TD 93021US Rev A Installation Guide teleCARE IP Emergency Call System 10 FEB 2014 / Ver A
Installation Guide teleCARE IP Copyright TD 93021US Rev A © 2014 Ascom (US), Inc. This document may not be copied in whole or in part or otherwise reproduced without prior written consent from Ascom, except where specifically permitted under US and international copyright law. Disclaimer Trademarks and patents HIPAA disclaimer The information in this document is subject to change. Use this product only in accordance with the instructions provided in the installation and user guide manuals.
Installation Guide teleCARE IP Regulatory Compliance (US/CAN) TD 93021US Rev A Safety Compliance The equipment described herein complies with: · ANSI/UL 2560 Emergency Call Systems for Assisted Living and Independent Living Facilities · CAN/CSA C22.2 No. 205 Signal Equipment Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules.
Installation Guide teleCARE IP TD 93021US Rev A 1 Introduction ..................................................................................................................................1 1.1 General ..................................................................................................................................1 1.2 Installation and Commissioning ..............................................................................................1 1.3 teleCARE IP With Speech ............
Installation Guide teleCARE IP TD 93021US Rev A 6.16 Room Display (NIRD) .........................................................................................................106 6.17 Television Interface Module ...............................................................................................113 6.18 Sunblind Control Module ..................................................................................................115 7 Corridor Equipment ............................................
Installation Guide teleCARE IP 1 TD 93021US Rev A Introduction The installation guide covers the mechanical and electrical installation of the teleCARE IP Emergency Call System. The teleCARE IP “System Description” (TD 92608GB) should be read before reading this manual to gain a general understanding of the teleCARE IP system. Throughout this document there are “cross-references” in the text which indicate that further details can be found in another section of this document.
Installation Guide teleCARE IP 1.3 TD 93021US Rev A WARNING: The teleCARE IP equipment should not be installed in areas where the air pressure is below 850 millibar (approximate maximum altitude of 6100ft (2000m). WARNING: teleCARE IP components, including all handsets, are not intended for use in oxygen enriched environments. WARNING: teleCARE IP components, including all handsets, are not intended for use in rooms where flammable (anesthetic) gases are used.
Installation Guide teleCARE IP TD 93021US Rev A 1.3.3 Innovaphone VoIP Gateway The teleCARE IP system uses the supplementary Innovaphone VoIP gateway to support VoIP speech functionality. The Innovaphone VoIP gateway is an IP based gateway providing the VoIP based solution which supports all the features of a traditional PBX. For the teleCARE IP VoIP the SIP Trunk must be used for the interface to the main PBX. The SIP trunk must be set to “Early offer”.
Installation Guide teleCARE IP 2 TD 93021US Rev A Practical Engineering Parameters In order to ensure the optimal performance of a teleCARE IP system it is important to consider certain parameters and limitations. The following tables show the most important practical values which can have an influence on the teleCARE IP system performance. WARNING: 2.1 Any deviation from the values and recommendations shown in the following tables can significantly reduce the performance of the teleCARE IP system.
Installation Guide teleCARE IP 2.3 TD 93021US Rev A VoIP Requirements (Supplementary) VoIP Considerations The Innovaphone VoIP gateway version 8 is required for teleCARE IP with speech, as the interface to the PBX. An interoperability test between the VoIP gateway and main PBX must be performed. The connection between the PBX and the Innovaphone can be BRI or SIP Trunk teleCARE IP only supports CODEC G.
Installation Guide teleCARE IP 3 TD 93021US Rev A System LAN Cabling 3.1 Ethernet Switch The 8-port Ethernet Switch, Ascom part number APS5001, shall be used with the teleCARE IP system and can be purchased through Ascom. WARNING: Use of any Ethernet Switch other than Ascom part number APS5001 violates the UL 2560 listing. 3.1.1 Ethernet Switch DIN Rail Mounting The Ethernet Switch shall be mounted on a 1.5in (35mm) DIN-rail, which can be mounted on a wall.
Installation Guide teleCARE IP TD 93021US Rev A + 24Vdc ~ ~ 0Vdc 18 ga. Max Figure 2. Ethernet Switch Power Connection 3.1.5 Ethernet Switch Operation When properly installed and operating, LED indicators on the Ethernet Switch will be observed as follows: PWR (green) Illuminates steady when proper power is supplied to the LINK (green) Ethernet Switch. Each port has a LINK LED which indicates that a valid Ethernet link has been established.
Installation Guide teleCARE IP TD 93021US Rev A Figure 3. Ethernet LAN and room bus cabling Note: Suitable existing wiring could be also be used for the room bus. Contact your local representative for further information. 3.2.1 Ethernet LAN Cable The cable required for the Ethernet LAN must comply with the specification TIA/IEA 568-A Category 5 or higher. This is a standard 4 x unshielded twisted pair (UTP) solid bare copper with a diameter of 24 gauge (0.5mm).
Installation Guide teleCARE IP TD 93021US Rev A • The resistance of the wires in the room bus cable increases with the length and this causes the voltage to decrease progressively along the length of the cable. • The room bus voltage also drops in proportion to the load. • The effect of “cross-talk” increases as the cable length increases.
Installation Guide teleCARE IP 4 TD 93021US Rev A System Power The teleCARE IP system power supply shall be sourced from an external 24Vdc power supply, utilizing a dedicated 2-wire power distribution bus. The external power requirement for teleCARE IP is 24Vdc, with an acceptable range of 21.6Vdc to 26.4Vdc. WARNING: 4.1 Use of any Power Supply other than those which are specified in this manual violates the UL 2560 listing.
Installation Guide teleCARE IP TD 93021US Rev A WARNING: • Batteries must be secured within the HPFF8 cabinet enclosure. • Batteries must be lead acid and must comply with UL 2054. (See Section 4.3, Secondary Power.) • Before applying power, inspect the Power Supply Board (Figure 1 in the Power Supply Installation Guide) to ensure that SW1 is set to the Open position, to configure the unit for 24Vdc operation.
Installation Guide teleCARE IP TD 93021US Rev A Note: • The maximum charging current under discharge is 0.7 amperes. • Expected battery life is 5 years. However, it is recommended to change the batteries in 4 years, or less if needed. Red (DC) ON ON OFF OFF Green (AC) ON OFF ON OFF Power Supply Status Normal operating condition. Loss of AC, StandͲby battery supplying power. No DC output. Loss of AC. Discharged or no standͲby battery. No DC output. Table 3.
Installation Guide teleCARE IP TD 93021US Rev A • When servicing, the AC mains circuit breaker should be in the off position and locked out to prevent accidental activation. • This power supply is intended for indoor use only. Do not expose the unit to rain or moisture. • After installation or servicing make sure that the cover is secured with the provided Key Lock. 4.2.1 Power Supply (Seismic) Installation The HPFF8 Power Supply is provided with an Installation Manual that is packaged with the unit.
Installation Guide teleCARE IP TD 93021US Rev A Re-energize the power supply. 4.2.2 Power Supply (Seismic) Operation and Maintenance The HPFF8 Power Supply should be tested at least once a year for proper operation. Under normal load conditions, the DC output voltage should be checked for proper voltage level, which is 24Vdc for the teleCARE IP system. Under normal load conditions, check that the battery is fully charged.
Installation Guide teleCARE IP TD 93021US Rev A LED Label 1 PWR ON 2 AUX TRBL Note 1 3 BAT TRBL Note 2 4 GF TRBL 5 6 7 8 SIG4 TRBL SIG3 TRBL SIG2 TRBL SIG1 TRBL Condition Power On Loss or Brownout Normal Excessive load or short Normal Charger Fault No battery or <20.
Installation Guide teleCARE IP 4.3 TD 93021US Rev A Secondary Power Secondary Power for the teleCARE IP system shall be provided by two teleCARE IP Batteries installed in the primary power supply. The batteries are each rated for 12Vdc, 7 ampere hours (AH) and can be purchased through an electrical supplier such as Graybar. WARNING: • Batteries must be secured within the power supply cabinet as described in section 4.2.1. • The teleCARE IP Batteries shall be lead acid and must comply with UL 2054.
Installation Guide teleCARE IP 4.5 TD 93021US Rev A Power Supply Unit (24Vdc) with Multiple Power Buses The output of the power supply unit can be divided over multiple buses. This method is recommended as it will reduce the power cable lengths. Figure 6. Multiple power buses 4.5.1 Power Supply Basic Installation The 24Vdc power is carried on a two-wire bus that loops from room controller to room controller. The minimum wire size for the 24Vdc power supply bus is 18 gauge (1mmØ) (0.8mm²). Figure 7.
Installation Guide teleCARE IP TD 93021US Rev A Figure 8.
Installation Guide teleCARE IP 5 TD 93021US Rev A Control Equipment This section describes the installation instructions for the following products: • “Room Controller” (details on page 19) • “Blank Front Cover for the Room Controller” (details on page 22) • “Corridor Lamp (NICL)” (details on page 49) • “System Manager (NISM2)” (details on page 57) 5.
Installation Guide teleCARE IP TD 93021US Rev A Room Bus Address 5 on the NIRC bus. When connected to the NIRC External Corridor Lamp Outputs bus, an NICL becomes a passive corridor lamp and the LEDs operate in parallel with the NIRC display lamps. 5.2.2 NIRC3 Warning This is a class A product. In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures. Improved technology gives the NICR3 more speed and additional functionality.
Installation Guide teleCARE IP TD 93021US Rev A 5.2.4 NICR Room Controller with Corridor Lamp Figure 11. The teleCARE IP room controller with corridor lamp The NIRC printed circuit board has four connectors for LED boards (which must be ordered separately). The LED board is available in five colors: red, green, yellow, white and blue. The LEDs are used for the signaling of calls, staff presence and faults.
Installation Guide teleCARE IP TD 93021US Rev A The IP room controller with corridor lamp consists of a housing, a printed circuit board, a cover and a lamp dome, as shown in the following illustration: Figure 12. Room controller (NIRC) parts 5.2.5 Blank Front Cover for the Room Controller A blank solid plastic front cover for the room controller is available in gray and white. The blank front cover is fitted to the room controller in place of the standard front cover with a translucent dome cover.
Installation Guide teleCARE IP TD 93021US Rev A 5.2.6 Installing the Room Controller When installing the Room Controller the first step is to separate the top section (cover, PC board and lamp dome) from the housing. To do that simply grip the top edge of the cover and pull it away from the housing, as shown in the following illustration: Figure 14. Separating the top section from the housing 5.2.
Installation Guide teleCARE IP TD 93021US Rev A 5.2.8 Room Controller Housing The room controller housing is designed to be surface mounted. It can be mounted over a back box or fixed directly on to a wall surface. The same housing is used for the IP room controller with LED lamps and with blank cover and for the corridor lamp. Figure 16. Room controller housing 5.2.
Installation Guide teleCARE IP TD 93021US Rev A Place the housing over the back box so that the long sides are at the top and bottom. Pass the heads of the screws through the appropriate “key-hole” slots (2) in the base of the housing, as shown in the following illustration: Figure 18. Positioning the screws in the keyhole slots Turn the housing (3) until the long sides are horizontal, then tighten the back box fixing screws to secure the housing. Figure 19.
Installation Guide teleCARE IP TD 93021US Rev A 5.2.10 Mounting the Housing without a Back box The housing can be mounted on a flat surface, without a back box, using four suitable screws in the outer fixing holes, as shown in the illustration below. When the NIRC housing is without a back box the cables should enter and leave the housing through the two knock-outs in the sides of the housing. Cable Figure 20.
Installation Guide teleCARE IP TD 93021US Rev A Figure 21. Stripping and positioning the cables for the NIRC Caution: Each room bus requires four wires. If the cable contains more than four wires the excess wires should be carefully stowed in the back box, away from the printed circuit board and other components to avoid electrical faults and safety problems. Details of the room bus connections are given in 5.4.1, 4-Pole Connector Terminal (NICT-4AA), page 31.
Installation Guide teleCARE IP TD 93021US Rev A 5.3.2 Room Controller PCB Connections (NIRC-GMS and NIRC-WMS with Speech) The electrical connections on the component side of the IP room controller printed circuit board are shown in the following drawing of the NIRC circuit board. External Corridor Lamp Outputs (Max.
Installation Guide teleCARE IP TD 93021US Rev A 5.3.3 IP Room Controller (NIRC) Printed Circuit Board Back View Through-Board Connection Holes for the LED Lamp MAC address label Product label with part number and serial number Figure 23. NIRC printed circuit board back view On the back of the printed circuit board there are four sets of through-board connection holes for LED lamp boards. Details of for connecting the LED lamp boards are given in section 5.6, LED Lamp Boards, page 43.
Installation Guide teleCARE IP TD 93021US Rev A 5.3.4 Room Controller (NIRC3) PCB Connections The electrical connections on the component side of the room controller printed circuit board are shown in the following drawing of the NIRC3 circuit board. LED Lamp Board Through-Board Connectors Transceiver piggyback (NIRX) extension connectors Room bus 0 2 x USB 2.
Installation Guide teleCARE IP TD 93021US Rev A 5.3.5 Room Controller (NIRC3) Printed Circuit Board Back View Through-Board Connection Holes for the LED Lamp NIRC3 MAC address label Product label with part number and serial number Figure 25. NIRC3 printed circuit board back view On the back of the NIRC3 printed circuit board there are four sets of through-board connection holes for LED lamp boards. Details of for connecting the LED lamp boards are given in section 5.6, LED Lamp Boards, page 43. 5.
Installation Guide teleCARE IP TD 93021US Rev A The designation of the required four wires is as shown in the following illustration. +5.5Vdc DATA VOICE GND Figure 27. 4-pole connector terminal with the room bus Preparing the Wires for the 4-pole Connector Terminal The 4-pole connector terminal has four terminals with two connection points at each terminal. Each connection point accepts one solid wire of maximum wire size 20 gauge (0.5mm²) (0.8mmØ).
Installation Guide teleCARE IP TD 93021US Rev A Four wires are required for the room bus, passive bus and light relay outputs, so repeat the above illustrated procedure on the remaining three wires. Figure 30. Connector terminal complete with four wires Disconnecting a Wire from the Connector Terminal First carefully place the point of a small screw driver (point approximately 0.1in (2.
Installation Guide teleCARE IP TD 93021US Rev A The 2-pole connector terminal is used for connecting the 24Vdc power supply when a separate power supply is used. It is also used for the 24Vdc power supply from the room controller to the corridor lamp. The 2-pole terminal connector has two screw terminals. Each terminal accepts one wire (up to wire size 14 gauge (1.5mm²) (1.4mmØ) or two wires (each up to 18 gauge (1mm²) (1.15mmØ).
Installation Guide teleCARE IP TD 93021US Rev A Note: The maximum size of each wire when two wires are inserted in one screw terminal of the 2-pole connector terminal is 18 gauge (1 mm²) (1.15 mmØ). 5.
Installation Guide teleCARE IP TD 93021US Rev A 5.5.1 Connecting the 24Vdc Power Supply The 24Vdc power supply uses a 2-pole connection terminal as described in section 5.4.2 on page 33. The connection point on the room controller circuit board for the power supply is shown in section 5.3.2 on page 28. The power supply wires should be guided around the sides of the room controller housing and held in place by the wire holding clip, as shown in the following illustration: Figure 36.
Installation Guide teleCARE IP TD 93021US Rev A Use the Wire Holding Clip NIRC3 Figure 37. NIRC3 - Connecting the 24V DC power supply Note: An external power connection is not required when Power over Ethernet - PoE is used to power the NIRC3. 5.5.2 Connecting the Power Supply and Corridor Lamp Power Outputs The room controller supports two corridor lamps and each has a 2-pole connector similar to the 24Vdc power supply, as described in section 5.4.2 on page 33.
Installation Guide teleCARE IP TD 93021US Rev A Use the Wire Holding Clips Figure 38. Power supply and corridor lamp power connections NIRC3 The corridor lamp (NICL2) that must be used with the NIRC3 is powered directly from the 5.5V room bus power and does not require a separate 24 volt power connection, therefore the NIRC3 is not equipped with the 24 volt power outputs. IMPORTANT: Because the NIRC3 does not have 24V power outputs, the corridor lamp (NICL) should not be connected to the NIRC3.
Installation Guide teleCARE IP TD 93021US Rev A The room bus wires should be guided around sides of the room controller housing and held in place by the wire holding clip, as shown in the following illustration: Use the Wire Holding Clip Figure 39. Connecting the room bus The connection point on the room controller circuit board for the room bus of the NIRC3 is shown in section 5.3.5 on page 37 Use the Wire Holding Clip NIRC3 Figure 40.
Installation Guide teleCARE IP TD 93021US Rev A 5.5.4 Connecting Multiple Room Buses The IP room controller supports three room buses and each has a 4-pole connection terminal which is wired as described in section 5.4.1 on page 31. The connection points on the room controller PCB for the room buses are shown in section 5.3.2 on page 28.
Installation Guide teleCARE IP TD 93021US Rev A 5.5.5 Connecting LAN Cable The LAN cable has an RJ45 plug which connects to the socket on the room controller printed circuit board shown in section 5.3.2 on page 28. The LAN cable should not be guided through the wiring clips inside the room controller housing. It should be plugged directly into the RJ45 connector on the printed circuit board with enough cable to avoid straining the LAN connection.
Installation Guide teleCARE IP TD 93021US Rev A 5.5.6 Fully Wired IP Room Controller The following illustration shows how the room controller should look with all wiring connected when external power is used: Figure 44. Fully Wired IP room controller The following illustration shows how the room controller (NIRC3) should look with all wiring connected when external power is used: NIRC3 Figure 45.
Installation Guide teleCARE IP 5.6 TD 93021US Rev A LED Lamp Boards The LED lamp board contains four high intensity LED lamps which are used in the corridor lamp of the room controller and corridor lamp. The three pins in the back side of the board are used to connect the LED lamp board through holes in the back side of the room controller or corridor lamp printed circuit board. The room controller and the corridor lamp each accept up to four LED lamp boards. Figure 46.
Installation Guide teleCARE IP TD 93021US Rev A 5.6.1 Auxiliary Lamp Connection - NILD2 The green LED board (NILD2-GAA) has a galvanically separated output that can be used to connect to an auxiliary lamp. It has a maximum switching capacity of 0.4A at 60V peak. Max. 0.4A at 60V peak NILD2 To auxiliary power supply Figure 48.
Installation Guide teleCARE IP TD 93021US Rev A After stripping the wire, insert the wire in the appropriate opening of the connection point by pressing the wire firmly into the terminal, as illustrated below: Figure 49. Connecting the wires of an external lamp Note: Each connection point in the connector terminal accepts only one solid wire. Maximum wire size 0.5MM² (0.8mmØ).
Installation Guide teleCARE IP TD 93021US Rev A 5.6.3 Installing the LED Lamp Boards on the IP Room Controller Board On the back side of the IP room controller PCB there are the four sets of through-board connections for the LED lamp boards. Each through-board connector has three holes which accept the three connecting pins on the LED lamp board. Through-Board Connection Holes for the LED Lamp Boards LED Lamp Board Guide Marks Figure 50.
Installation Guide teleCARE IP TD 93021US Rev A boards. Figure 52. NIRC room controller PCB with 4 LED lamp boards Example of the second generation LED lamp boards (NILD2) mounted on the NIRC3. NIRC3 Figure 53. NIRC3- room controller PCB with 4 LED lamp boards 5.6.4 External Corridor Lamp Connections The NIRC has a 6-pole connector for connection of an external corridor lamp with up to four separate LEDs.
Installation Guide teleCARE IP TD 93021US Rev A The outputs L1, L2, L3 and L4 are parallel circuits to LED connections on the NIRC printed circuit board. Each external LED must be connected between the lamp connector (L1, L2, L3 or L4) and +V on the 6-pole connector. Figure 54. External corridor lamp connections of the NIRC Caution: The maximum load on each external LED circuit is 60mA. IMPORTANT: The maximum load on each external LED circuit is 60mA.
Installation Guide teleCARE IP 5.7 TD 93021US Rev A Corridor Lamp (NICL) The Corridor Lamp (NICL) is controlled by the IP room controller (NIRC only) and one IP room controller can support two corridor lamps. Each Corridor Lamp is connected to one of the three room buses of the IP Room Controller and it always has the fixed address 5.
Installation Guide teleCARE IP TD 93021US Rev A Figure 57. Corridor lamp (NICL) parts 5.7.1 Installing the Corridor Lamp When installing the Corridor Lamp the first step is to separate the top section (cover, PC board and lamp dome) from the housing. To do that simply grip the top edge of the cover and pull it away from the housing, as shown in the following illustration: Figure 58.
Installation Guide teleCARE IP TD 93021US Rev A 5.7.2 Removing the Corridor Lamp Printed Circuit Board To remove the circuit board from the housing, press the holding clip outwards until it releases the circuit board, as shown in the following illustration: Figure 59. Removing the circuit board from the housing With the printed circuit board released from the holding clip, partly rotate the circuit board and remove it from the housing. 5.7.
Installation Guide teleCARE IP TD 93021US Rev A the housing. Figure 60. IP room controller housing 5.7.4 Corridor Lamp Electrical Connections The wiring between NIRC Room Controller and the NICL Corridor Lamp consists of the teleCARE IP four-wire room bus plus two additional wires for 24Vdc to power the corridor lamp LEDs. LED Lamp Through-Board Connectors Connectors for External LED inputs/outputs Buzzer Room Bus (from the Room Controller) 24Vdc Power Supply (from the Room Controller) Figure 61.
Installation Guide teleCARE IP TD 93021US Rev A 5.7.5 4-Pole Connector Terminal Figure 62. 4-pole connector terminal The 4-pole connector terminal is used for connecting the room bus. It has a screw-less “spring-cage” connection technique and each terminal has two connection points. The designation of the required four wires is as shown in the following illustration. 5.5 Vdc DATA VOICE GND Figure 63.
Installation Guide teleCARE IP TD 93021US Rev A Preparing the wires and connecting the 2-pole connection terminal is described in section 5.4.2, 2Pole Connector Terminal (NICT-2BA) on page 33. 5.7.7 Connecting the Corridor Lamp Printed Circuit Board When preparing the wiring for connecting the printed circuit board of the corridor lamp make sure that the power supply wires and the room bus wires are stripped of the cable outer jacket and that the wires are long enough, as described in section 5.
Installation Guide teleCARE IP TD 93021US Rev A Through-Board Connection Holes for the LED Lamp Boards LED Lamp Board Guide Marks Figure 67. LED through-board connectors and guide marks For full details of the LED lamp boards refer to section 5.6, LED Lamp Boards, page 43. 5.7.9 Connecting the LED Lamp Boards To connect the LED lamp board, insert the three pins of the LED lamp board into the appropriate three holes in the back side of the corridor lamp PCB.
Installation Guide teleCARE IP TD 93021US Rev A Figure 69. Corridor lamp PCB with 4 LED lamp boards Caution: The pins on the LED lamp board are not in the center of the board so it is important to make sure that the LED lamp board lines up with the guide marks on the corridor lamp PCB when the pins are inserted. 5.7.10 External Corridor Lamp Connections External Corridor Lamp Inputs The NICL corridor lamp can be used as a passive LED corridor lamp connected to the NIRC External Corridor Lamp Outputs bus.
Installation Guide teleCARE IP TD 93021US Rev A Figure 70. External LED inputs to the NICL corridor lamp External Corridor Lamp Outputs When the NICL corridor lamp is used as a passive slave to the room controller, a cable with 6-pole connectors is used to connect the NICL with the NIRC External Corridor Lamp Outputs bus. The +V pole from the bus applies continuous 24Vdc from the NIRC to the four LEDs on the NICL. Each LED is individually switched to 0 volts by the NIRC via the L1, L2, L3, L4 poles.
Installation Guide teleCARE IP TD 93021US Rev A Figure 71. System Manager (NISM2) The NISM2 power requirement is 100Vac to 240Vac 50-60Hz for the internal power supply. Optionally the 12-24Vdc power connection can be used to connect to an external power supply. Note: Refer to the “Installation Guide ELISE3” (TD 92679GB) for ELISE 3 general information and mounting instructions. 5.8.
Installation Guide teleCARE IP TD 93021US Rev A Figure 72. NISM power supply connection settings When the correct power supply is set in the NISM System Setup the power LED on the front of the NISM2 will show a steady blue indication. If there is a conflict between the NISM System Setup and the type of power supply then the NISM2 power LED will show a red flashing indication. Power Indicator LED Figure 73.
Installation Guide teleCARE IP TD 93021US Rev A 5.8.2 External DC Power Supply In place of the internal power supply, the NISM2 can be connected to an external 12 - 24Vdc power supply. Connect the Ethernet LAN cable to the “LAN 1” port and connect the external 12 - 24Vdc power supply to the “12-24Vdc 1A” connector on the NISM2 (ELISE 3) module. 10baseT/100base T Ethernet LAN Connection 12-24Vdc External Power Input Figure 74.
Installation Guide teleCARE IP 6 TD 93021US Rev A Peripherals The switch modules all have the same basic format and can be mounted as a single unit on a single backplate or as a double unit on a double backplate. The switch modules have one, two or three buttons with LEDs and a some switch modules have a buzzer. The functions of the buttons and buzzer are determined by the software when system is configured using the system manager (NISM). 6.
Installation Guide teleCARE IP 6.3 TD 93021US Rev A Backplates and Surface Mounting Spacer The teleCARE IP switch modules are designed to be mounted on flat walls using the teleCARE backplate. The backplate is designed to be mounted over flush fitted back boxes and an array of holes in the backplate allows it to be mounted over various international back boxes. As an alternative to the backplate a spacer is available for surface mounting the teleCARE switch modules, with or without a back box.
Installation Guide teleCARE IP TD 93021US Rev A Figure 68. Mounting the backplate (or spacer) on the back box The backplate should be placed over the back box with the side marked “TOP” at the top. Then turn the backplate so that the heads of the screws pass through the eyes of the appropriate “key-hole” slots (1). The backplate must then be turned (2) until the side marked “TOP” is up. Finally the back box screws should be tightened (3). Figure 69. Securing the backplate (or spacer) to the back box 6.3.
Installation Guide teleCARE IP TD 93021US Rev A Figure 70. Surface mounting spacer Note: When no back box is available it is best to use the screw holes furthest from the center to mount the spacer on a flat surface. 6.3.3 Mounting the Spacer on a Back Box To mount the spacer on a back box the mounting screws in the back box should not be removed but partially unscrewed to extend at least 0.2in (5mm) above the wall surface.
Installation Guide teleCARE IP TD 93021US Rev A Figure 72. Connecting the switch module Refer to the relevant switch module description in the following sections for details of the electrical connections. 6.4.1 4-Pole Connector Terminal Figure 73. 4-pole connector terminal The 4-pole connector terminals required for the room bus and also for the connection of a passive bus or the bed light switching relays.
Installation Guide teleCARE IP TD 93021US Rev A The designation of the passive bus wires is shown in the following illustration. 5.5Vdc IN0 IN1 OUT Figure 75. 4-pole connector terminal with the passive bus The designation of the light switching relay connections is shown in the following illustration. L1} L2} Figure 76. 4-pole connector terminal for the light relay 6.4.
Installation Guide teleCARE IP TD 93021US Rev A Figure 78. Inserting a wire in the connection point Check that a good connection has been made by gently pulling on the wire after it has been inserted. The wire should stay fixed in the terminal. Four wires are required for the room bus, passive bus and light relay outputs, so repeat the above illustrated procedure on the remaining three wires. Figure 79. Connector terminal complete with four wires 6.4.
Installation Guide teleCARE IP TD 93021US Rev A 6.4.5 Disconnecting a Wire from the Connector Terminal First carefully place the point of a small screw driver (point approximately 0.10in (2.5mm) wide on the relevant orange colored release key of the connection terminals and press the key in firmly to open the spring-cage connector (1). With the release key pressed in pull the wire from the terminal (2) then remove the screw driver. Figure 81. Removing a wire from a connection point 6.4.
Installation Guide teleCARE IP TD 93021US Rev A 6.4.7 Mounting the Switch Module to the Surface Mounting Spacer To mount the switch module onto the spacer, place the lower edge of the switch module on the two lower snap fasteners of the spacer (1). Next place the switch module on to the two top fasteners (2) and press the switch module so that it snaps closed on the spacer. Figure 83. Mounting the switch module on the spacer 6.4.
Installation Guide teleCARE IP TD 93021US Rev A Insert the point of the screwdriver into the groove at the side of the switch module between the faceplate and the back plate at about 0.4in (10mm) down from one of the top corners. Figure 85. Inserting the screwdriver Gently push and turn the screwdriver until the switch module releases from the back plate. Figure 86. Removing the switch module from the back plate Note: Do not insert the screwdriver into the bottom corner of the faceplate. 6.4.
Installation Guide teleCARE IP TD 93021US Rev A Figure 87. Inserting the screwdriver Gently push and turn the screwdriver until the switch module releases from the spacer. Figure 88. Removing the switch module from the backplate Caution: Do not insert the screwdriver into the bottom corner of the faceplate. 6.4.10 Dip Switch Settings Each room bus provides eight addresses for the connection of teleCARE IP switch modules.
Installation Guide teleCARE IP TD 93021US Rev A The image below shows the location of the DIP switch which is in the same place on all active switch modules. DIP Switch Settings: 0, 1, 2, 3 Figure 89. Active switch module DIP switch location The the DIP switch allows 4 addresses to be set: 0, 1, 2 and 3. These settings are only used for active switch modules and active socket modules. Address 4 is used for the toilet cancel module and this module has the address fixed and it is not set by a DIP switch.
Installation Guide teleCARE IP TD 93021US Rev A The NIBM2 has a Safe Release connection socket for the handset and it is available with three or one button. The NIBM2-G3S and NIBM2-W3S have three function buttons: red, green and yellow. The NIBM2-W1S and NIBM2-G1S have one red button. Figure 90.
Installation Guide teleCARE IP TD 93021US Rev A 4-Pole Connector for the Room Bus 4-Pole Connector for an External Call Input and Call LED Output Connector for the Speech Module Not supported with UL 2560 systems 4-Pole Connector for the Stereo Input from the Television Interface Dip switch for setting the Room Bus Address 0, 1, 2, or 3 4-Pole Connector for the Light Switching Relays Figure 91.
Installation Guide teleCARE IP TD 93021US Rev A 6.5.2 Light Switching Relay Maximum Load and Surge Damping Diode The teleCARE switch module NIBM2 with a socket and bed light control include 2 light switching circuits. Each circuit is suitable for switching a bi-stable 24Vdc relay. The maximum switching current for each relay must not exceed 0.3A at maximum 30Vdc. Figure 92.
Installation Guide teleCARE IP TD 93021US Rev A teleCARE Bedside Module 5.5Vdc LAMP SWITCH GND Figure 93. External Call Contact with Call LED WARNING: • The equipment that is connected to this interface is not considered to be part pf the system configuration unless the equipment complies with ANSI/UL 2560 standard for Emergency Call Systems for Assisted Living and Independent Living Facilities. • The SWITCH and LAMP circuits are not electrically isolated.
Installation Guide teleCARE IP 6.6 TD 93021US Rev A Medical Rail Socket (NIMS2) The Medical Rail Socket (NIMS2) is a teleCARE IP peripheral. The NIMS2 is designed to be flush mounted by two screws in an opening in a medical rail. The NIMS2 supports teleCARE IP speech and stereo TV audio input from the television interface module. Figure 94. Medical Rail Module NIMS2 (top, front, bottom) The NIMS2 is connected to the teleCARE IP room bus by a 4-pin connector. The room bus connector includes the 5.
Installation Guide teleCARE IP TD 93021US Rev A 6.6.1 NIMS2 Electrical Connections and DIP Switch Settings The medical rail socket (NIMS2) is an “active peripheral” which must be connected to one of the three room buses of a teleCARE IP room controller by the 4-pole room bus connector. The room bus connector includes the 5.5Vdc power supply for the NIMS2. Each room bus offers individual addresses for up to four switch modules.
Installation Guide teleCARE IP TD 93021US Rev A 6.6.2 NIMS2 Room Bus Address Setting The room bus address of the medical rail socket is selected using the DIP switch on the top side of the printed circuit board. For details of the DIP switch settings see 6.4.10, Dip Switch Settings on page 71. DIP Switch for Room Bus Address Figure 96. NIMS2 DIP switch 6.6.
Installation Guide teleCARE IP TD 93021US Rev A 6.6.4 External Call Contact with Call LED Output The external call connection allows an external normally open third-party contact to activate a teleCARE call in parallel to the red button of the bedside module. The 4-pole connector provides SWITCH and GND terminals for connection to a normally open contact of an external switching device. These terminals provide 5.5Vdc at 0.6mA, for monitoring the external device contact.
Installation Guide teleCARE IP TD 93021US Rev A 6.6.5 Mounting the Medical Rail Socket The following illustration shows how the medical rail socket is mounted in the underside of a medical rail. 0.10 in. (2.6mm) 0.10 in. (2.6mm) 5/8 in. (16mm) 2 1/4 in. (56mm) 2 5/8 in. (66mm) Figure 99. Medical rail socket mounting and cut-out dimensions 6.7 Door Side Module (NIDM) The Door Side Module (NIDM) is a three-button switch module which is connected to the teleCARE IP room bus.
Installation Guide teleCARE IP TD 93021US Rev A passive cancel switch module. 4-Pole Connector for Room Bus Connector for the Speech Module Buzzer Dip switch for setting the Room Bus Address 0, 1, 2, or 3 4-Pole connector for Passive Bus Figure 101. Door Side module electrical connections and address setting The NIDM has a 5-pin connector for connecting a speech module. Refer to 6.15.1, Connecting the Speech Module on page 104 for details of the speech module.
Installation Guide teleCARE IP TD 93021US Rev A The NIPC has a 4-pin connector for the room bus, a 5-pin connector for the speech module and a 5-pin connector for future use. Each room bus offers individual addresses for up to four switch modules. The address is selected using the DIP switch on the switch module printed circuit board. The NIPC has a 2 meter long pull cord for call activation with two safety break plastic balls, and it is available with three function buttons: red, green and yellow.
Installation Guide teleCARE IP TD 93021US Rev A Note: The 4-pole connector terminals required for the room bus connections is not supplied with the switch module. It is available as accessories and must be ordered separately. 6.8.2 Assembling and Attaching the Pull Cord It is important to assemble and attach the pull cord to the pull switch module correctly to ensure the cord is securely attached and that the “safety break” mechanism works reliably.
Installation Guide teleCARE IP TD 93021US Rev A 6.9.1 Toilet Cancel Module (Active) Electrical Connections The toilet cancel module is an “active peripheral” therefore it must be connected to one of the three room buses of a teleCARE IP room controller by the 4-pole room bus connector (see 6.4.1, 4-Pole Connector Terminal on page 65). The toilet cancel module also has a 4-pole connector for the passive bus to which a passive pull-cord call module can be connected (see 6.10.
Installation Guide teleCARE IP TD 93021US Rev A The Passive Pull Cord Module is intended for use in the teleCARE IP system, in areas such as bathrooms and toilets. It must be connected to the passive bus of a door side module or active pull cord cancel module. When connected to the door side module, it can be combined with the passive toilet cancel module on the same passive bus. The passive bus consists of four wires (see 6.4.1, 4-Pole Connector Terminal on page 65).
Installation Guide teleCARE IP TD 93021US Rev A IMPORTANT: Together with the passive toilet cancel module a passive pull cord module which contains the line break detection circuitry must be installed. The passive pull cord module must be connected at the end of the passive bus. The Passive Toilet Cancel Module requires a single backplate which must be ordered separately. The backplate enables this switch module to be mounted over different types of back boxes.
Installation Guide teleCARE IP TD 93021US Rev A The NIPC2 is available in gray or white and has a pull cord of length 2 meter with two plastic balls. The top ball acts as a safety break by splitting in half when the cord is pulled with excessive force. Figure 111. NIPC2 Pull cord module (exploded/assembled) The active version of the NIPC2 is connected to one of the room buses of the IP Room Controller. It has a 4-pin connector for the connection of the room bus, consisting of: 5.
Installation Guide teleCARE IP TD 93021US Rev A The NIPC2 should be mounted at a minimum height of 90.5in (2300mm) above the floor and at least 8in (200mm) above the highest position of the shower head. Where possible the pull cord should extend down to approximately 9in (200mm) above the floor. The following illustration shows some examples of suitable locations for the pull cord module. Min.Min. 9 in.200mm (200 mm) Above the highest position of the shower head Min.Min. 7.5 ft. (2300 mm) 2300mm in.
Installation Guide teleCARE IP TD 93021US Rev A Figure 113. Positioning the back box on a tiled wall 6.12.3 NIPC2 Back plate The NIPC2 back plate has a urethane foam gasket on both sides to prevent water entering the pull cord module. With the NIPC2 switch module mounted correctly on the back plate the switch module conforms to the ingress protection rating of IP44. Figure 114. NIPC2 backplate 6.12.
Installation Guide teleCARE IP TD 93021US Rev A Caution: The screws inside the back box must not be used to mount the backplate. Four holes must be drilled in the wall surface and fitted with suitable wall plugs to allow the backplate to be mounted using the four corner holes. 6.12.5 Drilling the Backplate Mounting Holes Four suitably sized holes should be drilled around the back box at 3in (77mm) between the centers (1). A wall plug which will accept a screw of diameter 0.14in (3.5mm) to 0.15in (3.
Installation Guide teleCARE IP TD 93021US Rev A The four screws should be tightened carefully so that just enough pressure is applied on the gasket to compress it evenly all around between the backplate and the wall surface. Figure 117. Fixing the backplate to the wall Caution: Do not excessively tighten the fixing screws as this will distort the backplate and the foam gasket resulting in an ineffective waterproof seal. 6.12.
Installation Guide teleCARE IP TD 93021US Rev A 6.12.8 Room Bus Electrical Connections The NIPC2 GAA and NIPC2 WAA are active teleCARE IP peripherals which must be connected to the 4-pin room bus connector on the switch module. Refer to section 6.4.2, Preparing the Wires for the 4-pole Connector Terminal on page 66). in order to correctly strip the cable and prepare the wires for the 4-pole connector. The connections of the room bus wires in the 4-pole connector are shown in the following illustration. 5.
Installation Guide teleCARE IP TD 93021US Rev A The connections of the passive bus wires is shown in the following illustration. 5.5Vdc (Aux) IN0 (Aux) IN1 (Aux) OUT Figure 121. 4-pole connector terminal with the passive bus The illustration below shows the location of the passive bus connector: 4-Pole Connector for the Passive Bus Figure 122. Passive bus connector location 6.12.
Installation Guide teleCARE IP TD 93021US Rev A Figure 123. Cable of the pull cord module with the 4-pole connector Plug in the connection terminal to the appropriate 4-pin connector of the pull cord module (active = room bus connector, passive = passive bus connector). Figure 124. Connecting the room bus to the switch module Mount the switch module on the backplate by first position the two latch fasteners of the backplate over the two teeth on the inside of the lower edge of the cover plate (1).
Installation Guide teleCARE IP TD 93021US Rev A Figure 125. Mounting the switch module on the backplate Press the pull cord module on to the backplate (making sure that the latch fasteners stay engaged) and carefully tighten the two fixing screws. The screws should be tightened to apply just enough pressure on the gasket to compress it evenly all around between the cover plate and the backplate. Figure 126.
Installation Guide teleCARE IP TD 93021US Rev A 6.12.12 Assembling and Attaching the Pull Cord It is important to assemble and attach the pull cord to the pull switch module correctly to ensure the cord is securely attached and that the “safety break” mechanism works reliably. The following illustrations show how to prepare the pull cord: 6150 in. mm min (150 mm) min. 1 6.5 ft.mm max. 2000 (2000 max.mm) 6150 in. min mm (150 mm) min. 2 click! 3 Figure 127. Assembling and attaching the pull cord 6.
Installation Guide teleCARE IP TD 93021US Rev A The Duty Selector decides the call forwarding groups and response sequences according to the duty configurations which have been configured in the system setup. It has a push-button selector switch allowing up to 10 pre-programmed duties to be selected. The numbers from 0 to 9 are displayed in the window at center of the unit to indicate the selected duty. The Duty Selector includes a buzzer which can be configured in the system setup to signal calls etc.
Installation Guide teleCARE IP TD 93021US Rev A 6.13.2 Auxiliary Inputs The third 4-pole connector is used for auxiliary inputs. It has two input circuits which are available as interfaces to external devices. These terminals provide 5.5Vdc at 0.6mA, for monitoring the external device contacts, as shown in Figure 130. IN-1 GND IN-2 GND Test LED Monitoring Contact Monitoring Contact Figure 130.
Installation Guide teleCARE IP TD 93021US Rev A Figure 131. Card reader front and back view The NICR allows staff members to register their presence in a room or to open an electrically locked door through a contactless proximity authorized smart card. The NICR should be mounted in an accessible location (usually next to the entrance door of the room) so that the smart card can be held close to the reader when the staff member enters or leaves the room.
Installation Guide teleCARE IP TD 93021US Rev A • The Auxiliary Monitoring circuits are power limited to 5.5Vdc at 0.6mA. Caution: The tamper alarm function is not possible when the spacer is used. 6.14.1 Card Reader Electrical Connections The NICR has two connectors consisting of the room bus and the auxiliary connections. It is an “active peripheral” therefore it must be connected to one of the three room buses of a teleCARE IP room controller by the 4-pole room bus connector (see 6.4.
Installation Guide teleCARE IP TD 93021US Rev A the NICR power fluctuations. Figure 133. Typical installation with card reader 6.14.2 Card Reader Auxiliary Connections The NICR has auxiliary connections which provide for the control of external functions such as activating an electrically operated door locks and monitoring door-open alarm contacts or other suitable purposes. The applications of the relay contacts and the auxiliary connections are configured in the System Manager.
Installation Guide teleCARE IP TD 93021US Rev A Auxiliary Connector Pins Auxiliary Monitoring Circuit Auxiliary Monitoring Circuit COM NO GND IN Auxiliary Connector Monitoring Contact Door Lock circuit Diode To Door Lock External Auxiliary Relay power supply Figure 134.
Installation Guide teleCARE IP TD 93021US Rev A • There must be a minimum distance of 1in (30mm) in all directions between the room display and any metal objects to avoid the degradation of the card reader antenna. 6.15 Speech Module (NISP) The Speech Module (NISP) is a teleCARE IP peripheral which facilitates speech in combination with Ascom Interactive Messaging (IM). It consists of a gray or white plastic body, a printed circuit board and a perforated anodized aluminum face plate. Figure 135.
Installation Guide teleCARE IP TD 93021US Rev A Cable R190192 Length 170mm Figure 136. Speech module to the right of the switch module For a two-module combination with the speech module mounted to the left side of the switch module (viewed from the front) the R190193 cable 8.0in (200mm) is required. Cable R190193 Length 8.0 in. (200mm) Figure 137. Speech module to the left of the switch module For a three-module combination the R190192 cable (length 7.0in (170mm) and the R190193 cable length 8.
Installation Guide teleCARE IP TD 93021US Rev A 6.16 Room Display (NIRD) The NIRD Room Display (NIRD) combines Ascom interactive messaging (IM) functionality, with a teleCARE door side module and an RFID card reader in a wall mounted module which is suitable for use in residents rooms and staff rooms. It has an EBA polyester film membrane which covers the display and incorporates the buttons, keys and the LEDs.
Installation Guide teleCARE IP TD 93021US Rev A There are two dedicated backplates available for the NIRD: a short backplate for mounting the NIRD as a single module and a long backplate for combining the NIRD with the NISP speech module. These backplates must be ordered separately. Note: The NIRD is not compatible with the standard teleCARE switch module backplates and it is not compatible with the teleCARE surface mounting spacer. 6.16.
Installation Guide teleCARE IP TD 93021US Rev A +5.5vdc DATA VOICE GND Speech Module Connector +5.5vdc DATA VOICE GND +5.5vdc IN0 IN1 OUT 4-Pole Room Bus Connector 8-Pole Room Bus and Passive Peripheral Bus Connector Figure 141. Room display electrical connections 6.16.4 Room Display Backplate (Short) To mount the NIRD as a single module the short backplate must be used: Figure 141 indicates the location of a hole which needs to be drilled for mounting purposes. Figure 142.
Installation Guide teleCARE IP TD 93021US Rev A The backplate must be fixed to the wall using the four corner holes (indicated in the drawing below by red circles). = Essential = Optional CAUTION! DO NOT MOUNT THE ROOM DISPLAY CLOSE TO OR OVER METAL OBJECTS. There must be a minimum distance of 1 in (30mm) in all directions between the room display and any metal objects to avoid the degradation of the card reader antenna performance. Figure 143.
Installation Guide teleCARE IP TD 93021US Rev A (For details of the NISP speech module refer to chapter 6.15“Speech Module (NISP)” on page 104.) Figure 144. Room display combined with the speech module 6.16.6 Room Display Backplate (Long) The long backplate must be used to mount the NIRD combined with the NISP. Figure 144 indicates the location of a hole which needs to be drilled for mounting purposes. Figure 145.
Installation Guide teleCARE IP TD 93021US Rev A Figure 146. Inserting the connection cable through the backplate Note: Make sure that the cable lies in the recess under the strip in the middle of the backplate to avoid trapping the cable under the backplate when it is screwed to the wall. The backplate must be fixed to the wall using the four corner holes and the two holes in the middle of the backplate (indicated in the drawing below by red circles).
Installation Guide teleCARE IP TD 93021US Rev A Caution: Even when the backplate is mounted on a back box it must also be fixed to the wall with the corner holes and the middle holes. When the backplate is screwed to the wall connect the NISP and snap fit it to the backplate. Figure 148. Connecting the NISP and mounting it on the backplate Next connect the NIRD room display to the NISP and plug in the room bus connector. Figure 149. Connecting the NIRD to the NISP and connecting the room bus Refer to 6.
Installation Guide teleCARE IP TD 93021US Rev A Next, snap fit the room display to the backplate. Figure 150. Mounting the NIRD on the backplate 6.17 Television Interface Module The television interface module is the interface between the television stereo audio output and the teleCARE IP system. It provides the necessary galvanic separation between the television and the teleCARE peripherals. In the teleCARE IP application the television interface module is a passive device requiring no power supply.
Installation Guide teleCARE IP TD 93021US Rev A television interface module is connected to the “Audio” connector of the NIBM2 bedside module. Figure 152. Television audio connections WARNING: The equipment that is connected to this interface is not considered to be part of the teleCARE IP system UL listing. The handset NIPH-AES is required to listen to the TV audio.
Installation Guide teleCARE IP TD 93021US Rev A Note: • The equipment that is connected to this interface is not considered to be part pf the system configuration unless the equipment complies with ANSI/UL 2560 standard for Emergency Call Systems for Assisted Living and Independent Living Facilities. • The Television Interface Module provides electrical isolation between the Television and the teleCARE IP Emergency Call System. • Television audio in teleCARE IP requires the bedside module NIBM2.
Installation Guide teleCARE IP TD 93021US Rev A 6.18.1 Sunblind Motor Controller 2A 2 3 4 DOWN GND DATA b DATA a + 5.5vdc UP (Max. 2A) ON 1 2 3 4 Room Bus “a” Room Controller ON Sunblind Motor 1 COM + 5.5vdc DATA 0 1 2 3 GND Address Isolation DIP Switch Room Bus “a” Figure 155. Sunblind control module electrical connections The sunblind control module can be connected to one room bus and will only respond to room bus addresses 0 to 3 of the connected room bus.
Installation Guide teleCARE IP 7 TD 93021US Rev A Corridor Equipment 7.1 Corridor Display (NICD) The NICD is a supplemental IP based corridor display suitable for use in teleCARE IP, and contains a LAN interface for connection to the teleCARE IP LAN network. The NICD has a large character, 3-color (Red/Green/Amber) message display and a signaling buzzer. It is available as a single or double sided unit with a 6-character or a 12-character display. Figure 159.
Installation Guide teleCARE IP TD 93021US Rev A 7.1.2 Preparing Single-Sided Displays Prior to Mounting Before a single-sided display can be mounted, the LAN cable must be connected to the rear of the display first. The first step is to remove the metal strain reliever plate from the back of the display by unscrewing the 2 screws. Figure 160.
Installation Guide teleCARE IP TD 93021US Rev A 7.1.3 Mounting the Corridor Display The NICD is prepared for wall mounting using a special wall mounting bracket which is available as an accessory. Figure 162. Wall mounted NICD NICD Wall Mounting Bracket The NICD wall mounting bracket is available in two sizes, for the 6-character display and for the 12character display. Figure 163.
Installation Guide teleCARE IP TD 93021US Rev A 12 Character NICD • Weight of the 12 character single-sided display = 6.2 pounds/2.8 kg • Weight of the 12 character double-sided display = 7.3 pounds/3.3 kg • Weight of the 12 character mounting bracket 10 FEB 2014 / Ver A = 4.
Installation Guide teleCARE IP TD 93021US Rev A 1 in. (25 mm) 3 1/2 in. ( ) ( ) ) 11 in. ( 9 1/2 in. ) ) ( 3 1/3 in. 21 in. ( 27 1/2 in. ( ) 2 3/8 in. ( ) 21 in. ( ) ( 5/8 in. ) 2 3/8 in. ( ) 25 3/4 in. (655 mm) 3 in. (76 mm) 1 1/2 in. (38 mm) When placing the wall mounting bracket on the wall, consider the minimum height at which the display should be mounted.
Installation Guide teleCARE IP TD 93021US Rev A Figure 165. Drilling four holes for mounting the bracket Fix the mounting bracket on the wall by using four well-fitted screws capable of carrying the weight of both the display and the mounting bracket. Figure 166. Fixing the wall mounting bracket The next step is to mount the display on the wall mounting bracket. First start by removing the two hex screws at the top of the display using an allen key (Hex key wrench). Figure 167.
Installation Guide teleCARE IP TD 93021US Rev A Figure 168. Mount the display on the bracket Finally connect the ethernet cable from the outlet to the corridor display. Figure 169. Connecting the displays ethernet cable Direct Wall Mount With the direct wall mount holder, single sided displays can be mounted directly onto the wall by sliding the displays holding slots onto the wall mount holder that is fixed to the wall.
Installation Guide teleCARE IP TD 93021US Rev A 10 1/4 in. (260 mm) 1 3/8 in. (33.5 mm) 5 3/8 in. (135 mm) 1 7/8 in. (47.5 mm) 14 in. (355 mm) 1 1/2 in. (38 mm) Figure 170. Close the loop and tighten the suspension wire 7.1.4 Corridor Display Electrical Connections The NICD can be powered using Power over Ethernet (PoE) through a PoE switch or through an external 24Vdc power supply using a shielded PoE injector with the 24V negative lead “-” connected to the shield.
Installation Guide teleCARE IP TD 93021US Rev A Caution: The display will not work on supplementary non-standard (reversed polarity) ethernet switches using a normal straight cable . A “Reverse Polarity Cable” is required when connecting to a reversed polarity switch. Figure 172. Single and double sided display network connection Corridor Display Power Requirements The following table shows the power requirements for the various corridor displays. Power Consumption Display Type PoE type PoE Class Ext.
Installation Guide teleCARE IP 8 TD 93021US Rev A Wireless Functionality 8.1 General teleCARE IP with wireless functionality is intended for use in nursing homes and in assisted living facilities. teleCARE IP is able to support wireless functionality through the NICR3 teleCARE IP room controller combined with the NIRX transceiver, which is piggy-back mounted on the circuit board of the NIRC3. Figure 173.
Installation Guide teleCARE IP 8.2 TD 93021US Rev A Principle of the teleCARE IP with Wireless Functionality The system is configured using the teleCARE IP System Manager - NISM2. The wireless server is a Unite application on the NISM2 serving as the central controller for all wireless devices in the teleCARE IP system with wireless functionality.
Installation Guide teleCARE IP TD 93021US Rev A 8.2.1 Location Based Wireless Nurse Call Using LF Beacons The addition of the NILF low frequency beacons gives location based wireless functionality available including access control. The NILF will send out its ID, including location information, at regular intervals using a low frequency 125 kHz signal that will be picked up by the wireless transceiver modules that pass by the NILF. Figure 175.
Installation Guide teleCARE IP TD 93021US Rev A 8.2.2 Wireless Nurse Call with Speech Wireless transceivers can be used to generate calls to notify the staff that help is needed. These devices don't support speech themselves. To be able to set up a speech session with a person that initiated a wireless nurse call, the wired teleCARE IP speech modules are required.
Installation Guide teleCARE IP TD 93021US Rev A The table below shows the speech handling for wireless transceivers based on their static or dynamic location mode setting in combination with passive or active location beacons.
Installation Guide teleCARE IP 8.3 TD 93021US Rev A teleCARE IP Wireless Components 8.3.1 NIRX teleCARE IP Transceiver The NIRX transceiver is a printed circuit module which is piggy back mounted on the NIRC3 room controller and the NIFX fixed transceiver. Mounting the NIRX will add wireless nurse call functionality to the NIRC3 room controller and the fixed transceiver.
Installation Guide teleCARE IP TD 93021US Rev A Optional NILF Figure 179. Piggyback mounting the transceiver module on the NILF 8.3.2 NIFX Fixed Transceiver The NIFX series fixed transceiver is a wireless teleCARE IP switch module which is available as socket module or pull cord module. It has 3 function buttons, a white plastic body and includes a spacer for surface mounting. The pull cord version includes the cord with two red balls but no socket. Figure 180.
Installation Guide teleCARE IP TD 93021US Rev A Replacing the Batteries The fixed transceiver requires 2 x 1.5V AA disposable alkaline batteries. The battery voltage is continually monitored and if low voltage is detected a “low battery” alarm is transmitted and the low battery status is included in every heartbeat transmission of the unit. Under normal circumstances the battery life is 1 to 1½ year. Figure 181.
Installation Guide teleCARE IP TD 93021US Rev A Handset Connection The socket module version of the fixed transceiver includes a teleCARE Safe Release socket for connecting the NIPH2-A1A handset with handset disconnect alarm functionality. Speech/ Entertainment handsets are not supported. Figure 183.
Installation Guide teleCARE IP TD 93021US Rev A 8.3.3 NITX Mobile Transceiver The NITX mobile transceiver is a wireless call unit for residents. It is robust and water resistant (IP 65). The NITX (AAA and BAA) contains a 916 to 921 MHz RF transceiver, a call button and a reassurance LED. The NITX-BAA also includes a 125 kHz LF receiver used for call cancellation using a cancel pendant and for location determination using LF beacons.
Installation Guide teleCARE IP TD 93021US Rev A Replacing the Battery The mobile transceiver is powered by a 3 volt lithium replaceable battery. The battery voltage is continually monitored and if low voltage is detected a “low battery” alarm is transmitted as part of the heartbeat transmission of the unit. Under normal circumstances the battery life is 1 to 1 ½ year.
Installation Guide teleCARE IP TD 93021US Rev A Mobile Transceiver Accessories Interchangeable rings, buttons and strap loops make it possible to customize the mobile transceiver body. The four rings and six buttons including a ring mounting tool are available as customization kit and the five strap loops including a rivet are available as an accessory kit. Figure 188.
Installation Guide teleCARE IP TD 93021US Rev A 8.3.4 NILF Low Frequency Beacon The low frequency beacon NILF is contained in a white plastic enclosure with a slim design that is suitable for surface mounting on walls or at a door post. The NILF is powered by three 1.5V “C” (R14) alkaline batteries. In situations where battery power is not suitable a 24Vdc external power supply can be used.
Installation Guide teleCARE IP TD 93021US Rev A NILF Installation The slim design makes the NILF suitable for surface mounting on walls or at a door post at approximately 4 feet (1.2 meters) from the ground. Figure 190. NILF installation example WARNING: The NILF produces a low frequency magnetic field. Installing the NILF in proximity of metal objects or electrical cables can negatively influence the magnetic field which reduces the LF field coverage.
Installation Guide teleCARE IP TD 93021US Rev A Figure 191. Removing the front cover of the NILF Place the NILF onto the door post or the wall at approximately 4 feet (1.2 meters) from the ground and mark the holes for drilling with a sharp pencil. Figure 192. Mark the holes for drilling Screws with a diameter of 1/8 in. (3.8mm) should be used to mount the NILF to the door post or the wall. Two suitably sized holes should be drilled at the marked spots.
Installation Guide teleCARE IP TD 93021US Rev A the NILF on a wall, holes should be drilled that accept a wall plug suitable for using screws with a diameter of 1/8 in. (3.8mm). Figure 193. Drill the two holes with the proper drill Mount the NILF on the door post or wall. Figure 194. Placing the NILF on the door post The two screws should be tightened carefully using the appropriate screwdriver. Make sure that the NILF does not bend when tightening the screws.
Installation Guide teleCARE IP TD 93021US Rev A Figure 195. Tightening the two screws.
Installation Guide teleCARE IP TD 93021US Rev A 8.3.5 NILF Electrical Connections The electrical connections on the component side of the low frequency beacon printed circuit board are shown in the following drawing of the NILF circuit board. Transceiver piggyback (NIRX) extension connectors J3: Internal or external antenna connection J2: External Connections Figure 196.
Installation Guide teleCARE IP TD 93021US Rev A External Connections The 8-pole external connector (J2) has connections for a second beacon used for range extending in a master/slave configuration, a galvanically separated tamper alarm relay output, the internal battery and an external 24 Vdc power supply input. Figure 199.
Installation Guide teleCARE IP TD 93021US Rev A 8.3.6 NILF DIP Switch Settings The NILF uses three sets of 8-pole DIP switches to set the ID, output power and transmission rate, master/slave mode and the active location functionality. NILF ID DIP switches SW1 (1-8) and SW2 (1-4) are used to set the 12 bit ID code of the NILF. SW 2 - bit 8 to 11 SW 1 - bit 0 to 7 Figure 200.
Installation Guide teleCARE IP TD 93021US Rev A Output Power and Transmission Rate DIP Switch Settings With the 4 bit output power DIP switch SW3 (1-4) selection the range of the LF field can be adjusted. In relation with the output power the repetition rate of the low frequency transmissions can be set to normal, high, low and very low using 2 bit DIP switch setting on SW2 (5 and 6). SW 2 Repetition Rate SW 3 Output Power Figure 201.
Installation Guide teleCARE IP TD 93021US Rev A Master / Slave Mode DIP Switch Settings With DIP switch SW2 (8) the master / slave mode of the NILF can be set. SW 2 Master / Slave Figure 202.
Installation Guide teleCARE IP TD 93021US Rev A Beacon Mode With DIP switch SW3 (5) the mode of the LF location beacon can be set to passive or active. SW 3 Beacon Mode Figure 204.
Installation Guide teleCARE IP TD 93021US Rev A Placing the Batteries The NILF requires three 1.5V “C” (R14) alkaline batteries. The battery voltage is continually monitored. A red LED will indicate low battery status (1 flash per minute) and tamper alarm (continuous rapid flashing). Under normal circumstances the battery life is minimum one year. Figure 205. Placing the three 1.
Installation Guide teleCARE IP TD 93021US Rev A External Power Supply Connection Alternatively an external 24Vdc power supply can be connected to power the NILF. 12 - 24Vdc Power adapter Figure 206. External 24Vdc power supply connection Tamper Alarm The tamper alarm output has a galvanically separated normally closed contact. The tamper alarm output can be connected to a third-party system for generating an alarm when the NILF is tampered with.
Installation Guide teleCARE IP TD 93021US Rev A IMPORTANT: The tamper alarm output is only functional when an external 24Vdc power supply is used to power the NILF. To alarm monitoring device. Figure 207.
Installation Guide teleCARE IP 9 TD 93021US Rev A Installation Examples 9.1 2-Bed Room with Active Toilet Cancel and Active Pull Cord Peripherals A typical basic installation of a teleCARE IP system consists of one room controller with integrated corridor lamp (NIRC) to which the peripherals are connected.
+24V 0V 1 1 L2 RELAYS L1 IN1 o IN0 o 2 3 1 0 NIDM PASSIVE BUS 1 2 ON ASCOM 1 1 RELAYS L1 DATA +5V5 L2 3 2 0 1 NIDM PASSIVE BUS 1 2 ON Address 1 +5V5 DATA GND L2 L1 Light Switching Circuits Room Bus 0 IN1 OUT VOICE GND +5V5 IN0 IN1 OUT GND OUT IN1 IN0 +5V5 Socket Extension Module NISE NIPC (P) PASSIVE BUS ASCOM 1 1 + 1 L2 NIDM PASSIVE BUS Address 4 (fixed) RELAYS L1 Max. 1mm² 1/4 in. (6.
Installation Guide teleCARE IP 9.2 TD 93021US Rev A 2-Bed Room with Passive Toilet Cancel and Passive Pull Cord Peripherals The following installation of a teleCARE IP system consists of one room controller with integrated corridor lamp (NIRC) to which the peripherals are connected. The room controller offers three room buses which connect the peripherals to the room controller The example shown in the Illustration below is a 3-bed room with a toilet and shower.
Installation Guide teleCARE IP TD 93021US Rev A Ethernet LAN 24Vdc Room Controller (with Corridor Lamp) Passive Bus Address 0 Room Bus 0 Address 1 Address 2 Address 3 Figure 175.
GND OUT IN1 IN0 +5V5 1 L2 RELAYS L1 ON IN0 o NISE CONNECTION IN1 o 2 3 1 0 NIDM PASSIVE BUS 1 2 1 1 RELAYS L1 L2 3 2 0 1 NIDM PASSIVE BUS 1 2 ON Address 1 Passive Bus DATA +5V5 L2 L1 Light Switching Circuits Room Bus 0 +5V5 DATA GND GND OUT IN1 IN0 +5V5 1 2 3 1 0 NISE CONNECTION VOICE GND +5V5 IN0 IN1 OUT VOICE GND VOICE GND +5V5 IN0 IN1 OUT 1 RELAYS L1 L2 NIDM PASSIVE BUS 3 1 2 0 Bedside Module NIBM ASCOM 1 1 2 ON Address 2 2 Max. 0.5mm² 1/4 in.
Installation Guide teleCARE IP 9.3 TD 93021US Rev A 2-Bed Room with a Medical Rail Socket at each Bed The example shown in the Illustration below is a 2-bed room with peripherals for the toilet and shower. Each bed is equipped with a medical rail socket (which is usually installed in the medical rail above the bed) and a handset. Ethernet LAN 24Vdc Room Controller (with Corridor Lamp) s1 re s Ad d Address 0 Ad d (fi res xe s d) 4 Ad dr es s0 Room Bus 1 Room Bus 0 Address 1 Address 2 Figure 177.
VOICE GND 1 L2 RELAYS L1 NIDM PASSIVE BUS 3 1 2 0 LAN LAN Light Switching Circuits L1 L2 Doorside Module NIDM ASCOM 1 1 2 ON Address 0 GND Light Switching Circuits L1 L2 Room Bus 0 ASCOM GND VOICE GND DATA +5V5 DATA 1 1 L2 RELAYS L1 + +5V5 DATA DATA +5V5 ASCOM 1 1 L1 L2 1 2 ON 3 2 0 1 Address 1 Room Bus 1 Cat.
Installation Guide teleCARE IP 9.4 TD 93021US Rev A Room Controller with Corridor Lamps (Master/Slave) The example below shows the combination of a room controller and 2 corridor lamps. In the example there are three resident rooms, each containing 3 beds and a toilet with shower.
Installation Guide teleCARE IP TD 93021US Rev A Figure 180.
Installation Guide teleCARE IP 9.5 TD 93021US Rev A 4-Bed Room with Speech The installation of a teleCARE IP system with speech is basically the same as without speech except that the teleCARE IP Speech Module is added at each active peripheral where speech communication is required.
1 L2 RELAYS L1 IN0 o 1 GND 2 ENABLE 3 DIR 4 VOICE 5 +5V5 ASCOM 1 1 +5V5 DATA RELAYS L1 VOICE +Vin GND GND VOICE +Vout L2 2 3 1 0 NIDM PASSIVE BUS 1 2 ON Address 1 GND GND VOICE L2 L1 Light Switching Circuits 1 L2 RELAYS L1 NIDM PASSIVE BUS 1 GND 2 ENABLE 3 DIR 4 VOICE 5 +5V5 Speech Module NISP NISP Toilet Cancel Module NITC (Active) ASCOM 1 NISE CONNECTION NISP CONNECTION Room Bus 1 VOICE GND 1 RELAYS L1 Max. 0.5mm² 1/4 in. ( 6.
Installation Guide teleCARE IP 9.6 TD 93021US Rev A Duty Selector at a staff Station The Duty Selector is an peripheral which can be connected to any one of the three room buses from the room controller. It has a fixed address number 5 on the room bus which cannot be changed. It also has two inputs and two galvanically isolated outputs via relays. The two input circuits and the two output circuits are available as interfaces to external devices.
ASCOM L2 RELAYS L1 ON Doorside Module NIDM 1 2 3 1 0 NIDM PASSIVE BUS 1 2 Address 0 IN0 o 1 LAN Room Bus 0 IN1 o VOICE GND OUT o +5V5 DATA +5V5 o VOICE +Vin GND GND VOICE +Vout GND GND +5V5 +Vout DATA GND VOICE GND +5V5 DATA DATA +5V5 LAN +24V GND (0V) LAN 0 1 2 3 Room Bus 0 Legend 1 2 ON Room Bus Address Settings Max. 1mm² ROOM BUS DUTY SELECTOR 1 2 1 1 1 2 RELAY CONTACTS 1 Max. 0.5mm² 1/4 in. (6.
Installation Guide teleCARE IP 9.7 TD 93021US Rev A Positioning of the teleCARE IP Peripherals The following illustrations show typical room installations with recommended locations for the teleCARE equipment. 9.7.1 Room Controller, Door side Module and Customizable Module: 4in. min (100mm) 7 1/4 ft. (2200mm) Customizable Module 6 in. min (150mm) 27 1/2 - 59 in. (700 - 1500 mm) 27 1/2 - 59 in. (700 - 1500 mm) 9.7.2 Toilet Cancel Module and Pull Cord Module 8 in. min (200mm) 7 1/2 ft.
Installation Guide teleCARE IP TD 93021US Rev A 9.7.3 Bedside Module 4 ft. max. (1200mm) 4 ft. max. (1200mm) 3 1/4 - 5 1/4 ft.
Installation Guide teleCARE IP TD 93021US Rev A Document History Version Date A 10 FEB 2014 Description • First released U.S.
