Bryant 580J*08--14D Modbus, Manufacture Date, Basic Protocol Troubleshooting, Code Name Meaning

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Table 19 – Manufacture Date

When troubleshooting, you may need to know a control module’s manufacture date

Obtain the manufacture date from

Notes

 

a...

 

 

Module status report (modstat)

To obtain a modstat with BACview6:

 

1. Press Function (FN) key and hold.

 

2. Then press period (.)

 

3. Release both buttons.

 

The report shows the date under Main board hardware.

Sticker on the back of the main control

The serial numbers are unique and contain embedded information:

module board

“RMP”

--- These first three digits are unique to RTU--- MP and are used as an identifier.

”Serial No: RMPYMxxxxN”

“YM”

--- These two digits identify the last digit of the year and month (in hex, A=10/Oct)

(Bar Coded & Typed Number)

xxxx”

of manufacture. ”74” would represent a date of manufacture of ”April 2007”.

 

--- These four digits represent the sequential number of units produced for a given

 

“N”

product for the mentioned manufacturing time period.

 

--- This final digit represents the decade and toggles between ”N” and ”M” every

 

 

ten years.

Table 20 – Basic Protocol Troubleshooting

Problem

Possible cause

Corrective action

No communication with 3rd

Incorrect settings on SW1, SW2 and SW3

Verify and correct switch settings. Cycle

party vendor

 

power to RTU--- MP after changing switch

 

 

settings.

 

RS485 Port has no voltage output

Verify RTU--- MP has correct power supply

 

(check with RTU--- MP disconnected from RS485

Possible bad driver on board.

 

communication bus)

 

 

Bacnet @ 9600/19.2K --- .01 to .045vdc

Check RS485 bus for external before

 

 

reconnecting to the bus

 

Bacnet @ 38.4K --- .06 to .09vdc

Voltage, shorts or grounding

 

Bacnet @ 76.8K --- .1vdc

before reconnecting to the bus

 

Modbus @ 9600 --- 76.8K --- .124vdc

 

 

N2 @ 9600 --- .124vdc

 

 

Verify devices are daisy chained and repeaters and bias

Check 3rd party vendor RS485

 

terminators are correctly installed

communication wiring guidelines and

 

 

troubleshooting procedures

580J

Table 21 – Modbus Exception Codes that May be

Returned From This Controller

CODE

NAME

MEANING

 

 

 

 

 

The Modbus function code used

01

Illegal Function

in the query is not supported by

 

 

the controller.

 

 

 

 

 

The register address used in the

02

Illegal Data Address

query is not supported by the

 

 

controller.

 

 

 

 

 

The Modbus Master has

 

 

attempted to write to a

04

Slave Device Failure

non--- existent register or a

 

 

read--- only register in the

 

 

controller.

 

 

 

Modbus

1.Verify that the BAS and controller are both set to speak the Modbus RTU protocol. The protocol of the controller is set via SW3 (switches 3, 4, 5, and 6). The protocol can also be verified by getting a Modstat of the controller through the BACview. Hit the ”FN” key and the ’.’ key at the same time to pull up a Modstat. Scroll to the bottom of the page and there is a section entitled “Network Communications.” The active protocol and baud rate will be shown in this section.

2.Verify that the BAS and controller are set for the same baud rate. The baud rate of the controller is set via SW3 (switches 1 and 2). The baud rate can also be verified via the BACview by obtaining a Modstat (See Fig. 59).

3.Verify that the BAS is configured to speak 2-wire EIA-485 to the controller. The BAS may have to configure jumper or DIP switches on their end.

4.Verify that the BAS and the controller have the same communication settings (8 data bits, No Parity, and 1 stop bit).

5.Verify that the controller has a unique Modbus slave address. The controller’s Modbus slave address is set by its rotary address switches.

6.Verify that the BAS is using the proper Modbus function codes to access data from our controller. Supported function codes are shown above.

7.Verify proper wiring between the BAS and the controller.

8.Verify that the BAS is reading or writing to the proper Modbus register numbers on the controller. Download the latest points list for the controller to verify.

9.Verify that the BAS is sending his requests to the proper slave address of our controller.

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Contents Safety Considerations Table of ContentsGeneral Unit Arrangement and AccessWhat to do if you smell gas Seasonal Maintenance Routine MaintenanceSupply Fan Belt-Drive Supply FAN Blower SectionManual Outside Air Hood Screen Supply-Fan Pulley Adjustment Bearings Adjustable-Pitch Pulley on MotorCooling Coil Maintenance and Cleaning RecommendationCondenser Coil Evaporator CoilRoutine Cleaning of Evaporator Coil Surfaces Routine Cleaning of Novation Condenser Coil SurfacesPuronr R-410A Refrigerant Refrigerant System Pressure Access PortsEvaporator Coil Metering Devices Refrigerant ChargeSeatcore Cooling Charging Charts 08D,F Both Circuits Cooling Charging ChartsCooling Charging Charts 12D,F Both Circuits TON Circuit TON Circuit Problem Cause Remedy Cooling Service AnalysisCondenser-Fan Adjustment 14D,F size Condenser-Fan Adjustment 08D-12D,F sizeTroubleshooting Cooling System CompressorsNon-Powered Type Installing Weatherproof CoverUnit-Powered Type Convenience OutletsSmoke Detectors Smoke Detector Locations SensorSupply Air Fiop Smoke Detector Wiring and Response Completing Installation of Return Air Smoke SensorReturn Air Without Economizer All UnitsSensor and Controller Tests Controller Alarm Test Procedure Controller Alarm TestDirty Controller Test Procedure Dirty Sensor Test ProcedureSD-TRK4 Remote Alarm Test Procedure Detector CleaningRemote Test/Reset Station Dirty Sensor Test Dirty Sensor Test Using an SD-TRK4Troubleshooting Compressor Protection Protective DevicesControl Circuit GAS Heating SystemFuel Types and Pressures Flue Gas Passageways Supply Pressure SwitchCombustion-Air Blower Liquid Propane Supply Line Pressure RangesMain Burners Burners and IgnitersOrifice Projection Check Unit Operation and Make Necessary Adjustments Cleaning and AdjustmentLimit Switch LED Indication Error Code Description LED Error Code DescriptionBurner Ignition Gas Valve Orifice ReplacementRed LED-Status Altitude Compensation Orifice SizesLP Orifice Minimum Heating Entering Air Temperature Troubleshooting Heating SystemHeating Service Analysis IGC IGC Board LED Alarm CodesRepairing Novation Condenser Tube Leaks Condenser Coil ServiceRTU-MP Control System Replacing Novation Condenser CoilRTU-MP Multi-Protocol Control Board Typical RTU-MP System Control Wiring Diagram Outdoor Air Temperature OAT Sensor Supply Air Temperature SAT SensorRTU-MP Controller Inputs and Outputs OutputsEconoMi$er Space Temperature SPT SensorsConnect T-55 Outdoor Air Enthalpy Control PNO HH57AC077 Economizer ControlsDifferential Enthalpy Control Wiring the Indoor Air Quality SensorReturn Air Enthalpy Sensor Indoor Air Quality CO2 SensorOutdoor Air Quality Sensor PNO 33ZCSENCO2 plus Connecting Discrete InputsWeatherproof Enclosure Filter StatusCommunication Wiring Protocols Power Exhaust outputCommunication LEDs RTU-MP TroubleshootingProtocol DS8 DS7 DS6 DS5 DS4 DS3 DS2 DS1 Baud Rate DS2 DS1LEDs on the RTU-MP show the status of certain functions LEDsTroubleshooting Alarms BACnet MS/TP AlarmsModule Status Report Modstat Example Modbus Basic Protocol TroubleshootingManufacture Date Code Name MeaningEconoMi$er IV Component Locations ECONOMI$ER SystemsEconoMi$er IV Wiring EconoMi$er IV Functional View EconoMi$er IV Input/Output LogicOutdoor Air Lockout Sensor Supply Air Temperature SAT SensorEconoMi$er IV Control Modes Outdoor Dry Bulb ChangeoverOutdoor Enthalpy Changeover Differential Dry Bulb ControlIndoor Air Quality IAQ Sensor Input Exhaust Setpoint AdjustmentMinimum Position Control Thermostats Damper MovementDemand Control Ventilation DCV CO2 Sensor Standard Settings CO2 Sensor ConfigurationAnalog CO2 EconoMi$er IV Sensor Usage DCV Demand Controlled Ventilation and Power ExhaustEconoMi$er IV Preparation Differential EnthalpyEconoMi$er IV Troubleshooting Completion Wiring DiagramsDCV Minimum and Maximum Position Supply-Air Sensor Input580J Typical Unit Wiring Diagram Power 08D,F, 208/230-3-60 C09157 START-UP, General PRE-START-UPUnit Preparation Gas PipingRefrigerant Service Ports Internal WiringReturn-Air Filters Outdoor-Air Inlet ScreensConfiguration Field Service TestUnit Start Delay START-UP, RTU-MP ControlSupply Fan Service Hours Filter Service HoursCompressor1 Service Hours Compressor2 Service HoursSpace Sensor Type InputInput 1 Function Input 2 FunctionBase Unit Controls Cooling, Units Without Economizer Operating SequencesHeating, Units Without Economizer Cooling, Unit With EconoMi$erDemand Controlled Ventilation Heating With EconoMi$erSupplemental Controls RTU-MP Sequence of OperationScheduling Always Occupied Default OccupancyLocal Schedule BACnet ScheduleCooling Power ExhaustEconomizer Indoor Air Quality Fastener Torque ValuesDemand Limit Torque ValuesModel Number Nomenclature Appendix I. Model Number SignificanceSerial Number Format Position NumberPhysical Data Appendix II. Physical Data12.5TONS Physical Data Heating 12.5TONS Heat Anticipator Setting Amps580J**08 580J**12 580J**14 Gas Connection Natural Gas Heat, Liquid Propane Heat580J**08 Appendix III. FAN PerformanceCFM RPM BHP 579 580J**12RPM BHP 580J**141260 General fan performance notesUnit MOTOR/DRIVE Motor Pulley Turns Open Combo Pulley AdjustmentElectrical Information NOM IFM FAN Motor Exhaust No P.E Unit Combustion PowerType DISC. Size MocpWiring Diagrams Appendix IV. Wiring Diagram ListCatalog No.SM580J---02 Appendix V. Motormaster Sensor Locations580J Preliminary Information Unit START-UP Checklist

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