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General| Mounting | Panel Mount |
|---|---|
| Display | LED |
| Power Supply | 100-240 VAC, 50/60 Hz or 24 VDC |
| Accuracy | ±0.1% of reading ±1 digit |
| Dimensions | 96(W) x 48(H) x 100(D) mm |
Essential precautions for safe handling, transportation, storage, and installation of the flowmeter.
Details on valve position, straight pipe length, and pipe supports for proper installation.
Installation precautions for gas, steam, liquid, and multi-phase flow measurements.
Instructions for installing wafer and flange type vortex flowmeters, including alignment and gaskets.
Important cautions to observe when performing wiring, especially regarding temperature and environment.
Describes connection methods for analog output, pulse output, and simultaneous analog-pulse output.
Shows connection samples for power supply, load resistance, and terminal positions for integral and remote types.
Details on connecting the DYC signal cable between the converter and the remote flowmeter.
Procedure for finishing the signal cable end for the vortex flowmeter and converter.
Step-by-step procedure for finishing the signal cable end for the DY-N vortex flowmeter.
Step-by-step procedure for finishing the signal cable end for the DYA vortex flow converter.
Requirements and methods for proper grounding of the instrument and its components.
Overview of the setting mode used for checking and rewriting parameters.
Details on how to input numeric data for parameter settings, with an example.
Procedures for operating the instrument using a BRAIN Terminal (BT200).
Explains how to set parameters using the BT200 terminal, with examples for flow span and pulse output.
Describes operations using a HART configuration tool like FieldMate.
Overview of parameter settings performed before shipment and required adjustments.
Describes the parameter list, including item, name, R/W attribute, data range, unit, and remarks.
Parameters for thermometer setup, including function, units, and coefficients for temperature compensation.
Parameters for adjustment, including trimming, user adjust, Reynolds adjustment, and instrumental error correction.
Detailed explanation of parameters, covering indication, easy setting, and contact output.
Explanation of principal parameters for operation, including flow span, damping, and contact output.
Explanation of thermometer setup parameters for multi-variable type, including function, units, and coefficients.
Explanation of adjustment parameters like trimming, user adjust, Reynolds adjustment, and instrumental error correction.
Lists and explains error codes displayed during self-check, including problem cause and recovery.
Covers zero adjustment, span adjustment, and loop testing procedures.
Procedures for manual adjustments, including low cut and tuning.
Procedure for removing the vortex shedder assembly, including cautions and torque values.
Provides equations for calculating flow rate, velocity, Reynolds number, and pulse output.
Detailed formulas for calculating flow rate in engineering units, percentage, and totalized values.
Formulas for calculating mass flow rate for steam, gas, and liquid, including density compensation.
Diagnostic steps for troubleshooting large flowmeter errors and fluctuating readings.
Troubleshooting steps for indication dropping to zero after correct output, possibly due to sensor deterioration.
Diagnostic flowchart for troubleshooting cases where no output is indicated while fluid is flowing.
Diagnostic steps for troubleshooting when output is incorrectly indicated at zero flow.
Troubleshooting flow issues specifically for the /MV model.
Covers output signals, communication requirements, and wiring specifications.
Explains the model codes and suffix codes for ordering integral and remote type flowmeters.
Explains the multi-variable option, detailing differences from standard specs for fluid, accuracy, and calculation methods.
Lists explosion protection options like TIIS, FM, CENELEC ATEX, and CSA approvals.
Technical data for CENELEC ATEX certified instruments, covering explosion proof and intrinsically safe types.
Detailed technical data for ATEX explosion-proof and intrinsically safe certifications.
Installation requirements for ATEX explosion-proof instruments, including wiring and conduit sealing.
Installation diagrams for intrinsically safe configurations with safety barriers.
Installation diagrams for Type "n" protection configurations with safety barriers.
Technical data and installation requirements for FM certified instruments.
Technical data for FM explosion-proof and intrinsically safe approvals, including standards and parameters.
Wiring instructions for FM explosion-proof and intrinsically safe installations, emphasizing conduit seals.
Installation diagrams for FM intrinsically safe and nonincendive configurations.
Technical data, installation, operation, and maintenance for SAA certified instruments.
Technical data for SAA flameproof and intrinsically safe certifications, including standards and parameters.
Installation requirements for SAA certified instruments, covering wiring, cables, and apertures.
Installation diagrams for SAA intrinsically safe and Type "n" configurations.
Technical data, installation, operation, and maintenance for CSA certified instruments.
Technical data for CSA explosion-proof and intrinsically safe certifications, including standards and parameters.
Wiring instructions for CSA explosion-proof and intrinsically safe installations, emphasizing conduit seals.
Installation diagram for CSA intrinsically safe configurations.
Installation diagram for CSA Type "n" and Non-incendive configurations.
Technical data and specifications for TIIS certified instruments.
Lists the certificate details for TIIS flameproof and intrinsically safe approvals.
Explains the nature of flameproof construction and its purpose in preventing explosions.
Procedures and requirements for external wiring of flameproof apparatus, including cable glands and grounding.
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