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Ados A200E, Instruction Manual

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ADOS S.R.L. Buccinasco (MI)

 

417-MTA200I1 

Rev. 9 

Page 2 of 77 

Contents 

1.

 

INTRODUCTION .................................................................................................................................5

 

1.1

 

General................................................................................................................................................5

 

1.2

 

Versions/options .................................................................................................................................5

 

1.3

 

Documentation ...................................................................................................................................5

 

1.4

 

Equipment marking description.......................................................................................................6

 

1.5

 

Technical data ....................................................................................................................................7

 

2.

 

INSTRUMENT OPERATIONS...........................................................................................................8

 

2.1

 

Turning on the instrument ................................................................................................................8

 

2.1.1

 

Load cell signal averaging .............................................................................................................................. 9

 

2.2

 

Display indication.............................................................................................................................10

 

2.2.1

 

Primary display ............................................................................................................................................. 10

 

2.2.2

 

Auxiliary display .......................................................................................................................................... 10

 

2.3

 

Tare operations ................................................................................................................................11

 

2.3.1

 

Tare selection................................................................................................................................................ 11

 

2.3.2

 

Manual tare data entry .................................................................................................................................. 11

 

2.3.3

 

Auto tare ....................................................................................................................................................... 11

 

2.4

 

Peak handling ...................................................................................................................................12

 

2.4.1

 

Peak load value indication ............................................................................................................................ 12

 

2.4.2

 

Peak value printout ....................................................................................................................................... 12

 

2.4.3

 

Peak reset ...................................................................................................................................................... 12

 

2.5

 

LED status indicators ......................................................................................................................13

 

2.6

 

Key functions ....................................................................................................................................14

 

2.7

 

Switch ................................................................................................................................................15

 

2.8

 

Self diagnostic...................................................................................................................................16

 

2.8.1

 

Configuration memory integrity check ......................................................................................................... 16

 

2.8.2

 

Configuration parameter integrity check ...................................................................................................... 17

 

2.9

 

Digital input......................................................................................................................................18

 

2.10

 

Output relay operation ....................................................................................................................20

 

2.10.1

 

Relay operation in Set point mode............................................................................................................ 20

 

2.10.2

 

Relay operation in Batch mode................................................................................................................. 21

 

2.11

 

Batch mode .......................................................................................................................................23

 

2.11.1

 

Load batch cycle ....................................................................................................................................... 24

 

2.11.2

 

Unload batch cycle ................................................................................................................................... 27

 

2.12

 

Dosed material totalizer...................................................................................................................29

 

2.12.1

 

Totalizer display ....................................................................................................................................... 29

 

2.12.2

 

Totalizer report ......................................................................................................................................... 30

 

2.13

 

Batch report......................................................................................................................................31

 

2.13.1

 

Load batch report...................................................................................................................................... 31

 

2.13.2

 

Unload batch report .................................................................................................................................. 31

 

2.14

 

SERIAL INTERFACE MANAGEMENT .....................................................................................32

 

2.14.1

 

Primary serial interface ............................................................................................................................. 32

 

2.14.2

 

Multidrop networks .................................................................................................................................. 33

 

2.14.3

 

Continuous modality................................................................................................................................. 33

 

2.14.4

 

Bi-directional modality with ADOS protocol........................................................................................... 33

 

2.14.5

 

Print On Request modality........................................................................................................................ 35

 

2.14.6

 

MODBUS protocol ................................................................................................................................... 36

 

2.14.7

 

Auxiliary serial interface .......................................................................................................................... 43

 

2.15

 

ANALOG OUTPUT MANAGEMENT .........................................................................................44

 

2.15.1

 

Analog signal adjustment.......................................................................................................................... 44

 

3.

 

INSTALLATION.................................................................................................................................45

 

3.1

 

Material receiving ............................................................................................................................45

 

3.2

 

Instrument mounting .......................................................................................................................45

 

3.3

 

Connections ......................................................................................................................................46

 

3.3.1

 

Wiring the instrument to the protective earthing system .............................................................................. 47

 

Summary of Contents for A200E

Page 1: ...ulitti G 6 Update to Software revision 1 51 23 01 01 Golinelli G Paulitti G 5 Update to Software revision 1 42 23 03 00 Golinelli G Paulitti G 4 Update to Software revision 1 41 15 10 99 Golinelli G Paulitti G 3 Update to Software release 1 40 10 10 98 Golinelli G Paulitti G 2 Update to Software release 1 20 22 01 97 Golinelli G Paulitti G 0 Issue 30 11 95 Golinelli G Paulitti G 417_9 doc Rev Subj...

Page 2: ...uration parameter integrity check 17 2 9 Digital input 18 2 10 Output relay operation 20 2 10 1 Relay operation in Set point mode 20 2 10 2 Relay operation in Batch mode 21 2 11 Batch mode 23 2 11 1 Load batch cycle 24 2 11 2 Unload batch cycle 27 2 12 Dosed material totalizer 29 2 12 1 Totalizer display 29 2 12 2 Totalizer report 30 2 13 Batch report 31 2 13 1 Load batch report 31 2 13 2 Unload b...

Page 3: ...3 5 Decimal point 59 5 3 6 Averages 60 5 3 7 Language selection 60 5 3 8 Opening on AZM 60 5 3 9 Motion band 60 5 3 10 Zero tracking limit 61 5 3 11 Keyboard disable 61 5 3 12 Operating Mode 61 5 3 13 Baud rate 62 5 3 14 Primary serial port 62 5 3 15 Address on RS485 62 5 3 16 Digital input function 63 5 3 17 Relay function 63 5 3 18 Relay threshold 64 5 3 19 Dead Band 64 5 3 20 D A converter func...

Page 4: ...ADOS S R L Buccinasco MI 417 MTA200I1 Rev 9 Page 4 of 77 6 1 General parameters 75 6 2 Batch parameters 76 ...

Page 5: ...tion and calibration functions A series of display messages guides the operator through all the phases A series of options sets up the instrument for the main functions related to electronic weighing 1 2 Versions options A 2 0 0 E X X S Type of power supply 1 2 3 4 5 Version with analog output 4 20 mA A 0 10V V Version set up for management Threshold S Batch D Code Power supply 1 115 Vac 2 230 Vac...

Page 6: ...ent marking description A200E is marked with symbols compliant with European Standard EN61010 1 April 1993 SYMBOL DESCRIPTION Alternating current Protective conductor terminal Earth ground terminal Caution refer to accompanying documents Caution risk of electric shock ...

Page 7: ...anumeric characters Polarity sign Keyboard sixteen 16 keys in matrix 8x2 Status indicators eight 8 LED indicators Decimal point user defined 0 0 0 0 00 0 000 0 0000 Zero tracking user defined 0 5 1 2 5 10 div s AZM aperture user defined OFF 1 9 100 of F S Motion band user defined OFF 0 5 1 2 5 10 20 div Serial outputs main output RS232 or RS485 Half duplex aux output RS232 Tx only Digital inputs t...

Page 8: ...nstrument is turned on the primary display indicates the following and the auxiliary display indicates the following at intervals of about two seconds A D O S S r L A 2 0 0 E R e v 1 5 4 Revision of the installed software After this phase the instrument is immediately operative B C D E F A SW1 TP3 TP2 BT1 ZS1 U8 Figure 1 ...

Page 9: ...are less efficient against disturbance and can be used when fast changing loads have to be detected Second type of filter are very efficient against noise and disturbances having a higher filter effect but have of course a higher response time In both cases higher filter coefficient corresponds to higher filtering effect and higher response time As example the following graphic shows the answer to...

Page 10: ...the display will blink to indicate that there is another digit which value is 1 not displayed The leftmost digit will show alternatively the minus and the fifth digit value Indication limits are the following lower limit 20 of full scale higher limit 120 of full scale if the weight is under the lower limit the following will be displayed U L if the weight is over the upper limit or if the load cel...

Page 11: ...ress the E key to confirm the selected tare The instrument goes back to operatiion in NET press the C key to abort the operation 2 3 2 Manual tare data entry The procedure to change the value of the operating tare is the following set the unit in GROSS press the T key The instrument shows the operating tare press the T key to switch among tavailable tare change the Tare value using numeric keys F ...

Page 12: ... be programmed to print the peak load value on a 24 column printer Printing is sent on the primary serial line if it is programmed as DE and can be initiated pressing the E on keyboard or by closure of an external input programmed as PRINT Printout format is as follows 18 11 99 11 09 Date and time Peak 5678 Kg Peak load value Separator 2 4 3 Peak reset Peak value can be reset by by closure of an e...

Page 13: ... when the instrument displays the net weight gross weight minus the tare Pressing the T key in NET the instrument copies the current value of the gross weight into the tare value thus clearing the value of the net weight MOTION The LED is on when the measurement is moving with a gradient that is greater than what is set in the configuration KG The LED is on to signal that the weight indication is ...

Page 14: ... if the serial port is configured for print on request 1 2 3 4 5 6 7 8 9 If the unit is configured for SET POINT operation pressing these keys the operator can edit the values of thresholds 1 to 9 without passing from the configuration mode Note if the serial line is active the status flag still reports the configuration indication 1 2 3 4 If the unit is configured for NET operation pressing these...

Page 15: ... is equipped with a DIP switch bank having the following functions Position Function Normal State SW1 1 Initialization of configuration parameter memory Can be used as an alternative to the normal init procedure See Initialization paragraph for operation details OFF SW1 2 Not used OFF ...

Page 16: ... 2 8 1 Configuration memory integrity check Check is carried out at power on If the configuration memory is found defective the power on sequence will not be completed all relays are driven to alarm condition deenergized the analog output is cleared and the serial line is deactivated A forced reconfiguration to default is then performed and the primary display shows the following message I N I T B...

Page 17: ... error condition Verify and reconfigure defective parameters ER 03 Error in the DP AVER MOTION AZM Z TRK parameters The ZERO funcion is disabled Verify and reconfigure defective parameters ER 04 Error in the Analog output parameters The analog output is zeroed Verify and reconfigure defective parameters ER 05 Error in BAUD SER P AD485 parameters Transmitter stays in operation Probably malfunctions...

Page 18: ...e MOTION On START CHARGE CHARGE ALARM ACKNOWLEDGE This function is effective only if the unit is operating in BATCH MODE If the batch is not started the closure of the contact will start the load of the first component If the batch is in progress and there are alarms out of zero time out or aout of tolerance or the unit is paused the closure of the contact will resume the batch sequence If the bat...

Page 19: ...T If the primary serial line is configured for Print on demand the closing of input contact will generate a printout RESET PEAK VALUE The closing of input contact will generate a peak reset PRINT PEAK VALUE If the primary serial line is configured for Print on demand the closing of input contact will generate a printout of the peak value WEIGHT ACQUISITION This mode is active only if the instrumen...

Page 20: ...the programmed dead band value Each relay can be configured to operate in one of the following modes Off The relay is permanently disabled Closing on Gross The relay is de energized and the output contact opened for all the gross weight values lower than the threshold set in the configuration The relay is energized and the output contact closed for all the gross weight values greater than or equal...

Page 21: ...net negative weight values greater than or equal to less in terms of absolute value the threshold set in the configuration Example if the threshold set is 1250 the relay is energized for positive new values and for all the negative values from 1 to 1249 The relay is de energized for values ranging between 1250 and F S 2 10 2 Relay operation in Batch mode In Batch mode the outputs on the main board...

Page 22: ...ontrol the component load or unload and are Relay 4 Loading of component 1 Fast Relay 5 Loading of component 1 Slow Relay 6 Loading of component 2 Fast Relay 7 Loading of component 2 Slow Relay 8 Loading of component 3 Fast Relay 9 Loading of component 3 Slow Relay 10 Unloading Fast Relay 11 Unloading Slow ...

Page 23: ...ight value to be dosed in slow mode Fly This is the weight value for the component in fly Tolerance This is the allowable tolerance value on the weight of the dosed component Common batch parameters are Stabilisation time This is the wait time between the de activation of the component command and the dosed weight control Wait time This is the wait time before switching to the next component Maxim...

Page 24: ...not the alarm relay is activated and a blinking message OVERLOAD is displayed If all the conditions are satisfied the instrument goes to phase 1 1 The instrument verifies if the balance is in the ZERO band the ZERO band is also valid for negative weights If the weight is out of the Zero band a blinking message EMPTY is displayed the Alarm relay is energized The instrument than waits for ACKor ABOR...

Page 25: ... can be started again closing the ACK input contact or can be permanently interrupted closing the PAUSE ABORT input contact In this case the instrument clears the Batch in Progress and Batch in Alarm status de activates the relative outputs and goes to phase 0 Batch de activated 5 This is the weight stabilisation phase and is used to recover the fly of the product If defined in configuration the i...

Page 26: ...dosed component activates the wait timer between one component and the next one when the wait timer expires places the system in the NET status and calculates the TARE The material eventually loaded during the wait time can be seen in the printed report as difference beetwen the sum of loaded components and the valued of total dosed material If the formula is not completed it then returns to phase...

Page 27: ... minus slowdown minus fly the instrument goes to phase 2 Slow phase The Batch operation can be suspended by closing the PAUSE ABORT input contact all the component command outputs are de activated and a blinking message PAUSED is displayed The Batch operation can be started again closing the ACK input contact or can be permanently interrupted closing the PAUSE ABORT input contact In this case the ...

Page 28: ...nt control if the weight is out of tolerance the system goes to phase 4 component out of tolerance control 4 This is the out of tolerance control phase A blinking message ACK TOLL is displayed The Batch in Alarm output is activated and the status of the ACK and PAUSE ABORT input is checked if the operator closes the ACK input the instrument de activates the Batch in Alarm output and goes to phase ...

Page 29: ... digits 10 million It is also possible to reduce the scale of the display of the totalized value by a programmable factor 1 10 100 1000 10000 in order to present very large numbers or to eliminate the decimals which in the accumulated total lose their meaning The scale factor is applied only during the data presentation phase for which it can be varied at any time without changing the contents of ...

Page 30: ... Report can printed on primary serial line if configured for print on request To issue the print request the operator must enter the totalizer display and then press the E key The report has the following format 11 05 96 15 22 44 Prod 1 123 4 Prod 2 123 4 Prod 3 123 4 Prod s 123 4 Prod T 123 4 ...

Page 31: ...sed weight 11 05 96 16 22 44 Date and time of cycle end The value associated to START BATCH indicates the weight of material on balance at batch start The value associated to TOT BATCH indicates the weight of the material dosed When the balance is discharged and the load value become lower than the Zero band value the following message is printed 11 05 96 15 22 44 EMPTY BALANCE 2 3 2 13 2 Unload b...

Page 32: ... both the RS232 and RS485 mode The primary serial line can be configured in one of the following operating modes Bi directional with MODBUS protocol Bi directional with ADOS protocol Continuous transmission Print on request The transmission parameters of the primary and auxiliary line are 8 bit No Parity 1 Stop The primary line speed can be configured as follows 9600 4800 2400 1200 ...

Page 33: ...ers from 01 to 32 in reception and in transmission When using MODBUS protocol the connection is always multidrop 2 14 3 Continuous modality The instrument continuously transmits a string with the following format STX POL WEIGHT K L L N STATUS CR LF where STX Start Of Test Hex 02 character POL Blank Hex 20 or Hex 2D character to indicate the polarity of the data WEIGHT string of 7 numerical charact...

Page 34: ...ity and value of the tare weight 8 char If 485 address is other than zero the ADDR field is inserted after STX l hex 5C gross weight request command A string is transmitted with the same format of what is described for continuos mode but always sending the value of the gross weight independently from display selection If 485 address is other than zero the ADDR field is inserted after STX M hex 4D ...

Page 35: ...luding decimal point if any SEnt ddddddd set value of the set point n to type t and to value dddd 2 14 5 Print On Request modality If the instrument is programmed to operate in set point mode a weight string is transmitted like in the continuous transmission case upon closure of the external contact configured for print request or when pressing the E key when the instrument is not being configured...

Page 36: ...lving illegal functions or illegal data an exception response is generated containing address function code error code and checksum To indicate that the response is a notification of an error the high order bit of the function code is set to 1 Supported error code are 01 Illegal function The message function received is not an allowable action for the addressed slave 02 Illegal data address The ad...

Page 37: ...CK command If the ZERO cannot be done not enabled or weigh higher than the allowable limit an Illegal Data Value exception response will be generated The below is a valid example ADDR FUNC COIL HI COIL LOW DATA VALUE HI DATA VALUE LOW CHECK 01 05 00 00 FF 00 8C 3A The normal response is to retransmit the query message ADDR FUNC COIL HI COIL LOW DATA VALUE HI DATA VALUE LOW CHECK 01 05 00 00 FF 00 ...

Page 38: ...h 5 0 342 ADDR FUNC STRT REG HI STRT REG LOW OF REG HI OF REG LOW BYTE CNT DATA VAL HI DATA VAL LOW DATA VAL HI DATA VAL LOW DATA VAL HI DATA VAL LOW CHECK 01 16 00 16 00 03 06 00 05 00 00 01 56 4A A4 Teh normal response to a function 16 query is to echo the adrress function code starting address and number of registers to be loaded ADDR FUNC STRT REG HI STRT REG LOW OF REG HI OF REG LOW CHECK 01 ...

Page 39: ...ak value R 8 9 Unload tare value Batch version Tare 1 Threshold mode R 10 11 Dosed component net value Batch version Weight acquired Threshold mode R 12 13 Totalizer first load component R 14 15 Totalizer second load component R 16 17 Totalizer third load component R 18 19 Totalizer unload component R 20 Graduation R W 21 Sensitivity R W 22 decimal point position R W 23 averaging coefficient R W 2...

Page 40: ...W 69 A D mode R W 70 71 A D zero R W 72 73 A D span R W 74 75 Zero Band value R W 76 77 Max load value R W 78 Stabilization time R W 79 inter component time R W 80 Totalization coefficient R W 81 82 Set component 1 R W 83 84 Slow component 1 R W 85 86 fly component 1 R W 87 88 Tolerance component 1 R W 89 90 Set component 2 R W 91 92 Slow component 2 R W 93 94 fly component 2 R W 95 96 Tolerance c...

Page 41: ...ired request Status word coding 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 POF F S Diagnostic error code G N OS A P ZB R3 R2 R1 POF Power On Flag Indicates a return of power supply to the transmitter Flag is set to 1 by A200E and can be resetted to 0 by host by forcing Coil 3 F if 1 indicates that unit is in FAULT S if 1 indicates configuration in progress Diagnostic err code error code see self diagno...

Page 42: ...3 fly loading and stabilization 12 End of batch Unload cycle step 0 Non active waiting for START 1 fast unloading 2 slow unloading 3 fly unloading and stabilization 4 End of batch In case of out of tolerance or time out errors the cycle is paused and teh spep value become negative Register 3 coding 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 S 0 0 0 0 0 0 0 R4 R5 R6 R7 R8 R9 R10 R11 R4 if 1 indicates th...

Page 43: ...nk Hex 20 or Hex 2D character to indicate the polarity of the data WEIGHT string of 7 numerical characters Hex 30 39 and possibly with Hex 2E K L K Hex 4B or L Hex 4C character to indicate the unit of measurement G N G Hex 47 or N Hex 4E character to indicate the Gross Net state STATUS one of the following characters Blank Hex 20 System under normal operating conditions I Hex 43 Instrument to cali...

Page 44: ...or 4 mA In the OL condition the output signal is blocked at the full scale 10 V or 20 mA Acting from keyboard is possible the fine tuning of the analog signal corresponding to both zero and full scale 2 15 1 Analog signal adjustment The instruments provide a fine adjustment of the analog output 400 steps beyond the following limits Reference Lower adj limit Upper adj limit Step 0 V 0 400 V 0 400 V...

Page 45: ...n manual 2 copies of the instrument testing certificate check that the serial no reported in the special area on the back corresponds to what is reported on the testing sheet 3 2 Instrument mounting The instrument is designed for panel mounting The cut out dimensions are indicated in Figure 2 Insert the instrument hook the two attachment brackets into the special holes located on the side of the b...

Page 46: ... The connection to the safety ground must always be done For load cell analog output and serial line wiring shielded cable is recommended Load cell analog output and serial line wiring must be separated from power lines The A200 mounting panel or cabinet must be properly grounded A200E output relays must be used only to drive relay coils with nominal current and voltage beyond contact rating and u...

Page 47: ...imum section of 2 5mmq Protective conductor terminal can be used for the ground connection of the load cell cable shield Potective conductor terminal Figure 4 A200E earthing 3 3 2 Power supply connection Connect the power supply to terminals 2 and 3 of terminal block M1 Terminal 3 must be connected to the earth TERMINAL BOARD PIN FUNCTION M1 1 Earth M1 2 230 Vac line M1 3 230 Vac line UNLESS OTHER...

Page 48: ...minal The connection must be made in accordance with the color code reported on the load cell when using ADOS cells refer to table 167 MTSCACOC The A200E includes the standard connection of load cells with 4 wires For a connection to load cells equipped with senses therefore with a 6 wire connection contact ADOS THE CONNECTION CABLE BETWEEN THE LOAD CELLS AND THE INSTRUMENT MUST FOLLOW A COMPLETEL...

Page 49: ...ach input can be configured by the user For the relative programming refer to section 5 CONFIGURATION The inputs are powered by the A200E and to activate the input just use a voltage free contact to close the common pin and the relevant input pin Figure 1 Typical wiring for inputs 7 10 10 8 9 10 TERMINAL BOARD PIN FUNCTION M2 7 Input 1 M2 8 Input 2 M2 9 Input 3 M2 10 Common A200E CUSTOMER ...

Page 50: ...lly open NO contact that is voltage free is available to the user for each relay The contact rating is 0 5A at 24 Vdc If contact drives relay coils or inductive loads a shut off circuit must be provided in parallel to the contact TERMINAL BOARD PIN FUNCTIONS M2 1 Relay 1 NO M2 2 Relay 1 C M2 3 Relay 2 NO M2 4 Relay 2 C M2 5 Relay 3 NO M2 6 Relay 3 C TERMINAL BOARD PIN FUNCTIONS M5 1 Relay 4 NO M5 ...

Page 51: ... the signal of the unit that is farthest from the HOST to correct for possible signal reflections TERMINAL BOARD PIN FUNCTIONS M3 1 TX232 1 M3 3 RX232 M3 4 CTS232 M3 5 SGROUND M3 6 RTX485 M3 7 RTX485 M3 8 SGROUND 3 3 7 Auxiliary serial port connection The auxiliary transmission line can be used in the R232 mode refer to section CONFIGURATION for the operating modalities The auxiliary line is used ...

Page 52: ...calibrate or align values other than those set by the factory It is recommended to use a shielded cable and where necessary a layout in separate ducts to avoid reducing equipment operating capacities and the relative performances Figure 7 A200E analog output connection TERMINAL BOARD PIN FUNCTIONS M4 1 4 20 mA M4 2 0 10 V M4 3 Common 1 2 3 3 Analog output 4 20 mA max 500 Ω Analog output 0 10 V min...

Page 53: ...nance For safety reason is a good practice to check periodically by visual inspection the connections to the protective earthling system 4 2 Corrective maintenance Any corrective maintenance to possible failures must be carried out at ADOS laboratories or at least by ADOS authorized personnel EVERY UNAUTHORIZED ACCESS TO THE INSTRUMENT VOIDS WARRANTY ...

Page 54: ...meters are maintained in non volatile storage The parameter storage state is controlled when the instrument is turned on if the result is negative the instrument is automatically re initialized with the base configuration and must be reconfigured and re calibrated During the instrument configuration process the state of the signal LED s remains congruent with that of the process however the LED s ...

Page 55: ...y is used to display set the value of the parameter to be modified To enter the instrument control modality just press the F key The instrument prepares to configure the parameters and displays the following message C O N F I G U R pressing the F key switches the control level and the following messages appear G E N C N F B T C H C N F W E I G C A L T I M E S E T T E S T S Y S I N I T pressing the...

Page 56: ...cted function menu will appear otherwise the instrument will go back to the function selection menu 5 2 2 Keyboard time out After 30 seconds of no keyboard activity the instrument automatically generates a C key code so if the instrument is abandoned while in configuration or calibration it will go back to the operation menu and than to the operating status 5 2 3 Keyboard disable function Selectin...

Page 57: ...first one Pressing the numeric keys directly sets the number of the parameter to be configured Press the N G key to decrease the number of the parameter selected after reaching the last one it returns automatically to the first one Press the C key to cancel the configuration request and return to the configuration level selection menu Press the E key to confirm the selection made and the instrumen...

Page 58: ...se the value of the parameter selected after reaching the minimum it returns automatically to the maximum If the data displayed is a weight for example a relay threshold the decrease will occur on the basis of the configured resolution By keeping the N G key pressed the decrease gradient is increased automatically up to a maximum of 128 times the base value Pressing the numeric keys directly sets ...

Page 59: ...ssible to set the following values 1 default configuration 2 5 10 20 50 The system does not accept the following settings of resolution versus graduation it would not be possible to present the data on the 5 digit display resolution 20 and 50 with 4000 and 5000 graduation resolution 10 20 and 50 with 10000 graduation 5 3 5 Decimal point D e c P n t Parameter 03 It is possible to set the following ...

Page 60: ...ian language default configuration ENGL english language 5 3 8 Opening on AZM M a x A Z M Parameter 05 This is the maximum load value that the instrument can clear either from an external contact or from a key on the front panel It is possible to set the following values OFF default configuration 1 9 100 5 3 9 Motion band M o t i o n Parameter 06 It is possible to set the following values OFF defa...

Page 61: ... values OFF default configuration 0 5 div 1 div 2 div 5 div 10 div 5 3 11 Keyboard disable K B D E N B L It is possible to set the following values ON Keyboard enable default configuration OFF Keyboard disable 5 3 12 Operating Mode O p M o d e It is possible to set the instrument operating mode Possible values are SET P default configuration BATCH ...

Page 62: ...configuration 4800 2400 1200 5 3 14 Primary serial port P r i m S e r Parameter 09 It is possible to set the following values MODBUS Modbus protocol default configuration BIDIR Bi directional CONT Continuous transmission DE Print on demand 5 3 15 Address on RS485 4 8 5 A d d r Parameter 10 It is possible to set values ranging from 0 default configuration to 32 ...

Page 63: ...ue reset P PRT External peak print command ACP Acquire weight 5 3 17 Relay function R 1 M o d e Key 1 R 2 M o d e Key 2 R 3 M o d e Key 3 R 4 M o d e Key 4 R 5 M o d e Key 5 R 6 M o d e Key 6 R 7 M o d e Key 7 R 8 M o d e Key 8 R 9 M o d e Key 9 R 1 0 M o d e R 1 1 M o d e It is possible to set the following values OFF Off default configuration C G Closing on Gross C NL Closing on Net upon Loading...

Page 64: ... e t R 9 S e t R 1 0 S e t R 1 1 S e t It is possible to set a value ranging from 0 default configuration to the full scale given by the product of graduation by resolution 5 3 19 Dead Band D e a d B a n d Parameter 37 It is possible to set a value ranging from 0 default configuration to the 2 of full scale given by the product of graduation by resolution ...

Page 65: ...onfiguration to the full scale given by the product of graduation by resolution At this configuration step is possible to adjust the Zero analog output see analog output management paragraph 5 3 22 D A Full Scale D A S p a n Parameter 40 It is possible to set a value ranging from full scale default configuration given by the product of graduation by resolution to 0 At this configuration step is po...

Page 66: ...nging from 0 to 20 of full scale given by the product of graduation by resolution 5 4 2 Maximum balance load M a x L o a d Is the maximum allowable balance load It is possible to set a value ranging from 0 to full scale given by the product of graduation by resolution 5 4 3 Stabilization time S t a b T i m e It is possible to set a value ranging from 0 to 60 seconds 5 4 4 Wait time W a i t T i m e...

Page 67: ...e value of already configured set points values giving an Over Load condition cannot be configured 5 4 7 Slow S l o w It is possible to set a value ranging from 0 Set point value 1 5 4 8 Fly F l y It is possible to set a value ranging from 0 to Slow value minus 1 5 4 9 Tolerance T o l l e r It is possible to set a value ranging from 0 to Fly value minus 1 ...

Page 68: ...rations zero only or Span only To enter the calibration mode the user must enter the instrument control mode and use the F key to select the W E I G C A L and press the E key The instrument prepares for the zero scale calibration function and the following message is displayed Z E R O Press the F key to switch to Span calibration function and the following message is displayed F S 1 2 3 4 5 where ...

Page 69: ...ommand and flashes the message on the auxiliary display Press the E key again and the instrument starts the zero calibration procedure The display shows the waiting time W A I T 5 During the waiting time the load cell signal is integrated and it must stay stable When the wait time expires instrument performs the zero calibration and displays the following message for 2 seconds D O N E and returns ...

Page 70: ...f one division or by continuing to press the F key in larger and larger steps up to a maximum of 128 graduation After pressing the E key the instrument prepares to receive the confirmation command and flashes the following writing on the display F S 1 2 3 4 5 Press the E key again and the instrument starts the zero calibration procedure The display shows the waiting time W A I T 5 During the waiti...

Page 71: ... E T and press the E key The instrument displays the time flashing the seconds digits to indicate that this a field can be modified Press the N G key to move within the minutes hours year month and day fields Press the F key to modify the contents of the field selected increasing it up to the value requested The instrument returns automatically to the base of the field on which it was operating Th...

Page 72: ... L L 1 0 4 0 5 7 1 Load cell test Entering the load cell test function the display will indicate the load cell signal value in mV V 0 1 2 3 4 Press the F key to return to the INPUT OUTPUT ANALOGIC TEST On the main display the instrument indicates the state of the digital inputs 0 refers to an open contact and 1 to a closed contact 0 0 0 The digit on the right corresponds to input 1 the one in the ...

Page 73: ...ncluding those mounted on the CS 522 02 expansion board if installed Press the ZERO key to switch the analog output from 0 to Full scale Press the T key to switch the analog output from 0 to Full scale in step of 10 1 V or 1 6 mA Press the C key to return to the main test menù NOTE analog output test can be done only if the instrument is calibrated ...

Page 74: ...I T flashing Press the E key to confirm the selection made and the instrument initializes the parameters and restarts automatically Press the C key to cancel the initialization request and return to the instrument control menu 5 8 1 Switch controlled initialization Initialization by switch can only be performed at power on time The procedure is the following DIP switch SW1 1 must be ON prior to po...

Page 75: ...CP Set R 1 0 F S 0 Funz R 2 OFF C G C NL C NU O G O NL O NU FAULT CYCON ENDCY ALARM ACP Set R 2 0 F S 0 Funz R 3 OFF C G C NL C NU O G O NL O NU FAULT CYCON ENDCY ALARM ACP Set R 3 0 F S 0 Funz R 4 OFF C G C NL C NU O G O NL O NU FAULT CYCON ENDCY ALARM ACP Set R 4 0 F S 0 Funz R 5 OFF C G C NL C NU O G O NL O NU FAULT CYCON ENDCY ALARM ACP Set R 5 0 F S 0 Funz R 6 OFF C G C NL C NU O G O NL O NU ...

Page 76: ... 0 Wait Time 0 3600 0 Tot Coeff 1 10 100 1000 10000 SetPnt 1 0 Mx Load 0 Slow 1 0 Set 1 0 Fly 1 0 Slow 1 0 Toller 1 0 Flay 1 0 SetPnt 2 0 Mx Load 0 Slow 2 0 Set 1 0 Fly 2 0 Slow 1 0 Toller 2 0 Fly 1 0 SetPnt 3 0 Mx Load 0 Slow 3 0 Set 1 0 Fly 3 0 Slow 1 0 Toller 3 0 Fly 1 0 SetPnt U 0 Mx Load 0 Slow U 0 Set 1 0 Fly U 0 Slow 1 0 Toller U 0 Fly 1 0 ...

Page 77: ...ome da indicazioni del manuale di istruzione è conforme alle seguenti norme armonizzate nach der bedienungsanweisung benutzt is der folgenden gueltigen normen gemaess used as stated in the instruction manual conforms to the following harmonized norms utilizes comme indiquez dans le manuel d instruction est conforme aux suivant norme armonizes EN 61000 6 3 EN 61000 4 2 EN 55011 EN 61000 4 3 EN 6100...

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