User manual no.: IMMU-02-07-09-14-ENG BALANCES 3Y SERIES − ultra-microbalances UYA 3Y − analytical balances XA 3Y − analytical bala
- 10 - • Balance defects, if service claims removing or destroying product’s protective stickers which protect the balance’s housing against unautho
- 100 - 22. FORMULATION Working mode< Formulation> enables preparing mixtures out of several ingredients. The process is conducted automatica
- 101 - On selecting the formulation mode, the display contains the following quick access keys in the bottom bar: 1. Setup – access to balance’s
- 102 - TOLERANCE: balance software accepts mass of an ingredient if it is within set percent tolerance of total ingredient’s mass (±%) - (data acqui
- 103 - As each of ingredients must have its name and mass specified, the operator must know the exact composition of the total mixture. Adding a for
- 104 - 22.4. Using formulas in weighing In activating FORMULATION mode, depending on settings, user can move to formula making process either on
- 105 - To proceed press < > key Caution: Formula making process can be aborted at any moment by pressing <Abort> key. PROCEDURE 2 –
- 106 - • Press < Formulation> key, • Using list of available formulas, select one for making process, • Press < Formulation with targ
- 107 - A user can design content of a report. CAUTION: Data contained in a report and referring to each measurement is set in option <Weighing p
- 108 - An example of report on formula making process: -------------- Report on Formulation ---------------- User John Smith Formula
- 109 - 23. STATISTICS Working mode< Statistics> enables acquiring data form a series of measurements and carrying out statistical calculati
- 11 - 2. UNPACKING AND INSTALLATION 2.1. Ultra-microbalaces UYA 3Y Carefully unpack the balance, remove plastic, cardboard and foil packagings tog
- 110 - 23.1. Setting of keys and workspace for Statistics mode When carrying out a series of measurements, bear in mind below data on operation of k
- 111 - 23.3. Parameters related to a series of measurements Each series of measurements can be accompanied by the following options: previewing resu
- 112 - Below there is an instance of the chart: − Probability distribution chart – on selecting this option the software generates and displays
- 113 - 24. PIPETTE CALIBRATION Balance allows pipette calibration by means of a special balance software or by means of cooperation with computer
- 114 - Balance with a mounted pipette calibration set. Evaporation ring minimizes measurement errors being a result of liquid evaporation occur
- 115 - In order to remove frame one must undo 4 screws fixing it to the housing (as it has been shown in the picture). In thus prepared balance the
- 116 - • Storing calibration results in a database (in a form of reports from calibration process); • Printing reports from pipette calibration
- 117 - 1. Setup – access to balance’s menu 2. Print header 3. Print footer 4. Select pipette The grey coloured workspace contains the follow
- 118 - <Comply with ISO 8655> the error values are neglected, and replaced by those from ISO standard), − Acquire data on ambient conditions
- 119 - 7. Minimum volume: for specifying the minimum volume of a pipette (in case of a pipette with fixed volume, insert <0>); 8. Number of
- 12 - 2.2. Balances XA 3Y; XA 3Y.A A – balance with d=0,01mg unit B – balance with d=0,1mg unit After balance installation at operating place, re
- 120 - Settings for header printout, weighing printout, and footer printout are specified in point. 15.5; below description refers to setting a pri
- 121 - the weighing chamber and the measuring vessel, thus stopping liquid evaporation process. Carried out research proved that the adapter for pip
- 122 - After setting the above options, go to pipettes calibration process. Follow below pipettes calibration procedure: 1. Press < Select pip
- 123 - An example of a report on pipette calibration process: ----------- Pipette calibration ----------- User
- 124 - 25. DIFFERENTIAL WEIGHING Working mode < Differential weighing> enables analysing changes of mass in a single sample or multiple s
- 125 - 1. Setup – access to balance’s menu 2. Series 3. Sample 4. Weighing A 5. Weighing B 6. Weighing T+A 7. Delete value 25.1. A
- 126 - Below list provides the functions of only those soft keys, that are absent in working mode “Weighing” Weighing A Start sampling of initial
- 127 - 25.3. Introducing a series to the Database of Series Database of series comprises series and samples which are components of a series. Wh
- 128 - SELECTING a series: Press quick access key <SERIES>. A window is displayed with database of series. On entering the database, press fie
- 129 - Weighing A On selecting an option, the balance moves to the first sample on the list, for which weighing <A> is still to be carried ou
- 13 - 2.3. Balances AS 3Y series Carefully remove the balance from its packaging, remove the plastic and foil transport protective elements. Gentl
- 130 - Follow above procedure and weigh the following samples. The process can be aborted by pressing < > key. Weighing T On selecting the
- 131 - Caution: If option <Ambient conditions> in the working mode is disabled – set to <No>, the software skips this part of the proce
- 132 - The opened window contains the following data: In case the following procedure is completed for a sample: • weighing A only, then tare va
- 133 - of <3> from all samples in a series, for which this measurement is available (a condition is competing Weighing A for the sample). Dur
- 134 - 25.5. Copy tare The option enables copying once selected tare value in a series to all samples which do not have tare value assigned, and fo
- 135 - 25.7. Deleting a value The option, in case of an error, enables deleting last weighing record added to the database. It applies to all proce
- 136 - Content of a printout of samples: − Dashes − Sample − Sample no. − Status − Tare − Temperature − Humidity − Pressure − Non-standar
- 137 - 26. STATISTICAL QUALITY CONTROL – SQC Working mode < Statistical Quality Control > is intended to carrying out different types of pr
- 138 - 26.1. Working mode activating procedure Procedure: • While in the main window, press soft key located in the upper bar of the display, w
- 139 - Max Value of +T1 error (specified in % of nominal mass) Unit Measuring unit of a product: [g] Caution: Editing product records in the da
- 14 - 2.4. Balances PS 3Y series Carefully remove the balance from its packaging, remove the plastic and foil transport protective elements, and g
- 140 - 26.2. Additional settings of the SQC mode The additional settings enable adjusting the working mode to user’s needs and requirements. Acce
- 141 - Messages displayed during a control process: Batch quantity 1 / 10 - A command on process course and the quantity of all measurements in a t
- 142 - Net 50.038 g ---------Measurement 5 --------------- Net 50.053 g
- 143 - 27. PREPACKAGED GOODS CONTROL (mode not available in balance’s standard version) < PGC> mode operates packed goods control (single s
- 144 - Start control 27.2. Control settings CAUTION: Before entering control settings the user must log in following the login procedure. Pre
- 145 - 27.3. Local settings of PGC mode Local settings of < PGC> mode are available upon clicking grey-coloured information field located
- 146 - List of data defined for control: Pictogram Data Description Name Name Code Product code EAN code Product EAN code Mass Product no
- 147 - • List of data for internal criteria Internal control Internal control criteria on <YES> / off <NO> Sample quantity Sample qu
- 148 - 27.5. Control start procedure To start control: • a user with corresponding access level should be logged in. Caution: Logging procedur
- 149 - • Press START located in a bottom part of a parameters settings window. Program shall proceed to the main window of product control, used
- 15 - Before installing the balance in its intended place of use, remove transport protections (1) and assembly the weighing pan (2) (for APP 10.3Y
- 150 - 27.7. Aborted control restoring procedure, power loss case Program keeps records of control results continuously, this prevents loss of data
- 151 - Where: Product - Product name - Condition value 0,25T , given in [g] - Average mass of a packaging, given in [g] - Standard deviation
- 152 - Press buton to proceed to control without saving to product data the newly estimated average packaging mass. Press buton to proceed t
- 153 - - Nominal value of a controlled product - Average mass of a controlled product - Value of disqualifying average - Negative errors T cha
- 154 - • Work pane Upon pressing button the work pane takes form of a graph with measurements results: Press button again to switch the gr
- 155 - Press button to see a window with measurements performed for actual control: Upon control completion summary of the process is generat
- 156 - Press button to print report on a printer connected to the balance. Press to get back to setting window of < PGC> mode without print
- 157 - Where: Product - Controlled product name Code - Controlled product code - Controlled product nominal value - Controlled product average
- 158 - 27.10. Destructive empty-full and full-empty control mode In the “destructive” control mode independently on the size of product lot over
- 159 - Where: Product - Controlled product name Code - Controlled product code - Controlled product nominal value - Controlled product average
- 16 - XA 3YA series balances Steps: 1. Unscrew and remove top glass protection, next slide the top glass out. 2. Remove left and righ
- 160 - 27.12. A report on determining average tare value An example of a report: Report on average tare: U/22/08/12/14/21/T
- 161 - 27.13. A report on product control An example of a report: ----- PCG Report: U/22/08/12/14/22 ----- ---------
- 162 - 28. MASS CONTROL (not available in standard balance version) Working mode < Mass control> enables controlling mass of a product that
- 163 - • Set batch quantity of a carried out mass control process – touch grey coloured workspace on balance’s display to open a window and select
- 164 - − Standard deviation − Number of T1- errors − Number of T1_ errors • On completing the measuring process for a specific batch, the balanc
- 165 - − Product − Start date − End date − Batch no. − Standard quantity − Nominal mass − Threshold T2- − Threshold T1- − Threshold T1+ −
- 166 - 29. DATABASES Software of balances 3Y series features the following databases < >: PRODUCTS WEIGHING RECORDS CLIENTS FORMULATI
- 167 - 29.1. Processes carried out on databases Databases can be operated only by an authorized personnel. In order to edit databases proceed as fo
- 168 - The following processes can be carried out in almost any of databases: 1. Adding entry to a database < > 2. Searching for a record
- 169 - 10. Tare [product’s tare value, set automatically on selecting a product from the database] 11. Price [Unit price
- 17 - 4. Remove the weighing pan and the pan shield so as not to damage the mechanism while carrying out the cleaning process. Thus prepared dra
- 170 - 29.3. Weighing records Each measurement result sent from a balance to a printer or a computer is saved in the database of weighing records (s
- 171 - 29.4. Clients Database of Clients contains name of Clients for whom the measurements are carried out. Procedure • Enter submenu < Dat
- 172 - 2011.10.12 15:12:15 Caution: It is possible to use an option for searching a report on formulation. List of parameters in a report on f
- 173 - 9. Standard liquid [name of liquid used for determining density measurement of solid object] 10. Standard liquid d
- 174 - 2. Result [status (result) of a control] 3. Start date [date of control start] 4. End date [date of control end] 5. Product [name of a c
- 175 - 1. Product [name of a product which packaging is checked for average tare determining process] 2. Status [status (result) of a process] 3
- 176 - 29.11. Reports on pipette calibration processes Reports contain data on completed pipette calibration processes. In case of multichannel pip
- 177 - • If a series already exists in the database, press field with its name to edit data that is optionally editable List of parameters define
- 178 - 13. Number of T1+ errors [Quantity of +T1 errors] 14. Number of T2+ errors [Quantity of +T2 errors] 15. A chart from control processes
- 179 - 2. Code – method code 3. Description – method description 4. Next control – a field for entering expiry date of the minimum sample. 2 week
- 18 - 2. Replace the back glass. 3. Remove left and right side glass. Left and right side glass are not interchangeable therefore it must be r
- 180 - Example no. 2 a balance AS 220.3Y: No. Tare value Minimum sample Means of operation 1 220.0000 g 0.5000 g The minimum sample refers to all n
- 181 - Procedure: • Enter submenu < Databases> in accordance with point 27 of this user manual, • Enter < Mass Controls > database a
- 182 - 29.16. Ambient conditions Database of ambient conditions contains parameters related to measurement of ambient conditions at a workstation.
- 183 - Caution: It is possible to use an option for searching a record by name or code. 29.19. Printouts Database of Printouts contains all save
- 184 - 2 – cancelling key 3 – accepting key 4 – download a printout template from a file 5 – list of variables for use while designing a printo
- 185 - 29.20. Universal variables Universal Variables are a set of alphanumerical data which are combined with printouts, products or other inform
- 186 - <Data selection> allow the user to specify which data related to measurement are to be exported. • Set option and click <Expor
- 187 - • A created file name consists of database name and balance serial number, e.g. <Weighing date_2602776.txt>. • Unplug the data storag
- 188 - Delete weighments and reports 29.21.3.Function allows to delete a given database weighments and reports. Upon activation of this function th
- 189 - 30. COMMUNICATION Menu Communication is located in a menu group Parameters. It is accessed by pressing Setup key or < Setup > quick
- 19 - Thus prepared draft shield and its glass parts may be thoroughly cleaned. Carry out the cleaning process carefully using the most gentle mo
- 190 - 30.3. WiFi settings For balance equipped with WiFi module the top toolbar of the main display has a respective WiFi icon: Procedure: −
- 191 - Icon with a padlock, placed by a given network name requires password for the network. Press <Refresh> icon to search for available net
- 192 - 31.1. Computer Active connection between a balance and a computer is signalled by visible pictogram displayed in the upper bar of the main
- 193 - advance before execution of the data printout – it is possible only for printers supplied with such option. Example balance settings for a c
- 194 - User printout template {75} {76} Client printout template {85}
- 195 - The balance enables communicating with a barcode scanner using the following ports: • RS 232 (COM1), • RS 232 (COM2), Offset Setting the
- 196 - Caution: For correct balance’s cooperation with a transponder card reader set appropriate baud rate value in submenu < Communication&g
- 197 - − Use the on-screen keyboard to insert desired value of a standard, or − Select desired value of a standard using a list displayed on press
- 198 - 32. INPUTS / OUTPUTS Application of inputs: The set of inputs is used to control balance’s operation. Each of 4 inputs is connectable to th
- 199 - Application of outputs: The set of outputs is used to SIGNAL the status of measurement result. Change of logic status of the output system,
- 2 - SEPTEMBER 2014
- 20 - 2. Remove the back glass 3. Remove left and right side glass. Left and right side glass are not interchangeable therefore it must be reme
- 200 - 33. OTHER PARAMETERS This menu contains global parameters on balance operation, such as: language, date-time, beep sound, display calibra
- 201 - 33.4. Volume The user may adjust power of the loudspeaker which is mounted in a read head: To adjust the volume: Press key, next select „
- 202 - • Use finger or a thin (but not sharp edged) and soft stylus to press and hold a display area occupied by a cross. After pressing the fifth
- 203 - 33.10. Proximity sensors delay Parameter for setting delay of proximity sensors, it is expressed in [ms]. By default the value is set to <
- 204 - ambient conditions at a workstation. The function provides a user with data on the best possible balance settings for obtaining the highest m
- 205 - . Filter Very slow
- 206 - Example of a report: ... --------- Autotest GLP: Report -----
- 207 - 33.12. Start logo Caution: Option enabled only for authorized balance operators. The parameter enables changing a logo that appears on the
- 208 - 34. UPDATE The function contains two modules which enable updating: o Area of a user: SOFTWARE o Metrological parameters: WEIGHING MODU
- 209 - 36. MOVIES Option activating instructional movie explaining how to operate balance functions. To view the movie go to <Movies> paramet
- 21 - Thus prepared draft shield and its glass parts may be thoroughly cleaned. Carry out the cleaning process carefully using the most gentle move
- 210 - To play the movie the user has to: 1. Save the movie to the balance memory (see instruction above) 2. Enter <Movies> parameter grou
- 211 - 37. COMMUNICATION PROTOCOL General information A. A character based communication protocol balance-terminal is designed for establishin
- 212 - SS Result release IC Internal calibration IC1 Lock automatic internal adjustment IC0 Unlock automatic internal adjustment NB Give balance
- 213 - Format: Z CR LF Accessible responses: Z_A CR LF Z_D CR LF - command understood and in progress - command carried out Z_A CR LF Z_^ CR LF
- 214 - Send stable measurement result in basic measuring unit Format: S CR LF Accessible responses: S_A CR LF S_E CR LF - command understood
- 215 - MASS FRAME „P1” CR LF MASS FRAME „P2” CR LF - immediate response of mass value in basic measuring unit from all weighing platforms Frame
- 216 - MASS FORMAT - mass value in current measuring unit is returned immediately Frame format 1 2 3 4 5 6 7-15 16 17 18 19 20 21 S U I stabil
- 217 - Format: CU0 CR LF Accessible responses: CU0_I CR LF - command understood but not accessible at this moment CU0_A CR LF - command understo
- 218 - Accessible responses: SM_OK CR LF SM_I CR LF - command carried out - command understood but not accessible at this moment (e.g.: other wor
- 219 - LOGIN ERRROR CR LF - command understood, an error in PROFILE name, log in failed ES CR LF - command not recognized (error in format) The re
- 22 - 3. BALANCE DESIGN 3.1. Dimensions Ulctramicrobalance UYA 3Y series Balance XA 3Y.A series
- 220 - Format: NB CR LF Accessible responses: NB_A_”x” CR LF - command understood, balance factory number is given in response NB_I CR LF - comman
- 221 - Command: BP_350<CR><LF> – turn BEEP signal for 350 ms Response: BP_OK<CR><LF> – BEEP on Caution! – BEEP signal act
- 222 - Response: OMI <CR><LF> – available working modes are given 2_” Parts counting” <CR><LF> number + name
- 223 - n – parameter, decimal value specifying working mode number. See OMI command description for detailed information. Example Command: OMG<
- 224 - _ _ _ _ _ _ 1 8 3 2 . 0 _ g _ _ CR LF – a printout generated from a balance on pressing key, according to settings of <Weighing printou
- 225 - 38. CONNECTING PERIPHERAL DEVICES Balances 3Y series can cooperate with the following peripheral devices: • Computer, • Receipt printer:
- 226 - Cable: IN / OUT 40. ERROR MESSAGES Err2 Value beyond zero range, Err3 Value beyond tare range, Err8 Tarring / Zeroing opera
- 227 - 41. ADDITIONAL EQUIPMENT Type Name P0136 RS232 cable for KAFKA printer P0151 RS232 cable for EPSON printer KAFKA Thermal printer EPSON
- 228 - 42. APPENDIX A – Variables for printouts 42.1. List of variables Caution: Each of defined variables must be contained in braces: {
- 229 - {30} Gross value {31} Weighing platform no. {32} Factory no. {33} Balance reading unit {34} Range {35} Parts counting: Mass of a stand
- 23 - Balance XA 3Y series Balance XA 3Y.F series
- 230 - {76} User: Code {77} User: Access level {80} Packaging: Name {81} Packaging: Code {82} Packaging: Mass {85} Client: Name {86} Client: Cod
- 231 - {121}2) Average Tare Report: Result {122}2) Average Tare Report: Standard deviation {123}2) Average Tare Report: 0,25T1 {124}2) Average Tare
- 232 - {181} Report on formulation: Status {182} Report on formulation: Measurements {188} Ingredient: Target mass {189} Ingredient: Difference
- 233 - {220} 2) Mass control: Start date {221} 2) Mass control: End date {222} 2) Mass control: Lot no. {223} 2) Mass control: Average {224} 2) Mass
- 234 - {266} Density: Mass of steel standard {267} Density: Mass of aluminum standard {268} Density: Density of steel standard {269} Density: Densit
- 235 - {315} Pipettes: Minimal volume {316} Pipettes: Number of channels {317} Pipettes: Type {318} Pipettes: Type of volume {319} Pipettes: Tested
- 236 - {359} Sample: Humidity {360} Sample: Pressure {361} Sample no. {365} Weighing B: Interval {366} Weighing B: Difference {367} Weighing B: Di
- 237 - Caution: 1) Format of variables {0} and {1} is finished with characters CR LF, (i.e. switching to a next line is carried out automatically
- 238 - Formatting types: • Variables with left justification, • Variables with right justification, • Determining number of characters for prin
- 239 - recognized as text date in format: year : month : day. Should “\” be used in literal meaning, insert: \\; Application list of formatted vari
- 24 - Balance AS 3Y series Balance PS 3Y series
- 240 - 44. APPENDINX E - Settings of ZEBRA printers Baud rate – 9600b/sec Parity control – none Bits – 8bit Stop bits –
- 241 - Barcode with required prefix and suffix in hexadecimal format Barcode without required –fixes in ASCII format Code type 01 30 30 32 31 30 3
- 242 - » Non-standard printout No / Yes Adjustment history Displays a report on completed external adjustments Databases − Products − We
- 243 - » Default gate 192.168.0.1 Tcp - Port 4001 Peripheral devices Description Value Computer - » Port COM 1 » Address 1 » Cont
- 244 - » Input 2 Selection » Input 3 Selection » Input 4 Selection Outputs » Output 1 Selection » Output 2 Selection » Output 3 Sele
- 245 - Others Description Value Language Selection Date and time Settings Beep Selection Touch panel calibration Function Level control
- 246 - MANUFACTURER OF ELECTRONIC WEIGHING INSTRUMENTS RADWAG BALANCES AND SCALES POLAND, 26 – 600 Radom, 28 Bracka Street Phone. +
- 25 - Balance APP 3Y series
- 26 - 3.2. Interfaces Description of available interfaces 1 – Ethernet RJ45 2 – RS232 interface (COM1) 3 – USB port 4 – IN / OUT, RS232 (COM
- 27 - 3.3. Balances with a wireless connection between the terminal and the weighing module (an opt
- 28 - Start-up procedure 3.3.1. On unpacking and placing the balance onto its workstation it is necessary to connect the weighing module and the t
- 29 - No. Icon Description 1 Correct connection of wireless modules – correct cooperation 2 Connection interrupted – loss of connection Termina
- 3 - Table of contents 1. BASIC INFORMATION ... 9 2. UNPACKING AND INSTALLATI
- 30 - 4. STARTUP • On plugging the balance to mains, instrument’s diode ON/LOAD located on indicator’s housing is lit up. • Press powering key
- 31 - 6. SOFTWARE STRUCTURE The structure of balance’s main menu is divided into function groups. Each group comprises parameters grouped by their
- 32 - 7. SOFTWARE WEIGHING WINDOW The software’s main window is divided into 4 main sections: • The upper part of the touch panel displays d
- 33 - 8. LOGGING Full access to balance’s parameters and editing databases requires logging to instrument’s software as an operator with <Admin
- 34 - Access level Software of balances Y2 series provides four access levels: administrator, advanced operator, operator and none (anonymous log
- 35 - 9. OPERATING USER MENU Moving in menu of balances 3Y series is intuitive. The touch panel makes the operation of balance’s software very si
- 36 - 9.2. Return to weighing mode Changes in instrument’s memory are saved permanently on returning to weighing mode. Procedure: - Press key fo
- 37 - 10. WEIGHING Load a weighed object on balance’s weighing pan. On stabilization of weighing result, indicated by stability marker visible on
- 38 - * - Accessibility of measuring units is conditioned by type of balance and its verification status. In non-verified balances all measuring uni
- 39 - 10.3. Balance leveling Balance Y2 series features AutoLEVEL System, which continuously monitors balance’s level status during its operation.
- 4 - 11.7. Adjustment report printout ... 54 11.8. GLP project ...
- 40 - 10.5. Tarring In order to determine net weight of a weighed object, place object’s container (packaging) on balance’s weighing pan, and on sta
- 41 - 10.6. Weighing on dual range balances (ref. balance PS 200/2000.3Y series) Transition from weighing with accuracy of the I weighing range t
- 42 - Correction value [mg] Density of weighed load Sample mass [g] Error value in relation to density of weighed sample 2. Testing the chan
- 43 - In order to avoid errors, the corrected mass value is accompanied by <!> symbol visible on balance’s display and a printout. 2. The ap
- 44 - ONLINE – selecting this option downloads current air density value from a connected THB sensor, if such is connected to the balance, or from i
- 45 - 10.8. Additional parameters on weighing process Changes in settings of functions related to weighing process can in some extend program balanc
- 46 - Sum of measurements – the condition for printing a footer is exceeding mass value set in parameter <Threshold> Number of measurements –
- 47 - Database of printouts enables selecting one of available non-standard printouts visible in menu <PRINTOUTS>, or designing a unique print
- 48 - Available options: • METHOD It is a means for designating an accepted quality standard. Pressing a field displays a window with a list of mi
- 49 - 6. Press <Method> field 7. Which opens a window containing a list of minimum sample methods stored in balance database. 8. Select on
- 5 - 20.5. Density of air ... 92 20.6. Additional settings of de
- 50 - Meaning of the pictograms of minimum sample mode: Mass below the set value of minimum sample. Mass above or equal to the value of minimum sa
- 51 - 10.10. Cooperation with TITRATORS In order to ensure correct cooperation with TITRATORS it is necessary to set <Mass for titrator> opti
- 52 - 11. ADJUSTMENT Balances 3Y series feature automatic internal adjustment system which ensures correct measurement accuracy. Menu <ADJUSTMEN
- 53 - • Acting according to the command, place an ordered weight/standard on balance’s weighing pan and press key, • On completing the adjust
- 54 - Time – adjustment takes place in time intervals declared in menu <Automatic adjustment time > (11.6) Temperature – adjustment is t
- 55 - blank line, dashes, signature, non-standard printout. 11.9. Adjustment history Contains data on all carried out adjustment pro
- 56 - 12. USERS Menu “Users” contains list of balance operators, who are authorized to operate the instrument. The following data can be defined fo
- 57 - 13. ACCESS LEVEL Access level in a balance determines scope of activities that a user can carry out. This menu can only be modified by bala
- 58 - Databases Balance Administrator is also authorized to set access level required to modifying each of the databases. Procedure: Enter grou
- 59 - 14. PROFILES A Profile is a data pack determining: o functioning of working modes, e.g. parts counting, percent setup, etc., o what data i
- 6 - 27.7. Aborted control restoring procedure, power loss case ...150 27.8. Non-destructive average tare control mode ..
- 60 - Deleting a profile Procedure: • Enter balance’s main menu by pressing Setup key, • Enter submenu < Profiles>, • Press and hold a
- 61 - Settings 14.2.1. Name On entering this option, the display opens a message box with keyboard. Insert name of a profile and accept it by p
- 62 - Balance user can influence to some extend the range of signal processing by selecting an appropriate FILTER value. Available options: o very
- 63 - Autozero function: Dosing The function sets autozero operation mode to default one set for dosing mode. Accessible values: NO - autozero
- 64 - 15. WORKING MODES – general information A balance 3Y series in its standard version features the following working modes: Weighing Means
- 65 - requirements. Differential weighing Means of operation: analysis of mass sample change over time. Statistical Quality Control Working mode i
- 66 - 15.2. Parameters related to working modes Each working mode has programmable parameters determining its functioning. Procedure of determinin
- 67 - Proximity sensors 15.3.1.The balance comprises two proximity sensors enabling wave control of the balance therefore the user does not have t
- 68 - 15.4. Information Information on weighing process is displayed in the grey coloured workspace. It contains maximally 6 pieces of information
- 69 - o WEIGHING − N (number of measurements) − Date − Time − Level status − Client − Warehouse − Product − Packaging − Universal variabl
- 7 - 31.4. Transponder card reader ...195 31.5. Additional display ...
- 70 - Print data from header Print data from footer Caution: Measuring units for printing mass indication: − Net – main measuring unit (adjustm
- 71 - 16. PARTS COUNTING Working mode< Parts counting> enables determining quantity of small parts (objects) with equal part mass. Counting
- 72 - 16.1. Additional settings of parts counting mode The additional settings enable adjusting the working mode to user’s needs and requirements. T
- 73 - − Printout mode / Value release − Printouts Means of using the above functions are given in point 10.8. “Additional parameters on weighing
- 74 - • Total mass of all parts loaded on the weighing pan must not be lower than value declared in parameter “Minimal reference mass”. Unless this
- 75 - e) Select option <Assign standard>, reference mass is saved in a product record under entry <Mass>. 16.7. Parts counting proc
- 76 - Procedure • Press grey coloured workspace and press option <Information> • Set Bargraph option to YES, return to parts counting mod
- 77 - • Press < Target Value > key and insert number of parts recognized as the target value, • If tolerance applies, set its value (range
- 78 - 17. CHECKWEIGHING Working mode< Checkweighing > enables controlling sample mass using two threshold (Low and High). Usually it is acce
- 79 - 17.1. Use of checkweighing thresholds Use of checkweighing thresholds can be carried out by: − Selection of Product < > for which Low
- 8 -
- 80 - 18. DOSING Working mode< Dosing> enables carrying out the sampling process, until obtaining a pre-defined target mass. Working m
- 81 - 18.1. Use of database of products in dosing process When weighing, it is possible to use the value of target mass assigned to a product in the
- 82 - Caution: If the Target Value is acquired from the Database of Products, then fields Target Value and Tolerance contain data referring to
- 83 - 19. PERCENT SETUP Working mode< Percent setup> enables comparing weighed load to a reference mass (standard). The process is expressed
- 84 - 19.1. Comparison of sample and (reference) mass standard Comparison of samples with a mass standard can be carried out through: − Giving mass
- 85 - 19.2. Checkweighing, dosing functions in percent setup mode Percent setup mode can be aided by checkweighing and dosing functions. Access to t
- 86 - 3. If tolerance applies, set its value, 4. Accept by pressing < > key, 5. Press High Threshold key and insert its value in [%], 6. A
- 87 - 20. DENSITY Working mode< Density > features three separate modules. The first one is used to determine density of solids, the second
- 88 - 20.1. Set for density estimation of liquids and solid objects For balances XA i AS series The set comprises: 1 Beaker basis 8 Hook 2 Weigh
- 89 - The set comprises: 1 Weighing pan with stand 7 Thermometer 2 Bottom weighing pan of density determining kit for solids 8 Thermometer handle
- 9 - 1. BASIC INFORMATION INTENDED USE Balances 3Y series are intended to precise mass measurement of weighed loads conducted in laboratory condi
- 90 - 20.3. Determining density of solid object Before starting the procedure, it is necessary to determine parameters of the process, such as: −
- 91 - 20.4. Determining density of liquids It is determining mass of a plunger if weighed in the air and in tested liquid. The density of tested liq
- 92 - 20.5. Density of air Density of air < > is a piece of information required to calculate correction of measurement result related to air
- 93 - 9. Load aluminium mass standard on balance’s weighing pan and on stabilization of measurement result accept it by pressing < > key, 10
- 94 - product record of the database of products. To use this function, before starting the density determining process, using database of product s
- 95 - − Date − Time − Standard liquid − Temperature − Density of standard liquid − Weighing 1 − Weighing 2 − Density − Volume − Product −
- 96 - − Density of steel standard − Density of aluminium standard − Weighing 1 − Weighing 2 − Density − Product − Warehouse − Client − Empt
- 97 - Use of data contained in the header and footer. Should data from header and/or footer be used, follow below procedure: o Press < Print
- 98 - On selecting the animal weighing mode, the display contains the following quick access keys in the bottom bar: 1. Setup – access to balance’
- 99 - Threshold It is a value expressed in mass measuring units. in order to start measurement, the indication has to exceed value set in the thres
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