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ZFR1810 Wireless Field Bus Coordinator Installation Instructions

2

North American Emissions Compliance

United States

Canada

Installation

Follow these guidelines when installing a ZFR1810 
Coordinator.

Transport the ZFR1810 Coordinator in the original 
container to minimize vibration and shock damage.

Verify that all the parts shown in 

Parts Included

 

shipped with the ZFR1810 Coordinator.

Do not drop the ZFR1810 Coordinator or subject it 
to physical shock.

Parts Included

Verify that the following parts shipped with the 
ZFR1810 Coordinator:

one ZFR1810 Coordinator and:

-

one three-position screw terminal pluggable 
block for 24 V~ power

-

one four-position screw terminal pluggable 
block for FC/SA Bus In

-

four No. 6 pan-head, sheet-metal screws

adjustable antenna with 1.2 m (4 ft) cable and:

-

galvanized steel mounting bracket

-

two No. 6 Trade Size pan-head, sheet-metal 
screws

-

round bushing

-

hexagonal bushing

one installation instructions sheet

Compliance Statement (Part 15.19)

This device complies with Part 15 of the FCC Rules. 
Operation is subject to the following two conditions:

1.

This device may not cause harmful interference, 
and

2.

This device must accept any interference 
received, including interference that may cause 
undesired operation.

Warning (Part 15.21)

Changes or modifications not expressly approved by 
the party responsible for compliance could void the 
user’s authority to operate the equipment.

Industry Canada Statement(s) 

The term 

IC

 before the certification/registration 

number only signifies that the Industry Canada 
technical specifications were met.

This device has been designed to operate with an 
antenna having a maximum gain of 2 dB. Antenna 
having a higher gain is strictly prohibited per 
regulations of Industry Canada. The required 
antenna impedance is 50 ohms.

To reduce potential radio interference to other users, 
the antenna type and its gain should be so chosen 
that the Equivalent Isotropically Radiated Power 
(EIRP) is not more than that required for successful 
communication.

Le terme « IC » précédant le numéro d'accréditation/
inscription signifie simplement que le produit est 
conforme aux spécifications techniques d'Industry 
Canada.

Cet appareil a été conçu pour fonctionner avec une 
antenne d'un gain maximum de 2 dBi. En application 
des réglementations d'Industry Canada, l'utilisation 
d'une antenne de gain supérieur est strictement 
interdite. L'impédance d'antenne requise est de 50 
ohms.

Pour réduire les interférences radio potentielles 
avec les dispositifs d'autres utilisateurs, le type 
d'antenne et son gain doivent être choisis de façon à 
ce que la Puissance Isotrope Rayonnée Équivalente 
(PIRE) ne soit pas supérieure à la puissance 
nécessaire pour une bonne communication.

IMPORTANT:

Before installing the ZFR1810 

Coordinator in plenum applications, verify 
acceptance of exposed plastic materials in plenum 
areas with the local building authority. Building 
codes for plenum requirements vary by location.

Some local building authorities accept compliance to 
UL 1995, Heating and Cooling Equipment, while 
others use different acceptance criteria.

Summary of Contents for ZFR1810

Page 1: ...FR1800 Series Wireless Field Bus System Technical Bulletin LIT 12011295 or the ZFR1800 Series Wireless Field Bus System Quick Reference Guide LIT 12011630 for information on commissioning and configuring a ZFR1800 Series Wireless Field Bus System for operation IMPORTANT Use the ZFR1810 Wireless Field Bus Coordinator only to provide an input to equipment under normal operating conditions Where fail...

Page 2: ...term IC before the certification registration number only signifies that the Industry Canada technical specifications were met This device has been designed to operate with an antenna having a maximum gain of 2 dB Antenna having a higher gain is strictly prohibited per regulations of Industry Canada The required antenna impedance is 50 ohms To reduce potential radio interference to other users the...

Page 3: ...minimum position a ZFR1810 Coordinator within 15 2 m 50 ft of at least two ZFR1811 Routers At a minimum position all ZFR1811 Routers within 15 2 m 50 ft of at least two other ZFR1811 Routers or one ZFR1811 Router and the ZFR1810 Coordinator Locate the ZFR1810 Coordinator on the same floor as the associated ZFR1811 Router and WRZ Series Sensors Test the transmission signal strength between the ZFR1...

Page 4: ... Routers Use Figure 3 and the following steps to assemble the remote mount antenna 1 Remove the knock out tab on the enclosure panel box or drill a 7 8 in diameter hole in the desired location on the top of the enclosure 2 Insert the round bushing into the hole in the enclosure 3 Insert the hexagonal bushing into the antenna mounting bracket 4 Thread the antenna cable through the hexagonal bushing...

Page 5: ...ive bonding to the panel is completely attached Note Extra pieces of RFT are provided so that you can change the mounting location on the top of the panel at a later date if necessary Attaching the Antenna to the ZFR1810 Wireless Field Bus Coordinator To attach the antenna to the ZFR1810 Coordinator 1 Remove the top cover of the ZFR1810 Coordinator by simultaneously pushing in both flexible tabs o...

Page 6: ...nd Figure 1 FC Bus Jack Power and Communication Use a six conductor SA Bus RS 485 cable with RJ12 connectors to connect the ZFR1810 Coordinator to the FC Bus connector FC SA BUS IN on the NAE or NCE supervisory engine This connection provides both power and communication to the ZFR1810 Coordinator IMPORTANT Do not connect supply power to the ZFR1810 Coordinator before finishing wiring and checking...

Page 7: ...ireless mesh network the ZFR1810 Coordinator and each associated ZFR1811 Router and WRZ Series Sensor PAN Offset and MS TP Address Interaction At Release 4 1 and later the MS TP address of the ZFR1810 Coordinator is no longer fixed at 2 The new address is 120 plus the sum of the first three values of the PAN Offset that are set to the ON position giving an MS TP address range of 120 to 127 IMPORTA...

Page 8: ... the signal from neighboring devices See Table 3 and Figure 1 Refer to the ZFR1800 Series Wireless Field Bus System Technical Bulletin LIT 12011295 for more information on determining the signal strength between ZFR1800 Series devices in your application WRZ SST 120 Wireless Sensing System Tool Use the WRZ SST 120 Wireless Sensing System Tool with a WRZ Series Sensor as a site survey tool to deter...

Page 9: ... Actuator FC SA Bus IN jack Fault Red Off Off Steady Normal On Steady Internal Errors detected FC Bus Green Blink Blink 2 Hz Normal operation ZFR1810 Coordinator is receiving BACnet frames over the wire Off Steady Attempting to Auto Baud or not connected to active MS TP network On Steady Auto Baud complete and not receiving BACnet frames Wireless Green Blink Blink 2 Hz Normal operation ZFR1810 Coo...

Page 10: ...Power Supply Input One of the following 24 VAC 10 15 50 60 Hz Class 2 Transformer allowance should be 2 5 VA maximum 2 VA typical Provided through the three position 24 V screw terminal pluggable block 15 VDC 180 mA 7 to 18 VDC 185 mA maximum current draw on the FC Bus provided through the FC SA BUS IN RJ 12 jack from the FC Bus Jack on a Field Controller or NxE supervisory engine Power Supply Out...

Page 11: ... Industry Canada IC Compliant to Canadian ICES 003 Class B Limits Industry Canada IC RSS 210 Transmitter Identification ZFR1810 0 5969A MATRIXLP Transmitter Identification ZFR1810 1 279A WRZRADIO Australia and New Zealand RCM Mark Australia NZ Emissions Compliant Europe CE Mark Johnson Controls Inc declares that this product is in compliance with the essential requirements and other relevant provi...

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