section explains how to install the new BCTU/BEXU processor PCBs into Strata CTX670 telephone systems. The BCTU/BEXU processor PCBs require Strata CTX Release 2.1, or higher, software and CTX WinAdmin Release 2.1, or higher, software.
Strata CTX670 Installation Install Processor and Universal PCBs 1. On the BCTU PCB (see Figure 4-26), set the battery jumper, “BATT” to the “On” position. Although you can fit the jumper plug in a horizontal position, this would be incorrect. Be sure to place the “BATT” jumper in the correct vertical and upright position (see Figure 4-27.
Strata CTX670 Installation Install Processor and Universal PCBs 2. Install the AMDS on the BCTU if remote maintenance is required. 3. Install the BSIS on the BCTU if SMDR or SMDI is required. 4. Install the BCTU Base Unit processor in slot B102 (see Figure 4-28). Ensure the component side of the BCTU PCB is facing right when installing it in the Base Cabinet. 5. If you are installing more than one Expansion Unit, install the BEXU processor in slot B101 (see Figure 4-29). 6.
Strata CTX670 Installation Install Processor and Universal PCBs Unlike the BBCU/BECU, the internal modem is optional with the BCTU/BEXU processor. AMDS interface (optional) plugs onto the BCTU card. See Table 4-9.
Strata CTX670 Installation Install Processor and Universal PCBs The following tables provide details about the connectors and indicators on the BCTU1A and BEXU1A PCBs.
Strata CTX670 Installation Install Processor and Universal PCBs 1 2 Plug to P5 (BEXU) Plug to P4 (BEXU) The short 60mm ribbon cable connects from BEXU1A 1 to BCTU1A 1 P5 The longer 120mm ribbon cable connects from BEXU1A 2 to BCTU1A 2 P4 P5 P4 BEXU1A IC404 P1 2 IC201 1 BCTU1A P7 IC501 P5 P4 Locking Tab BEXU1A P801 6962 1 P8 P3 2 Plug to (BCTU) 2 IC101 BATT ON BCTU1A P601 OFF P802 Strata CTX670 Installation Plug to P4 (BCTU) P2 P2 1 Figure 4-30 Detailed Ribbon Cable Conn
Strata CTX670 Installation Install Processor and Universal PCBs BECU/BBCU Installation CAUTION! • Do not remove the plastic insulation shield from the back of the BBCU PCB. If the shield comes off, do not allow the back of the PCB to contact metal. • The BBCU PCBs are shipped from the factory with the battery jumper in the “Off” position. Ensure it is moved to the “On” position before installing the BBCU to protect customer configuration information stored in the BBCU RAM.
Strata CTX670 Installation Install Processor and Universal PCBs Network Interface RJ45 P5 P4 MU P1 P101 1 3 A BBMS1A BATT ATTACHED BBMS ON OFF YES NO P701 BBCU1A MU Law for U.S. & Canada P7 Set the jumper to "YES" only after installing the BBMS. P3 BBMS Memory Module P2 5254 Figure 4-31 BBCU Processor PCB CAUTION! Be careful installing the BBMS (Figure 4-32). It is fragile. B B M S 1 A Strata CTX670 Installation BBMS1A 5526 1. Hold the BBMS top-side up.
Strata CTX670 Installation Install Processor and Universal PCBs BEXS1A IC401 IC402 BEXS1A UP IC403 IC404 IC402 IC403 IC401 UP IC404 5529 P4 5656 P1 P6 P8 P5 BECU1A BSIS1A 1 2 3 UP 4 5667 BECU1A Figure 4-33 Installing BEXS onto BECU Figure 4-34 Installing BSIS onto BECU BEXS1A IC402 P4 IC401 UP IC404 P5 5 CD 6 SG RJ11 ( 6-pin jack ) 1 2 3 4 UP P2 DTR P3 DSR 4 VR901 TD 3 Four Programmable Serial Ports RD 2 BSIS1A 1 P1 IC403 Serial Port Pins: BECU1A 5416
Strata CTX670 Installation Install Processor and Universal PCBs Ribbon Cables Built-in Modem (33.6 kbps, v.34 WinAdmin PC / Server) Processor Heart Beat LED (0.4 seconds on/0.4 seconds off.) Smart Media Access Status LED 1 BSIS Serial Ports (RJ11, 6-pin modular) SMDR SMDI MOH Volume Control (screw driver adjust) Smart Media Card Socket (Smart Media card slides in, gold contacts face right, notched corner down) 2 3 Network Interface Link Connection LED. Strata CTX Receive Network Data LED.
Strata CTX670 Installation Install Processor and Universal PCBs Table 4-11 BECU Controls, Indicators, and Interface Connectors Control/Indicator/ Connector Description VR901 Trim potentiometer Adjusts volume for MOH/BGM sources. P3 RCA jack BGM/MOH interface Connector P5 Connector and ribbon cable Ribbon cable connector to BBCU. Connector P4 Connector and ribbon cable Ribbon cable connector to BBCU. BSIS Four ports of I/O RS-232 (Optional unit) Adds up to four serial ports.
Strata CTX670 Installation Remote Expansion Cabinet Unit Remote Expansion Cabinet Unit The RRCU1A PCB enables a CTX670 Expansion Cabinet to be located up to three kilometers from its Base Cabinet. One RRCU1A connects to up to two ribbon-type Data Cables and applies the inter-cabinet signal to a fiber-optic pair. One fiber pair can support one or two expansion cabinets in one remote location using one RRCU1A in the Base Cabinet and another in the Remote Expansion Cabinet.
Strata CTX670 Installation Remote Expansion Cabinet Unit Remote Cabinet Installation Instructions All instructions apply to both the Base Cabinet and the Remote Expansion Cabinet except where specifically noted. 1. Install cabinets according to the instructions given at the beginning of this chapter. Pay particular attention to wiring and grounding instructions given for Remote Expansion Cabinets. 2.
Strata CTX670 Installation Remote Expansion Cabinet Unit When installing the RRCU, be sure to put the card in the slot before attaching the data cables. Detach the data cable before removing an RRCU1A. Failure to do so may cause interference with other data highways. Important! 6. Insert the cards • On the Master side, the RRCU card may be installed in Slots 1~8. • On the Slave side, the RRCU card may be installed in Slots 1~10.
Strata CTX670 Installation Remote Expansion Cabinet Unit 8. Connect the fiber optic cables • Pass the fiber optic cable through the protective tube. • Route the tube through the clamp attached to the inner cabinet wall and secure the clamp • Attach fiber to the SC connectors on the ROMS1A daughterboard. • The TX side of the Master connects to the RX side of the slave. • The RX side of the Master connects to the TX side of the slave.
Strata CTX670 Installation Remote Expansion Cabinet Unit 11 1 J3 1 SD RDER SYCF SYCS RST ROMS1A J1 -24v DG PFT-CONTROL CD1 CD2 CD3 CD4 CD5 15 1 J2 10 11 J4 1 4379 TX Side Optical Module RX Side Remove Rubber Cap to plug in Fiber Optic Cable Plastic Cap Fiber Optic Cable CAUTION! Inserting the fiber connector at an angle or too forcefully can cause ROMS1A Subassembly Table 4-15 Fiber Optic Specification Item Transmission Speed Specification Strata CTX670 Installation Figure 4-42 155
Strata CTX670 Installation Remote Expansion Cabinet Unit Status Indicators The RRCU1A card set provides two status indicators: a set of LEDs on the ROMS1A card and an RS232C Monitor Port on the RRCU1A. Status indications are provided according to Tables 4-16 and 4-17. Binary Code Output is generated upon change of a reported condition.
Strata CTX670 Installation Remote Expansion Cabinet Unit Monitor Port Communication Parameters Data rate: 9600 bps Data word bits: 8 Parity: None Stop bits: 1 Monitor Port Pin Assignments The monitor port pin connection and pin assignments are shown in Figure 4-43.
Strata CTX670 Installation Remote Expansion Cabinet Unit 4-62 Strata CTX I&M 06/04
5 Rack Mount Cabinets The Strata CTX Rack Mount Cabinets consist of a base cabinet (CRSUB672A) and expansion cabinets (CRSUE672A). The cabinets are made of plated sheet metal, dark gray in color. CAUTION! Toshiba does not support mixing floor/wall-mountable cabinets with Rack Mount cabinets in a system installation (local or remote). Mixing cabinets in an installation causes EMC, EMI, RFI and improper grounding problems. However, you do not have to match the remote cabinets to the local cabinets.
Rack Mount Cabinets Inspection Inspection When the system is received, examine all packages carefully and note any visible damage. If any damage is found, do not open the packages. Contact the delivery carrier immediately and make the proper claims. After unpacking (and before installing), check the system against the packing list and inspect all equipment for damage. If equipment is missing or damaged, contact your supplier immediately.
Rack Mount Cabinets Power Considerations Input Power The Rack Mount Cabinets require an input power source of 115±10VAC or 208±20VAC or 240±20VAC, 50/60 Hz, single phase, for up to five cabinets; 208VAC or 240VAC is required for six or seven cabinets. The system requires one or two AC outlets that must be dedicated to system use, fused, and grounded. CAUTION! To avoid accidental power turn-off, do not use an On/Off wall switch for AC circuits dedicated for the use of the Rack Mount Cabinets.
Rack Mount Cabinets FCC Registration Information FCC Registration Information The unit shall be configured only with those component assemblies specified in the installation instructions and mounted only in the locations specified. See installation manual for grounding requirement. Manufactured under one or more of the following U.S. patents: 4,491,693 4,511,764 4,532,378 4,605,825 5,535,282 CAUTION: This unit may have more than one power cord, up to seven power cords may be provided.
Rack Mount Cabinets Step 1: Prior to Cabinet Installation Step 1: Prior to Cabinet Installation Important! When wiring optical fiber cable for the RRCU (remote cabinet), make sure the cable bends at >1.18 inches (30mm) radius. Step 1A: Assemble Rack ³ Follow the rack manufacturer’s safety instructions when assembling the rack. The rack must be secured to the floor. CAUTION! Never move a rack by yourself. Due to the weight and height of the rack, at least two people should perform the task.
Rack Mount Cabinets Step 2: Install First Cabinet Step 2A: Take Off Front and Back Covers 1. Unscrew the two screws holding the front cover to the unit and slide the cover off. 2. Unscrew the four screws holding the back cover to the unit and take the cover off. Step 2B: Take Off Base of Cabinet Important! ³ If two people are installing these cabinets, you can skip this step and proceed to item 3 under Step 2C.
Rack Mount Cabinets Step 2: Install First Cabinet 3. Screw the cabinet and flange to the rack using four screws on each side (shown below). Refer to the rack manufacturer’s documentation for screw size. Toshiba does not provide rack screws. Cabinet (2 screws) Cabinet (2 screws) Flange (2 screws) Flange (2 screws) 7087 1/2" 5/8" 5/8" 1/2" 5/8" Flange Start 5/8" 5/8" 7080 Note: Always install the bottom cabinet first.
Rack Mount Cabinets Step 3: Install Remaining Cabinet(s) Step 2D: Reattach Cabinet to Base Note Skip this step if you did not perform Step 2B. ³ Using the two screws removed in “Step 2B: Take Off Base of Cabinet” on page 6, reattach the cabinet to the base. Step 3: Install Remaining Cabinet(s) Step 3A: Take Off Front and Back Covers 1. Unscrew the two screws holding the front cover to the unit and slide the cover off. 2. Unscrew the four screws holding the back cover to the unit and take the cover off.
Rack Mount Cabinets Step 4: Attach Amphenol Cable 3. Attach the upper and lower cabinets with 2 screws (shown below). 2 screws 2 screws 7144 Step 4: Attach Amphenol Cable ³ The cable can be wired either from the left front (shown below) 7082 Front View ...or the center back (shown below).
Rack Mount Cabinets Step 5: Attach the AC Cable Step 5: Attach the AC Cable The Rack Mount Cabinet(s) require a single-phase, 50/60 cycles power source of 120, 208, or 240VAC, on a dedicated 20 ampere circuit breaker. 208VAC or 240VAC is required for six or seven cabinet systems. Toshiba recommends that a dedicated AC service panel be used. AC outlets must be dedicated to rack mount cabinet use, fused, and grounded.
Rack Mount Cabinets Step 6: Connect Data and Ground Cables Step 6: Connect Data and Ground Cables 1. Wire the data cable between the base and expansion cabinet (shown below). CAB 5 Back View Base Cabinet View from Top CAB 6 CAB 7 CAB 2 CAB 3 CAB 2 CAB 3 CAB 4 CAB 4 CAB 5 CAB 6 Data Cable CAB 7 7007 Back View Base Cabinet 6985 To MSBU of respective Exp. Cabinet 2. Wire the FG cable between the base and expansion cabinet by passing it through the hole in the base of the expansion cabinet.
Rack Mount Cabinets Step 7: Verify Power Supply Settings Step 7: Verify Power Supply Settings ³ If the cabinet is the Base Unit set the Exp/Base switch to the “Base” position (see “Power Supply Unit (BRPSU672A)” on page 5-28). ...or if the cabinet is an Expansion Unit, set the Exp/Base switch to the “Exp” position. Important! The power supply set as “Base” is the master and has On/Off control over all other power supplies, which are designated as slaves.
Rack Mount Cabinets Step 10: Install Power Strip (BRPSB120A) Step 10: Install Power Strip (BRPSB120A) ³ Using 2 screws attach the BRPSB120A to the back cover of the expansion cabinet (as shown at right). Back view See also Table 5-3, “Power Cabinet Hardware for Rack Mount Cabinets” on page 5-24 for additional information. 6989 Step 11: (Optional) Install Power Strip (BRPSB240A) Note If you are installing 4 or more cabinets, you must use the BRPSB240A power strip.
Rack Mount Cabinets Step 12: (Optional) Install Reserve Power Step 12: (Optional) Install Reserve Power Two or four customer-supplied, 12VDC batteries (80 amp hours maximum) can be connected to the system as a power failure backup. In the event of a power failure, the system automatically switches over to battery power without any interruption to existing calls or other normal system functions. The procedure for installing reserve power varies, depending on the number of cabinets in the system.
Rack Mount Cabinets Step 12: (Optional) Install Reserve Power Reserve Battery Cabinet Components/Cables WARNING! Battery cables that exit the cabinet(s) are not UL listed because of possible incorrect installations. Have a licensed electrician install these cables. The part names and descriptions of the reserve battery cabinet components and cables are shown in Table 5-2.
Rack Mount Cabinets Step 12: (Optional) Install Reserve Power Install Reserve Power for One or Two Cabinets 1. Connect the black jumper wire (supplied with the PBTC1A-3M cable) from the positive terminal of one 12VDC battery to the negative terminal of the second 12VDC battery (Figure 5-4). 2. Ensure that a serviceable 10-amp fuse is installed in the in-line fuse holder of the PBTC1A-3M cable. 3. Connect the PBTC1A-3M battery cable white lead to the open positive terminal of the 12VDC battery.
Rack Mount Cabinets Step 12: (Optional) Install Reserve Power 2-Batteries/1~7 Cabinets (with BBDB1A) 2-Batteries/1-Cabinet (without BBDB1A) BBTC1A-2.0M Cable consists of two (6.5 ft.) wires. Base Cabinet 12 Volt Batteries 80 AMP/ HR Each + BRPSU672 BATT – Connector PBTC1A-3M Cables (9 ft.) 10A Fuse 2-Batteries/2-Cabinets (without BBDB1A) Base Cabinet + 12 Volt Batteries 80 AMP/ HR Each “C” Cable, supplied with BBTC1A-2.
Rack Mount Cabinets Step 13: Ground the System Step 13: Ground the System The system requires a solid earth ground for proper operation and safety. The AC power cord(s) already contains a conductor for the “third wire ground” provided by the commercial power outlet (see Figure 5-5, for grounding points “A” and “B”). An insulated conductor must connect the frame ground terminal on the Base Cabinet to a cold water pipe or the building ground (point “B”).
Rack Mount Cabinets Step 15: Attach Front and Back Covers The Single Point Ground must always be connected to the Base Cabinet Power Supply FG Screw (Top cabinet - Wall Mount or Bottom cabinet - Floor Mount.) FG (Frame Ground) Screws Power Supply “B” Base Cabinet ONEAC 6-AP or 6-DP Solid State Secondary Protectors Point “B” is always on the Base Cabinet, whether it's on the top or bottom.
Rack Mount Cabinets Wiring for 7 Cabinet Configuration Wiring for 7 Cabinet Configuration The following illustrations show an overview of the cabling for a 7 cabinet configuration. Bottom Down Configuration Back View CAB 2 CAB 3 CAB 4 CAB 5 CAB 2 CAB 3 CAB 4 CAB 5 CAB 6 CAB 6 Data Cable to MSBU PCB.
Rack Mount Cabinets Wiring for 7 Cabinet Configuration Top Down Configuration Back View Screw Position of Mesh Tie (B50MT) Note: Wrap all cabinet cables.
Rack Mount Cabinets Wiring for 7 Cabinet Configuration Side View Front View Power Supply Cords Amphenol Cables Expansion Cabinet Expansion Cabinet Mesh Tie (B50MT) Amphenol Cables Base Cabinet Base Cabinet Amphenol Cables Screw position of Mesh Tie (B50MT). Please move the screw from screw position of Mesh Tie on the back. Mesh Tie (B50MT) Note: Wrap all cabinet cables.
Rack Mount Cabinets Wiring for 7 Cabinet Configuration Screw position of Mesh Tie (B50MT). Please move the screw from screw position of Mesh Tie on the back. Amphenol Cables Note: Wrap all cabinet cables.
Rack Mount Cabinets Primary Power Cabinet Hardware Primary Power Cabinet Hardware The type of cabinet mounting can have an effect on the power requirements. Underwriters’ Laboratory (UL) and local electrical codes require certain standards for connecting commercial AC and reserve power to the Strata CTX system. Table 5-3 describes which assemblies may be required to meet UL and local electrical code standards.
Rack Mount Cabinets AC/Reserve Power and Data Cabling Overview AC/Reserve Power and Data Cabling Overview Figures 5-10 and 5-11 show an overview of the AC power and data cabling for the Rack Mount Cabinets. Detailed illustrations of AC power strips and cords are on the following pages. 7 BBTC2A-2.
Rack Mount Cabinets AC/Reserve Power and Data Cabling Overview 7 BBTC2A-2.0M Battery Cables supplied with BBDB1A Power Supply BRPSU672A 240 VAC/10 amps.
Rack Mount Cabinets Cabinet AC Power Considerations Cabinet AC Power Considerations The rack mount cabinet power supply works with either 120VAC, 208VAC or 240VAC. The rack mount only requires 120VAC (up to three cabinets if one AC cord is allowed or five cabinets if two AC cords are allowed – see below). If the system has more then five cabinets, 208VAC or 240AVC is required for the primary AC power source.
Rack Mount Cabinets Power Supply Unit (BRPSU672A) Power Supply Unit (BRPSU672A) The BRPSU672A Power Supply Unit (shown below) comes factory installed in each Rack Mount Base and Expansion Cabinet. It furnishes power to all of the stations and some of the peripherals that interface with the cabinet. The BRPSU672A automatically detects and adjusts for the type of AC voltage (120/208/240) to which it is connected. Mounting Holes 24V Circuit Breaker Assignments: EXP.
Rack Mount Cabinets Power Supply Unit (BRPSU672A) Check the -24 Volt Circuit Breakers The BRPSU672A provides four -24v circuit breakers as shown in figure above. If a low resistance between –24 volts and ground exists the circuit breaker will trip. Usually the front panel DC green LED indicator will turn off but not always. Also if AC power is recycled the DC LED indicator may turn back on – even if the –24 volt circuit breaker is tripped.
Rack Mount Cabinets Changing Plug for Power Strip BRPSB240A Changing Plug for Power Strip BRPSB240A You must use a 240VAC power strip (BRPSB240A) if only one AC power cord is connected to a system with four or more cabinets. Most 240VAC wall outlets and UPS systems (ONEAC or other) have twist locks. Twist locks are mostly used at the wall outlet or UPS to prevent accidental unplugging.
Rack Mount Cabinets Changing Plug for Power Strip BRPSB240A 5. Pull out cable from the power plug (shown below). Step 2: Attach NEMA L6-20P Plug to Power Strip 1. Strip 1.49 inches (38mm) of cover off the electrical wire. 2. At the wire tip, strip approx. .47 inches (12mm) from the outer cover of the wire (shown below). 3. Each of the three electrical wires are inserted in a power plug and a screw tightened. The torque of a screw is 0.8[Nm].
Rack Mount Cabinets Changing Plug for Power Strip BRPSB240A 4. Put the power plug in a case and secure with a screw (shown below). Note A key is arranged when a power plug and a case are fixed. 5. Tighten the screws (torque is 0.8[Nm]) and push cover and plug together (as shown below).
Rack Mount Cabinets AC Cabling AC Cabling Note 1, 2 or 3 power strips are used depending on how many cabinets are installed (see diagrams shown below.
Rack Mount Cabinets AC Cabling Six or Seven cabinets - one AC cord exits system Front View Cabinet 1 Cabinet 2 Back View Power Supply FrontPower View Back View Supply Cabinet 3 Power Supply BRPSB240A Cabinet 4 Power Supply BRPSB240A Cabinet 5 Power Supply Cabinet 6 Power Supply Cabinet 7 Power Supply BRPSB240A Plug Pass & Seymour 5466-X NEMA No.
Rack Mount Cabinets Remote Expansion Cabinet Unit Remote Expansion Cabinet Unit The RRCU1A PCB enables a Rack Mount Expansion Cabinet to be located up to three kilometers from its Base Cabinet. One RRCU1A connects to up to two ribbon-type Data Cables and applies the inter-cabinet signal to a fiber-optic pair. One fiber pair can support one or two expansion cabinets in one remote location using one RRCU1A in the Base Cabinet and another in the Remote Expansion Cabinet.
Rack Mount Cabinets Remote Expansion Cabinet Unit 6. Connect the data cables • At the Base Cabinet, attach an BDCL1A data cable from the data cable connector on the back of the cabinet (shown right) to Connector M1 or M2 on the RRCU card. (Cables are provided according to the connectors on the RRCU card to which they are attached, see Table 5-6.) • The cabinet connected to M1 in the base emerges on connector S1 of the RRCU1A at the Remote Expansion Cabinet.
6 PCB Installation This chapter contains information on Printed Circuit Boards (PCBs) which can be used in the cabinet slots of the Strata CTX systems. Note Prior to PCB installation, the power supply must be tested and the ground checked. PCB Chapter Layout Each PCB outline begins with the PCB’s designation and title (the outline appears in the chapter in alphabetical order by designation).
PCB Installation PCB Hardware/Software Options PCB Hardware/Software Options PCBs can be configured for a variety of hardware and software options. • Hardware Options – Hardware options are defined as either internal (generally related to optional PCB subassemblies) or external (related to connection of peripheral equipment, such as background music, voice mail, etc.). Each PCB must be configured for the applicable hardware options prior to installation of the PCB.
PCB Installation ADKU – Digital Telephone Interface Unit ADKU – Digital Telephone Interface Unit Circuits per PCB: eight digital telephone circuits Interfaces with: all Toshiba digital telephones (corded and cordless, DDCB, DSS, ADM, BPCI) Older Version(s): none ADKU Hardware Options The ADKU digital telephone interface unit only works with the CTX100.
PCB Installation ASTU – Standard Telephone Interface Unit (CTX100 only) ASTU – Standard Telephone Interface Unit (CTX100 only) Circuits per PCB: two standard telephone circuits maximum number of ringers per circuit is three Interfaces with: standard telephones (no message waiting) other single-line devices alternate BGM source FAX machine voice mail devices Older Version(s): none The ASTU works with the CTX100 Base system with R1.3 and higher software.
PCB Installation ASTU – Standard Telephone Interface Unit (CTX100 only) FG1 Frame Ground P1 Power Connector J2 J1 RJ11 Connections for single-line devices P2 Connects to ACTU P8 6634 Figure 6-1 Table 6-1 ASTU Controls and Interface Connectors ASTU Controls, Indicators, and Interface Connectors Control/Indicator/Connector Type of Component Description P1 5-wire connector cable Connects to the motherboard for supply power.
PCB Installation ASTU – Standard Telephone Interface Unit (CTX100 only) 663 Wire from ASTU (P2) plugs into ACTU (P8) Figure 6-2 6-6 ASTU/ACTU Wire Connection Strata CTX I&M 06/04
PCB Installation BDKU/BDKS – Digital Telephone Interface Unit BDKU/BDKS – Digital Telephone Interface Unit Circuits per PCB: eight digital telephone circuits (plus eight more with the BDKS PCB) Interfaces with: all Toshiba digital telephones (corded and cordless, DDCB, DSS, ADM, BPCI) Older Version(s): none BDKU Hardware Options BDKU can be equipped with a BDKS piggyback PCB to provide a total of 16 circuits.
PCB Installation BDKU/BDKS – Digital Telephone Interface Unit J20 J11 J30 P30 See P2 "Setting" below. P2 BDKU PDKU P10 BDKU1 J10 P20 J1 P1 J41 J40 Optional BDKS, adds eight more DKT ports. BDKU1A V.1 P40 5498 Figure 6-4 Table 6-3 BDKU/BDKS PCB BDKU Controls, Indicators, and Interface Connectors Control/Indicator/Connector Type of Component Description Strata CTX: set P2 to BDKU for all slots to enable: 3000-series telephone features and buttons and the BDKS to be operational.
PCB Installation BIOU – Option Interface Units BIOU – Option Interface Units Circuits per PCB: (see interfaces) Interfaces with: three music-on-hold sources, system page and control relays Older Version(s): none The BIOU provides a Paging Output (amplified and non-amplified), four zone paging relays, three Music-on-hold (MOH) interfaces and four control relays (Night Transfer, Night Bell and Background Music (BGM) mute). One or two BIOUS can be installed in a Strata CTX.
PCB Installation BIOU – Option Interface Units Table 6-4 BIOU Controls, Indicators, and Connectors Control/Indicator/ Connector 6-10 Type of Component Description SW600 Page Output Switch SP0=600 ohms. SP1 = 3-watt amp. J1, J2, J3 RCA jack for connecting MOH/BGM source Interface connector for MOH/BGM source 1, 2, or 3. MOH1, MOH2, MOH3 Screwdriver volume control Adjusts volume of respective MOH jacks 1, 2, and 3. SP Screwdriver volume control Adjusts volume of SP1; 3-watt page amplifier.
PCB Installation BSTU/RSTU – Standard Telephone Interface Unit BSTU/RSTU – Standard Telephone Interface Unit Circuits per PCB: eight standard telephone circuits Interfaces with: standard telephones voice mail ports off-premises stations other similar devices alternate BGM sources auto attendant digital announcer message waiting lamp Older Version(s): RSTU3, RSTU2, RSTU1 The BSTU and RSTU are basically the same and are interchangeable.
PCB Installation BSTU/RSTU – Standard Telephone Interface Unit 3. After installing the BSTU, gently pull the BSTU outward. If the connectors are properly mated, a light resistance is felt. Note When installing the RSTU3 into an existing system, system power must be cycled only if the MW mode (P11) is changed.
PCB Installation BSTU/RSTU – Standard Telephone Interface Unit RSTU3A MW-Mode Mu A R48S P6 P10 P7 P6 CON NOR P11 Optional P7 SRSS Subunit 50-Pin Amphenol Connector (Female) Backplane Connector 5896 Figure 6-8 RSTU3 Controls and Interface Connectors PCB Installation Strata CTX I&M 06/04 6-13
PCB Installation BSTU/RSTU – Standard Telephone Interface Unit RSTU OR RSTU2 50-Pin Amphenol Connector (Female) Backplane Connector P7 UP R48S P6 5809 P6 R48S Optional P7 UP R48S Installed on RSTU2 Figure 6-9 6-14 SSTU Subunit R48S Installed on RSTU1 RSTU or RSTU2 Controls and Interface Connectors Strata CTX I&M 06/04
PCB Installation BVPU – Internet Protocol (IP) Interface Unit BVPU – Internet Protocol (IP) Interface Unit Circuits per PCB: four Tie line circuits; one 10BaseT Ethernet connection Interfaces with: Appears as: H.
PCB Installation BVPU – Internet Protocol (IP) Interface Unit Table 6-7 BVPU Controls, Indicators, and Connectors Control/Indicator/ Connector Type of Component Serial Port Description RS-232C maintenance connection LAN Connector RJ45 SW0 DIP Switch 10BaseT ethernet connection Unused.
PCB Installation BWDKU1A – Digital Telephone Interface Unit BWDKU1A – Digital Telephone Interface Unit Circuits per PCB: 16 digital telephone circuits Interfaces with: all Toshiba digital telephones (corded and cordless, DDCB, DSS, ADM, BPCI) CAUTION! Existing SpectraLink interface units are not compatible with the BWDKU1A. A firmware update will be available from Spectralink in the near future. When installing Add-on modules, be sure to check Table 10-1 on page 10-2 to verify maximum line lengths.
PCB Installation 02106 02106 02106 J6 02106 J5 02106 02106 02106 50-Pin Amphenol Connector (Female) J2 Backplane Connector 02106 02106 02106 UP SWDR1A 02106 J3 J4 02106 J1 P504 16 CCT 8 CCT UP 02106 PDKU P503 BWDKU1 BDKU 02106 Programming 02106 02106 IC502 BWDKU1A 6837 Figure 6-12 BWDKU1A PCB Note The BWDKU1A does not need a Ferrite Core. A comparison of the BWDKU1A and the BDKU/BDKS is shown in Table 6-9.
PCB Installation PDKU2 – Digital Telephone Interface Unit PDKU2 – Digital Telephone Interface Unit Circuits per PCB: eight digital telephone circuits Interfaces with: digital telephones (with or w/o ADM) (See Notes under Hardware Options)DDSS console (circuit 8 only) cordless digital telephones (DKT2004-CT, DKT2104-CT) DKT2001 single line digital telephones Older Version(s): PDKU1 (identical to PDKU2 except it does not support continuous DTMF tones w/DKT2000-series telephones, DIUs can only be connected
PCB Installation RCIU1, RCIU2, RCIS – Caller ID Interface RCIU1, RCIU2, RCIS – Caller ID Interface Circuits per PCB: four Caller ID circuits Interfaces with: loop or ground start lines w/Caller ID (requires RCOU or RGLU2) Older Version(s): none The RCIU1, RCIU2 PCB provides the Caller ID feature, also known as Calling Number Delivery (CND). Caller ID can be provided on analog loop start lines (PCOU or RCOU PCBs) and analog ground start lines (RGLU2 PCB) only.
PCB Installation RCIU1, RCIU2, RCIS – Caller ID Interface J12 J13 RCIU1 Secondary Protectors P12 P13 20K/20K J4 RCIS1A (reverse) 20K/20K RCIU1A or RCIU2A (front) J3 20K/20K J2 J11 20K/20K J10 J1 P10 RCIU1A P11 V.
PCB Installation RCOU3A, RCOS3A – Four-Circuit Loop Start CO Line Interface Unit RCOU3A, RCOS3A – Four-Circuit Loop Start CO Line Interface Unit Circuits per PCB: four loop start CO line circuits Interfaces with: loop start lines Older Version(s): RCOU1 (does not have Mu Law/A Law jumper plug) PCOU2 (does not have ABR circuitry, uses RCTU, K4RCU ABR circuits) PCOU1 (has ABR circuitry, identical and interchangeable w/PCOU2) The RCOU3A and RCOU provide ring detection, dial outpulsing, and hold circuitry.
PCB Installation RCOU3A, RCOS3A – Four-Circuit Loop Start CO Line Interface Unit Table 6-10 RCOS3A Controls, Indicators, and Connectors Control/Indicator/ Connector Type of Component Description CO line circuit 5~8 indicators Red LED Lights to indicate that line circuit is in operation. (CO line indicator will not light unless RCOU is connected to a CO line). J3 connector Modular connector Interface connector for CO line circuits 5 and 6.
PCB Installation RCOU3A, RCOS3A – Four-Circuit Loop Start CO Line Interface Unit RCOU Connectors P1 J12 J11 Plug is not used in the U.S.
PCB Installation RCOU3A, RCOS3A – Four-Circuit Loop Start CO Line Interface Unit RCOU Installation Note The decibel (dB) Pad switches SW101, SW201, SW301, and SW401 control excessive loudness resulting from close proximity to a Central Office or PBX telephone office by providing a -3 dB signal level drop to, or from, the PBX or CO when set to the 3 position. Switches are factory-set to the 0 (0 dB signal level drop) position. ³ To install an RCOU3A or RCOU1A PCB 1.
PCB Installation RCOU3A, RCOS3A – Four-Circuit Loop Start CO Line Interface Unit RCOS Connectors P14 P13 0 SW401 3 4 3 2 1 Chip LEDs CO Line LEDs Plug is not used in the U.S.
PCB Installation RCOU3A, RCOS3A – Four-Circuit Loop Start CO Line Interface Unit Table 6-13 PCOU2 Controls, Indicators, and Connectors Control/Indicator/ Connector Type of Component Description CO line circuit 1 CD112 Lights to indicate that line circuit is in operation. CO line circuit 2 CD212 Red LED CO line circuit 3 CD312 CO line indicator will not light unless PCOU is connected to a CO. CO line circuit 4 CD412 J1 connector Interface connector for CO line circuits 1 and 2.
PCB Installation RDDU – Direct Inward Dialing Line Interface Unit RDDU – Direct Inward Dialing Line Interface Unit Circuits per PCB: four DID lines Interfaces with: DID (one or two-way) lines Older Version(s): none The RDDU provides four Direct Inward Dialing (DID) lines, each of which can have a single office code along with a block of extensions.
PCB Installation RDDU – Direct Inward Dialing Line Interface Unit P401 HML 3 0 P301 HML RDDU SW401 4 3 2 1 LEDs 3 0 SW301 P201 HML J2 3 0 SW201 P101 HML J1 Backplane Connector 3 0 SW101 RDDU 5813 Figure 6-21 RDDU Controls, Indicators, and Interface Connectors PCB Installation Strata CTX I&M 06/04 6-29
PCB Installation RDSU – Digital/Standard Telephone Interface Unit RDSU – Digital/Standard Telephone Interface Unit Circuits per PCB: (with RSTS) four standard telephone (circuits 1~4)/four digital telephone (circuits 5~8) (without RSTS) two standard telephone circuits (1 and 2)/four digital telephone circuits Interfaces with: digital circuits (see PDKU) digital telephones standard circuits standard telephones voice mail ports off-premises stations other similar devices alternate BGM source auto attendant
PCB Installation RDSU – Digital/Standard Telephone Interface Unit 3. After installing the RDSU gently pull the RDSU outward. If the connectors are properly mated, a light resistance is felt. Table 6-15 RDSU, RSTS Controls, Indicators, and Connectors Control/Indicator/ Connector RSTS connector P2/P3 RSTS connector P4/P5 Type of Component Connector for RSTS subassembly that provides two standard telephone circuits.
PCB Installation RDTU2 – T1 Interface Unit RDTU2 – T1 Interface Unit See Chapter 8 – T1 for RDTU PCB installation information.
PCB Installation REMU2A – Tie Line Unit Note The “GND” position is used to connect PEMU circuits back-to-back on premises only, 1000 feet maximum (E&M lead wires must be crossed). 5. Insert the PEMU (component side facing right) into the appropriate slot and apply firm, even pressure to ensure proper mating of connectors.) 6. After installing, gently pull the PEMU outward. If the connectors are properly mated, a slight resistance is felt.
PCB Installation REMU2A – Tie Line Unit SW102 SW202 SW302 SW402 2W 4W 4W 2W 4W 4W P2 3 SW401 2W 0 TYP1/BATT Mu (Default) A 3 SW301 0 3 SW201 0 P204 TYP1/2 3 SW101 0 TYP2/GND TYP1/BATT P104 J101 P105 Backplane Connector DC5 P304 TYP2/GND TYP1/BATT TYP1/BATT TYP2/GND TYP1/2 J201 DC5 TYP1/BATT TYP1/BATT TYP2/GND DC5 J301 TYP1/2 P404 TYP1/BATT TYP2/GND TYP1/2 J401 DC5 TYP2/GND 2W 4 3 2 1 Chip LEDs SW102 SW202 SW302 SW402 2W 2W 4W P304 P302 P404 P402 4W TYP1 T
PCB Installation REMU2A – Tie Line Unit Table 6-17 PEMU Controls, Indicators, and Connectors Control/Indicator/ Connector Type of Component Description Tie trunk circuit 1~4 (CD102, 202, 302, and 402) Red LED Lights to indicate that Tie line is in operation. E&M Tie line connector J101, 201, 301,and 401 (circuit 1~4) Modular connector Interface connector for E&M Tie line circuit. FG jumper P3 3-terminal jumper Enables or disables -48VDC ground to FG.
PCB Installation RGLU2 – Loop/Ground Start CO Line Interface Unit RGLU2 – Loop/Ground Start CO Line Interface Unit Circuits per PCB: four line circuits Interfaces with: loop or ground start lines Older Version(s): RGLU1 (does not have hookflash to CO) The RGLU2 also provides ring detection, dial outpulsing, and hold. Each RGLU2 line can be programmed for DTMF or dial pulse signaling and gas tube secondary protection.
PCB Installation RGLU2 – Loop/Ground Start CO Line Interface Unit Table 6-18 RGLU2 Controls, Indicators, and Connectors (continued) Control/Indicator/ Connector Type of Component Description LOOP/GND jumper SW103 (configures line 1) LOOP/GND jumper SW203 (configures line 2) 3-terminal jumper LOOP/GND jumper SW303 (configures line 3) Used to configure line for loop or ground start.
PCB Installation RMCU/RCMS – E911 CAMA Trunk Direct Interface RMCU/RCMS – E911 CAMA Trunk Direct Interface Circuits per PCB: four circuits Interfaces with: enhanced 911 locator services Older Version(s): none The E911 CAMA Trunk Direct Interface card (RMCU) enables cost-effective connection to the Enhanced 911 locator services without third-party equipment. Figure 6-29 shows the RMCU. The RMCU supports two subassemblies (RCMS) that provide a total of up to four ports as shown in Figure 6-27.
PCB Installation RMCU/RCMS – E911 CAMA Trunk Direct Interface NB CB NB J5 J4 CB RCMS1A J2 J3 PAD PAD SW101 600 / 600 RCMS1A -CM V.1 600 / 600 0 3 0 3 SW201 J1 RCMS1 5817 Figure 6-28 Table 6-19 RCMS Subassembly (stand-alone) RCMS Subassembly Controls, Indicators, and Connectors Controls, Indicators, & Connectors Type of Component Description SW101 Switch 3-dB Pad switch for circuit 1 or 3. SW201 Switch 3-dB Pad switch for circuit 2 or 4. J1 J2 Jacks to connect to RMCU.
PCB Installation RMCU/RCMS – E911 CAMA Trunk Direct Interface RMCU1A RMCU1A P6 P5 RMCUV.1 P7 TC35354F P3 P2 RMC21B Backplane Connector P4 RMCU1A -CM V.
PCB Installation RMCU/RCMS – E911 CAMA Trunk Direct Interface RCMS LEDs Customer Busy (CB) LEDs – The RMCU firmware controls this LED synchronizing with off-hook status inside switch. Network Busy (NB) LEDs – RMCU hardware controls this LED synchronizing with the supply of voltage from the carrier. Table 6-20 LED Indications (Normal Operation) Status NB LED (Network Busy) CB LED (Customer Busy) 1 No network connection. RMCU is in stand-by mode. On Off 2 Network connected. RMCU is in stand-by mode.
PCB Installation Network Requirements Network Requirements The system network requirements are provided in Table 6-21. Table 6-21 PCB Network Requirements PCB/Interface Facility Interface Code Network Jack Ringer Equivalence Universal Service Order Code RSTU2/RDSU1 (Off-premises Station) OL13B (RSTU2, –24V) OL13C (RSTU2, RDSU with R48S-48V) RJ21X N/A 9.0F RCOU/RCOS2 (loop start line) 02LS2 RJ14C/RJ21X (all others) 0.3B N/A RDDU 02RV2-T (Dealer-supplied CSU) RJ14C/RJ21X 0.0B AS.
ISDN Interfaces ISDN Interfaces 7 This chapter covers information on the ISDN Primary Rate Interface (PRI) and Basic Rate Interfaces (BRI). PRI Overview For PRI services, the Strata CTX uses a BPTU or RPTU PCB to connect to a Public Switched Telephone Network (PSTN) PRI line using a UL listed (or CSA certified in Canada) Channel Service Unit (CSU) in most locations in the U.S. Each BPTU or RPTU provides 23B + D channels. The B-channels support CO speech and data connections on the PSTN side only.
ISDN Interfaces BRI U Overview A subassembly (RBUS) can be attached to the RBUU for two additional BRIs for PSTN and/or U-type station connections. The RBUU PCB and the RBUS subassemblies are shown in Figures 7-23 and Figure 7-24 on page 7-28. The combination of RBUU and RBUS uses only one slot to provide up to four U-type BRI circuits.
ISDN Interfaces BPTU/RPTU Overview BPTU/RPTU Overview The BPTU or RPTU is a DS-1 divided into 24 TDM channels using standard T1 electrical signal format. The BPTU or RPTU’s D-channel is typically the 24th channel and can control the signaling of 23 of its own B-channels and 24 B-channels of another designated BPTU or RPTU. Each BPTU or RPTU can also use its own D-channel for control. ISDN Interfaces Both the BPTU and RPTU provides 24 channels for ISDN PRI service.
ISDN Interfaces BPTU Interface Unit BPTU Interface Unit System: DK424, DK40i, CTX100 & 670 Circuits per PCB: 24 channels per PCB Interfaces with: ISDN PRI Older Version(s): none The BPTU has an RS-232C port to trace data that is transmitted between the CTX system CPU and the BPTU. T1 Framing: ESF Line cording: B8ZS Digital PAD: Transmit side +6dB to -15dB. Receive side +6dB to -15dB (software controlled) BPTU Installation Power Factor BPTUA uses 5V only. 5V power factor = 2.
ISDN Interfaces BPTU Installation EQ OFF SW6 OFF ROM SW10 CPU LB Figure 7-2 Backplane Connector LB 6640 ON SW9 OFF BPTU1A ON SW8 OFF LB ROM SW10 CPU LB J1 MONITOR OFF OFF OFF SW6 J2 RS-232C Connector for Call Data Monitor (RJ-12) ON SW9 OFF RJ-45 8-pin Modular Network/CSU Interface Jack ON SW8 OFF PSYNC SSYNC SW5 EQ OFF SW5 SW4 BSY EQ R28 EQ SW4 R28 EQ LOS EQ ON ON R28 YALM/RAI ON IC19 LOS BSY PSYNC SSYNC ON BALM/AIS ON FSYNC MFSYNC BALM/AIS YALM/RAI FSYNC
ISDN Interfaces BPTU Installation Table 7-1 SW10 Internal or External ROM Setting Mode SW10 Note When there is an internal ROM on the CPU (TMP93PW46), BPTUA operates with the SW10. Internal ROM CPU (Default mode) Use this mode when IC19 is not on PCB. If the SW10 is in CPU position, BPTUA is operating with the internal ROM regardless of IC19 existence. BPTUA is operating with the external ROM (IC19). External ROM ROM (Upgrade) Use this mode only when IC19 is on PCB.
ISDN Interfaces BPTU Installation BPTU Loop Back Jumper Plugs BPTU Front Panel Indicators The BPTU PCB provides seven LED indicators to show the status of BPTU: Busy or Idle condition, Alarm status, and Synchronization status. ISDN Interfaces The BPTU PCB provides jumper plugs for loop back testing. Loop back tests are described in “Loop-back Test” on page 7-34. See Table 7-2 for switch settings for Loop Back tests. See Table 7-4 for the function of each status LED.
ISDN Interfaces RPTU Interface Unit RPTU Interface Unit Circuits per PCB: 24 channels Interfaces with: ISDN PRI Older Version(s): none The RPTU provides 24 channels for ISDN PRI service. Network connection using RPTU PRI interface requires installation of a customer-provided CSU in most locations of the U.S. Refer to “CSU Requirements” on page 7-3 for CSU installation. Switches, jumpers, and interface connectors are described in Table 7-5.
ISDN Interfaces RPTU Installation Note The RPTU2 is required for QSIG networking. ISDN Interfaces RESET SW2 J2 RS-232C CD1 SW1 Backplane Connector RPTU2 LEDs RPTU (front) CD2 FSYC AIS RAB LOS RST BSU TS 1 2 3 4 5 6 7 8 OFF MCC J1 ISDN (PRI) JP1 JP2 RPTU2 V .
ISDN Interfaces RPTU Installation Table 7-6 RPTU LED Functions LED FSYC Functions Frame Synchronization On: Frame alignment is lost. Off: Frame alignment is working properly. AIS Alarm Indication Signal On: Receiving an alarm from the CO. Off: Circuit is working properly. RAB Remote Alarm On: Receiving a remote alarm from the CO. Off: Circuit is working properly. LOS Loss of Signal On: IC signal cannot be detected. Off: Circuit is working properly.
ISDN Interfaces BPTU and RPTU Cabling BPTU and RPTU Cabling Important! ISDN Interfaces To meet Part 15 of FCC Rules, ISDN PRI equipment must be connected using CAT5, Shielded Twisted-Pair (STP) cabling between the CSU and the BPTU or RPTU. CAT5 STP protects against cross talk, Radio Frequency Interference (RFI), and/or Electro Magnetic Interference (EMI). STP protects ISDN signal data while being transmitted through the cable and keeps the cable itself from emitting EMI and RFI.
ISDN Interfaces BPTU and RPTU Cabling Cable Installation Use the Toshiba RPRI cable kit to connect the BPTU or RPTU PCB to a CSU. Install the kit as shown in Figure 7-6. CSU ISDN PRI Network Jack DB15 (female) RJ45 BPTU or RPTU DB15 (male) D A E B C 6645 Item A 1 Description Fifteen feet of CAT5 unshielded cable B One DB15 modular adapter (CSU to network jack) C One DB15 modular adapter (CSU to RPTU) D1 Thirty feet of CAT5 shielded cable E One Ferrite core 1.
ISDN Interfaces BPTU and RPTU Cabling Ferrite Core ISDN Interfaces Install the Ferrite core provided with the RPRI cable kit as shown in Figure 7-7. This core is needed to comply with FCC requirements. ISDN PRI Jack RPTU Side View Tie Wrap Ferrite Core FER-CORE-ISDN CAT5 Shielded Cable One Turn 5963 Figure 7-7 Note: The Ferrite core must be as close as possible to the RPTU.
ISDN Interfaces RBSU/RBSS Interface Units RBSU/RBSS Interface Units Circuits per PCB: 2 circuits (2B + D each circuit) Interfaces with: ISDN BRI S/T when connected to the Public Network or a BRI S-type, TE-1, or TA devices when connecting to ISDN station equipment Older Version(s): none RBSU/RBSS switches, jumpers, and connectors are shown in Figures 7-11 and 7-12 on page 7-17 and described in Table 7-8. LEDs on the RBSU/RBSS show a continuous status of BRI operation.
ISDN Interfaces RBSU/RBSS Interface Units When multiple TE-1 and TA devices are installed on a single RBSU/RBSS BRI circuit, the devices must share, or contend for, that circuit’s two B-channels. That is to say, a maximum of two simultaneous voice and/or data calls are allowed between both devices connected to the same BRI circuit. The contention rule for the two BRI B-channels is first come, first serve. BRI-NT (4-wire) 3336 . ..
ISDN Interfaces RBSU/RBSS Interface Units PS-1 Backup Power Option The RBSU provides an optional backup power supply, R40S, that will supply backup power to TE devices in the event of an AC power loss. This power backup option only applies to RBSU or RBSS circuits that are configured in the NT mode. See Figure 7-13 to install the R40S. Also the Strata CTX system must have battery backup to allow the R40S power backup function to operate.
ISDN Interfaces RBSU/RBSS Interface Units RBSS SW7 BSY TS LOS FS P4 BSY TS LOS FS SW2 SW5 SW9 SW8 SW6 SW6 J2 J7 P7 P2 J4 RBSS1A-CM V.1 RBSU1 BSY TS LOS FS BSY TS LOS FS ISDN Interfaces RBSU1A J2 SW3 TB3 J6 SW2 P6 SW5 SW4 J3 J5 SW1 P3 SW3 SW4 J1 P5 SW1 F 2788 J3 P9 P8 PFT contacts TB1 TB2 R B S U 1 A - C M V.
ISDN Interfaces RBSU/RBSS Interface Units Step 3: Install the REBS Note The REBS provides a basic part of the RBSU/RBSS circuit functionality; therefore, it must always be installed on the RBSU (see Figure 7-13). 1. Align the two connectors carefully while observing the “UP” arrows on the REBS. 2. Plug the REBS onto the RBSU. Step 4: Install the RBSS Note If one or two additional BRI-NT circuits are required, install the RBSS (see Figure 7-13). 1.
ISDN Interfaces RBSU/RBSS Interface Units Step 6: Install RBSU/RBSS PCBs into Cabinet Table 7-9 ISDN Interfaces After setting the switches and jumpers and installing the plug-on PCBs as described in the preceding paragraphs, the RBSU/RBSS PCBs can be installed in the appropriate cabinet slots. Refer to RBSU/RBSS Capacity and Cabinet Slot Information on Figure 7-14. After the RBSU/ RBSS is installed in the Strata CTX cabinet, the status LEDs and connecting jacks are positioned as shown in Figure 7-14.
ISDN Interfaces RBSU/RBSS Interface Units RBSU CKT2 BSY TS LOS FS CKT1 BSY TS LOS FS RBSS BSY TS LOS FS BSY TS LOS FS CKT4 CKT3 4th Circuit 2nd Circuit RJ-45 8-pin (shielded) Modular Connector 3rd Circuit TB3 (FG) 1st Circuit Reset Switch (resets RBSU Firmware) RS-232C Connector for Call-Data Monitor TB1 and TB2 (PFT) 2795 Figure 7-14 RBSU/RBSS Location of LEDs and Connector Locations Table 7-10 RJ45 Pins in the 8-pin Modular Jack Pin No.
ISDN Interfaces RBSU/RBSS Interface Units RBSU/RBSS Premise Wiring Guidelines TB1 and TB2 are the connecting points that interface a pair of dry contacts that can be used for power failure switching purposes (see Figure 7-14 for the locations). When the Strata CTX system has power (from AC source or batteries) there is a short circuit across TB1 and TB2. In the event of no power to the Strata CTX, there is an open circuit across TB1 and TB2.
ISDN Interfaces RBSU/RBSS Interface Units A cord of up to 10 meters connects the ISDN BRI RJ45 wall jack to the desktop TE-1 or TA RJ45 jack. Bellcore recommends that all TE-1 and TA devices be attached with the same standard cord to ensure compatibility. Locking Tab 3039 Four-pair Wire RJ-45 Eight-pole Plug Figure 7-15 Modular ISDN Data Cable The standard pinouts for ISDN jacks is the TIA-568A or TIA-568B jack as listed in Table 7-11.
ISDN Interfaces RBSU/RBSS Interface Units Strata CTX BRI Circuit EMC Ferrite Core Requirement RBSU or RBUU ISDN Interfaces To ensure that the Strata CTX BRI circuit meets the EMC requirements, it is necessary to run all wire connecting ISDN BRI circuits (TE, LT mode and NT mode) through a Ferrite core. Use Toshiba part number, FER-CORE-ISDN, to order the ferrite core. It is not shipped automatically with the BRI circuit cards, it must be grounded separately.
ISDN Interfaces RBSU/RBSS Interface Units Most NT1 devices have TR option switches; if the NT1 does not have TRs, two 100-ohm TRs must be wired into the NT1 modular jack - one 100-ohm resistor across each pair (Tx and Rx). Refer to the NT1 manufacturers documentation for the maximum loop length between the NT1 and the network jack. The maximum loop length between the NT1 and the RBSU circuit is 1650 feet.
ISDN Interfaces RBSU/RBSS Interface Units RBSU NT Circuit Insert 100-ohm TR using RBSU and RBSS option switches. RJ45 Pinout RJ45 Pinout 3 3 6 6 4 4 5 5 ISDN Interfaces modular connectors, as explained in previous paragraphs, maintains control of polarity. The pinout from the RBSU/RBSS circuit to a S-type TE-1 or TA device is shown in Figure 7-18 and Table 7-10. S-type, TE-1 or TA with 100-ohm TR or just a 100-ohm terminating resistor across each pair on a RJ45 jack.
ISDN Interfaces RBSU/RBSS Interface Units RBSU/RBSS Passive Bus Configurations The placement of S-type TE and TA devices on the BRI S-passive bus is critical for good RBSU/ RBSS BRI circuit performance. Figures 7-19~7-22 show four passive bus architectures that are known to work. In all installations, follow the guidelines of any of these passive-bus models using the wire, cables, and jacks described in the previous paragraphs.
ISDN Interfaces RBUU/RBUS Interface Unit ISDN Telephone RBSU/RBSS NT-Mode TE-1 PC Card RJ45 ISDN Interfaces 490' TR TR 640' 5438 Figure 7-22 Short Passive Bus RBUU/RBUS Interface Unit Circuits per PCB: 2 circuits (2B + D each circuit) Interfaces with: ISDN BRI U when connected to the Public Network or a BRI U-type TE-1 or TA devices when connecting to ISDN station equipment Older Version(s): none The Strata CTX RBUU/RBUS interface unit (Figures 7-23 and 7-24) supports ISDN BRI U-type TE1 or TA
ISDN Interfaces RBUU/RBUS Interface Unit RBUU1A Secondary Protectors P12 P13 Circuit 1 J101 RJ45 Modular for Circuit 1 J201 RJ45 Modular for Circuit 2 Circuit 2 BSY T S LOS F S LED Indicators Circuit 1 BSY T S LOS F S Circuit 2 DIN Connector J3 RS-232C Monitor Output P10 P10 RBUU1A 2799 Figure 7-23 RBUU PCB RBUS1A P13 P12 Circuit 3 BSY T S LOS F S Circuit 4 LED Indicators BSY T S LOS F S J301 Circuit 3 RJ45 Modular for Circuit 3 J401 RBSU1A Circuit 4 P11 P10 RJ45 Modular for
ISDN Interfaces RBUU/RBUS Interface Unit RBUS1A RJ45 Modular for Circuit 1 RJ45 Modular for Circuit 2 BSY T S PSI F S LED Indicators for Circuit 1 BSY T S PSI F S BSY T S PSI F S RJ45 Modular for Circuit 3 BSY T S PSI F S LED Indicators for Circuit 2 LED Indicators for Circuit 3 ISDN Interfaces RBUU1A LED Indicators for Circuit 4 RJ45 Modular for Circuit 4 RS-232C Monitor Output 4776 Figure 7-25 Location of LEDs and Connectors (RBUU/RBUS) Table 7-12 LED BSY TS PSI1 FS RBUU/RBUS LED Indica
ISDN Interfaces RBUU/RBUS Interface Unit RBUU/RBUS Wiring Guidelines • Strata CTX BRI-U interface circuits can be configured to connect to an ISDN line circuit (NT mode, line-side) or to ISDN U-type terminal equipment TE1 or terminal adapters TA (LT mode, station side). • Install the Toshiba-supplied Ferrite core on each ISDN circuit card per Figure 7-16 on page 7-23. The Ferrite core is not supplied with the ISDN circuit cards must be ordered separately.
ISDN Interfaces RBUU/RBUS Interface Unit 6 5 4 3 2 1 ISDN Interfaces • The ISDN BRI-U wire pair is usually on the center pair of the Demarc jack, pins 3 and 4 on RJ11 and pins 4 and 5 on RJ45. Demarc coding is shown in Tables 7-13, 7-14 and 7-15.
ISDN Interfaces RBUU/RBUS Interface Unit Table 7-14 Four-Pair with RJ45 Demarc Jack Coding Conductor Pair 1 Pair 2 T56A Pin T56B Pin Use 5 5 Line 1 Blue 4 4 Line 1 White-Orange 3 1 Line 2 Orange 6 2 Line 2 White-Green 1 3 PS3 plus power Pair3 Pair 4 Table 7-15 Color White-Blue Green 2 6 PS3 minus power White-Brown 7 7 PS2 plus power Brown 8 8 PS2 minus power Three-Pair with RJ11 Demarc Coding Conductor Pair 1 Pair 2 Pair3 Color Pin Use White-Blue 4 Line 1
ISDN Interfaces ISDN Testing and Troubleshooting ISDN Testing and Troubleshooting The Strata CTX provides a built-in loop back test to check the U-type, lSDN terminal connected to the RBUU or RBUS circuit. The Strata CTX performs the 2B+D loop test using the eoc ISDN, layer 1 function. This tests the U-terminal and the wire connection from the Strata CTX to the BRI device; it does not check the Strata CTX PCM highway or RBUU/RBUS functionality.
ISDN Interfaces ISDN Testing and Troubleshooting The above response indicates the test was passed and that the B1, B2 and D channels and the wire connections for the tested device are operating properly. If the Strata CTX responds with: TEST FAIL The test failure could be caused by: • U-terminal is in busy state when the test was started. • U-terminal is in TQ/ACB/ACD mode when the test was started • The Strata CTX BRI PCB slot or circuit number was not entered correctly.
ISDN Interfaces Timing and Synchronization ISDN Interfaces Loop-back Test 1. Remove the PRI modular cord from the RPTU RJ45 jack and remove the RPTU from its card slot. 2. Place the JP1 and JP2 jumpers to the LB-On position. Install the RPTU with the Strata CTX power Off and the PRI modular disconnected from the RPTU RJ45 jack. 3. Turn the Strata CTX power On and connect the PRI modular cord to RPTU RJ45. 4.
ISDN Interfaces Timing and Synchronization The Strata CTX processor time switch is synchronized as the slave to the PRI, BRI, or T1 line (Line 1 in Figure 7-31). If a malfunction occurs and Primary reference synchronization is lost, the Strata CTX automatically switches modes and synchronizes to the Secondary reference, provided that there is another PRI, BRI, or T1 installed in the Strata CTX system.
ISDN Interfaces PRI/BRI Call Monitoring PRI/BRI Call Monitoring The hardware connections and communication parameters for the ISDN monitor port are shown in Figure 7-32. Once this connection is setup and established, call monitoring data continues to be sent (on the fly) as PRI and BRI calls are originated or received.
ISDN Interfaces Call Monitor Output for ISDN /*-------------------------*/ Copyright(C) 1997 TOSHIBA Corporation All rights reserved RPTU Ver.1G [Reset] /*-------------------------*/ 00;00 016 Act. (F1) /*-------------------------*/ Copyright(C) 1997 TOSHIBA Corporation All rights reserved RPTU Ver.1G [Reset] /*-------------------------*/ 00;00 016 Act. (F1) 00;09 634 LOS (F3) 00;12 109 Act.
ISDN Interfaces Call Monitor Output for ISDN 01;19 466 01;19 878 01;19 888 01;19 924 01;19 932 01;25 464 01;25 476 01;25 785 01;25 799 01;46 127 01;46 138 01;46 449 01;46 464 01;46 784 01;46 02;16 02;16 02;22 795 659 670 661 Rx:[SAPI]00 C [TEI]000 [FRAME]RR P [N(R)]004 Tx :[SAPI]00 C [TEI]000 [FRAME]RR P [N(R)]002 Tx :[SAPI]00 R [TEI]000 [FRAME]RR F [N(R)]002 Rx:[SAPI]00 R [TEI]000 [FRAME]RR F [N(R)]004 Tx :[SAPI]00 C [TEI]000
ISDN Interfaces Call Monitor Output for ISDN BRI Call Monitor The call-monitor jack located on the RBSU enables you to use a PC or ASCII terminal to monitor the BRI, D-channel call setup, layer-2 and layer-3 data (refer to Figure 7-32 on page 7-37 for information about connecting the monitor jack). Figures 7-35 and 7-36 provide examples of BRI call setup message information that is available from the RBSU call-monitor jack.
ISDN Interfaces Call Monitor Output for ISDN 07;53’514 07;53’548 07;55’488 07;55’518 07;55’781 07;55’792 07;57’585 07;57’619 07;57’942 07;57’959 07;57’979 07;58’029 07;59’447 08;05’903 08;05’907 08;05’928 08;05’932 08;05’969 08;05’973 08;05’989 Figure 7-36 Strata CTX I&M Tx :[SAPI]00 R [TEI]113 Rx:[SAPI]00 R [TEI]113 Tx :[SAPI]00 R [TEI]113 Rx:[SAPI]00 R [TEI]113 Tx :[SAPI]00 C [TEI]102 Rx:[SAPI]00 R [TEI]102 Tx :[SAPI
ISDN Interfaces Call Monitor Output for ISDN 7-42 Strata CTX I&M 06/04
8 T1 This chapter covers the RDTU T1/DS-1 interface for the Strata CTX systems. It contains information about the RDTU3 and RDTU1/2. The RDTU3 is a replacement for the RDTU1 and 2. numbered term, such as “RDTU3” is used. T1 Note “RDTU” refers to all RDTU (1, 2 or 3) PCBs. When a distinction is required, the exact Program Channels The RDTU PCB provides T1/DS-1 interface for up to 24 channels on the Strata CTX.
T1 RDTU3 - T1 Interface Unit RDTU3 - T1 Interface Unit System: CTX100 & 670 Circuits per PCB: 8, 16, 24 channels per PCB Interfaces with: Ground / Loop start CO lines DID or TIE lines (Wink or Immediate) Older Version(s): RDTU1, RDTU2 The RDTU3A has an RS-232C port to trace data that is transmitted between the CTX system CPU and the RDTU3A. This PCB also enables T1 line alarm data to be monitored. T1 Framing: D4 (SF) or ESF Line cording: AMI with ZCS or B8ZS Digital PAD: Transmit side +3dB to -15dB.
T1 RDTU3 - T1 Interface Unit Table 8-2 RDTU3 LED Functions RDTU3 LEDs Indication Frame Sync error indication FSYNC On = No frame synchronization status Off = Frame synchronization status Multi-frame Sync error indication (same with FSYNC) MFSYNC On = No frame synchronization status Off = Frame synchronization status Blue Alarm indication On = RDTU3A is receiving Blue Alarm Off = RDTU3A is not receiving Blue Alarm T1 BALM/AIS Yellow Alarm indication YALM/RAI On = RDTU3A is receiving Yellow Alarm
T1 RDTU Installation RDTU Installation ³ To install an RDTU PCB 1. Set the jumper wire plugs to the correct position for the cable length. • RDTU3 – see “RDTU3 - T1 Interface Unit” on page 8-2 • RDTU1 and 2– see “RDTU3 Cabling” on page 8-5. 2. Turn the Strata CTX system power Off. 3.
T1 RDTU Installation Ferrite Core Install the Ferrite core provided with the RDTU3 PCB, as shown in Figure 8-2. This core is needed to comply with FCC requirements. RDTU3 Side View RJ-45 Network/ CSU Interface Jack T1 CAT5 Shielded Cable 6306 Note: The Ferrite core must be as close as possible to the PCB.
T1 RDTU Installation RDTU3 to PBX T1 (Separated More Than 655 ft.) If the RDTU3 must interface to a customer’s premises T1 circuit (PBX, key/hybrid, or another Strata CTX) to provide Tie line service, the RDTU3 must be connected to a CSU (with Toshiba cable kit RDTU3-CBL-KIT) if the other customer premise T1 equipment is more than 655 ft. from the RDTU. The T1 span on the other end must also connect to a CSU.
T1 RDTU Installation Connecting two RDTU3 PCBs Cross-Pinned, RJ45 Modular Cord Pin Strata CTX 1 2 5 4 RDTU3 Pin T T R T R T R R 5 4 2 1 PBX or CTX RDTU3 or other T1 interface T1 Ferrite Core RJ45 Jack RJ45 Jack (655 ft. max.
T1 RDTU Installation RDTU3 Self Test and CSU Test Switch 1. Remove the RJ45 cable to perform the Self Test. 2. Set the SW8 and SW9 switches to On (see Table 8-5). 3. After self check passes, put the switches back into position for normal operation and insert the RDTU PCB back into the appropriate slot.
T1 RDTU Installation Call Data Monitor Jack RDTU3A has an RS-232C port for maintenance monitoring and troubleshooting purposes. This should be used when requested by Toshiba Technical Support Engineers. Communication parameters are 9600bps, 8, and 1.
T1 RDTU3A Call Data Information RDTU3A Call Data Information RDTU3A has an RS-232C port to trace data that the RDTU3A sends and receives from the CTX system processor. The T1 line alarm data can also be monitored with the RDTU3. Commands You can type the commands in the following table to check the status indicators also described in the table below. Table 8-7 RDTU3 Status Commands Command Function Format Indication RDTU3A © TOSHIBA 2002 VER.
T1 RDTU3A Call Data Information Notes • There are some cases when the RDTU will not receive requests from the central processor unit (CPU), such as the time waiting for wink signal. When the RDTU attempts to move to a nonreceiving state, the RDTU sends commands to the CPU to stop sending requests. The CPU stops sending requests until the RDTU cancels the stop. “DDT1” indicates that the RDTU is in a non-receiving state.
T1 RDTU3A Call Data Information Table 8-8 RDTU3 Indications (continued) Indication Type TLCS-900 stack pointer and program counter information Indication Timing Watch Dog Timer reset will occur. SP = xxxxxxh PC = yyyyyyh CH.xx DTyy DRzz DDT1/0 xx = channel number, from 0 to 23 Data-HWY code yy = DHin data code (RDTU3A to RCTU) See Table 8-9. zz = DHout data code (RCTU to RDTU3A) See Table 8-10. Changing of yy or zz or DDT will occur. Each voice channel’s DHin and DHout data will be indicated.
T1 RDTU3A Call Data Information Table 8-9 DT (DHin) Data Code (continued) Data (Hex) Bipolar violation 49 Frame-bit error and Bipolar violation 4A CRC error and Bipolar violation 4B Frame-bit error and CRC error and Bipolar violation 4C Slip error and Bipolar violation 4D Frame error and Slip error and Bipolar violation 4E CRC error and Slip error and Bipolar violation 4F Frame error and Slip error and CRC error and Bipolar violation 7B Receive Dial error 7C Receive Wink error 80 Idle
T1 RDTU3A Call Data Information Table 8-10 DR (DHout) Data Code Data (Hex) 8-14 Meaning 01 Request out going call 02 Off-Hook 03 Ready to receive dial 04 On-Hook 08 Send Off-Hook 11 Send Dial Digit 1 12 Send Dial Digit 2 13 Send Dial Digit 3 14 Send Dial Digit 4 15 Send Dial Digit 5 16 Send Dial Digit 6 17 Send Dial Digit 7 18 Send Dial Digit 8 19 Send Dial Digit 9 1A Send Dial Digit 0 41 to 5F Flash time setting From 0.1S to 3.1S 61 to 7F Pause time setting From 0.
T1 RDTU1 & 2 - T1 Interface Unit RDTU1 & 2 - T1 Interface Unit Circuits per PCB: 8, 16, or 24 channels Interfaces with: ground start CO lines loop start CO lines DID or Tie lines Older Version(s): none RDTU is configured for Tie or DID lines and an RRCS must be installed for DTMF operation. LEDs on the RDTU show a continuous status of RDTU operation. The Strata CTX can support up to eight RDTU2 or RPTU2 PCBs total.
T1 RDTU1 & 2 - T1 Interface Unit Strata CTX Processor PCB Synchronization Circuit Clock Digital Telephone Time Switch Primary Reference PCB* PDKU Standard Telephone RSTU CTX Digital Transmission Voice Path SS1 Line 1 Synchronization Circuit Digital Voice Path Secondary Reference PCB* SS2 Line 2 Synchronization Circuit AT&T or other provider PRI, BRI, or T1 Stratum-1 Clock Source Digital Voice Path Clock synchronized properly with Stratum-1 Clock Source Other RDTU, RPTU, or RBSU SS3 Line
T1 RDTU1 & 2 - T1 Interface Unit Alarms are used to indicate potentially serious telephone network problems. Example: when monitoring a T1 network, if a Blue or Yellow alarm is indicated, it can be concluded that there is a cable fault or some other serious transmission impairment. Table 8-12 RDTU1 and 2 LED Functions Alarm LED Function Turns On steady if the RDTU has not achieved synchronization or when the span cable is not connected.
T1 RDTU1 & 2 - T1 Interface Unit RDTU1 and 2 Cable Installation The RDTU PCB is shipped with a Toshiba cable for connecting the RDTU PCB to a CSU. The 30 ft. cable is specially made to conform with EIA specifications (see Figure 8-8). All other cables required to connect the T1 span line to the RDTU PCB are customer-supplied and must conform with EIA specification, see the Notes of Figure 8-8.
T1 CSU Installation CSU Installation ³ Install the CSUs and wire them to the RDTU and NIU or customer premises T1 circuit, as required (see Figure 8-9). Note Before connecting the CSU to the Telco line, notify the T1 provider. You should also notify the T1 provider before disconnecting the CSU.
T1 Loop Back Testing Network/CSU T1 Span Test This test verifies that the far end (CSU, Network, or CPE) T1 equipment and span cabling is functioning properly. This test checks all T1 span cabling including the RDTU Amphenol cable and connector. Guidelines for this test are provided in Figure 8-11. Network/CSU Check Loop Back NDTU Cable P26, TT P1, TR P1 P2 On On CSU P27, RT Network Interface Unit Network P2, RR 1672 Notes ● ● ● ● ● P1 and P2 to On position (see Figure 8-7).
T1 Loop Back Testing Refer to Figure 8-3 and the CSU manufacturer’s Installation and Maintenance manual for information on CSU Local/Network Loopback Tests. RDTU RDTU Amphenol Pin Nos.
T1 Loop Back Testing 8-22 Strata CTX I&M 06/04
IP Telephony and QSIG Over IP 9 This chapter explains how to install the Strata CTX Internet Protocol (IP) telephones (IPT1020-SD). It also covers installing the Internet Protocol Telephone (IPT) interface (BIPU-M2A or BIPU-M1A) units into Strata CTX systems with Release 2.0 or higher software, as well as the Strata Net QSIG over IP Interface Unit (BIPU-Q1A) that requires CTX Release 2.1 software.
IP Telephony and QSIG Over IP Pre-installation Guidelines Client Firewall Considerations When installing a CTX with IP, you need to obtain information about your client’s firewall. ❐ Will the client allow you access through their firewall? If not, you will have to configure around their firewall.
IP Telephony and QSIG Over IP Pre-installation Guidelines Step 1: Perform a LAN Voice Readiness Assessment Deploying many IP telephones on a data LAN can have some unexpected pitfalls if the network does not have the bandwidth and speed required to handle VoIP traffic. To prevent delay, jitter, and data loss for VoIP traffic and retain the performance of your other business-critical network applications a network Voice Readiness Assessment should be completed before installing VoIP.
IP Telephony and QSIG Over IP Pre-installation Guidelines To assist you in estimating your particular needs, refer to the following diagram that shows typical CTX IP telephone applications. IP CTX Functional Diagram PC Attendant Console Remote Call Center IP Digital Telephone PSTN CTX VPN Server IP Digital Telephone FAX Single Line Telephone BIPU-MIA Digital Telephone Router *** *** IP Digital Telephone Internet or WAN IP Digital Telephone *** (VPN) .*** Cable Modem . . .
IP Telephony and QSIG Over IP Pre-installation Guidelines Review Voice Quality Considerations For best speech quality we recommend not using the older CTX analog line cards for CTX IP telephone connections. If these cards are used, IP telephones will experience fair or bad voice quality. (See “Dos and Don’ts for Setting Up the System” on page 9-2.
IP Telephony and QSIG Over IP Pre-installation Guidelines Step 2: Install BIPU-M2A 1. Make sure the BIPS1A is installed onto the BIPU-M2A PCB (see Figure 9-2). 2. Install the BIPU-M2A into one of the following slots: • CTX100 Base and Expansion Cabinet slots (1~8, 8 or 16 IPTs per slot per Program 100) • CTX670 Base Cabinet slots (1~8, 8 or 16 IPTs per slot per Program 100) • CTX670 Expansion Cabinet slots (1~6, 8 or 16 IPTs per slot per Program 100) 3.
IP Telephony and QSIG Over IP Pre-installation Guidelines Table 9-2 BIPU-M2A or BIPU-Q1A Buttons, LEDs and Jumpers Indicator Definition RD - Indicates BIPU-M2A or BIPUQ1A receives data from switch. Ethernet Port LEDs LINK - Indicates data activity between BIPU-M2A and switch SD - Indicates BIPU-M2A or BIPUQ1A sends data to switch. Flashes at a steady rate to indicate BIPU-M1A or BIPU-M2A or BIPUQ1A is operating normally.
IP Telephony and QSIG Over IP Pre-installation Guidelines Step 3: Install IP Telephones Before installing any telephone wiring, read the following warning and caution notes: WARNING! ³ Never install the telephone wiring during a lightning storm. ³ Never install the telephone jacks in wet locations, unless the jack is specifically designed for wet locations. ³ Never touch uninsulated telephone wires or terminals unless the telephone line has been disconnected at the network interface.
IP Telephony and QSIG Over IP Pre-installation Guidelines 2. Use the supplied Ethernet 10/100Base-T (straight-through cable) with an RJ45 connector (eight pin jack) to connect to the telephone LAN jack (see Figure on right). 3. Connect the other end of the telephone LAN cord to the LAN or server (see Figures 9-3 and 9-8.) 4. The IPT operates like a switch, as opposed to a hub, so the IPT can be connected directly to the LAN and then a PC can be connected to the IPT PC jack to make a connection to the LAN.
IP Telephony and QSIG Over IP Pre-installation Guidelines Table 9-3 IPT1020-SD Operation with Strata CTX (continued) IPT1020-SD Buttons and Features Strata CTX System with BIPU Same as DKT3000 telephones except: Programming Mode “B” (Flexible Buttons, One Touch, etc.) Program Mode “B” is for telephone options controlled by the Strata CTX670 processor and database memory. (See the Strata CTX DKT/IPT User Guide.) Indication code from center is abandoned.
IP Telephony and QSIG Over IP Pre-installation Guidelines Handset/Headset Option Straps The option straps on the IPT telephones must be cut when installing carbon handsets, external power or headsets. Refer to Table 9-5 and Figure 9-4 for further instruction. Table 9-5 Station Option Interface PCB Compatibility Strap on IPT PCB Part No.
IP Telephony and QSIG Over IP Pre-installation Guidelines ³ To wall mount IP telephones Refer to Figures 9-5~9-7 and the following steps. 1. Loosen the captive screws, and remove the telephone base. 2. Using a suitable cutter, remove the handset hanger from the base. 3. Insert the handset hanger in the slot on the front of the phone. It fits in the notch on the cradle. 4. Carefully remove the IPT10-SUB from the base unit by pulling back the plastic clips that hold it in place (see Figure 9-4).
IP Telephony and QSIG Over IP Pre-installation Guidelines Step 4: Connect IPTs to Network The following diagrams are examples of IP connections to either a hub, LAN or VPN network. IPT Connections Figure 9-8 shows how the IP components should be connected. Refer to the Strata CTX Programming manual for IPT programming procedures. IP address of IPT1 192.168.1.
IP Telephony and QSIG Over IP Pre-installation Guidelines • For an access line to link the user’s location with the access point of the carrier or provider, using a private line, broadband line (xDSL, CATV), or fiber optics is recommended.
IP Telephony and QSIG Over IP Pre-installation Guidelines IPT Anywhere enables IPT users working in satellite offices or off-site at home to make full use of the extension features of the CTX IP telephones. With IPT Anywhere, you should apply the following to prevent deterioration of voice quality: • Voice compression by G.729A is available in Program 250-08 if using more than one IPT or a cable or xDSL connection.
IP Telephony and QSIG Over IP Power over LAN Addressing Regarding addressing of IP packets exchanged between IPT and the main system unit, the following restrictions are normally applied. • NAT (Network Address Translation)/NAPT (Network Address and Port Translation) devices NAT/NAPT devices must not be used for communication between the “IPT Anywhere” terminal and the interface card. The original IP header and UDP header must not be revised.
IP Telephony and QSIG Over IP Power over LAN Note Toshiba does not supply the Power over LAN units. When you order the Power over LAN model from PowerDsine, please indicate that you need the Power over LAN that can support the Toshiba IPT1020-SD Some models don’t support the IPT1020-SD. Be sure to order the PowerDsine products (PD-6000 product family) from a software revision that is equal to 6805 or higher (produced from March 15, 2003).
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Installing and Operating the SoftIPT This section explains how to install and operate the Toshiba SoftIPTTM. It also discusses how the SoftIPT will work on wireless 802.11 networks. The SoftIPT is a software phone client that runs on wired or wireless laptops, tablets and desktop PCs with the Microsoft® Windows XP® operating software.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Hardware/Software Required The SoftIPT works with the Strata CTX100-S, CTX100 and CTX670 telephone systems with CTX R2.1 MG020 or higher. SoftIPT operation requires a wired or wireless 802.11 connection over the IP network (Internet, WAN, LAN, etc.) to the CTX BIPU-M2A or BIPU-M1A PCB with firmware version 07e or higher IP interface.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Step 1: Install SoftIPT Follow these instructions to install the SoftIPT on a tablet, laptop or desktop PC. 1. Insert the SoftIPT CD-ROM into your CD-ROM drive. 2. From the Main Menu, select “Install SoftIPT.” The InstallShield Wizard performs “Preparing to Install.” 7050 3. In the Welcome window (shown right), click Next. 4. Read the TAIS TSD License Agreement, select “I accept the terms in the license agreement,” then 5.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT 11. In the Softphone Setting window (shown under “Before You Begin” on page 9-19), enter the following: • • • • • Note SoftIPT extension Outgoing Prefix (outside line access code, if required) Long Distance prefix IP address of BIPU-MXX (xx = version number). See your System Administrator for this address If there are multiple network adapters, select the one for SoftIPT.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Making a Call The Toshiba SoftIPT integrates the power of a PC with all of the features available on a DKT3000series telephone, except background music. The main difference is that you use a mouse or stylus to select buttons. Other than these few differences, you can use most of the features described in the Strata CTX DKT/IPT User Guide, available on the Internet FYI site, Documentation > User Guides.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Creating a Directory You can create a directory with Microsoft Outlook 2002 (not Outlook Express). 1. Open Microsoft Outlook 2002. 2. Double click on the Contacts icon, click on the New contact icon. 3. Type in the contact information, click Save and Close. Add as many entries as desired. To edit an entry, double click on the name to open. 4. Open the Soft Phone. 5. Click More Features twice, click Directory.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Labeling Feature Buttons From the Softphone Setting window, you can change six of the telephone button labels. Changing the label does not change the function. To change the function, see “Programming Feature Buttons” in the Strata CTX DKT/IPT User Guide. ³ To find out what features are assigned to the feature buttons 1. Dial #9876 to enter user programming mode. 2. Click on HOLD, then click on the feature button.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Using the Call Log The SoftIPT keeps a log of incoming and outgoing calls. ³ To access the Call Log 1. Click More Features until you see the Call Log button. 2. Click Call Log. The log displays (shown right). From this screen, you can: 3. Click Redial to dial the last outgoing number You can click Close to close this screen and return to the dial pad to enter an access code or to access the Mute, Voicemail, Directory or other buttons.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Application Notes for Wireless 802.11 Networks The Toshiba SoftIPT™ works on wireless 802.11 networks. However, current access point technology does not provide for the management of quality of service over the wireless network, which can result in a few observable degradations in voice quality. Our objective here is to describe these issues for the network engineer, and offer some recommendations.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT Wireless Recommendations Follow these recommendations when using the SoftIPT on a wireless network. • Ensure that no more than seven SoftIPT clients are working through a single access point at one time. • Engineer your wireless network so that there is good signal strength everywhere wireless terminals will be used. • Use the ping program to test your wireless network. In Microsoft® Windows® perform the following: 1. Select Start > Run. 2.
IP Telephony and QSIG Over IP Installing and Operating the SoftIPT • The Conf button works the same as the Cnf/Trn (Conference/Transfer) button on the DKT/ IPT telephones. • You can make a Windows “shortcut” and add it to your program menu or add it as a Quick Launch item using the standard Windows method. The SoftIPT application does not automatically do this. • When you exit the SoftIPT, any Call Forwarding that you set also turns off. • Make sure that you are running only one version of the SoftIPT.
IP Telephony and QSIG Over IP CTX IP Troubleshooting CTX IP Troubleshooting This section provides guidelines for troubleshooting the CTX with IP. It covers the kind of data to collect for troubleshooting and how to collect it. Toshiba TSD Technical Support will require collecting data for diagnosing problems. IP Telephone Ping Test The IPT sends 10 ping packets of 64 bytes. The time lapse between ping packets is one second. The time that the IPT waits for a reply is five seconds.
IP Telephony and QSIG Over IP CTX IP Troubleshooting LCD Network Failure Displays When LCD Network failure occurs between BIPU and IPT, IPT displays one of the following LCD messages. Table 9-8LCD Network Failure Conditions 1. LCD Indication Failed in TCP connection with BIPU. Remarks BIPU TCP CONNECT ERROR 2. Cut off TCP connection with BIPU. BIPU TCP PORT IS CLOSED 3. Keep alive error (DCH data from BIPU was stopped 20 seconds or more.
IP Telephony and QSIG Over IP CTX IP Troubleshooting 2. Log onto the BIPU. At “A.B.C.D login:” prompt, type root A.B.C.D login: root (*) A.B.C.D: BIPU IP address programmed in Program 151-FB01. 3. Display the log files and put them into the text file. # cat Log0.log # cat Log0.err (*) Log0.log contains the all contents of Log0.err. Check Log0.log/Log0.
IP Telephony and QSIG Over IP CTX IP Troubleshooting Verify CTX/BIPU/IPT Hardware, Software and Firmware Version Mandatory Data Which CTX BIPU BIPS IPT What How Example Software Program 901 FB1 NA200MF010, SA200MF009 Hardware Labeled on card CM4, CM5, PM FPGA Labeled on chip V.03, V.
IP Telephony and QSIG Over IP CTX IP Troubleshooting CTX100 Slot 1 2 3 4 5 6 7 8 Base/ Exp. Network Information Network Equipment that BIPU/IPT Directly Connects To • Switching Hub (Layer2 Switch) Port • Repeater Hub Port • Router Port • Layer3 Switch Port Acceptable settings are shown in the table below. Switching Hub IEEE802.
IP Telephony and QSIG Over IP CTX IP Troubleshooting Capture Packets Packet types to be captured are: Protocol Name Type Use, Purpose RAS (H.225) udp for searching BIPU and registering IPT with the system MEGACO+ tcp call control protocol RTP udp carry the voice data RTCP udp System uses this protocol to measure the round-trip delay of rtp packets between BIPU and IPT (currently unavailable).
IP Telephony and QSIG Over IP CTX IP Troubleshooting Capture Points The capture point for the BIPU and the IPT are shown in Figure 9-12.
IP Telephony and QSIG Over IP CTX IP Troubleshooting Using PC or Workstation With Multiple Network Interfaces Start capture tool and specify the network interface face on BIPU/IPT. See Figure 9-15. Strata CTX Monitor device Switch BIPU IP Network 6710 Network Interface card Figure 9-15 PC or Workstation With Multiple Network Interfaces Requirement for Capture Tool The following is the better, but not mandatory. • Support GUI format (summary, details and dump). • Enable to decode VoIP protocols.
IP Telephony and QSIG Over IP CTX IP Troubleshooting Table 9-10 No. IP Troubleshooting Problems and Resolutions (continued) Problem Action Check the network equipment located on the routing path between BIPU and IPT. 3 IPT has harsh noise during talking or hearing any tone. “Capture the network traffic between BIPU and IPT, and analyze the captured data. Cause How to Resolve Replace to Switching HUB. Repeater HUB was used. Path band-width of the network between BIPU and IPT was too narrow.
IP Telephony and QSIG Over IP CTX IP Troubleshooting Table 9-10 No. IP Troubleshooting Problems and Resolutions (continued) Problem Action Cause How to Resolve IPT Problems: Verify the following: 1. BIPU is running (heart-beat LED is blinking). 9 10 11 12 13 14 “IPT shows ““BIPU not found””.” “IPT shows ““Can’t get StationID””.” “IPT shows ““StationID unmatch””.” “IPT shows ““Not exist Multicast addr””.” “IPT shows ““Not exist BIPU addr””.” “IPT shows ““Can’t register IPT:E0””.” 2.
IP Telephony and QSIG Over IP CTX IP Troubleshooting Table 9-10 No. IP Troubleshooting Problems and Resolutions (continued) Problem Action Cause How to Resolve IPT Problems: 15 “IPT shows ““Can’t register IPT:E4””.” 16 “IPT shows ““Can’t register IPT:E11””.” 17 “IPT shows ““Can’t register IPT:E13””.” Find the IPT which has same Station ID. “Check CTX applies Terminal Authentication feature, or, IP address filtering. Verify Prog 150 FK2 and Prog 250 FK5, FK6 for Terminal Authentication.
IP Telephony and QSIG Over IP Private Networking Over Internet Protocol Private Networking Over Internet Protocol Strata Net CTX multi-system networking can be implemented over an IP network using Strata CTX systems with BIPU-Q1A IP interface PCBs. The BIPU-Q1A requires CTX Release 2.1 software. This feature offers the same connection service as ISDN dedicated lines with QSIG protocol on the public network. QSIG over IP, like any other IP device (i.e., Cisco routers, etc.
IP Telephony and QSIG Over IP Private Networking Over Internet Protocol Strata Net QSIG Over IP and IPT Bandwidth Requirements The bandwidth requirements for Strata Net QSIG over IP is the same as those for IP telephones. Refer to Table 9-1 on page 9-5 to estimate the quality of service (Excellent, Good, Fair, and Poor) provided by CTX IP QSIG channels depending heavily on the LAN parameters.
IP Telephony and QSIG Over IP Private Networking Over Internet Protocol So the amount of bandwidth that is required on a segment to support a specific number of calls is the sum of the number of channels multiplied by the bandwidth for the selected CODEC and interval, plus the bandwidth required for the selected number of busy hour call attempts. And the jitter is determined by the bandwidth of the WAN segment. Example: If you want to support 4 calls using the G..711 CODEC with a 20 msec.
10 MDF PCB Wiring This chapter contains point-to-point wiring diagrams for connection of telephones, lines, peripheral equipment, and power supplies for the universal slot PCBs of the Strata CTX system.
MDF PCB Wiring Station Loop Lengths Station Loop Lengths In a single site installation, the Base and optional Expansion Cabinets must be placed within the allowed maximum distance of each other as designated by Table 10-1 Table 10-1 Station Loop Lengths1 Maximum line length (24 AWG) Mode 1 Pair2 2 Pair 1 Pair plus external power 3 DKT3000 or DKT2000-series 4 DKT with BVSU or DVSU DKT with BHEU or HHEU 1000 ft.
MDF PCB Wiring Station Loop Lengths DKT3000-series telephone loop limits are in Table 10-2. Table 10-2 Loop Limits for DKT3000-series Telephones Telephone/Device DKT3000-series or DKT2000series models3, DKT with BVSU or DVSU or DKT with BHEU or HHEU Power Supply Unit (PSU) or Battery Backup Maximum line length (24 AWG) 1 Pair1 2 Pair 1 Pair plus external power2 PSU 1000 ft. (303m) Battery Backup 675 ft. (204m) PSU 1000 ft. (303m) Battery Backup 500 ft. (151m) PSU 1000 ft.
MDF PCB Wiring Station Wiring Diagrams Station Wiring Diagrams Building #1 Building #2 HESB PSTU RSTU/RSTU2/ RSTU3/ RDSU/RSTS/ ASTU/BSTU Standard Telephone DDSS Console Digital Telephone Digital Telephone or Cordless Base ADKU, BDKU/BDKS, BWDKU or PDKU Console Handset POW DDCB DTR PC Attendant Console DSR BATI MDFB MDFB DDCB RDTU, BPTU or RPTU 6687 CSU T1 Span Line or ISDN PRI Line Earth Ground REMU E&M Tie Line (to PSTA) RDDU DID Line Ground/Loop/ISDN BRI/ (to PSTA) E911 CAMA Lines (
MDF PCB Wiring Station Wiring Diagrams ADKU and BDKU/BDKS Digital Station Wiring To ADKU or BDKU/BDKS W/Female Connector W-BL ADKU or BDKU BL-W 1 W-O 27 O-W 2 W-GN 28 GN-W 3 W-BR 29 BR-W 4 W-S 30 S-W 5 R-BL 31 BL-R 6 R-O 32 O-R 7 R-GN 33 GN-R 8 R-BR 34 BR-R 9 R-S 35 S-R 10 BK-BL 36 BL-BK 11 BK-O 37 O-BK 12 BK-GN 38 GN-BK 13 BK-BR 39 BR-BK 14 BK-S 40 S-BK 15 Y-BL 41 BL-Y 16 Y-O 42 O-Y 17 Y-GN 43 GN-Y 18 Y-BR 44 BR-Y 19 Y-S 45 S-Y
MDF PCB Wiring Station Wiring Diagrams BWDKU Digital Station Wiring To BWDKU W/Female Connector W-BL 26 BL-W 1 W-O 27 O-W 2 W-GN 28 GN-W 3 W-BR 29 BR-W 4 W-S 30 S-W 5 R-BL 31 BL-R 6 R-O 32 O-R 7 R-GN 33 GN-R 8 R-BR 34 BR-R 9 R-S 35 S-R 10 BK-BL 36 BL-BK 11 BK-O 37 O-BK 12 BK-GN 38 GN-BK 13 BK-BR 39 BR-BK 14 BK-S 40 S-BK 15 Y-BL 41 BL-Y 16 Y-O 42 O-Y 17 Y-GN 43 GN-Y 18 Y-BR 44 BR-Y 19 Y-S 45 S-Y 20 V-BL 46 BL-V 21 V-O 47 O
MDF PCB Wiring Station Wiring Diagrams To Telephone T1 R1 T2 R2 Bridging Clips 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 66M150 Split Block Figure 10-4 Strata CTX I&M Y W BL T2 Telco-provide
MDF PCB Wiring Station Wiring Diagrams PDKU Digital Station Wiring 25-Pair Cable W/Male Amp Connector To PDKU W/Female Connector W-BL 26 BL-W 1 W-O 27 O-W 2 W-GN 28 GN-W 3 W-BR 29 BR-W 4 W-S 30 S-W 5 R-BL 31 BL-R 6 R-O 32 O-R 7 R-GN 33 GN-R 8 R-BR 34 BR-R 9 R-S 35 S-R 10 BK-BL 36 BL-BK 11 BK-O 37 O-BK 12 BK-GN 38 GN-BK 13 BK-BR 39 BR-BK 14 BK-S 40 S-BK 15 Y-BL 41 BL-Y 16 Y-O 42 O-Y 17 Y-GN 43 GN-Y 18 Y-BR 44 BR-Y 19 Y-S 45 S-Y
MDF PCB Wiring Station Wiring Diagrams Digital Telephone DSS and DDCB External Power Connection W-BL 26 BL-W 1 W-O 27 O-W 2 W-GN 28 GN-W 3 W-BR 29 BR-W 4 W-S 30 S-W 5 R-BL 31 BL-R 6 R-O 32 O-R 7 R-GN 33 GN-R 8 R-BR 34 BR-R 9 R-S 35 S-R 10 BK-BL 36 BL-BK 11 BK-O 37 O-BK 12 BK-GN 38 GN-BK 13 BK-BR 39 BR-BK 14 BK-S 40 S-BK 15 Y-BL 41 BL-Y 16 Jacketed Twisted Pairs 24AWG (1 Pair) Station Cabling Bridging Clips 1 1 2 2 3 3 4 4 5 5 6 6
MDF PCB Wiring Station Wiring Diagrams Table 10-3 BDKU Station MDF Cross Connect Record KSU Slot Number MDF Block Number Color Code 10-10 Designation W-Bl T Bl-W R W-O PRW-T O-W PRW-R W-G T G-W R W-Br PRW-T Br-W PRW-R W-S T S-W R R-Bl PRW-T Bl-R PRW-R R-O T O-R R R-G PRW-T G-R PRW-R R-Br T Br-R R R-S PRW-T S-R PRW-R Bk-Bl T Bl-Bk R Bk-O PRW-T O-Bk PRW-R Bk-G T G-Bk R Bk-Br PRW-T Br-Bk PRW-R Bk-S T S-Bk R Y-Bl PRW-T Bl-Y PRW-R Y-O T O-Y
MDF PCB Wiring Station Wiring Diagrams RDSU Wiring To RDSU W/Female Connector 25-Pair Cable With Male Amp Connector W-BL 26 BL-W 1 W-O 27 O-W 2 W-GN 28 GN-W 3 W-BR 29 BR-W 4 30 S-W 5 R-BL 31 BL-R 6 R-O 32 O-R 7 R-GN 33 GN-R 8 R-BR 34 BR-R 9 R-S 35 S-R 10 BK-BL 36 BL-BK 11 BK-O 37 O-BK 12 BK-GN 38 GN-BK 13 BK-BR 39 BR-BK 14 BK-S 40 S-BK 15 Y-BL 41 BL-Y 16 Y-O 42 O-Y 17 Y-GN 43 GN-Y 18 Y-BR 44 BR-Y 19 Y-S 45 S-Y 20 V-BL 46 BL-V
MDF PCB Wiring Station Wiring Diagrams Table 10-4 RDSU Station MDF Cross Connect Record MDF Block Number Color Code Designation W-Bl T Bl-W R W-O Not Used O-W Not Used W-G T G-W R W-Br Not Used Br-W Not Used W-S T S-W R R-Bl Not Used Bl-R Not Used R-O T O-R R R-G Not Used G-R Not Used R-Br T Br-R R R-S PWRT S-R PWRR Bk-Bl T Bl-Bk R Bk-O PWRT O-Bk PWRR Bk-G T G-Bk R Bk-Br PWRT Br-Bk PWRR Bk-S T S-Bk R Y-Bl PWRT Bl-Y PWRR V-S Data Ground S-
MDF PCB Wiring Station Wiring Diagrams RSTU or PSTU Analog Devices Wiring W-BL 26 BL-W 1 W-O 27 O-W 2 W-GN 28 GN-W 3 W-BR 29 BR-W 4 W-S 30 S-W 5 R-BL 31 BL-R 6 R-O 32 O-R 7 R-GN 33 GN-R 8 R-BR 34 BR-R 9 R-S 35 S-R 10 BK-BL 36 BL-BK 11 BK-O 37 O-BK 12 BK-GN 38 GN-BK 13 BK-BR 39 BR-BK 14 BK-S 40 S-BK 15 Y-BL 41 BL-Y 16 Y-O 42 O-Y 17 Y-GN 43 GN-Y 18 Y-BR 44 BR-Y 19 Y-S 45 S-Y 20 V-BL 46 BL-V 21 V-O 47 O-V 22 V-GN 48 GN-
MDF PCB Wiring Station Wiring Diagrams Table 10-5 RSTU/RSTU2/RDSU/RSTS/PSTU/PSTU2 Station MDF Cross Connect Record MDF Block Number Color Code Designation W-Bl T Bl-W R W-O Not Used O-W Not Used W-G T G-W R W-Br Not Used Br-W Not Used W-S T S-W R R-Bl Not Used Bl-R Not Used R-O T O-R R R-G Not Used G-R Not Used R-Br T Br-R R R-S Not Used S-R Not Used Bk-Bl T Bl-Bk R Bk-O Not Used O-Bk Not Used Bk-G T G-Bk R Bk-Br Not Used Br-Bk Not Used Bk-S T S-
MDF PCB Wiring Station Wiring Diagrams Power Failure Cut Through (DPFT) Wiring Pin-outs Table 10-6 Pair Pin 26 1 27 2 28 3 29 4 30 5 31 6 32 7 33 8 34 9 35 10 36 11 37 12 38 13 39 14 40 15 41 16 42 Color Code W-BI BI-W W-O O-W W-G G-W W-Br Br-W W-S S-W R-BI BI-R R-O O-R R-G G-R R-Br Br-R R-S S-R Bk-BI BI-Bk Bk-O O-Bk Bk-G G-Bk Bk-Br Br-Bk Bk-S S-Bk Y-Bl Bl-Y Y-O Lead Designation R 17 O-Y T R T R T R T R T R T R T R T R T R T R T R T R T R T R T R T R Spare Spare 18T 43 Y-G Spare R 18 G-Y Spa
MDF PCB Wiring Station Wiring Diagrams Table 10-7 Pair 10-16 DPFT Connector J1/Terminal Sequence & Designations/CO Line Connection & DPFT Control Pin Color Code Lead Designation Function PSTU/RSTU PCB Position 1t 26 W-BI T TIP-CO #1 R 1 BI-W R RING-CO #1 2T 27 W-O T TIP-PCOU/RCOU #1 #1 R 2 O-W R RING-PCOU/RCOU 3T 28 W-G T TIP-CO #2 R 3 G-W R RING-CO #2 4T 29 W-Br T TIP-PCOU/RCOU #2 R 4 Br-W R RING-PCOU/RCOU #2 5T 30 W-S T TIP-CO #3 R 5 S-W R R
MDF PCB Wiring Station Wiring Diagrams CO Line Wiring Diagrams RGLU2, RCOU or PCOU Wiring To Network Bridging Clips T1 R1 T2 R2 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 66M150 Split Block Figu
MDF PCB Wiring Station Wiring Diagrams Table 10-8 MDF Block Number 10-18 CO Line (RCOU/RCOS, RGLU2, RDDU, PEMU, REMU, RDDU, RDTU) MDF Cross Connect Record CO Line Number PCB Type and Cabinet Slot Number MDF Block Number CO Line Number PCB Type and Cabinet Slot Number MDF Block Number CO Line Number PCB Type and Cabinet Slot Number Strata CTX I&M 06/04
MDF PCB Wiring Station Wiring Diagrams RCOU/RCOS Wiring To Network T1 R1 T2 R2 Bridging Clips 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 66M150 Split Block 6 5 4 3 2 1 2 3 4 5 4 3 2 1 Modular Cord Same 5 4 3 2 R8 R7 T7
MDF PCB Wiring Station Wiring Diagrams RMCU/RMCS Wiring Diagram RJ-11 2-pin To Network or PSAP T1 R1 6 5 4 3 2 1 Ring Bridging Clips Tip 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 T1 R1 R 6 5 4 3 2 1 GN R1 T1 BK Y W BL T2 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 Ring 21 21 Tip 22 22 23 23 24 24 25 25 26 26 Ring 27 27 28 28 Tip 29 29 NB LED 30 30 CB LED 31 31 32 32 33 33 34 34 Ring 35 35 36 36 Tip
MDF PCB Wiring Station Wiring Diagrams RCIU1/RCIS or RCIU2/RCIS Wiring Bridging Jumper Wires R1 R GN R T1 R2 BK BK 6 5 4 3 2 1 2 3 4 5 T1 BK 6 5 4 3 2 1 T2 Y R2 Dealer Supplied Modular Block, 625-Type or Equivalent (See Notes) BL W GN R1 T2 Y R2 Dealer Supplied Modular Block, 625-Type or Equivalent (See Notes) BL W R T1 T2 Y GN R1 Dealer Supplied Modular Block, 625-Type or Equivalent (See Notes) BL W 6 5 4 3 2 1 2 3 4 5 2 3 4 5 CKT 7&8 5 4 3 2 R4 R3 T3 T4 Same CKT 3&4 6-
MDF PCB Wiring Station Wiring Diagrams DID and Tie Line Wiring To Network T1 R1 T2 R2 Bridging Clips 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 66M150 Split Block Y W BL T2 Telco-provided Modul
MDF PCB Wiring Station Wiring Diagrams REMU #4 #3 #2 #1 Same Pinout as Line #1 8-1 Line #4 To Network Jack Same Pinout as Line #1 8-1 Line #3 To Network Jack Same Pinout as Line #1 8-1 Line #2 8-1 Line #1 To Network Jack (USOC: RJ1CX) LEAD — PIN # SB M — — 8 7 SG T — — 6 5 R — 4 E — 3 4WR1 — 2 4WT1 — 1 MDF PCB Wiring To Network Jack 1600 Figure 10-14 MDF Wiring REMU 2/4 Wire Type I/II Strata CTX I&M 06/04 10-23
MDF PCB Wiring Station Wiring Diagrams PEMU Wiring To Network T R E M Bridging Clips 7 8 8 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 R GN R T * BK Y W BL Telco-provided Modular Block, 625-Type or Equivalent
MDF PCB Wiring Station Wiring Diagrams To Network T R T1 R1 E M Bridging Clips 1 1 2 2 3 3 4 4 5 5 6 6 7 7 8 8 T R T1 R1 E M R R GN T 9 9 10 10 11 11 12 12 13 13 14 14 15 15 16 16 17 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 30 31 31 32 32 33 33 34 34 35 35 36 36 37 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 DK Wire Pair Functions 50 D
MDF PCB Wiring Option Interface PCB Wiring Diagram Option Interface PCB Wiring Diagram This section covers wiring for the option interface PCB, the BIOU, which enables external paging, Night Bell, Night Transfer, Door Lock and BGM mute control. For more information and connection diagrams, see “External Page with BIOU Interface” on page 12-10.
Station Apparatus 11 This chapter provides instructions on how to connect telephones to the Strata CTX systems and how to configure and upgrade them for optional features. The Strata CTX systems can support Toshiba corded and cordless digital telephones, as well as most standard telephones provided by other suppliers. The digital telephone information in this chapter applies to the 3000-series and 2000-series telephones that connect to the PDKU, ADKU or BDKU/BDKS interface.
Station Apparatus 3000-series Telephone Installation 3000-series Telephone Installation Digital Telephone System Connection The following provides information on how to connect all 3000-series DKTs to the Strata CTX systems. 3000-series DKTs can be connected to the BDKU/BDKS and/or the PDKU interface PCB. To obtain all capabilities, the DKT3000-series telephone must be connected to the BDKU/ BDKS. For details on feature availability per station PCB, see Table 11-1.
Station Apparatus 3000-series Telephone Option PCBs CAUTION! When installing the station cable, do not run the cables parallel if they are within three feet of an AC power line. AC power lines should be crossed at right (90°) angles only. In particular, avoid running station wire pairs near devices that generate electrical noise, such as neon or fluorescent light fixtures. CAUTION! Do not use cleansers that contain benzene, paint thinner, alcohol or other solvents on the telephone's rubber feet.
Station Apparatus 3000-series Telephone Option PCBs Some of the option PCBs are compatible, meaning that more than one option can be added to a telephone. The following table shows which options are compatible. Table 11-3 Station Option Interface PCB Compatibility Item BPCI BPCI BHEU/ HHEU BVSU ADM X NC NC BHEU/HHEU X BVSU NC X X ADM NC X X NC NC X = Compatible, can be used together in the same telephone. NC = Not compatible, cannot be used together in the same telephone.
Station Apparatus 3000-series Telephone Option PCBs Telephone Speaker Off-hook Call Announce Upgrade (BVSU) To receive Speaker Off-hook Call Announce (OCA) calls over the digital telephone speaker, a digital telephone must be upgraded with a BVSU; the telephone making the call does not require a BVSU. Digital telephones do not require an additional wire pair to receive Speaker OCA call. The BVSU is not necessary to receive handset OCA. BVSU Upgrade Installation for DKT3000-series Telephones 1.
Station Apparatus 3000-series Telephone Option PCBs Telephone Base Captive Screws (One in Each Corner) Knock out for HHEU or BHEU Telephone Housing Telephone PCB 6122 Figure 11-2 Removing Telephone Base Fasten Two Screws To PCI/VSU Connectors on Telephone DKT3000-series, slide the BVSU under base tabs Red Wire 6066 Figure 11-3 BVSU Installation 11-6 Strata CTX I&M 06/04
Station Apparatus 3000-series Telephone Option PCBs Telephone Headset (BHEU) Upgrade The BHEU can be installed into the DKT3000-series telephones to enable headset or external ringer use. For information on connecting the external ringer, refer to “Telephone (BHEU) to External Speaker (HESB) Cable Connection” on page 12-18. The BHEU can also be installed into DKT3010 and DKT3020 telephones that have either a BVSU or BPCI installed.
Station Apparatus 3000-series Telephone Option PCBs 3. Make sure that the SW2 jumper plug is set to “NORMAL.” 4. If you do not want the handset receiver to work when the handset is on-hook and a headset (connected to BHEU) is being used, cut the HEU strap on the DKT PCB (see Figures 11-7 and 11-8). 5. Position the BHEU PCB (component side down) on the standoffs inside the base, and secure with the two provided screws (see Figure 11-5). 6.
Station Apparatus 3000-series Telephone Option PCBs Telephone Option Straps Certain option straps on the DKT3000-series phones must be cut when installing carbon handsets, external power or headsets. Refer to Table 11-6 and Figures 11-7~11-9 for further instruction.
Station Apparatus 3000-series Telephone Option PCBs W101 DKT3001 EX.
Station Apparatus 3000-series Telephone Option PCBs TAPI and Simultaneous Voice and Data Upgrades for 3000series Telephones (BPCI) Digital telephones can be upgraded with a Personal Computer Interface (PCI) to provide desktop interface with the telephone and PC USB port. The PC connected to the BPCI can place telephone calls, receive Caller ID, ANI, and DNIS information. The BPCI is compatible with Microsoft TAPI application programs. BPCI Installation 1.
Station Apparatus Install TAPI Service Provider Install TAPI Service Provider This Desktop Open Application Interface (OAI) Manual provides step-by-step instructions for installing the software application. 1. Insert the Strata CTX CD-ROM into your CD-ROM drive. From the Main Menu, click Install TSP. 2. Follow the on-screen instructions. Toshiba recommends that default settings be used, but alternate paths, program groups, etc., are offered to meet your specific needs. 3.
Station Apparatus Add/Edit TSP Configuration Information Add/Edit TSP Configuration Information 1. Select Start > Setting > Control Panel. Select either the Telephony or Phones and Modems (name is dependant upon the operating system used). 2. Select Advanced Tab to see a current list of providers. If “Toshiba CTX TAPI Service Provider” is not found, click ADD, select it and click OK. 3. Highlight “Toshiba CTX TAPI Service Provider” and click Configure.
Station Apparatus 3000-series, IPT1020-SD Button Layouts 3000-series, IPT1020-SD Button Layouts The button layout for the 3010- and 3020-series telephones and IPT1020-SD telephone are shown in Figure 11-12. The DKT3014, large LCD telephone has additional buttons for features and programming (see Figure 11-13).On the DKT3001, the Msg and Flex buttons are programmable (see Figure 11-14).
Station Apparatus 3000-series, IPT1020-SD Button Layouts FB buttons for 14-button phones DKT3014-SDL Mode Feature Page Scroll Q Z Msg Spdial Mic Redial Spkr Cnf/Trn Vol FB07 FB14 FB06 FB13 FB05 FB12 FB04 FB11 FB03 FB10 FB02 FB09 FB01 FB08 Hold 5442 Figure 11-13 DKT3014-SDL Buttons Station Apparatus Strata CTX I&M 06/04 11-15
Station Apparatus 3000-series, IPT1020-SD Button Layouts Msg Spdial Line Flex Spkr Cnf/Trn VOL Hold 5654 Figure 11-14 DKT3001 Buttons 11-16 Strata CTX I&M 06/04
Station Apparatus Telephone Settings Telephone Settings 3000-Series/IPT Telephones Telephone Programming Mode A The 3000-series telephones enable you to set a number of features directly from the phone, including: Call Waiting Tone (On/Off), Flex Key, Msg Key, LCD contrast, Speakerphone/ Microphone Room Noise Sensitivity (On/Off), and Country settings. “Telephone Programming Mode A” programs settings on a ROM chip inside the telephone. Note Some of the procedures use Feature Buttons (FB1, FB2, etc.).
Station Apparatus Telephone Settings Speakerphone/Microphone Sensitivity Adjustment When you are using the speakerphone, high ambient noise levels may cause the party you are talking with to be to cut off frequently. If this happens, follow these steps to lower the sensitivity of the microphone on a 3000-series telephone. The default is normal sensitivity. 1. Press 3+6+9+Hold (simultaneously). 2. Press 0. 3. Press Feature Button 3 (FB3) to toggle On/Off.
Station Apparatus Telephone Settings 3000-Series Telephones DKT2000 Mode On/Off If you have a cordless telephone (DKT2204-CT or DKT2304-CT) that is connected to a 3000series telephone, you must place your DKT into 2000-mode before connecting the cordless telephone; otherwise, the 3000-series telephone will not work. In 2000-mode: • Only 16 characters by two lines display on the LCD.
Station Apparatus Telephone Settings Msg LED On: Msg operates as Feature Button Msg LED Off: Works as a Msg button. 4. Press Hold to set the option. 5. Go off-hook, then on-hook to exit the program mode. Test the Display on Large LCD Telephones (DKT3014-SDL only) 1. Press 3+6+9+Hold (simultaneously). 2. Press Page. 3. Press 1. LCD screen is blank. 4. Press 2. Each segment shows three vertical lines, in all eight rows. 5. Press 3. Each segment contains five short horizontal lines, in all eight rows. 6.
Station Apparatus Digital Add-on Module Installation Digital Add-on Module Installation The DADM provides 20 buttons that can be flexibly programmed for any telephone feature that is provided by the Strata CTX system. There are two DADM models available—DADM3020 and DADM3120. The differences are shown in Table 11-8.
Station Apparatus Digital Add-on Module Installation (Smaller Connector) 4-Screws P1 P 2 (No Connection) 4-Screws 1 1 10 Second DADM 12 DADM Connection Plate (provided with DADM) DADM Base DADM Cable (Supplied with DADM) Remove Handset Hanger Black Wire to Pin 1 First DADM P1 P2 1 10 Telephone Base 1 Black Wire to Pin 1 12 1 DIU & ADM or PCI/ADM P1 of Bottom PCB Telephone DADMX020 DADMX020 DKT/IPT View of Bottom 6507 Figure 11-15 Digital Add-On-Module 11-22 Strata CTX I&M 06/04
Station Apparatus Tilt Stands Tilt Stands This section explains how to attach desktop tilt stands to 3000-series or 2000-series digital DKTs, the IPT1020-SD or to a DSS console. Use Tilt Stand model “BTSD” (not BTSA) with a standalone DKT, IPT or DSS. ³ To attach a Tilt Stand to a 3000-series DKT, IPT1020-SD or DSS 1. 2. 3. 4. Plug the phone jack into the bottom of the phone or DSS console. Slide the Address Tray out, then gently squeeze the tray and remove it (see Figure 11-16).
Station Apparatus Tilt Stands Tilt Stand Installation with Add-on Modules This section explains how to attach a tilt stand to a digital or IP telephone with one or two ADMs. Follow the instructions for the appropriate number of ADMs. Use Tilt Stand model “BTSA” (not “BTSD”) for telephones with one or two ADMs. ³ To attach a digital or IP telephone with one ADM to a Tilt Stand 1. 2. 3. 4. 5. 6. Complete the steps under “To install DADMs” on page 11-21. Make sure bottom phone jack is plugged in.
Station Apparatus Tilt Stands Release Button To remove the base from the tilt stand: 1. Push in lock release. 2. Open the tilt stand 90 degrees. 3. Pull the Base away from the stand to remove it.
Station Apparatus Tilt Stands Tilt Stand for DKT/IPT + Two ADMs Use Tilt Stand models “BTSA” for DKTs or IPTs with one or two ADMs. ³ To attach a Tilt Stand to a 3000-series DKT, IPT1020-SD with two ADMs 1. 2. 3. 4. 5. 6. Complete the steps under “To install DADMs” on page 11-21. Make sure bottom phone jack is plugged in. Remove Tilt Stand from Tilt Stand Base (see Figure 11-21). Place the spacers on the outer holes, as shown (see Figure 11-22). Attach Tilt Stand to bottom of DKT with screws.
Station Apparatus Telephone Wall Mounting 5849 Figure 11-23 Tilt Stands in Raised Position for DKT and Two ADMs Telephone Wall Mounting This section explains how to mount digital telephones to a wall. See the manufacturer’s documentation for instructions on mounting standard phones. Notes ● Digital telephones equipped with BPCIs or PDIU-DI2s cannot be wall mounted. ● DKT3014-SDL equipped with a BHEU cannot be wall-mounted.
Station Apparatus Telephone Wall Mounting 5. Connect the phone to the wall modular connector with a cord approximately four inches long (available at most telephone supply companies). 6. Route the cord into the hollow portion of the base. 1480 Figure 11-25 Wall Mounting Base Rotation 7. Mount the phone on the wall mounting modular connector plate. Handset Hanger 1479 Figure 11-26 Handset Hanger ³ To wall mount DKT3001 or DKT2001 digital SLTs Handset Hanger 1.
Station Apparatus Direct Station Selection (DSS) Console/System Connection Direct Station Selection (DSS) Console/System Connection The DSS console can be connected to a BDKU/BKDS or PDKU on any circuit. DSS consoles are associated with digital telephones via system programming. This section provides instructions on how to install the consoles.
Station Apparatus Cordless Digital Telephones Cordless Digital Telephones Toshiba offers two cordless digital telephone models, the DKT2204-CT and the DKT2304-CT (shown right). The DKT2204-CT uses digital spread spectrum and the DKT2304-CT uses digital narrow band technology.
Station Apparatus Cordless Telephone Installation Cordless Telephone Installation Step 1: Review Safety Instructions WARNING! Toshiba DOES NOT represent this unit to be waterproof. To reduce the risk of fire, electrical shock, or damage to the unit, DO NOT expose this unit to rain or moisture. ³ Read and understand all product instructions. ³ Follow all warnings and instructions marked on the product. ³ Cleaning precautions: • Unplug this product from the wall outlet before cleaning.
Station Apparatus Cordless Telephone Installation • If the product has been dropped, or the cabinet has been damaged. • If the product exhibits a distinct change in performance. ³ Do not use the telephone to report a gas leak in the vicinity of the leak. WARNING! Do not attempt to unplug any appliance during an electrical storm. ³ Unplug all electrical appliances when you know an electrical storm is approaching. Lightning can pass through the wiring and damage any device connected to it.
Station Apparatus Cordless Telephone Installation Step 2: Select Location 1. Select a location that is not subject to excessive heat or humidity. Keep the base unit and handset away from sources of electrical noise, such as motors and fluorescent lighting. 2. Determine if the base unit will sit on your desk or be wall mounted. If wall mounted, go to Step 6: “Wall Installation (Optional)” on page 36. 3.
Station Apparatus Cordless Telephone Installation Step 4: Connect Telephone Cables Your cordless telephone must be connected to a digital telephone PBX port. WARNING! ³ Never install telephone wiring during a lightning storm. ³ Never touch uninsulated telephone wires or terminals unless the telephone line has been disconnected at the network interface. ³ Use caution when installing or modifying telephone lines.
Station Apparatus Cordless Telephone Installation Step 5: Connect and Apply Power Base Unit 1. Plug the AC adapter cord into the AC adapter input jack on the base unit (shown at right). 2. Plug the AC adapter into a standard 120VAC wall outlet. 3. Check to see that the power LED is on. Charging Unit 1. Plug the AC adapter cord into the input jack on the charging unit (shown at right). 2. Plug the AC adapter into a standard 120VAC wall outlet. 3. Check to see that the CHARGE LED is on.
Station Apparatus Cordless Telephone Installation Step 6: Wall Installation (Optional) Important! You must place your DKT3000-series telephone into 2000-mode before connecting the cordless telephone; otherwise, the 3000-series telephone will not work. See “Place DKT3000-series Telephones into 2000-Mode” on page 33 for instructions. Standard Wall Plate Mounting These telephones are designed to be mounted on a standard wall plate. To attach the wall mount stand to the base unit: 1.
Station Apparatus Cordless Telephone Installation Direct Wall Mounting If you do not have a standard wall plate, you can mount your telephone directly on a wall. Before mounting your telephone, consider the following: • Select a location away from electrical cables, pipes, or other items behind the mounting location that could cause a hazard when inserting screws into the wall. • Make sure the wall material is capable of supporting the weight of the base unit.
Station Apparatus Cordless Telephone Installation Charging Unit Wall Mounting The charging unit is also designed to be wall mounted. Before mounting your charging unit, consider the following: • Select a location away from electrical cables, pipes, or other items behind the mounting location that could cause a hazard when inserting screws into the wall. • Make sure the wall material is capable of supporting the weight of the charging unit.
Station Apparatus Cordless Telephone Installation Step 7: Raise the Base Unit Antenna ³ Before using your handset, raise the base unit antenna to the vertical position. Step 8: Install Handset Battery Pack DKT2204-CT 1. Remove the battery cover by pressing the latch and sliding the cover down and off the handset. 2. Slide the battery pack down into the handset (shown right). 3. Securely close the battery compartment cover by sliding it up until it snaps into place. DKT2304-CT 1.
Station Apparatus Cordless Telephone Installation Step 10: Install Headset (Optional) The optional headset provides a hands-free option. With the headset installed, you can use the belt clip to carry the handset and conduct a conversation. All feature operations remain the same except the handset earphone and microphone are disconnected. ³ Open the cover over the headset jack that is located on the top of the handset and plug in the headset as shown at right.
Station Apparatus Cordless Telephone Troubleshooting and Specifications Cordless Telephone Troubleshooting and Specifications This section covers these topics: • Troubleshooting • Simultaneous conversation channels • Range and performance • Radio interference • Telephone line problems • More than one cordless telephone • Privacy • Specifications Troubleshooting If your cordless telephone is not performing to your expectations, try the suggestions in Table 1.
Station Apparatus Troubleshooting Low Battery Your cordless telephone comes equipped with one rechargeable battery: • DKT2204-CT: BT2499 battery that provides six hours of talk and four days of standby time (fully charged). • DKT2304-CT: BT930 battery that provides seven hours of talk and five days of standby time (fully charged). A “fast charge” in the handset and a “trickle charge” in the charging unit enables the extended talk and standby times.
Station Apparatus Simultaneous Conversation Channels Charging Spare Battery Packs (DKT2204-CT only) The charging unit of your cordless telephone is equipped to charge the spare battery pack with or without the handset in the front slot. 1. Slide the spare battery pack into the second slot in the charging unit until the retaining clip snaps over the top of the pack. 2. Make sure the BATT CHARGE indicator lights.
Station Apparatus Range and Performance Range and Performance The DKT2204-CT operates up to 1.1 miles and the DKT2304-CT .7 miles from its base in a completely unrestricted test environment. Typically, ranges of 300 to 400 feet are possible, depending on the building structure in which it is used.
Station Apparatus Specifications Specifications For frequencies, power requirements, weight and size specifications, see Table 2. Table 2 Specifications Feature DKT2204-CT DKT2304-CT General Frequency Control Modulation Phase Lock Loop Spread Spectrum Digital 0° to 50° C (+32° F to + 122°F) Operating Temperature Base Unit Receive/Transmit Frequency 902~928 MHz Power Requirements 10VDC from supplied AC adapter Size Width – 4.25 inches Depth – 7.5 inches Height – 2.25 inches Width – 4.
Station Apparatus 2000-series Telephones 2000-series Telephones The 2000-series digital telephones consist of four models: • DKT2010-S – 10-Button Digital Speakerphone • DKT2020-S – 20-button Digital Speakerphone • DKT2010-SD – 10-Button Digital Speakerphone with Liquid Crystal Display • DKT2020-SD – 20-Button Digital Speakerphone with LCD • DKT2020-FDSP – Same as DKT2020-SD with Full-duplex Speakerphone 2000-series Telephone Option PCBs Table 11-9 2000 Telephone Subassembly Upgrades Subassembly No.
Station Apparatus 2000-series Telephones 3. For the BVSU only, make sure that the SW1 and SW2 pins are set per Figure 11-30 and Table 11-5 on page 11-5. 20 Mu 30 20 A SW2 HFU SW1 SPF Move jumper to the middle position (20 Mu) for DKT2000 phones BVSU1A 6073 Figure 11-30 Speaker Off-hook Call Announce Upgrade (BVSU1A) Fasten Four Screws To PCI/VSU Connectors on Telephone 4. Position the BVSU/DVSU PCB on the standoffs), and secure with the four provided screws (see Figure 11-31). 5.
Station Apparatus 2000-series Telephones HHEU Installation See Figures 11-24 and 11-32~11-35 and follow these steps: 1. Loosen the four captive screws on the telephone base, and remove the base. 2. Use a screwdriver or other suitable tool to remove the plastic tab on the back of the base. (The HHEU modular connector for the headset is accessed through this opening.) 3. If installing a V.3 HHEU1, set the SW601 switch on the HHEU to headset for the headset or loud bell application. V.
Station Apparatus 2000-series Telephones 7. Connect the wire plug of the HHEU PCB to the HHEU connector on the PCB in the phone. 8. If an HESB will be connected to the HHEU (for Loud Ringing Bell), locate the EX.SP strap on the PCB in the telephone and cut the strap. 9. If a headset will be connected to the HHEU, locate and cut the HHEU strap on the PCB in the phone. Note If the HHEU PCB is removed from the phone, the HHEU strap must be replaced for proper telephone operation. 10.
Station Apparatus 2000-series Telephones ³ To adjust the volume of the HESB Loud Ringing Bell 1. Call the telephone connected to the HESB. 2. Adjust the volume control on the back of the HESB and the ring volume control on the telephone. Note TAPI and Simultaneous Voice and Data Upgrades (RPCI-DI or PDIU-DI2) for 2000-series Telephones is not available on the Strata CTX.
Station Apparatus 2000-series Telephones Busy Override and Camp-on Ring Tone Over Handset/Headset Option Busy override and camp-on ring tones can be sent over the DKT handset or headset, in addition to the speaker. ³ To send busy override/camp-on ring tones over the handset of the DKT2010-H model 1. Loosen the four captive screws on the telephone base (Figure 11-24), and remove the base. 2. Install a strap in the HS-BOV W409 location (see Figure 11-34). 3. Reinstall the telephone base.
Station Apparatus 2000-series Telephones DIP Switches The DKT2000 V.4 series telephones have DIP switches that enable use for the international market. The DIP switches are located underneath the flexible button key strip on the DKT2000 V.4 series telephones (see Figure 11-36). On the DKT2001, the DIP switch is located on the base.
Station Apparatus 2000-series Telephones DKT2020-FDSP Full-Duplex Speakerphone with External Microphone The DKT2020-FDSP is designed to allow both parties of a speakerphone call to speak simultaneously. This eliminates “clipping” and enables true two-way conversation. However, when two parties are talking simultaneously, the performance is not as good as on a handset. The technology necessitates some volume loss in this situation. An optional External Microphone can be connected for improved performance.
Station Apparatus 2000-series Telephones • Good – provides full-duplex operation with the Internal or External Microphone. This is ideal for a small office with high echo. • Normal – provides full-duplex operation with the Internal or External Microphone. This works well with an open office area, such as an office cubicle. Table 11-11 shows the switch positions for the three different settings.
Station Apparatus 2000-series Telephones s EXT MIC EXT MIC 5217 LOW HIGH 5218 Figure 11-37 RFDM Plug on DKT2020-FDSP RFDM Unit (OFF Position) Figure 11-38 RFDM Unit RFDM Unit (ON Position) 5352 Figure 11-39 External Microphone On/Off 5353 Station Apparatus RFDM Super Directional Microphone Figure 11-40 External Microphone Voice Pick-up Path Strata CTX I&M 06/04 11-55
Station Apparatus 2000-series Telephones Speech Training Mode When the DKT2020-FDSP is used in speakerphone mode, it adjusts to both the telephone line’s and room’s acoustic properties. At the beginning of each speakerphone call, the echo canceller must perform Speech Training by evaluating both the FDSP user and the far-end user’s voice, background noise and line quality.
Station Apparatus 2000-series Telephones ³ To toggle full/half-duplex mode ³ Press button 10 (see Figure 11-41) to turn full-duplex mode On or Off. Full-duplex mode: Button 10 LED Off. Half-duplex mode: Button 10 LED On. Notes ● ● ● Button 10 functions the same for Internal and/or External Microphone. If DIP switch 6 and 7, in Figure 12, are turned Off, the Full/half-duplex function of Button 10 is disabled. The DKT2020-FDSP’s full-duplex operation depends on the speaker volume setting.
Station Apparatus 2000-series Telephones 11-58 Strata CTX I&M 06/04
Peripheral Installation 12 This chapter provides information and diagrams for connecting peripheral equipment to the Strata CTX interface circuits.
Peripheral Installation Application PC and Server Interfaces • SMDR and SMDI or Stratagy VM Serial/RS-232 Interface – Application PC/servers equipped with standard RS-232 COM ports connect to the Strata CTX serial interface ports. The Strata CTX provides four RS-232 interface jacks on the BSIS PCB. The BSIS is an optional PCB that piggy backs on the system processor PCB (see Figures 12-6 and 12-7 for a connection diagrams).
Peripheral Installation Application PC and Server Interfaces Application PC or Server, Network or HUB Connection to Strata CTX Straight-pinned, 8-wire Modular Cord Pin Strata CTX ACTU or BBCU Processor TD+ 1 2 TDRD+ 3 RD6 Pin RD+ RDTD+ TD- 1 2 3 6 Network Interface RJ45 Jack PC or Server CTX WinAdmin Application NIC Straight-pinned, 8-wire Modular Cord Network Interface RJ45 Jack PC or Server LAN or ACD Application NIC Straight-pinned, 8-wire Modular Cord HUB Network Interface RJ45 Jack PC
Peripheral Installation Application PC and Server Interfaces Application PC or Server, Direct Connection to Strata CTX Cross-pinned, 8-wire Modular Cord Pin Strata CTX Pin RD+ TD+ 1 2 TDRD+ 3 RD6 ACTU or BBCU Processor RDTD+ TD- Application PC or Server 3 6 1 2 NIC CTX WinAdmin, Stratagy ES, Attd.
Peripheral Installation Application PC and Server Interfaces CTX Network Interface Jack (P7) (not used) (8) (not used) (7) 1 TD+ 2 TD- (6) 3 RD+ (not used) (5) 4 Not Used (not used) (4) 5 Not Used 6 RD- 7 Not Used 8 Not Used Pair 4 RD+ TD- Pair 1 Pair 3 5499 RD- (3) (2) Pair 2 (1) RJ45 ( 8-pin jack ) P4 TD+ Strata CTX uses Pairs 2 and 3.
Peripheral Installation Application PC and Server Interfaces Point-to-point TCP/IP RS-232 Cable BCTU, BECU or ACTU/ AMDS Modem 33.6 kbps v.34 Dial #19 Modem Flash or ROM and RAM RSTU Time Switch Local CTX WinAdmin PC Modem CO Line Telephone Network CO Line CO Line Circuit Strata CTX 5592 RS-232 Cable Remote CTX WinAdmin PC CTX Modem Programs and Dialing Numbers DID – Program 309: Ring direct to built-in modem.
Peripheral Installation Application PC and Server Interfaces BSIS Connector PPTC-9 2 3 6 4 1 5 (female) Connect to PC 9-pin COMX Port (DTE) 5 4 3 2 1 9 8 7 6 RD TD DSR DTR DCD SG DB9 Pinout (front view) 6 5 4 3 2 1 6 5 4 3 2 1 SG DCD DTR DSR TD RD Strata CTX Modular Jack Pinout (front view) BSIS Connector PPTC-25F (female) 3 2 6 20 8 7 8 7 6 5 4 3 2 20 Connect to PC 25-pin COMX Port (DTE) RD TD DSR DTR DCD SG 6 5 4 3 2 1 6 5 4 3 2 1 SG DCD DTR DSR TD RD Strata CTX Modular Jack Pinout (fr
Peripheral Installation Music-On-Hold/Background Music Interfaces Music-On-Hold/Background Music Interfaces Strata CTX provides up to 15 MOH/BGM music source interfaces via the ACTU or BECU system processor PCB, one or two BIOU optional interface PCBs, and RSTU standard telephone interface PCBs. The destination of each music source is determined by system programming. The music sources can be standard CD music players, telephony MOH machines and/or tape players, etc.
Peripheral Installation Music-On-Hold/Background Music Interfaces MOH/BGM Source Connections MOH/BGM Destination BECU PCB MOH/BGM Source 1 P3 RCA Jack VR 901 Volume Control MOH - Ground/Loop Start DIT and DISA CO lines are each assigned individually in Program 310, PK04. BIOU 1 PCB MOH/BGM Source 4 J3 MOH3 RCA Jack MOH3 Volume Control MOH/BGM Source 3 MOH - Analog DID and ISDN DID lines / individually for each DID number in Program 309, PK02.
Peripheral Installation External Page with BIOU Interface External Page with BIOU Interface Up to two BIOU interfaces can be installed for connecting external page equipment. Each BIOU can provide up to four unique page zones for a total of eight page zones maximum per system. The BIOU interfaces can be installed in the main cabinets and/or any remote cabinet. Each BIOU provides a 600ohm, non-amplified page output and an 8 ohm, 3-watt amplified page output.
Peripheral Installation External Page with BIOU Interface 66 Block Wiring MDF BIOU (1 or 2) PGOUT 1 (15) S-BK Jacketed Twisted Pair 24 AWG A PGIN 1 (40) BK-S C B Zone 1 Relay 1 Zone 1 / Zone 5 2 M B Zone 2 Relay PGOUT 2 (17) O-Y A PGIN 2 (42) Y-O C BR-Y Y-BR A BL-V A V-BL C Zone 2 / Zone 6 M B PGOUT 3 (19) Zone 3 Relay PGIN 3 (44) Zone 3 / Zone 7 C M B PGOUT 4 (21) PGIN 4 (46) Zone 4 Relay M Paging Amp SPTO (38) BK-GN PG Common (23) Output GN-BK Input 600 ohm SPRO
Peripheral Installation External Page with BIOU Interface 66 Block Wiring MDF BIOU B Zone 1 Relay PGOUT 1 (15) PGIN 1 (40) Jacketed Twisted Pair 24 AWG S-BK A 1 Zone 1 / Zone 5 BK-S C M PGOUT 2 (17) PGIN 2 (42) Output Input B Zone 2 Relay Amp 1 A O-Y Zone 2 / Zone 6 Y-O C M PGOUT 3 (19) PGIN 3 (44) Output Input B Zone 3 Relay Amp 2 A BR-Y Y-BR Zone 3 / Zone 7 C M Zone 4 Relay PGOUT 4 (21) PGIN 4 (46) A BL-V V-BL Zone 4 / Zone 8 C M 600 ohm SPRO (13) GN-BK SPTO (38) BK-
Peripheral Installation External Page with BIOU Interface Control Relays with BIOU Interface Up to two BIOU interfaces can be installed to provide control relays for Night Bell, Night Transfer, Door Lock and BGM mute control. Each BIOU provides four control relays for a total of eight relays (max.) per system. Each relay’s function is selected in system programming. BIOU interfaces can be installed in the main cabinets and/or any remote cabinet (see Figure 12-8).
Peripheral Installation Door Phone/Door Lock with DDCB Interface Door Phone/Door Lock with DDCB Interface The Strata CTX supports up to eight DDCB door phone control boxes. Each DDCB supports up to three MDFB door phones which provides a total of up to 24 door phones (see Figure 12-15). Each DDCB can provide a door unlock control relay in place of one of the door phones.
Peripheral Installation Door Phone/Door Lock with DDCB Interface Calling from a Door Phone Each door phone has a push button that rings selected telephones with one of three unique bingbong sounds. The door phone’s location displays on ringing telephone LCDs. The three bing-bong ring types are permanently assigned to each of the DDCB ports (A, B and C) as shown in Figure 12-16. Door phones can also be programmed to ring over the system’s external paging equipment.
Peripheral Installation Door Phone/Door Lock with DDCB Interface MDF DDCB3 J1 Power 3 4 2 5 PDKU, BDKU - T (voice data) R (voice data) KSU PR PT or BDKS 2 (any circuit) Circuit (one bing-bong ring per ring cycle) 3 4 J2 1 A 2 Door Phone A (two bing-bong rings per ring cycle) Lock Door SW2 3 4 N/C SW3 MDFB J3 1 B 2 MDFB MDFB Door Phone Door or Lock Control B N/O (one bing-bong ring per ring cycle-low pitch) Door Lock Relay Contact (24VDC, 1.
Peripheral Installation External Speaker Unit (HESB) Options External Speaker Unit (HESB) Options Strata CTX systems provide three options utilizing an HESB: • Telephone External Ringer • Amplified Page Speaker • Talkback Amplified Page Speaker with talkback System hardware requirements vary depending on the HESB option selected. See the following installation procedures for the hardware requirements for each option.
Peripheral Installation External Speaker Unit (HESB) Options 6. Connect terminal 8 of the HESB TB1 terminal block to the yellow (L2) wire of the HESC-65A cable using a modular block. 7. Connect the HACU-120 power supply’s +12V lead to terminal 1 of the HESB TB2 terminal block, and connect the power supply’s 0V lead to terminal 2. 8. Plug the provided power cord into the power supply and to a 115VAC ± 10VAC, 60Hz power source.
Peripheral Installation External Speaker Unit (HESB) Options To HEU connector on telephone Red Wire Turn BHEU component side down. BVSU or BPCI (optional) BHEU 5651 Figure 12-18 BHEU Installation EX.POWER W101 DKT3001 EX. POWER W101 W102 W102 P1 PCI /ADM P2 P3 W302 Carbon RED HEU W401 GND SET UP 12 W402 P1 RED HEU RED PCI /VSU EX.
Peripheral Installation External Speaker Unit (HESB) Options HESB (Rear View) Volume Control (+) (-) Internal Wiring: Jumper Wires: TB1 2-10 TB2 4-5 TBI 1 2 3 4 (L2) Voice 6 1 3 4 TB1 1 2 3 4 5 6 7 8 9 10 654321 654321 Not Used Not Used 115 VAC ± 10 VAC maximum HACU-120 115VAC to 12 VDC 24 AWG Jacketed Twisted Pair from Digital Telephone to HESB TB2 1 2 3 4 5 12V 0V Power Supply MDF 66 Block Jumpers Voice Door Phone 12V 0V Station Cabling Tip Ring PT PR 25-Pair Cable Jacketed Twisted Pair
Peripheral Installation External Speaker Unit (HESB) Options Step 3: Test the Telephone External Ringer Option 1. Test the AC input voltage by plugging power cord into the power supply and to a 115VAC±10VAC to 12VDC power source. 2. Make a CO or station call to the station configured for the loud ringing bell. Ringing will be heard over the HESB. 3. Use a small, slotted screwdriver to turn the volume control on the back of the HESB to the desired level and adjust the ring volume control on the telephone.
Peripheral Installation External Speaker Unit (HESB) Options ³ To test the amplified speaker option 1. Make an external page. The page should be heard over the HESB. 2. Verify that someone speaking into the door phone can be heard at the paging station. (With this application, pressing the door phone button is not required to talk back through the door phone.
Peripheral Installation External Speaker Unit (HESB) Options Talkback Amplified Page Speaker with Talkback Option The talkback amplified speaker option enables a talkback speaker to be provided in areas where a telephone is not needed. In this configuration, the HESB is connected to the BIOU 600 ohm (duplex) output and is used as the amplifier and speaker. A door phone unit (MDFB) is connected to the HESB, and serves as a microphone to provide talkback operation.
Peripheral Installation External Speaker Unit (HESB) Options MDFB (Rear View) Door Phone Talkback Microphone 1 600Ω Page Output L1 L2 Jacketed Twisted Pair 24 AWG Jacketed Twisted Pair 24 AWG BIOU BIOU switch, SW600must be in the SPO position 2 SPT (38, BK-GN) SPR (13, GN-BK) 25 Pair Cable MDF 66 Block Volume Control L1 L2 1 2 Jumper Wires: TB1 1-2 TB2 3-4 5-6 TB1 Modular Connector May Be Used Internal Wiring: TBI 4 3 TBI 7 8 9 10 1 2 3 4 5 6 7 8 9 10 654321 Voice 4 3 Door Phone
Peripheral Installation Power Failure Options Power Failure Options In the event of a power failure, Strata CTX uses these options: Reserve Power For information on the Reserve Power Option, see Chapter 1 – Installation. Power Failure Transfer Unit An optional Power Failure Transfer Unit (DPFT) can be installed that automatically connects up to eight selected CO lines directly to designated standard telephones in the event of a power failure.
Peripheral Installation Power Failure Options Power Failure Emergency Transfer (DPFT) Installation 1. Mount the DPFT on or near the MDF. Note See Chapter 10 – MDF PCB Wiring, DPFT/MDF interconnecting tables. 2. Using 25-pair cables with amphenol-type connectors (female for DPFT connector J1, male for DPFT connector J2), connect the DPFT to two 66-type quick-connect blocks. 3. Connect the CO lines selected for emergency use to the DPFT J1-block “CO-TIP” and “CORING” terminals. 4.
Peripheral Installation Station Message Detail Recording (SMDR) Station Message Detail Recording (SMDR) For each incoming, outgoing, tandem or conference call, the Strata CTX can generate a record that includes details of the call, including the originating station or trunk, the start time of the call, its duration, authorization codes, etc.
Peripheral Installation Station Message Detail Recording (SMDR) Table 12-2 Line SMDR Record Format Column 1(1) Name Record Type 2(1) Space 3-5(3) Record Number 6(1) Space 7-12(6) Node number 13(1) Space 14-20(7) Orig Information Format Notes “N”/”S”/”X”/”E”/”B”/ ”I”/”T”/”A”/”C”/”M” See “SMDR Record Types” on page 12-27.
Peripheral Installation Station Message Detail Recording (SMDR) SMDR Record Format (continued) Table 12-2 Line Column Name Format Notes 1(1) Spaces 2(1) New line “&” 3-19(17) Caller ID XXX…XXX Caller ID CESID “C”+ XXX…X CESID (Left positioned and padded spaces) 20(1) Spaces 21-24(4) DISA 25(1) Spaces “DISA” XXXXX...
Peripheral Installation Station Message Detail Recording (SMDR) Record Formats (Release 1.03) Table 12-4 Line SMDR Record Format (Software Release 1.03) Column 1(1) Name Record Type 2(1) Space 3-5(3) Record Number 6(1) Space 7-12(6) Node number 13(1) Space 14-22(9) Orig Information Format “N”/”S”/”X”/”E”/”B”/ ”I”/”T”/”A”/”C”/”M” See “SMDR Record Types” on page 12-27.
Peripheral Installation Station Message Detail Recording (SMDR) SMDR Record Format (Software Release 1.03) (continued) Table 12-4 Line Column Name Format 1(1) Spaces 2(1) New line “&” 3-19(17) Caller ID XXX…XXX CESID “C”+ XXX…X 20(1) Spaces 21-24(4) DISA 25(1) Spaces 26-38(13) ANI 39(1) Spaces 40-46(7) DNIS Notes Caller ID CESID (Left positioned and padded spaces) “DISA” XXXXX...
Peripheral Installation Station Message Detail Recording (SMDR) 12-32 Strata CTX I&M 06/04
Index Index A a law, 11-20 ABCS, 2-18, 3-10, 3-11, 3-12, 3-18, 3-23 ABR circuits, 3-22 license control, 2-4, 2-7 ABTC-3M, 3-10, 3-11, 3-12, 3-14 AC adapter, 11-35 access point, 9-26 ACD, 2-18 license control, 2-4, 2-7 ACTU, 2-18, 3-20, 3-21, 3-22, 3-23 ACTU2A, 2-2, 3-19 ACTU2A-S, 2-2 add-on modules capacities, 2-9 IPT, 9-10 addressing, 9-16 ADKU, 2-14, 6-3 ADM limits, 1-22 AETS, 2-18, 3-23 AMDS, 2-3, 2-7, 2-18, 3-23 amplified page speaker, 12-17 ANI, 2-12 APSU112, 2-18, 3-15, 3-16, 3-17, 3-22 APSU112A, 3-2
Index C~D BIPU-M1A, 9-2 BIPU-M2A, 2-15, 9-6, 9-42 BIPU-Q1A, 9-40, 9-42 BPCI, 11-11 BPSB, 4-39 BPTU, 2-17, 7-3, 7-4 BSIS, 2-3, 2-7, 2-18, 3-23 interface ports, 12-6 BSTU, 2-15, 6-11 busy override, 11-18, 11-51 buttons, 2-11 BVPU, 6-15 BVSU, 11-5 BWDKU, 2-15, 2-55, 6-17, 10-6 C cabinets (CTX670), 2-5 cabling DDCB/HDCB/MDFB, 12-14 call monitoring, 7-37 call park orbits, 2-12 caller ID, 2-12 interface, 2-16, 6-20 lines (see also BRI, PRI lines) CAMA trunk, 2-16 direct interface (RMCU/RCMS), 6-38 camp-on ring
Index E~I E E&M tie line unit, 2-17 E911 CAMA trunk, 2-16 direct interface (RMCU/RCMS), 6-38 subassembly (RCMS), 2-16 EMC ferrite core requirement, 7-23 ethernet LAN, 3-23 expansion cabinets, 2-3, 2-8, 4-33 Strata CTX I&M 06/04 installation, 4-6 external page, 12-10 BGM, 12-10 zones, 2-13 external ringer, 12-17 external speaker unit (HESB), 9-10, 12-17 Index PCBs, 6-8 system connection, 9-9, 11-2 upgrade, 11-5, 11-46 beep strap, 11-50 busy override/camp-on ring tone over handset/headset, 11-18, 11-51
Index L~O installing optional headset, 11-40 Internet Protocol (IP), 9-1 IP interface unit (BIPU-M2A), 9-6 telephone, 9-1, 11-13 add-on modules, 9-10 capacities, 2-9 ping test, 9-29 telephone installation, 9-8 telephony, 9-1 troubleshooting, 9-29 IPT, 9-1 anywhere, 9-13 bandwidth requirements, 9-41 interface PCB, 9-6 network connection, 9-13 PCB compatibility, 9-2 phone installation, 9-8 pre-installation guidelines, 9-1 security, 9-15 ISDN BRI, 2-10 R40S PCB, 7-18 RBSS PCB, 7-18 RBSU/RBSS, 7-14, 7-23, 7-24
Index P~R P Q QSIG, 2-10, 2-17, 2-56, 7-9 BPTU or RPTU, 7-13 Strata CTX I&M 06/04 Index paging, 12-17 external zones, 2-13 max.
Index S~U RDSU, 2-15, 6-30, 6-31 R48S ring generator, 6-30 RDTU, 2-17, 6-31, 6-32, 8-1, 8-2 RDTU1/2, 8-15 REBS, 7-18 remote CTX WinAdmin PC, 2-18 remote expansion cabinets, 2-9, 2-18, 4-55 REMU, 2-17 reserve power CTX100, 3-17 CTX670, 4-4 RGLU2, 2-16, 6-36 ring generator, 6-30 ring tones, 2-13 RMCU, 2-16, 6-39 RMCU/RCMS, 6-38, 10-20 RPTU, 7-3 RPTU2, 2-17 RRCU, 2-9, 4-55, 4-58 RSTS, 6-30, 6-31 RSTU, 6-11 RSTU2 illustration, 6-14 installation, 6-11, 6-38 RSTU3, 6-11 RWBFS, 4-35 S safety instructions, 11-31
Index V~W RDSU, 10-11 RSTU/PSTU/RSTU2 standard telephone/voice mail/ DPFT, 10-13 Index BWDKU, 6-17 PCOU2, 6-27 PDKU2, 6-19 RCIU1/RCIU2/RCIS, 6-20 RCOS, 6-22 RCOU/RCOS, 6-22 RCOU2, 6-27 RDDU, 6-28 RDSU, 6-30 REMU, 6-32 RGLU, 6-36 V verified account codes, 2-13 Virtual Private Network, 9-13 voice mail interface (Stratagy), 12-6 SMDI, 2-13 VoIP, 9-3 lines, 2-10 VPN, 9-2, 9-13 W wall installation charging unit wall mounting, 11-38 direct wall mounting, 11-37 standard wall plate mounting, 11-36 WinAdmin mod
