Operation Manual
Contents
1. 40 29 Not standard printout can contains Variables depending on the users needs mass date Number of the project temperature of the chamber etc Stable texts in user s menu Composed not standard printout contains not more than 640 marks written as 80 texts 8 marks each from the parameter String 1 to String 80 User can compose 4 not standard printouts 8 6 3 Writing texts in Variables in the printouts Printout of singular mark Kind of the last calibration Actual net mass in basic unit Deviation in the last calibration Actual date Code 1 t Actual time 2 Code 2 Number of the analyzer Code 3 Number of the program 4 Code 4 calibration Variables only in drying function 30 Special marks used in creating special printouts Singular mark CRLF Each text String 1 89 String 80 contains max 8 marks letters digits special marks spaces To write the sentence which contains many words and marks create them with neighbouring texts with 8 marks each User can use special marks mentioned below to include variables depending on the needs Example 1 The maximum mass of the load cannot exceed 11 250 g To write this sentence use 46 grouped marks in neighbouring lines of the text Write 8 marks in each text untill the sentence finishes intl eA AS ee eee ere aes 19 Texti0o TT je m ja jx 20 Texti tm u m m ja js js 21 Texti2 Jo f t jhh je W2. homogeneous and its moisture can always be separated completely and free from decomposition e g moist quartz sand 62 Deviations always comprise the uncertainty which depends on the sample and the repeatability of the instrument In practice measurement differences appearing within a measurement series can consequently be larger than the values of the halogen moisture analyzer shown in the table 13 3 Drying temperature The drying temperature exerts a controlling influence on the measurement time Value depends on kind of the material Too low temperature causes evaporation of water partly and extension of drying time unnecessary Too high drying temperature causes combustion of material chemical decomposition overheating the sample Drying temperature is determined by norms If not the temperature must be determined experimentally The following procedure is suggested for selecting the temperature e Estimate moisture content of the sample 6 Determine the decomposition temperature of the sample by experiments 6 Compare the measurement result with the reference method if one exists With samples which O ene have a high moisture content it is possible to cong shorten the measurement time by selection of the step or Short rapid drying program Here the greatest part of Drying temperature the existing moisture is separated at an elevated temperature The drying temperature is then lowered and kept constant until the end
3. 22 Text13 EC jo ja d jc ja jn 23 Text14 jJn jo t je jx jc je 24 Text15 fe da h f h l2 5 25 Text16 Jo ig t I 1 sale Example 2 Zak ad Mechaniki Precyzyjnej MRC Date Time Load mass lt a actual work mode gt Enter setting the following texts and write 8 marks in each of them untill you finish writting printout in Parameter no 25 Text 17 fe le 26 Text 13 ie 7 9 27 Text 19 P r 28 Text 20 j n 29 Text 21 30 Text 22 e A a t je 31 Text 23 T i m n 33 Text25 im ja js js N 34 Text26 te hje P H PEPE 35 Text27 St g n ja jt u fr 36 Text28 de k bo b po bL L bo 37 Text29 0 eee fe 38 Tet 30 O E a OO 39 Text34 ooo do o So S S S L S Selection of the text Enter paramaters group P6 Printouts Saez Sten 43 46 42 P6 gt 01 gt Printout No 0 standard 02 Header No 03 Line No 04 Footer No 05 Pr 1 start 06 Pr 1 stop 07 Pr 2 start 08 Pr 2 stop 09 Pr 3 start 10 Pr 3 stop 11 Pr 4 start 12 Pr 4 stop 13 String 1 1 printout 2 11 printout 3 1 printout 4 45 String79 Scroll to the text from text 1 to text 80 Pressing the navigation key enter the setting the parameter if the parameter field was empty pulsing sign appears at the beginning If the text was in the field first mark of this line flashes Method of entering the texts a from balance keyboard a Move up through collection of the d
4. library without the changes Program library PO K Program 1 POZ Program 2 P03 Program 3 PDA Program 4 P05 Program 5 POG Program 6 11 USING THE LIBRARY To accelerate test user can select program from the library of the instrument and do not have to set up parameters of drying for each substance separately User selects profile with settled parameters in the library e g name of dried product without necessity of changing it if other sample is selected _57 CAUTION To use data base with procedures during determining moisture set up in user menu in group of parameters P7 Inne parameter P7 02 Prog library value 1 Procedure of turn parameter on is described in point 8 of instruction PROCEDURE 1609703 Weighing b i T 3 Set program 08 28 30 Start swo 0 0005 Test meno Program library POO Pod p02 Poa Pod POS POG POO Poi P02 P03 PO4 POS POR 19 09 03 re I PEPEES i SSPE HSE HE PES Kei ALE PED ee a iFlour 100 Program 2 Program 3 i Program 4 Program 5 Program 6 LY Jor La I etren rar Rare PE i bB bR LTR KRI pail L 99T a Flour 100 Program 2 Program 3 Program 4 Program 5 Program 6 4 Weighing P01 FLOUR 100 x 3 _ Set program Start N 30s 0 0 000 5 Press Test Menu key The program list is displayed Press either up or down arrow keys and scroll to desired option of pro
5. Manual after pressing the key Defined give change of mass Am 0 1 9 9mg and change of time At max 2 55 sec Test enables choice of parameters for auto switch off for sample Procedure SS In menu press the down arrow key and POT Name FLOUR 00 replace the black arrow next to the Profil 1k dard s Dey denn Son ors parameter Switch off Switch off P Automatic 3 Criteria of setting are described in see point 9 2 10 6 Setting type of displaying and printing results User can define kind of the printout during the tests One of four method can be selected M D R g Procedure Lt Praia REA Kara PO1 K Name FLOUR 100 Profile Standard Press the down arrow key and replace the Dry temp 720 C kte 7 Automatic 3 black arrow next to the parameter Result Result b Moisture content iM Print int 205 Target None If you select option Chart Scheme result M appears QET 10 7 Setting time of printout This parameter defines frequency of sending result during determining moisture Procedure PO1 gt Name FLOUR 100 Press the down arrow key and replace er nan black arrow next to the parameter Print Switch off Automatic 3 int Result K Moisture content AM Print int 205 Target None If you select option Chart Scheme result M appears 10 8 Setting size of tested sample Parameter defines mass of the sample User chooses one of three options
6. 02 External calibration Difference 0 0001 g 130 0500 g P2 03 time print Date 16 01 2002 P2 04 date print User R Wilk P2 05 user print on Balance 11111111 P2 06 project print off 12 0085 g P2 07 Id print on P2 08 last cal print off 8 3 Setting time and date Parameters to set up date and real time clock in memory and to display and print them How to enter menu group P3 Date Time Enter menu P3 Date Time MIANA Sahm P5 gt 01 gt Date format 0 DA MO YR 02 Time format i 0 24 hour 03 Time k e function 04 Date ldk kde function 05 Disp time 1 on 06 Disp date i 10n 8 3 1 Setting date format Press navigation key and come to submenu 01 Date format Set up one of the values 1 date format Month Day Year 2 date format Day Month Year Confirm by ENTER key 8 3 2 Setting time format Press Right key to enter menu 02 Time format Set up one of the values 1 time format 12 hour 2 time format 24 hour Confirm by pressing key ENTER Format 12 hours It is distinguished by letters PM or AM on the printouts 94 8 3 3 Setting time With Right key enter to paramater Hours K 09 03 Time setting Minutos 47 econo Set current time Hours K 08 Scroll to value which is Minutes 47 changed Seconds 56 f Hour Minutes Seconds Enter setting value first digit is flashing sam Set up new value using keys Hou
7. 10 9 Setting correction factor Dark color substances absorb heat The sample can be overheated and if the temperature is 120 C dark color sample absorbs heat and reach temperature about 135 C In these cases define correcting factor of drying temperature Defining this factor is done by means of additional equipment set with the control thermometer and probe T coefficient 1 Program all parameters of drying 2 Distribute sample evenly and start drying process 3 After testing note the result 4 Take second sample and distribute it in thicker coating 5 Slip the probe through the cover and dip it in the sample press ON OFF key on the control thermometer 6 Start drying process 7 Check temperatures on the keyboard and control thermometer 8 After period of time for first sample read out two values 9 Count factor according to formula T measured T set 53 Setting the parameter Progrim library K Prognin PO1 Name Program 1 Profile Standard add 1 S OE In the menu press the down arrow key and Switch off Auttometic 3 replace the black arrow next to the 1 i i are GOE Taan parameter T coefficient Target None T coaficlent Fi 0 00 Default Print By means of functional keys of the moisture analyzer or PC keyboard select value of the factor Set up according to user s menu 10 10 Default settings of program Parameter enables setting all parameters as default determined by programme
8. 29 06 05 10 19 26 11 15 30 09 45 30 Tea 09 56 45 Tea ae Measurement data will be displayed arrangement as on printout Results 02K Name Tas Profile Standard Dry tomp 1 160 C Total tima 1 00 43 20 Slart weight 5 6783 g Final welght i 5 32178 g Final result l 5 26 To print these data press PRINT key Data will be sent to RS232 port 19 PRINCIPLE OF USE OF MOISTURE ANALYZER FOR DRYING TEMPERATURE ABOVE 160 C For measurement temperatures in range of 161 C 250 C time of keeping the temperature during the measurement is determined in proportion with range of 1 hour for 161 C 20 min for 250 C During drying in temperature of 250 C Max temp is kept for 20 min then program automatically decreases the temperature without stopping the drying to 160 C Time of decreasing the temperature to 160 C is 20 min For rapid profile of Max drying temperature is 30 but no more than Max temperature set in factory menu For step profile time of keeping the temperature for particular steps is limited to 20 min Number of instruction LMI 25 03 06 08 ENG uyo
9. Proa ary ng x POT Profile Gentle temperature Ramp time E min and period Dry temp i 120 C of time to achieve set amp temperature tine saa HW Program library Progam Profa POT K Profile Pi Stop In step profile set up the temperatures of Lor deal EH the level 1 and 2 and drying m i a in s S Temperature 309 C temperature and periods of heating in Time 2 3 min i Dry larin Kegel following average temperatures After set up profile and the parameters move to programming following parameters of the program 10 4 Setting the drying temperature The drying temperature is repeated parameter of setting option Profile Procedure Press the down arrow key and replace PO1F Name FLOUR 100 black arrow next to parameter Dry Profite Standard Dry temp K 120 C temperature Drying temperature Switch off Automatic 3 Using functional keys of moisture analyzer Or PC keyboard set required value of temperature Setting can be made according to previously described way of moving in user menu After setting and saving new value of temperature this temperature will be also inserted in profile settings as valid one 50 10 5 Setting method of switch off drying Switch off can be Automatic 1 change 1mg 20s Automatic 2 change 1mg 50s Automatic 3 change 1mg 120s Automatic 4 change 1mg 180s Automatic 5 change 1mg 240s Time defined max time 9h 59min
10. UNIT C1 CR LF start continuous transmission in basic unit GIVE THE NUMBER OF THE INSTRUMENT NB CR LF send factory number GIVE THE RANGE OF WEIGHING FS CR LF send value of max capacity in basic unit by the instrument GIVE THE VERSION OF THE SOFTWARE RV CR LF sends name of the program GIVE OR CHANGE DATE IN THE INSTRUMENT PD CR LF sends date and changed date GIVE OR CHANGE TIME IN THE INSTRUMENT PD CR LF sends settled time and changed time GIVE CURRENT WORK MODE PM CR LF sends code of current work mode DISPLAY SETUP PS CR LF sends all setup printout of the parameters SIGNAL BEEP B CR LF signal beep in the instrument 68 Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command SEND LAST ERROR CODE ER CR LF sends last code in the instrument DISPLAY HEADLINE DH CR LF sends in headline upper bargraph on the display series of sings CANCELL HEADLINE CH CR LF cancel upper bargfaph in the headline MAKE INTERNAL CALIBRATION CL CR LF starts internal calibration BLOCK THE KEYBOARD KL CR LF blocks the keyboard UNBLOCK THE KEYBOARD KU CR LF unblocks the keyboard SWITCH OFF THE ECHO OF THE KEYBOARD EO CR LF switches off sending
11. codes of the keys SWITCH ON THE ECHO OF THE KEYBOARD E1 CR LF switches on sending codes of the keys SWITCH OFF THE INSTRUMENT O0 CR LF switches off the moisture analyzer the same as usage ON OFF SWITCH ON THE INSTRUMENT O1 CR LF switches on the moisture analyzer the same as usage ON OFF SWITCH OFF THE AUTOZERO AO CR LF switch off autozero SWITCH ON THE AUTOZERO A1 CR LF switch off autozero GIVE OR CHANGE ID ID n CR LF the moisture analyzer sends settled code or change this code n 1 6 SEND THE PRINTOUT NUMBER n PP n CR LF the moisture analyzer sends programmed printout with number n n 0 4 69 Function GIVE OR CHANGE VARIABLE NUMBER n Command V n CR LF the moisture analyzer sends variable or change variable with number n n 0 4 Notice Sending command to the instrument which is not in the list or has an error and it is finished with CR LF back sending the command in form If there is no command in the list or has an error and it is finished the command is returned in E S CR LF Spaces should be omitted 16 GUIDELINES OF USAGE Measurement moisture of various substances in comparison to traditional method weighing drying weighing counting is much faster and easier It is different method of measure which needs individual for each substance selection of the parameters e temperature of drying e sample mass e time of drying If series of measurements are made in t
12. command with the question Press ENTER key to print all parameters and return to previous window Program number 1 Name FLOUR 100 Profile Standard Dry temp 120 C Switch off Automatic 3 Result Moisture content M Print int 3058S Target None T coeficient 0 00 Prngranm liian K Prognin PO1 Name FOLUR 100 Profile Standard Dry temp 720 C Switch off Automatic 3 Result i Moisture content 54M Print int 205 Target None Tt coeficient i 0 00 Default i Print bi Pressing Esc key will not print the parameters The software returns to previous display without any changes 10 12 Settings record to moisture analyzer memory Remember that all changes of the parameters are recorded in transitory memory of the instrument To record them permanently return to main display and use procedure of record 56 Procedure Progmim POT K Nama FOLUR 100 Profile l standard Dry temp 1720 C Switch off Automatic 3 Result Moisture content 4M Print int 205 Target None T coeficient i 0 00 Default l Print K Press Esc The software displays command with the question for the operator G Pressing the ENTER key will record the et changes and display the library Program library PHIL A EA 1472A Ens Poi Flour 100 POZ Program 2 POA Program 3 PDA Program 4 PUS Program 5 POG Program 6 Pressing the Esc key will display the
13. easily Value of these parameters must be corrected and after record the changes in the file new corrected setting must be sent to the analyzer program After recording changes in the parameters the analyzer accepts new settings This procedure requires good knowledge of the parameters and computer operation 197 9 12 ID setting codes are introduced to the analyzer memory 13 ID autoprint defines if code introduced in the analyzer memory is sent automatically through the socket RS 232 MAKING THE DRYING WITH USE OF SHORTENED MENU This section provides you with essential information on making measurement In shortened procedures There are parameters to set up in menu procedure Profile with parameters temperature time Finish drying Displaying result Frequency of printouts 9 1 Way of shortened menu activation To use shortened procedures menu switch on P7 Globals in users menu in parameter s group parameter P7 02 data base of the programs value 0 a Procedure 10 10 03 Setup 10 10 10 Pi r Calibration ae ree After pressing Setup key window with Readout parameters group is displayed RS 232 Printouts Globals Lt do Lt 10 10 03 Setup 10710 1710 P1 P2 P3 P4 P5 P6 Calibration GLP l l Date Time Using functional keys set cursor next Readout to group of parameters P7 Inne RS 232 Printouts P7 t Globals 38 a PT amp 01 Password i i 02 Prog library
14. enter main menu of moisture analyzer After pressing Setup Access to user menu of analyzer is available How to exit the setup menu without making changes Press Esc key twice aa How to select the menu option v Press either the up or down arrows keys and scroll to the desired options 10 11 01 Setup 13 47 56 P1 gt 01 Ext calibr x function 02 gt User calibr function 03 Calibr test i i function 04 Printreport 1 on How to enter the chosen function in menu After scrolling to desired function press button SETUP How to change parameters and functions a or Ly Press the UP DOWN buttons to scroll through values of parameters from software or active mark changes flashing f eg in Name Press either the LEFT RIGHT arrows buttons and scroll to desired sign e g in name which we want to change How to confirm changes in functions and parameters Press PRINT ENTER button to confirm How to change displayed data during drying i There are five methods of presentation results during nas and after drying in the moisture analyzer menu To Sa change the method press DISPLAY button Drying time temperature in the chamber drying profile result in M D R diagram lost of mass in g are expose on the display Ory ing 00 28 30 Ory ing 00 28 30 5 0 03 25 U 42050 Jc IS paean os 2 5 7 Pa N amp B 2 10 54 D amp Ta 19 09 03 D 05 28 30 Drying 2 57 a eee B
15. i c c Stat String 18 ir t wei gh String 19 it N c ci String 20 Printout 4 String 23 IStop_weil String 24 ight ANACI String 25 Time_dry String 26 jing C c String 27 RETE Le 1 String 28 iresult l String 29 iM c cDry String 30 jing_stop String 31 ihe eSi gn String 32 String 33 String 34 String 35 8 7 Setup the parameters User can set up various parameters depending on needs The parameters decides about work in group P7 Inne e g signal beep during pressing the key contrast on the display etc 8 7 1 Enter to group menu P7 Globals Enter to submenu group P7 Globals 10 41 01 Setup 13 47 56 P7 K01 Password 0 02 gt Prog library 0 disabled 03 Beep 4 enabled 04 Language 1 English 05 Backlight 1 0n 06 Brightness keke function 07 Contrast thee Function 08 Analyzer Id 12564 08 Software rev MBA 0 11 09 Par printout function 10 Par receive k xx x function 11 ID setting oko function 12 ID autoprint 0 off 8 7 2 Setup the parameters Setting up the parameters can be realized the same as in previous menu groups 01 Password protection of the possibilities of entering set up the software 02 Prog library switch on off access to the library with programs 03 Beep decision if each key is signalling by beep signal on the analyzer keyboard 04 Language select language in description of the parameters Polish or English 05 Backlight backlight on the graphic
16. is advisable Press key ZERO TARE and write sample mass to memory This sets the moisture analyzer to zero Next message will appear Place the specimen sample in the sample pan Sample mass must be picked after examinations and regarding to the quality of the examined substance D 3h Prepare the sample L Close N F 5 041 g a Close the drying chamber after pictograph appears on the screen Drying starts automatically 45 19709705 Drying 99 26 30 Ta 0 00 01 i 84c 120c MANI 30s 0 00 Z Drying 09 28 30 0 03 25 i 120 c ite 0 2359 Drying 09 28 30 257 M 0 03 75 84 C 120 C re ITTV SS ar S Z min End r suits 09 2530 a 3h 5 2659 gt 0 03 25 kK 4 3789 L 2 51 305 pm E EE The moisture analyzer does the drying process in set parameters Information about the process appear on the screen Printout headline is sent to communication port RS232 according to set options of printout parameters group P6 Printouts During drying actual results of the measurement and information about the process appears on the display testing time temperature in the chamber etc During drying results are sent to communication port RS232 automatically of printout lines according to set options of the printout group of the parameters P6 Printouts in set periods of time Press DISPLAY key and switch between kind of displayed result After
17. optimal manual options Operating 15 C 40 C temp Power supply adaptor 230V 50Hz AC 420W Display graphic backlit Drying chamber 120 x 120 x 20 mm dimensions Dimensions BASIC INFORMATION CAUTION Utilization of MBP moisture analyzer conversely to safety provisions and user manual may be hazardous to health and life Never use the moisture analyzer is explosive area Moisture analyzer is not prepared to use in areas with danger of explosion The interior part of drying chamber may heat up to 400 C nominal power supply of moisture analyzer is 230 V thus it is necessary to use the device according to safety principles The symbol visible on the top of the moisture analyzer cover as presented below is a warning against hot surface 2 1 Purpose of use Moisture analyzer is a device used for determination of relative humidity of small samples of various materials determination of dry mass in small samples of various materials and determination of mass of weighed objects It guarantees fast and precise determination of water content in tested sample and through application of graphic display it provides easy use and operation Moisture analyzer series MBP can be used to determine humidity content of multiple materials At the initial stage of measurement the device precisely determines the mass of object placed on its weighing pan Following this there is fast heating of the sample with halogen or IR lam
18. recognition of the end of the analysis at the desired break point of the drying curve e The selection of a constant drying time often provides good measurement results eKeep the initial weight of the sample constant 10 20 14 COOPERATION WITH PRINTER OR WITH COMPUTER Printing to an external printer or computer will occur each time the PRINT key is pressed Signal with present presentation with measurement units on display is sent to computer or printer The speed c of transmission is set up for 9600 bit s If external device printer computer needs different speed of transmission change parameter of speed in the menu see point 13 in instruction manual 14 1 Schemes of connection cables Analyzer socket DB 9 F printer KAFKA socket WM 560 3 TxD 5 GND 3 GND Analyzer socket DB 9 F computer socket DB 9 F if there is no control of sending data 3 TxD 2 RxD 5 GND 5 GND 4 6 closed 4 6 closed 7 8 closed 7 8 closed 66 Analyzer socket DB 9 F computer socket DB 9 F and control sending data 6 20 closed 15 LIST OF COMMAND COMPUTER MOISTURE ANALYZER Function RESET INTERFACE Command R CR LF zero current made commands and return to factory setting Function SEND ALL COMMANDS FROM THE INSTRUMENT Command PC CR LF sends information about all commands in the program from the instrument Function SEND THE RESULT IN BASIC UNIT Command S CR LF sends result in bas
19. the measurement the summation of the test and final result appear on the display And footer is sent to communication port RS232 according to set options group of the parameters P6 Printouts 10 DECLARING THE DRYING PROCEDURES AND USING THE PROCEDURES LIBRARY In this section you will learn how to define new drying procedure and how to make a measurement in defined procedure remembered in the moisture analyzer memory Each procedure contains Name Profile Dry Temperature Switch off Kind of displaying result Frequency of printing data Size of the sample Correcting factor 10 1 Defining the drying procedure To use data base with recorded procedures switch on in user s menu in group of the parameters P7 Inne parameter P7 02 Prog library value 1 Switch on the parameter is described in point 8 7 2 of the manual Before start work with data base introduce data to the moisture analyzer According to these data tests are done Way of entering to setting data in procedures 19 09 03 Weighing Set program Start L s 0 000 Press key TEST MENU and display list of remembered procedures in PoU e GAL la Haasan memory BOK Program 1 2 PO2 Program Fi CA UTI ON l P03 Program 3 In option P0O0 last program is P04 Program 4 E POS Program 5 displayed or program chosen for PUR Program 6 drying a or Ly Press the arrow keys and replace the arro
20. used display set the parameter in a appropriate way 8 5 Functions connected with use of RS 232 User can set up the parameters for correct communication with the computer or printer Enter menu group P5 RS 232 3 9600 P5 gt 01 gt Baud rate 02 Parity 0 none 03 Date bits 118 bits 04 Stop bits i 0 1 bit 05 Handshake 1 0 none 06 Printonstab 1 1 enabled 8 5 1 Set up values of parameters By means of functional keys set up values of parameters see point 7 of the manual moving in user menu which have influence on correct communication analyzer computer or analyzer printer J 27 Number and Value of parameter parameter name 01 Baud rate 02 Parity 03 Date bits 1 7 bits 2 8bits 04 Stop bits 1 1 bit 2 2bits 8 6 Printouts 0 none 1 even 2 odd Number and parameter name 05 Handshake 06 Print on stable 07 Printer type FF 1810102 PG K 01 gt Printout No 02 03 04 05 06 07 08 09 10 11 12 13 45 Header No Line No Footer No Pr 1 start Pr 1 stop Pr 2 start Pr 2 stop Pr 3 start Pr 3 stop Pr 4 start Pr 4 stop String 1 String 79 TASA E 19 46 49 0 standard 1 printout 2 11 printout 3 1 printout 4 Value of parameter 0 none 1 RTS CTS 2 XON XOFF 0 disabled 1 enabled 0 Stand 1 Kafka 2 Epson Operator can set up 5 different versions of
21. 1 6nabled 03 Beep i 11 enabled Dd Language U 17 English 05 Backlight t d on 06 Contrast 1 KAA dA kA TU nET On OF Balance le 2564 Lt maro Sewe AJar P7 KD1K Password l oi 02 Prog library 1 enabled 03 Beep i 11 enabled 04 Language l English 05 Backlight l ijon 0G Contrast aie function 07 Balance id 112564 L 301 UO Sni 13458 PT KD Password i gi Dab Prog library 4 disabled 03 Beep I lienabled 04 Language l 1 English 05 Backlight i ijon 06 Gontrast kkk K function OF Balance Id 12564 j After move to main display of the program with record changes in menu user can realize drying without selecting the drying program After set up the parameter P7 02 Programs Base on the value 0 user cannot use data base of drying programs recorded in the analyzer memory After pressing the key software automatically moves to setting basic parameters of drying 9 2 Way of setting the parameters Press key Test Menu A new display now appears with first view of shortened menu declaring parameters of drying With navigation key activate selection of profile of drying name of the program now appears above the picture and profile in up left corner of the display ET Sta nari yar En T 160 C aMi b 30s EJ 40 Press either up or down keys and scroll to the desired program Standard Ramp Fast or Step Press navigation key and set up the parameters of the program Next to firs
22. Although chamber cover the housing IS extremely rugged and resistant to solvents never use abrasive cleaning agents or solvents chamber basis insert After cleaning dry all subassemblies Do not let any dirt or liquids to interior of moisture analyzer Ensure that no liquid enters the interior of the instrument Replace the components after cleaning according to shown scheme Cleaning the temperature sensor To ensure correct measurements pay attention to cleanness of temperature sensor Clean the instrument with taking all precautions To clean it use smooth cloth and mild Do not use abrasive materials and dissolvent It can damage the sensor oe temperature sensor Do not touch the halogen and do not damage them If it necessary halogen covers can be also cleaned Clean with using only soft and textiles Do not touch the filaments wee 17 2 Replacement of fuses After plug the moisture analyzer in autotext pictograph appears on the display no reaction on the display one of the fuses may be burnt fuse plug out the moisture analyzer casing 3 FA T Remember before start any repairing especially exchange the The moisture analyzer is equipped with two fuses Before start exchange take power cable off at the rear of the Tabular fuse ZKT 3 15A T4L 250V protects electronic systems of moisture analyzer Replacement of fuse Screw out the fuse socket from mounting Remo
23. Date format P3 02 Time format P3 03 Time P3 04 Date P3 05 Disp time P3 06 Disp date P5 RS 232 P5 01 Baud rate P5 02 Parity P5 03 Data bits P5 04 Stop bits P5 05 Handshake P5 06 Print on stable P5 07 Printer type P6 Printouts P6 01 Printout No P6 02 Header No P6 03 Line No P6 04 Footer No P6 05 Pr 1 start P6 06 Pr 1 stop P6 13 String 1 P6 92 String 80 P7 Globals 113 P7 01 Password P7 02 Prog library P7 03 Beep P7 04 Language P4 Readout P4 01 Filter P4 02 Autozero P4 03 Temperature P4 04 Negative 7 MOVING IN USER MENU P7 05 Backlight P7 06 Brightness P7 07 Contrast P7 08 Balance Id P7 09 Software rev P7 10 Par printout P7 11 Par receive P7 12 ID settings P7 13 ID autoprint It can be done by means of keyboard PS keyboard commands sent from computer to the analyzer 7 1 Menu operation Test meny Program library Program 2 Program 3 1 Program 4 Program 5 Program 6 10 10 03 Setup 10 10 10 P1 Calibration P2 P3 P P5 P6 P7 GLP Date Time Readout RS 232 Printouts Globals 14 How to enter to choice of drying modes Pressing the Test Menu button accesses the Test library menu Library contains up to 100 tests All tests which are previously entered can be recalled and the parameters for the recalled tests when selected will be repeated How to escape menu without recording changes Press Esc key How to
24. Of parametiera eee eee eee 27 8 6 FURR elb HT 28 8 6 1 Standard else 29 8 6 2 Nonstandard printouts sese eee 29 8 6 3 WNO TEXTS IM T 30 8 6 4 Selection Of esei e 34 8 6 5 Setting non standard printouts sss eee 34 8 6 6 Non standard printouts in drying mode sss sse ee 34 8 7 Setup the ParaMelerS TTT 36 8 7 1 Enter to group menu P7 Globals sees eee eee ee 36 8 7 2 Setup the parameters anane a E 36 9 MAKING THE DRYING WITH USE OF SHORTENED MENU 38 9 1 Way of shortened menu activation esse eee eee 38 9 2 Way of setting the parameters eee e e ee eee eee 39 9 3 Way of performing the drying according to set values of shortened STT ete Be 43 10 DECLARING THE DRYING PROCEDURES AND USING THE PROCEDURES LIBRARY ivicncciciceita cinerea 47 10 1 Defining the drying procedure sss esse eee 47 10 2 Writing in name Of software sese ee ee eee ee 48 10 3 Selection of drying profile sees 49 10 4 Setting the drying temperature sse 50 10 5 Setting method of switch off drwiIng sss sss 51 10 6 Setting type of displaying and printing results eee eee 51 10 7 Setting time Of PrintOUt ee 52 10 8 Setting size of tested Sample esse 52 10 9 Setting correction factor eee eee 53 10 10 Default settings Of program esse eee eee eee 54 10 11 Settings POMO oina n a TE Taa 55 10 12 Settings record to moisture analyzer memory eee eee 56 11 USING THE LIBRARY os xssszxss rontana iativncoetariet iaka aa
25. a TC j a d 0 03 25 112076 ie Ta SN 120 C 30s min E Changes are confirmed after return to weighing mode with procedure of confirming changes times ESC until display indicates Pa After entering all changes press few Save Enter Esc 05 07 04 Setup 10 12 45 Save setup Enter Esc After displaying the command choose one of possibilities S ENTER save changes ESC without record 7 2 By means of computer keyboard PS type Each key on the analyzer keyboard has its equivalent on the PS keyboard according to below scheme for functional keys Description Switch on off drying process in selected program Enter main menu 416 gt Enter choice menu and select drying program Change of type of displayed data about drying Transmission data to external device PRINT Zeroing Tarring of analyzer indication 8 USER MENU OF MOISTURE ANALYZER User menu is activated by pressing SETUP key In menu it is possible to calibrate the analyzer set transmission parameters set the date and time and their format and other usage parameters of program In this part of manual program possibilities of moisture analyzer and methods of setting and change of particular parameters will be described 8 1 Calibration of moisture analyzer 8 1 1 Calibration of moisture analyzer If the moisture analyzer is used as laboratory analyzer make the calibration before test C
26. aggressive substances may cause corrosion to the device 2 4 Warranty Warranty does not cover below mentioned cases e Not observing the regulation listed in user manual e Use of the moisture analyzer conversely to its application e Any modifications of moisture analyzer e Mechanical defects and defects caused by media liquids and natural wearing off e Improper placing of defects of electrical network mains e Overloading of measuring mechanism of the moisture analyzer 2 5 Supervision over metrological parameters of the moisture analyzer Metrological features of the moisture analyzer should be checked by the user in set period of time This period depends on environmental factors of moisture analyzers location kinds of performed processes and quality system introduced byte user 2 6 Data in the user manual Read the user manual carefully before switching on the device even if the user is experienced with this kind of devices 2 7 Operation competence Moisture analyzer should only be operated and supervised by trained personnel with experience in usage of this kind of devices TRANSORT AND STORAGE 3 1 Delivery check Please check delivered package and device immediately after receipt and evaluate whether its free from any external defects 3 2 Packaging Please keep on stock all the elements of the packaging in case future transport of a moisture analyzer is needed Only the original packaging of the mo
27. ah aikaa 57 12 PREPARATION OF SAMPLE FOR DRYING sssss sss sss sss sss sss 59 12 1 Moisture measuring in moisture analyzer 59 e E 12 2 Sampling and sample preparation esse 59 SELECTION OF DRYING PARAMETER ccccssseeeeeeeees 62 Selection of optimal MASS Sample eee eee eee 62 Influence of sample mass on results repeatability 068 62 Diving temperature sninen naira dail 63 Selection of the drying program eee eee eee 64 Selecion or dying UME araro na E Ei 65 Analysis or diying Droll orsa n a aR 65 COOPERATION WITH PRINTER OR WITH COMPUTER 66 Schemes of connection Cables eee eee 66 LIST OF COMMAND COMPUTER MOISTURE ANALYZER 67 GUIDELINES OF USAGE sisii aa aaa 70 CARE AND MAINTENANCE sssssssssssssssss senses eenn ee 71 Components cleaning of moisture analyzer esse eee eee ee e 71 Replacement Of TUSOS norii annia aa C Soe Eas 74 WEFOUDISSIOOUIMG TT 75 TOM CSIC CHO T 75 MEMORY OF PERFORMED MEASUREMENTG 0000005 77 PRINCIPLE OF USE OF MOISTURE ANALYZER FOR DRYING TEMPERATURE ABOVE 160 C scceseeeeessccsssseeeeesseeeenens 78 1 TECHNICAL PARAMETERS Reading unit 0 1 mg 1 mg Max capacity 50g Accuracy of moisture 0 01 0 001 0 001 for samples to 1 5g reading sample Drying temperature max 160 C optional 250 C range Drying modes standard quick stepped mild Auto switch off time defined moisture stabilisation time
28. alibration determines relations between value shown by the analyzer and standard mass calibration mass which is load and corrects indication if it is necessary Additional equipment of the moisture analyzer is F2 weight to make the calibration 10719701 13 47 56 P41 KOK Ext calibr eekeee function 02 User calibr KANAK Ak Function 03 Calibr test hA kk k function Enter menu group P1 Calibration OS aa Sn Esan Scroll to parameter 01 Ext calibr Press Right key Command to take the weight off the pan is 1 pap displayed pan must be empty After empty raed pan press ENTER key nme Se 18S The analyzer shows command it External Calibration determines mass of empty pan and TTT then following command for user to put weight 50 0 g 4 i Sup 10 1 External Callbratlon Load weight 50 0 g Ent r a After the calibration the instrument returns to submenu P1 Calibration b Press ESC key many times until appears Jfa c After the calibration the instrument returns to submenu P1 d Calibration e Press ESC key many times until appears f 8 1 2 User calibration User s calibration must be done by means of F2 calibration mass KE Samp CO S P KDI Ekt calibi tiiti function Enter menu P1 Calibration d bilgor F te tie te ee H na kusar KE function Scroll to parameter 02 User calibr BA Temp calibro 4 a 6 4 kA function 05 Print report 1 an Press Right key The analyzer shows com
29. alibration mass Old 49 999 g defined during actual calibration description Difference 0 001 g Calibr Userld OR 13LAB calibration mass remembered by the Projectid 15 01 04 analyzer description Old deviation of the calibration description Difference so difference between these External calibration report parameters in the group P2 GLP see point masses 8 2 Printouts for GLP procedures Group of parameters which enables to introduce user s name and project and data declaration which are printed in reports and standard printouts All information can be introduced using analyzer desk or PS keyboard Use PS keyboard It is easier and faster method 8 2 1 User Enter menu group P2 GLP Ast PS gt 01F User Wilk 02 Project W235 03 Time print i 01 off 04 Data print D off 05 User print 0 off 06 Projectprint 0 off O7 td print i 0 i off DB Lastcalprint laff Introducing user s name Using the analyzer keyboard Pressing the navigation key give you access to the parameter 01 User where you can introduce name or number of the operator as series of digital or letters not more than 8 signs Use the direction keys All marks and digits are accessible in closed cycle Select the right one Move into right side and write next mark in After write all marks in press the key ENTER 22 Using PS keyboard Pressing the F2 key enter main menu press the F3 key and sc
30. ceeensseeeeseeeeeeeees 14 Menu OD Tee aaa nreusiatinis einen nce texateeseerieta AN 14 By means of computer keyboard PS type sss sees eee 16 USER MENU OF MOISTURE ANALYZER 0eeeeeeeeeees 18 Calibration Of moisture analyzer eee eee e eee 18 8 1 1 Calibration of moisture analyzer eee ee eee 18 8 1 2 Bee e Le sar enclaves cascode eae 19 8 1 3 Temperature Calibration ccccccsssseeeceseeeceeseeeesseeeeeees 20 8 1 4 Calli allOmleS sitet E N esse 21 8 1 5 Temperature Calibration ccccccsssseecceseeeceeeseeesseeeeeees 21 8 1 6 Printout of the calibration report eee eee eee eee eee 21 Printouts for GLP procedures s sss sese eee 22 8 2 1 USET aaa ana a HE Ha a 22 8 2 2 Se elle staal iatniss E EE S A E 23 8 2 3 Parameters concerning content of GLP procedures 23 SEUNG ime and a sarron a 24 8 3 1 Seng Cate LAT aasa 24 8 3 2 Seting TIMES re nT 24 8 3 3 SCO TT 25 8 3 4 Seting Cale x wise e ore eas cats eevee 25 8 3 5 Determination if date and time should be displayed 26 8 4 Setting parameters of work for the moisture analyzer 0 26 8 4 1 Menu group P4 Readout c csccccccessseeeeeeeeeeeeeesseeeees 26 8 4 2 PING SeN gea a eee 26 8 4 3 Setting the autozero operation eee eee eee e 26 8 4 4 View of the temperature inside the drying chamber 27 8 4 5 INGO ALIV TT 27 8 5 Functions connected with use of RS 232 eee 27 8 5 1 Set up values
31. dditional components in order t 1 to minimize their moisture X 7 Liquid Solids Depending on structure of solid dense or loose determine moisture is faster or flower Size of solid surface decides about speed of drying and reliability of measure Thi sae The surface of solid should be the biggest as itis possible Because solids evaporates UNUTUN moisture by external surface also thickness SS of sample is very important eee thickness Porous substance Liquid Grid substanco Dried substance 61 13 SELECTION OF DRYING PARAMETERS 13 1 Selection of optimal mass sample The sample weight has an influence on both the accuracy of the measurement results and the measurement time With large amounts of samples a great deal of water must vaporize and the moisture determination takes longer To keep the measurement time as short as possible we advise you choose a low weight sample but not so low that attainment of the required measurement accuracy is no longer possible The precision of result High Sample weight The measurement time Long Short Sample weight 13 2 Influence of sample mass on results repeatability Sample weight influences the repeatability of the moisture analyzer The relation between sample weight and repeatability is shown in the following Repeatability 0 6 0 3 0 15 0 06 0 03 The preceding table is based on the assumption that the sample is ideal
32. display backlight improves readability of the displays 06 Brightness changes brightness of display backlit after enter to function by means of keys on keyboard it is possible to change brightness of display iG 07 Contrast change the contrast on the display after enter the function display appears and by means of keys change contrast on the display 08 Analyzer Id information about factory number of the analyzer 09 Software rev information about factory number of the analyzer 10 Parameters printout activation this function causes printout set parameters in user s menu User gives number of the parameters which are printed Start 1 01 Stop 7 12 Print setup 777 EHNA EM kanan L Printing i ees After enter into the parameter of printing display with question appears After the confirmation starts printing through socket RS 232 actual sent set parameters qe 11 Par receive Activation the function causes receive all parameters from computer through RS 232 After enter the function display appears ei Rocolving aT kal D Setup receiving 1 After receive settings the analyzer informs user about how many parameters were accepted and changed and how many declared faulty and not accepted by the program Printing and receive the parameters in very comfortable and fast way to introduce new settings After printing actual parameters to file in the computer user changes the parameters fast and
33. e Printout 1 You can introduce the values from 1 to 80 After introduce number of beginning of the printout introduce number of the text which finishes the printout To do that Enter setting the parameter 03 Printout 1 stop and declare end of the text number of the text which finishes Printout 1 You can introduce values from 1 to 80 After confirmation and return to weighing mode and recording the changes each press the PRINT key prints out declared text 8 6 6 Non standard printouts in drying mode Scheme of creating not standard printout for function of drying is the same as for weighing function The only one characteristic which differs it from the printout is separate definition of three parts of the printout see standard printout for the drying Headline Line Footer Example of definition of drying printout Headline Printout 2 Line Printout 3 Footer Printout 4 34 o standard Si printout 2 2 printout 3 ay a ee et PGFOIPPrintout No 02 Header No 03 Line No 04 Footer No 4 printout 4 05 Pr 1 start 1 06 Pr 1 stop 4 O7 Pr 2 start 101 08 Pr2stop 20 09 pC 2 stant 24 10 Pr 3 stop 2 zi 11 Pr 4 start i Z w 12 Pr 4stop l 35i String 10 iDrying_s 33 String 21 C M c NI String 11 tart cDa 34 String 22 PRONG cosy String 12 ite d LCT String 13 ime t ci String 14 Br yi ng_p String 15 jarameter String 16 ls 6 e p String 17
34. e filter shortens the drying time The glass fibre filter distributes the liquid sample over which wide area as result of its absorbent action Pre drying of the glass fibre filter and storage in which desiccators is necessary only for highly precise measurement result 60 Skin forming and temperature sensitive substances The use of a glass fibre filter can be useful for temperature sensitive and skin forming substances In this case the sample to be dried is covered by the filter and receives a new surface This shields the surface of the sample against direct IR radiation Gentler heating of the samples is based on convection rather than on IR radiation Sugar containing substances Samples containing a large amount of sugar tend to caramelize on the surface In such cases ensure thin laser is applied Also select a moderate temperature Sample application on drying pan Sample distribution Loose materials ss They are dried in natural form RS s Boe B Decomposition of the sample reduces ee ae sb Y e a j smaller dispersions between following Co P Pe i A measurements Sample mass cannot orrec ncorrec be too big Ensure application of a thin and uniform layer thickness Liquids Semi liquid substances are dried in natural form Big amounts of fat in some substances hampers procedure of determining moisture In such cases use additional components e g quartz sand tissue paper filter Before the actual drying dry a
35. ed may cause damage of moisture analyzer mechanism Remember about disconnecting the moisture analyzer from power supply before the cleaning 4 6 Connecting to mains Moisture analyzer can be connected to mains only by means of original supply wire which is basic equipment of balance Rated voltage given on data plate should be consistent with mains rated voltage Supply wire can be connected only to socket with ground contact Switch on supply of moisture analyzer plug of supply wire should be connected to the socket on the back of analyzer casing Display of moisture analyzer will indicate name and number of program next display will indicate 0 000 g for balances with accuracy of 1 mg or 0 0000 g for balances with accuracy of 0 1 mg If indication is different from zero press TARE key 4 7 Connection of additional equipment Before connection of additional equipment or its change printer computer PC disconnect the moisture analyzer from power supply Only additional equipment which is recommended by the manufacturer of moisture analyzer can be connected to it After connecting the devices plug in the moisture analyzer to power supply stie 5 KEYBOARD OF MOISTURE ANALYZER MBP 50 1 Test menu Max 50g d 0 1mg www mrclab com sige oleic Start Stop key switch on off process of drying according to chosen program Esc key resignation from introduced changes exit to one level higher in m
36. enu gis Group of navigation keys change of parameters value moving in menu Print Enter key sending display state to external device E Print or confirmation of chosen value or function Enter TARA key Zeroing the indications On Off key switch on off display of moisture analyzer After switch off the display other subassemblies are supplied moisture analyzer will be in standby mode fo 6 Display key changes type of data displayed during and D gur after drying process Satin Setup key enter to main menu Test menu Test menu key starting choice of drying modes RIL E MENU OF MOISTURE ANALYZER User menu of moisture analyzers is divided into two modes First one is available after pressing SETUP key This menu permits calibration time and data format temperature communication setting and print criteria Second one is available after pressing TEST MENU key This menu permits setting up parameters which includes test temperature profilling timed information and other parameters A test library is also included which holds data for up to 100 tests which can be recalled and run at any time P1 Calibration P1 01 Ext calibr P1 02 User calibr P1 03 Calibr test P1 04 Temp calibr P1 05 Print report P2 GLP P2 01 User P2 02 Project P2 03 Time print P2 04 Date print P2 05 User print P2 06 Project print P2 07 Id print P2 08 Last cal print P3 Date Time P3 01
37. er or the printer Table error 43 suspended transmissionCTS suspended transmissionXOFF ee T HT Incorrect date 51 Wrong date fe ep HE Transgressed admissible time to overcrossed time realize one operation e g setting to zero 18 MEMORY OF PERFORMED MEASUREMENTS Moisture analyzer enables memorizing Max 100 recently performed measurements containing following data such as date measurement time name profile drying temperature drying time start mass final mass and final result Measurements are recorded in pile After memorizing 100 measurements next one 101 measurement will be added in position 99 and whole list will be moved one position upper This will cause deleting of measurement from position 00 To enter in measurements memory 18 09 03 bL Woighing Set program L Start Ee 30sj 0 0 000 5 From weighing state press Display key Window containing particular measurements will appear Rasults 00 gt 28 06 05 01 28 06 05 DZ 29 06 05 03 29 06 05 10 19 26 11 15 30 09 45 30 Tea 09 56 45 Tea Data are arranged according to schedule of their performing if measurement was performed acc to Program from Data Base then next to date and time of measurement name of program is displayed To print data place indicator next to required measurement and press Setup key Rone 00 28 06 05 01 gt 28 06 05 02 29 06 05 03
38. fect conditions set up filter as very fast value of parameter 01 Filter for 1 but if the conditions are difficult vibrations draughts set up filter as slowly or very slowly parameter 01 Filter for 4 or 5 Efficiency of filter working is different for different range of filter working Filter works slower during achieving weighing mass and faster if mass is in set range of filter parameter range of filter working is accessible from level of service menu user has no access to it 8 4 3 Setting the autozero operation Programmable function AUTOZERO controls and corrects zero indication automatically Parameters which define the range and time of autozero are set up by the manufacturer and there is no access to it for the user 26 AUTOZERO function is turn on if the measurement starts at precise zero Turn off the autozero function depends on the unstable result if there is no load on the pan This function is very helpfull during slowly pouring the substance Switch on off AUTOZERO function in the parameter P4 02 8 4 4 View of the temperature inside the drying chamber qOM10T Setup P4011 Filter 3in Y 02 Autozero Ilo a 03 Temperature fi 0d Negative Old Press the Setup key Temperature inside sana m 1 The drying chamber is displayed To return nat eer to previous display press Esc key 8 4 5 Negative Parameter determining method of data indication on the display Depending on
39. g sign disappears Confirm new name and press ENTER Last sign stops flashing 48 H After write the new name set following parameters of the program 10 3 Selection of drying profile There are four programs available when the moisture analyzer is running a test standard fast ramp step In each of these programs parameters are referred to drying temperature and time needed to achieve set temperature The program must be selected according to examined substance Selection of the program is described in further section of the manual Way of setting the profile Test meni Program nran K Program PO1 gt Name FLOUR 100 Press the down arrow key and replace Profile Pi Standard s Dry temp 420 C black arrow next to parameter Profile Switch off Automatic 3 Press navigation key and move to next display Using functional keys or PC keyboard select the profile Select the profile according to described method of moving in user s menu After selection suitable profile set up the other parameters drying temperature and OH time according to data for chosen profile PO1 gt Profile K Standard Dry temp 120 C Program library Program K Protile P01P Profite KT Standard c In standard profile set up drying Dry temp 1420 C temperature Program Y Pralile PO1 gt Profile K Rapid Dry temp 120 C 49 In ramp profile set Ne up the Program library Program
40. gram Press key ENTER and return to main screen The moisture analyzer is ready to work All of the parameters associated with the test selected are now available to be run again You do not have to enter any new data In top part of the screen name of the program and number appear At the left side pictographs of parameters appear on the screen Further procedure is the same as for test in short drying menu see point 9 3 of instruction manual 58 12 PREPARATION OF SAMPLE FOR DRYING This section provides you with essential information on optimum results during tests In this section rules of how to select parameters of drying depending on kind of substance are presented 12 1 Moisture measuring in moisture analyzer During heating the sample loses its mass evaporates The moisture is measured The MRC moisture analyzer contains 2 parts precise analyzer and drying chamber Measurement in halogen moisture analyzer is faster and no additional calculations need to be done the result is displayed during test Independently of method of determining moisture also sample preparation and selection suitable parameters of test have special influence Sample size Kind of substance Drying temperature Drying time Speed of measurements can be enlarged after optimum setting parameters of the instrument depending on examined substances Optimum temperature and drying depends on kind and size of sample and expected preci
41. he same temperature first result should be omitted The first measurement sometimes has an error because of thermal stabilization of drying chamber and the moisture analyzer The sample should be distributed evenly on all of the surface coarse grained substances must be disintegrated before the measurement For substances which evaporate water set up short time of sampling For the substances which evaporate water slowly select the time experimentally If you test the substance which covers impervious coat use sand or tissue paper during drying 70 ADDITIONAL EQUIPMENT OF ANALYTICAL BALANCES 1 Anti vibration table 2 Thermal printer E v KAFKA lt lt 3 PC keyboard type PS 2 17 CARE AND MAINTENANCE In this section you will learn how to keep your moisture analyzer in good condition and how to replace expendable parts halogens safety valve 17 1 Components cleaning of moisture analyzer To continue to obtain precise measurements it is advisable to clean the interior components at regular intervals Please note the following instructions for cleaning your instrument Remember to disconnect the instrument from the power supply before cleaning 71 di bl Open the cover and remove HGRA Ha all components disposable pan the pan handler and cross draft shield pan bracket Use a lint free cloth for pan handle cleaning tetra chamois leather etc and mild cleaning agents
42. ic unit after stability from the instrument Function SEND THE RESULT IN BASIC UNIT IMMEDIATELY Command SI CR LF sends result in basic unit from the instrument Function SEND THE RESULT IN CURRENTLY USED UNIT Command SU CR LF sends the result in current used result after stability Function SEND THE RESULT IN CURRENTLY USED UNIT IMMEDIATELY Command SUI CR LF sends the result in current used unit from the instrument 67 Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command Function Command SET THE MOISTURE ANALYZER TO ZERO Z CR LF set to zero the instrument after stability SET THE MOISTURE ANALYZER TO ZERO IMMEDIATELY ZI CR LF set to zero the instrument immediately after send command if it is possible in this moment TARE IF IT IS STABLE T CR LF set to zero the moisture analyzer after stability TARE IMMEDIATELY TI CR LF tare the instrument immediately after sending the command if it is possible in this moment TARE THE INSTRUMENT IMMEDIATELY TI CR LF tare the instrument immediately after sending command if it is possible in this moment SWITCH ON CONTINUOUS TRANSMISSION IN BASIC UNIT CO CR LF break continuous transmission in basic unit SWITCH ON CONTINUOUS TRANSMISSION IN BASIC
43. igits letters and marks o 1 Ly Move up through collection of the digits letters and marks o 1 do not write in the sign we introduce spaces in the text by pressing this sign Select sign to change by moving in LEFTside next pressing the button causes cancelling flashing sign and makes the previous sign flashes Confirm entered text b by means of PS keyboard B Move to RIGHT side next pressing moves in RIGHT flashing sign if we Pressing the F2 key give you access to main menu press F3 or scroll to group P6 Printouts and press the F2 key to enter menu group Then by means of cursors scroll to demanded parameter and pressing the F2 key to activate procedure of introducing text By means of keyboard write the text MeeR max 8 marks and confirm by the Enter key Repeat the operation for rest of the texts 8 6 4 Selection of printouts According to point 5 2 6 enter menu group P6 Printouts For parameter P6 01 Printout Nr select one of the values standard printout 1 printout 2 printout 3 printout 4 d QM After selection suitable value confirm by the ENTER key 8 6 5 Setting non standard printouts To set up e g Printout 1 Enter group of the parameters P6 Printouts according to point 5 2 6 In the parameter 01 Printout Nr introduce 1 Printout 1 according to point 13 2 2 and in the parameter 02 Printout 1 start declare beginning of the text number of the text which starts th
44. imal capacity of the device Please consider applied tare mass when calculating mass of tested object Never use moisture analyzer in explosive area Moisture analyzer is not designed and adjusted to operate in explosive conditions Do not perform any modifications to the device 2 3 Principles of safety operation Use of MBP moisture analyzer conversely to safety principles and user manual may be hazardous to operator s health and life It is obligatory to acknowledge with safety principles listed in user manual use moisture analyzer onto to determine humidity content in samples and determination of sample mass Any other use of moisture analyzer may be dangerous either to the device or the user before switching on the moisture analyzer make sure that the nominal power of the device specified on its data plate is compatible with the supply in the mains to which moisture analyzer is connectable change of halogen can be carried out only in authorized service protect moisture analyzer against contacts with liquids as the area around moisture analyzer gets heated do not put any inflammable objects or substances in close distance to device substance containing toxic or caustic vapour should be tested in a chamber which absorbs the vapours samples of substances that produce inflammable vapours if heated should have relatively small mass and drying process should be performed in low temperatures please remember that
45. isture analyzer is suitable for transportation purposes Before packing please unplug the device from mains and take out all moveable parts pan covers etc parts of moisture analyzer should be put into original packaging so that they are protected while transport d UNPACKING INSTALLATION AND DEVICE CHECKING 4 1 Installation place and operation place Moisture analyzer should be stored and used in places free from vibration and shakes free of wind and breeze dust free and not higher than 2000 meters above sea level Operation place should be situated in place with good air circulation especially around the device 20 cm around the moisture analyzer and 1 meter from top of the device Room temperature should equal 15 C 40 C Relative humidity of operation room should not exceed 80 in 31 C and decrease linearly to 50 of in 40 C Moisture analyzer should be placed on a wall console or a stable table free of vibration and shakes and distant from heat sources Special attention should be paid to weighing magnetic materials as balance is equipped with a strong magnet 4 2 Unpacking Gently take the moisture analyzer from package take off plastic cartoon and foil transport protections and gently put the device in previously prepared operation place Install components of moisture analyzer according to below schema Montage schema for parts of moisture analyzer disposable pan pan bracke
46. lack necessarily optionally Procedure SS PO1 Name Profile Dry temp Switch off Result Print int Target PO1F Target Program litzrary K Program Taryol Lt FLOUR 100 Standard Press the down arrow key and replace 1720 C l Automatic 3 black arrow next to the parameter Sample Moisture content uM 30 s H None Press navigation key and move to following display to choose option z Using functional keys or PC keyboard C kec select the suitable Select them according 1 to described method in user s menu After selection suitable profile set up other parameters drying temperatures and J time according to displayed data for selected profile 52 Progr mn library K Program Target P01 Target K Optional i i Target weight 15 000 g In option Optional set up sample mass Tolerance 110 and tolerance of this mass If you choose this mass the moisture analyzer informs user to put suitable amount of substance on the pan In other case the instrument starts testing the sample even if its mass is not compatible to settings P01 Target K Obligatury Target weight 5 000 g Tolerance 110 e In option Obligatory set up sample mass and tolerance for this mass If you select option program the moisture analyzer informs user to put suitable amount of substance on the pan In this option program does not start testing sample until settled amount of substance is on the pan
47. mand to introduce Keyinweignt value fg Calibration mass cits If first digit is flashing it can be changed Introduce new external weight using functional keys Confirm calibration mass Analyzer will start Usor Calibration the calibration giving successive commands ma on display H 4 A Analyzer will inform about determining mass of empty pan and next to place User Calibration Nealon missurin the calibration mass of declared mass hy OS RR o a i Usor Callbration Load weight 50 0 g Enter T Eaa Put declared mass on the pan and press key Enter to confirm N User Calibration Weight measuring The instruments returns to menu to group P1 Calibration 19 According to previous point move to weighing mode T 1 External mass must be 3 4 of max capacity 8 1 3 Temperature calibration Calibration of drying chamber is a process which task is to calibrate temperature sensor of moisture analyzer To carry out the temperature calibration of moisture analyzer place the control thermometer in drying chamber hole as show on the picture below hole thermometer 20 Zein 50T Ag s B ba cur salir E Enter menu P1 Calibration KAKA Kd A Function O2 User callie KANA KAKA function Scroll to parameter 04 Temp calibr 03 Calibr test KAKA KAKA function BA K Temp callbr 4 ary funcion 05 Print report 1 on Cambiar Faciory Calloration T ipont O7 50 Fac
48. mp Tine start Temp profile Final Lamp Ambient tomp Stari Temp profile Final temp Ambient tomp Start Time 13 5 Selection of drying time Drying time is determined by choose suitable criterion of drying A switch off criterion is understood to mean the condition which must be met for the moisture analyzer to switch off automatically and the drying The automatic switch off is after settled time independently of loss of mass It is used for substances which decomposes and their mass is not stable The second type recognizes the end of drying automatically The integrated analyzer continuously determines the weight loss of the sample during drying If the weight loss less than 1 mg per unit of time is less than the set level the drying is stopped and the final result is displayed Automatic switch off User has possibility of few types of drying switch off Switch off can be Automatic 1 change 1mg 20s Automatic 2 change 1mg 50s Automatic 3 change 1mg 120s Automatic 4 change 1mg 180s Automatic 5 change 1mg 240s Time defined max time 9h 59min Manual after pressing the key Defined give change of mass Am 0 1 9 9mg and change of time At max 2 55sec Test enables choice of parameters for auto switch off for sample Auto switch off free defined criterions The auto switch off criterion is based on a user defined mean weight loss per unit of time o
49. of drying s63 13 4 Selection of the drying program There are four programs which control the temperature profile Standard drying program Fast drying program Ramp drying program Step drying program STANDARD profile Standard drying is suitable for precise determination of the moisture content of most substances It is the most often used profile of drying RAMP profile Ramp drying is selected if substances are not stable on exposure to the full heating power of the halogen radiator of the start In ramp drying sensitive samples are prevented from decomposition by the gentle heating Ramp drying can also be used successfully with substances which form a skin FAST profile The fast drying profile is suitable for samples with a moisture content between 5 and 15 In fast drying the radiator power exceeds the set temperature value during the first minute following the start of drying This compensates the endothermic heat of vaporization and accelerates the drying process The sample must contain sufficient moisture during the first minute to cool it STEP profile The step drying has a use similar to that of fast drying The duration of excessive temperature stage and the temperature value are freely selectable It is used primarily with samples with a moisture content greater than 15 64 Tomp profile Standard Final temp Ambient temp Start Tira Tomp profile Final tamp Ambient te
50. printouts which are sent to external device printer computer through socket RS 232 one STANDARD with data set in the procedures GLP four NOT STANDARD freely programmed 28 8 6 1 Standard printout The instrument sends after pressing the ENTER PRINT key through RS 232 display load mass and declared variable in submenu P2 GLP Exemplary printouts in weighing mode 62 690 g Date 22 10 2001 Date 22 10 2001 Time 13 04 23 Time 13 16 49 User WILK User WILK Project XW 456 Project XW 456 62 690 g Balance 10 62 685 0 Question mark before load mass indicates that result of weighing is not stable There are three parts in the printout e Headline with information about chosen drying procedure and start mass of the sample e Line partial time of drying and result of the moisture e Footer with the final mass total drying time and final result 8 6 2 Nonstandard printouts Rules about creating not standard printouts 1 user can create own 4 printouts 2 for each printout give text number which starts number e g Printout 1 Start 1 and text number which finishes the printout e g Printout 1 Stop 40 In that case text contents is printed from1 to text 40 3 then write in text contents to lines 1 40 It is recommended to use the PC keyboard 4 Not standard printouts can cloud over each other etc Printout 1 Start 1 Printout 1 Stop 40 Printout 2 Start 20 Printout 2 Stop
51. ps This causes vapouration of humidity from the tested sample While sampling the moisture analyzer is continuously checking the decline of mass and after calculation it displays current indications on the display of the balance Compared to conventional methods of humidity content determination in various materials application of moisture analyzer series MBP significantly shortens measurement time and simplifies testing procedure Moisture analyzer allows for setting of multiple parameters which influence testing of a sample like temperature time drying profiles etc 2 2 Usage conditions CAUTION If drying process is active do not allowed to open drying chamber Moisture analyzer is equipped with a halogen lamp which is very powerful heat source 6 Thus user should pay special attention no to touch those elements of moisture analyzer that get hot while drying procedure disposable pan handle of pan and internal cover of drying chamber Please remember that some elements may become dangerous if heated poisoning vapours danger of ignition or explosion Moisture analyzer can not be used for dynamic weighing Even if small masses are added to taken off from weighing pan than weighing result should only be read if stability marker mu is displayed Do not put magnetic materials on weighing pan of a moisture analyzer This can defect the measuring set of the device Do avoid dynamic loading of weighing pan and do not exceed max
52. r Method of setting parameters as default Progr library K Program PO1 Name Program 1 Profile Standard Dry temp lion te In the menu press the down arrow key and roeg Ee replace the black arrow next to the err o Tp content N parameter Default Target None T coeficient i 0 00 Default K Print l If you press navigation key command to confirm chosen function to restore default values appears Program library Program 2 Set defaults Pressing the ENTER key will set up all PR parameters of the program for primary values and return to main display 54 Program liia K Program zi Program 1 PO1 Name Profile Standard Dry temp 1420 G Switch off Automatic 3 Result i Moisture content 4M Print int 205 Target None T coeficient i 0 00 Default K Print l 10 11 Settings printout Pressing Esc key will make resignation and returns to previous display without any changes Parameter enables printing of inserted program settings on connected printer Procedure LL i Program lik PO1 Name Program 1 Profile Standard Dry temp 1720 G Switch off Automatic 3 Result i Moisture content YLM Print int 205 Target None T coeficient i 0 00 Default i Print K S Program ibrary Programi 2 Print program N _ Press the down arrow key and scroll to parameter Print in menu 55 Press navigation key to display
53. r a user defined mean M loss per unit of 60s As soon as this drops below the present value the measurement is automatically ended Manual switch off With this switch off criterion the measurements process continues until you stop it with the keys START STOP Timed switch off With this switch off criterion the measurement lass until the present drying time has elapsed 13 6 Analysis of drying profile In the first type the drying profile is asymptotic The amount of moisture lost assumes a constant value and no longer changes after drying time With this drying profile repeatable determinations of the moisture content are always simple 65 The measurement result then corresponds exactly to the constant value of the asymptote It is also correspondingly easy to find a suitable switch off criterion In the second type drying runs quickly at the start and then flattens out The moisture content never assumes a constant value The causes of such a drying profile can be as follows The sample exhibits thermal decomposition the decomposition products other volatile components can lead to superimposed profiles owing to their slower vaporization than water The difficult to volatilize components lead to a slow continuous decrease in weight Measurements results of such a drying profile can be optimized eLowering the temperature can slow down the decomposition reaction e The selection of a suitable switch off criterion can allow
54. red accuracy of the measurement result Mechanical size reduction Sample division is usually accomplished by specific types of mills influenced by the sample characteristics Hard brittle samples are mainly reduced in size by pressure impact or friction action cutting action Whatever the operating principle of a mill may be for subsequent moisture determination there must be no loss of moisture during the milling operation The quantitative recovery of the mill chamber should also be simple and complete Use of quartz sand To ensure an optimum drying process samples should always have as large an area as possible Results of substances which form crusts e g glucose syrup or pasty substances e g butter can be considerably improved by mixing with quartz sand Sample pans with a large volume and relatively high walls are needed for this Pasty fat containing and melting substances For pasty fat containing and melting substances use a glass fibre filters is advantageous to increase the surface area of the sample The liquid contained in the substance is uniformly and extensively distributed in the interstices between the fibres throughout the available area Pre drying of the glass fibre filter and storage in a desiccators is necessary only for highly precise measurement results Liquid substances Liquid substances often tend to form drops on the sample pan owing to the surface tension of the liquid The use of commercial glass fibr
55. roll to the parameter dark triangle 01 U ytkownik Pressing the key F2 give you access to setting the parameter firts mark of the number is flashing and pulsing indicator if the number was not written in by means of the keyboard write new name of the user Uzytkownika and confirm by pressing the key Enter Using the keys Esc and Enter move into weighing mode 8 2 2 Project Name of the project contains max 8 marks Project name should be written in the same way as user s name according to point 8 2 1 8 2 3 Parameters concerning content of GLP procedures In the standard printout set up following data which are printed P2 03 Time print measurement time and reports of real time clock P2 04 Date print measurement date and reports of the real time clock P2 05 User print users name inthe parameter P2 01 User P2 06 Project print project name in the parameter P2 02 Project P2 07 ID print analyzer number given by the producer P2 08 Last caribration print printout with the information about last calibration date and time kind deviation The parameters of the data which are printed must be set on 1 on EXAMPLES OF PRINTOUTS FOR DIFFERENT SETTINGS GLP P2 03 time print zon Date 16 01 2002 P2 04 date print ron Time 13 12 30 P2 05 user print ron User R Wilk P2 06 project print on Project Sprawd P2 07 Id print on Balance 11111111 P2 08 last cal print on Last calibration Joo 16 01 2002 13
56. rror Error description number Error of control sum Ea Error in data transmission Error A D 12 Converter error s ve Transgression max measure range Exceed range g g of the instrument Exceed range Transgression max measure range g of the instrument A D Null No divisions of converter v Transgressed max amount of ARTUN divisions of the converter l Transgression admissible value Tara Zer i h ai ero outside the zero or tare range for the g instrument tare TTS ERa pna en Transgression admissible value tare g range for the instrument Difference of values of initiative zero Result gt 10 Max above 10 of factory value check after start zero Difference between start mass pan handler etc for the moisture ji 9 ji analyzer after start and start mass Pesut Sia max recorded in the memory is bigger than 4 turn the instrument on with load on the pan Difference between calibration i s E S mass currently measured and THEIR HER TE MAX calibration mass recorded in the memory is bigger than 1 Value of sample mass below 1 g The sample mass lt 1g Value of the sample mass below The sample mass value settled in the parameter outsider the range sample necessarily in data base of drying programs Outside range Value of the parameter apart from g admissible range Faulty value Inadmissible value of the y parameter Errors in data transmission to the Parity error 42 comput
57. rs E 08 Minutes 47 Seconds 56 Selection of digit change Value of digit change Confirm set value previously changed digit stops flashing Repeat previous actions for following values After set up new time press key ENTER The analyzer returns to submenu P3 Date Time and the hour changes After set up new time return to weighing mode according to point 7 of instruction manual 8 3 4 Setting date Press Right key to set parameter 04 Date ON a o FE 4 75 TEML Year p2004 Month Of Day 05 25 According to previous point 8 3 3 set up present date Then return to weighing mode according to point 7 1 of the manual 8 3 5 Determination if date and time should be displayed User decides if date and time is displayed If suitable values of parameters are set date and time are displayed The values can be changed according to point 6 If parameter 1 date and time are displayed on upper bargraph of screen 8 4 Setting parameters of work for the moisture analyzer The moisture analyzer can be adjusted to difficult conditions of work by means of suitable parameters in group lt P4 Readout gt autozero displaying last digit 8 4 1 Menu group P4 Readout Enter menu group P4 Readout 10 11 01 Setup 13 47 56 P4 gt 01 gt Filter 3 normal 02 Autozero i on 03 Temperature funkction 04 Negative 0 disabled 8 4 2 Filter setting Depending on conditions of work set up filter For per
58. sion of measurement The selection of these parameters can be done after experimental tests 12 2 Sampling and sample preparation Characteristic preparation and size of the sample are all important contributing factors in increasing speed and quality of the measurement process Sampling and the sample preparation have a great influence on the reproducibility of the measured units It is also important that the sample being investigated is a representative part of the total amount of the sample under test Repeatability High The sample reparation Various Always the same 59 The final result of a moisture determination depends on a carefully thought out sample preparation The part of sample used for analysis must be representative of the total quantity The sample preparation includes work processes such as sampling sample division size reduction homogenization and others All of these processes should be carried out as quickly as possible and without loss or uptake of moisture The appropriate standards and directions must be consulted to determine the method of sampling as this is depended upon the product consistency and the amount used Number of samples An increase in the number of samples always lead to an improvement in the Statics reliability of the analysis results The size depends on the homogeneity of the test material the accuracy of the test material the accuracy of the measurement method and the desi
59. t Install cover of drying pan handle chamber Install weighing pan handle chamber cover Install pan supporter Chamber basis insert Put disposable weighing pan in prepared place Setting the pan supporter When installing weighing pan suppeorter pay special attention to positioning of the weighing pan mandrel cross The mandrel is equipped with special cut for unique positioning of the handle towards the cross which eliminates their contact and friction Positioning of weighing pan cross After placing the weighing pan cross on the mandrel turn the cross slightly so that the cutting on the mandrels are situation in correct position When turning the mandrel use most gentle movements so that mechanism of the moisture analyzer is not damaged 4 3 Setting Before switching on the device please level the moisture analyzer using the feet situated at the back of its casing The OS bubble of the level should be situation in the centre of the ring OK 4 4 List of standard elements of the delivery Moisture analyzer Insert for base of the drying chamber Drying chamber cover Pan holder Cross Disposable pan Power cable User manual 10 4 5 Cleaning of moisture analyzer Moisture analyzer should be cleaned with use of a damp cloth Gently rub dirty places Weighing pan must be removed from the moisture analyzer for cleaning Cleaning weighing pan when it is install
60. t of parameters black triangle appears on the display Activate parameter to change it starts flashing Press arrow keys and set up the value Confirm with ENTER key value stops flashing If you selected ramp or step program set up other parameters If you selected standard or fast program set up following steps of drying process To set up other drying parameters press key ENTER The moisture analyzer returns to first display Press the down arrow key and scroll to the following option Finish Press functional keys selection of settings and change of the parameters the same as in previous version and select program of finishing measurement and set up the parameters Switch off E u m y 1m Automatic 4 b D i S E 4M J ks 30s After setting way of finish move to setting of next parameters of drying process Press ENTER key to set up the other parameters The moisture analyzer returns to first display 41 La ome us Print int 30 se Press the down arrow key and scroll to the following option Result Press functional keys selection settings and changes the parameters are done in the same way as in previous step and select method of displaying result Press functional keys selection settings and changes the parameters are done in the same way as in previous step and select method of displaying result Press the down arrow key and scroll to following op
61. tion Printout time It is period of time in seconds The moisture analyzer transfers present result to external device 242 i Pegan Print int j Print int 30 s None gt Perform the measurement after set up the printout l To finish setting up the parameters and determine moisture press ENTER key a The moisture analyzer returns to first display Print int 30 5 Press ENTER key once again The moisture analyzer returns to main display on level you can determine moisture in the sample Ls et program Sta fs 3K S Start suse 0 0005 9 3 Way of performing the drying according to set values of shortened drying menu Adjustments for drying procedure are presented as pictographs at left b 2s S m A 0 000 g side of the display To start drying press the key Start Stop Program show following commands which enable to operate the instrument Act according to them It ensures correct preparation of the sample and testing the sample Set program Start The moisture analyzer displays command to prepare the sample pan b J et the pan are A 3h j Set th Tare swo 0 0005 1909705 Set the pan L Tare b sui 2 047 s Prepare the sample Close b b a sui 0 0005 44 Put the sample pan in the handler on the pan support Mass of the pan appears on the display To ensure stable conditions during tarring closing the drying chamber
62. tory Calibration T Sat tamp value PE 25 Press the navigation key Ne T Factory Calibration T Sat tamp value PC 130 8 1 4 Calibration test During calibration test value of calibration mass is compared to present result of weighing It is just checking and the result have no influence on changes of factors After displaying results press key ESC Calibration test a Move to submenu P1 Calibration b Scroll to function Calibration test c Press key Right d The instrument makes test Check results Cal load on the pan Act calibration mass in moisture analyzer memory Dif difference between these two values e Return to weighing mode in point 6 of instruction manual 8 1 5 Temperature calibration Parameter enebling to carry out temperature sensor calibration in drying chamber 8 1 6 Printout of the calibration report After each calibration report can be printed The report is printed on external printer or sent to computer and recorded in the file to archivize P1 08 Print report 1 on report is printed P1 08 Print report 0 off without printing report 21 Example of the calibration report If parameter is set up 1the report is generated and sent automatically Contents of the printout depends on the set mee nh 8 2 of the manual The variables with values ime R NA H x i x Balice li tome seton 1 takare printed _ Calibr 50 000 g Report contains also c
63. ve fuse from socket Replace the fuse for new one Screw in socket with new fuse 17 3 Troubleshooting Problem display remains dark after switching ON Probable causes no line voltage power cable not connected power line fuse blown instrument faulty Problem the measurements takes too long Probable cause you have selected an unsuitable switch off criterion Try experimentation to arrive at a suitable switch off criterion Problem The measurements are not repeatable Probable causes The samples are not homogeneous i e they have different compositions The more inhomogeneous a sample the larger the amount of sample needed to obtain a repeatable result The drying time is too short Extend the drying time select a suitable switch off criterion You have selected a temperature that is too high and the sample has oxidized Lower the drying temperature The sample boils Lower the drying temperature The temperature sensor is contaminated or faulty Clean the temperature sensor The support on which the instrument is standing is not stable Use a stable support The surroundings are very unstable vibrations draughts etc Change the surrounding into suitable 17 4 Error detection The moisture analyzer utilizes a suitable command on graphic display to indicate an error Command has error number and short description of the reasons of error List of errors in moisture analyzer Command on display E
64. w on list of programs 47 Program library POO laaa ite iiaii ed Kr PO1 gt Program 1 PO2 Program 2 P03 Program 3 P04 Program 4 PUR Program 5 POG Program 6 Program library Program PO1 gt Name K Program 1 Profile Standard Dry temp 1120 C Switch off Automatic 3 Result i Moisture content M Print int i 30s Target None T coeficient 0 00 Default Print To activate program data press navigation key After pressing the key window with saved data in chosen program will be displayed According to described way of moving in menu and making the changes in settings enter required parameter changes Setting the parameters must ensure correct process and reliable results of measurement 10 2 Writing in name of software Name enables to identify and use the program easily depending on tested substance It can contain 12 alphanumerical signs Method of entering the name Program hra K Progam POT Name K FLOUR 100 Profile Standard Dry temp i 120 C Switch off Automatic 3 Program Ibra K Program PD K Name K CORNFLOUR 100 Profile Standard Dry temp 1120 C Switch off Automatic 3 Indicated by black arrow parameter can be changed Press navigation key and activate edition field to change First sing of the new name starts flashing Using functional keys or PC keyboard write the new name of the program e g name of the substance If you write new sign the flashin
65. www mreclab com CE TNGT WiATIONAL CERTIFICATION HETWORK THE STANDARDS INSTITUTION OF ISRAEL Laboratory Equipment Manufacturer A THE INSTRUCTION MANUAL FOR MB P series Moisture Analyzer PLEASE READ THIS MANUAL CAREFULLY BEFORE OPERATION 3 Hagavish st Israel 58817 Tel 972 3 5595252 Fax 972 3 5594529 mrc mrclab com MRC VER 02 11 10 8 2 8 3 TECHNICAL PARAMETERS wascscccesccecscvssccssesuctvctvtcancuds rng ays 5 BASIC INFORMATION sirieias anaana ansaan aaa aaa 6 PUIDOSE OF USE enr a a 6 Be Lesne ela 6 Principles of safety Operation eee eee eee 7 VVC n TRT 7 Supervision over metrological parameters of the moisture ANAIYZON H 8 Datla inthe USer Manali s 0 RZ area iene ean evened 8 ODErallOn e alae 8 TRANSORT AND STORAGE sssssss sss 8 Delve CHECK T 8 PACKAGING ie eriaitresiannave E anvers arden auereta aaa raced 8 UNPACKING INSTALLATION AND DEVICE CHECKING 9 Installation place and Operation place ese eee e 9 UNPACKING caaan ce veisaseaveeec detec Senet eee 9 SEN dace ciseveesicaeitancnevsssti occa uaeucon E 10 List of standard elements of the delivery sse eee 10 Cleaning of moisture analyzer eee e eee eee 11 CONMECIING be TTT 11 Connection of additional equipment sss sese eee eee eee 11 KEYBOARD OF MOISTURE ANALYZER c seeeeeeeeeeees 12 MENU OF MOISTURE ANALYZER cccccccseesseseeeeeeeeeeeeeeees 13 MOVING IN USER MENU 000 ccecceesscseeennseeeeeee
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