Page 1 Hardware and Software Installation TRACER SUMMIT ™ Version 16 BMTW-SVN01F-EN...
Page 2 Hardware and Software Installation Tracer Summit ™ Version 16 BMTW-SVN01F-EN Tracer Summit Version 16 July 2004...
Page 3 BMTW-SVN01F-EN...
Page 4 Although Trane has tested the system described in this guide, no guarantee is offered that the system is error free. Trane reserves the right to revise this publication at any time and to make changes to its content without obligation to notify any per- son of such revision or change.
Page 5 NOTICE: Warnings and Cautions appear at appropriate sections throughout this manual. Read these carefully: WARNING Indicates a potentially hazardous situation, which, if not avoided, could result in death or serious injury. CAUTION Indicates a potentially hazardous situation, which, if not avoided, may result in minor or moderate injury. It may also be used to alert against unsafe practices.
Page 6: Table Of Contents
Chapter 1 Before Installation ......1 Tracer Summit System Overview ....... 1 The Modular BCU (BMTW) and the BCU (BMTS) .
Page 7 Contents BCU Modem Installation (Chapter 7) ......14 Chapter 2 BCU Mounting and Power Wiring ... . 15 BCU Mounting and Power Wiring for North American Installations .
Page 8 Contents Chapter 3 BCU I/O Module ......37 BCU I/O Module Installation ........37 I/O Wiring .
Page 9 Contents Device Addressing ........71 Centrifugal/Absorption/Helical Rotary Chiller (UCP2) Interface .
Page 10 Device Addressing ........114 Trane Europe Chiller Interface ....... . .115 Description .
Page 11 Network Communication Configurations ..... . . 147 Tracer Summit PC Workstations ......148 Connecting Dedicated and Shared Networks.
Page 12 Installing a Modem Card ....... . . 178 Chapter 8 Installing Tracer Summit ....179 Installing Tracer Summit using Windows XP or Windows 2000 .
Page 13 Starting Tracer Summit........
Page 14 Contents New BCU ......... . 203 Programmed BCU .
Page 15 Contents Appendix C Tracer Summit Critical Control System ..237 SQL Database Server Requirements ......237 PC Workstation Requirements .
Page 16: Chapter 1 Before Installation
(HVAC) equipment and providing management information and operator override capabilities. Figure 1 on page 2 shows the options for a Tracer Summit system config- uration. For a complete list of Trane Comm5 unit controllers, see Table 7 on page 46.
Page 17 Chapter 1 Before Installation Figure 1. Tracer Summit System Configuration Options BMTW-SVN01F-EN...
Page 18: Bcu Components
Four unit control module (UCM) communication card slots for com- • munication links 1, 2, 3, and 4 Three card slots for option cards supplied by Trane, such as Ethernet • cards, ARCNET cards, modem cards, or EIA-232 communication cards for BACnet interface A seven-segment LED display for displaying BCU operation status;...
Page 19 Chapter 1 Before Installation Figure 2. Tracer Summit BCU Component Layout BCU I/O module SET UP TOOL ONLY cable 4 AMP MAX Optional BCU I/O ON OFF module UCM communication card slots Seven-segment LED display Operator display socket Mini-monitor High capacity...
Page 20: Ucm Communication Links-Wiring Requirements
UCM communication link. The wire should have a maximum capacitance between conductors of 25 pF/ft (78 pF/m) for con- nections up to 5,000 ft (1,524 m) maximum. Trane recommends that only low-capacitance wire supplied by Trane be used for UCM communication links.
Page 21: Lan Communication Links-Wiring Requirements
— Coaxial Cable (10Base2 or “Thinnet”) Ethernet Use a 50 Ω coaxial cable (RG-58) for the Tracer Summit Ethernet link. No other coaxial cable is supported. You can order all Ethernet cables, adapters, crimp tools, stripper tools, and other coaxial accessories from Trane.
Page 22: Coaxial Cable-Arcnet
— Coaxial Cable ARCNET Use a 93 Ω coaxial cable (RG-62) for the Tracer Summit ARCNET link. No other coaxial cable is supported. You can order all ARCNET cables, adapters, crimp tools, stripper tools, and other coaxial accessories from Trane.
Page 23: Optical-Link Loss Budget
The decibel loss can vary from 0.5 to 2 dB. A clean splice results in increased performance. For example, the fiber-optic ARCNET card that Trane supports has a power budget of 10 dB. The decibel loss for fiber-optic cable provided by Trane is 3.75 dB/km (1 km = 3280 ft).
Page 24: Remote Communication Requirements And Specifications
Tracer Summit BCU. PC Workstation Modem The Tracer Summit PC Workstation supports up to three internal or external modems. (The resources available on any given PC Workstation will dictate the number of modems able to be connected.) As with the BCU internal modem, Trane reserves the right to support only those modems specified.
Page 25: Pc Workstation Requirements
Software, Tracer 100/Tracker Communications Package, and Building Communications Package The minimum hardware requirements for a PC Workstation running Tracer Summit standard software, as well as the optional Tracer 100/ Tracker Communications Package or Building Communications Package, are: Pentium 233 MHz processor •...
Page 26: Software Requirements
Pack 1 or higher (this is usually automatically installed with Microsoft Windows) Inspection Upon Receipt Tracer Summit BCUs ship pre-configured from the factory based on the model number ordered. Refer to “Model Number Description” on page 12. BCUs may include the following: Standard capacity card •...
Page 27: Model Number Description
All Trane products are identified by a multicharacter model number that precisely identifies a unit. This number is located on the BCU nameplate. The model number code for Tracer Summit systems is described in Figure 3. Its use enables installing contractors, owner/operators, and ser- vice technicians to determine components, operation, and options for a particular system.
Page 28: Storage
Storage Storage Tracer Summit BCU panels are designed for indoor installation only. If you must store the panel at the job site before installation, make sure it is stored indoors in a controlled environment. Acceptable storage tempera- tures range from –50°F to 150°F (–46°C to 66°C), with a relative humidity from 10% to 90%, noncondensing.
Page 29: Network Wiring (Chapter 6)
Chapter 1 Before Installation Network Wiring (Chapter 6) Ensure all Ethernet or ARCNET and EIA-232 cards are installed and • addressed properly. Power up the BCU and observe the LEDs on the Ethernet or • ARCNET cards for proper operation. ARCNET LAN only: Ensure that the ARCNET card is going through •...
Page 30: Chapter 2 Bcu Mounting And Power Wiring
Chapter 2 BCU Mounting and Power Wiring To install the Tracer Summit building control unit (BCU) at a job site, mount the BCU to a wall and connect the ac-power wiring according to the procedures described in the appropriate section: •...
Page 31: Select A Location
Ensure that the location conforms to BCU specifications. BCU specifica- tions are shown in Table 1 and a dimensional drawing of a BCU is shown in Figure 4 on page 17. Table 1. Tracer Summit BCU Specifications Dimensions Height 19 in. (482 mm) Width 16 in.
Page 32 BCU Mounting and Power Wiring for North American Installations Figure 4. Tracer Summit BCU Dimensions BMTW-SVN01F-EN...
Page 33: Verify Conformance To Clearance Specifications
The right clearance allows for entry of conduit for low-voltage commu- nication links and input/output wiring. • The front clearance allows for operation and service access. Figure 5. Tracer Summit BCU Minimum Clearances Front view Side view 12 in. (30 cm) 12 in.
Page 34: Secure The Bcu To The Wall
BCU Mounting and Power Wiring for North American Installations Secure the BCU to the Wall After the installing contractor runs ac-power wiring, input wiring, and communications wiring to the selected location, secure the BCU to the wall: 1. Unpack the BCU shipping carton. The keys for the BCU are inside the resin cover.
Page 35: Connect The Ac-Power Wires
Chapter 2 BCU Mounting and Power Wiring Connect the AC-Power Wires To connect the ac-power wires to the BCU: WARNING Hazardous Voltage! Disconnect all electric power, including remote disconnects before ser- vicing. Follow proper lockout/tagout procedures to ensure the power can not be inadvertently energized.
Page 36: Bcu Mounting And Power Wiring For European Community Installations
BCU circuit requirements and then connecting the ac-power wires. CAUTION Avoid Personal Injury! Install the BCU only in the manner specified by Trane. Failure to do so may result in personal injury and/or damage to equipment. BCU Mounting for European Community Installations To mount a BCU: 1.
Page 37: Select A Location
Ensure that the location conforms to BCU specifications. BCU specifica- tions are shown in Table 2. A dimensional drawing of a BCU is shown in Figure 4 on page 17. Table 2. Tracer Summit BCU Specifications Dimensions Height 482 mm...
Page 38: Verify Conformance To Clearance Specifications
BCU Mounting and Power Wiring for European Community Installations Table 2. Tracer Summit BCU Specifications (Continued) Power requirements 196–264 Vac 5 A maximum, 1 phase, 50 or 60 Hz EMC/safety compliance FCC Class A IEC 1000-4-2 4 kV CD, 8 kV AD...
Page 39: Install The Optional Operator Display
Chapter 2 BCU Mounting and Power Wiring 5. Secure the back panel to the wall with the 1/4 in. (M6) hardware. Install the Optional Operator Display If you purchased the optional BCU operator display, refer to “Installing the Optional Operator Display” on page 33, then proceed to “BCU Power Wiring for European Community Installations”...
Page 40: Connect The Ac-Power Wires
BCU Mounting and Power Wiring for European Community Installations Connect the AC-Power Wires To connect the ac-power wires to the BCU: WARNING Hazardous Voltage! Disconnect all electric power, including remote disconnects before ser- vicing. Follow proper lockout/tagout procedures to ensure the power can not be inadvertently energized.
Page 41: Bcu Mounting And Power Wiring For International Installations
The SERVICE TOOL ONLY receptacle must only be used to power a lap- top PC service tool. The PC must not exceed a 4 A draw with a maxi- mum acceptable leakage current of 3.4 mA. Figure 7. Tracer Summit BCU Power Supply Wiring SERVICE TOOL ONLY 230 Vac (blue)
Page 42: Verify Conformance To Bcu Specifications
Ensure that the location conforms to BCU specifications. BCU specifica- tions are shown in Table 3 and a dimensional drawing of a BCU is shown in Figure 4 on page 17. Table 3. Tracer Summit BCU Specifications Dimensions Height 482 mm (19 in.) Width 406 mm (16 in.)
Page 43: Secure The Bcu To The Wall
Chapter 2 BCU Mounting and Power Wiring • The left clearance allows for the alternate entry of conduit for the 120/240 Vac power entry. • The right clearance allows for entry of conduit for low-voltage commu- nication links and input/output wiring. •...
Page 44: Connect The Ac-Power Wires
BCU Mounting and Power Wiring for International Installations • The ac-power wiring must comply with the National Electrical Code (NEC) and applicable local electrical codes. • The ac-power wiring requires three-wire 120/240 Vac service. Use copper conductors only. CAUTION Use Copper Conductors Only! Unit terminals are not designed to accept other types of conductors.
Page 45: Preliminary Ac-Power Checkout
PC service tool. The PC must not exceed a 4 A draw with a maxi- mum acceptable leakage current of 3.4 mA. Figure 8. Tracer Summit BCU Power Supply Wiring 120/240 Vac (colored wire, but not white or green) 120/240 Vac (for 120 Vac, white wire;...
Page 46: Installing And Wiring The Bcu Logic Board
Installing and Wiring the BCU Logic Board 2. Make sure that all internal connections are secure, then check for ac or dc voltages for safety purposes. For BCU input power wiring and internal cable connections, see Figure 2 on page 4. 3.
Page 47: Bcu Warning Labels
Chapter 2 BCU Mounting and Power Wiring 3. Check card locations to assure they are in the communication module slot(s) corresponding to UCM communication link wiring on TB1. 4. Locate the four snap-clip receptors on the BCU metal back panel and align with the four snap clips on the BCU logic board assembly.
Page 48: Installing The Optional Operator Display
Installing the Optional Operator Display To install the BCU cover: 1. Locate the four mounting rivets on the BCU metal back panel. 2. Align the slots on the cover with the four rivets on the back panel. 3. Slide the cover onto the rivets. Then, push downward to lock into place.
Page 49 Chapter 2 BCU Mounting and Power Wiring 4. Ensure that the BCU has been mounted in the recommended location and at the recommended height as shown in Figure 5 on page 18. Note: If the BCU is not installed as recommended, you may not be able to view and use the operator display most effectively.
Page 50 Installing the Optional Operator Display Figure 11. Operator display screw hole locations 10. Thread another screw into the hole in the upper right side of the BCU chassis. Do not completely tighten the screw. 11. Hook the BCU operator display assembly onto these two screws. 12.
Page 51 Chapter 2 BCU Mounting and Power Wiring Figure 12. Operator display socket Operator display socket Note: The operator display emits a beep every 10 minutes if the oper- ator display is powered up and either the BCU is not configured or communication has been lost between the BCU and the oper- ator display.
Page 52: Chapter 3 Bcu I/O Module
1,000 ft (305 m). If the recommended lengths are exceeded, the wire may pick up EMI/RFI, which would affect operation of the BCU I/O module. For input and output wiring, Trane recommends using a plenum wire that is 18–22 AWG (1.02–0.643 mm ) shielded, twisted-pair wire. Each conductor is stranded, tinned copper.
Page 53 Chapter 3 BCU I/O Module Both input wiring and output wiring are connected to the terminal block TB1 on the BCU I/O module. The five UIPs are labeled UIP1 through UIP5. The BOP is labeled BOP1. The BCU I/O module also has a 24 Vac (100 mA) output to power transmitting devices.
Page 54 I/O Wiring Table 5. Jumper Configurations, Operating Ranges, and Circuit Characteristics for Input Device Types UIP1 (TB1-3 and TB1-4) Input Device Jumper Pins on P10 Operating Range Circuit Characteristics < 50 Ω = switches closed Binary/Pulse meter 2 and 3 10 mA, 10 V >...
Page 55: Hardware Uip Selection
Chapter 3 BCU I/O Module Table 5. Jumper Configurations, Operating Ranges, and Circuit Characteristics for Input Device Types UIP5 (TB1-11 and TB1-12) Input Device Jumper Pins on P14 Operating Range Circuit Characteristics < 50 Ω = switches closed Binary/Pulse meter 2 and 3 10 mA, 10 V >...
Page 56: Thermistor Configured Uips
Thermistor Configured UIPs Thermistor Configured UIPs For thermistor configured UIPs, only a resistance thermistor tempera- ture sensor (from –30°F to 220°F [–34°C to 104°C]) can be connected to the input. Table 6 displays the sensor resistance values for thermistors. Table 6. Sensor Resistance Values for Thermistors Temperature Thermistor (Fahrenheit)
Page 57: Current And Voltage Configured Uips
Chapter 3 BCU I/O Module Figure 14 shows the typical wiring diagram to a Trane temperature sen- sor with cancel and timed override buttons. There are two properties that will show whether the cancel or timed override buttons have been selected (turned on for 2 minutes).
Page 58: Binary Output
For all UIPs in the BCU I/O module, you must create and set up the nec- essary objects that will provide units, calculation, and alarming to the desired input. Refer to the Tracer Summit System Programming guide for creating and setting up the necessary objects.
Page 59 Chapter 3 BCU I/O Module BMTW-SVN01F-EN...
Page 60: Chapter 4 Ucm Communication-Link Wiring
Chapter 4 UCM Communication-Link Wiring Communication Links Unit control module (UCM) communication links are used to connect UCMs to the BCU. Each BCU has four communication card slots and can have up to four UCM communication links. You can configure each link with any one of the five types of UCM communication cards.
Page 61 The number of TRS panels supported in a BCU is a function of the number of binary and analog objects defined. Make sure that the BCU is properly sized (refer to BAS-PRB005-EN, Building Control Unit Sizing for Version 13 Tracer Summit Systems). TRSs must be configured on communication link 1.
Page 62: Ucm Communication Cards
UCM Communication Cards The locations of the UCM communication links on the BCU logic board are illustrated in Figure 16. Figure 16. UCM Communication-Link Locations UCM Communication Cards Five types of UCM communication cards are available. Each card sup- ports a separate link of UCMs that are scanned continuously. These five UCM communication card types are available for various communication protocols.
Page 63: Comm2 Card
Tracer 100 series systems through the system control panel (SCP). The use of an SCP is not required nor is it supported for Tracer Summit installations. A maximum of two of these cards per BCU can be used.
Page 64: Isolated Comm3 Card
UCM Communication Cards Isolated Comm3 Card This card is used for CSC, LCP, PCM, TCM, Trane Europe chiller, Vari- Trac II Central Control Panel, RTA-RTW, CGA/CGW chiller, and Voy- ager communications. A maximum of four of these cards per BCU can be used.
Page 65: Non-Isolated Comm3 Card
Chapter 4 UCM Communication-Link Wiring Non-Isolated Comm3 Card This card is used for Trane VAV I and TRS communication. This is the same link that was previously provided from the VAV command unit to the Trane VAV I UCM. VAV command units are not required nor are they supported for Tracer Summit installations.
Page 66: Comm4 Card
Note the color of the card (green), the numbers on the label, and the phys- ical characteristics of the card as shown in Figure 20. Figure 20. Comm4 UCM Communication Card Figure Note: Trane Part Number 4020 0979 Card identification tag: 50100757 Service part number: BRD0936 BMTW-SVN01F-EN...
Page 67: Comm5 Card
Note the color of the card (green), the numbers on the label, and the phys- ical characteristics of the card as shown in Figure 21. Figure 21. Comm5 UCM Communication Card Figure Note: Trane part number 4020 1124 Card identification tag: 50100857 Service part number: BRD01670 Installing UCM Communication Cards You can install a card in any of the four slots on the BCU.
Page 68: Uninstalling Ucm Communication Cards
UCM Communication Cards Figure 22. UCM Communication Card Installation Uninstalling UCM Communication Cards 1. Turn off power at switch S1. 2. Release the two clips on each side of the module. 3. Slowly move the card from the horizontal alignment (0 degrees) to a 45-degree angle.
Page 69: Communication-Link Wire
Chapter 4 UCM Communication-Link Wiring Communication-Link Wire All Tracer Summit communication-link wiring is low voltage Class 2 and must be field-supplied and installed in compliance with NEC and local codes. To prevent electrical noise interference, all communication-link wiring must also comply with the requirements outlined in this section for wire selection and individual link configuration.
Page 70: Ucm Communication-Wire Characteristics
Communication-Link Wire Figure 23. Typical UCM Communication-Link Field Wiring Figure Note: If unshielded wire is used (as recommended for Comm5), there is no shield con- nection. UCM Communication-Wire Characteristics (This section applies only to Comm2, Comm3, Comm4 wire.) UCM communication-link wiring must be low-capacitance, 18-gauge, shielded, twisted pair with stranded, tinned-copper conductors.
Page 71: Comm5 Ucm Communication-Wire Characteristics
Chapter 4 UCM Communication-Link Wiring (72±6 pF/m). Trane wire 400-2028 is recommended. Consult your local Trane sales office. Comm5 UCM Communication-Wire Characteristics The recommended Comm5 communication wiring is 22-gauge, Level 4, twisted-pair wire, either shielded or unshielded. However, you can also use low-capacitance, 18-gauge, shielded, twisted-pair with stranded, tinned-copper conductors (Trane “purple”...
Page 72 Communication-Link Wire Figure 25. Alternate Daisy Chain Configuration for Comm5 Communication-Link Wiring Termination resistor Termination resistor Repeater Termination resistor Termination resistor Figure Note: • Maximum wire length for Comm5 is 4,500 ft (1,400 m). on each side of the repeater. BMTW-SVN01F-EN...
Page 73 Chapter 4 UCM Communication-Link Wiring Figure 26. Branch Configuration for UCM Communication-Link Wiring Figure Note: • Maximum wire length for the entire configuration is limited to 5,000 ft (1,524 m). • The maximum number of branches is 10. There are 6 branches shown in the figure above.
Page 74: Termination Resistor Placement For Comm3 And Comm4 Links
If a repeater is used, each link of the configuration that is created by the repeater requires termination resistors (see “Alternate Daisy Chain Resistor Placement” on page 60). Trane recommends that only one type of wire should be used for the • Comm5 communication link.
Page 75: Comm5 Physical Link Repeater
Chapter 4 UCM Communication-Link Wiring Figure 27. Daisy Chain Resistor Placement Ω Comm Termination resistor Splice Splice Shield Shield connection not used for unshielded wire Ω Termination resistor Figure Note: A continuous shield is required when shielded wire is used. At each controller, splice shield wire and tape back to prevent grounding.
Page 76: When Is The Link Repeater Required
Communication-Link Wire When is the Link Repeater Required? A link repeater is required when: The total wire length is greater than the maximum wire run length of • 4,500 ft (1,400 m). More than 60 devices are connected to a link. This total does not •...
Page 77 Chapter 4 UCM Communication-Link Wiring Figure 29. Comm5 Shield Repeater Connection BMTW-SVN01F-EN...
Page 78 Connect shield wire to earth ground at BCU and repeater. **The value of the termination resistor is dependent on the wire type: 105 Ω for 22 AWG, Level 4 wire and 82 Ω for 18 AWG, Trane “purple” wire. BMTW-SVN01F-EN...
Page 79: Recommended Wiring Practices
EMI/RFI, voltage conductors, and ground loops. Trane requires duplex, 62.5 µm core glass fiber-optic cable with ST con- nectors. There are a variety of cables available for different applications including indoor, outdoor, burial, aerial, and duct.
Page 80: Fiber-Optic Modems
Fiber-Optic UCM Communication degradation (decibel loss). The signal degradation must be less than 14 dB on each fiber. Note: Use fiber-optic cable for long distances, interbuilding cabling, and/or other high electrical noise areas such as petrochemical installations, electronic rooms, and near hospital NMR or X-ray rooms.
Page 81 Chapter 4 UCM Communication-Link Wiring 3. Verify that a proper connection is made by plugging the ac adapter into an electrical outlet and viewing the red power LED on the left side of the modem. If the red LED does not illuminate, check the polarity of the connection and verify that the electrical outlet is pow- ered.
Page 82: Optical-Link Loss Budget
A termination or splice can vary from 0.5–2 dB loss. A clean splice results in increased performance. The fiber-optic modem supported by Trane has a power budget of 14 dB between 32°F and 140°F (0°C and 60°C). This is the acceptable tempera- ture range specified for the BCU.
Page 83 Chapter 4 UCM Communication-Link Wiring optic cables and professionally spliced and/or terminated cables should ensure minimal decibel loss. To calculate the system loss, subtract the cable loss, splice loss, termina- tor loss, and patch panel loss from the power budget. The example below shows typical values for the UCM communication link.
Page 84: Chapter 5 Ucm Wiring And Addressing
DIP switch address (see “Neuron ID” on page 144). CenTraVac Unit Control Panel (UCP1) Interface CenTraVac unit control panels (UCP1s) allow a Tracer Summit system to monitor and control the following CenTraVac control chiller models: CVHE, CVAD, CVHB, and RTHA. One digit of each UCP1’s model num- ber indicates whether the UCP1 has a bidirectional communication inter- face and can communicate with Tracer Summit.
Page 85: Type Of Communication Card: Comm2
Type of Communication Card: Comm2 Refer to “Comm2 Card” on page 48. Wiring Notes To establish wiring connections between the UCM and the BCU, Trane requires that you use the communication-link wiring specified in this manual. For wire selection specifications, see “UCM Communication- Wire Characteristics”...
Page 86: Device Addressing
Centrifugal/Absorption/Helical Rotary Chiller (UCP2) Interface Description These Unit Control Panels (UCP2s) allow Tracer Summit to monitor, con- trol, and configure centrifugal, absorption, and helical rotary chillers. The chiller must be equipped with a TCI Comm4 communication module to communicate with a Tracer Summit BCU. For specific information about the number of UCP2s allowed per BCU and per communication link, refer to Table 7 on page 46.
Page 87: Type Of Communication Card: Comm4
Type of Communication Card: Comm4 Refer to “Comm4 Card” on page 51. Wiring Notes To establish wiring connections between the UCM and the BCU, Trane requires that you use the communication-link wiring specified in this manual. For wire selection specifications, see “UCM Communication- Wire Characteristics”...
Page 88: Device Addressing
From the UCP2 operator settings menu on the front panel, change the setpoint source override item to NONE to allow Tracer Summit control. If this setting is not changed, Tracer Summit is only able to monitor the UCP2. Figure 35. ICS Connections Between the BCU and UCP2s on a Comm4...
Page 89: Commercial Self-Contained (Csc) And Intellipak Csc Interfaces
Type of Communication Card: Isolated Comm3 Refer to “Isolated Comm3 Card” on page 49. Wiring Notes To establish connections between the UCM and the BCU, Trane requires that you use the communication-link wiring specified in this manual. For wire selection specifications, see “UCM Communication-Wire Character- istics”...
Page 90 Commercial Self-Contained (CSC) and IntelliPak CSC Interfaces To connect the shield: Connect the shield at the BCU (TB2) to provide a drain for RFI/EMI, and then splice it with other CSC UCM shields at the CSC UCM end. Tape the shield at the last CSC UCM in the chain to prevent any connection between the shield and ground (see Figure 36 on page 76).
Page 91: Device Addressing
Each UCM must have a unique address that is set using a DIP switch on the CSC. The location of the Tracer Summit address DIP switch on the CSC is shown in Figure 36. For CSC address DIP switch settings, refer to Table 11 on page 77.
Page 92 Commercial Self-Contained (CSC) and IntelliPak CSC Interfaces For IntelliPak CSCs, addresses are set from the front panel. Refer to the IntelliPak CSC installation, operation, and maintenance manual for details. Table 11. CSC UCM Address Settings CSC Board A5 DIP Switch Settings UCM Address SW6-1 SW6-2...
Page 93 Chapter 5 UCM Wiring and Addressing Figure 37. IntelliPak CSC DIP Switch Settings and Daughter Board Alignment on the IntelliPak TCI Module BMTW-SVN01F-EN...
Page 94: Horizon Absorption Chiller Interface
Horizon Absorption Chiller Interface Description Tracer Summit can monitor, control, and configure Horizon absorption chillers. The Horizon interface provides a communication link between each Horizon absorption chiller and the BCU. For specific information about the number of Horizons allowed per BCU and per communication link, refer to Table 7 on page 46.
Page 95: Type Of Communication Card: Comm4
Chapter 5 UCM Wiring and Addressing The minimum software revision numbers required for compatibility with Tracer Summit for each of UCM module are shown in Table 13. Table 13. Horizon and Dragon/Navigator Chiller Minimum Software Revision Numbers Horizon Chillers Module...
Page 96: Device Addressing
Horizon Absorption Chiller Interface stector protectors through Trane. Contact your local Trane sales office for details. In a daisy chain configuration, use one pair of wires that start at the BCU and go to all UCMs in a continuous loop. A branch configuration is possi- ble if you need to tap into a daisy chain.
Page 97: Intellipak Rooftop Unit Interface
Table 7 on page 46. IntelliPaks UCMs must have the Trane communication interface (TCI) module installed in order to communicate with Tracer Summit. The TCI module must have Version 2 software or higher. Make sure the DIP switches and the daughter board on the TCI card are set as shown in Figure 40 on page 84.
Page 98 IntelliPak Rooftop Unit Interface To connect shield: Connect the shield at the BCU (TB2) to provide a drain for RFI/EMI, and then splice it with other IntelliPak shields at the IntelliPak end. Tape the shield at the last IntelliPak in the chain to prevent any connection between the shield and ground (see Figure 42 on page 86).
Page 99 Chapter 5 UCM Wiring and Addressing Figure 40. DIP Switch Settings and Daughter Board Alignment on the IntelliPak TCI Module BMTW-SVN01F-EN...
Page 100 IntelliPak Rooftop Unit Interface Figure 41. Human Interface, TCI Module, and Terminal Block Locations on the IntelliPak UCM BMTW-SVN01F-EN...
Page 101: Device Addressing
LCP supervisor. The LCP supervisor provides a communication interface between the LCP and the BCU. The LCP supervisor has two serial com- munication links: The first link allows it to communicate with the Tracer Summit BCU • over a twisted, shielded pair of wires.
Page 102: Type Of Communication Card: Isolated Comm3
Type of Communication Card: Isolated Comm3 Refer to “Isolated Comm3 Card” on page 49. Wiring Notes To establish connections between the UCM and the BCU, Trane requires that you use communication-link wire specified in this manual. For wire selection specifications, see “UCM Communication-Wire Characteristics”...
Page 103 Chapter 5 UCM Wiring and Addressing Figure 43. LCP Supervisor Component Layout Tracer Summit 24 Vdc Power Communication from LCP Link Reset Switch Address Communication Link DIP Switch (requires termination (0–81) resistors) To connect the shield: At the LCP supervisor, splice the shield with the shield of the next section of the communication-link wiring and tape it to prevent any connection between shield and ground.
Page 104: Device Addressing
8. Valid LCP addresses range from 82 to 126. Press and release the reset button after setting the address of the LCP. • The location of the Tracer Summit address DIP switch on the LCP supervisor is shown in Figure 43 on page 88. •...
Page 105 Chapter 5 UCM Wiring and Addressing • For LCP supervisor address DIP switch settings, see Table 14 on page 90. • For LCP address DIP switch settings, refer to Table 15 on page 92. Table 14. LCP Supervisor DIP Switch Settings DIP-1 DIP-2 DIP-3...
Page 106 Lighting Control Panel (LCP) Interface Table 14. LCP Supervisor DIP Switch Settings (Continued) DIP-1 DIP-2 DIP-3 DIP-4 DIP-5 DIP-6 DIP-7 DIP-8 Address BMTW-SVN01F-EN...
Page 107 Chapter 5 UCM Wiring and Addressing Table 14. LCP Supervisor DIP Switch Settings (Continued) DIP-1 DIP-2 DIP-3 DIP-4 DIP-5 DIP-6 DIP-7 DIP-8 Address Table 15. LCP Address (Options Select) DIP Switch Settings DIP-1 DIP-2 DIP-3 DIP-4 DIP-5 DIP-6 DIP-7 DIP-8 Address BMTW-SVN01F-EN...
Page 108: Programmable Control Module (Pcm) Interface
Programmable Control Module (PCM) Interface Description Programmable control modules (PCMs) allow Tracer Summit to monitor and control HVAC equipment such as air handlers, chillers, pumps, and generic loads. You can also use PCMs to add generic analog and binary inputs and outputs to Tracer Summit.
Page 109: Type Of Communication Card: Isolated Comm3
Refer to “Isolated Comm3 Card” on page 49. Wiring Notes To establish wiring connections between the UCM and the BCU, Trane requires that you use the communication-link wire specified in this man- ual. For wire selection specifications, see “UCM Communication-Wire Characteristics”...
Page 110: Device Addressing
Programmable Control Module (PCM) Interface Figure 45. Location of Address DIP Switches and UCM Communication Link on the PCM Figure Note: PCM board is much wider than shown here. Device Addressing Each UCM must have a unique address on each link. On the PCM, the address is set with the S2 address DIP switches (see Figure 45).
Page 111 Chapter 5 UCM Wiring and Addressing Table 16. PCM Address Settings PCM DIP Switch Settings Address S2-1 S2-2 S2-3 S2-4 S2-5 S2-6 S2-7 S2-8 Note: • DIP switches 7 and 8 must always be off. • Cycle power off/on after changing settings. BMTW-SVN01F-EN...
Page 112: Rta-Rtw Chiller Interface
RTA-RTW Chiller Interface RTA-RTW Chiller Interface Description RTA-RTW UCMs allow Tracer Summit to monitor, control, and configure air-cooled chillers and water-cooled chillers. The RTA-RTW interface pro- vides a communication link between the BCU and each RTA-RTW chiller. For specific information about the number of RTA-RTWs allowed per BCU and per communication link, refer to Table 7 on page 46.
Page 113: Device Addressing
Chapter 5 UCM Wiring and Addressing To connect shield: 1. Connect the shield at the BCU (TB2) to provide a drain for RFI/EMI, and then splice it with other RTA/RTW shields at the RTA/RTW end. 2. Tape the shield at the last RTA/RTW in the chain to prevent any con- nection between the shield and ground (see Figure 46).
Page 114: Scroll Chillers: U.s.-Built Cga/Cgw And Intellipak (Cgaf) Interfaces
Refer to “Isolated Comm3 Card” on page 49. Wiring Notes To establish wiring connections between the UCM and the BCU, Trane requires that you use the communication-link wire specified in this man- ual. For wire selection specifications, see “UCM Communication-Wire Characteristics”...
Page 115 Chapter 5 UCM Wiring and Addressing the last UCM in the chain to prevent any connection between the shield and ground (see Figure 49 on page 102). Note: Observe the polarity throughout communication links. IMPORTANT UCM ground loops will cause a malfunction. Figure 47.
Page 116 Scroll Chillers: U.S.-built CGA/CGW and IntelliPak (CGAF) Interfaces Figure 48. IntelliPak (CGAF) DIP Switch Settings and Daughter Board Alignment on the IntelliPak TCI Module BMTW-SVN01F-EN...
Page 117: Device Addressing
Chapter 5 UCM Wiring and Addressing Figure 49. ICS Connections Between the BCU and U.S.-built Scroll Chiller (CGA/CGW and CGAF) UCMs on an Isolated Comm3 Link Link 1 Device #1 Device #2 Device #3 Link 2 Comm Link Comm Link Comm Link Terminal Block Terminal Block...
Page 118 Scroll Chillers: U.S.-built CGA/CGW and IntelliPak (CGAF) Interfaces Table 17. CGA/CGW Address Settings Scroll Chiller DIP Switch Settings UCM Address SW6-1 SW6-2 SW6-3 SW6-4 SW6-5 BMTW-SVN01F-EN...
Page 119: Terminal Unit Controller (Tuc) Interface
Terminal Unit Controller (TUC) Interface Description Terminal unit controllers (TUCs) allow Tracer Summit to monitor and control terminal units such as fan coils, water-source heat pumps, unit ventilators, and blower coils. You can connect TUCs to any Comm4 UCM communication link in the BCU on TB2.
Page 120: Device Addressing
Terminal Unit Controller (TUC) Interface To connect shield: Connect the shield at the BCU (TB2) to provide a drain for RFI/EMI, and then splice it with other TUC shields at the TUC end. Tape the shield at the last TUC in the chain to prevent any connection between the shield and ground (see Figure 50).
Page 121 Chapter 5 UCM Wiring and Addressing Figure 51. Location of the DIP Switch Block and Test Input on the TUC BMTW-SVN01F-EN...
Page 122 Terminal Unit Controller (TUC) Interface Table 18. TUC Address Settings TUC DIP Switch Settings Address DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 DIP 6 DIP 7 DIP 8 BMTW-SVN01F-EN...
Page 123 Chapter 5 UCM Wiring and Addressing Table 18. TUC Address Settings (Continued) TUC DIP Switch Settings Address DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 DIP 6 DIP 7 DIP 8 Note: Momentarily short test inputs J11 and J12 after changing switch settings. BMTW-SVN01F-EN...
Page 124: Thermostat Control Module (Tcm) Interface
Description Thermostat Control Modules (TCMs) can provide generic inputs and out- puts that are controlled directly by Tracer Summit. TCMs can also func- tion as thermostats for air conditioning units and heat pumps. The TCM interface provides a communication link between the BCU and each TCM.
Page 125: Device Addressing
Chapter 5 UCM Wiring and Addressing IMPORTANT UCM ground loops will cause a malfunction. Figure 52. Location of Address DIP Switch and UCM Communication Link on the TCM Device Addressing Each UCM must have a unique address that is set using a DIP switch on the TCM.
Page 126 Thermostat Control Module (TCM) Interface Table 19. TCM Address Settings TCM DIP Switch Settings UCM Address S1-1 S1-2 S1-3 S1-4 S1-5 S1-6 Table 20. TCM Configuration DIP Switch Settings TCM DIP Switch Settings Program Option S1-7 S1-8 Slave Air conditioning thermostat Heat pump thermostat Test mode BMTW-SVN01F-EN...
Page 127: Tracer Remote Station (Trs) Interface
Chapter 5 UCM Wiring and Addressing Tracer Remote Station (TRS) Interface Description The Tracer remote station (TRS) allows Tracer Summit to monitor and control inputs and outputs from an existing Tracer 1000 installation. The TRS interface provides a communication link between each TRS and the BCU.
Page 128 Tracer Remote Station (TRS) Interface IMPORTANT UCM ground loops will cause a malfunction. Figure 53. Location of UCM Communication Link Terminations on TB3 of the Channel Terminator in the TRS BMTW-SVN01F-EN...
Page 129: Device Addressing
S1 address DIP switches on the communication card. The DIP switch settings for the valid addresses are shown in Table 21. Note: Since the TRS interface feature of Tracer Summit is used pri- marily in retrofit or migration applications, the TRS communi- cation addressing should already be configured. However, due...
Page 130: Trane Europe Chiller Interface
Trane Europe Chiller Interface Trane Europe Chiller Interface Description The Trane Europe chiller interface allows Tracer Summit to monitor and control scroll chillers equipped with scroll manager module (SMM) con- trollers. These chillers are manufactured in Mirecourt, France. These include models designated as follows: •...
Page 131: Device Addressing
Device Addressing Each UCM must have a unique address on each link. On the Trane Europe chiller, addresses are set from the front panel. Refer to the Trane Europe chiller installation, operation, and maintenance manual for details.
Page 132: Universal Programmable Control Module (Upcm) Interface
HVAC equipment such as air handlers, chillers, pumps, and generic loads. You can also use UPCMs to add generic analog and binary inputs and outputs to Tracer Summit. You can connect UPCMs to any Comm4 UCM communication link in the BCU on TB2.
Page 133: Device Addressing
Chapter 5 UCM Wiring and Addressing at the last UPCM in the chain to prevent any connection between the shield and ground (see Figure 55). Note: Observe the polarity throughout communication links. IMPORTANT UCM ground loops will cause a malfunction. Figure 55.
Page 134 Universal Programmable Control Module (UPCM) Interface Figure 56. ICS Termination Points and DIP Switch Location on the UPCM Table 22. UPCM Address Settings UPCM SW1 DIP Switch Settings UCM Address Note: DIP switch SW1-8 is not used. Set it to the off position. BMTW-SVN01F-EN...
Page 135: Varitrac Ii Central Control Panel (Ccp) Interface
The VariTrac II CCP can also be controlled and monitored from an upper level system, such as Tracer Summit, via a con- nection to the BCU.
Page 136 U-27 on the board. For the chip’s location on the board, refer to Figure 57 on page 122. The revision level of the board determines whether previous software versions of the CCP can be upgraded to be compatible with Tracer Summit. BMTW-SVN01F-EN...
Page 137: Type Of Communication Card: Isolated Comm3
Chapter 5 UCM Wiring and Addressing Figure 57. Location of the DIP Switches on the VariTrac II CCP Label indicates the revision level of the CCP board Label on the chip in location U27 indicates the software version Type of Communication Card: Isolated Comm3 Refer to “Isolated Comm3 Card”...
Page 138: Wiring Notes
VariTrac II Central Control Panel (CCP) Interface Wiring Notes To establish wiring connections between the UCM and the BCU, Trane requires that you use communication-link wiring specified in this man- ual. For wire selection specifications, see “UCM Communication-Wire Characteristics” on page 55.
Page 139: Device Addressing
1 through 32. The address is set with the S2 DIP switches and must match the address that was set in Site Configura- tion for Tracer Summit. For details about setting the address, refer to the VariTrac II CCP lit- •...
Page 140 VariTrac II Central Control Panel (CCP) Interface Table 23. VariTrac II CCP DIP Switch Settings VariTrac II CCP S2 DIP Switch Settings UCM Address BMTW-SVN01F-EN...
Page 141: Varitrane Ddc/Vav Ucms Interface
VariTrane UCM II, UCM III, and UCM IV as VAV II/III/ IV. Refer to “Comm4 Card” on page 51. Wiring Notes To establish wiring connections between the UCM and the BCU, Trane requires that you use the communication-link wiring specified in this- manual. For wire selection specifications, see “UCM Communication- Wire Characteristics”...
Page 142: Device Addressing
VariTrane DDC/VAV UCMs Interface To connect shield: Connect the shield at the BCU (TB2) to provide a drain for RFI/EMI, and then splice it with other VAV UCM shields at the VAV UCM end. Tape the shield at the last VAV UCM in the chain to prevent any connection between the shield and ground (see Figure 59).
Page 143 Chapter 5 UCM Wiring and Addressing Figure 60. Location of Address DIP Switch and UCM Communication Link on VAV 1, VAV IA, VAV II, VAV III, and VAV IV BMTW-SVN01F-EN...
Page 144 VariTrane DDC/VAV UCMs Interface Table 24. VAV II, III, and IV Address Settings VAV II, III, and IV DIP Switch Settings DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 DIP 6 Address BMTW-SVN01F-EN...
Page 145 Chapter 5 UCM Wiring and Addressing Table 24. VAV II, III, and IV Address Settings (Continued) VAV II, III, and IV DIP Switch Settings DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 DIP 6 Address Note: Valid VAV II, III, and IV addresses are 65 to 127. BMTW-SVN01F-EN...
Page 146 VariTrane DDC/VAV UCMs Interface Table 25. VAV I and IA Address Settings VAV I & IA DIP Switch Settings UCM Address DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 DIP 6 BMTW-SVN01F-EN...
Page 147 Chapter 5 UCM Wiring and Addressing Table 25. VAV I and IA Address Settings (Continued) VAV I & IA DIP Switch Settings UCM Address DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 DIP 6 BMTW-SVN01F-EN...
Page 148: Vav Wireless Receiver Interface
VAV Wireless Receiver Interface VAV Wireless Receiver Interface Description The variable air volume (VAV) wireless receiver allows a Tracer Summit system to monitor wireless thermostats. You can connect the wireless receiver to any Comm4 UCM communication link on TB2. The link pro- vides a serial communication interface between the BCU and each wire- less receiver in the system.
Page 149 Chapter 5 UCM Wiring and Addressing Figure 61. VAV Wireless Receiver Address DIP Switch Location and Wire Designations To connect shield: 1. Connect the shield at the BCU (TB2) to provide a drain for RFI/EMI, and then splice it with other VAV wireless receiver shields at the VAV wireless receiver end.
Page 150: Device Addressing
VAV Wireless Receiver Interface 2. Tape the shield at the last VAV wireless receiver in the chain to pre- vent any connection between the shield and ground (see Figure 62 on page 135). Note: Observe the polarity throughout communication links. IMPORTANT UCM ground loops will cause a malfunction.
Page 151 Chapter 5 UCM Wiring and Addressing Table 26. VAV Wireless Receiver Address Settings VAV Wireless Receiver DIP Switch Settings UCM Address DIP 1 DIP 2 DIP 3 DIP 4 DIP 5 Note: • DIP switches 6 and 7 are not used. Set them to the on position. •...
Page 152: Voyager Rooftop Unit Interface
Voyager Rooftop Unit Interface Voyager Rooftop Unit Interface Description Tracer Summit can monitor, control, and configure Voyager rooftop units. The Voyager interface provides a communication link between the BCU and each Voyager rooftop unit. For specific information about the number of Voyagers allowed per BCU and per communication link, refer to Table 7 on page 46.
Page 153: Wiring Notes
Chapter 5 UCM Wiring and Addressing Wiring Notes To establish wiring connections between the UCM and the BCU, Trane requires that you use the communication-link wiring specified in this manual. For wire selection specifications, see “UCM Communication- Wire Characteristics” on page 55.
Page 154: Device Addressing
50 through 81. The Voyager address is set using DIP switches on the TCI-3 board and must match the address set in Site Con- figuration for Tracer Summit. Refer to the TCI-3 literature for more details about setting the address.
Page 155: Comm5 Ucms
Temperature Limit Switch input (TB2 on the TCI-3 board). • Cycle power off/on after changing switch settings. Comm5 UCMs Trane’s Comm5 protocol is a high-speed communications link that uses ® LonTalk protocol. Comm5 offers many benefits, including: High-speed (78,000 bps) communications •...
Page 156: Description Of Types
Rover service tool) before connecting it to the BCU. Tracer Loop Controller Interface The Tracer loop controller allows a Tracer Summit system to monitor and control water-source heat pump systems. Tracer MP501 Controller The Tracer MP501 controller is a configurable, multi-purpose controller used to provide direct-digital control for HVAC equipment.
Page 157: Tracer Mp503 I/O Module
LonMark profile to send information to and receive information from the Tracer Summit BCU, in addition to using the generic variables of the No Profile configuration. The Tracer MP580/581 needs to have the correct configuration (selected through the Rover service tool) before Tracer Summit connects to it.
Page 158: Generic Lontalk Devices
The BCU gets the information it needs for mapping SNVTs to standard BACnet objects from an external interface file (XIF). You will need to transfer this information to the Tracer Summit PC Workstation. The XIF ® file is supplied by the manufacturer of the generic LonTalk device.
Page 159: Neuron Id
Neuron ID. The Neuron ID number is typically printed on a label located on the logic board of each UCM. You can view the Neu- ron ID number from Tracer Summit when communication is established. An example Neuron ID format is 00-01-64-1C-2B-00. (See the Tracer Summit System Programming guide.)
Page 160 *Termination resistors placed at the end of each link. The resistance value of the termination resistor is 105-ohm resistor for Level 4 wire at each end of the link. For Trane “purple” wire use an 82-ohm resistor at each end of the link. BMTW-SVN01F-EN...
Page 161 Chapter 5 UCM Wiring and Addressing BMTW-SVN01F-EN...
Page 162: Chapter 6 Network Wiring
• Network Communication Configurations Tracer Summit uses BACnet for communication over LANs made up of Tracer Summit BCUs and PC Workstations. Each BCU and PC Worksta- tion must have a network card installed in order to operate on a Tracer Summit network.
Page 163: Tracer Summit Pc Workstations
Chapter 6 Network Wiring Tracer Summit PC Workstations The software version on a Tracer Summit PC Workstation determines the type of network it is able to exist on. Tracer Summit PC Workstations with Version 11 or higher software: Can communicate with BCUs (BMTS) and modular BCUs (BMTW) •...
Page 164: Connecting Dedicated And Shared Networks
Display BACnet—Device IDs Each device (BCU, PC Workstation, non-Trane BACnet device) must have a device ID. For the BCU (BMTS), the device ID is set via DIP switch (S2) on the BCU logic board. The valid range for a DIP switch is 1 through 255.
Page 165 Chapter 6 Network Wiring Trane recommends that the first BCU device start at address 01 and that all additional BCUs be incremented sequentially. For the location of the BCU logic board DIP switch, see Figure 69. In the PC, the device ID is set up as part of site configuration. If ARCNET is used, always set the ARCNET address to match the device ID (see Table 29 on page 151).
Page 166: Network Topology
Network Topology Table 29. BCU Device ID: DIP Switch Settings DIP Switch Number Device ID S2-1 S2-2 S2-3 S2-4 S2-5 S2-6 S2-7 S2-8 Note: • For the BCU (BMTS), the device ID can be set from 1 to 255 using the DIP switch. For the BCU (BMTW), the device ID can be set from 1 to 254 using the DIP switch or 1 to 4194303 when softset.
Page 167: Bus Topology
You can obtain additional distances and devices by adding an ARCNET active hub. Bus Topology Bus topology can be used only with coaxial cable. A typical bus topology for an ARCNET LAN used with Tracer Summit is shown in Figure 70 on page 153. BMTW-SVN01F-EN...
Page 168: Ethernet Lan
Table 30 on page 152. Termination is provided by installing a 93 Ω BNC terminator. Star Topology Star topology requires the use of hubs. A typical star topology for the ARCNET LAN used with Tracer Summit is shown in Figure 71 on page 154. BMTW-SVN01F-EN...
Page 169: Ethernet Lan
152. Termination is provided by installing a 50 Ω BNC terminator. Note: For further information on designing an Ethernet network, refer to BAS-EB-70, Tracer Summit for Windows and Ethernet. ARCNET LAN Each coaxial cable must be terminated with 93 Ω terminators at the devices, but not at the hub.
Page 170: Ethernet Lan
Network Topology in the bus topology at each hub. A typical bus/star topology for an ARCNET LAN used with Tracer Summit is shown in Figure 72. Figure 72. Typical Tracer Summit (ARCNET) Bus/Star Topology Ethernet LAN For information about maximum cable length and maximum cable dis- tance between two devices on a communication link, refer to Table 30 on page 152.
Page 171: Calculating Delays
15,950 ft long (4,861 m) network results with RG-62/U coaxial cable. This network has a propagation delay of 19.14 µs, which is within the 31 µs limit for ARCNET. Contact Trane for systems that exceed 31 µs.
Page 172: Ethernet Network Interface Card
When configuring the interface card, follow these guidelines: Use the manufacturer’s utility disk when installing the card on a PC. • For the BCU, use an Ethernet card provided by Trane. This card is • set to the proper interrupt and memory settings.
Page 173: Arcnet Single Coaxial Input Interface Card
BCU. This card always requires the use of a tee connector. For a listing of the ARCNET single coaxial input interface cards and their respective settings currently supported by Trane, see “Configuring an ARCNET Card” on page 159.
Page 174: Arcnet Two Coaxial/One Fiber-Optic Hub Card
The BCU merely supplies the hub card with power. For a list of the ARCNET single input interface cards supported by Trane, refer to Figure 73 on page 161. Note: Do not use tee connectors on any type of hub card. The coaxial cable is connected directly to the BNC connector on the hub card.
Page 175 ARCNET PCX-CXB cards do not work in Pentium class PCs. ARCNET PCX20-CXB cards or newer should be used with Pentium processors class PCs. 2. Only Trane-provided ISA ARCNET cards may be used in the BCU because the BCU does not have a PCI bus. BMTW-SVN01F-EN...
Page 176 ARCNET Communication Figure 73. Tracer Summit ARCNET Cards—Version 4 or Later Description Jumper Settings Trane Part # 4020 1016 ARCNET three input coaxial Trane Part # 4020 1017 ARCNET two coaxial/one fiber-optic hub Trane Part # 4020 1018 ARCNET one coaxial/two...
Page 177: Arcnet Card Dip Switch Settings
Chapter 6 Network Wiring ARCNET Card DIP Switch Settings The single input coaxial and fiber-optic ARCNET cards have DIP switches (SW1) that give them a unique ARCNET address. Trane recom- mends that the ARCNET address setting match the BCU device ID set- ting.
Page 178: Installing An Arcnet Card
Installing Coaxial Cable Connectors Installing an ARCNET Card The installation procedure for installing the ARCNET card into a BCU panel applies to all of the cards discussed. For information on installing an ARCNET card in a PC, refer to the PC manufacturer’s literature. CAUTION Hazardous Voltage! Turn off power at the BCU before installing the ARCNET card.
Page 179 Chapter 6 Network Wiring Figure 75. Removing Braid Shield From Cable 4. Fan the coaxial braid slightly and fold it back over the outer jacket as shown in Figure 76. Figure 76. Fanning Back the Coaxial Braid 5. Using the coaxial cable stripper, remove 7/16 inch of the center con- ductor shield from the end of the cable as shown in Figure 77.
Page 180 Installing Coaxial Cable Connectors 9. Crimp the small end of the ferrule onto the cable. An example of a completed coaxial cable termination is shown in Figure 79. Note: Different ferrules are required for the following: • Plenum RG-62 Non-plenum RG-62 •...
Page 181: Ip Installation Procedures
Tracer Summit. The configuration can be whatever is pre- ferred by the IS staff. 3. Determine if Tracer Summit will be set up as one site or as multiple sites on the network. If it is a simple installation within one building, then it will typically be a single site.
Page 182: Programming The Site
Follow these steps: 1. Use Tracer Summit to define the site in the Site Configuration editor. 2. From the Communications tab of the Site Configuration editor select Configure.
Page 183: Bcu (Bmtw) Setup
Chapter 6 Network Wiring BCU (BMTW) Setup BCUs (BMTW) can be used on either dedicated or shared networks. The following configuration must occur before a BCU can communicate on an IP network. Follow these steps: 1. Be sure that the BCU has an Ethernet card installed and is powered 2.
Page 184: Setting Up The Broadcast Distribution Table
6. Exit the IP Validation utility by selecting Exit from the File menu. 7. Start Tracer Summit. The BCUs should receive their code and data- bases, and communications should proceed the same as for a dedi- cated network.
Page 185: Special Situations
BACnet/IP Routers Installations with BCUs (BMTS) or other BACnet devices that are not IP capable will require the installation of a BACnet/IP router. Contact Trane for more information on these routers. Follow these rules regarding routers: The BACnet devices on each side of the BACnet/IP router (the dedi- •...
Page 186: Ip Network
You may need to change the IP setup infor- mation as you move around the building. There are special utilities available to help manage this process. Contact Trane for details. You may wish to carry a small Ethernet hub. This will allow you to •...
Page 187 Chapter 6 Network Wiring Figure 80. EIA-232 Interface Card with Jumper and Connector Locations DB-9 9-pin serial port connector Ribbon cable Comm B Comm port jumpers connector to DB-9 DB-25 25-pin serial port IRQ jumpers connector CAUTION Hazardous Voltage! Turn off power at the BCU before installing the EIA-232 card. Failure to turn off power before servicing may result in human injury or damage to equipment.
Page 188: Configuring A Bacnet-Compatible Device
BCU from electrical noise. DB-9 Pin Assignments Figure 81 provides the DB-9 pin assignments for a BACnet device and a Tracer Summit BCU. Figure 81: DB-9 connector cable pin connections Tracer Summit BCU EIA-232 card with 9-pin...
Page 189: Db-25 Connector Pin Assignments
Chapter 6 Network Wiring DB-25 Connector Pin Assignments Figure 82 provides the DB-25 pin assignments for a BACnet device and a Tracer Summit BCU. Figure 82: DB-25 connector cable pin connections Tracer Summit BCU BACnet device EIA-232 card with 25-pin...
Page 190: Chapter 7 Bcu Modem Installation
Chapter 7 BCU Modem Installation The Tracer Summit BCU supports modem communication with a remote PC Workstation. Communication is performed using the BACnet point- to-point protocol at a maximum communication rate of 9,600 baud. For remote communication capabilities, install a single internal modem in one of the BCU option card slots (see Figure 2 on page 4).
Page 191: Modem Function Settings
Figure 83. Internal Modem Jumper Settings for Trane Part Number 4020 1020 Figure Note: Trane part number 4020 1020 is the U.S. Robotics Sportster “Plug and Play” 56K data/fax internal modem. Modem Function Settings A modem installed in a BCU must first be configured through Tracer Summit in order for it to answer incoming calls and to dial out alarms, if set up for remote event routing.
Page 192 Modem Card Configuration Table 34. BCU Modem Function Settings Function Settings Data Terminal Ready (DTR) Override Normal DTR operations: BCU must provide DTR signal for modem to accept com- mands; dropping DTR terminates a call. Modem ignores DTR (Override). Verbal/Numeric Result Codes Verbal (word) results Numeric results Result Code Display...
Page 193: Installing A Modem Card
Chapter 7 BCU Modem Installation Installing a Modem Card The general procedure for installing the internal modem card in the BCU is provided below. For detailed information, consult the modem manufac- turer’s literature. CAUTION Hazardous Voltage! Turn off power at the BCU before installing the modem card. Failure to turn off power before servicing may result in human injury or damage to equipment.
Page 194: Chapter 8 Installing Tracer Summit
IMPORTANT Before installing Tracer Summit software, you must disable any anti- virus software and shutdown any firewall software running on your PC. Refer to the following sections to install Tracer Summit on the various Windows operating systems: • Windows XP, see “Installing Tracer Summit using Windows XP or Windows 2000”...
Page 195: Installing Tracer Summit Using Windows Xp Or Windows 2000
1. Close all applications and toolbars. To verify that all tasks are closed, press Ctrl-Alt-Delete and end all the tasks except for Explorer. 2. Insert the Tracer Summit for Windows CD in the CD-ROM drive of your PC. Tracer Summit automatically displays the Tracer Summit Installation screen (see Figure 84).
Page 196: Installing The Network Adapter Protocol
Installing Tracer Summit using Windows XP or Windows 2000 • For PCMCIA ARCNET cards, insert the card with Windows XP or Windows 2000 running. Follow steps 2–4. 2. Windows XP or Windows 2000 Plug and Play software will detect the card and initiate the new hardware installation wizard.
Page 197: Verifying Network Adapter Status And Protocol For Windows Xp Or Windows 2000
3. For each adapter double-click the connection name that corresponds to the Ethernet or ARCNET adapter. Verify the adapter settings: • For dedicated Ethernet and ARCNET, Tracer Summit automati- cally installs support. Verify that the adapter is not bound to any other protocols.
Page 198: Setting Up Network Adapters
Installing Tracer Summit using Windows 98 2. Insert the Tracer Summit for Windows CD in the CD-ROM drive of your PC. Tracer Summit automatically displays the Tracer Summit Installation screen (see Figure 85). Figure 85. Tracer Summit Installation Screen 3. Click Tracer Summit Setup Program button.
Page 199: Installing The Network Adapter Protocol
For Windows 98 systems using Ethernet adapters on a dedicated net- • work, Tracer Summit automatically installs support. It is only neces- sary to verify the adapter settings (see “Verifying Network Adapter Status and Protocol for Windows 98” on page 185).
Page 200: Verifying Network Adapter Status And Protocol For Windows 98
3. For each adapter click the adapter name, click the Properties button, then click the Bindings tab. Verify the adapter settings: • For dedicated Ethernet and ARCNET, Tracer Summit automati- cally installs support. Verify that the adapter is not bound to any other protocols.
Page 201: Determining Available Irq And I/O Addresses For The Isa And Pcmcia Arcnet Adapters
1. Close all applications and toolbars. To verify that all tasks are closed, press Ctrl-Alt-Delete and end all the tasks except for Explorer. 2. Insert the Tracer Summit for Windows CD in the CD-ROM drive of your PC. Tracer Summit automatically displays the Tracer Summit Installation screen (see Figure 85 on page 183).
Page 202 Installing Tracer Summit using Windows 98 Figure 86. Tracer Summit Setup Type Window 4. Click the Custom option. Then, click the Next button to continue with the Custom setup steps. 5. At the Custom Setup window (see Figure 87), select the features that you want to install.
Page 203: Installing Tracer Summit Using Windows Me
1. Close all applications and toolbars. To verify that all tasks are closed, press Ctrl-Alt-Delete and end all the tasks except for Explorer. 2. Insert the Tracer Summit for Windows CD in the CD-ROM drive of your PC. Tracer Summit automatically displays the Tracer Summit Installation screen (see Figure 88).
Page 204: Setting Up Network Adapters
Installing Tracer Summit using Windows ME 4. Follow the online instructions to install the application. The installa- tion process takes 5 to 10 minutes, depending on the speed of the PC and the amount of available memory. Setting up Network Adapters...
Page 205: Verifying Network Adapter Status And Protocol For Windows Me
3. For each adapter click the adapter name, click the Properties button, and then click the Bindings tab. Verify the adapter settings: For dedicated Ethernet Tracer Summit automatically installs • support. It is only necessary to verify that the adapter is not bound to any other protocols.
Page 206: Installing Tracer Summit Using Windows Nt
1. Close all applications and toolbars. To verify that all tasks are closed, press Ctrl-Alt-Delete and end all the tasks except for Explorer. 2. Insert the Tracer Summit for Windows CD in the CD-ROM drive of your PC. Tracer Summit automatically displays the Tracer Summit Installation screen (see Figure 89).
Page 207: Installing Tcp/Ip Protocol For Bacnet/Ip Communications On Shared Ethernet Networks
• For Windows NT systems using Ethernet adapters on a dedicated network, Tracer Summit automatically installs support. • For Windows NT systems using Ethernet adapters on a shared net- work, may need the TCP/IP protocol installed, (see “Installing TCP/IP Protocol for BACnet/IP Communications on Shared Ethernet Net- works”...
Page 208: Uninstalling Tracer Summit
Remove button). The Tracer Summit Program Maintenance window displays. 6. Click Remove. 7. Click the Next button. After Tracer Summit software is removed from the hard drive, the InstallShield Wizard Completed screen appears. 8. Click Finish. Note: The Tracer Summit uninstall procedure does not remove the Tracer Summit directory structure.
Page 209: Configuring Bcus For Bacnet/Ip Communications
IP Tracer Summit for Windows sites, refer to Tracer Summit BACnet/IP Network Installations, BAS-PRB004-EN. Starting Tracer Summit 1. Double-click the Tracer Summit icon on the desktop to display the Log On dialog box. 2. Type the following in the User Name field: tracer 3.
Page 210: Chapter 9 Installing The Daily Operations Tutorial
Installing the Daily Operations Tutorial To use the Tracer Summit Focus on Your System Daily Operations Tuto- rial, you must first run the tutorial installation program on your PC. After you have installed the program, tutorial buttons appear on the fol-...
Page 211 Microsoft Data Access components (see Figure 91). Figure 91. Microsoft Data Access 2.1 Setup Dialog Box 8. Select an option: If your PC does not have Tracer Summit Version 11.0 or higher • software installed, follow steps 9 to 11 to complete installation of the tutorial program.
Page 212 Windows desktop (see Figure 92 on page 197). Figure 92. Tracer Summit Tutorial Icon 11. To access the tutorial outside of Tracer Summit, double-click the tuto- rial icon button. If your PC has Tracer Summit V11.0 or higher installed: 12.
Page 213 Chapter 9 Installing the Daily Operations Tutorial BMTW-SVN01F-EN...
Page 214: Chapter 10 Bcu Operation And Communication Status
Chapter 10 BCU Operation and Communication Status Light emitting diodes (LEDs) on the BCU indicate both operation status of the BCU and communication status with UCMs. Operation status of the BCU is indicated by a seven-segment LED display located at U11 on the BCU logic board.
Page 215: Led Indicators For Bcu Communication Status
Chapter 10 BCU Operation and Communication Status Figure 93. BCU Logic Board LED Locations LED Indicators for BCU Communication Status A row of green, yellow, and red LEDs, identified by numbers beginning with CR and located to the left of the T2 terminal block on the BCU logic board (see Figure 93), indicates the status of communication between the BCU and UCMs.
Page 216: Led Codes For Bcu Operation Status
LED Codes for BCU Operation Status The meaning of each LED code is explained in Table 35 on page 201. Table 35. LED Codes for UCM-Communication-Link Status Link Number Meaning CR14 (green) Flashes during transmission of data. CR15 (yellow) Flashes during reception of data. CR28 (red) Service mode for a Comm5 card.
Page 217 Chapter 10 BCU Operation and Communication Status Table 36: BCU Operation Status LED Codes Code Meaning — “Dancing dash”: normal operation with program (data- — base). (Dashes flash in succession, one at a time.) — Processor in reset, or no functioning software. This code will remain present if the standard capacity module is not inserted or has totally failed.
Page 218: Startup Sequence Procedures
This startup sequence is for BCUs that have not been programmed. Ser- vice may be required if a sequence occurs other than as described. Con- tact your local Trane representative. 8, 7, 6, 5, 4, 3, 2, 1, –C, Cd When the download of code is complete, if the BCU DIP switches are all turned on, the BCU will display –H.
Page 219: Clear Bcu Ram And Reset
Chapter 10 BCU Operation and Communication Status Clear BCU RAM and Reset The BCU normally preserves the content of RAM through power failure. RAM contains the current status of all BCU object trend data, events, and alarms. In most cases, this is desirable. However, there are circum- stances in which you may need to clear RAM.
Page 220: Clear Code, Database, Ram, And Reset
LED Codes for BCU Operation Status 5. The BCU will request a download of the database. When completed, the LED will return to the “dancing dash” sequence. Clear Code, Database, RAM, and Reset Code consists of the BCU image software, which is similar to the BIOS in a PC.
Page 221 Chapter 10 BCU Operation and Communication Status BMTW-SVN01F-EN...
Page 222: Chapter 11 Troubleshooting
Chapter 11 Troubleshooting This troubleshooting procedure will attempt to provide general checks and troubleshooting procedures to resolve most common problems associ- ated with a Tracer Summit BCU. Troubleshooting can generally be divided into the following categories: • BCU does not respond •...
Page 223: Bcu Locks Up
6 ft of a BCU (unless the cell phone is being used as a modem connection device for accessing the BCU). Programming the BCU (from a Tracer Summit PC Workstation) with • too many UCM and program objects can overload a BCU so that, dur- ing periods of high activity, the BCU is not able to complete all tasks and goes into a “Watch Dog Timeout”...
Page 224: Problems With The Modem And Phone Line
The BCU uses an ISA bus-style modem. BAS recommends that you • use only modems supplied by Trane for use in the BCU. The modem must be hardware configured for Comm1 and IRQ4. You cannot use an EIA-232 card and modem card at the same time in •...
Page 225: Communication Failures That Occur After Initial Installation
UCM communication card and/or connected UCMs Failures of a UCM communication card and/or BCU logic board • Programming changes at the Tracer Summit PC Workstation that • alter the site configurations or UCM objects BCU Panel Mismatch Error The panel mismatch error is a result of active panel checking.
Page 226 Capacity: 1 Modular BCU (BMTW), M2 Modular BCU (BMTW) with Capacity: 2 Tracer Summit BCU BCU (BMTS) Possible solutions to the error are as follows: 1. If you have multiple BCUs on site, verify that the device ID of the panel you are attempting to download matches the Site Configuration address for that panel.
Page 227 Chapter 11 Troubleshooting properly in the slot or (b) is defective. The solution is to properly seat or change the failed hardware. BMTW-SVN01F-EN...
Page 228: Glossary
ASHRAE. The American National Standards Institute named it as a standard. The BACnet protocol is best suited for system level control devices. building control unit (BCU) A Tracer Summit system intelligent field panel that communicates with multiple Trane UCMs. Central control panel. Commercial self-contained.
Page 229 Discharge Air Controller profile. device ID A software address assigned to Tracer Summit BCUs and PC Worksta- tions when a site is first created. The device ID then becomes the “address” for that device and allows Tracer Summit software to success- fully route messages and alarms to the device.
Page 230 Glossary Internet Protocol (IP) The protocol within TCP/IP that governs the transmission of data. It has been adopted by ASHRAE as a means to communicate BACnet over a network. It allows BACnet to pass through IP devices, such as IP system routers and over the Internet.
Page 231 Tracer remote station. Terminal unit controller. topology The physical arrangement of cables connecting BCUs, PC Workstations, and hubs within a network. Types of topologies used for Tracer Summit include bus, star, and bus/star. See Unit control module. Unit control panel.
Page 232 Glossary See Universal input. unit control module (UCM) A factory-mounted, microelectronic circuit board that interfaces with a BCU to provide control and monitoring of HVAC equipment. universal input (UIP) An input point that can be configured (typically via jumpers) to take either analog or binary inputs.
Page 233 Glossary BMTW-SVN01F-EN...
Page 234: Appendix A Setting Dip Switch Addresses
Appendix A Setting DIP Switch Addresses A dual inline package (DIP) switch is a set of individual switches pack- aged in a single assembly. The most common type has eight individual switches. Each switch can be toggled to be open or closed. For a BCU to communicate with a device, the DIP switch package of each UCM must be set to a unique address.
Page 235 Appendix A Setting DIP Switch Addresses Figure 95. Various Types of DIP Switch Packages Using Table 38, you can calculate any address by knowing each position value and whether on or off is the active state. For example, use Table 38 to determine the address of a variable air vol- ume (VAV) UCM version 3.2 controller with the DIP switch set as shown in Figure 96 on page 220.
Page 236 Setting DIP Switch Addresses Table 38. DIP Switch Settings for UCMs Supported by Tracer Summit Active Switch Value at Label #: Device Type Active Range Base Tracer Summit BCU ID 1–79 BCU ARCNET 1–79 Workstation 80–225 ARCNET 1–31 82–126 LCP Supervisor 0–81...
Page 237 Appendix A Setting DIP Switch Addresses BMTW-SVN01F-EN...
Page 238: Appendix B Bcu (Bmts)
(TB1). The BCU contains three UCM communication cards slots and three slots for option cards supplied by Trane, such as Ethernet cards, ARCNET cards, modem cards, or EIA- 232 communication cards for BACnet interface. These components are shown in Figure 97 on page 224.
Page 239 Appendix B BCU (BMTS) Figure 97. Tracer Summit BCU Component Layout The BCU (BMTS) can also house an optional 24 Vdc power supply (Trane part number 4020 0792), which is used for powering analog devices that require 24 Vdc at 120 mA maximum power supply. These analog devices include 4–20 mA or 0–10 Vdc humidity, pressure, and temperature sen-...
Page 240 ARCNET CONNECTION VIA EITHER AN RG-62, 93 OHM COAXIAL CABLE WITH BNC CONNECTOR AND TERMINATOR OR A 62.5/125 FIBER OPTIC OPTION CABLE WITH ST TYPE CONNECTORS CARD SLOTS RS-232 CONNECTION VIA DB-25 CONNECTOR REMOTE COMMUNICATION VIA A TRANE SPECIFIED INTERNAL MODEM CARD BMTW-SVN01F-EN...
Page 241: Installing Ucm Communication Cards In A Bcu (Bmts)
Appendix B BCU (BMTS) Installing UCM Communication Cards in a BCU (BMTS) You can install a card in any of the three modules on the BCU. CAUTION Hazardous Voltage! Turn off power at the BCU before installing the EIA-232 card. Failure to turn off power before servicing may result in human injury or damage to equipment.
Page 242: Communication-Link Field Wiring For The Bcu (Bmts)
Figure 99. UCM Communication Card Installation Communication-Link Field Wiring for the BCU (BMTS) All Tracer Summit communication-link wiring is low voltage Class 2 and must be field-supplied and installed in compliance with NEC and local codes. To prevent electrical noise interference, all communication-link wiring must also comply with the requirements outlined in this section for wire selection and individual link configuration.
Page 243 Appendix B BCU (BMTS) Figure 100. Typical UCM-Communication-Link Wiring BMTW-SVN01F-EN...
Page 244: Startup And Troubleshooting Sequence For The Bcu (Bmts)
Startup and Troubleshooting Sequence for the BCU (BMTS) Startup and Troubleshooting Sequence for the BCU (BMTS) BCU Power-up Sequence The BCU logic board has two LEDs, CR16 and CR17, which are under program control. In addition, two controllable LEDs, one red and one green, are mounted on a bracket in the upper right corner of the enclo- sure.
Page 245: Off 1-63 1 2 4 8 16
2. There is a PC Workstation connected to the Ethernet/ARCNET, but it is not running Tracer Summit software. 3. There is a PC Workstation running Tracer Summit software that is connected to the Ethernet/ARCNET, but it either does not have a copy of BCU.IMG or does not have a copy of BCU.IMG that matches...
Page 246: Effect Of Cycling Bcu Power
Effect of Cycling BCU Power The effect of cycling power on the BCU is different than on other Trane products such as the Tracer 100. Actions are as follows: 1. When power is restored, the BCU will go through the power up sequence described above.
Page 247: Bcu Reset Procedures
Appendix B BCU (BMTS) 7. Normal application programs run. Applications may request outputs, but no outputs to UCMs are actually performed. This allows compet- ing applications programs to bid for control of various outputs, with- out causing rapid changes in the physical output devices. 8.
Page 248: Clear Database, Ram, And Reset
Startup and Troubleshooting Sequence for the BCU (BMTS) In some cases of improper operation, it may be desirable to force BCU RAM to be cleared. If turning power off and on does not help, RAM may be cleared using one of the following procedures: From the PC Workstation’s Utilities menu, select the BCU reset/ •...
Page 249: Clear Code, Database, Ram, And Reset
7. If all looks OK, reconnect the Ethernet/ARCNET cable. Clear Code, Database, RAM, and Reset When a new version of Tracer Summit software is released, it is some- times necessary to replace the code in the BCU if a new BCU code image, BCU.IMG, was included with the new PC Workstation software.
Page 250 2. Upgrade the PC Workstation software. This will include a new ver- sion of BCU.IMG. 3. Start up Tracer Summit. In Site Configuration, select the new BCU image to be downloaded. 4. Next select Tools, BCU Reset/Restore, Select All, then select “Clear Code/Database and Reset”...
Page 251: Ethernet Card Leds
Appendix B BCU (BMTS) 8. The green LEDs remain steadily lit shortly after connection of the Ethernet/ARCNET cable. The LEDs will alternate between the green LED remaining steadily lit and flashing three times before the red LED begins to flash rapidly (about twice per second). Then, as the PC Workstation begins to download code, the red LED begins to flash rapidly and the Ethernet/ARCNET red or yellow LED begins to flash.
Page 252: Appendix C Tracer Summit Critical Control System
1 GHz processor with a 512k cache • 512 MB RAM 20 GB hard drive storage • 8X CD-ROM to run the Tracer Summit Daily Operations Tutorial • 15-inch SVGA monitor, 800 × 600 resolution, 16-bit color • Mouse •...
Page 253: Sql Software Installation
1. Close all applications and toolbars. To verify that all tasks are closed, press Ctrl-Alt-Delete and end all the tasks except for Explorer. 2. Insert the Tracer Summit Critical Control system for Windows CD in the CD-ROM drive of your PC. Tracer Summit automatically displays the Tracer Summit Installation screen (see Figure 101 on page 238).
Page 254: Windows Xp
For PCI ARCNET cards, shut down the PC Workstation and • install the PCI20 ARCNET card in an available PCI slot. Insert the Tracer Summit software CD in the CD-ROM drive of your computer. Then, restart the computer. Follow steps 2–4. •...
Page 255: Installing Tcp/Ip Protocol For Bacnet/Ip Communications On Shared Ethernet Networks
3. For each adapter double-click the connection name that corresponds to the Ethernet or ARCNET adapter. Verify the adapter settings: For dedicated Ethernet and ARCNET, Tracer Summit automati- • cally installs support. Verify that the adapter is not bound to any other protocols.
Page 256: Initial Startup On Sql Database
To Set Up the Database 1. Right click on the Start menu and choose Explore to start Windows Explorer. 2. Browse to Program Files and open Tracer Summit (see Figure 102 on page 241). Figure 102. Database Folder 3. Highlight the Database folder 4.
Page 257 Appendix C Tracer Summit Critical Control System 6. From the Start menu (see Figure 103) point to Programs, Tracer Summit, Advanced and click on Database Setup Utilities (see Figure 104 on page 243) . Figure 103. Choose Database Setup Utilities...
Page 258 Initial Startup on SQL database Figure 104. Database Setup Utility 7. The Database Setup utility window displays . Specify the correct Server Name (the SQL system administrator can supply this informa- tion). 8. Click OK. BMTW-SVN01F-EN...
Page 259: Registration Considerations
E1148 will activate the Critical Control System features. • Critical Control System only. This option is for sites that already have the base Tracer Summit system. The first five characters of this authorization code are E1149. If you have this option skip steps 1-9 below.
Page 260 Registration considerations 3. Select a registration method on the Registration Method dialog box (see Figure 107). Figure 107. Registration Method 4. Click Next. The Which PC dialog box displays (see Figure 109 on page 247). BMTW-SVN01F-EN...
Page 261 Appendix C Tracer Summit Critical Control System 5. Select a PC Workstation to register. 6. Click Next. The Registration Requirements dialog box displays (see Figure 109 on page 247). Figure 108. Which PC? BMTW-SVN01F-EN...
Page 262 Tracer Summit authorization code (E1154). 9. Click Finish. 10. The base Tracer Summit system features are now enabled. Use this base Tracer Summit system software to create and configure all the objects, devices, and points for the site. The base Tracer Summit sys- tem should be used throughout the commissioning and check-out phase of the operation.
Page 263 Appendix C Tracer Summit Critical Control System the PC, not just the FDA compliant facility, will require operator authen- tication for changes to the system After the site has been commissioned and tested, use steps 1-9 above to register the authorization code for Critical Control System(E1148 or E1149).
Page 264: Index
Index Numerics Device IDs, need for unique, 149 Verifying communication, 168 BACnet/IP 10Base2 Utilities, 194 Distance limits in network wiring, 152 BACnet/IP router, 149, 166, 167, 170 In network wiring, 6 BBMD, 167, 169 10BaseT Distance limits in network wiring, 152 Addressing, 149 In network wiring, 6 Applying warning labels, 32...
Page 265 UCM, see Wiring for a UCM BCU (BMTS), 223–236 Ethernet LAN, 155 Communication status between BCU Communication-link field wiring, and UCM, 199, 200 Compatibility with non-Trane Components, 223 systems, 171 General, 223 Configuration, definition, 214 Installing UCM communication Cable connector...
Page 266 Hardware checklist, 13 profile IP , 166 Daily Operations Tutorial Preparing for, 1 FDA Installation, 237 Installing, 195–197 Sequence for Tracer Summit, 179 Ferrule, selecting, 165 Location of buttons, 195 Tracer Summit, 179–194 Fiber-optic cable Daisy chain configuration for UCM installing...
Page 267 Clear RAM and reset procedure, Connecting dedicated and Repeater, Comm5 physical link, 60 shared, 149 Resistance requirements for coaxial Codes interpreted, 201, 202 Dedicated Tracer Summit, 148 cable connections, 165 Indicators for BCU Multiple sites, 170 Resistors, Comm5 link termination, communication status, 199, 200...
Page 268 Definition, 151, 216 communications, 55 UDP port, 166 Star, 153 UIPs, see Universal inputs Tracer AH540/541, 141 Uninstalling Tracer Summit, 193 Tracer air-handler controllers, 141 Unit control module, see UCM Tracer loop controller, 141 Universal input Tracer MP501 controller, 141...
Page 269 Index European Community installations, 21, 24 International installations, 26, 28 Logic card wiring, 31 North American installations, 15, Wiring for devices, see UCM wiring and addressing Wiring for the network 10Base2 (50 ohm coaxial) with Ethernet, 6 10BaseT with Ethernet, 6 ARCNET, see also ARCNET LAN Checking, 14 Coaxial 9 ohm with ARCNET, 7...
Page 270: Reader Response Form
Please send this form 8. The best aspect of this guide is __________________________________ by fax or mail to: _______________________________________________________________ Trane GCC Product Communications 4833 White Bear Parkway 9. If we were to change one aspect of this guide, it should be _________ St.
Page 271 Reader Response Form BMTW-SVN01F-EN...
Page 272: Bmtw-Svn01F-En
A business of American Standard Companies www.trane.com Trane has a policy of continuous product and product data improvement and reserves the right to For more information, contact your local Trane change design and specifications without notice. Only qualified technicians should perform the installa- office or e-mail us at comfort@trane.com...

Trane Tracer Summit Hardware And Software Installation Manual

Chapter 1 Before Installation

Chapter 2 BCU Mounting and Power Wiring

Chapter 3 BCU I/O Module

Chapter 4 UCM Communication-Link Wiring

Chapter 5 UCM Wiring and Addressing

Chapter 6 Network Wiring

Chapter 7 BCU Modem Installation

Chapter 8 Installing Tracer Summit

Chapter 9 Installing the Daily Operations Tutorial

Chapter 10 BCU Operation and Communication Status

Chapter 11 Troubleshooting

Glossary

Quick Links

Troubleshooting

Related Manuals for Trane Tracer Summit

Summary of Contents for Trane Tracer Summit