Hybrid IP-PBX Installation Manual Model KX-TDA100 KX-TDA200 Thank you for purchasing a Panasonic Hybrid IP-PBX. Please read this manual carefully before using this product and save this manual for future use. KX-TDA100/KX-TDA200: PMPR Software File Version 3.0000 or later SD Logo is a trademark.
System Components System Components Table Category Shelves Model No.
System Components Table Category Other Cards Model No.
Available Proprietary Telephones The Hybrid IP-PBX supports all of the Panasonic KX-T7000, KX-TD7000, KX-TCA, and KX-NT series: • Digital/Analogue/IP proprietary telephones (e.g., KX-T7625, KX-T7630, KX-T7633, KX-T7636, KX-NT136) • Portable stations (e.g., KX-TCA155, KX-TCA255, KX-TD7690) • DSS consoles (e.g., KX-T7640) • Single line telephones (e.g.
Important Safety Instructions SAFETY REQUIREMENTS When using your telephone equipment, basic safety precautions should always be followed to reduce the risk of fire, electric shock and injury to persons, including the following: 1. Read and understand all instructions. 2. Follow all warnings and instructions marked on the product. 3. Unplug the product from the wall outlet before cleaning. Do not use liquid cleaners or aerosol cleaners. Clean with a damp cloth. 4.
SAVE THESE INSTRUCTIONS 6 Installation Manual
Precaution • Keep the unit away from heating appliances and devices that generate electrical noise such as fluorescent lamps, motors and televisions. These noise sources can interfere with the performance of the Hybrid IP-PBX. • This unit should be kept free of dust, moisture, high temperature (more than 40 ˚C) and vibration, and should not be exposed to direct sunlight. If you are having problems making calls to outside destinations, follow this procedure to test the trunks: • 1.
For users in Finland, Norway and Sweden only • This unit may only be installed in a room or space with restricted access, and equipotential bonding must be applied. For information on earthing, refer to "2.2.5 Frame Earth Connection". For users in New Zealand only • This equipment shall not be set to make automatic calls to the Telecom '111' Emergency Service.
WARNING • • • • • • THIS UNIT MAY ONLY BE INSTALLED AND SERVICED BY QUALIFIED SERVICE PERSONNEL. IF DAMAGE TO THE UNIT EXPOSES ANY INTERNAL PARTS, DISCONNECT THE POWER SUPPLY CORD IMMEDIATELY AND RETURN THE UNIT TO YOUR DEALER. UNPLUG THIS UNIT FROM THE AC OUTLET IF IT EMITS SMOKE, AN ABNORMAL SMELL OR MAKES UNUSUAL NOISE. THESE CONDITIONS CAN CAUSE FIRE OR ELECTRIC SHOCK. CONFIRM THAT SMOKE HAS STOPPED AND CONTACT AN AUTHORISED PANASONIC FACTORY SERVICE CENTRE.
MODEL NO. SERIAL NO. DATE OF PURCHASE NAME OF DEALER DEALER'S ADDRESS DEALER'S TEL. NO.
Introduction This Installation Manual is designed to serve as an overall technical reference for the Panasonic Hybrid IPPBX, KX-TDA100/KX-TDA200. It provides instructions for installing the hardware, and programming the Hybrid IP-PBX using the KX-TDA Maintenance Console. The Structure of this Manual This manual contains the following sections: Section 1 System Outline Provides general information on the Hybrid IP-PBX, including the system capacity and specifications.
Precautions for Users in the United Kingdom FOR YOUR SAFETY, PLEASE READ THE FOLLOWING TEXT CAREFULLY. This appliance is supplied with a moulded three-pin mains plug for your safety and convenience. A 5 amp fuse is fitted in this plug. Should the fuse need to be replaced, please ensure that the replacement fuse has a rating of 5 amps and that it is approved by ASTA or BSI to BS1362. Check for the ASTA mark or the BSI mark on the body of the fuse.
How to replace the fuse: Open the fuse compartment with a screwdriver and replace the fuse and fuse cover. The equipment must be connected to direct extension lines, and a payphone should not be connected as an extension. 999 and 112 can be dialled on the apparatus after accessing the Exchange line for the purpose of making outgoing calls to the BT emergency services. During dialling, this apparatus may tinkle the bells of other telephones using the same line.
Table of Contents 1 System Outline ..................................................................................... 17 1.1 1.1.1 1.2 1.2.1 1.2.2 1.3 1.3.1 1.4 1.4.1 1.4.2 1.4.3 2 System Highlights........................................................................................................... 18 System Highlights .............................................................................................................18 Basic System Construction ........................................
2.4.11 2.4.12 2.4.13 2.5 2.5.1 2.5.2 2.5.3 2.5.4 2.5.5 2.5.6 2.5.7 2.5.8 2.6 2.6.1 2.6.2 2.6.3 2.6.4 2.6.5 2.6.6 2.6.7 2.7 2.7.1 2.7.2 2.7.3 2.7.4 2.8 2.8.1 2.8.2 2.8.3 2.8.4 2.8.5 2.8.6 2.8.7 2.8.8 2.9 2.9.1 2.9.2 2.9.3 2.9.4 2.9.5 2.9.6 2.9.7 2.9.8 2.10 2.10.1 2.11 2.11.1 2.12 2.12.1 2.13 IP-GW4 Card (KX-TDA0480) ......................................................................................... 101 IP-GW4E Card (KX-TDA0484) ..........................................................................
2.13.1 Starting the Hybrid IP-PBX ............................................................................................. 209 3 Guide for the KX-TDA Maintenance Console ................................... 211 3.1 3.1.1 3.2 3.2.1 3.3 3.3.1 4 Troubleshooting.................................................................................. 219 4.1 4.1.1 4.1.2 4.1.3 4.1.4 4.1.5 5 Overview ..............................................................................................................
Section 1 System Outline This section provides general information on the Hybrid IPPBX, including the system capacity and specifications.
1.1 System Highlights 1.1 System Highlights 1.1.1 System Highlights Networking Features This Hybrid IP-PBX supports the following networking features: TIE Line Service A TIE line is a privately leased communication line between 2 or more PBXs, which provides cost effective communications between company members at different locations. Virtual Private Network (VPN) VPN is a service provided by the telephone company. It uses an existing line as if it were a private line.
1.1 System Highlights Parallel Mode An SLT can be connected to an APT or DPT which is connected to a Super Hybrid Port of the PBX. The SLT shares the same extension number with the APT or DPT. EXtra Device Port (XDP) Mode An SLT can be connected to a DPT which is connected to a Super Hybrid Port of the PBX. Unlike parallel mode, XDP mode allows each telephone to act as an independent extension with its own extension number.
1.2 Basic System Construction 1.2 Basic System Construction 1.2.1 Basic Shelf The basic shelf contains an MPR card for controlling the Hybrid IP-PBX. To use the system, install a power supply unit (PSU) in the PSU Slot and optional service cards in the basic shelf.
1.2 Basic System Construction 1.2.
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1.3 Optional Equipment 1.3 Optional Equipment 1.3.1 Optional Equipment Model No. Model Name Description KX-TDA0103 L-Type Power Supply Unit (PSU-L) Power Supply Unit for KX-TDA200. Total power output of 279 W. Safety Class 1 compliant. KX-TDA0104 M-Type Power Supply Unit (PSU-M) Power Supply Unit for KX-TDA100 and KX-TDA200. Total power output of 140.4 W. Safety Class 1 compliant.
1.3 Optional Equipment Model No. Model Name Description KX-TDA0175 16-Port Single Line Telephone Extension with Message Lamp Card (MSLC16) 16-port extension card for SLTs with Message Waiting Lamp control and 4 power failure transfer (PFT) ports. Maximum power output of 160 V/90 V for Message Waiting Lamp control. KX-TDA0180 8-Port Analogue Trunk Card (LCOT8) 8-port analogue trunk card with 2 power failure transfer (PFT) ports.
1.3 Optional Equipment Model No. Model Name Description KX-TDA0480 4-Channel VoIP Gateway Card (IPGW4) 4-channel VoIP gateway card. Compliant with VoIP H.323 V.2 protocol, and ITU-T G.729a and G.723.1 CODEC methods. G3 fax support. KX-TDA0484 4-Channel VoIP Gateway Card (IPGW4E) 4-channel VoIP gateway card. Compliant with VoIP H.323 V.2 protocol, and ITU-T G.729a, G.723.1, and G.711 CODEC methods. KX-TDA0490 16-Channel VoIP Gateway Card (IP- 16-channel VoIP gateway card.
1.4 Specifications 1.4 Specifications 1.4.1 General Description Control Bus Original bus (16-bit, 8 MHz, 10 megabytes per second) Communication Bus H.100 bus conformity (1024 time slots) Switching Non-blocking Power Input PSU-S 100 V AC to 130 V AC, 1.4 A/200 V AC to 240 V AC, 0.8 A, 50 Hz/60 Hz PSU-M 100 V AC to 130 V AC, 2.5 A/200 V AC to 240 V AC, 1.4 A, 50 Hz/60 Hz PSU-L 100 V AC to 130 V AC, 5.1 A/200 V AC to 240 V AC, 2.
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1.4 Specifications 1.4.
1.4 Specifications 1.4.3 System Capacity Maximum Optional Service Cards There are 2 types of optional service cards for installation: • Cards installed in the slots of the Hybrid IP-PBX • Cards mounted on other optional service cards Notes • • Any card that exceeds the capacity of the Hybrid IP-PBX will be ignored. When the Hybrid IP-PBX starts up with an invalid configuration, some cards will be ignored. Cards Installed in the Slots of the Hybrid IP-PBX KX-TDA100 KX-TDA200 A B C B A.
1.4 Specifications The following number of optional service cards can be installed in the various slots of the Hybrid IP-PBX.
1.4 Specifications Maximum Number Card Type Extension Card Installed in KX-TDA100 KX-TDA200 Total 6 Total 8 6 8 DHLC8 DLC8 DLC16 SLC8 SLC16 Free Slot MSLC16 IP-EXT16 CSIF4 4 4 OPB3 4 4 CTI-LINK 1 1 CSIF8 *1 *2 When installing T1, E1, PRI30, PRI23, or IP-GW4 cards, make sure that the number of these cards × 2 + the number of other cards (including IP-GW4E cards) does not exceed 8. One T1, E1, PRI30, PRI23, or IP-GW4 card counts as 2 cards. However, one IP-GW4E card counts as 1 card.
1.4 Specifications Maximum Terminal Equipment The following number of items of terminal equipment can be supported by the Hybrid IP-PBX. For how to count the total number of items of equipment to be connected, refer to "MEC Card Calculation".
1.4 Specifications MEC Card Calculation Calculate the MEC figure from the type and total number of items of equipment to be connected. If the MEC figure exceeds 64 (for KX-TDA100) or 128 (for KX-TDA200), you need to install an MEC card.
1.4 Specifications Power Supply Unit Selection The Hybrid IP-PBX needs a power supply unit (PSU) suitable for its configuration. Calculate the load figure from the type and number of items of equipment to be connected, and determine the type of PSU that will be required.
1.4 Specifications Calculation Example (KX-TDA200) Equipment Type Load Figure KX-T7600 series DPT 48 units 48 Other DPT 2 units 8 SLC16 1 card 16 MSLC16 1 card 16 VPS 8 ports 8 Total 96 The total load figure is 96. As this is between 64 and 128, you should install the PSU-M. But if you expect expansion in the future, it may be better to install the PSU-L. There is no harm in installing a PSU that is larger than is required for the current configuration.
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Section 2 Installation This section describes the procedures to install the Hybrid IPPBX. Detailed instructions for planning the installation site, installing the shelves and optional service cards, and cabling of peripheral equipment are provided. Further information on system expansion and peripheral equipment installation is included.
2.1 Before Installation 2.1 Before Installation 2.1.1 Before Installation Please read the following notes concerning installation and connection before installing the Hybrid IP-PBX and terminal equipment. Be sure to comply with all applicable laws, regulations, and guidelines. Safety Installation Instructions When installing telephone wiring, basic safety precautions should always be followed to reduce the risk of fire, electric shock and injury to persons, including the following: 1.
2.1 Before Installation 4. Use 2-pair telephone cables when connecting PTs. Use 1-pair telephone cables when connecting SLTs, data terminals, answering machines, computers, Voice Processing Systems, etc. 5. Unplug the system from its power source when wiring, and plug the system back in only after all wiring is completed. 6. Mis-wiring may cause the Hybrid IP-PBX to operate improperly. Refer to Section 2 "Installation" when wiring the system. 7.
2.2 Installation of the Hybrid IP-PBX 2.2 Installation of the Hybrid IP-PBX 2.2.1 Unpacking Unpack the box and check the items below: KX-TDA100 KX-TDA200 1 1 1*2 1*2 Metal Bracket 1 1 Screw A 3 4 Screw B (Black) 2 6 Anchor Plug 3 4 Mini Plug (for pager and music source) 4 4 SD Memory Card 1 1 Main Unit AC Cord with a Ferrite Core*1 *1 *2 40 In Canada, there is no ferrite core attached to the AC cord. KX-TDA100BX/KX-TDA200BX is supplied with 2 types of AC cord.
2.2 Installation of the Hybrid IP-PBX 2.2.2 Names and Locations Inside View KX-TDA100 KX-TDA200 D D C C B A E F A. B. C. D. E. F. G. H. I.
2.2 Installation of the Hybrid IP-PBX 2.2.3 Opening/Closing the Front Cover Opening the Front Cover 1. Insert a flathead screwdriver into the opening (on the left of the screw cover) and unlatch the screw cover. Screw Cover 2. Turn the screw anticlockwise to loosen. 3. Slide the front cover to the right until it stops, then lift the front cover.
2.2 Installation of the Hybrid IP-PBX Closing the Front Cover 1. Hook the front cover onto the shelf (line up the protrusions on the cover with the receptacles on the shelf). Then slide the front cover to the left until it locks. 2. Turn the screw clockwise to tighten. 3. Secure the screw cover. 2 1 Notes • • For safety reasons, close the front cover and tighten the screw before operating the Hybrid IP-PBX. Do not forget to tighten the screw before securing the screw cover.
2.2 Installation of the Hybrid IP-PBX 2.2.4 Installing/Replacing the Power Supply Unit Function PSU Type Lower/Upper Input Voltage Range Current PSU-S (for KX-TDA100) Lower: 100 V AC to 130 V AC 1.4 A Upper: 200 V AC to 240 V AC 0.8 A PSU-M (for KX-TDA100/200) Lower: 100 V AC to 130 V AC 2.5 A Upper: 200 V AC to 240 V AC 1.4 A PSU-L (for KX-TDA200) Lower: 100 V AC to 130 V AC 5.1 A Upper: 200 V AC to 240 V AC 2.
2.2 Installation of the Hybrid IP-PBX 3. Never install or replace a PSU unless at least 20 s has elapsed after the AC supply and backup battery supply are disconnected. 4. To protect the back board from static electricity, do not touch parts on the back board in the main unit and PSU. To discharge static electricity, touch ground or wear an earthing strap. The following procedures are for installing or replacing a PSU only. Do not replace or remove the PSU for any other purpose.
2.2 Installation of the Hybrid IP-PBX 2. Push the release lever in the direction of the arrow, so that the PSU engages securely with the connector on the back board. Back Board Release Lever 3. Turn the 4 screws clockwise, in the order indicated by the numbers 1 to 4, to fix the PSU. 3 2 Screws 4 1 Replacing the Power Supply Unit 1. Unplug the AC power cord and Back-up Battery Cable.
2.2 Installation of the Hybrid IP-PBX 2. Turn the 4 screws anticlockwise to loosen them. Screws 3. Pull the release lever in the direction of the arrow to disconnect the PSU from the back board. Back Board Release Lever 4. Replace the PSU. New PSU Current PSU 5. Follow the steps in "Installing the Power Supply Unit".
2.2 Installation of the Hybrid IP-PBX 2.2.5 Frame Earth Connection IMPORTANT Connect the frame of the Hybrid IP-PBX to earth. 1. Loosen the screw. 2. Insert an earthing wire (user- Screw supplied)*. 3. Tighten the screw. 4. Connect the earthing wire to earth. Earthing wire To earth * For earthing wire, green-and-yellow insulation is required, and the cross-sectional area of the conductor must be more than 0.75 mm2 or 18 AWG. • • • 48 Be sure to comply with applicable local regulations (e.g.
2.2 Installation of the Hybrid IP-PBX 2.2.6 Backup Battery Connection The backup batteries and Back-up Battery Cable provide a backup power supply to allow full use of the Hybrid IP-PBX in the event of a power failure. In case of power failure, the backup batteries automatically maintain the power to the Hybrid IP-PBX without interruption.
2.2 Installation of the Hybrid IP-PBX Connecting Backup Batteries 1. Turn off the battery switch on the PSU. 2. Connect the Back-up Battery Cable to a set of 3 identical batteries.
2.2 Installation of the Hybrid IP-PBX 2.2.7 Installing/Removing the Optional Service Cards CAUTION To protect the back board from static electricity, do not touch parts on the back board in the main unit and on the optional service cards. To discharge static electricity, touch ground or wear an earthing strap. Note The optional service cards can be installed or removed while the DC power is supplied. However, when installing or removing the MPR card, the DC power supply must be turned off.
2.2 Installation of the Hybrid IP-PBX 2. Holding the card as shown below, push the release lever in the direction of the arrow so that the card engages securely with the connector on the back board. Back Board Release Lever 3. Turn the 2 screws clockwise to fix the card in place. Screws Note Make sure the screws are tightened to earth the card securely.
2.2 Installation of the Hybrid IP-PBX Covering the Blank Slots Be sure to cover each slot in which no optional service card is installed by using a Blank Slot Cover. CAUTION Failure to install the Blank Slot Cover may cause electromagnetic interference.
2.2 Installation of the Hybrid IP-PBX Handling of the Cables When cables are connected to the Hybrid IP-PBX, run the cables to either the right or the left and then towards the back of the shelf as shown below. 1 2 4 3 Note For safety reasons, do not stretch, bend, or pinch the AC power cord.
2.2 Installation of the Hybrid IP-PBX Removing the Optional Service Cards 1. Turn the 2 screws anticlockwise to loosen them. Screws 2. Pull the release lever in the direction of the arrow to disconnect the card from the back board. Pull the card from the shelf to remove it.
2.2 Installation of the Hybrid IP-PBX 2.2.
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2.2 Installation of the Hybrid IP-PBX 2.2.9 Attaching a Ferrite Core A ferrite core must be attached when: • connecting T1, E1, PRI, BRI, IP-GW16, and IP-EXT16 cards using an RJ45 connector (except in Canada, where the ferrite core is not necessarily required), or • connecting extension cards using an Amphenol connector. The ferrite core is included with the card. When connecting a T1/E1/PRI/IP-GW16/IP-EXT16 card Wrap the cable once around the ferrite core, then close the case of the ferrite core.
2.2 Installation of the Hybrid IP-PBX Note For every 4 cables, use 1 ferrite core; a ferrite core holds a maximum of 4 cables. When connecting an extension card Pass the cable through the ferrite core, then close the case of the ferrite core. Attach the ferrite core 3 cm away from the connector. 3 cm If you need to open the ferrite core, use a flathead screwdriver to unlatch the case of the ferrite core.
2.2 Installation of the Hybrid IP-PBX 2.2.10 Fastening Amphenol Connector An Amphenol 57JE-type connector is used on some of the optional service cards. To connect an Amphenol connector, use the spring latch or screw to fix the upper part and use Velcro ® tape to fix the lower part of the connector. Type A (Spring Latch + Velcro Tape) Type B (Screw + Velcro Tape) Velcro Tape Velcro Tape 1 Spring Latch Remove the screw on the optional service card.
2.2 Installation of the Hybrid IP-PBX Amphenol Connector Pin Assignment Chart Below is an Amphenol connector pin assignment chart for all optional service cards that use the Amphenol connector. For more details, refer to the appropriate section in "2.4 Information about the Trunk Cards" and "2.5 Information about the Extension Cards". Pin No.
2.2 Installation of the Hybrid IP-PBX 2.2.11 Wall Mounting (KX-TDA200) CAUTION • • Notes • • • • Make sure that the wall the shelf will be attached to is capable of supporting at least 4 times the weight of the shelf. Drive mounting screws into the wall. Be careful to avoid touching any metal laths, wire laths or metal plates in the wall. Do not block the openings of the shelf. Allow space of at least 20 cm above and 10 cm at the sides of the shelf.
2.2 Installation of the Hybrid IP-PBX 2. Hook the shelf onto the metal bracket, making sure that the shelf slides down and onto the hooked parts of the metal bracket. Use 2 screws (B) to fix both sides of the shelf.
2.2 Installation of the Hybrid IP-PBX 2.2.12 Wall Mounting (KX-TDA100) CAUTION • • Notes • • • • Make sure that the wall the shelf will be attached to is capable of supporting at least 4 times the weight of the shelf. Drive mounting screws into the wall. Be careful to avoid touching any metal laths, wire laths or metal plates in the wall. Do not block the openings of the shelf. Allow space of at least 20 cm above and 10 cm at the sides of the shelf.
2.2 Installation of the Hybrid IP-PBX 2. Hook the shelf onto the metal bracket, making sure that the shelf slides down and onto the hooked parts of the metal bracket. Use 2 screws (B) to fix both sides of the shelf.
2.2 Installation of the Hybrid IP-PBX 2.2.13 Floor Standing (KX-TDA200 Only) Notes • • • • Do not block the openings of the shelf. Allow space of at least 20 cm above and 10 cm at the sides of the shelf. Make sure that the surface behind the shelf is flat and free of obstacles, so that the openings on the back of the shelf will not be blocked. Make sure that the surface behind the shelf is not made of wood. Be careful not to drop the shelf. 1.
2.2 Installation of the Hybrid IP-PBX 3. Lift the shelf, attach it to the metal bracket, slide it backwards until it locks, and retain it with 2 screws (B). 2 1 TOP FRONT Screws (B) Metal Bracket 4. Fix the front cover on the shelf (refer to "2.2.3 Opening/Closing the Front Cover").
2.2 Installation of the Hybrid IP-PBX 2.2.14 Surge Protector Installation Overview A massive electrical surge can be caused if lightning strikes a telephone cable 10 m above ground, or if a telephone line comes into contact with a power line. A surge protector is a device that is connected to a trunk to prevent potentially dangerous electrical surges from entering the building via the trunk and damaging the Hybrid IP-PBX and connected equipment.
2.2 Installation of the Hybrid IP-PBX Outside Installation (Main Building) Surge Protector Trunk (Another Building) Trunk Extn. Terminal Board Extn. Surge Protector CS Extn. Extn. SLT Hybrid IP-PBX SLT PT PT CS Earth Extn.: Extension Line If you install an extension outside of the building, the following precautions are recommended: a. Install the extension wire underground. b. Use a conduit to protect the wire.
2.2 Installation of the Hybrid IP-PBX 1. Connect the earth rod to the surge protector using an earthing wire with a cross-sectional area of at least 1.3 mm2. 2. Bury the earth rod near the protector. The earthing wire should be as short as possible. 3. The earthing wire should run straight to the earth rod. Do not run the wire around other objects. 4. Bury the earth rod at least 50 cm underground. Notes • • 70 The above figures are recommendations only.
2.3 Information about the Main Processing Card 2.3 Information about the Main Processing Card 2.3.1 MPR Card Function Contains the main processor for all processes, basic shelf main protocol, time switch (TSW) control, detection of system clock alarm, basic shelf power down alarm, and watchdog timer overflow. An MEC card and an RMT card can be mounted on the MPR card (refer to "2.3.2 MEC Card (KX-TDA0105)" and "2.3.3 RMT Card (KX-TDA0196)").
2.3 Information about the Main Processing Card • A LITHIUM BATTERY IS USED IN THE MPR CARD. THERE IS A RISK OF EXPLOSION IF THE BATTERY IS REPLACED WITH THE INCORRECT TYPE. DISPOSE OF USED BATTERIES ACCORDING TO THE MANUFACTURER'S INSTRUCTIONS.
2.3 Information about the Main Processing Card 2.3.2 MEC Card (KX-TDA0105) Function Memory expansion card to increase system data storage space, enable Broadcasting and Call Billing for Guest Room features, and double the number of DPTs, using Digital XDP connection. To be mounted on the MPR card.
2.3 Information about the Main Processing Card 2.3.3 RMT Card (KX-TDA0196) Function Analogue modem card for remote communication with the Hybrid IP-PBX. ITU-T V.90 support. To be mounted on the MPR card.
2.4 Information about the Trunk Cards 2.4 Information about the Trunk Cards 2.4.1 LCOT4 Card (KX-TDA0183), LCOT8 Card (KX-TDA0180), and LCOT16 Card (KX-TDA0181) Function LCOT4: LCOT8: LCOT16: 4-port analogue trunk card with 2 power failure transfer (PFT) ports. 8-port analogue trunk card with 2 power failure transfer (PFT) ports. One CID8 or CID/PAY8 card can be mounted on the LCOT8 card (refer to "2.4.3 CID/PAY8 Card (KX-TDA0189)" and "2.4.4 CID8 Card (KX-TDA0193)").
2.4 Information about the Trunk Cards Pin Assignments Amphenol Connector 50 26 Notes • • 25 1 No. Signal Name Function No.
2.4 Information about the Trunk Cards 2.4.2 DID8 Card (KX-TDA0182) Function 8-port DID trunk card. LED Amphenol To DID line Accessories and User-supplied Items Accessories (included): Screws × 2 User-supplied (not included): Amphenol connector Notes • • To connect the Amphenol connector, refer to "2.2.10 Fastening Amphenol Connector". To confirm the trunk connection, refer to "Confirming the Trunk Connection" in "2.13.1 Starting the Hybrid IP-PBX".
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2.4 Information about the Trunk Cards 2.4.3 CID/PAY8 Card (KX-TDA0189) Function 8-port Caller ID signal type FSK/FSK (with Call Waiting Caller ID [Visual Caller ID])/DTMF, and 8-port Pay Tone Service (12 kHz/16 kHz). To be mounted on the LCOT8/LCOT16 cards. Set all DIP switches for ports 09-16 at "OFF" positions (LCOT16 card only). inside OFF OFF ON ON SW2 SW2 Ports 09-16 CID/PAY8 Card Screw Ports 01-08 SW1 SW1 ON ON OFF OFF Set all DIP switches for ports 01-08 at "OFF" positions.
2.4 Information about the Trunk Cards 2.4.4 CID8 Card (KX-TDA0193) Function 8-port Caller ID signal type FSK/FSK (with Call Waiting Caller ID [Visual Caller ID])/DTMF. To be mounted on the LCOT8/LCOT16 cards. LCOT16 card only OFF inside ON SW2 CID8 Card Screw SW1 ON OFF Accessories and User-supplied Items Accessories (included): Screws × 2 User-supplied (not included): none Note Only 1 CID8 card can be mounted on the LCOT8 card.
2.4 Information about the Trunk Cards 2.4.5 E&M8 Card (KX-TDA0184) Function 8-port E & M (TIE) trunk card. Type 5 support. LED Amphenol To terminal board from the E & M (TIE) line Accessories and User-supplied Items Accessories (included): Screws × 2 User-supplied (not included): Amphenol connector Notes • • • Connect this optional service card to the trunk through terminal board from the E & M (TIE) line; do not connect to the trunk directly. To connect the Amphenol connector, refer to "2.2.
2.4 Information about the Trunk Cards Pin Assignments Amphenol Connector 50 26 82 25 1 No. Signal Name Function No.
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2.4 Information about the Trunk Cards 2.4.6 T1 Card (KX-TDA0187) Function 1-port T1 trunk card. EIA/TIA standard compliant. A LEDs B RJ45 To NT1 / Extension Accessories and User-supplied Items Accessories (included): Ferrite core × 1 User-supplied (not included): RJ45 connector Notes • • • • When connecting this optional service card to the trunk, connect through NT1; do not connect to the trunk directly.
2.4 Information about the Trunk Cards Pin Assignments RJ45 Connector for Trunk Use 8 1 No. Signal Name Level [V] Function 1 RX+ (+) Receive data (+) 2 RX- (-) Receive data (-) 3 Reserved – – 4 TX- (-) Transmit data (-) 5 TX+ (+) Transmit data (+) 6-8 Reserved – – RJ45 Connector for Extension Use 8 1 No.
2.4 Information about the Trunk Cards Indication Colour Description SYNC Green Synchronisation status indication • OFF: Not synchronised • ON: Synchronised • Flashing (60 times per minute): Synchronised (Clock Master) Maximum Cabling Distance of Extension Connection The maximum length of the extension cable that connects the T1 cards is shown below: Diameter 0.
2.4 Information about the Trunk Cards 2.4.7 E1 Card (KX-TDA0188) Function 1-port E1 trunk card. ITU-T standard compliant.
2.4 Information about the Trunk Cards Switch Settings Switch Type Usage and Status Definition Termination Slide Select 120 Ω (default) or 75 Ω to match the connector type to be used. A/B Slide When using an RJ45 connector, select A (default) for trunk or B for extension use. When using BNC connectors, make sure that A is selected. Frame Ground Short Short pin J308 is for BNC (TX) outer conductor, and J309 is for BNC (RX) outer conductor.
2.4 Information about the Trunk Cards BNC (coaxial) Connector (RX) No.
2.4 Information about the Trunk Cards 2.4.8 BRI4 Card (KX-TDA0284) and BRI8 Card (KX-TDA0288) Function BRI4: BRI8: 4-port ISDN Basic Rate Interface card with 1 power failure transfer port. EURO-ISDN/ETSI compliant. 8-port ISDN Basic Rate Interface card with 1 power failure transfer port. EURO-ISDN/ETSI compliant.
2.4 Information about the Trunk Cards Switch Settings Switch Type Usage and Status Definition A/B Slide Select A (default) for trunk or B for extension use. Pin Assignments RJ45 Connector for Trunk Use 8 1 No. Signal Name Level [V] Function 1-2 Reserved – – 3 TX1 (+) Transmit data 1 4 RX2 (+) Receive data 2 5 RX1 (-) Receive data 1 6 TX2 (-) Transmit data 2 7-8 Reserved – – RJ45 Connector for Extension Use 8 1 No.
2.4 Information about the Trunk Cards Indication Colour Description LINE 8 LINE 7 LINE 6 LINE 5 LINE 4 LINE 3 LINE 2 LINE 1 Green Line status indication (LINE 1 to LINE 8): Refer to "LINE LED Pattern" below for details. Note LINE 5 to LINE 8 are for BRI8 card only.
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2.4 Information about the Trunk Cards 2.4.9 PRI30 Card (KX-TDA0290CE/CJ) Function 1-port ISDN Primary Rate Interface card (30B channels). EURO-ISDN/ETSI compliant.
2.4 Information about the Trunk Cards Switch Settings Switch Type Usage and Status Definition Termination Slide Select 120 Ω (default) or 75 Ω to match the connector type to be used. A/B Slide When using an RJ45 connector, select A (default) for trunk or B for extension use. When using BNC connectors, make sure that A is selected. Pin Assignments RJ45 Connector for Trunk Use 8 1 No.
2.4 Information about the Trunk Cards BNC (coaxial) Connector (RX) No.
2.4 Information about the Trunk Cards Maximum Cabling Distance of Extension Connection The maximum length of the extension cable that connects the PRI30 cards is shown below: Diameter 0.
2.4 Information about the Trunk Cards 2.4.10 PRI23 Card (KX-TDA0290) Function 1-port ISDN Primary Rate Interface card (23B channels). NI (North American standard ISDN protocol) compliant. A LEDs B RJ45 To NT1/ Extension Accessories and User-supplied Items Accessories (included): Ferrite core × 1 User-supplied (not included): RJ45 connector Notes • • • • When connecting this optional service card to the trunk, connect through an NT1; do not connect to the U interface of the trunk directly.
2.4 Information about the Trunk Cards Pin Assignments RJ45 Connector for Trunk Use 8 1 No. Signal Name Level [V] Function 1 RX+ (+) Receive data (+) 2 RX- (-) Receive data (-) 3 Reserved – – 4 TX- (-) Transmit data (-) 5 TX+ (+) Transmit data (+) 6-8 Reserved – – RJ45 Connector for Extension Use 8 1 No.
2.4 Information about the Trunk Cards Indication Colour Description SYNC Green Synchronisation status indication • OFF: Not synchronised • ON: Synchronised • Flashing (60 times per minute): Synchronised (Clock Master) D-LINK Green Data link status indication • OFF: Not established • ON: Established Maximum Cabling Distance of Extension Connection The maximum length of the extension cable that connects the PRI23 cards is shown below: Diameter 0.
2.4 Information about the Trunk Cards 2.4.11 IP-GW4 Card (KX-TDA0480) Function 4-channel VoIP gateway card. Compliant with VoIP H.323 V.2 protocol, and ITU-T G.729a and G.723.1 CODEC methods. G3 fax support.
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2.4 Information about the Trunk Cards 2.4.12 IP-GW4E Card (KX-TDA0484) Function 4-channel VoIP gateway card. Compliant with VoIP H.323 V.2 protocol, and ITU-T G.729a, G.723.1, and G.711 CODEC methods.
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2.4 Information about the Trunk Cards 2.4.13 IP-GW16 Card (KX-TDA0490) Function 16-channel VoIP gateway card. Compliant with VoIP H.323 V.2 protocol, and ITU-T G.729a, G.723.1, and G.711 CODEC methods.
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2.5 Information about the Extension Cards 2.5 Information about the Extension Cards 2.5.1 CSIF4 Card (KX-TDA0143) and CSIF8 Card (KX-TDA0144) Function CSIF4: 4-port CS interface card for 4 CSs. CSIF8: 8-port CS interface card for 8 CSs. LED RJ45 (LINE 1 to LINE 8) To CS Accessories and User-supplied Items Accessories (included): none User-supplied (not included): RJ45 connector Notes • • • LINE 5 to LINE 8 are for CSIF8 card only.
2.5 Information about the Extension Cards Pin Assignments RJ45 Connector 8 1 No.
2.5 Information about the Extension Cards 2.5.2 DHLC8 Card (KX-TDA0170) Function 8-port digital hybrid extension card for DPTs, APTs, SLTs, DSS consoles, and PT-interface CSs, with 2 power failure transfer (PFT) ports. LED Amphenol To extensions Accessories and User-supplied Items Accessories (included): Screws × 2, Ferrite core × 1 User-supplied (not included): Amphenol connector Notes • • • Attach the included ferrite core to the cable. Refer to "2.2.9 Attaching a Ferrite Core".
2.5 Information about the Extension Cards Pin Assignments Amphenol Connector 50 26 25 1 No. Signal Name Function No.
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2.5 Information about the Extension Cards 2.5.3 DLC8 Card (KX-TDA0171) Function 8-port digital extension card for DPTs, DSS consoles, and PT-interface CSs. LED Amphenol To extensions Accessories and User-supplied Items Accessories (included): Screws × 2, Ferrite core × 1 User-supplied (not included): Amphenol connector Notes • • 112 Attach the included ferrite core to the cable. Refer to "2.2.9 Attaching a Ferrite Core". To connect the Amphenol connector, refer to "2.2.
2.5 Information about the Extension Cards Pin Assignments Amphenol Connector 50 26 25 1 No. Signal Name Function No.
2.5 Information about the Extension Cards 2.5.4 DLC16 Card (KX-TDA0172) Function 16-port digital extension card for DPTs, DSS consoles, and PT-interface CSs. LED Amphenol To extensions Accessories and User-supplied Items Accessories (included): Screws × 2, Ferrite core × 1 User-supplied (not included): Amphenol connector Notes • • 114 Attach the included ferrite core to the cable. Refer to "2.2.9 Attaching a Ferrite Core". To connect the Amphenol connector, refer to "2.2.
2.5 Information about the Extension Cards Pin Assignments Amphenol Connector 50 26 25 1 No. Signal Name Function No.
2.5 Information about the Extension Cards 2.5.5 SLC8 Card (KX-TDA0173) Function 8-port extension card for SLTs with 2 power failure transfer (PFT) ports. LED Amphenol To extensions Accessories and User-supplied Items Accessories (included): Screws × 2, Ferrite core × 1 User-supplied (not included): Amphenol connector Notes • • • 116 Attach the included ferrite core to the cable. Refer to "2.2.9 Attaching a Ferrite Core". To connect the Amphenol connector, refer to "2.2.
2.5 Information about the Extension Cards Pin Assignments Amphenol Connector 50 26 25 1 No. Signal Name Function No.
2.5 Information about the Extension Cards 2.5.6 EXT-CID Card (KX-TDA0168) Function Sends Caller ID signals to extension ports. To be mounted on the SLC8 card only.
2.5 Information about the Extension Cards 2.5.7 SLC16 Card (KX-TDA0174) and MSLC16 Card (KXTDA0175) Function SLC16: MSLC16: 16-port extension card for SLTs with 4 power failure transfer (PFT) ports. 16-port extension card for SLTs with Message Waiting Lamp control and 4 power failure transfer (PFT) ports. Maximum power output of 160 V/90 V for Message Waiting Lamp control.
2.5 Information about the Extension Cards Pin Assignments Amphenol Connector 50 26 25 1 No. Signal Name Function No.
2.5 Information about the Extension Cards 2.5.8 IP-EXT16 Card (KX-TDA0470) Function 16-channel VoIP extension card. Compliant with Panasonic proprietary protocol, and ITU-T G.729a and G.711 CODEC methods. LEDs RJ45 (10BASE-T/100BASE-TX Full Duplex) To private IP network Accessories and User-supplied Items Accessories (included): Ferrite core × 1 User-supplied (not included): RJ45 connector Notes • • The maximum length of the cable to be connected to this optional service card is 100 m.
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2.6 Information about the Other Cards 2.6 Information about the Other Cards 2.6.1 OPB3 Card (KX-TDA0190) Function Optional 3-slot base card for mounting a maximum of 3 option cards from the following: • DPH4 card • DPH2 card • EIO4 card • ECHO16 card • MSG4 card LED Accessories and User-supplied Items Accessories (included): none User-supplied (not included): none CAUTION A LITHIUM BATTERY IS USED IN OPB3 CARD. THERE IS A RISK OF EXPLOSION IF THE BATTERY IS REPLACED WITH THE INCORRECT TYPE.
2.6 Information about the Other Cards 2.6.2 DPH4 Card (KX-TDA0161) Function 4-port doorphone card for 4 doorphones and 4 door openers. To be mounted on the OPB3 card. Fully insert the connectors through the panel openings.
2.6 Information about the Other Cards Pin Assignments 8-pin Terminal Block 1 8 No. Signal Name Function 1 DP4 Doorphone 4 transmit 2 com4 Doorphone 4 receive 3 DP3 Doorphone 3 transmit 4 com3 Doorphone 3 receive 5 DP2 Doorphone 2 transmit 6 com2 Doorphone 2 receive 7 DP1 Doorphone 1 transmit 8 com1 Doorphone 1 receive No.
2.6 Information about the Other Cards 2.6.3 DPH2 Card (KX-TDA0162) Function 2-port doorphone card for 2 German-type doorphones and 2 door openers. To be mounted on the OPB3 card. Fully insert the connectors through the panel openings.
2.6 Information about the Other Cards Pin Assignments 8-pin Terminal Block 1 8 No. Signal Name Function 1 Path_2b Doorphone 2 transmit 2 Path_2a Doorphone 2 receive 3 Call_2b Doorphone 2 call button 4 Call_2a Doorphone 2 call button com 5 Path_1b Doorphone 1 transmit 6 Path_1a Doorphone 1 receive 7 Call_1b Doorphone 1 call button 8 Call_1a Doorphone 1 call button com No.
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2.6 Information about the Other Cards 2.6.4 EIO4 Card (KX-TDA0164) Function 4-port external input/output card. To be mounted on the OPB3 card. Fully insert the connectors through the panel openings.
2.6 Information about the Other Cards Pin Assignments 8-pin Terminal Block 1 8 No. Signal Name Function 1 C4b Control 4 2 C4a Control 4 com 3 C3b Control 3 4 C3a Control 3 com 5 C2b Control 2 6 C2a Control 2 com 7 C1b Control 1 8 C1a Control 1 com No.
2.6 Information about the Other Cards External Sensor Power to the external sensor is provided from the EIO4 card and must be grounded through the EIO4 card as indicated in the diagram below. A pair of "sensor" and "common" lines are connected to the EIO4 card for each external sensor. The Hybrid IP-PBX detects input from the sensor when the signal is under 100 Ω. Connection Diagram Hybrid IP-PBX OPB3 EIO4 +5V 33 10K I/O 4.7K External Sensor +5V sensor 33 common 4.
2.6 Information about the Other Cards 2.6.5 ECHO16 Card (KX-TDA0166) Function 16-channel card for echo cancellation during conferences. To be mounted on the OPB3 card. OPB3 Card inside ECHO16 Card Screw Accessories and User-supplied Items Accessories (included): Screws × 3 User-supplied (not included): none Note To establish a conference call involving 6 to 8 parties, install an ECHO16 card and enable echo cancellation for conferences using the KX-TDA Maintenance Console.
2.6 Information about the Other Cards 2.6.6 MSG4 Card (KX-TDA0191) Function 4-channel message card. To be mounted on the OPB3 card.
2.6 Information about the Other Cards 2.6.7 CTI-LINK Card (KX-TDA0410) Function Ethernet card for CTI communication via 10BASE-T port. CSTA Phase 3 protocol compatible. LEDs RJ45 (10BASE-T) To LAN/ CTI Server Accessories and User-supplied Items Accessories (included): none User-supplied (not included): RJ45 connector Notes • • The maximum length of the cable to be connected to this optional service card is 100 m.
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2.7 Connection of Extensions 2.7 Connection of Extensions 2.7.1 Maximum Cabling Distances of the Extension Wiring (Twisted Cable) Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 222 m 347 m 500 m 347 m Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 500 m 720 m 830 m 720 m Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 140 m 229 m 360 m 229 m Cable ø 0.4 mm: ø 0.5 mm: ø 0.
2.7 Connection of Extensions 2.7.2 Parallel Connection of the Extensions Any SLT can be connected in parallel with an APT or a DPT as follows. Note In addition to an SLT, an answering machine, a fax machine or a modem (PC) can be connected in parallel with an APT or a DPT. With APT For parallel connection, eXtra Device Port (XDP) mode must be disabled for that port through system programming. Refer to "1.10.9 Parallelled Telephone" and "2.1.
2.7 Connection of Extensions Using an EXtra Device Port With KX-T7600 Series DPT (except KX-T7665) To DHLC8 card 2-conductor wiring cord Connect pins "T" and "R". 4-conductor wiring cord Connect pins "T", "R", "D1" and "D2". DPT SLT TO MAIN UNIT TO TEL / PABX To DHLC8 card To SLT With Other DPT (except KX-T7560 and KX-T7565) To DHLC8 card 2-conductor wiring cord Connect pins "T" and "R". 4-conductor wiring cord Connect pins "T", "R", "D1" and "D2".
2.7 Connection of Extensions 2.7.3 Digital EXtra Device Port (Digital XDP) Connection A DPT can be connected to another DPT on the Digital XDP connection. In addition, if the DPT is connected to a DHLC8 card, it can also have an SLT connected in Parallel mode or XDP mode. Notes • • • Both DPTs must be KX-T7600 series DPTs (except KX-T7640). Note that the KX-T7667 can only be connected as a slave DPT. Parallel mode or XDP mode can be selected through system programming.
2.7 Connection of Extensions Using an EXtra Device Port To DLC8/DLC16 card To DHLC8 card (for connection of SLT) 4-conductor wiring cord Connect pins "T", "R", "D1" and "D2". 4-conductor wiring cord Connect pins "T", "R", 2-conductor wiring cord "D1" and "D2". Connect pins "T" and "R". Master DPT Slave DPT SLT Back View of DPTs TO MAIN UNIT / PABX TO TEL Cable ø 0.4 mm: ø 0.5 mm: ø 0.
2.7 Connection of Extensions With KX-T7600E Series DPT Using a Modular T-Adaptor To DLC8/DLC16 card Modular T-Adaptor To DHLC8 card (for connection of SLT) 2-conductor wiring cord Connect pins "T" and "R". 4-conductor wiring cord Connect pins "D1" and "D2". 4-conductor wiring cord Connect pins "D1" and "D2". SLT Master DPT Slave DPT Back View of DPTs TO DIGITAL TO MAIN UNIT / PABX Cable ø 0.4 mm: ø 0.5 mm: ø 0.
2.7 Connection of Extensions Using an EXtra Device Port Connecting to a Slave DPT To DLC8/DLC16 card To DHLC8 card (for connection of SLT) 4-conductor wiring cord Connect pins "T", "R", "D1" and "D2". 4-conductor wiring cord Connect pins "T", "R", 2-conductor wiring cord "D1" and "D2". Connect pins "T" and "R". Master DPT Slave DPT SLT Back View of DPTs TO MAIN UNIT / PABX TO DIGITAL Cable ø 0.4 mm: ø 0.5 mm: ø 0.
2.7 Connection of Extensions Connecting to a Master DPT To DLC8/DLC16 card To DHLC8 card (for connection of SLT) 4-conductor wiring cord Connect pins "D1" and "D2". 4-conductor wiring cord Connect pins "T", "R", "D1" and "D2". Master DPT Slave DPT 2-conductor wiring cord Connect pins "T" and "R". SLT Back View of DPTs TO MAIN UNIT / PABX To DLC8/DLC16 card To DHLC8 card (for connection of SLT) TO DIGITAL TO TEL To slave DPT Cable ø 0.4 mm: ø 0.5 mm: ø 0.
2.7 Connection of Extensions 2.7.4 First Party Call Control CTI Connection CTI connection between a PC and a KX-T7633/T7636 DPT provides first party call control. The CTI connection is made via a USB interface (version 2.0), and uses the TAPI 2.1 protocol. A USB Module (KX-T7601) must be connected to the KX-T7633/T7636 DPT. Note The operating system of the PC required for first party call control depends on your CTI application software. For details, refer to the manual for your CTI application software.
2.8 Connection of DECT Portable Stations 2.8 Connection of DECT Portable Stations 2.8.1 Overview The following equipment is required to connect the wireless system: CS: Cell Station (KX-TDA0142CE/KX-TDA0141CE) KX-TDA0142CE Using a CSIF Card This unit determines the area covered by the wireless system. Up to 4 calls can be made at the same time through each CS. • CSIF4 (KX-TDA0143) One CSIF4 card supports up to 4 Cell Stations. • CSIF8 (KX-TDA0144) One CSIF8 card supports up to 8 Cell Stations.
2.8 Connection of DECT Portable Stations *2 KX-TDA100BX/KX-TDA200BX: 8 CAUTION • • • • • • The CS should be kept free of dust, moisture, high temperature (more than 40 ˚C), low temperature (less than 0 ˚C), and vibration, and should not be exposed to direct sunlight. The CS should not be placed outdoors (use indoors). The CS should not be placed near high-voltage equipment. The CS should not be placed on a metal object.
2.8 Connection of DECT Portable Stations 2.8.2 Procedure Overview When connecting the wireless system, use extreme care in conducting the site survey. Site surveys can be conducted using the KX-TCA255 or KX-TD7590 PS. An incorrectly performed site survey can result in poor service area, frequent noise, and disconnection of calls. 1. Investigate the installation site Refer to "2.8.3 Site Planning". a. Obtain a map of the CS installation site. b. Identify the service area required by the user on the map.
2.8 Connection of DECT Portable Stations e. Make sure that the radio signal strength level is greater than "3" at any location within the service area required by the user. 4. Finish the site survey Refer to "2.8.6 After Site Survey". a. Return all DIP switches of each CS to the OFF position, and stop supplying power. b. Turn off the PS. 5. Connect the CS and PS to the Hybrid IP-PBX and test the operation Refer to "2.8.7 Connecting a Cell Station to the Hybrid IP-PBX". a.
2.8 Connection of DECT Portable Stations 2.8.3 Site Planning Choosing the best site for the CS requires careful planning and testing of essential areas. The best location may not always be convenient for installation. Read the following information before installing the unit. Understanding Radio Waves Characteristics of Radio Waves The transmission of radio waves and the CS coverage area depend on the structure and materials of the building.
2.8 Connection of DECT Portable Stations Object Material Transmission Tendency Wall Concrete The thicker they are, the less radio waves penetrate them. Ferroconcrete Radio waves can penetrate them, but the more iron there is, the more radio waves are reflected. Glass Radio waves usually penetrate them. Glass with wire net Radio waves can penetrate them, but tend to be reflected. Glass covered with heatresistant film Radio waves are weakened considerably when they penetrate windows.
2.8 Connection of DECT Portable Stations CS Coverage Area The example below shows the size of the coverage area of 1 CS if it is installed in an area with no obstacles. Note Radio signal strength levels are measured during the site survey (refer to "2.8.5 Site Survey Using the KX-TCA255/KX-TD7590"). A Coverage Area Radio signal strength level is greater than "3".
2.8 Connection of DECT Portable Stations Where CS coverage areas overlap, the PS will start call handover to the next CS if the signal from one CS becomes weak. However, if a PS moves away from a CS and there are no CSs available for handover, the PS may go out of range and the call could be lost. Example: Installing in a Room Separated by Interior Walls Things to take note of: • The room is separated by interior walls. • The room is surrounded by concrete walls.
2.8 Connection of DECT Portable Stations 2.8.4 Before Site Survey Use the KX-TCA255 or KX-TD7590 PS to conduct the site survey. Note Display prompts for the site survey are only available in English. Checking the CS ID Number Check the CS ID number label attached to the CS. If the CS ID number label is not attached to the CS, check the CS ID number using the KX-TDA Maintenance Console. For details, refer to the on-line help of the KXTDA Maintenance Console.
2.8 Connection of DECT Portable Stations Using the KX-TD7590 To enter letters 9 1 ABC 2 Press 1, 9, and POWER for more than 5 seconds. A: F1 C: F3 E: B: F2 D: INT' F: CS No. CS ID No. 0 to 7 0 to 9 and A to F OK To the Desired CS No. To the initial display Note To clear the CS ID number assigned to the PS, follow the procedure below: To clear one by one CS No. 0 to 7 1 9 DEF 3 To the Desired CS No. Press 1, 9, and POWER for more than 5 seconds.
2.8 Connection of DECT Portable Stations Setting and Installing the CS Temporarily for Site Survey 1. Switch the Radio Signal Test switch from OFF to ON. 2. Set the channel number switches as desired.
2.8 Connection of DECT Portable Stations 3. After setting the DIP switch, connect an AC adaptor or battery box to the CS using a power supply adaptor. Notes • • The AC adaptor should be connected to a vertically oriented or floor-mounted AC outlet. Do not connect the AC adaptor to a ceiling-mounted AC outlet, as the weight of the adaptor may cause it to become disconnected. For users in the United Kingdom: 240 V AC must not be used on a building site.
2.8 Connection of DECT Portable Stations 2.8.5 Site Survey Using the KX-TCA255/KX-TD7590 The PS has a Radio Signal Test mode that monitors the state of the radio link to the CS for site survey. In Radio Signal Test mode, the frame loss and signal strength of a synchronous slot, and the signal strength of the other slots can be measured when the PS is monitoring the CS.
2.8 Connection of DECT Portable Stations a. Move to the CS until the radio signal strength level becomes "12". b. Move away from the CS and identify the CS coverage area within which the radio signal strength level is greater than "8". Draw the area on the map. c. Move away from the CS and identify the CS coverage area within which the radio signal strength level is greater than "3". Draw the area on the map. PS Channel no.
2.8 Connection of DECT Portable Stations 3. Repeat steps 1 and 2 for other CSs, and relocate the CSs when necessary. a. Overlap adjacent CS coverage areas where the radio signal strength level is "8" by 5 m to 10 m. Channel no. 0 5 m to 10 m Channel no. 1 b. Overlap the CS coverage areas of at least 2 CSs at any location in the installation site. Channel no. 0 Channel no. 1 Channel no. 2 Channel no. 3 c.
2.8 Connection of DECT Portable Stations Referring to the Stored Scan Data Using the KX-TCA255 9 1 1 Log No. 0 to 9 Press 1, 9, and POWER for more than 2 seconds. To go to other slots To go to specific channel / Channel No. Previous or Next 0 to 9 A a Using the KX-TD7590 1 9 1 Log No. 0 to 9 Press 1, 9, and POWER for more than 5 seconds. To go to other slots To go to specific channel / Channel No.
2.8 Connection of DECT Portable Stations 2.8.6 After Site Survey After obtaining the proper measurement results, exit Radio Signal Test mode before connecting the CS to the Hybrid IP-PBX. 1. Keep pressing the POWER button on the PS until the PS is turned OFF. 2. Disconnect the AC adaptor or battery box from the CS and stop supplying electricity. 3. Switch all DIP switches on the CS from ON to OFF.
2.8 Connection of DECT Portable Stations 2.8.7 Connecting a Cell Station to the Hybrid IP-PBX Using a CSIF Card Refer to the following example to connect a CS to the Hybrid IP-PBX. CSIF8 Card Port 1 Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 444 m 694 m 1000 m 694 m CSIF card (RJ45) CS (RJ11) Signal Name D1 POWH POWL D2 Pin No. 1 2 3 4 Pin No.
2.8 Connection of DECT Portable Stations Using a DHLC/DLC Card Refer to the following example to connect a CS to the Hybrid IP-PBX. DHLC8 Card Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 222 m 347 m 500 m 347 m CS (RJ11) Signal Name D1 D2 Pin No.
2.8 Connection of DECT Portable Stations Connecting the CS 1. Connect the cable from the CSIF/DHLC/DLC card to the CS. Modular To CSIF/DHLC/DLC card 2. Pass the cable through the groove of the CS (in any direction depending on your preference).
2.8 Connection of DECT Portable Stations For the KX-TDA0142CE User only: 3. Wrap the cable once around the ferrite core. Then close the case of the ferrite core. To CSIF card Note If you need to open the ferrite core, use a flathead screwdriver to unlatch the case of the ferrite core.
2.8 Connection of DECT Portable Stations Registering the PS The PS must be registered to the Hybrid IP-PBX before it can be used. Programming of both the PS and Hybrid IP-PBX is required. A PT with multiline display (e.g., KX-T7636 6-line display) is required to perform the Hybrid IP-PBX system programming. Note For details about system programming using a PT, refer to "2.3.2 PT Programming" in the Feature Guide, and "2.1 PT Programming" in the PT Programming Manual.
2.8 Connection of DECT Portable Stations Using the KX-TD7590 System lock can be set after PS registration. When system lock is enabled, the system lock password will be required for system setting. F F Press POWER for 5 seconds. To register for the first time SELECT / Select "INITIAL SETTING". OR To re-register If required SELECT / Select "PS-PROGRAM". Select "REGISTRATION". /OK System Lock Password Select "DECTSYS SETTING".
2.8 Connection of DECT Portable Stations Setting the Personal Identification Number (PIN) for PS Registration To prevent registering the PS to a wrong Hybrid IP-PBX, a PIN for PS registration can be set to the Hybrid IP-PBX. Before registering the PS to the Hybrid IP-PBX, enter the PIN set to the Hybrid IP-PBX into the PS. By doing so, the PS will only be registered to the Hybrid IP-PBX with the matching PIN. Notes • By default, the PIN for PS registration is "1234" for both the Hybrid IP-PBX and PS.
2.8 Connection of DECT Portable Stations PS Termination Confirm the following before cancelling the PS registration: • The PS is turned on. • The PS is within range. [691] PS No. 001 to 128 ENTER ENTER If "Rejected" or "Time out" is displayed CLEAR YES Press "CLEAR". To the PS operation below END Press "YES". If the registration information is still stored in the PS Using the KX-TCA155/KX-TCA255 Press POWER for 2 seconds. Select "Setting Handset". Select "Registration". Select "Cancel Base".
2.8 Connection of DECT Portable Stations Testing the Operation Walk around the service area while having a conversation using a registered PS. If noise is frequent or conversations disconnect, relocate the CSs or install an additional CS.
2.8 Connection of DECT Portable Stations 2.8.8 Wall Mounting 1. Place the reference for wall mounting (on the following page) on the wall to mark the 2 screw positions. 2. Install the 2 screws and washers (included) into the wall. Notes • • Make sure that the screw heads are at the same distance from the wall. Install the screws perpendicular to the wall. 3. Hook the CS on the screw heads.
2.8 Connection of DECT Portable Stations Reference for Wall Mounting Please copy this page and use as a reference for wall mounting. Install a screw here. 71 mm Install a screw here. Note Make sure to set the print size to correspond with the size of this page. If the dimension of the paper output still deviates slightly from the measurement indicated here, use the measurement indicated here.
2.9 Connection of 2.4 GHz Portable Stations 2.9 Connection of 2.4 GHz Portable Stations 2.9.1 Overview The following equipment is required to connect the wireless system: CS: Cell Station (KX-TDA0142/KX-TDA0141) KX-TDA0142 Using a CSIF Card This unit determines the area covered by the wireless system. Up to 3 calls can be made at the same time through each CS. • CSIF4 (KX-TDA0143) One CSIF4 card supports up to 4 Cell Stations. • CSIF8 (KX-TDA0144) One CSIF8 card supports up to 8 Cell Stations.
2.9 Connection of 2.4 GHz Portable Stations Please take into consideration the distance between the CSs when site planning. Please consult a certified dealer for details. However, the required distance between CSs may vary depending on the environment of the installation site and conditions in which the wireless system is used. Conduct the site survey to determine the appropriate distance.
2.9 Connection of 2.4 GHz Portable Stations 2.9.2 Procedure Overview When connecting the wireless system, use extreme care in conducting the site survey. An incorrectly performed site survey can result in poor service area, frequent noise, and disconnection of calls. 1. Investigate the installation site Refer to "2.9.3 Site Planning". a. Obtain a map of the CS installation site. b. Identify the service area required by the user on the map. c.
2.9 Connection of 2.4 GHz Portable Stations 4. Finish the site survey Refer to "2.9.6 After Site Survey". a. Return all DIP switches of each CS to the OFF position, and stop supplying power. b. Turn off the PS. 5. Connect the CS and PS to the Hybrid IP-PBX and test the operation Refer to "2.9.7 Connecting a Cell Station to the Hybrid IP-PBX". a. Connect the CSs to the Hybrid IP-PBX. b. Register the PSs to the Hybrid IP-PBX. c.
2.9 Connection of 2.4 GHz Portable Stations 2.9.3 Site Planning Choosing the best site for the CS requires careful planning and testing of essential areas. The best location may not always be convenient for installation. Read the following information before installing the unit. Understanding Radio Waves Characteristics of Radio Waves The transmission of radio waves and the CS coverage area depend on the structure and materials of the building.
2.9 Connection of 2.4 GHz Portable Stations Object Material Transmission Tendency Wall Concrete The thicker they are, the less radio waves penetrate them. Ferroconcrete Radio waves can penetrate them, but the more iron there is, the more radio waves are reflected. Glass Radio waves usually penetrate them. Glass with wire net Radio waves can penetrate them, but tend to be reflected. Window Glass covered with heat- Radio waves are weakened considerably when resistant film they penetrate windows.
2.9 Connection of 2.4 GHz Portable Stations CS Coverage Area The example below shows the size of the coverage area of 1 CS if it is installed in an area with no obstacles. Note Radio signal strength levels are measured during the site survey (refer to "2.9.5 Site Survey"). A Coverage Area Radio signal strength level is greater than "3". (About 50 m to 60 m) A B B Gray Zone: Conversation will be intermittent C Good Coverage Area Radio signal strength level is greater than "8".
2.9 Connection of 2.4 GHz Portable Stations one CS becomes weak. However, if a PS moves away from a CS and there are no CSs available for handover, the PS may go out of range and the call could be lost. If the signal from the CS fades, due to the structure of the building, there may be some handover delay. The user will hear a range warning before handover in this case. This also applies in the case of interference from 2.4 GHz apparatus.
2.9 Connection of 2.4 GHz Portable Stations 2.9.4 Before Site Survey Setting and Installing the CS Temporarily for Site Survey 1. Switch the Radio Signal Test switch from OFF to ON. 2. Set the CS number switches as desired. DIP Switch OFF ON 1 2 CS Number Switch 3 4 5 6 CS no. 1 CS no. 2 CS no. 3 CS no. 4 Radio Signal Test Switch CS no. 5 CS no. 6 CS no. 7 CS no. 8 CS no.
2.9 Connection of 2.4 GHz Portable Stations 3. After setting the DIP switch, connect an AC adaptor or battery box to the CS using a power supply adaptor. Note The AC adaptor should be connected to a vertically oriented or floor-mounted AC outlet. Do not connect the AC adaptor to a ceiling-mounted AC outlet, as the weight of the adaptor may cause it to become disconnected. Telephone Cord Modular Power Supply Adaptor (PSZZ1TDA0142) To AC Adaptor (KX-A11/KX-TCA1)/ Battery Box (PSZZTD142CE) 4.
2.9 Connection of 2.4 GHz Portable Stations 2.9.5 Site Survey The PS has a Radio Signal Test mode that monitors the state of the radio link to the CS. After installing the CSs temporarily, set the PS to Radio Signal Test mode and measure each CS coverage area. Then, record the results on the map of the installation site. Testing the Radio Signal Strength Note Display prompts for the site survey are only available in English. 1. Enter Radio Signal Test mode.
2.9 Connection of 2.4 GHz Portable Stations 2. Measure the radio signal strength by moving towards and away from the CS. a. Move to the CS until the radio signal strength level becomes "12". b. Move away from the CS and identify the CS coverage area within which the radio signal strength level is greater than "8". Draw the area on the map. c. Move away from the CS and identify the CS coverage area within which the radio signal strength level is greater than "3". Draw the area on the map. PS CS NO.
2.9 Connection of 2.4 GHz Portable Stations b. Overlap the CS coverage areas of at least 2 CSs at any location in the installation site. CS no. 1 CS no. 2 CS no. 3 CS no. 4 c. Make sure that the radio signal strength level is greater than "3" at any location in the service area required by the user. Referring to the Stored Scan Data Using the KX-TD7680 1 9 1 Scan Data No. 0 to 9 Press 1, 9, and POWER for more than 2 seconds. Display example: When there is scan data NO.1 CS No.
2.9 Connection of 2.4 GHz Portable Stations Deleting the Stored Scan Data Using the KX-TD7680 1 9 2 Scan Data No. 0 to 9, or # for all data Press 1, 9, and POWER for more than 2 seconds. To the Desired Scan Data No. Using the KX-TD7690 1 9 Press 1, 9, and POWER for more than 2 seconds. 2 Scan Data No. 0 to 9, or # for all data To the Desired Scan Data No.
2.9 Connection of 2.4 GHz Portable Stations 2.9.6 After Site Survey After obtaining the proper measurement results, exit Radio Signal Test mode before connecting the CS to the Hybrid IP-PBX. 1. Keep pressing the POWER button on the PS until the PS is turned OFF. 2. Disconnect the AC adaptor or battery box from the CS and stop supplying electricity. 3. Switch all DIP switches on the CS from ON to OFF.
2.9 Connection of 2.4 GHz Portable Stations 2.9.7 Connecting a Cell Station to the Hybrid IP-PBX Using a CSIF Card Refer to the following example to connect a CS to the Hybrid IP-PBX. CSIF8 Card Port 1 Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 444 m 694 m 1000 m 694 m CSIF card (RJ45) CS (RJ11) Signal Name D1 POWH POWL D2 Pin No. 1 2 3 4 Pin No.
2.9 Connection of 2.4 GHz Portable Stations Using a DHLC/DLC Card Refer to the following example to connect a CS to the Hybrid IP-PBX. DHLC8 Card Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 222 m 347 m 500 m 347 m CS (RJ11) Signal Name D1 D2 Pin No.
2.9 Connection of 2.4 GHz Portable Stations Connecting the CS 1. Connect the cable from the CSIF/DHLC/DLC card to the CS. Modular To CSIF/DHLC/DLC card 2. Pass the cable through the groove of the CS (in any direction depending on your preference).
2.9 Connection of 2.4 GHz Portable Stations Registering the PS The PS must be registered to the Hybrid IP-PBX before it can be used. Programming of both the PS and Hybrid IP-PBX is required. A PT with multiline display (e.g., KX-T7636 6-line display) is required to perform the Hybrid IP-PBX system programming. Note For details about system programming using a PT, refer to "2.3.2 PT Programming" in the Feature Guide, and "2.1 PT Programming" in the PT Programming Manual.
2.9 Connection of 2.4 GHz Portable Stations PS Registration [690] ENTER PS No. Extn. No. 001 to 128 1 to 4 digits ENTER To the PS operation below END When the PS has not been registered yet When registering the PS for the first time, it is possible to select the desired language for the display. (You do not need to enter the PS system programming mode when registering for the first time.) Using the KX-TD7680 [ F2 ] [ F3 ] Press S2 repeatedly to select the desired language.
2.9 Connection of 2.4 GHz Portable Stations Setting the System Lock When a system lock has been set, the system lock password will be required for PS system setting. Using the KX-TD7680 Choose "Enable/Disable". Select "SYSTEM LOCK". System Lock Password System Lock Password 4 digits 4 digits ENABLE DISABLE C.Tone Using the KX-TD7690 Select "SYSTEM LOCK". SEL SEL CHNG S1 S1 Choose "Enable/Disable".
2.9 Connection of 2.4 GHz Portable Stations Setting the Personal Identification Number (PIN) for PS Registration To prevent registering the PS to a wrong Hybrid IP-PBX, a PIN for PS registration can be set to the Hybrid IP-PBX. Before registering the PS to the Hybrid IP-PBX, enter the PIN set to the Hybrid IP-PBX into the PS. By doing so, the PS will only be registered to the Hybrid IP-PBX with the matching PIN. Notes • By default, the PIN for PS registration is "1234" for both the Hybrid IP-PBX and PS.
2.9 Connection of 2.4 GHz Portable Stations PS Termination Confirm the following before cancelling the PS registration: • The PS is turned on. • The PS is within range. [691] PS No. 001 to 128 ENTER ENTER If "Rejected" or "Time out" is displayed CLEAR Press "CLEAR". YES To the PS operation below END Press "YES". If the registration information is still stored in the PS Using the KX-TD7680 Select "YES". Select the desired item. Select "DELETE SYSTEM". C.
2.9 Connection of 2.4 GHz Portable Stations 2.9.8 Wall Mounting 1. Place the reference for wall mounting (on the following page) on the wall to mark the 2 screw positions. 2. Install the 2 screws and washers (included) into the wall. Notes • • Make sure that the screw heads are at the same distance from the wall. Install the screws perpendicular to the wall. 3. Hook the CS on the screw heads.
2.9 Connection of 2.4 GHz Portable Stations Reference for Wall Mounting Please copy this page and use as a reference for wall mounting. Install a screw here. 71 mm Install a screw here. Note Make sure to set the print size to correspond with the size of this page. If the dimension of the paper output still deviates slightly from the measurement indicated here, use the measurement indicated here.
2.10 Connection of Doorphones, Door Openers, External Sensors, and External Relays 2.10 Connection of Doorphones, Door Openers, External Sensors, and External Relays 2.10.1 Connection of Doorphones, Door Openers, External Sensors, and External Relays The Hybrid IP-PBX supports a maximum of 16 doorphones (KX-T30865 with a DPH4 card, or German-type doorphone with a DPH2 card), 16 door openers, 16 external sensors, and 16 external relays. Notes • • KX-T30865 is a Panasonic doorphone.
2.10 Connection of Doorphones, Door Openers, External Sensors, and External Relays 2. Pass the wires through the hole in the base cover, and attach the base cover to a wall using 2 screws. Screw To 8-pin terminal block Note Two kinds of screws are included with a KX-T30865. Please choose the appropriate kind for your wall type. : when a doorphone plate has been fixed to the wall : when you wish to install the doorphone directly onto the wall 3. Connect the wires to the screws located in the front cover.
2.10 Connection of Doorphones, Door Openers, External Sensors, and External Relays 2. Attach the terminal blocks to the connectors of the DPH4/DPH2/EIO4 card on the Hybrid IP-PBX.
2.11 Connection of Peripherals 2.11 Connection of Peripherals 2.11.1 Connection of Peripherals Maximum Distance 5m PC CTI Server BGM/ Music on Hold Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 10 m 10 m 10 m 10 m Cable ø 0.4 mm: ø 0.5 mm: ø 0.6 mm: CAT 5: Maximum Distance 10 m 10 m 10 m 10 m USB Pager: Amplifier/Speaker Maximum Distance 2m PC RS-232C Printer BGM/MOH The Hybrid IP-PBX provides Background Music and Music on Hold. Up to 2 external music sources (e.g.
2.11 Connection of Peripherals Pager Up to 2 paging devices (user-supplied) can be connected to the Hybrid IP-PBX. CAUTION External Paging Jacks are SELV ports and should only be connected to approved SELV devices, or in Australia, via the Line Isolation Unit with the Telecommunications Compliance Label. PC/Printer (via RS-232C) The Hybrid IP-PBX is equipped with an RS-232C interface.
2.11 Connection of Peripherals For connecting a printer/PC with a 25-pin RS-232C connector Hybrid IP-PBX Printer/PC Circuit Type (EIA) Signal Name Pin No. Pin No.
2.11 Connection of Peripherals PC/CTI Server (via USB version 2.0) The Hybrid IP-PBX is equipped with a USB interface. This interface provides communication between the Hybrid IP-PBX and a PC or a CTI server. The PC is used for system programming, diagnostics and external system database storage (save/load) functions. The CTI server is used for connecting PCs on a LAN to provide third party call control CTI. The CTI connection uses the CSTA Phase 3 or TAPI 2.1 protocol.
2.12 Power Failure Connections 2.12 Power Failure Connections 2.12.1 Power Failure Connections When the power supply to the Hybrid IP-PBX fails, power failure transfer (PFT) will switch from the current connection to the Power Failure Connection. Refer to "2.4.1 Power Failure Transfer" in the Feature Guide for further information. Note While DC power is provided by the backup batteries, the Hybrid IP-PBX will remain fully operational and the connection will not switch to the Power Failure Connection.
2.12 Power Failure Connections RJ11 Connector Pin Assignments for Analogue Trunk Card PFT Ports 1 and 2 1 4 No. Signal Name Function 1 R2 Ring port 2 2 R1 Ring port 1 3 T1 Tip port 1 4 T2 Tip port 2 PFT Ports 3 and 4 (for LCOT16 card only) 1 4 No. Signal Name Function 1 R4 Ring port 4 2 R3 Ring port 3 3 T3 Tip port 3 4 T4 Tip port 4 RJ11 Connector Pin Assignments for Extension Card PFT Ports 1 and 2 1 4 No.
2.12 Power Failure Connections Using BRI Card LINE 1 and LINE 2 of the BRI4 and BRI8 cards can be used for Power Failure Connections. Note When the power returns, the connection will switch back to normal configuration from the Power Failure Connection, and a trunk conversation established during power failure will be dropped. RJ45 (LINE 2) Set all DIP switches at "ON" positions.
2.12 Power Failure Connections RJ45 Connector LINE 2 Pin Assignments 8 1 208 Installation Manual No.
2.13 Starting the Hybrid IP-PBX 2.13 Starting the Hybrid IP-PBX 2.13.1 Starting the Hybrid IP-PBX CAUTION • • • • • SD Memory Card must be inserted in the SD Memory Card slot of the MPR card before start up. Before touching the System Initialise Switch, discharge static electricity by touching ground or wearing an earthing strap. Once you have started the Hybrid IP-PBX and if you unplug the Hybrid IP-PBX, do not perform the following procedures to start the Hybrid IP-PBX again.
2.13 Starting the Hybrid IP-PBX 2. Plug the AC power cord into the Hybrid IP-PBX and an AC outlet, and turn on the Hybrid IP-PBX. The RUN indicator will flash. Note For safety reasons, do not stretch, bend, or pinch the AC power cord. To AC Outlet 3. While the RUN indicator is flashing, slide the System Initialise Switch back to the "NORMAL" position. Depending on the configuration, initialisation takes about 1 min to 3 min. If successfully executed, the RUN indicator will stop flashing and stay lit.
Section 3 Guide for the KX-TDA Maintenance Console Explains the installation procedure, structure, and basic information of the KX-TDA Maintenance Console.
3.1 Overview 3.1 Overview 3.1.1 Overview KX-TDA Maintenance Console is designed to serve as an overall system programming reference for the Hybrid IP-PBX. To programme and administer the Hybrid IP-PBX by PC, you need to install the KX-TDA Maintenance Console onto the PC. This section describes overview and installation of the KX-TDA Maintenance Console only. KX-TDA Maintenance Console*1 Menu Bar Programme Menu *1 The contents and design of the software are subject to change without notice.
3.2 Connection 3.2 Connection 3.2.1 Connection Serial Interface Connection USB Port To USB Port PC To COM Port PC RS-232C Port Note For pin assignments and maximum cabling distance, refer to "2.11.1 Connection of Peripherals". LAN Connection via CTI-LINK Card RJ45 Switching Hub To network port PC Note For pin assignments and maximum cabling distance, refer to "2.6.7 CTI-LINK Card (KX-TDA0410)".
3.2 Connection External Modem Connection Modem To RS-232C port (25-pin) To trunk/Hybrid IP-PBX extension port assigned as the trunk destination External Modem RS-232C Port (9-pin) Hybrid IP-PBX Signal Name Pin No. Pin No.
3.3 Installation of the KX-TDA Maintenance Console 3.3 Installation of the KX-TDA Maintenance Console 3.3.
3.3 Installation of the KX-TDA Maintenance Console Installing the KX-TDA Maintenance Console Notes • • • Make sure to install and use the latest version of the KX-TDA Maintenance Console. To install or uninstall the software on a PC running Windows 2000 Professional or Windows XP Professional, you must be logged in as a user in either the "Administrators" or "Power Users" group. To connect the PC to the Hybrid IP-PBX via USB, the KX-TDA USB driver must be installed.
3.3 Installation of the KX-TDA Maintenance Console 5. Click "Connect" "USB" from the menu bar. 6. Enter the system password for installer (default: 1234), then click [OK] to log-in. 7. When country/area data do not match: a. Click [OK] to replace the country/area data of the Hybrid IP-PBX. Replacement may take several minutes to complete. b. Follow the procedure described in "2.13.1 Starting the Hybrid IP-PBX" and restart the Hybrid IP-PBX. c.
3.3 Installation of the KX-TDA Maintenance Console The programme menu appears. You may now begin programming the Hybrid IP-PBX. Notice 1. During a long programming session, it is highly recommended that you periodically save the system data to the SD Memory Card. If the Hybrid IP-PBX undergoes a sudden power failure or if the system is reset for some reason, all the system data in RAM will be lost. However, if system data has been saved to the SD Memory Card, it can be easily restored.
Section 4 Troubleshooting This section provides information on the Hybrid IP-PBX and telephone troubleshooting.
4.1 Troubleshooting 4.1 Troubleshooting 4.1.1 Installation PROBLEM Extension does not operate. PROBABLE CAUSE SOLUTION Bad extension card. • Exchange the card for a known working one. Bad connection between the Hybrid IP-PBX and telephone. • Take the telephone and plug it into the same extension port using a short telephone cord. If the telephone works, then the connection between the Hybrid IP-PBX and the telephone must be repaired. A telephone with an A-A1 relay is connected.
4.1 Troubleshooting PROBLEM The ALARM indicator on the front of the shelf turns on red. PROBABLE CAUSE A major system error occurs in the Hybrid IP-PBX. SOLUTION • See the error log using the KX-TDA Maintenance Console (refer to "4.1.5 Troubleshooting by Error Log").
4.1 Troubleshooting 4.1.2 Connection Connection between the Hybrid IP-PBX and a PT: Can you dial an extension? CAUSE No SOLUTION The T/R is connected to the D1/D2. D1 T R D2 D1 T R D2 Hybrid IP-PBX Use the correct cord (the inner 2 wires are for T/R and the outer 2 wires are for D1/D2). Extension Connection between the Hybrid IP-PBX and an SLT: CAUSE SOLUTION The T/R is connected to the D1/D2.
4.1 Troubleshooting Connection between the trunk and the Hybrid IP-PBX: (Continued from the previous page.) Can you dial out on a trunk? CAUSE Trunk is connected to the T2/T1. T2 R1 T1 R2 No Trunk SOLUTION Reconnect the trunk to the T1/R1 or T2/R2 of the telephone jack using 2-conductor wiring. Hybrid IP-PBX Trunk is connected to the T2/R1.
4.1 Troubleshooting 4.1.3 Operation PROBLEM PROBABLE CAUSE • SOLUTION • When using the speakerphone on an APT, nothing is audible. • • When using the speakerphone/monitor mode with a DPT, nothing is audible. The "HEADSET" mode is selected by Personal Programming, "Handset/ Headset Selection". • When the headset is not used, select the "HANDSET" mode by Personal Programming. • The PT does not ring. • The ringer volume is off. • Turn on the ringer volume.
4.1 Troubleshooting PROBLEM • PS stays out of service when the CS status is changed from Out of Service to In Service. PROBABLE CAUSE • • It may take about 20 s for CS to start up after the status has been changed to In Service. SOLUTION Wait until the CS starts up.
4.1 Troubleshooting 4.1.4 Using the Reset Button If the Hybrid IP-PBX does not operate properly, use the Reset Button. Before using the Reset Button, try the system feature again to confirm whether there definitely is a problem or not. CAUTION In order to avoid possible corruption of data on the SD Memory Card, please ensure that the "SD ACCESS" LED is off before pressing the Reset Button.
4.1 Troubleshooting 4.1.5 Troubleshooting by Error Log When a major system error occurs in the Hybrid IP-PBX, the ALARM indicator on the front of the shelf turns on red, and the system logs the error information. Error Log Display Format Below is the display format of the error log. To see the error log using the KX-TDA Maintenance Console, refer to the on-line help of the KX-TDA Maintenance Console.
4.1 Troubleshooting Item 5 Sub Code Description Five-digit sub code (1XXYY) 1: Shelf number XX: Slot number KX-TDA100: 00 to 06 (00: MPR slot; 01 to 06: Free slot) KX-TDA200: 00 to 11 (00: MPR slot; 01 to 11: Free slot) YY: Physical port number (01 to 16) For OPB3 card, sub slot number + port number will be displayed. Sub slot 1: 11 to 14 Sub slot 2: 21 to 24 Sub slot 3: 31 to 34 Note When there is no parameter for slot and physical port number, XX and YY will be displayed as "00".
4.1 Troubleshooting List of Errors and Solutions The tables below list the errors and their solutions. When an error whose error code is indicated with "*" occurs in the Hybrid IP-PBX, the ALARM indicator on the front of the shelf turns on red, and the system logs the error information. When the error conditions indicated by the error codes "021", "091", "092", "230", and "510" are recovered, the ALARM indicator will turn off automatically, indicating successful troubleshooting.
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4.1 Troubleshooting Error Code 022 Error Message Not enough free space on SD card PROBABLE CAUSE • SOLUTION • Not enough memory space available to save the system data, or to • upload system files from the KX-TDA Maintenance Console Delete the files whose file names start with "$" from SD Memory Card Delete the "Pxxx" files (old programme files of optional service cards) from SD Memory Card. "xxx" indicates the card type (e.g.
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Section 5 Appendix Installation Manual 239
5.1 Revision History 5.1 Revision History 5.1.1 PMPR Software File Version 1.
5.1 Revision History 5.1.2 PMPR Software File Version 2.0xxx New Options • System Components Table • KX-TDA0490 16-Channel VoIP Gateway Card (IP-GW16) • KX-TDA0470 16-Channel VoIP Extension Card (IP-EXT16) • KX-TDA0164 4-Port External Input/Output Card (EIO4) • KX-TDA0168 Extension Caller ID Card (EXT-CID) • KX-TDA0820 SD Memory Card for Software Upgrade • KX-TDA0920 SD Memory Card for Software Upgrade to Enhanced Version Changed Contents • • 1.4.3 System Capacity 2.10.
5.1 Revision History 5.1.3 PMPR Software File Version 3.0xxx Changed Contents • • 242 1.4.3 System Capacity 3.3.
Index Installation Manual 243
Index Numerics 16-Channel Echo Canceller Card (KX-TDA0166) 23, 132 16-Channel VoIP Extension Card (KX-TDA0470) 24, 121 16-Channel VoIP Gateway Card (KX-TDA0490) 25, 105 16-Port Analogue Trunk Card (KX-TDA0181) 24, 75 16-Port Digital Extension Card (KX-TDA0172) 23, 114 16-Port Single Line Telephone Extension Card (KX-TDA0174) 23, 119 16-Port Single Line Telephone Extension with Message Lamp Card (KXTDA0175) 24, 119 2.4 GHz Portable Station 173 2.4 GHz Portable Station, After Site Survey 187 2.
Index I Installation Precautions 38 IP-EXT16 Card (KX-TDA0470) 121 IP-GW16 Card (KX-TDA0490) 105 IP-GW4 Card (KX-TDA0480) 101 IP-GW4E Card (KX-TDA0484) 103 K KX-TDA Maintenance Console, Connection 213 KX-TDA Maintenance Console, Installation 216 KX-TDA Maintenance Console, Overview 212 KX-TDA Maintenance Console, Password Security 215 KX-TDA Maintenance Console, Quick Setup 216 KX-TDA Maintenance Console, System Requirements 215 KX-TDA0103 (L-Type Power Supply Unit) 23, 44 KX-TDA0104 (M-Type Power Supply
Index PSU-L PSU-M PSU-S W 34, 44 34, 44 34, 44 Wall Mounting (CS) 171, 196 Wall Mounting (KX-TDA100) 64 Wall Mounting (KX-TDA200) 62 Wiring Precautions 38 Q Quick Setup 216 R Remote Card (KX-TDA0196) 24, 74 Reset Button 226 Revision History 240 RF Specification, DECT Portable Station RMT Card (KX-TDA0196) 74 RUN Indicator 209 145 S Safety Installation Instructions 38 Safety Instructions 44 SD Memory Card 71 SD Memory Card for Software Upgrade (KX-TDA0820) 25, 71 SD Memory Card for Software Upgrade
Index Installation Manual 247
Panasonic Communications Co., Ltd. 1-62, 4-chome, Minoshima, Hakata-ku, Fukuoka 812-8531, Japan Copyright: This material is copyrighted by Panasonic Communications Co., Ltd., and may be reproduced for internal use only. All other reproduction, in whole or in part, is prohibited without the written consent of Panasonic Communications Co., Ltd. 2003 Panasonic Communications Co., Ltd. All Rights Reserved.