Trane Official Manual for TR200 - Installation and Setup Guide
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Introduction

Introduction

About this Manual

First time users can obtain the most essential information for quick installation and set-up in these chapters:

Introduction

How to Install

How to Configure the System

Application Example

For more detailed information including the full range of set-up options and diagnosis tools, refer to the chapters: How to Control the TR200

How to Access TR200 Parameters

Parameters

Troubleshooting

Technical Overview

BACnet (Building Automation and Control Network) is an open data communications protocol, American Na- tional Standard (ANSI/ASHRAE 135-1995). BACnet provides a means by which computer-based control equip- ment from different manufacturers can work together. BACnet is designed to handle many types of building controls, including HVAC, lighting, security, fire, access control, maintenance and waste management. BACnet permits flexibility for expansion and different equipment combinations.

Conformance Classes, Function Groups and the PICS: Evaluating the capabilities of a BACnet device is poten- tially a formidable task, given the great choice of objects, properties and services, which can be implemented, as well as the fact that it is not necessary for every BACnet device to have a full BACnet implementation in order to carry out its task. ASHRAE's BACnet Committee recognized this problem and responded with aids to evalu- ation in the form of "Conformance Classes", "Function Groups" and the "Protocol Implementation Conformance Statement" (PICS).

The BACnet protocol defines six levels of conformance classes, each of which specifies the minimum subset of services implemented on the device. The lowest level, Conformance Class 1, requires only that the BACnet device contain a device object and that it be able to execute (respond to) a ReadProperty service request. Each successive conformance class level adds service requests that must be executable by the device, as well as the service requests it must be able to initiate. Conformance Class 6 requires 21 types of service requests (of the 32 overall) to be implemented, of which 20 must be initiable and 17 executable. Conformance class thus provides a measure of the device's ability to communicate.

Function groups specify a combination of objects and services necessary to carry out certain building automa- tion functions. They are specified independently of conformance class, though the implementation of some of the function groups automatically confers some conformance class higher than 1.

TR200 BACnet

2-1

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Contents TR200 Introduction LED Status Safety Copyright, limitation of liability and revision rightsSafety Safety High Voltage Warning Safety NoteSafety Regulations Installation at high altitudes Voltage Min. Waiting Time MinutesSafety Safety Precautions Protection Mode Safety Before Commencing Repair Work Installation requirementsElectrical ratings Introduction About this ManualTechnical Overview Physical characteristics IntroductionBackground information Transport mechanismIntroduction Assumptions Background KnowledgeAvailable Literature for TR200 Introduction Abbreviations LED MAV MOC MRVHow to Install Installation of the OptionHow to Install CablingInstructions Cable lengths and number of nodesHow to Install How to Install Network Termination Connecting the Bus LineMaximum Cable Lengths How to Install Cable Routing EMC PrecautionsConnection of the Cable Shield How to Install Ground Connection How to Configure the System Initialization ProcedureInitialization Parameter How to Configure the System Control Word Timeout FunctionBibbs Name Par. number Value How to Configure the System How to Control the Adjustable Frequency Drive Reference HandlingOpen-loop Closed-loopHow to Control the Adjustable Frequency Drive Analog Input and Output ObjectsRameter Notifi Timeout Scription Rameter Change- Non-vola Alarm Triggers Object Name Able De Cation TimeoutObject BusNon-vola Alarm Triggers Bus Able De BO30 Reserved Output Change Non-vola Alarm Write Timeout ScriptionObject Name Able De How to Control the Adjustable Frequency Drive Change Non-vola Alarm Object Name Able DeTriggers Bus Timeout BV80 Broken Belt BV121 10V low BV156 Reserved, P Change- Non-vola Alarm Object Name Able De Multi-state Input and Output ObjectsDrive Par Write Real Time Clock Variable Object Read Change- Non-volaWrite Scription Adjustable Frequency Drive Feedback to Network Output Value Output Value StageValue Class Object / Property Support Matrix Device Binary Multi Stage File value Event notifi- cation classHow to Control the Adjustable Frequency Drive Title Default value Range Conver Data Sion index Type ParametersParameter List Control Timeout Time ParametersComm. and Options Control SiteControl Timeout Function End-of-Timeout FunctionReset Control Timeout Diagnosis TriggerControl Profile ProtocolParameters AddressBaud Rate Parity / Stop BitsMinimum Response Delay Max Response DelayMax Inter-Char Delay Coasting SelectStart Select Reverse SelectSet-up Select Preset Reference Select Initialization PasswordBACnet Device Instance 72 MS/TP Max MastersTroubleshooting Alarm and Warning MessagesAlarms GeneralTroubleshooting Alarm Words Alarm word, par.16-90 Alarm WordAlarm word 2, par.16-91 Alarm word Bit Alarm Word Hex Par.16-90 Alarm WordTroubleshooting Bit Hex Par.16-92 Warning WordBit Phases Status Bi-color LED LED 1 Net StatusLED 2 Module Status MG12L122 *MG12L122
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