Emerson 848T manual Standard, Transmitter Configuration Custom Configuration Methods

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Rosemount 848T

Reference Manual

00809-0100-4697, Rev EA October 2011

CONFIGURATION

Standard

Each FOUNDATION fieldbus configuration tool or host system has a different

 

way of displaying and performing configurations. Some will use Device

 

Descriptions (DDs) and DD Methods to make configuration and displaying of

 

data consistent across host platforms.

 

Unless otherwise specified, the 848T will be shipped with the following

 

configuration (default):

Table 3-1. Standard Configuration Settings

Transmitter

Configuration

Custom Configuration Methods

Sensor Type(1)

Type J Thermocouple

Damping(1)

5 seconds

Measurement Units(1)

°C

 

Output(1)

Linear with Temperature

Line Voltage Filter(1)

60 Hz

Temperature Specific Blocks

Transducer Block (1)

 

 

 

FOUNDATION fieldbus Function Blocks

Analog Input (8)

 

Multiple Analog Input (2)

 

Input Selector (4)

 

 

 

(1) For all eight sensors

Refer to that systems documentation to perform configuration changes using a FOUNDATION fieldbus host or configuration tool.

NOTE

To make configuration changes, ensure that the block is Out of Service (OOS) by setting the MODE_BLK.TARGET to OOS, or set the SENSOR_MODE to Configuration.

The transmitter is available with the standard configuration setting. The configuration settings and block configuration may be changed in the field with the Emerson Process Management Systems DeltaV®, with AMSinside, or other FOUNDATION fieldbus host or configuration tool.

Custom configurations are to be specified when ordering.

For FOUNDATION fieldbus hosts or configuration tools that support device description (DD) methods, there are two configuration methods available in the Transducer block. These methods are included with the DD software.

Sensor Configuration

Sensor Input Trim (user input trim)

See the host system documentation for information on running DD methods from the host system. If the FOUNDATION fieldbus host or configuration tool does not support DD methods, refer to “Block Configuration” on page 3-7for information on how to modify sensor configuration parameters.

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Contents Reference Manual 00809-0100-4697, Rev EA OctoberPage Rosemount 848T High Density Temperature Transmitter with Customer Central National Response Center InternationalPage Table of Contents Operation Maintenance SectionAppendix a TOC-2Safety Messages Section IntroductionProcess leaks could result in death or serious injury Electrical shock could cause death or serious injuryFieldbus host or configuration tool Maintenance of the Rosemount 848T Temperature TransmitterOverview TransmitterService Support Rosemount 848T Section Installation Safety Messages MountingMounting to a DIN Rail Without an Enclosure Mounting to a Panel with a Junction BoxMounting to a 2-in. Pipe Stand Aluminum/Plastic Junction Box Stainless Steel Junction BoxWiring Spur Signal Wiring Devices 1 throughConnections Leads and terminalsRTD or Ohm Inputs Thermocouple or Millivolt InputsAnalog Inputs Connectors Power SupplyOhm resistor in the loop when switched to the left Analog InputPower Supply Surges/TransientsConnections Shielded Wire Grounding848T Power Supply Sensor Wires Shield ground points Transmitter Enclosure optionalMA loop Fieldbus busSwitches Simulate EnableSwitch is not functional SecurityTagging Commissioning TagTransmitter Tag Sensor TagInstallation Using Cable GlandsUsing Conduit Entries Section Configuration Configuration Transmitter Configuration Custom Configuration MethodsStandard Rosemount 848T Common Configurations for High Density Applications Typical Profiling ApplicationFunction BlockMeasuring Temperature Points Individually Monitoring Application with a Single SelectionMultiple Analog Input or Analog Input Block Configuration Block Configuration Resource BlockNumber Parameter Description 00809-0100-4697, Rev EA October Resource Block Parameters Saveconfignow SaveconfigblocksStartwithdefaults FailedenableBlock Errors ModesAutomatic Auto Block is processing its normal background memory checksOut of Service OOS Alarm DetectionPlantWeb Alerts Status Handling00809-0100-4697, Rev EA October Failure Alarms FailedmaskMaintenance Alarms/Priority Alarm Advisory AlarmsAlarm Alarm Type Active Event Recommended Action Recommended Actions for PlantWeb AlertsTransducer Blocks RESOURCE.HARDWAREREV,RESOURCE.RBSFTWRREVALL Transducer Block Errors Transducer Block Channel DefinitionsChannel Definitions for the 848T Channel Description00809-0100-4697, Rev EA October Block/Transducer Error Transducer Block Alarm DetectionTransducer Block Modes Block outputs reflect the analog input measurementSENSOR1CONFIG SENSOR2CONFIGSENSOR3CONFIG SENSOR4CONFIGChanging the Sensor Configuration in the Transducer Block 11. Xderror Sub-Parameter Structure 12. Sensorconfig Sub-Parameter StructureTransducer Block Sub-Parameter Tables 13. Sensorstatus Sub-Parameter Structure 14. Sensorcal Sub-Parameter Structure15. Calstatus Structure 16. Transducer Status Sub-Parameter StructureStructure Dual Sensor Status TableStructure 20. Validation Config Sub-Parameter Structure Sensor Calibration in the Sensor Transducer BlockStructure Parameter Description Rosemount 848T Operation and Maintenance Foundation Fieldbus InformationFoundation Commissioning Addressing Hardware Maintenance Restart with DefaultsSensor Check Restart Processor cyclingTroubleshooting Transducer Block TroubleshootingSymptom Possible Cause Corrective Action Symptom Possible Causes Corrective ActionFunctional Specifications Appendix a Reference DataUpdate Time AlarmsBackup Link Active Scheduler LAS Transient ProtectionPhysical Specifications Performance Specifications Function BlocksSensor Option Sensor Reference 3-Wire RTDs Accuracy for Differential ConfigurationsAccuracy Input RangesSensor Option Alarm Levels Accuracy Analog Sensors 4-20mAAmbient Temperature Effect Dimensional Drawings Ambient Temperature Notes ExamplesRosemount 848T Top ViewStainless Steel Junction Box-Cable Gland option code JS2 Side View Front ViewFront View Side View Stainless Steel Junction Box-Conduit Entry option code JS3 Side ViewMounting Options Aluminum/Plastic Junction Box Styles JA and JPStainless Steel Junction Box Style JS Front View Side ViewOrdering Information OptionsSoftware Configuration Standard Special Temperature Test ExpandedConduit Electrical Connector Standard Enclosure Options StandardRosemount 848T Table B-2. Entity Parameters for Non Incendive Field Wiring Appendix B Product CertificatesHazardous Locations Certificates North American ApprovalsPower/Bus Canadian Standards Association CSA Certifications Power/Bus Sensor European ApprovalsAtex Certifications Special Conditions for Safe UseCi = Li = Rosemount 848T Special Conditions of Safe Use IECEx CertificationsRosemount 848T Parameters Terminals of power/loop China NEPSICertificationsJapanese Certifications Intrinsically Safe and NON-INCENDIVE Installations Installation Drawings Figure B-1. FM Intrinsic Safety/ Fisco 00809-0100-4697, Rev EA Rosemount 848T Figure B-2. CSA Intrinsic Safety/ Fisco Rosemount 848T Rosemount 848T Appendix C Foundation fieldbus Technology Overview Function BlocksInput OutputSnap Linkages StatusDevice Descriptions Block Operation Instrument- Specific Function Blocks AlertsResource Blocks Transducer BlocksNetwork Communication Link Active Scheduler LASFieldbus Link LAS Parameters MID x ST DataBackup LAS Addressing Scheduled TransfersPublisher/Subscriber Report DistributionUnscheduled Transfers ScheduleDevice Device Y Device Z Function Block Scheduling Appendix D Function Blocks Analog Input AI Function BlockNumber Parameter Units Description OUTAlarmhys XdscaleOutscale IooptsOUT mode in man OUT mode in autoFunctionalitySimulation 63% of ChangeSignal Conversion FilteringDirect IndirectIndirect Square Root ConditionsTable D-3. Alarm Priority Levels Manual ManValue of the block output OUT may be set manually Uncertain if in Manual mode Advanced FeaturesBAD if Limited Uncertain if LimitedAI Block Troubleshooting Application InformationXdblock HIHILIMIT, LolimitMultiple Analog Input MAI Function Block Table D-4. Multiple Analog Input Function Block ParametersCAPSTDDEV1 Figure D-4. Multiple Analog Input Function Block Schematic SimulateOption in Manual or Out of Service mode only Devices such as flowmetersTable D-5. Blockerr Conditions Block output OUT may be set manually MAI Block Troubleshooting Input Selector Function Block Table D-6. Input Selector Function Block ParametersIN1 IN2 IN3 IN4 IN5 IN6 IN7 OUT OutrangeSelecttype MingoodSelected OpselectINn DISABLEn Mode Logic SelectionAlarm OUT FunctionalityTable D-8. Alarm Priority Levels OUT reflects the selected valueBlock Execution Use Uncertain as GoodIsel Block Troubleshooting Index NumericsConfiguration Errors Modes Automatic Maintalarms TroubleshootingAlarm Detection Errors Modes AutomaticPage Rosemount Inc Pacific Private Limited

848T specifications

The Emerson 848T is a state-of-the-art temperature transmitter designed for accurate and reliable temperature measurement in various industrial applications. This device has gained recognition for its advanced features and robust performance, making it a popular choice among engineers and technicians in the field.

One of the key highlights of the Emerson 848T is its unique dual-channel capability, which allows it to seamlessly monitor two temperature sources simultaneously. This functionality is particularly beneficial in processes where multiple temperature points need to be assessed, optimizing efficiency and reducing the need for additional equipment. It supports various sensor types, including thermocouples, RTDs, and resistance temperature detectors, making it versatile for different applications.

The 848T is equipped with sophisticated digital processing technology, which enhances its accuracy and stability. It features a 24-bit analog-to-digital converter, ensuring precise measurement and minimizing drift over time. Moreover, the device boasts a wide operating temperature range, accommodating ambient conditions from -40°C to 85°C. This durability makes it suitable for harsh environments commonly encountered in industries such as oil and gas, pharmaceuticals, and power generation.

Another significant characteristic of the Emerson 848T is its configurable output options. Users can choose from a range of output signals, including 4-20 mA, which provides a standard interface for integration into existing control systems. Additionally, it offers a HART communication protocol, allowing for easy configuration, calibration, and diagnostics through a digital interface. This feature enhances the transmitter's usability, enabling operators to perform adjustments without direct access to the device.

The device is designed with user-friendliness in mind. Its intuitive setup procedure and robust graphical user interface simplify the commissioning process, ensuring that even those new to the technology can easily navigate the system. An integrated LCD display provides real-time readings and status information, facilitating monitoring at a glance.

In summary, the Emerson 848T temperature transmitter combines reliable performance, user-friendly design, and advanced digital technologies. Its dual-channel capability, wide sensor compatibility, and adjustable output options make it an essential tool for achieving precise temperature measurements in various industrial settings. With these compelling features, the Emerson 848T stands out as a leading choice for professionals seeking accuracy and efficiency in their temperature monitoring applications.
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