Trane Building Automation System Thermostat User Manual

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Hardware Installation  
TrackerVersion 12  
Building Automation System  
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Hardware Installation  
TrackerVersion 12  
Building Automation System  
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February 2004  
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Tracker Version 12 Building Automation System Hardware Installation  
This guide and the information in it are the property of American Standard Inc. and may not be used or reproduced in whole or in part,  
without the written permission of American Standard Inc. Since Trane has a policy of continuous product improvement, it reserves the  
right to change design and specification without notice.  
Use of the software contained in this package is provided under a software license agreement. Unauthorized use of the software or  
related materials discussed in this guide can result in civil damages and criminal penalties. The terms of this license are included with  
the compact disk. Please read them thoroughly.  
Although Trane has tested the hardware and software described in this guide, no guarantee is offered that the hardware and software  
are 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.  
Trane may have patents or patent applications covering items in this publication. By providing this document, Trane does not imply  
giving license to these patents.  
The following are trademarks or registered trademarks of Trane: Tracer, Tracker, Trane, Precedent, Rover, VariTrac, Vari-  
Trane, and Voyager.  
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The following are trademarks or registered trademarks of their respective companies or organizations: LonMark, LonTalk,  
and Neuron from Echelon Corporation; ReliaTel from Tone Software Corporation.  
Printed in the U.S.A.  
© 2004 American Standard Inc. All rights reserved.  
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NOTICE:  
Warnings and Cautions appear at appropriate sections throughout this manual. Read these carefully:  
ƽ
WARNING  
Indicates a potentially hazardous situation, which, if not avoided, could result in death or serious injury.  
ƽ
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.  
CAUTION  
Indicates a situation that may result in equipment or property-damage-only accidents.  
The following format and symbol conventions appear at appropriate sections throughout this manual:  
IMPORTANT  
Alerts installer, servicer, or operator to potential actions that could cause the product or system to  
operate improperly but will not likely result in potential for damage.  
Note:  
A note may be used to make the reader aware of useful information, to clarify a point, or to describe  
options or alternatives.  
This symbol precedes a procedure that consists of only a single step.  
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Contents  
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Contents  
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75  
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Chapter 1  
Overview  
The Tracker building automation system (BAS) is an energy management  
system for small- to medium-size buildings. The Tracker BAS controls  
heating, ventilating, and air conditioning (HVAC) equipment. It consists  
of a Tracker controller (Figure 1) and an optional PC workstation.  
The Tracker BAS can be operated by using either a Tracker controller or a  
PC workstation that is running Tracker PC Workstation software. A  
visual interface enables an operator to set up and change HVAC  
operating parameters and to collect and display building information.  
The Tracker PC Workstation software allows a PC to be connected to the  
Tracker controller directly with a prescribed adapter and cable, locally  
over a standard Ethernet local area network (LAN) connection, or  
remotely with a modem and standard phone line.  
The Tracker BAS supports Comm5 communications architecture, which  
is the Trane implementation of LonTalk® protocol. It resides on a network  
(Figure 2 on page 2 and Figure 3 on page 3) that includes HVAC and  
other comfort-related equipment, such as Trane VariTrac zoning systems;  
zoning controls; unit control modules (UCMs), which control and monitor  
other HVAC equipment; Tracer LCI-V (LonTalk® communication  
interfaces for Voyager rooftop controls); Tracer LCI-R (LonTalk®  
communication interfaces for ReliaTel rooftop controls); external input/  
output (I/O) devices, which help to monitor and control specific areas or  
devices; and miscellaneous equipment such as sensors, lights, and fans.  
Figure 1. Tracker controller  
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Chapter 1 Overview  
Figure 2. Example Tracker building automation system (models 12 and 24) on a network  
VariTrac or VariTrane  
zone dampers  
Voyager constant  
volume rooftop  
Precedent rooftop  
with ReliaTel controls  
Voyager rooftop  
TCI-V  
Interconnecting wiring  
(Comm5 link): single, twisted  
pair, shielded wire for two-  
way communication.  
VariTrac central  
control panel  
Tracer  
LCI-V  
Tracer  
LCI-R  
Utility pulse meter input  
Analog inputs  
Universal inputs  
Binary outputs  
Binary inputs  
Outdoor air  
temperature sensor input  
Binary outputs  
Tracer MP503  
I/O module  
Tracer ZN517  
unitary controller  
Generic rooftop  
Priority shutdown  
contact input  
Alarm relay output  
Tracker  
controller  
Direct, dial-in (modem),  
or Ethernet connection  
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Overview  
Figure 3. Example building automation system (water-source heat pump) on a network  
Tracer loop controller  
(for water-source  
heat pump)  
Tracer ZN510, ZN511, or  
ZN524 controller  
Analog inputs  
Binary inputs  
Binary outputs  
Voyager constant  
volume rooftop  
Precedent rooftop  
with ReliaTel controls  
Interconnecting wiring  
(Comm5 link): single, twisted  
pair, shielded wire for two-  
way communication.  
Tracer  
LCI-V  
Tracer  
LCI-R  
Utility pulse meter input  
Analog inputs  
Universal inputs  
Binary outputs  
Binary inputs  
Outdoor air  
temperature sensor input  
Binary outputs  
Tracer MP503  
I/O module  
Tracer ZN517  
unitary controller  
Generic rooftop  
Priority shutdown  
contact input  
Alarm relay output  
Tracker  
controller  
Direct, dial-in (modem),  
or Ethernet connection  
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Chapter 1 Overview  
Controller components  
The controller consists of a termination module, main module, and  
display module (Figure 4).  
Figure 4. Tracker controller components  
Termination module  
Main module  
Display module  
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Controller components  
Termination module  
The termination module (Figure 5) is a housing that provides a  
termination board and cable access for power, communications, and  
system input connections. Mounting holes enable it to be mounted on a  
wall or a recessed conduit box. The termination board accepts connections  
for power, communications, and system inputs.  
Figure 5. Termination module  
Termination  
board  
Cable access  
(three places)  
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Chapter 1 Overview  
Main module  
The main module (Figure 6) is a housing that contains the main logic  
board and the Ethernet board. The main module can be “hot swapped”: it  
can be removed and installed without removing power from the  
termination module. When the main module is installed onto a powered  
termination module, it receives power and begins to operate  
automatically.  
The main logic board provides an Ethernet LAN port, a PC interface port,  
and a modem port. It provides an internal interface to termination  
module I/O. It also provides Comm5 communication, 24 VAC power,  
alarm, and communication indicators. It communicates and exchanges  
data with the devices wired to the termination module. It also  
communicates with the display module.  
The Ethernet board provides two LED indicators. One shows that an  
Ethernet link is detected; the other shows that there is serial traffic  
between the Ethernet board and the main logic board.  
Figure 6. Main module  
Main logic board  
Modem port  
PC interface port  
Ethernet LAN port  
Ethernet  
board  
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Controller components  
Display module  
The display module (Figure 7) is a housing that contains a printed circuit  
board, liquid crystal display (LCD) touch screen, and an alarm LED. The  
printed circuit board supports the LCD touch screen and the alarm LED.  
The touch screen provides the operator access to the user interface  
program.  
The display module can be “hot swapped:” it can be removed and installed  
without removing power from the main module. When the display module  
is installed onto a powered main module, it receives power and begins to  
operate automatically.  
Figure 7. Display module  
Alarm LED  
LCD touch screen  
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Chapter 1 Overview  
Model numbers  
Each controller is identified by a model number that provides information  
about the controller (Figure 8).  
Figure 8. Model number definition  
Digit number  
1
2
3
T
4
5
0
6
0
7
0
8
9
10  
0
11  
A
12  
x
13  
1
14  
0
Model number  
B
M
K
A
A
Digit  
1–2  
3–4  
5–7  
Description  
BM = Building management  
TK = Tracker  
Customer ID:  
000 = Customer sales office (CSO)  
KBB = Independent wholesale distributor (IWD)  
8
9
A = 24 Vac, 50/60 Hz  
Ethernet option  
A = Modem with no Ethernet LAN option  
B = Modem with Ethernet LAN option  
10–11  
12  
0A = Design sequence  
Model/software options:  
1 = Model 12  
2 = Model 24  
3 = N/A  
4 = N/A  
5 = WSHP (water-source heat pump)  
6 = N/A  
13  
14  
Display options:  
1 = LCD touch screen  
Language options:  
0 = English  
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Tracker controller specifications  
Tracker controller specifications  
Table 1 shows the specifications for the Tracker controller.  
Table 1. Tracker Controller specifications  
Specification  
Power  
Description  
24 Vac nominal (19 Vac to 30 Vac),  
50/60 Hz, 1 phase 40 VA minimum,  
UL Class 2 transformer required  
Operating environ-  
ment  
From 32°F to 122°F (0°C to 50°C)  
10% to 90% relative humidity, non-condensing  
Storage environment From –40°F to 185°F (–40°C to 85°C)  
5% to 95% relative humidity, non-condensing  
Cabinet  
NEMA 1 resin enclosure—plenum rated  
Mounting  
Flat wall surface with one of the following recessed  
conduit boxes:  
2 in. × 4 in. (5.08 cm × 10.15 cm)  
4 in. × 4 in. (10.15 cm × 10.15 cm)  
Dimensions  
Weight  
Height: 8.75 in. (22.38 cm)  
Width: 10.25 in. (26.04 cm)  
Depth: 2.75 in. (6.99 cm)  
2.5 lb (1.13 kg)  
Analog input  
Thermistor  
Binary inputs  
10 kat 77°F (25°C)  
From –50°F to 200°F (–46°C to 93°C)  
User-supplied dry contacts only. Tracker-supplied  
voltage of 12 Vdc nominal (10 Vdc to 14 Vdc) at  
12 mA nominal (10 mA to 14 mA).  
Utility pulse meter  
Priority shutdown  
Binary output  
Tracker-supplied single-pole single-throw (SPST) dry  
contact rated at 24 Vac, 0.5 A maximum  
Alarm relay  
Memory backup  
At power loss, the system backs up memory and  
stores all data for seven days. After seven days,  
trends and alarms are not retained.  
Approvals  
See Appendix B, Declaration of Conformity.  
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Chapter 1 Overview  
UCM maximum capacities for Tracker  
models 12 and 24  
The Tracker model 12 and 24 controllers can control and monitor specific  
types and numbers of Trane unit control modules (UCMs) as specified in  
this topic. The supported UCMs are as follows:  
HVAC controllers that conform to the LonMark® Space Comfort Con-  
troller (SCC) profile: the primary controller options are the Voyager  
rooftop with a Tracer LCI-V, Precedent rooftop with ReliaTel controls  
and a Tracer LCI-R, and Tracer ZN517 unitary controller. Other con-  
trollers are limited to the Tracer ZN510, ZN511, and ZN524.  
VariTrac central control panels (CCPs) with a TCI-V.  
Tracer MP503 I/O module.  
Table 2 shows the maximum number of each UCM type that can be linked  
to each Tracker controller model. Any combination of the specified UCMs  
may be used in aggregate if they do not exceed the maximum. (For  
example: A fully loaded Tracker 24 controller can control 24 SCC devices,  
10 VariTrac CCPs, and 4 Tracer MP503 I/O modules.)  
The Trane VariTrac CCP is the main controller for either a changeover  
bypass system configuration or a delivered variable air volume (VAV)  
system configuration. Any combination of CCP configurations may be  
used in aggregate, as long as they do not exceed the maximum.  
Note:  
Each VariTrac CCP configured for changeover bypass can  
control 1 HVAC device and up to 24 VAV UCMs.  
Each VariTrac CCP configured for delivered VAV can con-  
trol 1 HVAC device and up to 32 VAV UCMs.  
See repeater information, “Requirements for repeaters on  
Table 2. Tracker controller models 12 and 24 UCM capacities  
Maximum  
UCMs  
Tracker model  
UCM type  
24  
12  
*
SCC*  
24  
10  
4
Trane VariTrac CCP  
Tracer MP503 I/O module  
Total maximum UCMs supported  
SCC*  
38  
12  
5
Trane VariTrac CCP  
Tracer MP503 I/O module  
Total maximum UCMs supported  
4
21  
SCCS supported by Tracker are limited to Voyager rooftops, Precedent rooftops with  
ReliaTel controls, Tracer ZN517, ZN510, ZN511, and ZN524.  
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UCM maximum capacities for Tracker model WSHP  
UCM maximum capacities for Tracker  
model WSHP  
The Tracker model WSHP controller can control and monitor specific  
types and numbers of Trane unit control modules (UCMs) as specified in  
this topic. The supported UCMs are as follows:  
Space Comfort Controllers (SCCs): the primary controller options are  
the Tracer ZN510, ZN511, and ZN524. Other controllers are limited  
to Voyager rooftops with a Tracer LCI-V, Precedent rooftops with Reli-  
aTel controls and a Tracer LCI-R, and Tracer ZN517 unitary control-  
lers  
Tracer loop controller (TLC)  
Tracer MP503 I/O module  
Table 3 shows the maximum number of each UCM type that can be linked  
to each Tracker controller model. Any combination of the specified UCMs  
may be used in aggregate if they do not exceed the maximum. (For  
example: As the table shows, a fully loaded Tracker WSHP controller can  
control 100 SCC devices, 1 Tracer loop controller (TLC), and 4 Tracer  
MP503 I/O modules.)  
Note:  
See repeater information, “Requirements for repeaters on  
Table 3. Tracker controller model WSHP UCM capacities  
Maximum  
Tracker model  
UCM type  
UCMs  
WSHP  
SCC*  
100  
1
TLC**  
Tracer MP503 I/O module  
4
Total maximum UCMs supported  
105  
*
SCCS supported by Tracker are limited to Tracer ZN510, ZN511,and ZN524; Voyager  
rooftops; Precedent rooftops with ReliaTel controls; and Tracer ZN517.  
** The TLC is mandatory and must be present to enable SCC compressor operation.  
IMPORTANT  
SCC compressor operation will be enabled only when a TLC is commu-  
nicating with the Tracker panel.  
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Chapter 1 Overview  
Before installation  
Before beginning to install the Tracker controller, make sure that you  
have all the necessary controller components and that they are  
undamaged. Also, take steps to protect components until they are needed.  
IMPORTANT  
Before you install the Tracker hardware, review this guide and other  
Tracker support literature and create an installation plan.  
Verify the shipment  
When the shipment arrives at the job site, carefully unpack the carton.  
Even though outgoing orders are thoroughly reviewed before leaving the  
factory, compare the items in the shipment with the shipping  
authorization paper and verify that all items are present.  
Verify that the controller model received is the model that you ordered  
and write down the model number for use later.  
Note:  
Contact your sales office to order additional Tracker literature,  
if needed.  
Inspect for shipping damage  
Inspect the items in the shipment to verify that no shipping damage or  
loss occurred. If your inspection reveals damage or material shortage:  
Make the appropriate notation on the carrier delivery receipt.  
Immediately file a claim with the carrier, specifying the extent and  
type of damage and/or shortage found.  
Notify the appropriate Trane representative.  
Store unused components until needed  
CAUTION  
Avoid Equipment Damage!  
Store all Tracker components off-site until most or all of the building  
construction is complete. Failure to do so could result in damage to  
components.  
The termination module is shipped detached from the main module and  
display module assembly. To protect the controller from damage, Trane  
recommends storing the main module and display module assembly away  
from the construction and/or installation site to prevent it from being  
damaged or lost. Verify that the storage site conforms to the specifications  
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After installation  
After installation  
After installing the Tracker hardware, use the post-installation checklist  
(Table 4) to verify that all installation procedures were completed.  
Table 4. Tracker controller post-installation checklist  
Inspect shipment upon receipt  
Verify communication wiring  
_____ Verify that the shipment is complete.  
_____ Verify that wiring complies with specifications.  
_____ Inspect communication wiring between devices.  
_____ Verify that all connections are properly shielded.  
_____ Inspect the controller and accessories to verify that  
there has been no shipping damage or loss.  
_____ File a damage claim with the carrier, if necessary.  
Verify wire terminations with a voltmeter  
_____ Verify that the controller received is the one that  
was ordered.  
_____ Verify that the tests detailed in Table 18 on page 70  
provide acceptable values.  
_____ Write down the controller model number for use  
later.  
Verify main module installation  
Verify termination module mounting  
_____ Verify that the main module is snapped in tightly  
against the termination module.  
_____ Verify that the controller is in a safe indoor  
environment.  
_____ Verify that there is LED5 (HRT) activity.  
_____ Verify that the location enables appropriate  
personnel to access the controller.  
Verify display module installation  
_____ Verify that the display module is snapped in tightly  
against the main module.  
_____ Verify that the controller is mounted securely with  
recommended fasteners and screws.  
_____ Verify that the touch screen illuminates when  
touched.  
_____ Verify that the installation conforms to controller  
dimensions, recommended clearances, and  
viewing angles.  
Verify direct and modem communication wiring  
Verify 24 Vac power wiring  
_____ Verify that the recommended cable is used for a  
direct PC connection.  
_____ Verify that the power wiring complies with  
applicable codes.  
_____ Verify that the recommended adapter is used for  
the direct connection cable.  
_____ Verify the 24 Vac power connection to the  
controller termination Block TB1.  
_____ Verify that the direct connection cable is connected  
to the correct Tracker port.  
_____ Check the power wiring for shorts and improper  
grounds.  
_____ Verify that the phone cable is connected to the  
correct Tracker port.  
_____ If using conduit connections, make sure separate  
conduits are used for power and communications.  
Verify Ethernet communication wiring  
_____ Inspect the controller printed circuit card for  
damage.  
_____ Verify that the recommended cable is used for the  
connection.  
Verify input and output wiring  
_____ Verify that the Ethernet connection cable is  
connected to the correct Tracker port.  
_____ Verify that wiring complies with specifications.  
_____ Inspect all binary and analog terminations at TB1.  
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Chapter 1 Overview  
FCC compliance  
The Tracker controller generates, uses, and radiates radio frequency  
energy and if not installed and used in accordance with the instruction  
manual, may cause interference to radio and television reception. The  
Tracker controller has been tested and found to comply with the limits for  
a Class A computing device in accordance with the specifications in  
Subpart J of Part 15 of FCC rules, which are designed to provide  
reasonable protection against such interference in a commercial  
installation.  
There is no guarantee that interference will not occur in a particular  
installation. If the Tracker controller does cause interference, consult a  
radio or television technician for suggestions to correct the problem. Also,  
the booklet How to Identify and Resolve Radio-TV Interference Problems  
is available from the U.S. Government Printing Office, Washington DC  
20402. Order stock number 004-000-00345-4.  
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Chapter 2  
Termination module  
mounting  
After unpacking and inspecting the shipment, mount the termination  
module. The mounting process for the termination module consists of  
selecting a location and mounting the module. This chapter provides  
information and procedures that enable you to mount the termination  
module.  
Select a location for the controller  
When selecting a location for the Tracker controller:  
Select a location that is in a clean, non-corrosive, indoor environment.  
The controller is only intended for indoor installation.  
Consider both security and control wire lengths when making the  
selection.  
Select a location that limits controller access to operating and service  
personnel.  
Select a location that conforms to the operating environment  
described in Table 1 on page 9. The recommended operating environ-  
ment will extend the life of the electronic components. Verify that the  
location does not subject the controller to extreme operating condi-  
tions (including excessive vibration).  
CAUTION  
Avoid Equipment Damage!  
Install the Tracker controller out of direct sunlight. Failure to do so may  
cause overheating, which could result in equipment damage.  
IMPORTANT  
Do not install the Tracker controller near high-power radio signals, elec-  
trical switching gear, power buses, large motors, or other sources of  
electrical noise. The electrical interference may lead to control malfunc-  
tions.  
Verify location conformance to controller specifications  
Verify that the selected location conforms to the applicable controller  
specifications listed in Table 1 on page 9.  
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Chapter 2 Termination module mounting  
Verify location conformance to controller dimensions  
and clearances  
Verify that the selected location provides enough space to accommodate  
the controller (Figure 9) and its minimum clearances (Figure 10 on  
page 17):  
The top clearance allows for ventilation and conduit entry.  
The bottom clearance allows for PC cable interface clearance.  
The front clearance allows for operation and service access.  
Figure 9. Dimensions  
Top view  
10.25 in.  
2.75 in.  
(26.04 cm)  
(6.99 cm)  
8.75 in.  
(22.38 cm)  
Front view  
Side view  
Bottom view  
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Select a location for the controller  
Figure 10. Minimum clearances  
12 in.  
(30 cm)  
12 in.  
12 in.  
36 in.  
(30 cm)  
(30 cm)  
(91 cm)  
Front  
Back  
12 in.  
(30 cm)  
Distance  
to floor  
54 in.  
(1.4 m)  
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Chapter 2 Termination module mounting  
Verify location conformance to optimal touch screen  
viewing angles  
Verify that the height and location enable the user to view the touch  
screen at the optimal viewing angles (Figure 11).  
Figure 11. Optimal touch screen viewing angles  
Side view  
40o  
Top view  
40o  
40o  
25o  
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Mount the termination module  
Mount the termination module  
After selecting a suitable location for the Tracker controller, mount the  
termination module. Mounting consists of securing the termination  
module to a wall or a 2 in. × 4 in. recessed conduit box (mounted vertically  
or horizontally) or a 4 in. × 4 in. recessed conduit box (several European  
electrical box sizes are also usable) and installing electrical conduit  
(optional). Figure 12 shows the conduit access and mounting holes on the  
termination module.  
Figure 12. Termination module conduit access and mounting holes  
Conduit access  
(three places)  
Conduit connector  
Holes for mounting on a 2 in. x 4 in.  
conduit box horizontally  
(left and right)  
Two holes for mounting on a wall  
(one on each side)  
Termination board  
Holes for mounting on a 2 in. x 4 in.  
conduit box vertically  
(top and bottom)  
Holes for mounting on a  
4 in. x 4 in. conduit box  
(four corners)  
Jamb nut  
(attaches to  
conduit connector)  
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Chapter 2 Termination module mounting  
Securing the termination module to a wall  
1. Mark the location of the two mounting holes on the wall.  
2. Set the termination module aside and drill mounting holes.  
3. Secure the termination module to the wall with the supplied hard-  
ware (#10 × 1 in. screw with plastic anchor).  
Securing the termination module to a conduit box  
1. Remove the screws from the conduit box.  
2. Line up the conduit box screw holes on the termination module  
(Figure 12 on page 19) with the screw holes on the conduit box.  
3. Install the screws.  
Note:  
When mounting the termination module to a 4 in. × 4 in.  
conduit box, removing the plastic cover over the box will  
provide easier access. Do not attempt to break away excess  
plastic. Instead, use a hack saw blade and carefully cut away  
the plastic.  
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Mount the termination module  
Installing electrical conduit  
Use the conduit openings on the top of the Tracker termination module to  
supply power or communication wires to the controller.  
If the controller is mounted on a wall, you must use electrical conduit. If  
the controller is mounted to a conduit box through which power, input/  
output, and communications are supplied, you do not need to use  
electrical conduit.  
IMPORTANT  
The 24 Vac wire conduit may not contain input/output or communica-  
tion wires. Failure to comply will cause the Tracker controller to mal-  
function due to electrical noise.  
1. Remove one of the 7/8 in. (22 mm) diameter plugs at the top of the ter-  
mination module (Figure 13).  
2. Install 1/2 in. (12 mm) conduit connector (Figure 12 on page 19) in  
opening.  
3. Install the conduit jamb nut on the conduit connector threads and  
tighten it to secure the connector to the Tracker panel.  
Figure 13. Electrical conduit installation  
3.0 in.  
(7.62 cm)  
1.5 in.  
(3.81 cm)  
ø 7/8 in.  
22 mm)  
0.75 in.  
(2.02 cm)  
Termination module top view  
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Chapter 2 Termination module mounting  
22  
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Chapter 3  
Termination board wiring  
After mounting the termination module, wire the termination board. The  
wiring process consists of wiring the termination board to 24 Vac power,  
inputs, outputs, and UCMs. This chapter provides information and  
procedures that enable you to wire the termination board. Figure 14 on  
page 24 shows all field wiring connections.  
Refer to the required and optional supply checklists in Appendix A  
(Table 15 and Table 16 on page 65) to verify that you have the materials  
required to wire the Tracker controller. When termination board wiring is  
complete, use the termination module post-installation checklist in  
Appendix A (Table 18 on page 70) to verify the wiring.  
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Chapter 3 Termination board wiring  
Figure 14. Tracker field wiring connections  
1
2
1
2
Line voltage  
Line voltage  
24 Vac  
3
LOAD  
4
3
4
5
6
7
8
4
9
10  
11  
12  
13  
14  
15  
Comm5 device  
Comm5 device  
A
A
A
A
Comm5  
link  
Comm5  
link  
5
B
B
B
B
Splice  
Legend  
Twisted pair, shielded wire  
perTrane specifications  
=
=
=
=
=
Earth ground  
Shield ground  
Transformer  
Thermistor device per  
Trane specifications  
=
=
=
=
Shield termination  
Contact points  
Termination resistor  
Figure note  
Figure Notes:  
1 All customer wiring must be in accordance with national, state, and local electrical codes.  
2 Trane recommends a dedicated transformer for 24 Vac power.  
3 Alarm relay circuit must not exceed 24 Vac, 1 A.  
4 Do not apply voltage to the priority shutdown inputs.  
5 Example of Comm5 communication link wiring. See product-specific literature for Comm5 wire connection details.  
24  
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Wire 24 Vac power  
Wire 24 Vac power  
After the termination module is mounted in the selected location, wire  
24 Vac power to the termination board. Table 5 shows the specifications  
for power wiring.  
Table 5. Power wiring specifications  
24 Vac power  
Description  
Wire specifications  
terminals  
24 Vac  
Trane recommends 18 AWG (1.02 mm2) wire and  
metal conduit.  
Power input  
TB1-1, TB1-2,  
Earth ground TB1-3  
24 Vac nominal (19–30 Vac), 50/60 Hz,  
1 phase 40 VA minimum, class 2  
transformer required  
Low voltage (24 Vac) wire must comply with  
National Electrical Code (NEC) and federal, state,  
and local electrical codes.  
IMPORTANT  
The 24 Vac wire conduit may not contain input/output or communica-  
tion wires. Failure to comply may cause the Tracker controller to mal-  
function due to electrical noise.  
1. Route input wires into the termination module through the conduit  
box or any of the conduit access openings designated for input and  
communication wiring (Figure 12 on page 19).  
2. Wire the two 24 Vac power input wires and the ground wire to the  
controller 24 VAC terminals (Figure 14 on page 24).  
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Chapter 3 Termination board wiring  
Wire optional inputs and outputs  
The Tracker controller provides input and output terminals as follows:  
Input for an optional priority shutdown device  
Input for an optional utility pulse meter  
Input for an optional outdoor air temperature sensor  
Output terminal for an optional alarm relay  
Refer to Table 6 for input and output wire specifications, and to the  
termination board wiring diagram in Figure 14 on page 24 for wiring all  
inputs and outputs.  
Table 6. Input and output wire specifications  
Input and output  
terminals  
Description  
Wire specifications  
Trane recommends 18 AWG (1.02 mm2) wire and metal  
conduit.  
Alarm relay output  
TB1-4, TB1-5  
Binary output  
Dry contact  
Maximum length = 1000 ft (305 m) *†  
Operating range: 24 V, 1 A  
maximum  
Trane recommends 18—22 AWG (1.02 mm2—0.643mm2)  
wire and metal conduit.  
Maximum length = 1000 ft (305 m) *‡  
Priority shutdown  
device input  
TB1-6, TB1-7  
Binary input  
Operating range:  
12 Vdc nominal  
(10 Vdc to 14 Vdc) at  
12 mA nominal  
(10 mA to 14 mA)  
< 50 = switch closed  
> 1000 = switch open  
Utility pulse meter  
input  
TB1-8, TB1-9  
Shielded wire, 18—22 AWG (1.02 mm2—0.643mm2)  
twisted pair  
Thermistor input  
TB1-10, TB1-11,  
Analog input for an outdoor air  
temperature sensor  
shield ground TB1-12 Operating range:  
From –50ºF to 200ºF  
Maximum length = 300 ft (91 m) *‡  
(–46ºC to 93ºC)  
Thermistor, 10 kat 77°F (25°C)  
*
All field-installed binary wiring is low voltage and must comply with National Electrical Code (NEC) and federal, state, and  
local electrical codes.  
Alarm relay wires and 24 Vac wires may reside in the same conduit.  
Do not run input wires and ac power wires together in the same conduit or wire bundle.  
26  
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Wire optional inputs and outputs  
Wire the alarm relay  
Wire the alarm relay to the termination board output.  
CAUTION  
Avoid Equipment Damage!  
Use a dedicated power transformer for this output. Failure to do so will  
damage the main module, if the alarm output is powered from the  
Tracker 24 Vac input (TB-1 and TB-2) and the circuit shorts to ground.  
1. Route input wires into the termination module through a conduit  
opening (Figure 12 on page 19) or the conduit box.  
2. Connect the wires to the ALARM RELAY terminals on the termina-  
tion board (Figure 14 on page 24).  
3. Connect the other end of the wires to the customer-supplied power  
supply and load.  
Wire the priority shutdown device  
Wire the priority shutdown device to the termination board input.  
1. Route input wires into the termination module through a conduit  
opening (Figure 12 on page 19) or the conduit box.  
2. Connect the wires to the PRIORITY SHUTDOWN terminals on the  
termination board (Figure 14 on page 24).  
3. Connect the other end of the wires to the contacts of the priority shut-  
down device.  
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Chapter 3 Termination board wiring  
Wire the utility pulse meter  
Wire the utility pulse meter to the termination board input.  
1. Route input wires into the termination module through a conduit  
opening (Figure 12 on page 19) or the conduit box.  
2. Connect the wires to the METER INPUT terminals on the termina-  
tion board (Figure 14 on page 24).  
3. Connect the other end of the wires to the pulsed-output contacts of  
the electrical meter.  
Wire the thermistor  
The thermistor input is for a Trane outdoor air temperature sensor only.  
The input cannot be used for any other purpose. Using wire that meets  
the specifications listed in Table 6 on page 26, wire the thermistor to the  
termination board input.  
1. Route input wires into the termination module through a conduit  
opening (Figure 12 on page 19) or the conduit box.  
2. Connect the wires to the THERMISTOR terminals on the termination  
3. Connect the shield to the ground terminal.  
Note:  
The thermistor input is not polarity sensitive.  
4. Connect the other end of the wires to the thermistor device.  
IMPORTANT  
Tape the shield at the sensor. Any connection between the shield and  
ground will cause a malfunction.  
28  
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Wire the UCMs  
Wire the UCMs  
The Comm5 communication link connects unit control modules (UCMs)  
to the Tracker termination module. Each controller has one Comm5  
communication link. This topic includes information and procedures for  
wiring a UCM to a termination module:  
Note:  
Do not exceed the maximum number of UCMs that can  
communicate on a Tracker controller (see “UCM maximum  
Wire specifications  
Tracker Comm5 communication-link and sensor wiring is low-voltage  
Class 2 wire and must be field-supplied and installed in compliance with  
NEC and local codes. To prevent electrical noise interference, all wiring  
must comply with requirements outlined in this topic for wire selection  
and link-wiring topology.  
Trane recommends that you use Level 4 (Echelon) shielded cable for the  
Tracker communication link wiring between the Tracker and the Comm5  
UCMs to which it communicates. Trane also recommends that you use it  
for communication wiring between the VariTrac CCP and its associated  
VariTrac or VariTrane UCMs, and for sensor wiring to these devices.  
Level 4 cable is available in shielded, plenum and non-plenum versions.  
Level 4 cable is available from Trane-approved suppliers as well as other  
suppliers. Table 7 on page 30 shows the Trane approved suppliers;  
Table 8 on page 31 provides the specifications for Level 4 compliant  
cables.  
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Chapter 3 Termination board wiring  
Table 7. Trane-approved wire suppliers  
Number of  
pairs  
Catalog  
number  
Supplier  
Cable type  
Details  
Connect-Air International  
Phone: 1-800-247-1978  
FAX: 1-253-813-5699  
Level 4  
22 AWG  
(0.643mm2)  
1
Shielded plenum  
UL type CMP  
W221P-2002  
Level 4  
22 AWG  
(0.643mm2)  
1
1
Shielded non-plenum  
UL type CM  
W221P-1003  
106500  
Windy City Wire  
Level 4  
22 AWG  
(0.643mm2)  
Shielded plenum  
UL type CMP  
Phone: 1-800-379-1191  
FAX: 1-708-493-1380  
Level 4  
22 AWG  
(0.643mm2)  
1
Shielded non-plenum  
UL type CM  
107600  
Category 4 cable is not the same as Level 4 cable and should not be used. The Echelon Level 4 cable specification was originally  
defined by the National Electrical Manufacturers Association (NEMA) and differs from the Category 4 specification proposed  
by the Electronic Industries Association/Telecommunications Industry Association (EIA/TIA).  
30  
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Wire the UCMs  
Table 8. Specifications for Echelon Level 4 compliant cables  
Specification Value  
dc resistance  
18.0 /1000 feet at 20°C  
(Maximum resistance of a single  
copper conductor regardless of  
whether or not it is solid or  
stranded and regardless of  
whether or not it is metal coated.)  
dc resistance unbalance (maxi-  
mum)  
5%  
Mutual capacitance of a pair  
(maximum)  
17 pF/foot  
Pair-to-ground unbalance (maxi-  
mum)  
1000 pF/foot/1000 feet  
Characteristic impedance  
772 kHz  
1.0 MHz  
4.0 MHz  
8.0 MHz  
10.0 MHz  
16.0 MHz  
20.0 MHz  
772 kHz  
1.0 MHz  
4.0 MHz  
8.0 MHz  
10.0 MHz  
16.0 MHz  
20.0 MHz  
772 kHz  
1.0 MHz  
4.0 MHz  
8.0 MHz  
10.0 MHz  
16.0 MHz  
20.0 MHz  
102 15%  
100 15%  
100 15%  
100 15%  
100 15%  
100 15%  
100 15%  
Attenuation (maximum dB/1000  
feet at 20°C)  
4.5 dB/1000 feet at 20°C  
5.5 dB/1000 feet at 20°C  
11.0 dB/1000 feet at 20°C  
15.0 dB/1000 feet at 20°C  
17.0 dB/1000 feet at 20°C  
22.0 dB/1000 feet at 20°C  
24.0 dB/1000 feet at 20°C  
58 dB  
Worst-pair near-end crosstalk  
(minimum)  
56 dB  
(Values shown are for information  
only. The minimum NEXT cou-  
pling loss for any pair combina-  
tion at room temperature is to be  
greater than the value determined  
using the formula NEXT  
47 dB  
42 dB  
41 dB  
38 dB  
(FMHz)>NEXT(0.772)-15log10 (FMHz  
/
36 dB  
0.72) for all frequencies in the  
range of 0.772 MHz–20 MHz for a  
length of 1000 feet.)  
dc resistance unbalance (maxi-  
mum)  
5%  
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Chapter 3 Termination board wiring  
UCM wiring configurations  
The Tracker UCM Comm5 communication-link wiring must be installed  
in a daisy-chain configuration (Figure 15 on page 32 and Figure 16 on  
page 33).  
Figure 15. Daisy-chain configuration for UCM communication-link  
wiring (preferred configuration)  
Tracker  
Controller  
Trane UCM  
Trane UCM  
Trane UCM  
Figure Note:  
Maximum wire length for daisy-chained wiring is 4593 ft (1400 m).  
32  
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Wire the UCMs  
Figure 16. Daisy-chain configuration for UCM communication-link wiring with Tracker controller in  
middle of link  
Tracker  
Controller  
Trane UCM  
Trane UCM  
Trane UCM  
Trane UCM  
Trane UCM  
Trane UCM  
Figure Note:  
Maximum wire length for daisy-chained wiring is 4593 ft (1400 m) unless a Comm5 repeater is used.  
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Chapter 3 Termination board wiring  
Termination resistor placement for Comm5 links  
Install one 105 resistor across the communication link terminals of the  
device at the beginning of the daisy chain, which is typically a Tracker  
controller. Then install a second 105 resistor across the communication  
terminals at the last UCM on each link. See Figure 17 on page 35 for an  
example of a link that begins with a Tracker controller. See Figure 18 on  
page 36 for an example of a link that does not begin with a Tracker  
controller.  
Note:  
If, after installation, the link is extended to add more UCMs,  
the resistor must be relocated to the new last UCM on the link.  
IMPORTANT  
For maximum performance of the Comm5 link, use the 105 resistors  
that are included with the Tracker controller. If they are not available, as  
a second choice, use a 100 , ¼ W, 5% tolerance resistor, or as a third  
choice, a 110 , ¼ W, 5% tolerance resistor. Failure to comply may cause  
the controller to malfunction.  
The resistor value can be determined by reading its color bands. Table 9  
provide the resistor color coding.  
Table 9. Resistor color band table  
Tolerance  
Color sequence  
Brown, black, green, brown  
Brown, black, brown, gold  
Brown, brown, brown, gold  
105 1% tolerance  
100 5% tolerance  
110 5% tolerance  
If a repeater is used, each link of the configuration that is created by the  
repeater requires termination resistors (see “Requirements for repeaters  
Create a set of as-built drawings or a map of the communication wire  
layout during installation. Ensure that sketches of the communication  
layout show the placement of the termination resistors.  
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Wire the UCMs  
Figure 17. Daisy-chain termination resistor placement  
Tracker  
termination board TB1  
1
2
Legend  
Twisted pair, shielded wire  
perTrane specifications  
=
=
Shield termination  
Figure note  
=
3
4
=
=
Shield ground  
5
Termination resistor  
6
7
8
(Last device on the link)  
9
Comm5 device  
Comm5 device  
10  
11  
12  
13  
14  
15  
B
A
B
A
B
A
B
A
1
1
2
Splice  
3
Figure Notes:  
1 105 termination resistor  
2 Shield must be cut back and taped at last unit controller.  
3 A continuous shield is required. At each unit controller, splice shield wire and tape back to prevent  
grounding.  
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Chapter 3 Termination board wiring  
Figure 18. Termination resistor placement with a Tracker controller in the middle of the link  
Tracker  
termination boardTB1  
1
2
Legend  
Twisted pair, shielded wire  
perTrane specifications  
=
=
Shield termination  
Figure note  
3
=
4
=
=
Shield ground  
5
Termination resistor  
6
7
8
(Last device on the link)  
9
Comm5 device  
Comm5 device  
10  
11  
12  
13  
14  
15  
B
A
B
A
B
A
B
A
1
2
Splice  
3
(Last device on the link)  
Comm5 device  
Comm5 device  
B
A
B
A
B
A
B
A
1
2
Splice  
3
Figure Notes:  
1 105 termination resistor  
2 Shield must be cut back and taped at last unit controller of each link.  
3 A continuous shield is required. At each unit controller, splice shield wire and tape back to prevent  
grounding.  
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Wire the UCMs  
Wire supported UCMs  
Wire the supported UCMs to the Tracker termination board. When  
installing communication wire:  
Keep the polarity consistent throughout the site. Although Comm5 is  
not polarity sensitive, consistency will improve serviceability.  
Strip away a maximum of 2 inches (50 mm) of the outer conductor  
and foil shield when splicing or terminating shielded wire.  
IMPORTANT  
Use extreme care when stripping away the outer conductor and foil  
shield. Be careful not to nick the insulating jacket of the two conduc-  
tors. A nick in the insulating jacket will cause communication problems.  
Wire the UCMs as follows:  
1. Install termination resistors in the correct locations.  
2. Route input wires into the termination module through the conduit  
box or any of the conduit openings designated for input and communi-  
cation wiring (Figure 12 on page 19).  
3. Connect the wires to the COMM terminals on the termination board  
4. Connect the shield to the ground terminal.  
5. Connect the other end of the wires to the UCMs, as necessary.  
Requirements for repeaters on Comm5 communication  
links  
The Comm5 communication link repeater is a device that repeats and  
regenerates the signal on a Comm5 link in order to enhance signal  
quality or extend the length of the run. The Comm5 link goes from the  
Tracker controller to the UCMs to the repeater. A second link segment  
extends from the other side of the repeater to the rest of the devices. The  
configuration on either side of the repeater must be a daisy-chain  
configuration. Both link segments require termination.  
A link repeater is required when:  
The total wire length is greater than the maximum wire run length of  
4593 ft (1400 m) for a daisy-chain configuration.  
More than 60 devices are connected to a link. This total does not  
include the Tracker controller, the link repeater, and the possible use  
of the Rover service tool on the same link.  
The link repeater has several limitations:  
Only one link repeater can be used on a link.  
The use of a repeater doubles the maximum allowable wire length.  
For example, when a repeater is used with a daisy-chain configura-  
tion, the total wire length can be 9186 ft (2800 m) (with half the wire  
length on either side of the repeater).  
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Chapter 3 Termination board wiring  
The link repeater is limited to 60 devices on either side of the link  
(120 devices total).  
The link repeater requires an earth ground. The installer should be  
aware of this before making power connections.  
Recommended shield connections are shown in Figure 19. Figure 20 on  
page 39 shows a daisy-chain repeater connection. Follow these guidelines  
when using a repeater:  
Reference the installation information that comes with the link  
repeater (Comm5 repeater installation, 3270 3285).  
Connect the shield-drain wires entering the repeater to a terminal  
marked with a capacitor symbol. The entering shield-drain wire must  
be connected to earth ground at the Tracker controller.  
Connect the shield-drain wires leaving the repeater to the repeater  
terminal marked with an earth ground symbol.  
Figure 19. Connecting communication link shield wiring to repeater  
Link Repeater  
24 VAC  
1
2
3
24 Vac  
Transformer  
Comm  
Earth ground  
4
5
6
Entering shield. Continuous run, typically  
starting at theTracker controller.  
Comm  
7
8
9
Leaving shield. Must be connected to the earth ground  
terminal on the repeater and terminated (insulated from  
ground) at the last UCM.  
Legend  
=
=
=
Transformer  
Earth ground  
Shield ground  
=
Twisted pair, shielded wire  
perTrane specifications  
38  
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Wire the UCMs  
Figure 20. Comm5 daisy-chain repeater connection  
Comm5 device  
Comm5 device  
Tracker  
B
A
B
A
B
A
B
A
termination boardTB1  
13  
14  
15  
1
Splice  
3
Splice  
3
Link repeater  
24 VAC  
1
2
3
Comm  
1
1
4
5
6
Comm  
7
8
9
(Last device on the link)  
Comm5 device  
Comm5 device  
B
A
B
A
B
A
B
A
1
2
Splice  
3
Legend  
Twisted pair, shielded wire  
perTrane specifications  
=
=
Shield termination  
Figure note  
=
Figure Notes:  
1 105 termination resistor  
2 Shield must be cut back and taped  
3 A continuous shield is required. At each  
controller, splice shield wire and tape back to  
prevent grounding.  
=
=
Shield ground  
Termination resistor  
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Chapter 3 Termination board wiring  
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Chapter 4  
Main module mounting  
After mounting and wiring the termination module, attach the main  
module to the termination module. This chapter provides information and  
procedures that enable you to mount the main module.  
Note:  
The Tracker controller ships with the display module  
assembled to the main module. If those two modules are  
assembled, performing this procedure also mounts the display  
module.  
Note:  
It is not necessary to turn off 24 Vac power to the Tracker  
controller prior to mounting or removing the main module.  
1. Verify that all wires on the termination module are securely fastened  
in place.  
2. Carefully line up the alignment pins on the termination module with  
the back side of the main module (Figure 21 on page 42).  
CAUTION  
Avoid Equipment Damage!  
Do not use excessive force when mounting the module. If the module  
does not snap easily into place, slightly reposition it on the alignment  
pins. Failure to comply may cause damage to the module.  
3. Firmly push the main module onto the termination module until it  
snaps into place. If 24 Vac power is applied, the main module will  
start. If the display module is not assembled to the main module, you  
will see the LEDs on the main module flash on and off after a few sec-  
onds. If the display module is assembled to the main module, it will  
turn on and display information.  
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Chapter 4 Main module mounting  
Figure 21. Main module mounting  
Termination module  
Main module  
Alignment pin  
(four places)  
42  
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Chapter 5  
Display module mounting  
After mounting the main module, attach the display module to the main  
module. This chapter provides information and procedures that enable  
you to mount the display module.  
Note:  
The Tracker controller ships with the display module  
assembled to the main module. If those two modules are  
assembled, you need only to perform the main module  
Note:  
It is not necessary to turn off 24 Vac power to the Tracker  
controller prior to mounting or removing the display module.  
1. Tilt the top of the display module about 30 degrees toward you.  
2. Line up the three tabs on the bottom of the display module with the  
slots on the bottom of the main module (Figure 22 on page 44).  
3. Starting with the center tab, insert the tabs into the slots.  
CAUTION  
Avoid Equipment Damage!  
Do not use excessive force when mounting the module. If the module  
does not snap easily into place, slightly reposition it on the alignment  
pins. Failure to comply may cause damage to the module.  
4. Push the top of the display module toward the main module until it  
snaps into place while making sure that the tabs on the display mod-  
ule engage the slots on the main module (Figure 23 on page 45). If 24  
Vac power is applied to the Tracker controller, the display module will  
turn on and display information.  
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Chapter 5 Display module mounting  
Figure 22. Tab and slot alignment  
44  
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Display module mounting  
Figure 23. Display module engagement  
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Chapter 5 Display module mounting  
46  
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Chapter 6  
PC workstation wiring  
The Tracker controller connects to a PC workstation with a direct  
connection cable, an internal modem, or an Ethernet connection.  
Verify PC workstation specifications  
Verify that the PC conforms to the minimum specifications listed on the  
insert in the CD jewel case and that the Tracker PC workstation software  
is installed.  
Direct connection to PC workstation  
To make an EIA-232 direct connection between the controller and a PC  
workstation, you need an RJ-12 cable and an adaptor matched to the  
serial port connector on the PC workstation (Table 10).  
Table 10. Cable and adapter specifications for direct connection  
Description  
Trane part number  
RJ-12 interface cable  
3591 4260  
3591 4262  
3591 4263  
9-pin female modular adapter  
25-pin female modular adapter  
The cable and adapter are not shipped with the Tracker controller and  
must be purchased separately.  
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Chapter 6 PC workstation wiring  
IMPORTANT  
Do not use a standard phone cable for a direct connection. The RJ-12  
cable is a 6-wire straight-through cable. Failure to comply will cause the  
Tracker controller to malfunction.  
IMPORTANT  
The maximum allowable length of the RJ-12 cable is 50 ft (15 m). Failure  
to comply may cause the Tracker controller to malfunction.  
1. Locate the RJ-12 cable and the appropriate adapter.  
2. Connect the RJ-12 cable to the RJ-12 port on the bottom side of the  
controller (Figure 24).  
3. Connect the other end of the RJ-12 cable to a 9-pin or 25-pin adapter,  
as appropriate (Figure 25 on page 49).  
4. Connect the adaptor to the appropriate serial port on the PC worksta-  
tion.  
Figure 24. Tracker communication ports  
LAN RJ-45 port  
(Ethernet connection) (PC direct connection)  
RJ-12 port  
RJ-11 port  
(modem connection to  
standard telephone line)  
48  
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Direct connection to PC workstation  
Figure 25. Tracker direct connection to a PC workstation  
LAN RJ-45 port  
for future Ethernet  
connection  
RJ-12 port for PC  
direct connection  
(bottom side)  
(bottom side)  
Connect RJ-12 to  
9-pin female  
adapter  
To PC workstation  
serial port  
RJ-12 cable  
Connect RJ-12 to  
25-pin female  
adapter  
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Chapter 6 PC workstation wiring  
Modem connection to PC workstation  
To make a modem connection between the controller and a PC  
workstation, you need an RJ-11 cable (standard telephone cable).  
Note:  
The Trane Company reserves the right to support only selected  
modems for the Tracker PC workstation. This ensures proper  
operation of the Tracker software and makes troubleshooting  
easier, if a communication failure occurs.  
Modem specifications are subject to change. For a current list of  
specified modems, contact your local Trane office.  
1. Connect a RJ-11 cable (standard telephone cable) into the RJ-11 port  
on the bottom side of the controller (Figure 24 on page 48).  
2. Connect the other end of the cable to a phone jack, a port on an exter-  
nal modem, or the PC workstation modem port (Figure 26 on  
page 51). The incoming modem port is typically labeled “Line” or  
“Line in.”  
Note:  
Use the Tracker software to set the communication port that  
the modem will use.  
50  
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Modem connection to PC workstation  
Figure 26. Tracker modem connection to a PC workstation  
RJ-11 modem port  
(bottom side)  
RJ-11 cable  
Phone jack  
RJ-11 modem port  
(back)  
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Chapter 6 PC workstation wiring  
Ethernet connection to PC workstation  
Connecting over an existing LAN  
To make an Ethernet LAN connection between the Tracker controller and  
a Tracker PC Workstation through an existing customer LAN, you need  
two CAT 5 patch cables.  
1. Connect one end of the first CAT 5 patch cable to the RJ-45 Ethernet  
port on the bottom side of the Tracker controller (Figure 27 on  
page 52).  
2. Connect the other end of the cable to an RJ-45 Ethernet wall jack  
near the controller.  
3. Connect one end of the second CAT 5 patch cable to an RJ-45 Ether-  
net wall jack near the Tracker PC Workstation.  
4. Connect the other end of the cable to the RJ-45 Ethernet port on the  
PC workstation.  
Figure 27. Tracker Ethernet LAN connection to a PC workstation over an existing LAN  
Tracker  
Controller  
RJ-45  
Ethernet  
LAN jack  
CAT 5  
patch cable  
RJ-45 Ethernet  
LAN port (bottom side)  
Existing LAN  
CAT 5  
patch cable  
RJ-45 Ethernet  
LAN port (back)  
RJ-45  
Ethernet  
LAN jack  
52  
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Ethernet connection to PC workstation  
Connecting through a hub  
To make an Ethernet connection between the Tracker controller and a  
Tracker PC Workstation through a hub, you need two CAT 5 patch cables.  
1. Connect one end of the first CAT 5 patch cable to the RJ-45 Ethernet  
port on the bottom side of the Tracker controller (Figure 27 on  
page 52).  
2. Connect the other end of the cable to an RJ-45 Ethernet port on the  
hub.  
3. Connect one end of the second CAT 5 patch cable to an RJ-45 Ether-  
net port on the hub.  
4. Connect the other end of the cable to the RJ-45 Ethernet port on the  
Tracker PC Workstation.  
Figure 28. Tracker Ethernet LAN connection to a PC workstation through a hub  
Tracker  
Controller  
Tracker  
PCWorkstation  
RJ-45  
RJ-45  
Ethernet  
LAN jack  
Ethernet  
LAN jack  
RJ-45 Ethernet  
LAN port (back)  
Hub  
RJ-45 Ethernet  
LAN port (bottom side)  
CAT 5  
patch cable  
CAT 5  
patch cable  
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Chapter 6 PC workstation wiring  
Connecting with one cable  
To make an Ethernet connection between the Tracker controller and a  
Tracker PC Workstation using one cable, you need one CAT 5 crossover  
cable.  
1. Connect one end of the CAT 5 crossover cable to the RJ-45 Ethernet  
LAN port on the bottom side of the Tracker controller (Figure 29).  
2. Connect the other end of the cable to the RJ-45 Ethernet LAN port on  
the Tracker PC Workstation.  
Figure 29. Tracker Ethernet LAN connection to a PC workstation with one cable  
Tracker  
Controller  
RJ-45 Ethernet  
LAN port (back)  
RJ-45 Ethernet  
LAN port (bottom side)  
CAT 5  
crossover cable  
54  
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Chapter 7  
Troubleshooting  
Troubleshooting components  
Light-emitting diodes (LEDs) and service pin buttons are used for  
troubleshooting the Tracker system.  
LEDs  
The LEDs on the Tracker controller main logic board and display module  
show central processing unit (CPU) status and traffic on the Comm5  
communication link, the Ethernet module, and the EIA-232 connection.  
Figure 30 shows the location of the main logic board LEDs; Table 11 on  
page 57 provides a description of them. Figure 30 shows the location of  
the Ethernet module LEDs; Table 11 on page 57 provides a description of  
them. Figure 7 on page 7 shows the location of the alarm LED on the  
display module; Table 12 on page 57 provides a description of it.  
Service pin buttons and jumper  
Table 13 on page 58 describes the service pin buttons that are located on  
the main logic board. They are used for rebooting the controller and for  
Neuron identification. The table also describes the jumper that is on the  
main logic board.  
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Chapter 7 Troubleshooting  
Figure 30. Tracker controller main logic board component location  
HI TX  
LED6  
J1  
HRT  
LED5  
BOP  
LED3  
S1  
LED4  
CODE  
SERVICE  
LED9  
COMM  
LED2  
PC RX PCTX  
LED7 LED8  
S2  
Ethernet  
board  
Left  
LED  
Right  
LED  
56  
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Troubleshooting components  
Table 11. Tracker main logic board LEDs  
LED  
LED name  
Color  
Description  
number  
HI TX  
LED6  
Green  
Flashes when the main module attempts to communicate with the display  
module. The main module attempts to communicate with the display module  
even when the display module is not installed. With no display module installed,  
the LED flashes every two seconds.  
HRT  
LED5  
LED4  
Green  
Red  
Shows the status (heart beat) of the CPU. This LED is on continuously while the  
controller boots up. It flashes to show processor activity.  
CODE  
Shows the status of the controller operating code. This LED is on continuously  
while the controller is booting up and/or whenever the controller needs operat-  
ing code.  
Note: Code can be downloaded to the Tracker controller with the use of the Tracker PC software  
if this LED is on.  
PC RX  
PC TX  
BOP  
LED7  
LED8  
LED3  
LED9  
Green  
Green  
Red  
Shows that EIA-232 traffic is on the PC port. This LED is normally off. Flashes  
when the controller receives data from the PC.  
Shows that EIA-232 traffic is on the PC port. This LED is normally off. Flashes  
when the controller transmits data to the PC.  
Flashes when the controller binary output relay is energized and when an  
appropriate alarm condition exists.  
SERVICE  
Red  
Shows that Comm5 service is required. This LED is normally off. LED is on  
continuously to show that controller hardware is defective. LED is on  
continuously to show that the Service pin button (SW2) was pressed. Flashes to  
show that the controller must be rebooted.  
COMM  
LED2  
Yellow  
Shows that network traffic is on the Comm5 link. Flashes when the controller  
receives data from a Comm5 device.  
Left LED  
None  
None  
Green  
Green  
Shows that an Ethernet link is detected.  
Right LED  
Shows that there is serial traffic between the Ethernet module and the Tracker  
main logic board.  
Table 12. Alarm LED  
State Color  
Normal  
Alarm  
Description  
Green  
Red  
LED is on continuously when the controller is operating normally and has received  
no alarms of the appropriate severity.  
Flashes when the controller receives an alarm of the appropriate severity. To  
acknowledge the alarm and turn off the LED, press the Alarm function button  
displayed on the user interface home screen.  
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Chapter 7 Troubleshooting  
Table 13. Main logic board service pin buttons and jumper  
Service pin buttons/jumper  
Function  
S1  
This service pin is the reset button. Pressing S1 reboots the controller. It starts the  
same operation as does rebooting the controller from either the controller or the PC  
software. All RAM data is permanently lost.  
Note: Before pressing this button, attempt to restart the controller by cycling power; this method  
retains the RAM image.  
S2  
J1  
Momentarily pressing this service pin button causes the controller to broadcast  
Neuron ID and Program ID. This action also turns on LED9.  
This jumper is for factory use only. It must always remain in place. If removed, the  
backup capacitor will not charge and data may be lost if power is lost.  
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Symptom/action troubleshooting  
Symptom/action troubleshooting  
Table 14 provides a list of symptoms that indicate a problem in the Tracker system.  
For each symptom, the table provides one or more actions that you can perform in an  
attempt to resolve the problem.  
Table 14. Symptom/action troubleshooting  
Symptom  
Action  
Tracker controller does not  
communicate by modem.  
Verify that the telephone cable is connected to the PC modem port (Figure 24 on  
page 48).  
Verify that the phone line is an analog line (not digital).  
Perform the modem self-test procedure from the display module.  
Note: The modem is an integral component of the main module and is not field replaceable.  
Replacement of the modem requires replacement of the main module.  
Tracker controller does not  
communicate by EIA-232  
port.  
Verify that the cable is connected to the PC direct connect port (Figure 24 on  
page 48).  
Verify that the proper cable is used. (Refer to Table 10 on page 47.)  
Verify that the PC workstation is using the Tracker controller software; other com-  
munications software will not work.  
Look for activity on the PC RX LED (Figure 30 on page 56).  
Tracker controller did not  
discover UCMs when ini-  
tially started.  
When the controller is initially powered up, it automatically discovers all communi-  
cating UCMs of the proper type and installs them into its database. The discovery  
process takes several minutes, depending on how many UCMs are installed on the  
communication link.  
After the controller has built its database after the initial power up, the controller no  
longer automatically discovers UCMs. If you want to initiate the discovery process,  
you must do so manually. Initiate the discovery process when a new UCM is added  
to the system or an existing UCM is replaced.  
Verify proper wiring of the Comm5 communication link. (UCMs can be discov-  
ered only if Comm5 communication has been established.)  
Wait at least 5 minutes for the controller to discover the UCMs.  
Note: You can press the service pin button on a UCM at any time to check if it is communicating  
with the controller. Pressing the service pin button causes the UCM status LED to flash on and off  
(known as “winking”), if the controller is communicating with that UCM.  
Touch screen beeps when  
touched but does not  
progress to the next screen.  
Touch screen is out of calibration.  
Perform the procedures for calibrating the touch screen in Tracker Building Auto-  
mation System Controller Operations guide (BMT-SVU01A-EN).  
Touch-screen back light and  
contrast is out of adjust-  
ment.  
Perform the adjust brightness and contrast procedure from the display module.  
Tracker I/O status is wrong.  
Verify electrical connection using the post-installation checklist (Table 18 on  
page 70).  
Verify I/O status as indicated on home display on the display module.  
Display Tracker I/O status self test from display module.  
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Chapter 7 Troubleshooting  
Table 14. Symptom/action troubleshooting (Continued)  
Symptom  
Action  
Tracker alarm output is not  
working as expected.  
Confirm proper wiring of the alarm relay output. Consult the post-installation  
checklist (Table 18 on page 70) for details.  
Initiate the BOP self test from the display module.  
Note: The binary output is for alarm notification only. There must be an unacknowledged alarm  
present of the proper severity to actuate the alarm output.  
Tracker controller will not  
communicate with its  
UCMs.  
Look for wiring problems (shorts or opens, for example) that develop when wire  
is damaged during installation.  
Look for shorts between the two conductors resulting from nicks in the insulating  
jacket. (This can be caused by improper technique when stripping away the outer  
jacket and shield.)  
Look for a strong source of EMI/RFI interference nearby.  
Look for ac power disturbances from nearby transformers and electrical equip-  
ment. This is especially true when running communication links in close proxim-  
ity to florescent lighting ballasts.  
Verify the UCM has not failed.  
Verify proper termination resistance.  
Tracker processor is locked  
up.  
Cycle power to the Tracker main module by removing it from the termination  
module.  
If the processor is still locked up after cycling power to the controller, perform a  
reboot from the display module or the PC software (if the controller is able to  
communicate).  
If the controller will not respond to the above listed methods, push the reset but-  
ton (S1) on the main module (see Figure 30 on page 56).  
Note: Heartbeat LED (HRT LED5) will be solid green.  
Alarm LED on the display is  
flashing red.  
At the Tracker controller user interface home screen, push the alarm button on  
the display module to acknowledge the alarm, then take the proper corrective  
action.  
Note: The alarm LED flashes when the controller receives an alarm of the appropriate severity.  
Pressing the Alarm button acknowledges the alarm and turns off the flashing LED (until the control-  
ler receives another alarm of the appropriate severity).  
Tracker controller is annun-  
ciating an alarm.  
At the Tracker controller user interface home screen, push the alarm button on  
the display module to acknowledge the alarm, then take the proper corrective  
action.  
Note: The alarm relay energizes when the controller receives an alarm of the appropriate severity.  
Pressing the alarm button acknowledges the alarm and turns off the alarm relay output (until the  
controller receives another alarm of the appropriate severity).  
Display module is not illu-  
minated.  
Press anywhere on the touch screen surface to turn the back light on. The control-  
ler automatically turns off the back light during extended periods of inactivity to  
conserve energy and bulb life.  
Confirm that the controller has 24 Vac power. When the display module has  
power, the alarm LED will be either solid green or flashing red.  
Display module does not  
respond to the touch.  
Confirm that the controller has 24 Vac power. When the display module has  
power, the alarm LED will be either solid green or flashing red.  
If the display module is not responding correctly when the display module is  
powered up and the back light is on, initiate the touch-screen calibration proce-  
dure from the display module.  
60  
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Symptom/action troubleshooting  
Table 14. Symptom/action troubleshooting (Continued)  
Symptom  
Action  
Tracker controller displays  
the wrong date.  
Verify if the electrical power has been off for more than 1 week (the actual time  
varies depending on storage temperature).  
Verify that jumper pin J1 on the main module is in place.  
Note: The controller default date (displayed when the controller is initially powered up or whenever  
the super capacitor is unable to back up the controller time) is January 1, 2000.  
Outdoor air temperature is  
not reading correctly.  
Measure the resistance of the outdoor air temperature thermistor (preferably at  
the termination module). Check the measurement using Table 19 on page 71.  
Inspect the location of the outdoor air temperature sensor. It must not be  
mounted in the sunlight or near another source of radiant heat.  
Note: The outdoor air temperature sensor can be used for this purpose only.  
Ethernet link is not detected  
(on the Ethernet board, the  
left LED is off)  
Verify that the correct type of cable is used. When communicating over a network,  
use a patch cable. When communicating to an Ethernet card on a lap top com-  
puter, use a crossover cable.  
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Chapter 7 Troubleshooting  
62  
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Chapter 8  
Maintenance  
The only maintenance necessary for the controller is to occasionally clean  
and calibrate the touch screen.  
Cleaning the touch screen  
To clean the touch screen, wipe it off with a non-abrasive cloth. For more  
aggressive cleaning, use low-pressure compressed air to blow off the  
surface and then wipe it off with a non-abrasive cloth.  
To clean fingerprints from the touch screen, lightly spray it with a mild  
glass cleaner. Immediately wipe the touch screen with an absorbent, non-  
abrasive cloth.  
CAUTION  
Avoid Equipment Damage!  
Immediately wipe moisture from the surface of the LCD touch screen.  
Failure to do so will cause the operator display to malfunction.  
Calibrating the touch screen  
To calibrate the touch screen:  
1. At the Tracker home screen, press the Advanced button. The  
Advanced Selections screen displays.  
2. Press the Calibrate Touch Screen button. A calibration screen dis-  
plays.  
CAUTION  
Avoid Equipment Damage!  
Do not allow the touch screen to come in contact with sharp objects.  
3. Touch the target using a small, pliable, blunt object, such as a pencil  
eraser. Hold until the beeping stops. A second calibration screen dis-  
plays.  
4. Again, touch the target with the object. Hold until the beeping stops.  
The Advanced Selection screen displays.  
5. To exit this procedure, press the Home button. The home screen dis-  
plays.  
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Chapter 8 Maintenance  
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Appendix A  
Installation checklists  
Required supplies  
Table 15 lists the supplies required for all Tracker installations.  
Table 15. Required supplies checklist  
Wiring installation  
Item  
;
18 AWG (1.02 mm2) wire recommended  
24 Vac, 40 VA minimum transformer  
†
†
24 Vac  
†
Comm  
Communication wire (see Table 7 on page 30  
and Table 8 on page 31 for specifications)  
Optional supplies  
Table 16 lists the supplies that may or may not be necessary, depending  
on the Tracker installation.  
Table 16. Optional supplies checklist  
Inputs/output  
Item  
;
†
wiring installation  
18 AWG (1.02 mm2) wire and metal conduit  
Alarm relay wiring  
18—22 AWG (1.02 mm2—0.643 mm2) wire and  
metal conduit  
†
Priority shutdown  
wiring and  
Meter input  
18—22 AWG (1.02 mm2—0.643 mm2) twisted  
pair, shielded wire  
†
†
†
†
Thermistor wire  
Alarm relay power  
supply  
Power supply for alarm relay output (not to  
exceed 24 Vac)  
Alarm relay output  
load  
Load for alarm relay output (not to exceed  
1 amp at 24 Vac)  
Thermistor  
Outdoor air temperature sensor  
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Appendix A Installation checklists  
Comm5 UCM identification and  
location  
Each UCM has a unique 12-digit identifier that serves as its address. The  
Tracker controller uses the address to communicate with the UCM. The  
installer must know the UCM addresses when assigning names to UCMs  
during setup.  
Use Table 17 to record the name, location, and ID of each UCM (SCCs,  
VariTrac CCPs, and I/O modules) connected to the Comm5 link. The 12-  
digit identifier is on a sticker attached to the UCM. Some UCMs have  
peel-away stickers that can be detached and applied to the table.  
Table 17. Comm5 UCM identification and location  
Space Comfort Controllers (24 maximum)  
Location or area served 12 digit ID  
Edited name  
66  
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Comm5 UCM identification and location  
Table 17. Comm5 UCM identification and location (Continued)  
Space Comfort Controllers (continued)  
Edited name  
Location or area served  
12 digit ID  
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Appendix A Installation checklists  
Table 17. Comm5 UCM identification and location (Continued)  
VariTrac central control panels (10 maximum)  
Location or area served 12 digit ID  
Edited name  
I/O modules (4 maximum)  
Edited name  
Location or area served  
12 digit ID  
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Pre-installation wiring notes  
Pre-installation wiring notes  
The wiring for the Tracker system will have been completed prior to  
Tracker installation. All Tracker wiring conforms to the following  
guidelines:  
The Tracker controller receives 24 Vac from a dedicated power circuit.  
If not, the Tracker controller may malfunction.  
Each UCM receives 24 Vac from a dedicated power source. If not, the  
UCM may malfunction.  
Input wires and ac power wires are run in separate conduits or wire  
bundles. If not, the Tracker controller may malfunction due to  
induced electrical noise.  
Comm5 cable and ac power wires are run in separate conduits or wire  
bundles. If not, the Tracker controller may malfunction due to  
induced electrical noise.  
UCM communication cables do not run near lighting ballasts or other  
transformers. If they do, the UCM may malfunction due to induced  
electrical noise.  
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Appendix A Installation checklists  
Termination module post-installation  
checklist  
Use Table 18 to verify that the circuits connected to the termination  
board on the termination module are wired correctly. Record test results  
in the “Actual value” column.  
Table 18. Termination module post-installation checklist  
Mandatory  
Circuit  
24 Vac  
TB1-1,  
TB1-2,  
TB1-3  
Test  
Actual value  
wiring  
Measure the voltage between TB1-1 and TB1-2. It must be 24 Vac  
nominal (19 Vac to 30 Vac).  
Measure the voltage between TB1-1 and TB1-3. It must be approxi-  
mately the same voltage as measured between TB1-1 and TB1-2  
9
The ground wire must be connected to terminal TB-3. It must be  
tied to building or earth ground at nearest location. Measure the  
voltage between TB1-2 and TB1-3. It must be approximately 0 V.  
Alarm relay  
Measure the voltage between TB1-4 and TB1-5. It must not exceed  
24 Vac. Jumper these two terminals. The user-supplied load should  
now be energized and active.  
TB1-4,  
TB1-5  
Priority  
shutdown  
TB1-6,  
TB1-7  
There must be no voltage applied to these terminals. These termi-  
nals must be connected to dry contacts only. Measure the resis-  
tance between TB1-6 and TB1-7. It must be approximately 0 with  
the user-supplied contacts in the closed position, and infinity ohms  
with the contacts in the open position.  
Meter input  
TB1-8,  
TB1-9  
There must be no voltage applied to these terminals. The terminals  
must be connected to dry contacts only. Measure the resistance  
between TB1-8 and TB1-9. It must be approximately 0 with  
demand meter contacts in the closed position, and infinity ohms  
with the contacts in the open position.  
Thermistor  
There must be no voltage applied to these terminals. The cable  
shield must be connected to terminal TB1-12. Measure the resis-  
tance between TB1-10 and TB1-11.  
TB1-10,  
TB1-11,  
TB1-12  
Note the approximate temperature at the location of the outdoor  
air temperature sensor.  
Compare the resistance and temperature values to the listed val-  
Comm  
There must be no voltage applied to these terminals. Measure the  
resistance between TB1-13 and TB1-14. The resistance must be  
approximately 50 with daisy-chained wiring. This test confirms  
the correct usage of the termination resistors as well as the conti-  
nuity of the wire.  
TB1-13,  
TB1-14,  
TB1-15  
9
70  
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Termination module post-installation checklist  
Table 19. Thermistor sensor electrical characteristics  
Sensor resistance  
(ohms x 1000)  
Temperature (ºF)  
Temperature (ºC)  
–30  
–20  
–10  
0
–34  
–29  
–23  
–18  
–12  
–7  
241.1  
170.1  
121.4  
87.6  
63.8  
46.9  
34.5  
26.2  
20.0  
15.3  
11.9  
10.0  
9.3  
10  
20  
30  
–1  
40  
4
50  
10  
60  
16  
21  
25  
27  
32  
38  
43  
49  
54  
60  
66  
70  
77  
80  
90  
7.3  
100  
110  
120  
130  
140  
150  
5.8  
4.7  
3.8  
3.0  
2.5  
2.0  
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Appendix A Installation checklists  
72  
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Appendix B  
Declaration of Conformity  
This appendix provides the Declaration of Conformity statement for the  
Tracker model 12, 24, and WSHP controllers. All Tracker models are  
currently CE certified.  
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Appendix B Declaration of Conformity  
Declaration of Conformity  
Manufacturer’s Name:  
Trane  
Manufacturer’s Address:  
4833 White Bear Parkway  
Saint Paul, Minnesota 55110  
USA  
The manufacturer hereby declares that the product:  
Product Name:  
Tracker model 12, 24, and water-source heat pump  
(WSHP)  
Product Number:  
BMTK000AA0A110  
BMTK000AA0A210  
BMTK000AA0A510  
BMTKKBBAA0A110  
BMTKKBBAA0A210  
BMTKKBBAB0A110  
BMTKKBBAB0A210  
BMTK000AB0A110  
BMTK000AB0A210  
BMTK000AB0A510  
Conforms to the following standards or other normative documents:  
Electromagnetic Emission:  
EN 50081-1:1998  
Radiated EN55022: 1998 Class B limit  
(by Council Directive 89/336/EEC)  
Conducted EN55022: 1998 Class B limit  
Electromagnetic Immunity: EN61000-6-1:2001  
EN61000-4-2  
4 kV contact discharge  
8 kV air discharge  
EN61000-4-3  
EN61000-4-4  
EN61000-4-5  
EN61000-4-6  
EN61000-4-11  
3 V/m  
1 kV  
1 kV  
3 V  
1 cycle/100%  
UL and C-UL listing  
Flammability rating  
916, Energy management equipment  
UL 94-5V (UL flammability rating for plenum use)  
FCC FCC Part 15, Class A, CFR 47  
When and where issued  
Electromagnetic Emission :  
Electromagnetic Immunity:  
Saint Paul, Minnesota USA  
4/9/2003  
4/10/2003  
Bounheng Saycocie  
Design/Compliance Engineer  
Mark of Compliance  
European Contact  
Societe Trane (Epinal, France)  
1, rue des Ameriques, B.P. 6  
F-88191 Golbey Cedex, France  
Phone: (33) 329.31.73.00  
Fax: (33) 329.81.24.98  
74  
BMTK-SVN01D-EN  
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Index  
Numerics  
A
adapters  
B
binary input  
C
D
daisy-chain configuration  
BMTK-SVN01D-EN  
75  
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Index  
E
EIA-232 connection  
meter, utility pulse  
Ethernet connection to PC  
mounting  
I
I/O modules  
installation  
N
O
outdoor air temperature sensor  
J
jumper  
P
L
PC communication port  
PC workstation connection  
location  
priority shutdown device input  
LonTalk see Comm5 communications  
R
M
repeater  
main module  
76  
BMTK-SVN01D-EN  
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Index  
thermistor see outdoor air  
temperature sensor  
touch screen  
RJ-11  
RJ-12  
Tracer  
RJ-45  
Tracker BAS  
S
SCCs  
shipment  
specifications  
U
UCMs  
V
VariTrac CCPs  
T
termination board  
termination module  
W
water-source heat pump  
termination resistor  
BMTK-SVN01D-EN  
77  
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Literature Order Number  
File Number  
BMTK-SVN01D-EN  
SV-ES-BAS-BMTK-SVN-01D-EN-0204  
SV-ES-BAS-BMTK-SVN-01C-EN May 2003  
Inland  
Supersedes  
Stocking Location  
Trane  
A business of American Standard Companies  
Trane has a policy of continuous product and product data improvement and reserves the right to  
change design and specifications without notice. Only qualified technicians should perform the installa-  
tion and servicing of equipment referred to in this publication.  
For more information, contact your local Trane  
office or e-mail us at [email protected]  

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