Operating Voltage: 230 V/50 Hz / 12VDC (optional for IP65
Contents
1. be found Scale Def oye F Operation Range MAX DIV DP Eule b le Aloe E RP d AP gt lt ba 8 Enter numerical lt lt a I Cad AT REPERE on loFF BAF 261 0001 Selection Z P E So ee HO e He MAXI DP1 CAP dir Enter numerical valis Selection s MAX2 DP2 CAPe dFle Enter numerical valia Selection 1 P Zero Track Neg Zero Units ErR A0 Uh iE gt lt lt gt gt lt gt oFF IES died FE POE ISILblolnone Figure 3 2 1 Scale Definition 3 3 Configuration and Calibration 3 2 1 Operation FUNCE lt selects the operation mode of the equipment These are the options ind ICA Operation in the indicator mode CEPERE Operation in the remote display mode2. Figure 3 9 1 Calibration with Masses 3 9 1 ZERO DEro Automatic zero adjustment To automatically adjust the zero value make sure there is not any weight on it and press the enter key The indicator will show the present coefficient value On pressing enter again the message CALIB will be shown while the indicator assesses the present value Once accepted it will be stored It is recommended to keep this coefficient value or print it by means of printing the parameters Manual zero adjustment to manually introduce the zero value the Arrow Down key has to be pressed Then we select the corresponding digit with the Arrow Left and Arrow Right keys lt 4 gt The selected digit value is modified with Arrow Up and Arrow Down keys A Y If a negative value has to be introduced it can only be done with the first left digit The negative sign appears after the number 3 When we want to manually introduce the zero value in an indicator with a software version previous to 1 3XX then the last digit has to be truncated 3 21 Configuration and Calibration 3 9 2 SPAN SPAn Automatic span adjustment To automatically adjust the span place a certified test weight on the scale and press Enter The maximum scale value is displayed if the weig
3. Chec HEL Init Delay time Weight readings time N Display time A el le ELBE ELFE TELE Enter Enter Enter o gt value ale value aFF1Pr int JeotAL C SD 504 5 lt lt lt lt Figure 3 11 1 Animal weigher Check weigher application 3 25 Configuration and Calibration 3 111 Init In IE Through this option we can activate or deactivate the Animal weigher Check weigher option It can be activated in Pr int mode or in EotfL mode and be deactivated with oF F If it is activated in Pr ink mode the process is started on pressing the key or equivalent RS 232 or digital input command and the indicator prints a ticket on ending If the EotAL mode is chosen the process is started on pressing the key or equivalent RS 232 or digital input command and totalized on ending 3 11 2 Delay time E_dEL It is the time the indicator will be waiting without weight readings once the process activation signal is given by keyboard RS 232 command or digital input During this time the indicator displays the message 770EL Its value is configurable from 0 0 to 50 0 seconds If the entered value is above 50 0 seconds the indicator will display the error message Err tof and then will show the p
4. parameter is forced to be 3 4 10 ADD Add Address of the equipment in a RS 485 network It has to be D to operate as a RS 232 port 3 5 Transmission Port Tx Accessible menu only after having installed the RS 232 second port accessory Within the configuration transmission port parameters showed in Figure 3 5 1 can be found Printer Fiel EE Mode Band Format EPET bah For A lt lt OFF SE je HALLO Alkot Enter numerical F NFeIFSIFYIFSIFBIF I IFBIFSIF GIF VIF ic le 13 lt e E gt Baud o Parity Delay s BA ERA JEL 4800 9600 19200 Bal E No off 1250 1500 1000 12000 H Termination Control E Er AHMED lt Cele Cr lEt none Con FE lt lt Figure 3 5 1 Transmission Port Configuration and Calibration 3 5 1 MODE EYPE Transmission mode These are the options OFF cf Data transmission deactivated STREAM GE Continuous data transmission TICKET E Transmission on a print internal request Print key AUTO Alto It is automatically transmitted on acomplishing the condition for automatic operations on ports see 2 11 The transmission format is the one specified in Format see 3 5 3 AUTO TICKET FUtoE 1 A ticket is automatically printed on acomplishing the condition for automatic operations on ports
5. PPP P CAUTION The integrated circuits in the SMART are sensitive to electrostatic discharge ESD Be sure to follow proper procedures for transporting storing and handling ESD sensitive components gt P SMART User s Manual 1 Introduction u uu s nn een ne din nt Ne desde 1 1 1 1 Indicator Characteristics u su n aida 1 1 1 1 1 Load Cell Connection 1 1 1 1 2 Operator Interface 1 1 1 1 3 Serial Communications 1 1 1 1 4 Input Output Options 1 1 1 1 5 POWER tn aS Aaa su e 1 2 1 1 6 Environmental and Mechanical n12 1 2 Keyboard 1 2 1 3 Display and Luminous Information 61 3 1 3 1 FUNGCUONS iii 1 3 1 4 Label with characteristics and metrological identification 1 4 1 5 Error MeSS8088S_ luu nd 1 5 1 6 Maintenance 22 nr en tn tas aa a e iaee i ETES 1 6 1 6 1 Replacing Fuses 1 6 1 6 2 Clea ing Ea aa Ae A 1 6 2 Operati N iia 2 1 Turning the indicator on xi 2 2 Entering Values 2 3 Normal Weighing 2 4 LO ati 2 5 WANG maa entire 2 5 1 Activate tare 2 5 2 Clearing a Tare Value ceee 2 6 Ticket Printout 2 7 Piece Counting 2 8 Accumulation is 2 9 A O INN 2 10 COMMUNICATIONS ys ses uu uuu eve p aba laaya sisay nee nao pesa akuna 2 10 1 General Characteristics of the Remote Controller
6. found gt Options OPE tons l Filter _ Mot band Tare lock a Language Elle ET bold Ha E Ale Ekk EEs ccc ore EHe 6132 164 OFF Jia led 3d onloFF SPA Por Fre Eng SEr CRE o 1 eu Key lock _ Print minimum N Ticket Totalization ticket _ lof Ha Pic c Pe e Ef tll i m 000000 enter numerical value oFF ESE Prod oFF ESt ProS 30 p Ticket_ID Pin ETE EN enter numerical value el Ondan TE la PET pepe lt P 3 3 1 Figure 3 3 1 Options FILTER F ILEEr Filter level You can choose among different levels or deactivate this function The higher is the selected value the higher is the filter level These are the options ofF e 4 6 30 64 3 6 Configuration and Calibration 3 3 2 MOT BAND bAnd The level at which motion is detected Out of this level there is no stability These are the options OFF Deactivate function 1dd One division 2dd Two divisions 3dd Three divisions 3 3 3 TARE LOCK tArELoL Allows activating and deactivating the tare lock Its possible options are on oF F If that option is on the tare is locked keeps the tare That is the equipment default option and under which the tare is activated until it is manually deactivated see 2 5 2 Whe that option is OFF the tare acts as follows if after removing the weight its value is within the range of 1 4 divisions ar
7. 3 5 Transmission Port Tx 3 5 1 MODE EJPE 3 5 2 BAND bAlnd 3 5 3 FORMAT For s 3 5 4 BAD E pd me en creed sine E sa 3 5 5 PARITY PAF D D o E ER 3 5 6 DELAY DEL 3 5 7 TERMINATION EEr 3 5 8 CONTROL LnEL i 3 6 Analog Output cuina oc aci da 3 6 1 e e Rao 3 6 2 Salas FSEL I 36 3 ERROR Error 3 6 4 MIN fott _0 3 6 5 FULL folt LF oo 3 6 6 TW MIN fobie _FD 3 6 7 TW FULL folt _FP 3 7 Digital outputs 3 7 1 D_OUT N d_oUE m 3 7 2 VL i LL D 3 7 3 TYPE i EYPE 3 7 4 REL i EL 375 TRIP i Er iP phos Ji 3 76 BANDI ean n a nn um ama sua ATEEN SMART User s Manual 3 7 7 HYSTERESIS Meco ii et wie eal 3 17 378 LOCKED d_LoL 3 17 3 7 9 OUTPUT i GUEFUL 13 17 3 8 Digital Inputs 3 19 3 8 1 D_IN NUM d in no 3 19 382 TYPEG i BP 3 19 3 8 3 FUNCTION i FURL 3 20 3 9 Calibration with Masses 3 21 3 9 1 ZERO Ero 3 21 3 9 2 SPAN 5PR 3 22 393 TW SPAN FA 3 22 3 9 4 LIN LIN CyLINI IL in_E L ln D 3 22 3 10 Numerical Calibration 3 24 3 10 1 LCAP LCAP 3 24 3 10 2 LNUM Lno 3 24 3 10 3 LSn L5n 3 24 3 10 4 ZERO
8. 5 7 5 10 Remote Display Connection ss 5 7 1 Introduction 1 1 Indicator Characteristics 1 1 1 Load Cell Connection Introduction Full scale input signal 3 mV V Input impedance 200 MQ typical Internal resolution Converter AD 24 bits 16700000 counts 8350000 Measurement rate 50 measurements per second Linearity error lt 0 01 of measurement level Zero stability 150 nV C max Span stability 3 5 ppm C max Excitation voltage Transducer minimum resistance Transducer maximum resistance 6 1 0 5 VDC 850 4 cellsx3500 8 cellsx700Q 1000 kQ Wire length 400 m mm max 6 wires 30 m mm max 4 wires Input overload 12 V 1 1 2 Operator Interface Main display 7 digit LED 20 mm Keyboard Keyboard with 6 keys 1 1 3 Serial Communications Port Tx Rx Bi directional RS 232C Optional RS 485 RS 232C only transmission Transmission rates 19200 9600 and 4800 bauds Number of bits and parity 8 bits no parity 7 bits even parity and 7 bits odd parity 1 1 4 Input Output Options 4 digital inputs Viiow 0 8V Vincen 2V Vimax 30V 4 digital outputs Open collector outputs Vorow 0 5V VoHien Vext 1 2V liLow 200mA max Range Vexr 5V 24V Analog output Galvanic insulation output 14 bits D A Voltage output 0 10 5V nom load gt 1kQ Current output 0 21mA loop re
9. Operation as appropiate Press Enter to accept Press Exit if you want to exit the menu without making any changes Exit When parameter d_LoL 7 is on then the message Lot locked will be shown and blink three times this parameter can not be modified from this menu 2 10 Communications This equipment has one serial communication port Port Rx Tx transmission and reception serial port The communication channel can be configured from the Configuration Menu see 3 4 A second transmission channel is available as an optional extra The performance of the second communication channel can be configured from the Configuration Menu see 3 5 2 10 1 General Characteristics of the Remote Controller 2 10 1 1 Remote Controller Commands The equipment can be controlled through the Rx Tx port To carry out this function the indicator must be configured in DEMAND mode see 3 4 1 Operation Commands Query Set weight in F4 format Equivalent to EXIT TARE keys Query Set weight with response according to the selected format see 3 4 3 Equivalent to PRINT key Reset system Equivalent to TARE key Equivalent to ZERO key Equivalent to E key Equivalent to EXIT gt keys Weight query set The command does not require lt CR gt STX ENQ ETX Weight query the command does not require lt CR gt SYN Weight query the command does not require lt CR gt FAMANADOVOD gt S SETPOINTS Programming It allows to change the VL i paramet
10. lt CR gt Carriage Return ASCII 13 lt LF gt Line Feed ASCII 10 Space character Ko Character 0 T Character 1 ppppppp Weight value 7 characters nnnnnnn Net weight value 7 characters aaaaaaa Analog Digital converter filtered output 7 characters POL Polarity Weight gt 0 Weight lt 0 U Units K kg T t G g L Ib es oz without unit G N Gross Net G Gross 2 9 Operation N Net s Status te Valid M Motion O Overload l Invalid T Termination CR CR LF ACK ASCII 6 NAK ASCII 21 2 10 2 Protocol RS 232 Communication between two equipments point per point with a maximum distance of 15 m Protocol format Command CR All command s in section 2 10 1 1 2 10 3 Network Communications RS 485 For applications with the Input Output accessory Communication between several equipments 100 maximum in a BUS with a maximum link distance of 1 200 m The SMART indicator can only be the SLAVE and it must be assigned a unique address from 1 to 99 Masters queries and slaves responses have the following formats Master query b A Termination CR fix Command Address 2 bytes decimal see 3 4 10 Start master query Slave response gt Da TERMN L Termination see 3 4 7 Response Address 2 bytes decimal see 3 4 10 Start slave response There are three types of responses Data Received and responded query command ACK Received an
11. 2 10 2 Protocol RS 2321 Ju u u uuu da P 2 10 3 Network Communications RS 485 2 11 Automatic operations ports Rx Tx and TX 2 12 Remote display Configuration and Calibration 3 1 Introductions aun g aguas 3 2 Scale Definition 3 2 1 Operation FILE 3 2 2 Range b IrAn3E 3 23 MAX 3 2 4 DIV d 3 2 5 DP dP 3 2 6 MAX1 CAP 1 327 DIV1 d 1 Paaa 3 2 8 DP1 g D 3 2 9 MAX2 CAPE 3 2 10 DIV2 d I 3 241 ADP2UTRE Isku eit Ol eho ht RNA SMART User s Manual 3 2 12 ZERO TRACK G Er Al SOE eNO ada 3 5 3 2 13 ZERO RANGE LEcP aaa aaa 3 5 3 2 14 AUTO ZERO B A A A 3 5 32157 NEG ZERO D RES ia alada ibi 3 5 3 06 E AA 3 5 3 3 OPTION Sida A A AAA 3 6 3 3 1 FILTER EEES anilin aen an dista 3 6 3 3 2 MOT BAND rai o acct M ox cat a St on 3 7 3 3 3 TARE Lock EAGLE OUR Re te S 3 7 3 3 4 LANGUAGE RS Je asahan AA EE ea Ak ee eke tau hana 3 7 3 3 5 KEY LOCK eb e nn xi 3 7 II rene 3 7 33 7 TICKET PFELE dorea R ER 3 8 3 3 8 TOTALIZATION TICKET POELE A ua te 3 8 3 39 TICKET_ID E It 3 3 10 ACCESS CODE P in 3 4 Communication Port Rx Tx 3 4 1 MODE EIFE LL rennes 3 4 2 BAND BAGG E 3 4 3 FORMAT For se 3 4 4 BAUD bd 3 45 PARITY PAP 3 4 6 DELAY 0EL 3 4 7 TERMINATION i E 3 48 CONTROL eee nas 3 4 9 PROT Prot 3 4 10 ADD Add
12. LEDs brightness Date Hour LlEjd Hale RE E Holil UT lull UU IC OU q lt Int_ Figure 3 12 1 Tools 3 12 1 Weightx10 H_rES Displays the weight with a resolution multiplied by ten 3 12 2 MV Metro 5 9nAL Displays the ADC output in mV 3 12 3 Print Cal P_CAL Prints the equipment parameters NOTE Prints the configuration device via Rx Tx and Tx ports if they are configured as MODE EMPE TICKET E If both communication ports are configured as TICKET E the printing will be done by Tx port Also we can send the parameters printing to a hyperterminal for that we need to connect the communicaction cable to a PC and configure the same baud rate in both devices PC and Smart The following is an example of printing parameters as is done by the device 3 27 Configuration and calibration 3 12 4 SMART Parameter List SNR 846358 PRINTER D_OUT No 3 SW VER S 1 425n TYPE TI UL 100 0 NUM CAL 107 BAND 0 0 TYPE OFF D CAL 29 02 12 FOR F1 REL 3 29 02 12 13 06 BAUD 9600 TRIP H PIN 2802 PAR 8N BD 0 0 DEL 250 HY 0 0 DEF TER CRLF LOCKED OFF CAP 1500 0 Ctrl OFF OUTPUT 3 DI 0 5 UNIT kg A OUT DOUTNO 4 0 TRAC O 5d TYPE GROSS UL 200 0 0 TOP 1 9 OFFSET 20 TYPE OFF 0 START OFF ERROR FULL REL 4 0 NEG OFF AOUT_0 0 0 TRIP L AOUT_F 100 0 BD 0 0 OPTION
13. see 2 11 AUTO TOTAL FUtoto Totalizes automatically on acomplishing the condition for automatic operations on ports see 2 11 3 5 2 BAND bAnd Only accessible if the options AUTO AUTO TICKET and AUTO TOTAL are activated in the MODE parameter lt is the numerical value which determines the band of performance for the options AUTO AUTO TICKET and AUTO TOTAL of the MODE parameter 3 5 3 FORMAT For Format of transmitted data for STREAM These are the options F i F2 F3 FH F5 F6 F1 FB F9 F0 FILE i F 13 see 2 10 1 2 3 5 4 BAUD bALid Transmission speed These are the options 4800 9600 8200 3 5 5 PARITY PAr Number of data bits and parity These are the options 8 none 8 bits data 7 even 7 bits data 1 bit even parity even 7 odd 7 bits data 1 bit odd parity odd 3 5 6 DELAY dEL It is the delay time from the request to the data transmission If configured in STREAM mode it is the delay time between the transmitted data These are the options OFF 250ms 500ms 1s 2s 3 5 7 TERMINATION EEr Termination of the data blocks These are the options 3 12 3 5 8 3 6 found EPE FFE El Configuration and Calibration CR LF lt CR gt lt LF gt CR lt CR gt ET lt ETX gt NONE NOTHING CONTROL nmEL Control of the hardware flow RTS signal of the RS 232 C protocol These are the options OFF Deactivated function on Activated function Analog O
14. 7 9 OUTPUT i OUEPUE Associates a physical digital output with a setpoint see 5 6 If you try to assign more than one setpoint to a digital output the message oUt _Err is displayed These are the options OFF 10 35 Lamp vy 5 Y Go 62800 D OUT L Digital Output g Vext 5 24 Vdo T N Relay Load Vext ix 6 24VDC 10 11 D OUT al 22 23 ON Off Vext 5 24VDC 4 4 le GND Ro I PLC D OUT Figure 3 7 9 1 Digital Output Equivalent Circuit DER MASS Figure 3 7 9 2 Examples of Application 3 17 Configuration and Calibration Set Point HIGH FUNCTION LOW FUNCTION Hysteresis Hysteresis Hysteresis Band Set Point Set Point IN BAND FUNCTION OUT BAND FUNCTION Band Hysteresis Set Point Band Hysteresis Hysteresis Band Figure 3 7 9 3 Setpoint TRIP Actions 3 18 Configuration and Calibration 3 8 Digital Inputs Accessible menu only after having installed the Digital Inputs accessory Within the digital inputs configuration level parameters showed in Figure 3 8 1 can be found Digital inputs d
15. Format F13 lt STX gt as lt STA gt weight T lt STA gt status 1 character S steady weight N unsteady weight weight without decimal point gt 5 digits with decimal point gt 6 digits 2 8 Operation Format F14 length 6 bytes 1 byte address offset 0x20 example equipment address 12 1 byte value 12 32 44 symbol ASCII 2 byte high nibble of total low nibble sign offset 0x20 example 1 no totals 0 positive weight 1 byte value 0 16 1 offset 0 1 32 33 symbol ASCII example 2 there are totals 1 nehative weight 0 byte value 1 16 0 offset 16 0 32 48 symbol ASCII 0 possible values Weight Totals 2 byte value positive no 0x21 positive yes 0x31 negative no 0x20 negative yes 0x30 3 4 and 5 byte net weight in pseudo binary offset 0x20 example net weight 009894 3 byte high nibble 0 low nibble 0 byte value 0 16 0 offset 0 0 32 32 symbol ASCII 0 4 byte high nibble 9 low nibble 8 byte value 9 16 8 offset 144 8 32 184 symbol ASCII 5 byte high nibble 9 low nibble 4 byte value 9 16 4 offset 144 4 32 180 symbol ASCII 6 byte end character CR 0x0d 13 decimal Definitions lt STX gt Start of Text ASCII 2 lt ETX gt End of Text ASCII 3 lt ENQ gt Enquire ASCII 5 lt SYN gt Synchronous Idle ASCII 22
16. HY Id Lol loUEPUE Analog outputs EYPE oFFSEElErrorl RoVE 01RoUE FIADUE_FO AQUE FF Printer EYPE bAnd ForlbAUdIPAr dELIEEr Cn kl Serial ESPE Tb And For bAld PAr dELIEErICRnELIPr El Add Options FILEErIBAndleArELof ILAnSILoCIPrelPre_e Eok ETIE Idif ta Scale Def FUnCE lb Ir An SECRPId Nd PICAP Md I IIdP NCAP eld IeldPolO ErACID EoP O SEArE 0O nESIUnIE Figure 3 1 2 Basic Menu Structure Within the calibration and configuration menu the display shows your position Use the key arrows to move through the menus Use the left and right arroy keys lt P to move within the same level and press the Enter and Exit keys to change the level If you want to modify a selected parameter press the Enter key and introduce the new value with the up and down arrow keys A Y or choose and option gt as appropriate Press Enter to accept Press Exit if you want to exit the menu We recommend printing the calibration parameters after configuring the system using the P_cal function from the options submenu Configuration and Calibration 3 2 Scale Definition Within the Scale Definition configuration level parameters showed in Figure 3 2 1 can
17. See 2 12 3 2 2 Range b IrAn3E Activates the Multiple Ranges function In ON position the menu allows the access to MAX1 DIV1 DP1 MAX2 DIV2 and DP2 parameters and MAX DIV and DP2 disappear from the menu see 3 2 1 3 2 3 MAX CAP Maximum capacity of the scale 324 DI d Value of the scale division 3 2 5 DP dP Position of the decimal point By pressing the arrow keys you can move the decimal point to the desired position so that the division of the scale would be in the same unit than the capacity of the scale 3 2 6 MAXI CAP l The capacity for Range 1 3 2 7 DIV1 d The Division for Range 1 3 2 8 DP1 dP Position of the decimal point for Range 1 By pressing the arrow keys you can move the decimal point to the desired position so that the division for the Range 1 would be in the same unit than the capacity 329 MAX2 CAPO The capacity for Range 2 total capacity 3 210 DIV2 d Ie The Division for Range 2 By pressing the arrow keys you can move the decimal point to the desired position so that the division for the Range 2 would be in the same unit than the capacity 3 2 11 DP2 dP Position of the decimal point for Range 2 3 4 Configuration and Calibration 3 2 12 ZERO TRACK D ErAL The level at which the system is automatically zeroed as long as the weight is within the selected band 3 2 13 3 2 14 3 2 15 3 2 16 These are the options OFF Deactivated
18. Value To clear a tare register in normal operation that is to say when the tare lock option is see 3 3 3 press Exit and then the Tare key Operation K If the tare lock is oFF then the tare is automatically deactivated if the conditions described on 3 3 3 are accomplished 2 6 Ticket Printout Press the Print key to print a ticket If the weight is under the divisions introduced in PR MIN function see 3 3 6 the auxiliary display shows Err Pr nr Operation Ticket ID 1 Gross 100 0 kg Tare 0 0 kg Net 100 0 kg Figure 2 6 1 Ticket example 2 2 Operation 2 7 Piece Counting Place a certain number of pieces on the scale press the Piece Counting key and enter the number of pieces on the scale The PCS led lights From now on the indicator displays the number of pieces Operation 4 gt No pieces gt Press Exit and then the Piece Counting key to exit this function 2 8 Accumulation This function adds up various weights and gives the number of accumulated weights To add the weight that is on the scale into the sum press the Accumulation key In order to see the number of weighings press again the Accumulation key before losing the stability If you press this key again the accumulated total will be displayed If the piece counting function is activated the sum of pieces is displayed Operation Record the current weight on the scale Record the current weight
19. function 0 5dd 0 5 divisions 1dd 1 division 2dd 2 divisions ZERO RANGE 0 toP The range within which the scale may be zeroed 0 key and zero track These are the options 1 9 Allows performing a zero if the weight value is lt 1 9 of the maximum capacity 100 Allows performing a zero for the 100 of the maximum capacity AUTO ZERO D SERrE The indicator zeroes when it is turned on These are the options an Activated function off Deactivated function NEG ZERO O nE9 The indicator goes to zero automatically when the weight value is negative and remains stable for more than 5 seconds These are the options orr Deactivated function an Activated function UNITS Un it Weight unit of the scale These are the options FO kilogram ton 9 gram Lb pound o ounce non none 3 5 Configuration and Calibration 3 3 Options Within the Options configuration level parameters showed in Figure 3 3 1 can be
20. lt STX gt POL nnnnnnn lt ETX gt T F6 Format For UTILCELL remote display The content of the display is transmited in hexadecimal D7 D6 D5 D4 D3 D2 D1 Status T bit 7 segment DP bit 6 segment A bit 5 segment B bit 4 segment C bit 3 segment D bit 2 segment E bit 1 segment F bit 0 segment G 2 7 Operation Status code bit 7 accumulation activated bit 6 range 1 R1 bit 5 range 2 R2 bit 4 piece counting activated bit 3 preset tare PT bit 2 ZERO bit 1 NET bit 0 STABLE Format F7 lt STX gt status POL ppppppp T The status is obtained when you add to Ox20ex the values of the lighted status LEDs Gross 0Xx01 hex Zero 0x08hex Net 0x02hex Standstill 0x20hex Format F8 lt STX gt POL ppppppp Unit Unit Mode Mode T UNITS kg KG MODE Gross BR lb Ib Net NT Format F9 ppppppp T Format F10 lt STX gt lt STA gt ppppppp T lt STA gt status 1 character positive weight negative weight 92 unsteady weight Format F11 lt STX gt POL ppppppp T Format F12 lt STX gt lt STA gt om weight T lt STA gt status 1 character S steady weight N unsteady weight weight without decimal point gt 6 digits with decimal point gt 7 digits
21. or text files txt below that value To transfer the preset tickets to the indicator will be necessary the SmartMatrix Ticket program 3 3 9 TICKET_ID E Id Edit the number of the next printing ticket Up to 5 digits can be modified 3 3 10 ACCESS CODE P In With this option we can modify the access code value The modified value has to be correctly introduced twice If the introduced values are different the message is showed and the process has to be begun from scratch WARNING Keep this number in a safe place This will be the only one that will let you access the protected parameters scale definition calibration and others 3 8 Configuration and Calibration 3 4 Communication Port Rx Tx Within the communication port transmission reception parameters showed in Figure 3 4 1 can be found Serial Mode Band Format ESPE b Alald Flor dEl SE Ti Ako Alkot Enter numerical
22. printing the parameters It is highly recommended to print the parameters after the process of calibration of the indicator and keep it with the equipment documentation G ont Q pana O Bars St It is possible to prevent mechanically the O H pa Po access to the protected parameters by O H a B means of the JP3 jumper of the indicator O CH de H m E t main board If A and B pins are bridged the O CH E system is mechanically unprotected If B lt O C and C pins are bridged the system is o LH dE O B OY mechanically protected Q JP3 A O Figure 3 1 1 JP3 Detail If a protected parameter is changed the new value is recorded The indicator displays the number of calibrations made until then You will find the access code on page i Figure 3 1 2 shows the basic menu structure 3 1 Configuration and Calibration Seale Def Options Serial Printer I Analog J Digital Digital ew Cal mv II Chec Tools J output output input with masses L J Tools H rES IS SAA IP CAL PrESEE LEd int IdAEE Hoir J Chec mE GEC TE ART IE 15 Cal mv CAPIL noll SniDEra Calibration with masses DErol5PAnIFSPAAIL fall fa_CIL Im l Digital inputs d InnolEUPETFUnE Digital outputs d oUEnl ULIEYPEICELIEr IPlbd
23. rear side of the equipement Change the damaged fuse for a new one according to the specifications in 1 1 5 Close the fuseholder and connect the equipment If the equipment is configured as IP65 replace the fuse as specified below Disconnect the indicator from the power plug Remove the rear cover by unscrewing the screws Remove the fuse protecting cover which is in the power source Remove the fuse by pulling it out carefully Change the damaged fuse with a new one according to the specifications shown in 1 1 5 and reinstall the protecting cover Close the equipment and connect it WARNING SHOCK HAZARD Due to the risk of electrical shock the cover must be removed only by qualified personnel Cleaning Disconnect the indicator by pressing the rear switch and unplug the equipment from the electric outlet Clean the indicator with a clean and dry cloth CAUTION e Never use alcohol or solvents to clean the indicator These chemical products could damage it e Make sure that water does not enter the indicator It could damage electronic components 1 6 Operation 2 Operation 2 1 Turning the indicator on To turn the indicator on you must connect the equipment to the power supply and activate the rear switch The switch on sequence will first display a display test countdown sequence then the software version the equipment serial number and finally the number of performed calibrations 595 8
24. 0 to MAX After adjusting the scale zero and span if a linearity error is detected due to a discrepancy between the load and the system indication choose a point where discrepancy is more significant and then adjust linearity The linearity error disappears at that point and is fundamentally reduced in the rest of points see figure 3 9 4 1 ATTENTION The value of zero and span coefficients is obtained by means of the impression of the parameters see 3 12 3 3 22 Configuration and Calibration INDICATION INDICATION LINEARIZATION ERROR ILINEARIZATION ERROR THEORETICAL STRAIGHT MAX THEORETICAL STRAIGHT s WEIGHT NDICATION WEIGHT INDICATION REAL FUNCTION REAL FUNCTION bess WEIGHT INDICATION WEIGHT INDIGATION LIN_C LIN LNC WEIGHT o wax WEIGHT 0 UNS MAX LNC m Figure 3 9 4 1 Linearity adjustment performance before and afterwards respectively This is the procedure 1 Select Reset in the LIN parameter in order to assess the system linearity without any pre existing correction The LIN parameter is deactivated and any previous correction is deleted 2 Place a known load in a point of the range where there is a significant linearity error Note down the indication value 3 Select ON in the LIN parameter and then you gain access to LIN_C and LIN_I parameters 4 Key in the load value in the LIN_C parameter and press Enter to confirm 5 Key in the indication value in the
25. 888888 1111111 5655555 5595955 qu 4guguU4 Display test countdown 3333333 C PCC E titi 0000000 S 1420 Program version le 3 y 5 5 Equipment serial number n E le 3 Number of modifications in the protected parameters Figure 2 1 1 Switch on sequence It would be better to stabilize the equipment for a while before using it especially before a calibration In this case it is advisable to wait for 30 minutes The equipment may be permanently connected in order to avoid warm up time and potential condensations in case of significant changes in the outside temperature 2 2 Entering Values To use some of the equipment functions it is necessary to introduce numerical values Use the arrow keys to introduce these values Use right and left arrow keys to position onto the digit to be modified and the up and down arrow keys to increase or decrease its value 2 3 Normal Weighing When loading the platform the measured weight is displayed on the display 2 1 Operation 2 4 Zero The indicator has a zeroing manual mechanism When you press the Zero key the indicator stores the current weight value as the zero of the system This key acts depending of how we have defined the 0 top see 3 2 13 Operation 25 Tare 2 5 1 Activate tare Press the Tare key The current value will be stored as tare The NET led lights Operation 2 5 2 Clearing a Tare
26. D OOO OOO 242 A Figure 4 1 2 Measures ABS version 2 75 5 159 Installation 4 1 Installation 4 2 Fixed Bracket Bascule bracket for wall ceiling structure etc mounting Figure 4 2 1 Fixed Bracket Mounting 4 2 Installation 4 3 Unit Label Next to the main display the default units kg are silkscreen printed Adhesives with different units are included Units g t lb oz ton N kN and an empty label Figure 4 3 1 Unit Label 43 Installation 4 4 IP65 Assembly Only available in the stainless steel version To make the appropiate connections in the IP65 indicator see 5 3 remove the rear cover and pass each connection cord through the designated cable gland screwing each of them to guarantee that they are properly locked If any of the connections is not established do not drill the cable gland inside part After passing each cable through the cable gland pass them twice through the inside part of the circular ferrites supplied with the equipment Figure 4 4 1 IP 65 4 4 5 Connector Description Connector description Figure 5 1 Connectors 5 1 Load cell Connector Use a SUBD 9 aerial male connector to connect the load cell to the indicator Weld wires in accordance with the following tables For the 6 wire connection it is advisable to bridge 1 6 and 5 9 pins in order to double the excitation signal contact surface SUB D 9 aeria
27. Ero a aaa 3 24 3 11 Animal weigher Check weigher application 3 25 Batak Init Gale ced Set ae mu oe town aa GS tina ta aa es 3 26 3 11 2 Delay time E dEL 3 26 3 11 3 Weight readings time E ALL 3 26 3 11 4 Display time E d 15 3 26 312 Tol Sunrise 3 27 3 12 1 Weightx10 H_rE5 3 27 3 12 2 or ISnAL 3 27 3 12 3 Print Cal P_LRL 3 27 3 12 4 SMART Parameter List 3 28 3 12 5 Par Reset PrESEE 3 30 3 12 6 Brightness of LEDs LEd Int 3 30 3 12 7 Date dHEE 3 30 3 42 8 oia ti 3 30 Installation lt a mo 4 1 Measures s unu uum dina 4 2 Fixed Bracket 4 3 UnitiabDel p u Se AA el eee ee ee 4 4 IPG5 ASSOMDIY ii hawayak Sium uN Connector Description 5 1 Load cell Connector sas u una papas ida beeen 5 1 1 Load cell connector sealing ss 5 2 Communication Connectors 5 2 1 RS 232 Rx Tx Connector 5 3 IP65 Connections 5 4 Multioption CONNECTION sisi 5 5 RS 232 TX GONMECLOF ies beasties u S SDS asian TE 5 6 Digital Analog input Output and RS 485 connector 5 5 5 7 IP65 Multioption connection us 5 6 5 8 RS 232 RS 485 change jumper for Multioption Mural 5 6 5 9 RS 232 Jumpers position for Multioption
28. LIN_I parameter and press Enter to confirm 6 The correction has been made 7 This procedure can be repeated without clearing the previous correction continue from point 2 This adjustment calculates an internal algorithm which will be applied whenever the LIN parameter is ON even if the indicator is redefined or recalibrated That is why it is important to deactivate it or delete it if its application is not important anymore However whenever a span adjustment is made SPAN parameter in the moment of validating the calculated coefficient a message notifies us that the LIN parameter is activated where appropriate 3 23 Configuration and Calibration 3 10 Numerical Calibration If there is no reference weight value it is possible to make a theoretical calibration using capacity and sensibility values mV V of the load cells used For a calibration of maximum precision you always have to use the calibration with masses Within the numerical calibration level parameters showed in Figure 3 10 1 can be found Cal mv a l Lcap Lnum LSn LC RP a lEnio a Enter Enter Enter numerical numerical numerical 0 E Zero DE v take coeff enter co
29. P YEQIFSIEMJES FGIAN FBES FI F IF ig F td J lt par Baud Parity Delay b A ld PlAlr dE 4800 9600 13200 Bal Elo oFF c050 500 1900 2000 4 Temination Control Prot Add EL r Ene LL Pilot dd CrL Er EE mone an off rS 230 5 485 Enter numerical lt lt 41 Figure 3 4 1 Communication port 3 4 1 MODE ESPE Transmission mode These are the options DEMAND dE Data transmission on external request through the serial port STREAM 5t Continuous data transmission TICKET On a print internal request Print key AUTO ALE a It is automatically transmitted on acomplishing the condition for automatic operations on ports see 2 11 The transmission format is the one specified in Format see 3 4 3 Configuration and Calibration AUTO TICKET AUEot 1 A ticket is automatically printed on acomplishing the condition for automatic operations on ports see 2 11 AUTO TOTAL FUtoto Totalizes automatically on acomplishing the condition for automatic operations on ports see 2 11 3 4 2 BAND bAnd Only accessible if the options AUTO AUTO TICKET and AUTO TOTAL are activated in the MODE parameter It is the numerical value which determines the band of performance for the options AUTO AUTO TICKET and AUTO TOTAL of the MODE parameter 3 4 3 FORMAT For Format o
30. PL_Eer E a aa REL i TRIP i BAND i HYSTERESIS i i EL il EFI Li be AH W i la 3 4 HL inb QUE 5 rumena arena PSS pun 4 D_LOC i OUTPUT i Figure 3 7 1 Digital outputs 3 7 1 D_OUT N d oLt n Select the number of output These are the options 1 2 2 10 35 3 7 2 VL i UL Value with which the selected output operates 3 15 Configuration and Calibration 3 7 3 TYPE i SPE Type of output action These are the options OFF cFF Deactivated GROSS ra55 Gross weight value as reference NET MEL Net weight value as reference REL P_rEL Setpoint trips on the absolute setpoint value VL i plus the relative value REL i REL ner EL Setpoint trips on the absolute setpoint value VL i minus the relative value REL i REL P_PrEL Similar to REL REL except the setpoint trips on the absolute setpoint value plus a percentage of the relative value REL n_Pr el Similar to REL REL except the setpoint trips on the absolute setpoint value minus a percentage of the relative value ZERO UErc _ The output trips if a zero is in the system ZERONET Unte The output trips if the net mode is activated and the display shows a zero ss 59 The output trips if the scale is in the Standstill state INRANGE lnrAn5 The output trips if the weight
31. Revision Oct 2012 English For software versions 1 43X SMART CALIBRATION RECORD Record the calibration settings in the following table Serial Number Model Operating Voltage 230 V 50 Hz 12VDC optional for IP65 Purchase Date Installation Date Calibration Coefficients ZERO SPAN Factory Access Code ID 2802 Personalized Access Code ID WARNING Keep this number in a safe place This will be the only one that will let you access the protected parameters scale definition calibration and others SMART User s Manual SAFETY PRECAUTIONS WARNING SHOCK HAZARD For proper grounding the power connector must only be mated with a three wire grounded receptacle WARNING SHOCK HAZARD For proper grounding the safety ground wire green or green yellow must be connected to the general ground wire WARNING SHOCK HAZARD Due to the risk of electrical shock this instrument must be installed only by qualified personnel WARNING SHOCK HAZARD Due to the risk of electrical shock the cover must be removed only by qualified personnel CAUTION Power is immediately applied when the power cord is plugged into a live receptacle CAUTION Calibration and configuration must be performed only by qualified personnel CAUTION Electrical shock hazard Do not remove cover Refer servicing to qualified personnel CAUTION Risk of fire Replace fuses with the proper spare
32. S HY 0 0 FILTER 8 D_OUT LOCKED OFF BAND 1d OUTPUT 4 LANG SPA D_ OUT No 1 Prt_min 5 UL 5 0 D_IN PRT_TI EST TYPE NET TOT_TI EST REL 1 D_IN No 1 T ID 350 TRIP H TYPE TARE KEYBLK OFF BD 0 0 FUNG L PRNLK OFF HY 1 0 TARELK OFF LOCKED OFF D_IN No 2 ZEROLK OFF OUTPUT 1 TYPE CTARE PCSLK OFF FUNC H TOTLK OFF D_OUT No 2 UL 1 0 D_IN No 3 SERIAL TYPE N_REL TYPE PRINT TYPE DE REL 1 FUNG L BAND 0 0 TRIP H FOR F1 BD 0 0 D_IN No 4 BAUD 9600 HY 0 3 TYPE OERO PAR 8N LOCKED OFF FUNC H DEL 250 OUTPUT 2 TER CRLF CALIBRATION Ctrl OFF ZERO 16133 PORT RS 232 SPAN 104662 ADD 0 LN OFF 3 28 Configuration and Calibration 3 12 5 Par Reset PrESEt Resets all the parameters to the default configuration 3 12 6 Brightness of LEDs LEd Int The brightness of LEDs may be changed with this tool The range goes from 1 minimum value to 6 maximum value The selected brightness is displayed as it is modified 3 12 7 Date dALE Accessible only after having installed the Clock accessory Current date nr n man LI LIN LL Ol E Day Ton Year 3 12 8 Hour Holr Accessible only after having installed the Clock accessory Current hour Hour Minutes 3 30 4 Installation 4 1 Measures je a 63 oe SE _ 40 282 a e R Ps 1 ET na BOSODOE ce o L 242 o Figure 4 1 1 Measures stainless steel version 10 013 ovo 6 5 o e 40 282 8 1 MT ns
33. ccumulated weighings Command lt ADR gt SQ lt CR gt Answer Length 8 bytes 1 byte address offset 0x20 example equipment address 12 1 byte value 12 128 140 symbol ASCII length 6 bytes 2 6 2 10 1 2 Digit code Operation 2 3 and 4 byte weight accumulated in pseudo binary offset 0x20 example totalized weight 458901 2 byte high nibble 4 low nibble 5 byte value 4 16 5 offset 64 5 32 101 symbol ASCII A 3 byte high nibble 8 low nibble 9 byte value 8 16 9 offset 128 9 32 169 symbol ASCII 4 byte high nibble 0 low nibble 1 byte value 0 16 1 offset 33 symbol ASCII 5 6 and 7 byte number of totals in pseudo binary offset 0x20 example totalized weight 000005 5 byte high nibble 0 low nibble 0 byte value 0 16 0 offset 0 0 32 32 symbol ASCII 6 byte high nibble 0 low nibble 0 byte value 0 16 0 offset 0 0 32 32 symbol ASCII 7 byte high nibble 0 low nibble 1 byte value 0 16 5 offset 0 5 32 37 symbol ASCII 8 byte end character CR 0x0d 13 decimal Data Format F1 Format lt STX gt POL ppppppp U GN S IT F2 Format POL nnnnnnn T F3 Format lt STX gt O POL nnnnnnn lt ETX gt T F4 Format POL aaaaaaa T F5 Format
34. connections Make the connections as shown in figure 5 3 1 DC CONNECTION 12 V DC z GROUNI 230 V 50 Hz CONNECTION a GROUND T oo 0000 y EME o ennantnansnre 10000000000000 Lelolejololojeje e 9 o B 4 1 RS 232 CONNECTION LOAD CELL CONNECTION Figure 5 3 1 IP 65 Connection WARNING SHOCK HAZARD Due to the risk of electrical shock this instrument must be operated only by qualified personnel and be unplugged from the power supply WARNING SHOCK HAZARD Due to the risk of electrical shock the cabinet of the equipment must be connected to the ground wire 5 3 Connector description Load cell Connection RS 232 Connection UTILCELL PIN SIGNAL Load cell Code PIN SIGNAL 1 SIG Red 1 TxD 2 SIG White 2 RxD 3 Shield 3 RTS 4 Sense Blue 4 GND 5 Sense Yellow 6 EXC Black 7 EXC Green Table 5 3 2 6 Wire PIN Allocation If a 4 wire power cord is used bridge 4 7 pins EXC and SENSE and 5 6 EXC and SENSE in the aerial connector Load cell Connection RS 232 Connection UTILCELL PIN SIGNAL Load cell Code PIN SIGNAL 1 SIG Red TxD 2 SIG White RxD 3 Shield RTS 5 6 EXC Black GND 4 7 EXC Green Table 5 3 3 4 Wire PIN Allocation Q N 5 4 Multioption connection Only available in the stainless steel version gt _ s mar x RS 232 Load cell Tx R
35. ctions Indicator Meaning NET Tare hd Scale is in standstill mode gt 0 lt Zero PCS Pieces mode gt Accumulation R1 R2 Range situation 1 3 Introduction 1 4 Label with characteristics and metrological identification It is on the rear side of the indicator as shown in figure 1 4 1 It is a safety label which contains the characteristics of the device and metrological values and marks Figure 1 4 1 Label with characteristics and metrological identification layout 1 4 15 Error Messages Introduction Main display Condition Solution Err U Scale is not empty Remove the weight Err Err g EEPROM failure Data memory failure Contact your technical service Contact your technical service Ere r Er No signal from the load cell Check connector and load cell cable AdL Err ADC error Check connector and load cell cable A d r F A L ADC failure Contact your technical service Weight exceeds the maximum Remove weight Se ire capacity Enter signal exceeds the maximum range Check installation Enter signal under the minimum range Check installation Err Weight on the scale under the minimum weight Put a weight above the minimum value see 3 3 6 ErrLAP Not accomplished a lt 100000 I Al Not accomplished DIV s Ha a Not accom
36. current value ZERO Output MIN MIN Rolt _ Minimum capacity of the analog output range FULL Robt _F Maximum capacity of the analog output range TW MIN Rolt _FO Fine adjustment of the minimum analog output Modify the level pressing the arrow TW FULL Rolt _FF Fine adjustment of the maximum analog output Modify the level pressing the arrow FULL 2 50 00 oe er aa FULL 1 enr 25 00 KE pg ne Pl MIN 1 7 50 MIN 2 4mA 2v 20 mA 10V OFFSET 0 20 Figure 3 6 7 1 Typical Analog Output Scaling 3 14 3 7 Digital outputs Configuration and Calibration Accessible menu only after having installed the Digital Outputs accessory Within the digital outputs configuration level parameters showed in Figure 3 7 1 can be found DIGITAL OUTPUTS d ouE y P_OUTN2 VL i TYPE i ld out a Li L ElHIPIE i CONES Enter are Sro55 In E Pre In_rEL P_PrEL In_PrEL DEro nO an numerical One 155 ln Ang AES ERE Pr int Itok
37. d understood command 2 10 Operation NAK Received but not understood command 2 11 Automatic operations ports Rx Tx and Tx When the option MODO EYPE of the recepci n transmisi n port Rx Tx or the transmission port Tx is Ako AUEoE or AUtoto see sections 3 4 and 3 5 then the indicator is configured to carry out automatic operations in one of the ports or in both The values to configure for the automatic operations are Prt see sections 3 3 6 and bfind see sections 3 4 2 and 3 5 2 The mode of operation can be seen in figure 2 11 1 the value of the weight goes increasing until it arrives to the value of minimum weight Prt at time T1 Once the weight is superior to Prt the automatic operation will take place once there is stability and time passes the one defined in dEL see 3 4 6 and 3 5 6 and this happens at T2 Starting at T3 the weight passes below the value of PrE but the automatic system won t be reactivated until it doesn t decrease the weight to the value of bnd and this happens at T4 WEIGHT bAnd T T2 T3 Ta TIME DEL Figure 2 11 1 Automatic operations 2 12 Remote display To operate the indicator as a Remote display it should be activated in the equipment configuration see 3 2 1 After activating the equipment it will only operate as a remote display of another indicator which should be connected according to the specifications in 5 10 Configure the follow
38. eff s numerical value 4 O HE CAL IB Figure 3 10 1 Numerical Calibration 3 10 1 LCAP LCAP Nominal capacity Emax of one of the load cells from the scale It is expressed in the same decimal point used in MAX and DIV see scale definition 3 2 3 3 2 4 y 3 2 5 3 10 2 LNUM Lno Number of load receiver supports All supports must be counted both those which rest on load cells and those which do not 3 10 3 LSn LSn Load cells nominal sensibility in mV V if values are not the same calculate the average 3 10 4 ZERO DEro Automatic zero adjustment To automatically adjust the zero value make sure there is not any weight on it and press the enter key The indicator will show the present coefficient value On pressing enter again the message CALIB will be shown while the indicator assesses the present value Once accepted it will be stored lt is recommended to keep this coefficient value or print it by means of printing the parameters Manual zero adjustment to manually introduce the zero value the Arrow Down key Y has to be pressed Then we select the corresponding digit with the Arrow Left and Arrow 3 24 Configuration and Calibration Right keys lt gt The selected digit value is modified with Arrow Up and Arrow Down keys A Y If a negative value has to be introduced it can only be done with the first left digit The negative sign appears after the number 3 When we want to manually in
39. er from the i digital output see 3 7 2 The decimal point is taken from the system In case of TYPE i REL o REL VL i pppppp 100 Program S P i p p p p p Ip p Consult S IP li It returns the value in the programmed format 2 5 Operation Data transfer in ASCII format EX Sign positive value negative value i Digital output number 1 4 p Weight 7 digits REMOTE Mode this is programmed TYPE i REM see 3 7 3 It allows changing the i digital output provided that Act X O i x Consult X O Answer X O Xg X7 Xe X X4 X3 X2 X Data transfer in ASCII format it Digital output number 1 4 Xn Status of the digital output n 0 OFF 1 ON Read digital inputs It allows reading the status of the digital inputs Consult xX Answer X Il x Xz X Xs X IX Xo X Data transfer in ASCII format Xn Status of the digital input n 0 Low 1 High Consult the number of weighings accumulated Command SN Answer number of weighings space 7 digit ASCII 0 9 LE NININININININ Consult the total weight accumulated Command ST Answer Total weight accumulated sign 7 digits ASCII 0 9 without decimal point P P P P P P P Consult total weight and number of a
40. f transmitted data for DEMAND and STREAM These are the options F i FO F3 F4 FS F6 F1 FB FS FIFE ie Fd See 2 10 1 2 3 4 4 BAUD bAUd Transmission speed These are the options 4800 9600 8200 3 4 5 PARITY PAr Number of data bits and parity These are the options 8 none 8 bits data 7 even 7 bits data 1 bit even parity even 7 odd 7 bits data 1 bit odd parity odd 3 4 6 DELAY JEL It is the delay time from the request to the data transmission If configured in STREAM mode it is the delay time between the transmitted data These are the options OFF 250ms 500ms 1s 2s 3 4 7 TERMINATION Ef r Termination of the data for DEMAND and STREAM These are the options CR LF lt CR gt lt LF gt CR lt CR gt ET lt ETX gt NONE NOTHING 3 4 8 CONTROL CnEL Control of the hardware flow RTS signal of the RS 232 C protocol These are the options orr Deactivated function on Activated function 3 10 Configuration and Calibration 3 4 9 PROT Prot Communications protocol selection see 2 10 If RS 232 is selected the Add
41. ht placed on the scale is different key in the real value Press the Enter key and CALIB is displayed while the unit calculates the span coefficient After accepting it it is stored Manual span adjustment to manually introduce the span value the Arrow Down key Y has to be pressed Then we select the corresponding digit with the Arrow Left and Arrow Right keys lt gt The selected digit value is modified with Arrow Up and Arrow Down keys A Y If a negative value has to be introduced it can only be done with the first left digit The negative sign appears after the number g When we want to manually introduce the span value in an indicator with a software version previous to 1 3XX then the last two digits have to be truncated 393 TW SPAN FSPAn Span fine adjustment Use the right left arrow keys to adjust this value Press Enter to store the value 3 9 4 LIN LIN C y LINI L inL In_EL in To activate the linearity adjustment function These are the options OFF Linearity adjustment deactivated ON Linearity adjustment activated RESET Linearity adjustment deactivated and linearity adjustment parameters cleaning In On position you access parameters LIN POINT LIN COR LIN_C Applied load known value of the mass chosen for the correction LIN_I Indication of the applied load These parameters allow the correction of a possible non linearity in the system This adjustment is performed in the point you choose from
42. ing parameters to establish a communication between the equipments Parameters Indicator Remote display FORMAT Fixed at F6 See 3 4 3 BAUD RATE Make values equal See 3 4 4 PARITY Fixed at 8n See 3 4 5 DELAY Fixed at 250ms See 3 4 6 TERMIN Fixed at CR See 3 4 7 CONTROL Fixed at OFF See 3 4 8 2 12 Operation Note We should configure the indicator as a STREAM GE mode See 3 4 1 The indicator s configuration can be made in the communication port Rx Tx See 3 4 as in the transmission port Tx See 3 5 In the repeater the configuration port only can be made in the communication port Rx Tx If the communication is not successful a line of segments will be displayed AAA Configuration and Calibration 3 Configuration and Calibration 3 1 Introduction Configuration and calibration modes have different parameters Free access they can always be read and modified Protected they can always be read but only modified under certain conditions tagged with a in the diagrams Calibration and configuration modes can be activated by pressing the Setup key and zero key simultaneously Then the indicator requests the access code d 800808 If you do not enter this code and press Enter or if you enter a wrong code you access the menu but without permission to modify the protected parameters The access code can be modified see 3 3 10 Its value can be consulted by means of
43. l male connector 5 1 00000 0000 O Pin allocation welding s side view UTILCELL PIN SIGNAL Cell Code I EXC Green 2 Sense Blue 7 SIG Red 3 Shield 8 SIG White 4 Sense Yellow 2 EXC Black 9 Table 5 1 1 6 Wire PIN Allocation If a 4 wire cable is used bridge 1 6 2 pins EXC and SENSE and 4 5 9 EXC and SENSE in the aerial connector SUB D 9 aerial male connector 5 1 00000 o 0000 O Pin allocation welding s side view UTILCELL PIN SIGNAL Cell Code 1 6 EXC Green 2 7 SIG Red 3 Shield 8 SIG White 4 5 EXC Black 9 Table 5 1 2 4 Wire PIN Allocation 5 1 Connector description 5 1 1 Load cell connector sealing The sealing of the load cell connector is made by means of a autodestruible sticky label as showed in figure 5 1 1 1 Seal Figure 5 1 1 1 Load cell connector sealing 5 2 Communication Connectors 5 2 1 RS 232 Rx Tx Connector The indicator connector is a male SUB D 9 PIN SIGNAL SUB D 9 aerial female connector 1 7 1 5 2 RxD 0 0000 O 3 TD 4 p Pin allocation ie aida di 5 GND l welding s side view 7 RTS Table 5 2 1 1 RS 232 Rx Tx TZ Connector Allocation 5 2 Connector description 5 3 IP65 Connections Use the cable gland that you will find in the equipment rear side for the IP65 indicator
44. on RS 232 T e Rx RS 232 Rx Tx 9 A B RTS OFF B C RTS RyTx ON RTS C D RTS Tx ON G N D JP2 r GIO x A B AS 485 ON RS 232 Tx B C RS 485 OFF RTS Digital output RPP Pap pp US 000000 Figura 5 7 1 Multioption IP 65 Connection 5 8 RS 232 RS 485 change jumper for Multioption To choose RS 232 or RS 485 output for Multioption board jumper JP2 has to be placed as showed in figure 5 8 1 JP4 A B RTS OFF B C RTS RWTx ON C D RTS Tx ON CBA JP2 rm ESO A B RS 485 ON B C RS 485 OFF RS 232 RS 485 CHANGE JUMPER CBA JP2 JP2 A B RS 485 ON B C RS 485 OFF Figura 5 8 1 5 6 Connector description 5 9 RS 232 Jumpers position for Multioption If the equipment has multioption board Multi1 or Multi2 the positions of jumpers J4 and J8 have to be changed as indicated in figure 5 9 1 O 0 UH n es BS oof oo 00 pp ee E DOC Dn JB E coca Z a 10 A oo s g E al to D E Boo SO Oo E 8 E m O pb Ee Beg CO GO B m OJ 6 Epoo GO B cu OJ D a E DS oo 5 po Da 8883 sense 9 D 9 b g wp g E Dre g EE SE a D a a le a E Ooo BES ER a Do a E C0000000 DS a P E Q Y BB Bars Bes BQ
45. on the scale and see the number of accumulated weighings 6 Record the current weight on the scale and see the total value accumulated E To leave this function press Exit and then the accumulation key The total accumulated and the number of weights will be set to zero Each time we press EY ticket is being printed where is showed for every keystroke the number of weighing and its corresponding weight Qe 2 3 Operation On leaving this function the total accumulated weight is printed Figure 2 8 1 shows a ticket example Ticket No 2 1 100 0 kg 2 200 0 kg 3 300 0 kg 4 400 0 kg 5 500 0 kg Total 1500 0 kg Figure 2 8 1 Ticket example 2 9 Setpoint Accessible menu only after having installed the digital output accessory Pressing the Exit and Tare keys at the same time you access the menu where you can introduce the weight with which the selected output operates Operation Inside the Value level we can find the parameters that are shown in the figure Value i UL i 1e1314 T Enter numerical value Figura 2 9 1 Setpoint Use the key arrows to move through the menus Press the Enter and Exit keys to change the level If you want to modify a selected parameter press the Enter key and introduce the new value with the up and down arrow keys A Y or choose and option lt gt 2 4
46. ound zero then the equipment automatically deactivates the tare 3 3 4 LANGUAGE LAZS You can choose among different languages for the printed ticket The possible options are SPA Spanish POR Portuguese FRE French ENG English GER German CAT Catalan 3 3 5 KEY LOCK Lol Locks the keyboard The parameter treatment is performed with a 6 digit binary number The value 1 locks the function and the value 0 releases it These are the options 514138121110 KEYB LOCK Keyboard lock PRINT LOCK PRINT key lock TARE LOCK TARE key lock ZERO LOCK ZERO key lock PCS LOCK PIECES key lock TOTAL LOCK TOTAL key lock 3 3 6 PRINT MIN Prt Minimum weight value in divisions at which a print ticket request may be accepted If the ticket cannot be printed Err Pro will be displayed 3 7 Configuration and Calibration 3 3 7 TICKET Prt_t Select the type of ticket to be printed with the Print key These are the options orr No ticket printing ESE Standard ticket Pro Preset ticket 3 3 8 TOTALIZATION TICKET tot_t Select the type of ticket to be printed with the Accumulation key These are the options off No ticket printing ESE Standard ticket Pro Preset ticket ATTENTION FOR PRESET TICKETS From software versi n 1 024 there are 7152 bytes to store tickets Older versions the available memory is 3053 bytes Keep in mind when creating format tickets to keep the printing files prn
47. plished Check that MAX1 value is correct EPA ae lt 100000 Change DIV1 to acomplish the relation Not accomplished Check that DIV1 value is correct ace Ma lt 100000 Change MAX1 to acomplish the relation Not accomplished Check that MAX2 value is correct Cecel are lt 100000 Change DIV2 to acomplish the relation Not accomplished Check that DIV2 value is correct Piro ae Kax lt 100000 Change MAX2 to acomplish the relation ERRE SEN Er rl G Invalid zero value entered Change zero value L GARE Power failure Check power supply EAL bor The maximum number of calibrations has been reached Contact your technical service Unplugged Plug it in Fuse has blown Replace fuse Indicator failure Contact your technical service 1 5 Introduction 1 6 Maintenance 1 6 1 Replacing Fuses If displays do not appear when it is connected to power the problem may be a defective ac power fuse Replace the defective fuse as specified below DOSTp 1 6 2 Disconnect the indicator by pressing the rear switch and unplug the equipment from the electric outlet Disconnect the power cord from the rear side of the equipment Stainless steel version Extract the fuse by pulling out the small tab of the fuseholder which is in the rear side of the equipment ABS version Extract the fuse by unscrewing the fuseholder which is in the
48. revious memorized value 3 11 3 Weight readings time _ ACC It is the time the indicator will be gathering weight readings of the weight on the scale AE During this time the indicator displays the message Once the gathering process is ended the indicator makes an average of all the weight readings obtained during this time and displays it R 2 50 with an Al on the left to indicate that the weight displayed is an average of the weight readings gathering Its value is configurable from 0 0 to 50 0 seconds If the entered value is above 50 0 seconds the indicator will display the error message Ene Bor and then will show the previous memorized value 3 11 4 Display time t d 5 It is the time the indicator will display the average of the weight readings gathering Its value is configurable from 0 0 to 50 0 seconds If the entered value is above 50 0 seconds the indicator will display the error message Berar and then will show the previous memorized value 3 26 Configuration and Calibration 3 12 Tools Within the tools level parameters showed in Figure 3 12 1 can be found Tools HAEN Weight x10 mV Metro P_Cal Par Reset H EJS S BHAL P_ JEJAIL A PL ESEE Display weight x10 Display mV 1D 1D 36
49. sistance lt 500 Q 11 Introduction 1 1 5 Power Power supply 230 VAC 110 50 Hz 6 W max Fuse 250 V 100 mA slow fusion Alimentation DC optional for IP65 7 5V 15VDC nominal 12V External fuse 500mA 1 1 6 Environmental and Mechanical Operating temperature 10 C a 40 C Storage temperature 25 C a 70 C Size 282 x 158 x 71 mm stainless steel version 282 x 159 x 75 5 mm ABS version Weight 1 85kg stainless steel version 1 1kg ABS version Mounting Bench mount or bracket 1 2 Keyboard The keyboard is on the front side of the equipment and has 6 keys These are the main functions of these keys Piece counting Accumulation Normal status Setup Exit any operation Upwards To the left Zero the scale Cursor To the right Enter stored tare Cursor Increase one digit Cursor Decrease one digit Cursor Print ticket eine l En Confirm a value 1 2 Introduction 1 3 Display and Luminous Information The indicator consists of a main display and seven luminous indicators as shown in figure 1 3 1 Display Range Leds Status Leds Weighing Leds NE j J es EE R1 R2 NE gt NE ma gt O el DCE CE Min Figure 1 3 1 Display and luminous Information 1 3 1 Fun
50. sovssson ap PE SE POPAJ WO oo B En cells 888 BB Sm oo D 18 IOo ooo O ad ad S 5000000000 mo EX 88 00000000 GENERE woo laasal E w0 S m 00000000 a Q oo og 5 Je 00000000 om Gosse E OO nasal y Normal Position Position for equipments with Multi1 or Multi2 board Figure 5 9 1 Jumpers position 5 10 Remote Display Connection The remote display connection to indicator is made using the RS 232 Rx Tx communication connectors connected as follows SUB D 9 aerial female connector INDICATOR REMOTE DISPLAY 100000 PIN SIGNAL PIN SIGNAL O oooo O 8 9 3 TxD 2 RxD Pin allocation welding s side view 5 GND 5 GND Table 5 10 1 Indicator Remote Display Connection Allocation 5 7 NOTES NOTES NOTES SMART WEIGHT INDICATOR n 5 0 0 JU ce OPERATION AND CONFIGURATION MANUAL
51. tn D_IN_NUM d in no 121314 OFF EAE CER E Oro Pr int tot Ckot pa pan Figure 3 8 1 Digital Inputs 3 8 1 D_IN NUM d in no Number of digital input These are the options 10 3 3 8 2 TYPE i EYPE Input action These are the options OFF OFF Deactivated TARE RTE Tare CLRTARE CEArE Deactivate tare ZERO UEro Zero PRINT Pr int Print SUM tot Accumulation CLRSUM Ltot Deactivate accumulation 3 19 Configuration and Calibration 3 8 3 FUNCTION i FUnL Input action mode These are the options LOW From HIGH to LOW Falling edge HIGH From LOW to HIGH Rising edge PUSH BUTTON LOGICAL RELAY Vext Vext 5 24VDC 5 24VDC 7 5 Figure 3 8 3 1 Examples of Application 3 20 Configuration and Calibration 3 9 Calibration with Masses Within the calibration with masses level parameters showed in Figure 3 9 1 can be found Cal with masses CAL Zero Span TW Span MT PE A 0 A i Y take coeff enter numerical Mass weight enter numerical Weight gt coeff value en coeff value a P p OSITO O CAL un D CAL IB IB Lin Lin_c Lin_i TE EN O t I A a mA
52. troduce the zero value in an indicator with a software version previous to 1 3XX then the last digit has to be truncated ATTENTION The value of zero and span coefficients is obtained by means of the impression of the parameters see 3 12 3 3 11 Animal weigher Check weigher application The animal weigher check weigher application lets us make a three steps weighing process Delay step Weight readings step weighing gathering Display and printing of results step Activation through keyboard or external command Delay time Welght readings time Display time Normal weighing 4 Normal weighing Let EM LEJB The process starts on pressing the key or G or by means of an equivalent digital input or RS 232 command depending on if a normal weighing with ticket printing or a totalization weighing process is desired Once the process is activated the first step is a delay one that is maintained for the programmed time E_GEL in which the indicator does not weight Once ended the second step starts and will last for the programmed time E ACC in which the indicator gathers weight readings that are not displayed to finally make a weight average of all the weight gathering period that is printed or totalized That average is displayed in the third step for the programmed time E_d 15 Within the animal weigher check weigher application level parameters showed in Figure 3 11 1 can be found
53. utput Accessible menu only after having installed the Analog Output accessory Within the analog output configuration level parameters showed in Figure 3 6 1 can be Analog output DOUE D Type Offset Error SroSS net 6 cv FULL Hold tero pu Min Full TW Min Alo Ile BE Alo UE LE _ gt lo UJ _ FG KX Enter numerical value Enter numerical value CcCCCCCC lt lt TW Full Role FF ccccccc lt Figure 3 6 1 Analog Output 3 13 Configuration and Calibration 3 6 1 3 6 2 3 6 3 3 6 4 3 6 5 3 6 6 keys 3 6 7 keys TYPE EYPE Weight value of analog output signal These are the options GROSS Gross weight value is taken as reference NET Net weight value is taken as reference OFFSET oFFSEE Analog output zero offset These are the options 0 y 20 _ Note For a 4 20mA or 2 10V output we should set the oF FSEE value at 20 ERROR Error Output in case of system error These are the options FULL Output MAX HOLD Hold the output to the
54. value is within MAX NEG nE49 The output trips if the weight value is under zero TARE IN ERrE The output trips if a tare is in the system PRINT Pr int The output trips while printing SUM tat The output trips if there is asum PC_Ctr PL_CEr Output controlled by the serial port 3 7 4 REL i EL It defines the reference SETPOINT number on which REL or REL are applied It should be considered that the output number that we are defining must be higher than the reference number If this condition is not fulfilled the error message EL _Err will appear on the auxiliary display These are the options 1 0 3 4 3 7 5 TRIP i Er IP Setpoint trip action These are the options H Trip when weight lt VL i L Trip when weight gt VL i In_b Trip hen weight gt VL i BD i or weight lt VL i BD i oUt_b Trip when VL i BD i lt weight lt VL i BD i If the digital output is set in the PL_LEr mode of the LYPE i parameter see 3 7 3 when you turn on the equipment the output configuration is determined by this operation mode HIGH ON LOW OFF 3 16 Configuration and Calibration 3 7 6 BAND i bd A numerical value which determines the value of the IN_B and OUT_B selections of the TRIP parameter 3 7 7 HYSTERESIS i HY Determines the hysteresis value which prevents chattering of the digital output 3 7 8 LOCKED d_Lof It blocks the modification of VL i value through the keyboard see 2 9 3
55. x cman Seem AI EH pim w Figura 5 4 1 Multioption Connectors 5 5 RS 232 Tx Connector The indicator connector is a male SUB D 9 Connector description SUB D 9 aerial female connector PIN SIGNAL 1100000 Y 2 AC 3 TxD Pin allocation 5 GND welding s side view 7 RTS Tabla 5 5 1 RS 232 Tx Connector Allocation 5 6 Digital Analog input Output and RS 485 connector The indicator connector is a male SUB D 25 DIGITAL INPUT PIN SIGNAL 5 IN1 18 IN2 6 IN3 19 IN4 4 GND DIGITAL OUTPUT SUB D 25 aerial female connector PIN SIGNAL e 3 10 D OUT1 00000000000C Joe 22 D OUT2 A 11 D OUT3 ne ES Douma 4 GND ANALOG OUTPUT PIN SIGNAL 2 V 3 15 V 1 l 14 l RS 485 16 DATA 17 DATA Table 5 6 1 Digital Analog Input Output and RS 485 connector Allocation 5 5 Connector description 5 7 IP65 Multioption connection For the connections of the IP65 Multioption indicator as well as the connections of the IP65 see 5 3 perform the connections shown in figure 5 7 1 DATA 8485 ei DATA 7 r OSS JP3 A B RTERMOFF B C RTERMON Analog output V V GND Ni E PND N N4 Digital input Power Supply Vext D OUT 1 D OUT 2 D OUT 3 D OUT 4 CONNECTION FOR VERSION WITH CONNECTORS x J1 Connection RS 232 Rx Tx J2 Connecti
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