VAV Master and Slave Single Duct Peer References - Johnson Controls - Metasys - LIT-12011147 - Software Application - Controller Configuration Tool - 13.1

Controller Tool Help

Product
Controls > Control Tools > Controller Configuration Tool
Document type
User Guide
Document number
LIT-12011147
Version
13.1
Revision date
2019-12-04

Table 1 summarizes all of the possible Network Inputs created in the VAV Slave Single Duct Applications and their corresponding Peer References to read from the Master VAV or AHU application.

Table 1. VAV Master and Slave Single Duct Peer References

Slave Application Network Inputs

Master Application Object ID Type and Name

AUTOCAL-C

AUTOCAL-C value from the AUTOCAL-C Network Input

EMERGENCY-MODE

Smoke Sequence-State from the Smoke Control Sequencing for UL-864-UUKL State Generation module

MSTRFAN-C

Parallel Fan Flow Based

Output

SF-C

MSTRFAN-C

Parallel Fan Temp Based

Output

SF-C

MSTRFAN-C

Series Fan On-Off or Proportional

Output

SF-C

MSTRFAN-O

Series Proportional

Output

SF-O

MSTRFLOW-PERCENT

CLG-O parameter from the Flow Setpoint (VAV Single Duct) (Flow Setpoint (VAV Single Duct) v51) Output Controller module

MSTRFLOW-PERCENT

CLG-O parameter from the Flow Setpoint HFR (VAV Single Duct HFR) (Supply Flow Setpoint Control HFR) Output Controller module

MSTRFLOW-S

SAFLOW-OUTSTATE parameter from the Flow Setpoint (VAV Single Duct) (Flow Setpoint (VAV Single Duct) v51) Output Controller module

MSTRFLOW-S

SAFLOW-OUTSTATE parameter from the Flow Setpoint HFR (VAV Single Duct) (Supply Flow Setpoint Control HFR) Output Controller module

MSTRHTG1-C

Stage 1

Output

HTG1-C

MSTRHTG2-C

Stage 2

Output

HTG2-C

MSTRHTG3-C

Stage 3

Output

HTG3-C

MSTRHTG-O

Incremental

Output

HTG-O

MSTRHTG-O

Proportional

Output

HTG-O

MSTRSUPHTG1-C

Electric On Off

Output

SUPHTG1-C

MSTRSUPHTG1-C

Steam/Hot Water On Off

Output

SUPHTG1-C

MSTRSUPHTG-O

Incremental

Output

SUPHTG-O

MSTRSUPHTG-O

Proportional

Output

SUPHTG-O

MSTRZN-CO2

Input

ZN-Q

OA-PERCENT

Network Input

OA Percent

SA-T

Input

DA-T from the AHU controller