TRIATEK FMS-2000M User manual
1
FMS-2000M
Critical Environment Monitor
LIT-12013578
September 2020
Installation Guide
FMS-2000M
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Risk of Personal Injury or Property Damage.
For use in a controlled environment only. Refer to installation instructions for environmental conditions.
Risk of Electric Shock.
Disconnect the power supply before making electrical connections. Contact with components carrying hazardous voltage can cause
electric shock and may result in severe personal injury or death.
Risk of Property Damage.
Use a 24 VAC 30 VA Class 2, LPS or Limited Energy transformer for the monitor. Failure to follow the wiring diagrams may result in
damage to the monitor and could void your warranty.
Risk of Property Damage.
Do not apply power to the system before checking all wiring connections. Short circuited or improperly connected wires may result in
permanent damage to the equipment.
Risk of Property Damage.
Do not run low-voltage cable in the same conduit or wiring troughs with high-voltage wires. Running low- and high-voltage wires in the
same conduit or wiring troughs may damage the equipment or cause system malfunction.
Risk of Property Damage.
Ensure that the power source conforms to the requirements of the equipment. Failure to use a correct power source may result in
permanent damage to the equipment.
Risk of Property Damage.
Do not run network communication cables in the same conduit, raceway, or panel with any high-voltage (greater than 30 VAC) wiring.
Isolate all network wiring and all network devices from high-voltage wiring and equipment. Failure to isolate network wiring and
network devices from high-voltage wiring and equipment can result in damage to network devices or poor network performance.
Risk of Property Damage.
Label all wires prior to disconnecting the equipment. Failure to label the wires may cause improper equipment operation after
reconnecting the equipment.
Risk of Property Damage.
Do not connect the 24 VAC power supply directly to the FMS-2000M display four-position terminal block. You must terminate the
power at the remote sensor's nine-position terminal block on the +Vin and -Vin terminals. Failure to follow the wiring instructions may
cause permanent damage to the FMS-2000M monitor and void your warranty.
IMPORTANT: Do not install or use this FMS-2000M Critical Environment Monitor in or near environments where corrosive substances or
vapors could be present. Exposure of the FMS-2000M monitor to corrosive environments may damage the device’s internal components
and will void the warranty.
IMPORTANT: Do not install this FMS-2000M Critical Environment Monitor in condensing, wet, or damp environments. Moisture may
cause damage to the FMS-2000M monitor.
IMPORTANT:
personnel. Carefully follow all instructions in this document and all instructions for the FMS-2000M Critical Environment Monitor.
IMPORTANT: Use copper conductors only. Make all wiring connections in accordance with local, national, and regional regulations. Do
not exceed the FMS-2000M Critical Environment Monitor’s electrical ratings.
FMS-2000M
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IMPORTANT: Make all wiring connections in accordance with the National Electrical Code and local regulations. Use proper Electrostatic
Discharge (ESD) precautions during installation and servicing to avoid damaging the electronic circuits of the FMS-2000M Critical
Environment Monitor.
IMPORTANT: Maintain proper polarity and voltage or current ratings. Improper polarity or exceeding the voltage or current ratings will
void the warranty.
IMPORTANT: Do not install the FMS-2000M Critical Environment Monitor where the maximum temperature exceeds 125°F (52°C).
Installing the device where maximum temperatures exceed 125°F (52°C) may cause damage to the FMS-2000M Critical Environment
Monitor and may void the warranty.
FMS-2000M
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Risque de blessure corporelle ou de dommages matériels.
Pour utilisation dans un environnement contrôlé uniquement. Consulter le guide d’installation pour les conditions environnementales.
Risque de décharge électrique.
Débrancher l’alimentation avant de réaliser tout branchement électrique. Tout contact avec des composants conducteurs de tensions
dangereuses risque d’entraîner une décharge électrique et de provoquer des blessures graves, voire mortelles.
Risque de dégâts matériels.
Utilisez un transformateur de classe 2 à 24 V CA 30 VA, à limitation d’alimentation ou LPS pour le moniteur. Ne pas respecter les
schémas de câblage peut causer des dommages au moniteur et peut annuler votre garantie.
Risque de dégâts matériels.
connectés de façon incorrecte risquent d’endommager irrémédiablement l’équipement.
Risque de dégâts matériels.
Ne pas faire courir un câble basse tension dans les mêmes gaines ou goulottes électriques que des câbles haute tension.
l’équipement ou de provoquer des dysfonctionnements du système.
Risque de dégâts matériels.
d’alimentation électrique inappropriée risque d’endommager irrémédiablement l’équipement.
Risque de dégâts matériels.
Ne passez pas les câbles de communication réseau dans les mêmes gaines, chemins de câbles ou panneaux que les câbles à
haute tension (supérieure à 30 Vca). Isolez tous les câbles et appareils réseau des câbles et appareils à haute tension. Un défaut
d’isolement des câbles et appareils à haute tension peut provoquer des dommages aux appareils réseau et réduire les performances
du réseau.
Risque de dégâts matériels.
Etiquetez tous les câbles avant de débrancher l’équipement. Le non-respect de cette précaution peut amener un fonctionnement
anormal après redémarrage de l’équipement.
Risque de dégâts matériels.
Ne pas brancher le bloc d’alimentation de 24 V CA directement au bornier à quatre positions de l’écran du FMS-2000M. Vous devez
raccorder l’alimentation aux bornes +Vin et -Vin du bornier à neuf positions du capteur à distance. Ne pas respecter les instructions de
câblage peut causer des dommages permanents au moniteur FMS-2000M et annuler votre garantie.
IMPORTANT : N’installez ou n’utilisez pas FMS-2000M Critical Environment Monitor dans, ou près, d’environnements où des substances
ou vapeurs corrosives peuvent être présentes. L’exposition du FMS-2000M à des environnements corrosifs peut endommager les
composantes internes de l’appareil et annulera la garantie.
IMPORTANT : N’installez pas FMS-2000M Critical Environment Monitor dans un environnement humide, mouillé ou il se produit de la
condensation. L’humidité peut causer des dommages au FMS-2000M.
IMPORTANT :
pour ce type de personnel. Suivez attentivement toutes les instructions de ce document et toutes les instructions du FMS-2000M Critical
Environment Monitor.
FMS-2000M
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IMPORTANT :
réglementations locales. Utilisez une bonne protection contre les décharges électrostatiques (ESD) pendant l’installation et l’entretien
pour éviter d’endommager les circuits électroniques du FMS-2000M Critical Environment Monitor.
IMPORTANT : Conservez la bonne polarité et la bonne tension ou le bon courant. Une mauvaise polarité ou le dépassement de la
tension ou du courant annulera la garantie.
IMPORTANT : N’installez pas le contrôleur d’environnement critique FMS-2000M où la température maximum dépasse 52 °C (125 °F).
Installer l’appareil dans un environnement où la température maximum dépasse 52 °C (125 °F) peut endommager FMS-2000M Critical
Environment Monitor et peut annuler la garantie.
IMPORTANT :
Monitor.
FMS-2000M
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Introduction.................................................................................................................................................................................. 7
Location considerations............................................................................................................................................................. 8
Mounting the FMS-2000M monitor for a retrot application ................................................................................................... 8
Mounting the FMS-2000M monitor for a new application...................................................................................................... 11
Mounting the remote pressure sensor.................................................................................................................................... 13
Wiring the isolated power supply ............................................................................................................................................ 15
Wiring the system and BACnet MS/TP communications ...................................................................................................... 17
Wiring one remote pressure sensor to the monitor............................................................................................................... 18
Wiring two remote pressure sensors to the monitor............................................................................................................. 20
Wiring three remote pressure sensors to the monitor .......................................................................................................... 22
Wiring four remote pressure sensors to the monitor ............................................................................................................ 24
Upgrading an FMS-1655M monitor to an FMS-2000M monitor ............................................................................................. 26
Conguring the display module settings................................................................................................................................ 27
BMS integration......................................................................................................................................................................... 27
Technical specications ........................................................................................................................................................... 29
Product code matrix.................................................................................................................................................................. 30
Cleaning the display.................................................................................................................................................................. 30
North American emissions compliance .................................................................................................................................. 31
FMS-2000M
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Introduction
from a building management system (BMS) for up to four spaces. The monitor can
touch screen.
The FMS-2000M provides maximum room status awareness with the color coded visual alarms that display on screen, and the 360°
with one tap to the screen to reduce audible alarm fatigue. The FMS-2000M features two password-protected access levels, one for
administrators and one for restricted level users, such as nurses.
Item Component
1 FMS-2000M monitor
2 Remote pressure sensor
3 Building management system (BMS)
4 Temperature sensor
5 Humidity sensor
6 Air flow sensor
7 Air changes
8 CO
Table 1: FMS-2000M system diagram
Figure 1: FMS-2000M system diagram
FMS-2000M
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Mounting the FMS-2000M monitor for a retrot application
Before you begin, make sure you have the following tools:
• a drywall saw or an oscillating tool with a drywall saw blade
•
• a #2 Phillips head screwdriver
•
1. Choose the location where you want to place the FMS-2000M monitor.
2.
choose to use landscape orientation.
3. Mark both screw holes and the corners of the rectangular section.
4. Use a drywall saw or oscillating tool to cut out the entire rectangular section inside the marked opening and drill the screw holes.
5.
6.
7.
8.
to secure both the box and the bracket.
Note: Do not overtighten the screws because the mounting bracket could warp.
9. Connect the wires to the back of the monitor. Refer to Figure 11 for more information.
10. Align the two slots on the back of the monitor with the tabs on the bracket, then swing the monitor towards the wall so that the
single tab on the bracket slots into the back of the monitor.
11.
After you mount the FMS-2000M monitor, apply power to the monitor. The initial splash screen displays the Triatek logo and the Safety
Halo bezel lights up green to represent the current system status.
Location considerations
location that you need. Place the sensors away from any moving air source like ceiling air registers, because this can cause unstable
sensor behavior.
The FMS-2000M monitor includes a pre-wired 10-ft (3.04-m) interface cable to connect the monitor to the sensor network. The monitor
adjust the interface orientation to landscape mode during the initial setup.
FMS-2000M
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6.06in.
4.485in.
3.338in.
0.548 in.
0.5 in.
4.311 in.
2.519 in.
2.878 in.
(63.983 mm)
(73.101 mm)
(109.499 mm)
(12.07 mm)
(13.919 mm)
(84.785 mm)
(113.919 mm)
(153.924 mm)
Figure 3: Retrot ringFigure 2: Retrot application dimensions
FMS-2000M
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Item Component
1 FMS-2000M Critical Environment Monitor
2 Monitor bracket
3
4 Retrofit ring
5 Mounting screw
6 Set screw
Figure 4: Side view of a retrot application of the FMS-2000M monitor
Table 2:
FMS-2000M
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Before you begin, make sure you have the following tools:
• a drywall saw or an oscillating tool with a drywall saw blade
•
• a #2 Phillips head screwdriver
•
1. Determine the location where you want to place the FMS-2000M monitor. The default orientation is portrait, but you can also
choose to use landscape orientation.
2. Mount the rough-in box to the side of a stud.
that you install later.
3.
4. If the 2-conductor power cable terminates at the monitor, pull the 2-conductor power cable through the opening in the rough-in box.
5.
precisely with the rough-in box.
6. Align the monitor’s mounting bracket to the four screw holes on the mounting tabs of the rough-in box. Use a #2 Phillips head
screwdriver to secure the bracket with the screws provided. Make sure the bracket is level.
Note: Do not overtighten the screws because the mounting bracket could warp.
7. Connect the wires to the back of the monitor. Refer to Figure 11 for more information.
8. Align the two slots on the back of the monitor with the tabs on the bracket and swing the monitor towards the wall so that the single
tab on the bracket slots into the back of the monitor.
9.
drive the screw into the monitor until it engages with the tab on the bracket.
After you mount the FMS-2000M monitor, apply power to the monitor. The initial splash screen displays the Triatek logo and the Safety
Halo bezel lights up green to represent the current system status.
Mounting the FMS-2000M monitor for a new application
1.583in.
1.662in.
1.596in.
1.5 in.
3.18 in.
2.878 in.
3.338in.
4.84in.
1.5
in.
0.728in. 1.725 in. 0.728in.
(84.785 mm)
(122.94 mm)
(40.208 mm)
(42.215 mm)
(40.538 mm)
(73.101 mm)
(80.77 mm) (38.1 mm)
(18.491 mm) (43.815 mm) (18.491 mm)
(38.1 mm)
Figure 5: Rough-in box dimensions Figure 6: Rough-in box
FMS-2000M
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Item Component
1 FMS-2000M Critical Environment Monitor
2 Mounting bracket
3
4 Stud
5 Rough-in box
6 Mounting screw
7 Set screw
Table 3: FMS-2000M Critical Environment Monitor components for a new application
Figure 7: Side view of a new application of the FMS-2000M monitor
FMS-2000M
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Mounting the remote pressure sensor
the monitored spaces. Install the remote pressure sensor module in the wall facing the monitored space such as an isolation room.
a positive pressure value indicates that the monitored space is positive with respect to the reference space. Choose a location that is
away from any moving air source such as ceiling-mounted air registers. This can cause unstable sensor behavior. See Figure 8 for more
information.
Before you begin, determine the sensor location and the number of cables that you need. To mount the remote pressure sensor, make
sure you have the following tools:
•
• a #2 Phillips head screwdriver
• a drywall saw or an oscillating tool with a drywall saw blade
To mount the remote pressure sensor, complete the following steps:
1.
sensor module included with the unit. The length of the cable should not exceed 1,000 ft.
2. Remove each sensor’s louvered cover plate and stainless steel backplate from the orange wall bracket.
3. Cut an opening in the wall of the monitored space for the orange low voltage mounting bracket and for the remote pressure sensor
4. Use the rotating clamps to secure the bracket to the wall safely.
5.
6. Pull the 4-conductor signal wire through the cut out.
7. Install the mounting bracket in the drywall opening and pull the 4-conductor signal cable through the mounting bracket.
8.
9.
as possible to prevent kinks.
10.
11. Screw the louvered cover plate to the front.
12. Apply thin silicone caulking around
the tube, between the stainless steel plate and the wall to seal against penetration.
13. Press the mounting plate into place. Allow the excess tube length to go into the wall space. Secure the mounting plate with the
screws and anchors.
14. Screw the louvered cover plate to the front.
FMS-2000M
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Figure 8: Standard remote pressure sensor 9-pin side view
Monitored spaceReference space
Table 4: Remote pressure sensor installation components
Number Description
1
2 Stainless steel flow tube mounting plate
3
4 Flow tube
5 Stainless steel mounting plate
6
7 Louvered cover plate
8 Remote pressure sensor
9 Mounting bracket
10 Terminal block
11 Thin silicone caulking
FMS-2000M
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Wiring the isolated power supply
Item Description
1 Red, 24 VAC connected to the FMS-2000M monitor
2 Red, 24 VAC connected to the FMS-2000M monitor
3
4 1 A slow blow fuse
5
6
7
8
9 Class 2, Limited Energy, or LPS isolated power supply wiring in this compartment
Table 5:
Figure 9: Universal 120 VAC/ 240 VAC to 24 VAC stepdown isloation transformer
To check if your FMS-2000M includes an isolated power supply, see Product code matrix.
IMPORTANT: Install the FMS-2000M Critical Environment Monitor with a Class 2, Limited Energy, or LPS isolated power supply
and connect it to an electrical circuit protected by a minimum 20 A circuit breaker. Mount the circuit breaker in an approved electrical
enclosure located separately, but in close proximity, to the FMS-2000M monitor.
IMPORTANT : Installez le FMS-2000M Critical Environment Monitor en utilisant un bloc d’alimentation de classe 2, à limitation
d’alimentation ou LPS et raccordez-le à un circuit électrique protégé par un disjoncteur d’un minimum de 20 A. Placez le disjoncteur
du FMS-2000M dans un panneau électrique approuvé et situé à l’écart, mais à proximité.
FMS-2000M
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Figure 10: 24 VAC to 24 VAC isloation transformer
Table 6: 24 VAC to 24 VAC isloation transformer
Item Description
1
2
3 Isolation transformer, 24 VAC to 24 VAC, 30 VA
4
5 1 A slow blow fuse
6 Class 2, Limited Energy, or LPS isolated power supply wiring in this compartment
FMS-2000M
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Wiring the system and BACnet MS/TP communications
+
24V_IN
–
+
DSPLY
RS485
–
+
BACnet
MS/TP
–
REF
120 VAC 24 VAC
Figure 11: FMS-2000M system wiring diagram
Table 7: FMS-2000M system wiring
Callout Component
1 DIP switch
2 Remote pressure sensor
3 Power supply
Note: The figure shows a 120 VAC to 24 VAC step down isolation transformer as an example. For information about correct power
supply termination, see the following wiring information:
• Wiring one remote pressure sensor to the monitor
• Wiring two remote pressure sensors to the monitor
• Wiring three remote pressure sensors to the monitor
• Wiring four remote pressure sensors to the monitor
4 Supervisory device
5 FMS-2000M Critical Environment Monitor
FMS-2000M
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Wiring one remote pressure sensor to the monitor
Note: For optimum network communications, connect the reference signal (REF) to the COM terminal on the supervisory device’s FC
bus terminal block.
17
1
U2
33
49
75
1
CN1
S2
SW1
+Vin
-Vin
Io
+Vs
IN
GND
-
+
RS485
21
43
ADDR
6
JP4
LED1
LED2
RUN
PWR
JP5
CN3
5
JP2
24 VAC
Output
To BAS
network
-
+
Ref.
22 AWG stranded 3-wire
twisted pair, shielded
Supplied 10 � cable
Green
White
Black
Red
Green
White
Black
Red
}
Power input
P1
P2
COMMON
120 VAC input
240 VAC input
White
Black
Blue
+
-
+
-
+
-
REF
24V_IN
DSPLY
RS485
BACnet
MS/TP
Landscape
Portrait
120 VAC/240 VAC
60/50Hz input
Figure 12: Wiring one remote pressure sensor to the monitor
Callout Component
1 FMS-2000M monitor
2
3 Supplied remote pressure sensor
4 Io terminal
Note: A 4mA to 20mA signal is present at the sensor’s Io terminal which represents the monitored room pressure. You can use it to
remotely monitor room pressure when you connect the terminal to a third party controller on the BMS network.
5 Optional door switch
Note: Configure the door switch setting on the monitor. It can be normally closed or normally open.
6 Supplied power supply
7
8 AC power input options
Table 8:
FMS-2000M
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SW1
12345678
On
Switch Description Sensor 1
1
Sensor address
On
2 On
3 On
4 On
5 Sensor mode: Set the switch to On for normal or Off for inverted. After you change the sensor mode with switch 5, cycle
power to the sensor for the mode change to take effect.
On or off
6 Reserved
7 Reserved
8 Sensor communications termination Off
Figure 13: Remote pressure sensor DIP switch conguration for one-sensor models
Table 9: Remote pressure sensor DIP switch positions for one-sensor models
FMS-2000M
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Wiring two remote pressure sensors to the monitor
Note: For optimum network communications, connect the reference signal (REF) to the COM terminal on the supervisory device’s FC
bus terminal block.
-Vin
Vo
Io
GND
-
+
+Vin
+Vs
IN
-Vin
Vo
Io
GND
-
+
+Vin
+Vs
IN
24 VAC
output
Common
White
Black
Blue
To BAS
n etwork
-
+
Ref.
Red
Black
Green
White
RS485
RS485
+
-
+
-
+
-
REF
24V_IN
DSPLY
RS485
BACnet
MS/TP
Landscape
Portrait
Red
Black
White
Green
Supplied pre-wired
10 � cable
22 AWG stranded twisted pair
22 AWG stranded 3-wire
twisted pair, shielded
Supplied power supply
120 VAC input
240 VAC input
120 VAC/240 VAC
60/50Hz input
Figure 14: Wiring two remote pressure sensors to the monitor
Callout Component
1 FMS-2000M monitor
2 Supplied remote pressure sensors 1 and 2, in order from left to right
3 Optional door switch
Note: Configure the door switch setting on the monitor. It can be normally closed or normally open.
4 Io terminal
Note: A 4mA to 20mA signal is present at each of the sensors' Io terminals which represents the monitored room pressure. You can use
it to remotely monitor room pressure when you connect the terminal to a third party controller on the BMS network.
5 Supplied power supply
6 AC power input options
7
Table 10:
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