background image

is a mode switch that enables a field controller to

operate on a ZFR/ZFR Pro Series Wireless Field Bus.

Switch 128 must be set to OFF for all hard-wired SA

and FC Bus applications. Set Switch 128 to ON for

wireless FC Bus applications only.

Figure 9: Device Address Switches Set to 21

Note: 

Metasys

 field controllers ship with Switch

128 ON and the remaining address switches

OFF. This renders the controllers wired

subordinate devices, which do not interfere

on MSTP Buses and do not interfere with

bus operation. Set a valid and unique device

address on the controller before applying

power to the controller on the bus.

To set the device addresses on a 

Metasys 

 field

controller:

1.  Set all of the switches on the field controller’s

device address DIP switch block (128 through 1)

to OFF.

2.  Set one or more of the seven address switches

(64 through 1) to ON, so that the sum of the

switch numbers set to ON equals the intended

device address. See Table 7 and Table 8 for

valid field controller addresses. Set the highest

number switch that is less than or equal to the

intended device address to ON. Then continue

setting lower numbered switches until the total

equals the intended address. For example, if

the intended device address is 21, set Switch 16

to ON first, then set Switch 4 ON, followed by

Switch 1 (16+4+1=21). See Figure 9.

3.  Set Switch 128 to ON only for controllers

on a ZFR/ZFR Pro Series Wireless Field Bus

application. For all hard-wired SA and FC Bus

applications, ensure that Switch 128 is set to

OFF.

Note: 

Do not connect a wirelessly enabled

field controller to a wired FC Bus.

Refer to the 

WNC1800/ZFR182x Pro Series

Wireless Field Bus System Technical Bulletin

(LIT-12012356)

 or the 

ZFR1800 Series

Wireless Field Bus System Technical Bulletin

(LIT-12011295)

 for more information on

device addresses in wireless applications.

4.  Set a unique and sequential device address

for each of the field controllers connected on

the SA or FC Bus, starting with device address

4. To ensure the best bus performance, set

sequential device addresses with no gaps in

the device address range (4, 5, 6, 7, 8, 9, and

so on). The field controllers do not need to

be physically connected on the bus in their

numerical device address order.

5.  Write each field controller’s device address on

the white label below the DIP switch block on

the controller’s cover.

Refer to the 

MSTP Communications Bus Technical

Bulletin (LIT-12011034)

 for more information on field

controller device addresses and how to set them on

MSTP Buses.
Table 7 and Table 8 show and describe the valid

FC Bus and SA Bus device addresses for Johnson

Controls MSTP communications bus applications.

Table 7: FC Bus device address descriptions

Device address Address description
0

(Switch 128

OFF)

Reserved for FC Bus Supervisory Controller (not

valid for field controllers).

1 to 3

(Switch 128

OFF)

Reserved for peripheral devices (not valid for

field controllers).

4 to 127

(Switch 128

OFF)

Valid for MSTP Master field controllers on a

hard-wired

 SA Bus or FC Bus.

Table 8: Wireless field bus device address

Device address Address description

0 to 3

(Switch 128 ON)

Reserved addresses for wired subordinate

devices (not valid for field controllers).

Note: 

Metasys

controllers ship with 128

ON and the remaining address switches

OFF, rendering the controllers wired

subordinate devices, which do not operate

on 

Metasys

 field buses.

VMA1617 and VMA1632 VAV Controllers Installation Guide

16

Summary of Contents for VMA1617

Page 1: ...ning support and include tips for efficient and safe replacement Refer to the N2 Compatibility Options chapter of the Controller Tool Help LIT 12011147 for information about mapping N2 Objects in cont...

Page 2: ...25 mm 1 in screw Materials and special tools needed Several 6 mm 1 4 in female spade terminals for input and output wiring and crimping tool for spade mounted terminal blocks Small straight blade scr...

Page 3: ...pler Bolt see Mounting for information on setting the coupler bolt 9 Universal Input Voltage Analog Input 0 10 VDC Resistive Analog Inputs 0 600k ohm 0 2k Potentiometer RTD 1k Nickel 1k Platinum or A9...

Page 4: ...ng the sheet metal screw from the original installation preferred option On panel or enclosure mount applications observe these additional guidelines Do not install the controller in an airtight enclo...

Page 5: ...y installed on VAV boxes The models have either a round shaft up to 13 mm in diameter or a 10 mm square shaft Tighten the square coupler bolt to the shaft using an 8 mm 5 16 in wrench or 10 mm 3 8 in...

Page 6: ...For detailed information on configuring and wiring a SA Bus refer to the MS TP Communications Bus Technical Bulletin LIT 12011034 VMA terminals and bus ports See for input and output terminal and bus...

Page 7: ...Wiring Important Exercise caution while rewiring the power plug when replacing a VMA1610 or VMA1620 controller with a VMA1617 or VMA1632 controller The supply power terminal on a new VMA is a two posi...

Page 8: ...to the appropriate device address Also activate the EOL switch if necessary 5 Connect the controller to 24 VAC Class 2 power Note If you are using the VMA1617 or VMA1632 controller with the Wireless...

Page 9: ...tive Temperature Coefficient NTC Sensor 10K Type L 10K Johnson Controls Type II is equivalent to Type L or 2 252K Type II See Guideline A in Table 3 INn Binary Input Dry Contact Maintained Mode 1 seco...

Page 10: ...e Size Gauge and Type Maximum Cable Length and Type Assumptions 1 0 mm 18 AWG stranded copper 457 m 1 500 ft twisted wire 0 8 mm 20 AWG stranded copper 297 m 975 ft twisted wire 297 m 975 ft twisted w...

Page 11: ...sted wire B 24 AWG stranded copper 107 m 350 ft twisted wire 61 m 200 ft twisted wire 100 mV maximum voltage drop Depending on the cable length and the connected input or output device you may have to...

Page 12: ...er VAV Balancing Tool One to One Wireless Receiver Network Sensor 24 AWG 4 pair CAT 5 Cable 30 5 m 100 ft HOT 24 VAC Power Supply Hot Supplies 20 30 VAC Nominal 24 VAC 24 COM 24 VAC Power Supply Commo...

Page 13: ...gures in this section for the applicable termination diagrams Table 6 Termination details Type of field device Type of Input Output Termination diagrams Voltage Input External Source UI Voltage Input...

Page 14: ...External Source CO 24 VAC Triac Output Switch Low External Source CO Note Applies to CO4 and CO5 Incremental Control to Actuator Switch Low External Source CO Note Applies to CO4 and CO5 Analog Output...

Page 15: ...damaging the controller Setting the device address Metasys field controllers are master devices on BACnet MSTP SA or FC Buses Before operating field controllers on a bus you must set a valid and uniqu...

Page 16: ...ZFR182x Pro Series Wireless Field Bus System Technical Bulletin LIT 12012356 or the ZFR1800 Series Wireless Field Bus System Technical Bulletin LIT 12011295 for more information on device addresses in...

Page 17: ...F 5 Reconnect the 24 VAC supply to the controller 6 Using an SA bus connection download the firmware and controller application file The download process asks to confirm switching the communication pr...

Page 18: ...efer to the Controller Tool Help LIT 12011147 and Controller Provisioning with Tools LIT 12013247 for detailed information about commissioning field controllers Note The MAP Gateway serves as a replac...

Page 19: ...must be no short circuit Note Some installations require the Secondary of the Transformer to be Earth Grounded If this is the case verify that the Earth Ground connection is valid and not shared betw...

Page 20: ...Gateway Refer to the Mobile Access Portal Gateway Catalog Page LIT 1900869 to identify the appropriate product for your region MS DIS1710 0 Local Controller Display MS BTCVTCBL 700 Cable Replacement S...

Page 21: ...F 1000 326 Flexible Tubing Extension with Barbed Fitting for VMA1617 and VMA1632 35 56 cm 14 in Length Bulk Pack of 20 MS VMAACT 701 VMA Actuator Assembly Gearbox Replacement Kit TE730 29C 0 Sensor wi...

Page 22: ...or N2 DIP switch set valid field controller device addresses 1 254 Communications Bus RS 485 selectable between BACnet MSTP or N2 FC Bus 0 6 mm 22 AWG standard 3 wire twisted shielded cable recommende...

Page 23: ...Testing Laboratories BTL Protocol Revision 7 Listed BACnet Application Specific Controller B ASC The performance specifications are nominal and conform to acceptable industry standard For application...

Page 24: ...2019 Johnson Controls All rights reserved All specifications and other information shown were current as of document revision and are subject to change without notice www johnsoncontrols com...

Reviews: