Moisture Monitor™ Series 3
Contents
1. Figure 1 2 M Series Probe Features and Capobilities 1 3 March 2008 M Series and TF Moisture Probes cont Figure 1 3 TF Series Probe Although the M and TF Series probes may be installed directly into the process line they are usually inserted into a sample system The sample system protects the probes and enables the user to easily remove the probes for calibrating servicing and cleaning Sample systems also control the flow of the process stream so that it is within the specifications of the measurement probe or cell The M and TF Series probes when operated with a BASEEFA approved MMS 3 are intrinsically safe see Chapter 3 Specifications in the Startup Guide for BASEEFA certification numbers and are designed to meet requirements of IEC CENELEC zone 0 areas The M and TF Series probes measure moisture content in a standard range from 110 C to 20 C 166 F to 68 F dew frost point temperature and optionally from 110 C to 60 C 166 F to 140 F Both probes optionally measure temperature in a range of 30 C to 70 C 22 F to 158 F The TF probe optionally measures pressure from 30 to 300 50 to 500 100 to 1000 300 to 3000 and 500 to 5000 psig Pressure Transmitter In addition to the M Series probe a separate pressure transmitter may be needed for on line pressure measurem2. Start T Constant Dew Point C End O N A ppmv O S N Curve Bkgd H Constant Dew Point C Interval Enter Log 1 12 Measurement Mode Measurement Units T N A TF Mxx Kt P S N Curve P Constant Pressure Psig Finished Start Logging Figure 3 2 Program Menu Map sht 1 of 2 H NA TF Mxx Kh H S N Pts Curve T Constant Temp P N A TF X1 X2 Kp Aux 1 2 SIN Pts Curve C ppmv Kppmv Multiplier Aux 1 2 N A V T 1 LoRange HiRange Err Message Enter low and high reference values for oxygen hygrometry and pressure Refer to Entering Reference Values 1 for a Channel Card in Chapter 2 of Off On the Service Manual RCD B Advanced Programming 3 48 March 2008 PROG Enter passcode Refer to Figure 3 2 1 TEST CONTRAST BACKLIGHT PORT RECORDERS Enter the backlight interval in hours and minutes B B Measurement Mode Red Range SHOW SET Printer Panik MoDBUS Measure mentions Interval Node ID Node ID Below 4 20mA 0 2V l i 19200 ll 9600 4800 l 2400 1200 Setpoint Measurement Mode Deadband Measurement Units Rcd Output
3. Span Setup B B Status RdChgTime Change ChgTime Relay Fed Range Program UpTime BootDevice Y Relay 4 20mA 0 2V Figure 3 3 Program Menu Map sht 2 of 2 Red Test Option ea Scale Trim Percent Y Zero Advanced Programming 3 49 Chapter 4 Programming with PanaView Introduction sans ttt uh Ree a 4 1 Changing Measurement Modes and Units 4 1 Changing Alarm Settings 4 4 Changing Recorder Settings 4 6 Programming User Functions 4 9 Entering User Tables suas ere he ca desire 4 11 Entering Saturation Constants 4 12 Checking the Battery and Backlight 4 13 March 2008 Introduction Changing Measurement Modes and Units The optional PanaView software package enables you to remotely change the programming of the MMS 3 In addition to displaying meter measurements on your PC you can vary the modes and display units on individual channels and add change or delete user equations and user tables You can also check the status of the meter battery and backlight For a complete explanation of PanaView s capabilit
4. Advanced Programming 3 9 March 2008 Table 3 3 MODBUS Register Map 3073 0x0C00 Chan 1 Pressure PSIg MSW 0x0C01 Chan 1 Pressure PSIg 0x0C02 Chan 1 Pressure PSIg Error Code 0x0C03 Chan 2 Pressure PSIg 0x0C04 Chan 2 Pressure PSIg 0x0C05 Chan 2 Pressure PSIg Error Code 0x0C78 Chan 1 Pressure kPa 0x0C79 Chan 1 Pressure kPa 0x0C7A Chan 1 Pressure kPa Error Code 0x0C7B Chan 2 Pressure kPa 0x0C7C Chan 2 Pressure kPa 0x0C7D Chan 2 Pressure kPa Error Code 0x1000 Chan 1 Aux1 VDC 0x1001 Chan 1 Aux1 VDC 0x1002 Chan 1 Aux1 VDC Error Code 0x1003 Chan 2 Aux1 VDC 0x1004 Chan 2 Aux1 VDC 0x1005 Chan 2 Aux1 VDC Error Code 0x1018 Chan 1 Aux1 mA 0x1019 Chan 1 Aux1 mA 0x101A Chan 1 Aux1 mA Error Code 0x101B Chan 2 Aux1 mA 0x101C Chan 2 Aux1 mA 0x101D Chan 2 Aux1 mA Error Code 0x1400 Chan 1 Aux2 VDC 0x1401 Chan 1 Aux2 VDC 0x1402 Chan 1 Aux2 VDC Error Code 0x1403 Chan 2 Aux2 VDC 0x1404 Chan 2 Aux2 VDC 0x1405 Chan 2 Aux2 VDC Error Code 3 10 Advanced Programming March 2008 Table 3 3 MODBUS Register Map Auxiliary Input cont 5145 0x1418 Chan 1 Aux2 mA 0x1419 Chan 1 Aux2 mA MSW 0x141A Chan 1 Aux2 mA Error Code 0x141B Chan 2 Aux2 mA 0x141C Chan 2 Aux2 mA 0x
5. Error Handling Low Error Setting High Error Setting On Low Error Ignore errors On High Error Ignore errors y Cancel Apply Figure 4 6 Error Handling Tab 4 8 Programming with PanaView March 2008 Programming User User functions enable operators to program up to four desired Functions equations on each channel or to use any measured parameter to calculate a different parameter PanaView allows users to program or change user functions and related tables through the PC To program a user function 1 From the New Meter Browser option click on the desired communications port meter and channel 2 Click on User Functions and then double click on the desired function 1 to 4 The right side of the screen will appear similar to Figure 4 7 below 3 Enter three parameters in the designated text boxes a function label of no more than 16 characters afunction symbol no more than 4 characters the number of decimal places desired 4 To incorporate an existing parameter pull down the network tree and click on the desired channel sensor and display unit User Function 1 Channel 1 Label User Function 1 Symbol f x Decimal Places a Equation OK abs Aux V mg New Meter D Channel 1 Eo E H d E WE TIC TbID TbIE iem Aux1 7l Aux1 User EE Aux2 EX Vref EX Gnd FA User 2 Nd Label 2
6. The MMS 3 briefly flashes a message Relay Status Reset and then displays the next prompt Select Mode 1 Use the arrow keys to move to O H T P Auxib the desired measurement mode and press YES See Table 3 1 on page 3 2 for a list of available measurement modes Advanced Programming 3 1 March 2008 Setting Up the Alarms cont Table 3 1 Measurement Modes Display Abbreviation Measurement Mode O Oxygen Hygrometry Temperature Pressure Auxiliary 1 Auxiliary 2 User Function Volt Reference Signal Ground User functions are available only through PanaView software see Programming User Functions in Chapter 4 Select Unit 1 Usearrow keys to move the IDP C DP FP brackets to the desired units and press YES Note The number of measurement choices and the units of measurement vary depending on the measurement mode selected Select Trip Type 1 Use the arrow keys to move the Above Below brackets to the desired trip type whether you want the alarm to trip above or below the programmed value and press VES A Setpoint DeadBD 1 Usethe numeric keys to enter the 0 0 0 0 setpoint the value above or below which you want the alarm to trip and press YES to confirm the entry If you wish to enter a deadband value explained on the next page press the right arrow key to reach the value use the numeric keys to enter the value and press VES
7. 3 4 C System Calibration 3 39 System Constant 3 26 Cables Modbus M Series Probe 1 6 Communications Setting Up 3 8 Calibration Data Entering 3 39 Error Codes Displayed 3 11 Register Map 0 000 008 3 9 D RS485 Connection 3 11 Data Logging Setting Up 3 16 Moisture Probes M Series 1 3 Delta F Oxygen Cell 1 5 N E NO Rey 2 2 Electronics Unit 1 1 Enhanced Response in PanaView 4 12 O Error Codes 2 2 oss purs hr 3 11 Outputs Error Handling in PanaView 4 8 Alarms 2 2 20 ane ae Ust 3 1 Record rs coe mc Ere 3 4 G Oxygen Cell Getting Started 2 1 Cables x eA tm eee Baa 1 6 Description zai RE RE v 1 5 K Keypad nai a Ut S 2 2 L LED Screen iia 1 2 Index 1 March 2008 Index cont P PanaView Capabilities 4 1 Changing Measurement Modes 4 1 Changing Recorder Settings 4 6 Enhanced Response 4 12 Error Handling 4 8 Saturation Constants 4 12 User Functions 4 9 User Defined Tables 4 11 Passcode sneri rior Srn idas RR a 2 2 Pressure Transmitter Cables ss usa pee ehr 1 6 Description opere ttes 1 4 Probes xcii Bea he a Au US 1 4 Probe
8. DP C MH 1 Enter the corresponding MH 12 20 0 1 046 value Press YES and press the right arrow key Repeat the last three steps to finish entering all the information for each data point Enter the next data point number you want to enter over the present data point number and press the right arrow key When you do this the DP C and MH values will display as the last values entered This indicates you are ready to begin entering information for the selected data point Note 7o review the moisture curve data enter the number of the data point and press YES You may now do one of the following Enter data for a different channel or type of sensor by pressing the NO key until you reach the Programming Menu and then refer to Entering Calibration Data for New Probes Sensors on page 3 39 Referto another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the NO key followed by the RUN key IMPORTANT You must configure a channel AND enter the necessary calibration data in order for a sensor to work properly 3 42 Advanced Programming March 2008 Entering Oxygen Curve Data O2 Curve Menu 1 Use the arrow keys to move the S N CURVE BkGd brackets to S N and press YES Probe Serial 1 Enterthe serial number and press O2 123456 YES Refer to the Calibration Data sheet for the serial numbe
9. Enter the log item number and press YES 3 18 Advanced Programming March 2008 Setting up a Log cont Sel DATA LOG Mode 1 Use the arrow keys to move to O H T P Aux the desired measurement mode and press VES See Table 3 5 below for a list of available measurement modes Table 3 5 Measurement Modes Display Abbreviation Measurement Mode O Oxygen Hygrometry Temperature Pressure Auxiliary 1 Auxiliary 2 User Function Volt Reference Signal Ground User functions are available only through PanaView software see Programming User Functions in Chapter 4 Datalog HYGRO Unit 1 Use arrow keys to move the DP C DPF brackets to the desired units and press YES Note The number of measurement choices and the units of measurement vary depending on the measurement mode selected Finished YES NO If you press NO the menu returns to the Enter Log prompt Repeat the preceding steps to select the remaining measurements you want to log up to 12 When you have finished entering items and parameters press YES Start Logging Press YES to begin logging or Press YES or NO NO to leave the menu without logging Advanced Programming 3 19 March 2008 Setting up a Log cont You may now do one of the following ndicate how to store logged data as described in Storing Logged Data on page 3 17 View logged data or t
10. Multiple Input Instructions System Menu 1 Use the arrow keys to move the CONFIG REF gt brackets to CONFIG and press VES Sel HYGRO sensor 1 Usethe arrow keys to move the TF Map brackets to the desired selection and press YES Refer to Table 3 11 on page 3 38 for a list of available choices for each sensor If you want to use a constant select Kh for moisture Kt for temperature or Kp for pressure Note 7he word HYGRO will be replaced to reflect the measurement mode you previously selected Table 3 10 on page 3 37 shows a list of measurement modes that require multiple inputs and what you need to display them Example 1 If you are using the TF Probe on channel 1 you must configure that channel for moisture temperature and pressure To do this you must select TF under the CONFIG option for the H T and P measurement modes Example 2 If you are using an M Series Probe to measure moisture and a constant pressure on channel 1 you must configure that channel for both moisture and a constant pressure To do this you must select Mxx under the CONFIG option for the H measurement mode You will also have to select Kp under the CONFIG option for the P measurement mode To select another measurement mode press the NO key until you return to Measurement Mode and repeat the following steps to complete configuration See Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 for menu maps When activating p
11. modifies or selects the measurement mode to display e CHAN toggles between channels only works with units that have two channels installed e PROG accesses the user program e RUN exits the Modify Display Mode or the user program except during numeric entry and returns to displaying measurements The keypad below the MMS 3 screen consists of 16 keys including the and symbols two arrow keys and two response keys YES and NO The numeric keys are for numeric entry only however the arrow and response keys have more than one function The arrow keys perform three functions arrow keys scroll through the screen selections by moving the brackets forward or backward to the desired location left arrow key moves backward and erases during numeric entry right arrow key moves the cursor to the desired location during numeric entry and accepts a change at the present location The response keys perform three functions VES or NO respond to questions and or exit a screen VES confirms an entry or retrieves a previous number after you erase it NO moves backward through the menu IMPORTANT After pressing a key wait for the unit to perform the desired function before executing another key function To enter the user program you must enter a passcode The passcode prevents unauthorized users from changing data When entering the user program the MMS 3 prompts for the
12. 3 2 Advanced Programming March 2008 Setting Up the Alarms cont The deadband allows users to set a programmable range of normally small values beyond the setpoint so that the MMS 3 will not trigger an alarm unless the measured value goes outside the deadband range On a High Above alarm the alarm will trip if the measurement is greater than or equal to the setpoint It will not RESET until the measurement is less than the setpoint minus the deadband However on a Low Below alarm the alarm will trip if the measurement is less than or equal to the setpoint It will not RESET until the measurement is greater than the setpoint plus the deadband You may now do one of the following Set up the alarms for the other channel page 3 1 Begin by checking the channel number Refer to another section and perform a different procedure Refer to the menu maps at the end of this chapter to navigate through the user program Exit by pressing the RUN key Advanced Programming 3 3 March 2008 Setting Up the Recorders The MMS 3 has two recorder outputs A and B for each channel IMPORTANT Switch Blocks must be set to the appropriate positions for output ranges see Setting the Switch Blocks in Chapter 1 of the Service Manual Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 3 on page 3 49 to na
13. b Figure 4 7 The User Function Window Programming with PanaView 4 9 March 2008 Programming User 5 To select the desired operation or table click on the appropriate Functions cont button See Entering User Tables on page 4 11 for information on entering data for user tables Use the cursor in the equation text window to position values correctly or to erase incorrect values or operations 6 When you have completed entering the function click on Apply to apply the function immediately and on OK to confirm the function and close the window To return the window to its previous settings click on the Cancel button Note It may be advisable to use the Apply button as a means of checking the function s validity If the function is improperly typed or if a sensor is under range or not programmed the Equation line displays Invalid with a brief message 4 10 Programming with PanaView March 2008 Entering User Tables To support user functions the MMS 3 can hold up to five tables designated as A through E of non linear or empirical data Users can enter up to 16 X Y pairs in each table A user function can supply an X value with Tbl The MMS 3 then interpolates the Y value for a given X and substitutes it for Tbl X in the function To enter values for a user table 1 From the New Meter Browser option click on the desired communications port and meter 2 Click
14. automatically after a predetermined time period CLOCK This menu enables the user to set and or view the clock and calendar PORT In this menu the user can select the baud rate report format and interval for transmitting measurements and logged data over the RS232 communications port ALARMS The MMS 3 can be equipped with two optional alarm relays high and low for each channel The user can set up both alarms for any of the available measurement modes and units e RECORDERS The MMS 3 has two recorder outputs A and B for each channel The user must set up the output ranges for each recorder and each channel Sysinfo This menu supplies basic information on the serial number program run time and boot device for a user s particular MMS 3 Features and Capobilities 1 7 Chapter 2 Basic Programming Startup Procedure cuecas anna 2 1 Displaying Measurements 2 3 Setting the Backlight Timer 2 6 Viewing or Setting the Clock and Calendar 2 7 March 2008 Startup Procedure Powering Up Sensor configuration and system calibration data for your MMS 3 are entered at the factory After you unpack the unit use the sections that follow to verify that your system is working properly and set up the screen to display the desired measurements The MMS 3 has a universal power supply that automatically ad
15. 9001 U S CERT DOC H2 August 2004 USA 1100 Technology Park Drive Billerica MA 01821 4111 Web www gesensing com Ireland Sensing House Shannon Free Zone East Shannon Co Clare Ireland
16. HiRange Sel ERR Response 1 ALM A ALM BP If you selected one of the ALARMS Sel ERR Alarm 1 IGNORE TRIP PPMv Multiplication Factor Use the arrow keys to move the brackets to ERROR and press YES Use the arrow keys to move the brackets to the desired selection and press YES Use the arrow keys to move the brackets to the desired alarm or recorder and press YES Use the arrow keys to select whether you wish to trip or ignore the error and press YES Refer back to the Selecting Error Response step to continue error processing Advanced Programming 3 33 March 2008 Setting Error Processing Ifyou selected one of the RECORDERS cont Sel ERR RCD Resp 1 Use the arrow keys to select how IGNORE HIGH the recorder will respond to a range error ignore go high or go low and press YES To continue setting error processing refer back to the Selecting Error Response step You may now do one of the following Seterror processing for the other channel by pressing NO until you return to the Programming Menu as shown on page 3 32 Referto another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key 3 34 Advanced Programming March 2008 Reconfiguring a Channel for a New Sensor If you decide to connect a different type of sensor to one
17. RCD A Zero Setup 1 Enter the zero value and press 20 0 YES Then press NO to return to the previous screen Repeat the two final steps to enter the span value You may now do one of the following Setup another recorder by pressing NO until you return to the Select Recorder step and then begin with the recorder selection step refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 for a menu map of the user program Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key Advanced Programming 3 5 March 2008 Setting Up the Communications Port The MMS 3 can transmit measurements and logged data to a serial printer or personal computer using the RS232 communications port You can select the baud rate report format and interval as described below Other serial port settings are set and cannot be changed 8 bit word length no parity e 1 stop bit flow control is not supported IMPORTANT For proper operation make sure the R 232 switch is set correctly see Connecting a Personal Computer or Printer in Chapter 1 of the Service Manual Press the PROG key to enter the user program Note f you have already entered the user program see Figure 3 3 on page 3 49 to navigate to the Port Menu Enter Passcode XXXX Enter the passcode Programming Menu 1 Use
18. Report The Message ID is always followed by one ASCII space The date of the report is shown in MM DD YY format The MMS 3 uses a zero as a column place holder so the date will always be eight characters long The date is always followed by one ASCII space The time of the report is shown in HH MM SS format Time is in 24 hour format The MMS 3 uses a zero as a column place holder so the time will always be eight characters long The time is always followed by one ASCII space The channel is a single digit from 1 to 6 and is the channel from which the displayed measurement was read The channel is always followed by a colon The modes or units are represented by an abbreviation Refer to Table 3 6 on page 3 24 for abbreviations The Mode Unit is always followed by an equals sign 2 Data is the actual measurement The number of digits and the position of the decimal point if any will vary with the magnitude and type of data see Table 3 6 on page 3 24 for mode units number formats Signed values will contain a leading plus or minus Unsigned values percent oxygen for example have no sign The data is always followed by two ASCII spaces Advanced Programming 3 23 March 2008 lt CR LF gt Mode Unit Oxygen Every record is terminated with a carriage return line feed pair ASCII 13 and 10 decimal OD and 0A hexadecimal Table 3 6 Print Out Symbols and Abbreviations Number Format Measurem
19. in kiloPascals absolute P mV KXK PX Pressure in millivolts Pressure circuit voltage in volts DC 3 24 Advanced Programming March 2008 Mode Unit Auxiliary Inputs Table 3 6 Print Out Symbols and Abbreviations cont Number Format Measurement Mode X1 VDC EX KKKA Auxiliary input 1 in volts X1 mA EXX KX Auxiliary input 1 in milliamperes x1 EXX KKK Auxiliary input 1 in user defined units X2 VDC EX KKKA Auxiliary input 2 in volts x2 mA LRN NRM Auxiliary input 2 in milliamperes x2 Other EXX KXK Auxiliary input 2 in user defined units VR VDC Channel card reference voltage GD VDC Channel card ground voltage Note Jn the formats presented above the plus minus symbol indicates that the data is signed and will be preceded by a plus or minus sign The number of decimal places indicated is for nominal values The instrument will maintain the number of digits by floating the decimal point to the right as the magnitude of the number increases DO NOT hard code the decimal points when using data acquisition software Advanced Programming 3 25 March 2008 Entering System Constants A system constant is a fixed value for moisture Kh temperature Kt or pressure Kp entered into the MMS 3 instead of using a live input For example if the process runs at a
20. on User Tables and then double click on the desired table The right side of the screen appears similar to Figure 4 8 below User Table Meter New Meter Iof ES Table Name Figure 4 8 Blank User Table Enter a name up to 13 characters for the table in the Table Name text box and enter up to 16 X and Y values in the appropriate columns The table now appears similar to Figure 4 9 below User Table Meter New Meter A ES Table Name First Table Figure 4 9 Completed User Table 4 When you have finished entering values click on Apply to apply the table immediately and on OK to confirm the table and close the window To return the window to its previous settings click on the Cancel button Programming with PanaView March 2008 Entering Saturation Constants To enter a saturation constant you must enter 1 to 6 data points to represent a curve of Cs saturation constant versus temperature For more information see Entering a Saturation Constant in Chapter 3 PanaView enables you to enter a saturation constant curve for each channel To enter a curve From the New Meter Browser option click on the desired communications port meter and channel From the Edit menu select the Properties option The Constant Saturation Table window appears as shown in Figure 4 10 below Enter up to six data points to establish a cu
21. passcode Refer to the end of this chapter for your default passcode Basic Programming March 2008 Displaying Measurements The MMS 3 begins displaying measurements immediately after power up It provides two lines in order to display measurements You may select the measurement mode for each line as described in the procedure below Since the display has a limited amount of space the MMS 3 uses abbreviations to represent the displayed measurement mode and units as shown in Table 2 3 on page 2 5 Press the MODE key to enter the Modify DSP Mode The MMS 3 can display six Press YES to Edit pages of measurements each showing two different parameters Use the numeric keys to enter the desired page and press YES Modify DSP Mode P1 Use the arrow keys to move the LINE1 LINE2 brackets to the desired line you want to edit and press VES Line 2 DSP Mode P1 Use the arrow keys to move the CH 1 CH2 brackets to the desired channel you want to display and press YES Select DSP Mode P1 Use the arrow key to move the 4H T P Auxth brackets to the measurement mode and press YES See Table 2 1 on page 2 4 for a list ofthe available measurement modes Basic Programming 2 3 March 2008 Displaying Measurements cont Table 2 1 Measurement Modes Display Abbreviation Measurement Mode O Oxygen Hygrometry Temperature Pressure Auxiliary 1 Auxiliary 2 User Funct
22. pour les DN 25 Article 5 section 3 qui concerne les pratiques et les codes de bonne fabrication pour l ing nierie du son Shannon July 1 2003 Ms y AE A Mr James Gibson DIRECTEUR G N RAL CE e LS EN 1809002 T V ESSEN Shannon ISO 9001 U S CERT DOC H2 August 2004 KONFORMITATS Sensing ERKLARUNG Wir Panametrics Limited Shannon Industrial Estate Shannon County Clare Ireland erkl ren in alleiniger Verantwortung daf die Produkte Moisture Image Series 1 Analyzer Moisture Image Series 2 Analyzer Moisture Monitor Series 3 Analyzer folgende Normen erf llen e EN 50014 1997 A1 A2 1999 e EN 50020 1994 e 1 G EEx ia IIC BASO1ATEX 7097 Baseefa 2001 Ltd EECS Buxton SK17 9JN UK e EN 61326 1998 Class A Annex A Continuous Unmonitored Operation e EN 61010 1 1993 A2 1995 Overvoltage Category II Pollution Degree 2 gem den Europ ischen Richtlinien Niederspannungsrichtlinie Nr 73 23 EG EMV Richtlinie Nr 89 336 EG und ATEX Richtlinie Nr 94 9 EG Die oben aufgef hrten Ger te und zugeh rige mitgelieferte Sensoren und Handhabungssysteme tragen keine CE Kennzeichnung gem der Druckger te Richtlinie da sie in bereinstimmung mit Artikel 3 Absatz 3 gute Ingenieurpraxis der Druckger te Richtlinie 97 23 EG f r DN 25 geliefert werden Shannon July 1 2003 p e E US IE Mr James Gibson GENERALDIREKTOR CE e LS ENIS09002 T V ESSEN Shannon ISO
23. saturation constant M Series Probe constant temp and saturation constant M H Kt T amp refer to page 3 28 for saturation constant Moisture and pressure MCF IG Moisture and pressure MCF NG TF Probe w pressure option TF H T amp P M Series Probe and auxiliary pressure input Mxx H and X1 P M Series Probe and pressure constant TF Probe w pressure option Mxx H and Kp P TF H T amp P M Series Probe and auxiliary pressure input Mxx H and X1 P M Series Probe and pressure constant Mxx H and Kp P Moisture and pressure PPMv NG TF Probe w pressure option TF H T amp P M Series Probe and auxiliary pressure input Mxx H and X1 P M Series Probe and pressure constant Mxx H and Kp P Advanced Programming 5 57 March 2008 Reconfiguring a Channel for a New Sensor cont Probe Type Table 3 11 Probe Types and Configurations Configurations Oxygen N A 96 Percent ppmv Parts per Million by Volume Hygrometry N A TF Three Function Probe Mxx M Series Probe Kh Constant Dew Point Temperature Pressure N A TF Three Function Probe Mxx M Series Kt Constant Temperature N A TF Three Function Probe X1 Auxiliary 1 X2 Auxiliary 2 Kp Constant Pressure Auxiliary 1 N A Current V Voltage Au
24. steady pressure that pressure is entered into the MMS 3 memory rather than using a pressure transmitter In addition you can multiply the ppm value by a constant for special purposes The default multiplier is 1 000 Note 7o enter a constant multiplier for the oxygen cell see Background Gas Correction Factors in Chapter 2 of the Service Manual You must use a current multiplier for oxygen if you are using a different background gas than the one for which the cell was calibrated IMPORTANT In order for the constant to work properly you must make sure you also configured the channel for a constant Kh Kt or Kp as described in Reconfiguring a Channel for a New Sensor on page 3 35 Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 2 on page 3 46 to navigate to the System Menu Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Programming Menu 1 Use the arrow keys to move the SYSTEM AUTOCALD brackets to SYSTEM and press YES Measurement Mode 1 You must now select the type of O H T P Auxib measurement the probe is capable of taking Use the arrow keys to move to the desired measurement mode and press YES See Table 3 7 on page 3 27 for a list of available measurement modes 3 26 Advan
25. to the desired percentage of the full scale recorder range and click on OK To trim the recorder outputs scroll the arrows to the right of the Zero and Span windows up or down until you reach the desired values and click on OK Note Fora complete discussion of testing and trimming recorder outputs refer to the sections Testing the Recorder Outputs and Trimming the Recorder Outputs in Chapter 2 of the Service Manual The screen returns to the Recorder Properties window a Test Recorder Test Percentage o x 100 125 Zero 10 000 m Spam 7000 ma Figure 4 5 Recorder Test Window Programming with PanaView March 2008 Programming Error 1 To program the MMS 3 for error handling click on the Errors Handling tab The screen appears similar to Figure 4 6 below 2 Enter the desired values for the low and high error settings in the appropriate text boxes 3 To program the meter s response to errors pull down the On Low Error list box and click on one of five choices Ignore error Go to high limit Go to low limit Hold last value Go to error value 4 Repeat this selection with the On High Error list box 5 Click on Apply to apply the changes immediately and on OK to confirm the changes and close the window To return the window to its previous settings click on the Cancel button Recorder Properties x
26. 00 2 000 Use the arrow keys to move the brackets to S N and press YES Enter the serial number and press YES Then press NO to return to the Curve Menu Use the arrow keys to move the brackets to CURVE and press YES Making sure the cursor is positioned below the sign enter a 1 for zero or 2 for span Press YES and then press the right arrow key Enter the mA value Press YES and press the right arrow key Enter the psig value Press YES Repeat the three previous steps to enter the remaining data You must enter the necessary data for zero and span You may now do one of the following Enter data for a different channel or type of sensor by pressing the NO key until you reach the Programming Menu and then refer to Entering Calibration Data for New Probes Sensors on page 3 39 Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key IMPORTANT You must configure a channel AND enter the necessary calibration data in order for a sensor to work properly March 2008 Entering Auxiliary Input Curve Data Aux Curve Menu 1 Use the arrow keys to move the S N HPTS CURVE brackets to AUX1 or AUX2 depending on where the sensor is connected and press YES Note S N is not available in this menu Aux Curve Menu 1 Usethe arrow keys to move the
27. 141D Chan 2 Aux2 mA Error Code MMS 3 Error Codes Table 3 4 Error Codes Displayed by MODBUS No Error No Data Pressure Fault User Div Zero No Probe No Cal Aux1 Fault User Math Out of Range Unknwn Probe Aux2 Fault User Missing Term Over Range Aux Fail Ref Fault User Extra Term Under Range Cal Error Gnd Fault User Missing Op Not Available No Channel ADC Fault User Extra Op No Communication Os Fault Fluid Low User Too Complex Error 10 Hygro Fault User Re Ent User Missing Left Parentheses No Reference Temp Fault User Invalid User Missing Right Parentheses Modbus RS485 The MMS 3 offers a standard RS232 port It is necessary to supply an Connection RS232 RS485 converter for the Modbus functionality Depending on the converter the RS232 from the MMS 3 is connected to the terminal marked RS232 on the converter The RS485 output from the converter can be connected directly to the user s DCS system point to point or to a multi drop system Advanced Programming 3 11 March 2008 Using Automatic Calibration The MMS 3 automatically calibrates itself Auto Cal at user selectable intervals Auto Cal compensates for any drift in the electronics GE Sensing recommends setting the Auto Cal interval to eight hours 480 minutes Set a smaller interval to Auto Cal more frequently if the MMS 3 is exposed to extreme temperatures or we
28. E device See Chapter 1 in the Service Manual for details on DTE DCE configuration 1 6 Features and Capabilities March 2008 User Program The MMS 3 has a user program that is accessed and controlled by its keypad and the four function keys The user program enables the user to enter the necessary probe data set up the LCD screen and control the operational features of the MMS 3 The MMS 3 stores this in battery backed RAM for up to five years even when power is off The MMS 3 user program consists of the following 12 main menus SYSTEM This menu enables the user to enter calibration and configurations data AUTOCAL To compensate for any drift in the electronics the user can program the MMS 3 to calibrate itself automatically at pre selected intervals USER This menu is used to enter a saturation constant which the MMS 3 requires to measure ppm in liquids If applicable this menu is also used to select the Enhanced Response option LOGGER In this menu the user can 1 program the MMS 3 to log data at pre selected time intervals and 2 access the logged data for viewing TEST This menu allows the user to test the alarm relays and the recorder outputs CONTRAST In this menu the user can adjust the contrast of the display screen to adapt to lighting conditions BACKLIGHT To maintain the life of the LCD backlight the user can program the electronics unit to turn the backlight off
29. GE Sensing amp Inspection Technologies Moisture Monitor Series 3 Panametrics Hygrometer Programming Manual Moisture Monitor Series 3 Panametrics Hygrometer Programming Manual 910 110PC March 2008 The Moisture Monitor Series 3 Hygrometer is a GE Panametrics product GE Panametrics has joined other GE high technology sensing businesses under a new name GE Sensing amp Inspection Technologies March 2008 Warranty Return Policy Each instrument manufactured by GE Sensing Inc is warranted to be free from defects in material and workmanship Liability under this warranty is limited to restoring the instrument to normal operation or replacing the instrument at the sole discretion of GE Fuses and batteries are specifically excluded from any liability This warranty is effective from the date of delivery to the original purchaser If GE determines that the equipment was defective the warranty period is one year for general electronic failures of the instrument one year for mechanical failures of the sensor If GE determines that the equipment was damaged by misuse improper installation the use of unauthorized replacement parts or operating conditions outside the guidelines specified by GE the repairs are not covered under this warranty The warranties set forth herein are exclusive and are in lieu of all other warranties whether statutory express or implied including warranties of merchant
30. IGHT CLK gt brackets to CLOCK and press YES Clock Menu 1 Use the arrow keys to move the SHOW SET brackets to the desired selection and press YES If you select SHOW Clock Menu 1 The time and date appear Press 12 14 06 01 1997 VES to return to the Programming Menu If you select SET Use the arrow keys to move the cursor and then enter the correct information The cursor automatically jumps to the next position When you are done making changes press YES to confirm your entry Then press NO to leave the CLOCK Menu and return to the Programming Menu You may now do one of the following Refer to another section and perform a different procedure Refer to the menu maps at the end of Chapter 3 to navigate through the user program Exit by pressing the RUN key Basic Programming 2 7 March 2008 Accessing System If you need to confirm the system information on your particular Information MMS 3 unit the user program includes a menu Syslnfo that supplies the serial number run time and boot device for your meter Press the PROG key to enter the user program Note f you have already entered the user program refer to the menu maps at the end of Chapter 3 to navigate to the Syslnfo Menu Programming Menu 1 Usethe arrow keys to move the 4 SysInfo brackets to Sysinfo and press VES System Information Use the arrow keys to move the PROGRAM UpTime brackets to the desired selection a
31. Million by volume O O ppb Parts Per Billion by volume O O HA Microamps Diagnostic Mode UA DVM Digital Voltmeter Diagnostic Mode O VDC C Dew Frost Point default F Dew Frost Point F DP C DP F K Dew Frost Point K Kelvin wl K R H Relative Humidity H ppMv Parts per Million of Water by Volume H ppMw Parts per Million of Water by Weight for liquids only H ppBv Parts per Billion of Water by Volume MCF IG Pounds of Water per Million Std Cubic Feet in Ideal Gas MCF NG Pounds of Water per Million Std Cubic Feet in Natural Gas ppMv NG Parts Per Million by Volume in Natural Gas Pw mmHg Vapor Pressure of Water in mmHg mmHg Pw Pa Vapor Pressure of Water in Pascals Pa EE E E DA E EEE EPE MH MH Diagnostic Model MH DVM Digital Voltmeter Diagnostic Mode VDC I C Degrees Celsius default Ko F Degrees Fahrenheit K Kelvin F K DVM Digital Voltmeter Diagnostic Mode TU VDC PSIg Pounds per Square Inch Gauge default PSIg Bars Bars mbs Millibars mm Hg Millimeters of Mercury Pas Pascal kPas KiloPascal v o D D o pMV Pressure in millivolts DVM Digital Voltmeter Diagnostic Mode VDC D X2 X2 X2 VREF Volts default Diagnostic Mode VR VDC GND Volts default Diagnostic Mod
32. S Key eevee PL era 2 2 Index ATEX COMPLIANCE Sensing We GE Infrastructure Sensing Inc 1100 Technology Park Drive Billerica MA 01821 4111 U S A as the manufacturer declare under our sole responsibility that the product Moisture Monitor Series 3 Analyzer to which this document relates in accordance with the provisions of ATEX Directive 94 9 EC Annex Il meets the following specifications C amp Il 1 G EEx ia IIC 20 C to 50 C 1180 BASO1ATEX7097 Furthermore the following additional requirements and specifications apply to the product e Having been designed in accordance with EN 50014 and EN 50020 the product meets the fault tolerance requirements of electrical apparatus for category ia e The product is an electrical apparatus and must be installed in the hazardous area in accordance with the requirements of the EC Type Examination Certificate The installation must be carried out in accordance with all appropriate international national and local standard codes and practices and site regulations for flameproof apparatus and in accordance with the instructions contained in the manual Access to the circuitry must not be made during operation Only trained competent personnel may install operate and maintain the equipment The product has been designed so that the protection afforded will not be reduced due to the effects of corrosion of materials electrical conductivity impact strength aging
33. S N fPTS CURVE brackets to PTS and press YES Enter Total PTS Enter the number of data points 2 and press YES Then press NO to return to the Curve Menu Note For linear devices only two data points are required a maximum of eight data points may be entered for other devices Each data point requires a current or voltage value with a corresponding scale value in the units you want to output Aux Curve Menu 1 Use the arrow keys to move the S N fsPTS CURVE brackets to CURVE and press YES mA VDC Units 1 Ifyou want to begin entering 2 40 000 0 000 data at the data point displayed press the right arrow key to move the bracket to X1 mA or V Otherwise enter the desired data point number Press YES and press the right arrow key mANDC Units 1 Enter the mA VDC value Press 2 41 000 0 000 VES and press the right arrow key mANDC Units 1 Enter the units value and press 2 1 000 20 000 YES Repeat the last three steps to enter the remaining data Advanced Programming 3 45 March 2008 Entering Auxiliary Input You may now do one of the following Curve Data cont Enter data for a different channel or type of sensor by pressing the NO key until you reach the Programming Menu and then refer to Entering Calibration Data for New Probes Sensors on page 3 39 Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3
34. a channel and measurement mode proceed to the CURVES selection step Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Programming Menu 1 Usethe arrow keys to move the SYSTEM AUTOCALD brackets to SYSTEM and press YES Measurement Mode 1 You must now select the type of O H T P Auxib measurement the probe is capable of taking Use the arrow keys to move to the desired measurement mode and press YES Refer to Table 3 12 on page 3 40 for a list of available measurement modes Advanced Programming 3 59 March 2008 Entering Calibration Data for New Probes Table 3 12 Measurement Modes Sensors cont Display Abbreviation Measurement Mode O Oxygen Hygrometry Temperature Pressure Auxiliary 1 AUX2 Auxiliary 2 CONSTANT PPMV PPMv Multiplication Factor System Menu 1 Usethe arrow keys to move the CURVES CONSTANT brackets to CURVES and press YES The remaining prompts depend on the type of sensor you are using Refer to one of the following sections to properly program your unit Entering Moisture Curve Data on page 3 41 Entering Oxygen Curve Data on page 3 43 Entering Pressure Curve Data on page 3 44 Entering Auxiliary Inputs Curve Data on page 3 45 Note You do n
35. ability and fitness for a particular purpose and warranties arising from course of dealing or usage or trade If a GE Sensing Inc instrument malfunctions within the warranty period the following procedure must be completed 1 Notify GE giving full details of the problem and provide the model number and serial number of the instrument If the nature of the problem indicates the need for factory service GE will issue a RETURN AUTHORIZATION number RA and shipping instructions for the return of the instrument to a service center will be provided 2 If GE instructs you to send your instrument to a service center it must be shipped prepaid to the authorized repair station indicated in the shipping instructions 3 Upon receipt GE will evaluate the instrument to determine the cause of the malfunction Then one of the following courses of action will then be taken fthe damage is covered under the terms of the warranty the instrument will be repaired at no cost to the owner and returned f GE determines that the damage is not covered under the terms of the warranty or if the warranty has expired an estimate for the cost of the repairs at standard rates will be provided Upon receipt of the owner s approval to proceed the instrument will be repaired and returned lii March 2008 EEE e re Table of Contents Chapter 1 Features and Capabilities EGG UGG a are nal E EEE 1 1 Electronics UE Rr Et e ee n a e
36. ather conditions Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 2 on page 3 48 to navigate to the Autocal Menu Programming Menu 1 Usethe arrow keys to move the SYSTEM AUTOCAL gt brackets to AUTOCAL and press YES Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Autocal Interval 1 Enter an Auto Cal interval 01 00 HH MM between 0 and 24 hours and press YES After you exit the user program the MMS 3 immediately performs Auto Cal The next time Auto Cal occurs will depend on the length of the time interval set as shown in the example below Example The MMS 3 establishes a fixed schedule beginning at Midnight using the interval specified to determine the times of subsequent Auto Cals For example if you enter a 90 minute time interval Auto Cal will occur 16 times per day 1 day 1440 minutes 90 minutes 16 The fixed schedule will be as follows 1 30 AM 9 1 30P 3 00 A 10 3 00P 4 30A 11 4 30P 6 00 A 12 6 00 P 7 30 A 13 7 30 P 9 00 AM 14 9 00 PM 10 30 AM 15 10 30 PM 12 00 PM Noon 16 12 00 AM Midnight lt lt lt lt X Z Z Z R EN Ox H des SN 3 12 Advanced Programming March 2008 Using Automatic Calibration cont If you set the 90 m
37. ced Programming March 2008 Entering System Constants cont Table 3 7 Measurement Modes Display Abbreviation Measurement Mode Q Oxygen Hygrometry Temperature Pressure Auxiliary 1 AUX2 Auxiliary 2 CNST PPMV PPMv Multiplication Factor System constants are not available for these measurement modes System Menu 1 Use the arrow keys to move the CURVES CONSTANT brackets to CONSTANT and press VES Const Dew Point C 1 Enter the constant value and 20 0 press YES Note The screen display varies depending on the measurement mode selected When the MMS 3 displays measurements that are using a constant it will insert or replace the first letter of the mode on the display with K For example the MMS 3 will display DP as KP dew point or H as KH You may now do one of the following To enter a constant for the other channel press NO until you return to the Programming Menu as shown on page 3 26 Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the NO key followed by the RUN key Advanced Programming 3 27 March 2008 Entering a Saturation Constant The MMS 3 requires a saturation constant in order to calculate parts per million by weight ppm in non aqueous liquids If the saturation constant of the process is unkno
38. channel menu click on the Recorders option and then on Recorder A or Recorder B The Recorder Properties window appears as shown in Figure 4 4 below 3 To set the recorder type pull down the Type list box and click on one of the three choices 0 to 20 mA 4 to 20 mA and 0 to 2 V 4 To set the recorder unit pull down the Sensor Class list box and click on the desired sensor Then pull down the Unit list box and select from the available units 5 To establish the input settings enter the desired values in the Zero and Span text boxes 6 Click on Apply to apply the changes immediately and on OK to confirm the changes and close the window To return the window to its previous settings click on the Cancel button im Recorder Properties General Errors Type O to 20 milli amps Input Settings Zero 110 Span 20 Recorder Unit Sensor Class H Unit DPC Cancel Apply 4 6 Programming with PanaView March 2008 Testing Recorder Outputs 1 To test the recorder outputs click on the Test button shown in the Recorder Properties window Figure 4 4 on page 4 6 A message appears This will suspend Recorder X on Channel X Are you sure you want to test this recorder Click on OK to continue The Test Recorder window appears as shown in Figure 4 5 below At the top slide the pointer
39. connector straight on not at an angle when the wiring is complete The M and TF Series Probes are connected to the analyzer with a special GE Sensing shielded cable Probes can be located up to 600 m 2000 ft from the MMS 3 consult GE Sensing for distances up to 1 200 m To measure pressure with a TF Probe the maximum cable length is approximately 152 m 500 ft Small electrical offsets especially with longer cables are possible and should be corrected as described in Performing an MH Calibration Test Adjustment in Chapter 1 of the Service Manual The standard Delta F Oxygen Cells are connected to the analyzer with a four wire shielded cable 22 AWG Oxygen cells with a range from O to 1 10 100 ppm or O to 0 5 5 50 ppm can be located up to 15 m 50 ft away from the analyzer All other oxygen cells can be located up to 91 m 300 ft away Consult GE Sensing for longer cable lengths The MMS 3 accepts either pressure transducers or pressure transmitters Most pressure transducers can be connected with a standard four wire shielded cable Most pressure transmitters are connected using either a two or four wire non shielded cable and can be either loop or self powered A personal computer or serial printer can be connected to the MMS 3 RS232 communications port using a standard serial cable The MMS 3 has a special switch that enables you to configure the unit as a Data Terminal Equipment DTE or a Data Communications Equipment DC
40. desired sensor type c A list of units appears Click on the desired unit 4 To set the alarm type click on the Trip Above or Trip Below radio buttons as desired 4 4 Programming with PanaView March 2008 Changing Alarm Settings cont 5 To determine the alarm values enter the Trip and Deadband values in the designated text boxes on the window For a definition of the Deadband value see Setting Up the Alarms in Chapter 3 To determine how the alarm will react when it encounters an error a Pull down the High list box under the On Error line b Then click on the desired action from the listing Ignore error Trip on error Reset on error or Hold on last error c Repeat the procedure for the Low list box To test the alarm click on the Test button Click on the Trip button to trip the alarm and on the Reset button to reset it Click on Apply to immediately apply the changes and on OK to confirm the changes and close the window To return the window to its previous settings click on the Cancel button Programming with PanaView March 2008 Changing Recorder You may also change the settings of a recorder attached to the Settings MMS 3 the input type zero and span values and how it performs error handling Setting Recorder Values 1 From the New Meter Browser option click on the desired meter and channel 2 From the
41. dow to its previous settings click on the Cancel button instead of the OK button w Meter Display 5 New Meter 1 E Channel 1 E Channel 2 TIC EH ET EP 2 PSIg Bars PSIg mbs mmHg Palg kPa g P mY P DVM EX Aux1 Y BE Aux2 E Vref Meter is currently displaying Unassign page 2 EE Gnd E3 User Functions Set Active Page n HOS Figure 4 2 Matrix Display After Programming Programming with PanaView 4 3 March 2008 Changing Alarm Settings PanaView enables you to set or change alarm settings for the MMS 3 You can determine which sensor and unit serve as the alarm the trip and deadband values and the alarm s reaction to errors 1 From the New Meter Browser option pull down the desired meter and click on the desired channel 2 From the channel menu click on the Alarms option and then on Alarm A or Alarm B The Alarm window appears as shown in Figure 4 3 below ia Alarm on Channel 2 General m Alarm Type Values Trip Above Trip Value o C Trip Below Deadband Value o Current State On Error Reset High Ignore errors Test Low Ignore errors y r Alarm Unit Sensor None v sa tomo Figure 4 3 Alarm Programming Window 3 To set the alarm sensor and unit a Pull down the Sensor list box in the lower part of the window b Then click on the
42. dure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key Advanced Programming 5 7 March 2008 Setting Up Modbus Communications The MMS 3 can transmit stored data and displayed readings to a remote ANSI terminal or a personal computer by using an external RS232 to RS485 converter Any MMS 3 with software version MMS3 STD 003 J and above has been modified to report fundamental hygrometry data using MODBUS The meter can transmit the ten essential measurements using the MODBUS Read Holding Register function To program the MMS 3 Press the PROG key to enter the user program Note f you have already entered the user program see Figure 3 3 on page 3 49 to navigate to the Port Menu Enter Passcode XXXX Enter the passcode Programming Menu 1 Usethe arrow keys to move the PORT ALARMS K brackets to PORT and press YES Port Menu 1 Usethe arrow keys to move the BAUD FORMAT brackets to FORMAT and press YES Format Menu Use the arrow keys to select PRINTER PANALINK MODBUS MODBUS and press YES Note The MMS 3 will display the prompt Enter Node ID for selection of a server slave address Enter Node ID 1 Enter a number between 1 and 1 247 Press NO to exit the Node ID menu and again to exit the FORMAT menu The FORMAT and BAUD options appear on the same level of the programming hierarchy but the commun
43. e The MH value is the moisture sensor s response value and is the value which is recorded during calibration Basic Programming 2 5 March 2008 Setting the Backlight The MMS 3 has a backlight timer which is provided with battery Timer powered units to preserve battery power and prolong the life of the LCD Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note Ifyou have already entered the user program refer to the menu maps at the end of Chapter 3 to navigate to the Backlight Menu Programming Menu 1 Usethe arrow keys to move the d BACKLIGHT brackets to BACKLIGHT and press YES Backlight On Time 1 Enter the desired time interval 00 05 HH MM and press YES If you do not want to use the backlight enter O zero You may now do one of the following Refer to another section and perform a different procedure Refer to the menu maps at the end of Chapter 3 to navigate through the user program Exit by pressing the RUN key 2 6 Basic Programming March 2008 Viewing or Setting the Clock and Calendar Use the steps below to view or set the clock and calendar Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program refer to the menu maps at the end of Chapter 3 to navigate to the CLOCK Menu Programming Menu 1 Usethe arrow keys to move the 4 BACKL
44. e Output 3 23 Entering System Constants 3 26 Entering a Saturation Constant 3 28 Using Computer Enhanced Response 3 30 Setting Error Processing 3 32 Reconfiguring a Channel for a New Sensor 3 35 Entering Calibration Data for New Probes Sensors 3 39 Loading New Software 3 47 March 2008 Introduction Setting Up the Alarms Now that the MMS 3 is running and the screen is set up you may want to use the other operational features included in this chapter see the previous page for the list and locations of those features The MMS 3 can be equipped with an optional high and low alarm relay for each channel Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 3 on page 3 49 to navigate to the Alarms Menu Programming Menu 1 Use the arrow keys to move the 4 ALARMS gt brackets to ALARMS and press YES Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Select Alarm 1 Use the arrow keys to move the A B brackets to the desired alarm A or B and press YES
45. ecorder Sektings sedes ausrechnen CO ea A E 4 6 Setting Recorder Valdes cde gr tre en DP a Cn DOE Pe a NI At 4 6 Testing Recorder Output mae ola 4 7 Programming Error Handling hadas ntc Cn ida cot as duda DB 4 8 Programming User FUNCIONS ara 4 9 Entering User Hale ar e de eere aude rca po d is 4 11 Entering Saturation Constants 0 0 ra cence esee en 4 12 Checking the Battery and Backlight emas pipa t Eoo a a b e aa 4 13 vi Chapter 1 Features and Capabilities Introduction ass casas aa a a el 1 1 Electronics Unit ssa sen 1 1 PrODES S dA ru vii ns do E ors ea 1 3 Cabin ss seco o rete ee a ee ACAD Rd a SU Fert 1 6 User Programs sua o eee PE e eet a 1 7 March 2008 Introduction Electronics Unit The GE Sensing Moisture Monitor MMS 3 is a one or two channel analyzer designed to measure dissolved moisture concentration in gases and non aqueous liquids and dissolved oxygen concentration in gases A microprocessor based instrument the MMS 3 combines hardware and software to make various measurements The user connects the needed inputs moisture probes pressure transmitters oxygen cells etc to the back panel of the electronics unit using the appropriate cables Typically the user installs moisture probes and oxygen cells into the process using a sample system that is specifically designed for the application The sample system delivers a sample of the process gas or liquid to the probes The probes then
46. ent Pressure measurement is a necessary input for conversion to certain moisture parameters such as parts per million by volume water vapor in a gas The MMS 3 can use any pressure transmitter with a 0 4 to 20 mA or 0 to 2 V output Additionally constant temperature and pressure can be programmed into the MMS 3 if these process conditions are constant Temperature measurement is a necessary input for conversion to certain moisture parameters such as parts per million by weight water vapor dissolved in a liquid It is also necessary so maximum temperature pressure conditions are not exceeded 1 4 Features and Capabilities March 2008 Delta F Oxygen Cell The MMS 3 standard oxygen measurement probe is the Delta F Cell Overall oxygen content range measured using this cell is from O to 25 You may choose from seven standard oxygen ranges The lowest standard range is O to 1 10 100 ppm the highest standard range is O to 25 oxygen An ultra low range sensor that covers 0 500 ppb and is sensitive to less than 5 ppb is also available The MMS 3 can also accept oxygen inputs from other GE Sensing oxygen sensors using the auxiliary inputs If your application has a high concentration of acid forming components GE Sensing supplies a STAB EL option for the Delta F Cell The STAB EL option is specially designed to effectively neutralize these components from the sample gas stream The Delta F Cell is available in a general purpose model wi
47. ent Mode O 96 O PPMv L LAA Oxygen concentration in percent Oxygen concentration in parts per million O uA EXXX ARA Oxygen cell current in micro amperes O VDC EX KKKA Oxygen circuit voltage in volts DC Dew point in degrees Celsius Dew point in degrees Fahrenheit H KRA K Dew point in Kelvin Relative humidity in percent H HPMv ARA Parts per million of water by volume H HPBv H ppMw ARALAR ARALAR Parts per billion of water by volume Parts per million of water by weight H llbs X AXKM Pounds of water per million standard cubic feet of an ideal gas H Nibs H NPMv X AXKM KAM XMM Pounds of water per million standard cubic feet of natural gas Parts per million of water by volume in natural gas H MH X AXKM GE Sensing moisture calibration unit for M and TF Series probes H VDC Temperature X RRR Moisture circuit voltage in volts DC T C Temperature in degrees Celsius T F Temperature in degrees Fahrenheit T K Temperature in Kelvin T VDC Pressure Temperature circuit voltage in volts DC P PSIg P Bars X AXKM Pressure in pounds per square inch gage Pressure in bars absolute P mbs Pa PATA TANTAS Pressure in millibars P mmHg RAR XMM Pressure in millimeters of mercury absolute P Pg KXK Pressure in Pascals absolute P kPg RRR KX Pressure
48. for the Pressure Equipment Directive as they are supplied in accordance with Article 3 Section 3 engineering practices and codes of good workmanship of the Pressure Equipment Directive 97 23 EC for Shannon July 1 2003 p m As ear CE sound DN 25 Mr James Gibson GENERAL MANAGER CE e T V ESSEN LS EN 1809002 Shannon ISO 9001 U s CERT DOC H2 August 2004 DECLARATION Sensing DE CONFORMITE Nous Panametrics Limited Shannon Industrial Estate Shannon County Clare Ireland d clarons sous notre propre responsabilit que les Moisture Image Series 1 Analyzer Moisture Image Series 2 Analyzer Moisture Monitor Series 3 Analyzer r latif cette d claration sont en conformit avec les documents suivants e EN 50014 1997 A1 A2 1999 e EN 50020 1994 e 1 G EEx ia IIC BASO1ATEX7097 Baseefa 2001 Ltd EECS Buxton SK17 9JN UK e EN 61326 1998 Class A Annex A Continuous Unmonitored Operation e EN 61010 1 1993 A2 1995 Overvoltage Category II Pollution Degree 2 suivant les r gles de la Directive de Compatibilit Electromagn tique 89 336 EEC de la Directive Basse Tension 73 23 EEC et d ATEX 94 9 EC Les mat riels list s ci dessus ainsi que les capteurs et les syst mes d chantillonnages pouvant tre livr s avec ne portent pas le marquage CE de la directive des quipements sous pression car ils sont fournis en accord avec la directive 97 23 EC des quipements sous pression
49. he status of the log as described in Viewing Logged Data and Status on page 3 21 Referto another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key 3 20 Advanced Programming March 2008 Viewing Logged Data and Status Data Logging 1 Use the arrow keys to select SETUP VIEW VIEW and press YES an View Data Log Use the arrow keys to move the STATUS DATA brackets to one of the selections and press YES If you selected STATUS Storage Internal The log status will display each of the following screens for two seconds before returning to the Bytes Free 65269 Data Logging menu Bytes Used 839 Records 78 Rem 23 46 44 To view data refer back to the View Data Log option above in the Data Logging menu If you are done skip to page 3 22 If you selected DATA Searching The MMS 3 displays data similar to the following Log Started at 10 3 00 14 33 TIME CH1 02 14 36 55 ERRO E w 6 et B o o E 5 da S G lt w et 3 lt lt z o e erui Use the arrow keys to scroll to the desired measurement parameter to view e g temperature oxygen Use the 1 key to view the next measurement taken at the specified interval e g move from the measurement logged at 17 35 to the measurement logged at 17 36 Use the 3
50. he term probe includes devices such as moisture sensors pressure transducers and oxygen cells Although users can supply their own probes for certain measurements GE Sensing provides the following standard probes to make moisture temperature pressure and oxygen measurements Moisture M Series moisture and temperature in gases and liquids Three Function TF Series moisture temperature and pressure in gases and liquids Delta F Cells oxygen measurement in gases The most commonly used probes are discussed in more detail below M Series and TF Moisture The M Series and TF Series probes are very similar Both probes use Probes GE aluminum oxide sensors to measure moisture and thermistors to measure temperature the thermistor is optional The TF Series however has an optional built in strain gage type pressure transducer The sensor assemblies are secured to a probe mount and are usually protected with a sintered stainless steel shield TF 9 probes typically do not have a shield Other types of shields are available See Figure 1 2 below and Figure 1 3 on page 1 4 When using an M Series probe a separate pressure transmitter is required if in line pressure measurement is needed The MMS 3 can use any pressure transmitter with a 0 4 to 20 mA and or a 0 to 2 V output Alternatively the user can enter fixed values for temperature and pressure into the MMS 3 memory if the process conditions are constant
51. ication mode MODBUS must be set before selection of its transmission speed 3 8 Advanced Programming March 2008 MODBUS Register Map Addresses are tabulated in Table 3 3 below in hexadecimal notation Register numbers in decimal are equal to the address plus one Use the most significant word MSW as the register number for measurement values which are IEEE 754 floating point representations 32 bits transmitted using a pair of 16 bit registers Error codes are integers contained in a single register Table 3 4 on page 3 11 Table 3 3 MODBUS Register Map 1 0x0000 Chan 1 Oxygen 2 0x0001 Chan 1 Oxygen 3 0x0002 Chan 1 Oxygen Error Code 4 5 0x0003 Chan 2 Oxygen 0x0004 Chan 2 Oxygen 0x0005 Chan 2 Oxygen Error Code 0x0018 Chan 1 Oxygen PPM 0x0019 Chan 1 Oxygen PPM 0x001A Chan 1 Oxygen PPM Error Code 0x001B Chan 2 Oxygen PPM 0x001C Chan 2 Oxygen PPM LSW 0x001D Chan 2 ey PPM Error Code 0 32767 0x0400 Dew Point C 0x0401 Dew Point C 0x0402 Dew Point Error Code 0x0403 Dew Point C 0x0404 Dew Point C 0x0405 Dew Point Error Code 2049 0x0800 Chan 1 Temperature C MSW 2050 0x0801 Chan 1 Temperature C LSW 0x0802 Chan 1 Temperature Error Code 0x0803 Chan 2 Temperature C 0x0804 Chan 2 Temperature C 0x0805 Chan 2 Temperature Error Code
52. ies see the PanaView User s Manual 910 211 IMPORTANT Before attempting to display or change programming with the PC be sure to install PanaView as described in Chapter 1 of the PanaView User s Manual 910 211 PanaView enables you to change the measurements on the matrix display For example through the PC you can switch a line from its original programming of measuring oxygen in parts per million to new programming of measuring pressure at psig or leave the line entirely blank To change meter programming 1 From the File menu click on the New Meter Browser option 2 From the network tree click on the desired communications port COM 1 etc and meter 3 From the expanded tree click on the Display option A list of two channels appears Clicking on either channel opens the list of modes temperature hygrometry oxygen etc and display units currently assigned for that channel 4 Double clicking on any channel opens the Meter Display window shown in Figure 4 1 on page 4 2 Each individual blue window shows the mode and unit measured in the corresponding window on the MMS 3 with the assigned channel number in the upper left corner A line below indicates which page the meter is currently displaying 5 To scroll to a particular page click on the left or right pointer buttons at the bottom of the window Note While each window shows the sensor and units measured you must click on Text D
53. ile menu and select Send File 10 Select the XMODEM transfer protocol 11 Select the file to send the file that was saved to the PC hard drive The File transfer will commence Once the file is successfully transferred the meter will reboot and load the new software Note Once the software is loaded into the MMS 3 it will be necessary to reprogram the configuration data references recorders alarms logs etc see the previous sections in this manual After reprogramming is complete the MMS 3 is ready for operation Advanced Programming 3 47 March 2008 PROG Enter passcode Refer to Figure 3 3 1 1 l SYSTEM AUTOCAL LOGGER Enter the autocal Measurement interval in hours and minutes Limit 24 hrs ns AR Mode STORAGE SETUP Create Log La d E SAT CONST ENHANCED A B No STATUS DATA Sat Constant Curve Records X Log Started at FO Cycle Bytes Used XX MM DD YY HH MM pod NO YES fEytes Used XX EE Bytes Free XXX Time CHX XXX N This option appears Bytes Free XXX o Rem XX hrs Xmin HH MM XXX only when available Rem XX hrs X min I I CONFIG CURVES CONSTANT The following options depend on The following options depend on The following options depend on the measurement mode selected the measurement mode selected the measurement mode selected
54. inute Auto Cal interval at 6 10 p m the next Auto Cal will occur at 7 30 p m excluding the Auto Cal performed when first leaving the Autocal Menu If you enter a time interval that is not evenly divisible into 1440 minutes 1 day the MMS 3 rounds up to the next acceptable interval You may now do one of the following Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key Advanced Programming March 2008 Checking the Battery Status If your MMS 3 has the battery pack you should periodically monitor the amount of charge the battery has left as described below Disconnect the AC power Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 3 on page 3 49 to navigate to the Test Menu Programming Menu 1 Use the arrow keys to move the TEST CONTRASTP brackets to TEST and press YES Test Menu 1 Use the arrow keys to move the BATTERY brackets to BATTERY and press YES Battery Test Use the arrow keys to move the STATUS RdChgTime brackets to STATUS and press YES Battery Status v The MMS 3 alternates two XX XX Press YES displays showing the battery voltage and how much longer the battery will operate in minutes Run Time Left min XXX Advanced Progra
55. ion Volt Reference GND Signal Ground User functions are available only through PanaView software For more information refer to Chapter 4 When selecting a measurement mode please remember that some measurement modes require multiple inputs For example to display ppm you need a moisture and pressure input Table 2 2 below shows a list of measurement modes that require multiple inputs and what you need to display them If the MMS 3 displays No Data you may have to reconfigure the channel Refer to Reconfiguring a Channel for a New Sensor on page 3 35 Table 2 2 Measurement Modes and Required Inputs To measure You need the following inputs RH Temperature and moisture Moisture and pressure Moisture temperature and saturation constant data PPB Moisture and pressure MCF IG Moisture and pressure MCF NG Moisture and pressure PPMy NG Moisture and pressure Select HYGRO Unit Li Use the arrow keys to move the DP C DP Fb brackets to the measurement units and press YES Repeat this procedure to set up the other line When you are done press RUN Basic Programming March 2008 Selected Meas Mode Hygrometry Temperature Pressure Auxiliary 1 Auxiliary 2 Volt Reference Signal Ground Table 2 3 Measurement Modes and Units for the MMS 3 Displayed Description of Units Meas Mode Percent Oxygen default Displayed Units ppm Parts Per
56. isplay from the Output menu or view the MMS 3 screen to see the actual measurements at any given time Programming with PanaView 4 1 March 2008 Changing Measurement To change meter programming Modes and Units cont 1 Click on the window to be changed The selected window turns red 2 Click on the desired meter on the network tree on the left of the programming window The tree expands to show a list of available sensors d Click on the desired sensor and the tree expands further to show a list of available units b Double click on the unit and the MMS 3 reassigns the selected box on the MMS 3 and on the Matrix Display screen c To unassign a mode and unit without assigning a different sensor click on the desired window and then on Unassign LM Meter Display SK New Meter E Channel 1 Channel 2 Meter is currently displaying Unassign page 2 Set Active Page Page 2 Figure 4 1 The Meter Display Window 4 2 Programming with PanaView March 2008 Changing Measurement Figure 4 2 below shows a typical change on the PC screen from Modes and Units cont O2 ppm shown in Figure 4 1 on page 4 2 to PSIg Note For an explanation of unit abbreviations see the Measurement Modes and Units table in Chapter 2 3 Click Apply to apply the change immediately and continue programming and OK to confirm the change and close the window Note 7o return the win
57. justs to line voltages from 95 to 260 VAC and a portable battery pack optional After making electrical connections as described in Chapter 1 of the Startup Guide press the ON switch to power up the MMS 3 IMPORTANT For compliance with the EU s Low Voltage Directive IEC 1010 this unit requires an external power disconnect device such as a switch or circuit breaker The disconnect device must be marked as such clearly visible directly accessible and located within 1 8 m 6 ft of the MMS 3 The power line is the main disconnect device Caution Do not operate the Delta F Oxygen Cell for extended periods of time at oxygen concentrations that are over range Trace and low percent range sensors may be damaged if exposed to high levels of oxygen such as air for long periods 1 hour while the MMS 3 is on If exposure is unavoidable either disconnect the oxygen cell from the MMS 3 or equip the sample system with a valve that allows the cell to be switched to purge gas The MMS 3 normally shows a series of messages that indicate it is functioning normally and then begins displaying data Basic Programming 2 1 March 2008 Using the Keypad and Passcode Key Functions Passcode Use the following sections to become familiar with the key functions and discover the passcode number you will need to access the user program The function keys to the right of the keypad are used in the following manner MODE
58. key to scroll to the previous measurement recorded at the specified interval e g move from measurement logged at 4 01 to the measurement logged at 4 00 Press NO to end viewing data To view the status refer back to Step 2 If you are done proceed to page 3 22 Advanced Programming 3 21 March 2008 Viewing Logged Data and You may now do one of the following Status cont ndicate how to store logged data as described in Storing Logged Data on page 3 17 Setup another log as described in Setting up a Log on page 3 18 Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key 3 22 Advanced Programming March 2008 Description of a Sample Output Message ID Date Time Channel Mode Unit Data Figure 3 1 below shows a typical data record Each record displays message ID date time channel mode unit data and carriage return Message ID Channel Mode Unit Date Time Data Y D 06 1 97 11 50 07 1 DP C 18 0 1 T C 35 9 lt CR LF gt Carriage Return Figure 3 1 Record Sample Note The length of the line depends on how many characters your screen has per line or the width of the page Every record begins with the Message ID that consists of an asterisk and the report type D denotes a Display Matrix report and L denotes a Log
59. le your applications should have a reasonably constant flow rate and final dew point have a minimum flow rate of one standard cubic foot per hour SCFH operate at atmospheric pressure 0 psig havean actual moisture content dew frost point or wetter of 85 C Allow the sensor to reach equilibrium at ambient moisture levels before being exposed to the dry gas Exposing the sensor to dew points of 5 to 10 C for ten minutes will enable the sensor to reach equilibrium Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program refer to Figure 3 2 on page 3 46 to navigate to the User Menu Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Programming Menu 1 Use the arrow keys to move the USER LOGGERD brackets to USER and press YES User Menu 1 Use the arrow keys to move the 4 ENHANCED brackets to ENHANCED and press YES 3 30 Advanced Programming March 2008 Using Computer Enhanced Response cont Enhanced Response 1 Use the arrow keys to move the NO YES brackets to the desired selection and press YES Press the RUN key and wait for the MMS 3 to begin displaying measurements Abruptly expose the sensor to dry gas IMPORTANT You must enable Computer Enhanced Response before you exp
60. le memory will be filled The MMS 3 has a status screen that lists the number of records bytes free bytes used and the remaining hours and minutes the log will run before running out of memory Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 2 on page 3 46 to navigate to the Logger Menu Programming Menu 1 Usethe arrow keys to move the USER LOGGER brackets to LOGGER and press YES You can do one of the following Indicate how to store logged data as described in Storing Logged Data on page 3 17 Select measurements you want to log as described in Setting Up a Log on page 3 18 View logged data or the status of the log as described in Viewing Logged Data and Status on page 3 21 Exit by pressing the RUN key 3 16 Advanced Programming March 2008 Storing Logged Data Data Logging 1 Use the arrow keys to select Select Storage 1 Use the arrow keys to select A A B for internal storage or B for a PCMCIA card and press YES Bytes Free 65269 Two displays briefly appear Bytes Used 839 before the program returns to the Data Logging menu Records 78 Rem 23 46 44 You may now do one of the following Set up a log as described in Setting up a Log on page 3 18 View logged data or the status of the log as described in Viewing Logged Data and Status on page 3 21 Refer to anothe
61. mming March 2008 Checking the Battery Status cont When the battery voltage reads 12 0 Volts the battery is fully charged and will supply approximately 480 minutes 8 hours of power 11 4 Volts the MMS 3 displays the low battery message refer to Recharging the Battery Pack in Chapter 2 of the Service Manual 10 9 Volts the MMS 3 will shut down refer to Recharging the Battery Pack in Chapter 2 of the Service Manual Note Continuous use of the backlight and alarms shortens the battery life by 1 2 hours from the estimated battery life displayed on the screen Press YES to proceed You may now do one of the following Recharge the battery as described in Recharging the Battery Pack in Chapter 2 of the Service Manual Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key Advanced Programming March 2008 Setting Up the Data Logger The MMS 3 has a data logging feature that enables you to internally store and view data Data is logged at user selected time intervals and is stored in the unit s SRAM memory or in an optional PCMCIA card You may choose up to twelve 12 parameters to log at a time Since a fixed amount of memory is assigned to data logging the more parameters you select and the more frequent the time interval the sooner the availab
62. n ac ond eh tere M a ao 1 1 Sire cT I e o Ai AS tnu A pd ae 1 5 M Series and TF Moisture Probes RII e 1 3 Pressure Transmitter set etn e ve hewn ala cat A are Da tuo eden 1 4 Delta FORCER re scd hint t d e A e Se ON ee 1 5 CAI cette ar Dies seele 1 6 M Series and TF Series DrODes I I e 1 6 Delta ere Le Se cet Sid et ceto rt rer et 1 6 Pressure SENSORS n b eet rete a ets es eR e EU 1 6 RS232 Communications PO a Ta ccc e 1 6 User Progra aaa EM 1 7 Chapter 2 Basic Programming sle Ie PROC CUPS ES ed ccs co taps tux ei tout ule a io A Hate 2 1 Rowerlhg pz uus teer t epe etie dest A erede e ptit 2 1 Wsing the Keypad and Passcode ius cec daret nas coule ER EEE eves CRE 2 2 Displaying Measurements Zr ihm a ssec MEN IS ua e ene MCA a Us Me 2 3 Setting the Backlight Timer near oM p pit na 2 6 Viewing or Setting the Clock and Calendar n n sese 2 7 Accessing Stel ORA BIO trascendencia e ES CORE a e 2 8 March 2008 EEE Table of Contents cont Chapter 3 Advanced Programming WIROCIUCTION fiesta Re ee ne ER CRER RN 3 1 Settna UP Tae AIMER ee e e IR Br EA RR ER e AL 3 1 Setting Up The R COFBIS o e o TR ba I bk HET ent 3 4 Setting Up the Communications Port unse nd ea 3 6 Setting Up Modbus COMMUNICATIONS ccu bes sec ae DO een EAD Rua 3 8 MODBUS Register VOD ee eee eaa 3 9 MISES ele a S ecc e Ete RENE e eeu Aue omm rd xg Ui 3 11 Mogdbus Rs495 Connection user P a oe bec Rs 3 11 Una Automated 21 1 DEOITIOEIG oos not tute
63. nd press YES If you select PROGRAM Code MMS3 STD 003C The program code and Mfg 9 21 00 manufacturing date appear followed by the serial number and PCI number The program then returns to the Sysinfo menu If you select UpTime Up Time 0 Days The screen briefly displays the 5 Hrs 36 Min time the MMS 3 has run since it was turned on and then returns to the SysInfo menu If you select BootDevice The screen briefly displays the Flash type of boot device installed and then returns to the SysInfo menu 2 8 Basic Programming March 2008 Accessing System You may now do one of the following Information cont Refer to another section and perform a different procedure Refer to the menu maps at the end of Chapter 3 to navigate through the user program Exit by pressing the RUN key Basic Programming 2 9 Your passcode is 2719 Please remove this page and put it in a safe place for future reference Chapter 3 Advanced Programming Introduction aus en a 3 1 Setting Up the Alarms a dai so en e ay 3 1 Setting Up the Recorders e e meten e 3 4 Setting Up the Communications Port 3 6 Setting Up Modbus Communications 3 8 Using Automatic Calibration 3 12 Checking the Battery Status 3 14 Setting Up the Data Logger 3 16 Description of a Sampl
64. of the channels of your unit you must reconfigure that channel For example if you are using a moisture probe on channel 1 and later decide to connect an oxygen cell you must tell reconfigure the MMS 3 that you have changed the sensor Note Jf you are using a probe capable of multiple inputs e g TF probe or using more than one input including a constant you must configure the channel to measure all the possible inputs Refer to the Multiple Input Instructions highlighted in this procedure Note f you are already in the System Menu proceed to the Measurement Mode step Press the PROG key to enter the user program Enter Passcode XXXX Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Enter the passcode Programming Menu 1 Usethe arrow keys to move the SYSTEM AUTOCALD brackets to SYSTEM and press YES Measurement Mode 1 Select the desired measurement O H T P Aut mode and press YES See Table 3 9 below for a list of available measurement modes Table 3 9 Measurement Modes Measurement Mode Display Abbreviation O Oxygen H Hygrometry T Temperature P Pressure AUX1 AUX CNST PPMV Auxiliary 1 Auxiliary 2 PPMv Multiplication Factor Advanced Programming 5 35 March 2008 Reconfiguring a Channel for a New Sensor cont
65. on page 3 49 to navigate through the user program Exit by pressing the RUN key IMPORTANT You must configure a channel AND enter the necessary calibration data in order for a sensor to work properly 3 46 Advanced Programming March 2008 Loading New Software At some point a new version of the MMS 3 operating software may be released To update your system use the following guidelines 1 Record all of the setup configuration calibration and reference information from the MMS 3 and transfer required logs to a PC IMPORTANT All of the settings will be lost when the code is updated Any logs will also be erased 2 Obtain the new software file with a cod extension and save the file to your PC hard drive 3 Set up the MMS 3 with an RS232 cable connected to a COM port most likely COMI on a PC having a communications program like Hyperterminal See Connecting a Personal Computer or Printer in Chapter 1 of the Service Manual 4 Start the communications program on the PC and select the COM port with the connection to the MMS 3 5 Set the following information Baud Rate 19200 Data Bits 8 Parity none Stop Bits 1 Flow Control none 6 Turn on the power to the MMS 3 7 Press the 0 zero key on the MMS 3 Note The display will indicate a message similar to Reload Flash via RS232 Y N 8 Press the YES key on the MMS 3 9 Using the PC communications program choose the Transfer f
66. or has been programmed For more details on signal and calibration errors refer to Signal Error Description and Calibration Error Description in Chapter 2 of the Service Manual You can program separate actions for low and high range errors for the alarm relays and recorder outputs The actions are independently programmable for each channel Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 2 on page 3 46 to navigate to the System Menu Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Programming Menu 1 Use the arrow keys to move the SYSTEM AUTOCALD brackets to SYSTEM and press YES 3 32 Advanced Programming March 2008 Setting Error Processing cont Measurement Mode O IH T P Aux You must now select the type of measurement the probe is capable of taking Use the arrow keys to move to the desired measurement mode and press VES See Table 3 8 below for a list of available measurement modes Table 3 8 Measurement Modes Display Abbreviation Measurement Mode O Oxygen H Hygrometry T Temperature P Pressure AUX1 Auxiliary 1 AUX2 Auxiliary 2 CNST PPMV System Menu 1 CONSTANT ERROR Sel ERROR Type 1 LoRange
67. ose the sensor to dry gas The MMS 3 must see all the dry down in order to make an accurate calculation When you activate Computer Enhanced Response for a channel an EH replaces the H as the measurement mode The MMS 3 will display a reverse video E next to the channel number during dry down The reverse video E will change to a regular E when the MMS 3 determines the final value You may now do one of the following Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key Advanced Programming 3 31 March 2008 Setting Error Processing The MMS 3 provides Error Processing that enables you to specify how the recorders and alarms will respond to low and high range errors Low and high range errors occur when an input signal that is within the capacity of the analyzer exceeds the calibration range of the probe The MMS 3 displays an UnderRng message for low range errors and an OverRng message for high range error Refer to Range Error Description in Chapter 2 of the Service Manual for more details on range errors The MMS 3 outputs will also respond to signal and calibration errors When a signal error occurs the outputs will respond in the same manner as the high range error has been programmed When a calibration error occurs the outputs will respond in the same manner as the low range err
68. ot have to enter a temperature curve 3 40 Advanced Programming March 2008 Entering Moisture Curve Data MH Curve Menu 1 Use the arrow keys to move the S N PTS CURVE brackets to S N and press YES Probe Serial Enter the serial number and press H 123456 YES The probe serial number is engraved on the probe mount Then press NO to return to the Curve menu MH Curve Menu Use the arrow keys to move the S N fPTS CURVE brackets to PTS and press YES Enter Total PTS Enter the total number of data 14 points 1 to 16 and press YES Refer to the Calibration Data Sheet for the number of data points Then press NO to return to the Curve menu MH Curve Menu Use the arrow keys to move the S N HPTS CURVE brackets to CURVE and press YES If you refer to your Calibration Data Sheet you will notice that the data points begin numbering at O zero therefore the MMS 3 displays the selected number of data points you entered Step 4 minus 1 DP C MH 1 If you want to begin entering 12 40 0 0 0000 data at the data point displayed press the right arrow key to move the bracket to DP C Otherwise enter the desired data point number Press YES and press the right arrow key Advanced Programming 3 41 March 2008 Entering Moisture Curve Data cont DP C MH 1 Enter the corresponding dew 12 420 0 0 0000 point Press VES and press the right arrow key
69. peat the last three steps to enter all the information for each data Constant cont point maximum of six points Enter the next data point number you want to enter over the present data point number and press the right arrow key When you do this the T C and Cs values will display values of the current saturation constant curve This indicates you are ready to begin entering information for the selected data point You may now do one of the following To enter a saturation constant for the other channel press NO until you return to the Programming Menu on page 3 28 Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the NO key followed by the RUN key Advanced Programming 3 29 March 2008 Using Computer Enhanced Response Computer Enhanced Response uses a dynamic moisture calibration technique to extrapolate the moisture level to the end point when making measurements in abrupt dry down conditions The system response time depends on the relative change in dew point For a change from ambient moisture levels to trace levels the unit can respond in three to five minutes The accuracy of Computer Enhanced Response is 2 C of the reading the sensor would have read if it were allowed to reach equilibrium with the gas To ensure that Computer Enhanced Response is as accurate as possib
70. r Press NO to return to the Curve Menu O2 Curve Menu 1 Use the arrow keys to move the S N CURVE BkGd brackets to CURVE and press YES Sel O2 Curve Pts Use the arrow keys to move the ZERO SPAN brackets to ZERO and press YES 1 O uA O ppm Enter the zero microamp value 0 721 0 0000 100 that is shown on the Calibration Data Sheet Press VES and press the right arrow key 1 O uA O ppm Enter the zero ppmv or 96 value 0 721 0 5000 OX0 and press YES Press the NO key to return to the Select O2 Curve Points menu Use the arrow keys to select SPAN and enter the span microamp 101 and ppmv or 101 values You may now do one of the following Enter data for a different channel or type of sensor by pressing the NO key until you reach the Programming Menu and then refer to Entering Calibration Data for New Probes Sensors on page 3 39 Refer to another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key IMPORTANT You must configure a channel AND enter the necessary calibration data in order for a sensor to work properly Advanced Programming 3 43 Entering Pressure Curve Data Pressure Curve Menu 1 S N CURVE Probe Serial 1 P 123456 Pressure Curve Menu 1 S N CURVE mA Psig 1 0 000 0 000 mA Psig 1 1 1 000 0 000 mA Psig 1 1 0 0
71. r section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing the RUN key Advanced Programming March 2008 Setting up a Log Data Logging 4 SETUP VIEW Create New Log 1 Press YES or NO Use the arrow keys to select SETUP and press YES Press YES to create a new log or NO to return to the previous screen Be sure the number displayed in the upper right hand corner of the screen is the channel you want to log If not press the CHAN key to select the desired channel Cyclic 1 NO YES Error Log 1 NO YES Start 1 10 03 2000 12 01 14 End 1 10 03 2000 12 01 14 Interval 1 00 05 Enter Log 1 12 1 1 Use the arrow keys to indicate whether or not you want a cyclic circular log Press YES to confirm your entry Use the arrow keys to indicate whether or not you want to record errors Press YES to confirm your entry Use the arrow keys to move from one digit of the starting date and time to another and use the numeric keys to change an entry Press YES to confirm your entry Use the arrow keys to move from one digit of the end date and time to another and use the numeric keys to change an entry Press YES to confirm your entry Use the numeric keys to enter the desired log interval in minutes and seconds down to 5 sec Press YES to confirm the entry
72. resistance or the effects of temperature variations e The product cannot be repaired by the user it must be replaced by an equivalent certified product Repairs should only be carried out by the manufacturer or by an approved repairer e The product must not be subjected to mechanical or thermal stresses in excess of those permitted in the certification documentation and the instruction manual The product contains no exposed parts which produce surface temperature infrared electromagnetic ionizing or non electrical dangers CE a CERT ATEX D Rev August 2004 DECLARATION Sensing OF CONFORMITY we Panametrics Limited Shannon Industrial Estate Shannon County Clare Ireland declare under our sole responsibility that the Moisture Image Series 1 Analyzer Moisture Image Series 2 Analyzer Moisture Monitor Series 3 Analyzer to which this declaration relates are in conformity with the following standards e EN 50014 1997 A1 A2 1999 e EN 50020 1994 e 1 G EEx ia IIC BASO1ATEX7097 Baseefa 2001 Ltd EECS Buxton SK17 9JN UK e EN 61326 1998 Class A Annex A Continuous Unmonitored Operation e EN 61010 1 1993 A2 1995 Overvoltage Category II Pollution Degree 2 following the provisions of the 89 336 EEC EMC Directive the 73 23 EEC Low Voltage Directive and the 94 9 EC ATEX Directive The units listed above and any sensors and ancillary sample handling systems supplied with them do not b marking
73. ressure sensors the unit will prompt you to select which input Aux 1 or Aux 2 the pressure sensor is connected to After selecting the input the display will prompt you to enter the probe signal in either current I or volts V 3 36 Advanced Programming March 2008 Table 3 10 Measurement Modes Required Inputs and Configuration Information Use these inputs Temperature and moisture Provided by TF Probe see page 3 35 Also configure the channel for TF H T amp P M Series Probe w temp option M Series Probe amp constant temperature Mxx H and Kt T Mxx H amp T Moisture and pressure TF Probe w pressure option TF H T amp P M Series Probe and auxiliary pressure input Mxx H and X1 P M Series Probe and pressure constant Mxx H and Kp P Moisture and pressure TF Probe w pressure option TF H T amp P M Series Probe and auxiliary pressure input M Series Probe and pressure constant Mxx H and X1 P Mxx H and Kp P Moisture temperature and saturation constant TF Probe w temperature option and saturation constant TF H amp T amp refer to page 3 28 for saturation constant M Series Probe w temperature option amp saturation constant Mxx H amp T amp refer to page 3 28 for saturation constant TF Probe constant temp and saturation constant TF H Kt T refer to page 3 28 for
74. rve of saturation constants versus temperature The window also allows you to specify whether you wish Enhanced Response for the channel Enhanced Response uses a dynamic moisture calibration technique to extrapolate the moisture level to the end point when making measurements in abrupt dry down conditions For more information refer to Using Computer Enhanced Response in Chapter 3 Click the appropriate radio button to turn Enhanced Response on or off When you have finished entering values click on Apply to apply the table immediately and on OK to confirm the table and close the window To return the window to its previous settings click on the Cancel button Channel 1 on New Meter Constant Saturation T able Figure 4 10 Constant Saturation Table 4 12 Programming with PanaView March 2008 Checking the Battery and If your MMS 3 has the battery option you can use Pana View to check Backlight on the battery status and backlight settings To check on the battery from PanaView 1 From the New Meter Browser option click on the desired communications port and meter 2 From the network tree double click on Battery Backlight The Battery Backlight Status window appears as shown in Figure 4 11 below 3 The window shows the presence or absence of a battery along with its power source voltage charge time and remaining time to run To recharge
75. s Description 1 3 Entering Calibration Data 3 39 Oxygen Cell 1 5 Pressure Transmitter ueuueuuuu 1 4 TYPES ato ge R ETA or 3 38 Program Code Accessing 2 8 Programming Error Handling 4 8 User Functions 4 9 R Recorder Outputs Testigos amei ns ete 4 7 Trimining RR a SIE as 4 7 Recorder Settings Changing 4 6 Recorders Setting Up inem eR Sena Hes 3 4 DELIN ES E 4 6 Response Keys Functions 2 2 RS232 Poft sm a een 1 1 RSASS o notes ke EVER ES sas Re 3 11 S Sample Output Symbols and Abbreviations 3 24 Saturation Constants 4 12 SC GED N Ger nee 1 2 Serial Number Accessing 2 8 MMS 3 Introduction 1 1 Setting Up Alarms ei Les Les se AS rus 3 1 Calibration Data nananana 3 39 Data Logger 3 16 Measurement Mode 3 35 Record codos si ere 3 4 Software Loading 3 47 Specifications Cables gas Ee SER 1 6 SysInfo Menu 2 8 System Constants Entering 3 26 System Information Accessing 2 8 T Tables Entering eco Rel Reg 4 11 Terminal Block Connectors 1 1 Top Drain Cell 1 5 U User Functions 4 9 User Program renyon usina asa 1 7 User Defined Tables 4 11 Y YE
76. s tricot o ed da 3 12 Gheekingqthe Battery Status la anre die do man A ALA eese aie DH eei 3 14 Setting phe Data LOGO SE e m ee o elder els 3 16 Storing Logged Daten cesse nud IES ita Lol sad pea ido cec hes 3 17 Setting UP A LOG ess perii pna o OR pep re eM edo DURER RR EH PEE AR 3 18 Viewing Logged Dataand statusk 22 2 2 ara 3 21 Deseripronorasomple QUE HE te es ebore ett tes mea tio O do pd tci ie edd 3 23 Enteririg System Constants 9 e baute eed dan ta Sa Ue Ee eter ren e 3 26 Entering a Saturation Constant 62 5 3 cepa ies deese I ERR EUER de et o 3 28 Using Computer Enhanced RESPONSE se pia luo E er 3 30 Setting Error Procesi ge vidc aceto Gd o eg aA is 3 32 Reconfiguring a Channel for a New Sensor 3 35 M ltiple nput Instr etlOls ns sea era s trae al 3 36 Entering Calibration Data for New Probes Sensors 3 39 Entering Moisture Curve Data 2 3 41 Entering Oxygen Curve Data una edet en d cech Math ane en 3 43 Entering Pressure Curve DOT aucem aan HER EACH GO PRIN T ACH dC Da VR OMS Y AU AD dots 3 44 Entering Auxiliary Input Curve Data ma era e a db O eis 3 45 Resta SOTO ce eo Last eet A E dte et O Ar Me 3 47 Chapter 4 Programming with PanaView Nein dela 10 ifo fg ta RR A ERE EORR dr HE RI 4 1 Changing Measurement Modes and Units as e t eR emer 4 1 Changing H Te Tee alae ceo ient pea 4 4 Changing R
77. send signals to the MMS 3 electronics unit which interprets the signals and converts them into measurements The complete analyzer including electronics cables and measurement probes forms a system that is designed to monitor the process accurately and reliably The following sections discuss each part of this system The center of the system is the electronics unit The electronics unit has many components including the terminal blocks for all connections an RS232 port a Liquid Crystal Display LCD a keypad and menu keys see Figure 1 1 on page 1 2 The MMS 3 is also available with an optional battery pack The back panel of the electronics unit consists of the terminal blocks for connecting moisture probes oxygen cells recorders and optional alarms standard or hermetically sealed The MMS 3 also provides connections for two isolated outputs per channel Input connections for the M and TF Series moisture probes as well as the Delta F oxygen sensors are intrinsically safe As an optional feature the MMS 3 provides connections for two auxiliary inputs not intrinsically safe for each channel The auxiliary inputs can accept signals from any 0 4 to 20 mA or 0 to 2 VDC device including other GE Sensing analyzers The RS232 port enables the user to connect a remote terminal printer or computer to the MMS 3 Using an optional PanaView software package the user can also set up and operate one or more anal
78. th both a top and bottom drain or only a top drain as shown in Figure 1 4 below The Delta F Cell is usually installed in its own sample system The Delta F Cell is optionally available with VCR fittings mounted in a NEMA 4X enclosure for weatherproof corrosion resistant applications or mounted in a NEMA 7 enclosure for hazardous areas The Delta F Cell is BASEEFA approved and when connected to a BASEEFA approved MMS 3 provides certified intrinsic safety See Chapter 3 of the Startup Guide Specifications for certification numbers Bottom Drain Top Drain Figure 1 4 Bottom and Top Drain Delta F Oxygen Cells Features and Capobilities 1 5 March 2008 Cabling M Series and TF Series Probes Delta F Oxygen Cell Pressure Sensors RS232 Communications Port Each probe requires an interconnecting cable Cables differ depending on the probe The various cables are discussed below under the appropriate probe type All of the cable assemblies can be ordered from GE Sensing IMPORTANT See the Calibration Data Sheets shipped with the probes to connect the probes to their corresponding channels If a probe is connected to the wrong channel the meter will display incorrect data IMPORTANT To maintain good contact at each terminal block and to avoid damaging the pins on the connector pull the connector straight off not at an angle make cable connections while the connector is away from the unit and push the
79. the arrow keys to move the 4 PORT ALARMS gt brackets to PORT and press YES Port Menu 1 Use the arrow keys to move the BAUD ___ FORMAT brackets to one of the selections and press YES IMPORTANT To ensure the communications port is set up properly you should check all the selections in the Printer Port Menu If you selected BAUD Select Baud Rate 1 Use the arrow keys to select the 419200 9600 gt desired baud rate and press YES Note f you are using PanaView software set the baud rate to 19 200 Advanced Programming March 2008 Setting Up the Communications Port cont If you selected FORMAT Refer to page 3 23 for a sample output and description of report data Format Menu PRINTER K PANALINK MODBUS If you selected PRINTER Enter Interval 1 90 00 MM SS Use the arrow keys to select the desired report format PRINTER PANALINK or MODBUS and press YES Enter the interval 0 to 90 minutes at which you want the MMS 3 to transmit data and press YES Note Enter O zero as the interval to print at the unit s update rate If you selected PANALINK Enter Node ID 1 16 Unless you are instructed to change the Node ID number by the factory please leave the number at the default ID of 16 Note If you selected MODBUS refer to Setting Up MODBUS Communications on page 3 8 You may now do one of the following Refer to another section and perform a different proce
80. the battery click on Full Charge 4 The window also shows if the backlight is on and how long the backlight timeout is Use the numeric keys to enter a backlight interval in minutes from O to 960 16 hours in the text box If you enter O zero the backlight will turn off 5 Click on Apply to apply the settings immediately and on OK to confirm the settings and close the window To return the window to its previous settings click on the Cancel button i Battery Backlight Status Battery Absent Voltage Charge Time Run Time Power Source AC Fu ZTE Backlight On Backlight Timeout 5 minutes Apply Figure 4 11 Battery Backlight Status Programming with PanaView 4 13 March 2008 Index A M Alarms Setting Up 3 1 M Series Probe Arrow Keys Functions 2 2 Cables olor ps ue phew dees 1 6 Automatic Calibration Auto Cal 3 12 Description zs asta eet 1 3 Setting the Interval 3 12 Measurement Modes in PanaView 4 1 B Selection v al siya EE REI 3 35 Backlight Measurement Units in PanaView Msn 4 1 Checker 4 13 Measurements Displaying 2 3 Setting the Timer 2 6 Menu Options Battery Checking 4 13 Alarm Settings 3 1 Bottom Drain Cell 1 5 Auto Cal Interval Bu UST AO i 3 12 Recorder Settings
81. vigate to the Recorder Menu Programming Menu 1 Use the arrow keys to move the 4 RECORDERS gt brackets to RECORDER and press YES Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Select Recorders 1 Use the arrow keys to move the A B brackets to the desired recorder and press YES Select RCD Range 1 Use the arrow keys to move the 0 20mA 4 20mA gt brackets to the desired recorder range and press YES Select Mode 1 Use the arrow keys to move to O H T P Aux1 the desired measurement mode and press YES See Table 3 2 on page 3 5 for a list of available measurement modes Advanced Programming March 2008 Setting Up Recorders cont Table 3 2 Measurement Modes Display Abbreviation Measurement Mode Oxygen Hygrometry Temperature Pressure Auxiliary 1 Auxiliary 2 User Function Volt Reference Gnd Signal Ground User functions are available only through PanaView software see Programming User Functions in Chapter 4 Select Units 1 Use arrow keys to move the DP C DP rp brackets to the desired units and press YES Note The number of measurement choices and the units of measurement vary depending on the measurement mode selected Set RCD A OUTPUT 1 Use the arrow keys to move the ZERO SPAN brackets to ZERO and press YES
82. wn contact GE Sensing Saturation constants are necessary for ppm in Henry s Law type liquids only See Appendix A of the Service Manual To enter a saturation constant the user must enter 1 to 6 data points to represent a curve of Cs saturation constant versus temperature Enter curves for each channel separately Press the PROG key to enter the user program Enter Passcode XXXX Enter the passcode Note f you have already entered the user program see Figure 3 2 on page 3 48 to navigate to the User Menu Be sure the number displayed in the upper right hand corner of the screen is the channel you want to program If not press the CHAN key to select the desired channel Programming Menu 1 Use the arrow keys to move the USER LOGGERD brackets to USER and press YES User Menu 1 Use the arrow keys to move the SAT CONST brackets to SAT CONST and press YES T C Cs 1 If you want to begin entering 1 56 0 data at the data point displayed press the right arrow key to move the bracket to T C Otherwise enter the desired data point number Press YES to confirm the entry Then press the right arrow key TC Cs 1 Enter the desired temperature 1 56 33 Press YES to confirm the entry and press the right arrow key 4 T C Cs 1 Enter the corresponding 1 56 33 saturation constant Press YES to confirm the entry 3 28 Advanced Programming March 2008 Entering a Saturation Re
83. xiliary 2 N A Current V Voltage You can now do one of the following Configure the other channel by pressing NO until you return to the Programming Menu Then select the desired channel and repeat the procedure Enter calibration data by pressing NO until you reach the Programming Menu Then refer to Entering Calibration Data for New Probes Sensors on page 3 39 Referto another section and perform a different procedure Refer to Figure 3 2 on page 3 48 and Figure 3 3 on page 3 49 to navigate through the user program Exit by pressing RUN IMPORTANT You must configure a channel AND enter the necessary calibration data for a sensor to work properly 3 38 Advanced Programming March 2008 Entering Calibration Data for New Probes Sensors The MMS 3 needs calibration data for each moisture oxygen and pressure sensor as well as each auxiliary input GE Sensing supplies each probe with a Calibration Data Sheet which is a list of 1 to 16 data points the electronics needs to interpret raw data from the probe Calibration Data Sheets are packed with each sensor Note f you want to enter a constant value for moisture temperature pressure or multiply the ppm value by a constant multiplier refer to Entering System Constants on page 3 26 It is not necessary to enter the calibration data if you are using a constant Note f you have already entered the System Menu and selected
84. yzers from a remote location program user functions transfer data and create data logs Features and Capobilities 1 1 March 2008 Electronics Unit cont The front panel of the electronics unit contains a 2 line x 20 character Liquid Crystal Display LCD to show measurements a 4 x 4 matrix keypad for entering data and operating the MMS 3 and four function keys The MMS 3 is also available with an optional rechargeable battery pack that makes it ideal for survey applications The user can move the MMS 3 from location to location to take spot samples and store measurements When fully charged the battery pack provides eight hours of continuous operation The BASEEFA approved electronics unit is available in rack mount portable bench mount and panel mount versions The electronics unit is also available in NEMA 4X weatherproof and NEMA 7 explosion proof housings but these packages are not BASEEFA approved IMPORTANT Only the MMS 3 s that have serial numbers 2001 and above are intrinsically safe MOISTURE MONITOR SERIES 3 E Figure 1 1 Moisture Monitor MMS 3 1 2 Features and Capabilities March 2008 Probes Probes are the part of the system that come into contact with the process flow The MMS 3 uses various types of probes to fit the needs of different applications T
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