Emerson MSM400 manual Mains Supply, Safety Precautions, Initial Power UP

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TRIGGER INPUTS

There is trigger input D1. This can be used to control desludge and other functions see programming section. The digital trigger input is connected as shown below:

5V

10

D1

8

0V

7

A voltage greater than 2V on Terminal 8 (D1) causes trigger input 1 to be active. This can be achieved by connecting to terminal 10 (5V) via an external switch or relay. The maximum voltage should not exceed 28V.

24V

MES*AI OR

ELECTRO SENSOR

0V

24V

25

0V

26

D1

8

0V

7

The trigger input is also compatible with the MOBREY Electrosensor sensors and head amplifiers. A 24V output is provided for this purpose. Typically this allows complete control of the desludge cycle by using a second sensor (Electrosensor) to start or stop the cycle. The terminal connections are shown above (note: it is important that the two 0V connections on terminals 7 and 26 are linked).

NOTE : When connected to these terminals the electrosensor sensors and head amplifiers MUST NOT be installed in explosive atmospheres.

MAINS SUPPLY

The unit can be powered either by 24V DC or by mains AC power. If both are connected, the unit will select the supply producing the highest internal 24V power rail. Select the AC Voltage as 115V or 230V using the selector slide switch above the AC line terminals.

Although the MSM400 meets all European standards for surge immunity on power and signal lines, it is recommended that lightning suppressors are fitted if local conditions make this advisable. Units manufactured by Telematic are suitable.

SAFETY PRECAUTIONS

A switch or circuit breaker should be installed in close proximity to the instrument, and labelled as such.

The unit must be earthed using the protective earth terminal 31.

INITIAL POWER UP

The unit will initially display the software revision number on Power up, and then revert to the standard display screen, showing a measured slurry/sludge density. If the sensor is in air, then this value will be high -the unit is

effectively at full scale deflection.

IP258

15

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Contents Mobrey Contents Safety Precautions Sensor Connection IVE Neutral Earth Mains DisplayENT Product Description Product Introduction MSM400 Slurry Monitoring SystemUltrasonic Attenuation versus Suspended solids Slurry CharacteristicsMobrey Pipe Section Sensors Suspended Sensor Type MSM433Sensor Type Numbering System Control Unit MSM400 Displays and KeypadKeypad Operation SPECIFICATIONS--MSM400 HartEMC Pipe Section Installation Suspended Sensor InstallationPreliminary Checks Control Unit Sensor CablesTerminal Label Function Current Output Hart Connections and Jumper SettingsSensor Connections RelaysSafety Precautions Initial Power UPMains Supply Toggle RUN Calibration Setup Monitor Main Menu Toggle RUN Calibration SetupToggle RUN Diagnostic Parameters EX-FACTORY System FeaturesZero Setting Initial Zero Rechecking Zero Calibration Methods Auto CAL Auto CAL Zero Setting ProcedureClear Liquor Press ENT To set 23.1dB 26.2dB Autocal Span Setting ProcedureAuto CAL LAB Values Sample Press ENT to set 33.6dB 44.2dBCalibration Method 1-SLURRY Type Zero Setting ProcedureMaximum % Solids Span CALIBRATION/GRADIENT MethodsAttenuation VALUE-METHOD Duty Mode Desludge Mode No. of operation Set Default value Max value Hrs & minsStart on Stop on Stop if Do not start if INPUT↓ Output Start Time #1 hm 730 P254 Relay Operation Outputs Current OutputDisplay option parameter number Description AlarmMiddle Display ←−−−−−−− Lower DisplaySettings Engineering Frequency SETSystem Test Current Output Sensors Hart Smart CommunicationsAppendix A1 Main Menu SUB Menu Parameter DescriptionPar No Engineering Alarm ReportDiagnostics LoggingParameter Description Min Max Default ValueMSM400 Monit Parameter Description Min Max Default ValueFrom list 3.6/21mA/hold last reading Min Max Default Value Ex-Factory Manufacturer’s Code Hart Considerations Appendix A3 Hart and Psion Operating InstructionsSmart Communication with the Mobrey MSM400 Calibration adjustments at operating conditionsFurther customisation using the Smart HHC Handheld Communicator Mobrey CK Hand Held Communicator Assembly InstructionsFig DII. Loop diagram Fig D1 MOBREY-CK* HHC assembly How to connect the Smart Communicator Hand Held Communicator Operation How to drive a Psion based Smart Communicator Mobrey Find Save Diary Calc Time Notes World AlarmTAG Tank D7.0 Introduction and Function menu HelpD7.2 Program Parameters P D7.1 Monitor/Display Parameters DSafe Register Default RegisterMode KEY Working RegisterHand Held Communicator Registers Select Data Source Display of Parameter Data 10.0ERROR Messages on the HHC10.1Alarm and Error Messages Printout or PC transfer of MSM400 programme data10.2Invalid Data Entry Invalid Action not the Same Instrument Password not OpenInstrument in Multidrop Mode 10.3Communication ErrorsD0 D8 11.0Current Loop Checks and Trimming Current Output ** Set current Trim-maximum Trim-maximum12.0Unknown Instrument Current and USE ↑ & ↓ To Trim the Output13.3Use of multiple Smart Communicators D13.0 Smart Interfaces Compatibility D13.1 IntroductionAbcdef