User Manual HTY Multifunctional scales Manual number: ITKU-66-04-01-13-A M AN UF ACT UR ER OF EL ECT RON IC WEIGHING INSTRUMENTS RADWAG Wagi Elektroniczne, 26–600 Radom, Bracka 28, POLAND Phone +48 48 38 48 800, fax. +48 48 385 00 10 export@radwag.com www.radwag.
JANUARY 2013 2
Table OF CONTENTS 1. INTENDED USE ..................................................................................................................................................8 2. PRECAUTIONARY MEASURES .......................................................................................................................8 2.1. Precautions ...................................................................................................................................................8 2.2.
16. DEVICES .........................................................................................................................................................48 16.1. Computer ..................................................................................................................................................48 16.1.1. Computer port ................................................................................................................................48 16.1.2. Computer address ..
23.3. Changes in software .................................................................................................................................90 24. SPECIAL FUNCTIONS OF WORKING MODES ...........................................................................................90 24.1. Working modes accessibility ....................................................................................................................92 24.2. Recording mode ...............................................
30.13. Report from estimating average tare ....................................................................................................150 30.14. Report from product testing ..................................................................................................................151 31. WORKING MODES – DENSITY ..................................................................................................................154 31.1. Starting the working mode ..................................
34.4.14. Set lower threshold....................................................................................................................192 34.4.15. Set upper threshold ...................................................................................................................192 34.4.16. Read lower threshold ................................................................................................................192 34.4.17. Read upper threshold ........................................
1. INTENDED USE HTY scales are the response for the market demands concerning simplicity of operation and high functionality. They are intended for quick and precise weighing in industrial conditions. They are enclosed in stainless steel casings. They can operate in high humidity and wide temperature range from -10°C to +40°C. TFT 5.7” colour graphic displays with touch panels allows for intuitive operation without using keys.
2.3. Scale washing Weighing platforms are made of stainless steel (according to standards PN–0H18N9, EN-1.4301, AISI–304) and silicon elements. There is an exception, zinc coated overhead scales and painted livestock scales made of mild constructional steel with aluminium cover plate on the platform, polyester overlays and stainless steel or polyamide glands. Caution: Washing and disinfection agents should be matched to the scale.
Water with detergent Jet of water Hot water –max 80°C Platforms with tracks yes yes yes Indicator/terminal yes no no Platform with railing yes yes yes Indicator/terminal yes no no Load bearing structure with he load cell yes yes yes Indicator/terminal yes no no Platform yes no no Indicator/terminal yes no no Taken off pan yes yes yes Type: Ramp scales Livestock scales Overhead scales Platform waterproof scales 3. WARRANTY CONDITIONS A.
C. RADWAG does not take any responsibility connected with destructions or losses derives from non-authorized or inappropriate (not adequate to manuals) production or service procedures, D. Warranty does not cover: • Mechanical failures caused by inappropriate maintenance of the device or failures of thermal or chemical origin or caused by atmospheric discharge, overvoltage in mains or other random event, • Inappropriate cleaning. E.
5. SCALE STRUCTURE 5.1. Main dimensions Main dimensions of PUE HY 5.2.
12345678910111213- Earth terminal ground Power cable gland Ethernet connector 3IN/3OUT connector RS232 connector USB connector Gland for optional equipment (8IN/8OUT, etc) Gland for Load cell cable Gland for optional equipment Gland for optional equipment Gland for second load cell cable Gland for 3-thr load cell cable Gland for 4-thr load cell cable 5.3.
4INPUTS Pin1 – NC Pin2 – NC Pin3 – NC Pin4 – +24VDC Pin5 – IN3 Pin6 – IN2 Pin7 – IN1 Pin8 – IN4 Ethernet Pin1 – Rx+ Pin2 – Tx+ Pin3 – RxPin4 – Tx- USB Pin1 – Vcc Pin2 – DPin3 – D+ Pin4 – GND 6. GETTING STARTED • After the terminal is connected to power the STB/LOAD diode starts to light. • Press to start the operating system loading procedure. Windows CE together with RADWAG software loading is signalled by blinking the red diode ON/LOAD.
7. KEYPAD OVERLAY 8.
Function key (entering the menu) … Programmable key 9. PROGRAM STRUCTURE The main menu has been divided into twelve functional groups. In every group there are parameters of similar use. 9.1.
9.2. Inventory of parameters 9.2.1. Scale parameters - weighing Pictogram Description Value Median Filter 0.5 Filter Fast Autozero LO threshold 0.1 Last digit Always 9.2.2.
Checkweighing Tare mode Single Labelling mode - Number of labels 1 No. of cumulative labels 1 No.
Number of labels 1 No. of cumulative labels 1 No. of CC labels 1 C label automatic triggering - Mode None Threshold 100 CC label automatic triggering - Mode None Threshold 100 Statistics Global Percent setup - Save Mode Manual, each stable Down-weighing Checkweighing Tare mode Single Labelling mode - Number of labels 1 No. of cumulative labels 1 No.
CC label automatic triggering - Mode None Threshold 100 Statistics Global Dosing - Ask for multiplier Ask for number of cycles Confirm batching ingredients manually No.
Bulk batching output - Output 1 0 Output 2 0 Output 3 0 Output 4 0 Output 5 0 Output 6 0 Output 7 0 Output 8 0 Output 9 0 Output 10 0 Output 11 0 Output 12 0 Correction 0 Maximum correctional value 0 Formulation - Ask for multiplier Ask for number of cycles Confirm batching ingredients manually Automatic tare Ingredient control Portion weighing Report printout Animal weighing 21 -
Averaging time 5 Automatic mode Checkweighing Tare mode Single Labelling mode - Number of labels 1 No. of cumulative labels 1 No.
3 Unit g/cm Save Mode Manual, each stable Checkweighing Tare mode Single Statistics Global CPG - Save Mode Manual, each stable Number of accessible controls 1 Ask for batch number Password required 9.2.3.
Parity None Ethernet - DHCP IP Address 192.168.0.2 Subnet mask 255.255.255.0 Gateway 192.168.0.1 DNS 192.168.0.1 MAC Address - Tcp - Port 4001 9.2.4.
Port RS 232 (1) Code page 1250 Printouts - Weighing printout template See ch. 16.2.3 Cumulative printout template See ch. 16.2.3 Cumulative printout template for cumulative data See ch. 16.2.3 Adjustment report printout template See ch. 22.3 Dosing report printout template See ch. 28.7 Formulation report printout template See ch. 29.5 Printout Template of an Ingredient in a Formulation See ch. 16.2.3 CPG report printout pattern (Control of Packacked Goods) See ch. 30.
Suffix 0d Field selection See ch. 16.3.3 Test See ch. 16.3.4 Transponder card reader - Port None Additional display - Port None Template See ch. 16.5.2 9.2.5. Display Pictogram Description Value Text information - Displaying template See ch. 17.1.1 Left displaying template See ch. 17.1.1 Right displaying template See ch. 17.1.
Set Default - Button functions See ch. 17.
Linear - Min threshold signalling colour Red OK threshold signalling colour Green Max threshold signalling colour Red Min Max range background colour Turquoise OK range signalling colour Turquoise Gradient 9.2.6.
Outputs - Output 1 None Output 2 None Output 3 None Output 4 None Output 5 None Output 6 None Output 7 None Output 8 None Output 9 None Output 10 None Output 11 None Output 12 None 9.2.7.
Formulations Administrator Packages Administrator Warehouses Administrator Labels Administrator Weighing counter Administrator Delete older data Advanced Operator Description Value Accessibility - 9.2.8. Units Pictogram g ct lb oz N Start unit None Defined unit 1 - Multiplier 0 Name - Defined unit 1 - Multiplier 0 Name - Acceleration of gravity 9.
9.2.9. Other Pictogram Description Value Language Polish Date & Time - Beep Yes Touch screen calibration - Screen brightness - Cursor 9.2.10. User Adjustment An option only for non-verified scale Pictogram Description Value Setting of start mass - Adjustment - Report printout Adjustment track record 9.2.11. Info Submenu < Info> is for viewing information: • Scale factory number, • Program version, • Scale program version.
9.2.12. Update Pictogram Description Value Software version on server Check version Update from server - Update from pendrive - Changes in software - 10. INDICATING WINDOW Main view: In the main application window one can see four separate parts: • • • • Upper bar, Weighing window, Workspace, Function keys.
10.1. Upper bar The upper bar on the display contains the following data: Pictogram and name of an active working mode Logged user Pictogram of an active connection with a computer Date and time 10.2. Weighing window The weighing window contains data on carried out weighing process: 10.3. Workspace The workspace is located under the weighing window: The workspace features three displaying templates.
The data conatined in the workspace is optionally programmable for each of the working modes. The default template format is described in point 17.1.1 of this user manual. Notice: An exception is an “initial workspace window” in the CPG mode, containing a logo and non-editable anvigating line: 10.4. Function keys Below the workspace area there is a set of on-screen function keys: The on-screen function keys are editable in each of the wavailable working modes.
• After entering < Admin> a screen keyboard runs with editing window for inscribing a password, • Type password „1111” and confirm by pressing , • The program returns to the main window and in the title bar you will see instead of . 11.2.
1) Operator Access to parameters in submenu: , 1) (excluding the group ), . Can start and perform all weighing procedures. Access to in menu . Advanced Operator Access to parameters in submenus: , , , , , 1) . Can start and perform all weighing procedures. Access to in menu 2) .
12. NAVIGATING WITHIN THE MENU Owing to the colour display with the touch panel navigating within the menu is simple and intuitive. 12.1. Keys Entering the main menu Menu list „up” Menu list „down” Menu list „top” Menu list „end” Scrolling „up-down” Enter (OK) or or Abort Add a new item in a database Disabeling the formerly selected record e.g.
Screen keyboard on / off Reading a printout template from a *.lb file (active after connecting a pendrive) Saving printout template in a file format *.lb (option enabled on plugging a portable data storage device to scale port) Variables for a printout template One level up or Immediate exit to the main window 12.2. Return to weighing Chnages made to the scale’s settings are automatically saved in the memory on returning to the main software window.
• Avoid applying mechanical shocks to the weight pan: • Loads should be placed in the centre of the pan (eccentric errors are outlined in PN-EN 45501 chapter 3.5 and 3.6.
Special line scales should be loaded with intended loads: • For ramp scales (hand trucks used in meat industry) the platform should be matched to the trucks with maximum weight and the wheels were close to the load-bearing sections: • For livestock scales – swine, cattle: − platforms with low railing for swine, − platforms with high railing reinforced connecting links at the top edge.
13.2. Zeroing In order to zero the indication choose a platform on the touch panel and . After zeroing is performed the indication is equal zero and press and . following symbols usually appear: Zeroing is possible only when the indication is stable. Notice: Zeroing is possible only within ±2% of full range around zero. If the zeroed value is beyond the interval of ±2%, Err2 is displayed. 13.3. Tarring In order to tare the scale choose a platform on the touch panel if necessary, .
• The program returns to weighing and the and the display shows the entered value with the „–” sign provided there was zero before on the display. 13.5. Weighing for dual range scales Switching between the I range and the II range happens automatically (exceeding Max of the I range). Weighings in the second range is signalled by a pictogram in the top left corner of the display .
Notice: 1. The user can also declare the start unit and determine two custom weighing units (user defined) – see point 20 of this user manual; 2. The procedure of attributing functions to buttons is described in ch. 17.2 of this manual. 14. SCALE PARAMETERS Users can set the scale according to the ambient conditions (filtering level) or own needs (autozero) and set the LO threshold for minimum load that enables operation of some functions. This parameters are placed in < Weighing>.
Procedure: • Enter < < Weighing> according to ch. 14 of the manual, select Median Filter> and then set an appropriate value. Accessible settings: None - median filter is off 0.5, 1, 1.5, 2, 2.5 - filtering level to choose 14.2. Filter This filter is intended to suppress continuous mechanical vibrations at the cost of stabilization time. Procedure: • Enter < < Weighing> according to ch. 14 of the manual, select Filter> and then set an appropriate value. Accessible settings: None, V.
Procedure: • Enter < < Weighing> according to ch. 14 of the manual, select Autozero> and then set an appropriate value. Accessible settings: - Autozero off Autozero on 14.4. Minimum weight for different functions (LO) Parameter is associated with automatic weighing. Next weighing will not be saved until the indication goes under the THRESHOLD LO (net). Procedure: • After entering < Threshold Lo> according to ch.
Accessible settings: - Always Never When stable Last digit always visible Last digit always switched off Last digit visible only on stable indication of mass 15. COMMUNICATION The scale can communicate with external devices via different ports: • RS232 (1), • RS232 (2), • Ethernet, • Tcp. The communication can be configured in parameters’ group Communication>. < In order to enter < „ Communication>, press and then: Communication”. 15.1.
15.2. ETHERNET setting Procedure: • Enter < select < Communication> according to ch.15 of the manual, Ethernet> and then set an appropriate value. Following settings are accessible for Ethernet: • • • • • • DHCP IP Address Subnet Mask Default gateway DNS MAC Address Yes – No - 192.168.0.2 - 255.255.255.0 - 192.168.0.1 - 192.168.0.1 - --- Notice: 1. The above settings are presented for information purpose only.
Procedure: • Enter < Communication> parameter group as described in chapter 16 of the manual, Tcp / Port” then you will see window • Select: „ with the screen keyboard, • Enter the required number and press . Notice: The number of TCP port in RADWAG instruments is set to default value: 4001. 16. DEVICES 16.1. Computer The scale can cooperate with a computer. Active connection scale-computer in the top bar of the main window.
16.1.2. Computer address Procedure: • Enter < Devices> parameter group as described in chapter 16 of the manual, Computer / Address” then the window
• Choose „ with the screen keyboard appears, • Enter the required address and confirm it by pressing . 16.1.3. Continuous transmission Users can enable continuous transmission from the scale to a computer.Procedure: • Enter < Devices> parameter group as described in chapter 16 of the manual, Computer / Weighing Printout Template” then • Choose „ the editing field with the screen keyboard appears, • Modify the template if necessary and confirm the changes by pressing . Notice: There are additional buttons in the bottom line of the screen keyboard. They can be used while modifying a printout template.: Screen keyboard on/off Reading a printout template from a *.
Procedure: • Enter < Devices> parameter group as described in chapter 16 of the manual, • Choose „ Computer / E2R System / and then set an appropriate value. System is active” Accessible settings: - System is not active System is active • If during cooperation with < E2R System> product selection lock is required for operators, go to parameter < Lock selecting .
16.2.1. Printer port Procedure: • Enter < Devices> parameter group as described in chapter 16 Printer / of the manual, choose „ appropriate option. Port” and then select an Printers can be attached to: • • • • RS232 (1), RS232 (2), USB, Tcp. 16.2.2. Printer code page Procedure: • Enter parameters < of the manual, Devices> as described in chapter 16 Printer / • Choose „ will be displayed, Code Page” then the screen keyboard • Write the required code page and confirm by pressing .
• After editing a template a memo box with the default content and the screen keyboard, • Modify the template according to your requirements and confirm it by pressing . Notice: There are additional buttons in the bottom line of the screen keyboard. They can be used while modifying a printout template.: Screen keyboard on/off Reading a printout template from a *.lb file (button active while connecting a USB pendrive) Saving printout template in a file format *.
Product Printout Template {50} {51} Operator Printout Template {75} {76} Client Printout Template {85} {86} Warehouse Printout Template {130} {131} Package Printout Template {80} {81} {82} Adjustment report printout template See ch. 22.3 16.3. Barcode scanner The balance allows for cooperation with a barcode scanner. The scanner can be used for quick search of: • • • • • • • • • Products, Clients, Packages, Warehouses, Dosing process, Formulation, Universal variables, Lot number, Batch number.
16.3.1. Port for barcode scanner Procedure: • Enter < „ Devices> according to ch.16 of the manual, choose Barcode reader / Port” and then set the appropriate value. Barcode scanners can be connected to: • RS232 (1), • RS232 (2). 16.3.2. Prefix / Suffix Users can edit a prefix < Prefix> or / and suffix < Suffix> in order to adjust the program to accept transmission frames from the scanner. Notice: A special protocol is required in order the code be received by RADWAG equipment.
Procedure: • Enter < Devices> according to ch.
Notice: An exception from the above is < additional submenu < Formulation>, which features an Ingredient> containing the following parameters: Filtering Declaring an item, according to which searching is supposed to be performed (options: None, Code) Offset Setting the first significant character in code from which the comparison with items is performed during searching.
Procedure: • Enter submenu < manual, Barcode Scanner> according to ch. 16.3 of this Test> window is opened • After entering parameter < with an ASCII text box and HEX (hexadecimal) field, • After scanning the code is entered to the ASCII field and HEX filed and at the bottom of the window a test result is displayed.
The scale can communicate with the reader via following ports: • RS232 (1), • RS232 (2). 16.4.2. Procedure of attributing the card number to an operator To use a transponder card to log on an operator the card needs to be ascribed to the operator in the database of operators. Procedure: • Connect the transponder card reader to the required communication port (RS 232 (1) or RS 232 (2)), • Choose a communication port for the reader (see ch. 16.4.
Communication with additional displays can be performed via following ports: • RS232 (1), • RS232 (2), • Tcp. 16.5.2. Communication protocol frame Scale with following displays: • WD display, • WWG display. To start cooperation of scale with displays go to parameter < Sample> and define an appropriate communication protocol. Procedure: • Enter parameters’ group < manual, Devices> according to ch.
17. DISPLAY Users can adapt the main display and visible information to their needs. All parameters of the display can be found in the parameters’ group Display>. Entering < < Display> can be made in two ways: and then: „ • Pressing Display”, • Direct pressing the workspace area of the main display (does not apply to the “home screen” and “settings display” of the CPG (Control of Prepacked Goods mode).
Type Changing font type for text data displayed in the workspace. Available fonts: Arial, Courier. Font size Declaring font size of text data displayed in the workspace. Available font size: Small, Medium, Large. Bold font Bolded font for text data displayed in the worspace. Tilt Text data in the workspace in italics. Colour Font colour for text data in the workspace. Available in 18 colours palette. Background colour Colour of the workspace background. Available in 18 colours palette.
• Seelct option < Text information> and then a desired displaying template, which is followed by displaying an editing field with is default content and an on-screen keyboard, • Edit the content of the selected displaying template and accept it by pressing key. Notice: There are additional buttons in the bottom line of the screen keyboard. They can be used while modifying a display template. : Screen keyboard on/off Reading a template from a file with format *.
Dosing: Dosing process: {175} Formulation: {220} {40:Ingredient:,-12}{230}/{231}[{226}] {40:Portion:,-12}{228}{11}/{227}{11} {40:Charge:,-12}{232}/{233} {40:Completed:,-12}{225:F0} Density: Product: {50} Animal weighing: {40:Tare:,-15}{9}{11} {40:Gross:,-15}{8}{11} 17.2. Function keys In submenu < Actions> users can set actions following keys: function keys, screen keys, Function keys and proximity sensors are programmable specifically for each working mode.
Settings screen Process screen Screen button 1 - Set control F1 Button - Choose product F2 Button - Choose client F3 Button - Set tare Screen button 1 - Local parameters Screen button 7 - Return to home screen Screen button 8 - Start Screen button 9 - Start F1 Button - Choose product F2 Button - Choose client F3 Button - Set tare Screen button 6 - Data on control in progress Screen button 7 - Change: Workspace / chart Screen button 8 - Stop Screen button 9 - Stop Default func
Parts counting: Percent setup: Dosing: Screen button 4 - Edit lot number Screen button 5 - Edit batch number Screen button 6 - C Statistics : Zero F1 Button - Choose product F2 Button - Choose client F3 Button - Set tare Screen button 1 - Local parameters Screen button 2 - Choose package Screen button 3 - Insert unit mass Screen button 4 - Estimate unit mass Screen button 5 - Ascribe standard F1 Button - Choose product F2 Button - Choose client F3 Button - Set tare Screen butt
Recipes: Density: Screen button 3 - Start Screen button 4 - Stop Screen button 5 - Emergency stop F1 Button - Select formulation F2 Button - Choose client F3 Button - Set tare Screen button 1 - Local parameters Screen button 2 - Select formulation Screen button 3 - Start Screen button 4 - Stop Screen button 5 - Emergency stop Screen button 6 - Previous component Screen button 7 - Next component Screen button 8 - Give mass Screen button 9 - Edit lot number F1 Button - Choose
Animal weighing: F1 Button - Choose product F2 Button - Choose client F3 Button - Set tare Screen button 1 - Local parameters Screen button 2 - Start Notice: The list of functions that can be attributed to keys or buttons is listed in APPENDIX B of this manual. 17.3. Displaying platforms If a scale is equipped with two platforms users can switch between platforms in three ways: • By pressing the platform number on the scale screen, • By pressing a formerly defined button < Change platform>.
17.4. Bargraph A bargraph is a typical visualisation procedure. It helps in quick weighing. It requires less concentration to read if a weighing is between minimum and maximum thresholds. 17.4.1. Bargraph type To see the bargraph on the screen enable it in parameters. Procedure: • Enter submenu “ Display / point 17 of this user manual, • Seelct option < Bargraph” in accordance with Bargraph type> and set desired bargraph type.
Min threshold signalling colour Colour selection for signaling MIN threshold. 18 colours palette available. OK threshold signalling colour Colour selection for signaling OK threshold. 18 colours palette available. Max threshold signalling colour Colour selection for signaling MAX threshold. 18 colours palette available. Gradient Enabling / Disabling filling effect “Gradient” type. Background colour Colour selection of a bargraph background. 18 colours palette available.
17.4.3.
• The right red field – signals that the load on the pan is greater than the maximum weighing threshold (Max threshold). 17.4.4. Bargraph type: „Linear” Settings of “Linear” bargraph are accessible in submenu “ Display / Bargraph / Linear”: Min threshold signalling colour Colour selection for signaling MIN threshold. 18 colours palette available. OK threshold signalling colour Colour selection for signaling OK threshold. 18 colours palette available.
• Signalization of mass exceeding the value set in MAX threshold: 17.4.5. “Control” bargraph The “Control” bargraph is operated only in the working mode < Means of operation: The bargraph features signalization points of: • • • • • • Nominal mass Qn declated for a product, MIN, MAX thresholds – if such are declared, Mass value for Qn-T, Mass value for Qn-2T, Mass value for Qn+T, Mass value for Qn+2T.
The bargraph field between the above values gets automatically rescaled and it is additonally marked by a “magnifier” pictogram visible in graph’s left corner. • Signaling mass btween the value of Qn+T and Qn-2T: • Signalling mass above the set value of Qn+2T: Caution: In case of additional declaring the values for MIN, MAX limits, the “control” bargraph refers to the MIN, MAX limits and the nominal mass, but without displaying the errors for T and 2T. Qn MIN MAX 18.
• Choose < Inputs> and enter the selected input you will see a list of functions to ascribe, • Choose the required function from the list and return to weighing saving the changes according to ch. 12.2 of this manual. Notice: The list of functions to ascribe to inputs are described in APPENDIX B of this manual. By default inputs have no ascribed functions . 18.2. Configuration of outputs Ascribing a function to the output enables the output at the same time.
• Choose the required function from the list and return to weighing saving the changes according to ch. 12.2 of this manual. Notice: By default all outputs have no function attributed – setting . 19. AUTHORIZATION The submenu < Authorization> is accessible only while being logged in as the Administrator. In this group of parameters access levels can be outlined. To enter submenu < „ Authorization>, press and then: Authorization”. 19.1.
Procedure: • Enter parameters’ group < Authorization> according to ch. 19 of the manual, choose < the parameter. Date and time>, and then set Accessible authorization levels: None, Operator, Advanced Operator, Administrator. Notice: Setting allows free access to settings of date and time (without the need of logging in). 19.3. Printouts Default settings of the scale allows a logged on Administrator to edit printout templates. Software allows to change the access level to option Printouts>.
• • • • • • Database of Formulations, Database of Dosing processes, Database of Packages, Database of Warehouses, Database of Labels, Weighing counter. Procedure: • Authorization> according to ch. 19 Enter parameters’ group < of the manual, choose < Databases>, and then set the parameter. Accessible authorization levels: None, Operator, Advanced Operator, Administrator. Notice: Setting allows free access to settings of date and time (without the need of logging in). 19.5.
20. UNITS Scale, in submenu < • • • • Units> enables selecting: Declaring accessibility of the weighing untis, Declaring the start unit, Determining two user defined units (custom units), Changing the value of g-cor (the value of gravitational acceleration force). To enter submenu < Units>, press and then: „ Units”. 20.1.
• Select option < Start units> and choose a start unit from displayed list of available weighing units. Possible selection: • • • • • • • none gram [g] kilogram [kg] carat [ct] pound [lb] ounce [oz] * Newton [N] * *) – weighing unit inaccessible in a verified scale • Exit to main manu with procedure of saving changes, • On restarting the scale, the instrument operates with enabled start unit. 20.3.
20.4. Acceleration of gravity Parameter < Acceleration of gravity> eliminates the changes of gravitational acceleration force at different latitudes and altitudes in case of weighing process with application of “Newton” [N] weighing unit. Procedure: • Enter submenu < manual, Units> in accordance with ch.
21.2. Setting date and time Users can set date and time that are visible in the main window of the display. Entering the edition of date and time can be made in two ways: • Pressing the field „date and time” in the top bar of the main screen, • Pressing button and then: „ Others / Date and Time”. After entering the setting of date and time the screen keyboard appears. Set year, month, day, hour, minutes and confirm by pressing .
• Using a thin and soft pointer press (keep pressed for some time) th in the point where the cross appears, after indicating the 4 place confirm changes by pressing ENTER/PRINT. 21.5. Screen brightness Scale user can change brightness of the screen in the range between 0% and 100%. Notice: The default screen brightness is set to 90%.
22. USER ADJUSTMENT An option only for non-verified scale Scales require to recalculate internal divisions to more suitable ones (e.g. g, kg etc.). In order to do this they require an adjustment factor. It is adjusted during the adjustment procedure using a mass standard. Adjustment should be carried out if weighing a standard mass shows a different mass value. To enter < „ User Adjustment>, press key and then: User Adjustment”. 22.1.
• Place determined mass on pan of platform 1 and then select , • After the procedure of adjustment factor determination following command appears: • Accept the message box by pressing mode. key and return to weighing < Setting of start mass> parameter allows to adjust start mass of platform 1. Notice: The factory adjustment process for platforms 2, 3, 4 is analogical to the one described above. 22.2.
• Take the load off the pan of platform 1, . The following message appears during adjusting • Press button start mass: „Evaluation of starting mass”, • After the procedure has been completed the following message box appears: • Accept the message box by pressing mode. key and return to weighing 22.3. Report from adjustment process Parameter < Report printout> enables activating the function of automatic printout of a report from adjustment process on a printer plugged to the scale.
22.4. Adjustment track record Each completed adjustment process is automatically saved in scale’s database in submenu < Adjustment track record>. In order to enter submenu < Adjustment track record >, press Adjustment track record”. Files key, and: „ User Adjustment / comprising reports have names with time and date when the process was performed.
2. Before updating the software, go to scale’s submenu: Communication / Ethernet” and set transmission “ parameters for compatible with the client’s local network. Procedure: • Enter submenu < manual, Update> in accordance with point 23 of this user Software version on server> which reads • Select parameter < software version and its availability date on RADWAG server.
• Accept the message by pressing with update installing procedure. key. The terminal shall restart 23.2. Update from pendrive Procedure: • Copy file “update.
• Accept the message by pressing with update installing procedure. key. The terminal shall restart 23.3. Changes in software Parameter < Changes in software> enables acquiring data on changes present in the updated software version. Procedure: On completing the software updating procedure go to parameter Changes in software> which opens an information window < : 24.
Formulation CPG Weighing animals Density Work modes can be configured in < and then: Working Modes>, press To enter submenu < „ Working Modes>. Working Modes”. The settings of specific working modes provide access to special functions adjusting operation of the instruments to client’s individual needs. Notice: (local settings) in the main window of 1. First left screen button every working mode is ascribed to access settings of current mode. 2.
24.1. Working modes accessibility Submenu < Accessibility> enables declaring presence of scale’s working modes in the user menu after pressing a pictogram with a working mode located in the left corner of the upper bar in the main window. Procedure: Working modes> in accordance • Enter group of parameters < with point 24 of the user manual, Accessibility> which opens a list with available • Select option < working modes and their accessibility attribute.
24.3. Down-weighing Software allows to weigh in the “down-weighing” mode. It consist in putting the load on the pan and taking off/removing portions of it with concurrent saving weighings equal to the portions taken off the pan. Procedure: • Enter parameters group < to ch. 24 of this manual, Working Modes> according • Enter the required working mode and choose < and then set the required option. Down-weighing> Accessible options: - Traditional weighing Down-weighing mode 24.4.
Procedure: • Enter parameters group < of this manual, Working Modes> according to ch. 24 • Enter the required working mode and choose < and then set the required option. Tare mode> Options: Single - Basic tare mode. The set (chooden) tare value is overwritten after entering a new value Current sum - Summing up tare values of product and package together with manually inscribed tare.
24.6.1. Setting of the number of labels to print In the parameter < Number of labels> user defines the amount of labels. They are printed on the printer connected to the weight. Procedure: • Enter parameters group < to ch. 24 of this manual, Working Modes> according • Enter the required working mode and choose: „ Labelling mode / Number of labels” then the editing field with the screen keyboard is opened, • Choose the required number of labels and confirm by pressing . 24.6.2.
Procedure: • Enter parameters group < of this manual, • Enter the required working mode and choose: „ • No. of CC labels”, then the editing field with the screen keyboard is opened, Enter the required number od cumularive labels and confirm Working Modes> according to ch. 24 Labelling mode / . by pressing 24.6.4.
Printing followed by zeroing label counter or the total mass Printing without zeroing label counter or the total mass By default setting button is accessible in the bottom part of the can be done in submenu: display but activating the button / Display / Actions” „ (see ch. 17.2 of the manual). For automatic printout of cumulative labels counters and total mass variables are always zeroed.
Enter the required working mode and choose: „ • Mode” and then set the CC label automatic triggering / required option: - None Cumulative label of cumulative labels printout is initiated by pressing - Mass Labelling mode / or * , Cumulative label of cumulative labels printout is initiated by exceeding the value set in parameter < Threshold>.
− If parameter < Mode> is set to use the screen keyboard to enter the required counter value as a threshold to trigger off printing CC labels. • Confirm the changes introduced by pressing . 24.7. Statistics All statistics are continuously updated after each measurement is saved in the scale memory. Statistics can be calculated globally (does not depend on the selected product) or separately for every product from the product database. It can be set in parameters < Statistics>.
• Enter the required working mode and choose < set the required option. Peak hold> and then Where: - Scale operates in standard weighing mode Scale operates with mode forcing lock of maximum indication on the display, i.e. peak hold. • On loading the weighing pan with changeable force, the displays locks the indication of the maximum measured force. The locked value is signalled by red colour of the displayed value. • Remove load from the weighing pan.
25.2. Local setting of a working mode Local setting of a working mode < a hot key < Weighing> are accessible on pressing Local parameters>: Save Mode Detailed description in ch. 24.2 of the user manual Down-weighing Detailed description in ch. 24.3 of the user manual Checkweighing Detailed description in ch. 24.4 of the user manual Tare mode Detailed description in ch. 24.5 of the user manual Labelling mode Detailed description in ch. 24.
Enter part mass Estimate part mass 26.2. Local settings of the working mode Local settings of the working mode < on pressing a hot key < Parts counting > are accessible Local parameters>: Save Mode Detailed description in ch. 24.2 of the user manual Down-weighing Detailed description in ch. 24.3 of the user manual Checkweighing Detailed description in ch. 24.4 of the user manual Tare mode Detailed description in ch. 24.5 of the user manual Labelling mode Detailed description in ch. 24.
Options: Function < Automatic correction of reference mass disabled Automatic correction of reference mass enabled Automatic correction of reference mass> in mode Parts counting > is enabled at the moment of estimating the sample < quantity and signalled by displaying and (single part/piece mass) on the top part of the display. There are four criteris of working “Automatic correction of reference mass” function: 1. equilibrium should be reached, 2.
• Choose „ Parts counting / Minimum reference mass” and then set an appropriate value. Accessible settings: 1 d, 2 d, 5 d, 10 d. Notice: While the procedure of evaluation the mass of single piece the the mass of all pieces put on the pan is lower than the value declared in parameter Minimum reference mass”, the following warning message will „ be displayed: < Too low sample mass>. 26.3.
• Press (estimate piece mass), then the editing field is displayed together with the screen keyboard, • Enter a value and confirm it by pressing , then the following message is displayed: (where xx – the value entered before), • Put the declared quantity of pieces on the pan and when the result ) confirm it by pressing . is stable (symbol • The program automatically calculates reference unit mass and causes starting < Parts counting >.
26.6. Inscribing the unit mass to the database The unit mass can be described a unit mass the following way: a) Estimate the unit mass (see 26.2 and 26.3), , b) Enter the products database c) Keep the finger pressed on the required position then a context menu is displayed, d) Choose option , then the standard unit mass is attributed to the product in the field . Notice: Attributing a standard to a selected product is also possible by programmable button.
27.2. Local settings of the working mode Local settings of the working mode < on pressing a hot key < Deviations> are accessible Local parameters>: Save Mode Detailed description in ch. 24.2 of the user manual Down-weighing Detailed description in ch. 24.3 of the user manual Checkweighing Detailed description in ch. 24.4 of the user manual Tare mode Detailed description in ch. 24.5 of the user manual Labelling mode Detailed description in ch. 24.
• Press (Give piece mass), then an editing field is displayed together with the screen keyboard, • Enter a value and confirm by pressing , • At the same time the weight unit is changed to (w %). 28. WORKING MODES - DOSING < Dosing> mode enables carrying out filling and dosing processes of goods on scales featuring a a scale HTY series. The working mode enables manual and automatic dosing on a single or simultaneously on many weighing platforms. 28.1.
28.2. Dosing process structure All activities related to the dosing process can be carried out from > contains: the level of scale. Each dosing process < • Its name < • code < • assigned weighing platforms < >, >, > defined on a terminal. Each of the weighing platforms can have its specific dosing process. The database of dosing processes has the same searching mechanisms for a specific record in a database as other terminal databases.
Global Global settings of doisng process Batching outputs Enables setting the outputs for dosing (fine dosing in case of two-step dosing process) Bulk batching output Enables setting outputs for bulk dosing in case of two-step dosing process Correction Enables determining global value of correction for all weighing platforms Maximum correctional value Enables detemining maximal value of correction, which can be automatically determined for all weighing platforms < Global> settings are dedicated fo
Product Down-weighing [O] Outputs Dosing process ingredient uploaded from Products database Enables switching on checkweiging mode (weighing on minus) Function enabling setting the status of terminal’s outputs for controlling peripheral devices plugged to those outputs. Accessible settings: None – output disabled; “0” – output with low status; “1” – output with high status. Delay Function determining interval between carrying out the following dosing process steps.
[EM] Give mass [ET] Give number of batching repetitions [F] [CF] Function activating a so called: “mass in hand” – ingredient’s mass of a dosing process supplied in ready packages with precisely determined mass. The given mass is added to weighed ingredient’s mass, e.g.: ingredient to be weighed = 21,8 kg, weighed amount 1,8 kg placed on the scale, and 20 kg inserted manually. Function determining quantity of batches of weighed ingredient, that is added to a dosing process.
• Select weighing platform on which the dosing process is created, e.g.: < Platform 1>. • By pressing < Add> key design a sequence of the dosing process to be carried out on a weighing platform no. 1, and next select one of available process functions (se table in point 28.4). • There is a possibility of modifying an already designed process – adding or deleting a single step in a process, e.g.
Dosing process from a termial level: Platform 1: Icon Step Value Description 1. [TI] Delay [5s] Place empty container Pending for loading an empty container for the first product 2. [CI] Input condition Input 1 – „/” Input 1 has to take increasing tendency – press function key confirming loading a container 3. [T] Tare Tare Tarring the weighing platform no. 1 4. [DH] Dose manually 1 kg [Flour] Manual weighing product “Flour” to obtain 1 kg mass 5.
Platform 2: Icon Step Value Description 1. [TI] Delay [5s] Place empty container Pending for loading an empty container for the third product (the first product on the 2 weighing platform) 2. [CI] Input condition Input 9 – „/” Input 9 has to take increasing tendency – press function key confirming loading a container 3. [T] Tare Tare Tarring the weighing platform no. 2 4. [DH] Dose manually 0,2 kg [Seasoning] Manual weighing product “Seasoning” to obtain 0,2 kg mass 5.
Completing dosing process causes switching off all outputs of the terminal. 28.6.2.
5. [TI] Delay [3s] Close valve „Flour ” Pending for closing the main valve of the container “Flour” 6. [O] Outputs Output 11 – „1” 7. [F] Set flags Signal flag 1 – „1” Output 11 takes high status („1”) – signal confirming carrying out the dosing making process on the weighing platform no.
28.6.3. Instance 3 – Mixed dosing process Description: A dosing process contains 4 ingredients, which are weighed on two weighing platforms: • • Weighing Platform 1: ingredients Flour, Sugar and Seasoning, Weighing Platform 2: ingredients: Water Dosing process is carried out manually and automatically, and it incudes a condition that the dosing sequence is strictly determined – dosing of “Water” ingredient can be initiated only on completing the dosing process of ingredient “Flour” and “Sugar”.
8. [Z] Zero Zero Zeroing the weighing platform no. 1 9. [TI] Delay [5s] Place container Sugar on the weighing platform Input 1 – „/” Pending for loading container “Sugar” on the weighing platform no. 1 Tare Tarring the weighing platform no.
Platform 2: Icon Step Value Description 1. [CF] Flags condition Signal flag 1 – „1” Checking condition, whether signal flag 1 is set to value “1” – i.e. checking whether desired part of the process has been already realized on the weighing platform no. 1. If Yes, then dosing process on the weighing platform no. 2 shall start. 2. [T] Tare 3. [TI] Delay Tare 4. [DA] Automatic batching 6. [TI] Delay 2 kg [Water] 7.
Default form of the report from dosing template: ---------------------------------------------Dosing process ---------------------------------------------{40:Start date:,-25}{180} {40:End date:,-25}{181} {40:Name:,-25}{175} {40:Code:,-25}{176} {40:Status:,-25}{182} {40:Measurements:,-25} ---------------------------------------------{185:(50,-20) (7)(11) (40:Nominal Mass:,-25)(186)(11) (40:Difference:,-25)(187)(11) ---------------------------------------------}{40:Mass:,-25}{184}{11} ------------------------
Local parameters Select formulation Start formula making process Stop formula making process Select formulation ingredient from the list Select previous formulation ingredient to to be processed Select net formulation ingredient to be processed Set “mass from hand” – mass of an ingredient supplied in ready packaged and with determined mass Edit lot number of an ingredient and/or sample of a formulation ingredient 29.2.
Portion weighing Report printout Enable portion weighing mode of a formulation for a random number of portions (samples) until obtaining a target mass. Enable automatic prontout of a formulation report after completing the formula ma king process 29.3. Creating a new formulation Procedure: • Press key and select option < Databases> from main menu then select < Formulation>, • Add> key, and confirm In order to create a formulation, press < creating a new record in formulation database.
• After entering a selected weighing platform add the formulation ingredients one by one by pressing < Add> key.
3) – in case of declaring the value of the low deviation as greater than the declared ingredient mass, the software displays the following message: 4) – in case the sum of ingredients mass and the value of high deviation are exceeding the maximum capacity of a weighing platform, the software displays the following message: key which is equal to creating • On entering the required data press a new ingredient and adding it to the formulation composition.
Edit Add Delete Cancel • Press “Add” and define a new ingredient of a formulation. • After specifying all ingredients of a formulation go back to the main window by pressing key. 29.4. Formula making process Starting the formula making process requires that the authoriztion (access level) of the logged user is sufficient to start the process. Notice: 1. Starting the process requires that the logged user has access level at least of an .
In case when: 1. The inserted code of the current ingredient is incorrect, and the ingredient is in formulation composition, the software displays the following message: . Accept this message by key. The software goes to the weighing process of the pressing key is pressed, the software returns to displaying the ingredient.
Portion: Charge: -500.0 g 1 / 10 Completed: 0% Current deviation fro mthe reference mass Number of weighed charge / Total number of charges Process progress Notice: • If on process start the weighing platform is loaded, the software will indicate message while trying to accept a measurement.
Notice: Devices / Printer / Printouts / Formulation Submenu: “ report printout template” enables optional modifying of the report template (see ch. 16.2.3 of this user manual).
The computer software enables real time acquiring data from each connected scale. The system allows for starting a control process from the scale or from the level of computer software.
Where: Entering control settings window 30.2. Control settings mode window Notice: Before entering the control settings mode carry out logging procedure, as described in ch. 11.1 of this manual.
30.3. Local setting of a working mode Local settings of the working mode < a hot-key < CPG> are accessible on pressing Local parameters> in the control settings window: Detailed description in ch. 24.1 of the user manual Enabling simultaneous carrying out two control processes (see ch. 30.
Mass Product nominal mass Tare Product tare value (set automaticallz on selecting a product from the database) CPG - CPG mode Control type: Non-destructive Average Tare, Non-destructive Empty-Full, Destructive FullEmpty, Destructive Empty-Full Lot size Declaring quantity of a controlled batch Charge Measuring series to be controlled: Nondestructive Empty-Full, Destructive Full-Empty, Destructive Empty-Full Unit Product’s weighing unit: [g] or [ml] Density Product density (range of entered val
Quantity of disqualifying samples [Qn – T] Number of recorded negative errors -T in a tested sample that disqualifies a control Quantity of disqualifying samples [Qn + T] Number of recorded positive errors +T in a tested sample that disqualifies a control Average limit value Mode for calculating the average limit value (constant or automatic) Average limit value [ - ] Average limit value (negative) for a tested sample (refers to averge limit value as a “constant”) Average limit value [ + ] Average
where: Abort control start Control start Notice: If before control start the operator: • Does not remove a load from the weighing pan or other criteria for zeroing are failed (e.g. unstable weighing result) the scale displays a message:
Pressing the (control stop) key is followed by displaying a message: key causes reutining to the control process in progress. Pressing Pressing key causes terminating the control and returning to settings of the CPG mode. Simultaneously, a control report with status is added to the database of < Controls>. 30.7.
• Enter correct password and press the control process in progress, • Pressing mode: key to automatically return to key causes returning to the home screen of the CPG where: Restart control - information for an operator on a possibility to resume a control process in progress - Control resuming button • Pressing the button causes displaying a logging in window with the name of previously logged operator.
Tare control process is accompanied by below window: Where: Product Code - Product name - Product code - 0,25T criterion value in [g] - Average tare of a packaging in [g] - Standard deviation - Characterisitcs of negative errors T1 in a sample - Characterisitcs of negative errors 2T1 in a sample Net Tare Status Place packaging - Net mass of the controlled package Packaging tare Packaging control status Command on control process with quantity of all packages to be weighed - Data on a control in progre
Notice: In order to carry out a product control using “non-destructive average tare” mode, in accordance with the regulation on standard deviation “S”, the mass of packages is determined from at least 10 measurements, and the standard deviation can not be greater than 0.25 of the maximum permissible negative error T for nominal mass of a package. If an operator carries out the last measurement of the packaging mass, the software displays a summary of the process.
Where: Product - Name of the controlled product Code - Code of the controlled product - Nominal value of the controlled product - Average mass of the controlled product - Value of the disqualifying average - Characteristics of negative errors T in a sample: -15g – value of the negative error T, Max T – permissible number of the negative errors T, n T – acutal number of the negative errors T Characteristics of negative errors 2T in a sample: -30g - value of the negative error 2T, Max 2T - permis
In case of status marked with pictogram changes its colour to yellow: a corresponding workspace field - Permissible number of netagive errors T1 exceeded, but control of sample 2 permitted In case of status marked with pictogram changes its colour to red: a corresponding workspace field - Average mass of the controlled product below the value of the disqualifying average • Data on control process in progress Pressing key displays data on a control process in progress: Pressing key causes returning
In order to return to the control process in progress press key.
key for the second time. In order to disable the chart press After completing the control the scale generates a process summary, and the accomplished control is automatically saved in the scale database: Pressing the scale. key causes printing a report on a printer connected to Pressing key causes returning to settings window of the working mode < CPG> without printing a report.
Notice: In case the scale cooeprates with the computer software < E2R System> the message on process summary does not contain a option for printing a report. The data on a control is automatically sent to the computer software with possibility of printing the report from the computer level. If the test result is that the number of errors T, according to the regulations, requires expanding the sample.
Where: Product Code Net Tare Status Put Empty 1/10 (1/3) - Name of the controlled product Code of the controlled product Nominal value of the controlled product - Average mass of the controlled product - Value of the disqualifying average - Characteristics of negative errors T1 in a sample (in accordance with ch. 30.6 of the manual) - Characteristics of negative errors 2T1 in a sample (in accordance with ch. 30.
Notice: A pattern and example of the report from estimating average tare are described in ch. 30.14 of this manual. 30.10. Performing distructive testing in modes Empty-Full and Full-Empty “Destructive” control process complying with the resulation, and independently on the batch size that exceeds 100 pcs., the size of a sample accepted by the software for control process is 20 pcs. Other control criteria are accepted as specified in the regulation.
The scale automatically displays a window with data on set control parameters: Accept the message box by pressing key which causes moving to the control process.
Put Full 1/30 Net - Characteristics of negative errors T in a sample (in accordance with ch. 30.6 of the manual) - Characteristics of negative errors 2T in a sample (in accordance with ch. 30.
Entering the “settings window” of a control causes displaying data on a control identifying number of the enabled control: Notice: Platform> With a multiplatform scale, an operator using the parameter < ma has the option of assigning platform number to the current control.
Notice: Processes: • Control carrying out, • Logging out during control in progress, • Control termination, are the same as in case of the above parts of the manual. 30.13. Report from estimating average tare Report example: Average Tare Report U/26/09/09/10/56/T --------------------------------------RADWAG Wagi Elektroniczne Balance Type: HTY KTP Max: 1.5/3 kg d=e: 0.5/1 g Factory Number: 123589 Date: 2009.09.26 10:56:30 Product: AQUABA SAUCE Tare: 7.9 g Value 0.25T1: 3.
Report pattern: In submenu < Printouts> users can edit the pattern of the average tare report (see ch. 16.2.3). The default pattern is shown below: Average Tare Report {301} --------------------------------------RADWAG Wagi Elektroniczne {40:Balance type:,-20}{44} {40:Max:,-20}{34} {40:d=e:,-20}{33} {40:Factory number:,-20}{32} {40:Date:,-20}{295} {40:Product:,-20}{50} {40:Tare:,-20}{54} g {40:Value 0.
Nominal Mass: 520 g Tare: 7.9 g T1 error border: 15 g 2T1 error border: 30 g Batch quantity: 100 Number of measurements: 30 Number of T1 errors: 0 Number of 2T1 errors: 0 Min: 518 g Max: 529.5 g Average: 519.9833 g Total: 15599.5 g Limit of the average: 518.9138 g Standard Deviation: 2.159515 CPG mode: Nondestructive Average Tare Result: Positive Measurements: 1. 518.0 g 2. 520.5 g 3. 529.5 g 4. 520.0 g 5. 521.0 g 6. 518.0 g 7. 519.0 g 8. 519.0 g 9. 519.0 g 10. 521.0 g 11. 521.0 g 12. 521.0 g 13. 521.
Report pattern: In submenu < Printouts> users can edit the pattern of the average tare report (see ch. 16.2.3).
31. WORKING MODES – DENSITY Working mode < Density> enables determining density of solids, liquids and materials of high viscosity. The density is determined on basis of Archimedes principle, according to which any floating object displaces its own weight of fluid. The density mode also enables utilizing a pycnometer for determining density of liquids. 31.1.
Ask about sample number Function ordering inserting number of a sample before initaining the test procedure Pycnometer mass Parameter designed for manual determining mass of a pycnometer expressed in [g]. If inserted value is equal to „0” then on test procedure start, the pycnometer mass shall be measured. Pycnometer density Parameter intended for manual determining volume of the pycnometer expressed in [cm3] Unit Weighing unit set to read the measurement result.
Process course: • Press < Local parameters> key to enter the setting of local parameters in density mode. • Press < Sinker volume> in order to insert the volume of the 3 sinker (given in [cm ]) which is immersed in the tested liquid. • On specifying the parameters exit to main menu of the density mode by pressing • key. In order to start density determination of liquid, press < Determine liquid density> key, using a pre-defined hot keys on terminal’s display.
31.3.2. Determining density of solids Density of solids is determined by weighing a solid object in two different medium: in the air and in auxiliary liquid with determined density. The difference between the two measurements is displacement weight, which is used by scale software to calculate the density of tested solid. Before starting the measurement select < Local parameters> menu and choose < Standard liquid> to be utilized in the density determination process.
Caution: Ask about sample number> function If in the local parameters, < is enabled, then on initiating the process, the system asks for inserting the number of tested sample. The inserted sample number is linked to the process data and saved in the database. • The first phase of the density determination of solid, is measurement of the solid object in the air. Place the object on the scale’s weighing platform.
The excess of liquid pouring through the capillary tube is removed with an absorbent paper. Then, the vessel is immediately placed on a scale, and its mass is determined as quickly as possible. During the mass measurement, due to contraction of the volume of liquid its level usually noticeably decreases in the capillary tube, but this does not matter if at the time of placing instrument on the scale, it was completely filled and had correct temperature.
Caution: Ask about sample number> function If in the local parameters, < is enabled, then on initiating the process, the system asks for inserting the number of tested sample. The inserted sample number is linked to the process data and saved in the database. • The first phase of density determination process is weighing a pycnometer (if its mass has been determined as “0” in the local parameters) – place an empty pycnometer on scale’s weighing platform.
Process course: • Press < Local parameters> key to enter the setting of local parameters in density mode. • Press < Standard liquid> key to select the auxiliary liquid used for the density determination procedure. If the auxiliary liquid is other than “Water” or “Alcohol”, then select “Other” from the available list. • Press < Temperature> i key and specify the temperature of the auxiliary liquid [°C]. Accept inserted value by pressing key.
• On carrying out the third measurement, the scale automatically determines the density of the porous body, and indicates the result on terminal’s display. If the user needs a report from the density determination process, it can be printed on a plugged printer by pressing completed, • key. The density determination process is then A report from density determination of a porous body is saved in < Density> database. The report is named by process date. 31.4.
31.5. Table of density parameter for water T/°C 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. 29. 30. 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 0.99973 0.99963 0.99953 0.99941 0.99927 0.99913 0.99897 0.99880 0.99862 0.99843 0.99823 0.99802 0.99780 0.99756 0.99732 0.99707 0.99681 0.99654 0.99626 0.99597 0.99567 0.99972 0.99962 0.99951 0.99939 0.99926 0.99911 0.99896 0.99879 0.99860 0.99841 0.99821 0.99800 0.99777 0.99754 0.99730 0.99704 0.99678 0.99651 0.99623 0.
32. WORKING MODES – ANIMAL WEIGHING Working mode < Animal weighing> enables weighing objects which do not stabilize if placed on scale’s weighing platform and while carrying out weighing process. Weighing process is achieved by implementing parameter of time for stability of measurement, which is set in global parameters of the working mode. This working mode is mainly utilized for weighing different kids of animals. The mode may be controlled automatically or manually – i.e.
Averaging time Automatic mode Declaration of process duration in seconds (from 1s to 90s) – measurements carried out in set time interval are used to calculate mean value, which is the result of the measurement Operation mode, in which the scale automatically begins the following measuring process, if the load placed on scale’s weighing platform exceeds value of mass set in LO threshold. 32.3. Carrying out animals weighing procedure • Enter the working mode < 32.
Dosing processes Reports From dosing Formulations Reports from formulations Density Controls Average tare values Packages Warehouses Labels Universal variables Weighing counter In order to enter < Databases>, press and choose Databases>. < 33.1. Searching databases Users can quickly search databases according to the following criteria: • Name, • Code. The quick search according to the criteria above is applicable for databases of: operators, products, clients, packages, warehouses and labels.
33.1.1. Quick name search Procedure: • Enter < • Enter < Databases> according to ch. 33 of the manual, Products>, , then an editing field appears • Press with the screen keyboard, • Inscribe the name of a product or its part and press . • The program will automatically edit the required product. 33.1.2. Quick code search Procedure: • Enter < • Enter < Databases> according to ch.
33.2. Adding new items in databases Procedure: • Enter < Databases> according to ch. 33 of this manual, • Enter database < • Press Products>, , then the message is displayed: , • Confirm it by pressing edition of new record. , the program automatically enters Notice: Adding new records in databases is possible only by logged-in administrators. It does not concern the database of weighings. 33.3.
Caution: Factory settings prevent users from deleting weighings that are up to one year old. Because of incompatible regulations in different countries concerning the time of protecting data this period can be modified by distributors. Procedure: • Enter the submenu < Databases> according to ch.
Notice: Default printout templates for printing records from different databases are described in ch. 16.2.3 of this manual. 33.6. Export a database to a file An operator after a series of weighings can export a database to a file using a pendrive. Additionally, a user can select data to be exported. Procedure: • Connect a pendrive to USB, • Enter submenu < Databases> according to ch.
Checkweighing Platform number Statistics: Number of measurements Weighing counter *) – Automatic selection of data to be exported (unfilled fields are omitted) • After declaring data to be exported go back to the submenu < Export database of weighings to a file> and select option < Export>. The software automatically initiates exporting of the database of weighings.
33.7. Database edition The database edition can be performed by an administrator. 33.7.1. Operators’ database Procedure: • Enter < Databases> according to ch. 33 of this manual, • Enter < Operators> and press the required position. Record of operator: Name Operator name Code Operator code Password Password to log on (max.
Product record: Name Product name Code Product code EAN code Product barcode Mass 1) Nominal product mass Batching outputs 2) Bulk batching output Correction 1 2) Correction 2 2) Correction 3 2) Correction 4 2) Declaring numbers of outputs for bulk dosing Value of dosing correction for weighing platform no. 2 Value of dosing correction for weighing platform no. 3 Value of dosing correction for weighing platform no. 4 3) Max 2) Value of dosing correction for weighing platform no.
Number of validity dates Number of days to calculate expiery date Date Constant product date VAT Value Added Tax in [%] Ingredients Dialogue box for entering ingredients Label Basic label template attributed to a product C Label Cumulative label template attributed to a product CC Label Cumulative of cumulative label template attributed to a product 1) – Variable name dependant on an enabled working mode.
Weighing record: Date Weighing date Mass Weighing result Tare Tare value Product Product name Operator Operator name Client Client name Lot number Number of produced lot Batch number Number of produced batch Source warehouse Source warehouse name Destination warehouse Destination warehouse name Package Package name Checkweighing A weighing threshold (MIN, OK or MAX) Platform number Platform number to perform weighings Statistics: Number of measurements Statistics: Current numer of
Client records: Name Client’s name Code Client’s code Tax ID Client’s tax ID Address Client’s address Postal code Client’s postal code City Client’s Town/City Discount Client’s discount Label Client’s label template 33.7.5. Databse of dosing processes Procedure: • Enter < • Enter < Databases> according to ch. 33 of this manual, Dosing processes> and press the required position.
33.7.6. Database of reports from dosing Procedure: • Enter < Databases> according to ch. 33 of this manual, Reports from dosing> and press the required position.
Number of ingredients Previewing number of created ingredients in a formulation Formulation mass Previewing total mass of a formulation Type of charge Type of measuring charge of a formulation Charge Measuring chanrge of a formulation 33.7.8. Database of reports from formulation Procedure: • Enter < Databases> according to ch. 33 of this manual, • Enter < Report from formulation> and press the required position.
• Enter < Density> and press the required position.
33.7.10. Database of controls Every control procedure performed on the scale is sent to a printer and Controls>. Every saved control has its unique saved in database < number given at the moment it is completed. Control number pattern: X / y y / M M / d d / H H / m m, where: X - Controle mode: U – regulation compliant control, Z – control terminated by an operator, yy – the last two digits of year, MM - month, dd - day, HH - hour, mm - minute of control complation.
X Average value of weighings DX Disqualifying average value S Standard deviation Batch quantity Number of products in a batch for which a sample quantity is calculated Sample quantity Number of weighings to be performed 33.7.11. Database of average tares Before starting control it is possible to perform the procedure of estimating average tare that consist in weighing empty packages. Every such procedure is automatically saved in database Average Tares>.
Inventory of fields in the average tare database: Product Product name which packages are tested Status Test Status/Result Date Date of performing procedure Tare The result S Standard deviation 0.25 T1 Condition to fulfill Number of measurements Number of measurements of subsequent packages Operator An operator name 33.7.12. Database of packages Procedure: • Enter < Databases> according to ch. 33 of this manual, • Enter < Packages> and press the required position.
• Enter < Warehouses> and press the required position. Warehouse record: Name Warehouse name Code Warehouse code Description Additional warehouse description 33.7.14. Database of labels The database comprises templates of labels which users can attribute to products or clients to operate in labelling mode. Procedure of editing databases: • Enter < • Enter < Databases> according to ch. 33 of this manual, Labels> and press the required position.
Notice: The procedure of attributing functions to buttons is described in ch. 17.2 of this manual. Procedure of editing databases: • Enter < • Enter < Databases> according to ch. 33 of this manual, Universal variables> and press the required position. Universal variable record: Code Universal variable code Value to pay Universal variable value intended to be printed 33.7.16.
34. COMMUNICATION PROTOCOL 34.1. General information A. A character protocol scale-terminal has been designed for communication between RADWAG scales and external devices via RS-232 interface. B. It consists of commands sent from an external device to the scale and a responses from a scale. C. Responses are sent every time after receiving a command (reaction for any command). D. Using commands allows users to receive some information about the state of scale and/or influence the operation e.g.
Notice: 1. Each command have to be terminated in CR LF; 2. The best Policy for communication is not sending another command until the former answer has been received. 34.3.
34.4.2. Tarring Syntax: T CR LF Possible answers: T_A CR LF T_D CR LF - command accepted and in progress - command completed T_A CR LF T_v CR LF - command accepted and in progress - command comprehended but tare range overflow appeared T_A CR LF T_E CR LF - command accepted and in progress - time limit for stable result exceeded T_I CR LF - command comprehended but cannot be executed 34.4.3.
Notice: Use dots as decimal points in tare values. 34.4.5.
Example: S I CR LF – computer command S I _ ? _ _ _ _ _ _ _ 1 8 . 5 _ k g _ CR LF - command done, mass value in basic unit is returned immediately. 34.4.7.
SU_I CR LF SU_A CR LF MASS FRAME - command comprehended but cannot be executed - command accepted and in progress - mass value in current unit is returned Frame format: 1 2 3 4 5 6 7-15 16 S U space stability space sign mass space 17 18 19 unit 20 21 CR LF Example: S U CR LF – computer command S U _ A CR LF - command accepted and in progress S U _ _ _ - _ _ 1 7 2 . 1 3 5 _ N _ _ CR LF - command done, mass value in current unit is returned. 34.4.9.
C1_I CR LF - command comprehended but cannot be executed C1_A CR LF MASS FRAME - command comprehended and in progress - mass value in basic unit is returned Frame format: 1 2 3 4 5 6 7-15 16 S I space stability space sign mass space 17 18 19 unit 20 21 CR LF 20 21 CR LF 34.4.11.
CU0_I CR LF - command comprehended but cannot be executed CU0_A CR LF - command comprehended and executed 34.4.14. Set lower threshold Syntax: DH_XXXXX CR LF, where: XXXXX – mass format Possible answers: - command executed - command not comprehended (wrong mass format) DH_OK CR LF ES CR LF 34.4.15. Set upper threshold Syntax: UH_XXXXX CR LF, where: XXXXX – mass format Possible answers: - command executed - command not comprehended (wrong mass format) UH_OK CR LF ES CR LF 34.4.16.
Frame format: 1 2 3 4-12 13 U H space mass space Mass Unit 14 15 16 unit 17 18 19 space CR LF - 9 characters justified to the right - 3 characters justified to the left 34.4.18. Simulation of pressing ENTER/PRINT key Syntax: SS CR LF Sending a command S S CR LF to a scale causes automatic saving of a weighing record in the database and simultaneous activating a declated printout template.
34.5. Manual printouts / automatic printouts Users can general manual or automatic printouts from the scale. • Manual printouts can be performed after loading the pan and stabilizing indication by pressing ENTER/PRINT. • Automatic printouts can be performed only after loading the pan and stabilizing indication.
36. PROFIBUS COMMUNICATION MODULE Profibus Communication Module ensures data exchange between a supervising controlling device (master) and a scale (Slave) in accordance with the Profibus DP protocol. The supervising unit enables: Cyclic reading in input signals from a terminal PUE HY series, Cyclic saving outputs status to a terminal PUE HY series.
36.1. Memory map 36.1.1.
36.1.2.
List of output variables: Variable Address Length [word] Data type Mass of platform 1 Tare of platform 1 Measuring unit of platform 1 Status of platform 1 Lo limit of platform 1 Mass of platform 2 Tare of platform 2 Measuring unit of platform 2 Status of platform 2 Lo limit of platform 2 Mass of platform 3 Tare of platform 3 Measuring unit of platform 3 Status of platform 3 Lo limit of platform 3 Mass of platform 4 Tare of platform 4 Measuring unit of platform 4 Status of platform 4 Lo limit of platform
• Mass of platform – response is mass on a weighing platform in current measuring unit. • Tare of platform – response is the value of tare on a weighing platform in adjustment unit. • Measuring unit of a platform – determines current (displayed) measuring unit set for a weighing platform. Measuring unit bits: 0 1 2 3 4 5 - gram [g] - kilogram [kg] - carat [ct] - pound [lb] - ounce [oz] - Newton [N] Example: Bit no.
Example: Bit no. B8 B7 B6 B5 B4 B3 B2 B1 B0 Value 0 0 0 0 1 0 0 1 1 The scale does not report an error, the measurement is stabilized in the 2nd measuring range. • LO – response is the value of LO limit in an adjustment unit of a given weighing platform. • Process status – determines status of a process Decimal value of a variable Process status 0 1 Bit no.
• Product – response is the value of a selected product. • Client – response is the value of a code of a selected client. • Packaging – response is the value of a code of a selected packaging. • Source warehouse – response is the value of a code of a source warehouse. • Destination warehouse – response is the value of a code of a destination warehouse. • Formulation – response is the value of a code of a selected formulation. 36.3.
Operator 36 1 word Product 38 1 word Client 40 1 word Packaging 42 1 word Source warehouse 44 1 word Destination warehouse 46 1 word Formulation 48 1 word • basic command – Setting a bit causes carrying out a task as specified in a below table: Command bit Command 0 Zero platform 1 Tare platform 3 Clear statistics 4 Save / Print 5 Start 6 Stop Example: 0000 0000 0010 0000 – the command carries out process start • complex command - Setting a bit causes carrying out a t
Example: 0000 0000 0000 0010 – a command carries out setting of the LO limit for a value given in parameter LO (address 10 – see table “List of parameters in a complex command”). • Platform – complex command parameter: number of a weighing platform. • Tare – complex command parameter: tare value (in an adjustment unit). • LO – complex command parameter: the value of LO limit (in an adjustment unit). • Outputs status – complex command parameter: determines outputs status of a terminal PUE HY series.
• Packaging - complex command parameter: he value of a code of a selected packaging. • Source warehouse - complex command parameter: he value of a code of a selected source warehouse. Destination warehouse - complex command parameter: he value of a code of a selected destination warehouse. • • Formulation - complex command parameter: response is the value of a code of a selected formulation.
Main board view with some additional modules being installed: 1 2 3 - additional A/D module, - relay outputs module, - analogue output module.
J3 – WE 8 module J3 – AN module J10 – PK1 Relay module J11 – DP2 module 37.1. Module of Analogue Outputs Module of analogue outputs Module accessible in three configurations: • • • Voltage output AN 0-10V Current output AN 4-20mA Current output AN 0-20mA 37.1.1. Technical specification Work modes 4 - 20mA , 0 - 20mA, 0 - 10V Resolution Current output resistance 16 bit <500 Voltage output resistance Power supply >400 24V DC (12 - 30V DC) max 40mA 37.1.2.
Installation procedure: 1. 2. 3. 4. 5. 6. 7. 8. Unplug the scale from mains; Unscrew and take off the back wall of the housing; Install your module in J3 on the main board; During installation turn your attention to plastic columns.
37.1.3. Configuration of work modes of analogue modules A work mode of analogue modules can be set using S1 switch according to the drawings above (table „configuration of analogue modules ”). Near the S1 switch on the PCB you can find a description. 37.1.4.
37.2. Relay module - PK1 Relay module PCB - PK1 This is an alternative solution for reed relay outputs present on the main board in the standard solution. The usage of this module excludes the usage of standard reed relay outputs. The advantage of using this module are the electrical parameters of contacts. All outputs can be freely configured (from the level of parameters). The cable is led out via a gland on the back wall of the housing (3m length).
Installing procedure: 1. 2. 3. 4. Unplug the scale from mains; Unscrew and take off the back wall of the housing; Install your module in J10 on the main board; During installation turn your attention to plastic columns. They should be placed one side in mounting holes in the main board and the other side in the mounted module PK1; 5. Led the PT0016 cable through one of plugged glands; 6. Connect the PT0016 cable to J2 connector on the PCB according to the description below; 7. Screw down the back wall.
37.2.3. Drawing of cables and outputs Relay outputs diagram: SIGNALS AND DESIGNATIONS OF CONDUCTORS Wire number Description 1 2 3 4 5 (yellow - green) OUT 1 OUT 2 OUT 3 OUT 4 Common 37.3. WE 4 - 4 inputs / 4 outputs module WE 4 module comprises 4 optoinsulated inputs and 4 optoinsulated outputs of reed relays. The input / output wires are led out via a gland on the back wall of the housing (3m length). Caution: As standard indicator is equipped with 3 in and 3 out sockets. 37.3.1.
37.3.2. Colours of cables for I/O INPUTS OUTPUTS wire number description wire number description 1 2 3 4 5 IN 1 IN 2 IN 3 IN 4 COM GND 6 7 8 9 10 (yellow - green) OUT 1 OUT 2 OUT 3 OUT 4 COMMON 37.3.3. Installing method in PUE HY indicators Installing procedure: 1. Unplug the scale from mains; 2. Unscrew and take off the back wall of the housing; 3. Dismount I/O socket and install a gland instead. LED the PT0016 cable through it; 4.
37.4. WE 8 - 8 inputs / 8 outputs module 8 inputs / 8 outputs PCB - WE 8 WE 8 modules can be connected as an alternative to the module of analogue output and relay module. Its task is to expand the functionality of an indicator for 8 inputs and 8 outputs freely configurable. It expands functionality of terminals. It comprises on board optoinsulated inputs and outputs freely configurable from the level of indicator.
37.4.2. Installing method in PUE HY indicators Module is designated for assembly inside indicator PUE HY. Module is assembled to main board of indicator to 10-pin J3 connector. For module WE8, there are installed two additional glands on the back wall of the housing for leasing out 3m cables with insulation removed from wires’ endings. Installing procedure: 1. 2. 3. 4.
37.4.3. I/O diagram WE8 inputs diagram WE8 outputs diagram 37.4.4. Description of input output wires 2 Signals led out with two cables18x0,5mm with numbered conductors. INPUTS OUTPUTS Wire number description Wire number description 1 2 3 4 5 6 7 8 9 IN 1 IN 2 IN 3 IN 4 IN 5 IN 6 IN 7 IN 8 GND IN 10 11 12 13 14 15 16 17 18 OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 COMMON 37.5.
DP2 modules increase functionality of PUE HY indicators by possibility of adding an additional platforms. It is intended to mount inside the indicator. DP2 modules require an additional gland to led in the platform cable. 37.5.1.
37.5.3.
Connecting 4-wire tensometers Radwag A/D converter PCB Signals description in tensometers E SHIELD REMARKS REF+ - solder jumper JP1 REF- - solder jumper JP2 IN+ OUTPUT+ IN- OUTPUT- +5V INPUT+ AGND INPUT- The rules of connecting shields from tensometer cable For assuring appropriate operation use the description below to connect the shield of the tensometer properly.
platforms connected to indicators in metal housing via a cable only platforms electrically connected to indicators’ metal housings e.g. pillars, racks Load cells without internal shield connection to the tensometer body POINT B E Load cells with internal shield connection to the tensometer body POINT B POINT B Point B – screwed terminal electrically connected to the metal housing of the indicator (possible using of soldering eye). E – soldering pad on a DP2 PCB.
3. Install your module in J11 on the main board: Installing DP2 module on the main board of PUE HY 4. During installation turn your attention to plastic columns. They should be placed one side in mounting holes in the main board and the other side in the mounted module DP2; 5. Led a tensometer cable through the gland next to the gland of main platform; 6. Put on a ferrite core on the cable (core of appropriate internal diameter); 7. Turn the wires on the ferrite core (5 turns); 8.
38.
Indicator – printer (CITIZEN, EPSON) cable Indicator – ZEBRA printer cable Indicator – I/O cable 222
Indicator – Ethernet (P0198) cable PRINT, TARA, ZERO external buttons cable USB cable (adapter) 223
39. TECHNICAL PARAMETERS PUE HY Housing Display stainless steel 5,7” with resistive touch panel Power Supply Optional power supply 100-240VAC 50-60Hz External 10-24VDC 2A Operation Temperature OIML class -10°C to 40°C III Number of verification intervals Max. change of input signal 6000 19.5mV Max. Voltage per verification interval Min. Voltage per verification division 3.25µV 0.5µV Min. impedance of tensometer Max.
41. APPENDIX A – Variables for printouts 41.1. Inventory of variables Notice: Every variable needs to be included in brace brackets e.g. {x}, where x – variable number.
{29} {30} {31} {32} {33} {34} {35} {36} {37} {38} 2) {39} {40} {41} {42} {43} {44} {45} {50} {51} {52} {53} {54} {55} {56} {57} 3) {58} {59} {60} {61} {62} 3) {63} 4) {64} {65} {75} {76} {77} {80} {81} {82} {85} {86} {87} CC value (cumulative of cumulatives amount to pay) Gross (amount to pay + VAT) Platform number Factory Number Scale division Range Counting pieces: Sample weight Deviations: Sample weight Statistics: Standard deviation CC Statistics: Standard deviation Universal variable Text information
{88} {89} {90} {91} {130} {131} {132} {135} {136} {137} {140} {141} {142} {143} {144} {145} {146} {147} {148} {149} {155} {156} {157} {158} {159} {160} {161} {162} {163} {164} {165} {166} {167} {168} {169} {170} {175} {176} {177} {178} {180} {181} Client: Address Client: Postal code Client: City Client: Discount Source Warehouse: Name Source Warehouse: Code Source Warehouse: Description Destination Warehouse: Name Destination Warehouse: Code Destination Warehouse: Description Net mass in adjustment unit: T
{182} {183} {184} {185} {186} {187} {205} {206} {220} {221} {222} {223} {224} {225} {226} {227} {228} {229} {230} {231} {232} {233} {234} {235} {236} {237} {240} {241} {242} {243} {244} {245} {246} {247} {248} {260} {261} {262} {263} {264} {265} {266} Dosing report: Result Dosing report: Number of measurements Dosing report: Total Dosing report: Measurements Measurements: Nominal mass Measurements: Difference Adjustment track record: Nominal Mass Adjustment track record: Platform number Formulation: Name F
{267} {268} {269} {270} {271} {272} {273} {274} {275} {276} {277} {278} {279} {280} {281} {282} {283} {284} {285} {286} {287} {288} {289} {290} {295} {296} {297} {298} {299} {300} {301} {302} CPG Report: 2T1 error border CPG Report: Number of T1 errors CPG Report: Acceptable number of T1 errors CPG Report: Number of 2T1 errors CPG Report: Total CPG Report: Min CPG Report: Max CPG Report: Average CPG Report: Limit of the average CPG Report: Standard deviation CPG Report: Measurements CPG Report: Unit CPG Re
41.2. Formatting variables Users can format numeric, text and date variables intended for displaying or printing out. Different format commands: • • • • • • • Justification to the left, Justification to the right, Setting the number of characters for printout / display, Declaration of the number of digital places for numeric variables, Date&Time formatting, Formatting numeric variables for EAN13 codes, Formatting numeric variables and dates for EAN128/GS1-128 codes.
/ Date separator between days, months and years {2:yy/MM/dd} – Present date formatted as: year - month - day, where yy represents two less significant digits of year. \ „Escape” character removing formatting function form next character to allow it to be used as a character in a text string. {2:yy\/MM\/dd} – Present date formatted as yesr / month / day; {2:yy\:MM\:dd} –Present date formatted as: year : month : day.
41.3. Mathematical function Extended functionality of the mathematical functions with use of a variable <{5} Mathematical function> enables carrying out an optional operation on numbers and variables available on the list.
Notice: A numeric value is comprehended as an optional number or an optional mathematical operation that returns a numeric value. There are additional functions that modify the text values, and they can also operate on numbers that are coverted to text: • remove (“text value”, initial place (number), quantity of characters to be removed (number)) – a return is a residue after deleting a part of the text value, from the initial point to a determined quantity of characters.
42.
Start Stop Choose an operator Choose an operator by name Choose an operator by code Choose a product Choose a product by name Choose a product by code Choose a package Choose a package by name Choose a package by code Choose a client Choose a client by name Choose a client by code Choose a source warehouse Choose a source warehouse by code Choose a destination warehouse 235
Choose a destination warehouse by name Choose a destination warehouse by code Change working mode Counting pieces: Specify piece mass Counting pieces: Estimate piece mass Counting pieces: Ascribe standard Deviations: Specify sample mass Deviations: Estimate sample mass Emergency stop Chute permission Disable tare Restore tare Change unit Change platform Edit universal variable 1 Edit universal variable 2 Edit universal variable 3 236
Edit universal variable 4 Edit universal variable 5 Selekt dosing process Selekt dosing process by name Selekt dosing process by code Select formulation Select formulation by name Select formulation by code Ingredients Determine liquid density Determine solid density Determine pycnometer density Determine porous body density Edit number of labels Edit number of C labels Edit number of CC labels Print Screen 237
43. APPENDIX C – Label template A label template can be created in 2 ways: • From the terminal level using variables, • Using PC software EDYTOR ETYKIET R02. A created project needs to be saved as an „lb” file then copied on a pendrive that can be connected to the terminal. Finally transfer the file to the database in the scale. While a label is in the database of labels it can be ascribed to products or/and clients in order to work in labelling mode. 43.1.
43.2. Designing a label on a computer Example: Let us create a label template for the label below: Notice: The installer of EDYTOR ETYKIET R02 is accessible to download on website: www.radwag.com. on the overlap: Products / Measuring indicators / PUE 7. Procedure: 1.
Notice: Prior to designing a label a new project needs to be created with initial printer and label settings. A description of creating new projects can be found in instruction manual „Label Editor R02” accessible in the program menu: „Info / User manual”. Text> from the list 2. In order to add a text to the label chose < of objects and then click on the workspace of label, then window opens: 3.
5. From list chose variable type „4 Date and time” and press , then the variable is placed in the table of variables show below. 6. Confirm it by pressing placed on the label. , then the variable is automatically 7. Place the rest of variables and constant texts on the label in the same way, 8. In order to put an image on the label chose < Image> from the list of objects and then click on the workspace of label, then window opens: 9.
11. Chose from the list e.g. EAN-13. 12. Chose from list item „7 Net mass in adjustment unit” , then the variable is placed in the table and press of variables show below. 13. In column type:V6.3 (mass in EAN13 as a 6-digit code with 3 decimal places). 14. Confirm the entered item by pressing is automatically placed on the label. , then the barcode 15. Save the created pattern chosing from the menu „File / Export *.lb”. Notice: Recorded templates of labels in files with *.
43.3. Saving label templates in the scale Procedure: • A label template *.lb created in EDYTOR ETYKIET R02 needs to be copied to a pendrive, • Connect the pendrive to USB in the scale, • Enter: „ / Databases / and press the required item, Labels” • Enter < Label templates>, then an editing field and the screen keyboard appears, • Press , to open a window showing files on the pendrive, • Select the required *.lb file. It is automatically copied to the editing field, • Confirm the changes by pressing .
43.5. Attributing a label to a client Procedure: • Enter < • Enter < Databases> according to ch. 33 of this manual, Clients> and press the required item, • Enter < Label>, then the database of labels is open with the list of all labels, • Choose the required label. The program automatically ascribes the label to the client. 43.6.
Information printed by the printer via RS232: [Interface Menu] RS-232C Baud rate RS-232C Parity RS-232C Length RS-232C Stop bit RS-232C X-ON IEEE 1284 : 9600bps : None : 8 bit : 1 bit : No : On The way of generating the setup printout and setting CITIZEN printers are described in manuals attached to printers or present on the website of the manufacturer. 45.
3. Barcode scanners can send additional information apart from the expected barcode e.g. symbology (type of barcode). It is advisable to disable such information because RADWAG devices and software do not use it. 4. Some RADWAG systems can omit unnecessary information by using parameters that mark the beginning and the length of the code required to analyse. 5. A special protocol is required in order the code be received by RADWAG equipment. It is required to program an appropriate prefix and suffix.
Operation description: • Run computer program „ViewerKTP”. It starts with opening the following window: Button functions: Open a controls or average tares database Print a report View a report Scroll the list of reports one position down Scroll the list of reports one position up Go to the last report Go to the first report • Press , then window appears in which the wanted database can be located (extention *.
• Print the marked report on a conneted printer by pressing • Using button view the selected report.
MANUFACTURER OF ELECTRONIC W EIGHING INSTRUMENTS RADWAG WAGI ELEKTRONICZNE 26 – 600 Radom, Bracka Street 28 POLAND Phone +48 48 38 48 800, fax. + 48 48 385 00 10 e-mail: export@radwag.com www.radwag.
