User Manual - Counting - labelling WPW scales
Contents
1. 015 N1 counter of basic labels 016 SUM1 number of pieces for c label 026 N2 counter of cumulative labels 027 Total mass SUM2 for cc label 030 Contractor s name 031 Contractor s code 032 Contractor s street 033 Contractor s post code 034 Contractor s town city 035 Contractor s country 036 Contractors Tax Identification Number 037 Contractors discount 041 Nominal mass for product 045 Product s unit price 046 Number of days for expiration date 047 VAT 048 Product date 052 Net value pcs price 053 Net value for c labels 054 Net values for cc labels 055 Gross value net VAT 057 Expiration date current date number of days 046 51 062 Net value in EAN 13 6 character code 063 Net value in EAN 13 expanded 7 characters code for supermarkets 069 Product price in EAN 128 071 Product date in EAN 128 072 Expiration date in EAN 128 100 Cumulative number of pieces in EAN 13 6 digit code 101 Cumulative number of pieces in EAN 13 7 digit code 102 Net cumulative value in EAN 13 6 digit code 103 Net cumulative value in EAN13 7 digit code 104 Number of pieces in EAN 13 6 digit code for cc label 105 Number of pieces in EAN 13 7 digit code for cc label 106 Net cc value in EAN 13 6 digit code 107 Net cc value in EAN13 7 digit code 126 Reference number o2. 1 2 3 4 5 6 7 15 16 17 18 19 20 21 S space stability space sign mass space unit CR LF Example S I CR LF computer command it ee ae 18 5 kg _CRLF command done mass value in basic unit is returned immediately 31 3 5 Send the stable result in current unit Syntax SU CR LF Possible answers SU_ACRLF command accepted and in progress SU_E CRLF timeout while waiting for stable results SU_ICRLF command comprehended but cannot be executed SU_ACRLF command accepted and in progress MASS FRAME mass value in current unit is returned Frame format 1 2 3 4 5 6 7 15 16 17 18 19 20 21 S U space stability space sign mass space unit CR LF 145 Example S U CR LF computer command SU_ACRLF command accepted and in progress SU 172 135 N_ CRLF command done mass value in current unit is returned 31 3 6 Send the result immediately in current unit Syntax SUI CR LF Possible answers SUI_I CR LF command comprehended but cannot be executed SUILA CRLF command accepted and in progress MASS FRAME mass value in current unit is returned immediately Frame format 11213 4 5 6 7 15 16 17 18 19 20 21 S U l stability space sign mass space unit CR LF Example S U I CR LF computer command SUI _ ___58 237_kg
3. 110 26 3 Selecting a contractor 26 4 Selecting general purpose variables 26 5 Thresholds for checkweighing MIN MA 26 6 Loading patterns of labels 26 7 AQ ORAM vices coceceisearne toner sina 26 7 1 Printing of cumulative labels 26 7 2 Printing cumulative labels of cumulative labels 26 7 3 Triggering C LABEL by exceeding N1 value 26 7 4 Triggering CC LABELS by exceeding N2 26 7 5 Triggering C LABELS by exceeding SUM 1 26 7 6 Triggering CC LABEL by exceeding SUM 2 value cae BARCODES ccicvicecetecacdcsnccsevesoessvetseecssaverssccsouseieesssuseses 114 27 1 General description 27 2 EAN codes 27 3 Other barcodes 27 4 Advantages of using barcodes 27 5 The usage of EAN 128 barcode in HX terminals DIAGRAMS OF CONNECTION CABLES CONNECTORS SPECIFICATION OF ADDITIONAL MODULES 30 1 Ethernet module ET 30 1 1 Mounting way in PUE C41H 30 1 2 Drawings of sockets and cables for Ethernet 30 2 Analogue output module 30 2 1 Technical specification 31 32 33 34 35 36 37 30 2 2 The way of installing inside PUE C41H 30 2 3 Configuration of work modes of analogue modules 30 2 4 Connections to AN module 30 3 Relay module PK1 30 3 1 Technical specific 30 3 2 Installing in PUE C41 H indicators 30 3 3 Drawing of cables and outputs 30 4 WE 8 8 inputs 8 outputs module 30 5 WE4 4 inputs 4 outputs module
4. LENGTH Oa FEE Te I pe Apa iat 2 LENGTH 5 Return to weighing See 11 3 NOTICE In lt P2 COM PORT PARAMETERS set the baud rate for the one that requires the barcode scanner default 9600b s Additional information can be fund in the appendix A 15 4 Cooperation with a transponder card reader In case of activating the logging option submenu lt P6 1 LOG IN gt operators have to log in after turning on the scale Logging can be done e Inscribing a password using the scale keyboard e Using transponder cards to log in Select a port number in lt P3 4 TRANSP CARD READER gt 39 Mau ENTER 03 1 lt OON TRANSP CART RERDER ES ENTER lt OLON poaa iey 3193 Ta RS232 01 GA Maku 1 P34 ENTER 2 RERDER CON RS232 61 Return to weighing See 11 3 15 5 Cooperation with additional display 15 5 1 Selecting of communication port scale additional display Additional displays can be connected to e RS 232 1 e RS 232 2 e RS 485 Procedure e Enter lt P3 5 ADDITIONAL DISPLAY gt according to 11 2 and then 40 Pas a pom ROCITIGNAL DISPLAY Pot SO ISPL PURT rseserer 7785 RS232 01 EEX P35 1 BBR BISPL PORT RSZ Return to weighing See 11 3 15 5 2 Selecting an additional display type Procedure e Enter lt P3 5 ADDITIONAL DISPLAY gt according to 11 2 and then pac Je AOOITIO 33 ISP
5. P lt DI M f bokens l 3 i A sror Birs e The selected value confirm with lt ENTER gt Return to weighing See 11 3 331 14 1 4 Setting of RS 485 parameters Procedure Enter lt P2 1 RS485 gt and press lt ENTER gt 7 Using go to lt 2 1 2 DATA BITS gt and press lt ENTER gt gt p21 2 ae an VORN i t ORTA BITS J 8 The selected value confirm with lt ENTER gt Using go to lt P2 1 3 PARITY BITS gt and press lt ENTER gt NONE The selected value confirm with lt ENTER gt t Using EI to lt P2 1 4 STOP BITS gt and press lt ENTER gt tre D31uU lI ee ee y STOP BITS The selected value confirm with lt ENTER gt Return to weighing See 11 3 32 14 2 ETHERNET setting ETHERNET can be configured in lt P2 4 ETHERNET gt Inventory of parameters No NAME VALUE DESCRIPTION SERVER Mode of Ethernet linking as P2 4 1 WORK MODE CLIENT Server or Client IP address for Ethernet P2 4 2 IP ADDRESS 192 168 0 2 commu ni tion P2 4 3 SUBNET MASK 255 255 255 0 Subnet mask for Ethernet Gateway for Ethernet P2 4 4 GATEWAY 192 168 0 1 connection P2 4 5 LOCAL PORT 4001 Local Port for Ethernet P2 4 6 HOST IP 192 168 0 3 Host IP for Ethernet P2 4 7 HOST PORT 2000 Host Port for Ethernet Time in seconds after which P2 4 8 TIMEOUT 60 none active Ethernet connection
6. oc ro on PEY PRSS TYPE NUA Oe ul g Sy bar PRSS TYPE RLPHANUA PASS TYPE NUM only digits 0 to 9 PASS TYPE ALPHANUM alphanumeric password Return to weighing See 11 3 21 4 Type of codes There is possible to select a type of codes You can set this in database settings Procedure e Enter lt P6 DATABASESsS and then Mc ro e DATABASES 5 JKL oc 5 ENTER l hd Q CODES TYPE ALPHANUA 70 CODES TYPE NUM only digits 0 to 9 CODES TYPE ALPHANUM alphanumeric Return to weighing See 11 3 21 5 Access to edition of databases Procedure maa 0 I GATABASE Return to weighing See 11 3 Notice Users can access different things in the menu according to their Access levels It also concerns an access to databases 21 6 Quick search of records in databases Users can search databases using different criteria e Code e Name e Record number This procedure can be used only with operators assortment and contractors 71 21 6 1 Quick code search Procedure F1 While in any work mode press select view products in the assortment database and then HI a 6 o tte F 1 ASSO TAENT 0 Tak gt a Peri LLU 9 ENTS SEARCH CODE mi _ 4m na Pies 04 A ENTER e Inscribe the code you search and then press ER e The program displays the record
7. 30 5 1 Technical specification 30 5 2 Colours of cables for VO 30 5 3 Installing method in PUE C41 H indicators od 30 6 DP1 module for an additional platform we I 3D 30 6 1 Technical specification 30 6 2 Colours of wires 30 6 3 Connecting additional platforms 30 6 4 Installing in PUE C41H housing 30 7 RS485 led out via RS 1D gland 30 7 1 Installing inside the PUE C41H housing 30 7 2 RS 485 PT0012 cable drawing 141 COMMUNICATION PROTOCOL ww 142 31 1 General information 142 31 2 Respond message forma 31 3 Command s description 31 3 1 Zeroing in 31 3 2 Tarring 31 3 3 Send the stable result in basic unit 31 3 4 Send the result immediately in basic unit 31 3 5 Send the stable result in current unit 31 3 6 Send the result immediately in current unit 31 3 7 Switch on continuous transmission in basic unit 31 3 8 Switch off continuous transmission in basic unit 31 3 9 Switch on continuous transmission in current uni 31 3 10 Switch off continuous transmission in current unit 31 3 11 Lock the scale keyboard 31 3 12 Unlock the scale keyboard 31 3 13 Initiating of dosing filling 31 3 14 Stop of dosing filling 31 3 15 Set lower threshold 31 3 16 Set upper threshold 31 3 17 Read lower threshold 31 3 18 Read upper threshold 31 3 19 Send all impleme
8. N2 and SUM 2 will be zeroed e program returns to labelling mode 113 27 BARCODES 27 1 General description Barcodes are the most popular form of automatic identification of articles They are used to describe documents and products to allow automatic loading data to computers Barcode scanners are used to interpret barcodes and send information to external devices For receiving overprints of barcodes are used label printers e g CITIZEN ZEBRA There are many barcode types with deferent information content Barcodes are graphical interpretation of information in dark and white strips of different width The main objective of using codes is speeding up and increasing faithfulness of read information which substituted manual entering of information The number of industries which adapt barcode technologies is continuously growing More and more firms build they automatic identification system on the basis of barcode scanners Scanning technology for barcodes reading e laser longer scanning range e g QS 6000 Cubit e diode durable faster operation e g Dioder QS 2500 27 2 EAN codes One of the most popular barcodes are EAN European Article Numbering which were approved for common use in retail trade in 1976 American equivalent is UPC EAN code types e EAN 13 12 data digits and checksum e EAN 8 7 data digits and checksum e EAN 128 digital version of CODE 128 First 3 digits signi
9. dA lt 0 000 min VEIGHINGS e Incase when the database is not empty you will see the first record date mass unit Time of saving of weighing weight unit record No Load mass e To delete the selected record press 2 e To delete all records press oj Return to weighing See 11 3 76 21 9 Assortment database The assortment database can comprise up to 3000 records Procedure of adding records e Enter databases according to 21 5 of this manual Ss 0000 RE DATABASES jt oons Kl _ ENTER 0 ogg X li Q RSSORTA NT e In case the database is empty you will see 0 000 NO RECGROS F1 e Press to add a record You will see the first empty record in editing mode 77 Fields in the assortment database NAME Product name max 40 characters CODE Product code 7 digits 7 characters lt P6 5 CODE TYPE gt see 22 4 EAN Constant code that can be used as a barcode max 15 digits PCS MASS Mass of single piece MIN Minimal number of pieces MAX Maximum number of pieces TARE Be en it is preset automatically after selecting PRICE Unit price VAT Value added tax in per cents 0 to 100 VALIDITY Number of days for expiration date DATA A Constant date characterising a product LABEL CODE Label code from the database of labels relation label C LABEL CODE Label code from the da
10. 16 17 18 19 U H space mass space unit space CR LF Mass 9 characters justified to the right Unit 3 characters justified to the left 31 3 19 Send all implemented commands Syntax PC CR LF Possible answers PC_A_ Z T S SI SU SUI C1 C0 CU1 CU0 PC K1 K0 DH UH ODH OUH S1 S0 command executed the indicator have sent all the implemented commands 31 4 Manual printouts automatic printouts Users can general manual or automatic printouts from the scale e Manual printouts can be performed after loading the pan and stabilizing indication by pressing a8 e Automatic printouts can be performed only after loading the pan and stabilizing indication Notice If a scale is verified printouts of immediate values are blocked 150 Format frame 1 2 3 4 12 13 14 15 16 17 18 stability space sign mass space unit CR LF Stability character space if stable if not stable if an indication over the range v if fan indication below the range sign space for positive values or for negative values mass 9 characters justified to the right unit 3 characters justified to the left command 3 characters justified to the left Example 1 eee ee 1832 0 g __ CRLF the printout generated from the scale after pressing ENTER PRINT Example 2 _ 2 237_1b_ CRLF the printout generated from the scale after pressing ENTER PRINT Example 3 A 0 000_kg_ C
11. 30 1 1 Mounting way in PUE C41H This module is intended for mounting inside PUE C41H indicators It is mounted to the main board to the 10 pin J1 connector e For ET 1G version of module a 4 pin Ethernet connector is installed on the back wall of the housing e For ET 1D version of module a gland is installed on the back wall of the housing through which a shielded cable is led out twisted pair 3m length terminated with RJ45 plug Mounting procedure Unplug from mains Unscrew the back wall of the housing Install the module in J1 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 5 For ET 1G unscrew one of the plugged glands and install a socket instead 6 For ET 1G version connect wires from PT0017 socket to J2 and J3 connectors on the Ethernet module according to the description below 7 For ET 1D version unplug one of the glands and led the PT0014 twisted pair cable out 8 For ET 1D version connect the shield of PT0014 cable to the indicator housing screwed terminator 4mm diameter PON Ss 123 10 11 Connect the PT0014 cable to J2 and J3 connectors on the Ethernet module according to the description Cable twisted pair or wires from the Ethernet socket connect to the group of wires unhook band clips fastening the group of wires lay the cable or conductor
12. counter e After exceeding the total mass of weighings M1 e Printing appears after pressing a key To print using keys e Press Es and you will see Number of basic labels Number of pieces from N1 labels 111 e press E73 e cumulative label is printed and N2 counter and total number of pieces SUM2 however N1 counter and SUM1 are zeroed e the program returns to labelling Notice In case of necessity of printing labels by using keys set lt P7 4 1 C LABEL gt to KEY 26 7 2 Printing cumulative labels of cumulative labels CC labels holds data from the whole process of labelling of one product e g for marking pallets or big containers with goods Cumulative labels of cumulative labels need to be defined for the product There are three criteria of printing cc labels e After exceeding the given number of c labels of one product N2 counter e After exceeding the total quantity of pieces for c labels M2 e Painting anytime after pressing a key You can print cc label anytime e press amp and then and you will see X Number of cumulative labels Number of pieces N2 cumulative labels press 28 e cc label will be printed out and N2 counter and SUM2 total quantity will be zeroed e program returns to labelling mode Notice In order to have the possibility to print cc labels set the lt P7 4 2 CC LABEL gt parameter to KEY 11
13. maximal value can be seen Remove the acting force Press o before the next measurement Return to weighing See 11 3 24 4 Deviation in percents in relation to a standard mass Software can help to control deviations in from a standard nominal mass The standard mass can be settled by weighings or inscribing 91 24 4 1 Starting weighing in per cents oa 0000 R x 0 000 CF DHL SE FE T5 3 I CHECKUEIGH e Selection of DEVIATIONS is confirmed by displaying pictogram in the upper right corner of the display 24 4 2 Weighing a standard mass Procedure e Enter DEVIATIONS and then blinking pictogram b m x 0000r I PUT SAMPLE EN r e Puta load to be a standard mass on the weight pan e After the equilibrium is reached tm press Ea e You will see the indication of 100 00 e From this moment all results will be displayed in percents Return to weighing See 11 3 92 24 4 3 Inscribing a standard mass Procedure e Enter DEVIATIONS and then MI lt a Ma oii F4 spe Ll Ll Ll CLEAI 1 i NO SUN 0 000 MI lt lt aa 5 8 00 E I STANDARDO KG 1 008 hi aan aig gt na ENTER 0 boh a Lh Lal 1 2 I I STANDARD KG 5 000 From this moment all results will be displayed in percents Return to weighing See 11 3 24 5 Weighi
14. Maximal force latch 24 4 Deviation in percents in relation to a standard mass 24 4 1 Starting weighing in per cents 24 4 2 Weighing a standard mass 24 4 3 Inscribing a standard mass 24 5 Weighing animals 24 5 1 Weighing time setting 24 5 2 Starting the work mode 24 5 3 Procedure of weighing an 2 24 BG DOSING n aa 96 24 6 1 Setting dosing mode 24 6 2 Time interval between changing dosage thresholds 24 6 3 Time interval of process completion 24 6 4 Mode for OUTPUTS 24 6 5 Starting work modes COUNTING PIECES OF THE SAME MASS 25 1 Setting parameters for counting pieces operation mode 25 1 1 The way of trigerring up C LABELS 102 25 1 2 The way of trigerring up CC LABELS 103 25 1 3 Setting N1 label counter 104 25 1 4 Setting quantity of pieces M1 25 1 5 Setting N2 c label counter 25 1 6 Setting quantity of pieces M2 25 1 7 Automatic Correction of Accuracy ei 25 2 Enabling work mode 105 25 3 Setting the mass of single piece 25 3 1 Before inscribing the unit mass 25 3 2 By declearing reference quantity 25 3 3 By entering a unit mass from the database es 25 4 Inscribing the unit mass to the database 109 BEGINNING LABELLING 26 1 Quick search of records in databases ees 26 2 Selecting products
15. A D converter module for second platform RS D1 RS485 led out via a gland Main board view with some additional modules being installed additional A D module Ethernet module relay outputs module analogue output module AUN 121 Main board view with connectors for additional modules Hne 2 a Ez A D converter nodul e so wv IN n z REF M Solder jumpers Fu2 ps ccomtater connector ner Of 4 lead tensometer ies Factory Accusulator fuse e settings 32 22 e Es e s J3 Relays nodul N2 Jis Analog output ii Fjo Pouer connector omases Ja EEN a ae ae for R5485 settings ques PE cable connector jumper anvout J21 J18 DP 1 module Ji Ethernet ET 1G ET 1 D module J3 Relay module J12 WE 8 module J12 AN module 30 1 Ethernet module ET EN gumads AOLE 2908 12 Ethernet module PCB 422 This module is designed according to TCP IP 10 100 Mbit s standard It comprises two signalling LED s e D2 lights Ethernet connection established e D1 blinks transmission 10Mbit s or 100Mbit s Module accessible in two versions ET 1G with external connector on the scale housing ET 1D with cable twisted pair about 3m length led out via the gland on the scale housing Intended for connecting to a switch not computer Terminated with a standard RJ45 plug
16. B white 1 pin2 RxD brown Signals from computer 2 green E a Taren GND pinS 3 brown VW pin4 A yellow TXD pin3 Y U pins GNDRS grey RXD pin2 1 Say SHIELD pin6 5VDC pink Solder side view Cable PUE C41H COMPUTER Scale computer cable KAFKA printer PUE C41H DINS plug Signals from scale LJ A A pin1 B white Signals from printer green ia pin2 RxD brown pint RxD j pin3 TxD green 3 GNDRS pind A yellow pn pt uroy 1 pin5 GNDRS grey V V A pin6 5VDC pink SHIELD PT0018 Solder side view Cable PUE C41H KAFKA Scale Kafka printer cable 118 EPSON CITIZEN printer DB25 M male 13 PUE C41H 25 Signals from printer GND pin7 grey RXD pin3 TXD pin2 green 2 brown SHIELD 14 Solder side view Cable PUE C41H EPSON CITIZEN Scale Citizen Epson printer cable Signals from scale pint B white pin2 RxD brown pin3 TxD green pin4 A yellow pinS GNDRS grey pin6 5VDC pink ZEBRA printer DB9 M male PUE C41H Signals from scale pint B white pin2 RxD brown Signals from printer 9 pin3 TxD green GND pind pind A yellow RXD pin3 pinS GNDRS grey TXD pin2 SHIELD pin6 5VDC pink PT0022 Solder side view Cable PUE C41H ZEBRA Scale Zebra printer cable PUE C41H pint OUT3 White pin2 OUT2 Brown pin3 OUT1 Green pin4 COMMON Yellow pind IN3 Grey pin6 IN2 Pink pin7 IN1 Bl
17. During the calibration process you will see ADJ CALIB FACTOR in the bottom line e After the procedure is completed you will see in UNLOAD THE PAN in the bottom line e After taking off the calibration weight 65 e Return to weighing saving parameters Return to weighing See 11 3 20 2 Start mass adjustment It is possible to adjust only a start mass it helps to correct the start zero when the span does not change Procedure e Enter lt P10 KALIBRACJA UZYTK gt and then e Unload the scale e Press EE During adjusting a start mass you will see ADJ START MASS in the bottom line After completing this procedure the scale will return to the following window e Return to weighing saving parameters Return to weighing See 11 3 66 21 DATABASES 21 1 Logging procedure In case of activating of logging procedure submenu lt P6 1 LOG ING an operator after switching on has to perform a jogging procedure which consists in inscribing a password Operators can also use a transponder cards for this procedure provided the terminal is equipped in a transponder card reader see 15 4 Procedure e Enter lt P6 DATABASES gt and then r pad m ENTER E a lt 1 f gt TRBRSES a Ie 1 Po ERON a IAG IN LOO IN NO he oc 7 ond GIN No ENTER ge an Return to weighing See 11 3 Users can log in even if this procedur
18. SUN 9 I SF D Q n u After placing a load on the weight pan net mass will be shown Tarring is possible within the whole range of the scale After unloading the pan the display shows the tarred value with minus sign Ii Net aa N OTA abe oogu I 1 NNA SUN N r n mye Ui U u c oa Notice Tarring cannot be performer when a negative or zero value is being displayed In such case Err3 appears on the display 12 2 Inscribing tare value You can also inscribe a tare value Procedure While in weighings mode T e Press e Inthe lower line you will see an editing field ENTER e Press e The scale return to weighings mode The inscribed tare value can be seen on the display with sign Tare can be inscribed anytime in weighings mode 12 3 Zeroing To ZERO the scale press o The scale will display zero and following pictograms 0 and mua Zeroing is only possible within the scope of 2 of full scale While zeroing outside the scope of 2 you will see Err2 Zeroing is possible only in stable state 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 12 4 Weighings in two ranges 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 co
19. according to 21 5 and then M1 0 000 Eg I DATABASES x H s A w m 70 70 wn e Inthe lower line you will see the first line for inscribing data 74 Fields in an operator record NAME Operator name 40 characters CODE Operator code 6 digits or 6 characters according to lt P6 5 CODES TYPE gt see 21 4 Password for logging 8 digits 8 characters PASSWORD according to lt P6 4 PASS TYPE gt see 21 3 CARD CODE Transponder card code 15 digits see 15 4 AUTHORIS The access level see 21 2 You can enter the edition end confirm any data by pressing ER You can select fields using BJA After defining all fields in a record of operator press E Then you will see SAVE ENTER Press if you want to save You will see a name and a position in the database au inl nln o LI LILII 9 1 KOUALSS To delete a record press B To edit a defined record press F3 To delete all records press Return to weighing See 11 3 75 21 8 Weighings database Every result sent from the scale to a printer is also saved in the database of weighings There is possible to save up to 40 000 records in database in standard setting Procedure of editing of weighings e Enter the database according to 21 5 and then o UU gt dA I DATABASES MA mas Lit O0 U s I i GPERATERS
20. al J STATYSTYKI OGOLNE par E a a ron EROA STATYSTYKI ASSORT STATISTICS GENERAL global statistics STATISTICS ASSORT statistics for every product Return to weighing See 11 3 55 18 2 Printouts of statistics Users can print out statistics in any work mode i H 500 N1 sun 3 800 GbGG Te GC ay Procedure Using users can view the current statistics SUM total mass of all details AVG every mass of all details MIN minimal mass MAX maximal mass Printout example N 7 number of weighing SUM 3 800 kg total mass AVG 0 543 kg average mass of all loads MIN 0 200 kg minimal mass MAX 1 000 kg maximal mass 56 18 3 Zeroing statistics Users can delete statistics to start a new series of measurements Procedure NY 7 SUA 3 80 0 500 i 0600 i ENTER 7600 SAO 1 DELETE STATIST P Il bod D600 N 0 Return to weighing See 11 3 Notice When a user changes a work mode all statistics are automatically deleted 57 19 OTHER PARAMETERS Users can set parameters that influence the weighings procedure There are included in lt P9 OTHER gt e g language backlight BEEP sound 19 1 Language setting Procedure e Enter lt P9 OTHER gt and then Oe 1 reo AO LANGUAGE ENGLISH Return to weighing See 11 3 58
21. identification number 10 digits DISOUNT discount in value 0 to 99 99 LABEL CODE A code of prescribed label Entering edition and confirming changes can be made by pressing ER Select fields to be changed using W L keys e After defining all fields press e You will see the following inscription HI a8 wo UOL SAVE P ENTER e Press Sto save changes e You will see the product name you have edited e To erase the selected record press 2 e To edit the selected record press 53 e Toclear the database press E Return to weighing See 11 3 80 21 11 Database of tare values It is possible to keep up to 100 tare values for each platform Procedure Tong D e While in any work mode press wice you will see ks e To enter or edit records press E e To clear editing field press Es e Enter the expected value and confirm it with Era e Press one more time to weighings You will see the entered tare value preceded by provided the scale pan was empty e You can browse the database of tares using YO inscribing directly a record number using to oj Notice If the inscribed tare value is to high following terror message will be displayed lt VALUE TOO HIGH gt Return to weighing See 11 3 21 12 General purpose variables You can inscribe any text to be memorized for printouts You can view or edit them from the level of databases in the
22. is being broken Return to weighing See 11 3 33 15 DEVICES In the lt P3 DEVICES gt group of parameter one can configure external devices connected to the terminal 15 1 Cooperation with a computer 15 1 1 Selecting communication port scale computer The computer can be connected to RS 232 1 RS 232 2 RS 485 Ethernet Procedure Enter lt P3 1 COMPUTERS and then par 1 P3 ENTER COMPUTER par 7 P31 ENTER 2 COM PORT N hs ETHERNET RS 485 ee t RS232l2 RS232n 7N pn 1 1 ENTER a P E lt AOA CON PORT R5485 S Return to weighing See 11 3 34 15 1 2 Type of printout scale computer Procedure e Enter lt P3 1 COMPUTERS and then P31 Re COMPUTER pase COMP PRINT NON NONE PRINTOUT 4 STANCARG PRINTOUT 3 PRINTOUT 7 Ad a4 PRINTOUT 2 P3413 ZAO CONP PRINT STANDARDO Return to weighing See 11 3 15 1 3 Address setting Procedure e Enter lt P1 SCALE PARAMETERS according to 11 2 and then Pi LO COMPUTER 1 1 Po I I ConP PORT NO P3 1 2 ETSA e Inscribe a value 0 to 254 and press lt ENTER gt Return to weighing See 11 3 15 1 4 Order operating of communication protocol User in parameter lt P3 1 4 BASIC TRS gt has possibility to set communication protocol designed to communicate between RADWAG s
23. label counter e Enter lt P7 4 5 N2 gt parameter e Inscribe the required value of N1 for triggering up cc labels e Confirm it by pressing ER 25 1 6 Setting quantity of pieces M2 e Enter lt P7 4 6 M1 gt according to e Using the keyboard inscribe the required M2 for triggering up cc labels e Confirm it by pressing ER Return to weighing See 11 3 25 1 7 Automatic Correction of Accuracy The function of Automatic Correction of Accuracy can be used for correction of unit mass SMP In order to enable the function e Enter lt P7 WORK MODE gt and then 104 YES ENTER i The function of Automatic Correction of Accuracy in counting pieces works during weighing the reference quantity and is signaled by blinking pictogram in the upper right corner Return to weighing See 11 3 25 2 Enabling work mode r mre kg 04 Li LILI no sun 0 000 KI W r na Hi CVT kiai WL COUN PCS e When counting pieces is enabled oh pictogram is displayed in the upper right corner 105 25 3 Setting the mass of single piece 25 3 1 Before inscribing the unit mass Procedure e Enter COUNTING PIECES and then JKL lt 0000 CF a 0 3 20 wn PARE Ney ant 8 KR T a lam ra T so o p EG J Pressing causes return to COUNTING PIECES with automatic adjustment of reference CAUTION You
24. mass in EAN13 code for goods with different quantity mass P7 4 8 AUTO COR Automatic accuracy correction 25 1 1 The way of trigerring up C LABELS Procedure e Enter lt P7 WORK MODES and then oT 7 I PORS YORK MODES 4 gt k r oT Fis COUN PCS DIT F tue C LABEL COUNTER KEY COUNTER ARSS oO7U7 y N gt C LABEL pass ne C LABEL KEY trigerring up printing by pressing PRINT C LABEL COUNTER trigerring up printing by exceeding N1 C LABEL MASS trigerring up printing by exceeding M1 quantity Return to weighing See 11 3 25 1 2 The way of trigerring up CC LABELS Procedure I POR F YORK NODES cut 2 o i LI ABC a coun PCS J pa Z E CC LABEL COUNTER t S SES counter NASS EE DI I 1 P142 CE CC LABEL NASS S CC LABEL KEY trigerring up printing by pressing PRINT CC LABEL COUNTER trigerring up printing by exceeding N2 CC LABEL MASS trigerring up printing by exceeding M2 quantity Return to weighing See 11 3 103 25 1 3 Setting N1 label counter e Enter lt P7 4 3 N1 gt parameter e Inscribe the required value of N1 for triggering up c labels e Confirm the value by pressing 25 1 4 Setting quantity of pieces M1 e Enter lt P7 4 3 M1 gt parameter e Using the keyboard inscribe the required M1 for triggering up c labels e Confirm the value by pressing ER 25 1 5 Setting N2 c
25. output resistance lt 50082 Voltage output resistance gt 400f4 Power supply 24V DC 12 30V DC max 40mA 30 2 2 The way of installing inside PUE C41H These modules are intended to mount inside PUE C41H They need to be connected to the 10 pin J12 connector For all configurations of AN there is a gland installed on the back wall of the housing A 3 meter shielded cables are led out via the gland Wires should be free from insulation Installing procedure ponds Da Unplug the scale from mains Unscrew and take off the back wall of the housing Install your module in J12 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 Led the PT0015 cable through one of the free glands Connect the PT0015 cable to J3 on the analogue module according to the description below Connect the PT0015 cable shield to the housing screwed terminator 4mm diameter The cable connect to the group of wires unhook band clips fastening the group of wires lay the cable and hook the band clips Band clips of multiple usage Screw down the back wall 126 A Main connector connect assembly hole for a plastic column to J12 on the main board voltage gt output current output operation mode configuration switch see the table below B R2 a EEE z BE assembly hole for C a plastic c
26. press assortment database Select a required product 2 2 and confirm with ER Caution The selected product has to have a declared unit mass You can inscribe it by editing a record from the database 25 4 Inscribing the unit mass to the database The unit mass can be described a unit mass the following way w Estimate the unit mass see 25 3 1 and 25 3 2 Enter the assortment database 2 Select the product using HG Press J in the lower line you can see a o o e Confirm the unit mass with 25 f The unit mass is saved 109 26 BEGINNING LABELLING First inscribe load appropriate data to databases assortment operators materials contractors Then set some labelling parameters see 25 1 Now you can start labelling 26 1 Quick search of records in databases While in a database inscribe an ordinal number of a record The program automatically displays the expected number Notice When you inscribe an ordinal number that has no associated record the present cursor position will not change 26 2 Selecting products While in the labelling mode press assortment database Selection appropriate product press Dor 2 and confirm it with ER It is possible a quick search in the assortment database using barcode scanners see 15 3 26 3 Selecting a contractor While in labelling mode press contractors database We select a constructor C or 2 and confirm it
27. supply 230V AC 50Hz Battery operation time Up to 9 h Display LCD with backlight 154 34 2 1 load cell scales of H series H1 K H2 K H2 K H3 K H3 K 410 x 410 mm 10 10 40 C AS 232 RS 485 IP 66 67 230V AC 50Hz accumulator 6V 3Ah Upto9h LCD H3 K H3 K H4 K H4 K 500 x 600 mm 0o 400 RS 232 RS 485 IP 66 67 230V AC 50Hz accumulator 6V 3Ah Upto9h LCD with backlight H5 K H5 K H5 K H6 K H6 K 800 x 800 mm 100 0T RS 292 RS 485 IP 66167 230V AC 50Hz accumulator 6V 3Ah Upto 9h LCD with backlight 155 34 3 1 load cell scales of C K series C1 K C1 K C1 K C2 K 230V AC 50Hz accumulator 6V 3Ah Battery operation time Up to 9 h Display LCD with backlight seeing WPW 150 wpw300 WPW 150 WPW 300 care type C2 K C2 K C3 K C3 K 156 35 APPENDIX A Barcode scanner programming related to PowerScan QS600 scanners Use special barcodes from Programming Guide to set all the necessary data Default baud rate of scanners is 9600 bit sec 1 Switching on EAN 13 code standard Symbology Selection SET Enable EAN 13 END 2 Setting a necessary prefix for HTX Label Transmit Configuration Settings Global Prefix es SET Set Prefix 01 this is a necessary prefix for HTX 00 01 HEX END 3 Setting a necessary suffix for HTX Label Transmit Configuration Setting Global Suffix es SET Set Suffix CR
28. this is a necessary suffix for HTX OD hex END 4 Setting label ID location SET LABEL I D NONE END Notice RADWAG standard is symbology specification LABEL I D NONE 157 36 APPENDIX B CITIZEN label sprinter setting Baud rate 9600bit sec Parity no Number of bits 8 Stop bits 1 Flow control no IEEE 1284 switched on RS232 information from a test printout Interface Menu RS 232C Baud rate 9600bps RS 232C Parity None RS 232C Length 8 bit RS 232C Stop bit 1 bit RS 232C X ON No IEEE 1284 On The way of printing the above printout and setup changes are described in CITIZEN user s manuals 37 APPENDIX C ZEBRA label sprinter setting Baud rate 9600b sec Parity none Number of bits 8 bits Stop bit 1 bit RS232 information from a test printout Serial port 9600 N 8 1 The way of printing the above printout and setup changes are described in ZEBRA user s manuals 158 MANUFACTURER OF ELECTRONIC WEIGHING INSTRUMENTS R A DW G ZMP RADWAG 26 600 Radom Bracka 28 Street POLAND Phone 48 48 38 48 800 phone fax 48 48 385 00 10 Selling Department 48 48 366 80 06 www radwag com E DIN EN ISO 9001 2000 CERTIFICATE NO 71 100 C206
29. value below LO THRESH For automatic weighing the next weighings can be performed after the indication reaches the net value below LO THRESH The procedure of weighing animals will start after the gross animal mass is greater than LO THRESH Procedure e Enter lt P1 SCALE PARAMETERS according to 11 2 and then P I B SCALE PARAMETERS Ru ri 7 2 an Ge hae LO THRESH 0 005 P 113 LO THRESH 0 005 JKL 115 ENTER P er lt OON LO THRESH 0 055 N Return to weighing See 11 3 25 13 4 Tare function This parameter allows to set appropriate parameters for tarring Procedure e Enter lt P1 SCALE PARAMETERS according to 11 2 and then p UCA LL SCALE PA RAMETERS Re ENTER l AOA DE EN R a AUTO disable automatic tare the mode is remembered after restart NORMAL tarring by pressing gt T lt MEMORY tare memory mode the last tare value is being kept in a non volatile memory Net pictogram is displayed SUM sum of tares summing up a product tare value with a tare from the database of tare values or with an inscribed one I TARE N Return to weighing See 11 3 26 13 5 Autozero The autozero function has been implemented in order to assure precise indications This function controls and corrects 0 indication While the function is active it compares the results continuously with constant f
30. 19 2 DIODES power setting According to the requirements e g intensity of external light it is possible to change the light flux from LEDs in the scale of 0 to 100 Procedure e Enter lt P9 2 DIODES gt and then D a Pgo A DIODES oOo 3 7 a A f Sato LED POVER 100 mm 1 E 5 I LED POVER 100 J Return to weighing See 11 3 19 3 Work mode of DIODES In lt P9 2 DIODES gt users can chose a work mode for LEDs Procedure e Enter lt P9 2 DIODES gt and then 59 DIODES Da 3 I S c RED DIODES NON STRB NON STRB I STABLE 4 I OFF a a4 P39 e2 ENTER D RED DIODES STABLE BAA oc P9 2 2 RED DIODES STABILNY roe EX GREEN D100 STABLE STABLE OFF 3 GREEN 010 NON STAB J J ENTER L a RED LEDS NONSTAB REDLEDS STABLE REDLEDS OFF GREEN LEDS NONSTAB GREEN LEDS STABLE GREEN LEDS OFF Return to weighing See 11 3 8 NON STRB diodes start to lit after exceeding the LO threshold see 73 3 diodes start to lit after exceeding the LO and reaching equilibrium diodes not work diodes start to lit after exceeding the LO diodes start to lit after exceeding the LO and reaching equilibrium diodes not work 60 19 4 Automatic power down Changes can be made in lt P9 3 POWER SAVE gt When the POWER SAVE function is enabled the device switches off after 5 min Provide
31. 2 26 7 3 Triggering C LABEL by exceeding N1 value Labelling procedure gives the possibility of triggering c labels by exceeding the N1 value e set N1 according to 26 1 3 e return to the labelling mode e after exceeding the N1 value label will be printed out N2 counter and SUM 2 will change but N1 and SUM 1 will be zeroed e program returns to labelling mode 26 7 4 Triggering CC LABELS by exceeding N2 It is possible to trigger out printing cc labels by exceeding N2 e set N2 according to 26 1 5 e return to labelling e After exceeding N2 cc label will be printed out N2 counter and SUM 2 will be zeroed e program returns to labelling mode 26 7 5 Triggering C LABELS by exceeding SUM 1 It is possible to trigger out printing cc labels by exceeding SUM 1 e set SUM 1 total quantity of pieces according to 26 1 4 e return to labelling e after exceeding SUM 1 total mass of weighings c label will be printed N2 and SUM 2 will be increased and N1 and SUM 1 will be zeroed e program returns to labelling mode 26 7 6 Triggering CC LABEL by exceeding SUM 2 value It is possible to trigger out printing cc labels by exceeding SUM 2 e Set the SUM 2 value according to 26 1 6 e return to labelling e after exceeding SUM 2 cc label will be printed out
32. 25 COUNTING PIECES OF THE SAME MASS The intended use of these scales is counting pieces of the same mass They can be connected to CITIZEN CLP or ZEBRA label printers EPSON TM U220 slip printers can be also connected Procedure of set up 1 Set appropreate parameters in lt P7 4 COUNTING PCS gt see 25 1 2 Select a product from the assortment database After setting parameters you can start the procedure of counting pieces Caution The description of parameters of CITIZEN CLP and ZEBRA printers you can find in the appendix B or appendix C of this manual 25 1 Setting parameters for counting pieces operation mode e Enter lt P7 WORK MODES and then nT Bg Ry UORK NODES GHI oT l tn 0 COUN PCS mr Le F l fa tl C LABEL KEY e Inthe bottom line of the display you can see the first parameter to set 101 Parameters for counting pieces O n NAME DESCRIPTION P7 4 1 C LABEL The way of trigerring up printing of c labels P7 4 2 CC LABEL The way of trigerring up printing of cc labels P7 4 3 N1 a state to exceed for trigerring up printing of c P7 44 M1 Quantity of pieces to exceed for trigerring up printing of c labels P7 45 N2 ae state to exceed for trigerring up printing of cc P7 4 6 M2 Quantity of pieces to exceed for trigerring up printing of cc labels Point position number of digits after the point for P7 4 7 EAN PT POS quantity
33. 7 uo 9659 95 60 Mou s ENTER gt alee Pig Yo lt BL BATTER 50 Return to weighing See 11 3 NOTICE Backlight operation shortens time between subsequent recharges of the accumulator 63 19 6 Beep sound key press reaction Procedure e Enter the lt P9 OTHER gt and the OO Wx 3 DN par l al OTHER ot fC I a F pe BEEP YES oor ees Pee BEEP NO ENTER pa ol BEEP NO no beep after pressing keys BEEP YES beep after pressing keys Return to weighing See 11 3 19 7 Software version view Users lt P9 6 SOFT VER gt can view a software version number Procedure e Enter lt P9 OTHER gt and then Return to weighing See 11 3 20 SCALE CALIBRATION 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 a calibration factor It is adjusted during the calibration procedure using a mass standard Calibration should be made when weighing a standard mass shows a different mass value 20 1 Calibration procedure e Enter lt P10 USER CALIB gt and then e Unload the pan e Press E2 During adjusting a start mass you will see ADJ START MASS in the bottom line e After completing this procedure you will see the following window e Place the required mass on the platform 1 then press ER e
34. DEVICES 0 ccseeceeeeeeeeees 34 15 1 Cooperation with a COMPUTET eee eee eeeeeeeeeeee 15 1 1 Selecting communication port scale computer 15 1 2 Type of printout scale computer 85 15 1 3 Address setting 00 cee 35 15 1 4 Order operating of communication protocol ccecceecceeeeeeeeeeeeeeeeeeeseeeeeeeeeeeeeeeeeeeeeseeees 36 15 2 Cooperation With printers f22cesz spisectedesicssckytpececcadesssuggsuessaa seeyecspuptescastdecs taggazeecacsnagcarstesseeeisee 37 15 2 1 Communication port scale printer 37 15 3 Cooperation with a barcode scannev 15 4 Cooperation with a transponder card reader 15 5 Cooperation with additional display 15 5 1 Selecting of communication port scale additional display eeeeeseeseeeeseeeeeeeeeeeees 40 15 5 2 Selecting an additional display type 0 e eee eeeeeeseeeneeeteeeseeeeseeseeeeeseeseeseasseesaeeaeeaeeaes 41 3 16 17 18 19 20 21 22 23 24 DATE TIME SETTING 16 1 Time view 16 2 Time setting 16 3 Date format PRINTOUTS 17 1 Printout type 17 2 Printout of stable unstable data 17 3 Checkweighing mode 17 4 Non standard printouts 17 5 Designing non standard printouts 17 6 Texts in non standard printouts STATISTICS 18 1 Updating of statistics 18 2 Printouts of statistics 18 3 Zeroing statistics OTHER PARAMETERS 19 1 Lan
35. E Stable result over the LO threshold THRE 1 Threshold of passing from dosing to precise dosing in dosing mode THRE 2 Completing dosing process CHUTE Chute control Procedure To declare an output number connected with the function enter lt P8 2 OUTPUT CONF gt and then e Press ENTER e You will see lt P8 2 1 MIN gt e press ENTER Od 2 7 P Eg i MIN N HIN n to AR go c c C A 3 2 2 C i o O o S cn Jw F e Confirm the selected value with lt ENTER gt e Using go to the next function Notice You can ascribe all functions to outputs accordingly Remember that the standard solution has only 3 reed relay outputs Return to weighing See 11 3 87 24 WORK MODES 24 1 Setting accessibility of work modes In the parameter lt P7 1 ACCESSIBILITY gt users can declare which work modes need to by accessible after pressing 4 Procedure e Enter lt P7 WORK MODES and then ENTER lt of m 7 Pp YORK NODES oO _ ge J y m 2 r tz m OI 79 YEIGHING YES D57711 E C iii t YEIGHING YES oC J z at tz gt m Ska y NO mode denied YES mode accessible Return to weighing See 11 3 Notice This way you can disable enable all accessible work modes 88 24 2 control according to an inscribed standard mass While in weighing mode users can de
36. FUNCTION FUNCTION NO ADMIN ADMIN NUM NUM GENERAL YES YES YES YES YES YES 15 P 7 3 DOSAGE P 7 3 1 DOSING NAM P 7 3 2 DELAY P 7 3 3 CHUTE TIME P 7 3 4 OUTPUT MOD P 7 4 LABELLING P 7 4 1 C LABEL P 7 4 2 CC LABEL P 7 4 3 N1 P 7 4 4 M1 P7 4 5 N2 P 7 4 6 M2 P 7 4 7 EAN PNT PS P 7 4 8 AUTO COR P 8 I O CONFIG P 8 1 EXTERNAL BUTTONS P 8 1 1 TARE BUTT P 8 1 2 PRINT BUTT P 8 1 3 ZERO BUTT P 8 1 4 START BUTT P 8 1 5 STOP BUTT P 8 1 6 EXT START P 8 1 7 TERM BUTT P 8 1 8 CHUTE PERM P 8 2 OUTPUT CONF P 8 2 1 MIN P 8 2 2 OK P 8 2 3 MAX P 8 2 4 STABLE P 8 2 5 THRESH 1 P 8 2 6 THRESH 2 P 8 2 7 CHUTE P9 OTHER P 9 1 LANGUAGE P 9 2 DIODES P 9 2 1 LED POWER P 9 2 2 RED DIODES P 9 2 3 GREEN DIOD P 9 3 POWER SAVE P 9 4 BACKLIGHT P 9 4 1 BL MAINS P 9 4 2 BL BATTER P 9 5 BEEP P 9 6 SOFT VER P 10 USER CALIB P 10 1 PLATF 1 CALIB P 10 1 1 STRT M ADJ P 10 1 2 CALIBRATION P 10 2 PLATF 2 CALIB P 10 2 1 STRT M ADJ P 10 2 2 CALIBRATION a G a KEY KEY 0 000 0 000 NO NO NO NO NO NO NO NO NO NO NO NO NO NO NO NO ENGLISH 100 NON STAB STABLE NO YES 100 YES WTLL 1 4 4 15 11 2 Navigating within the menu level Use keyboard to browse the menu 11 2 1 Keyboard DICIS oT FN 9 CLEAR tz T m on O Entering the main menu special characters in the editing field Moving up left Moving down right Adding re
37. K CRLF command executed Caution This command is not remembered after restart 31 3 12 Unlock the scale keyboard Syntax KO CRLF Possible answers KO_OK CR LF command in progress 31 3 13 Initiating of dosing filling Syntax S1 CRLF Possible answers 1_I1CRLF command comprehended but cannot be executed S1_OK CRLF command in progress 148 31 3 14 Stop of dosing filling Syntax S0 CRLF Possible answers S0_I CR LF command comprehended but cannot be executed S0_OK CRLF command in progress 31 3 15 Set lower threshold Syntax DH_XXXXX CR LF where XXXXX mass format Possible answers DH_OK CR LF command executed ES CR LF command not comprehended wrong mass format 31 3 16 Set upper threshold Syntax UH_XXXXX CR LF where XXXXX mass format Possible answers UH_OK CR LF command executed ES CR LF command not comprehended wrong mass format 31 3 17 Read lower threshold Syntax ODH CR LF Possible answers DH_MASA CR LF command executed Frame format 1 2 3 4 12 13 14 15 16 17 18 D H space mass space unit space CR Mass 9 characters justified to the right Unit 3 characters justified to the left 149 31 3 18 Read upper threshold Syntax OUH CR LF Possible answers UH_MASA CRLF command executed Frame format 1 2 3 4 12 13 14 15
38. LAY na PISE GISPL TYPE tco P35 0 a GisPl TYPE WUG Return to weighing See 11 3 41 16 DATE TIME SETTING Enter lt P4 DATE TIME to set these parameters 16 1 Time view Procedure p P4 Be lt P41 ER Return to weighing See 11 3 16 2 Time setting Procedure e Enter the DATE TIME gt and then T Py E ORATEZTINE 1 PH OISPL TIME pye ER SET TINE 42 e After pressing lt ENTER gt you will see Mu J ENTER I 2 i SET YERR e Enter an appropriate value and confirm it with lt ENTER gt e You will have to enter the following variables in sequence MONTH DAY HOUR MINUTE e After confirming the last value with lt ENTER gt you will see the current date and time DI l amp 2001 02 06 13 55 15 Return to weighing See 11 3 43 16 3 Date format Date can be displayed in different format Procedure e Enter lt P4 DATA TIME gt and proceed as follows OATESTIAE PY BEC OISPL TIME r mt PY 3g ORT FORMAT yy nn 00 Y AN O0 3 3 oo Yy ef i mu J I ENTER I 1 2 OAT FORMAT 33 00 AfA FORMAT DAT YY MM DD FORMAT DAT YY DD MM FORMAT DAT DD MM YY Return to weighing See 11 3 44 year month day year day month day month year 17 PRI
39. NOTICE There is impossible to set data bits and stop bits for RS 232 2 They are internally set to 8 bits and 1 stop bit 28 14 1 1 Baud rate of RS 232 Procedure e Enter lt P1 SCALE PARAMETERS according to 11 2 and then Pe CON PORTS PRRARETERS Pe Be RS 48S Pee me RS232 M Peed BO BAUD RATE 9600 2400 115200 4800 as 9600 571600 19200 38400 Peel C BRUD RATE 19208 Return to weighing See 11 3 29 14 1 2 Baud rate of RS 485 Procedure Enter lt P1 SCALE PARAMETERSSs according to 11 2 and then D J ENTER lI i lt 2 OM PORTS PARAMETERS D J l ba RS 485 D Pad ENTER l sr Q RS232M ri Z ENTER I Py e 2 BAUD RATE 9600 2400 115200 4800 3500 57600 19200 38400 DI J ENTER LoL 2 BRAUD RATE 19200 Return to weighing See 11 3 30 14 1 3 RS 232 parameters Procedure e Enter lt P2 2 RS232 1 gt and press lt ENTER gt e Using CS ei to lt P2 2 2 DATA BITS gt and press lt ENTER gt 8 e The selected value confirm with lt ENTER gt e Using go to lt P2 2 3 PARITY BIT gt and press lt ENTER gt ICs D32232 none I ae l nan EVEN 900 PARITY BIT NONE e The selected value confirm with lt ENTER gt e Using go to lt P2 2 4 STOP BITS gt and press lt ENTER gt 4 a Nar
40. NTOUTS 17 1 Printout type Setting the lt P5 1 AUTO PRINT gt parameter can set a type of printout Procedure e Enter lt P5 PRINTOUTS gt and then or ENTER So lt 2 PRINTOUTS mZ 1 ENTER fae PR lt Q RUT PRINT NONE par a ms e RUTO PRINT NONE NONE CONTIN oe 1 ENTER ade 8 lt 1 of RUTO PRINT Contin Oe AUTO PRINT NO manual printout AUTO PRINT WHEN STAB automatic printout after stabilising AUTO PRINT CONTINUOUS continuous printouts AUTO PRINT LAST STAB printing the last stable result after taking of a load before reaching the LO value Return to weighing See 11 3 45 17 2 Printout of stable unstable data Enter lt P5 2 STAB PRINT gt to set the printout as e Stable data e Immediate data Procedure e Enter lt P5 PRINTOUTS gt and then JKL Ue PS 2 GE y S Return to weighing See 11 3 NOTICE In case of verified scales lt P5 2 STAB PRINT gt is not accessible for users 46 17 3 Checkweighing mode In this mode printout is possible only when the result is between Min Max thresholds Procedure e Enter lt P5 PRINTOUTSs and then m P l PRINTOUTS aa af ay 7 2 I bE aay 4 CHECKYEIGH NO mZ 3 ENTER ET E j lt Q CHECKWEIGH YES Return to weighing See 11 3 47 17 4 Non standard printouts Users have possibility to d
41. RLF the printout generated from the scale after pressing ENTER PRINT 151 31 5 Continuous transmission The indicator can work in a continuous transmission mode It can be switched on or off in parameters or using RS232 commands Frame format sent by the indicator when continuous transmission is set 1 2 3 4 12 13 14 15 16 17 18 stability space sign mass space unit CR LF Stability character space if stable if not stable if an indication over the range v if fan indication below the range sign space for positive values or for negative values mass 9 characters justified to the right unit 3 characters justified to the left command 3 characters justified to the left 31 6 Configuring printouts If some information included are redundant or not sufficient and there is a necessity of changes you can design a non standard printout There is possible to create up to four standard printouts see the chapter 17 152 32 ERROR MESSAGES ERROR XXX ESC RETURN TO PREVIOUS SETTING where XXX parameter name confirmed with ENTER of a wrong value in the user s menu Err2 value beyond the zero range Err3 value beyond the tare range Err4 Calibration mass or start mass adjustment error 1 for weight 10 for start mass Err5 Mass of a single piece lower than the 0 1 of scale division Err6 mass of all pcs declare
42. T P 2 4 ETHERNET P 2 4 1 COMM MODE P 2 4 2 IP ADDRESS P 2 4 3 SUBNET MSK P 2 4 4 GATEWAY P P P P P 2 P P P 1 1 1 13 AVERAGE YES 20 d STDRD kg YES AVERAGE YES 20 d STDRD kg YES 0 9600 8 NO 1 9600 8 NO 1 9600 NO SERVER 192 168 0 2 255 255 255 0 192 168 0 1 P 2 4 5 LOCALPORT P 2 4 6 HOST IP P 2 4 7 HOST PORT P 2 4 8 TIMEOUT P3 DEVICES P 3 1 COMPUTER P 3 1 1 COMP PORT P 3 1 2 ADDRESS P 3 1 3 COMP PRINT P 3 1 4 BASIC TRS P 3 2 PRINTER P 3 2 1 PRINT PORT P 3 3 BARCODE SCANNER P 3 3 1 BARCOD COM P 3 3 2 START P 3 3 3 LENGTH P 3 4 TRANSP CARD READER P 3 4 1 READER COM P 3 5 ADDITIONAL DISPLAY P 3 5 1 DISPL PORT P 3 5 2 DISPL TYPE P 4 DATE TIME P 4 1 DISPL TIME P 4 2 SET TIME P 4 3 DAT FORMAT P5 PRINTOUTS P 5 1 AUTO PRINT P 5 2 STAB PRINT P 5 3 CHECKWEIGHING P 5 4 PRINTOUT P 5 5 PRINTOUT 1 P 5 6 PRINTOUT 2 P 5 7 PRINTOUT 3 P 5 8 PRINTOUT 4 P6 DATABASES P 6 1 LOGGING P 6 2 EDITION P 6 3 ANON ACC P 6 4 PASS TYPE P 6 5 CODE TYPE P 6 6 STATISTICS P 7 WORK MODES P 7 1 MODE ACCES P 7 1 1 WEIGHING P 7 1 2 TOP P 7 1 3 COUN PCS P 7 1 4 CHECKWEIGH P 7 1 5 ANIM WEIGH P 7 1 6 DOSAGE P 7 2 ANIM WEIGH P 7 2 1 WEIGH TIME 14 4001 192 168 0 3 2000 60 NO NONE YES NO NO 0 0 NO NO LCD FUNCTION FUNCTION YY MM DD WHEN STAB YES NO STANDARD FUNCTION FUNCTION
43. USER MANUAL Manual number PTI 31 03 11 07 A Counting labelling scales with PUE C41H indicator nApwAc MANUFACTURER OF ELECTRONIC WEIGHING INSTRUMENTS RADWAG 26 600 Bracka 28 Street POLAND Radom tel 48483848 800 tel fax 4848 385 00 10 sales department 4848 366 80 06 www radwag com NOVEMBER 2007 TABLE OF CONTENTS 1T INTENDED USE isih an E N ara a aeaa a daaa aada aaa gae aa Taa apatan daa aa aag 7 2 PRECAUTIONARY MEASURES c cssecceeeeseeeseeeeeeeeeeeeeseeeeneenseeesaeeeeneesaeesseeeeeeeeeeeeeaee 8 3 WARRANTY CONDITIONS 8 4 MAIN DIMENSIONS cccecceeeeeeeceeeeeeeseeeeneeeeneesneesseeeeeeenaeenseeeeeeeesueeeaeeeseeeneeeseeeeeeeeseeeeaes 9 5 DESCRIPTON OF CONNECTOR c cccseceeeeceeeeeseeeeneeseeeesneeeeeenseeeseeeeeneesaeeeseeeseeeneaeeneee 9 6 UNPACKING AND MOUNTING c cccsccsseceeeeeesseeeeeeeseeeseneeseeeseneesaeeeeeeeneeseeeeseeeneeeeeaeees 10 7 GETTING STARTED aviscsssccccenvecstesseesecsvaveekecedessesversesvessssedsnvuscsssoesiecveniersenceatesvesdsscevecrtecsies 10 8 KEYBOARD xis cssecsizessscediceecceacsscctacavacecasctsnsesedveunciv cassexsssvaueeseeevseasesasetevsancduaca scevexcedivescaveste 10 92 PICT OGRAMSS Wi siiceieesescetvcecescacsecsezesecocsesceiuseccaberncevcaucesnstravessscdvccaressstatecsaucsaucesccseseesiesicesecte 11 9 1 Balteny CHalGe MGICAU OM signaue a a E AA E 11 10 FUCTIONS OF KEYS wessiccssesescccscecveccreserscascestesv
44. _ CR LF command executed and mass returned 31 3 7 Switch on continuous transmission in basic unit Syntax C1 CR LF Possible answers C1_ICRLF command comprehended but cannot be executed C1_ACRLF command comprehended and in progress MASS FRAME mass value in basic unit is returned 146 Frame format ty 2 3 4 5 6 7 15 16 17 18 19 20 21 S l space stability space sign mass space unit CR LF 31 3 8 Switch off continuous transmission in basic unit Syntax C0 CR LF Possible answers C0_I CR LF command comprehended but cannot be executed C0_A CR LF command comprehended and executed 31 3 9 Switch on continuous transmission in current unit Syntax CU1 CR LF Possible answers CU1_I CR LF command comprehended but cannot be executed CU1_ACRLF command comprehended and in progress MASS FRAME mass value in current unit is returned Frame format 1 2 3 4 5 6 7 15 16 17 18 19 20 21 S U l stability space sign mass space unit CR LF 147 31 3 10 Switch off continuous transmission in current unit Syntax CUO CR LF Possible answers CU0_ICRLF command comprehended but cannot be executed CU0_ACRLF command comprehended and executed 31 3 11 Lock the scale keyboard Syntax K1 CRLF Possible answers K1_I1CRLF command comprehended but cannot be executed K1_O
45. according to the selected pattern Return to weighing See 11 3 Notice If filtering according to all variables is disabled the report from all the weighings will be printed out 85 23 CONFIGURATION OF EXTERNAL INPUTS OUTPUTS 23 1 Configuration of external buttons signals Following external buttons signals can be connected TARE BUTT Tare button PRINT BUTT Print button ZERO BUTT Zero button START BUTT Start button Start weighing animals button STOP BUTT Button for breaking dosing process Button for breaking weighing animals EXT START Input signal allowing to START dosing TERM BUTT Terminating of dosing process CHUTE PERM Permition input signal for chute Procedure e To declare a number of input ascribed to the button enter lt P8 1 EXTERNAL BUTTONSS gt and then e Press ENTER e You willsee lt P8 1 1 TARE B gt Press ENTER lt a Nie NO IN IND t par Pa 7 7 N IN g i3 AAA i n utr Ba N10 INY EO ARE BUTT i s WE N8 IN1 NS Ae selection with lt ENTER gt e Using go to the next parameter Notice You can ascribe all your buttons accordingly Remember that the standard solution has only 3 inputs Return to weighing See 11 3 86 23 2 Configuration of outputs Users can configure outputs according to their needs You can declare outputs MIN Mass below the Min threshold OK Mass between Min and Max threshold MAX Mass over the Max threshold STABL
46. ality of PUE C41H indicators by possibility of adding an additional platform It is intended to mount inside the indicator DP1 modules require an additional gland to led in the platform cable 30 6 1 Technical specification OIML class ft z PEEN 4 or 6 wires ypes ot tensometers shield 135 30 6 2 Colours of wires RADWAG Colour Designation of soldering pads Designation on PCB s INPUT brown pond AGND INPUT green IN OUTPUT yellow IN OUTPUT white REF SENSE grey REE SENSE pink di het leot SHIELD yellow green accor Ing to t e Teo connecting shields 30 6 3 Connecting additional platforms Connecting 6 wire tensometers MODULE DP 1 TENSOMETER WEIGHING PLATFORM 136 E tensometer cable shield REF SENSE from tensometer JP1 not soldered REF SENSE from tensometer JP2 not soldered IN OUTPUT from tensometer IN OUTPUT from tensometer 5V INPUT from tensometer AGND INPUT from tensometer Connecting 4 wire tensometers MODULE DP 1 TENSOMETER WEIGHING PLATFORM E tensometer cable shield REF solder jumper JP1 REF solder jumper JP2 IN OUTPUT from tensometer IN OUTPUT from tensometer 5V INPUT from tensometer AGND INPUT from tensometer 137 The rules of connecting shields from tensometer cable For assuring appropriate opera
47. ati E characte Meters 116 e Moe of Units Contained Used with tiptoe characters Dispatch number Up to 30 characters Purchase From Location Code EAN13 or DUNS code Exactly 13 characters Ship To Deliver To Postal Code Single Postal Authority 420 Up to 20 characters ie Products Width Length Core 8001 exactly 14 characters iameter Electronic Serial Number ESN for 8002 Up to 20 characters Cellular Phone additional digit outlines the length of a field additional digit for outlining the point position Values 00 50 in RR of date field is interpreter as 2000 2050 and 51 99 as 1951 1999 Identifiers facilitate using this standard in HX terminal Following variables has been added General purpose variables Net mass in EAN 128 Net mass lb in EAN 128 Gross mass EAN 128 Date in EAN 128 cumulative mass in EAN 128 cc mass in EAN 128 Product price in EAN 128 A DATE in EAN 128 expiration date in EAN 128 04 28 153051251 CO101 2345678901 2 Example code Application identifiers in brackets 117 28 DIAGRAMS OF CONNECTION CABLES STANDARD assembly terminal can cooperate with e computers e slip printers KAFKA EPSON e label printers CITIZEN ZEBRA e external buttons PRINT TARA ZERO e internal I O module of 3 optoisolated inputs 3 reed relay outputs COMPUTER DB9 F female PUE C41H Signals from scale A pin1
48. cale and external device Procedure e Enter lt P3 1 COMPUTER gt according to 11 2 and then Return to weighing See 11 3 36 15 2 Cooperation with printers 15 2 1 Communication port scale printer Following ports can be used e RS 232 1 e RS 232 2 e RS 485 Procedure e Enter lt P3 2 PRINTERS and then PRINTER Ma 3 7 ENTER I J e i L Q PRINT PORT NO NO rseseray 89985 R5232 1 on oa J ENTER j pa A Ege a QC PRINT PORT RS232 1 Si Return to weighing See 11 3 15 3 Cooperation with a barcode scanner The scale gives possibility to cooperate with barcode scanners It is used for quick search of database of assortment Procedure e Enter lt P3 3 BARCODE SCAN gt 37 Select a communication port for the scanner P33 E BARCODE SCANNER Paad SO BARCOD CON NG N0 rsazgare SSTA NSE 8S3 n EES P33 1 Eti BARCOD CON RS23e 1 Set START parameter first significant character that is valid for searching string pis ENTER 1 J Q BARCODE SCANNER e P33 Learcoo con NO J 395 Pi J c ENTER START 4 7 I P33c me START 4 38 Set parameter LENGTH number of significant characters considered in searching ape jr gir ENTER S JIJ 7 I aes e a I BARCOD CON NO par a a a ENTER aden he oe
49. cannot inscribe a unit mass greater than the maximal capacity of a main scale or lower than 0 1 of the reading division of the scale 106 25 3 2 By declearing reference quantity Procedure e Enter COUNTING PIECES and then Mi E LILI S a 0000 I l 0 REFERENCE QUANT L OOOO I3 REFERENCE QUANT 20 When inscribing a reference quantity remember that the unit mass Cannot be lower than 0 1 of reading division and the total reference mass Carnot be lower than 1 reading division If these conditions are not fulfilled an error message will be displayed e After confirming the inscribed value by G73 the program will display st 0 000 PUT 20 PES x 3 blinking pictogram If pieces are weighted in a container it should be put on the pan and tarred and then put the declared value of the reference quantity When stable mu confirm the measurement Software will automatically calculate the unit mass and return to counting pieces with indication of number of pieces Mi a ma 104 Eu pcs 1 1 N O Sung 000 Caution When the reference mass is confirmed by and the pan is empty the display will show Err6 and the program return to the previous step If lt P7 4 8 AUTO COR gt parameter is set to YES program will activate the function of Automatic Accuracy Correction The reference quantity can be increased by adding subsequent pieces Numbe
50. ccsveceestessuctvevevevecessevsvedeveersosusecveretevsteyescrrscs 12 11 MENU PARAMETERS 2 c ccesceeeeeeeseeeeeeeeseeeeaeeesneesneeeeeeeseeenaeeesaeenseeeseeeesneseeeenseeeees 13 11 1 Overview of parameters icc eae eee Aree ea ee aaa er Le 13 11 2 Navigating within the menu level 16 11 2 1 Keyboard ee 16 1122 QUICK ACCESS iah nA O RNA A NA AE Gde 17 11 3 Return to WEIN css cits snena a e AW a TEE AA E 17 12 WEIGHING 18 TZT TENG esae 18 12 2 Inscribing tare value 19 12 3 Zeroing sed 12 4 Weighings in two ranges 20 12 5 Toggling between weight units ise scicsies inca coveswnepienes ssaesenanvicadatsawevienwisbionas ona esioeeanebicadatawevidebnbienaa annie 21 42 5712 Selection Of Dasi UNIT siise ep deadarra seaded sesgeverecaseepesesa peieees tees 21 12 5 2 Toggling between weight units 22 12 6 Switching between platforms 13 MAIN PARAMETERG 13 1 Filtering level 13 2 Median filter 13 3 Minimal mass parameter 13 4 Tare function 13 5 Autozero pe 14 PORTS PARAMETERS rerea a e a e cece sedivenccaseseateyuseddeoes cciesactivesssavesiseessee T4 4 9RS 232 RS 485 SeNi aiaeei a ta eauia tne e enter cen aac eetee 14 1 1 Baud rate of RS 232 14 1 2 Baud rate of RS 485 14 1 3 RS 232 parameters a 14 1 4 Setting of RS 485 parameters eee eee onnaa NA Ga A NE Ga 32 14 2 ETHERNET S i teers cd Ln a enn eae 33 15
51. cords in a database adding characters in an editing field Inserting reference mass of counting pieces Clearing the editing field Erasing a record in a database Selecting and editing general purpose variables START of dosing procedure START of weighings animals Deleting characters in editing field Selecting contractors in the counting pieces mode Clearing editing field deleting database zeroing statistics Printouts of c labels and cc labels in the counting pieces mode Entering submenus entering parameters confirming changes Skipping changes Reaching higher level of the menu Cancelling of Automatic correction of unit mass in counting pieces 16 11 2 2 Quick access It is possible to move quickly within the parameters menu using to Procedure y 0000 N 0 sun 0 000 i Tat ath OOCC O PRRANMETERS pa i EY SCALE PARAMETERS w FF ORTEZ TINE PY DISPL TIRE 11 3 Return to weighing Press E until you see SAVE CHANGES Then you press ENTER confirms changes or esc _ skips changes Then the scale returns to weighing 12 WEIGHING Put a load on the pan When m_ displays you can read the measurement 12 1 Tarring In order to determine the net mass put the packaging on the pan After stabilising press Net pictogram will be displayed in the left upper corner and zero will be indicated 0 850 gt 0 000 NO
52. d no changes on the pan appeared no changes on the display Operation Function setting Mains Accumulator POWER SAVE NO Disabled Disabled POWER SAVE YES Enabled Enabled POWER SAVE AUTO Disabled Enabled power save mode for the internal power supply Procedure e Enter lt P9 OTHER and then Dae a 9 I am wxy N OTHER Px DEF oo a I dia POVER SAVE No NO t RUTO YES DG I aje S ETR Aa POWER SAVE JES i Return to weighing See 11 3 61 19 5 Backlight According to the requirements e g intensity of external light it is possible to e Switch on off or set the backlight operation to AUTO when supplied from mains e Change the backlight intensity in the scale of 0 to 100 when supplied from an accumulator lower backlight intensity increases the operation time when supplied from the accumulator 19 5 1 Backlight power supply from mains Procedure e Enter lt P9 OTHER gt and then Mou 7 goo Sa Fa ee gt AI No ie 8L RAINS BL MAINS NO backlight switched off BL MAINS YES backlight switched on BL MAINS AUTO backlight switched off automatically Return to weighing See 11 3 62 19 5 2 Backlight power supply from the accumulator Procedure e Enter lt P9 OTHER gt and then DD o l d A 8L BATTER 100 19 0 100 90 20 80 e 70
53. d as standard lower than one division Err8 tarring zeroing operation time exceeded NULL zero value from the AD converter FULL2 measurement range overflow HI display range overflow LH start mass error the mass on the weighing platform is beyond the acceptable range 10 of start mass 33 TROUBLE SHOOTING Problem Cause Solution Scale switches off t1 parameter set to In lt P9 OTHERS gt change lt P9 3 automatically YES Power save AUTO SWITCH gt to NO LH appears on the Weight pan not empty Unload the pan Indication display when switching on returns to zero 153 34 TECHNICAL PARAMETERS 34 1 Checkweighing scales of T series Scale type WPW 0 6 T1 WPW 1 5 T1 WPW 3 T1 Max capacity 0 6 kg 1 5 kg 3 kg Readability 0 2g 0 59 1g Tare range 0 6 kg 1 5 kg 3 kg Pan size 200x150 mm Work temperature 10 to 40 C Interfaces RS 232 RS 485 Ingress protection rating IP 66 67 Power supply 230V AC 50Hz Battery operation time Up to9h Display LCD with backlight Scale type WPW WPW WPW WPW WPW 6 T2 15 T2 15 T3 30 T3 60 T3 Max capacity 6 kg 15 kg 15kg 30 kg 60 kg Readability 2g 5g 5g 10g 20g Tare range 6 kg 15 kg 15 kg 30 kg 60 kg Pan size 250x300 mm 410x410 mm Work temperature 10 to 40 C Output signal RS 232 RS 485 Ingress protection IP 66 67 rating Power
54. e is disabled at the start e Turn on the device e Press during a display test e Program will show the following window 267 PASSUGRG YW blinking cursor Notice In case there are no data in the operators database press to skip the logging procedure and add at least one operator with the highest level access If no ADMINISTRATORS are defined there will be no access to some functions designated only for administrators 21 2 Access level 21 2 1 Access level to edition of databases Any administrator is able to set one of three levels of edition of databases administrator advanced operator or operator Procedure e Enter lt P6 DATABASES gt and then ORTRBASES J Zr DZ J l wk BASE EDIT ADAIN RONIN t TS OPER ROV OPERATOR gt oc co ENTER a lt OLON BASE EDIT OPERATOR a Return to weighing See 11 3 Notice This setting is valid although standard logging is disabled 68 21 2 2 Access level for disabled logging procedure The scale program gives possibility to set an access level in case of disabling logging procedure Procedure e Enter lt P6 DATABASESsS and then oc DATABASES K3 OPER ROV OPERATOR EES oc ENTER e n D D I LEVEL ANON OPERATOR Return to weighing See 11 3 21 3 Password type It is possible to set the password type to inscribe Procedure Enter lt P6 DATABASE gt and then 69
55. e using keep pressing it for about 0 5 sec Wait for the test completion Then you will see Zero indication and following pictograms displayed 0 zero md equilibrium kg weight unit If the indication is not zero press zero button 8 KEYBOARD 9 PICTOGRAMS enema ka Eamon OSS kao Weighing nods o a fem seeyou SSS Net Tare has been ntodaced SSCSC C C S Min Lowerthestols SSCS ox Peerna ooo max Upper teshold or TOP moe SSSSCSC commoes O oOo o 3 weonnosnperons mnie oo Te Dosingitting o O I Bargraph o O ME First platform o 15 T25 Second platform o O 16 12 Second range of weightings o 9 1 Battery charge indication mw pictogram is situated in the upper right corner informs about the discharge level or charging process gt mE pictogram blinks accumulator damaged or no accumulator gt mE pictogram displayed continuously it is charge between 70 and100 gt _w pictogram displayed continuously it is charge between 30 and70 gt i lpictogram displayed continuously it is discharge less than 30 connect to the mains to charge gt Internal elements of mw pictograms are displayed in sequence charging sti 10 FUCTIONS OF KEYS Keys E E TEC f m i wn 3 in m di m ox EIE Pro t Tl tm 5A w O Q m v 9N Je Ca Description Turning on off
56. esign non standard printouts in lt P5 3 PRINTOUT gt Procedure e Enter lt P5 PRINTOUTS gt and then oc ro PRINTOUTS NTOUT STANDARD STANDARD PRINTOUT 4 PRINTOUT PRI TOUT3_TRINLOUT e EES oc wu aes Neg Sao Return to weighing See 11 3 48 17 5 Designing non standard printouts To create a non standard printout e Enter lt P5 PRINTOUTSs gt and then Oe 1 yen Fad Un RUTO PRINT NONE pa a ENTER PRINTOUT 7 e After pressing ENTER you will see a cursor Software is ready to accept your data Non standard printout can comprise Constant texts Variables from different work modes mass date thresholds etc Non standard printout design can include max 320 characters Non standard printout sent to a printer can include max 640 characters e Up to 4 non standard printouts can be designed Notice During designing non standard printouts all special characters like CRLF tabulators etc have to be added 49 17 6 Texts in non standard printouts A Variables appearing in all modes which value does not depend on the mode CODE DESCRIPTION 000 Mass in a basic unit of the active platform 001 Mass in a current unit of the active platform 002 Date 003 Time 004 Date and time 005 Calibration unit 006 Current unit 007 Min threshold for checkweighing 008 Max threshold for checkweighing 009 Min threshold for chec
57. f pieces Code format XKXX sending to a printer a variable XXX value see the upper table XXXXYY sending to a printer YY declared characters of XXX variable value justified to the left Notice Every non standard printout should be terminated with 0 character C Variables for printing out weighings from the database 073 Weighing net mass 075 Weight unit 076 Weighing date 077 Weighing time 078 Operator code 079 Assortment code 080 Contractor code 083 Number of series 084 Platform number 52 This program includes a standard pattern of printouts from the database pattern name XWG01 with following variables Net mass of weighing Date Time Notice Remember that the name of a new printout design should have the following pattern XWGXXx where XX subsequent number of printout D Variables for printouts of reports from weighings 087 Sum of weighings 088 Weight unit 089 Number of weighings 090 Start date 091 End date 092 Operator code 093 Assortment code 094 Contractor code 097 Series number 098 Type of weighings pcs kg etc 099 Platform number The program includes 4 patterns of reports from weighings KRPO2Xx is the English equivalent of XRP01 and XRPO4X is an English equivalent of XRPOSX Name RP0O1X RPO3K Comprised variables Sum of weighings Number of wei
58. f wires unhook band clips fastening the group of wires lay the cable and hook the band clips Band clips of multiple usage 8 Screw down the back wall Oa assembly hole a Main connector connect plastic column to J3 on the main board O v4 F a z r3 fd vy f m eee Ce C C Co e oe ooo RL 4 RL3 RL2 RL1 1 _ 3 2 re 29 ov E TO o 32a QO g ee N an assembly hole a z 2 8 assembly hole a vais cata plastic column Installing a PK1 module on the main board of PUE C41H 130 30 3 3 Drawing of cables and outputs Relay outputs diagram o O OUT Wires o O OUT2 Colour Decription o _ O OUT3 Brown Common o O OUT4 Greek Common COMMON Yellow OUT4 COMMON White OUT3 Gray OUT2 Pink OUT1 Technical specification of the module Number of relays Output type Operating contact Load current capacity 230V AC 2A 30V DC 2A CAUTION Module of relays is an alternative solution for reed relays that are present on the main board using this module excludes using reed relays 30 4 WE 8 8 inputs 8 outputs module WE 8 module 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 configu
59. ferent modes lt P7 3 1 DOSE MODE gt Procedure e Enter lt P7 WORK MODES and then YORK NODES ES a 1 User I pa T 31 l l DOSING NAN tio 3 2 a OOSING NAA Rare Er 2 S DOSE MODE 1 manual operation after pressing DOSE MODE 2 automatic operation DOSE MODE 3 negative dosing after tarring and pressing F3 Return to weighing See 11 3 96 24 6 2 Time interval between changing dosage thresholds By setting lt P7 3 2 DELAY gt parameter users can set a delay time between changing dosing thresholds Procedure e Enter lt P7 WORK MODES and then m g Pi he UORK NODES 3 aN 2 ABC Da faz Be ioe I low fo DELAY H Using numeric keys inscribe the required value 0 to 60 s and confirm by pressing ER Return to weighing See 11 3 24 6 3 Time interval of process completion Users can set lt P7 3 3 CHUTE TIME gt parameter to change time of completing a process of dosing after indication drops below LO Procedure e Enter lt P7 WORK MODES and then P a luorK NODES a DEF D722 I Vat oI CHUTE TIRE 5 Using numeric keys inscribe a requires value 0 to 60 s and confirm by pressing ER Return to weighing See 11 3 24 6 4 Mode for OUTPUTS Software includes three different algorithms operating on OUTPUTS that allows the device to readjust to the customer s requirements Procedure e Enter l
60. fine MIN MAX Procedure u ITM o LI LILILI 9 IN 9 e Using GF numerical keys inscribe a MIN threshold and ENTER confirm with U 2 e You will see the following display 9 e Using to numerical keys inscribe a MAX threshold and ENTER confirm with 2 J e Software returns to WEIGHING 89 While setting these thresholds following features are important e Symbols Min OK Max in the upper line of the display load mass grater than the Il nd threshold load mass between thresholds load mass lower than the I st threshold CHa 0 A Sur U G had 7 T 7 Pa eA em i NG SuUANGOAGOGC NI interval between lower and upper threshold e Three fields of signalling LEDs over the display Left red when this field shines the mass is lower than the Min threshold Middle green Designation of the proper interval OK between MIN and MAX thresholds Right red when this field shines the mass is higher than the Max threshold Notice Users can use this function in other work modes like counting pieces weighing in percents etc Only values and units can change 90 24 3 Maximal force latch Procedure Enter the TOP work mode ENTER TOP selection is signalled by the Max pictogram in the upper line of the display When a force acting on the pan changes on the display anly the
61. fy a country e g 590 Poland with the exception of codes that starts with the digit 2 this codes are used to mark articles if different weight and dimensions especially packed in shops EAN 13 is used together with ISSN International Standard Serial Number for newspapers and magazines 3 digit country code is substituted by 977 114 27 3 Other barcodes Code 39 Alphanumerical barcode with variable length It allows to us 43 different characters each character comprises 9 elements dark and white strips Code 128 Alphanumerical barcode with variable length devised to expand Code 39 possibilities Interleaved 2 of 5 Numerical code with variable length always even High density digits coded in pairs with interleave dark strip code one digit and white separable the second 27 4 Advantages of using barcodes Some advantages from using barcodes Less errors during data input in comparison to manual inscribing Quick data loading direct input to external devices Costs more efficient client service simpler reserves management shorter reaction time lower level of reserves Barcode technology allows to Monitor commercial transactions survey stored reserves supervise warehouse transactions collecting decomposing palletization etc shorten time of loading and unloading goods monitor production in real time monitor reserves 115 27 5 The usage of EAN 128 barcode in HX te
62. ghings Start date End date Operator code Assortment code Contractor code Sum of weighings Number of weighings Start date End date 53 Notice 1 Remember that the name of a new printout design should have the following pattern KRPXXX where XX subsequent number of printout E Special characters that can be used in non standard printouts Single character c CRLF r CR n LF t Tabulator 0 End of printout Each of the four printouts can hold up to 320 characters letters digits special characters spaces Notice Every non standard printout should be terminated with 0 character Example ZMP RADWAG Date Time Mass The inscribed data for ZMP RADWAG C TDATA 002 C TGODZINA 003 C TMASS 000 C 54 18 STATISTICS 18 1 Updating of statistics All statistics are updated in real time after every subsequent measurement after putting a load on the pan reaching equilibrium and pressing ENTER Number of weighings and sum are show in the lower line of the display N 7 SUR 3 800 Quantity of weighings Total mass of all loads Statistics can be calculated globally does not depend on the selected product or separately for every product from the assortment database It can be set in parameters lt P6 6 STATISTICS gt Procedure e Enter lt P6 DATABASES gt according to 11 2 and then PSGE 7 l bal
63. guage setting 19 2 DIODES power setting 19 3 Work mode of DIODES 19 4 Automatic power down 19 5 Backlight 19 5 1 Backlight power supply from mains 19 5 2 Backlight power supply from the accumulato 19 6 Beep sound key press reaction 19 7 Software version view SCALE CALIBRATION 20 1 Calibration procedure 20 2 Start mass adjustment DATABASES 21 1 Logging procedure 21 2 Access level Se 21 2 1 Access level to edition of databases 21 2 2 Access level for disabled logging procedure 21 3 Password type 21 4 Type of codes 21 5 Access to edition of databases 21 6 Quick search of records in databases 21 6 1 Quick code search 21 6 2 Quick name search 21 6 3 Quick number search 21 7 Users database 21 8 Weighings database 21 9 Assortment database 21 10 Database of contractors 21 11 Database of tare values 21 12 General purpose variables 21 12 1 Editing general purpose variables 21 12 2 General purpose variables in printouts REPORTS FROM WEIGHINGS 22 1 Editing of reports 22 2 Printout of reports CONFIGURATION OF EXTERNAL INPUTS OUTPUTS 23 1 Configuration of external buttons signals 23 2 Configuration of outputs WORK MODES 24 1 Setting accessibility of work modes 24 2 control according to an inscribed standard mass 4 25 26 27 28 29 30 24 3
64. j RADWAG Date Time Mass Where lt Zak ad Mechaniki Precyzyjnej RADWAG gt is a universal variable No 3 After entering non standard printouts see 17 5 we designe a printout 8O3 C TDATE 002 C TTIME 003 C TMASS 83 22 REPORTS FROM WEIGHINGS Users can print reports from the series of weighings Reports can be filtered according to start date end date operator code assortment code contractor s code type of weighing weighing platform number batch number 22 1 Editing of reports While in any work mode press A and then j i EE LPRRAMETERS r REPORTS ENTER lt OLS Return to weighing See 11 3 22 2 Printout of reports After entering editing see ch 22 1 you will see the following window Ath OL 600 l START DATE 2001 06 20 13 07 X X Begin date Time 84 ENTER e To edit variables press ER ENTER e Confirm the changes by pressing 25 F1 e To switch on filterring according to a selected variables press E you will see the following window Filtering off e Press to select a variable e After editing all the variables press EIM go to lt PRINT REPORTS gt e Press ER you will see the following screen xo UL ouills STNO l 4 e Using 63 63 eee one of four report patterns report patterns description see ch 17 6 ENTER e Press to printout a report
65. kweighing 7 digits 010 Max threshold for checkweighing 7 digits 011 Net mass in the calibration unit 012 Gross mass in the calibration unit 013 Display result in a present unit 014 Tare in calibration unit 015 Statistics ordinal number 016 Statistics sum in the calibration unit 017 Statistics average value in the calibration unit 018 Statistics minimal value in the calibration unit 019 Statistics maximal value in the calibration unit 020 Statistics unit 021 Single pcs mass 022 Standard nominal mass in Checkweighing 023 Platform number 024 Operator name 025 Operator code 038 Product name 039 Code of product 040 EAN code of product 042 Minimal number of pieces of a product 043 Maximal number of pieces of a product 044 Product s tare 50 056 Net mass Ib 058 Number of digits after the point calibration unit 059 Number of digits after the point current unit 060 Number of pieces in EAN 13 6 characters code 061 Number of pieces in EAN 13 expanded 7 characters code for supermarkets 064 Net mass in EAN 128 067 Net mass Ib in EAN 128 068 Gross mass EAN 128 070 Date in EAN 128 127 Difference of tare values a product tare value subtracted from present tare value 128 Batch number 6 characters B Variables for counting pieces only
66. menu or using a quick access method by pressing from any work mode apart from dosing 81 21 12 1 Editing general purpose variables Procedure e Enter databases according to 21 5 and then z 0 000 SE Tah Ath GATRBASES 8 000 Q gt 0 000 ER gt GENERAL VARIABLES oth 0 000 fe e To add or modify a record inscribing characters like in mobile phones press E e To add or modify a record inscribing only digits 0 to 9 press e i F4 A e To clear a field press J when you are in e Using appropriate keys inscribe a variable and confirm it by pressing ENTER 41 9 e You can browse the variables using OOo by inscribing a variable position number to W to get a quick access Return to weighing See 11 3 82 21 12 2 General purpose variables in printouts The database of general purpose variables can comprise up to 100 records Each record can hold up to 320 characters Each variable has prescribed a code number formatted as XXX or X XXX YY XXX inserting to the printer buffer a dedicated variable where XXX is between 801 to 900 which is equivalent to subsequent records in the database e g code 802 is equivalent to the 2nd position in the database XXX YY inserting to the printer buffer a dedicated variable where YY is a declared quantity of characters from a variable XXX Example Zaklad Mechaniki Precyzyjne
67. mission in current unit CUO Switch off continuous transmission in current unit K1 Lock the scale keyboard KO Unlock the scale keyboard 1 Start dosing filling so Stop dosing filling DH Set lower threshold UH Set upper threshold ODH Read lower threshold OUH Read upper threshold PC Send all implemented commands 142 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 31 2 Respond message format After sending a request message you can receive XX_A CR LF command accepted and in progress XX_D CRLF command completed appears only after XX_A XX_I CR LF command comprehended but cannot be executed XX_4 CRLF command comprehended but time overflow error appeared XX_vCRLF command comprehended but the indication below the XX _ OK CR LF Command done ES CRLF Command not comprehended error while executing command time limit for stable result exceeded limit time is a descriptive parameter of the scale XX _ECRLF XX command name substitutes spaces 31 3 Command s description 31 3 1 Zeroing Syntax Z CR LF Possible answers Z_ACRLF command accepted and in progress Z DCRLF command completed Z_ACRLF command accepted and in progress Z_ CRLF command comprehended but zero range overflow appeared Z ACRLF command accepted and i
68. n progress Z ECRLF time limit for stable result exceeded Z_ICRLF command comprehended but cannot be executed 143 31 3 2 Tarring Syntax T CR LF Possible answers T_ACRLF command accepted and in progress T_DCRLF command completed T_ACRLF command accepted and in progress T vVCRLF command comprehended but tare range overflow appeared T_ACRLF command accepted and in progress T_E ECRLF time limit for stable result exceeded T_I CRLF command comprehended but cannot be executed 31 3 3 Send the stable result in basic unit Syntax S CR LF Possible answers S_A CRLF command accepted and in progress S_E CRLF time limit for stable result exceeded S_I CRLF command comprehended but cannot be executed S_A CRLF command accepted and in progress MASS FRAME mass value in basic unit is returned Frame format 1 2 3 4 5 6 7 15 16 17 18 19 20 21 S space stability space sign mass space unit CR LF Example S CR LF computer command S _ A CR LF command accepted and in progress S 8 5_g__ CR LF command done mass value in basic unit is returned 144 31 3 4 Send the result immediately in basic unit Syntax SI CR LF Possible answers SI_I CR LF command comprehended but cannot be executed at the moment SI_A CR LF command accepted and in progress MASS FRAME mass value in basic unit is returned Frame format
69. ng animals 24 5 1 Weighing time setting Users can set in seconds the time of weighing Procedure Enter lt P7 WORK MODES gt and then 93 CSi re ar P72 5 50 15 y 0 35 30 EES Return to weighing See 11 3 24 5 2 Starting the work mode 0 000 R gt NO SUN 0 000 0 0L RE 1 ANIA VEIGH WGH ANIMALS mode is signalled by showing gt pictogram in the right side of the picture 94 24 5 3 Procedure of weighing animals e After starting ANIM WEIGH see 24 5 2 put the animal on the platform e Press to start the process of weighing e You will see a set of dashes on the display lt gt showing the progress of weighing during the time set in lt P7 2 1 AVER TIME gt see 24 5 1 e After the procedure of weighing is completed the result will be latched e Additionally you will hear a short beep sound and see Hold pictogram in the left part of the display mad Hold no sun 0000 pee wr t a ey ca J e Before initiating the next weighings press key e Weighing procedure can be terminated while in progress by pressing esc Return to weighing See 11 3 95 24 6 Dosing Standard indicator is equipped with signalling fields and internal circuit of 3 optoinsulated inputs 5 24V DC 3 optoinsulated reed relay outputs 24 6 1 Setting dosing mode Users can chose one of three dif
70. nted commands 31 4 Manual printouts automatic printouts 31 5 Continuous transmission Rass 31 6 Configuring printouts ERROR MESSAGES TROUBLE SHOOTING TECHNICAL PARAMETERS 154 34 1 Checkweighing scales of T series 34 2 1 load cell scales of H series 34 3 1 load cell scales of C K series APPENDIX A APPENDIX B APPENDIX C 1 INTENDED USE Counting labelling scales are intended for counting piece soft the same mass and in connection with label printers labelling Software includes databases of operators assortment labels materials contractors weighings Barcode scanner can help to find quickly a required product Accessible functions for counting pieces Determining of a unit mass by weighing scale accuracy printing basic labels cumulative labels cumulative labels of cumulative labels cc labels cooperation with barcode scanner possibility of connecting an additional platform Functions Tarring within the whole measuring range Inscribing tare value Automatic tare Automatic print Continuous transmission Printout configuration stable immediate Designing printouts Minima mass Force measurements in Newtons Cooperation with computers Cooperation with printers Cooperation with external industrial buttons ZERO TARA PRINT Cooperation with a barcode scanner Cooperation with a transponder card reader Totalizing control checkweighing Devia
71. of thermal or chemical origin or caused by atmospheric discharge overvoltage in mains or other random event e Inappropriate cleaning E Loss of warranty appears after e Access by an unauthorized service e Intrusion into mechanical or electronic construction of unauthorized people e Removing or destroying protection stickers F The detailed warranty conditions one can find in warranty certificate G Contact with the central authorized service 48 48 384 88 00 ext 106 or 107 4 MAIN DIMENSIONS 240 92 AE 295 120 Main dimensions of PUE C41H 5 DESCRIPTON OF CONNECTORS SoH oo D N o lon Terminal connectors 1 I O connectors 2 RS232 RS485 connector 3 Tensometer gland 4 Power supply gland 5 Earthing terminal 6 Additional platform gland option 7 Ethernetu gland option 8 analogue output gland voltage or current loop option NOTICE In accordance to the number of mounted modules the number and the placement of glands and connectors can vary Connectors and glands mentioned in the standard solution appears in every option in the same place regardless of the option 6 UNPACKING AND MOUNTING A Take the device out of the package B Put the scale on an even stiff ground C Level the platform using an external or internal wvei ox level incorrect level condition indicator Use levelling feet to do it 7 GETTING STARTED Switch off the scal
72. olumn assembly hole for a plastic column terminals for connecting an external power source MODULE CONFIGURATION prt re apar ANALOGUE OUTPUTS MODULE curRENT O 0 CW LOOP 4 20 mA SET AS DEFAULT lo 14 4 20mA Mounting of AN module on the main board of PUE C41H 30 2 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 127 30 2 4 Connections to AN module Drawing of connections of voltage output COLOURS OF WIRES _ a Colour Wire gray receirer PUE CMH cae Pink Uout AN 0 10V neat i Gray GND 24V Yellow 24V DC Green GND Drawing of connections of current loop COLOURS OF WIRES pane Colour Wire PUEC41H say ___ Feceirer yellow White lout AN 4 20mA AN 0 20mA sen DG 7 Gray GND 24V Yellow 24V DC Green GND PT0015 Analogue outputs cable a y Uout Pink pink yout GND gray gay Yot lout wite SN pee E ai 24y yellow yellow 24y GND geen 7 Veen Ay 24V brown brown 24V connect to the indicator housing Cable for analogue output 128 30 3 Relay module PK1 Relay module PCB PK1 This is an alternative solution for reed relay outputs present on
73. or I O COLOURS FOR OUTPUT CABLES COLOURS FOR INPUT CABLES colour description colour description BROWN N A BROWN F N DC fromithe terminal GREEN COMMON GREEN GND WE YELLOW OUT4 YELLOW IN4 WHITE OUT3 WHITE IN3 GREY OUT2 GREY IN2 PINK OUT1 PINK IN1 133 30 5 3 Installing method in PUE C41H indicators WE4 modules are equipped in two cables one for inputs and one for outputs Installing procedure 1 Unplug the scale from mains 2 Unscrew and take off the back wall of the housing 3 If inputs and outputs are installed it the same time dismount I O socket and install a PG9 gland instead LED the PT0016 cable through it the same way like in case of relay outputs If only 4 inputs or 4 outputs are installed unplug one of the existing glands and led the PT0016 cable through it 4 Connect the PT0016 cable to the J5 connector for inputs or to the J4 for outputs on the main board of PUE C41H 5 The cable connect to the group of wires unhook band clips fastening the group of wires lay the cable and hook the band clips Band clips of multiple usage 6 Screw down the back wall E Main board OUT IN 4 J5 ONAN ANAOUN Cie he A ene S ze o HI Tl ed O CE Installing WE4 modules on the main board of PUE C41H 134 30 6 DP1 module for an additional platform DP1 PCB DP1 modules increase function
74. ousing 4mm screwed terminal on the back wall 6 The cable connect to the group of wires unhook band clips fastening the group of wires lay the cable and hook the band clips Band clips of multiple usage 7 Screw down the back wall 30 7 2 RS 485 PT0012 cable drawing PT0012 RS485 cable 30 A colours green and orange B colours white green and white orange A Aa 141 31 COMMUNICATION PROTOCOL 31 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 Requesting weighing results display control A set of commands for RS interfaces Commands Description of commands Z Zeroing T Tarring S Send the stable result in basic unit SI Send the result immediately in basic unit SU Send the stable result in current unit SUI Send the result immediately in current unit C1 Switch on continuous transmission in basic unit co Switch off continuous transmission in basic unit CUu1 Switch on continuous trans
75. r of pieces and unit mass SMP will be automatically corrected by software and show in the bottom line of the display __ _ Blinking pictogram I I PCS 18 SMP 711 55008 1 X X Corrected unit mass Corrected quantity of pieces There are four conditions of working of Automatic Accuracy Correction 1 quantity of pieces should be increased 2 addend quantity of pieces should not be greater than double number of pieces on the pan 3 The new sample can be different from the old sample by 0 3 of pcs absolute value Example First weighing 50 pcs 1 pcs 0 5g total 25g Second weighing 50 30 pcs total 39 7g It means that having a unit mass 0 5g we have 79 4 pcs The expected value was 80 pcs The difference is 0 6 that is greater than 0 3 and Auto correction cannot work 4 equilibrium should be reach If a user recognises the reference quantity to be adequate he can save the unit mass see 25 4 At the same time the function of Automatic Correction of Accuracy will be switched off what is signalled by continuous display of the pictogram Users can also stop the operation of the function by pressing esc 108 Caution Automatic Accuracy Correction works only for main scale Return to weighing See 11 3 25 3 3 By entering a unit mass from the database After selecting a product from the assortment database the unit mass is ascribed Procedure While in counting pieces
76. rable from the level of indicator 131 I O diagram IN 1 o O OUT m2 Oo 0 ouT2 R INS o _O OUT3 sic o O OUT4 SCINS o O OUT5 e o O OUT6 sds o O 0UT7 me o O OUT8 O GNDIN COMMON WE8 inputs diagram WE8 outputs diagram Description of input output wires Cable with 18x0 5mm2 numbered wires INPUTS OUTPUTS Wire Input Wire Output number description number description 1 IN1 10 OUT1 2 IN 2 11 OUT2 3 IN3 12 OUT3 4 IN 4 13 OUT4 5 IN5 14 OUT5 6 IN6 15 OUT6 7 IN 7 16 OUT7 8 IN 8 17 OUT8 9 GNDWE 18 COMMON Technical specification Pamer e ooo FOuputrumber iS 132 Caution If WE 8 module is installed in it does not allow to install AN analogue output module and or PK 1 module of relays 30 5 WE4 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 30 5 1 Technical specification Parameters of outputs Quantity of outputs 4 Type of outputs Reed operation contacts Wire diameter 0 14 0 5mm pats load current contact 0 2A DC Maximal forward voltage 50V DC Parameters of inputs Quantity of inputs 4 Input type Optoinsulated Wire diameter 0 14 0 5mm Control voltage range 5 24V DC 30 5 2 Colours of cables f
77. requency If two sequentional results differ less than the declared value of autozero range so the scale will be automatically zeroed and the pictograms m and gt 0 lt will be displayed When AUTOZERO is disabled zero is not corrected automatically However in particular cases this function can disrupt the measurement process e g slow pouring of liquid or powder on the weighing pan In this case it is advisable to disable the autozero function Procedure e Enter lt P1 SCALE PARAMETERS according to 11 2 and then AUTOZER NO _ Autozero disabled AUTOZER YES Autozero enabled Return to weighing See 11 3 27 14 PORTS PARAMETERS It is possible to connect external devices printer computer to the ports RS 232 1 RS 232 2 RS 485 Ethernet Configuration can be done in lt P2 COM PORTS PARAMETERSs gt 14 1 RS 232 RS 485 setting For setting RS 232 RS 485 use following parameters e Baud rate 2400 115200 bit s e Data bits 7 8 e Stop bit 1 1 5 2 e Parity NONE ODD EVEN Measurements can be sent via RS in following ways Manually after pressing ENTER Automatically after stabilizing over Lo Continuous activation in parameters or via RS External request via RS Measurements can be sent e When stable the information is sent after stabilization e Immediately after pressing PRINT regardless the equilibrium only in non verified scales
78. rminals The EAN 128 barcode standard has been created to provide a worldwide standard for exchanging simple data between enterprises Other codes include data without marking what they include EAN 128 encrypts data together with information about it For example when coding 17 21 kg as 1721 an application does not know if it is a price time or mass Even if the application can identify this field as weight it has no information about unit and point 1721 kg or 17 21 g It is important that everybody can decode the information without any additional modifications EAN 128 standard solves this problem It includes a list of Application Identifiers Every identifier carries a message to inform a system about the data type and format E g 310 identifier indicates for the net mass in kg The next digit in this identifier outlines the point position then the following 6 digits outline a weight Application Identifiers Peserption fw Format Serial Shipping Container Code exactly 18 characters Shipping Contained Code exactly 14 characters Number of containers contained in another unit used with Al 37 exactly 14 characters Up to 20 characters Production Date YYMMDD exactly 6 characters Packaging Date YYMMDD exactly 6 characters Sell By Date Quality Control YYMMDD exactly 6 characters Expiration Date Safety Control YYMMDD exactly 6 characters SerialNumber a OO ae Ce E a Product Width Diameter 2nd Dimension ax
79. rner of the display Then weighings is done with the accuracy of the Il range to the moment of returning to zero autozero range O where the scale switches back to the I range 20 12 5 Toggling between weight units 12 5 1 Selection of basic unit This function sets the unit that will be set after powering on Procedure e While In weighings mode press and then FI 0 000 PRRARETERS ENTER D lt al m7 MS a Ci i SCALE PR has i Po Pe START UNI NONE NEUTON KILOGRAM P a CARAT GRAM 4 ounce Pouno a p i jf ENTER 2 Selection e When the main unit is kg users can select among kg Ib oz ct N g for verified scales b oz N are not accessible e When the main unit is g users can select among g kg Ib oz ct N for verified scales Ib oz N are not accessible 21 12 5 2 Toggling between weight units Press the Units key to toggle between weight units Fi GNIR PE g RY 0 000 gt No SUA 0 000 ih oz ct Accessible units e When kg is the basic unit users can toggle between kg Ib oz ct N g For verified scales Ib oz N are not accessible e When g is the basic unit users can toggle between g kg Ib oz ct N For verified scales lb oz N are not accessible Notice The terminal always starts working with the main calibration unit 12 6 Switching between platforms In
80. s from the socket and hook the band clips Band clips of multiple usage Screw down the back wall Operation mode signalling LEDs Main connector Connect to J1 on the main board assembly hole fot a plastic column J2 J3 connectors for a twisted lt pair ET 1D or cables from a socket ET 1G assembly hole fot a plastic column RX RX TX TX TX white orange u3 TX orange Colours of wires in the twisted pair cable from PT0014 for ET 1D RX white green J2 RX green TX white TX blue J3 Colours of cables from PT0017 for ET 1G RX yellow J2 RX orange Ethernet module on the main board of PUE C41H 124 30 1 2 Drawings of sockets and cables for Ethernet PT0017 Ethernet socket for ET 1G pint RX Lia AE pin2 TX TX pin3 RX ae J2 pin4 TX RX Ethernet socket for ET 1G version PT0014 Ethernet cable for ET 1D pin 1 white orange om 30 pin 2 orange white orange pin 3 white green 8 J3 pin 4 blue i pin 5 white blue as RX pin 6 green 1 S J2 pin 7 white brown pin 8 brown SHIELD connect to the indicator housing top side view 120 Ethernet cable for ET 1D version for a SWITCH 30 2 Analogue output module Module of analogue outputs 125 Module accessible in three configurations e Voltage output AN 0 10V e Current output AN 4 20mA e Current output AN 0 20mA 30 2 1 Technical specification Current
81. t If a scale is equipped with two platforms press to change the platform The active platform is signalled by pictograms in the top left corner of the display 29 13 MAIN PARAMETERS Users can adjust the scale to external ambient conditions filtering level or particular needs autozero operation tare memory This parameters are present in lt P1 SCALE PARAMETERS 13 1 Filtering level Procedure Tat e While in weighings mode press and then O 0GO ENTER 2 i PARARETERS z D 1 ENTER a 1 9 SCALE PRRARETERS S m11 I LA PLATFORN FT P m1111 ENTER m Fae Pa f FILTER AVERAGE V FAST FAST t NONE SLOW AVERAGE x IN m1111 ENTER E P P e OLON FILTER FAST Return to weighing See 11 3 NOTICE The higher filtering level the longer stabilization time 23 13 2 Median filter This filter eliminates short mechanical shocks Procedure e Enter lt P1 SCALE PARAMETERS and then i CHo CALE PARAMETERS AIR ci 7 cA Pile NED FILTER NO w115 l i iE A R MED FILTER NO filter disabled MED FILTER YES filter enabled Return to weighing See 11 3 24 13 3 Minimal mass parameter Parameter PROG LO is related to following functions automatic tare automatic operation weighing animals The next automatic tarring can be performed after the indication reaches the gross
82. t P7 WORK MODES and then oo oft Uf output moo OUTPUT AOD I_te Dal P oo BBO 98 OUTPUT MOD Threshold feo Rie a THERSHOLD 1 1 0 THERSHOLD 2 0 1 ae THERSHOLD 1 1 1 E THERSHOLD 2 1 0 ee THERSHOLD 1 1 1 THERSHOLD 2 0 1 Return to weighing See 11 3 NOTICE If dosing is initiated when the indication is gt LO after reaching the indication below LO output outputs will be automatically switched on Subsequent dosing process can be started when indication goes below LO 24 6 5 Starting work modes I DOSAGE z pous RO After entering the DOSING mode the T pictogram is displayed Press to start a dosing process After starting it starts blinking keyboard is blocked until the process is completed 99 The process completion is signaled by displaying a message lt END OF DOSING gt in the bottom line of the display This process can be stopped only by pressing E A message will be displayed in the bottom line lt STOP DOSING gt l as eee I STOP DOSING ree When the procedure is broken or completed wis displayed continuously 5 i F2 i Dosing process can be also terminated by pressing 2 You will see blinking pictogram Pressing F3 win cause the process to continue Pressing will cause the process to break Return to weighing See 11 3 100
83. tabase of labels relation c label CC LABEL CODE Label code from the database of labels relation cc label ENTER Use key to enter a parameter and confirm a parameter value BIE Select an appropreate field using OW e After defining all the fields press E e Inthe lower line you can see ENTER e Press Sto save changes e Inthe lower line of the display you will see the name of the inscribed record and the subsequent position number in the database 78 41h ma 0 I 1 ASSORTMENT GI O 00G e To delete a selected record in the database press F2 e To edit a defined record press E e To delete all the records press Es Return to weighing See 11 3 21 10 Database of contractors Database of contractors consist of 500 records Procedure of adding records e Enter databases according to 21 5 of this manual Mil ma 0 DATABASES oaie ih ua 0 I OPERATORS oaie e Incase the datab ENTER R e You will see the first empty record in editing mode 79 Fields in database of records NAME Contractor name max 40 characters CODE Contractor s code 6 digits or characters see lt P6 5 CODE TYPE gt see 21 4 STREET Street name 28 characters POST CODE Post code 8 digits CITY City town of contractor 28 characters COUNTRY Country of contractor 28 characters TIN Tax
84. 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 30 3 1 Technical specification Output type Operating contacts Current carrying capacity of i CAUTION When inductive load it is advisable to use a suppression circuit LC or voltage dependent resistors installed next to the receptor Parameters of these circuits are determined by clients 129 30 3 2 Installing in PUE C41H indicators These module are intended to mount inside PUE C41H indicators It is mounted to the main board to the 10 pin J3 connector An additional gland is installed on the back wall and a 3m cable is led out through it Wires should be free from insulation Installing procedure 1 Unplug the scale from mains 2 Unscrew and take off the back wall of the housing 3 Install your module in J3 on the main board 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 PK1 Led the PT0016 cable through one of plugged glands Connect the PT0016 cable to J2 connector on the PCB according to the description below 7 The cable connect to the group o
85. the scale Toggling between weight units Changing active platform Inscribing tare value Zeroing Tarring Function key entering the menu Leaving a function without saving or reaching a higher level of the menu Printing out the result or confirming some entered data Selection viewing of articles from the assortment database Selection purpose variables N A N A Work mode selection Log out Inscribing a batch number 6 characters Inscribing thresholds MIN MAX Statistics overview Notice After pressing F functions of keys change while in the menu The way of using them is described farther 11 MENU PARAMETERS 11 1 Overview of parameters The menu has been divided into 10 basic groups Each group has its individual name progressive starting with the capital letter P Names of groups and their contents are shown below PARAMETERS P 1 SCALE PARAMETERS P 1 1 PLATFORM 1 PAR P 1 1 1 FITER 1 2 MED FILTER 3 LO THRESH 4 TARE MODE D 1 1 1 1 START UNIT 1 1 A al Al 1 6 AUTOZERO P 1 2 PLATFORM 2 PAR 2 1 FITER 2 2 MED FILTER 2 3 LO THRESH P 1 2 4 TARE MODE P 1 2 5 BASIC UNIT P 1 2 6 AUTOZERO P 1 3 FACTORY NO P 2 COM PORTS PARAMETERS P 2 1 RS 485 P 2 1 1 BAUD RATE P 2 1 2 DATABITS P 2 1 3 PARITY BIT P 2 1 4 STOP BITS P 2 2 RS 232 1 P 2 2 1 BAUD RATE P 2 2 2 DATABITS P 2 2 3 PARITY BIT P 2 2 4 STOP BITS P 2 3 RS 232 2 P 2 3 1 BAUD RATE P 2 3 2 PARITY BI
86. tic column igattegst uz Mol G oe jumpers for 4 wire load cells r r m a n N bed gt Ni io Co JAE 2 AI AG BI oge E se a ER Ee ee oge 8 oo w 3 RADWAG 227R0612 assembly hole for assembly hole for a plastic column a plastic column Installing DP1 module on the main board of PUE C41H 5 Led a tensometer cable through the PG7 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 139 8 Solder the wires to the pads on the DP1 Use soldering iron no solder guns or Rother inductive devices 9 Fasten the cable to the housing using a band clip to the screwed terminal on the back wall of the housing 10 Screw down the back wall 30 7 RS485 led out via RS 1D gland A version with the RS485 interface led out via a gland in the standard solution RS485 is present in a socket A 3m cable is led out through the gland 30 7 1 Installing inside the PUE C41H housing 1 Unplug the scale from mains 2 Unscrew and take off the back wall of the housing 3 Unplug one of the unused glands and led out the PT0012 cable through it 140 4 Connect the PT0012 cable to the J20 connector ARK type on the main board of PUE C41H SHIELD MAIN BOARD JB gland PG9 PT0012 cable connecting to the main board of PUE C41H 5 Connect the PT0012 shield to the h
87. tion in percents Top mass latch Dosing Counting pcs Weighings animals User functions may have attribute of accessibility For this reason it is possible to adjust scale to individual needs to provide access to only these functions which are currently needed Attribute determination accessible inaccessible is possible in user menu and described in further part of manual 2 PRECAUTIONARY MEASURES A Please read carefully this corrected user manual before and use the device according to its intended use B If the device is about to operate in a strong electrostatic field e g printing houses etc it should be connected to the earthing Connect it to the clamp terminal signed C Devices that are to be withdrawn from usage should be sent back to the producer or in case of own utilization do it according to the law 3 WARRANTY CONDITIONS A RADWAG is obliged to repair or change those elements that appears to be faulty because of production and construction reason B Defining defects of unclear origin and outlining methods of elimination can be settled only in participation of a user and the manufacturer representatives 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 e Mechanical failures caused by inappropriate maintenance of the device or failures
88. tion use the description below to connect the shield of the tensometer properly In both cases 6 and 4 wire cables the same way rule are valid 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 POINTC E connection to the tensometer body Load cells with internal shield POINT C POINT C connection to the tensometer body Point C screwed terminal electrically connected to the metal housing of the indicator possible using of soldering eye E soldering pad on a DP1 PCB The way of checking connection between the shield and the tensometer body Use an ohmmeter for this purpose TENSOMETER SHIELD A WEIGHING PLATFORM 138 30 6 4 Installing in PUE C41H housing DP1 modules are intended to mount inside PUE C41H housings It is mounted to the main board to the 10 pin J18 connector For DP1 module an additional gland is installed on the back wall of the housing Unplug the scale from mains Unscrew and take off the back wall of the housing Install your module in J18 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 DP1 PO Main connector connect to J18 on the main board assembly hole for a plas
89. ue pin8 GNDIN Red SHIELD Cable PUE C41H IN OUT Scale I O cable 419 PUE C41H grey IN3 0 m NIO pint NC pin2 NC pin3 NC pin4 5V yellow pind IN3 grey pin IN2 pink pin7 IN1 blue pin8 NC pink IN e zZ x H ald yowes i quam lt SHIELD Possibility of optional configuration of inputs from the level of PUE C41H software PT0021 External Buttons PRINT TARA ZERO to PUE C41H PRINT TARA ZERO external buttons cable 29 CONNECTORS Caution In accordance to the number of mounted modules the number and the placement of glands and connectors can vary Connectors and glands mentioned in the standard solution appears in every option in the same place regardless of the option pint OUT3 NC pin2 OUT2 NC pin3 OUT1 NC pind COMMON 5V pind IN3 IN3 pin6 IN2 IN2 pin7 IN1 IN1 pin8 GNDIN NC IN OUT I O connector pin1 B RS485 pin2 RxD pin3 TxD pin4 A RS485 pind GNDRS pin6 5VDC RS232 RS485 connector 120 30 SPECIFICATION OF ADDITIONAL MODULES Apart from standard interface it is possible to equip terminals with additional module increasing functionality of devices ET Ethernet module AN analogue outputs module PK 1 relay outputs module WE 8 8 inputs 8 outputs module WE 4 4 inputs 4 outputs module DP 1 Additional
90. with CA 26 4 Selecting general purpose variables While in labelling press database of general purpose variables Choose an appropriate variable or G and confirm it with ER 26 5 Thresholds for checkweighing MIN MAX While in counting pieces press 5 Further procedure of entering thresholds values according to 23 2 110 26 6 Loading patterns of labels Users can download label patterns to the printer memory using EDYTOR ETYKIET Look up program help files for more information 26 7 Algorithm After loading appropriate label patterns to the scale filling in databases and setting the related parameters proceed as directed in 12 WEIGHING Labels are printed after pressing CA In the bottom line subsequent weighings counter are displayed and total number of pieces If the selected product is not changed after the display indicates zero put aed batch of goods and press after stabilising Press to change the product enter the assortment database select the required product and press CR 26 7 1 Printing of cumulative labels Cumulative labels C LABELS are for printing total values from simple labels Those labels are for bulk containers comprising a number of single goods E g a package contains 20 cans of peace Cumulative labels need to be defined for the product There are three criteria of printing cumulative labels e After exceeding the given number of weighings of one product N1
91. you search in the bottom line Notice If the search result is not successful the lt NO RECORD gt message in the bottom line is displayed for 1 second and then software returns to displaying the current record Return to weighing See 11 3 21 6 2 Quick name search Procedure F1 While in any work mode press select view products in the assortment database and then 72 0 Bo ENTER Pa ENTER e Inscribe the name you search and then press ER e The program displays the record you search in the bottom line Notice You can inscribe a part of the name to start searching The program will display the first string it encounters with the same beginning as the inscribed one If the search result is not successful the lt NO RECORD gt message in the bottom line is displayed for 1 second and then software returns to displaying the current record Return to weighing See 11 3 21 6 3 Quick number search Procedure F1 e While in any work mode press select view products in the assortment database e Scale program displays the record number one in the bottom line 9 e Using numeric keys GE enter a required record number e Scale program displays the record in the bottom line Return to weighing See 11 3 21 7 Users database The database of operators can hold up to 100 records in standard setting of databases Defining of operators e Enter databases
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