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INTRODUCTION TO THE USER MANUAL 

 

This  manual  explains  the  operation  of  the  LCB  instrument  through  the  use  of  the  LCB  Manager 
software and/or the communication interface. 

For example, 

DIVISION

 section: the first part explains what the division is and how to modify it by 

using  LCB  Manager;  the  second  part  (

COMMUNICATION  INTERFACE

)  explains  how  to 

perform the same operation by using the communication interface commands. 

 

For a better understanding of the contents, it is assumed the knowledge of the following topics: 

-

 

management of weight values via the communication interface (see section 

DIVISION

); 

-

 

alarm identification (see section 

ALARMS

); 

-

 

registers and data of the communication interface (see section 

COMMUNICATION INTERFACE

); 

-

 

LCB Manager software (see section 

LCB MANAGER

). 

 

 

LCB MANAGER 

 

The  LCB  Manager  software  replicates  on  the  PC  monitor  the  Laumas  instrument 

interface with 7-segment display, signalling LEDs and keyboard.  Any reference to 

the display, the keys and the LEDs is related to the LCB Manager software. 

 

For further information, refer to the LCB Manager manual. 

 

 

LEDs AND KEYS FUNCTIONS 

 

LED 

Function 

NET 

net weight (semi-automatic tare or preset tare) 

>0< 

zero (deviation from zero not more than ±0.25 divisions) 

>< 

stability 

kg 

unit of measure: kg 

unit of measure: g 

W1 

not used 

W2 
W3 

 

 

 

 

Summary of Contents for LCB

Page 1: ...ENGLISH ENGLISH ENGLISH ENGLISH User Manual version 1 02 LCB 2014 30 UE EN55022 2010 EN61000 6 2 2005 EN61000 6 4 2007 SYSTEM IDENTIFICATION...

Page 2: ...ization No guarantee is applicable on returned products without the original label and or serial number No guarantee against misuse Batteries Laumas provides 1 year guarantee from the date of delivery...

Page 3: ...9 PROGRAMMING OF SYSTEM PARAMETERS 10 INSTRUMENT INFORMATION 10 THEORETICAL CALIBRATION 10 THEORETICAL FULL SCALE 11 SENSITIVITY 11 DIVISION 12 MAXIMUM CAPACITY BASE program 13 TARE WEIGHT ZERO SETTIN...

Page 4: ...E 33 FALL 34 TOLERANCE 35 SLOW 35 TAPPING FUNCTION 36 AUTOTARE 36 AUTOTARE DELAY 37 STABLE TARE 37 CONSUMPTION FOR EACH FORMULA 37 WAITING CONFIRMATION FROM PC SLAVE 38 FORMULAS PROGRAMMING 38 DELETIN...

Page 5: ...LINK only 57 INSTRUMENT SETUP 57 PC PLC SETUP 57 STATUS LED 57 PROFINET IO LCBPROFINETIO only 58 INSTRUMENT SETUP 58 PC PLC SETUP 58 STATUS LED 59 SERCOSIII LCBSERCOSIII only 60 INSTRUMENT SETUP 60 PC...

Page 6: ...es via the communication interface see section DIVISION alarm identification see section ALARMS registers and data of the communication interface see section COMMUNICATION INTERFACE LCB Manager softwa...

Page 7: ...a exchanged by the instrument can be input data or output data For specific information regarding the communication interface used see section FIELDBUS Output data from instrument reading Abbreviation...

Page 8: ...2 Maximum weight exceeded by 9 divisions Bit 10 Net display mode Bit 3 Gross weight higher than 110 of full scale Bit 11 Weight stability Bit 4 Gross weight beyond 999999 or less than 999999 Bit 12 We...

Page 9: ...unning 4 Error the command requires a qualified access 5 Error non existent command 0xFFFF Error command not executed It may take several seconds to execute some commands INPUTS INS AND OUTPUTS OUTS S...

Page 10: ...28 Automatic zero setting at power on writing 88 Preset tare writing 6029 Unit of measure reading 100 Zero setting for calibration 6030 Unit of measure writing 101 Sample weight storage 6033 Display c...

Page 11: ...writing 1012 Manual fall reading 1052 Consumption activation reading 1013 Manual fall writing 1053 Consumption activation writing 1016 Tolerance reading 1062 Slave configuration reading 1017 Toleranc...

Page 12: ...ro see section TARE WEIGHT ZERO SETTING check the calibration with sample weights and correct the indicated weight if necessary see section REAL CALIBRATION WITH SAMPLE WEIGHTS If the instrument HAS N...

Page 13: ...8 MENU MAP Into menus changes are applied right after pressing the key no further confirmation is required SETPOINT SYSTEM PARAMETERS BASE program LCBRS485ANA only...

Page 14: ...9 SYSTEM PARAMETERS LOAD program BATCHING CONSTANTS LOAD program LCBRS485ANA only it appears only if it appears only if is set it appears only if is set...

Page 15: ...2 hardware code 1221 R1 16 most significant bit year of production R1 16 least significant bit serial number R2 program code 0 BASE 13 LOAD THEORETICAL CALIBRATION This function allows the load cell r...

Page 16: ...value in R1 SENSITIVITY default 2 00000 mV V the sensitivity is a load cell rated parameter expressed in mV V Set the average sensitivity value indicated on the load cells It s possible to set a value...

Page 17: ...CMDR Read the index in R1 see DIVISIONS table WARNING when a parameter is expressed in weight value it is necessary to consider the number of divisions and active decimals set on the instrument the v...

Page 18: ...ure confirm the message by pressing the weight value to be set to zero is displayed In this phase all of the LEDs are flashing confirming once again the weight is set to zero the value is stored to th...

Page 19: ...oo the system must read zero If this does not happen it means that there is a mechanical problem affecting the system linearity WARNING identify and correct any mechanical problems before repeating th...

Page 20: ...W2 Send command 6006 to CMDR Write the calibration point index from 1 to 5 in W2 Send command 6005 to CMDR Read the weight value in R1 Read the calibration point validity 1 valid 0 not valid in R2 Exa...

Page 21: ...as long as its variations are smaller than the corresponding response time It is necessary to set this filter according to the type of application and to the full scale value set FILTER FILTER VALUE R...

Page 22: ...aximum weight value resettable by external contact keyboard or serial protocol COMMUNICATION INTERFACE WRITING READING Write the value in W1 Send command 6102 to CMDR Send command 6101 to CMDR Read th...

Page 23: ...DR Send command 6103 to CMDR Read the value in R1 0 function disabled SETTING UNITS OF MEASURE These are the available units of measure UNITS OF MEASURE Unit of measure index Visualisation Description...

Page 24: ...system calibration The parameter must remain set to 1 0000 THEORETICAL CALIBRATION S CHANGE FOR OTHER UNITS OF MEASURE Set in the parameter the F SCALE value divided by the conversion coefficient from...

Page 25: ...re also active the contact will switch on the basis of gross weight the contact will switch on the basis of net weight If the net function is not active the contact will switch on the basis of gross w...

Page 26: ...eight To display the gross weight again hold the NET GROSS input closed for 3 seconds by closing the input for no more than one second the weight is set to zero see section WEIGHT ZERO SETTING FOR SMA...

Page 27: ...et operation SEMI AUTOMATIC TARE close the NET GROSS input or activate the function through the communication interface The instrument displays the net weight just set to zero and the NET LED lights u...

Page 28: ...NED OFF COMMUNICATION INTERFACE WRITING READING Write the value in W1 Send command 88 to CMDR Send command 87 to CMDR Read the value in R1 To activate the preset tare send command 130 to CMDR To deact...

Page 29: ...the minimum analog output value Only set a value different from zero if you wish to limit the analog output range for instance for a full scale value of 10000 kg you require an 4 mA signal at 5000 kg...

Page 30: ...ht 0 kg analog output 10 V Weight 5000 kg analog output 5 V Weight 10000 kg analog output 0 V TEST Input test ensure that for each open input is displayed is displayed when the input is closed Output...

Page 31: ...hanged significantly see sections THEORETICAL CALIBRATION and REAL CALIBRATION WITH SAMPLE WEIGHTS COMMUNICATION INTERFACE WRITING READING Write the value in W1 Send command to CMDR Send command to CM...

Page 32: ...hing through tapping function see section TAPPING FUNCTION consumption storage see section CONSUMPTION BATCHING START via external contact or remotely via fieldbus CONSUMPTION STORAGE the instrument a...

Page 33: ...TART contact is closed the same batching sequence is repeated The instrument will ensure that the formula has been programmed otherwise it will display the alarm the amount set in the formula does not...

Page 34: ...ntact performs opening and closing cycles according to the times set by and parameters When the batched quantity reaches the set value configured in the formula minus any fall value the SLOW phase end...

Page 35: ...ending to CMDR default stable weight default select the operating mode of SET and PRESET contacts at the batching start only the PRESET contact is closed once reached the preset set value the related...

Page 36: ...GRAMMING OF BATCHING CONSTANTS From the weight displaying press then press to display and confirm see section BATCHING CONSTANTS LOAD program WARNING the time values of the batching constants are expr...

Page 37: ...e value in R1 SAFE EMPTYING TIME from 0 0 to 999 9 seconds default 5 0 time that is necessary for a perfect emptying of the scale The instrument waits for this time during the unloading phase CYCLE EN...

Page 38: ...during batching if there is no product load the instrument waits for a set duration of time before activating the alarm COMMUNICATION INTERFACE WRITING READING Write the value in W1 Send command 1033...

Page 39: ...are no other functions that require the WAITING TIME So by setting a high value it reduces the duration of batchings Example if 3 the AUTOMATIC fall is calculated every three batching cycles COMMUNIC...

Page 40: ...d a TOLERANCE 100 value is set the batched weight must not be lower than 900 or higher than 1100 to allow the instrument to continue the batching process By setting 0 the function is disabled COMMUNIC...

Page 41: ...and 1022 to CMDR Read the value in R1 SLOW OFF from 0 to 9 9 default 0 time in which the SET relay remains open during the SLOW phase By setting 0 the function is disabled COMMUNICATION INTERFACE WRIT...

Page 42: ...nd only when the weight is stable if autotare enabled zero setting is done right after the delay time This parameter is available only if is enabled COMMUNICATION INTERFACE WRITING READING Write the e...

Page 43: ...enabling status in R1 1 enabled 0 disabled It is lost at power off FORMULAS PROGRAMMING Select the formula that you wish to program and set and It is possible to set 99 formulas is NOT available if a...

Page 44: ...MUNICATION INTERFACE Send command 2032 to CMDR and read the numbers of running cycle and formula in R1 and R2 respectively BATCHING STOP AND PAUSE Open the START contact and close the STOP contact to...

Page 45: ...ot ready if data are ready send command 2100 to CMDR to make them available read the data see DATA READING only if send command 250 to CMDR to confirm the data reading and proceed to a new batching DA...

Page 46: ...s greater than the quantity to be batched 15 Waits for the confirmation of data reading from PC CONSUMPTION MANAGEMENT If in batching constants consumption is enabled the batched quantities for each f...

Page 47: ...ded value higher than 999999 or lower than 999999 SR1 Bit 3 The weight exceeds 110 of the full scale SR1 Bit 0 The load cell is not connected or is incorrectly connected the load cell signal exceeds 2...

Page 48: ...when the START input is closed Open the START input to cancel the alarm EXR 0xFFFF Weight too high zero setting not possible IS 17 It is activated if at batching start the weight on the scale is high...

Page 49: ...00 4800 9600 19200 38400 115200 default 9600 instrument address da 1 a 99 default 1 delay in milliseconds which elapses before the instrument replies da 0 a 200 ms default 0 no parity default even par...

Page 50: ...e following are utilised for management of communication with the instruments other commands could be incorrectly interpreted and generate errors or blocks of the system FUNCTIONS DESCRIPTION 03 0x03...

Page 51: ...tents of the register beginning from the first The response contains the number of registers modified beginning from the address no 1 COMMUNICATION ERROR MANAGEMENT The communication strings are contr...

Page 52: ...2 hCE The instrument will respond with the string h01 h10 h00 h32 h00 h02 hE0 h07 Query field name hex Response field name hex Instrument address h01 Instrument address h01 Function h10 Function h10 A...

Page 53: ...A0 h00 h00 h0B hB8 h12 h73 Query field name hex Response field name hex Instrument address h01 Instrument address h01 Function h03 Function h03 Address of the first register H h00 Byte count h08 Addre...

Page 54: ...he instrument to the development system and configure the device The data exchanged by the instrument are Output Data from instrument reading Addresses Input Data to instrument writing Addresses Gross...

Page 55: ...ata from instrument reading Addresses Input Data to instrument writing Addresses Gross weight 0x0000 0x0003 Command Register 0x0000 0x0001 Net weight 0x0004 0x0007 Digital outputs command 0x0002 0x000...

Page 56: ...ange register W1 0x0004 0x0007 Exchange register R2 0x000C 0x000D Exchange register W2 0x0008 0x0009 Status Register 1 0x000E 0x000F Status Register 2 0x0010 Instrument status 0x0011 Execution registe...

Page 57: ...communication types CLASS 1 CONNECTION implicit messages Refer to one of the following procedures to configure the communication with the instrument load the eds file attached to the instrument to th...

Page 58: ...ross weight 0x0004 0x0007 Net weight 0x0004 0x0007 Net weight 0x0008 0x000B Exchange register R1 0x0008 0x000B Exchange register R1 0x000C 0x000F Exchange register R2 0x000C 0x000D Exchange register R...

Page 59: ...ed blinking BUS IN Ethernet activity detected L3 red blinking timeout error on duplicate IP address L4 green blinking IP address assigned but no communication on communication established L5 green off...

Page 60: ...th a Modbus TCP master Use port 502 for the communication The supported Function Codes are 04 Read Input Registers 06 Preset Single Register 16 Preset Multiple Registers The data exchanged by the inst...

Page 61: ...activity detected L3 red blinking system error on communication error L4 green off not ready blinking 1 Hz ready but not configured yet blinking 5 Hz configured but waiting for connection on communica...

Page 62: ...ster R1 0x0008 0x000B Exchange register W1 0x0004 0x0007 Exchange register R2 0x000C 0x000D Exchange register W2 0x0008 0x0009 Status Register 1 0x000E 0x000F Status Register 2 0x0010 Instrument statu...

Page 63: ...etters a z numbers 0 9 minus character and set at least 1 ms as Profinet s I O refresh time The data exchanged by the instrument are Output Data from instrument reading Addresses Type Gross weight 0x0...

Page 64: ...linking BUS IN Ethernet activity detected L3 red off communication established blinking 2 Hz no communication on no or slow Ethernet connection L4 green blinking 1 Hz 3 s device identification L5 gree...

Page 65: ...ading Addresses Input Data to instrument writing Addresses AT Connection Control 0x0000 0x0001 MDT Connection Control 0x0000 0x0001 AT IO Status 0x0002 0x0003 MDT IO Control 0x0002 0x0003 Gross weight...

Page 66: ...are only possible when power is supplied to the SERVICE connector The serial protocols configuration is done via the software LCB Manager SERIAL COMMUNICATION SETTING it disables any type of communic...

Page 67: ...19200 baud 200 Hz with minimum baud rate 38400 baud 300 Hz with minimum baud rate 38400 baud delay in milliseconds which elapses before the instrument replies from 0 to 200 ms default 0 no parity defa...

Page 68: ...gits CR 1 character of end string 13 ASCII In case of negative weight the first character from the left of the weight characters takes on the value minus sign ASCII 45 In case of error or alarm the 6...

Page 69: ...ase if the value exceeds 5 digits only the 5 most significant digits are transmitted while if the value is negative no more than the 4 most significant digits are transmitted In both cases however the...

Page 70: ...ing aaxxxxxxyckckCR where xxxxxx 6 characters for the setpoint value 48 57 ASCII y A set the value in the setpoint 1 y B set the value in the setpoint 2 y C set the value in the setpoint 3 Possible in...

Page 71: ...character from the left of the weight characters takes on the value minus sign ASCII 45 In case of weight value is under 99999 the minus sign is sent alternated with the most significant figure Error...

Page 72: ...esponses correct reception aaxy ckckCR incorrect reception aa ckckCR where x number of decimals y 3 for division value 1 y 4 for division value 2 y 5 for division value 5 y 6 for division value 10 y 7...

Page 73: ...een the displayed value and the actual one Load onto the weighing system a sample weight which must be at least 50 of the Full Scale or make so that that the instrument measures a corresponding mV sig...

Page 74: ...CII code 0 1 t 48 49 116 30 31 74 00110000 00110001 01110100 XOR 117 75 01110101 The result of the XOR operation expressed in hexadecimal notation is made up of 2 hexadecimal digit that is numbers fro...

Page 75: ...rrow keys to select set code 6935 and confirm PROGRAM SELECTION confirm and use the arrow keys to select the desired program basic program setpoint management only single product loading program Set t...

Page 76: ...71...

Page 77: ...la responsabilit que le produit auquel se rapporte la pr sente d claration est conforme aux normes cit es ci apr s CZ Prohl en o shode T mto prohla ujeme e v robek kter ho se toto prohl en t k je v so...

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Page 80: ...ls for all LAUMAS products can be found online They can be downloaded in PDF format from either the Products section or the Download Area of the website www laumas com Registration is required Think o...

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