Honeywell Commercial Programmable T7350 Users Manual 63 4368 Thermostat

2015-01-23

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Page Count: 44

Introduction
Models
- Products Covered
- Applicable Literature
Abbreviations and Definitions
Network Configurations
Application Steps
Appendix A - Network Tools & Workstations
Appendix B - Network Alarm Reporting
Appendix C - Network Error Reporting
Appendix D - Network Access to Local Sensor Data
Appendix E - Scheduling Network Devices
Appendix F - Network Master Clock
Appendix G - Network Connections to Other LCBS Devices
- S7760 - Command Display
Appendix H - T7350H Network Variable Summary
- Class Description

SYSTEM ENGINEERING

® U.S. Registered Trademark

T7350

Commercial Programmable Thermostat

Contents

Introduction .................................................................................................................................. 2

Device Description .............................................................................................. 2

Control Application .............................................................................................. 2

Network Control Provided ................................................................................... 3

Models .................................................................................................................................. 3

Products Covered ................................................................................................ 3

Applicable Literature ............................................................................................ 4

Abbreviations and Definitions .................................................................................................................................. 4

Performance Specifications ................................................................................. 5

Communications .................................................................................................. 7

LONMARK® Functional Profile .............................................................................. 8

Network Configurations .................................................................................................................................. 9

Application Steps .................................................................................................................................. 10

Overview ............................................................................................................. 10

Step 1. Plan the System ...................................................................................... 11

Step 2. Determine Required Network Devices .................................................... 11

Step 3. Layout Communications and Power Wiring: .......................................... 11

LONWORKS® Bus Layout ...................................................................................... 11

Cable Termination ............................................................................................... 12

Wiring Details ...................................................................................................... 12

Step 4. Prepare Wiring Diagrams ........................................................................ 12

General Considerations ....................................................................................... 15

Step 5. Order Equipment ..................................................................................... 17

Step 6. Configure T7350 ..................................................................................... 17

Step 7. Troubleshooting ....................................................................................... 18

Appendix A - Network Tools & Workstations ......................................................................................................................... 20

Appendix B - Network Alarm Reporting .................................................................................................................................. 21

Appendix C - Network Error Reporting ................................................................................................................................... 23

Appendix D - Network Access to Local Sensor Data ............................................................................................................. 25

Appendix E - Scheduling Network Devices ............................................................................................................................ 25

Appendix F - Network Master Clock ........................................................................................................................................ 25

Appendix G - Network Connections to Other LCBS Devices ................................................................................................ 26

Appendix H - T7350H Network Variable Summary ................................................................................................................. 34

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 2

INTRODUCTION

Device Description

The T7350H is a LONMARK® certified thermostat that provides

networking capability in a LONWORKS® system using a

transformer-coupled Free Topology Transceiver (FTT). See

Fig. 1.

The T7350H communicates with many LONMARK® devices

including the following:

— Other T7350H Communicating Commercial Thermostat

devices.

— T7300F/Q7300H Commercial Thermostat/Communicating

Subbase.

— Excel 15 S7760A Command Display.

— Excel 10 W7750A,B,C Constant Volume Air Handler Unit

(CVAHU) Controller.

— Excel 15 W7760A, B, C Building & Plant Managers.

— Excel 10 W7751B, D, F, H, J Variable Air Volume Terminal

Unit Controllers.

— Excel 10 W7752D, E, F, G Fan Coil Unitcontrollers.

— Excel 10 W7753A Unit Ventilator Controller.

— Excel 10 W7762A,B Hydronic Controllers.

— Excel 10 W7763C, D, E Chilled Ceiling Controllers.

Control Application

The T7350H programmable communicating Thermostat

controls commercial single zone heating, ventilating and air

conditioning (HVAC) equipment through staged and

modulating outputs. The T7350H consists of a two piece

assembly with a thermostat cover and subbase. The

thermostat cover includes the keypad and display for 7-day

programming. Calendar programming is available through a

direct connect PDA (Configuration Tool) or network

(LONSPEC™ with model T7350H) tool configuration. The

subbase includes equipment control, inputs and network

connections. The subbase mounts on the wall and the

thermostat cover mounts to the subbase. In addition, the

T7350H model can communicate local sensor data, schedule

information, master clock operations and accept configuration

and override instructions to or from other devices/tools in a

LONWORKS® network. Fig. 9 shows a typical T7350H

application in a three-stage heat and two-stage cool heat

pump system. For additional hookups, see Fig. 10 through 12.

Fig. 1. Typical T7350H LONWORKS® network diagram.

NOTEBOOK PC

RS-232

SERIAL

PORT

RS-232

SERIAL

PORT

SLTA

T7350H

MODEM

M22490

EXCEL 10

CVAHU

Back Select

1481216

17 23 30 31 37 44

EXCEL 15

W7760

WALL MODULE

S7760

BUILDING MANAGER

T7350H

EXCEL 10

CVAHU

Back Select

1481216

17 23 30 31 37 44

EXCEL 15

W7760

WALL MODULE

S7760

BUILDING MANAGER

LonWorks BUS

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

3 63-4368

Network Control Provided

The T7350H communicates with other network devices, or

nodes, for sharing data such as local inputs. Through the

network, a Command Display (S7760) is used to view or

modify T7350H operational modes including:

• Weekly Schedule.

• Holiday Schedule.

• Room Temperature SetPoints (Occupied, Unoccupied,

Standby).

• Manual Occupancy Override.

• Temperature Setpoints.

• Update Time Clock.

Network connected Workstations and Configuration Tools are

used to view and modify additional T7350 operational modes:

• Command Fan operating mode (On, Auto)

• Command Application mode (Auto, Off, Heating, Cooling)

By using network messaging, the T7350H may share the

following local inputs with other T7350, T7300/Q7300, XL15

or XL10 network connected devices:

• Room Humidity and Temperature.

• Outdoor Air Temperature.

• Occupancy Sensor.

• Unoccupied Bypass User Input.

Network messaging also supports distribution of local user

commands and operational states from a single T7350H. That

is, network connected T7350H and XL10 devices can be

configured to follow the local user commands and states from

a single (master) T7350H. These local T7350 commands

include the following:

• Application mode (Auto, Off, Heating, Cooling).

• Occupancy (Occupied, Unoccupied, Bypass, Standby).

• Bypass (unoccupied override).

• Setpoint.

• Time synchronization from a T7350H designated as

network master clock.

• Master Time Scheduling of Occupied, Unoccupied and

Standby states.

MODELS

Table 1. T7350 Communicating Thermostat Models.

aAll models are down-selectable and can be configured to

control fewer stages than the maximum allowed.

bHeat pump applications for these models have a maximum

of two heat stages and two cool stages.

cOne extra stage (of either heat or cool) can be configured

using the auxiliary relay.

Products Covered

This System Engineering manual describes how to apply the

T7350H Communicating Thermostat and related accessories

to typical applications. Devices include:

• T7350H Commercial Communicating Thermostat.

• Excel 15 W7760A or B Building Manager.

• Excel 15 W7760C Plant Manager.

• Excel 10 Controllers including: W7750, W7751, W7752,

W7753, W7762.

Other products:

• Q7760A Serial LonTalk® Adapter.

• Q7740A,B FTT Repeaters.

• 209541B FTT Termination Module.

See Table 2 for additional products.

Table 2. Additional Products.

Model Applications

Maximum

Stagesa

FeaturesHeat Cool

T7350H1009 Conventional

Heat Pump

3 (2)b3 (4)bHumidity, Occupancy,

Outdoor, Discharge Air

Capability

T7350H1017 Modulating 2 modulating, 2c

relay

Humidity, Occupancy,

Outdoor, Discharge Air

Capability, 4-20 mA

output (2-10 Vdc with

500 ohm resistor)

Part Number

Product

Description Comments

R8242A Contactor, 24 Vac

coil, DPDT.

AT72D, AT88A … 24vac

Transformers.

T7770A-D Wall Modules

T7771 Wall Module with

active display.

4074EYD Wallplate for

T7770 Wall

Modules.

For covering an

existing hole in

a wall

AK3798 Single pair network

cable, U.L. Type

CMR

AK3797 Single pair network

cable plenum

rated, U.L. Type

CMP

AK3799 Double pair

network cable

plenum rated, U.L.

Type CMP

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 4

Applicable Literature

The following list of documents contains general information

related to the T7350H Communicating Commercial

Thermostats.

Table 3. Applicable Literature

ABBREVIATIONS AND DEFINITIONS

Application—A special use Building Control function.

Binding—The process of logically connecting network

variables in one node to network variable(s) in other node(s).

Binding is performed by a network management Tool (such as

LONSPEC™) that writes the binding information into the

EEPROM memory of all the neuron’s involved. The binding

information is saved in the network image of each neuron.

Building Manager—A LONMARK® certified device that can be

used to monitor and control HVAC equipment and other

miscellaneous loads in a distributed network.

Command Display—A device that can be used to monitor

data and change parameters of network connected devices.

CVAHU—Excel 10 Constant Volume Air Handler Unit

Controller.

Excel 10s—A family of application - specific HVAC controllers

such as the Excel 10 CVAHU and Excel 10 VAV.

HVAC—Heating, Ventilating and Air Conditioning.

I/O—Input/Output.

LCBS—Light Commercial Building Solution. These systems

are configured with the LONSPEC™ network tool and

monitored with a Workstation such as LonStation®. Many

LCBS networks include the W7760B & C plant managers.

Routers (including Q7751A) are not supported by the LCBS

network configuration LONSPEC™ tool.

LONSPEC™-ZL7760A—A network connected tool which

configures, commissions, calibrates and monitors the

Honeywell Light Commercial Building Solution Q7300,

T7350H, Excel 10 and Excel 15 family of controllers.

LONSTATION™—A low-cost, easy-to-use Light Commercial

Building Solution workstation that provides advanced building

control capabilities for small to medium-size buildings.

LONWORKS® Network—A data network based on neurons

communicating with each other using the LonTalk® protocol.

Mandatory Mechanisms/Objects/Network Variables—

Mandatory mechanisms and network variables that are

implemented in all the Excel 10 devices.

NamedObjects—These objects are visible on the network as

functional independent entities and are accessed by name.

Typical examples of NamedObjects are Controllers,

ControlLoops and LogicFunction blocks contained in devices

such as the XL5a or XL15b.

Network Management Node—A LONWORKS® node that is

responsible for configuring the network, installing the nodes,

binding the network variables between nodes, and general

network diagnostics.

Form No. Title

63-1299 T7350 Commercial Programmable

Thermostat Spec Data

62-0195 T7350 Commercial Programmable

Thermostat Installation Instructions

63-2605 T7350 Commercial Programmable

Thermostat Product Data

74-2976 Excel LONSPEC™ ZL7760A Specification

Data

74-2937 Excel LONSPEC™ ZL7760A User’s Guide

74-3123 Light Commercial Building Solution System

Communication Guide

74-2697 T7770A, B, C, D, E, F, G Wall Module

Specification Data

95-7538 T7770A, B, C, D, E, F, G Wall Module

Installation Instructions

63-2617 T7771 Wall Module Product Data

74-2972 S7760A Command Display Specification

Data.

74-2858 Q7740A,B FTT Repeater Specification

Data.

95-7555 Q7740A,B FTT Repeater Installation

Instructions.

74-2954 Q7760A SLTA-10 Serial LonTalk® Adapter

Specification Data.

95-7511 Q7760A SLTA-10 Serial LonTalk® Adapter

Installation Instructions.

95-7554 209541B Termination Module Installation

Instructions

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

5 63-4368

Network Variables—A class of variables defined in Neuron C

that allows communication over the LONWORKS® network to

other nodes on the network. An output network variable in one

node can be bound to a corresponding input network

variable(s) in other node(s). Changing the value of the output

network variable in one node causes the new value to be

automatically communicated to the bound input network

variable(s) in other node(s). When an input network variable is

updated, a nv_update_occurs and the event is posted at the

receiving node(s) so that the application program can take

action based on the change. A network management node

(for example XL15A or XL15C) that explicitly reads and/or

writes the network variable can also poll network variables.

Network variables can contain one data field (one or two

bytes) or multiple data fields (a structure).

Neuron—Refers to the Echelon® semiconductor device which

implements the LONWORKS® protocol on a network connected

device such as the T7350H Honeywell controller.

Node—A device implementing layers one through six of the

LonTalk® protocol including a Neuron® Chip, transceiver,

memory, and support hardware.

Notebook PC—Portable personal computer.

PDA—Personal Digital Assistant. In the case of the T7350

product this is a hand held electronic device operating with the

Palm OS. A Honeywell provided PDA application program is

used to configure the T7350 thermostat using a direct RS232

connection. Before purchasing a PDA, check the latest

Configuration software release note for a list of qualified PDA

models. Network connected T7350H models can be

configured without a PDA using LONSPEC™.

Programmable Controller—A controller that has a variable

number of control loops of different types and is user

programmed to execute an application. The user can select

the number and type of control loops. The user also has the

capability of generating new types of control loops. Some

examples of Honeywell programmable controllers include the

XL15A and XL15B.

Recovery Mode or Recovery Period—The time in

unoccupied periods when the temperature control is adjusting

the control setpoint so that the space temperature reaches the

occupied setpoint when the schedule change occurs.

RIO—Excel 10 Remote Input/Output device.

RTC—Real Time Clock.

Schedule—The structure that defines the occupancy states

and the time of the changes between these states. In the case

of the T7350, schedules are organized around a eight day

weekly structure including an extra day for designated

holidays. Holidays are scheduled by yearly calendar events.

SGPU—Significant Event Notification and Guaranteed

Periodic Update.

SGPUC—Significant Event Notification and Guaranteed

Periodic Update with Change Field.

SLTA—Serial LonTalk® Adapter. Adapts the transformer

coupled LonTalk® messages to the RS-232 Serial Port.

SNVT—Standard Network Variable Type.

SCPT—Standard Configuration Parameter Type.

XL15A—W7760A Honeywell building level controller.

XL15B—W7760B Honeywell building level controller.

XL15C—W7760C Honeywell plant level controller.

Performance Specifications

IMPORTANT

The specifications given in this publication do not

include normal manufacturing tolerances. Therefore,

this unit might not exactly match listed specifications.

This product is tested and calibrated under closely

controlled conditions; minor performance differences

can be expected if those conditions are changed.

Models: See Table 4.

Dimensions: See Fig. 2.

Finish (color): Trident White.

Batteries: No batteries required.

Table 4. T7350 Thermostat Features.

aAll models are down-selectable and can be configured to control fewer stages than the maximum allowed.

bHeat pump applications for these models have a maximum of two heat stages and two cool stages.

cOne extra stage (of either heat or cool) can be configured using the auxiliary relay.

Model Applications

Maximum Stagesa

Features

Auxiliary

Relay

LONWORKS®

Capability?Heat Cool

T7350H1009 Conventional

Heat Pump

3 (2)b3 (4)bHumidity, Occupancy,

Outdoor, Discharge Air Capability

Isolated

Normally

Open

Yes

T7350H1017 Modulating 2 modulating, 2c relay Humidity, Occupancy,

Outdoor, Discharge Air Capability,

4-20 mA output (2-10 Vdc with 500 ohm resistor)

Yes

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 6

Mounting Means:

Mounts on subbase.

Subbase Mounts On:

Wall: Using two 5/8 in. long #6-32 screws (included).

Outlet Box: Using sheet metal screws.

Throttling Range for Modulating Outputs:

Automatically adjusts based on heat/cool stages. Manually

adjustable with PDA.

Clock Accuracy (at 77°F [25°C]): ±1 min./month (30 days).

Minimum Stage Operation Time (fixed):

Minimum On

Heat: 1 minutes.

Cool: 3 minutes.

Minimum Off (Cool and Heat Pump): 1 minute.

Electrical Ratings:

Power: 24 Vac, 50/60 Hz.; 20 to 30 Vac, 50/60 Hz.

Input:

Temperature: 20K ohms.

Humidity: 0-10 Vdc.

Outdoor: 3000 PTC.

Discharge Air: 20K ohms.

Occupancy Sensor: Dry contact switching 30 Vdc at 1 mA.

All Relay Outputs (at 30 Vac):

Running: 1.5A maximum.

Inrush: 7.5A maximum.

Modulating Output: 4 to 20 mA with 510 ohm maximum

terminating resistance.

System Current Draw (without load):

5 VA maximum at 30 Vac, 50/60 Hz.

NOTE: Relays are N.O. Single-Pole, Single-Throw (SPST).

Outdoor Sensor Wiring: Requires 18 gauge wire.

Humidity Ratings: 5% to 90% RH, noncondensing.

Emergency Heat Indication:

Display indicates when Emergency Heat is activated (Em).

Temperature:

Ratings:

Operating Ambient: 30°F to 110°F (-1°C to 43°C).

Shipping: -30°F to +150°F (-34°C to +66°C).

Display Accuracy: ±1°F (±1°C).

Setpoint:

Range:

Heating: 40°F to 90°F (4°C to 32°C).

Cooling: 45°F to 99°F (7°C to 37°C).

Deadband: 2°F (1°C).

Default Settings: See Table 5.

Loss of Power: The thermostat maintains programmed times

and temperatures for the life of the product. Clock and day

information is retained for a minimum of 48 hours.

NOTE: To achieve the 48-hour power-loss clock retention,

the T7350 must be powered for at least 5 minutes.

Communicating Model T7350H:

Connection Terminals for the LONWORKS® Bus.

Network jack for quick access by personal computer based

tools.

Communications service-pin pushbutton to simplify startup.

LONMARK® Functional Profile: 8500_20 Space Comfort

Controller.

LONMARK® SCC Object Type: 8504 Rooftop See Fig. 3.

LONMARK® Program Identifier: 80:00:0C:55:04:03:04:2E.

LONMARK® Application Interoperability: version 3.3

Honeywell LONMARK® Plug-In file downloads:

http://plugin.ge51.honeywell.de/index.htm#

PDA System Requirements:

Palm OS: 3.5.x to 5.2.1

Dynamic Heap: 256K bytes.

Free RAM Space: 1000K bytes.

Serial Communications: RS232.

Approvals:

European Community Mark (CE) Listed.

UL 873 Recognized, NEC Class 2.

FCC Part 15 subpart J Class A.

cUL.

Table 5. Default Setpoints.

Accessories:

Duct Discharge Air Sensors: C7041B (6 or 12 in.),

C7041C (18 in.), C7041J (12 ft averaging),

C7770A (8 in. probe).

Outdoor Air Sensors: C7089A, C7170A,

C7031G2014 (weatherproof).

Temperature Sensors (Remote): C7772A, T7770A1006,

T7770B1046, T7770C1044, T7770D1000, T7771.

Economizer Logic Modules: W6210, W6215, W7210, W7212,

W7215, W7459.

Humidity Sensors: H7625A,B; H7635A,B,C, H7655B.

PDA Units: Palm™ V, M125, and i705 handhelds;

TRGPro™ handheld; ZIRE™ 71 handheld;

TUNGSTEN™ T handheld.

Others:

209541B FTT network termination module.

209651A Vertical Mounting Hardware Wallplate Adapter

(Trident white).

50000083-001 Thermostat Interface Module (TIM).

50000452-001 Troubleshooting Cable.

AK3797 Single pair network cable plenum rated,

U.L. Type CMP.

AK3798 Single pair network cable, U.L. Type CMR.

AK3799 Double pair network cable plenum rated,

U.L. Type CMP.

Q7740A FTT network 2-way repeater.

Q7740B FTT network 4-way repeater.

TG511, TG512 Universal Versaguard™ Thermostat

guards.

Control Occupied

Not

Occupied Standby

Heating 70°F (21°C) 55°F (13°C) 67°F (19°C)

Cooling 75°F (24°C) 85°F (29°C) 78°F (26°C)

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

7 63-4368

Fig. 2. Dimensions of thermostat and subbase in in. (mm).

Communications

The T7350H provides networking capability in a LONWORKS®

system using a Free Topology Transceiver (FTT) transformer-

coupled communications port running at 78 kilobits per

second (kbs). The transformer-coupled communications

interface offers a much higher degree of common-mode noise

rejection while ensuring dc isolation. LONWORKS® FTT

networks are very flexible and convenient to install and

maintain, but it is imperative that the network layout be

carefully planned and accurate documentation created and

maintained. This aids in compliance verification and future

expansion of the network. It also minimizes unknown or

inaccurate wire run lengths, node-to-node (device-to-device)

distances, node counts, total wire length, inaccurate repeater/

router locations, and misplaced or missing terminations.

LONWORKS® networks can be configured in a variety of ways;

refer to the E-Bus FTT Network Wiring Guidelines, form 74-

2865, for a complete description of network topology rules and

maximum network wire length. If longer runs are required, add

a Q7740A 2-way or Q7740B 4-way repeater to extend the

LONWORKS® Bus length. Q7751A routers are not supported

on LCBS LONSPEC™ configured systems. Approved cable

types for LONWORKS® Bus communications wiring are Level

IV, 22 AWG (0.34 sq mm) plenum or non-plenum rated

unshielded, twisted pair, solid or stranded conductor wire.

Refer to Table 2 for a list of Honeywell network cable part

numbers. Other Echelon® approved cable may also be used.

Run communications wiring in a conduit, if needed, with non-

switched 24 Vac or sensor wiring. The Free Topology

Transceiver (FTT) communications LONWORKS® Bus supports

a polarity insensitive, free topology wiring scheme that, in turn,

supports star, loop, and/or bus wiring.

6-3/4 (171)

2-3/16 (56)

1-9/16

(40)

4-1/2

(114)

2-1/32

(52)

2-1/32

(52)

4-1/16

(104)

1-5/8

(42)

2-3/8 (60)

3-1/4 (83)

6-9/16 (166) M22432

1-5/8

(42)

SUBBASE

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 8

LONMARK® Functional Profile

Fig. 3. T7350H LONMARK® Space Comfort Controller Rooftop Object (8504) with Node Object.

nv28

nv26 nvoSpaceTemp

SNVT_ temp_p

nv27 nvoUnitStatus

SNVT_hvac_status

nvoEffectSetpt

SNVT_temp_p

Hardware OutputHardware Output

Hardware Input

SCC-Rooftop

Object Number 8504.

Mandatory

Network

Variables

Manufacturer

Defined

Section

Optional

Network

Variables

Configuration Properties

nv45 nvoOutdoorTemp

SNVT_temp_p

nv29 nvoEffectOccup

SNVT_occupancy

nv30 nvoHeatCool

SNVT_hvac_mode

nv34 nvoDischAirTemp

SNVT_temp_p

nv37 nvoTerminalLoad

SNVT_lev_percent

nv43 nvoSpaceRH

SNVT_lev_percent

nv7 nviOccSensor

SNVT_occupancy

nv2 nviSetpoint

SNVT_ temp_p

nv6 nviOccManCmd

SNVT_occupancy

nv5 nviOccSchedule

SNVT_tod_event

nviSpaceTemp

SNVT_temp_p

nv1

nv8 nviApplicMode

SNVT_hvacMode

nv19 nviOutdoorTemp

SNVT_Temp_p

nv20 nviSpaceRH

SNVT_lev_percent

nv43 nvoBypass

SNVT_switch

nv44 nvoOccSchedule

SNVT_tod_event

nv45 nvoOccSensor

SNVT_occupancy

nv46 nvoData1

UNVT_data1

nv47 nvoData2

UNVT_data2

nv30 nviBypass

SNVT_switch

nv31 nviFanAuto

SNVT_switch

nv32 nviManValue

UNVT_manValue

nv34 nviDlcShed

UNVT_dlcShed

M22431

SNVT_time_sec

SNVT_temp_setpt

SNVT_time_min

UCPTconfig

UCPTconfigPts

UCPTdaylightSav

UCPTschedule0

UCPTschedule1

UCPTschedule2

UCPTschedule3

UCPTschedule4

UCPTschedule5

UCPTschedule6

UCPTschedule7

UCPTholSched

(mandatory)

(optional)

(mandatory)

(optional)

(manf specific)

nc1 - nciSndHrtBt

nc4 - nciRevHrtBt

nc2 - nciSetpoints

nc6 - nciBypassTime

nciConfig

nciConfigPts

nciDayLghtSav

nciDaySchedule0

nciDaySchedule1

nciDaySchedule2

nciDaySchedule3

nciDaySchedule4

nciDaySchedule5

nciDaySchedule6

nciDaySchedule7

nciHolSched

nv6

nv2 nvoStatus

SNVT_ obj_status

nvoFileStat

SNVT_file_status

Node

Object

Mandatory

Network

Variables

Manufacturer

Defined

Section

Optional

Network

Variables

Configuration Properties

nv3 nviTimeSet

SNVT_ time_stamp

nv7 nviFilePos

SNVT_file_pos

nv5 nviFileReq

SNVT_file_req

nviRequest

SNVT_obj_request

nv1

nv11 nroT7350Ver

UNVT_version

nv12 nroPgmVer

UNVT_pgmId

nv13 nvoPgm

UNVT_pgmOut

nv14 nvoTime

SNVT_time_stamp

nv15 nvoAlarmH

UNVT_alarm

nv16 nvoAlarmStatus

UNVT_alarmStatus

nv17 nvoAlarmLog

UNVT_alarmLog

nv18 nvoError

UNVT_error

nv9 nviInUse

UNVT_inUse

nv10 nviPgm

UNVT_pgmIn

UCPTdevName

UCPTapplVer

(manf specific)

nc1 - nciDeviceName

nc2 - nciApplVer

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

9 63-4368

NETWORK CONFIGURATIONS

The T7350H can be configured to perform a variety of

activities in which data is sent to and/or received from other

nodes on the LONWORKS® network. Information that can be

shared with other network devices includes:

— Current year, month, day, hour, minute, second.

— System mode (HEAT, COOL, AUTO, OFF, EM HEAT).

— Current fan setting (ON, AUTO).

— Space temperature.

— Space relative humidity.

— Discharge air temperature.

— Outdoor air temperature.

— Occupancy sensor status.

— Terminal load.

— Current setpoint.

— Occupied/Unoccupied schedule commands.

— Current occupancy status.

— Occupancy schedule including current occupancy state,

next state and time in minutes until next scheduled

change of occupancy state.

— Relay status (heat/cool stages and fan).

— Alarm status.

— Alarm log including the last five alarms.

— Device Error status.

— Bypass state (multiple XL10 devices follow the bypass

operation of a master device).

A network configuration tool is used to configure the T7350H

Thermostats and other nodes with which the T7350H

interacts. The following is a brief description of the

configurable features that can be commanded over the

network:

•Time Master:

When a T7350H is designated as the network time master,

the current time of day and date is synchronized across the

network every minute. The LONSPEC™ T7350H General

Screen can be used to configure a T7350H as the Network

Time Master. Whenever the time of day or date of the time

master is changed, it automatically adjusts all the other

network devices (T7350H, Q7300 & XL15A) bound to the

time master. When a T7350H is controlled by a time

master, the local day light saving schedule is disabled. The

Day Light Saving option on all time master recipients

should be disabled. This prevents erroneous time changes

(local daylight savings switchover) during temporary

network outages.

• Time Schedule:

The occupancy schedule used by a T7350H may reside

locally in that device or remotely in another schedule

device (T7350H, XL15a, XL15b or T7300/Q7300). Local

schedules can be created and modified using the T7350H

keypad, a direct connected PDA, a network connected

configuration tool (LONSPEC™) or Command Display.

External schedules can also be modified using the keypad

of the master schedule device, or with a network

connected configuration tool or Workstation. When a

T7350H receives scheduling information over the network,

the user is not prevented from making local schedule

changes at the recipient thermostat. Local schedule

changes (at a recipient device) have no effect on the

scheduling commands received from the master device.

When a T7350H is designated as a master schedule

device, it sends its schedule information (current state,

next state, time until next change of state) to the

appropriate T7350H(s) which, in turn, overrides any

existing internal time schedule. The T7350H Thermostat

can provide master scheduling information to multiple

Excel 10 devices. One T7350H shares the schedule

information (current state, next state, time until next

change of state) with the designated Excel 10 devices.

• System Mode Settings:

System mode settings (HEAT, COOL, AUTO, OFF, EM

HEAT) can be commanded by a remote T7350H or other

compatible XL10 device. A one to many network binding

can be used to command multiple devices from a single

unit. In addition, a network connected Workstation can be

used to change the System Mode.

• Fan Settings:

Fan settings (ON, AUTO) can be changed from a network

connected Workstation.

• Outdoor Air Temperature Sharing:

If a valid outdoor air temperature value is received at the

T7350H OAT network variable input, that value will be used

in the T7350H. The local OAT sensor of the T7350H is

ignored until the network sensor fails.

• Discharge Air Temperature Sharing:

The discharge air temperature value can be shared with

other devices on the network. Note that the T7350H does

not accept a network discharge air temperature input.

• Space Temperature Sharing:

If a valid space temperature value is received at the

T7350H Space Temperature network variable input, that

Source Destination

T7350H.nvoTime

XL15a.nvoTimeOut

Q7300.nvoTime

T7350H.nviTimeSet

XL15a.nviTimeIn

Q7300.nviTime

Source Destination

T7350H.nvoOccSchedule

XL15a.nvoTodEventCmd[i]

Q7300.nvoOccSchedulei

T7350H.nviOccSchedule

XL10.nviTodEvent

XL15c.nviTodEventIn[i]

Command Source Command Destination

T7350H.nvoHeatCool

or Workstation

T7350H.nviApplicMode

Source Destination

Workstation

or Network Tool

T7350H.nviFanAuto

Source Destination

T7350H.nviOutdoorTemp

XL10.nvoOdTemp

XL15c.nvoOdTemp

T7350H.nvoOutdoorTemp

XL10.nviOdTemp

XL15c.nviOdTemp

Source Destination

T7350H.nvoDischAirTemp XL15c.nviDATemp

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 10

value will be used in the T7350H as the primary controlled

variable. The local space temperature sensor of the

T7350H is ignored until the network sensor fails.

• Space Humidity Sharing:

If a valid humidity value is received at the T7350H Space

Humidity network variable input, that value will be used in

the T7350H as the humidity control variable. The local

space humidity sensor of the T7350H is ignored until the

network sensor fails.

• Current Setpoint Sharing:

If a valid setpoint value is received at T7350H nviSetpoint,

that value will be used by the T7350H as the center

setpoint. The heat and cool setpoints are then calculated

from this value and are used in the T7350H as the

occupied setpoints. During unoccupied periods,

nviSetpoint is ignored.

• Occupancy Sensor Sharing:

If a valid value is received at the T7350H occupancy

sensor network variable input, that value will be used in the

T7350H as the occupancy sensor. The local T7350H

occupancy sensor is ignored until the network sensor fails.

NOTE: The occupancy or motion sensor is active whenever

the device is scheduled “Occupied” and a remote or

network occupancy sensor is configured.

The T7350H effective occupancy is determined in Table 6.

Table 6. T7350H Effective Occupancy.

• Occupancy Bypass:

Any internal or external scheduled unoccupied state in the

T7350H is overridden by a network occupancy bypass

command. Bypass is a method to command unoccupied

override over the network from another controller (typically

a T7350H or XL10). The source controller manages the

bypass timing.

• Manual occupancy:

Provides a method to command the occupancy state from

a network workstation. Effective occupancy override works

on a “last in wins” basis. That is, the last occupancy

override command received from any source determines

the override state. The workstation can command

occupied, unoccupied, standby, bypass, or not active (null).

There are several ways to return the device to normal

schedule operation.

1. Power failure reset at the T7350H.

2. Workstation issues a “not active” (null) network com-

mand to T7350H.nviOccManCmd.

3. User activates “Temporary Occupied” button on the

local keyboard. This can be followed by a “Run Sched-

ule” local command.

4. If manual occupancy is commanded to bypass and the

bypass timer times out.

APPLICATION STEPS

Overview

The application steps shown in Table 7 are guidelines for

configuring the T7350H in a LONWORKS® Bus network and

explain the network role of the T7350H.

Table 7. Application Steps.

Source Destination

T7350H.nvoSpaceTemp

or XL10.nvoSpaceTemp

T7350H.nviSpaceTemp

Source Destination

T7350H.nvoSpaceRH T7350H.nviSpaceRH

or XL15c.nviRARH

Source Destination

T7350H.nvoEffectSetpt

or XL10.nvoEffectSetpt

T7350H.nviSetpoint

Source Destination

T7350H.nvoOccSensor

or XL10.nvoSensorOcc

NetworkSensor

T7350H.nviOccSensor

Schedule

Occupancy

Occupancy/Motion

Sensor Contact

Effective

Occupancy

Occupied Open Standby

Occupied Closed Occupied

Standby NA Standby

Unoccupied NA Unoccupied

Source Destination

T7350H.nvoBypass

XL10.nvoBypass

XL15a.nvoBypass[i]

XL15c.nvoBypass[i]

T7350H.nviBypass

Source Destination

Workstation

Command Display

XL15b

T7350H.nviOccManCmd

Step Description

1 Plan the system.

2 Determine required network devices.

3 Lay out communications and power wiring.

4 Prepare wiring diagrams.

5 Order equipment.

6 Configure T7350.

7 Troubleshooting.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

11 63-4368

Refer to the Light Commercial Building Solution System

Communication Guide form 71-3123 and the E-Bus Wiring

Guidelines, form 74-2865 for a complete description of

network topology rules. Prepare Wiring Diagrams, for wiring

details. Plan to configure each controller. Refer to the Excel

LONSPEC™ User Guide, form 74-2937, to configure the

T7350H, XL15 and XL10 Controllers.

Step 1. Plan the System

Plan the use of the T7350H Thermostat according to the job

requirements. Determine the location and functionality of each

device. Verify the sales estimate for the number of other

controllers and devices required. Check the number and type

of other required accessories. When planning the system

layout, consider potential expansion possibilities for future

growth. Planning is very important if HVAC systems and

controllers are to be added in future projects.

Fig. 4. Connecting personal computer to LonWorks® bus.

Step 2. Determine Required Network Devices

A maximum of 60 nodes can communicate on a single

LONWORKS® Bus segment. Each LONWORKS® Bus device

comprises one node. If more than 60 nodes are needed, a

Q7751A Router or Q7740 Repeater is necessary. A router or

repeater allows up to 120 controller nodes per network,

divided between two LONWORKS® Bus segments. Please note

that routers are not supported by the LCBS LONSPEC™

system configuration tool. Refer to the Light Commercial

Building Solution System Communication Guide form 71-3123

for LCBS details. Refer to the E-Bus Wiring Guidelines, form

74-2865, for a complete description of network topology rules

and maximum wire lengths. A 209541B Termination Module

may be required. Refer to the Excel 10 FTT Termination

Module Installation Instructions form, 95-7554.

Step 3. Layout Communications and Power

Wiring:

LONWORKS® Bus Layout

The communications LONWORKS® Bus, is a 78-kilobit network

that uses transformer isolation and differential Manchester

encoding. The Free Topology Transceiver (FTT) LONWORKS®

communications Bus supports a polarity insensitive, free

topology wiring scheme, refer to the E-Bus Wiring Guidelines

form, 74-2865, for a complete description of LONWORKS®

network topology rules. Fig. 5 shows T7350H devices

connected in a typical free topology LONWORKS® network.

Fig. 5. Typical topology for T7350 devices in LONWORKS® network.

M22492

NOTEBOOK PC

RS-232

SERIAL

PORT

Q7760

SLTA

CABLE

PART

NO. 205979

SHIELDED

INTERFACE

CABLE T7350H

LonWorks

BUS PORT

NOTEBOOK PC

RS-232

SLTA

RS-232

T7350H

MODEM

M22493

LonWorks BUS

T7770

WITH NO

LonWorks

BUS ACCESS

T7770

JACK FOR OPERATOR TERMINAL

LonWorks BUS

I/O CONNECTIONS

T7350H T7350H T7350H

T7350H T7350H T7350H T7350H

T7350H

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 12

Cable Termination

The FTT network segment requires termination for proper

data transmission performance. Use a 209541B Termination

Module to connect two of the three termination module wires

to the LONWORKS® Bus terminals. Refer to LONWORKS® Bus

Wiring Guidelines form 74-2865 for details.

Singly Terminated Network Segment

In a singly terminated topology segment, only one termination

is required and can be placed anywhere on the segment.

Singly terminated segments use the yellow and brown wires.

If the network topology requires a singly terminated

termination module at a T7350H, connect the singly

terminated module wiring on the appropriate terminals as

shown in Fig. 6.

Fig. 6. Singly terminated LonWorks® bus termination

module.

Doubly Terminated Daisy-Chain Network Segment

In a doubly terminated daisy-chained topology segment, two

terminations are required, one at each end of the topology

segment. Doubly terminated segments use the orange and

brown wires. If the network topology requires a doubly

terminated module at a T7350H (T7350H is the first or last

device on the network cable) connect the termination module

wiring on the appropriate terminals as shown in Fig. 7. For

additional wiring information, refer to the E-Bus Wiring

Guidelines, form 74-2865, and the Excel 10 FTT Termination

Module Installation Instructions, form 95-7554.

Fig. 7. Doubly terminated LONWORKS® bus termination

modules.

CAUTION

Electrical Shock or Equipment Damage Hazard.

Can shock individuals or short equipment

circuitry.

Disconnect power supply before installation.

IMPORTANT

All wiring must agree with applicable codes, ordi-

nances and regulations.

1. Loosen subbase terminal screws and connect system

wires.

NOTE: Maximum (and recommended) wire size is 18-

gauge. Do not use wire smaller than 22-gauge. Fol-

low equipment manufacturer wiring instructions

when available. Refer to the Wiring Diagram section

for typical hookups. A letter code is located near

each terminal for identification. Refer to the Specifi-

cations section, Tables 8 and 9 for terminal designa-

tions.

2. Securely tighten each terminal screw.

3. Push excess wire back into the hole in the wall.

4. Plug the hole with nonflammable insulation to prevent

drafts from affecting the thermostat.

Wiring Details

LONWORKS® network cable should be wired separately from

the power and I/O wires when installing T7350H models. If

this is not possible, use a minimum of 4 in. (102 mm)

separation between split ferrite cores (Fair-Rite 0443164151,

www.fair-rite.com) to ensure compliance with Class B limits

(does not apply to Class A limits). See Fig. 8 to apply ferrite

cores to LONWORKS® Bus input and output.

Step 4. Prepare Wiring Diagrams

Fig. 9 through 12 show T7350 terminal arrangements and

provide detailed wiring diagrams. Reference these diagrams

to prepare the site-specific job drawings.

Fig. 8. Ferrite core wires from T7350H to LONWORKS®

inputs and outputs.

ORANGE

BROWN YELLOW

PART NO. 209541B

TERMINATION MODULE

M22494

AUX

SUBBASE

W1 GY1

W3/Y4 Y3 W2 Y2

AUXRH

T5 T6 T7 T4 T3

OSOS ASAS

MHC HPHSEB

YELLOW

BROWN ORANGE

PART NO. 209541B

TERMINATION MODULE

M22495

AUX

SUBBASE

W1 GY1

W3/Y4 Y3 W2 Y2

AUXRH

T5 T6 T7 T4 T3

OSOS ASAS

MHC HPHSEB

M22496

WIRES TO T7300H

COMMUNICATING SUBBASE

WIRES TO T7300H

COMMUNICATING SUBBASE

WIRES TO ALL

INPUTS AND

OUTPUTS

WIRES TO ALL

INPUTS AND

OUTPUTS

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

13 63-4368

Fig. 9. Typical hookup of T7350H1009 in three-stage heat and three-stage cool conventional system with one

transformer.

Fig. 10. Typical hookup of T7350H1009 with auxiliary transformer.

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.

ENSURE TRANSFORMER IS SIZED TO HANDLE THE LOAD.

HEAT/COOL SYSTEMS WITH ONE TRANSFORMER REQUIRE THE FACTORY-INSTALLED JUMPER.

USE ECONOMIZER INSTRUCTIONS FOR INSTALLATION DIRECTIONS.

M22499

AUX

SUBBASE

W1 G

T7770 REMOTE SENSOR

W3/Y4 Y3 W2 Y2

AUXRH

T5 T6 T7 T4 T3

DISCHARGE

AIR

SENSOR

OUTDOOR

AIR

SENSOR

MOTION

SENSOR

HUMIDITY

SENSOR

OSOS ASAS

MHC HPHSEB

LONWORKS®

BUS

COMPRESSOR

CONTACTOR 1

COMPRESSOR

CONTACTOR 2

HEAT

RELAY 1

123456789

FAN

RELAY

ECONOMIZER

HEAT

RELAY 2

COMPRESSOR

CONTACTOR 3

HEAT

RELAY 3

LONWORKS®

BUS

(HOT)

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.

ENSURE TRANSFORMER IS SIZED TO HANDLE THE LOAD.

HEAT/COOL SYSTEMS WITH ONE TRANSFORMER REQUIRE THE FACTORY-INSTALLED JUMPER.

USE ECONOMIZER INSTRUCTIONS FOR INSTALLATION DIRECTIONS.

M22497

AUX

SUBBASE

W1 G

T7770 REMOTE SENSOR

W3/Y4 Y3 W2 Y2

AUXRH

T5 T6 T7 T4 T3

DISCHARGE

AIR

SENSOR

OUTDOOR

AIR

SENSOR

MOTION

SENSOR

HUMIDITY

SENSOR

OSOS ASAS

MHC HPHSEB

(HOT)

LONWORKS®

BUS

COMPRESSOR

CONTACTOR 1

COMPRESSOR

CONTACTOR 2

HEAT

RELAY 1

123456789

FAN

RELAY

HEAT

RELAY 2

COMPRESSOR

CONTACTOR 3

HEAT

RELAY 3

LONWORKS®

BUS

ECONOMIZER

AUXILIARY

TRANSFORMER

(HOT)

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 14

Fig. 11. Typical hookup of T7350H1017 for system with two independent heat stages (one modulating), two independent

cool stages (one modulating), and two transformers.

Fig. 12. Typical hookup of T7350H1017 for system with two independent heat stages (one modulating), two independent

cool stages (one modulating), and three transformers.

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.

WHEN INSTALLED ON A SYSTEM WITH TWO TRANSFORMERS, REMOVE THE FACTORY-INSTALLED JUMPER.

USE ECONOMIZER INSTRUCTIONS FOR INSTALLATION DIRECTIONS.

M22498

RCX

SUBBASE

W1 G

AUX

T7770 REMOTE SENSOR

AH AC

AUXRH

T5 T6 T7 T4 T3

DISCHARGE

AIR

SENSOR

OUTDOOR

AIR

SENSOR

MOTION

SENSOR

HUMIDITY

SENSOR

OSOS AS AXAS

MHC HPHSEB

HEATING

TRANSFORMER COOLING

TRANSFORMER

COMPRESSOR

CONTACTOR 1

HEAT

RELAY 1

123456789

FAN

RELAY

ECONOMIZER

MODULATING

HEAT

(4-20 mA)

–

MODULATING

COOL

(4-20 mA)

–

LONWORKS®

BUS

LONWORKS®

BUS

(HOT) L1

(HOT)

M22491

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND OVERLOAD PROTECTION AS REQUIRED.

WHEN INSTALLED ON A SYSTEM WITH TWO TRANSFORMERS, REMOVE THE FACTORY-INSTALLED JUMPER.

USE ECONOMIZER INSTRUCTIONS FOR INSTALLATION DIRECTIONS.

RCX

SUBBASE

W1 G

T7770 REMOTE SENSOR

MH MC

AUXRH

T5 T6 T7 T4 T3

DISCHARGE

AIR

SENSOR

OUTDOOR

AIR

SENSOR

MOTION

SENSOR

HUMIDITY

SENSOR

OSOS AS MXAS

MHC HP

(HOT)

HEATING

TRANSFORMER

COOLING

TRANSFORMER

COMPRESSOR

CONTACTOR 1

HEAT

RELAY 1

123456789

FAN

RELAY

ECONOMIZER

MODULATING

HEAT

(4-20 mA)

–

MODULATING

COOL

(4-20 mA)

–

L2 AUXILIARY

TRANSFORMER

AUX

LONWORKS®

BUS

LONWORKS®

BUS

(HOT)

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

15 63-4368

General Considerations

Table 8 lists wiring types, sizes and distances for the T7350

and Excel 10 products. The T7350 terminal strip accepts 18

through 22 AWG (0.82 to 0.34 sq. mm) wire.

Table 8. Field Wiring Reference.

NOTE: 1. The X, RH and RC terminals will accept 14 to 22 AWG. 14 and 16 AWG should be avoided since the stiff cable

interferes with the cover to subbase installation.

Wire Function

Recommended Wire

Size (Minimum)

Specification or

Requirement

Honeywell Part

Number Distance (Maximum)

Digital Outputs:

W Y G AUX X

18 AWG (0.82 sq mm)

five wire cable bundle.

Standard thermostat

wire.

AK3726 1000 feet.

Modulating Outputs:

MX MH MC

18 AWG (0.82 sq mm) 1 pair per output. AK3757C, AK3744C,

AK3741A, AK3702x

1000 feet.

Remote Humidity

Sensor:

HS HC HP

18 to 22 AWG

(0.82 to 0.34 sq mm)

3 wires. AK3746C, AK3724,

AK3703x

500 feet.

Discharge Air

Temperature Sensor:

18 to 22 AWG

(0.82 to 0.34 sq mm)

1 pair. AK4606ABE,

AK4628AWH,

AK3702x, AK3741A,

AK3744C, AK3757C

1000 feet.

Outdoor Air

Temperature Sensor:

18 AWG (0.82 sq mm) 1 pair. AK3757C, AK3744C,

AK3741A, AK3702x

500 feet.

Motion Sensor:

18 to 22 AWG

(0.82 to 0.34 sq mm)

1 pair. AK4606ABE,

AK4628AWH,

AK3702x, AK3741A,

AK3744C, AK3757C

1000 feet.

Wall Module

connections:

T3-T7

18 to 22 AWG

(0.82 to 0.34 sq mm)

Twisted pair wire is

recommended for wire

runs longer than 100

ft. The number of pairs

depends on the model

and functions

selected.

AK4606ABE,

AK4628AWH,

AK3702x, AK3741A,

AK3744C, AK3757C,

AK3726

1000 feet.

Power Wiring to:

X RH RC

18 to 141 AWG

(0.82 to 2.0 sq mm)

use heavier wire for

longer runs.

NEC Class II,

140°F (60°C) rating.

AK3702x, AK3741A,

AK3744C, AK3757C,

AK3712x, AK3754

Limited by line-loss

effects on power

consumption.

LONWORKS® Bus

(Non-Plenum).

22 AWG

(0.34 sq mm)

Nema Level IV

U.L. Type CMR

Twisted pair stranded

conductor,

nonshielded.

AK3798 (1 pair) Refer to E-bus Wiring

Guidelines Users

Guide 74-2865 for

maximum length and

generic cable

specifications.

LONWORKS® Bus

(Plenum Rated).

22 AWG

(0.34 sq mm)

Nema Level IV

U.L. Type CMP

Twisted pair stranded

conductor,

nonshielded.

AK3797 (1 pair)

AK3799 (2 pair)

—

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 16

Table 9. Honeywell Cable Details.

Honeywell Part

Number Size (AWG) Number of wires Jacket Plenum Rated Description

AK3798 22 2 Yes No E-bus cable.

AK3797 22 2 Yes Yes E-bus cable.

AK3799 22 4 Yes Yes E-bus cable.

AK4606ABE 22 2 Yes No Beige jacket.

AK4628AWH 22 2 Yes Yes White jacket.

AK3702x 18 2 No No —

AK3741A 18 2 Yes No —

AK3744C 18 2 Yes Yes Red jacket.

AK3757C 18 2 Yes Yes White jacket.

AK3703x 18 3 No No —

AK3724 18 3 Yes No Tan jacket.

AK3746C 18 3 Yes Yes Tan jacket.

AK3726 18 5 Yes No Tan jacket.

AK3712x 16 2 No No TFN

AK3754 14 2 No No TFN

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

17 63-4368

Step 5. Order Equipment

After compiling a bill of materials through completion of the

previous application steps, refer to Table 10, Ordering

Information.

Table 10. Ordering Information.

Step 6. Configure T7350

Use Excel LONSPEC™ Software to configure the T7350H

Thermostat for specific applications. The Excel LONSPEC™

User’s Guide, form 74-2937, provides software operation

instructions for this personal computer based application.

Part Number Product Description Comments

T7350H1009 Communicating Thermostat with three heating and

three cooling digital outputs.

• Optional heat pump control.

• Isolated auxiliary digital output.

T7350H1017 Communicating Thermostat with two modulating

outputs, one heating and one cooling digital output.

• Isolated auxiliary digital output.

T7771A Remote Temperature Sensor. • Pushbutton setpoint adjustment with LED indicators.

• Occupied/unoccupied override (bypass) with LED.

•L

ONWORKS® Bus jack.

T7770A1006 Remote Wall Module. • Basic model with room temperature sensor.

T7770B1046 Remote Wall Module. • ± setpoint change.

T7770C1044 Remote Wall Module. • ± setpoint change.

• OCC button and LED.

T7770D1000 Remote Wall Module. • OCC button and LED.

AK3798 LONWORKS® Bus (Non-Plenum), 1 pair. —

AK3797 LONWORKS® Bus (Plenum rated), 1 pair. —

AK3799 LONWORKS® Bus (Plenum rated), 2 pair. —

209541B FTT Network Termination Module. —

H7625

H7635

Remote Humidity Sensors —

C7089A

C7170A,

C7031G2014

Outdoor Air Sensors. —

C7041B

C7041C

C7041J

C7770A

Duct Discharge Air Sensors:

6 inch probe.

18 inch probe.

150 inch averaging.

6 inch probe.

—

50000452-

001

Troubleshooting Cable. One Troubleshooting Cable required for each

installation technician.

50000083-

001

Thermostat Interface Module (TIM). One TIM required for each installation technician. Note

that a network tool such as LONSPEC™ eliminates the

need for a TIM.

PDA Qualified Palm OS PDA. One PDA required for each installation technician.

Refer to the PDA Configuration Software for an up-to-

date list of qualified PDA hardware. Note that a network

tool such as LONSPEC™ eliminates the need for a PDA.

50000314-

001

PDA Configuration Software. One Configuration software package can be used to

program multiple PDAs. Note that a network tool such

as LONSPEC™ eliminates the need for a PDA.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 18

Step 7. Troubleshooting

Table 11. Troubleshooting Information.

Symptom Possible Cause Action

Display will not

come on.

Thermostat is not being powered. Check that X terminal is connected to the system transformer.

Check for 24 Vac between X and RH terminals.

If missing 24 Vac:

•Check if circuit breaker is tripped; if so, reset circuit breaker.

•Check if system fuse is blown; if so, replace fuse.

•Check if the HVAC equipment power switch is in the Off position; if

so, set to the On position.

•Check wiring between thermostat and HVAC equipment. Replace

broken wires and tighten loose connections.

If 24 Vac is present, proceed with troubleshooting.

Temperature

display is

incorrect.

Room temperature display has been

recalibrated.

Use PDA or LONSPEC™ configuration software to recalibrate as

desired.

Thermostat is configured for °F or °C

display.

Press both Run Schedule and Copy, then reconfigure the display.

Bad thermostat location. Relocate the thermostat.

Display shows three dashes and a

degree sign (all systems shut down).

T7350 is set for remote sensing and sensor is missing or circuit is

either open or shorted.

Temperature

settings will not

change.

(Example: Cannot

set heating higher

or cooling lower.)

Upper or lower temperature limits

were reached.

Check the temperature setpoints:

•Heating limits are 40 to 90°F (7 to 31°C)

•Cooling limits are 45 to 99°F (9 to 37°C)

Occupied setpoint temperature

range stops were configured.

Using a PDA or LONSPEC™, check setpoint stops. If necessary,

reconfigure the stop(s).

Keypad is locked. When a locked

key is pressed, LOCKED appears

momentarily on the LCD.

•Use PDA or LONSPEC™ (Set, Display) to unlock keypad.

•Press both Run Schedule and Copy, then change keypad lock

level.

Room

temperature is out

of control.

Remote temperature sensing is not

working.

Check all remote sensors.

Heat will not come

on.

No power to the thermostat. Check that X terminal is connected to the system transformer.

Check for 24 Vac between X and RH terminals.

If missing 24 Vac:

•Check if circuit breaker is tripped; if so, reset circuit breaker.

•Check if system fuse is blown; if so, replace fuse.

•Check if the HVAC equipment power switch is in the Off position; if

so, set to the On position.

•Check wiring between thermostat and HVAC equipment. Replace

broken wires and tighten loose connections.

If 24 Vac is present, proceed with troubleshooting.

Thermostat minimum off time is

activated.

•Wait up to five minutes for the system to respond.

•Use PDA or LONSPEC™ to configure heating response.

System selection is set to Off or

Cool.

Set system selection to Heat or Auto.

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Cooling will not

come on.

No power to the thermostat. Check that X terminal is connected to the system transformer.

Check for 24 Vac between X and RH terminals.

If missing 24 Vac:

•Check if circuit breaker is tripped; if so, reset circuit breaker.

•Check if system fuse is blown; if so, replace fuse.

•Check if the HVAC equipment power switch is in the Off position; if

so, set to the On position.

•Check wiring between thermostat and HVAC equipment. Replace

broken wires and tighten loose connections.

If 24 Vac is present, proceed with troubleshooting.

Thermostat minimum off time is

activated.

•Wait up to five minutes for the system to respond.

•Use PDA or LONSPEC™ to configure cooling response.

System selection is set to Off or

Heat.

Set system selection to Cool or Auto.

System indicator

(flame: heat,

snowflake: cool) is

displayed, but no

warm or cool air is

coming from the

registers.

The call for heat or cool is not yet

given.

Check if any stage indicators (dots next to the system indicator) are

displayed. With no display of stage indicators, no call for cool/heat is

yet given.

For the modulating T7350H1017 only: Check the information

screens. MODHEAT or MODCOOL percentages of zero and 100

indicate an extreme signal from the given terminal.

Conventional heating equipment

turns the fan on only after the

furnace has warmed to a setpoint.

Wait one minute after seeing the on indicator and then check the

registers.

Heating or cooling equipment is not

operating.

Verify operation of heating or cooling equipment in self-test.

Table 11. Troubleshooting Information. (Continued)

Symptom Possible Cause Action

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APPENDIX A - NETWORK TOOLS & WORKSTATIONS

Table 12. T7350H Operational Support.

Network Tools & Workstations

Summary of

T7350H Operational Support

LONSPEC™

LONSTATION™

W7760B -

XL15B

Cmd Display -

S7760

CARE

LNS Plugin

DataMon

Device Configuration X X X

View & Modify Weekly Schedule X X X X X

View & Modify Holiday Schedule X X X X X

Data Monitoring XXXXXX

Command Outputs to Manual Value X X X X

Override System Delays X X X X

Room Temperature Calibration X X X

Command Occupancy Override XXXXXX

Command Fan Operation (On Auto) X X X X

Command System Mode (off, auto, heat, cool) X X X X

View & Modify Temperature Setpoints XXXXXX

Report T7350 alarm data XXXX

Network Time Scheduler for T7350 Devices X

Generate Trend & Log files with T7350 data X

User defined T7350 analog & digital alarms X

Update T7350 Time Clock XXXXXX

Set T7350 as network Time Master X

View T7350 Cover Firmware Version X X X

Update T7350 Cover Firmware X

View T7350H SubBase Firmware Version X X X

Update T7350H SubBase Firmware X

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APPENDIX B - NETWORK ALARM REPORTING

Table 13. T7350H Alarm Change of State Event.

A T7350H alarm change of state event is reported by the manufacturer defined output network variable nvoAlarmH.

nvoAlarmH Field Description

subnet The LONWORKS® subnet number in the domain entry to which nvoAlarmH is bound. If nvoAlarmH is not

bound, it reports domain index 0.

0: Invalid subnet (power up value)

1-255: Subnet number

node The LONWORKS® node number in the domain entry to which nvoAlarmH is bound. If nvoAlarmH is not

bound, it reports domain index 0.

0: Invalid entry (power up value)

1-127: Node number

type The alarm type being issued.

0: AT_NO_ALARM (power up value)

1: AT_INVALID_SUBBASE_TYPE

2: AT_NETWORK_COMM_FAIL

3: AT_SENSOR_FAIL

4: AT_INVALID_IO_CONFIG

5: AT_COVER_COMM_FAIL

6: AT_COVER_SUBBASE_MISMATCH

Return to Normal Codes

-127: AT_rtnINVALID_SUBBASE_TYPE

-126: AT_rtnNETWORK_COMM_FAIL

-125: AT_rtnSENSOR_FAIL

-124: AT_rtnINVALID_IO_CONFIG

-123: AT_rtnCOVER_COMM_FAIL

-122: AT_rtnCOVER_SUBBASE_MISMATCH

-1: AT_ALARM_NOTIFY_DISABLED

Table 14. T7350 Current Alarm Status.

The T7350 current alarm status is reported by the manufacturer defined output network variable nvoAlarmStatus.

nvoAlarmStatus

Field Description

coverCommFail Communications between the cover and sub-base.

0: No alarm (power up value).

1: The communications between the thermostat cover assembly and the sub-base has failed in one or

both directions. The data from the cover to the sub-base has not been received for at least 90

seconds, or data from the sub-base is not updating the cover assembly.

invalidIOConfig Output configuration error.

0: No alarm (power up value).

1: The number of outputs configured exceeds the capability of the sub-base to support them.

Considers sub-base type, heat pump/conventional application, maxCoolStgs, maxHeatStgs.

sensorFail Sensor failure.

0: No alarm (power up value).

1: One of the analog sensors on the cover assembly has failed or is out of range (high or low).

networkCommFail Network Communications Failure.

0: No alarm (power up value).

1: One of the bound network input network variables is not being updated periodically. This alarm may

be caused by a failed node or a damaged LONWORKS NETWORK cable.

invidSubBaseTyp Sub-base type error.

0: No alarm (power up value).

1: The detected sub-base type is not supported by the firmware version of the cover assembly.

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Table 15. Identifying Five Most Recent T7350 Alarms.

The five most recent T7350 alarms are identified in the manufacturer defined output network variable nvoAlarmLog.

nvoAlarmLog Field Description

alarm1 Alarm log: Most recent alarm.

Alarm Codes

0: AT_NO_ALARM (power up value)

1: AT_INVALID_SUBBASE_TYPE

2: AT_NETWORK_COMM_FAIL

3: AT_SENSOR_FAIL

4: AT_INVALID_IO_CONFIG

5: AT_COVER_COMM_FAIL

6: AT_COVER_SUBBASE_MISMATCH

Return to Normal Codes

-127: AT_rtnINVALID_SUBBASE_TYPE

-126: AT_rtnNETWORK_COMM_FAIL

-125: AT_rtnSENSOR_FAIL

-124: AT_rtnINVALID_IO_CONFIG

-123: AT_rtnCOVER_COMM_FAIL

-122: AT_rtnCOVER_SUBBASE_MISMATCH

-1: AT_ALARM_NOTIFY_DISABLED

alarm2 Alarm log: 2nd most recent alarm.

0: No alarm (power up value).

alarm3 Alarm log: 3rd most recent alarm.

0: No alarm (power up value).

alarm4 Alarm log: 4th most recent alarm.

0: No alarm (power up value).

alarm5 Alarm log: Oldest alarm.

0: No alarm (power up value).

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APPENDIX C - NETWORK ERROR REPORTING

Table 16. Reporting T7350H Errors.

T7350H errors are reported through the manufacturer defined output network variable, nvoError.

nvoError Field Description

errLoclSpaceSensr Local space temperature sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured to function and is out of range or disconnected.

errRemtSpaceSensr Remote space temperature sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured to function and is out of range or disconnected.

errNetSpaceSensr Network space temperature sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured by the thermostat to function but is not being updated by either the bound

network sensor or by the subbase (faulty subbase).

errLoclHumSensr Local Humidity sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured to function and is out of range or disconnected.

errRemtHumSensr Remote Humidity sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured to function and is out of range or disconnected.

errNetHumSensr Network Humidity sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured by the thermostat to function but is not being updated by either the bound

network sensor or by the subbase (faulty subbase).

errRemtOdSensr Remote Outdoor air sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured to function and is out of range or disconnected.

errNetOdSensr Network Outdoor air sensor not working.

0: Sensor value is OK. (power up value)

1: Sensor is configured by the thermostat to function but is not being updated by either the bound

network sensor or by the subbase (faulty subbase).

errRemtSetPt Remote wall module set point is out of range or disconnected.

0: Value is OK. (power up value)

1: Remote wall module set point is configured to function and is out of range or disconnected.

errDischSensr Discharge sensor out of range or disconnected.

0: Sensor value is OK. (power up value)

1: Sensor is configured to function and is out of range or disconnected.

errIOConfig Output configuration error. Considers sub-base type, heat pump / conventional application.

maxCoolStgs, maxHeatStgs.

0: The outputs configuration is consistent with the sub-base type selected (power up value)

1: The number of outputs configured exceeds the capability of the sub-base to support them.

errSubBaseType Sub-base type error.

0: The sub-base is a valid sub-base type (power up value)

1: The detected sub-base type is not supported by the firmware version of the cover assembly.

errUnused1 Not currently used

errSelfTest Self test failure. Upon factory test power up, a self test of memory is performed. If external RAM,

EEPROM, or application FLASH memory fails the test, nvoError.errSelfTest is set. This bit is intended

for use in production testing. Field devices should ignore this bit.

0: Passed the test

1: Failed the test

errCoverCommFail Communications between the cover and sub-base

0: No error (power up value)

1: The communications between the thermostat cover assembly and the sub-base has failed in

one or both directions. The data from the cover to the sub-base has not been received for at least

90 seconds, or data from the sub-base is not updating the cover assembly.

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nvoError Field Description

errSubBaseVerMisMatch Sub-base/cover firmware mismatch.

0: Sub-base and cover firmware are compatible. (power up value)

1: The firmware version in the sub-base is unable to communicate correctly with the firmware

version of the cover assembly. The cover assembly Public Interface number of the sub-base is not

compatible with the Public Interface number of the sub-base. That is nroT7350Ver.commVer does

not match the version supported by the sub-base. Communications with the sub-base is turned

off.

errNviSpaceTemp nviSpaceTemp network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure)

errNviOccSchedule nviOccSchedule network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure).

errNviOccSensor nviOccSensor network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure)

errNviApplicMode nviApplicMode network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure)

errNviOutdoorTemp nviOutdoorTemp network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure)

errNviSpaceRH nviSpaceRH network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure)

errNviBypass nviBypass network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure)

errNviDlcShed nviDlcShed (Demand Limit Control Shed signal) network variable is:

0: either not bound or is bound and being updated periodically (power up value)

1: bound and not being updated periodically (communications or source node failure)

Table 16. Reporting T7350H Errors. (Continued)

T7350H errors are reported through the manufacturer defined output network variable, nvoError.

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APPENDIX D - NETWORK ACCESS TO LOCAL SENSOR DATA

APPENDIX E - SCHEDULING

NETWORK DEVICES

A T7350H can be used to time schedule the following

Honeywell controllers:

• Another T7350H.

• T7300/Q7300.

• XL15C application objects (Control loops/StartStop loops).

• XL10 controllers.

A single T7350 can be configured to schedule all (up to 119)

of the compatible controllers connected to the same network.

This is accomplished by a one to many binding from the

source T7350 to the destination controller or object.

T7350.nvoOccSchedule > XL10.nviOccSchedule.

LONSPEC™ automatically implements these NV bindings

based on the selection of Unscheduled Objects (XL10(s),

Q7300(s), T7300H(s) and XL15cAP(s) located on the

LONSPEC™ T7350 Scheduling Screen.

APPENDIX F - NETWORK MASTER

CLOCK

A T7350H can be used as the network time master for the

following network connected Honeywell controllers:

• Another T7350H.

• T7300/Q7300.

• XL15A.

This is accomplished by a one to many binding from the

source T7350H to the destination controller. The following is

an example NV binding of one T7350H as a time master to

another.

T7350H.nvoTime > T7350H.nviTimeSet

LONSPEC™ automatically implements these NV bindings

based on the selection of Network Time Master check box on

the T7350 General configuration screen. The Day Light

Saving Start and Stop Month on all time master recipients

should be configured to None (invalid). This prevents

erroneous time changes during temporary network outages.

Table 17. T7350H Reports Local Sensor Data.

The T7350H reports local sensor data using the following output network variables.

Nv Name

LonSpec Reference

Name Description

nvoDischAirTemp Discharge Temperature

Out

The current discharge air temperature. The sensor value source is configured

by nciConfig.dischAirSensor. A value of 327.67 means the sensor is not

functioning correctly or is out of range.

327.67: Power up value

nvoOccSensor Occupancy Sensor Out Status of occupancy sensor

0: OC_OCCUPIED

1: OC_UNOCCUPIED

-1: OC_NUL (not configured and power up value)

nvoOutdoorTemp Outdoor Temperature Out The current outdoor temperature. The sensor value source is specified by

nciConfig.oDAirSensor. A value of 327.67 means the sensor is not functioning

correctly or is out of range.

327.67: Power up value

nvoSpaceRH Space Humidity Out The current space humidity. The sensor value source is specified by

nciConfig.humiditySensor. A value of 163.84 means the sensor is not

functioning correctly or is out of range.

163.84: Power up value

nvoSpaceTemp Space Temperature Out The current space temperature. The sensor value source is specified by

nciConfig.spaceSensor. A value 327.67 means the sensor is not functioning

correctly or is out of range.

327.67: power up value

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APPENDIX G - NETWORK CONNECTIONS TO OTHER LCBS DEVICES

Table 18. Network Connections to XL15A AP Inputs.

T7350H Network Variable Outputs can be used as inputs to XL15A application objects.

XL15A

Application Object Application Input

Source T7350H

Network Variable Network Variable Field

Analog Alarm Selected Analog Value nvoSpaceTemp

nvoDischAirTemp

nvoTerminalLoad

nvoSpaceRH

nvoOutdoorTemp

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

Digital Alarm Selected Digital Value nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

nvoData2 dehumidActive

Bypass Logs Select Bypass Object nvoEffectOccup

Run Times Select Point Name nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

Trends Trend Pt nvoSpaceTemp

nvoEffectSetpt

nvoEffectOccup

nvoHeatCool

nvoDischAirTemp

nvoTerminalLoad

nvoSpaceRH

nvoOutdoorTemp

nvoData1 HeatStgsOn

nvoData1 CoolStgsOn

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

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XL15A

Application Object

Application Input Source T7350H

Network Variable

Network Variable Field

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

nvoData2 dehumidActive

DLC Override If nvoSpaceTemp

Demand Limit Control nvoEffectSetpt

nvoDischAirTemp

nvoTerminalLoad

nvoSpaceRH

nvoOutdoorTemp

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

Analog Logic Function Analog Input nvoSpaceTemp

nvoEffectSetpt

nvoDischAirTemp

nvoTerminalLoad

nvoSpaceRH

nvoOutdoorTemp

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

Digital Logic Function Digital Input nvoAlarmStatus CoverCommFail

nvoAlarmStatus InvalidIOConfig

nvoAlarmStatus SensorFail

nvoAlarmStatus networkCommFail

nvoAlarmStatus InvalidSubBaseType

nvoError errLoclSpaceSensr

nvoError ErrRemtSpaceSensr

nvoError ErrNetSpaceSensr

nvoError ErrLoclHumSensr

nvoError ErrRemtHumSensr

nvoError errNetHumSensr

nvoError ErrRemtOdSensr

nvoError ErrNetOdSensr

nvoError ErrRemtSetPt

nvoError ErrDischSensr

nvoError errIOConfig

nvoError errSubBaseType

nvoError errSubBaseVerMisMatch

nvoError errNviSpaceTemp

nvoError errNviOccSchedule

nvoError errNviOccSensor

nvoError errnviApplicMode

nvoError errnviOutdoorTemp

Table 18. Network Connections to XL15A AP Inputs. (Continued)

T7350H Network Variable Outputs can be used as inputs to XL15A application objects.

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63-4368 28

XL15A

Application Object

Application Input Source T7350H

Network Variable

Network Variable Field

nvoError errnviSpaceRH

nvoError errNviBypass

nvoError errNviDLCShed

nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

nvoData2 dehumidActive

Control Loop LoopDisable nvoAlarmStatus CoverCommFail

nvoAlarmStatus InvalidIOConfig

nvoAlarmStatus SensorFail

nvoAlarmStatus networkCommFail

nvoAlarmStatus InvalidSubBaseType

nvoError errLoclSpaceSensr

nvoError ErrRemtSpaceSensr

nvoError ErrNetSpaceSensr

nvoError ErrLoclHumSensr

nvoError ErrRemtHumSensr

nvoError errNetHumSensr

nvoError ErrRemtOdSensr

nvoError ErrNetOdSensr

nvoError ErrRemtSetPt

nvoError ErrDischSensr

nvoError errIOConfig

nvoError errSubBaseType

nvoError errSubBaseVerMisMatch

nvoError errNviSpaceTemp

nvoError errNviOccSchedule

nvoError errNviOccSensor

nvoError errnviApplicMode

nvoError errnviOutdoorTemp

nvoError errnviSpaceRH

nvoError errNviBypass

nvoError errNviDLCShed

nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

Table 18. Network Connections to XL15A AP Inputs. (Continued)

T7350H Network Variable Outputs can be used as inputs to XL15A application objects.

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29 63-4368

XL15A

Application Object Application Input

Source T7350

Network Variable Network Variable Field

nvoData2 RelayFan

nvoData2 dehumidActive

Control Loop MainSensor nvoSpaceTemp nvoSpaceTemp

ResetSensor nvoEffectSetpt nvoEffectSetpt

nvoDischAirTemp nvoDischAirTemp

nvoTerminalLoad nvoTerminalLoad

nvoSpaceRH nvoSpaceRH

nvoOutdoorTemp nvoOutdoorTemp

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

Start/Stop Loop LoopDisable nvoAlarmStatus CoverCommFail

nvoAlarmStatus InvalidIOConfig

nvoAlarmStatus SensorFail

nvoAlarmStatus networkCommFail

nvoAlarmStatus InvalidSubBaseType

nvoError errLoclSpaceSensr

nvoError ErrRemtSpaceSensr

nvoError ErrNetSpaceSensr

nvoError ErrLoclHumSensr

nvoError ErrRemtHumSensr

nvoError errNetHumSensr

nvoError ErrRemtOdSensr

nvoError ErrNetOdSensr

nvoError ErrRemtSetPt

nvoError ErrDischSensr

nvoError errIOConfig

nvoError errSubBaseType

nvoError errSubBaseVerMisMatch

nvoError errNviSpaceTemp

nvoError errNviOccSchedule

nvoError errNviOccSensor

nvoError errnviApplicMode

nvoError errnviOutdoorTemp

nvoError errnviSpaceRH

nvoError errNviBypass

nvoError errNviDLCShed

nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

nvoData2 dehumidActive

Table 18. Network Connections to XL15A AP Inputs. (Continued)

T7350H Network Variable Outputs can be used as inputs to XL15A application objects.

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Table 19. Network Connections to XL15A AP Outputs.

T7350H Network Variable Inputs can be connected to XL15A application outputs.

XL15A

Application Object Application Output

Destination T7350H

Network Variable Network Variable Field

Network Time Schedule Scheduled Device List nviOccSchedule

DLC External Load Assignment nviDlcShed

Table 20. Network Connections to XL15C AP Inputs.

T7350H Network Variable Outputs can be used as inputs to XL15C application objects.

XL15C

Application Object Application Input

Source T7350H

Network Variable Network Variable Field

Math Functions: Analog Input nvoSpaceTemp

Min, Max, Avg, Sqrt Add, nvoEffectSetpt

Subt, Mult, Div nvoDischAirTemp

nvoTerminalLoad

nvoSpaceRH

nvoOutdoorTemp

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

nvoData1 HeatStgsOn

nvoData1 CoolStgsOn

nvoData1 BypassTime

nvoOccSensor

nvoEffectOccup

nvoHeatCool

nvoData2 stagesActive

Math Functions: nvoSpaceTemp

Network Special nvoEffectSetpt

SNVT_temp_p nvoDischAirTemp

nvoOutdoorTemp

Math Functions: nvoSpaceRH

Network Special nvoTerminalLoad

SNVT_lev_percent

Logic Loop ACDO Analog Input nvoSpaceTemp

DCAO Analog Input nvoEffectSetpt

nvoDischAirTemp

nvoTerminalLoad

nvoSpaceRH

nvoOutdoorTemp

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

nvoData1 HeatStgsOn

nvoData1 CoolStgsOn

nvoData1 BypassTime

nvoOccSensor

nvoEffectOccup

nvoHeatCool

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XL15C

Application Object Application Input

Source T7350H

Network Variable Network Variable Field

nvoData2 stagesActive

Logic Loop DCAO Digital Input nvoAlarmStatus CoverCommFail

OR Digital Input nvoAlarmStatus InvalidIOConfig

AND Digital Input nvoAlarmStatus SensorFail

nvoAlarmStatus networkCommFail

nvoAlarmStatus InvalidSubBaseType

nvoError errLoclSpaceSensr

nvoError ErrRemtSpaceSensr

nvoError ErrNetSpaceSensr

nvoError ErrLoclHumSensr

nvoError ErrRemtHumSensr

nvoError errNetHumSensr

nvoError ErrRemtOdSensr

nvoError ErrNetOdSensr

nvoError ErrRemtSetPt

nvoError ErrDischSensr

nvoError errIOConfig

nvoError errSubBaseType

nvoError errSubBaseVerMisMatch

nvoError errNviSpaceTemp

nvoError errNviOccSchedule

nvoError errNviOccSensor

nvoError errnviApplicMode

nvoError errnviOutdoorTemp

nvoError errnviSpaceRH

nvoError errNviBypass

nvoError errNviDLCShed

nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 Relay Aux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

nvoData2 dehumidActive

Control Loop SetPtOverride Digital Input nvoAlarmStatus CoverCommFail

LoopDisable nvoAlarmStatus InvalidIOConfig

Bypass Input nvoAlarmStatus SensorFail

OccupancySensor nvoAlarmStatus networkCommFail

nvoAlarmStatus InvalidSubBaseType

nvoError errLoclSpaceSensr

nvoError ErrRemtSpaceSensr

nvoError ErrNetSpaceSensr

nvoError ErrLoclHumSensr

Table 20. Network Connections to XL15C AP Inputs. (Continued)

T7350H Network Variable Outputs can be used as inputs to XL15C application objects.

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XL15C

Application Object Application Input

Source T7350H

Network Variable Network Variable Field

nvoError ErrRemtHumSensr

nvoError errNetHumSensr

nvoError ErrRemtOdSensr

nvoError ErrNetOdSensr

nvoError ErrRemtSetPt

nvoError ErrDischSensr

nvoError errIOConfig

nvoError errSubBaseType

nvoError errSubBaseVerMisMatch

nvoError errNviSpaceTemp

nvoError errNviOccSchedule

nvoError errNviOccSensor

nvoError errnviApplicMode

nvoError errnviOutdoorTemp

nvoError errnviSpaceRH

nvoError errNviBypass

nvoError errNviDLCShed

nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

nvoData2 dehumidActive

Control Loop MainSensor nvoSpaceTemp

ResetSensor nvoEffectSetpt

RecoverySensor nvoDischAirTemp

LimitAnalogInput nvoTerminalLoad

nvoSpaceRH

nvoOutdoorTemp

nvoData1 PercentCmdHeat

nvoData1 PercentCmdCool

nvoData1 HeatStgsOn

nvoData1 CoolStgsOn

nvoData1 BypassTime

nvoOccSensor

nvoEffectOccup

nvoHeatCool

nvoData2 stagesActive

Start/Stop Loop LoopDisable nvoAlarmStatus CoverCommFail

Bypass nvoAlarmStatus InvalidIOConfig

nvoAlarmStatus SensorFail

nvoAlarmStatus networkCommFail

Table 20. Network Connections to XL15C AP Inputs. (Continued)

T7350H Network Variable Outputs can be used as inputs to XL15C application objects.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

33 63-4368

S7760 - Command Display

A network connected Command display can be configured (by

LonSpec) to implement the following T7350H functions:

View and Modify Schedules:

• Occupied, Unoccupied and Standby setpoints1

• weekly schedule

• holiday schedule

NOTE: If a T7350H is connected to a wall module with set-

point adjustment, the user will not be allowed to

change occupied setpoints through Command Dis-

play.

Command manual occupancy, Annunciate T7350H alarms,

Monitor T7350H data:

• Room Temperature

• Active Room Temperature SetPoint

• Occupancy Status

• Operating Mode

• Discharge Air Temperature

• Space Humidity

• Outdoor Temperature

• Heat Stages Active

• Cool Stages Active

• Heat Modulating Output Position

• Cool Modulating Output Position

• Bypass Minutes Remaining

• Auxiliary Relay Status

• Fan Status

XL15C

Application Object Application Input

Source T7350H

Network Variable Network Variable Field

nvoAlarmStatus InvalidSubBaseType

nvoError errLoclSpaceSensr

nvoError ErrRemtSpaceSensr

nvoError ErrNetSpaceSensr

nvoError ErrLoclHumSensr

nvoError ErrRemtHumSensr

nvoError errNetHumSensr

nvoError ErrRemtOdSensr

nvoError ErrNetOdSensr

nvoError ErrRemtSetPt

nvoError ErrDischSensr

nvoError errIOConfig

nvoError errSubBaseType

nvoError errSubBaseVerMisMatch

nvoError errNviSpaceTemp

nvoError errNviOccSchedule

nvoError errNviOccSensor

nvoError errnviApplicMode

nvoError errnviOutdoorTemp

nvoError errnviSpaceRH

nvoError errNviBypass

nvoError errNviDLCShed

nvoData2 RelayHeat3

nvoData2 RelayCool3

nvoData2 RelayHeat2

nvoData2 RelayCool2

nvoData2 RelayAux

nvoData2 RelayHeat1

nvoData2 RelayCool1

nvoData2 RelayFan

nvoData2 dehumidActive

Table 20. Network Connections to XL15C AP Inputs. (Continued)

T7350H Network Variable Outputs can be used as inputs to XL15C application objects.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 34

APPENDIX H - T7350H NETWORK VARIABLE SUMMARY

Table 21. T7350H Network Variable Summary.

Nv Name LONSPEC™ Ref Name Class Description

nciApplVer Application version CONFIG Application type: identifies the current application number for this

device given by a tool.

0: (Default).

Increment: increased by one whenever any configuration

parameter changed by PDA or thermostat keyboard. LONSPEC™

and LONSTATION™ does not change this field.

0: (Default).

Time Stamp: indicates the last change to the device application

configuration. The time stamp meets the ANSI C time stamp

requirement specifying the number of seconds elapsed since

midnight (0:00:00), January 1, 1970. It is represented in the Intel

Format. If the T7350 keyboard or the PDA Config Tool updates

any configuration parameters, the time is incremented.

0: (Default).

Version Number: identifies the version number of the application

for this device. If the T7350 keyboard or the PDA Config Tool

updates any configuration parameters, is incremented.

0: (Default).

nciBypassTime Bypass Time CONFIG Temporary Occupied Override duration in minutes.

180: (Default).

nciConfig NA FTP

CONFIG

Thermostat configuration parameters.

nciConfigPts NA FTP

CONFIG

Thermostat operating setpoint values for the control algorithms

contained in the Thermostat application code.

nciDayLghtSav NA FTP

CONFIG

Daylight-saving start and end calendar schedule.

nciDaySchedule0 NA FTP

CONFIG

Event time schedule for Sunday.

nciDaySchedule1 NA FTP

CONFIG

Event time schedule for Monday.

nciDaySchedule2 NA FTP

CONFIG

Event time schedule for Tuesday.

nciDaySchedule3 NA FTP

CONFIG

Event time schedule for Wednesday.

nciDaySchedule4 NA FTP

CONFIG

Event time schedule for Thursday.

nciDaySchedule5 NA FTP

CONFIG

Event time schedule for Friday.

nciDaySchedule6 NA FTP

CONFIG

Event time schedule for Saturday.

nciDaySchedule7 NA FTP

CONFIG

Event time schedule for designated Holiday.

nciDeviceName Device Name CONFIG Device Name is an 18 character field used to identify the device

uniquely as one device at the site or project. The content of Device

Name is maintained by a management node. If Device Name is all

ASCII blanks, it is considered un-configured by Honeywell tools.

ASCII blanks: (Default)

nciHolSched NA FTP

CONFIG

Holiday calendar schedule.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

35 63-4368

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nciRcvHrtBt Controller Receive Time CONFIG Receive heartbeat time (seconds) for all failure detect heartbeat

network variables in this node.

0: Disable failure (Default).

300: Typical value in Honeywell system.

nciSetpoints Setpoint Config CONFIG Heating and Cooling SetPoints in Celsius engineering units.

Occupied cool set-point.

23.9 C: (Default)

Standby cool set-point.

25.6 C: (Default).

Unoccupied cool set-point.

29.4 C: (Default).

Note:

It is required that:

UnoccCl>=OccCl>=OccHt+1.11 C.

UnoccCl>=StdByCl>=StdByHt+1.11 C.

If the above criteria is not met, then the nciSetpoints received over

the LONWORKS network will not be accepted, and all the current

controlling set points will be restored from the thermostat.

Occupied heat set-point.

21.1 C: (Default).

Standby heat set-point.

19.4 C: (Default).

Unoccupied heat set-point.

12.8 C: (Default).

It is required that:

UnoccHt<=OccHt<=OccCl-1.11 C.

UnoccHt<=StdByHt<=StdByCl-1.11 C.

If the above criteria is not met, then the nciSetpoints received over

the LONWORKS network will not be accepted, and all the current

controlling set points will be restored from the thermostat.

nciSndHrtBt Controller Send Time CONFIG Send heartbeat time (seconds) for all Guaranteed periodic update

heartbeat network variables in this node.

0: Disable periodic update (Default).

55: Typical value in Honeywell system.

nroPgmVer Program Version CONST The Honeywell program identifier and subbase firmware version

number.

nroT7350Ver T7350 Version CONST Detailed T7350 cover assembly firmware version information.

nviApplicMode Application Mode In IN Thermostat System mode switch:

0: HVAC_AUTO

1: HVAC_HEAT

3: HVAC_COOL

6: HVAC_OFF

8: HVAC_EMERG_HEAT

Others: Considered to be HVAC_AUTO.

Failure detect and mains power up value: HVAC_AUTO.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 36

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nviBypass Bypass In IN Remote time bypass input from usually from another device.

Bypass is a method to command unoccupied override over the

network from another controller. The other controller does the

bypass timing. nviBypass can be used to place the T7350H into

temporary occupied mode. This mode will bypass the time of day

occupancy schedule in this device.

Value State Action

0 NA Do not bypass the time of day

occupancy schedule.

NA 0 or -1 Do not bypass the time of day

occupancy schedule.

0.5 - 100 1 or Bypass the time of day occupancy

greater schedule.

0 0 Mains power up and fail detect value.

nviDlcShed DLC Shed In IN Demand limit duty cycle load shed command from a network

device.

When a shed request is received, the thermostat “bumps” the

control set point up for cooling and down for heating. The amount

of the “bump is a user set point selection. The shed state remains

until a DLC restore command is received or network

communication is lost. When the unit transitions from shed to

restore, the set point is ramped back to the original set point over a

period of 60 minutes. The control only sheds when the thermostat

is in the occupied mode.

Value:

0: No load shed being called (mains power up or failure detect

value).

1 or other values: Call for load shedding.

nviFanAuto FanOnAuto In IN Auto Fan switch (last in wins).

value = 0, state = don’t care:

Fan is On.

value = Don’t care, state = 0 or -1:

Fan is On.

Value = 0.5 - 100: state = 1 or greater:

Fan is On when there is a call for heat / cool.

Failure detect and mains power up value: No change from

previous value.

Value State Action

0 NA Fan is ON.

NA 0 or -1 Fan is ON.

0.5 - 100 1 or Fan is ON when there is a call for

greater heat / cool.

no no Mains power up and fail detect value.

change change

nviFilePos File Position In IN Supports LONMARK® FTP file transfer. Random Access file Pointer

to first byte to be transferred and Number of bytes to transfer.

nviFileReq File Request In IN Supports LONMARK® FTP file transfer. Message request

management is communicated through this input variable.

nviInUse InUse IN In use number is used by a management node to indicate to all

other management nodes that it is “logged on.”

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

37 63-4368

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nviManValue Manual Value In IN Manual override values for outputs:

Relays: Y1, Y2, Y3, Aux, G, W1, W2, W3

Analog Outputs: Mc, Mh

nviOccManCmd Occupancy Cmd In IN Manual occupancy is a method to command the occupancy state

from a network workstation. Effective occupancy override works

on a “last in wins” basis. That is, the last occupancy override

command received from any source determines the override state.

The workstation can command occupied, unoccupied, standby,

bypass, or not active (null).

nviOccManCmd is used to place the T7350H into manual

occupancy (note there is no timer associated with

nviOccManCmd).

Manual occupancy input from a network device:

0: OC_OCCUPIED

1: OC_UNOCCUPIED

2: OC_BYPASS

3: OC_STANDBY

-1: OC_NUL not connected (mains power up).

Others: same as OC_NUL.

NOTE: If nviOccManCmd is OC_BYPASS and the bypass timer

(nvoData1.bypassTime) times out, then nviOccManCmd

is set to OC_NUL.

nviOccSchedule Occupancy Schedule In IN There are 2 distinct modes of operation: local schedule and

network schedule. The local schedule mode causes the T7350H

to change set points by using the scheduler in the T7350H. The

network schedule mode causes the T7350H to change set points

from a network-based scheduler. The network schedule, when

valid, overrides the local schedule.

The network schedule input is nviOccSchedule. This input has

current state, next state and tuncos (Time Until Next Change of

State). It is bound from another scheduler such as the XL15A or

T7300/Q7300H. The XL15B or a workstation can also write to it in

an “unbound” relationship.

If the network schedule is not periodically updated the T7350H

resumes local scheduling. Periodically means at a rate greater

than the fail detect time. This rate is typically 55 seconds, 300

seconds maximum. (The actual rate and maximum depend on the

configured heartbeat and failure detect times.)

Current scheduled occupancy state:

0: OC_OCCUPIED

1: OC_UNOCCUPIED

3: OC_STANDBY

Others: same as OC_NUL.

-1: OC_NUL (mains power up and fail detect value).

Next scheduled occupancy state:

0: OC_OCCUPIED

1: OC_UNOCCUPIED

3: OC_STANDBY

Others: same as OC_NUL.

-1: OC_NUL (mains power up and fail detect value).

Time in minutes until next scheduled change of occupancy state:

0: (mains power up and fail detect value).

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 38

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nviOccSensor Occupancy Sensor In IN There are 3 distinct modes of operation: local occupancy sensor,

network occupancy sensor, or none.

The network occupancy input is nviOccSensor. It is bound from

another sensor or controller with occupancy status.

Occupancy sensor input from a network device:

0: OC_OCCUPIED

1: OC_UNOCCUPIED

-1: OC_NUL not connected (mains power up and fail detect

value).

Others: same as OC_NUL.

NOTE: If nviOccSensor is not invalid (OC_NUL), nviOccSensor

is used as the occupancy sensor even if another sensor

or no sensor is configured.

nviOutdoorTemp Outdoor Temperature In IN Outdoor temperature input from a network device. Ignored unless

nciConfig.oDAirSensor specifies a network configuration.

327.67: means to ignore comODTemp.

327.67: mains power up and failure detect value.

NOTE: If nviOutdoorTemp is not invalid (327.67), nviOutdoor-

Temp is used as the outdoor temperature even if another

sensor or no sensor is configured.

nviPgm Program In IN Memory address and data being sent to cover assembly flash

memory.

nviRequest Request IN Input variable for managing network requests for status.

nviSetpoint Setpoint In IN Desired space temperature (Celsius) set by remote network

device.

327.67: means to ignore nviSetPoint.

327.67: mains power up value.

nviSpaceRH Space Humidity In IN Space humidity input (percent) from a network device. Ignored

unless nciConfig.humiditySensor specifies a network

configuration.

163.83: mains power up and failure detect value.

NOTE: If nviSpaceRH is not invalid (163.83), nviSpaceRH is

used as the space relative humidity even if another sen-

sor or no sensor is configured.

nviSpaceTemp Space Temperature In IN When configured for a network sensor and periodically updated,

the network space temperature sensor will override both the local

and remote sensors.

Space temperature input (Celsius) from a network device. Values

less than -2.2 will be clipped to -2.2. Values greater than 60 will be

clipped to 60.

327.67: means to ignore nviSpaceTemp.

327.67: mains power up and failure detect value.

NOTE: If nviSpaceTemp is not invalid (327.67), nviSpaceTemp is

used as the space temperature even if another sensor or

no sensor is configured.

nviTimeSet Time In IN Set current month, day, year, hour, minute, second

Time synchronization will be to a network device that has been

designated as the “time master.” Time synchronization will occur at

the Guaranteed Periodic Update rate (typically every 55 seconds).

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

39 63-4368

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nvoAlarmH Alarm Out OUT Alarm subnet, node and type.

Alarm subnet is the LonWorks subnet number in domain entry to

which nvoAlarmH is bound. If nvoAlarmH is not bound reports

domain index 0.

0: Invalid subnet (power up value).

1-255: Subnet number.

Alarm node is the LonWorks node number (in domain entry to

which nvoAlarmH is bound. If nvoAlarmH is not bound reports

domain index 0).

0: Invalid entry (power up value).

1-127: Node number.

Alarm type is the alarm type being issued:

0: AT_NO_ALARM (power up value).

1: AT_INVALID_SUBBASE_TYPE

2: AT_NETWORK_COMM_FAIL

3: AT_SENSOR_FAIL

4: AT_INVALID_IO_CONFIG

5: AT_COVER_COMM_FAIL

6: AT_COVER_SUBBASE_MISMATCH

-127: AT_rtnINVALID_SUBBASE_TYPE

-126: AT_rtnNETWORK_COMM_FAIL

-125: AT_rtnSENSOR_FAIL

-124: AT_rtnINVALID_IO_CONFIG

-123: AT_rtnCOVER_COMM_FAIL

-122: AT_rtnCOVER_SUBBASE_MISMATCH

-1: AT_ALARM_NOTIFY_DISABLED

nvoAlarmLog Alarm Log Out OUT Reports the last five alarms.

nvoAlarmStatus Alarm Status Out OUT Status of the following alarms states:

Communications between the cover and sub-base.

0: No alarm (power up value).

1: The communications between the thermostat cover

assembly and the sub-base has failed in one or both directions.

The data from the cover to the sub-base has not been received

for at least 90 seconds, or data from the sub-base is not

updating the cover assembly.

Output configuration error:

0: No alarm (power up value).

1: The number of outputs configured exceeds the capability of

the sub-base to support them. Considers sub-base type, heat

pump / conventional application, maxCoolStgs, maxHeatStgs.

Sub-base type error:

0: No alarm (power up value).

1: The sub-base is not a valid sub-base type for the firmware in

the cover assembly.

Network Communications Failure:

0: No alarm (power up value).

1: One of the bound network input variables is not being

updated periodically. This alarm may be caused by a failed

node or a damaged LonWorks network cable.

Sensor failure:

0: No alarm (power up value).

1: One of the analog sensors on the cover assembly has failed

or is out of range (high or low).

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 40

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nvoBypass Bypass Out OUT The T7350H uses nvoBypass to command bypass to other XL10

nodes. When the T7350 is in bypass, it commands nvoBypass.

This is a one to many bound relationship. “Many” means one

T7350H can command bypass on all XL10s connected on the

subnet.

Reports whether this device is in timed bypass of the scheduled

occupancy state. Used by other devices to also bypass the time of

day schedule.

Value State Action

0 0 This device is not in bypass

Power up value

1 100 This device is in bypass

nvoData1 nvoData1 OUT Reports Manufacturer Specific Device Data including:

bypassTime, coolStgsOn, DaysLeftKeypadHoliday, dischTemp,

effMode, effOccCurrentState, effSetPt, fan, heatStgsOn, oDTemp,

percentCmd,Cool, percentCmdHeat, spaceHumidity, spaceTemp,

subBaseType, sysMode, terminalLoad.

nvoData2 nvoData2 OUT Reports Manufacturer Specific Device Data including: auxRelay,

DALimit, dehumidActive, ESR, holiday, noAuxHeat1, noAuxHeat2,

occSensor, relayAux, relayCool1, relayCool2, relayCool3,

relayFan, relayHeat1, relayHeat2, relayHeat3, remoteStPtOffset,

schedNextState, scheduledState, scheduledTuncos, stagesActive,

T7350CommWorks, temporarySetPt, totalError.

nvoDischAirTemp Discharge Temperature

Out

OUT The current discharge air temperature (Celsius). The sensor is

configured by nciConfig.dischAirSensor. A value of 327.67 means

the sensor is not functioning correctly or is out of range.

327.67: Power up value.

nvoEffectOccup Effective Occ Out OUT Current effective occupancy state:

0: OC_OCCUPIED (power up value).

1: OC_UNOCCUPIED

2: OC_BYPASS

3: OC_STANDBY

-1: OC_NUL

nvoEffectSetpt Effective Stpt Out OUT Effective room temperature control set point (Celsius).

327.67: Power up value.

nvoError nvoError OUT Device error status. Refer to Appendix C - Network Error

Reporting for details.

nvoFileStat File Status Out OUT File transfer status.

nvoHeatCool Application Mode out OUT Effective operating mode:

0: HVAC_AUTO

1: HVAC_HEAT (heat or re-heat).

3: HVAC_COOL

6: HVAC_OFF (power up value).

7: HVAC_TEST (manual mode or cover in factory test mode).

8: HVAC_EMERG_HEAT

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

41 63-4368

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nvoOccSchedule Time Of Day Out OUT This output has current state, next state and tuncos (Time Until

Change of State). This output is typically bound to other

controller(s) that need a schedule command.

This output is the combination of the local schedule and the

network schedule command. It doesn’t include any bypass,

override, or manual occupancy commands that affect this T7350H.

There is no TOD assignment table in the T7350H. The T7350H

allows a one to many binding of nvoOccSchedule. This means

one T7350H can command all of the XL10s on the subnet – up to

119 controllers.

Current scheduled occupancy state:

0: OC_OCCUPIED

1: OC_UNOCCUPIED

3: OC_STANDBY

-1: OC_NUL (power up value).

Next scheduled occupancy state:

0: OC_OCCUPIED (power up value).

1: OC_UNOCCUPIED

3: OC_STANDBY

-1: OC_NUL (power up value).

Time in minutes until next scheduled change of occupancy state:

2880: Means there is not a next change of occupancy state or it is

longer than 2 days from now (Power up value).

nvoOccSensor Occupancy Sensor Out OUT Status of occupancy sensor:

0: OC_OCCUPIED

1: OC_UNOCCUPIED

-1: OC_NUL (not configured and power up value).

nvoOutdoorTemp Outdoor Temperature Out OUT The current outdoor temperature (Celsius). The sensor source is

specified by nciConfig.oDAirSensor. A value of 327.67 means the

sensor is not functioning correctly or is out of range.

327.67: Power up value.

nvoPgm Program Out OUT Cover assembly flash memory programming data.

nvoSpaceRH Space Humidity Out OUT The current space humidity (percent). The sensor source is

specified by nciConfig.humiditySensor. A value of 163.84 means

the sensor is not functioning correctly or is out of range.

163.84: Power up value.

nvoSpaceTemp Space Temperature Out OUT The current space temperature (Celsius). The sensor source is

specified by nciConfig.spaceSensor. A value 327.67 means the

sensor is not functioning correctly or is out of range.

327.67: power up value.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 42

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nvoStatus Status OUT Status:

Alarm notify disabled:

0: Alarm notification is turned on (power up value).

1: Alarm notification via nvoAlarmH, nvoAlarmLog,

nvoUnitStatus, and nvoStatus has been turned off.

Alarm

0: no alarm (power up value).

1: there is an alarm.

Override the delays associated with automatic control:

0: Delays turned on (power up value).

1: Delays turned off (Useful for troubleshooting).

Invalid ID:

0: The request was for a valid ID (Power up value).

1: The request was not for a valid ID.

Invalid Request:

0: The request was for a valid operation (Power up value).

1: Invalid request for an operation.

Manual control:

0: The function block is in automatic operation (power up

value).

1: The function is in manual operation and outputs respond to

nviManValue.

Status report. Function block number being in status report:

0: Node function block.

1: Space comfort controller function block.

Programming Mode:

0: Normal operating mode (power up value).

1: The node is in the “programming the cover flash memory”

mode, and is not automatically controlling temperature.

Report mask:

0: Normal operation (power up value).

1: RQ_REPORT_MASK received. The status bits that are set

have been implemented.

nvoTerminalLoad Terminal Load Out OUT Terminal load (percent): Reports the demand for supply energy.

Positive numbers are cooling demand and negative numbers are

heating demand. 100 percent is full capacity. Terminal loads

greater than 100 percent or less than -100 percent indicate that

the equipment is not able to supply the required heating or cooling

energy. The valid range is between 163 and minus 163 percent.

Terminal load is used by supervisory level control applications to

reset Boiler or Chiller discharge water temperatures.

163.84: Power up condition.

nvoTime Time Out OUT Current year, month, day, hour, minute, second.

The T7350H can be a time master to other T7350Hs, XL15As, and

Q7300s.

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

43 63-4368

Table 21. T7350H Network Variable Summary. (Continued)

Nv Name LONSPEC™ Ref Name Class Description

nvoUnitStatus Unit Status OUT Unit Status:

Percentage of cooling capability currently being supplied to the

controlled space.

163.84: Power up value.

Fan turned on or off:

0: Fan not running.

100: Fan running.

163.84: (power up value).

Percentage of auxiliary heating capability currently being supplied

to the controlled space (Applies to heat pump application only):

163.84: Power up value.

Alarm report:

0: No alarms reported in the unit (power up value).

1: One or more alarms reported in the unit.

-1: The Alarms have been suppressed by alarm notified

disabled command.

Effective operating mode:

0: HVAC_AUTO (power up value).

1: HVAC_HEAT

3: HVAC_COOL

6: HVAC_OFF (power up value).

7: HVAC_TEST (manual mode or cover in factory test mode).

8: HVAC_EMERG_HEAT

T7350 COMMERCIAL PROGRAMMABLE THERMOSTAT

63-4368 B.B. 11-04 www.honeywell.com

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Golden Valley, MN 55422 Scarborough, Ontario 17 Changi Business Park Central 1 Belgium Suite 200

M1V 4Z9 Singapore 486073 Sunrise FL 33325

Class Description

CONFIG: LonMark network configuration parameters

FTP CONFIG: Configuration parameters implemented with

the LonMark file transfer protocol

IN: Network variable inputs.

OUT: Network variable outputs.

ZIRE and TUNGSTEN are trademarks of palmOne, Inc.

HotSync and Palm OS are registered trademarks of PalmSource, Inc.

Palm is a trademark of PalmSource, Inc.

TRGPro is a trademark of HandEra, Inc.

LONMARK®, LONTALK®, and LONWORKS® are registered trademarks of Echelon® Corporation.

LonSpec™, and LonStation™ are trademarks of Echelon® Corporation.

Honeywell Commercial Programmable T7350 Users Manual 63 4368 Thermostat

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