Emerson MSM400 manual How to connect the Smart Communicator

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Technical Notes:

1.At no time can the SMART communicator be attached across A1-A2, since the DC supply effectively short circuits the transmitted and returned digital communications signals.

2.The minimum DC Voltage V1 required for satisfactory 20mA loop operation can be calculated from the formula –

V1 > 2.5 + V2 + [20 x 10-3]x (R1 + R2 + R4 +R5)

D.3.6.3. An alternative way of looking at this voltage requirement is in terms of the maximum loop resistance that can be tolerated, which has to be less than (V1 – 2.5) x 50 ohms.

The maximum allowable value for V1 is 30 Volts.

D.3.6.4. The HART protocol itself sets the maximum values that can apply to the loop resistances, labelled R1 to R5.

The total load on the loop (R1 + R2 + R4) must not exceed 1100 ohms.

In addition the maximum length of cable in a loop working on the HART protocol is specified as 3000 metres on a single screened loop cable, or 1500 metres if multicore multi-loop cabling is used.

D.4.0. How to connect the SMART Communicator

Assemble the Psion based SMART Communicator unit as shown in Fig. DI fitting the battery, 100 SMART Datapak, SMART Interface unit and lead. The push on crocodile clips are optional.

Power the MSM400 Control unit from a DC supply as shown in Figure DII. A 250 ohm (or higher value) load resistance must be incorporated in the loop.

The SMART Communicator is self powered and draws no current from the loop.

The two wires from the SMART Communicator are interchangeable – it does not matter which way round they are connected.

a)These two wires can be connected to the HART test pins inside the lid of the MSM400 control unit, using the crocodile clips provided on the CK1 or CK3.

b)Alternatively connection can be made via the crocodile clips or hook on probes to each wire of the 2 wire current loop at a convenient terminal box or strip.

c)At the control room the two wires can be connected either across the “SMART” Load resistor or between a terminal on the chart recorder/indicator and the other side of the loop.

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Contents Mobrey Contents Safety Precautions ENT Sensor Connection IVE Neutral Earth MainsDisplay Product Introduction MSM400 Slurry Monitoring System Product DescriptionSlurry Characteristics Ultrasonic Attenuation versus Suspended solidsSuspended Sensor Type MSM433 Mobrey Pipe Section SensorsSensor Type Numbering System Keypad Operation Control UnitMSM400 Displays and Keypad EMC SPECIFICATIONS--MSM400Hart Preliminary Checks Pipe Section InstallationSuspended Sensor Installation Sensor Cables Control UnitTerminal Label Function Hart Connections and Jumper Settings Sensor ConnectionsRelays Current OutputMains Supply Safety PrecautionsInitial Power UP Main Menu Toggle RUN Calibration Setup Toggle RUN Calibration Setup MonitorToggle RUN Zero Setting Initial Zero Diagnostic ParametersEX-FACTORY System Features Calibration Methods Auto CAL Auto CAL Zero Setting Procedure Rechecking ZeroAutocal Span Setting Procedure Clear Liquor Press ENT To set 23.1dB 26.2dBSample Press ENT to set 33.6dB 44.2dB Auto CAL LAB ValuesZero Setting Procedure Maximum % SolidsSpan CALIBRATION/GRADIENT Methods Calibration Method 1-SLURRY TypeAttenuation VALUE-METHOD Start on Stop on Stop if Do not start if Duty Mode Desludge ModeNo. of operation Set Default value Max value Hrs & mins INPUT↓ Output Start Time #1 hm 730 P254 Outputs Current Output Relay OperationAlarm Middle Display←−−−−−−− Lower Display Display option parameter number DescriptionSystem Test Current Output SettingsEngineering Frequency SET Hart Smart Communications SensorsPar No Appendix A1Main Menu SUB Menu Parameter Description Alarm Report DiagnosticsLogging EngineeringMin Max Default Value Parameter DescriptionParameter Description Min Max Default Value MSM400 MonitFrom list 3.6/21mA/hold last reading Min Max Default Value Ex-Factory Manufacturer’s Code Appendix A3 Hart and Psion Operating Instructions Hart ConsiderationsCalibration adjustments at operating conditions Smart Communication with the Mobrey MSM400Further customisation using the Smart HHC Hand Held Communicator Assembly Instructions Handheld Communicator Mobrey CKFig DII. Loop diagram Fig D1 MOBREY-CK* HHC assembly How to connect the Smart Communicator Hand Held Communicator Operation Mobrey Find Save Diary Calc Time Notes World Alarm How to drive a Psion based Smart CommunicatorTAG Tank Help D7.0 Introduction and Function menuD7.1 Monitor/Display Parameters D D7.2 Program Parameters PDefault Register Mode KEYWorking Register Safe RegisterHand Held Communicator Registers Select Data Source 10.0ERROR Messages on the HHC 10.1Alarm and Error MessagesPrintout or PC transfer of MSM400 programme data Display of Parameter Data10.2Invalid Data Entry Password not Open Instrument in Multidrop Mode10.3Communication Errors Invalid Action not the Same InstrumentD0 D8 Current Output ** Set current Trim-maximum Trim-maximum 11.0Current Loop Checks and TrimmingCurrent and USE ↑ & ↓ To Trim the Output 12.0Unknown InstrumentD13.0 Smart Interfaces Compatibility D13.1 Introduction 13.3Use of multiple Smart CommunicatorsAbcdef