Trane BACnet BCI-R Integration guide User guide

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Integration Guide

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BACnet™ Communication Interface for ReliaTel™ Controllers (BCI-R)

SAFETY WARNING

Only qualified personnel should install and service the equipment. The installation, starting up, and servicing of heating, ventilating, and air-conditioning equipment can be hazardous and requires specific knowledge and training. Improperly installed, adjusted or altered equipment by an unqualified person could result in death or serious injury. When working on the equipment, observe all precautions in the literature and on the tags, stickers, and labels that are attached to the equipment.

March 2011 BAS-SVP09B-EN

Trademarks

This document and the information in it are the property of Trane and may not be used or reproduced in whole or in part, without the written permission of Trane. Trane reserves the right to revise this publication at any time and to make changes to its content without obligation to notify any person of such revision or change.

Trane and its logo are trademarks of Trane in the United States and other countries. All trademarks referenced in this document are the trademarks of their respective owners.

2 BAS-SVP09B-EN

Table of Contents

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

BACnet Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4

Getting Started . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Required Software and Tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

What to Do First . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5

Configuring the BCI-R . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

Using the BACnet Setup Tool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

Using Tracer TU . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

Understanding the MAC Address and BACnet Device ID . . . . . . . . . . . . . . . . 9

What To Do After Adding Options or Equipment to the Unit . . . . . . . . . . . . 11

Managing Device Units on the Controller Units Screen . . . . . . . . . . . . . . . . 12

BCI-R Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

BAS Unit Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Input/Output Commands and Calculations . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Setting Addresses on the Rotary Switches . . . . . . . . . . . . . . . . . . . . . . . . . 5

Selecting Wireless Communication . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6

Clearing the Contoller and Restoring Factory Defaults to the BCI-R . . . . 11

Updating the Application Code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11

Initiating System Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Output and Input Object Data Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13

Periodic Update of BAS Values . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

BAS Communication Failure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Filter Timer Reset Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Diagnostics Reset Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14

Setpoint Calculations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15

Timestamp Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15

LEDs and Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16

BACnet Data Points and Configuration Property Definitions . . . . . . . . . . . . . . . 17

BACnet Protocol Implementation Conformance Statement (PICS) . . . . . . . 17

Standardized Device Profile (Annex L) . . . . . . . . . . . . . . . . . . . . . . . . . . . 17

Interoperability Building Blocks (Annex K) . . . . . . . . . . . . . . . . . . . . . . . . 17

Segmentation Capability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18

Object Types . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

BACnet Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Data Link Layer Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Device Address Binding . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Networking Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22

Object Data Points and Diagnostic Data Points . . . . . . . . . . . . . . . . . . . . . . . . . . . 24

Additional Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37

Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38

BAS-SVP09B-EN 3

Overview

The BACnet Communication Interface for ReliaTel (BCI-R) supports Trane ReliaTel rooftop units that function as part of a BACnet MS/TP communications network. It allows ReliaTel equipment to communicate with a building automation system (BAS) by using the BACnet protocol over an RS-485 MS/TP communications link.

This guide provides the following information:

• Configuring the BCI-R with the BACnet service tool

• Operating the BCI-R as part of a building automation system.

• Interpreting the BCI-R LEDs and switch settings.

• Object data points and diagnostic data points.

and Tracer TU.

Note: U

sers of this guide should have basic knowledge of BACnet protocol. For more detailed information about this protocol, visit the company web site listed under

Resources,” p. 37

BACnet Protocol

The Building Automation and Control Network (BACnet and ANSI/ASHRAE Standard 135-2004) protocol is a standard that allows building automation systems or components from different manufacturers to share information and control functions. BACnet provides building owners the capability to connect various types of building control systems or subsystems together for a variety of reasons. In addition, multiple vendors can use this protocol to share information for monitoring and supervisory control between systems and devices in a multi-vendor interconnected system.

The BACnet protocol identifies standard objects (data points) called BACnet objects. Each object has a defined list of properties that provide information about that object. BACnet also defines a number of standard application services that are used to access data and manipulate these objects and provides a client/server communication between devices. For more information on BACnet protocol, refer to

BACnet Testing Laboratory (BTL) Certification

The BCI-R supports the BACnet communication protocol and has been designed to meet the requirements of the application-specific control profile. For more details, refer to the BTL web site at

www.bacnetassociation.org.

“Additional

“Additional Resources,” p. 37.

4 BAS-SVP09B-EN

Getting Started

ADDRESS

x10

x100

Setting addresses to 127 (before and after)

Use a 1/8 in (3mm)flat-bladed screwdriver to set rotary switches.

Important: Each device on the BACnet MSTP link must have a unique rotary

switch setting, otherwise, communication problems will occur.

Be f ore

Af t e r

This section describes the necessary software, tools, and initial tasks that are required for a successful integration.

Required Software and Tools

The following are required:

• Tracer™ BACnet Setup Tool OR Tr

• A USB cable (for use with Tracer TU)

• A 1/8 inch (3 mm) flat-bladed screwdriver

What to Do First

It is best practice to perform the following tasks in the order in which they are listed:

• Set device addresses on the BCI-R rotary switch

• Select either wired or wireless communication using the link select switch on the BCI-R (

• Configure the BCI-R by using e

– The default baud rate is 76,800 bps.

– The default software device ID

– The device units do not have defaults; the BST or Tracer TU will display the device units of

the controller to whic

Setting Addresses on the Rotary Switches

There are three rotary switches on the front of the BCI-R controller that are used to define a threedigit address when the BCI-R is installed on a BACnet communications network. The three-digit address setting is the BACnet MAC address.

For more information about rotary switches, see

Device ID,” p. 9

Note: All devices

are MS/TP masters with valid MAC addresses of 001 to 127 for BACnet.

h it is connected.

acer™ TU Service Tool, version 6.0 or higher

es (see following section).

ther the Tracer BACnet Setup Tool (BST) or Tracer TU (

is the MAC address.

Figure 1 shows how to set addresses.

“Understanding the MAC Address and BACnet

p. 6).

p. 7).

Figure 1. Setting addresses on the rotary switches



BAS-SVP09B-EN 5

Getting Started

Selecting Wireless Communication

If using a wireless COMM interface (WCI), set the link select switch to IMC as shown in For wiring instructions, refer to the “ RF-SVN03-EN.

Figure 2. Wireless COMM Interface (WCI)

Figure 2.

BACnet Communication Interface for ReliaTel Controllers”,

6 BAS-SVP09B-EN

Configuring the BCI-R

The BCI-R can be configured using either the Tracer™ BACnet Setup Tool or the Tracer™ TU service tool.

Note: T

Using the BACnet Setup Tool

This section describes how to configure the BCI-R controller using the Tracer BACnet Setup Tool. Online help is available by clicking the help icon located in upper right portion of the screen.

1. Open the Tracer BACnet Setup Tool.

2. In the Protocol and Controller Units sections, change or keep the default settings for the baud

3. Click sa

Figure 3. BACnet Setup Tool Controller Settings screen (connected to a UC400 as an example)

he BCI-R controller is fully configured from the factory for use with Tracer SC based systems. Additional configuration, or the use of Tracer TU, is not necessary. Additionally, the BCI-R self-configures itself to match the unit type upon initial power-up.

The Controller Settings screen appear

software device ID, and the device units.

rate,

ve.

s (

Figure 3).

Using Tracer TU

This section describes how to first connect to the Tracer TU software and then configure the BCI-R controller. If Tracer TU is not installed, refer to the “

Guide” (TTU-SVN02)

BAS-SVP09B-EN 7

. Tracer TU software, Version 6.0 or higher, is required.

Tracer TU Service Tool Getting Started

Configuring the BCI-R

To connect to Tracer TU:

1. Connect the USB cable directly from the laptop to the BCI-R, or to an equipment control panel

Important: If using a PC with multiple USB ports, connect by using the same process outlined

2. Click either the T

Figure 4. Connect dialog box

USB port connected to the controller.

below for the same piece of equipment. This is normal operation. Observe existing USB standards for cable length. (For more information go to informational Web sites, such as http://www.USB.org.)

racer TU desktop icon or the Tracer TU program item in the Tracer TU

on the Start menu.

The Tracer TU splash screen appears brief

group

ly followed by the Connect dialog box.

3. Select the Dir

4. Click the Connect bu

To configure the BCI-R controller:

Select the Controller Settings Utility tab from the vertical tab set located on the right side of the

1. TU window.

Note: The content of this screen is based on the type of controller that is connected and the

system p

2. Enter a meaningful name for the controller

3. Click the Controller Units expanding box label to display its contents.

4. Select the preferred units of measure for data

5. Click the Prot

6. Select the preferred Baud Rate in the drop-down list box.

7. If a software Device ID is required, check the Use Soft Device ID.

8. Click Sa

8 BAS-SVP09B-EN

ct Connection (USB cable) radio button if it is not already selected.

tton and the Unit Summary page will appear after successful connection.

rotocol used to communicate with the controller.

communicated across the BACnet link.

ocol expanding box heading to display its contents.

ware Device ID box and enter a BACnet

Understanding the MAC Address and BACnet Device ID

MAC a ddr ess

BACnet dev ice I D

MAC Address

The MAC address is the rotary dial address. For Trane systems, this address must be between 1 and

127. Although “0,0,0,” is a valid BACnet address, Trane reserves this address for the Tracer SC

controller. All devices on the BACnet MS/TP link must be unique. For non-Trane SC systems, see

“Rotary Dial Address Settings for Non-Trane SC Systems,” p. 10.

BACnet Device ID

Tracer SC uses the rotary dial settings (MAC address) to create the BACnet device ID. The Tracer SC adds an SC rotary dial address and a link number to artificially create a unique BACnet Device ID for each node.

Figure 5 shows how Tracer TU displays the rotary dial settings and the resulting BACnet device ID:

• The rotary dials on the BCI-R are

• The Tracer SC created a BACnet devi ce ID of 10103 0.

• The Tracer SC address is “0,1,0”.

• The BCI-R is installed on link 1.

Figure 5. Example showing rotary dial settings and BACnet device ID

set to 30 (0,3,0), which is also the MAC address.

Configuring the BCI-R

BAS-SVP09B-EN 9

Configuring the BCI-R

Rotary Dial Address Settings for Non-Trane SC Systems

For non-Trane SC systems, the Max Master value must be greater than the unique address settings from the rotary dials. Although 999 is possible from the dials, the maximum allowed number by BACnet is 127.

The Max Master is not adjustable in Trane SC systems. For example, if the MAC address is 101 and the front-end system has a Max Master value of 100, the device will not be discovered.

Many systems have a minimum BACnet Device ID value. Ensure that the Device ID is greater than this value.

10 BAS-SVP09B-EN

Configuring the BCI-R

What To Do After Adding Options or Equipment to the Unit

Restoring the BCI-R controller to factory defaults is necessary if the unit setup has changed after the initial self-configuration process. This process is called “clearing the controller”.

For example, an economizer is added to the machine after the initial installation. In order for the BCI-R controller to recognize the economizer, it must be restored to factory defaults.

The BCI-R controller self-configures upon initial power-up to match the connected equipment type. This configuration is then permanently stored in the memory of the controller. Through this process, the controller generates the correct list of BACnet points.

Clearing the Contoller and Restoring Factory Defaults to the BCI-R

Clearing the controller is necessary to collect equipment information and reinstall the configuration.

Using the BACnet Setup Tool to clear the controller and restore to factory defaults

1. Navigate to the Controller Settings screen.

2. Click within the light gray area at the bottom le indicator.

The Clear Controller button appears at th

3. Click Clear Controller.

A message box appears stating that the configuration will be reset (deleted).

4. Click OK.

When the controller is cleared, the Sel

5. Click OK and then expand the Controller Units box on the Controller Settings screen.

6. Select the units (SI, IP, or Custom).

Defaults to Custom after clearing the controller options are set correctly.

7. Click Save.

ect Device Units message box appears.

ft of the screen just above the "Connected"

e top right of the screen.

. If you want to use Custom, ensure that all unit

Using Tracer TU to clear the controller and restore to factory defaults

1. Establish the connection between Tracer TU and the BCI-R controller.

2. Select the Co TU window.

3. On the controller settings page, there is a gr Move the cursor near the left edge of the gray bar, keeping the cursor inside this area. A Clear Controller button will appear in the upper right portion of the screen display.

4. Click the Clear Contr confirmation to reset the device. Click Ye s .

5. A pop-up window will appear confirming that controller will be restarted. Click OK. The BCI-R controller is restored to its after it restarts.

6. Follow the steps in

ntroller Settings Utility tab from the vertical tab set located on the right side of the

ay bar at the bottom with the Save/Cancel buttons.

the bar; click on

oller button and a pop-up window will appear with a message that asks for

the controller has been reset and that the

factory default state

“Using Tracer TU,” p. 7 to reconfigure the BCI-R controller.

Updating the Application Code

The application code in the BCI-R controller can be upgraded in the field by using Tracer TU. Follow the instructions in Tracer TU to upgrade the application code.

BAS-SVP09B-EN 11

Configuring the BCI-R

Managing Device Units on the Controller Units Screen

The BCI-R device units can be viewed and managed on the Controller Units screen from either the BACnet Setup Tool or Tracer TU.

When the BCI-R first powers up, or after the controller has been cleared, a list of points (the role document) is created from the information supplied to the BCI-R from the ReliaTel RTRM module through the Modbus link.

Note: The

Immediately after the points are created, the device units are Controller Units screen. The values that correspond to the device units are set to default to SI values. In some cases, the Custom radio button may be selected; however, the device units will still default to SI.

If you are using Tracer TU to change the Device Units to IP by clearing the controller, it is best to either unplug the Modbus cable to the BCI-R, or to power down the entire unit (the BCI-R). By doing this, the BCI-R will not see Modbus traffic. This method will enable the Device Units radio button selection, which allows you to make changes.

BCI-R creates the role document immediately (often within one second).

set and saved and appear on the

12 BAS-SVP09B-EN

BCI-R Operation

The control system on HVAC equipment has the ability to operate the unit as a stand-alone system or as part of a building automation system (BAS). The BCI-R (either factory or field installed), by default, is configured for stand-alone operation. This configuration enables the HVAC equipment to operate prior to the commissioning of the unit into the BAS.

BAS Unit Control

The BCI-R operates by using setpoints and placing points in and out of service. This method consists of BACnet objects that the BAS can access to control and monitor the status of equipment.

Initiating System Control

To initiate system control:

1. Make binary output 1 (BO 1), Trane also recommends setting the

Note: BO 1 must in service in order to control from a BAS.

Important:

2. Place in service the output points that are required by your application.

Note: Th

lti-State Output 7, Occupancy Request

• Mu

• Multi-State Output 8, Heat Cool Mode Request BAS

• Multi-State Output 2, Emergency Override Command

• Analog Output 2, Space Temperature Setpoint BAS

• Analog Output 29, Occupied Offset

• Analog Output 30, Standby Offset

• Analog Output 31, Unoccupied Cooling Setpoint

• Analog Output 32, Unoccupied Heating Setpoint

• Analog Output 9, Space Static Pressure Setpoint BAS

system control command, acti

relinquish default value to active when performing step 1.

ou must make BO 1 active in order to receive commands from the BAS system

y control. If inactive, only montioring and status are allowed. BO 1 is often referred to as the “master switch.” See

e output points to be placed in service are dependent on the job, the unit configuration, and customer preference. The following list is an example of common output points that might be placed in service for constant volume (CV) units.

Ta bl e 8, p. 29.

ve.

Output and Input Object Data Points

• Output objects; used by the BAS to provide command, setpoint, and sensor information to the rooftop unit. By default, most output objects are placed out of service to allow standalone unit operation before commissioning. See

• Input objects; provide ReliaTel status information to the BAS. See

Diagnostic Data Points,” p. 24

placed in service to allow monitoring of unit operation, even in standalone mode, before commissioning. See details.

You can define the amount of control that the BAS system will apply to the unit. This is done by configuring the state of the Tr ue , the equipment will use a corresponding local value for control. If the property is set to False, the local value is ignored and the BAS-supplied value is used for control. The BAS value is provided to the rooftop unit by writing to the present value property of the corresponding output object. The factory default value for the Out of Service property of these objects is True .

BAS-SVP09B-EN 13

Ta bl e 4, p. 25, Ta bl e 7, p . 27, Ta bl e 9, p. 29, and Tab l e 10, p. 30 for more

, for a list of supported objects. By d

t of Service

Ta bl e 3, p. 24, Ta b le 6, p. 27, and Ta bl e 8, p. 29 for details.

“Object Data Points and

efault, all input objects are

property of the output objects. If the property is set to

BCI-R Operation

Periodic Update of BAS Values

The BCI-R device requires the BAS system to provide a periodic update to the sensor values. This protects against a loss of communication between the BAS and the BCI-R. By BACnet definition, the present value of the object will maintain the last value written to it, regardless of the amount of time that has elapsed since the last write. If communication is lost for several minutes or longer, the present value of BAS-supplied sensor objects may no longer represent the current state of environmental conditions. This may result in decreased occupant comfort and damage to building systems.

BAS Communication Failure

The BCI-R is designed to minimize length of time that has elapsed since the last write to the present value of the sensor object. If the length of time exceeds a predefined limit, the BCI-R will place the object into the revert to a unit-supplied sensor value for control. At power up, the sensor objects are set to a state and they will remain in this state until a write is detected.

The minimum periodic refresh rate for the objects is defined in a set of sensor values that can be supplied by the BAS:

• Space Static Pressure BAS

• Space Air Temperature BAS

• Outdoor Air Temperature BAS

• Outdoor Air Humidity BAS

• Space CO2 Concentration BAS

• Space Humidity BAS

communication failure mode. It does this by monitoring the

fault state and

fault

Table 3, p. 24. The following list is

Input/Output Commands and Calculations

This section will provide the following information about certain inputs and outputs that perform

• Filter timer and diagnostic reset commands

• Setpoint calculations

Filter Timer Reset Command

The BCI-R uses the present value is greater than the procedure for resetting the timer is as follows:

The BAS will change the state of the the

active state. Upon the change to active state, the BCI-R will set the present value of the Filter

Runtime Hours

Diagnostics Reset Command

The ReliaTel control system monitors the operation of the HVAC equipment. If an abnormal condition is detected, an event notification message is sent to the Tracer SC. The corresponding binary input object will change state from inactive to active when the diagnostic is detected. The object has been configured to send a BACnet event message to external BACnet devices as defined by the protocol.

The BAS has the ability to reset internal diagnostics by controlling the state of the

Command

object (binary output 14) as follows:

• The BAS will change the state of the

• Upon the change to

and set the state of all the diagnostic objects to

Filter Runtime Hours object (analog input 6) to generate a diagnostic when its

Filter Runtime Hours Setpoint, (analog value 1) present value. The

Filter Timer Reset Command object (binary output 13) to

object to zero and then set the Reset Command object back to the inactive state.

Diagnostic Reset to the active state.

active state, the ReliaTel control system will reset all internal diagnostics

Diagnostic Reset

inactive.

14 BAS-SVP09B-EN

• Upon completion of this action, the BCI-R will set the present value of the Diagnostic Reset

Setpoint Calculations

The equipment has the ability to perform two basic control functions:

• Space air temperature control

• Discharge air temperature control

When the unit is configured for disc the unit to the discharge air temperature setpoint.

When the unit is configured for space air temperature control, it controls the air temperature of the space that contains the space air temperature sensor. This value may be provided by wiring the sensor to the unit or via a sensor value provided by the BAS.

Figure 6 illustrates how the various temperature setpoints are calculated for space temperature

control. When the unit is in an occupied mode the active space temperature setpoint is calculated based on the space temperature setpoint and the two setpoint offset values. In unoccupied mode, the unoccupied heating and cooling setpoints are used as the active setpoint.

Figure 6. Setpoint calculations

Command

BCI-R Operation

object back to the inactive state.

harge air control, it controls the temperature of the air leaving

Timestamp Configuration

The BCI-R controller has a software-derived clock that maintains the time and date. The controller records a timestamp when an event or a change-in-state is detected by a BACnet object. However, in the event of a power loss, the device does not maintain this time and date information. At power up, the device time and date will default to 12:00 p.m., Jan 1, 1970.

To minimize the possibility that the unit timestamp is not representing the actual time, the BAS should be set up to periodically synchronize the device time clock with the BAS clock using the BACnet Device Management-TimeSynchronization-A service (BIBB DM-TS-A).

BAS-SVP09B-EN 15

LEDs and Switches

Table 1. Interpreting the LEDs and switches

LED t ype LED act i vit y I ndi ca t es. . .

The con tr ol ler is in boo t m ode. Th e co nt ro ller w ill be pl aced in t o bo ot m od e if t he ser vice p in is held in w hen p ow er is

Ser vice LED

St at u s LED

Lin k Tx / Rx

Mod bu s Tx/ Rx

Lin k LEDs

Sol id g r een

Not ill um in at ed App li cat ion co de i s ru n ning; op er at ing n or m ally

Sol id g r een Nor m al o pe ra t io n

Bli nk ing gr een The cont roller is u pd at ing t he f lash

Solid r ed The contro ll er has m alf un ct ion ed

Bli nk ing re d Alarm s or point fault s ar e p resen t

Not ill um in at ed The con t roll er is of f

TX b li nks g reen Dat a is b eing tr ansf er r ed , r eceiv ed , o r t ransm itted

RX b li nk s y ellow

Not ill um in at ed No activ it y is o ccu r ring

Bli nk ing Dat a is b ei ng transferr ed, re cei ve d, or t ra nsm it ted

Not ill um in at ed No activ it y is o ccu r ring

BACne t i s illu m inated The Li nk Sw it ch h as b een set t o w ire d com m u nication

I MC i s illum in at ed The Li nk Sw it ch h as b een set to wi r ele ss com mu n ica t io n

Sw it ch / But to n t ype Pu r p o se

Lin k Se lect Sw itch Use t his sw it ch to select wir ed com mu ni cat ion ( BACnet ) or w irel ess co m m u nication ( I MC)

Ser v ice But ton Press t his bu t t on an d r est art th e co nt roller to ru n

Rotar y Sw it ches Use t he se sw it ches to set un iq ue MS/ TP MAC ad dre sses

ap pli ed . I n bo ot m od e, t he co nt r oll er i s non - op er at io na l an d is waitin g for a new m ain ap plicat io n t o be d ow n lo ad ed. Wh ile in b oo t m od e, t he syst em wi ll n ot ru n a ny applica t ions.

Bli nk s at t he dat a tr ansf er rat e wh en th e u nit r ecei ves dat a fr om o t her d ev ices on the lin k

• ON soli d y e ll ow ; ind icat es t her e is r ev erse po larit y

t he b oo t cod e

16 BAS-SVP09B-EN

BACnet Data Points and Configuration Property Definitions

The BCI-R controller allows a ReliaTel control system to communicate with BACnet systems and devices using BACnet MS/TP. This section includes information about:

• BACnet protocol implementation conformance statement (PICS)

• Object types: descriptions and configuration (refer to

• BACnet protocol: data link layers, device address binding, networking options, and character sets

• Object data points and configurations

BACnet Protocol Implementation Conformance Statement (PICS)

Standardized Device Profile (Annex L)

Pr o f il e Descr i pt io n Su p por t ed P r ofi le

BACne t Adv an ced Application Controll er ( B- AAC)

BACne t App licat ion Sp eci fi c Controll er ( B- ASC)

BACne t Bui ld in g Con t r ol le r ( B-BC)

BACne t Op er at or Wor k st ation ( B- OWS)

BACnet Sm art Act uat or (B-SA)

BACnet Sm art Sensor ( B- SS)

Ta bl e 2, p. 19)

Interoperability Building Blocks (Annex K)

Da t a Sh a r i n g D e scr ipt io n Su ppor t ed B I BB

Dat a Sh ar ing - ReadProp er t y-A ( DS-RP-A)

Dat a Sh ar ing - ReadProp er t y-B (DS- RP-B)

Dat a Sh ar ing - ReadProp er t y Mult ip le - B ( DS- RPM-B)

Dat a Sh ar ing -Wri t ePro perty- A ( DS- WP-A)

Dat a Sh ar ing -Writ ePro pe rty- B ( DS-W P-B)

Dat a Sh ar ing -Writ ePrope rtyMultiple- B ( DS- WPM- B)

Alar m a n d Event M a na gem e n t De s cr iptio n Su p por te d BI BB

Alarm an d Eve nt - ACKI - B (AE-ACK- B)

Alarm an d Eve nt -Alarm Sum m ary - B ( AE-ASUM- B)

Alarm an d Eve nt -I nfo rm at ion - B ( AE-I NFO-B)

Alarm an d Eve nt- Notif ica t ion I n t er n al-B ( AE-N- I - B)

Tr e n d i ng D e scr ipt ion Su p por te d B I BB

Tren di ng- Au t om ated Trend Retriev al - B ( T-ATR-B)

Trending - view ing a nd Mod if y in g Tren ds I nt er n al-B ( T-VMT-I -B)

BAS-SVP09B-EN 17

BACnet Data Points and Configuration Property Definitions

Device Managem e n t De scrip t ion Su p por te d BI BB

Dev ice Man ag em ent - Backup a nd Rest or e- B ( DM- BR- B)

Dev ice Man agem ent -D ev ice Com mu ni cati on Cont rol- B ( DM-DCC-B)

Dev ice Man ag em ent - Dy n am ic Dev ice Bi nd ing -A ( DM-D DB-A)

Dev ice Man ag em ent - Dy nam ic D ev ice Bin di ng - B ( DM- DDB- B)

Dev ice Man ag em ent - Dy nam ic Ob j ect Binding - B ( DM- DOB-B)

Dev ice Man ag em ent - List Ma ni pu lat io n-B ( DM-LM-B)

Dev ice Man ag em ent - Ob j ect Creat io n and Del et ion- B ( DM- OCD-B)

Dev ice Man ag em ent - Rein it ialize Dev ice- B (DM- RD- B)

Dev ice Man ag em ent -Ti m eSy n chro nization- B (DM-TS- B)

Segmentation Capability

Se g m en t a t i on D e scr ipt ion Su p por te d S e gm e n t

Segm en t ed Req uest s/ Wind ow Size: 1

Segm en t ed Respon ses/ Win dow Size : 1

18 BAS-SVP09B-EN

Object Types

Table 2. Descriptions and configurations

Ob j e ct Ty p e

Analo g I np ut

Analo g Out put

Analo g Va

lue

Bin ar y I np

Re q u ir ed P r op e r t i e s Re a d Pr ope rt ie s W ri t t e n

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Units

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Units

• Priority_Array

• Relinq ui sh _Def au lt

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Units

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Polarity

BACnet Data Points and Configuration Property Definitions

( a)

• Object_Name

• Description

• Out_Of_Service

• Prese nt _Valu e

• Reliabil it y

• Min_Pres_Value

• Max_Pres_Value

• Time_Delay

• Not ifica t ion _ Class

• High_Limit

• Low_Limit

• Deadband

• Limit_Enable

• Even t _En able

• Notify_Type

• Object_Name

• Description

• Out_Of_Service

• Prese nt _Valu e

• Reliabil it y

• Min_Pres_Value

• Max_Pres_Value

• Relinq ui sh _D ef au lt

• Time_Delay

• Not ifica t ion _ Class

• High_Limit

• Low_Limit

• Deadband

• Limit_Enable

• Even t _En able

• Notify_Type

• Object_Name

• Description

• Out_Of_Service

• Prese nt _Valu e

• Reliabil it y

• Relinq ui sh _D ef au lt

• Time_Delay

• Not ifica t ion _ Class

• High_Limit

• Low_Limit

• Deadband

• Limit_Enable

• Even t _En able

• Notify_Type

• Object_Name

• Description

• Out_Of_Service

• Inactive_Text

• Active_Text

• Prese nt _Valu e

• Reliabil it y

• Chan ge_Of_ St at e_Cou nt

• Elap sed _Act iv e_Tim e

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Value

• Even t _En able

• Polarity

• Notify_Type

Op t i on al Pr ope rt ie s Re ad

• Description

• Relia bilit y

• Min _ Pres_ Value

• Max_Pres_Value

• Time_Delay

• Not ifica t ion _Class

• High_Limit

• Low_Limit

• Deadband

• Limit_Enable

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Description

• Relia bilit y

• Min_Pres-Value

• Max_Pres_Value

• Time_Delay

• Not ifica t ion _Class

• High_Limit

• Low_Limit

• Deadband

• Limit_Enable

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Description

• Relia bilit y

• Priority_Array

• Relinq ui sh _D ef au lt

• Time_Delay

• Not ifica t ion _ Class

• High_Limit

• Low_Limit

• Deadband

• Limit_Enable

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Description

• Inactive_Text

• Active_Text

• Change_Of_State_Time

• Chan ge_Of_ St ate _Coun t

• Tim e_Of _St at e_Cou nt _Reset

• Elap sed _Act iv e_Tim e

• Tim e_Of_ Activ e_Tim e_Reset

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Value

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Relia bilit y

Ab il ity t o Cre at e

Yes Yes , on ly

Ab il ity t o Dele t e

use

r cre ated

ob jec ts

use

r cre ated

ob jec ts

use

r cre ated

ob jec ts

use

r cre ated

ob jec ts

BAS-SVP09B-EN 19

BACnet Data Points and Configuration Property Definitions

Table 2. Descriptions and configurations (continued)

Ob j e ct Ty p e

Bin ar y Out put

Bin ar y Va

lue

Re q u ir ed P r op e r t i e s Re a d Pr ope rt ie s W ri t t e n

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Polarity

• Priority_Array

• Relinq ui sh _Def au lt

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Polarity

Dev ice • Obj ect _I den ti fie r

Even t Enr o

llm ent

Obj ect

• Object_Name

• Object_Type

• System_Status

• Vendor_Name

• Vend or_ I dent if ier

• Model_Name

• Firmware_Revision

• App licat ion _Sof tw are_ Versio n

• Prot ocol _Ver sion

• Protocol_Revision

• Prot ocol _Ser vic es_Su ppo rt ed

• Prot ocol _Obj ect _Ty pes_ Supp ort ed

• Object_List

• Max _APDU_ Leng th _Acce pte d

• Segm en tat ion _Sup port ed

• APDU_Ti meo ut

• Number_Of_APDU_Retries

• Dev ice_ Add ress_ Bin din g

• Dat aba se_Rev ision

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Event_Type

• Notify_Type

• Even t _Param ete rs

• Obj ect_Proper t y_ Ref er en ce

• Event_State

• Even t_En ab le

• Acked_Transitions

• Not ifica t ion _ Class

• Event_Time_Stamps

• Object_Name

• Description

• Out_Of_Service

• Inactive_Text

• Active_Text

• Prese nt _Valu e

• Reliabil it y

• Chan ge_Of_ St at e_Cou nt

• Elap sed _Act iv e_Tim e

• Minimum_On_Time

• Min im um _Of f_Tim e

• Relinq ui sh _D ef au lt

• Time_Delay

• Not ifica t ion _ Class

• Even t _En able

• Polarity

• Notify_Type

• Object_Name

• Description

• Out_Of_Service

• Inactive_Text

• Active_Text

• Prese nt _Valu e

• Reliabil it y

• Chan ge_Of_ St at e_Cou nt

• Elap sed _Act iv e_Tim e

• Minimum_On_Time

• Min im um _Of f_Tim e

• Relinq ui sh _D ef au lt

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Value

• Even t _En able

• Notify_Type

• Object_Name

• Location

• Description

• APDU_Segment_Timeout

• APDU_Timeout

• Number_Of_APDU_Retries

• Backup_Failure_Timeout

• Max _Mast er

• Max _I nfo _Fram es

• Object_Name

• Notify_Type

• Obj ect _Pr op er t y_ Ref er ence

• Even t _En able

• Not ifica t ion _ Class

( a)

Ab il ity

Op t i on al Pr ope rt ie s Re ad

• Description

• Inactive_Text

• Active_Text

• Change_Of_State_Time

• Chan ge_Of_ St ate _Coun t

• Tim e_Of _St at e_Cou nt _Reset

• Elap sed _Act iv e_Tim e

• Tim e_Of_ Activ e_Tim e_Reset

• Min im um _On_ Tim e

• Min imu m_ Off_ Tim e

• Time_Delay

• Not ifica t ion _ Class

• Feedb ack_ Val ue

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Relia bilit y

• Description

• Inactive_Text

• Active_Text

• Change_Of_State_Time

• Chan ge_Of_ St ate _Coun t

• Tim e_Of _St at e_Cou nt _Reset

• Elap sed _Act iv e_Tim e

• Tim e_Of_ Activ e_Tim e_Reset

• Priority_Array

• Relinq ui sh _D ef au lt

• Min im um _On_ Tim e

• Min imu m_ Off_ Tim e

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Value

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Relia bilit y

• Location

• Description

• Max _Seg me nt s_Acce pte d

• APDU_ Segm ent _Ti me out

• Max_Master

• Max_Info_Frames

• Local_Time

• Loca l_Da te

• Con fig ura tio n_ Fil es

• Last _Rest ore _Tim e

• Back up_ Failure _Tim eout

• Prof ile_ Nam e

• None Yes Yes , on ly

t o Cre at e

Yes Yes , on ly

Non e Non e

Ab il ity t o Dele t e

use

r cre ated

ob jec ts

use

r cre ated

ob jec ts

use

r cre ated

ob jec ts

20 BAS-SVP09B-EN

Table 2. Descriptions and configurations (continued)

Ob j e ct Ty p e

Even t Lo g Obj ect ( add. 1 35– 20 04b )

Mul tist ate I np

Mul tist ate Out put

Mul tist ate Va

lue

Not ifica t ion Cl

ass

Tr e n d • Obj ect _I de nti fie r

( a) Pr op ertie s w ritten fo r P r ese nt_ Valu e a nd Re lia b il it y o n ly if O ut _o f_ Se r v ice is TR U E.

Re q u ir ed P r op e r t i e s Re a d Pr ope rt ie s W ri t t e n

• Obj ect_I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Enable

• Stop_When_Full

• Buf f er Si ze

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Number_Of_States

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Number_Of_States

• Priority_Array

• Relin quish Defa ul t

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Prese nt _Valu e

• Status_Flags

• Event_State

• Out_Of_Service

• Number_Of_States

• Obj ect _I den t if ie r

• Object_Name

• Object_Type

• Not ifica t ion _ Class

• Priority

• Ack_Required

• Recipi en t _Li st

• Object_Name

• Object_Type

• Log_Enable

• Stop_When_Full

• Buf fer _Size

• Log _Buf fer

• Record_Count

• Tot al_ Recor d_Cou nt

• Event_State

• Object _Name

• Enable

• Stop_When_Full

• Number_Of_States

• Object_Name

• Description

• State_Text

• Out_Of_Service

• Prese nt _Valu e

• Reliabil it y

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Values

• Fault _Valu es

• Even t _En able

• Notify_Type

• Number_Of_States

• Relinq ui sh _D ef au lt

• Object_Name

• Description

• State_Text

• Out_Of_Service

• Prese nt _Valu e

• Reliabil it y

• Time_Delay

• Not if icat ion _ Class

• Even t _En able

• Notify_Type

• Object_Name

• Description

• State_Text

• Out_Of_Service

• Prese nt _Valu e

• Reliabil it y

• Priority_Array

• Relinq ui sh _D ef au lt

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Values

• Fault _Valu es

• Even t _En able

• Notify_Type

• Object_Name

• Priority

• Ack_Required

• Recip ie nt _List

• Object_Name

• Log_Enable

• Start_Time

• Stop_Time

• Log _De vice Object Prop ert y

• Log_Interval

• Stop_When_Full

• Buf fer _Siz e

• Log _Buf fer

• Recor d_ Co unt

• Not ifi cati on_ Thres hold

• Not ifi cati on_ Cla ss

• Even t_Enab le

• Notify_Type

( a)

Op t i on al Pr ope rt ie s Re ad

• Description

• Tot a l_ Recor d_ Cou nt

• State_Text

• Relia bilit y

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Values

• Fault _Valu es

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• State_Text

• Relia bilit y

• Relinq ui sh _D ef au lt

• Time_Delay

• Not if icat ion _ Class

• Feedb ack_ Val ue s

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Description

• State_Text

• Relia bilit y

• Relinq ui sh _D ef au lt

• Time_Delay

• Not ifica t ion _ Class

• Alarm_Values

• Fault _Valu es

• Even t _En able

• Acke d_ Tran sit io ns

• Notify_Type

• Even t _Ti m e_ St am ps

• Notify_Type Yes Yes , on ly

• Start_Time

• Stop_Time

• Log _De vice Object Prop ert y

• Log_Interval

• Stop_When_Full

• Buf fer _Siz e

• Not ifi cati on_ Thresho ld

• Recor ds_Si nce_ Noti ficat ion

• Last_Notify_Record

• Not ifi cati on_ Cla ss

• Even t_Enab le

• Acke d_Tran siti ons

• Even t_ Tim e_St amps

Ab il ity t o Cre at e

No No

Yes Yes , on ly

Ab il ity t o Dele t e

use

r cre ated

ob jec ts

use

r cre ated

ob jec ts

use

r cre ated

ob jec ts

use r cre ate d ob jec ts

use

r cre ated

ob jec ts

BAS-SVP09B-EN 21

BACnet Data Points and Configuration Property Definitions

BACnet Protocol

Data Link Layer Options

Data Li n k Layer De scri p t io n

ANSI /ATA 8 78 .1 , 2 .5 Mb ARCNET ( Clause 8 )

ANSI /ATA 8 78 .1 , RS- 48 5 ARCNET ( Cla use 8 ) , Bau d Rat e(s)

BACne t I P, ( Anne x J)

BACne t I P, ( Anne x J) , For ei gn D ev ice

I SO 8 802 -3 , Et her net ( Clause 7 )(1 0Base2 , 1 0Ba se5 , 10 BaseT, Fiber )

Lon Talk, (Cl ause 11 ) , Mediu m

MS/ TP Ma st er ( Clause 9), Baud Rate( s): 9 60 0, 19 20 0, 38 40 0, and 7 68 00 @1. 5% No m in al Baud Rat e

MS/ TP Slave ( Cla use 9) , Ba ud Rate ( s)

Other

Point - t o- Point , EI A 23 2 (Clau se 10 ) , Baud Rate( s) : 96 00 , 192 00 , 38400

Point -t o-Poin t, Modem ( Cla us e 1 0) , Bau d Rat e(s) : 9 60 0, 192 00 , 3 840 0

Device Address Binding

Devi ce Ad d ress Bi ndi n g Su p po r t e d

St at ic De vi ce Bin ding Sup po rt ed N o

Networking Options

N et w ork in g D escri p t io n s

Ann ex H, BACnet Tunnelin g

BACne t / IP Br oadca st Ma na ge m en t De v ice (BBMD )

Doe s t he BBMD Su ppor t Reg ist rat ions by Fore ig n Devi ces?

Rou ter

Su p por t ed

Op t i on

Su p por t ed

Op t i on

22 BAS-SVP09B-EN

Character Sets

BACnet Data Points and Configuration Property Definitions

Indicates support for multiple characters sets, but does not imply that all character sets are supported simultaneously. Maximum supported string length is 64 bytes (any character set).

Charact e r S e t D escri p t io n s Su p por t e d

ANSI X3. 4

I BM/ Microsof t D BCS

I SO 1 064 6 ( UCS-4 )

I SO 1 064 6 ( UCS2)

I SO 8 859 -1

JIS C 62 26

BAS-SVP09B-EN 23

Object Data Points and Diagnostic Data Points

For quick reference, the following tables are listed two different ways. Tables 3 through 9 are listed by input/output type and sorted by object identifier. These tables provide the user with the units type for each object type. Table 11, p. 32 and Table 13, p. 35 are sorted by object name and provide a complete list of object names, types, values/ranges, and descriptions. Not all points are available to the user. The available data points are defined during self-configuration and are dependent on the type of equipment.

Table 3. Analog Output

Ob je ct I d en ti fie r O bj e ct Nam e D e scri p t io n

Ana lo g Out put , 1 Econ om izer Mi ni m um Posit ion Se t po in t BAS

Ana lo g Out put , 2 Spa ce Temp er at ure Setp oin t B AS

Ana lo g Out put , 4 Mor ni ng War m up S et po in t BAS

Ana lo g Out put , 5

Ana log Ou tpu t , 6 Disch ar ge Air Cooli ng Set poi nt BAS

Ana lo g Out put , 7 Discha rg e Air Heat ing Se t poi nt BAS

Ana lo g Out put , 8 Du ct St atic Press ur e Set poin t B AS

Ana lo g Out put , 9 Spa ce St at ic Pressur e Set poin t B AS

Ana log Out put , 1 0 Spa ce St at ic Pressur e BAS

Ana lo g Out put , 1 1 Spa ce Temp er at ure BAS

Ana log Ou tpu t , 14 Ou t doo r Air Temp era t ur e BAS

Ana lo g Out put , 1 5 Out doo r Air Hum idi t y BAS

Ana log Ou tpu t , 16 Ou t door Ai r Minim um Flo w Setpo int BAS

Ana lo g Out put , 1 8 Spa ce CO2 Con cent rat ion BAS

Ana log Out pu t , 19 Coo l Capacit y Ena ble Se t poi nt BAS

Ana lo g Out put , 2 0 Heat Capacit y Enab le Setp oint BAS

Ana lo g Out put , 2 1 Spa ce Deh um id if icati on Set po in t BAS

Ana lo g Out put , 2 3 Dis cha rg e Air Rehea t Se t po in t BAS

Ana lo g Out put , 2 5 Spa ce Hu m id it y BAS

Ana lo g Out put , 2 9 Occu pi ed Of fs et

Ana lo g Out put , 3 0 St an db y Offse t

Ana lo g Out put , 3 1 Uno ccup ied Cooli ng S et point

Ana log Ou tpu t , 32 Un occu pied Heating Set poi nt

Day tim e War m up Ter m in at e Temp era t ur e Set po int BAS

BAS sup plie d eco no m ize r posit ion mi nim um set poin t va lu e

Base va lue t o ca lcul at e se tp oin ts in o ccup ied an d st an db y m odes.

BAS s up pli ed t emp er at ur e set poin t u sed i n mor nin g wa r m up m ode.

BAS sup plie d day tim e w arm up term ina t e tem pe ra t ur e set poin t.

BAS sup plied di sch ar ge air tem pera tur e coo li ng se t po in t va lue.

BAS sup plied di sch ar ge air tem peratu re hea t in g set poin t va lue .

BAS sup plied du ct sta t ic ai r pr essu re set poin t v al ue.

BAS sup plied spa ce st at ic a ir pr essu re set poin t v al ue.

BAS sup plied spa ce st at ic a ir pr essu re sen sor val ue .

BAS sup plied spa ce air tem pera tur e sen sor val ue.

BAS sup plie d ou t do or a ir tem pera tur e sen sor val ue.

BAS sup plie d ou t do or a ir hu m id it y se nsor v alue.

BAS sup plie d m in im um out doo r air flow set poin t .

BAS sup plied spa ce CO2 se nso r va lue .

BAS sup plied coo lin g d em and lim it c apa cit y s et po in t v al ue .

BAS sup plie d he at ing dem an d lim it c apa cit y s et po in t v al ue .

BAS sup plie d spa ce deh um id if ica ti on s et po in t v al ue .

BAS sup plied di sch ar ge air re he at set po in t v alue.

BAS sup plie d spa ce hu mid ity sen sor val ue .

Off set use d to ca lcu la te se tp oi nt s in o ccup ied m od e.

Off set val ue used to calc ula t e set poin t s in stan dby m ode.

Cool ing temper at ure setp oin t use d fo r co nt rol i n unoc cup ied m od e.

Heat ing t em per atu re se t po in t use d fo r co nt rol i n unoc cup ied m od e.

Un its o f M ea su r e

I P/ SI

Percen t ( 98) 0 to 1 00 NA

Fah re nh eit ( 64 ) Celci us ( 62 )

0. 0 inH2 O = 0 Pa ( 53 )

2. 5 inH2 O = 62 2 Pa

- 0. 2 in H2O = - 50 Pa ( 53 )

0. 3 inH2 O = 74 Pa

- 0. 67 in H2 O = - 16 7 Pa ( 53)

0. 67 in H2 O = 16 7 Pa

Fah re nh eit ( 64 ) Celci us ( 62 )

Percen t ( 98) 10 .0 t o 90 .0 90 0

0 CFM = 0 l / s ( li tr es/ se cond ) 60 00 0 CFM = 2 831 7 l/ s ( 87 )

Part -pe r- mi llion (9 6) m g/ kg

Percen t ( 98) 0 to 1 00 NA

Percen t ( 98) 0 t o 10 0 NA

Percen t ( 98) 40 to 6 5 NA

Fah re nh eit ( 64 ) Celci us ( 62 )

Percen t ( 98) 10 to 9 0 90 0

Fah re nh eit ( 64 ) Celci us ( 62 )

Fah re nh eit ( 64 ) Celci us

Fah re nh eit ( 64 ) Celci us ( 62 )

Va lid R a n ge

50 .0 t o 90 . 0 10 .0 to 3 2. 2

50 .0 t o 87 . 0 10 .0 to 3 0. 6

40 .0 t o 90 . 0

4. 4 t o 32 .2

40 .0 to 1 80 .0

4. 4 t o 82 .2

0. 0 t o 2.5 NA

0. 3 t o - 0. 2 NA

-0 .67 t o 0.6 7 90 0

- 39 .5 t o 20 0.0

- 39 . 7 t o 93 .3

- 39 .5 t o 20 0.0

- 39 . 7 t o 93 .3

0 t o 60 ,00 0 NA

0. 0 t o 200 0

65 .0 t o 80 . 0 18 .3 to 2 6. 7

1. 0 t o 5.0

- 17 . 2 t o -1 5.0

1. 0 t o 5.0

- 17 . 2 t o -1 5.0

52 .0 t o 88 . 0 11 1. 1 t o 31 .1

50 .0 t o 90 . 0 10 .0 to 3 2. 2

Re f r e sh

Ra t e

( Sec .)

90 0

24 BAS-SVP09B-EN

Table 3. Analog Output (continued)

Object Data Points and Diagnostic Data Points

Un its o f M ea su r e

Ob je ct I d en ti fie r O bj e ct Nam e D e scri p t io n

Ana lo g Out put , 3 3 Exh au st o r Ret urn Fan Conf ig ur at ion

Ana lo g Out put , 3 4 Power Exh au st En ab le Setp oi nt BAS

Set s th e equ ipm en t exha ust or re t ur n fa n t yp e.

BAS sup plie d po we r ex hau st enabl ed se t po in t v alu e.

NA 1.0 t o 2 55 NA

Percen t ( 98) 0. 0 t o 10 0 NA

I P/ SI

Va lid R a n ge

Table 4. Analog Input

Un its of M e a sur e

Ob j e ct I dentif i e r Ob j e ct Nam e Descr i pt ion

Ana lo g I np ut, 1 Coolin g Cap aci ty St atu s I nd ica t es t he u ni t co olin g cap aci t y bein g ut iliz ed . Perce nt (9 8)

Ana lo g I np ut, 2 Heat Prim ary Cap acit y Stat us

Ana lo g I np ut, 3 Heat S econ dar y Cap aci t y Stat us

Ana lo g I np ut, 5 Reh eat Capacit y S tat us

Ana lo g I np ut, 6 Filt er Runt im e Hou r s

Ana lo g I np ut, 7 Supply Fan Speed Com ma nd Indic at es the u nit co m man de d su pp ly f an sp eed. Perc en t ( 98 )

Ana lo g I np ut, 8 Exhau st Fan S pee d Com ma nd I nd ica t es t he u ni t co mm ande d ex ha ust fan speed . Perce nt (98 )

Ana lo g I np ut, 9 Ex ha ust Da m pe r Po sit ion St atu s I ndic at es t he u nit e xh aust dam per p osit io n. Perc en t ( 98 )

Ana lo g I np ut, 11 Out door Air Dam per Posi t ion St at us In di cat es t he u nit o ut doo r air da m pe r posit ion . Perc ent (98)

Ana lo g I np ut, 15 Spa ce Temp erat ur e Act ive The space tem per atu re curr ent ly used fo r u nit con tr ol.

Ana log In pu t , 16 Sp ace Hu m idi ty Act iv e The sp ace hu mi dit y va lue f rom a u ni t- m oun t ed con tr ol. Perce nt -r ela ti ve- h um id ity ( 29 )

Ana lo g I np ut, 18 Out door Ai r Temper at ure Activ e

Ana log I npu t, 20 Outd oor Air Hum idit y Ac ti ve Th e ou td oor air hu mid it y v alu e use d fo r unit con tro l. Perce nt -relat ive- hum idity (2 9)

Ana lo g I np ut, 24 Discha rg e Air Tem per at ure Acti ve

Ana lo g I np ut, 25 Mix ed Ai r Tem pe ra tur e

Ana lo g I np ut, 26 Retu rn Air Temp erat ure

Ana log I np ut, 28 Du ct St ati c Pressu re Act iv e

Ana lo g I np ut, 31 Spa ce St at ic Ai r Pre ssu re Act iv e

Ana log I np ut , 3 2 Spa ce CO2 Con cent rat ion Act ive Spa ce CO2 co ncentr ati on b ein g u sed f or un it con tro l.

Ana lo g I np ut, 34 Out door Air Flow Act ive Out door air flow ut ilit zed by th e un it.

Ana lo g I np ut, 48 Du ct St ati c Pressu re Set poin t Ac t iv e

Ana lo g I np ut, 50 Spa ce Temp er at ur e Set poin t Act iv e

Ana log I np ut , 5 2 Discha rg e Air Tem per at ure Se tp oint Act ive

Ana lo g I np ut, 54

Ana log I npu t, 57 Ou t doo r Air Min im um Flo w Setpoin t Act ive

Ana lo g I np ut, 58 Deh umidi ficat ion Hi gh Lim it Set poin t

Ana log I np ut , 6 1 Discha rg e Air Rehea t Se tp oint Act ive

Mor ni ng War mu p Temp era t ur e Set point Act ive

I nd ica t es t he u ni t p ri mar y h eat ing c apa cit y b eing ut iliz ed.

I nd ica t es t he u ni t se con dary heat in g capaci t y bein g ut iliz ed.

I nd ica t es t he u ni t r eheat he at ing ca pacit y b ein g ut iliz ed.

I ndica tes the nu m be r of ho ur s air ha s fl ow ed t hr ou gh the fi lt er.

The o ut door air t em perat ure curr ent ly use d for u ni t con t ro l.

The d isch arg e air te m pe ra t ur e cur ren t ly u sed f or un it con t ro l.

The m ixe d a ir tem pe rat ur e v alu e f rom a un it -m ou nte d sen sor.

The re tu rn air t em per atu re val ue fr om a u nit - mo unt ed sen sor.

Du ct s tat ic a ir pressur e v alue cu rr ent ly bei ng used for un it cont rol.

Spa ce st at ic ai r pr essur e value b ein g us ed for u ni t con t ro l.

Du ct stat ic pre ssur e set po int va lue bei ng used fo r u nit con tr ol.

Spa ce t em per at ure se tp oint va lue bein g used for u nit con t ro l.

Dis cha rg e ai r tem pera t ur e set point val ue b ei ng u sed fo r unit con tr ol.

The air t emper atu re s et po in t u sed duri ng m orni ng wa r m up mode.

The m in im um ou td oor air fl ow set p oin t be ing u ti liz ed by t he unit.

Hum idi t y setp oi nt va lu e th at st ar ts deh um idifi cati on con t ro l.

I nd ica t es t he acti ve sup pl y ai r rehe at te m per atu re set poin t.

Perc en t ( 98)

Hou rs ( 71)

Fahre nh eit ( 64 ) Celci us ( 62)

0. 0 in H2O = 0 Pa (53 )

7. 9 in H2O = 1 967 Pa

- 0. 67 in H2 O = -16 7 Pa ( 53)

0. 67 in H2 O = 16 7 Pa

Part -per - m ill ion (9 6) m g/ kg

0 CFM = 0 l/ s ( li tre s/ secon d) 65 53 5 CFM = 3 0929 l/ s ( 87 )

0. 0 in H2O = 0 Pa (53 )

5. 1 in H2O = 1 270 Pa

Fahre nh eit ( 64 ) Celci us ( 62)

0 CFM = 0 l/ s ( li tre s/ secon d) 65 00 0 CFM = 3 0676 l/ s ( 87 )

Perc en t ( 98)

Fahre nh eit ( 64 ) Celci us ( 62)

I P/ SI

Re f r e sh

Ra t e

( Sec .)

BAS-SVP09B-EN 25

Object Data Points and Diagnostic Data Points

Table 4. Analog Input (continued)

Ob j e ct I dentif i e r Ob j e ct Nam e Descr i pt ion

Ana lo g I np ut, 71

Ana log I np ut , 7 4 Spa ce Temp er at ure Coo ling Se t poin t In pu t

Ana lo g I np ut, 75 Spa ce Temp er at ure Heat in g Set poin t I npu t

Ana log I np ut , 7 8 Spa ce Temp er at ure Setp oi nt Local The l ocal spac e t em per atu re set po in t.

Ana lo g I np ut, 79 Deh um idi ficat ion Cap aci t y Stat us

Ana lo g I np ut, 80 Cabi ne t St yle Descri be s t he cab in et st yl e of t he u nit . NA

Ana log I npu t, 81 Cool Ty pe Descri be s t he coo li ng t ype i nst alle d in t he un it. NA

Ana lo g I np ut, 82 Preh eat Typ e Descri be s t he he at ing type inst alled in the u nit . NA

Ana log I npu t, 83 Reheat Ty pe Descri be s t he r eheat ty pe i nst alled i n the unit . NA

Ana log I np ut , 8 6 Econo m izer Min im um Posit ion Set point Local

Ana log I npu t, 87 Spac e Tem pera t ur e Local

Ana lo g I np ut, 88 Uni t En er gy Dem and

Ana log I npu t, 89 Sup pl y Fan Type Descri be s t he su pp ly f an t ype i nsta ll ed in th e un it. NA

Ana lo g I np ut, 90 Exh au st o r Ret urn Fan Typ e

Ana log I npu t, 91 RTRM Maj or Versi on Maj or sof twa re v ersi on n umber of t he RTRM m od ul e NA

Ana log I npu t, 92 RTRM Mi nor Version Mi no r soft wa re v ersio n nu mbe r of t he RTRM m odu le NA

Ana log I npu t, 93 RTOM Maj or Ver sion Maj or sof twa re v ersi on n um ber of t he RTOM m odul e NA

Ana log I npu t, 94 RTOM Mi no r Ver sion Min or s oftw are ve rs ion num ber of t he RTOM m odu le NA

Ana log I npu t, 95 BCI- R Maj or Ver sion Maj or sof twa re v ersio n n um ber o f the BCI -R m od ul e NA

Ana log I npu t, 96 BCI -R Mi no r Ver sion Mi no r soft wa re v ersio n nu mbe r of t he B CI- R modu le NA

Ana log I npu t, 97 RTAM Maj or Ver sion Maj or soft war e ve rs ion nu m be r of th e RTAM m odul e NA

Ana log I npu t, 98 RTAM Min or Versi on Minor s oft war e ve rs ion n umb er o f the RTAM m odul e NA

Ana log I npu t, 99 RTEM M aj or Ver si on Maj or sof twar e versi on n um ber of t he RTEM m od ul e NA

Ana log I npu t, 100 RTEM Mino r Ver sio n Min or s of tw are vers ion num ber of the RTEM m odul e NA

Ana log I npu t , 10 1 RTDM Maj or Ver sio n Maj or sof twa re v ersi on n um ber of t he RTDM m odu le NA

Ana log I npu t, 102 RTDM Mi nor Ver sion Min or so ft war e ve rsi on n umb er o f the RTDM mod ul e NA

Ana log I npu t , 10 3 RTVM Maj or Versi on Maj or sof tw ar e ve rsion nu m be r of t he RTVM m odu le NA

Ana log I npu t, 104 RTVM Min or Ver sion Min or s of tw are vers ion num ber of the RTVM m odu le NA

Ana log I npu t , 10 5 RTCM Maj or Ver sion Maj or sof t wa re v ersi on n um ber of the RTCM m odu le NA

Ana lo g I npu t, 10 6 RTCM Mi no r Ver sion Mino r soft war e ve rs ion nu m be r of th e RTCM m odul e NA

Ana log I npu t , 10 7 Spac e S ta t ic Pressur e Set poin t Ac ti ve Sp ace pres sure set poin t cur rent ly use d f or unit co ntr ol I nches- of- wa te r (58 )

Exh au st En ab le Dam per Posit ion Setp oint St at us

Exh au st a ir d amp er mi nim um posit ion t o en able ex hau st se qu en ce.

Cool in g t em pera t ur e set poi nt fr om space sensor m od ul e.

Heat ing t emp er at ur e set poin t f ro m space s enso r m od ul e.

I nd ica t es t he u ni t d eh um idi fi cat ion capacit y bein g ut iliz ed.

I nd icat es t he lo cal e con om izer m ini m um po siti on set poin t.

The sp ace air t emp erat ure mea sur ed b y a u ni tm ou nt ed sen sor.

I ndic at es t he cur ren t hea t/ cool ene rgy dem and of th e un it.

Des cri be s t h e ex ha ust or r et u r n fan ty p e i ns ta ll ed in t h e un it .

Perc en t ( 98)

Fahre nh eit ( 64 ) Celci us ( 62)

Perc en t ( 98)

Fahre nh eit ( 64 ) Celci us ( 62)

Perc en t ( 98)

I P/ SI

Un its of M e a sur e

Table 5. Analog Value

Ob j e ct I dentif i e r O b j e ct N am e D e scr ipt io n Unit s V a l id Range

Ana lo g Valu e, 1 Filt er Run t im e Hour s Set poin t

26 BAS-SVP09B-EN

The se t po in t v al ue u sed by t h e filt er r un h ours calcul at ion .

Hou rs ( 71) 0 t o 1 0, 000

Table 6. Multistate Output

Object Data Points and Diagnostic Data Points

BCI - R Ob j e ct I d e n t i fie r Ob j e ct N a m e Descr ipt ion

Mul t i- Stat e Ou t pu t , 1 Econo m izer Ai rs ide En ab le BAS

Mul t i- Stat e Ou t pu t , 2 Eme rg en cy Overr ide Com m an d

Mul t i- Stat e Ou tpu t , 7 Occup ancy Req ue st Com man d t he u nit i nt o an occu panc y m ode.

Mul t i- Stat e Ou t pu t , 8 Heat Cool Mo de Req ue st BA S

Com man d t he sta t e of t he a ir side econom izer sys t em .

Com m and t he uni t int o an em erg ency m od e o f ope rat ion .

Com m and the u ni t t o a specif ic ap plica t ion m od e.

Table 7. Multistate Input

BCI - R Ob j e ct I de n t ifi e r

Mul t i- Stat e I npu t , 2 Tra ne Un it Type

Mul t i- Stat e I npu t , 9 Eco no m izer Typ e

Mul t i- Stat e I npu t , 17 Coo lin g Reset Type St atus I nd icate s th e t yp e of co olin g reset .

Mul t i- Stat e I npu t , 19

Ob j e ct N a m e D escr ipt i on

Gen er al descr ipt io n of t he equi pm ent -t ype classif icat ion .

Gene ral descr ipti on o f the equip men t econ omi zer sy stem .

Heat Coo l Mod e St at us: mat che s th e

Heat Cool Mode St atu s/ App lica tion Mo de Stat us

def ined syst em d isp la y na m e an d t he displ ay n ame u sed i n TU. App li cat ion Mode Stat us: th e poin t n ame use d in t he de vi ce.

Ob j e ct Stat e s

* n ot all st at es ap ply t o a ll e qu ip me nt

1 = 1 He at / 1 Co ol 2 = Hea t Pum p 3 = Blow er Co il 4 = Un it Vent ilat or 5 = Fan Coil 6 = Roof top 7 = Air Han dl er 8 = Ver t ica l Self Cont aine d 9 = Un it ary 10 = VAV Bo x 11 = Fan Coil

1 = No ne 2 = 2 Posit ion Ven t il at ion 3 = Mod ula t ion Eco nomizer 4 = 2 Posit ion Ven t ila t ion /Wat ersi de Econ omi zer 5 = Wat ersi de Eco no m ize r 6 = Air side / Water side Econ om izer 7 = TRAQ Dam per 8 = Ai rs id e Econ om izer a nd TRAQ Da m per/ Sen sor 9 = Wat er sid e Econo m izer and TRAQ Dam per/ Sen sor 10 = Air side/ Wat erside Eco no m ize r and TRAQ Dam per /Sensor

1= N on e 2= Out door Air 3= Zon e

1 = Au to 2 = Hea t 3 = Mor nin g War m -up 4 = Cool 5 = Ni gh t Pur ge 6 = Pre Coo l 7 = Of f 8 = Test 9 = Em er ge ncy Heat 10 = Fan Onl y 11 = Free Cool 12 = I ce- Maki ng 13 = Max Heat 14 = Econo m y Mode 15 = Deh umi dify ing 16 = Cali br ate

Ob j e ct St at e s

* n ot all st at es ap ply to a ll eq uip me nt

1 = Di sable d 2 = Ena bl ed 3 = Au t o

1 = No rm al 2 = Pre ssu ri ze 3 = De pr essur ize 4 = Pur ge 5 = Sh ut dow n 6 = Fir e

1 = Occu pied 2= U noccupie d 3 = Occu pied By pass 4 = Occu pied St and by

1 = Au t o 2 = He at 3 = Mor ning Warm up 4 = Coo l 5 = Nig ht Purge 6 = Pre coo l 7 = Of f 8 = Test 9 = Em erge ncy Hea t 10 = Fan Onl y 11 = Free Co ol 12 = I ce Mak ing 13 = Max H eat 14 = Econo m y Mode 15 = Deh umi dify ing 16 = Cali br ate

BAS-SVP09B-EN 27

Object Data Points and Diagnostic Data Points

Table 7. Multistate Input (continued)

BCI - R Ob j e ct I de n t ifi e r

Mul t i- Stat e I npu t , 20 Occu pancy St atu s

Mul t i- Stat e I npu t , 21 Un it Stop Sour ce

Mul t i- Stat e I npu t , 22 Coo lin g Se tpoi nt Sour ce

Mul t i- Stat e I npu t , 23 Hea ting Se t poi nt Sou rce

Mul ti -Sta t e I npu t, 24 Tim ed Ov erride St atu s

Mul t i- Stat e I npu t , 25 Cool Ou tpu t 1

Mul t i- Stat e I npu t , 26 Coo l Out put 2

Mul t i- Stat e I npu t , 29 Heat Ou tpu t 1

Mul t i- Stat e I npu t, 30 Hea t Ou tpu t 2

Mul t i- Stat e I npu t , 31 Heat Ou tpu t 3

Mul t i- Stat e I npu t, 32 Hea t Ou tpu t 4

Mul t i- Stat e I npu t , 35 Pri m ar y Fil t er St atus I ndi cat es t he p rim ary f ilte r m edia st ate.

Mul t i- St at e I n pu t , 37 Su ppl y Fan Pr ov ing St a tu s I n di cat es t he cu rr en t st at e of t h e sup pl y fa n.

Mul t i- Stat e I npu t , 38 Exh aust Fan Sta t us

Mul t i- Stat e I npu t , 39

Mul t i- Stat e I npu t , 41 Su pp ly Fan St atu s I nd icat es t he st ate o f t he su pply fan .

Mul t i- Stat e I npu t , 43 Ou t door D am per St atu s

Ob j e ct N a m e D escr ipt i on

I nd icat es t he cu rre nt occu pa ncy m od e of the uni t.

Sou rce o f th e st op com m an d t hat tu rn ed o ff th e equip men t.

I nd ica t es t he so ur ce of t he space cool in g set poin t .

I nd ica t es t he so ur ce of t he space hea t in g set poin t .

Tim ed ov er ri de req ue st or can cel fr om zone sen sor.

I nd ica t es t he co m m an ded st at e of co olin g ou t pu t 1 .

I nd ica t es t he co m m an ded st at e of co olin g ou t pu t 2 .

I nd icat es the com m an ded sta t e of h eat ing ou t pu t 1 .

I nd icat es the com m an ded sta t e of h eat ing ou t pu t 2 .

I nd icat es the com m an ded sta t e of h eat ing ou t pu t 3 .

I nd icat es the com m an ded sta t e of h eat ing ou t pu t 4 .

I nd ica t es t he co m m an ded st at e of t he ex ha ust fa n.

Exh au st Fan Pro v in g St at us

I ndi cate s if t he u nit e xha ust fan is off or on .

I nd icat es th e o per at ing st at e of t he out do or dam p er.

Ob j e ct Stat e s

* n ot all st at es ap ply t o a ll e qu ip me nt

1 = Occu pied 2 = Un occu pied 3 = Occu pi ed By pass 4 = Occu pied St andb y

1= N on e 2= Eme rg ency St op 3= Ext ern al Auto / Sto p 4= Local H I 5= Rem ot e HI

1= RTM Zo ne Se nso r 2= N ig ht Set ba ck Pane l 3= Hum an In te rface 4= GBAS 0- 5V 5= BAS/ Net wo rk 6= GBAS 0- 10V

1 = I dle 2 = On 3 = Can cel

1 = Of f 2 = On 3 = Not Presen t

1 = Clean 2 = Di r ty 3 = Not Presen t

1= O ff 2= On 3= Not Prese nt

1 = Of f 2 = On 3 = Not Presen t

1= O ff 2= On 3= Not Prese nt

1 = Of f 2 = On 3 = Not Presen t

1 = At or Be low Min im um Posit ion 2 = Ab ov e Min im um Posit ion 3 = Not Presen t

28 BAS-SVP09B-EN

Table 7. Multistate Input (continued)

Object Data Points and Diagnostic Data Points

BCI - R Ob j e ct I de n t ifi e r

Mul t i- Stat e I npu t , 44 Econ om izer Sy st em St atu s

Mul t i- Stat e I npu t , 45 Se rv ice Test St at us I ndi cat es t he cu rre nt Ser v ice Te st s tat e

Ob j e ct N a m e D escr ipt i on

I nd icat es t he op erat ing st ate o f the wa t er sid e eco no m ize r sy st em .

Table 8. Binary Output

Ob j e ct I de nt if ie r Ob j e ct N a m e Des cr ipt ion

Bin ar y Ou t pu t , 1 Syst em Cont rol Co m m an d

Bin ar y Ou t pu t , 5 Hea t Loc ko ut Com man d

Bin ar y Outp ut , 6 Cool Lockou t Comm and

Bin ar y Ou t pu t , 7

Bin ar y Ou t pu t , 8 Sup ply Fan Conf ig ur at ion Com m and

Bin ar y Ou t pu t , 13 Filt er Tim er Reset

Bin ar y Ou t pu t , 14 Reset Dia gn ost ic

Bin ar y Ou t pu t , 15 Deh umidi ficat ion Ena bl e Com man d

Bin ar y Ou t pu t , 17 Ser v ice Test Com m an d

Bin ar y Ou t pu t , 18 Sup pl y Ai r Temper ing Ena bl e Com m and

Bin ar y Ou t pu t , 19 Lead - Lag Ena bl e Com m and

Bin ar y Ou t pu t , 20 Mor ning War m up En ab le Com m an d

Bin ar y Ou t pu t , 21 Day tim e War mu p Ena bl e Com man d

Econo m izer Min im um Posit ion Enab le Com man d

Com m an d th e un it to st anda lon e- or B AS- con troll ed o pe ra ti on.

Com man d t he u nit t o p re ve nt he at in g oper at ion.

Com man d t he u nit t o p re ve nt coo lin g opera t ion .

Com m and t he un it t o t he m ini mu m po sit ion oper at ion.

Com man d the u nit sup pl y fa n to cyc ling o r cont in uous oper ati on.

Com man d t he u nit t o r eset t he accu m ul at ed filt er r un hou rs.

Com man d t he u nit t o r eset an d clear d iag nost ics.

Com m an d t he operat in g st at e of t he d ehum idif icat io n sy st em .

Com ma nd t he u nit to st ep t hr ough ser v ice test

Com man d the u ni t su pply air t em perin g op er at io n.

Com man d the u ni t com pres sor st ar t up o rder

Com man d the u ni t m orn in g wa rm up o pe ra t io n

Com man d t he u nit d ayt im e wa rm up o pe ra t io n

Ob j e ct Stat e s

* n ot all st at es ap ply t o a ll e qu ip me nt

1 = Di sab led 2 = Ena bl ed 3 = Not Presen t

1 = I nact ive 2 = Fan On 3 = I GV Open 4 = I GV Close 5 = Min Vent 6 = Econ Open 7 = Cool 1 8 = Cool 2 9 = Cool 3 10 = Deh umi difi cat ion/ Rehe at 11 = Hea t 1 12 = Hea t 2 13 = Hea t 3 14 = Hea t 4 15 = Def r ost 16 = Eme r gen cy Heat

Re lin q u ish Defa ult

I na ct iv e

Act ive

1 ( Aut o)

I na ct iv e

Ob j e ct St a t e s

I na ct iv e = St anda lon e Con t ro l Act ive = BAS Cont ro l

I na ct iv e = All ow H eat ing Act iv e = Heat ing Locke d Out

I na ct iv e = All ow Coo ling Act iv e = Cool in g Lock ed Out

I na ct iv e = Di sab led Act iv e = Enab led

I nactive = Aut o Act iv e = On

I na ct iv e = Accu mu lat ing Act iv e = Reset

I na ct iv e = Nor mal Act iv e = Reset

I na ct iv e = Di sab led Act ive = Au t o

I na ct iv e = Nor mal Act iv e = Ser vi ce t est

I na ct iv e = Di sab led Act iv e = Enab led

Table 9. Binary Input

Ob j e ct I de nt if i e r O bject N am e D e scr ipt i on Ob j e ct St a t e s

Bin ar y I npu t , 1 Sy stem Con t ro l St at us

Bin ar y I nput , 2 Com press or Lo ckout Stat us

Bin ar y I npu t , 9 VAV Box Com m an d

Bin ar y I nput , 1 1 Ser vice Test Mode Sta t us I ndi cat es i f t he u ni t i s i n serv ice t est m ode.

Bin ary I npu t, 15 Su pp ly Fan Con figu rat io n St at us In di cat es t he sup pl y fan conf ig ur at ion.

I nd icat es t he co nt rol sy stem cu rr ent ly in com ma nd o f the u ni t.

One or m ore com pr essor s ar e l ocke d o ut wi th no diagn ostic.

I nd icat es wh eth er VAV boxe s s ho ul d be i n con t ro l or wide open .

BAS-SVP09B-EN 29

I na ct iv e = St anda lon e con tro l Act ive = BAS cont rol

I na ct iv e = Norm al Act ive = Locke d Out

I na ct iv e = Au t o Act ive = Op en

I na ct iv e = I nact ive Act iv e = Act ive

I na ct iv e = Cyc lin g Act iv e = Con t in uo us

Object Data Points and Diagnostic Data Points

Table 9. Binary Input (continued)

Ob j e ct I de nt if i e r O bject N am e D e scr ipt i on Ob j e ct St a t e s

Bin ar y I nput , 2 2 Econ om izer Airsi de Ena bl e St atu s

Bin ar y I nput , 1 65 Al ar m Relay Outp ut Sta t us

Bin ar y I nput , 2 92 Su pply Air Tem per ing Stat us

I ndi cat es t he st at us o f th e ai rsi de econ om izer sy stem .

I nd icat es t he st ate o f the a lar m re lay on t he un it .

I nd icat es t he st atu s of t he sup pl y air tem per ing funct ion.

Table 10. Diagnostics, Binary Input

Ob j e ct I d e nt if i e r O bj e ct Na m e De scrip t i on N ot if i ca t i on Cl a ss

Bin ary I npu t, 29 D ia gn ost ic: Zon e Temp erat ure Se nso r Fail ur e Di agn osti c: Zone Tem p Senso r Fail ur e 00 2 – S er vi ce Requ ired

Bin ar y I nput , 3 0 Dia gn osti c: Sup ply Ai r Te m p Sen sor Fail Dia gn ost ic: Su pp ly Ai r Te m p Sen sor Fail 0 02 – Serv ice Req uir ed

Bin ary I npu t, 32 D iagn ost ic: Out door Air Tem per at ure Se nsor Fail D iagn ost ic: OA Tem pera t ur e Sen sor Fail 0 02 – Serv ice Req uir ed

Bin ar y I nput , 3 4 Dia gn osti c: Loca l Cool Se tpoi nt Fail Diag no st ic: Loc al Coo l Set poin t Fail 0 02 – Ser vice Req ui red

Bin ary I npu t, 35 D iagn ost ic: Local Zon e Hea t Se t point Fail D iag nost ic: Lo cal Z on e Heat Setp oint Fail 00 2 – Ser vice Req uir ed

Bin ar y I nput , 3 6 Dia gn osti c: SA Pr essu re S ensor Fail Di ag nos ti c: Sup pl y Air Press Sen sor Fail 0 02 – Ser vice Req uir ed

Bin ary I npu t, 37 D ia gn ost ic: Out door Hum id it y Se nso r Fail ur e Dia gn osti c: OA Hum idi t y Senso r Fail ur e 00 2 – Ser vi ce Requ ired

Bin ar y I nput , 3 8 Dia gn osti c: Loca l Eme rgen cy St op I ni tiat ed Dia gn osti c: Loca l Emer gen cy S to p I nit ia te d 00 1 – Cr it ical

Bin ary I npu t, 39 D ia gn ost ic: Fan Fai lu re Dia gn osti c: Fan Failu r e 0 01 – Cri t ica l

Bin ar y I nput , 4 0 Dia gn osti c: Exh au st Fan Prov in g Failu re D ia gn ost ic: Exh au st Fan Pro vi ng Fai lu re 00 1 – Cr it ical

Bin ar y I npu t, 43 D iagn ost ic: Com pr essor 1 LPC Lo cko ut Dia gn osti c: Com press or 1 LPC Lock ou t 0 01 – Criti cal

Bin ar y I nput , 4 4 Dia gn osti c: Com pr essor 2 LPC Lock ou t Di ag no st ic: Com pressor 2 LPC Lockout 0 01 – Cri t ica l

Bin ar y Inp ut , 4 5 Dia gn ost ic: Coi l Temp Sensor # 1 Fail Dia gn ost ic: Coi l Temp Sensor 1 Fa il 1 00 2 – Service Requ ir ed

Bin ar y I nput , 4 6 Dia gn ost ic: Coil Tem p Sen sor # 2 Fail Diag no st ic: Coi l Te m p Sen sor 2 Fail 00 2 – Se rvi ce Requ ired

Bin ar y I npu t , 47 D ia gn ost ic: Com pr essor 1 H PC Lock ou t Di ag nost ic: Com pre ssor 1 HPC Lock out 001 – Crit ical

Bin ar y I nput , 4 8 Dia gn osti c: Com pressor 2 HPC Lock ou t Di ag no st ic: Com pre ssor 2 HPC Lock out 0 01 – Crit ical

Bin ar y I npu t, 51 D iag nost ic: H eat Failu re Dia gn osti c: Heat Fail ur e 003 – Adv isor y

Bin ar y I nput , 5 4 Dia gn osti c: SA Pr essu re S et po in t Fail ur e Diag no st ic: SA Pre ssu re Se t po in t Fail ur e 002 – Ser vice Req uir ed

Bin ary I npu t, 55 D iagn ost ic: Space Press ur e Set poin t Fai l Dia gn osti c: Spa ce Pre ssu re S et po in t Fail 002 – Ser vi ce Requ ired

Bin ar y I nput , 5 6 Dia gn osti c: Spa ce Pressur e Sen sor Fail D iag no st ic: Sp ace Pre ssu re Se nsor Fail 00 2 – Serv ice Req uir ed

Bin ary I npu t, 57 D iagn ost ic: Retu rn Air Temp Sens or Fail Di agnost ic: Ret urn Air Tem p Sen sor Fail 00 2 – S er vi ce Requ ired

Bin ar y I nput , 5 8 D iag no st ic: Ret ur n Air Hum idit y S ens or Fail D iagn ost ic: Retu rn Air Hu m id it y Se ns or Fail 00 2 – Ser vice Req uir ed

Bin ary I npu t, 59 D ia gn ost ic: Aut o - SA High Press Limit D ia gn ost ic: Aut o - SA Hi gh Press Limit 0 02 – Serv ice Req ui r ed

Bin ar y I nput , 7 4 Dia gn ost ic: SA Tem p Cool Setp oi nt Fail Di agno st ic: SA Te m p Coo l Set poin t Fail 0 02 – Ser v ice Req ui re d

Bin ary I npu t, 75 D iagn ost ic: SA Tem p Heat Set po in t Fail Di ag no st ic: SA Te m p Heat Se t po in t Fail 00 2 – Se rv ice Requ ir ed

Bin ar y I nput , 7 6 Dia gn osti c: Dir ty Fil t er Diag no st ic: Di rty Filt er 003 – A dv iso r y

Bin ary I npu t, 83 D iagn ost ic: CO2 Sen sor Failu re Diag no st ic: CO2 Sens or Failu re 0 02 – Serv ice Req uir ed

Bin ar y I nput , 8 6 Dia gn osti c: Velocit y Pre ss Sen sor Fail Di agnosti c: Veloci ty Press Sen sor Fai l 00 2 – Ser vi ce Req ui red

Bin ary I npu t, 95 D ia gn ost ic: Mix ed Ai r Te m p Sen sor Failu re Dia gn ost ic: Mix ed Ai r Tem p Sensor Failu re 00 2 – Se rv ice Requ ir ed

Bin ar y I nput , 1 06 Diag nost ic: Sp ace H um idity Sen sor Fai l Di agn osti c: Spa ce Hu m id it y Senso r Fa il 002 – Ser vice Req ui r ed

Bin ary I npu t, 107 Diag nost ic: Ent er in g Evap Temp Se ns or Fail Diag no stic: En t er in g Evap Tem p Sen sor Fail 00 2 – Se rvi ce Requ ired

Bin ar y I nput , 1 23 Diag no st ic: SA Reh eat Set po int Fa ilu re Diag nost ic: SA Reh eat Set poin t Failu re 0 02 – Ser vice Req ui r ed

Bin ary I npu t, 125 Diag nost ic: D eh um id Set poi nt Failu re Di agno st ic: D ehu mid Set poin t Fail ure 0 02 – Ser vice Req uir ed

Bin ar y I nput , 1 47 Diag nost ic: Ma in t en an ce Requ ir ed D iag no st ic: Main ten ance Req uir ed 002 – Ser vice Req ui red

Bin ary I npu t, 148 Diag no st ic: Un it Com mu ni cat ions Fail ure Diag no st ic: Un it Com mu ni cat ions Fail ur e 002 – Ser vice Req ui re d

Bin ar y I nput , 1 51 Diag nost ic: Ex t er na l Aut o-S to p Diag nost ic: Ext ern al Au t o- Stop 004 – In for m at ion

Bin ary I npu t, 239 Diag nost ic: Mor ni ng Warm up Se t point Fail D iagn ost ic: Mor ni ng Warm up Se t po in t Fail 00 2 – Se rv ice Requ ir ed

Bin ar y I nput , 2 42 Diag no st ic: Min OA Flo w Setpo in t Fail D iagn ost ic: Min OA Flo w Se tp oint Fail 0 02 – Ser vice Req uir ed

Bin ary I npu t, 244 Diag nost ic: Com p 1 Disab le I npu t LPC D iag nost ic: Co m p 1 Di sab le I npu t LPC 0 04 – Inform ation

Bin ar y I nput , 2 45 Diag nost ic: Com p 2 Disab le In pu t LPC Di agno st ic: Com p 2 Disa bl e I np ut LPC 00 4 – I nfo rm at io n

I na ct iv e = Di sab led Act ive = Ena bl ed

I na ct iv e = De -ene rgiz ed Act ive = Ene rg ized

I na ct iv e = I nact ive Act iv e = Act ive

30 BAS-SVP09B-EN

Object Data Points and Diagnostic Data Points

Table 10. Diagnostics, Binary Input (continued)

Ob j e ct I d e nt if i e r O bj e ct Na m e De scrip t i on N ot if i ca t i on Cl a ss

Bin ary I npu t, 246 Diag nost ic: Sm ok e Det ecto r Dia gn osti c: Sm oke Dete ct or 0 04 – In fo rm at ion

Bin ar y I nput , 2 47 Diag nost ic: Fr oSt at Tr ip Di ag no st ic: Fr oSt at Trip 00 4 – I nfo rm at ion

Bin ary I npu t, 248 Diag nost ic: D em and D efr ost Fault A Dia gn ost ic: Dem and D ef ro st Fau lt A 00 4 – I nfo rm at ion

Bin ar y I nput , 2 49 Diag nost ic: D em and Defr ost Faul t B Diag nost ic: D em and Defr ost Fault B 004 – In for m at ion

Bin ary I npu t, 250 Diag nost ic: D em and D efr ost Fault C D ia gn ost ic: Dem and Defr ost Faul t C 0 04 – I nf orm atio n

Bin ar y I nput , 2 51 Diag nost ic: D em and Defr ost Faul t D Di agno st ic: De m an d Defr ost Fault D 00 4 – I nform ati on

Bin ary I npu t, 252 Diag nost ic: D ef au lt Def ro st Flag Diag nost ic: D ef au lt Def r ost Flag 0 04 – Inform ation

Bin ar y I nput , 2 53 Diag nost ic: Ven t O ve rr ide - Ex ha ust Di ag no st ic: Ven t Ov err id e - Exhaust 00 4 – I nfo rm at io n

Bin ary I npu t, 254 Diag nost ic: Vent Ove rr ide - Pur ge Diag no stic: Ven t Ov err id e - Pur ge 0 04 – I nfor ma ti on

Bin ar y I nput , 2 55 Diag nost ic: Ven t Overr ide - Pre ssu ri ze Diag no st ic: Ven t Ov err id e - Pre ssu ri ze 00 4 – I nfor mati on

Bin ary I npu t, 256 Diag nost ic: Freez est at Trip pe d Dia gn ost ic: Freezesta t Tri pp ed 00 4 – In fo rm at ion

Bin ar y I nput , 2 57 Diag nost ic: CO2 Set po in t Fail ure D iagn ost ic: CO2 Set poin t Fail ure 0 04 – I nf or m at ion

Bin ary I npu t, 258 Diag nost ic: H eat ing Hi gh Tem p Lim it Ope n Di ag no st ic: He at ing High Tem p Limi t Op en 0 04 – I nform ati on

Bin ar y I nput , 2 59 Diag nost ic: Flam e Rollo ut Sw it ch Op en Dia gn osti c: Flam e Roll out Sw itch Open 0 0 4 – I n fo rm ation

Bin ary I npu t, 260 Diag nost ic: I ndu cer Prov ing Sw itch Fail D iag nost ic: I nd uce r Prov in g Swit ch Fail 00 4 – In for m at ion

Bin ar y I nput , 2 61 Diag nost ic: No Fl am e Sen sed o n heat call D iag nost ic: No Flam e Sen sed o n he at call 004 – I nf or mat ion

Bin ary I npu t, 262 Diag nost ic: Flam e Sen sed w ith Gas Valv e Off Di ag no st ic: Fla m e Sen sed w ith Gas Valv e Off 0 04 – In fo rm at ion

Bin ar y I nput , 2 63 Diag nost ic: Ga s H eat Mod ul e Failu re Di agn osti c: Gas Hea t Mo du le Fail ur e 00 4 – I nfor ma ti on

Bin ar y Inpu t, 26 4 Diagn ostic : Econo m izer Act ua to r Fau lt Dia gn ost ic: Eco no m izer Act ua to r Fau lt 0 04 – I nf or m at ion

Bin ar y I nput , 2 65 Diag nost ic: SA Rese t Am oun t Failu re Di agno st ic: SA Rese t Am oun t Failur e 00 4 – I nfor mati on

Bin ary I npu t, 266 Diag nost ic: SA Rese t Se t point Fail ure Dia gn ost ic: SA Res et S et po in t Fail ure 00 4 – I nfo rm at ion

Bin ar y I nput , 2 67 Diag nost ic: SA Pre ssu re D ead B and Failu re D ia gn ost ic: SA Pr essu re D ead Ban d Failu re 0 04 – I nf or m at ion

Bin ary I npu t, 268 Diag nost ic: SA Pre ssu re PWM Fa ul t Di ag no st ic: SA Pressu r e PWM Fau lt 004 – I nf or mat ion

Bin ar y I nput , 2 69 Diag nost ic: Com p 1 Disab le In pu t HPC Di agn osti c: Com p 1 D isa ble I nput HPC 0 04 – I n fo rm ation

Bin ary I npu t, 270 Diag nost ic: Co m p 2 Disab le I npu t HPC D ia gn ost ic: Com p 2 Di sable I npu t H PC 0 04 – Inform ation

Bin ar y I nput , 2 71 Diag no st ic: CO2 Low Lim it Set po int Fault D ia gn ost ic: CO2 Low Lim it Set poin t Fau lt 004 – I nf or m at ion

Bin ary I npu t, 272 Diag nost ic: RTOM Com m Fail D ia gn ost ic: RTOM Com m Fail 004 – I nf or mat ion

Bin ar y I nput , 2 73 Diag nost ic: RTEM Com m Fail Diag nost ic: RTEM Co m m Fail 0 04 – I n fo rm ation

Bin ary I npu t, 274 Diag nost ic: RTAM Com m Fail Diag nost ic: RTAM Co m m Fai l 00 4 – I nfo r m at ion

Bin ar y I nput , 2 75 Diag nost ic: RTVM Com m Fail Diag no st ic: RTVM Com m Fail 00 4 – I nform ati on

Bin ary I npu t, 276 Diag nost ic: RTCM Com m Fail D iag nost ic: RTCM Co m m Fai l 0 04 – In fo rm at ion

Bin ary I npu t, 277 Di agn osti c: RTDM Com m Fail D iagn ost ic: RTDM Com m Fail 004 – In for m at ion

Bin ary I npu t, 278 Diag nost ic: Spac e Pr ess Deadban d Fail Di agn osti c: Space Press Deadb and Fa il 00 4 – I nf or m at ion

Bin ar y I nput , 2 79 Diag nost ic: Mo d Dehu m id Co nf ig Er ro r Diagn ost ic: Mo d Deh um id Conf ig Err or 0 04 – I n fo rm ati on

Bin ary I npu t, 280 Diag nost ic: D em and D efr ost Fau lt A Ck t 2 D iag nost ic: Dem and D efr ost Fault A Ck t 2 0 04 – I nf or m at ion

Bin ar y I nput , 2 81 Diag nost ic: D em and D efr ost Faul t B Ckt 2 Di agno st ic: De m an d Defr ost Fault B Ck t 2 00 4 – I nfo rm at ion

Bin ary I npu t, 282 Diag nost ic: D em and D efr ost Fault C Ckt 2 Di ag no st ic: De m and Defr ost Faul t C Ckt 2 00 4 – I nfo rm at ion

Bin ar y I nput , 2 83 Diag nost ic: Defr ost De fau lt Mod e Ckt 2 Di ag nost ic: De fr ost De fau lt Mod e Ckt 2 004 – I nf or m at ion

Bin ary I npu t, 284 Diag nost ic: D em and D efr ost Fau lt A Ck t 1 D iag nost ic: Dem and D efr ost Fault A Ck t 1 0 04 – I nf or m at ion

Bin ar y I nput , 2 85 Diag nost ic: D em and D efr ost Faul t B Ckt 1 Di agno st ic: De m an d Defr ost Fault B Ck t 1 00 4 – I nfo rm at ion

Bin ary I npu t, 286 Diag nost ic: D em and D efr ost Fault C Ckt 1 Di ag no st ic: De m and Defr ost Faul t C Ckt 1 00 4 – I nfo rm at ion

Bin ar y I nput , 2 87 Diag nost ic: Defr ost De fau lt Mod e Ckt 1 Di ag nost ic: De fr ost De fau lt Mod e Ckt 1 004 – I nf or m at ion

Bin ary I npu t, 288 Diag nost ic: Ex ha us t Fan Se t po in t Fail ur e D ia gn ost ic: Exh aust Fan Se tpoi nt Fa il ur e 00 4 – In fo rm at ion

Bin ar y I nput , 2 89 Diag nost ic: D isch arg e A ir He at Set po in t Fail ur e Diag nos ti c: Dis char g e A ir He at Se tp oi nt Fai lu re 0 04 – I n fo rm ati on

Bin ar y I npu t , 290 Diag nost ic: I GN1 Com muni cat ions Time d out D iag nost ic: I GN1 Com municat ions Time d ou t 00 4 – I nfo rm at ion

Bin ar y I nput , 2 91 Diag nost ic: I GN2 Com mu ni cat ions Tim ed out D ia gn ost ic: IGN 2 Com mu ni cat ions Ti m ed out 00 4 – I nfo rm at io n

Bin ary I npu t, 293 Diag nost ic: D CV Mi n Po siti on Se t po in t Fail D iag nost ic: D CV Mi n Posi ti on S et po in t Fail 0 04 – I nfor ma ti on

Bin ar y I nput , 2 94 Diag nost ic: D esi gn Mi n Posit ion Setp oint Fail Di agno st ic: Desig n Mi n Posit ion Setp oi nt Fail 004 – I nf or m at ion

BAS-SVP09B-EN 31

Object Data Points and Diagnostic Data Points

Table 10. Diagnostics, Binary Input (continued)

Ob j e ct I d e nt if i e r O bj e ct Na m e De scrip t i on N ot if i ca t i on Cl a ss

Bin ary I npu t, 295 Diag nost ic: En t ha lpy Set poin t Fail Di agno st ic: En thalpy Set poin t Fail 0 04 – I nfor ma ti on

Bin ar y I nput , 2 96

Bin ar y I nput , 2 97

Bin ar y I nput , 2 98

Dia gn osti c: Design Min Posi tion at Mi ni m um Fan Spe ed Fail

Dia gn osti c: DCV Min Posi tion at Mi ni m um Fan Spe ed

Dia gn osti c: Design Min Posi ti on a t Mi dp oint Fan Spe ed Fail

Table 11. All Object Types Sorted by Object Name (Refer to previous tables for detailed descriptions of objects)

Ob j e ct I de nt if i e r Ob j ect Nam e Descr ipt ion

Bin ary I npu t, 165 Al ar m Rel ay Ou tpu t Sta t us In dicat es t he s t at e of t he ala rm r elay on th e un it.

Ana log I npu t, 95 BCI- R Maj or Versi on Maj or sof t wa re v ersio n n um ber o f the BCI -R m odu le

Ana log I npu t, 96 BCI- R Mino r Ver sio n Mino r so ft war e v ersio n num ber of t he BCI- R m odu le

Ana log I npu t, 80 Cabi net Style D escr ibes the c abi net st yle o f t he u ni t .

Bin ar y I npu t, 2 Co m pr essor Locko ut St at us One o r m ore com pre ssors are lo cke d ou t w ith no diag no st ic.

Ana lo g Out put , 1 9 Cool Capa cit y Enabl e Set po in t BAS B AS s up pl ied cool ing dem an d li m it capacit y set poin t v al ue.

Bin ar y Ou t pu t , 6 Cool Lockout Com man d Comm an d t he u ni t t o p re ve nt coo lin g op erat ion.

Mul t i- Stat e I npu t , 25 Cool Outp ut 1 I nd ica t es t he co m m an ded st at e of co ol in g ou t pu t 1 .

Mul t i- Stat e I npu t , 26 Cool Ou tpu t 2 I ndi cat es t he c om man ded stat e of coo li ng o ut put 2.

Ana log I npu t, 81 Cool Ty pe Desc ri be s t he coo li ng t ype i nst alle d in t he un it.

Ana lo g I np ut, 1 Coolin g Capa cit y St atus In dic at es t he u nit c ool in g cap acit y bein g uti liz ed .

Mul t i- Stat e I npu t , 22 Cool in g Set poin t S ou rc e I nd ica t es t he sour ce of t he spa ce coo lin g se tp oint .

Bin ar y Ou t pu t , 21 Day tim e War mu p En abl e Com man d Com ma nd th e un it day tim e w arm up op er at ion

Ana lo g Out put , 5 Day ti me War mu p Term in ate Tem per atu re Set poin t BAS B AS s up pl ied dayt im e wa rm up t erm inat e t emp er at ure se t po in t .

Ana log I np ut , 7 9 Dehu mid ificat ion Capa cit y S ta t us I ndi cat es t he u nit d ehum idi fi cat ion capaci ty bein g ut ilized.

Bin ar y Ou t pu t , 15 Deh umidi fi cat ion En abl e Com man d Com man d t he o perat ing sta t e of t he d ehum idi fi cat ion syst em .

Ana lo g I np ut, 58 Dehu m id if ica t ion Hig h Limi t Se t po in t Hum id it y se tpoi nt va lu e t ha t st art s de hu m idif ica t ion con t ro l.

Ana lo g Out put , 6 Disch ar ge Ai r Coo lin g Set poin t BAS BAS supp lied disch ar ge a ir t emp erat ure co olin g set poin t v al ue.

Ana lo g Out put , 7 Disch arge Ai r He at ing Setp oi nt BAS BAS sup plied dis cha rg e air te m pe ra tu re he at in g setp oi nt va lu e.

Ana lo g I np ut, 61 Di scha rge Air Rehea t Se t po in t Active I nd icat es t he ac tive s up pl y air rehe at te m pe ra tur e set poin t.

Ana log Out put , 2 3 D isch arge Ai r Reh eat Set poin t BAS BAS su pp lie d disch ar ge air r eheat set poin t v alue.

Ana lo g I np ut, 24 Di scha rge Air Temp er at ure Activ e Th e di scha rg e air te m pe rat ure cu rre nt ly use d for un it con t ro l.

Ana log I np ut , 5 2 Di schar ge Ai r Te m pe ratu re S et poin t Act ive Disch arge a ir te m pe ratu re set poin t v alue bein g us ed for u nit c on tro l.

Ana lo g I np ut, 28 Du ct S ta t ic Pres sur e Act ive Du ct st ati c air pr essu re v alue cu r re nt ly be in g us ed for u ni t co ntr ol.

Ana log I np ut , 4 8 Duct St at ic Pre ssure Se t poi nt Act ive Duct st at ic pres sur e set poi nt val ue b ei ng u sed f or u nit con tr ol.

Ana lo g Out put , 8 Duct St at ic Pre ssure Se tpoi nt BAS BAS s up pl ied du ct st ati c air pr essu re s et poin t v al ue.

Mul t i- Stat e Ou t pu t , 1 Econ omizer Air side Enabl e BAS Com man d t he sta t e of t he air side econom izer sy stem .

Bin ar y I nput , 2 2 Econ om izer Airsid e Enab le St at us In di cat es t he s ta t us o f t he air sid e eco no m ize r syst em.

Bin ar y Ou t pu t , 7 Econo m ize r Minim um Posit io n Enab le Com ma nd Com man d t he u nit t o t he m in im um p osi t io n op er at ion.

Ana lo g Out put , 1 Econo m ize r Minim um Posit io n Set poin t B AS BAS su pplied e con omi zer p osit ion m in im um set po in t v alu e

Ana lo g I nput, 86 Econ om izer Minim um Positi on Set po in t Lo cal I ndi cat es t he l ocal eco no m ize r min imu m posit ion setp oi nt .

Mul t i- Stat e I npu t , 44 Econ om izer Sy stem St atu s I nd icat es t he o per atin g st at e of t he w ater side econ omiz er sy st em .

Mul t i- Stat e Ou t pu t , 2 Em erge ncy Ove rri de Com ma nd Com ma nd t he un it in t o an em erg ency m ode o f op er at ion.

Ana lo g I np ut, 9 Exha us t Da m per Posi ti on Sta t us I n dic at es t he u ni t e xh aust d am per p osi t ion .

Ana lo g I np ut, 71 Exh aust En ab le Dam pe r Po sit ion Se t po in t Stat us Exhaus t ai r d am per m ini m um po sit ion t o en able exh au st se qu ence.

Mul t i- Stat e I npu t , 39 Exh aust Fan Pro vi ng S t at us I nd icat es if t he un it ex haust fa n is off or on .

Dia gn osti c: Des ig n Min Posi t ion at Mi ni m um Fan Sp ee d Fa il

Dia gnost ic: DCV Min Pos ition at Mini mu m Fan Spee d

Dia gn osti c: Des ig n Min Posi t ion at Mi dp oint Fan Sp ee d Fa il

00 4 – I nfo rm at ion

32 BAS-SVP09B-EN

Object Data Points and Diagnostic Data Points

Table 11. All Object Types Sorted by Object Name (Refer to previous tables for detailed descriptions of objects) (continued)

Ob j e ct I de nt if i e r Ob j ect Nam e Descr ipt ion

Ana lo g I np ut, 8 Exhaus t Fan Speed Co m m an d I ndi cates t he un it com ma nd ed e xh au st fan spee d.

Mul t i- Stat e I npu t , 38 Exh aust Fan St atu s I nd icat es t he co m m an de d st at e of t he ex ha ust fa n.

Ana lo g Out put , 3 3 Exha ust or Ret ur n Fan Con figu rat io n Set s th e eq ui pm ent ex ha ust or retu rn fa n typ e.

Ana log I npu t, 90 Exh au st o r Ret urn Fan Typ e Desc ri be s t he ex ha ust or re tu rn fan t yp e in st al led in the u nit .

Ana lo g I np ut, 6 Filt er Runt im e Hou rs In dicat es t he nu m ber of h our s air has f lo we d t hr ough th e fi lter.

Ana lo g Valu e, 1 Fil t er Ru nt im e H ou rs Se t po in t The set po in t v al ue u sed b y the f ilt er r un ho ur s cal cul at ion.

Bin ar y Ou t pu t , 13 Filt er Tim er Reset Com man d t he u nit t o r eset t he a ccu m ul at ed f ilt er r un ho ur s.

Ana lo g Out put , 2 0 Heat Capa cit y En abl e Set poin t BAS BAS sup plied he at in g de m an d li m it cap aci ty set poin t v alue .

Mul t i- Stat e Ou t pu t , 8 Hea t Co ol Mode Requ est BAS Co m m an d the u nit t o a specific a pp licat ion mod e.

Bin ar y Ou t pu t , 5 Heat Lock ou t Com ma nd Com man d t he u nit to p re vent he at ing op erat ion.

Mul t i- Stat e I npu t, 29 Heat Out put 1 In dicat es t he c om man ded st at e of h eati ng out put 1.

Mul t i- Stat e I npu t , 30 Heat Out put 2 I nd ica t es the comm an ded sta t e of h eati ng out put 2.

Mul t i- Stat e I npu t, 31 Heat Out put 3 In dicat es t he c om man ded st at e of h eati ng out put 3.

Mul t i- Stat e I npu t , 32 Heat Out put 4 I nd ica t es the comm an ded sta t e of h eati ng out put 4.

Ana lo g I np ut, 2 Heat Prim ary Capa cit y Sta t us I nd ica t es t he u ni t p ri mar y h eat ing c apa cit y b eing u tilized .

Ana lo g I np ut, 3 Heat Seco nd ar y Cap acit y Stat us In dic at es t he u nit secon dary he at ing capaci t y bein g uti li zed .

Mul t i- Stat e I npu t , 23 Heat in g Setp oin t S ou rc e I nd icat es th e sou rce of the sp ace h eat ing se t po int.

Bin ar y Ou t pu t , 19 Lead - Lag Ena bl e Co m m an d Com m an d the u ni t co mpr essor sta rt up orde r

Ana lo g I np ut, 25 Mix ed Ai r Tem pe ra tu re The m ixe d air t em pera t ur e va lu e fr om a un it- mou nte d sen sor.

Bin ar y Ou t pu t , 20 Mor ni ng War mu p Enab le Com ma nd Com ma nd t he un it m or ning warm up oper at ion

Ana lo g Out put , 4 Morn ing Warm up Set poin t B AS BAS su ppli ed t emp erat ure se t po in t u sed i n mor nin g wa rm up m ode.

Ana lo g I np ut, 54 Mor ni ng Warm up Temp era t ur e Set po in t Activ e The a ir te m pe ra tur e set poin t u sed du ri ng mo rni ng w arm up m ode.

Mul t i- Stat e Ou tpu t , 7 Occu pancy Requ est Com man d t he u nit i nt o a n occu panc y mod e.

Mul t i- Stat e I npu t , 20 Occu pan cy St atu s I nd icat es t he cu rre nt occu pa ncy m ode of t he u nit .

Ana log Out put , 2 9 Occup ied Off set Off set use d to cal cul at e set poin ts in o ccu pie d mod e.

Ana lo g I np ut, 11 Out door Air D am per Po sit ion Stat us I ndic at es t he u ni t o ut door air d amp er p osi t io n.

Ana log I npu t , 34 Ou tdo or Ai r Flo w Act ive Out door air flow u ti li tze d by th e un it .

Ana lo g I np ut, 20 Out door Air Hu mid it y Act ive The out do or a ir hu m id it y v alu e us ed for u ni t co nt rol .

Ana log Ou tpu t , 15 Out door Air Hu mid it y BAS BAS su pp lie d ou tdoo r air hum idit y senso r va lu e.

Ana lo g I np ut, 57 Out door Air Minim um Flow Setp oin t Act ive The min imu m o utd oor airf low setp oi nt bei ng u til ize d by th e un it.

Ana lo g Out put , 1 6 Out door Air Mi ni m um Flo w Setp oi nt BAS BAS supp lied min imu m ou tdoo r air fl ow set po in t .

Ana lo g I np ut, 18 Out door Air Tem per atu re Act ive The ou t doo r air tem peratu re cu rre nt ly u sed f or u nit co nt rol.

Ana lo g Out put , 1 4 Out door Air Tem per at ure BAS BAS su pp li ed o ut door air te m pera t ur e sen sor va lu e.

Mul t i- Stat e I npu t , 43 Out door D am per Stat us I ndic at es the o per ati ng st at e of the o ut door dam per.

Ana lo g Out put , 3 4 Pow er Exh au st En ab le Setp oi nt BAS BAS sup plie d po we r exh aus t enab led set poin t v alue.

Ana log I npu t, 82 Preh eat Typ e Descri bes t he h eat ing typ e ins ta lle d in t he u ni t .

Mul t i- Stat e I npu t, 35 Pr im ary Fil ter St atu s Indic at es the p ri m ary f il te r m edia st ate .

Ana lo g I np ut, 5 Rehea t Cap aci t y St at us I ndicat es t he u nit r ehea t heat ing ca pa cit y b ein g u t ili zed .

Ana log I np ut , 8 3 Reh eat Type Desc ri bes t he rehea t t ype inst alle d in t he un it .

Bin ar y Ou t pu t , 14 Reset Dia gn ost ic Com ma nd th e un it t o reset and clea r diag no st ics.

Ana log I np ut , 2 6 Ret urn Ai r Tem per atu re The ret ur n ai r t emp er at ure valu e fr om a un it- mou nte d sen sor.

Ana log I npu t, 97 RTAM Maj or Version Maj or s of tw are vers ion nu m be r of t he RTAM m od ul e

Ana log I npu t, 98 RTAM Mi nor Ver sion Minor sof t wa re v er sio n nu m ber of t he RTAM m od ul e

Ana log I npu t , 10 5 RTCM Maj or Ver sio n Maj or sof tw are ver sio n num ber o f t he RTCM m odu le

Ana log I np ut, 10 6 RTCM Min or Ver sion Mino r soft wa re v ersi on n um ber of t he RTCM m odu le

Ana log I npu t , 10 1 RTD M Ma j or Ve r si on Maj or sof t wa re v ersi on n um ber of the RTDM mod ule

BAS-SVP09B-EN 33

Object Data Points and Diagnostic Data Points

Table 11. All Object Types Sorted by Object Name (Refer to previous tables for detailed descriptions of objects) (continued)

Ob j e ct I de nt if i e r Ob j ect Nam e Descr ipt ion

Ana log I npu t, 102 RTDM Min or Versi on Mi no r soft wa re v ersio n nu m ber of t he RTDM mod ul e

Ana log I npu t, 99 RTEM Maj or Ver sion Maj or sof twa re v ersi on n um ber of the RTEM m odu le

Ana log I npu t, 100 RTEM Min or Ver sion Minor sof t ware v er sion nu m ber of t he RTEM m odul e

Ana log I npu t, 93 RTOM Maj or Version Maj or sof twa r e v ersi on n umb er of t he RTOM m od ul e

Ana log I npu t, 94 RTOM Minor Ver sio n Min or s oftw are ve rsi on n umb er o f the RTOM m odul e

Ana log I npu t, 91 RTRM Maj or Versi on Ma j or soft war e ve rsi on n umber of the RTRM m odu le

Ana log I npu t, 92 RTRM Minor Ver sio n Mino r so ft war e v ersio n num ber of t he RTRM modu le

Ana log I npu t , 10 3 RTVM Maj or Versi on Maj or sof twa re v ersion n um ber of the RTVM m odul e

Ana log I npu t, 104 RTVM Min or Ver sion Min or so ftw ar e ve rsi on n um ber o f t he RTVM m odu le

Bin ar y Ou t pu t , 17 Ser v ice Te st Com m an d Com mand t he un it to ste p thr ough ser vice test

Bin ary I npu t, 11 Ser vice Test Mode St atus In di cat es if th e un it is in ser vi ce test m od e.

Mul t i- Stat e I npu t , 45 Ser vi ce Test Sta tu s I ndi cat es t he cu rre nt Ser vice Te st sta t e

Ana log I np ut , 3 2 Sp ace CO2 Con cent rat ion Act iv e Spa ce CO2 co ncent rat ion bein g used for u nit co ntr ol.

Ana lo g Out put , 1 8 Space CO2 Con cent rat ion BAS B AS s up pl ied spac e CO2 se nso r v alu e.

Ana lo g Out put , 2 1 Spac e D eh um idi fi cat ion Se tp oint BAS BAS supp li ed sp ace d eh um idi fi cat ion setp oi nt va lu e.

Ana lo g I np ut, 16 Spa ce Hum idit y Act ive The spa ce hu mid it y v al ue f ro m a u nit - m ou nt ed con t ro l.

Ana log Out put , 2 5 Sp ace Hu mid ity BA S BAS supp lied space hum idit y sens or v alue.

Ana lo g I np ut, 31 Spa ce Stat ic Ai r Pressu r e A ct iv e Sp ace st ati c air pr essu re v alue b ein g u sed f or un it contr ol.

Ana lo g Out put , 1 0 Space S tat ic Pre ssu re B AS B AS s up pl ied spac e st at ic air pres sur e sen sor value.

Ana log I npu t , 10 7 Space S ta t ic Pres sur e Set poi nt Act iv e Spac e pr essu re set poin t cu rre nt ly use d for unit cont rol

Ana log Out put , 9 S pac e St at ic Pressu re S et po in t BAS BAS su ppli ed sp ace st ati c air pr essu re s et po in t v alue.

Ana lo g I np ut, 15 Spa ce Temp erat ure Active The sp ace tem pera tu re cu rre nt ly u sed f or uni t co nt rol.

Ana log Out put , 1 1 Sp ace Tem pe rat ur e BAS BAS su ppli ed sp ace ai r t emp er at ur e sen sor va lu e.

Ana lo g I np ut, 74 Spa ce Temp erat ure Coo li ng Se t po in t I npu t Cooli ng t emp erat ure se t poin t from sp ace se ns or m odu le.

Ana log I np ut , 7 5 Sp ace Tem per atu r e H eat ing Se t poi nt I npu t Heat ing t emp erat ure se t po int fro m space s ensor m odu le.

Ana log I npu t, 87 Spa ce Tem pera tu re Lo cal The space air tem per at ur e m easur ed by a u nit -m oun ted se ns or.

Ana log I npu t, 50 S pace Tem perat ure Se tp oint Active S pace t emp er at ure setpo in t v alu e bei ng u sed f or uni t co nt rol.

Ana lo g Out put , 2 Space Tem pe rat ur e Set po in t BAS Bas e val ue t o ca lcu late se t po in ts i n occ up ied and sta nd by m od es.

Ana log I np ut , 7 8 Sp ace Tem per atu r e S et po in t Loc al The local sp ace t emp erat ure se tpoi nt .

Ana lo g Out put , 3 0 Sta nd by Off set Off set va lu e use d t o calcul at e set poin ts in st and by m ode .

Bin ar y Ou t pu t , 18 Sup ply Ai r Te m peri ng Enab le Com ma nd Com ma nd th e un it sup ply air t emp erin g op erat ion.

Bin ar y I nput , 2 92 Su pp ly Air Tem per in g St at us I ndi cat es t he st at us o f t he su pply air te m pe ri ng fu nct ion .

Bin ar y Ou t pu t , 8 Supp ly Fan Conf igur ati on Com ma nd Co m m an d t he u ni t su pply fa n t o cyc lin g or con t in uo us oper ati on .

Bin ar y I nput , 1 5 Su pp ly Fan Conf igur at ion Sta tus I ndi cat es t he s up pl y fan configu rat io n.

Mul t i- Stat e I npu t , 37 Supp ly Fan Prov ing Stat us I ndi cat es t he cu rre nt st at e of t he supply f an .

Ana lo g I np ut, 7 Supp ly Fan Sp eed Com ma nd I ndi cat es t he u nit c om man ded su pp ly f an s pee d.

Mul ti - St at e I np ut , 4 1 Sup pl y Fa n St at us In dicat es t he st ate of th e sup pl y fan.

Ana log I npu t, 89 Sup ply Fan Typ e D escr ibes the su pply fa n t yp e in st all ed i n t he u nit .

Bin ar y Ou t pu t , 1 Syst em Con trol Com ma nd Com man d t he u nit t o st and alo ne - o r BAS-co nt rol le d op erat io n.

Bin ar y I nput , 1 Sy stem Con t ro l St at us I nd ica t es t he co nt rol sy stem cu rr ent ly in co m m and of t he un it .

Mul t i- Stat e I npu t , 24 Tim ed Overr ide St at us Tim ed ov er ri de r eque st o r cance l fr om zon e sen sor.

Ana log I npu t, 88 Uni t En er gy D eman d I nd ica t es t he cu rre nt he at /co ol en erg y dem an d of t he un it.

Mul t i- Stat e I npu t , 21 Uni t St op Sou r ce S ou rce o f t he st op com man d t hat tur ne d off th e equ ipm ent .

Ana lo g Out put , 3 1 Unocc up ied Coo lin g Set point Co oli ng t emp er at ur e set poin t u sed f or co nt rol i n unoc cup ied m od e.

Ana lo g Out put , 3 2 Unoc cup ied Hea ting Set poin t Heati ng te m pe ra tur e set poin t u sed f or con t ro l in u noccu pi ed m ode.

Bin ar y I nput , 9 V AV Bo x Co mm an d I ndi cat es w he ther VAV b ox es sho ul d be i n cont rol or wide open .

34 BAS-SVP09B-EN

Object Data Points and Diagnostic Data Points

Table 12. Notification Classes

N ot ifi ca t ion Cla ss Se ve r ity

Class 0 01 Crit ical

Class 0 02 Serv ice Requir ed

Class 0 03 Adv iso ry

Class 0 04 In form at ion

Table 13. Diagnostic Objects Sorted by Object Name

Ob j e ct I de nt if i er Bina ry I n put ( BI )

Bin ary I npu t, 59 Diag nost ic: Au to - SA Hi gh Press Limi t Diagn ost ic: Au to - SA Hig h Pr ess Lim it 0 02 – Servi ce Requi re d

Bin ar y I nput , 2 71 D iag no st ic: CO2 Low Lim it Set point Fault Dia gn osti c: CO2 Low Lim it Setp oi nt Fault 00 4 – I nfor mat ion

Bin ary I npu t, 83 Diag nost ic: CO2 Sensor Fai lu re Di agno st ic: CO2 S ens or Failu re 00 2 – Serv ice Req uir ed

Bin ar y I nput , 2 57 D iag nost ic: CO2 Set po in t Fail ur e Di ag no st ic: CO2 Se t poi nt Fa il ur e 0 04 – I nfo rma t ion

Bin ary I npu t, 45 Diag no st ic: Co il Te m p Sensor 1 Fa il Diag no st ic: Coi l Temp Sensor 1 Fail 1 00 2 – Ser vi ce Requ ired

Bin ar y I nput , 4 6 Diag no st ic: Coil Tem p Sens or 2 Fail Diag no st ic: Coil Te m p Sensor 2 Fail 0 02 – S er vi ce Requ ired

Bin ary I npu t, 269 Diag no st ic: Co m p 1 Disab le In pu t HPC D iag nost ic: Co m p 1 Disab le I npu t HPC 004 – I nfor mat ion

Bin ar y I nput , 2 44 D iag nost ic: Co m p 1 Disab le In pu t LPC Dia gn osti c: Com p 1 Di sable I npu t LPC 0 04 – I nf or mat ion

Bin ary I npu t, 270 Diag no st ic: Co m p 2 Disab le In pu t HPC D iag nost ic: Co m p 2 Disab le I npu t HPC 004 – I nfor mat ion

Bin ar y I nput , 2 45 D iag nost ic: Co m p 2 Disab le In pu t LPC Dia gn osti c: Com p 2 Di sable I npu t LPC 0 04 – I nf or mat ion

Bin ar y I npu t , 47 Diag no st ic: Com pr essor 1 H PC Lock ou t Di ag nost ic: Com pre ssor 1 HPC Lock out 0 01 – Cr it ical

Bin ar y I nput , 4 3 Diag nost ic: Com pr essor 1 LPC Lo cko ut Diag no st ic: Com pr esso r 1 LPC Loc ko ut 00 1 – Cri t ical

Bin ar y I npu t , 48 Diag no st ic: Com pr essor 2 H PC Lock ou t Di ag nost ic: Com pre ssor 2 HPC Lock out 0 01 – Cr it ical

Bin ar y I nput , 4 4 Diag nost ic: Com pr essor 2 LPC Lo cko ut Diag no st ic: Com pr esso r 2 LPC Loc ko ut 00 1 – Cri t ical

Bin ary I npu t, 297 D iag no stic: D CV Mi n Po sit ion a t Minim um Fan Spe ed

Bin ar y I nput , 2 93 D iag nost ic: D CV Mi n Posi tion Set po in t Fail Di agno st ic: DCV Min Posit io n Set poin t Fail 00 4 – I nfor mat ion

Bin ar y I np ut , 2 52 D iag nos ti c: Def ault D efr ost Flag Dia gn osti c: Def ault Def ro st Fla g 00 4 – In form ati on

Bin ar y I nput , 2 87 Diag nosti c: Def ro st Defau lt Mode Ck t 1 Dia gn ost ic: Def ro st Def au lt Mode Ck t 1 0 04 – Inf or m at ion

Bin ary I npu t, 283 D iag nost ic: Def ro st D efau lt Mode Ck t 2 Di agn osti c: Defr ost Def ault Mod e Ckt 2 0 04 – Inf orm ati on

Bin ar y I nput , 1 25 Diag nosti c: Deh um id Set poi nt Failur e Diag no st ic: D eh um id Set poin t Fail ur e 00 2 – Se rv ice Requ ir ed

Bin ar y I npu t, 248 Di ag no st ic: D em and Defr ost Fault A D ia gn ost ic: Dem and D ef ro st Fau lt A 0 04 – In form ati on

Bin ar y I nput , 2 84 D iag nost ic: D em and Defr ost Fault A Ckt 1 D iag nost ic: D em and Defr ost Fault A Ckt 1 0 04 – I nfor m at ion

Bin ary I npu t, 280 D iag no st ic: D em and De fr ost Faul t A Ck t 2 Diag no stic: D em and Defr ost Fa ul t A Ck t 2 00 4 – I nfor m at ion

Bin ar y I nput , 2 49 D iag no st ic: D em and Defr ost Fault B D iagn ost ic: Dem and Defr ost Fau lt B 0 04 – I nf orm atio n

Bin ary I npu t, 285 D iag no st ic: D em and De fr ost Faul t B Ckt 1 Dia gn ost ic: Dem and Def ro st Fau lt B Ck t 1 00 4 – I nfo rm at ion

Bin ar y I nput , 2 81 D iag no st ic: D em and Defr ost Fault B Ckt 2 Di ag no st i: De m an d Def rost Fault B Ck t 2 004 – I nfo rmat ion

Bin ar y I npu t, 250 Di ag no st ic: D em and Defr ost Fault C Di ag no st ic: Dem and Defr ost Fault C 0 04 – In form ati on

Bin ar y I nput , 2 86 D iag no st ic: D em and Defr ost Fault C Ck t 1 Di ag no st ic: De m an d Def rost Fault C Ck t 1 0 04 – Inf orm atio n

Bin ary I npu t, 282 D iag no stic: D em and Defr ost Fault C Ckt 2 Di agn osti c: Dem and Def ro st Fau lt C Ckt 2 0 04 – I nf orm ati on

Bin ar y I nput , 2 51 D iag no st ic: D em and Defr ost Fault D Di ag no st ic: De m and Def rost Fault D 0 04 – I nf or mat ion

Bin ar y I nput , 2 98

Bin ar y I nput , 2 96

Bin ary I npu t, 294 D iag no st ic: D esi gn Mi n Posit ion Se tpoi nt Fail Diag no st ic: De sig n Mi n Posit ion Setp oin t Fai l 0 04 – Inf orm ati on

Bin ar y I nput , 7 6 Diag nost ic: Dir ty Fil t er Di ag no st ic: Di rty Filt er 00 3 – Advi sor y

Bin ar y I npu t , 289 D iag no st ic: D isch arg e A ir He at Set poin t Fail ur e Diagn osti c: Discha rge Air Heat Setp oin t Fail ur e 004 – I nf or m at ion

Bin ar y I nput , 2 64 D iag no st ic: Econ om izer Actu at or Fau lt Dia gn ost ic: Econ omi zer Ac tu ator Fault 004 – I nf or m at ion

Ob j e ct Nam e De scr ipt ion N ot if i ca t ion Cla ss

Dia gn ost ic: D esig n M in Pos it ion at Mi dpo int Fan Spe ed Fai l

Dia gn ost ic : D esi gn Mi n Posit ion a t Min im u m Fan Sp eed Fai l

Dia gn osti c: DCV Min Posi tion at Mi ni m um Fan Spee d

Dia gn osti c: Des ign Min Pos it ion at Mid po in t Fan Spee d Fail

Dia gn osti c: Des ign Min Posi tion at Mi ni m um Fan Spee d Fail

00 4 – I nfor mat ion

BAS-SVP09B-EN 35

Object Data Points and Diagnostic Data Points

Table 13. Diagnostic Objects Sorted by Object Name (continued)

Ob j e ct I de nt if i er Bina ry I n put ( BI )

Bin ary I npu t, 107 D iag no stic: En t er in g Evap Tem p Sens or Fai l Diagn osti c: Ent ering Ev ap Te m p Sensor Fail 0 02 – Serv ice Req ui r ed

Bin ar y I nput , 2 95 D iag nost ic: En t ha lpy Set poin t Fail Diag no st ic: Ent hal py Set po in t Fail 0 04 – Inf or m at ion

Bin ar y I nput , 4 0 Diag nostic: Exhaust Fan Prov ing Failur e Diagn osti c: Exh aust Fan Prov ing Fail ur e 001 – Cri tica l

Bin ar y I nput , 2 88 D iag nost ic: Ex ha us t Fan Se t point Failu re Diag nosti c: Exh aust Fan Set poi nt Failur e 00 4 – I nfor mat ion

Bin ary I npu t, 151 D iag no stic: Ex t er na l Aut o-S top D iag nost ic: Ex t er na l Auto - St op 00 4 – I nf or m at ion

Bin ar y I nput , 3 9 Diag no stic: Fan Fail ur e Dia gn osti c: Fan Failu r e 0 01 – Crit ical

Bin ary I npu t, 259 D iag no stic: Fla m e Roll ou t Swit ch Op en D iag nost ic: Fla m e Roll ou t Sw itch Open 004 – I nfor mat ion

Bin ar y I nput , 2 62 D iag nost ic: Fl am e Sen sed w ith Gas Valv e Off D iagn ost ic: Fla m e S ensed w it h Gas Valv e Off 0 04 – I nf or m at ion

Bin ary I npu t, 256 D iag no stic: Fr eez est at Trip pe d Dia gn ost ic: Free zest at Tri pp ed 004 – I nf orm ati on

Bin ar y I nput , 2 47 Diag nosti c: FroSt at Trip Di agno st ic: Fr oSt at Trip 0 04 – In for m at ion

Bin ary I npu t, 263 Diag no st ic: Ga s H eat Mod ul e Failu r e Diag no st ic: Gas He at Modu le Fail ur e 0 04 – I nf or mat ion

Bin ar y I nput , 5 1 Diag nost ic: Heat Failu r e Dia gn osti c: Heat Failu re 003 – Ad visor y

Bin ary I npu t, 258 D iag no stic: Heat ing Hi gh Tem p Li m it Ope n Diag no st ic: He at in g High Tem p Limit Open 004 – I nfo rm at ion

Bin ar y I nput , 2 90 D iag no st ic: I GN1 Com mu ni cat ions Tim ed out Di agn osti c: I GN1 Com mu nicat ion s Ti m ed o ut 0 04 – Inf or m at ion

Bin ary I npu t, 291 D iag no stic: I GN2 Com mu ni cat ions Ti m ed o ut Di agno st ic: I GN2 Co m m un icat io ns Time d ou t 0 04 – In for mati on

Bin ar y I nput , 2 60 D iag no st ic: I ndu cer Prov ing Swit ch Fail Di ag no st ic: I ndu cer Prov ing Swit ch Fail 0 04 – I nf or mat ion

Bin ary I npu t, 34 Diag nost ic: Lo cal Co ol Setp oi nt Fail Diag nost ic: Lo cal Co ol Se tp oint Fail 0 02 – Serv ice Req ui r ed

Bin ar y I nput , 3 8 Diag nost ic: Lo cal Em erg en cy Stop In iti at ed Dia gn osti c: Loca l Em er gency Stop In it iated 0 01 – Crit ical

Bin ary I npu t, 35 Diag nost ic: Lo cal Z on e Heat Set poin t Fai l Diag no st ic: Lo cal Z on e H eat Set poin t Fai l 002 – Ser vi ce Requ ired

Bin ar y I nput , 1 47 D iag nost ic: Ma in ten ance Requ ir ed Diagn osti c: Mai nt enan ce Requ ired 002 – Ser vice Req ui re d

Bin ary I npu t, 242 D iag nost ic: Min OA Flow Set poin t Fail Dia gn osti c: Min OA Flo w Se tp oint Fail 0 02 – Serv ice Req ui r ed

Bin ar y I nput , 9 5 Diag nost ic: Mixe d Air Temp Sens or Fail ure D iagn ost ic: Mix ed Ai r Te m p Sen sor Failu re 0 02 – S er vi ce Req ui re d

Bin ary I npu t, 279 Diag no st ic: Mo d Dehu m id Co nf ig Er ror Diag nost ic: Mod Dehu m id Co nf ig Er r or 0 04 – I nf orm ati on

Bin ar y I nput , 2 39 D iag nost ic: Mo r ni ng Wa rm up Se t point Fail Dia gn osti c: Mor nin g War m up Set po in t Fail 00 2 – Se rv ice Requ ir ed

Bin ary I npu t, 261 D iag no st ic: No Flam e Sen sed on h eat call D ia gn ost ic: No Flam e Se nse d on h eat call 0 04 – I nfor mat ion

Bin ar y I nput , 3 7 Diag nost ic: OA Hu mid ity Sens or Failur e D ia gn ost ic: OA H um idi ty Sen sor Failu re 00 2 – Se rv ice Requ ir ed

Bin ary I npu t, 32 Diag nost ic: OA Tem pera t ur e Sen sor Fail Di ag no st ic: OA Te m pe ra tur e Sen sor Fail 002 – Ser vice Req uired

Bin ar y I nput , 5 8 D iag nost ic: Ret ur n Air Hum idi ty Sen sor Fail D iag no st ic: Ret ur n Air Hu m idi t y Sensor Fai l 00 2 – Ser vice Req ui red

Bin ar y Inp ut, 57 Dia gn ost ic: Ret urn Ai r Te m p Sen sor Fai l Di agn osti c: Retu r n Air Tem p Sen sor Fail 002 – Se rv ice Req ui re d

Bin ar y I nput , 2 74 Diag nosti c: RTAM Com m Fail Diag no st ic: RTAM Com m Fail 0 04 – I nf orm atio n

Bin ar y I npu t , 276 Di agn osti c: RTCM Com m Fail Diag no st ic: RTCM Com m Fail 0 04 – I nf or mat ion

Bin ary I npu t, 277 Di agn osti c: RTDM Com m Fail D iag nost ic: RTDM Com m Fail 0 04 – Inf or m at ion

Bin ar y I npu t , 273 D iag no st ic: RTEM Com m Fail Diag nost ic: RTEM Com m Fail 0 04 – I nfor mat ion

Bin ar y I nput , 2 9 Diag nost ic: RTM Zone Te m p Sensor Failu re Di agnost ic: Zon e Tem p Sen sor Fail ur e 00 2 – Se rv ice Req uir ed

Bin ary I npu t, 272 D iag no stic: RTOM Com m Fai l Diag no st ic: RTOM Com m Fail 00 4 – I nfo r m at ion

Bin ar y I nput , 2 75 Diag nosti c: RTVM Com m Fai l Dia gn osti c: RTVM Com m Fail 00 4 – I nfo rm ati on

Bin ary I npu t, 267 D iag no st ic: SA Pre ssu re D ead Ban d Failu r e Di agnos tic: SA Pressur e Dea d Band Fail ur e 0 04 – Infor mati on

Bin ar y I nput , 2 68 D iag nost ic: SA Pre ssu re PWM Fault Di ag no st ic: SA Pre ssu re PWM Fa ul t 004 – I nf or m at ion

Bin ary I npu t, 54 Diag nost ic: SA Pressu re S et po in t Fail ure D iagn ost ic: SA Pr essu re S et poin t Fail ur e 0 02 – Serv ice Req uired

Bin ar y I nput , 1 23 Diag nosti c: SA Reh eat Set poi nt Failur e Di ag no st ic: SA Reh eat Set point Failu re 00 2 – Serv ice Req ui r ed

Bin ary I npu t, 265 D iag no stic: SA Rese t Am oun t Fai lu re Diag nost ic: SA Rese t Amoun t Fail ur e 00 4 – I nfo rm at io n

Bin ar y I nput , 2 66 D iag nost ic: SA Rese t Se t po in t Fail ur e Diagn ost ic: SA Rese t Se tpoi nt Failu re 0 04 – I nf or mat ion

Bin ary I npu t, 74 Diag nost ic: SA Tem p Coo l Set poin t Fai l Di ag no st ic: SA Tem p Cool Set poin t Fail 0 02 – Serv ice Req ui r ed

Bin ar y I nput , 7 5 Diag nost ic: SA Tem p Heat Se tp oint Fail Diag no st ic: SA Te m p Heat Se tpoi nt Fail 0 02 – Ser vice Req ui re d

Bin ary I npu t, 246 D iag no stic: Sm oke D et ecto r Di ag no st ic: Sm oke D et ect or 0 04 – I nf or mat ion

Bin ar y I nput , 1 06 D iag nost ic: Sp ace Hu mid ity Sens or Fail D iag nost ic: Sp ace H um idity Sen sor Fail 00 2 – Se rv ice Req uir ed

Ob j e ct Nam e De scr ipt ion N ot if i ca t ion Cla ss

36 BAS-SVP09B-EN

Table 13. Diagnostic Objects Sorted by Object Name (continued)

Additional Resources

Ob j e ct I de nt if i er Bina ry I n put ( BI )

Bin ary I npu t, 278 Diag no st ic: Sp ace Pr ess De adb and Fa il Di agnost ic: Sp ace Pre ss Dea db an d Fail 0 04 – I nf orm ati on

Bin ar y I nput , 5 6 Diag nost ic: Space Pr essu re S en sor Fail Dia gn osti c: Spa ce Press ur e Sen sor Fail 0 02 – Ser vice Req ui r ed

Bin ary I npu t, 55 Diag nost ic: Spac e Pressu re Set poin t Fai l Di agnost ic: Sp ace Pressu re S et po in t Fail 00 2 – Se rvi ce Requ ired

Bin ar y I nput , 3 6 Diag nost ic: S up pl y Air Press Se nso r Fail Diag no st ic: Su pply Air Press Senso r Fa il 00 2 – Serv ice Req ui r ed

Bin ary I npu t, 30 Diag nost ic: Su pply Air Tem p S en sor Fail D iag nost ic: Su pply Air Tem p S en sor Fai l 0 02 – Serv ice Req uir ed

Bin ar y I nput , 1 48 D iag nost ic: Un it Com mu ni cat ions Fail ur e D iag nost ic: Un it Com mu ni cat ions Fail ur e 0 02 – Ser vice Req ui re d

Bin ary I npu t, 86 Diag nost ic: Vel oci t y Pre ss Sen sor Fail D iag nost ic: Vel oci t y Press Sen sor Fail 0 02 – Serv ice Req uired

Bin ar y I nput , 2 53 D iag nost ic: Ven t Overr ide - Ex ha ust D ia gn ost ic: Vent Ove rr ide - Ex ha ust 00 4 – Inf orm atio n

Bin ary I npu t, 255 D iag no stic: Ven t Ov err id e - Pressu r ize D iag nost ic: Ven t O ver rid e - Pr essu r ize 0 04 – I nf orm ati on

Bin ar y I nput , 2 54 Diag nosti c: Vent Ov erri de - Purge Di ag nostic: Vent Ove rr ide - Pur ge 004 – I nfo r m at ion

Ob j e ct Nam e De scr ipt ion N ot if i ca t ion Cla ss

Additional Resources

Use the following documents and links as additional resources:

• Product support online:

•

www.bacnet.org

• www.bacnetassociation.org

• www.ashrae.org

• Tracer TU Help online

racer™ TU Service Tool Getting Started Guide

•

racer TU Service Tool for Water-cooled CenTraVac Chillers with Tracer AdaptiView Control

•

T Programming Guide

(current version of CTV-SVP02)

(TTU-SVN02) (X39641083)

Note: For further assistance, contact your local Trane sales office.

BAS-SVP09B-EN 37

Glossary

ASHRAE

See American Society of Heating, Refrigeration, and Airconditioning Engineers

American Society of Heating, Refrigeration, and Airconditioning Engineers

An international organization of 50,000 persons with chapters throughout the world. The Society is organized for the sole purpose of advancing the arts and sciences of heating, ventilation, air conditioning and refrigeration. It benefits the public with its research, standards writing, continuing education, and publications.

BACnet

See Building Automation Control network

BACnet interoperability building blocks (BIBBSs)

A block of BACnet application services that tells vendors what BACnet services must be implemented to provide specific device functionality. The BIBBs are grouped together into BACnet device profiles.

BACnet object

An abstract representation of the physical point or points where data is input from or output to an I/O device. Each object may have several BACnet properties that describe the status of that object.

baud rate

The number of signaling elements that occur each second during electronic data transmission. At slow speeds, baud indicates the number of bits per second that are transmitted. For example, 500 baud means that 500 bits are transmitted each second (abbreviated 500 bps). At higher speeds, multiple bits may be encoded with each electrical change.

BIBB

See BACnet interoperability building blocks

Building Automation Control network (BACnet and ANSI/ASHRAE Standard 135-2008)

An interoperable protocol developed specifically for the building controls industry. The American National Standards Institute named it as a standard, and Trane advocates BACnet protocol for use in system-level control devices.

device

A device is a standard BACnet object as defined by ASHRAE Standard 135-2008. The Tracer UC800 unit controller contains the BACnet object.

Device ID

The Device ID uniquely identifies each BACnet device and can range from 0 to 4194302. There cannot be more than one device using the same Device ID. Each of the sample applications operate as a device and requires its own device ID, which defaults to zero.

interoperability

The ability to integrate equipment from different vendors into a comprehensive automation and control system. Additionally, digital communications between products designed independently, but designed to the same communication standard.

MAC address

The media access control (MAC) address is the unique serial number burned into Ethernet and Token Ring adapters that identifies that network card from all others.

protocol

A set of rules (language) that governs the exchange of data over a digital communications system.

stand-alone operation

Equipment is running in a stand-alone mode when all control is provided by the electronic control system of the equipment. The system controls the building environment to a local set of configuration and setpoint values. It monitors the environmental conditions with sensors that are physically wired to the control system of the unit.

38 BAS-SVP09B-EN

Glossary

BAS-SVP09B-EN 39

Trane optimizes the performance of homes and buildings around the world. A business of Ingersoll Rand, the

BAS-SVP09B-EN 01 Mar 2011

Supersedes BAS-SVP09A-EN (01 Dec 2010)

leader in creating and sustaining safe, comfortable and energy efficient environments, Trane offers a broad portfolio of advanced controls and HVAC systems, comprehensive building services, and parts. For more information, visit www.Trane.com.

Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice.

Trane BACnet BCI-R Integration guide User guide

Specifications and Main Features

Frequently Asked Questions

User Manual