ProtoNode FPC-N34 and ProtoNode FPC-N35 Start-up Guide …...• FPC-N35 units have the following 3...

Document Revision: 7.E Web Configurator

Template Revision: 71 T17022

ProtoNode FPC-N34 and ProtoNode FPC-N35 Start-up Guide

For Interfacing Weil-McLain Products: SlimFit 1000-2000 Series 1 (SOLA), Evergreen, SlimFit 550-750 Series 2 & 3,

SlimFit 1000-2000 Series 2 and SVF Models

To Building Automation Systems: BACnet MS/TP, BACnet/IP, Modbus TCP/IP, Metasys N2, LonWorks and

SMC Cloud

APPLICABILITY & EFFECTIVITY

Explains ProtoNode hardware and how to install it.

The instructions are effective for the above as of May 2019.

Weil-McLain ProtoNode Start-up Guide

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Technical Support

Thank you for purchasing the ProtoNode for Weil-McLain. Please call Weil-McLain for technical support of the ProtoNode product. Sierra Monitor Corporation does not provide direct support. If Weil-McLain needs to escalate the concern, they will contact Sierra Monitor Corporation for assistance. Support Contact Information:

Weil-McLain 500 Blaine Street Michigan City IN 46360 Customer Service:

1.800.654.2109, Option 2 Email: [email protected] Website: www.Weil-McLain.com

mailto:[email protected]

http://www.weil-mclain.com/


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Quick Start Guide

1. Record the information about the unit. (Section 3.1)

2. Configure the COM settings and Node-ID for any device to connect to the ProtoNode. (Section 3.3)

3. FPC-N34: Select the protocol configuration on the S Bank DIP switches. (Section 3.4)

4. BACnet MS/TP (FPC-N34): Set the MAC Address on the A Bank DIP switches. (Section 3.5.1)

5. BACnet MS/TP (FPC-N34): Set the baud rate of the BACnet MS/TP field protocol on the B Bank DIP

switches. (Section 3.5.2)

6. Connect the ProtoNode 6 pin RS-485 connector to the RS-485 network that is connected to each of

the devices. (Section 4.2)

7. Connect the ProtoNode FPC-N34 3 pin RS-485 port to the field protocol cabling, (Section 4.3)

or connect the ProtoNode FPC-N35 2 pin LonWorks port to the field protocol cabling. (Section 4.4)

8. Connect power to the ProtoNode 6 pin port. (Section 4.5)

9. Use a web browser to access the ProtoNode Web Configurator page to select the profiles of the devices

attached to the ProtoNode and enter any necessary device information. Once the devices are selected,

the ProtoNode automatically builds and loads the appropriate configuration. (Section 5)

10. Ethernet Network (FPC-N34): Use a web browser to access the ProtoNode Web Configurator page to

change the IP Address. No changes to the configuration are necessary. (Section 5.4)

11. LonWorks (FPC-N35): The ProtoNode must be commissioned on the LonWorks Network. This needs

to be done by the LonWorks administrator using a LonWorks commissioning tool. (Section 8)


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TABLE OF CONTENTS

1 Certifications ........................................................................................................................................ 7 1.1 BTL Mark – BACnet® Testing Laboratory ....................................................................................... 7 1.2 LonMark Certification ...................................................................................................................... 7

2 Introduction .......................................................................................................................................... 8 2.1 ProtoNode Gateway ....................................................................................................................... 8

3 Setup for ProtoNode .......................................................................................................................... 10 3.1 Record Identification Data ............................................................................................................ 10 3.2 Point Count Capacity and Registers per Device .......................................................................... 10 3.3 Configuring Device Communications ........................................................................................... 11

3.3.1 Input COM Settings on Any Serial Device Connected to the ProtoNode ............................... 11 3.3.2 Set Node-ID for Any Device Attached to the ProtoNode ........................................................ 11

3.4 Selecting the Desired Protocol Configuration ............................................................................... 12 3.5 BMS Network Settings: MAC Address, Device Instance and Baud Rate .................................... 13

3.5.1 BACnet MS/TP (FPC-N34): Setting the MAC Address for BMS Network .............................. 13 3.5.2 BACnet (FPC-N34): Calculating the Default Device Instance ................................................ 14 3.5.3 BACnet MS/TP (FPC-N34): Setting the Baud Rate for BMS Network .................................... 14

3.5.3.1 Baud Rate DIP Switch Selection ..................................................................................... 14

4 Interfacing ProtoNode to Devices .................................................................................................... 15 4.1 ProtoNode FPC-N34 and FPC-N35 Showing Connection Ports .................................................. 15 4.2 Serial Device Connections to the ProtoNode ............................................................................... 16

4.2.1 Biasing the RS-485 Device Network ....................................................................................... 17 4.2.2 End of Line Termination Switch for the RS-485 Device Network ........................................... 18

4.3 Serial Network (FPC-N34): Wiring Field Port to RS-485 Network ............................................... 19 4.4 LonWorks (FPC-N35): Wiring LonWorks Devices to the LonWorks Terminal ............................. 20 4.5 Power-Up ProtoNode.................................................................................................................... 21

5 Use the ProtoNode Web Configurator to Setup the Gateway ....................................................... 22 5.1 Connect the PC to the ProtoNode via the Ethernet Port .............................................................. 22

5.1.1 Changing the Subnet of the Connected PC ............................................................................ 22 5.1.2 Changing the IP Address of the ProtoNode with FieldServer Toolbox ................................... 23

5.2 Connecting to the ProtoNode Web Configurator .......................................................................... 24 5.3 Selecting Profiles for Devices Connected to ProtoNode .............................................................. 24

5.3.1 Verify Device Communications ............................................................................................... 25 5.4 Ethernet Network: Setting IP Address for the Field Network ....................................................... 26 5.5 Change ProtoNode COM Settings ........................................................................................ 28

6 BACnet: Setting Node_Offset to Assign Specific Device Instances ........................................... 29

7 How to Start the Installation Over: Clearing Profiles ..................................................................... 30

8 LonWorks (FPC-N35): Commissioning ProtoNode on a LonWorks Network.............................. 31 8.1 Commissioning ProtoNode FPC-N35 on a LonWorks Network ................................................... 31

8.1.1 Instructions to Upload XIF File from ProtoNode FPC-N35 Using Browser ............................. 31

Appendix A. Troubleshooting .................................................................................................................. 33 Lost or Incorrect IP Address ............................................................................................ 33 Viewing Diagnostic Information ....................................................................................... 34 Check Wiring and Settings............................................................................................... 35 LED Diagnostics for Communications Between ProtoNode and Devices ....................... 36 Take a FieldServer Diagnostic Capture ........................................................................... 37

Appendix A.5.1. Using the FieldServer Toolbox .................................................................................. 37 Appendix A.5.2. Using FS-GUI ............................................................................................................ 40

Appendix B. Additional Information ........................................................................................................ 41 Update Firmware ............................................................................................................. 41 BACnet: Setting Network_Number for More Than One ProtoNode on the Subnet ......... 41 Securing ProtoNode with Passwords .............................................................................. 42


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Appendix C. Vendor Information – Weil-McLain .................................................................................... 43 SlimFit 1000-2000 Series 1 (SOLA) Modbus RTU Mappings to BACnet, Metasys N2 and

LonWorks ................................................................................................................................................ 43 Evergreen/SlimFit 550-750 Series 2 & 3/SlimFit 1000-2000 Series 2/SVF Models

Modbus RTU Mappings to BACnet, Metasys N2 and LonWorks ............................................................ 45

Appendix D. “A” Bank DIP Switch Settings ........................................................................................... 57 “A” Bank DIP Switch Settings .......................................................................................... 57

Appendix E. Reference ............................................................................................................................. 60 Specifications ................................................................................................................... 60

Appendix E.1.1. Compliance with UL Regulations .............................................................................. 60

Appendix F. Limited 2 Year Warranty ..................................................................................................... 61


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LIST OF FIGURES

Figure 1: ProtoNode Part Numbers ............................................................................................................ 10 Figure 2: Supported Point Count Capacity ................................................................................................. 10 Figure 3: Registers per Device ................................................................................................................... 10 Figure 4: COM Settings ............................................................................................................................... 11 Figure 5: S Bank DIP Switches ................................................................................................................... 12 Figure 6: MAC Address DIP Switches ........................................................................................................ 13 Figure 7: Baud Rate DIP Switches ............................................................................................................. 14 Figure 8: BMS Baud Rate ........................................................................................................................... 14 Figure 9: ProtoNode FPC-N34 (Top) and ProtoNode FPC-N35 (Bottom) .................................................. 15 Figure 10: Device and Power Connections................................................................................................. 16 Figure 11: RS-485 Biasing Switch on the ProtoNode N34 (Left) and ProtoNode N35 (Right) ................... 17 Figure 12: RS-485 End-Of-Line Termination Switch on the ProtoNode N34 (Left) and ............................. 18 Figure 13: Connection from ProtoNode to RS-485 Field Network .............................................................. 19 Figure 14: RS-485 EOL & Bias Resistor Switches ..................................................................................... 19 Figure 15: LonWorks Terminal .................................................................................................................... 20 Figure 16: Required Current Draw for the ProtoNode ................................................................................ 21 Figure 17: Power Connections .................................................................................................................... 21 Figure 18: Ethernet Port Location ............................................................................................................... 22 Figure 19: Web Configurator Showing no Active Profiles ........................................................................... 24 Figure 20: Web Configurator Showing Available Profile Selection ............................................................. 25 Figure 21: Web Configurator Showing Active Profile Additions .................................................................. 25 Figure 22: Web Configurator Screen with Active Profiles ........................................................................... 26 Figure 23: Changing IP Address via FS-GUI .............................................................................................. 27 Figure 24: Web Configurator ProtoNode COM Settings ............................................................................. 28 Figure 25: Device COM Settings ................................................................................................................ 28 Figure 26: Web Configurator Node Offset Field.......................................................................................... 29 Figure 27: Active Profiles ............................................................................................................................ 29 Figure 28: LonWorks Service Pin Location ................................................................................................. 31 Figure 29: Sample of Fserver.XIF File Generated ...................................................................................... 32 Figure 30: Ethernet Port Location ............................................................................................................... 33 Figure 31: Error Messages Screen ............................................................................................................. 34 Figure 32: Diagnostic LEDs ........................................................................................................................ 36 Figure 33: Ethernet Port Location ............................................................................................................... 37 Figure 34: Web Configurator – Network Number Field ............................................................................... 41 Figure 35: FS-GUI Passwords Page ........................................................................................................... 42 Figure 36: Password Recovery Page ......................................................................................................... 42 Figure 37: Specifications ............................................................................................................................. 60


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1 CERTIFICATIONS

1.1 BTL Mark – BACnet®1 Testing Laboratory

1.2 LonMark Certif ication

1 BACnet is a registered trademark of ASHRAE

The BTL Mark on ProtoNode is a symbol that indicates that a product has

passed a series of rigorous tests conducted by an independent laboratory

which verifies that the product correctly implements the BACnet features

claimed in the listing. The mark is a symbol of a high-quality BACnet product.

Go to www.BACnetInternational.net for more information about the BACnet

Testing Laboratory. Click here for the BACnet PIC Statement.

LonMark International is the recognized authority for certification, education,

and promotion of interoperability standards for the benefit of manufacturers,

integrators and end users. LonMark International has developed extensive

product certification standards and tests to provide the integrator and user

with confidence that products from multiple manufacturers utilizing LonMark

devices work together. Sierra Monitor has more LonMark Certified gateways

than any other gateway manufacturer, including the ProtoCessor,

ProtoCarrier and ProtoNode for OEM applications and the full featured,

configurable gateways.

http://www.bacnetinternational.net/btl/

https://www.sierramonitor.com/sites/default/files/SMC/Documents/Datasheets/Protocols/PDS_BACnet_PIC_Statement.pdf


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2 INTRODUCTION

2.1 ProtoNode Gateway

The ProtoNode is an external, high performance building automation multi-protocol gateway that is

preconfigured to automatically communicate between Weil-McLain’s products (hereafter called “device”)

connected to the ProtoNode and automatically configures them for BACnet MS/TP, BACnet/IP, Metasys®2

N2 by JCI, Modbus TCP/IP or LonWorks®3.

It is not necessary to download any configuration files to support the required applications. The ProtoNode

is pre-loaded with tested profiles/configurations for the supported devices.

WARNING: Only use screws supplied by SMC in the holes found on the back of the unit when

attaching the optional DIN rail bracket. Use of any other screws may damage the unit.

FPC-N34 Connectivity Diagram:

2 Metasys is a registered trademark of Johnson Controls Inc. 3 LonWorks is a registered trademark of Echelon Corporation


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FPC-N35 Connectivity Diagram:

The ProtoNode can connect with Sierra Monitor’s SMC Cloud. The SMC Cloud allows technicians, the

OEM's support team and Sierra Monitor's support team to remotely connect to the ProtoNode. The SMC

Cloud provides the following capabilities for any registered devices in the field:

• Remotely monitor and control devices.

• Collect device data and view it on the SMC Cloud Dashboard and the SMC Smart Phone App.

• Create user defined device notifications (alarm, trouble and warning) via SMS and/or Email.

• Generate diagnostic captures (as needed for troubleshooting) without going to the site.

For more information about the SMC Cloud, refer to the SMC Cloud Start-up Guide.

https://www.sierramonitor.com/downloads/Start-Up_Guide-SMC_Cloud


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3 SETUP FOR PROTONODE

3.1 Record Identif ication Data

Each ProtoNode has a unique part number located on the side or the back of the unit. This number should

be recorded, as it may be required for technical support. The numbers are as follows:

Model Part Number

ProtoNode FPC-N34 FPC-N34-0970

ProtoNode FPC-N35 FPC-N35-0991

Figure 1: ProtoNode Part Numbers

• FPC-N34 units have the following 3 ports: RS-485 + Ethernet + RS-485

• FPC-N35 units have the following 3 ports: LonWorks + Ethernet + RS-485

3.2 Point Count Capacity and Registers per Device

The total number of registers presented by the device(s) attached to the ProtoNode cannot exceed:

Part number Total Registers

FPC-N34-0970 5,000

FPC-N35-0991 5,000

Figure 2: Supported Point Count Capacity

Devices Registers Per Device

SlimFit 1000-2000 Series 1 (SOLA) 144

Evergreen 831

SlimFit 550-750 Series 2 & 3

SlimFit 1000-2000 Series 2 SVF Models

831

Figure 3: Registers per Device


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3.3 Configuring Device Communications

3.3.1 Input COM Settings on Any Serial Device Connected to the ProtoNode

• Any connected serial device MUST have the same baud rate, data bits, stop bits, and

parity settings as the ProtoNode.

• Figure 4 specifies the device serial port settings required to communicate with the ProtoNode.

Port Setting SlimFit 1000-2000 Series 1 (SOLA)

Evergreen/ SlimFit 550-750

Series 2 & 3/ SlimFit 1000-2000

Series 2/ SVF Models

Protocol Modbus RTU Modbus RTU

Baud Rate 38400 19200

Parity None None

Data Bits 8 8

Stop Bits 1 2

Figure 4: COM Settings

NOTE: The ProtoNode default setting for the Modbus RTU serial baud rate is 19200. When

connecting devices with a different baud rate (SlimFit 1000-2000 Series 1), the baud rate

must be changed via the ProtoNode Web Configurator (Section 5.5).

3.3.2 Set Node-ID for Any Device Attached to the ProtoNode

• Set Node-ID for any device attached to ProtoNode. The Node-ID needs to be uniquely assigned

between 1 and 255.

• Document the Node-ID that is assigned to any device. The Node-ID assigned is used for deriving

the Device Instance for BACnet/IP and BACnet MS/TP. (Section 3.5.2)

NOTE: The Metasys N2 and Modbus TCP/IP field protocol Node-ID is automatically set to be the

same value as the Node-ID of the device.


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3.4 Selecting the Desired Protocol Configuration

• ProtoNode FPC-N34 units use the “S” bank of DIP switches (S0 – S3) to select the protocol

configuration.

o See the table in Figure 5 for the switch settings to select

o The OFF position is when the DIP switches are set closest to the outside of the box

• ProtoNode FPC-N35 units do not use the “S” bank DIP switches (S0 – S3) to select a field protocol.

o On ProtoNode FPC-N35 units, these switches are disabled; the field protocol is always

LonWorks

ProtoNode FPC-N34 S Bank DIP Switches

Profile S0 S1 S2 S3

BACnet/IP Off Off Off Off

BACnet MS/TP On Off Off Off

Metasys N2 Off On Off Off

Modbus TCP/IP On On Off Off

NOTE: When setting DIP switches, ensure that power to the board is OFF.

S0 – S3 DIP Switches S Bank DIP Switch Location

Profile Settings for ProtoNode

Figure 5: S Bank DIP Switches

S3

S2

S1

S0

Off On


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3.5 BMS Network Settings: MAC Address, Device Instance and Baud Rate

3.5.1 BACnet MS/TP (FPC-N34): Setting the MAC Address for BMS Network

• Only 1 MAC Address is set for ProtoNode regardless of how many devices are connected to

ProtoNode.

• Set the BACnet MS/TP MAC Address of the ProtoNode to a value between 1 to 127 (Master MAC

Address); this is so that the BMS front end can find ProtoNode via BACnet Auto-Discovery.

NOTE: Never set a BACnet MS/TP MAC Address of the ProtoNode to a value from 128 to 255.

Addresses from 128 to 255 are Slave Addresses and cannot be discovered by BMS front

ends that support Auto-Discovery of BACnet MS/TP devices.

• Set “A” bank DIP switches A0 – A7 to assign a MAC Address to the ProtoNode for BACnet MS/TP.

• Refer to Appendix D.1 for the complete range of MAC Addresses and DIP switch settings.

A0

A1

A2

A3

A4

A5

A6

A7

Off On


Figure 6: MAC Address DIP Switches


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3.5.2 BACnet (FPC-N34): Calculating the Default Device Instance

• The Device Instance value is automatically generated using the following formula:

BACnet Device Instance = (Device Node ID) + (Default Node Offset)

NOTE: The default Node Offset is 50,000.

For example, if Device A has a Node ID of 1 and Device B has a Node ID of 2, then:

BACnet Device Instance A = (1) + (50000) = 50001

BACnet Device Instance B = (2) + (50000) = 50002

NOTE: The Node ID is set in Section 5.3.

• To reach a specific BACnet Device Instance result, refer to Section 6.

3.5.3 BACnet MS/TP (FPC-N34): Setting the Baud Rate for BMS Network

• DIP switches B0 – B3 can be used to set the field baud rate of the ProtoNode to match the baud

rate required by the BMS for BACnet MS/TP.

• The ProtoNode baud rate for Metasys N2 is set for 9600. DIP switches B0 – B3 are disabled for

Metasys N2 on the ProtoNode FPC-N34.

• DIP switches B0 – B3 are disabled on the ProtoNode FPC-N35 (LonWorks).

B0

B1

B2

B3

Off On


3.5.3.1 Baud Rate DIP Switch Selection

Baud B0 B1 B2 B3

9600 On On On Off

19200 Off Off Off On

38400* On On Off On

57600 Off Off On On

76800 On Off On On

Figure 8: BMS Baud Rate

* Factory default setting = 38400

Figure 7: Baud Rate DIP Switches


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4 INTERFACING PROTONODE TO DEVICES

4.1 ProtoNode FPC-N34 and FPC-N35 Showing Connection Ports

Figure 9: ProtoNode FPC-N34 (Top) and ProtoNode FPC-N35 (Bottom)


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4.2 Serial Device Connections to the ProtoNode

ProtoNode 6 Pin Phoenix connector:

• The 6 pin Phoenix connector is the same for ProtoNode FPC-N34 and FPC-N35 (LonWorks).

• Pins 1 through 3 are for RS-485 devices.

o Use standard grounding principles for RS-485 GND

• Pins 4 through 6 are for power. Do not connect power until Section 4.5.

Device Pins ProtoNode Pin

# Pin

Assignment

Pin RS-485 + Pin 1 RS-485 +

Pin RS-485 - Pin 2 RS-485 -

Pin GND Pin 3 RS-485 GND

Power In (+) Pin 4 V +

Power In (-) Pin 5 V -

Frame Ground Pin 6 FRAME GND

Figure 10: Device and Power Connections


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4.2.1 Biasing the RS-485 Device Network

• An RS-485 network with more than one device needs to have biasing to ensure proper

communication. The biasing only needs to be done on one device.

• The ProtoNode has 510 ohm resistors that can be used to set the biasing. The ProtoNode’s default

positions from the factory for the biasing jumpers are OFF.

• The OFF position is when the 2 red biasing jumpers straddle the 4 pins closest to the outside of

the board of the ProtoNode. (Figure 11)

• Only turn biasing ON:

o IF the BMS cannot see more than one device connected to the ProtoNode

o AND all the settings (COM settings, wiring, and DIP switches) have been checked

• To turn biasing ON, move the 2 red biasing jumpers to straddle the 4 pins closest to the inside of

the board of the ProtoNode.

RS-485 Bias Switch

(off)

Figure 11: RS-485 Biasing Switch on the ProtoNode N34 (Left) and ProtoNode N35 (Right)


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4.2.2 End of Line Termination Switch for the RS-485 Device Network

• On long RS-485 cabling runs, the RS-485 trunk must be properly terminated at each end.

• The ProtoNode has an end of line (EOL) blue jumper. The default setting for this blue EOL switch

is OFF with the jumper straddling the pins closest to the inside of the board of the ProtoNode.

o On short cabling runs the EOL switch does not to need to be turned ON

• If the ProtoNode is placed at one of the ends of the trunk, set the blue EOL jumper to the ON

position straddling the pins closest to the outside of the board of the ProtoNode.

• Always leave the single red jumper in the A position (default factory setting).

RS-485 EOL Switch

(off)

Leave in Position A

Figure 12: RS-485 End-Of-Line Termination Switch on the ProtoNode N34 (Left) and ProtoNode N35 (Right)


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4.3 Serial Network (FPC-N34): Wiring Field Port to RS-485 Network

• Connect the RS-485 network wires to the 3-pin RS-485 connector on ProtoNode FPC-N34 as

shown below in Figure 13.

o Use standard grounding principles for RS-485 GND

• See Section 5.4 for information on connecting to an Ethernet network.

• If the ProtoNode is the last device on the trunk, then the end of line (EOL) termination switch needs

to be enabled. See Figure 14 for the orientation of switch positions referenced below.

o The default setting from the factory is OFF (switch position = right side)

o To enable the EOL termination, turn the EOL switch ON (switch position = left side)

• If more than one RS-485 device is connected to the network, then the field bias resistor switch

needs to be enabled to ensure proper communication. See Figure 14 for the orientation of switch

positions referenced below.

o The default factory setting is OFF (switch position = right side)

o To enable biasing, turn the bias switch ON (switch position = left side)

NOTE: Biasing only needs to be enabled on one device. The ProtoNode has 510 ohm resistors

that are used to set the biasing.

BMS Wiring

ProtoNode Pin #

Pin Assignment

RS-485 + Pin 1 RS-485 +

RS-485 - Pin 2 RS-485 -

- Pin 3 RS-485 GND

Bias Resistor Switch

End of Line Switch

Figure 14: RS-485 EOL & Bias Resistor Switches

Figure 13: Connection from ProtoNode to RS-485 Field Network

G

-

+


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4.4 LonWorks (FPC-N35): Wiring LonWorks Devices to the LonWorks Terminal

• Wire the LonWorks device network to the ProtoNode LonWorks Terminal.

o Use approved cable per the FT-10 installation guidelines

• LonWorks has no polarity.

Figure 15: LonWorks Terminal


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4.5 Power-Up ProtoNode

Check power requirements in the table below:

Power Requirement for ProtoNode External Gateway

Current Draw Type

ProtoNode Family 12VDC/AC 24VDC/AC 30VDC

FPC – N34 (Typical) 170mA 100mA 80mA

FPC – N34 (Maximum) 240mA 140mA 100mA

FPC – N35 (Typical) 210mA 130mA 90mA

FPC – N35 (Maximum) 250mA 170mA 110mA

NOTE: These values are ‘nominal’ and a safety margin should be added to the power supply of the host system. A safety margin of 25% is recommended.

Figure 16: Required Current Draw for the ProtoNode

Apply power to the ProtoNode as shown below in Figure 17. Ensure that the power supply used complies

with the specifications provided in Appendix E.1.

• ProtoNode accepts either 9-30VDC or 12-24VAC on pins 4 and 5.

• Frame GND should be connected.

Power to

ProtoNode

ProtoNode

Pin #

Pin

Assignment

Power In (+) Pin 4 V +

Power In (-) Pin 5 V -

Frame Ground Pin 6 FRAME GND

Figure 17: Power Connections


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5 USE THE PROTONODE WEB CONFIGURATOR TO SETUP THE GATEWAY

5.1 Connect the PC to the ProtoNode via the Ethernet Port

First, connect a Cat-5 Ethernet cable (straight through or cross-over) between the local PC and ProtoNode.

There are two methods to access the ProtoNode via Ethernet connection, either by changing the

subnet of the connected PC (Section 5.1.1) or using the FieldServer Toolbox to change the IP

Address of the ProtoNode (Section 5.1.2).

NOTE: Only perform one method or the other.

5.1.1 Changing the Subnet of the Connected PC

The default IP Address for the ProtoNode is 192.168.1.24, Subnet Mask is 255.255.255.0. If the PC and

ProtoNode are on different IP networks, assign a static IP Address to the PC on the 192.168.1.xxx network.

For Windows 10:

• Find the search field in the local computer’s taskbar (usually to the right of the windows icon )

and type in “Control Panel”.

• Click “Control Panel”, click “Network and Internet” and then click “Network and Sharing Center”.

• Click “Change adapter settings” on the left side of the window.

• Right-click on “Local Area Connection” and select “Properties” from the dropdown menu.

• Highlight and then click the Properties button.

• Select and enter a static IP Address on the same subnet. For example:

• Click the Okay button to close the Internet Protocol window and the Close button to close the

Ethernet Properties window.

Ethernet Port

Figure 18: Ethernet Port Location


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5.1.2 Changing the IP Address of the ProtoNode with FieldServer Toolbox

• Ensure that FieldServer Toolbox is loaded onto the local PC. Otherwise, download the

FieldServer-Toolbox.zip via the Sierra Monitor website’s Software Downloads.

• Extract the executable file and complete the installation.

• Double click on the FS Toolbox Utility and click Discover Now on the splash page.

• Find the desired gateway and click the Configure Device button (gear icon) to the right of the

gateway information.

NOTE: If connectivity status is green, then the IP Address doesn’t need to be changed (the

ProtoNode is already on the same subnet). Skip to the next section.

• Select Network Settings in the Configure Device window.

• Modify the IP Address (N1 IP Address field) of the gateway Ethernet port.

o Change additional fields as needed

NOTE: If the gateway is connected to a router, the Default Gateway field of the gateway should be

set to the IP Address of the connected router.

NOTE: Do not change the DHCP Server State (N1 DHCP Server State field).

NOTE: If DNS settings are unknown, set DNS1 to “8.8.8.8” and DNS2 to “8.8.4.4”.

• Click Update IP Settings, then click on the “Change and restart” button to reboot the gateway and

activate the new IP Address. See the FieldServer Toolbox and GUI Manual for more information.

https://www.sierramonitor.com/customer-support#software-downloads

https://www.sierramonitor.com/sites/default/files/SMC/Documents/Manuals/FieldServer/FieldServer_Toolbox_and_GUI_Manual.pdf


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5.2 Connecting to the ProtoNode Web Configurator

After setting a local PC on the same subnet as the ProtoNode (Section 5.1), open a web browser on the

PC and enter the IP Address of the ProtoNode; the default address is 192.168.1.24.

NOTE: If the IP Address of the ProtoNode was changed, the assigned IP Address can be

discovered using the FS Toolbox utility. See Appendix A.1 for instructions.

5.3 Selecting Profiles for Devices Connected to ProtoNode

NOTE: If Modbus TCP/IP was selected in Section 3.4 for the Field/BMS protocol, skip this section.

Device profiles are NOT used for Modbus TCP/IP.

• In the Web Configurator, the Active Profiles are shown below the Configuration Parameters.

• The Active Profiles section lists the currently active device profiles, including previous Web

Configurator additions. This list is empty for new installations, or after clearing all configurations.

(Figure 19)

Figure 19: Web Configurator Showing no Active Profiles


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• To add an active profile to support a device, click the Add button under the Active Profiles heading.

Select a profile from the drop-down menu field that appears underneath the Current profile column.

(Figure 20)

• For every device that is added, assign a unique Node-ID. This specification must match the device’s

network settings.

NOTE: If multiple devices are connected to the ProtoNode, set the BACnet Virtual Server Nodes

field to “Yes”; otherwise leave the field on the default “No” setting.

• Once the Profile for the device has been selected from the drop-down list, enter the value of the

device’s Node-ID which was assigned in Section 3.3.2.

• Then press the “Submit” button to add the Profile to the list of devices to be configured.

• Repeat this process until all the devices have been added.

• Completed additions are listed under “Active profiles” as shown in Figure 21.

5.3.1 Verify Device Communications

• Check that TX and RX LEDs are rapidly flashing. See Appendix A.4 for information and images.

• Confirm the software shows communication without errors. Go to Appendix A.2 for instructions.

Figure 20: Web Configurator Showing Available Profile Selection

Figure 21: Web Configurator Showing Active Profile Additions


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5.4 Ethernet Network: Setting IP Address for the Field Network

• After setting a local PC to the same subnet as the ProtoNode (Section 5.1), open a web browser

on the PC and enter the IP Address of the ProtoNode; the default address is 192.168.1.24.

• The Web Configurator is displayed as the landing page. (Figure 22)

Figure 22: Web Configurator Screen with Active Profiles


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• To access the FS-GUI, click on the “Diagnostics & Debugging” button in the bottom right corner of

the page.

• From the FS-GUI landing page, click on “Setup” to expand the navigation tree and then select

“Network Settings” to access the IP Settings menu. (Figure 23)

• Modify the IP Address (N1 IP Address field) of the ProtoNode Ethernet port.

• If necessary, change the Netmask (N1 Netmask field).

• If necessary, change the IP Gateway (Default Gateway field).

NOTE: If the ProtoNode is connected to a managed switch/router, the IP Gateway of the

ProtoNode should be set to the IP Address of that managed switch/router.

• Click the “System Restart” button at the bottom of the page to apply changes and restart the

ProtoNode.

• Unplug Ethernet cable from PC and connect it to the network switch or router.

• Record the IP Address assigned to the ProtoNode for future reference.

NOTE: The FieldPoP™ button (see Figure 23) allows users to connect to the SMC

Cloud, Sierra Monitor’s device cloud solution for IIoT. The SMC Cloud enables secure

remote connection to field devices through a FieldServer and its local applications for

configuration, management, maintenance. For more information about the SMC Cloud,

refer to the SMC Cloud Start-up Guide.

Figure 23: Changing IP Address via FS-GUI

https://www.sierramonitor.com/downloads/Start-Up_Guide-SMC_Cloud


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5.5 Change ProtoNode COM Settings

• In the Web Configurator, the ProtoNode COM Settings are the first parameters displayed.

NOTE: The ProtoNode default setting for the Modbus RTU serial baud rate is 19200 and the

default stop bits setting is 1. When connecting devices with different baud rate and stop

bits settings (SlimFit 1000-2000 Series 1), these values must be changed via the

ProtoNode Web Configurator to match the device.

• Change the ProtoNode COM Settings if needed. See Figure 25 for the correct device settings.

Device Settings SlimFit 1000-2000 Series 1 (SOLA)

Evergreen/ SlimFit 550-750

Series 2 & 3/ SlimFit 1000-2000

Series 2/ SVF Models

Baud Rate 38400 19200

Parity None None

Data Bits 8 8

Stop Bits 1 2

Figure 25: Device COM Settings

• If new values are entered in the text field, click Submit then reset the ProtoNode.

Figure 24: Web Configurator ProtoNode COM Settings


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6 BACNET: SETTING NODE_OFFSET TO ASSIGN SPECIFIC DEVICE

INSTANCES


on the PC and enter the IP Address of the ProtoNode.

o If the IP Address of the ProtoNode has been changed by previous configuration, the assigned

IP Address must be gathered from the network administrator

o The Web Configurator is displayed as the landing page

• Node_Offset field shows the current value (default = 50,000).

o The values allowed for a BACnet Device Instance can range from 1 to 4,194,303

• To assign a specific Device Instance (or range); change the Node_Offset value as needed using

the calculation below:

Device Instance (desired) = Node_Offset + Node_ID

For example, if the desired Device Instance for the device 1 is 50,001 and the following is true:

- Device 1 has a Node-ID of 1



Then plug the device 1’s information into the formula to find the desired Node_Offset:

50,001 = Node_Offset + 1

➢ 50,000 = Node_Offset

Once the Node_Offset value is input, it will be applied to all devices as shown below:

- Device 1 Instance = 50,000 + Node_ID = 50,000 + 1 = 50,001



• Click “Submit” once the desired value is entered.

Figure 27: Active Profiles

Figure 26: Web Configurator Node Offset Field


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7 HOW TO START THE INSTALLATION OVER: CLEARING PROFILES


on the PC and enter the IP Address of the ProtoNode; the default address is 192.168.1.24.

• If the IP Address of the ProtoNode has been changed by previous configuration, the assigned IP

Address must be gathered from the network administrator.

• The Web Configurator is displayed as the landing page.

• At the bottom-left of the page, click the “Clear Profiles and Restart” button.

• Once restart is complete, all past profiles discovered and/or added via Web configurator are

deleted. The unit can now be reinstalled.


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8 LONWORKS (FPC-N35): COMMISSIONING PROTONODE ON A LONWORKS NETWORK

Commissioning may only be performed by the LonWorks administrator.

8.1 Commissioning ProtoNode FPC-N35 on a LonWorks Network

During the commissioning process, the LonWorks administrator may prompt the user to hit the service pin

on the ProtoNode FPC-N35 at a specific point (this step occurs at different points of the commissioning

process for each LonWorks network management tool).

• If an XIF file is required, see steps in Section 8.1.1 to generate XIF.

8.1.1 Instructions to Upload XIF File from ProtoNode FPC-N35 Using Browser

• Connect a Cat-5 Ethernet cable (straight through or cross-over) between the PC and ProtoNode.

• The default IP Address for the ProtoNode is 192.168.1.24, Subnet Mask is 255.255.255.0. If the

PC and ProtoNode are on different IP networks, assign a static IP Address to the PC on the

192.168.1.xxx network.

For Windows 10:

• Find the search field in the local computer’s taskbar (usually to the right of the windows icon )

and type in “Control Panel”.

• Click “Control Panel”, click “Network and Internet” and then click “Network and Sharing Center”.

• Click “Change adapter settings” on the left side of the window.

• Right-click on “Local Area Connection” and select “Properties” from the dropdown menu.

• Highlight and then click the Properties button.

• Select and enter a static IP Address on the same subnet. For example:

• Click the Okay button to close the Internet Protocol window and the Close button to close the

Ethernet Properties window.

Figure 28: LonWorks Service Pin Location


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• Open a web browser and go to the following address: [IP Address of ProtoNode]/fserver.xif

o Example: 192.168.1.24/fserver.xif

• If the web browser prompts to save the file, save the file onto the PC. If the web browser displays

the xif file as a web page, save the file onto the local PC as “fserver.xif”.

Figure 29: Sample of Fserver.XIF File Generated


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Appendix A. Troubleshooting

Lost or Incorrect IP Address




• Connect a standard Cat-5 Ethernet cable between the user’s PC and ProtoNode.

• Double click on the FS Toolbox Utility and click Discover Now on the splash page.

• Check for the IP Address of the desired gateway.

• If correcting the IP Address of the gateway: click the settings icon on the same row as the

gateway, then click Network Settings, change the IP Address and click Update IP Settings to save.

Ethernet Port




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Viewing Diagnostic Information

• Type the IP Address of the ProtoNode into the web browser or use the FieldServer Toolbox to

connect to the ProtoNode.

• Click on Diagnostics and Debugging Button, then click on view, and then on connections.

• If there are any errors showing on the Connection page, refer to Appendix A.3 for the relevant

wiring and settings.

Figure 31: Error Messages Screen


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Check Wiring and Settings

• No COMS on Modbus RTU side. If the Tx/Rx LEDs are not flashing rapidly then there is a COM

issue. To fix this, check the following:

o Visual observations of LEDs on the ProtoNode (Appendix A.4)

o Check baud rate, parity, data bits, stop bits

o Check device address

o Verify wiring

o Verify device is connected to the same subnet as the ProtoNode

o Verify the Modbus device(s) were listed in the Web Configurator (Section 5.2)

• Field COM problems:

o If Ethernet protocols are used, observe Ethernet LEDs on the ProtoNode (Appendix A.4)

o Check dipswitch settings (using correct baud rate and device instance)

o Verify IP Address setting

o Verify wiring

NOTE: If the problem persists, a Diagnostic Capture needs to be taken and sent to support.

(Appendix A.5)


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LED Diagnostics for Communications Between ProtoNode and Devices

See the diagram below for ProtoNode FPC-N34 and FPC-N35 LED Locations.

Tag Description

SPL The SPL LED will light if the unit is not getting a response from one or more of the configured devices.

For LonWorks units, LED will light until the unit is commissioned on the LonWorks network.

RUN The RUN LED will start flashing 20 seconds after power indicating normal operation.

ERR A steady red light will indicate there is a system error on the unit. If this occurs, immediately report the related “system error” shown in the error screen of the FS-GUI interface to support for evaluation.

RX The RX LED will flash when a message is received on the serial port on the 6-pin connector.

If the serial port is not used, this LED is non-operational.

TX The TX LED will flash when a message is sent on the serial port on the 6-pin connector.

If the serial port is not used, this LED is non-operational.

PWR This is the power light. It should always show a steady green light when powered.

Figure 32: Diagnostic LEDs

Diagnostic LEDs


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Take a FieldServer Diagnostic Capture

When there is a problem on-site that cannot easily be resolved, perform a diagnostic capture before

contacting support so that support can quickly solve the problem. There are two methods for taking

diagnostic captures:

• FieldServer Toolbox:

This method requires installation of the FS Toolbox program. A FS Toolbox diagnostic capture

takes a snapshot of the loaded configuration files and a log of all the communications on the

serial ports over a specified period of time. If the problem occurs over an Ethernet connection,

then take a Wire Shark capture.

• Gateway’s FS-GUI Page:

This method doesn’t require downloading software. The diagnostic capture utilities are embedded

in the FS-GUI web interface. Starting a diagnostic capture takes a snapshot of the loaded

configuration files and a log of all the communications over a specified period of time. This works

for both serial and Ethernet connections.

NOTE: The information in the zipped files contains everything support needs to quickly resolve

problems that occur on-site.

Appendix A.5.1. Using the FieldServer Toolbox

Once the Diagnostic Capture is complete, email it to technical support. The Diagnostic Capture will

accelerate diagnosis of the problem.




• Connect a standard Cat-5 Ethernet cable between the PC and ProtoNode.

• Double click on the FS Toolbox Utility.

Ethernet Port




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• Step 1: Take a Log

o Click on the diagnose icon of the desired device

o Ensure “Full Diagnostic" is selected (this is the default)

NOTE: If desired, the default capture period can be changed.


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o Click on “Start Diagnostic”

o When the capture period is finished, the “Diagnostic Test Complete” window will appear

• Step 2: Send Log

o Once the diagnostic test is complete, a .zip file is saved on the PC

o Choose “Open” to launch explorer and have it point directly at the correct folder

o Send the diagnostic zip file to [email protected]



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Appendix A.5.2. Using FS-GUI

Diagnostic Capture via FS-GUI is only available on FieldServers with a bios updated/released on November

2017 or later. Completing a Diagnostic Capture through the FieldServer allows network connections (such

as Ethernet and Wi-Fi) to be captured.

Once the Diagnostic Capture is complete, email it to technical support. The Diagnostic Capture will

accelerate diagnosis of the problem.

• Open the FieldServer FS-GUI page.

• Click on Diagnostics in the Navigation panel.

• Go to Full Diagnostic and select the capture period.

• Click the Start button under the Full Diagnostic heading to start the capture.

o When the capture period is finished, a Download button will appear next to the Start button

• Click Download for the capture to be downloaded to the local PC.

• Send the diagnostic zip file to [email protected].

NOTE: Diagnostic captures of BACnet MS/TP communication are output in a “.PCAP” file

extension which is compatible with Wireshark.



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Appendix B. Additional Information

Update Firmware

To load a new version of the firmware, follow these instructions:

1. Extract and save the new file onto the local PC.

2. Open a web browser and type the IP Address of the FieldServer in the address bar.

o Default IP Address is 192.168.1.24

o Use the FS Toolbox utility if the IP Address is unknown (Appendix A.1)

3. Click on the “Diagnostics & Debugging” button.

4. In the Navigation Tree on the left hand side, do the following:

a. Click on “Setup”

b. Click on “File Transfer”

c. Click on the “General” tab

5. In the General tab, click on “Choose Files” and select the web.img file extracted in step 1.

6. Click on the orange “Submit” button.

7. When the download is complete, click on the “System Restart” button.

BACnet: Setting Network_Number for More Than One ProtoNode on the Subnet

For both BACnet MS/TP and BACnet/IP, if more than one ProtoNode is connected to the same subnet,

they must be assigned unique Network_Number values.

On the main Web Configuration screen, update the BACnet Network Number field and click submit. The

default value is 50.

Figure 34: Web Configurator – Network Number Field


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Securing ProtoNode with Passwords

Access to the ProtoNode can be restricted by enabling a password on the FS-GUI Passwords page –

click Setup and then Passwords in the navigation panel. There are 2 access levels defined by 2 account

names: Admin and User.

• The Admin account has unrestricted access to the ProtoNode.

• The User account can view any ProtoNode information but cannot make any changes or restart

the ProtoNode.

The password needs to be a minimum of eight characters and is case sensitive.

If the password is lost, click cancel on the password authentication popup window, and email the

password recovery token to technical support to receive a temporary password from the support team.

Access the ProtoNode to set a new password.

Figure 35: FS-GUI Passwords Page

Figure 36: Password Recovery Page


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Appendix C. Vendor Information – Weil-McLain

NOTE: All Modbus TCP/IP registers are the same as the Modbus RTU registers for the serial

device. If this point list is needed, contact Weil-McLain technical support. The Modbus

TCP/IP node address of the device is also the same as the Modbus RTU node address.

SlimFit 1000-2000 Series 1 (SOLA) Modbus RTU Mappings to BACnet, Metasys

N2 and LonWorks

Point Name BACnet Object Type

BACnet Object

ID

N2 Data Type

N2 Address

LonWorks Name LonWorks SNVT

4-20mA Remote Control Input Status AV 1 AO 1 nvoRemCtInSt_XXX SNVT_count_f

Active CH Setpoint AV 2 AO 2 nvoActCHSP_XXX SNVT_temp_p

Active DHW Setpoint Status AV 3 AO 3 nvoAcDHWSPSt_XXX SNVT_temp_p

Active LL Operating Point Status AV 4 AO 4 nvoALLOpPtSt_XXX SNVT_temp_p

Active LL Setpoint Status AV 5 AO 5 nvoActLLSPS_XXX SNVT_temp_p

Active System Operating Point Status AV 6 AO 6 nvoASyOpPtSt_XXX SNVT_temp_p

Active System Setpoint Status AV 7 AO 7 nvoAcSysSPSt_XXX SNVT_temp_p

Alarm Record 1 Status AV 8 AO 8 nvoAlmRec1St_XXX SNVT_count_f





Annunciator First Out Status AV 13 AO 13 nvoAn1stOtSt_XXX SNVT_count_f

Auxiliary 2 Pump Cycle Count AV 14 AO 14 nvoAx2PpCyCt_XXX SNVT_count_f

Auxiliary 2 Pump Cycle Count Status AV 15 AO 15 nvoAx2PCyCSt_XXX SNVT_count_f

Auxiliary Pump Cycle Count AV 16 AO 16 nvoAxPmpCyCt_XXX SNVT_count_f

Auxiliary Pump Cycle Count Status AV 17 AO 17 nvoAxPpCyCSt_XXX SNVT_count_f

Boiler Pump Cycle Count AV 18 AO 18 nvoBlPmpCyCt_XXX SNVT_count_f

Boiler Pump Cycle Count Status AV 19 AO 19 nvoBlPpCyCSt_XXX SNVT_count_f

Burner Control State Status AV 20 AO 20 nvoBrnCtStSt_XXX SNVT_count_f

Burner Control Status AV 21 AO 21 nvoBrnCtlSt_XXX SNVT_count_f

Burner Cycle Count AV 22 AO 22 nvoBrnCycCnt_XXX SNVT_count_f

Burner Cycle Count Status AV 23 AO 23 nvoBrnCyCtSt_XXX SNVT_count_f

Burner Run Time AV 24 AO 24 nvoBrnRnTme_XXX SNVT_time_hour

Burner Run Time Status AV 25 AO 25 nvoBrnRnTmSt_XXX SNVT_time_hour

CH Burner Demand Status AV 26 AO 26 nvoCHBrnDmSt_XXX SNVT_count_f

CH Heat Demand Status AV 27 AO 27 nvoCHHtDemSt_XXX SNVT_count_f

CH ODR Low Water Temperature (W) AV 28 AO 28 nvi/nvoCHODLoWtT_XXX SNVT_temp_p

CH ODR Low Water Temperature Status AV 29 AO 29 nvoCHODLoWTS_XXX SNVT_temp_p

CH ODR Max Outdoor Temperature (W) AV 30 AO 30 nvi/nvoCHODMxWtT_XXX SNVT_temp_p

CH ODR Max Outdoor Temperature Status AV 31 AO 31 nvoCHODMxWTS_XXX SNVT_temp_p

CH ODR Min Outdoor Temp (W) AV 32 AO 32 nvi/nvoCHODMnWtT_XXX SNVT_temp_p

CH ODR Min Outdoor Temp Status AV 33 AO 33 nvoCHODMnWTS_XXX SNVT_temp_p

CH Pump Cycle Count AV 34 AO 34 nvoCHPmpCyCt_XXX SNVT_count_f

CH Pump Cycle Count Status AV 35 AO 35 nvoCHPCyCtSt_XXX SNVT_count_f

CH Requested Rate Status AV 36 AO 36 nvoCHReqRtSt_XXX SNVT_lev_percent

CH Setpoint (W) AV 37 AO 37 nvi/nvoCH_SP_XXX SNVT_temp_p

CH Setpoint Status AV 38 AO 38 nvoCH_SPStat_XXX SNVT_count_f

CH Setpoint Source Status AV 39 AO 39 nvoCHSPSrcSt_XXX SNVT_temp_p

CH Status AV 40 AO 40 nvoCH_Status_XXX SNVT_count_f

CH Time of Day Setpoint (W) AV 41 AO 41 nvi/nvoCH_TOD_SP_XXX SNVT_temp_p

CH Time of Day Setpoint Status AV 42 AO 42 nvoCHTODSPSt_XXX SNVT_temp_p

Controller Cycle Count Status AV 43 AO 43 nvoCtCycCtSt_XXX SNVT_count_f

Controller Run Time Status AV 44 AO 44 nvoCtRunTmSt_XXX SNVT_time_hour

Demand Source Status AV 45 AO 45 nvoDemSrcSt_XXX SNVT_count_f

DHW Status AV 46 AO 46 nvoDHWStatus_XXX SNVT_count_f

DHW Burner Demand Status AV 47 AO 47 nvoDHWBrDmSt_XXX SNVT_count_f

DHW Heat Demand Status AV 48 AO 48 nvoDHWHtDmSt_XXX SNVT_count_f

DHW Priority Count Status AV 49 AO 49 nvoDHWPrCtSt_XXX SNVT_count_f

DHW Pump Cycle Count AV 50 AO 50 nvoDHWPpCyCt_XXX SNVT_count_f

DHW Pump Cycle Count Status AV 51 AO 51 nvoDHWPCyCtS_XXX SNVT_count_f

DHW Sensor Status AV 52 AO 52 nvoDHWSenSta_XXX SNVT_temp_p

DHW Setpoint AV 53 AO 53 nvoDHW_SP_XXX SNVT_temp_p

DHW Setpoint Source Status AV 54 AO 54 nvoDHWSPSrSt_XXX SNVT_count_f

DHW Setpoint Status AV 55 AO 55 nvoDHWSPStat_XXX SNVT_temp_p


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DHW Time of Day Setpoint (W) AV 56 AO 56 nvi/nvoDHWTODSP_XXX SNVT_temp_p

DHW Time of Day Setpoint Status AV 57 AO 57 nvoDHWTDSPSt_XXX SNVT_temp_p

DHW requested Rate Status AV 58 AO 58 nvoDHWRqRtSt_XXX SNVT_count_f

Fan Speed Status AV 59 AO 59 nvoFanSpdSt_XXX SNVT_count_f

Firing Rate Status AV 60 AO 60 nvoFirRtStat_XXX SNVT_count_f

Flame Signal Status AV 61 AO 61 nvoFlmSigSt_XXX SNVT_count_f

Inlet Sensor Status AV 62 AO 62 nvoInSenStat_XXX SNVT_temp_p

Lead Boiler Address Status AV 63 AO 63 nvoLdBlAddSt_XXX SNVT_count_f

Lead Lag Active Service Status AV 64 AO 64 nvoLLAcSrvSt_XXX SNVT_count_f

Lead Lag CH 20mA Water Temp (W) AV 65 AO 65 nvi/nvoLLCH20WTp_XXX SNVT_temp_p

Lead Lag CH 20mA Water Temp Status AV 66 AO 66 nvoLLCH20WTS_XXX SNVT_temp_p

Lead Lag CH 4mA Water Temp (W) AV 67 AO 67 nvi/nvoLLCH4WtTp_XXX SNVT_temp_p

Lead Lag CH 4mA Water Temp Status AV 68 AO 68 nvoLLCH4WTpS_XXX SNVT_temp_p

Lead Lag CH ODR Low Water Temperature (W) AV 69 AO 69 nvi/nvoLLODRLoWT_XXX SNVT_temp_p

Lead Lag CH ODR Low Water Temperature Status

AV 70 AO 70 nvoLLODRLWTS_XXX SNVT_temp_p

Lead Lag CH ODR Max Outdoor Temperature (W)

AV 71 AO 71 nvi/nvoLLODRMxTp_XXX SNVT_temp_p

Lead Lag CH ODR Max Outdoor Temperature Status

AV 72 AO 72 nvoLLODRMxTS_XXX SNVT_temp_p

Lead Lag CH ODR Min Outdoor Temperature (W)

AV 73 AO 73 nvi/nvoLLODRMnTp_XXX SNVT_temp_p

Lead Lag CH ODR Min Outdoor Temperature Status

AV 74 AO 74 nvoLLODRMnTS_XXX SNVT_temp_p

Lead Lag CH Setpoint Source (W) AV 75 AO 75 nvi/nvoLLCHSPSrc_XXX SNVT_count_f

Lead Lag CH Setpoint Source Status AV 76 AO 76 nvoLLCHSPSSt_XXX SNVT_count_f

Lead Lag DHW Setpoint AV 77 AO 77 nvoLLDHW_SP_XXX SNVT_temp_p

Lead Lag DHW Setpoint Status AV 78 AO 78 nvoLLDHWSPSt_XXX SNVT_temp_p

Lead Lag Master Enable Status AV 79 AO 79 nvoLLMstEnSt_XXX SNVT_count_f

Lead Lag Master Setpoint Source Status AV 80 AO 80 nvoLLMsSPSrS_XXX SNVT_count_f

Lead Lag Master Status AV 81 AO 81 nvoLLMstStat_XXX SNVT_count_f

Lead Lag Modulation Backup Sensor AV 82 AO 82 nvoLLModBkSn_XXX SNVT_count_f

Lead Lag Modulation Backup Sensor Status AV 83 AO 83 nvoLLMdBkSnS_XXX SNVT_count_f

Lead Lag Setpoint (W) AV 84 AO 84 nvi/nvoLLSP_XXX SNVT_temp_p

Lead Lag Setpoint Status AV 85 AO 85 nvoLLSPStat_XXX SNVT_temp_p

Lead Lag Slave Enable Status AV 86 AO 86 nvoLLSlEnSt_XXX SNVT_count_f

Lead Lag Slave Status AV 87 AO 87 nvoLLSlStat_XXX SNVT_count_f

Lead Lag Time of Day Setpoint (W) AV 88 AO 88 nvi/nvoLL_TOD_SP_XXX SNVT_temp_p

Lead Lag Time of Day Setpoint Status AV 89 AO 89 nvoLLTODSPSt_XXX SNVT_temp_p

Lockout Status AV 90 AO 90 nvoLkotStat_XXX SNVT_count_f

Lockout Status1 AV 91 AO 91 nvoLkotStat1_XXX SNVT_count_f





Outdoor Frost Protection Setpoint (W) AV 96 AO 96 nvi/nvoOdrFrPrSP_XXX SNVT_temp_p

Outdoor Frost Protection Setpoint Status AV 97 AO 97 nvoOdFrPrSPS_XXX SNVT_temp_p

Outdoor Sensor Status Status AV 98 AO 98 nvoOdrSnStat_XXX SNVT_count_f

Outdoor Temperature Status AV 99 AO 99 nvoOdrTmpSta_XXX SNVT_temp_p

Outlet Sensor Status AV 100 AO 100 nvoOutSenSta_XXX SNVT_temp_p

Password (W) AV 101 AO 101 nvi/nvoPassword_XXX SNVT_count_f

PSWD Status AV 102 AO 102 nvoPSWDStat_XXX SNVT_count_f

S5 (Header) Sensor Status AV 103 AO 103 nvoS5SenStat_XXX SNVT_temp_p

Slave 1 Firing Rate Status AV 104 AO 104 nvoS1FirRtSt_XXX SNVT_lev_percent

Slave 1 State Status AV 105 AO 105 nvoS1StatSt_XXX SNVT_count_f















Stack Sensor Status AV 120 AO 120 nvoStkSenSta_XXX SNVT_temp_p


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System Pump Cycle Count AV 121 AO 121 nvoSysPpCyCt_XXX SNVT_count_f

System Pump Cycle Count Status AV 122 AO 122 nvoSyPpCyCtS_XXX SNVT_count_f

Warm Weather Shutdown Setpoint AV 123 AO 123 nvoWmWtShDSP_XXX SNVT_temp_p

Warm Weather Shutdown Setpoint Status AV 124 AO 124 nvoWmWtSDSPS_XXX SNVT_temp_p

CH Enable (W) BV 1 DO 1 nvi/nvoCH_Enable_XXX SNVT_switch

CH Enable Status BV 2 DO 2 nvoCHEnblSt_XXX SNVT_switch

CH Frost Protection Enable (W) BV 3 DO 3 nvi/nvoCHFrPrEn_XXX SNVT_switch

CH Frost Protection Enable Status BV 4 DO 4 nvoCHFrPrEnS_XXX SNVT_switch

CH Outdoor Reset Enable (W) BV 5 DO 5 nvoCHOdrRsEn_XXX SNVT_switch

CH Outdoor Reset Enable Status BV 6 DO 6 nvoCHOdrRsES_XXX SNVT_switch

CH Remote Stat (W) BV 7 DO 7 nvi/nvoCHRemStat_XXX SNVT_switch

CH Remote Status BV 8 DO 8 nvoCHRemSts_XXX SNVT_switch

DHW Enable BV 9 DO 9 nvoDHWEnab_XXX SNVT_switch

DHW Enable Status BV 10 DO 10 nvoDHWEnStat_XXX SNVT_switch

DHW Frost Protection Enable BV 11 DO 11 nvoDHWFrPrEn_XXX SNVT_switch

DHW Frost Protection Enable Status BV 12 DO 12 nvoDHWFPrEnS_XXX SNVT_switch

Htemp HI Alarm BV 13 DO 13 nvoHTmpHiAlm_XXX SNVT_switch

Htemp Low Alarm BV 14 DO 14 nvoHTmpLoAlm_XXX SNVT_switch

Lead Lag Operation Switch (W) BV 15 DO 15 nvi/nvoLLOpSw_XXX SNVT_switch

Lead Lag Operation Switch Status BV 16 DO 16 nvoLLOpSwSt_XXX SNVT_switch

ODRTemp Hi Alarm BV 17 DO 17 nvoODRTpHiAl_XXX SNVT_switch

ODTTemp Low Alarm BV 18 DO 18 nvoODTTpLoAl_XXX SNVT_switch

Warm Weather Shutdown Enable BV 19 DO 19 nvoWmWtShEn_XXX SNVT_switch

Warm Weather Shutdown Enable Status BV 20 DO 20 nvoWmWtShEnS_XXX SNVT_switch

Evergreen/SlimFit 550-750 Series 2 & 3/SlimFit 1000-2000 Series 2/SVF Models

Modbus RTU Mappings to BACnet, Metasys N2 and LonWorks

Point Name BACnet Object Type

BACnet Object

ID

N2 Data Type

N2 Address

LonWorks Name LonWorks

SNVT

Boiler Model AI 2 AI 2 nvoBlrModel_XXX SNVT_count_f

Relay Output Status AI 6 AI 6 nvoRelOutSt_XXX SNVT_count_f

Boiler Out 1 Temperature AI 7 AI 7 nvoBlOut1Tmp_XXX SNVT_count_f

Active Target Supply Temperature AI 10 AI 10 nvoActTrSpTp_XXX SNVT_count_f

Boiler Status 2 AI 13 AI 13 nvoBlrSt2_XXX SNVT_count_f

Fan Speed AI 15 AI 15 nvoFanSpd_XXX SNVT_count_f

Flame Sense Value AI 16 AI 16 nvoFlmSenVal_XXX SNVT_count_f

Outdoor Temp AI 19 AI 19 nvoOutdrTmp_XXX SNVT_count_f

System Time (Minutes) AV 20 AO 1 nvi/nvoSysTmMin_XXX SNVT_count_f

System Time (Hours) AV 21 AO 2 nvi/nvoSysTmHr_XXX SNVT_count_f

System Date (Day) AV 22 AO 3 nvi/nvoSysDtDay_XXX SNVT_count_f

System Date (Month) AV 23 AO 4 nvi/nvoSysDtMnt_XXX SNVT_count_f

System Date (Year) AV 24 AO 5 nvi/nvoSysDtYr_XXX SNVT_count_f

0-10V Input AI 27 AI 27 nvo0_10VInp_XXX SNVT_count_f

Circulator Exercise/Freeze Protection AV 30 AO 6 nvi/nvoCircExcer_XXX SNVT_count_f

Priority 1 Settings AI 32 AI 32 nvoPr1Set_XXX SNVT_count_f

Priority 1 Supply Max Target AV 33 AO 7 nvi/nvoPr1SpMxTr_XXX SNVT_count_f

Priority 1 Supply Min Target AV 34 AO 8 nvi/nvoPr1SpMnTr_XXX SNVT_count_f

Priority 1 OD Reset/Volts Max AV 35 AO 9 nvi/nvoPr1ODRVMx_XXX SNVT_count_f

Priority 1 OD Reset/Volts Min AV 36 AO 10 nvi/nvoPr1ODRVMn_XXX SNVT_count_f

Priority 1 Max Boiler Temperature AV 37 AO 11 nvi/nvoPr1MxBlTp_XXX SNVT_count_f

Priority 3 Max Rate Volts AV 38 AO 12 nvi/nvoPr3MxRtVl_XXX SNVT_count_f

Active Network Priority's Boiler Off Diff AI 40 AI 40 nvoAcNtPrBOD_XXX SNVT_count_f

Priority 1 System On Diff AV 41 AO 13 nvi/nvoPr1SyOnDf_XXX SNVT_count_f

Priority 1 Max On Time Setting AV 42 AO 14 nvi/nvoPr1MxOnTS_XXX SNVT_count_f

Priority 1 Post Pump Time AV 43 AO 15 nvi/nvoPr1PsPpTm_XXX SNVT_count_f

Priority 1 Boost Time AV 44 AO 16 nvi/nvoPr1BstTm_XXX SNVT_count_f

Input 1 Priority AI 45 AI 45 nvoIn1Pr_XXX SNVT_count_f

Priority 1 Pre Pump Time AV 46 AO 17 nvi/nvoPr1PrPpTm_XXX SNVT_count_f

Priority 1 Boiler On Diff AV 48 AO 18 nvi/nvoPr1BlOnDf_XXX SNVT_count_f

Priority 1 Boiler Off Diff AV 49 AO 19 nvi/nvoPr1BlOfDf_XXX SNVT_count_f

Priority 1 Max Rate AV 50 AO 20 nvi/nvoPr1MxRt_XXX SNVT_count_f

Priority 1 Min Rate AV 51 AO 21 nvi/nvoPr1MnRt_XXX SNVT_count_f

Active Network Priority's Max BLR Temp AI 52 AI 52 nvoANPMxBlTp_XXX SNVT_count_f

Active Network Priority's Boiler On Diff AI 53 AI 53 nvoANPBlOnDf_XXX SNVT_count_f

Priority 2 Setting AI 55 AI 55 nvoPr2Set_XXX SNVT_count_f


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Priority 2 Supply Max Target AV 56 AO 22 nvi/nvoPr2SpMxTr_XXX SNVT_count_f

Priority 2 Supply Min Target AV 57 AO 23 nvi/nvoPr2SpMnTr_XXX SNVT_count_f

Priority 2 OD Reset/Volts Max AV 58 AO 24 nvi/nvoPr2ODRVMx_XXX SNVT_count_f

Priority 2 OD Reset/Volts Min AV 59 AO 25 nvi/nvoPr2ODRVMn_XXX SNVT_count_f

Active Network Prepump Time AI 60 AI 60 nvoAcNPrPpTm_XXX SNVT_count_f

Priority 2 Min On Time Setting AV 62 AO 26 nvi/nvoPr2MnOnTS_XXX SNVT_count_f

Priority 2 Max On Time Setting AV 63 AO 27 nvi/nvoPr2MxOnTS_XXX SNVT_count_f

Priority 2 Post Pump Time AV 64 AO 28 nvi/nvoPr2PsPpTm_XXX SNVT_count_f

Priority 2 Boost Time AV 65 AO 29 nvi/nvoPr2BstTm_XXX SNVT_count_f

Boiler Control Type AI 66 AI 66 nvoBlrCtrTyp_XXX SNVT_count_f

Priority 1 Pre Pump Time AV 67 AO 30 nvi/nvoPr1PrPpT2_XXX SNVT_count_f

Priority 2 System Off Diff AV 68 AO 31 nvi/nvoPr2SyOfDf_XXX SNVT_count_f

Network Minimum On Time AI 69 AI 69 nvoNetMnOnTm_XXX SNVT_count_f

Priority 2 Boiler On Diff AV 70 AO 32 nvi/nvoPr2BlOnDf_XXX SNVT_count_f

Priority 2 Boiler Off Diff AV 71 AO 33 nvi/nvoPr2BlOfDf_XXX SNVT_count_f

Priority 2 Max Rate AV 72 AO 34 nvi/nvoPr2MxRt_XXX SNVT_count_f

Priority 2 Min Rate AV 73 AO 35 nvi/nvoPr2MnRt_XXX SNVT_count_f

Active Network Priority Post Pump Time AI 76 AI 76 nvoAcNPPsPpT_XXX SNVT_count_f

Single Boiler: Pri 3 Setting/Master Boiler: Network 1 Pri Setting

AI 77 AI 77 nvoSngBlP3St_XXX SNVT_count_f

Priority 3/Net1 Supply Max Target AV 78 AO 36 nvi/nvoPr3N1SMxT_XXX SNVT_count_f

Priority 3/Net1 Supply Min Target AV 79 AO 37 nvi/nvoPr3N1SMnT_XXX SNVT_count_f

Priority 3/Net1 OD Reset/Volts Max AV 80 AO 38 nvi/nvoPr3N1OVMx_XXX SNVT_count_f

Priority 3/Net1 OD Reset/Volts Min AV 81 AO 39 nvi/nvoPr3N1OVMn_XXX SNVT_count_f

Network Max On Time AI 82 AI 82 nvoNetMxOnTm_XXX SNVT_count_f

Priority 3/Net1 System On Diff AV 83 AO 40 nvi/nvoPr3N1SOnD_XXX SNVT_count_f

Priority 3 Min On Time Setting AV 84 AO 41 nvi/nvoPr3MnOnTS_XXX SNVT_count_f

Priority 3/Net1 System Off Diff AV 85 AO 42 nvi/nvoPr3N1SOfD_XXX SNVT_count_f

Priority 3/Net1 Post Pump Time AV 86 AO 43 nvi/nvoP3N1PsPTm_XXX SNVT_count_f

Priority 3/Net1 Boost Time AV 87 AO 44 nvi/nvoP3N1BstTm_XXX SNVT_count_f

Priority 2 Max Boiler Temperature AV 88 AO 45 nvi/nvoP2MxBlTp_XXX SNVT_count_f

Priority 3/Net1 Pre Pump Time AV 89 AO 46 nvi/nvoP3N1PrPTm_XXX SNVT_count_f

Boiler Status 3 AI 90 AI 90 nvoBlrSt3_XXX SNVT_count_f

Priority 3/Net1 Boiler On Diff AV 92 AO 47 nvi/nvoPr3N1BOnD_XXX SNVT_count_f

Priority 3/Net1 Boiler Off Diff AV 93 AO 48 nvi/nvoPr3N1BOfD_XXX SNVT_count_f

Priority 3 Max Rate (for single) AV 94 AO 49 nvi/nvoPr3MxRtSn_XXX SNVT_count_f

Priority 3 Min Rate (for single) AV 95 AO 50 nvi/nvoPr3MnRtSn_XXX SNVT_count_f

P3 Max Boiler Temp AV 96 AO 51 nvi/nvoP3MxBlTp_XXX SNVT_count_f

Network Run Pumps AI 97 AI 97 nvoNetRunPps_XXX SNVT_count_f

High Limit Temp AV 98 AO 52 nvi/nvoHiLimTmp_XXX SNVT_count_f

WWSD Temp AV 99 AO 53 nvi/nvoWWSDTmp_XXX SNVT_count_f

P1 More Settings AV 100 AO 54 nvi/nvoP1MoreSet_XXX SNVT_count_f

P1 Min Rate Volts AV 101 AO 55 nvi/nvoP1MnRtVlt_XXX SNVT_count_f


Outdoor Temp Correction AV 103 AO 57 nvi/nvoOtdTmpCor_XXX SNVT_count_f


P1 System Off Diff AV 106 AO 59 nvi/nvoP1SyOfDf_XXX SNVT_count_f

P2 Min Rate Volts AV 108 AO 60 nvi/nvoP2MnRtVlt_XXX SNVT_count_f

Boiler Model Number AI 109 AI 109 nvoBlrMdlNm_XXX SNVT_count_f

P3 Min rate Volts AV 110 AO 61 nvi/nvoP3MnRtVlt_XXX SNVT_count_f

P2 System On Diff AV 115 AO 62 nvi/nvoP2SyOnDf_XXX SNVT_count_f

P1 Response Time AV 116 AO 63 nvi/nvoP1RespTm_XXX SNVT_count_f





Burner Hours AI 124 AI 124 nvoBrnHr_XXX SNVT_count_f

Boiler Out 1 AI 129 AI 129 nvoBlrOut1_XXX SNVT_count_f

Boiler Out 2 AI 132 AI 132 nvoBlrOut2_XXX SNVT_count_f

Available to run AI 136 AI 136 nvoAvailToRn_XXX SNVT_count_f

Boiler In Temperature AI 137 AI 137 nvoBlrInTmp_XXX SNVT_count_f

Boiler Status AI 138 AI 138 nvoBlrSt_XXX SNVT_count_f

Input Status AI 140 AI 140 nvoInSt_XXX SNVT_count_f

Flue Temperature 1 AI 141 AI 141 nvoFlueTmp1_XXX SNVT_count_f

Local Supply Temp AI 142 AI 142 nvoLocSupTmp_XXX SNVT_count_f

Flue Temperature 2 AI 143 AI 143 nvoFlueTmp2_XXX SNVT_count_f

P1 Max Rate Volts AI 144 AI 144 nvoP1MxRtVl_XXX SNVT_count_f

Local Outdoor Temperature AI 146 AI 146 nvoLocOdrTmp_XXX SNVT_count_f

Network Outdoor Temperature AI 148 AI 148 nvoNetOdrTmp_XXX SNVT_count_f

Network Supply Temperature AI 149 AI 149 nvoNetSupTmp_XXX SNVT_count_f


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Local Supply Temperature AI 150 AI 150 nvoLocSupTp2_XXX SNVT_count_f

Local Return Temperature AI 151 AI 151 nvoLocRetTp2_XXX SNVT_count_f

Bad EEPROM Count AI 154 AI 154 nvoBdEEPRMCt_XXX SNVT_count_f

Bad Ram Count AI 155 AI 155 nvoBadRamCnt_XXX SNVT_count_f

Default Count AI 156 AI 156 nvoDefltCnt_XXX SNVT_count_f

Ignition Retries AI 157 AI 157 nvoIgnRetr_XXX SNVT_count_f

Lockout History 1 Expansion Board Errors AI 158 AI 158 nvoHs1ExBdEr_XXX SNVT_count_f

Manual Lockout Count AI 159 AI 159 nvoManLckCnt_XXX SNVT_count_f

Sensor Warnings AI 160 AI 160 nvoSenWarn_XXX SNVT_count_f

Auto Lockout Count AI 161 AI 161 nvoAutLcotCt_XXX SNVT_count_f

Lockout History 1 Hard Lockout Errors AI 162 AI 162 nvoHs1HdLkEr_XXX SNVT_count_f

Lockout History 1 Soft Lockout Errors AI 163 AI 163 nvoHs1StLkEr_XXX SNVT_count_f

Lockout History 1 Minutes AI 164 AI 164 nvoHs1Mnutes_XXX SNVT_count_f

Lockout History 1 Hours AI 165 AI 165 nvoHs1Hr_XXX SNVT_count_f

Lockout History 1 Day AI 166 AI 166 nvoHs1Day_XXX SNVT_count_f

Lockout History 1 Month AI 167 AI 167 nvoHs1Month_XXX SNVT_count_f

Lockout History 1 Year AI 168 AI 168 nvoHs1Year_XXX SNVT_count_f

Lockout History 1 Input Status AI 170 AI 170 nvoHs1InSt_XXX SNVT_count_f

Lockout History 1 Relay Output Status AI 171 AI 171 nvoHs1RlOtSt_XXX SNVT_count_f

Lockout History 1 Flame Signal MSB AI 172 AI 172 nvoHs1FlSigM_XXX SNVT_count_f

Lockout History 1 Flame Signal LSB AI 173 AI 173 nvoHs1FlSigL_XXX SNVT_count_f

Lockout History 1 Outdoor Temperature AI 174 AI 174 nvoHs1OdrTmp_XXX SNVT_count_f

Lockout History 1 Flue Temperature 2 AI 175 AI 175 nvoHs1FlTp2_XXX SNVT_count_f

Lockout History 1 Boiler Out Temp 2 AI 176 AI 176 nvoHs1BlOtT2_XXX SNVT_count_f

Lockout History 1 Boiler In Temp 2 AI 177 AI 177 nvoHs1BlInT2_XXX SNVT_count_f



Lockout History 1 Heat Exchanger Temp 1 AI 181 AI 181 nvoHs1BlInT1_XXX SNVT_count_f

Lockout History 1 Supply Temperature AI 182 AI 182 nvoHs1SupTmp_XXX SNVT_count_f

Lockout History 1 Return Temperature AI 183 AI 183 nvoHs1RetTmp_XXX SNVT_count_f

Lockout History 1 Boiler In Temp 1 AI 184 AI 184 nvobErrMHI_XXX SNVT_count_f

Lockout History 1 0-10V Output AI 185 AI 185 nvoHs10_10Ot_XXX SNVT_count_f

Lockout History 1 Blower Speed (RPM) AI 186 AI 186 nvoHs1BlwSpd_XXX SNVT_count_f




















Lockout History 2 Boiler In Temp 1 AI 209 AI 209 nvobH1ErrMHI_XXX SNVT_count_f



















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Lockout History 3 Boiler In Temp 1 AI 234 AI 234 nvobH1ErMHI_XXX SNVT_count_f



P2 Max Rate Volts AI 237 AI 237 nvoP2MxRtVl_XXX SNVT_count_f

Installer Name 1 AI 239 AI 239 nvoInsName1_XXX SNVT_count_f















Installer Phone 1 AI 255 AI 255 nvoInsPhn1_XXX SNVT_count_f

Installer Phone 2 AI 256 AI 256 nvoInsPhn2_XXX SNVT_count_f

Installer Phone 3 AI 257 ADI 1 nvoInsPhn3_XXX SNVT_count_f




Last Maintenance Reminder Month AI 261 ADI 5 nvoLMntRmMnt_XXX SNVT_count_f

Last Maintenance Reminder Day AI 262 ADI 6 nvoLMntRmDay_XXX SNVT_count_f

Last Maintenance Reminder Year AI 263 ADI 7 nvoLMntRmYr_XXX SNVT_count_f

Maintenance Reminder Interval AV 264 AO 66 nvi/nvoMntRmIntv_XXX SNVT_count_f

Installation Month AI 265 ADI 8 nvoInstMnt_XXX SNVT_count_f

Installation Day AI 266 ADI 9 nvoInstDay_XXX SNVT_count_f

Installation Year AI 267 ADI 10 nvoInstYr_XXX SNVT_count_f

Last Maintenance Performed Month AI 268 ADI 11 nvoLMntPrMnt_XXX SNVT_count_f

Last Maintenance Performed Day AI 269 ADI 12 nvoLMntPrDay_XXX SNVT_count_f

Last Maintenance Performed Year AI 270 ADI 13 nvoLMntPrYr_XXX SNVT_count_f

Boiler CP Number 1 AI 271 ADI 14 nvoBlCPNum1_XXX SNVT_count_f







Lockout History 2 Expansion Board Errors AI 285 ADI 28 nvoHs2ExBdEr_XXX SNVT_count_f

Lockout History 3 Expansion Board Errors AI 286 ADI 29 nvoHs3ExBdEr_XXX SNVT_count_f

Lockout History 1 Boiler Status 2 AI 287 ADI 30 nvoHs1BlrSt2_XXX SNVT_count_f



Lockout History 1 10 Volt Input AI 290 ADI 33 nvoHs110VtIn_XXX SNVT_count_f



Ignore Flame Signal Shutdown AI 295 ADI 38 nvoIgnFlSgSh_XXX SNVT_count_f

P1 ODT Setpoint AI 296 ADI 39 nvoP1ODTSP_XXX SNVT_count_f

Number of Failed Ignitions AI 298 ADI 41 nvoNumFlIgn_XXX SNVT_count_f



Boiler Modulation Rate AI 307 ADI 50 nvoBlrModRt_XXX SNVT_count_f

Shadow Number AI 308 ADI 51 nvoShadNum_XXX SNVT_count_f

Max Time Network AV 309 AO 67 nvi/nvoMxTmNet_XXX SNVT_count_f

Min Time Network AV 310 AO 68 nvi/nvoMnTmNet_XXX SNVT_count_f

Max Rate Network AV 311 AO 69 nvi/nvoMxRtNet_XXX SNVT_count_f

Min Rate Network AV 312 AO 70 nvi/nvoMnRtNet_XXX SNVT_count_f

High Temp Limit AV 313 AO 71 nvi/nvoHiTmpLim_XXX SNVT_count_f

Days Passed AI 314 ADI 52 nvoDaysPass_XXX SNVT_count_f

Base Rate High AV 315 AO 72 nvi/nvoBaseRtHi_XXX SNVT_count_f

Base Rate Low AV 316 AO 73 nvi/nvoBaseRtLo_XXX SNVT_count_f

Sequence Type AI 317 ADI 53 nvoSeqType_XXX SNVT_count_f


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Boiler Rotation Method AV 318 AO 74 nvi/nvoBlrRotMth_XXX SNVT_count_f

Force Lead Rotate AV 319 AO 75 nvi/nvoFrcLdRot_XXX SNVT_count_f

User Mode AI 320 ADI 54 nvoUserMode_XXX SNVT_count_f

Net1 Priority System Add Boiler Diff AV 330 AO 76 nvi/nvoN1PrSABDf_XXX SNVT_count_f

Net1 Priority System Drop Boiler Diff AV 331 AO 77 nvi/nvoN1PrSDBDf_XXX SNVT_count_f

Net1 Priority Mod Delay Time AV 332 AO 78 nvi/nvoN1PrMdDkT_XXX SNVT_count_f

Net1 Priority Stabilization Time AV 333 AO 79 nvi/nvoN1PrStbTm_XXX SNVT_count_f

Net1 Priority Drop Delay Time AV 334 AO 80 nvi/nvoN1PrDrDlT_XXX SNVT_count_f

Net1 Priority Max Sys Rate AI 335 ADI 64 nvoN1PrMxSyR_XXX SNVT_count_f

Net1 Priority Min Boilers AI 336 ADI 65 nvoN1PrMnBlr_XXX SNVT_count_f

Net1 Priority Max On Time AV 337 AO 81 nvi/nvoN1PrMxOnT_XXX SNVT_count_f

Rotation Frequency AV 338 AO 82 nvi/nvoRotFreq_XXX SNVT_count_f

Boiler Order 1 AI 339 ADI 66 nvoBlrOrder1_XXX SNVT_count_f








Net2 Priority System Type AV 347 AO 83 nvi/nvoN2PrSyTyp_XXX SNVT_count_f

Net2 Priority target Mod Sensor AI 348 ADI 74 nvoN2PrTrMdS_XXX SNVT_count_f

Net2 Priority target Adjust AV 349 AO 84 nvi/nvoN2PrTrAdj_XXX SNVT_count_f

Net2 Priority supply Max AV 350 AO 85 nvi/nvoN2PrSupMx_XXX SNVT_count_f

Net2 Priority supply Min AV 351 AO 86 nvi/nvoN2PrSupMn_XXX SNVT_count_f

Net2 Priority Outdoor Reset Max AV 352 AO 87 nvi/nvoN2PrOdRMx_XXX SNVT_count_f

Net2 Priority Outdoor Reset Min AV 353 AO 88 nvi/nvoN2PrOdRMn_XXX SNVT_count_f

Net2 Priority Volts Max AV 354 AO 89 nvi/nvoN2PrVltMx_XXX SNVT_count_f

Net2 Priority Volts Min AV 355 AO 90 nvi/nvoN2PrVltMn_XXX SNVT_count_f

Net2 Priority Boost Time AV 356 AO 91 nvi/nvoN2PrBstTm_XXX SNVT_count_f

Net2 Priority System Off Differential AV 357 AO 92 nvi/nvoN2PrSOfDf_XXX SNVT_count_f

Net2 Priority System On Differential AV 358 AO 93 nvi/nvoN2PrSOnDf_XXX SNVT_count_f

Net2 Priority System Add Boiler Differential AV 359 AO 94 nvi/nvoN2PrSABDf_XXX SNVT_count_f

Net2 Prioirty System Drop Boiler Diff AV 360 AO 95 nvi/nvoN2PrSyDBD_XXX SNVT_count_f

Net2 Priority Mod Delay Time AV 361 AO 96 nvi/nvoN2PrMdDTm_XXX SNVT_count_f

Net2 Priority Stabilization Time AV 362 AO 97 nvi/nvoN2PrStbTm_XXX SNVT_count_f

Net2 Priority Drop Delay Time AV 363 AO 98 nvi/nvoN2PrDrDlT_XXX SNVT_count_f

Net2 Priority Max Boiler Temp AV 364 AO 99 nvi/nvoN2PrMxBlT_XXX SNVT_count_f

Net2 Priority Boiler On Diff AV 365 AO 100 nvi/nvoN2PrBlOnD_XXX SNVT_count_f

Net2 Priority Boiler Off Diff AV 366 AO 101 nvi/nvoN2PrBlOfD_XXX SNVT_count_f

Net2 Priority Min On Time AV 368 AO 102 nvi/nvoN2PrMnOnT_XXX SNVT_count_f

Net2 Priority Run Boiler Pump AI 369 ADI 76 nvoN2PrRnBPp_XXX SNVT_count_f

Net2 Priority Pre Pump Time AV 371 AO 103 nvi/nvoN2PrPrPpT_XXX SNVT_count_f

Net2 Priority Post Pump Time AV 372 AO 104 nvi/nvoN2PrPsPpT_XXX SNVT_count_f

Net2 Priority Max Rate AV 373 AO 105 nvi/nvoN2PrMxRt_XXX SNVT_count_f

Net2 Priority Min Rate AV 374 AO 106 nvi/nvoN2PrMnRt_XXX SNVT_count_f

Net2 Priority Max Sys Rate AV 375 AO 107 nvi/nvoN2PMxSyRt_XXX SNVT_count_f

Net2 Priority Min Boilers AI 376 ADI 78 nvoN2PrMnBl_XXX SNVT_count_f

Net2 Priority Activate Contact Setting AV 377 AO 108 nvi/nvoN2PrAcCnS_XXX SNVT_count_f

Net2 Priority Response Time AV 378 AO 109 nvi/nvoN2PrRspTm_XXX SNVT_count_f

Custom Type String 1 AI 379 ADI 79 nvoCusStr1_XXX SNVT_count_f













Master Boiler Commanded Modulation Rates 1 AI 399 ADI 99 nvoMBCmMdRt1_XXX SNVT_count_f








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Master Boiler Net1 or Net2 AI 406 ADI 106 nvoMBN1orN2_XXX SNVT_count_f

Master Boiler Max Boiler Temp AI 407 ADI 107 nvoMBMxBlTp_XXX SNVT_count_f

Master Boiler Boiler On Diff AI 408 ADI 108 nvoMBBlOnDf_XXX SNVT_count_f

Master Boiler Boiler Off Diff AI 409 ADI 109 nvoMBBlOfDf_XXX SNVT_count_f

Master Boiler Pre Pump Time AI 410 ADI 110 nvoMBPrPpTm_XXX SNVT_count_f

Master Boiler Post Pump Time AI 411 ADI 111 nvoMBPsPpTm_XXX SNVT_count_f

Master Boiler Number of Boilers on Network AI 412 ADI 112 nvoMBNumBlNt_XXX SNVT_count_f

Master Boiler Supply Temp AI 413 ADI 113 nvoMBSupTmp_XXX SNVT_count_f

Master Boiler Return Temp AI 414 ADI 114 nvoMBRetTmp_XXX SNVT_count_f

Master Boiler Outdoor Temp AI 415 ADI 115 nvoMBOdrTmp_XXX SNVT_count_f

Master Boiler System Types AI 416 ADI 116 nvoMBSysType_XXX SNVT_count_f

Shadow 2 Input 1 Priority AI 417 ADI 117 nvoSh2In1Pr_XXX SNVT_count_f

Shadow 2 Input 1 System Type AI 418 ADI 118 nvoSh2In1STy_XXX SNVT_count_f





Shadow 2 Input Status AI 423 ADI 123 nvoSh2InSt_XXX SNVT_count_f

Shadow 2 Boiler Status AI 424 ADI 124 nvoSh2BlrSt_XXX SNVT_count_f

Shadow 2 Supply Temp (local) AI 425 ADI 125 nvoSh2SupTmp_XXX SNVT_count_f

Shadow 2 Return Temp (local) AI 426 ADI 126 nvoSh2RetTmp_XXX SNVT_count_f

Shadow 2 Outdoor Temp (local) AI 427 ADI 127 nvoSh2OdrTmp_XXX SNVT_count_f

Shadow 2 Boiler 1 Out Temp AI 428 ADI 128 nvoSh2B1OtTp_XXX SNVT_count_f

Shadow 2 Relay Output Status AI 429 ADI 129 nvoSh2RlOtSt_XXX SNVT_count_f

Shadow 2 Model Number AI 430 ADI 130 nvoSh2ModNum_XXX SNVT_count_f

Shadow 2 Burner Hours AI 431 ADI 131 nvoSh2BrnHr_XXX SNVT_count_f

Shadow 2 Min Rate AI 432 ADI 132 nvoSh2MnRt_XXX SNVT_count_f

Shadow 2 Max Rate AI 433 ADI 133 nvoSh2MxRt_XXX SNVT_count_f

Shadow 2 Modulation Rate AI 434 ADI 134 nvoSh2ModRt_XXX SNVT_count_f

Shadow 2 Boiler Status 3 and Available Status AI 435 ADI 135 nvoSh2BlrSt3_XXX SNVT_count_f










































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Custom Type String 2 1 AI 550 ADI 250 nvoCusSt2_1_XXX SNVT_count_f







Custom Type String 2 8 AI 557 ADF 1 nvoCusSt2_8_XXX SNVT_count_f
































Net Priority 1 Add Boiler Delay AV 589 AO 110 nvi/nvoNPr1ABlDl_XXX SNVT_count_f

Net Priority 2 Add Boiler Delay AV 590 AO 111 nvi/nvoNPr2ABlDl_XXX SNVT_count_f

Relay Output Gas Valve ON BI 594 BD 1 nvoROGasVlv_XXX SNVT_switch

Relay Output Circulator 1 ON BI 595 BD 2 nvoROCirc1_XXX SNVT_switch



Relay Output Additional Heat Demand ON BI 598 BD 5 nvoROAddHtDm_XXX SNVT_switch

Relay Output Boiler Circulator ON BI 599 BD 6 nvoROBlrCirc_XXX SNVT_switch

Boiler Status 2 Flue Temperature Warning BI 600 BD 7 nvoB2FluTpWn_XXX SNVT_switch

Boiler Status 2 Modulation Sensor BI 601 BD 8 nvoB2ModSen_XXX SNVT_switch

Boiler Status 2 Freeze Protection BI 602 BD 9 nvoB2FrzPro_XXX SNVT_switch

Boiler Status 2 Warm Weather Shutdown BI 603 BD 10 nvoB2WWShdwn_XXX SNVT_switch

Exercise Circulator 1 ON BI 604 BD 11 nvoExCirc1_XXX SNVT_switch



Exercise Boiler Circulator ON BI 607 BD 14 nvoExeBlrCir_XXX SNVT_switch

Freeze Protect Circulator 1 ON BI 608 BD 15 nvoFrzPrCir1_XXX SNVT_switch



Freeze Protect Boiler Circulator ON BI 611 BD 18 nvoFrzPrBlCr_XXX SNVT_switch

Priority 1 System Type AI 612 BD 19 nvoPr1SysTyp_XXX SNVT_count_f

Priority 1 Target Adjustment AI 613 BD 20 nvoPr1TarAdj_XXX SNVT_count_f

Priority 1 Run Aux Pump/Output setting BI 614 BD 21 nvoPr1RnAxPm_XXX SNVT_switch

Priority 1 Run Boiler Pump setting BI 615 BD 22 nvoPr1RnBPSt_XXX SNVT_switch

Input 1 Priority Boiler AI 616 BD 23 nvoIn1PrBlr_XXX SNVT_count_f

Input 1 Aux Pump/Output Type AI 617 BD 24 nvoIn1AuxPmp_XXX SNVT_count_f

Input 1 Source is set to 0-10V BI 618 BD 25 nvoIn1S0_10v_XXX SNVT_switch


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Target was Reduced Flue Temp BI 627 BD 34 nvoTarRdFlTp_XXX SNVT_switch

Target was Reduced Boiler In Out BI 628 BD 35 nvoTarRdBlIO_XXX SNVT_switch

Modulation was Reduced BI 629 BD 36 nvoModRed_XXX SNVT_switch

Turn on Additional Heat Contact BI 630 BD 37 nvoTrnAdHtCn_XXX SNVT_switch

Run Circulator 1 BI 631 BD 38 nvoRunCirc1_XXX SNVT_switch



Run Boiler Pump BI 634 BD 41 nvoRunBlrPmp_XXX SNVT_switch

P1 activate Contact Setting AI 635 BD 42 nvoP1ActCnSt_XXX SNVT_count_f

P1 target ModSensor BI 636 BD 43 nvoP1TarMdSn_XXX SNVT_switch

P1 Add Heat Temp Dep BI 637 BD 44 nvoP1AdHtTDp_XXX SNVT_switch

P1 Add Heat Below SP AI 638 BD 45 nvoP1AdHBlSP_XXX SNVT_count_f















Boiler Status AI 653 BD 60 nvoBlrStatus_XXX SNVT_count_f

Running DHW BI 654 BD 61 nvoRunDHW_XXX SNVT_switch

Local Priority 1 Running BI 655 BD 62 nvoLocPr1Run_XXX SNVT_switch



Input 1 active BI 658 BD 65 nvoIn1Active_XXX SNVT_switch



Manual Limit Open BI 661 BD 68 nvoManLimOpn_XXX SNVT_switch

Auto Limit Open BI 662 BD 69 nvoAutoLimOpn_XXX SNVT_switch

Low Water Cutoff Open BI 663 BD 70 nvoLoWtCtOpn_XXX SNVT_switch

Air P-Switch Open BI 664 BD 71 nvoAirPSwOpn_XXX SNVT_switch

Flow Switch Open BI 665 BD 72 nvoFlowSwOpn_XXX SNVT_switch

Supply Sensor Error BI 666 BD 73 nvoSupSenErr_XXX SNVT_switch

Return Sensor Error BI 667 BD 74 nvoRetSenErr_XXX SNVT_switch

Outdoor Temperature Sensor Error BI 668 BD 75 nvoOutTpSnEr_XXX SNVT_switch

Gas Valve Fault 1 BI 669 BD 76 nvoGasVlvFl1_XXX SNVT_switch




LKHS1 Hard Flame Fault BI 673 BD 80 nvoLK1HFlmFl_XXX SNVT_switch

LKHS1 Hard Ignition Fault BI 674 BD 81 nvoLK1HIgnFl_XXX SNVT_switch

LKHS1 Hard High Temp Limit BI 675 BD 82 nvoLK1HHTpLm_XXX SNVT_switch

LKHS1 Hard Blower Fault BI 676 BD 83 nvoLK1HBlwFl_XXX SNVT_switch

LKHS1 Hard Expansion Board Fault Hw Fault BI 677 BD 84 nvoLK1HExBFl_XXX SNVT_switch

LKHS1 Hard Air Pressure Switch Fault BI 678 BD 85 nvoLK1HAPSFl_XXX SNVT_switch

LKHS1 Hard Gas Valve Fault see Sensor Warnings

BI 679 BD 86 nvoLK1HGsVFl_XXX SNVT_switch

LKHS1 Hard Low Water Cutoff BI 680 BD 87 nvoLK1HLWtCt_XXX SNVT_switch

LKHS1 Hard Limit Open BI 681 BD 88 nvoLK1HLimOp_XXX SNVT_switch

LKHS1 Hard Flow Switch Fault Sys Temp High Fault

BI 682 BD 89 nvoLK1HFlSFl_XXX SNVT_switch

LKHS1 Hard Return Water Temp High BI 683 BD 90 nvoLK1HRWTHi_XXX SNVT_switch

LKHS1 Hard Return above Supply Temp BI 684 BD 91 nvoLK1HRSpTp_XXX SNVT_switch

LKHS1 Hard Temp Rise Too Quickly BI 685 BD 92 nvoLK1HTpRQk_XXX SNVT_switch

LKHS1 Hard Supply 58F above Return BI 686 BD 93 nvoLK1HSpARt_XXX SNVT_switch


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LKHS1 Hard Temperature Sensor BI 687 BD 94 nvoLK1HTmpSn_XXX SNVT_switch

LKHS1 Hard Flue Temp Too High BI 688 BD 95 nvoLK1HFlTHi_XXX SNVT_switch

LKHS1 Soft Flame Fault BI 689 BD 96 nvoLK1SFlmFl_XXX SNVT_switch

LKHS1 Soft Ignition Fault BI 690 BD 97 nvoLK1SIgnFl_XXX SNVT_switch

LKHS1 Soft High Temp Limit BI 691 BD 98 nvoLK1SHTpLm_XXX SNVT_switch

LKHS1 Soft Blower Fault BI 692 BD 99 nvoLK1SBlwFl_XXX SNVT_switch

LKHS1 Soft Expansion Board Fault Hw Fault BI 693 BD 100 nvoLK1SExBFl_XXX SNVT_switch

LKHS1 Soft Air Pressure Switch Fault BI 694 BD 101 nvoLK1SAPSFl_XXX SNVT_switch

LKHS1 Soft Gas Valve Fault see Sensor Warnings

BI 695 BD 102 nvoLK1SGsVFl_XXX SNVT_switch

LKHS1 Soft Low Water Cutoff BI 696 BD 103 nvoLK1SLWtCt_XXX SNVT_switch

LKHS1 Soft Limit Open BI 697 BD 104 nvoLK1SLimOp_XXX SNVT_switch

LKHS1 Soft Flow Switch Fault Sys Temp High Fault

BI 698 BD 105 nvoLK1SFlSFl_XXX SNVT_switch

LKHS1 Soft Return Water Temp High BI 699 BD 106 nvoLK1SRWTHi_XXX SNVT_switch

LKHS1 Soft Return above Supply Temp BI 700 BD 107 nvoLK1SRSpTp_XXX SNVT_switch

LKHS1 Soft Temp Rise Too Quickly BI 701 BD 108 nvoLK1STpRQk_XXX SNVT_switch

LKHS1 Soft Supply 58F above Return BI 702 BD 109 nvoLK1SSpARt_XXX SNVT_switch

LKHS1 Soft Temperature Sensor BI 703 BD 110 nvoLK1STmpSn_XXX SNVT_switch

LKHS1 Soft Flue Temp Too High BI 704 BD 111 nvoLK1SFlTHi_XXX SNVT_switch

LKHS1 In Input 1 active BI 705 BD 112 nvoLK1In1Act_XXX SNVT_switch



LKHS1 In Manual Limit Open BI 708 BD 115 nvoLK1IMnLmO_XXX SNVT_switch

LKHS1 In Auto Limit Open BI 709 BD 116 nvoLK1IAtLmO_XXX SNVT_switch

LKHS1 In Low Water Cutoff Open BI 710 BD 117 nvoLK1ILWCtO_XXX SNVT_switch

LKHS1 In Air P-Switch Open BI 711 BD 118 nvoLK1IArPSO_XXX SNVT_switch

LKHS1 In Flow Switch Open BI 712 BD 119 nvoLK1IFlSwO_XXX SNVT_switch

LKHS1 RO Gas Valve ON BI 713 BD 120 nvoLK1ROGsVl_XXX SNVT_switch

LKHS1 RO Circulator 1 ON BI 714 BD 121 nvoLK1ROCir1_XXX SNVT_switch



LKHS1 RO Additional Heat Demand ON BI 717 BD 124 nvoLK1ROAdHD_XXX SNVT_switch

LKHS1 RO Boiler Circulator ON BI 718 BD 125 nvoLK1ROBlCr_XXX SNVT_switch

LKHS2 Hard Limit Open BI 719 BD 126 nvoLK2HLmOpn_XXX SNVT_switch

LKHS2 Hard Flow Switch Fault BI 720 BD 127 nvoLK2HFlSFl_XXX SNVT_switch

LKHS2 Hard Return Water Temp High BI 721 BD 128 nvoLK2HRtWHi_XXX SNVT_switch

LKHS2 Hard Return > Supply Temp BI 722 BD 129 nvoLK2HRtSTp_XXX SNVT_switch

LKHS2 Hard Temp Rise Too Quickly BI 723 BD 130 nvoLK2HTmpRs_XXX SNVT_switch

LKHS2 Hard Supply 58F > Return BI 724 BD 131 nvoLK2HSup58_XXX SNVT_switch


LKHS2 Hard Flue Temp Too High BI 726 BD 133 nvoLK2HFlTpH_XXX SNVT_switch





LKHS2 Hard Expansion Board Fault BI 731 BD 138 nvoLK2HExBFl_XXX SNVT_switch

LKHS2 Hard Air Pressure Switch Fault BI 732 BD 139 nvoLK2HArPFl_XXX SNVT_switch

LKHS2 Hard Gas Valve Fault BI 733 BD 140 nvoLK2HGsVFl_XXX SNVT_switch


LKHS2 Soft Limit Open BI 735 BD 142 nvoLK2SLmOpn_XXX SNVT_switch

LKHS2 Soft Flow Switch Fault BI 736 BD 143 nvoLK2SFlSFl_XXX SNVT_switch

LKHS2 Soft Return Water Temp High BI 737 BD 144 nvoLK2SRtWHi_XXX SNVT_switch

LKHS2 Soft Return > Supply Temp BI 738 BD 145 nvoLK2SRtSTp_XXX SNVT_switch

LKHS2 Soft Temp Rise Too Quickly BI 739 BD 146 nvoLK2STmpRs_XXX SNVT_switch

LKHS2 Soft Supply 58F > Return BI 740 BD 147 nvoLK2SSup58_XXX SNVT_switch


LKHS2 Soft Flue Temp Too High BI 742 BD 149 nvoLK2SFlTpH_XXX SNVT_switch





LKHS2 Soft Expansion Board Fault BI 747 BD 154 nvoLK2SExBFl_XXX SNVT_switch

LKHS2 Soft Air Pressure Switch Fault BI 748 BD 155 nvoLK2SArPFl_XXX SNVT_switch

LKHS2 Soft Gas Valve Fault BI 749 BD 156 nvoLK2SGsVFl_XXX SNVT_switch







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LKHS3 Hard Limit Open BI 765 BD 172 nvoLK3HLmOpn_XXX SNVT_switch

LKHS3 Hard Flow Switch Fault BI 766 BD 173 nvoLK3HFlSFl_XXX SNVT_switch

LKHS3 Hard Return Water Temp High BI 767 BD 174 nvoLK3HRtWHi_XXX SNVT_switch

LKHS3 Hard Return > Supply Temp BI 768 BD 175 nvoLK3HRtSTp_XXX SNVT_switch

LKHS3 Hard Temp Rise Too Quickly BI 769 BD 176 nvoLK3HTmpRs_XXX SNVT_switch

LKHS3 Hard Supply 58F > Return BI 770 BD 177 nvoLK3HSup58_XXX SNVT_switch


LKHS3 Hard Flue Temp Too High BI 772 BD 179 nvoLK3HFlTpH_XXX SNVT_switch





LKHS3 Hard Expansion Board Fault BI 777 BD 184 nvoLK3HExBFl_XXX SNVT_switch

LKHS3 Hard Air Pressure Switch Fault BI 778 BD 185 nvoLK3HArPFl_XXX SNVT_switch

LKHS3 Hard Gas Valve Fault BI 779 BD 186 nvoLK3HGsVFl_XXX SNVT_switch


LKHS3 Soft Limit Open BI 781 BD 188 nvoLK3SLmOpn_XXX SNVT_switch

LKHS3 Soft Flow Switch Fault BI 782 BD 189 nvoLK3SFlSFl_XXX SNVT_switch

LKHS3 Soft Return Water Temp High BI 783 BD 190 nvoLK3SRtWHi_XXX SNVT_switch

LKHS3 Soft Return > Supply Temp BI 784 BD 191 nvoLK3SRtSTp_XXX SNVT_switch

LKHS3 Soft Temp Rise Too Quickly BI 785 BD 192 nvoLK3STmpRs_XXX SNVT_switch

LKHS3 Soft Supply 58F > Return BI 786 BD 193 nvoLK3SSup58_XXX SNVT_switch


LKHS3 Soft Flue Temp Too High BI 788 BD 195 nvoLK3SFlTpH_XXX SNVT_switch





LKHS3 Soft Expansion Board Fault BI 793 BD 200 nvoLK3SExBFl_XXX SNVT_switch

LKHS3 Soft Air Pressure Switch Fault BI 794 BD 201 nvoLK3SArPFl_XXX SNVT_switch

LKHS3 Soft Gas Valve Fault BI 795 BD 202 nvoLK3SGsVFl_XXX SNVT_switch
















LKHS1 Flue Temperature Warning BI 811 BD 218 nvoLK1FlTpWn_XXX SNVT_switch

LKHS1 Modulation Sensor BI 812 BD 219 nvoLK1ModSen_XXX SNVT_switch

LKHS1 Freeze Protection BI 813 BD 220 nvoLK1FrzPro_XXX SNVT_switch

LKHS1 Warm Weather Shutdown BI 814 BD 221 nvoLK1WWSD_XXX SNVT_switch









Shad2 In1 Priority Boiler AI 823 BD 230 nvoSh2In1PrB_XXX SNVT_count_f

Shad2 In1 Aux Pump/Output Type AI 824 BD 231 nvoSh2In1AxP_XXX SNVT_count_f


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Shad2 In1 Source is set to 0-10V BI 825 BD 232 nvoSh2I10_10_XXX SNVT_switch








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Appendix D. “A” Bank DIP Switch Settings

“A” Bank DIP Switch Settings

Address A0 A1 A2 A3 A4 A5 A6 A7

1 On Off Off Off Off Off Off Off

2 Off On Off Off Off Off Off Off

3 On On Off Off Off Off Off Off

4 Off Off On Off Off Off Off Off

5 On Off On Off Off Off Off Off

6 Off On On Off Off Off Off Off

7 On On On Off Off Off Off Off

8 Off Off Off On Off Off Off Off

9 On Off Off On Off Off Off Off

10 Off On Off On Off Off Off Off

11 On On Off On Off Off Off Off

12 Off Off On On Off Off Off Off

13 On Off On On Off Off Off Off

14 Off On On On Off Off Off Off

15 On On On On Off Off Off Off

16 Off Off Off Off On Off Off Off

17 On Off Off Off On Off Off Off

18 Off On Off Off On Off Off Off

19 On On Off Off On Off Off Off

20 Off Off On Off On Off Off Off

21 On Off On Off On Off Off Off

22 Off On On Off On Off Off Off

23 On On On Off On Off Off Off

24 Off Off Off On On Off Off Off

25 On Off Off On On Off Off Off

26 Off On Off On On Off Off Off

27 On On Off On On Off Off Off

28 Off Off On On On Off Off Off

29 On Off On On On Off Off Off

30 Off On On On On Off Off Off

31 On On On On On Off Off Off

32 Off Off Off Off Off On Off Off

33 On Off Off Off Off On Off Off

34 Off On Off Off Off On Off Off

35 On On Off Off Off On Off Off

36 Off Off On Off Off On Off Off

37 On Off On Off Off On Off Off

38 Off On On Off Off On Off Off

39 On On On Off Off On Off Off

40 Off Off Off On Off On Off Off

41 On Off Off On Off On Off Off

42 Off On Off On Off On Off Off

43 On On Off On Off On Off Off

44 Off Off On On Off On Off Off

45 On Off On On Off On Off Off

46 Off On On On Off On Off Off


47 On On On On Off On Off Off

48 Off Off Off Off On On Off Off

49 On Off Off Off On On Off Off

50 Off On Off Off On On Off Off

51 On On Off Off On On Off Off

52 Off Off On Off On On Off Off

53 On Off On Off On On Off Off

54 Off On On Off On On Off Off

55 On On On Off On On Off Off

56 Off Off Off On On On Off Off

57 On Off Off On On On Off Off

58 Off On Off On On On Off Off

59 On On Off On On On Off Off

60 Off Off On On On On Off Off

61 On Off On On On On Off Off

62 Off On On On On On Off Off

63 On On On On On On Off Off

64 Off Off Off Off Off Off On Off

65 On Off Off Off Off Off On Off

66 Off On Off Off Off Off On Off

67 On On Off Off Off Off On Off

68 Off Off On Off Off Off On Off

69 On Off On Off Off Off On Off

70 Off On On Off Off Off On Off

71 On On On Off Off Off On Off

72 Off Off Off On Off Off On Off

73 On Off Off On Off Off On Off

74 Off On Off On Off Off On Off

75 On On Off On Off Off On Off

76 Off Off On On Off Off On Off

77 On Off On On Off Off On Off

78 Off On On On Off Off On Off

79 On On On On Off Off On Off

80 Off Off Off Off On Off On Off

81 On Off Off Off On Off On Off

82 Off On Off Off On Off On Off

83 On On Off Off On Off On Off

84 Off Off On Off On Off On Off

85 On Off On Off On Off On Off

86 Off On On Off On Off On Off

87 On On On Off On Off On Off

88 Off Off Off On On Off On Off

89 On Off Off On On Off On Off

90 Off On Off On On Off On Off

91 On On Off On On Off On Off

92 Off Off On On On Off On Off


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93 On Off On On On Off On Off

94 Off On On On On Off On Off

95 On On On On On Off On Off

96 Off Off Off Off Off On On Off

97 On Off Off Off Off On On Off

98 Off On Off Off Off On On Off

99 On On Off Off Off On On Off

100 Off Off On Off Off On On Off

101 On Off On Off Off On On Off

102 Off On On Off Off On On Off

103 On On On Off Off On On Off

104 Off Off Off On Off On On Off

105 On Off Off On Off On On Off

106 Off On Off On Off On On Off

107 On On Off On Off On On Off

108 Off Off On On Off On On Off

109 On Off On On Off On On Off

110 Off On On On Off On On Off

111 On On On On Off On On Off

112 Off Off Off Off On On On Off

113 On Off Off Off On On On Off

114 Off On Off Off On On On Off

115 On On Off Off On On On Off

116 Off Off On Off On On On Off

117 On Off On Off On On On Off

118 Off On On Off On On On Off

119 On On On Off On On On Off

120 Off Off Off On On On On Off

121 On Off Off On On On On Off

122 Off On Off On On On On Off

123 On On Off On On On On Off

124 Off Off On On On On On Off

125 On Off On On On On On Off

126 Off On On On On On On Off

127 On On On On On On On Off

128 Off Off Off Off Off Off Off On

129 On Off Off Off Off Off Off On

130 Off On Off Off Off Off Off On

131 On On Off Off Off Off Off On

132 Off Off On Off Off Off Off On

133 On Off On Off Off Off Off On

134 Off On On Off Off Off Off On

135 On On On Off Off Off Off On

136 Off Off Off On Off Off Off On

137 On Off Off On Off Off Off On

138 Off On Off On Off Off Off On

139 On On Off On Off Off Off On

140 Off Off On On Off Off Off On

141 On Off On On Off Off Off On

142 Off On On On Off Off Off On


143 On On On On Off Off Off On

144 Off Off Off Off On Off Off On

145 On Off Off Off On Off Off On

146 Off On Off Off On Off Off On

147 On On Off Off On Off Off On

148 Off Off On Off On Off Off On

149 On Off On Off On Off Off On

150 Off On On Off On Off Off On

151 On On On Off On Off Off On

152 Off Off Off On On Off Off On

153 On Off Off On On Off Off On

154 Off On Off On On Off Off On

155 On On Off On On Off Off On

156 Off Off On On On Off Off On

157 On Off On On On Off Off On

158 Off On On On On Off Off On

159 On On On On On Off Off On

160 Off Off Off Off Off On Off On

161 On Off Off Off Off On Off On

162 Off On Off Off Off On Off On

163 On On Off Off Off On Off On

164 Off Off On Off Off On Off On

165 On Off On Off Off On Off On

166 Off On On Off Off On Off On

167 On On On Off Off On Off On

168 Off Off Off On Off On Off On

169 On Off Off On Off On Off On

170 Off On Off On Off On Off On

171 On On Off On Off On Off On

172 Off Off On On Off On Off On

173 On Off On On Off On Off On

174 Off On On On Off On Off On

175 On On On On Off On Off On

176 Off Off Off Off On On Off On

177 On Off Off Off On On Off On

178 Off On Off Off On On Off On

179 On On Off Off On On Off On

180 Off Off On Off On On Off On

181 On Off On Off On On Off On

182 Off On On Off On On Off On

183 On On On Off On On Off On

184 Off Off Off On On On Off On

185 On Off Off On On On Off On

186 Off On Off On On On Off On

187 On On Off On On On Off On

188 Off Off On On On On Off On

189 On Off On On On On Off On

190 Off On On On On On Off On

191 On On On On On On Off On

192 Off Off Off Off Off Off On On


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193 On Off Off Off Off Off On On

194 Off On Off Off Off Off On On

195 On On Off Off Off Off On On

196 Off Off On Off Off Off On On

197 On Off On Off Off Off On On

198 Off On On Off Off Off On On

199 On On On Off Off Off On On

200 Off Off Off On Off Off On On

201 On Off Off On Off Off On On

202 Off On Off On Off Off On On

203 On On Off On Off Off On On

204 Off Off On On Off Off On On

205 On Off On On Off Off On On

206 Off On On On Off Off On On

207 On On On On Off Off On On

208 Off Off Off Off On Off On On

209 On Off Off Off On Off On On

210 Off On Off Off On Off On On

211 On On Off Off On Off On On

212 Off Off On Off On Off On On

213 On Off On Off On Off On On

214 Off On On Off On Off On On

215 On On On Off On Off On On

216 Off Off Off On On Off On On

217 On Off Off On On Off On On

218 Off On Off On On Off On On

219 On On Off On On Off On On

220 Off Off On On On Off On On

221 On Off On On On Off On On

222 Off On On On On Off On On

223 On On On On On Off On On

224 Off Off Off Off Off On On On

225 On Off Off Off Off On On On

226 Off On Off Off Off On On On

227 On On Off Off Off On On On

228 Off Off On Off Off On On On

229 On Off On Off Off On On On

230 Off On On Off Off On On On

231 On On On Off Off On On On

232 Off Off Off On Off On On On

233 On Off Off On Off On On On

234 Off On Off On Off On On On

235 On On Off On Off On On On

236 Off Off On On Off On On On

237 On Off On On Off On On On

238 Off On On On Off On On On

239 On On On On Off On On On

240 Off Off Off Off On On On On

241 On Off Off Off On On On On

242 Off On Off Off On On On On


243 On On Off Off On On On On

244 Off Off On Off On On On On

245 On Off On Off On On On On

246 Off On On Off On On On On

247 On On On Off On On On On

248 Off Off Off On On On On On

249 On Off Off On On On On On

250 Off On Off On On On On On

251 On On Off On On On On On

252 Off Off On On On On On On

253 On Off On On On On On On

254 Off On On On On On On On

255 On On On On On On On On


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Appendix E. Reference

Specifications

ProtoNode FPC-N34 ProtoNode FPC-N35

Electrical Connections

One 6-pin Phoenix connector with:

RS-485 port (+ / - / gnd)

Power port (+ / - / Frame-gnd)

One 3-pin Phoenix connector with

RS-485 port (+ / - / gnd)

One Ethernet 10/100 BaseT port


RS-485 port (+ / - / gnd) Power port (+ / - / Frame-gnd)


One FTT-10 LonWorks port

One Ethernet 10/100 BaseT port

Approvals

CE certified; UL 916 approved; WEEE compliant; EN 60950-1, EN 50491-3 and CSA C22-2 standards; FCC Class A Part 15; DNP 3.0 conformance tested; RoHS compliant; CSA 205 approved

BTL Marked LonMark Certified

Power Requirements 9-30VDC or 12 - 24VAC

Physical Dimensions 11.5 cm L x 8.3 cm W x 4.1 cm H (4.5 x 3.2 x 1.6 in.)

Weight 0.2 kg (0.4 lbs)

Operating Temperature -40°C to 75°C (-40°F to167°F)

Surge Suppression EN61000-4-2 ESD EN61000-4-3 EMC EN61000-4-4 EFT

Humidity 5 - 90% RH (non-condensing)

(Specifications subject to change without notice)

Figure 37: Specifications

Appendix E.1.1. Compliance with UL Regulations

For UL compliance, the following instructions must be met when operating ProtoNode.

• The units shall be powered by listed LPS or Class 2 power supply suited to the expected operating

temperature range.

• The interconnecting power connector and power cable shall:

o Comply with local electrical code

o Be suited to the expected operating temperature range

o Meet the current and voltage rating for ProtoNode

• Furthermore, the interconnecting power cable shall:

o Be of length not exceeding 3.05m (118.3”)

o Be constructed of materials rated VW-1, FT-1 or better

• If the unit is to be installed in an operating environment with a temperature above 65 °C, it should

be installed in a Restricted Access Area requiring a key or a special tool to gain access.

• This device must not be connected to a LAN segment with outdoor wiring.


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Appendix F. Limited 2 Year Warranty

Sierra Monitor Corporation warrants its products to be free from defects in workmanship or

material under normal use and service for two years after date of shipment. Sierra Monitor

Corporation will repair or replace any equipment found to be defective during the warranty period.

Final determination of the nature and responsibility for defective or damaged equipment will be

made by Sierra Monitor Corporation personnel.

All warranties hereunder are contingent upon proper use in the application for which the product

was intended and do not cover products which have been modified or repaired without Sierra

Monitor Corporation’s approval or which have been subjected to accident, improper maintenance,

installation or application, or on which original identification marks have been removed or altered.

This Limited Warranty also will not apply to interconnecting cables or wires, consumables or to

any damage resulting from battery leakage.

In all cases Sierra Monitor Corporation’s responsibility and liability under this warranty shall be

limited to the cost of the equipment. The purchaser must obtain shipping instructions for the

prepaid return of any item under this warranty provision and compliance with such instruction shall

be a condition of this warranty.

Except for the express warranty stated above, Sierra Monitor Corporation disclaims all warranties

with regard to the products sold hereunder including all implied warranties of merchantability and

fitness and the express warranties stated herein are in lieu of all obligations or liabilities on the

part of Sierra Monitor Corporation for damages including, but not limited to, consequential

damages arising out of/or in connection with the use or performance of the product.

ProtoNode FPC-N34 and ProtoNode FPC-N35 Start-up Guide …...• FPC-N35 units have the following 3...

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Transcript of ProtoNode FPC-N34 and ProtoNode FPC-N35 Start-up Guide …...• FPC-N35 units have the following 3...