Bryant F, 580J*08--14D appendix Module Status Report Modstat Example

Page 48

580J

Device

Instance: 0160001

 

1 PRGs

loaded.

1 PRGs running.

 

Module status:

 

 

Firmware sections validated in flash memory

============================================

Boot16-H

- v2.06:001

Jun 19 2007

RTU-MP DRIVER

- v2.09:050

Jun 26 2007

Reset counters:

 

 

11

Power failures

 

0

Brownouts

 

 

18

Commanded warm boots

 

22

Commanded cold boots

 

0

System errors

 

0

Watchdog timeouts

 

System

error message history:

Type Specific

Warning message history:

 

Information message history:

06/29/07 10:49:40

POWERUP: BACnet reinitialize warmstart

Menu file not found.

06/29/07 10:48:35

ARC156 reconfigurations during the last hour (cleared upon reset):

Total

0

Initiated by this node

0

Core board hardware:

Type=147, board=34, manufactured on 05/14/2007, S/N 21A740188N

RAM: 1024 kBytes; FLASH: 1024 kBytes, type = 3

Base board hardware:

Type=147, board=71, manufactured on 05/14/2007, S/N RMP750037N

Largest free heap space = 65536.

Database size = 742082 , used = 352162, free = 389920.

Raw physical switches: 0x01280000

Module Communications:

Network Protocol=BACnet MSTP Master

Network Baud Rate=9600 bps

C07195

Fig. 59 - Module Status Report (Modstat) Example

10.In certain situations, it may be necessary to tweak the MS/TP Protocol timing settings through the BACview6. There are two settings that may be tweaked:

S Max Masters: Defines the highest MS/TP Master MAC address on this MS/TP network. For example, if there are 3 master nodes on an MS/TP network, and their MAC addresses are 1, 8, and 16, then Max Masters would be set to 16 (since this is the highest MS/TP MAC address on the network). This property optimizes MS/TP network communications by preventing token passes and “poll for master” requests to non-existent Master nodes (i.e., in the above example, MAC address 16 would know to pass the token back to MAC address 1 instead of counting up to MAC address 127).

Each MS/TP master node on the network must have their Max Masters set to this same value. The default is

127.

SMaxInfo Frames: This property defines the maximum number of responses that will be sent when our controller gets the token. A valid number is any positive integer. The default is 10 and should be ideal for the majority of applications. In cases where the controller is the target of many requests, this number could be increased as high as 100 or 200.

NOTE: MS/TP networks can be comprised of both Master and Slave nodes. Valid MAC addresses for Master nodes are 0 - 127 and valid addresses for Slave nodes are 0 - 254.

NOTE: See RTU-MP 3rd Party Integration Guide (or alternatively RTU-MP Controls, Start-Up, Operation, and Troubleshooting Instructions (Form 48-50H-T-2T) Appendix) for Protocol Maps.

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Contents Table of Contents Safety ConsiderationsUnit Arrangement and Access GeneralWhat to do if you smell gas Routine Maintenance Seasonal MaintenanceSupply FAN Blower Section Supply Fan Belt-DriveManual Outside Air Hood Screen Adjustable-Pitch Pulley on Motor Supply-Fan Pulley Adjustment BearingsCoil Maintenance and Cleaning Recommendation CoolingCondenser Coil Evaporator CoilRoutine Cleaning of Novation Condenser Coil Surfaces Routine Cleaning of Evaporator Coil SurfacesRefrigerant System Pressure Access Ports Puronr R-410A RefrigerantEvaporator Coil Metering Devices Refrigerant ChargeSeatcore Cooling Charging Charts Cooling Charging Charts 08D,F Both CircuitsCooling Charging Charts 12D,F Both Circuits TON Circuit TON Circuit Cooling Service Analysis Problem Cause RemedyCondenser-Fan Adjustment 08D-12D,F size Condenser-Fan Adjustment 14D,F sizeTroubleshooting Cooling System CompressorsInstalling Weatherproof Cover Non-Powered TypeUnit-Powered Type Convenience OutletsSmoke Detectors Sensor Smoke Detector LocationsSupply Air Completing Installation of Return Air Smoke Sensor Fiop Smoke Detector Wiring and ResponseReturn Air Without Economizer All UnitsSensor and Controller Tests Controller Alarm Test Controller Alarm Test ProcedureDirty Controller Test Procedure Dirty Sensor Test ProcedureDetector Cleaning SD-TRK4 Remote Alarm Test ProcedureRemote Test/Reset Station Dirty Sensor Test Dirty Sensor Test Using an SD-TRK4Troubleshooting Protective Devices Compressor ProtectionGAS Heating System Control CircuitFuel Types and Pressures Supply Pressure Switch Flue Gas PassagewaysCombustion-Air Blower Liquid Propane Supply Line Pressure RangesBurners and Igniters Main BurnersOrifice Projection Cleaning and Adjustment Check Unit Operation and Make Necessary AdjustmentsLimit Switch LED Error Code Description LED Indication Error Code DescriptionBurner Ignition Orifice Replacement Gas ValveRed LED-Status Orifice Sizes Altitude CompensationLP Orifice Troubleshooting Heating System Minimum Heating Entering Air TemperatureHeating Service Analysis IGC Board LED Alarm Codes IGCCondenser Coil Service Repairing Novation Condenser Tube LeaksRTU-MP Control System Replacing Novation Condenser CoilRTU-MP Multi-Protocol Control Board Typical RTU-MP System Control Wiring Diagram Supply Air Temperature SAT Sensor Outdoor Air Temperature OAT SensorRTU-MP Controller Inputs and Outputs OutputsSpace Temperature SPT Sensors EconoMi$erConnect T-55 Economizer Controls Outdoor Air Enthalpy Control PNO HH57AC077Wiring the Indoor Air Quality Sensor Differential Enthalpy ControlReturn Air Enthalpy Sensor Indoor Air Quality CO2 SensorConnecting Discrete Inputs Outdoor Air Quality Sensor PNO 33ZCSENCO2 plusWeatherproof Enclosure Filter StatusPower Exhaust output Communication Wiring ProtocolsRTU-MP Troubleshooting Communication LEDsProtocol DS8 DS7 DS6 DS5 DS4 DS3 DS2 DS1 Baud Rate DS2 DS1LEDs LEDs on the RTU-MP show the status of certain functionsTroubleshooting Alarms Alarms BACnet MS/TPModule Status Report Modstat Example Basic Protocol Troubleshooting ModbusManufacture Date Code Name MeaningECONOMI$ER Systems EconoMi$er IV Component LocationsEconoMi$er IV Wiring EconoMi$er IV Input/Output Logic EconoMi$er IV Functional ViewSupply Air Temperature SAT Sensor Outdoor Air Lockout SensorEconoMi$er IV Control Modes Outdoor Dry Bulb ChangeoverDifferential Dry Bulb Control Outdoor Enthalpy ChangeoverExhaust Setpoint Adjustment Indoor Air Quality IAQ Sensor InputMinimum Position Control Damper Movement ThermostatsDemand Control Ventilation DCV CO2 Sensor Configuration CO2 Sensor Standard SettingsAnalog CO2 DCV Demand Controlled Ventilation and Power Exhaust EconoMi$er IV Sensor UsageEconoMi$er IV Preparation Differential EnthalpyWiring Diagrams EconoMi$er IV Troubleshooting CompletionDCV Minimum and Maximum Position Supply-Air Sensor Input580J Typical Unit Wiring Diagram Power 08D,F, 208/230-3-60 C09157 PRE-START-UP START-UP, GeneralUnit Preparation Gas PipingInternal Wiring Refrigerant Service PortsReturn-Air Filters Outdoor-Air Inlet ScreensField Service Test ConfigurationUnit Start Delay START-UP, RTU-MP ControlFilter Service Hours Supply Fan Service HoursCompressor1 Service Hours Compressor2 Service HoursInput Space Sensor TypeInput 1 Function Input 2 FunctionOperating Sequences Base Unit Controls Cooling, Units Without EconomizerHeating, Units Without Economizer Cooling, Unit With EconoMi$erHeating With EconoMi$er Demand Controlled VentilationSupplemental Controls RTU-MP Sequence of OperationAlways Occupied Default Occupancy SchedulingLocal Schedule BACnet SchedulePower Exhaust CoolingEconomizer Fastener Torque Values Indoor Air QualityDemand Limit Torque ValuesAppendix I. Model Number Significance Model Number NomenclatureSerial Number Format Position NumberAppendix II. Physical Data Physical Data12.5TONS Heat Anticipator Setting Amps Physical Data Heating 12.5TONS580J**08 580J**12 580J**14 Gas Connection Natural Gas Heat, Liquid Propane HeatAppendix III. FAN Performance 580J**08CFM RPM BHP 580J**12 579580J**14 RPM BHPGeneral fan performance notes 1260Pulley Adjustment Unit MOTOR/DRIVE Motor Pulley Turns Open ComboElectrical Information Unit Combustion Power NOM IFM FAN Motor Exhaust No P.EType DISC. Size MocpAppendix IV. Wiring Diagram List Wiring DiagramsAppendix V. Motormaster Sensor Locations Catalog No.SM580J---02580J Unit START-UP Checklist Preliminary Information

580J*08--14D, F specifications

The Bryant F,580J*08--14D is an advanced heating and cooling system engineered for optimal performance and energy efficiency in residential and commercial applications. This innovative unit is designed to provide exceptional climate control while reducing operational costs, making it an ideal choice for those seeking reliable HVAC solutions.

One of the standout features of the Bryant F,580J*08--14D is its versatile heating and cooling capabilities. This system employs a two-stage compressor, which allows for precise temperature regulation and improved energy efficiency. This dual-stage operation ensures that the system can adapt to varying environmental conditions, providing enhanced comfort without excessive energy use.

The system is equipped with advanced inverter technology, which enables smoother operation and quieter performance. This technology adjusts the compressor speed based on the heating or cooling demand, leading to increased efficiency and reduced energy consumption. Additionally, the inverter system contributes to less noise during operation, creating a serene indoor environment.

The Bryant F,580J*08--14D also features a user-friendly thermostat that allows for easy temperature adjustments and scheduling. This smart thermostat is compatible with mobile devices, enabling users to monitor and control their HVAC system remotely. This feature provides added convenience and ensures that the system is operating efficiently, even when homeowners are away.

Energy efficiency is a hallmark of the Bryant F,580J*08--14D. The system meets and often exceeds ENERGY STARĀ® standards, making it one of the more eco-friendly options available in the market today. By utilizing energy-saving technologies and innovative designs, the system helps to lower utility bills and reduce the environmental impact.

Durability and reliability are key characteristics of the Bryant F,580J*08--14D. Constructed with high-quality materials and components, this unit is designed to withstand the rigors of changing weather conditions while maintaining consistent performance. Additionally, it comes equipped with a robust warranty, providing peace of mind for users investing in this heating and cooling solution.

In summary, the Bryant F,580J*08--14D is a top-tier HVAC system that boasts advanced technologies, exceptional energy efficiency, and user-friendly features. Its combination of reliable performance and modern conveniences makes it a standout choice for anyone looking to enhance their home's or business's climate control system, providing comfort and savings for years to come.
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