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9.3.External control I/O

226

External equipment

9

1) Display the I/O input/output batch setting screen

1. Tap [I/O] on [MENU  1/2]. 

[I/O  SETTING  1/6] will be displayed. 

2. Tap [CSD-902 I/O BATCH SET] on [I/O  

SETTING  6/6]. 

The I/O input/output batch setting screen will be 

displayed. 

2) Batch set the I/O input/output

1. Tap [VALID]/[INHIBIT]. 

,QLWLDOYDOXH,1+,%,7

2. Tap [OK]. 

The I/O input/output settings will be batch set to 

suitably set CSD-912B, and [I/O  SETTING  6/6] will 

be displayed. 

3) Check the setting that you set

1. Check the I/O input/output batch setting. 

The setting is completed if the item set by the step 

2) above appears under [CSD-902 I/O BATCH 

SET]. 

(5) Print command acceptance condition setting

Sets an acceptance condition applicable when a print command is input from external control 

I/O, etc. 

1) Display the print command acceptance condition setting screen

1. Tap [BASIC  FUNCTION] on [MENU  1/2]. 

[BASIC  FUNCTION  1/4] will be displayed. 

2. Tap [PRINT  COMMAND] on [BASIC  

FUNCTION  3/4]. 

The print command acceptance condition setting 

screen will be displayed. 

Summary of Contents for CSD-912B

Page 1: ... INDICATOR CSD 912B Instruction Manual EN294 1764 B Product summary Wiring Basic operations Calibration Measurement Graphic display Various settings Data management External device Maintenance Troubleshooting Appendix ...

Page 2: ......

Page 3: ...this manual The following marks are placed for the matters that require your careful attention and reference Warning Improper use of the instrument may cause lethal accidents or serious injury to operators Never perform operations described here Caution Improper use of the instrument may cause injury to operators or physical damage POINT Describes attention and complementary related information fo...

Page 4: ... VXEMHFW WR VXGGHQ WHPSHUDWXUH RU KXPLGLW ÀXFWXDWLRQV Close to equipment that generates magnetic or electromagnetic radiation Locations subject to radioactivity and radiations Locations such as laboratories where chemical changes may occur Caution Install CSD 912B based on the following dimensions Be sure to secure enough space surrounding the instrument The following is the dimensions of CSD 912B...

Page 5: ...asket for panel mount between the control board cabinet and the body By applying the panel mount gasket the front panel section of CSD 912B becomes dustproof and waterproof structure equivalent to IP65 International Protection Code Carefully check the direction of the panel mount gasket not to install it upside down Install the gasket in a right position and make sure that it is not twisted Screw ...

Page 6: ...alibrated but produced incorrect results since this may cause damages to peripheral equipment RQ UP WKDW WKH ZLULQJ LV FRUUHFWO SHUIRUPHG EHIRUH RX VWDUW WR XVH 6 Incorrect wiring may result in incorrect measurements and malfunctions which may cause damages to peripheral equipment and serious accidents Do not carelessly change the settings of CSD 912B during measurement Changing the settings may c...

Page 7: ...d laboratory use EMC requirements Immunity test requirements for equipment intended for use in industrial locations EN61010 1 2010 Safety requirements for electrical equipment for measurement control and laboratory use EN50581 2012 Technical documentation for the assessment of electrical and electronic products with respect to the restriction of hazardous substances JIS B 7611 2 2015 Non automatic...

Page 8: ... 685 0 17 7 LV VHW WR 9 LV or more the value remains unchanged 67 7 21 7 5 40 I WKH YDOXH WKDW ZDV VHW EHIRUH 6 7 0 685 0 17 7 LV VHW WR 9 LV or more the value remains unchanged 67 7 5 7 0 0 5 I WKH YDOXH WKDW ZDV VHW EHIRUH 6 7 0 685 0 17 7 LV VHW WR 9 LV RU OHVV WKH YDOXH UHPDLQV XQFKDQJHG 67 7 5 1 2 0 I WKH YDOXH WKDW ZDV VHW EHIRUH 6 7 0 685 0 17 7 LV VHW WR 9 LV or more the value remains unch...

Page 9: ... QRW XVHG LQ DFFRUGDQFH ZLWK VSHFL HG measuring instrument usage the setting of the function shall be changed to as below 7KLV EHFRPHV WKH VXLWDEOH VHWWLQJ IRU WDQN ZHLJKLQJ V VWHP E HDVLQJ WKH FRQGLWLRQ RI 2YHU GLVSOD HUR VHW DQG 7DUH ZHLJKW FDQFHOODWLRQ Examine this setting based on the user s weighing condition Function Set value 23 5 7 21 2 52 1 7 0 5 1 2 52 23 5 7 21 2 7 5 1 7 0 5 1 2 7 5 526...

Page 10: ...8 02004 Correction Conformed standards QGLFDWH 6 VHSDUDWHO 7R FDQFHO WDUH ZHLJKW FDQFHOODWLRQ WDS 7 5 NH again 7R FDQFHO WDUH ZHLJKW FDQFHOODWLRQ WDS 7 5 NH DIWHU 5266 EHFRPHV HUR Jan 2019 DRW No EN294 1764 B Due to ECN No FN19 0088 GG WKH LWHP LQ 6DIHW SUHFDXVLRQV Function set when this is used in the tank weighing system RUUHFW WKH ZRUG RI 6 WR 0HDVXUHPHQW FW ...

Page 11: ...CSD 912B 2 1 2 Names and functions of parts 3 1 2 1 Front panel 3 1 2 2 Rear panel 3 2 Wiring 2 1 Precautions for wiring 6 2 2 Wiring of strain gage based transducers 7 2 2 1 6 wires type wiring cable 7 2 2 2 4 wires type wiring cable 8 2 2 3 Parallel connection of load cells 9 2 2 4 Use of extension use junction box B 304B 10 2 3 Wiring of power sources 12 3 Basic operation 3 1 Power on off 14 3 ...

Page 12: ...f zero points 36 4 4 2 Fine adjustment of span points 37 4 4 3 Digital linearization 38 3LWFK FRQ UPDWLRQ UHJLVWUDWLRQ 39 4 4 5 Gravitational acceleration compensation 42 4 4 6 Calibration lock 47 5 Measurement 5 1 Weighing mode 50 5 1 1 Simple comparative mode 50 5 1 2 Sequential mode 51 5 1 3 4 steps comparator mode 53 5 2 Preparation of measurement 52 5 2 1 Weighing mode settings 52 5 2 2 Contr...

Page 13: ... 5 8 2 Measurement 124 5 8 3 Mixture of measured objects 126 5 9 Measurement in 4 steps comparator mode 130 5 9 1 Settings before measurement 130 5 9 2 Measurement 136 5 10 Operations during measurement 137 HUR VHW UHFRUG RI HUR SRLQW 137 5 10 2 Tare weight cancellation 139 5 10 3 Switch between the standard and the simple display 141 H ORFN 143 5 11 Settings related to measurement 145 5 11 1 Oper...

Page 14: ...ted to the screen display 180 7 1 1 Display rate setting 180 7 1 2 Decimal point position setting 181 7 1 3 OL display condition setting 182 7 1 4 Unit setting 183 7 1 5 Backlight off time setting 183 7 2 Settings related to compensation 185 VDPSOLQJ UDWH VHWWLQJ 185 HUR WUDFNLQJ VHWWLQJ 186 6HWWLQJV UHODWHG WR QRLVH UHGXFWLRQ OWHU 189 QDORJ OWHU VHWWLQJ 189 LJLWDO OWHU VHWWLQJ 190 6WDELOL DWLRQ O...

Page 15: ...9 3 External control I O 218 9 3 1 External control I O wiring 218 9 3 2 External control I O setting 219 QDORJ RXWSXW 229 6SHFL FDWLRQV 229 QDORJ RXWSXW ZLULQJ 230 QDORJ RXWSXW VHWWLQJ 231 QDORJ RXWSXW QH DGMXVWPHQW 235 9 5 BCD output 236 6SHFL FDWLRQV PRGHO 6 3 236 9 5 2 BCD output wiring 237 9 5 3 BCD output connector pin arrangement 238 9 5 4 I O equivalent circuit 240 9 5 5 Timing chart 240 9...

Page 16: ...bleshooting 11 1 Trouble causes and corrective measures 270 11 1 1 LED screen display 271 11 1 2 Weighing operation 272 11 1 3 Standard RS 485 interface 272 11 1 4 2 wires method serial interface serial interface 273 11 1 5 External control I O 273 QDORJ RXWSXW 273 11 1 7 BCD output 274 11 1 8 RS 232C interface 274 11 1 9 RS 422 interface 275 11 1 10 RS 485 interface 275 11 2 Error display and buz...

Page 17: ... 12 3 3 Interfaces 292 HQHUDO VSHFL FDWLRQV 295 6WDQGDUG VKLSSLQJ VSHFL FDWLRQV 295 FFHVVRULHV 296 12 4 Modbus communication memory operation mapping 297 12 5 RS 232C 422 485 communication data formats 320 12 5 1 Command mode data formats 320 DWD IRUPDWV IRU 675 0 02 6 1 7 35 17 6 1 7 80 DQG 6 1 7 1 6 343 ...

Page 18: ...Table of contents xvi ...

Page 19: ...1 1 Product summary 1 1 Features of CSD 912B 2 1 2 Names and functions of parts 3 1 Product summary This chapter describes the outline of CSD 912B ...

Page 20: ...2B and weighing status They can be recognized at a glance Up to 100 brands are registrable A brand is an object of measurement You are supposed to register numerical values for each object to control measurement If you register brands in advance you can make a measurement just by changing brands when an object to weight changes You can prepare recipes for more than one brand too You can register u...

Page 21: ...ormation including weighing values and state lamps is displayed You can operate CSD 912B by directly touching the touch panel display POINT There is the calibration lock switch inside the body to prevent calibration results from being changed Refer to 4 4 6 Calibration lock for more information 1 2 2 Rear panel 1 Power supply terminals Connect a power cable and a grounding wire Refer to 2 3 Power ...

Page 22: ...INT Only one of PROFIBUS CC Link RS 232C and RS 422 485 can be mounted You cannot mount more than one piece of the same optional part 4 Load cell terminals Connect the signal line of the weighing device load cell Refer to 2 2 Wiring of strain gage based transducers for more information POINT If the voltage of the bridge power is DC12 V up to four strain gage based WUDQVGXFHUV ȍ FDQ EH FRQQHFWHG 5 ...

Page 23: ...2 Wiring 2 1 Precautions for wiring 6 2 2 Wiring of strain gage based transducers 7 2 3 Wiring of power sources 12 2 Wiring This chapter describes wiring of strain gage based transducers and power sources ...

Page 24: ...r terminal board 0 6 N m Power supply terminal board 1 4 N m Solderless terminals applicable to the terminal boards are as follows Terminal board Width of solderless terminal Applicable solderless terminal Strain gage based transducer terminal board 6 2 mm or less W SH Power supply terminal board 9 0 mm or less W SH Be sure to connect a grounding wire Grounding should be D class single grounding D...

Page 25: ...body of the load cell If you short out them near CSD 912B 6 wires type wiring does not work properly If the 6 wires type wiring cable is 100 m or more the accuracy may not be covered under warranty since the remote sensing function of CSD 912B does not ZRUN VXI FLHQWO GXH WR WKH UHVLVWDQFH RI WKH FDEOH 7R GLVSOD WKH WHQVLOH GLUHFWLRQ RI D WHQVLRQ W SH DQG FRPSUHVVLRQ WHQVLRQ W SH ORDG FHOO LQ SRVL...

Page 26: ...ducer terminal board using the attached short bar Without shorting out the F and G terminal CSD 912B does not operate normally If the 4 wires cable is 30 m or more the resistance of the cable causes decline in the input voltage of CSD 912B and the accuracy may not be covered under warranty RDG FHOO H FLWDWLRQ 5 RDG FHOO H FLWDWLRQ 7 RDG FHOO VLJQDO 51 RDG FHOO VLJQDO 8 6KLHOG Attached short bar RD...

Page 27: ...HOO LQ SDUDOOHO WR XVH WKHP IRU D KRSSHU VFDOH DQG D WUDFN VFDOH 7KH RSWLRQDO VXPPLQJ W SH MXQFWLRQ ER 6 6 UHDOL HV HDV SDUDOOHO connection RDG FHOO H FLWDWLRQ 5 5HPRWH VHQVLQJ LQSXW 251 5HPRWH VHQVLQJ LQSXW RDG FHOO H FLWDWLRQ 7 RDG FHOO VLJQDO 51 RDG FHOO VLJQDO 8 6KLHOG SIG SIG SIG SIG SIG SIG SIG SIG No 1 No 2 No 4 No 3 SB 310 ...

Page 28: ...le POINT Short out A F and C G of the CSD 912B load cell terminal board using the attached short bar Without shorting out the F and G terminal CSD 912B does not operate normally If CAB 502 is 30 m or more the resistance of the cable causes decline in the input voltage of CSD 912B and the accuracy may not be covered under warranty RDG FHOO Junction box B 304B CAB 502 RDG FHOO H FLWDWLRQ 5 RDG FHOO ...

Page 29: ...WUDQVGXFHU WR XVH If CAB 501 is 100 m or more the accuracy may not be covered under warranty VLQFH WKH UHPRWH VHQVLQJ IXQFWLRQ RI 6 GRHV QRW ZRUN VXI FLHQWO GXH WR the resistance of the cable to CSD 912B to load cell B 304B internal terminal connection RDG FHOO Junction box B 304B CAB 501 Attached short bar 5HPRWH VHQVLQJ LQSXW RDG FHOO H FLWDWLRQ 7 RDG FHOO VLJQDO 51 RDG FHOO VLJQDO 8 6KLHOG 5HPR...

Page 30: ...ounding and use CSD 912B ZLWKLQ WKH VSHFL HG SRZHU FRQGLWLRQV ĺ HQHUDO VSHFL FDWLRQ POINT Grounding should be D class single grounding Otherwise noise generated by another device may cause unforeseen malfunctions of CSD 912B 7R FRQIRUP 6 FRPSDWLEOH ZLWK PDUN DSSOLFDEOH VWDQGDUG DQG 6 standard perform single grounding with a protective earth terminal D class single grounding AC100 V to AC240 V Allo...

Page 31: ...Power on off 14 3 2 How to read the display 15 3 3 Item selection 18 3 4 How to switch screens 19 3 5 Input of numerical values 21 3 6 Input of characters 22 3 Basic operation This chapter describes basic operations of CSD 912B ...

Page 32: ... 14 Basic operations 3 3 1 Power on off CSD 912B does not has a switch to turn on off the power Plug the power cable into an outlet to turn on the power Disconnect the power cable from the outlet to turn off the power ...

Page 33: ...put from an external device Z ERR Lighted if the ZERO key is tapped while zero points cannot be set or if the TARE key is tapped while tearing cannot be performed RUN Lighted while CSD 912B is making a measurement 2 Display of load values Display GROSS load value including the weight of the container or NET load value excluding the weight of the container Display OL when overloaded Display OVF whe...

Page 34: ...d BRAND Refer to 5 2 3 Brand settings for more information about brands 11 Display of weighing states The display contents change according to weighing states F FLOW Lighted in case of F FLOW M FLOW Lighted in case of M FLOW D FLOW Lighted in case of D FLOW OVER Lighted if NET exceeds the value of FINAL OVER of BRAND CODE OK LJKWHG LQ FDVH RI 1 81 5 1 7 1 29 5 UNDER Lighted if the net weight falls...

Page 35: ...ER key Set the value of OVER of the currently selected BRAND 16 UNDER key Set the value of UNDER of the currently selected BRAND 17 F FALL key Set the value of F FALL of the currently selected BRAND POINT Refer to 5 2 3 Brand settings for more information about the values of 12 17 3 2 1 Character display pattern Numerical values and characters are displayed as follows on the display of CSD 912B 0 ...

Page 36: ...Basic operations 3 3 3 Item selection CSD 912B has a touch panel display To select items directly touch keys and buttons on the display ex Set DISP REFRESH RATE to 4 TIMES s The item you have selected appears Touch the item ...

Page 37: ... Menu screen and some of the setting screens consist of more than one page For such screens current page total pages is displayed next to the screen name such as 1 2 and 6ZLWFK SDJHV WR QG WKH LWHP RX ZDQW WR VHW The following shows how to display Menu screen and how to switch pages Weighing screen Item key MENU 1 2 MENU 2 2 or Various setting screens Item key Various setting screens ...

Page 38: ...rious setting screens and how to switch pages The following is an example of Calibration screen POINT Menus to be displayed differ according to the weighing mode Some setting screens have only one page CALIBRATION 1 2 CALIBRATION 1 2 Weighing screen Menu screen Weighing screen Item key ...

Page 39: ...d For entry of numerical values use the numeric keypad ex Set DIGITAL FILTER to 32 times POINT Tapping the AC key deletes all the numerical values that have been entered Tapping the DEL key deletes the rightmost and smallest numerical value In the above example tapping the DEL key deletes 2 and tapping the key again deletes 3 7DS WKH QXPHULF NH UVW WKHQ WDS The entered values appear ...

Page 40: ...kana You can enter katakana in the kana input screen The characters of the Japanese ア to ワ column voiced semi voiced sound marks and punctuation marks are allocated to the numeric keypad To enter a katakana keep pressing the key of the column which contains the katakana you want to enter until the katakana appears ex Characters allocated to ア アĺ イĺ ウĺ エĺ オĺ ァĺ ィĺ ゥĺ ェĺ ォ ex To enter ミネベア Tap マ WZL...

Page 41: ...ol you want to enter until the character or symbol appears ex Characters allocated to ABC ĺ ĺ ĺDĺEĺF ex To enter Minebea 7DS 012 RQFH ĺ 7DS VL WLPHV ĺ 7DS 014 ILYH WLPHV ĺ 7DS ILYH WLPHV ĺ 7DS YH WLPHV ĺ 7DS YH WLPHV ĺ 7DS IRXU WLPHV 3 6 3 Input of numeric characters You can enter numeric characters and in the numeric character input screen Numeric characters and are allocated to the numeric keypa...

Page 42: ... placed 2 INS Switch between the overwrite mode and the insert mode Tapping INS makes the key remain pressed and switches to the insert mode Tapping INS again cancels the insert mode and switches to the overwrite mode When you enter characters in the overwrite mode the character on which the cursor is placed will be overwritten When you enter characters in the insert mode a character will be inser...

Page 43: ...ation 4 4 1 About calibration 26 4 2 Flow of calibration 27 4 3 Calibration 28 4 4 Adjustment after calibration 36 4 Calibration This chapter describes how to calibrate CSD 912B and adjustment after calibration ...

Page 44: ...B cannot display accurate load values Be sure to calibrate the LQVWUXPHQW DIWHU FRQ JXULQJ WKH ZHLJKLQJ V VWHP ex When you place a weight of 100 kg on the load cell Without calibration With calibration POINT If operation environment has changed after calibration recalibrate CSD 912B 100kg 100kg 100kg 100kg 12 345 t 100 00 kg The load value unit position of decimal point and etc are not accurately ...

Page 45: ...f the weighing device load cell Read the output value of the load cell with a weight on the weighing device or set the value that is calculated by deducting the output voltage value at the zero point from the output voltage value at the load cell s span point Fine adjustment of zero point Finely adjust the zero point Fine adjustment of span point Finely adjust the span point DIGITAL LINEARISE Corr...

Page 46: ...7 21 FRQ UP WKDW WKH ORDG FHOO LV FRQQHFWHG ZLWK 6 912B Calibration screen consists of two pages Refer to 3 4 How to switch screens for more information about how to switch pages 4 3 1 Set the bridge power supply Set the voltage DC to apply to the load cell 1 Display the screen to set BRIDGE POWER SUPPLY 1 Tap BRIDGE POWER SUPPLY on CALIBRATION 2 2 The screen to set BRIDGE POWER SUPPLY will be dis...

Page 47: ...ner barrier set BRIDGE POWER SUPPLY as follows H DEOH ZLUHV RDG FHOO ȍ W SH 6 VWHP FRQ JXUDWLRQ BRIDGE POWER SUPPLY DC 12 V 6 V 3 V One load cell Zener barrier X O O Two load cells Summing type junction box Zener barrier X X O Three load cells Summing type junction box Zener barrier X X O Four load cells Summing type junction box Zener barrier X X O O Can be used X Cannot be used To stabilize CSD ...

Page 48: ...s under DIVISION 4 3 3 Set the weighing capacity Set the maximum load value to weight 1 Display the screen to set WEIGHING CAPACITY 1 Tap WEIGHING CAPACITY on CALIBRATION 1 2 The screen to set WEIGHING CAPACITY will be displayed 2 Set WEIGHING CAPACITY 1 Enter WEIGHING CAPACITY Allowable range 1 to 999 999 POINT Refer to 3 5 Input of numerical values for more information about how to enter numeric...

Page 49: ... point By entering the numerical value of the output voltage Enter the load cell output voltage value when the load is zero to register it as the zero point In normal operation environments perform ZERO ADJUSTMENT by reading the weighing value initial load value Perform ZERO ADJUSTMENT by entering the numerical value of the output voltage value only when an object is on the weighing device and you...

Page 50: ...put voltage values is about 1 1 000 When precise accuracy more than 1 1 000 is required perform zero adjustment by reading weighing values initial load values 1 Display the screen to register ZERO POINT mV V 1 Tap ZERO POINT mV V on CALIBRATION 1 2 The input value at the time of adjustment before shipment or previous calibration appears under ZERO POINT mV V The screen to set output voltage values...

Page 51: ...wo methods are available for span adjustment By reading the data of weights Read the load cell output value with a weight on the weighing device to register it as the span point By entering the numerical value of the output voltage Deduct the output voltage value at the zero point from the load cell s output voltage value that will be observed when the maximum load is applied Then enter the value ...

Page 52: ...yed 3 Perform SPAN ADJUSTMENT 1 Tap YES POINT To cancel SPAN ADJUSTMENT tap NO then tap BACK or TOP If CALIBRATION 1 2 is displayed after blinks on the load display section SPAN ADJUSTMENT is completed 2 Enter the numerical value of the output voltage Deduct the output voltage value at the zero point from the load cell s output voltage value that will be observed when the maximum load is applied T...

Page 53: ...you enter a numerical value outside the allowable range the following errors blinks for about two seconds Set a numerical value within the allowable range again The input numerical value is 0 0 or less The input numerical value is more than 3 1 RQ UP WKH VHWWLQJV RQ UP WKH YDOXH RI 63 1 32 17 P9 9 The setting is completed if the value set by the step 2 appears under SPAN POINT mV V POINT A numeric...

Page 54: ...eleration compensation Correct span errors that are caused because the place to use CSD 912B is different from where calibration has been performed 4 4 5 Calibration lock Prevent calibration results from being changed 4 4 6 4 4 1 Fine adjustment of zero points Finely adjust the zero point if there are differences among weighing values with no load on the weighing device initial load value HIRUH QH...

Page 55: ... CAPACITY 1 Display FINE ADJUSTMENT screen 1 Tap FINE ADJUSTMENT on CALIBRATION 2 2 FINE ADJUSTMENT will be displayed 2 Finely adjust the span point 1 Tap SPAN ADJUSTMENT The present weighing value with 1 10 digit scale interval appears 7DS Ĺ LQFUHPHQW RU Ļ GHFUHPHQW WR PDWFK the weighing value with the mass of the weight POINT You can increment decrement the weighing value continuously by keep SU...

Page 56: ...COMPENSATION 2 LINEARISE COMPENSATION3 For DIGITAL LINEARISE use weights that is equal to or less than WEIGHING CAPACITY 1 Display Digital linearization screen 1 Tap DIGITAL LINEARISE on CALIBRATION 2 2 Digital linearization screen will be displayed 2 Perform the compensation 1 Tap LINEARISE COMPENSATION 1 The screen for LINEARISE COMPENSATION 1 will be displayed 2 Put a weight of the mass that is...

Page 57: ...s 3LWFK FRQ UPDWLRQ UHJLVWUDWLRQ After zero adjustment place an arbitrary load on the weighing device and register the output A D count value as a pitch point You can register up to six pitch points Though you normally need to verify measuring performance by placing loads in stages up to the span point after calibration use of PITCH CONFIRMATION SET allows you to FRPSOHWH FDOLEUDWLRQ DQG YHUL FDWL...

Page 58: ...ister for the pitch point on the weighing device Wait until the STABLE lamp lights on PITCH CONFIRMATION SET screen 2 Tap READ of the number of the pitch to register A message OTHER THAN THE SPAN POINT will be displayed 3 Tap YES The pitch point has been registered and the A D count value of the load appears RQ UP WKDW WKH GLVSOD HG FRXQW YDOXH LV correct then tap OK The A D count value of the sel...

Page 59: ...D count value of the span point appears RQ UP WKDW WKH GLVSOD HG FRXQW YDOXH corresponds to the span point then tap OK The span point has been registered 5 Tap BACK The screen returns to CALIBRATION 1 2 RQ UP WKH SLWFK SRLQWV RQ UP WKH FRXQW YDOXH RI HDFK UHJLVWHUHG SLWFK SRLQW LVSOD 3LWFK FRQ UPDWLRQ VFUHHQ 1 Tap PITCH CONFIRMATION on CALIBRATION 1 2 3LWFK FRQ UPDWLRQ VFUHHQ ZLOO EH GLVSOD HG RQ ...

Page 60: ...vitational acceleration values of the calibration place and the point of use to correct span errors 1 Specify DISTRICT No Specify the respective DISTRICT No of the calibration place and the point of use to correct span errors 1 Select the compensation method by specifying DISTRICT No 1 Tap ADJ GRAV ACCELERATION on CALIBRATION 2 2 The screen to set ADJ GRAV ACCELERATION will be displayed 2 Tap DIST...

Page 61: ...of the point of use 1 Tap OPERATION PLACE No on CALIBRATION 2 2 The screen to specify DISTRICT No of the point of use will be displayed 2 Refer to the Table of gravitational acceleration compensation at the end of 4 4 5 to enter DISTRICT No of the point of use Allowable range 1 to 16 Default 10 POINT Refer to 3 5 Input of numerical values for more information about how to enter numerical values 3 ...

Page 62: ...n values has been selected and CALIBRATION 2 2 will be displayed 2 Enter the gravitational acceleration value of the calibration place 1 Tap CALIB PLACE G A on CALIBRATION 2 2 The screen to enter the gravitational acceleration value of the calibration place will be displayed 2 Refer to the Table of gravitational acceleration compensation at the end of 4 4 5 to enter the gravitational acceleration ...

Page 63: ...e will be displayed 2 Refer to the Table of gravitational acceleration compensation at the end of 4 4 5 to enter the gravitational acceleration value of the point of use Allowable range 9 000 to 9 999 Default 9 797 POINT Refer to 3 5 Input of numerical values for more information about how to enter numerical values 3 Tap OK The gravitational acceleration value of the point of use has been set and ...

Page 64: ...ref Akita Pref 5 9 802 Miyagi Pref Yamagata Pref 6 9 801 Fukushima Pref Ibaraki Pref Niigata Pref 7 9 800 Tochigi Pref Toyama Pref Ishikawa Pref 8 9 799 Gunma Pref Saitama Pref Chiba Pref Tokyo excluding Hachijo Branch Administrate and Ogasawara Branch Administrate Fukui Pref Kyoto Pref Tottori Pref Shimane Pref 9 9 798 Kanagawa Pref Yamanashi Pref Nagano Pref Gifu Pref Shizuoka Pref Aichi Pref Mi...

Page 65: ...DIVISION minimum scale ZERO POINT mV V SPAN POINT mV V DECIMAL POINT UNIT BRIDGE POWER SUPPLY OL DISPLAY CONDITION ADJ GRAV ACCELERATION CALIB PLACE No OPERATION PLACE No CALIB PLACE G A OPERATION PLACE G A FINE ADJUSTMENT DIGITAL LINEARISE PITCH CONFIRMATION 6 7 3 7 21 50 7 21 ĺ DOLEUDWLRQ GMXVWPHQW DIWHU calibration 7 1 Settings related to screen display Basic function settings A D SAMPLING RATE...

Page 66: ...4 4 Adjustment after calibration 48 Calibration 4 ...

Page 67: ... GLVFKDUJH mode 102 0HDVXUHPHQW LQ LQLWLDO ÀRZ PRGH 107 5 7 Measurement in nozzle control mode 111 5 8 Measurement in recipe mode 116 5 9 Measurement in 4 steps comparator mode 130 5 10 Operations during measurement 137 5 11 Settings related to measurement 145 5 Measurement This chapter describes measurement in each mode operations during measurement and settings related to measurement ...

Page 68: ...G LQWR JURXSV DFFRUGLQJ WR ZHLJKWV 7KH IROORZLQJV GHVFULEHV WKH IHDWXUH RI HDFK PRGH 5 1 1 Simple comparative mode Q VLPSOH FRPSDUDWLYH PRGH 6 FRQVWDQWO FRPSDUHV WKH VHWWLQJ YDOXHV ZLWK WKH DFWXDO ZHLJKLQJ YDOXHV IRU HDFK PHDVXUHG REMHFW FKHFNLQJ VWDWH GLVSOD ODPSV RX FDQ FRQ UP WKH FRPSDULVRQ UHVXOWV VXFK DV 7KH PHDVXUHG REMHFW LV LQVXI FLHQW DQG 7KH PHDVXUHG REMHFW KDV VDWLV HV WKH WDUJHW TXDQWL...

Page 69: ... settings of CONTROL 02 ĺ RQWURO PRGH VHWWLQJV Also entering necessary settings in advance in WEIGHING OPERATION and SEQUENCE 21752 HQDEOHV WKH IROORZLQJ FRQWUROV 6XSSOHPHQWDU ÀRZ GLVFKDUJH QLWLDO ÀRZ Nozzle control Recipe 6XSSOHPHQWDU ÀRZ GLVFKDUJH KHQ WKH YROXPH RI WKH IHHG GLVFKDUJHG PHDVXUHG REMHFW LV LQVXI FLHQW WKH GH FLHQF LV VXSSOLHG E DXWRPDWLF IHHGLQJ GLVFKDUJLQJ Load cell Weighing hoppe...

Page 70: ...OO VLQFH LW VWULNHV DJDLQVW WKH ZHLJKLQJ KRSSHU 7R SUHYHQW VXFK VFDWWHU PDWHULDOV DUH IHG WR WKH KRSSHU LQ WKH RUGHU RI GULEEOH ÀRZ ĺ PHGLXP ÀRZ ĺ IXOO ÀRZ LQ LQLWLDO ÀRZ PRGH 3 Nozzle control 6 FRQWUROV QR OH SXOOLQJ XS GRZQ WR OO WKH FRQWDLQHU ZLWK WKH PHDVXUHG REMHFW XVLQJ D ZHLJKLQJ KRSSHU ZLWK D QR OH 3 2 1 Load cell Weighing hopper Material Batch gate Discharge gate ULEEOH ÀRZ 0HGLXP ÀRZ XOO...

Page 71: ...ion1 100 g or less Comparison condition2 200 g or less and RPSDULVRQ FRQGLWLRQ J RU PRUH Q WKLV VHWWLQJV LI WKH ZHLJKLQJ YDOXH LV J LW FRUUHVSRQGV WR RPSDULVRQ FRQGLWLRQ I WKH ZHLJKLQJ YDOXH LV J LW FRUUHVSRQGV WR Comparison condition3 Load cell Weighing hopper Batch gate Each batch output Discharge gate 0L WXUH Q Special curry Mixture output Discharge output 1 Cardamom 2 Coriander 3 Clove 4 Cumin...

Page 72: ...HG REMHFWV 1 Display the screen to set WEIGHING MODE 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap WEIGHING MODE 7KH VFUHHQ WR VHW 1 02 ZLOO EH displayed 2 Set WEIGHING MODE 1 Select WEIGHING MODE SIMPLE COMPARATIVE 6HW WKH ZHLJKLQJ mode to simple comparative mode SEQUENTIAL MODE 6HW WKH ZHLJKLQJ PRGH to sequential mode 4 STEP COMPARATOR 6HW WKH ZHLJKLQJ mode to 4 steps ...

Page 73: ...LQJ V VWHPV Measure the discharged object Programmable logic controller Container PLC XOO 0HGLXP ULEEOH ÀRZ RXWSXW DISCHARGE MODE Material Weighing hopper Batch gate Discharge gate NJ NJ Load cell ULEEOH ÀRZ 0HGLXP ÀRZ XOO ÀRZ Material Weighing hopper Batch gate Discharge gate Measure the fed quantity NJ XOO 0HGLXP ULEEOH ÀRZ RXWSXW NJ Container Load cell BATCH MODE Discharge output ULEEOH ÀRZ 0HG...

Page 74: ...G 2 Tap CONTROL MODE 7KH VFUHHQ WR VHW 21752 02 ZLOO EH displayed 2 Set CONTROL MODE 1 Select CONTROL MODE BATCH MODE Measure the object fed to the ZHLJKLQJ KRSSHU DISCHARGE MODE Measure the object GLVFKDUJHG IURP WKH ZHLJKLQJ KRSSHU EXTERNAL 6ZLWFK 7 02 EHWZHHQ DISCHARGE MODE using external input output control POINT 5HIHU WR WHUQDO FRQWURO 2 setting for more information 2 Tap OK CONTROL MODE has...

Page 75: ...ET TARE Set this time to use preset tare INITIAL FULL FLOW 6HW WKLV LWHP WR XVH LQLWLDO ÀRZ INITIAL MEDIUM FLOW 6HW WKLV LWHP WR XVH LQLWLDO ÀRZ POINT FFXUDWHO VHW EUDQG VHWWLQJV VLQFH 6 FRQWUROV ZHLJKLQJ RSHUDWLRQV E FRPSDULQJ WKH VHWWLQJ YDOXHV RI EUDQG VHWWLQJV ZLWK WKH DFWXDO ZHLJKLQJ YDOXHV You do not need to set brands for measurement in 4 steps comparator mode You can set up to 100 brands L...

Page 76: ...set To change the contents of the already set brand select the number of the brand to change 3 Set NAME 1 Tap NAME KDUDFWHU LQSXW VFUHHQ ZLOO EH GLVSOD HG 2 Enter NAME POINT Refer to 3 6 Input of characters for PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU characters 3 Tap OK 1 0 KDV EHHQ VHW DQG 5 1 2 ZLOO be displayed 4 Set the number of the brand hopper 6HW WKH QXPEHU RI WKH EUDQG KRSSHU LQ ZKLFK WKH PHD...

Page 77: ...FINAL 7KH VFUHHQ WR VHW 1 ZLOO EH GLVSOD HG 2 Enter FINAL OORZDEOH UDQJH WR Default 0 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 3 Tap OK 1 KDV EHHQ VHW DQG 5 1 2 ZLOO be displayed 6 Set F FALL LV WKH VWDQGDUG YDOXH WR FRQWURO RSHQ FORVH RI WKH GULEEOH ÀRZ JDWH RI WKH EUDQG KRSSHU Q FDVH RI 6 03 203 5 7 9 WKH GULEEOH ÀRZ JDWH RSHQV ZKHQ WK...

Page 78: ... WR FRQWURO RSHQ FORVH RI WKH PHGLXP ÀRZ JDWH RI WKH EUDQG KRSSHU Q FDVH RI 6 03 203 5 7 9 WKH PHGLXP ÀRZ JDWH RSHQV ZKHQ WKH ZHLJKLQJ YDOXH UHDFKHV 1 35 0 Q FDVH RI 6 48 17 02 WKH PHGLXP ÀRZ JDWH FORVHV ZKHQ WKH ZHLJKLQJ YDOXH UHDFKHV 1 35 0 1 Tap PRELIM1 7KH VFUHHQ WR VHW 35 0 ZLOO EH GLVSOD HG 2 Enter the value of PRELIM1 OORZDEOH UDQJH WR Default 0 POINT Refer to 3 5 Input of numerical values ...

Page 79: ...IRUPDWLRQ DERXW KRZ WR HQWHU numerical values If the setting value of PRELIM2 is equal to PRELIM1 or less and the setting value of PRELIM2 is not 0 the VHTXHQFH HUURU 64 55 ZLOO EH displayed at the start of measurement Change the settings of PRELIM1 and PRELIM2 in order not to meet the above condition 3 Tap OK 35 0 KDV EHHQ VHW DQG 5 1 2 ZLOO EH GLVSOD HG 9 Set OVER 29 5 LV WKH TXDQWLW WKDW H FHHG...

Page 80: ...o 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 3 Tap OK 81 5 KDV EHHQ VHW DQG 5 1 2 ZLOO EH GLVSOD HG 11 Set the value of ZERO BAND 7KH YDOXH RI 52 1 LV WKH TXDQWLW IRU ZKLFK 6 MXGJHV WKH ZHLJKLQJ YDOXH DV I WKH ZHLJKLQJ YDOXH IDOOV EHORZ WKH YDOXH RI 52 1 WKH 52 1 ODPS lights POINT You can change the judgment target of ZERO BAND Refer to 5 11 2 Comparativ...

Page 81: ...XDQWLW IRU ZKLFK 6 MXGJHV WKH ZHLJKLQJ YDOXH DV EHLQJ IXOO KHQ WKH ZHLJKLQJ YDOXH H FHHGV 8 WKH 8 ODPS OLJKWV POINT RX FDQ FKDQJH WKH 5HIHU WR RPSDUDWLYH WDUJHW VHWWLQJV RI IXOO IRU PRUH information about the settings of the judgment target 1 Tap FULL 7KH VFUHHQ WR VHW 8 ZLOO EH GLVSOD HG 2 Enter the value of FULL OORZDEOH UDQJH WR Default 0 POINT Refer to 3 5 Input of numerical values IRU PRUH LQ...

Page 82: ...Q WR VHW 203 16 7 21 ZLOO EH displayed 3 Enter the value of A F F COMPENSATION OORZDEOH UDQJH WR Default 0 POINT Setting 0 disables automatic free fall compensation Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 4 Tap OK A F F COMPENSATION has been set and 5 1 2 ZLOO EH GLVSOD HG 14 Set SUPPLEMENTARY FLOW TIME 6HW WKH WLPH WR DXWRPDWLFDOO IHHG GLVFK...

Page 83: ...U VXSSOHPHQWDU ÀRZ 6HW WKH WLPH WR ZDLW XQWLO 6 MXGJHV ZKHWKHU WKH ZHLJKLQJ YDOXH H FHHGV 1 81 5 RU QRW DIWHU VXSSOHPHQWDU ÀRZ GLVFKDUJH POINT 5HIHU WR 0HDVXUHPHQW LQ VXSSOHPHQWDU ÀRZ GLVFKDUJH PRGH IRU PRUH information 1 Tap JUDGE AFTER S FLOW WAIT The screen to set JUDGE AFTER S FLOW WAIT ZLOO EH GLVSOD HG 2 Enter the waiting time for judgment after VXSSOHPHQWDU ÀRZ GLVFKDUJH OORZDEOH UDQJH WR D...

Page 84: ...t screen then tap ĺ 2 LQ VHTXHQFH Deleting ACCUM VALUE deletes ACCUM TIMES too RQ UP HOHWH 80 7 0 6 V IRU DQ DOUHDG VHW EUDQG RX FDQ FKHFN 80 7 0 6 RI WKH SDVW PHDVXUHPHQWV RX can also delete ACCUM TIMES POINT Refer to 5 11 10 Automatic accumulation settings for more information about the automatic accumulation function RQ UP WKH DFFXPXODWLRQ YDOXH GLVSOD HG under ACCUM TIMES POINT To delete ACCUM...

Page 85: ... VWDQGDUG YDOXH WR RSHQ WKH IXOO ÀRZ JDWH RI WKH EUDQG KRSSHU LQ LQLWLDO ÀRZ PRGH KHQ WKH LQSXW RI WKH PHDVXUHG REMHFW UHDFKHV WKH VWDQGDUG YDOXH WKH IXOO ÀRZ JDWH RSHQV POINT 5HIHU WR 0HDVXUHPHQW LQ LQLWLDO ÀRZ PRGH IRU PRUH LQIRUPDWLRQ DERXW LQLWLDO ÀRZ PRGH 1 Tap INITIAL FULL FLOW 7KH VFUHHQ WR VHW 1 7 8 2 ZLOO EH displayed QWHU WKH YDOXH WR VWDUW IXOO ÀRZ OORZDEOH UDQJH WR Default 0 POINT Refe...

Page 86: ... 1 7 0 80 2 ZLOO EH displayed 2 Enter the value to start M FLOW OORZDEOH UDQJH WR Default 0 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 3 Tap OK INITIAL MEDIUM FLOW has been set and 5 1 2 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH VHWWLQJV RQ UP WKDW WKH EUDQG QXPEHU 1 0 DQG HDFK item have been set 7DS 1 7 WR VZLWFK SDJHV 22 Set BRAND 1...

Page 87: ...t to notify comparison results by state display lamps DISCHARGE MODE Simple comparative discharge mode 6 DOZD V FRPSDUHV WKH YDOXHV RI 5 1 2 ZLWK WKH GHFUHDVH RI WKH measured object to notify comparison results by state display lamps 5 3 1 Measurement in simple comparative batch mode 6 FRPSDUHV WKH YDOXHV RI 5 1 2 ZLWK WKH LQFUHDVH RI WKH PHDVXUHG REMHFW IHG WR WKH ZHLJKLQJ KRSSHU WR QRWLI FRPSDUL...

Page 88: ...LV QRW H HFXWHG I 35 0 RI 5 1 2 KDV EHHQ VHW WR PHGLXP ÀRZ LV QRW H HFXWHG You can change the comparative target for the value of ZERO BAND and FULL Refer to 5 11 2 Comparative target settings of zero band and 5 11 3 Comparative target settings of full for more information If start signals are not used corresponding state display lamp lights according to ZHLJKLQJ VWDWHV HG 1 7 VHWWLQJ YDOXH RI 1 s...

Page 89: ... at the input of start signal Judgment XOO ÀRZ FRPSDUL son interrupt timer 0HGLXP ÀRZ FRPSDUL son interrupt timer Waiting timer for judge Stable Finish Over OK Under Zero band Start XOO ÀRZ 0HGLXP ÀRZ ULEEOH ÀRZ Final Preliminary2 Final Preliminary1 Final Free fall Final 0 Calculated value DWFK QLVK RXWSXW RQ LEEOH ÀRZ FRPSDULVRQ interrupt timer Time ...

Page 90: ...266 RU 1 7 VHWWLQJ YDOXH RI 52 1 Measurement start HG 1 7 VHWWLQJ YDOXH RI 1 setting value of F FALL 0HDVXUHPHQW LV FRPSOHWH DQG MXGJPHQW RI ZHLJKLQJ YDOXHV The ZERO BAND lamp lights 7KH 2 ODPS OLJKWV DQG IXOO ÀRZ starts The M FLOW lamp lights and medium ÀRZ VWDUWV The D FLOW lamp lights and dribble ÀRZ VWDUWV The FINISH lamp lights NJ PLC Full output Container XOO 0HGLXP ULEEOH ÀRZ RXWSXW NJ Weig...

Page 91: ...FINAL settings value of OVER The OK lamp lights Discharged GROSS or NET setting value of FULL The FULL lamp lights 1 7 7KH ORDG H FOXGLQJ WKH ZHLJKW RI WKH FRQWDLQHU POINT I 35 0 RI 5 1 2 KDV EHHQ VHW WR IXOO ÀRZ LV QRW H HFXWHG I 35 0 RI 5 1 2 KDV EHHQ VHW WR PHGLXP ÀRZ LV QRW H HFXWHG You can change the comparative target for the value of ZERO BAND and FULL Refer to 5 11 2 Comparative target set...

Page 92: ...YH GLVFKDUJH PRGH Operates at the input of start signal Judgment XOO ÀRZ FRPSDULVRQ interrupt timer LEEOH ÀRZ FRPSDULVRQ interrupt timer Waiting timer for judge Stable Final Over OK Under Tare Start XOO ÀRZ 0HGLXP ÀRZ ULEEOH ÀRZ Final Preliminary2 Final Preliminary1 Final Free fall Final 0 Weighing value DWFK QLVK RXWSXW RQ Time ...

Page 93: ...nt in sequential mode enter the settings of necessary control operations 6HWWLQJ VSHFL F FRQWURO RSHUDWLRQV HQDEOHV WKH IROORZLQJ IXQFWLRQV WRR Automatic free fall compensation WKDW ZLOO RFFXU DW WKH QH W PHDVXUHPHQW LV DXWRPDWLFDOO FDOFXODWHG XVLQJ WKH DFWX DO WKDW KDYH RFFXUUHG LQ WKH SDVW PHDVXUHPHQWV WR FRUUHFW ZHLJKLQJ YDOXHV Safety input 0HDVXUHPHQW DXWRPDWLFDOO VWRSV ZKHQ D IDLOXUH RFFXUV I...

Page 94: ... signal are input AUTOMATIC TARE POINT 5HIHU WR 7DUH ZHLJKW FDQFHOODWLRQ IRU PRUH LQIRUPDWLRQ DERXW WDUH ZLJKW cancellation 1 Display the Operation settings screen for batch start 1 Tap BATCH START SEQUENCE on SEQUENCE CONTROL 1 3 2SHUDWLRQ VHWWLQJV VFUHHQ IRU EDWFK VWDUW ZLOO EH displayed 2 Set the operation of START ABOVE ZERO BAND 1 Tap START ABOVE ZERO BAND The screen to set START ABOVE ZERO B...

Page 95: ...et the waiting time until batch start 1 Enter the waiting time until batch start OORZDEOH UDQJH WR Default 0 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 2 Tap OK 7KH ZDLWLQJ WLPH XQWLO EDWFK VWDUW KDV EHHQ VHW DQG 6 48 1 21752 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH YDOXH RI WKH ZDLWLQJ WLPH XQWLO batch start The setting is completed...

Page 96: ...ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH WDUH RSHUDWLRQ DIWHU WKH ZDLWLQJ time until batch start elapses The setting is completed if the item set by the step 2 appears under TARE BATCH START DELAY 4 F FLOW COMP STOP TIMER settings 6HW WKH WLPH WR SURKLELW FRPSDULVRQ DW WKH VWDUW RI PHDVXUHPHQW EHWZHHQ WKH YDOXH RI 1 35 0 RI 5 1 2 DQG WKH ZHLJKLQJ YDOXH 1 Display the screen to set F FLOW COMP...

Page 97: ...2 DQG WKH ZHLJKLQJ YDOXH 1 Display the screen to set M FLOW COMP STOP TIMER 1 Tap M FLOW COMP STOP TIMER on SEQUENCE CONTROL 2 3 The screen to set M FLOW COMP STOP TIMER ZLOO EH GLVSOD HG 2 Set M FLOW COMP STOP TIMER 1 Enter M FLOW COMP STOP TIMER OORZDEOH UDQJH WR Default 0 00 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 2 Tap OK M FLOW COM...

Page 98: ...WR Default 0 00 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 2 Tap OK D FLOW COMP STOP TIMER has been set and 6 48 1 21752 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH YDOXH RI 2 203 6723 TIMER The setting is completed if the value set by the step 2 appears under D FLOW COMP STOP TIMER 7 WAITING TIME FOR JUDGE settings 6HW WKH ZDLWLQJ WLPH...

Page 99: ...DGE 8 Settings of JUDGE CONDITION on completion of measurement Set the condition to judge the measurement as OK OVER UNDER and etc after completion of the measurement 1 Display the screen to set JUDGE CONDITION 1 Tap JUDGE CONDITION on SEQUENCE CONTROL 1 3 7KH VFUHHQ WR VHW 8 21 7 21 ZLOO EH displayed 2 Set JUDGE CONDITION 1 Select JUDGE CONDITION TIMER IS UP 0DNH MXGJPHQW ZKHQ WKH WLPH VHW by TIM...

Page 100: ...s 6HW ZKHWKHU WR PL WKH PHDVXUHG REMHFWV 0 1 67 57 DQG ZKHWKHU WR GLVFKDUJH WKH measured objects DISCHARGE START on completion of measurement 1 Display the screen to set BATCH FINISH ACTIONS 1 Tap BATCH FINISH ACTIONS on SEQUENCE CONTROL 1 3 7KH VFUHHQ WR VHW 7 1 6 7 216 ZLOO be displayed 2 Set the mixing operation on completion of measurement 1 Tap MIXING START 7KH VFUHHQ WR VHW WKH PL LQJ RSHUDW...

Page 101: ... VALID the PHDVXUHG REMHFWV ZLOO EH UVW PL HG WKHQ GLVFKDUJHG 10 BATCH FINISH OUTPUT ON settings 6HW WKH RXWSXW WLPH RI EDWFK QLVK VLJQDOV 1 Display the screen to set BATCH FINISH OUTPUT ON 1 Tap BATCH FINISH OUTPUT ON on SEQUENCE CONTROL 3 3 The screen to set BATCH FINISH OUTPUT ON ZLOO EH GLVSOD HG 6HW WKH RXWSXW WLPH RI EDWFK QLVK VLJQDOV QWHU WKH RXWSXW WLPH RI EDWFK QLVK VLJQDOV OORZDEOH UDQJ...

Page 102: ...SXW RI EDWFK QLVK VLJQDOV 1 Select the condition to turn off the output of EDWFK QLVK VLJQDOV NO CONDITION Turn off the output of batch QLVK VLJQDOV ZKHQ WKH WLPH VHW E 7 1 6 OUTPUT ON elapses or the signals to start next measurement are input OL OR UNSTABLE Turn off the output of batch QLVK VLJQDOV ZKHQ 2 RU 2 LV GLVSOD HG RQ HLJKLQJ VFUHHQ RU WKH ZHLJKLQJ YDOXH EHFRPHV unstable ZERO BAND 7XUQ RI...

Page 103: ... mode for more information about the sequential batch mode Refer to 11 2 3 Sequence error display for more information about error display 1 Display the screen to set BATCH MONITORING TIMER 1 Tap BATCH MONITORING TIMER on SEQUENCE CONTROL 2 3 The screen to set BATCH MONITORING TIMER ZLOO EH GLVSOD HG 2 Set the timer to monitor measurement time 1 Enter the time of the monitoring timer OORZDEOH UDQJ...

Page 104: ...Refer to 11 2 3 Sequence error display for more information about error display 1 Display the screen to set DISCH MONI TIMER 1 Tap DISCH MONI TIMER on SEQUENCE CONTROL 3 3 7KH VFUHHQ WR VHW 6 021 7 0 5 ZLOO EH displayed 2 Set the timer to monitor discharge time 1 Enter the time of the monitoring timer OORZDEOH UDQJH WR Default 0 POINT Setting 0 does not monitor discharge time Refer to 3 5 Input of...

Page 105: ...he gate close 1 Enter the waiting time until the gate close OORZDEOH UDQJH WR Default 0 00 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 2 Tap OK 7KH ZDLWLQJ WLPH XQWLO WKH JDWH FORVH KDV EHHQ VHW DQG 6 48 1 21752 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH YDOXH RI WKH ZDLWLQJ WLPH XQWLO WKH gate close The setting is completed if the valu...

Page 106: ... signals The setting is completed if the value set by the step 2 appears under DISCH FINISH OUTPUT ON 16 DISCH FINISH ACTIONS settings 6HW ZKHWKHU WR H HFXWH WDUH ZHLJKW FDQFHOODWLRQ FOHDU DQG ZKHWKHU WR PL WKH PHDVXUHG objects on completion of measurement POINT 5HIHU WR 7DUH ZHLJKW FDQFHOODWLRQ IRU PRUH LQIRUPDWLRQ DERXW WDUH ZLJKW cancellation 1 Display the screen to set DISCH FINISH ACTIONS 1 T...

Page 107: ...tion on completion of discharge has been set and the screen to set DISCH FINISH 7 216 ZLOO EH GLVSOD HG 5 4 2 Measurement in sequential batch mode 6 FRQWUROV ZHLJKLQJ RSHUDWLRQV EDVHG RQ WKH LQFUHDVH RI WKH PHDVXUHG REMHFW IHG WR WKH ZHLJKLQJ KRSSHU LVFKDUJH WR WKH ZHLJKLQJ KRSSHU FDQ EH FRQWUROOHG WRR 6WDWH GLVSOD lamps notify progress of measurement Load cell Weighing hopper NJ Material Batch ga...

Page 108: ...VHW WR PHGLXP ÀRZ LV QRW H HFXWHG You can change the comparative target for the value of ZERO BAND and FULL Refer to 5 11 2 Comparative target settings of zero band and 5 11 3 Comparative target settings of full for more information HG 1 7 VHWWLQJ YDOXH RI 1 setting value of PRELIMINARY2 HG 1 7 VHWWLQJ YDOXH RI 1 setting value of PRELIMINARY1 5266 RU 1 7 VHWWLQJ YDOXH RI 52 1 Measurement start HG ...

Page 109: ... FRPSDUL son interrupt timer Waiting timer for judge Stable Finish Over OK Under Zero band Batch start XOO ÀRZ 0HGLXP ÀRZ ULEEOH ÀRZ Final Preliminary2 Final Preliminary1 Final Free fall Final 0 Weighing value DWFK QLVK RXWSXW RQ LEEOH ÀRZ FRPSDULVRQ interrupt timer Zero band Discharge moni toring timer Time to close the discharge gate LVFKDUJH QLVKHV Discharge starts Discharge Waiting time until ...

Page 110: ...I PHDVXUHPHQW POINT RQWURO WKH VXSSO RI WKH PHDVXUHG REMHFW WR WKH ZHLJKLQJ KRSSHU ZKLOH monitoring full signals from CSD 912B using external devices such as a programmable logic controller PLC ULEEOH ÀRZ 0HGLXP ÀRZ XOO ÀRZ Load cell Weighing hopper NJ Material Batch gate Discharge gate Material Control measurement depending on the decreased quantity Controlled by CSD 912B Notify the progress by t...

Page 111: ...tarts I 35 0 RI 5 1 2 KDV EHHQ VHW WR IXOO ÀRZ LV QRW H HFXWHG I 35 0 RI 5 1 2 KDV EHHQ VHW WR PHGLXP ÀRZ LV QRW H HFXWHG You can change the comparative target for the value of ZERO BAND and FULL Refer to 5 11 2 Comparative target settings of zero band and 5 11 3 Comparative target settings of full for more information LVFKDUJHG 1 7 VHWWLQJ YDOXH RI NAL setting value of PRELIMINARY2 LVFKDUJHG 1 7 ...

Page 112: ...V Judgment XOO ÀRZ FRPSDULVRQ interrupt timer 0HGLXP ÀRZ FRPSDUL son interrupt timer Waiting timer for judge Stable Final Over OK Under Zero band Batch start XOO ÀRZ 0HGLXP ÀRZ ULEEOH ÀRZ Final Preliminary2 Final Preliminary1 Final Free fall Full 0 Weighing value DWFK QLVK RXWSXW RQ LEEOH ÀRZ FRPSDULVRQ interrupt timer Waiting time until batch start ORZ WLPH VWDUW WLPHU Time Gross Net Tare ...

Page 113: ...l compensation values A F F COMPENSATION of BRAND CODE POINT Refer to 5 2 3 Brand settings for more information about BRAND CODE 1 A F F COMPENSATION settings To use automatic free fall compensation enable A F F COMPENSATION 1 Display the screen to set A F F COMPENSATION 1 Tap SEQUENCE CONTROL on MENU 1 2 6 48 1 21752 ZLOO EH GLVSOD HG 2 Tap A F F COMPENSATION on SEQUENCE CONTROL 2 3 7KH VFUHHQ WR...

Page 114: ...ation of saving automatic free fall compensation values 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap SAVE THE A F F The screen to set the operation of saving automatic IUHH IDOO FRPSHQVDWLRQ YDOXHV ZLOO EH GLVSOD HG 2 Set the operation of saving automatic free fall compensation values 1 Tap NO MEMORIZE MEMORIZE Default NO MEMORIZE 2 Tap OK The operation of saving automa...

Page 115: ...DPSOH WKH ZHLJKLQJ KRSSHU IDOOV GRZQ RU D FRQWDLQHU WR OO WKH GLVFKDUJHG PHDVXUHG object fails to be prepared 7R XVH VDIHW FKHFN LQSXW DIWHU HQWHULQJ WKH QRUPDO VHWWLQJV RI 6 48 17 02 ĺ 6HWWLQJV EHIRUH PHDVXUHPHQW VHW WKH IROORZLQJ LWHPV 2 1387 WR 2 1387 DOORFDWLRQ RI VDIHW FKHFN LQSXW WR H WHUQDO FRQWURO LQSXWV BATCHING SAFETY CHECK DISCH SAFETY CHECK RECIPE SAFETY CHECK MIXING SAFETY CHECK 6DIHW...

Page 116: ...ted if the item set by the step DSSHDUV XQGHU 2 1387 WR 2 1387 2 BATCHING SAFETY CHECK settings 6HW WKH VDIHW FKHFN LQSXW WR XVH GXULQJ EDWFKLQJ RI WKH PHDVXUHG REMHFW 1 Display the screen to set BATCHING SAFETY CHECK 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap BATCHING SAFETY CHECK The screen to set BATCHING SAFETY CHECK ZLOO EH GLVSOD HG 2 Set the safety check input ...

Page 117: ... by the step 2 appears under SAFETY CHECK1 to SAFETY CHECK8 3 DISCH SAFETY CHECK settings 6HW WKH VDIHW FKHFN LQSXW WR XVH GXULQJ GLVFKDUJH RI WKH PHDVXUHG REMHFW 1 Display the screen to set DISCH SAFETY CHECK 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap DISCH SAFETY CHECK 7KH VFUHHQ WR VHW 6 6 7 ZLOO EH displayed 2 Set the safety check input to use during discharge 1 T...

Page 118: ...der SAFETY CHECK1 to SAFETY CHECK8 4 RECIPE SAFETY CHECK settings 6HW WKH VDIHW FKHFN LQSXW WR XVH GXULQJ UHFLSH RI WKH PHDVXUHG REMHFWV 1 Display the screen to set RECIPE SAFETY CHECK 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap RECIPE SAFETY CHECK on WEIGHING OPERATION 2 2 7KH VFUHHQ WR VHW 5 3 6 7 ZLOO be displayed 2 Set the safety check input to use during recipe 1 ...

Page 119: ...der SAFETY CHECK1 to SAFETY CHECK8 5 MIXING SAFETY CHECK settings 6HW WKH VDIHW FKHFN LQSXW WR XVH GXULQJ PL LQJ RI WKH PHDVXUHG REMHFWV 1 Display the screen to set MIXING SAFETY CHECK 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap MIXING SAFETY CHECK on WEIGHING OPERATION 2 2 7KH VFUHHQ WR VHW 0 1 6 7 ZLOO be displayed 2 Set the safety check input to use during mixing 1 ...

Page 120: ... check condition 6HW WKH VDIHW FKHFN LQSXW WR XVH GXULQJ PHDVXUHPHQW LQ 6 48 17 02 1 Display the screen to set the safety check condition for general sequential modes 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap GENERAL SAFETY CHECK on WEIGHING OPERATION 2 2 7KH VFUHHQ WR VHW WKH VDIHW FKHFN FRQGLWLRQ IRU JHQHUDO VHTXHQWLDO PRGHV ZLOO EH GLVSOD HG 2 Set the safety check...

Page 121: ...HFN FRQGLWLRQ IRU WKH general sequential mode The setting is completed if the item set by the step 2 appears under SAFETY CHECK1 to SAFETY CHECK8 7 Operations of safety check input KHQ D IDLOXUH RFFXUV GXULQJ PHDVXUHPHQW LQ VHTXHQFH PRGH VDIHW FKHFN VLJQDOV ZLOO EH LQSXW IURP H WHUQDO FRQWURO LQSXWV VXFK DV D VDIHW FKHFN VZLWFK DQG D VDIHW FKHFN VHQVRU ZKLFK FDXVHV D VHTXHQFH HUURU DQG WKH PHDVXUH...

Page 122: ...nt 7R PDNH D PHDVXUHPHQW LQ VXSSOHPHQWDU ÀRZ GLVFKDUJH PRGH DIWHU HQWHULQJ WKH QRUPDO VHWWLQJV RI 6 48 17 02 ĺ 6HWWLQJV EHIRUH PHDVXUHPHQW VHW WKH IROORZLQJ LWHPV MAXTIME OF COMPENSATION COMPARISON FLOW EVAL SUPPLEMENTARY FLOW TIME and JUDGE AFTER S FLOW WAIT of BRAND CODE Set MAXTIME OF COMPENSATION and COMPARISON FLOW EVAL on Sequence control VFUHHQ 7DS 6 48 1 21752 RQ 0 18 WR GLVSOD 6HTXHQFH FR...

Page 123: ...entary ÀRZ GLVFKDUJH KDV EHHQ VHW DQG 6 48 1 21752 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH PD LPXP QXPEHU RI WLPHV RI VXSSOHPHQWDU ÀRZ GLVFKDUJH The setting is completed if the value set by the step 1 appears under MAXTIME OF COMPENSATION 2 COMPARISON FLOW EVAL settings 6HW WKH FRQGLWLRQ WR MXGJH WKH ZHLJKLQJ YDOXH RI WKH WKH IHG GLVFKDUJHG REMHFW DIWHU VXSSOHPHQWDU ÀRZ GLVFKDUJH 6HW 8 21 7...

Page 124: ...XSSOHPHQWDU ÀRZ discharge has been set and SEQUENCE 21752 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP 8 21 7 21 DIWHU VXSSOHPHQWDU ÀRZ GLVFKDUJH The setting is completed if the item set by the step 1 appears under COMPARISON FLOW EVAL 5 5 2 Measurement KHQ WKH YROXPH RI WKH PHDVXUHG REMHFW IHG WR RU GLVFKDUJHG IURP WKH ZHLJKLQJ KRSSHU LV LQVXI FLHQW WKH GH FLHQF LV DXWRPDWLFDOO IHG GLVFKDUJHG Load ...

Page 125: ...1 7 VHWWLQJ YDOXH RI 8 7KH 8 ODPS OLJKWV 1 7 7KH ORDG H FOXGLQJ WKH ZHLJKW RI WKH FRQWDLQHU POINT 2QFH IXOO ÀRZ PHGLXP ÀRZ RU GULEEOH ÀRZ VWRSV ÀRZ GLVFKDUJH ZLOO QRW VWDUW XQWLO the next measurement starts I 35 0 RI 5 1 2 KDV EHHQ VHW WR IXOO ÀRZ LV QRW H HFXWHG I 35 0 RI 5 1 2 KDV EHHQ VHW WR PHGLXP ÀRZ LV QRW H HFXWHG You can change the comparative target for the value of ZERO BAND and FULL Ref...

Page 126: ... value 6XSSOHPHQWDU ÀRZ GLVFKDUJH ZLWKLQ 0 7 0 OF COMPENSATION Time Net Waiting timer for judge Supplementary ÀRZ WLPH Waiting time until supplemen WDU ÀRZ MXGJPHQW Stable Finish Over OK Under Batch start XOO ÀRZ 0HGLXP ÀRZ ULEEOH ÀRZ Final Preliminary2 Final Preliminary1 Final Free fall Final 0 Waiting time until batch start Batch time monitor ing timer Final Under ...

Page 127: ...LEEOH ÀRZ ĺ PHGLXP ÀRZ ĺ IXOO ÀRZ LQ LQLWLDO ÀRZ PRGH HIRUH PDNLQJ D PHDVXUHPHQW HQWHU QHFHVVDU VHWWLQJV LQ DGYDQFH IRU PHDVXUHPHQW LQ LQLWLDO ÀRZ PRGH POINT 7KH LQLWLDO ÀRZ PRGH LV DYDLODEOH RQO LI 21752 02 LV 7 02 5 6 1 Brand settings 7R PDNH D PHDVXUHPHQW LQ LQLWLDO ÀRZ PRGH DIWHU HQWHULQJ WKH QRUPDO VHWWLQJV RI 6 48 17 02 ĺ 6HWWLQJV EHIRUH PHDVXUHPHQW VHW WKH IROORZLQJ LWHPV INITIAL FULL FLOW ...

Page 128: ...HDVXUHPHQW LQ LQLWLDO ÀRZ PRGH 5 6 2 Measurement KHQ PHDVXUHPHQW VWDUWV WKH PHDVXUHG REMHFW LV IHG LQ WKH RUGHU RI GULEEOH ÀRZ ĺ PHGLXP ÀRZ ĺ IXOO ÀRZ 3 2 1 Load cell Weighing hopper NJ Material Batch gate Discharge gate ...

Page 129: ...5 0 RI 5 1 2 KDV EHHQ VHW WR PHGLXP ÀRZ LV QRW H HFXWHG You can change the comparative target for the value of ZERO BAND and FULL Refer to 5 11 2 Comparative target settings of zero band and 5 11 3 Comparative target settings of full for more information 5266 RU 1 7 VHWWLQJ YDOXH RI 52 1 The ZERO BAND lamp lights HG 1 7 VHWWLQJ YDOXH RI 1 setting value of PRELIMINARY2 The F FLOW lamp is turned off...

Page 130: ... Final Preliminary2 Final Preliminary1 Final 0 Weighing value DWFK QLVK RXWSXW RQ Waiting time until batch start Batch time start timer Time Net Net Final Free fall 7DUH ZHLJKW FDQFHOODWLRQ LV SRVVLEOH GHSHQGLQJ RQ WKH VHWWLQJV QLWLDO IXOO ÀRZ QLWLDO PHGLXP ÀRZ Waiting time for judgment XOO ÀRZ FRPSDULVRQ interrupt timer 0HGLXP ÀRZ FRPSDUL son interrupt timer LEEOH ÀRZ FRPSDULVRQ interrupt timer ...

Page 131: ...if CONTROL MODE is BATCH MODE 5 7 1 Settings before measurement 7R PDNH D PHDVXUHPHQW LQ QR OH FRQWURO PRGH DIWHU HQWHULQJ WKH QRUPDO VHWWLQJV RI 6 48 17 02 ĺ 6HWWLQJV EHIRUH PHDVXUHPHQW VHW WKH IROORZLQJ LWHPV OPERATION OF NOZZLE 7 67 57 7 0 5 ZDLWLQJ WLPH IRU QR OH GRZQ Set OPERATION OF NOZZLE and BATCH START DELAY TIMER on Sequence control VFUHHQ 7DS 6 48 1 21752 RQ 0 18 WR GLVSOD 6HTXHQFH FRQW...

Page 132: ...yed 2 Tap VALID INHIBIT 6HWWLQJ 9 PDNHV WKH QR OH EHLQJ SXOOHG GRZQ DW WKH VWDUW RI PHDVXUHPHQW DQG PDNHV WKH QR OH EHLQJ SXOOHG XS DW WKH HQG RI GULEEOH ÀRZ Default INHIBIT 3 Tap OK NOZZLE CONTROL has been set and 23 5 7 21 2 12 VFUHHQ ZLOO EH displayed 2 Set the nozzle contact protection 1 Tap CONTACT STOP SEQUENCE The screen to set CONTACT STOP SEQUENCE ZLOO EH GLVSOD HG 2 Tap VALID INHIBIT 6HW...

Page 133: ...tion at the judgment of VXSSOHPHQWDU ÀRZ KDV EHHQ VHW DQG 23 5 7 21 2 12 GHOHWH VFUHHQ ZLOO EH GLVSOD HG 2 BATCH START DELAY TIMER waiting time for nozzle down settings 6HW WKH ZDLWLQJ WLPH IURP WKH VWDUW RI PHDVXUHPHQW XQWLO QR OH GRZQ 1 Set the waiting time for nozzle down 1 Enter the waiting time until nozzle down OORZDEOH UDQJH WR Default 0 POINT Refer to 3 5 Input of numerical values IRU PRUH...

Page 134: ...n nozzle control mode 5 7 2 Measurement 6 FRQWUROV QR OH SXOOLQJ XS GRZQ WR OO WKH FRQWDLQHU ZLWK WKH PHDVXUHG REMHFW Load cell or platform scale Material hopper Batch gate Container CSD 912B controls QR OH GRZQ XS ULEEOH 0HGLXP XOO ÀRZ ...

Page 135: ...Q QR OH FRQWURO PRGH Judgment Waiting timer for judge Stable Finish Batch start XOO ÀRZ 0HGLXP ÀRZ ULEEOH ÀRZ Final Preliminary2 Final Preliminary1 Final Free fall Final 0 Weighing value 1R OH LV SXOOHG GRZQ DW EDWFK VWDUW 1R OH GRZQ Waiting for batch start Time 1R OH LV SXOOHG XS ZKHQ WKH GULEEOH ÀRZ FORVHV ...

Page 136: ...ipe contents RECIPE START ACTIONS RECIPE FINISH ACTIONS RECIPE FINISH OUTPUT ON AUTO RECIPE CODE ACM automatic accumulation 1 RECIPE MODE settings 6HW WKH ZHLJKLQJ RSHUDWLRQ LQ UHFLSH PRGH 1 Display the screen to set RECIPE MODE 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap RECIPE MODE 7KH VFUHHQ WR VHW 5 3 02 ZLOO EH displayed 2 Set RECIPE MODE 1 Select RECIPE MODE INHI...

Page 137: ...ttings for more information 1 Display the RECIPE CODE screen 1 Tap RECIPE CODE on MENU 1 2 5 3 2 VFUHHQ ZLOO EH GLVSOD HG 2 Select the recipe number 7DS Ĺ Ļ WR VHOHFW WKH UHFLSH QXPEHU 7R VHW D QHZ EUDQG IRU UHFLSH VHOHFW D QXPEHU LQ ZKLFK QR EUDQG KDV EHHQ VHW 7R FKDQJH WKH contents of the brand that has already been set for recipe select the number of the brand to change 3 Set NAME 1 Tap NAME KD...

Page 138: ...ipe POINT Set brands in the order they are actually fed for recipe RQ UP HOHWH 80 9 8 V IRU UHFLSHV WKDW KDYH EHHQ PHDVXUHG RX FDQ FKHFN 80 9 8 RI WKH SDVW measurements You can also delete ACCUM VALUE POINT Refer to 5 11 10 Automatic accumulation settings for more information about the automatic accumulation function RQ UP WKH DFFXPXODWLRQ YDOXH GLVSOD HG under ACCUM VALUE on RECIPE CODE 2 2 POINT...

Page 139: ...input screen then tap ĺ 2 LQ VHTXHQFH Deleting ACCUM TIMES deletes ACCUM VALUE too RQ UP WKH VHWWLQJV RQ UP WKH VHWWLQJV RQ UP WKDW WKH EUDQG QXPEHU 1 0 DQG EUDQGV to combine for recipe have been set 8 Set the recipe contents 1 Tap OK The recipe contents have been set and the recipe becomes the target of measurement in recipe mode POINT 7R PDNH DOUHDG VHW UHFLSH FRQWHQWV WKH WDUJHW RI PHDVXUHPHQW ...

Page 140: ... OK OPERATION OF ZERO at the start of recipe has been set and the screen to set RECIPE START 7 216 ZLOO EH GLVSOD HG 4 RECIPE FINISH ACTIONS settings 6HW ZKHWKHU WR H HFXWH HDFK RI WKH IROORZLQJ RSHUDWLRQV RQ FRPSOHWLRQ RI PHDVXUHPHQW LQ recipe mode 7DUH ZHLJKW FDQFHOODWLRQ FOHDU RQ FRPSOHWLRQ RI UHFLSH 7 5 5 Mixture on completion of recipe MIXING ST Discharge on completion of recipe DISCHARGE STA...

Page 141: ...TARE CLEAR on completion of recipe has been set and the screen to set RECIPE 1 6 7 216 ZLOO EH GLVSOD HG 3 Set the mixing operation on completion of recipe 1 Tap MIXING START 7KH VFUHHQ WR VHW WKH PL LQJ RSHUDWLRQ ZLOO EH displayed 2 Tap VALID INHIBIT Default INHIBIT 3 Tap OK The mixing operation on completion of recipe has been set and the screen to set RECIPE FINISH 7 216 ZLOO EH GLVSOD HG 4 Set...

Page 142: ...W WKH RXWSXW WLPH RI UHFLSH QLVK VLJQDOV 1 Display the screen to set RECIPE FINISH OUTPUT ON 1 Tap SEQUENCE CONTROL on MENU 1 2 6 48 1 21752 ZLOO EH GLVSOD HG 2 Tap RECIPE FINISH OUTPUT ON on SEQUENCE CONTROL 3 3 The screen to set RECIPE FINISH OUTPUT ON ZLOO EH GLVSOD HG 6HW WKH RXWSXW WLPH RI UHFLSH QLVK VLJQDOV QWHU WKH RXWSXW WLPH RI UHFLSH QLVK VLJQDOV OORZDEOH UDQJH WR Default 0 00 POINT Ref...

Page 143: ...HFLSH PRGH 1 Display the screen to set automatic accumulation 1 Tap WEIGHING OPERATION on MENU 1 2 1 23 5 7 21 ZLOO EH GLVSOD HG 2 Tap AUTO RECIPE CODE ACM on WEIGHING OPERATION 2 2 7KH VFUHHQ WR VHW DXWRPDWLF DFFXPXODWLRQ ZLOO EH displayed 2 Set automatic accumulation 1 Tap VALID INHIBIT Default INHIBIT 2 Tap OK Automatic accumulation has been set and 1 23 5 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWL...

Page 144: ... D VLQJOH ZHLJKLQJ KRSSHU Load cell Weighing hopper Batch gate Each batch output Discharge gate 0L WXUH Q Special curry Mixture output Discharge output 1 Cardamom 2 Coriander 3 Clove 4 Cumin 5 Fennel 6 HQXJUHHN 7 Ginger 8 Hot pepper 9 White pepper 10 Turmeric More than one brand is combined for UHFLSH LQ D VLQJOH ZHLJKLQJ KRSSHU Material hopper Fed in sequence ...

Page 145: ...Q Time Net Gross Batch start is automatically executed in auto recipe mode Batch start is manually executed in semi auto recipe mode Discharge sequence can be added Automatic discharge is also available Waiting time for judgment Finish Over Under Final Judgment Judgment Brand name Recipe start Zero Tare Tate clear Recipe name Brand name1 Brand name2 Brand name3 Recipe name1 Recipe name2 Brand name...

Page 146: ...o VALID RECIPE FINISH ACTIONS settings Set MIXING START to VALID MIXING TIME OUTPUT ON MIXING FINISH OUTPUT ON 6HW HDFK LWHP RQ 6HTXHQFH FRQWURO VFUHHQ 7DS 6 48 1 21752 RQ 0 18 WR display Sequence control screen POINT Refer to 5 4 1 9 BATCH FINISH ACTIONS settings and 16 DISCH FINISH ACTIONS settings for more information about BATCH FINISH ACTIONS and DISCH FINISH ACTIONS Refer to 5 8 1 4 RECIPE F...

Page 147: ... set and 6 48 1 21752 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH RXWSXW WLPH RI PL LQJ VLJQDOV The setting is completed if the value set by the step 1 appears under MIXING TIME OUTPUT ON 2 MIXING FINISH OUTPUT ON settings 6HW WKH RXWSXW WLPH RI PL LQJ QLVK VLJQDOV 6HW WKH RXWSXW WLPH RI PL LQJ QLVK VLJQDOV QWHU WKH RXWSXW WLPH RI PL LQJ QLVK VLJQDOV OORZDEOH UDQJH WR Default 0 00 POINT 6HWWLQJ...

Page 148: ...g is completed if the value set by the step 1 appears under MIXING FINISH OUTPUT ON 3 Mixture IWHU FRPELQLQJ EUDQGV IRU UHFLSH WKH EDQGV DUH PL HG E UXQQLQJ WKH PL WXUH Q LQ WKH ZHLJKLQJ KRSSHU Load cell Material hopper Batch gate RQWURO WKH PL WXUH Q Discharge output Weighing hopper 0L WXUH Q Discharge gate Container 1 2 3 ...

Page 149: ... Stable Finish Batch start XOO ÀRZ 0HGLXP ÀRZ ULEEOH ÀRZ Weighing value Time Automatic mixture is available if RECIPE FINISH ACTIONS is set to MIXING START Gross Brand name1 Brand name2 Net Brand name3 Mixing time output on Mixture 5HFLSH QLVKHV Automatic discharge is available if RECIPE FINISH ACTIONS is set to DISCHARGE START ...

Page 150: ...SV FRPSDUDWRU PRGH RX QHHG WR VHW FRQGLWLRQV LQ DGYDQFH IWHU VZLWFKLQJ 1 02 WR 67 3 203 5 725 HQWHU WKH VHWWLQJV RQ RPSDUDWRU VHWWLQJ VFUHHQ 7DS 67 3 203 5 725 6 77 1 RQ 0 18 WR display Comparator setting screen POINT If WEIGHING MODE has not been set to 4 STEP COMPARATOR 4 STEP 203 5 725 6 77 1 ZLOO QRW EH GLVSOD HG RQ 0HQX VFUHHQ 5HIHU WR Weighing mode settings for more information about WEIGHIN...

Page 151: ... LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 2 Tap OK The comparison value for Condition1 has been set DQG 203 5 725 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH FRPSDULVRQ YDOXHV The setting is completed if the value set by the step 2 appears under S1 POINT To set comparison values for Condition2 to Condition4 tap S2 to S4 and repeat the same operation 2 Settings of comparative target 6HW J...

Page 152: ...RATION to TARGET OF S4 OPERATION and repeat the same operation 3 Settings of comparison condition Set equal to or more than or equal to or less than the setting value of the comparison value 1 Display the screen to set the comparison condition for Condition1 1 Tap CONDITION OF S1 on COMPARATOR 1 2 The screen to set the comparison condition for RQGLWLRQ ZLOO EH GLVSOD HG 2 Set the comparison condit...

Page 153: ...KH ZHLJKLQJ YDOXH LV GHWHUPLQHG DV QWHU WKH VHWWLQJV DV QHHGHG 1 Display the screen to set the value of ZERO BAND 1 Tap ZERO BAND on COMPARATOR 2 2 7KH VFUHHQ WR VHW WKH YDOXH RI 52 1 ZLOO EH displayed 2 Set the value of ZERO BAND 1 Enter the value of ZERO BAND OORZDEOH UDQJH WR Default 0 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 2 Tap OK...

Page 154: ...ult 0 POINT Refer to 3 5 Input of numerical values IRU PRUH LQIRUPDWLRQ DERXW KRZ WR HQWHU numerical values 2 Tap OK The value of FULL has been set and 203 5 725 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH YDOXH RI 8 The setting is completed if the value set by the step 2 appears under FULL RQ UPDWLRQ HOHWLRQ RI 80 9 8 I D PHDVXUHPHQW LQ VWHSV FRPSDUDWRU PRGH ZDV PDGH LQ WKH SDVW RX FDQ FKHFN A...

Page 155: ...LRQ RI 80 7 0 6 I D PHDVXUHPHQW LQ VWHSV FRPSDUDWRU PRGH ZDV PDGH LQ WKH SDVW RX FDQ FKHFN ACCUM TIMES of the past measurement You can also delete ACCUM TIMES POINT Refer to 5 11 10 Automatic accumulation settings for more information about the automatic accumulation function RQ UP 80 7 0 6 RQ UP WKH DFFXPXODWLRQ WLPHV GLVSOD HG under ACCUM TIMES on COMPARATOR 2 2 POINT To delete ACCUM TIMES tap A...

Page 156: ...RVV ZHLJKW RU WKH QHW ZHLJKW RI WKH PHDVXUHG REMHFW LV HTXDO WR RU PRUH WKDQ WKH comparison value set to S1 and is less than the comparison value set to S2 If the comparison condition has been set to LESS THAN 7KH JURVV ZHLJKW RU WKH QHW ZHLJKW RI WKH PHDVXUHG REMHFW LV HTXDO WR RU OHVV WKDQ WKH comparison value set to S1 URVV 1HW URVV 1HW RI WKH PHDVXUHG REMHFW Comparison value S1 Comparison valu...

Page 157: ...FK EHWZHHQ WKH VWDQGDUG and the simple display 6ZLWFK EHWZHHQ WKH VWDQGDUG GLVSOD DQG WKH simple display on Weighing screen 5 10 3 H ORFN RFN WKH NH V RQ HLJKLQJ VFUHHQ WR SUHYHQW them from being operated 5 10 4 5 10 1 Zero set record of zero point 7KH SUHVHQW ZHLJKLQJ YDOXH LV UHFRUGHG DV WKH HUR SRLQW DQG WKH GLVSOD RI WKH ZHLJKLQJ value is set to 0 7R XVH HUR VHW VHW WKH IROORZLQJ LWHPV Conditi...

Page 158: ...ATION OF ZERO POINT The operation condition of zero set is applicable to the operation condition of zero WUDFNLQJ 5HIHU WR HUR WUDFNLQJ VHWWLQJV IRU PRUH LQIRUPDWLRQ DERXW HUR WUDFNLQJ 2 Settings of RANGE OF ZERO 6HW WKH SHUFHQWDJH RI WKH HIIHFWLYH UDJH RI HUR VHW DJDLQVW WKH ZHLJKLQJ FDSDFLW WKH PD LPXP ORDG YDOXH RI WKH ZHLJKLQJ GHYLFH 1 Set the effective range 1 Enter the percentage of the effe...

Page 159: ...H 55 52 HUURU ZLOO EH GLVSOD HG 7R FDQFHO WKH HUURU WDS WKH 5525 5 6 7 NH KHQ WDUH ZHLJKW FDQFHOODWLRQ RU SUHVHW WDUH LV EHLQJ H HFXWHG FOHDU WKH WDUH ZHLJKW FDQFHOODWLRQ RU WKH SUHVHW WDUH UVW WKHQ H HFXWH HUR VHW 5HIHU WR 7DUH ZHLJKW FDQFHOODWLRQ DQG 3UHVHW WDUH VHWWLQJV IRU PRUH LQIRUPDWLRQ DERXW WDUH ZHLJKW FDQFHOODWLRQ DQG SUHVHW WDUH 5 10 2 Tare weight cancellation 7KH ORDG YDOXH GLVSOD VZLW...

Page 160: ...21 ZLOO EH displayed RQ UP WKH VHWWLQJV RQ UP WKH RSHUDWLRQ FRQGLWLRQ RI WDUH ZHLJKW cancellation The setting is completed if the item set by the step 1 appears under OPERATION OF TARE 2 RANGE OF TARE settings 6HW WKH RSHUDWLRQ UDQJH RI WDUH ZHLJKW FDQFHOODWLRQ 1 Set the operation range 1 Select the operation range of tare weight cancellation 5266 1 3 7 Tare ZHLJKW FDQFHOODWLRQ LV H HFXWDEOH ZKHQ ...

Page 161: ...ODPS LV WXUQHG RXW DQG WKH GLVSOD VZLWFKHV WR JURVV ZHLJKWV I RX WDS WKH 7 5 NH ZLWK WKH ORDG YDOXH RXW RI WKH RSHUDWLRQ UDQJH WKH 55 HUURU ZLOO EH GLVSOD HG 7R FDQFHO WKH HUURU WDS WKH 5525 5 6 7 NH 5 10 3 Switch between the standard and the simple display RX FDQ VZLWFK EHWZHHQ WKH VWDQGDUG GLVSOD DQG WKH VLPSOH GLVSOD RQ HLJKLQJ VFUHHQ 7KH VLPSOH GLVSOD GRHV QRW VKRZ EUDQG LQIRUPDWLRQ VWDWH GLVS...

Page 162: ...7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH VHWWLQJV RI WKH GLVSOD RI Weighing screen The setting is completed if the item set by the step 2 appears under SELECTION OF SCREEN 2 How to switch the display 3UHVVLQJ WKH ORDG GLVSOD RQ HLJKLQJ VFUHHQ IRU DERXW WKUHH VHFRQGV VZLWFKHV WKH GLVSOD EHWZHHQ WKH VWDQGDUG DQG WKH VLPSOH GLVSOD POINT 7R VZLWFK WKH GLVSOD RI HLJKLQJ VFUHHQ ZKHQ NH ORFN L...

Page 163: ... 0 1 5 NH 29 5 NH 81 5 NH NH NH 0 18 NH 5 7 21 NH 1 Key lock settings QWHU WKH VHWWLQJV IRU HDFK NH WR ORFN 1 Display I O screen 1 Tap I O on MENU 1 2 2 6 77 1 ZLOO EH GLVSOD HG 2 Set key lock 1 Tap a key to lock on I O SETTING 6 6 H ORFN VFUHHQ ZLOO EH GLVSOD HG 2 Tap VALID INHIBIT Default INHIBIT 3 Tap OK H ORFN KDV EHHQ VHW DQG 2 6 77 1 ZLOO be displayed POINT 7R ORFN DQRWKHU NH UHSHDW WKH oper...

Page 164: ...step DSSHDU XQGHU HDFK NH POINT I RX WDS D ORFNHG NH WKH EX HU VRXQGV DQG WKH NH RSHUDWLRQ LV GLVDEOHG 2 Temporary release of key lock Pressing the section in a red frame for more than three seconds sounds the recognition EX HU DQG UHOHDVHV WKH NH ORFN IRU WKUHH VHFRQGV KLOH NH ORFN LV UHOHDVHG NH RSHUDWLRQ is enabled Press for more three seconds ...

Page 165: ... 35 TARE of BRAND CODE from GROSS for display 5 11 4 Settings of zero operation DW SRZHU RQ 6HW ZKHWKHU WR VHW WKH ORDG YDOXH WR ZKHQ 6 912B is turned on 5 11 6 6HWWLQJV RI WDUH ZHLJKW FDQFHOODWLRQ DW SRZHU RQ 6HW ZKHWKHU WR H HFXWH WDUH ZHLJKLQJ FDQFHOODWLRQ ZKHQ 6 LV WXUQHG RQ 5 11 7 Hold settings Set the condition and target to hold the display of ORDG YDOXHV DQG ZHLJKLQJ VWDWHV 5 11 8 1HW ZHLJ...

Page 166: ...FINISH Compare the VHWWLQJ YDOXHV RI 5 1 2 ZLWK WKH ZHLJKLQJ YDOXH ZKHQ PHDVXUHPHQW QLVK VLJQDOV are output and hold the judgment result When PHDVXUHPHQW QLVK VLJQV DUH FDQFHOHG KROGLQJ the judgment result is also canceled Default AT BATCH FINISH 2 Tap OK The comparison operation condition has been set DQG 1 23 5 7 21 ZLOO EH displayed RQ UP WKH VHWWLQJV RQ UP WKH RSHUDWLRQ FRQGLWLRQ RI comparison...

Page 167: ...S OLJKWV LQ FDVH RI 1 7 YDOXH RI ZERO BAND COMPARISION OFF 1RW FRPSDUH ZLWK WKH value of ZERO BAND of BRAND CODE _ 5266_ Compare the value of ZERO BAND RI 5 1 2 ZLWK WKH JURVV ZHLJKW 7KH 52 1 ODPS OLJKWV LQ FDVH RI _ 5266_ YDOXH RI 52 1 _1 7_ Compare the value of ZERO BAND of 5 1 2 ZLWK WKH QHW ZHLJKW 7KH 52 1 ODPS OLJKWV LQ FDVH RI _1 7_ YDOXH RI ZERO BAND Default GROSS 2 Tap OK The comparative t...

Page 168: ... ODPS OLJKWV LQ FDVH RI 5266 YDOXH RI 8 NET Compare the value of FULL of BRAND 2 ZLWK WKH QHW ZHLJKW 7KH 8 ODPS OLJKWV LQ FDVH RI 1 7 YDOXH RI 8 COMPARISION OFF 1RW FRPSDUH ZLWK WKH value of FULL of BRAND CODE _ 5266_ Compare the value of FULL of 5 1 2 ZLWK WKH JURVV ZHLJKW 7KH 8 ODPS OLJKWV LQ FDVH RI _ 5266_ YDOXH of FULL _1 7_ Compare the value of FULL of BRAND 2 ZLWK WKH QHW ZHLJKW 7KH 8 ODPS ...

Page 169: ... 0 18 WR GLVSOD 6 81 7 21 VFUHHQ Set PRESET TARE of BRAND CODE on BRAND CODE screen Tap BRAND CODE RQ 0 18 WR GLVplay BRAND CODE screen Refer to 5 2 3 Brand settings for more information about BRAND CODE 1 OPERATION OF PRE TARE settings 6HW ZKHWKHU WR H HFXWH SUHVHW WDUH 1 Set the operation of preset tare 1 Select the operation of preset tare VALID Execute preset tare at measurement INHIBIT Not ex...

Page 170: ...the use of the last tare value 1 Select the operation of use of the last tare value THE LAST TARE IS USED Use the preset WDUH YDOXH EHIRUH VZLWFK RI EUDQGV TARE CLEAR Clear the preset tare value EHIRUH VZLWFK RI EUDQGV Default TARE CLEAR 2 Tap OK Use of the last tare value been set and BASIC 81 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH VHWWLQJV RI XVH RI WKH ODVW WDUH value The setting i...

Page 171: ...ECTION BAND STAB DETECTION TIME and OPERATION OF 67 7 RQ 6 81 7 21 VFUHHQ 7DS 6 81 7 21 RQ 0 18 WR display BASIC FUNCTION screen 1 STAB DETECTION BAND settings 6HW WKH FRHI FLHQW RI WKH GDWD ZLGWK WR VWDUW GHWHFWLQJ ZKHWKHU WKH ZHLJKLQJ YDOXH LV VWDEOH RU QRW KHQ ÀXFWXDWLRQ RI WKH ZHLJKLQJ YDOXH IDOOV ZLWKLQ WKH UDQJH RI WKH VHW FRHI FLHQW RI WKH GDWD ZLGWK î 9 6 21 GHWHFWLQJ ZKHWKHU WKH ZHLJKLQJ ...

Page 172: ...pleted if the value set by the step 1 appears under STAB DETECTION BAND 2 STAB DETECTION TIME settings 6HW WKH WLPH WR MXGJH WKH ZHLJKLQJ YDOXH DV VWDEOH 7KH ZHLJKLQJ YDOXH LV MXGJHG DV VWDEOH ZKHQ WKH VHW GHWHFWLRQ WLPH HODSVHV DIWHU ÀXFWXDWLRQ RI WKH ZHLJKLQJ YDOXH IDOOV ZLWKLQ WKH VWDELOLW GHWHFWLRQ EDQG GHWHFWLRQ EDQG FRHI FLHQW î 9 6 21 1 Set STAB DETECTION TIME 1 Enter STAB DETECTION TIME Un...

Page 173: ...ING SCREEN ONLY 6 FRPSOLHV ZLWK 6 E VHWWLQJ SET MEASUREMENT ACT to VALID too Refer to 5 11 11 Measurement Act batch settings for more information 2 Tap OK OPERATION OF STABILITY has been set and 6 81 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP 23 5 7 21 2 67 7 The setting is completed if the item set by the step 1 appears under OPERATION OF STABILITY 5 11 6 Zero settings at power on QWHU WKH V...

Page 174: ...R GLVSOD DW SRZHU RQ KDV EHHQ VHW DQG 6 81 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH VHWWLQJV RI HUR GLVSOD DW SRZHU on The setting is completed if the item set by the step 1 appear under ZERO AT POWER ON POINT HFXWLQJ HUR GLVSOD DW SRZHU RQ FOHDUV WKH GDWD RI WDUH ZHLJKW FDQFHOODWLRQ SUHVHW WDUH HUR VHW DQG HUR WUDFNLQJ YHQ LI HUR GLVSOD DW SRZHU RQ LV VHW WR 9 WKH ORDG YDOXH GLVSOD ZLO...

Page 175: ...setting is completed if the item set by the step 1 appear under ZERO CLR AT POWER ON 5 11 7 Settings of tare weight cancellation at power on QWHU WKH VHWWLQJV WR H HFXWH WDUH ZHLJKW FDQFHOODWLRQ DQG FOHDU WKH YDOXH RI WDUH ZKHQ 6 912B is turned on 7R H HFXWH WDUH ZHLJKW FDQFHOODWLRQ DQG FOHDU WKH YDOXH RI WDUH DW SRZHU RQ VHW WKH IROORZLQJ items 7 5 7 32 5 21 WDUH ZHLJKW FDQFHOODWLRQ DW SRZHU RQ 7...

Page 176: ...V RI WDUH ZHLJKW cancellation at power on The setting is completed if the item set by the step 1 appear under TARE AT POWER ON 2 TARE CLR AT POWER ON settings 6HW ZKHWKHU WR FOHDU WKH YDOXH RI WDUH ZKHQ 6 LV WXUQHG RQ 1 Set clearing the value of tare at power on 1 Tap VALID INHIBIT Default INHIBIT 2 Tap OK OHDULQJ WKH YDOXH RI WDUH DW SRZHU RQ KDV EHHQ VHW DQG 6 81 7 21 ZLOO EH GLVSOD HG RQ UP WKH...

Page 177: ...QG WKH GDWD RXWSXW IURP H WHUQDO devices 7R KROG WKH GLVSOD RI WKH ORDG YDOXH FRPSDULVRQ UHVXOWV DQG RXWSXW GDWD VHW WKH IROORZLQJ items OPERATION OF HOLD LOAD DISPLAY VALUE HOLD COMPARATIVE RESULT HOLD 6 2 LQN 2 Enter each hold settings on BASIC FUNCTION screen Tap BASIC FUNCTION on 0 18 WR GLVSOD 6 81 7 21 VFUHHQ Operation condition of hold 6 2 Holding load value display Holding comparison resul...

Page 178: ... ZKHQ PHDVXUHPHQW QLVKHV SYNC WITH RECIPE FIN ROG WKHP ZKHQ UHFLSH QLVKHV Default SYNC WITH HOLD 2 Tap OK The operation condition of hold has been set and 6 81 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH RSHUDWLRQ FRQGLWLRQ RI KROG The setting is completed if the item set by the step 1 appears under OPERATION OF HOLD 2 LOAD DISPLAY VALUE HOLD settings 6HW ZKHWKHU WR KROG WKH ORDG YDOXH GLV...

Page 179: ...OXHV LI WKH RSHUDWLRQ FRQGLWLRQ LV PHW 7KH IROORZLQJV DUH KHOG DV FRPSDULVRQ UHVXOWV Simple comparative mode and sequential mode F FLOW M FLOW D FLOW OVER OK UNDER FULL ZERO BAND 4 steps comparator mode S1 S2 S3 S4 FULL ZERO BAND 1 Set holding comparison results 1 Tap VALID INHIBIT Default INHIBIT 2 Tap OK Holding comparison results has been set and 6 81 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV R...

Page 180: ...e setting is completed if the item set by the step DSSHDUV XQGHU 6 2 POINT YHQ LI RYHUORDG RU H FHVVLYH LQSXW WR WKH FRQYHUWHU RFFXUV ZKLOH WKH RXWSXW GDWD RI 6 LV EHLQJ KHOG WKH GDWD ZLOO EH NHSW KHOG DQG 2 RU 29 ZLOO QRW EH GLVSOD HG RQ WKH VFUHHQ HWHFW RYHUORDG RU H FHVVLYH LQSXW WR WKH FRQYHUWHU by OVR signals 5 CC Link HOLD settings 6HW ZKHWKHU WR KROG WKH RXWSXW GDWD RI LQN LI WKH RSHUDWLRQ ...

Page 181: ...ion settings 7KH VLJQ RI WKH QHW ZHLJKW YDOXHV GLVSOD HG RQ HLJKLQJ VFUHHQ RI 6 DQG H WHUQDO devices is inverted from to or from to QWHU WKH VHWWLQJV LI RX ZDQW WR KDYH QHJDWLYH QHW ZHLJKW YDOXHV GLVSOD HG DV SRVLWLYH YDOXHV ZKHQ RX PDNH D PHDVXUHPHQW LQ VLPSOH FRPSDUDWLYH GLVFKDUJH PRGH DQG WKH VHTXHQWLDO discharge mode 1 Display the screen to set inversion of the net weigh sign 1 Tap BASIC FUNCT...

Page 182: ...cumulation Load values are accumulated for each brand set by Brand settings Recipe accumulation Load values are accumulated for each recipe settings set by recipe mode 7R H HFXWH DFFXPXODWLRQ RI ORDG YDOXHV VHW WKH IROORZLQJ LWHPV AUTOMATIC ACCUM operation of automatic accumulation CONDITION OF AUTO ACM condition of automatic accumulation Set the operation of automatic accumulation and the conditi...

Page 183: ...ration of automatic accumulation has been set DQG 1 23 5 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH RSHUDWLRQ RI DXWRPDWLF accumulation The setting is completed if the item set by the step 1 appears under AUTOMATIC ACCUM 2 CONDITION OF AUTO ACM settings Set the condition to automatically accumulate load values 1 Set the condition of automatic accumulation 1 Select the condition of automat...

Page 184: ...under CONDITION OF AUTO ACM POINT To execute accumulation for recipe settings you also need to set AUTO RECIPE CODE ACM Refer to 5 8 1 6 AUTO RECIPE CODE ACM automatic accumulation settings for more information RX FDQ FRQ UP DQG FOHDU DFFXPXODWLRQ YDOXHV RQ 5 1 2 VFUHHQ DQG RECIPE CODE screen Refer to 5 2 3 Brand settings and 5 8 1 2 Settings of recipe contents for more information ...

Page 185: ...DW ZDV VHW EHIRUH 6 7 MEASUREMENT ACT is set to VALID is 40 or more the value remains unchanged STAB FILTER TIME 0 5 I WKH YDOXH WKDW ZDV VHW EHIRUH 6 7 MEASUREMENT ACT is set to VALID is 0 5 or less the value remains unchanged STAB FILTER BAND 2 0 I WKH YDOXH WKDW ZDV VHW EHIRUH 6 7 MEASUREMENT ACT is set to VALID is 2 0 or more the value remains unchanged STAB DETECTION TIME 1 0 I WKH YDOXH WKDW...

Page 186: ...FRPSO ZLWK WKH 0HDVXUHPHQW FW DSDQHVH DQG 6 81 7 21 ZLOO EH displayed RQ UP WKH VHWWLQJV RQ UP 0HDVXUHPHQW FW EDWFK VHWWLQJV The setting is completed if the item set by the step 2 appears under SET MEASUREMENT ACT 5 11 12 Automatic printing settings 6HW ZKHWKHU WKH SULQWHU FRQQHFWHG WR 6 VKRXOG DXWRPDWLFDOO SULQW RXW WKH GDWD ZKHQ the ZERO BAND lamp is turned out and the STABLE lamp lights on Weig...

Page 187: ... printing 1 Tap VALID INHIBIT Default INHIBIT 2 Tap OK Automatic printing has been set and WEIGHING 23 5 7 21 ZLOO EH GLVSOD HG RQ UP WKH VHWWLQJV RQ UP WKH VHWWLQJV RI DXWRPDWLF SULQWLQJ The setting is completed if the item set by the step 2 appears under AUTOMATIC PRINT ...

Page 188: ...168 Measurement 5 5 11 Settings related to measurement ...

Page 189: ...cal display 6 6 1 Graphical display description 170 6 2 Graphical display 174 6 3 Settings related to the graphical display 176 6 Graphical display This chapter describes the graphical display of weighing values ...

Page 190: ...OINT For how to display the graph refer to 6 2 Graphical display 6 1 1 Checking the transition of weighing values CURSOR OFF KHQ D GXUDWLRQ LV QRW VSHFL HG WKH JUDSK ZLOO EH DV VKRZQ EHORZ 1 Gross Net display 5266 QGLFDWHV WKDW WKH ZHLJKLQJ YDOXH GLVSOD HG LQ WKH JUDSK LV JURVV DPRXQW 1 7 QGLFDWHV WKDW WKH ZHLJKLQJ YDOXH GLVSOD HG LQ WKH JUDSK LV QHW DPRXQW 7R VZLWFK the display use 1 GROSS NET ke...

Page 191: ...ed after completion of weighing For more information about the display when CURSOR ON is selected refer to KHFNLQJ D ZHLJKLQJ YDOXH RYHU D VSHFL HG GXUDWLRQ 85625 21 8 GROSS NET key Switches between gross and net weight displays Pressing GROSS switches to gross weight display Pressing NET switches to net weight display 9 T key Sets a weighing time during which the graph is displayed A currently se...

Page 192: ...6 1 1 Checking the transition of weighing values CURSOR OFF 1 Weighing value at the cursor Indicates the weighing value at the cursor When the t cursor light green is OFF the weighing value at the t1 cursor red is displayed When the t cursor light green is ON the weighing value at the t cursor light yellow is displayed 2 t1 time Indicates the length of time from start of weighing to the t1 cursor ...

Page 193: ...sor light green is moved POINT Pressing and holding the keys will rapidly move the cursor 7 t key Switches the t cursor display light green between ON and OFF When the t cursor OLJKW JUHHQ LV 21 The t cursor light green can be moved The weighing value at the t cursor is displayed When the W FXUVRU OLJKW JUHHQ LV 2 The t1 cursor red can be moved The weighing value at the t1 cursor is displayed ...

Page 194: ... be displayed 2 Input a lower limit value of the weighing value 6HWWDEOH UDQJH WR POINT Refer to 3 5 Input of numerical values for more information about how to enter numerical values 3 Tap OK The lower limit value of the weighing value will be set and the graph screen will be displayed POINT When the currently set lower limit value is higher than a current upper limit value that has been set by u...

Page 195: ...ayed POINT When the currently set upper limit value is lower than the current lower limit value that has been set by using the Y0 key a value obtained by adding 1 to the lower limit value will be set as the upper limit value 4 Set a weighing time 1 Tap T The time setting screen will be displayed 2 Input a weighing time 6HWWDEOH UDQJH WR POINT Refer to 3 5 Input of numerical values for more informa...

Page 196: ...isplayed 2 Set a graphical drawing condition 1 Select a drawing condition SINGLE Pressing the START key starts graphical drawing The drawing is executed once for the length of time set by using the T key START LEVELĹ Pressing the START key starts level detection When the weighing value exceeds a currently set level graphical drawing will be started The drawing is executed once for the length of ti...

Page 197: ...l drawing The drawing is executed once for the length of time set by using the T key QLWLDO YDOXH 6 1 POINT For more information about the trigger level setting refer to 6 3 2 Trigger level setting 2 Tap OK The graphical drawing condition will be set and BASIC FUNCTION 3 4 will be displayed 3 Check the setting that you set 1 Check the drawing condition setting The setting is completed if the item ...

Page 198: ... level 1 Input a trigger level 6HWWDEOH UDQJH WR QLWLDO YDOXH 2 Tap OK The trigger level will be set and BASIC FUNCTION 3 4 will be displayed 3 Check the setting that you set 1 Check the trigger level setting The setting is completed if the value set by the step DSSHDUV XQGHU 5 3 75 5 9 ...

Page 199: ...en display 180 7 2 Settings related to compensation 185 6HWWLQJV UHODWHG WR QRLVH UHGXFWLRQ OWHU 189 7 4 Settings related to the function keys 194 7 5 Setting initialization 197 7 Various settings This chapter describes various function settings of CSD 912B ...

Page 200: ...ng Sets a unit of the load value display 7 1 4 Backlight off time setting Sets a length of unoperated time of CSD 912B until the display backlight goes off 7 1 5 7 1 1 Display rate setting How many times the load value display will be updated per second is set 1 Display the display rate setting screen 1 Tap BASIC FUNCTION on MENU 1 2 BASIC FUNCTION 1 4 will be displayed 2 Tap DISP REFRESH RATE The...

Page 201: ...he decimal point position setting screen 1 Tap CALIBRATION on MENU 1 2 5 7 21 ZLOO EH GLVSOD HG 2 Tap DECIMAL POINT The decimal point position setting screen will be displayed 2 Set a decimal point position 1 Select a decimal point position Selections 0 0 0 0 00 0 000 0 000 0 Initial value 0 2 Tap OK The decimal point position will be set and 5 7 21 ZLOO EH GLVSOD HG 3 Check the setting that you s...

Page 202: ...W GLYLVLRQ 2 ZLOO EH displayed When the weighing value is less than a YDOXH RI ZHLJKLQJ FDSDFLW GLYLVLRQ OL will be displayed 110 When the weighing value exceeds a YDOXH RI ZHLJKLQJ FDSDFLW 2 ZLOO be displayed When the weighing value is less WKDQ D YDOXH RI ZHLJKLQJ FDSDFLW OL will be displayed 20D to 9D When the weighing value exceeds D YDOXH RI ZHLJKLQJ FDSDFLW GLYLVLRQ 2 will be displayed When ...

Page 203: ...yed 2 Set a unit 1 Select a unit Selections NONE g kg t lb N kN Initial value NONE 2 Tap OK 7KH XQLW ZLOO EH VHW DQG 5 7 21 ZLOO EH displayed 3 Check the setting that you set 1 Check the unit The setting is completed if the item set by the step DERYH DSSHDUV XQGHU 81 7 7 1 5 Backlight off time setting A length of unoperated time of CSD 912B until the display backlight goes off is set 1 Display the...

Page 204: ...ght goes off Unit 1 minute Settable range 0 to 60 Initial value 0 32 17 If set to 0 the backlight will not go off 5HIHU WR QSXW RI QXPHULFDO YDOXHV for more information about how to enter numerical values 2 Tap OK 7KH EDFNOLJKW RII WLPH ZLOO EH VHW DQG 6 67 0 ZLOO be displayed 3 Check the setting that you set 1 Check the backlight off time The setting is completed if the value set by the step DSSH...

Page 205: ...pling will be executed per second is set 1 Display the A D sampling rate setting screen 1 Tap BASIC FUNCTION on MENU 1 2 BASIC FUNCTION 1 4 will be displayed 2 Tap A D SAMPLING RATE The A D sampling rate setting screen will be displayed 2 Set an A D sampling rate 1 Select an A D sampling rate Selections 10 TIMES s 20 TIMES s 50 TIMES s 100 TIMES s 200 TIMES s 1 000 TIMES s Initial value 200 TIMES ...

Page 206: ...N on MENU 1 2 1 Target of zero tracking setting A target of zero tracking is set 1 Set a target of zero tracking 1 Select a target of zero tracking 5266 1 7 KHQ VHOHFWHG ERWK JURVV DQG QHW weights will be a target of zero tracking 5266 KHQ VHOHFWHG RQO JURVV ZHLJKW ZLOO D target of zero tracking QLWLDO YDOXH 5266 2 Tap OK The target of zero tracking will be set and BASIC FUNCTION 2 4 will be displ...

Page 207: ...ettable range 0 0 to 9 9 Initial value 0 0 32 17 If set to 0 0 zero tracking will not be executed 5HIHU WR QSXW RI QXPHULFDO YDOXHV for more information about how to enter numerical values 2 Tap OK 7KH HUR WUDFNLQJ GDWD ZLGWK FRHI FLHQW ZLOO EH VHW and BASIC FUNCTION 2 4 will be displayed 2 Check the setting that you set 1 Check the value of zero tracking data width FRHI FLHQW The setting is compl...

Page 208: ...VHW DW 52 75 1 1 IRU PRUH WKDQ WKH OHQJWK RI WLPH VHW DW 52 75 1 7 0 32 17 When the weighing value gradually vibrates at around the zero point do not execute zero tracking YHQ LI WKH FKDQJH ZLGWK RI D ZHLJKLQJ YDOXH V LV DUH EH RQG WKH UDQJH RI WKH zero tracking data width zero tracking may be executed when the change width EHFRPHV JUDGXDO E PHDQV RI WKH GLJLWDO OWHU ĺ LJLWDO OWHU VHWWLQJ RU WKH V...

Page 209: ...HHQ VWDELOL HG ZLWK WKH GLJLWDO OWHU IRU IXUWKHU VWDELOL DWLRQ 7 3 3 QDORJ OWHU VHWWLQJ Noise of input signals is controlled LVSOD WKH DQDORJ OWHU VHWWLQJ VFUHHQ 1 Tap BASIC FUNCTION on MENU 1 2 BASIC FUNCTION 1 4 will be displayed 2 Tap ANALOG FILTER 7KH DQDORJ OWHU VHWWLQJ VFUHHQ ZLOO EH GLVSOD HG 2 Set a frequency 1 Select a frequency Selections 2Hz 4Hz 6Hz 8Hz 10Hz 100Hz Initial value 4Hz 2 Ta...

Page 210: ...Settable range 1 to 256 Initial value 16 32 17 Setting a lower value of the moving average frequency will decrease noise durability and increase the response speed Setting a higher value of the moving average frequency will increase noise durability and decrease the response time 5HIHU WR QSXW RI QXPHULFDO YDOXHV for more information about how to enter numerical values 2 Tap OK The moving average ...

Page 211: ...LOO QRW EH H HFXWHG DQG ZHLJKLQJ ZLOO EH H HFXWHG ZLWK UHVSRQVH VSHHG SULRULWL HG 7R H HFXWH D VWDELOL DWLRQ OWHU WKH LWHPV EHORZ PXVW EH VHW 6WDELOL DWLRQ OWHU PRYLQJ DYHUDJH IUHTXHQF VHWWLQJ 6WDELOL DWLRQ OWHU GDWD ZLGWK FRHI FLHQW 6WDELOL DWLRQ OWHU WLPH ZLGWK The above items are set on the basic function setting screen To display the basic function setting screen tap BASIC FUNCTION on MENU 1 2...

Page 212: ... ZLGWK FRHI FLHQW LV DQG WKH GLYLVLRQ LV Q WKLV FDVH WKH VWDELOL DWLRQ OWHU GDWD ZLGWK ZRXOG EH DQG WLPH PHDVXUHPHQW ZRXOG VWDUW ZKHQ WKH change width of the weighing value becomes within2 0 6HW D VWDELOL DWLRQ OWHU GDWD ZLGWK FRHI FLHQW QSXW D VWDELOL DWLRQ OWHU GDWD ZLGWK FRHI FLHQW Unit D Settable range 0 0 to 99 9 Initial value 2 0 32 17 I VHW WR D VWDELOL DWLRQ OWHU ZLOO QRW be executed 5HIHU...

Page 213: ...H RI WKH VWDELOL DWLRQ OWHU WLPH width The setting is completed if the value set by the step DSSHDUV XQGHU 67 7 5 7 0 6WDELOL DWLRQ OWHU H HFXWLRQ If the change width of a weighing value stays within the data width which has been set at 67 7 5 1 IRU PRUH WKDQ WKH OHQJWK RI WLPH ZKLFK KDV EHHQ VHW DW 67 7 5 7 0 D PRYLQJ DYHUDJH SURFHVV ZLOO EH H HFXWHG WKH QXPEHU RI WLPHV VHW DW 67 7 21 7 5 LQ RUGH...

Page 214: ...eys allowing the operator to directly assign functions on this screen 7 4 1 Function setting Functions are assigned to the function keys 1 Display the function key setting screen 1 Tap I O on MENU 1 2 2 6 77 1 ZLOO EH GLVSOD HG 2 Set functions 1 Tap your desired function key The function key function selection screen will be displayed The function keys will be displayed Tap the F key Tap your desi...

Page 215: ...le IXQFWLRQV UHIHU WR 6HWWLQJ IXQFWLRQ OLVW 3 Tap OK 7KH IXQFWLRQ ZLOO EH DVVLJQHG DQG 2 6 77 1 1 6 will be displayed 32 17 To assign a function to another function key repeat the steps above 3 Check the setting that you set 1 Check the function key settings The setting is completed if the item set by the step DERYH DSSHDUV XQGHU LWV FRUUHVSRQGLQJ IXQFWLRQ key ...

Page 216: ...D SDXVH WR UHVWDUW ZHLJKLQJ RSHUDWLRQ 25 7 FINISH Forcibly completes weighing operation 25 5 3 FINISH Forcibly completes recipe operation 25 6 FINISH Forcibly completes discharge operation ACCUM COMMAND Accumulates a load value 20 5 0 7 5 Clears the previously accumulated load value M F F 203 16 7 21 Calculates the average value of the last four actual free falls as a compensation value and applie...

Page 217: ...ontrol settings standard communication settings and option settings 7 5 2 7 5 1 Comparative setting related memory initialization Brand codes recipe codes and 4 step comparator setting are initialized 1 Display the comparative setting related memory initialization screen 1 Tap SYSTEM on MENU 2 2 6 67 0 ZLOO EH GLVSOD HG 2 Tap COMPARATOR MEMORY CLR The comparative setting related memory initializat...

Page 218: ...67 0 ZLOO EH GLVSOD HG 2 Tap OPERATION MEMORY CLR The operational setting related memory initialization screen will be displayed 2 Initialize the operational setting related memory 1 Tap VALID Initial value INHIBIT 2 Tap OK Basic function settings I O settings weighing operation settings sequence control settings standard communication settings and option VHWWLQJV ZLOO EH LQLWLDOL HG DQG 6 67 0 ZL...

Page 219: ...199 Data management 8 8 1 Data types 200 8 2 Data storage location setting 202 8 Data management This chapter describes data managed by CSD 912B ...

Page 220: ...a type Setting included in the data Stored in Remarks Zero set data OPERATION OF ZERO RANGE OF ZERO RAM Zero tracking data TARGET OF ZERO TRACKING ZERO TRACKING TIME ZERO TRACKING BAND RAM Tare weight cancellation data OPERATION OF TARE RANGE OF TARE RAM Brand setting data NAME HOPPER No FINAL FREE FALL PRELIMINARY1 PRELIMINARY2 OVER UNDER ZERO BAND FULL A F F COMPENSATION SUPPLEMENTARY FLOW TIME ...

Page 221: ...ION OF S2 CONDITION OF S3 CONDITION OF S4 RAM The storage location can be changed to the LQWHUQDO ÀDVK 520 Calibration data BRIDGE POWER SUPPLY DIVISION WEIGHING CAPACITY ZERO ADJUSTMENT SPAN ADJUSTMENT ZERO SPAN ADJUSTMENT EEPROM Calibration related data PITCH CONFIRMATION SET DIGITAL LINEARISE DECIMAL POINT OL DISPLAY CONDITION UNIT ADJ GRAV ACCELERATION EEPROM POINT For more information about c...

Page 222: ...F DATA The data storage location setting screen will be displayed 2 Set a data storage location 1 Select a data storage location RAM Stores data in RAM ODVK 520 6WRUHV GDWD LQ ÀDVK 520 Initial value RAM 2 Tap OK The data storage location will be set and SYSTEM will be displayed 3 Check the setting that you set 1 Check the data storage location The setting is completed if the item set by the step 2...

Page 223: ...2 2 wires method serial interface serial interface 214 9 3 External control I O 218 9 4 Analog output 229 9 5 BCD output 236 9 6 RS 232C interface 247 9 7 RS 422 485 interface 252 9 External equipment This chapter describes how to wire and set external equipment ...

Page 224: ...able from CR LF and CR Transmission data ASCII code Length of cable Approx 1 km Address number Selectable from 0 to 31 Number of connectable unit Up to 32 units 1 unit for stream mode POINT The standard RS 485 communication and Modbus communication cannot be linked with optional RS 232C communication RS 422 communication or RS 485 communication For more information about the data formats refer to ...

Page 225: ...OH 6 V WR WKH VWDQGDUG 56 LQWHUIDFH GR VR DV VKRZQ EHORZ Address 00 A B S G S G RS 485 RS 485 Standard RS 485 interface CSD 912B Address 00 A B S G S G RS 485 RS 485 Standard RS 485 interface CSD 912B Address 01 A B S G CSD 912B Address 31 A B S G CSD 912B A termination resistance should be wired on the unit located IDUWKHVW DZD IURP WKH KRVW LUH a resistance between A and B of the terminal block ...

Page 226: ...plicable standards and the JIS standards wire a shielded cable wire to the F G terminal of the RS 485 interface terminal block The polarity of signals on the host side such as a PC and a sequencer may be opposite 9 1 3 Communication setting 7KH IROORZLQJ LWHPV PXVW EH VHW DFFRUGLQJ WR WKH VSHFL FDWLRQV RI WKH VWDQGDUG 56 LQWHUIDFH Operation mode Baud rate Data bit length Parity Stop bit Terminator...

Page 227: ...the host MODBUS 8VHV 0RGEXV FRPPXQLFDWLRQ STREAM MODE RQWLQXRXVO RXWSXWV WKH ODWHVW data of the data that has been set as an output target SYNC WITH PRINT 2XWSXWV GDWD WKDW KDV EHHQ set as a target of output in synchronization with a print command from external control input SYNC WITH ACCUM 2XWSXWV GDWD WKDW KDV been set as a target of output in synchronization with an accumulation signal SYNC WIT...

Page 228: ...ting 2 Tap OK The operation mode will be set and RS485 1 2 will be displayed 2 Check the setting that you set 1 Check the operation mode setting The setting is completed if the item set by the step 1 above appears under OPERATION MODE 2 Baud rate setting Sets a baud rate of the standard RS 485 interface 1 Set a baud rate 1 Select a baud rate 6HOHFWLRQV ESV ESV ESV 9 600 bps 19 200 bps 38 400 bps Q...

Page 229: ...e setting that you set 1 Check the data bit length setting The setting is completed if the item set by the step 1 above appears under DATA BIT LENGTH 4 Parity setting Sets the parity bit of the standard RS 485 interface 1 Set a parity bit 1 Select a parity bit 6HOHFWLRQV 121 2 9 1 QLWLDO YDOXH 2 2 Tap OK The parity bit will be set and RS485 1 2 will be displayed 2 Check the setting that you set 1 ...

Page 230: ...at you set 1 Check the stop bit setting The setting is completed if the item set by the step 1 above appears under STOP BITS 6 Terminator setting Sets the terminator of the standard RS 485 interface 1 Set a terminator 1 Select a terminator 6HOHFWLRQV 5 5 QLWLDO YDOXH 5 2 Tap OK The terminator will be set and RS485 1 2 will be displayed 2 Check the setting that you set 1 Check the terminator settin...

Page 231: ...point addition setting The setting is completed if the item set by the step 1 above appears under ADD THE DECIMAL POINT 8 Address setting Sets an address number for communication 1 Set an address number 1 Input an address number 6HWWDEOH UDQJH WR QLWLDO YDOXH POINT Refer to 3 5 Input of numerical values for more information about how to enter numerical values 2 Tap OK The address number will be se...

Page 232: ... 2 Tap OK The delay time will be set and RS485 1 2 will be displayed 2 Check the setting that you set 1 Check the delay time The setting is completed if the value set by the step 1 above appears under DATA DELAY TIME 10 Output target setting for stream mode Sets data to be output when the operation mode is in stream mode 1 Set an output target for stream mode 1 Select an output target in stream mo...

Page 233: ...s 4 800 bps 9 600 bps 19 200 bps and 38 400 bps Data bit length 8 bit Parity bit 6HOHFWDEOH IURP 121 9 1 DQG 2 Stop bit Selectable from 1 bit and 2 bit Address number Selectable from 0 to 31 Note that 0 is a broadcast address RS 485 data delay time 0 10 seconds or more POINT For more information about the RS 485 communication setting refer to 9 1 3 Communication setting Neither ADD THE DECIMAL POI...

Page 234: ... ST2 295 ERR G1 G2 G3 N1 N2 N3 T1 T2 T3 BCC 17 59 VSDFH 0 5 6 1 RI ELWV PV RU PRUH 2 F1 to F3 0FFH code 3 LEN 11H code 4 FUN1 Print command 5 FUN2 00H code 6 ST1 Status 7 ST2 00H code 295 FRGH 9 ERR Status 10 G1 to G3 Gross weight data 11 N1 to N3 Net weight data 12 T1 to T3 TARE data 13 BCC Operation result from LEN to N3 1 FUN1 7 6 5 4 3 2 1 0 Automatic print bit 2 ST1 7 6 5 4 3 2 1 0 SET for gr...

Page 235: ...ld be stripped 7 mm The terminal block terminal screw tightening torque is0 6 N m 7KH ZLULQJ FDEOHV VKRXOG EH WR KHUH SRVVLEOH XVH FDEOHV ZLWK FRUH VKLHOGHG FDEOH ZLUHV LUH WKH VKLHOG WR WKH WHUPLQDO KHQ FRUH VKLHOGHG FDEOH ZLUHV DUH QRW XVHG WZLVW FDEOHV KHQ FRUH VKLHOGHG FDEOH ZLUHV DUH XVHG WKH FDEOH OHQJWK VKRXOG EH P RU VKRUWHU KHQ QRW XVHG WKH FDEOH OHQJWK VKRXOG EH P RU VKRUWHU External con...

Page 236: ...be displayed 2 Tap S I F The serial interface setting screen 1 1 will be displayed 3 Tap OPERATION OF PRINT The print operation setting screen will be displayed 2 Set a print operation 1 Select a print operation NONE Not synchronize with signals from external control I O etc SYNC WITH PRINT Sets 1 to the automatic print bit of output format FUN1 for transmission when a print command is input from ...

Page 237: ...ment 9 2 Tap OK The print operation will be set and the serial interface setting screen 1 1 will be displayed 3 Check the setting that you set 1 Check the print operation setting The setting is completed if the item set by the step 2 above appears under OPERATION OF PRINT ...

Page 238: ...or output signals 1 External control input wiring External control input is executed by short circuiting each input and COM 1 by using a contact or an open collector after wiring the connector POINT External control input and the common terminal of the 2 wires method serial interface circuit are shared External control I O connector CONTROL I O Applicable connector ā RQQHFWRU 1 8 E XMLWVX LPLWHG ā...

Page 239: ...tance conditions Accumulation command acceptance conditions 1 CONTROL I O connector input setting Function are assigned to I O INPUT1 to I O INPUT11 of the external control input VVLJQDEOH IXQFWLRQV DUH DV IROORZV Function name Description OFF Assigns no functions GROSS NET Switches the load value display between gross net weights ZERO HFXWHV HUR VHWWLQJ ĺ HUR VHW HUR SRLQW UHFRUG ZERO CLEAR Retur...

Page 240: ...d brand CLR ACM OF ALL BRAND Clears the accumulation value and the accumulation times of all brands CLR ACM OF RECIPE Clears the accumulation value and the accumulation times of a currently selected recipe CLR ACM OF ALL RECIPE Clears the accumulation value and the accumulation times of all recipes SAFETY INPUT1 SAFETY INPUT2 SAFETY INPUT3 SAFETY INPUT4 SAFETY INPUT5 SAFETY INPUT6 SAFETY INPUT7 SA...

Page 241: ...ERO ZERO CLEAR TARE TARE CLR BATCH START 5 3 67 57 6 5 67 57 0 1 67 57 0 COMPENSATION ACCUM COMMAND FOMER ACM DATA CLR PAUSE RESTART CLR ACM OF BRAND CLR ACM OF ALL BRAND CLR ACM OF RECIPE CLR ACM OF ALL RECIPE FORCED BATCH FINISH FORCED RECIPE FINISH FORCED DISCH FINISH ERROR RESET PRINT COMMAND The following are level input items and become valid during input of a short circuit of 50 ms or more ...

Page 242: ...he item set by the step 2 above appears under each I O input key 2 CONTROL I O connector output setting Function are assigned to I O OUTPUT1 to I O OUTPUT11 of the external control output VVLJQDEOH IXQFWLRQV DUH DV IROORZV Function name Description OFF Assigns no functions STABLE Output when a weighing value is stable ZERO BAND Output when a weighing value is around zero FULL Output when a weighin...

Page 243: ...owering DURING MEASUREMENT Output during weighing operation 1 6 4 ERROR Output when a sequence error occurs ERROR Output when an error occurs Targeted errors are ERROR ZERO 5525 DQG 6 48 1 5525 ĺ UURU GLVSOD DQG buzzer sound 3 ERROR 2XWSXW ZKHQ WKH 2 RYHUORDG FRQGLWLRQV DUH VDWLV HG DURING TARE 2XWSXW GXULQJ WDUH ZHLJKW FDQFHOODWLRQ LV H HFXWHG ĺ 7DUH weight cancellation CENTER OF ZERO Output when...

Page 244: ...ell 1 Display the I O output setting screen 1 Tap I O on MENU 1 2 I O SETTING 1 6 will be displayed 2 Tap your desired I O output key on I O SETTING 4 6 or I O SETTING 5 6 The I O output setting screen will be displayed 2 Set a function to the I O output 1 Select a function to be assigned to the I O output QLWLDO YDOXH 2 2 Tap OK The function will be assigned and I O SETTING 4 6 or I O SETTING 5 6...

Page 245: ...of the I O output will be set and I O SETTING 5 6 will be displayed 4 CSD 902 or equivalent I O batch setting Batch setting of the I O input output settings can be executed to suitably set CSD 912B 7KH VHWWLQJ LWHPV DUH DV IROORZV I O input Description I O output Description I O INPUT1 ZERO I O OUTPUT1 2 I O INPUT2 TARE I O OUTPUT2 2 6 I O INPUT3 TARE CLEAR I O OUTPUT3 0 2 6 I O INPUT4 BATCH DISCH...

Page 246: ...SD 912B and I O SETTING 6 6 will be displayed 3 Check the setting that you set 1 Check the I O input output batch setting The setting is completed if the item set by the step 2 above appears under CSD 902 I O BATCH SET 5 Print command acceptance condition setting Sets an acceptance condition applicable when a print command is input from external control I O etc 1 Display the print command acceptan...

Page 247: ... above appears under PRINT COMMAND 6 Accumulation command acceptance condition setting Sets an acceptance condition applicable when an accumulation command is input from external control I O etc 1 Display the accumulation command acceptance condition setting screen 1 Tap BASIC FUNCTION on MENU 1 2 BASIC FUNCTION 1 4 will be displayed 2 Tap ACCUM COMMAND on BASIC FUNCTION 3 4 The accumulation comma...

Page 248: ...umulation command acceptance condition will be set and BASIC FUNCTION 3 4 will be displayed 3 Check the setting that you set 1 Check the accumulation command acceptance condition The setting is completed if the item set by the step 2 above appears under ACCUM COMMAND ...

Page 249: ...rox 21 6 mA DC OL display at approx 2 4 mA DC Output rate Synchronizes with the A D sampling 2 Voltage output model CSD912B P25 6SHFL FDWLRQ Description Output 9 WR 9 Load characteristics Nȍ RU PRUH Non linearity LWKLQ 6 Resolution Approx 1 12 000 or more Over range 2 GLVSOD DW DSSUR 9 2 GLVSOD DW DSSUR 9 Output rate Synchronizes with the A D sampling POINT IWHU WKH SRZHU LV WXUQHG RQ WKH DQDORJ R...

Page 250: ...The terminal block terminal screw tightening torque is0 6 N m 7KH ZLULQJ FDEOHV VKRXOG EH WR Use cables with shielded cable wires Also wire the shield to the F G terminal The optional parts mounting section is insulated from the internal circuit by a photocoupler Current output Optional parts mounting section 9ROWDJH RXWSXW Shield SSOLFDEOH SOXJ 067 B 67 E 3 2 1 217 7 Load resistance Nȍ RU more Sh...

Page 251: ...ro output span output scaling The analog output settings are set on the analog output setting screen To display the analog output setting screen tap OPTION on MENU 2 2 and then tap ANALOG OUTPUT on the option setting screen 1 1 Tap OPTION Tap ANALOG OUTPUT The option setting screen will be displayed The analog output setting screen will be displayed Output target Scaling ...

Page 252: ...t target setting The setting is completed if the item set by the step 1 above appears under BCD OUT TARGET 2 Scaling setting The minimum value zero output and the maximum value span output of analog output scaling can be set For example suppose the zero output is set to 1 000 and the span output WR Q WKLV FDVH WKH DQDORJ RXWSXW VFDOLQJ ZRXOG EH DV VKRZQ EHORZ Analog output Approx 21 6 mA SSUR 9 20...

Page 253: ...be 20D to 9D In this case the analog output scaling would be as shown EHORZ Analog output Approx 21 6 mA SSUR 9 20 mA 9 Maximum value 4 mA 9 Minimum value 1000 Approx 2 4 mA SSUR 9 5000 Display 5500 RI WKH PD LPXP GLVSOD Analog output Approx 21 6 mA SSUR 9 20 mA 9 Maximum value 4 mA 9 Minimum value 0 display Approx 2 4 mA SSUR 9 Maximum display Display 9D of the maximum display 20 display ...

Page 254: ...e analog output setting screen 1 1 will be displayed 3 Check the setting that you set 1 Check the scaling setting The setting is completed if the values set by the step 1 and 2 above appears under ZERO OUTPUT and SPAN OUTPUT respectively POINT Make sure that the setting value at SPAN OUTPUT does not exceed a setting YDOXH DW 1 3 7 ĺ HLJKLQJ FDSDFLW VHWWLQJ ZKLFK has been set in the calibration set...

Page 255: ...WWLQJ QH DGMXVW WKH HUR WULPPHU DQG WKH VSDQ WULPPHU E using a microdriver 7KH QH DGMXVWPHQW UDQJH LV DSSUR RI WKH IXOO VFDOH POINT LQH DGMXVWPHQW LV DYDLODEOH LQ VFDOLQJ RI FXUUHQW RXWSXW DQG YROWDEH RXWSXW separately Current output 9ROWDJH RXWSXW HUR QH DGMXVWPHQW WULPPHU 6SDQ QH DGMXVWPHQW WULPPHU ...

Page 256: ...escriptions refer to 11 2 1 Error display and 11 2 3 Sequence error display 29 5 RYHU Output ON in synchronization with the OL display overload Decimal point 101 decimal point 102 decimal point 103 decimal point 104 Output ON in synchronization with the decimal point display setting STABLE Output ON when stability is detected GROSS Output ON when the BCD output is gross weight HOLD hold Input BCD ...

Page 257: ...ction which is located at the back of CSD 912B POINT To conform CSD 912B to the CE mark applicable standards and the JIS standards wire a shielded cable wire to the F G terminal of the BCD output terminal block BCD output connector Applicable plug ā RG 1 8 ā RYHU 1 E XMLWVX LPLWHG 2XWSXW 20 1 2XWSXW QSXW 20 B1 A1 B20 A20 ...

Page 258: ...JHW Pin Output description Pin Output description A1 1 x 100 B1 2 x 100 A2 4 x 100 B2 8 x 100 A3 1 x 101 B3 2 x 101 A4 4 x 101 B4 8 x 101 A5 1 x 102 B5 2 x 102 A6 4 x 102 B6 8 x 102 A7 1 x 103 B7 2 x 103 A8 4 x 103 B8 8 x 103 A9 1 x 104 B9 2 x 104 A10 4 x 104 B10 8 x 104 A11 1 x 105 B11 2 x 105 A12 4 x 105 B12 8 x 105 A13 ERROR B13 N C A14 STABLE B14 GROSS A15 Decimal point 101 B15 Decimal point 1...

Page 259: ...x 103 B7 2 x 103 A8 4 x 103 B8 8 x 103 A9 1 x 104 B9 2 x 104 A10 4 x 104 B10 8 x 104 A11 1 x 105 B11 2 x 105 A12 4 x 105 B12 8 x 105 A13 1 x 106 B13 2 x 106 A14 4 x 106 B14 8 x 106 A15 1 x 107 B15 2 x 107 A16 4 x 107 B16 8 x 107 A17 29 5 B17 POL A18 P C B18 HOLD A19 COM 3 B19 COM 3 A20 BCD ENABLE B20 F G POINT Output is executed only during weighing operation Do not wire N C pins The optional part...

Page 260: ...put timing Ex 1 Normal POINT KHQ DOO RI 3 7 32 DUH RXWSXW WKH RXWSXW WUDQVLVWRUV EHFRPH 21 negative logic electrically SSUR 9 Nȍ ȍ INPUT ȝ COM 3 Input equivalent circuit Output equivalent circuit OUTPUT COM 3 2SHQ FROOHFWRU UDWLQJ 9CE 9 C P 0 WLPHV V DSSUR PV WLPHV V DSSUR PV WLPHV V DSSUR PV ON ON ON ON ON ON ON ON DATA POL P C WLPHV V DSSUR PV WLPHV V DSSUR PV WLPHV V DSSUR PV ...

Page 261: ...U RFFXUV WKH RXWSXW WUDQVLVWRU RI WKH 5525 VLJQDO EHFRPHV 21 negative logic electrically KHQ DQ HUURU RFFXUV DOO WKH RXWSXW WUDQVLVWRUV RI 7 DQG 32 EHFRPH 2 positive logic electrically Ex 4 When the HOLD signal is input POINT KHQ WKH 2 VLJQDO LV LQSXW WKH RXWSXW WUDQVLVWRU RI 3 EHFRPHV 2 positive logic electrically after one shot operation KHQ WKH 2 VLJQDO LV LQSXW RSHUDWLRQ LV H HFXWHG DIWHU D VK...

Page 262: ... logic UURU ÀDJ ORJLF Print command logic LOGIC OF P C 3ULQW FRPPDQG ZLGWK 7 2 3 BCD output times The BCD output settings are set on the BCD output setting screen To display the BCD output setting screen tap OPTION on MENU 2 2 and then tap BCD OUTPUT on the option setting screen 1 1 Tap OPTION The option setting screen will be displayed The BCD output setting screen will be displayed Tap BCD OUTPU...

Page 263: ...0 2817 5 3 80 9 8 RECIPE ACCUM COUNT QLWLDO YDOXH 2 63 2 Tap OK The output target will be set and the BCD output setting screen 1 1 will be displayed 2 Check the setting that you set 1 Check the output target setting The setting is completed if the item set by the step 1 above appears under BCD OUT TARGET 2 BCD output logic setting A data output logic of the BCD output is set 1 Set a BCD output lo...

Page 264: ...ositive logic Yes OFF H None ON L 3 POL polarity logic setting A POL polarity output logic is set 1 Set a POL polarity logic 1 Select a POL polarity logic 6HOHFWLRQV 1 7 9 2 326 7 9 LOGIC QLWLDO YDOXH 1 7 9 2 2 Tap OK The POL polarity logic will be set and the BCD output setting screen 1 1 will be displayed 2 Check the setting that you set 1 Check the POL polarity logic setting The setting is comp...

Page 265: ...et a PC logic 1 Select a P C logic 6HOHFWLRQV 1 7 9 2 326 7 9 LOGIC QLWLDO YDOXH 1 7 9 2 2 Tap OK The P C logic will be set and the BCD output setting screen 1 1 will be displayed 2 Check the setting that you set 1 Check P C logic setting The setting is completed if the item set by the step 1 above appears under LOGIC OF P C 6 Print command width setting A P C print command output data width is se...

Page 266: ... output times of the BCD output is set 1 Set a BCD output times 1 Select a BCD output times 6HOHFWLRQV 7 0 6 V 7 0 6 V 7 0 6 V QLWLDO YDOXH 7 0 6 V 2 Tap OK The BCD output times will be set and the BCD output setting screen 1 1 will be displayed 2 Check the setting that you set 1 Check the BCD output times setting The setting is completed if the item set by the step 1 above appears under BCD OUTPU...

Page 267: ...dd parity Stop bit Selectable from 1 bit and 2 bit Terminator Selectable from CR LF and CR Transmission data ASCII code Length of cable 15 m or shorter I O monitor LWK V 7 5 POINT The standard RS 485 communication and Modbus communication cannot be linked with optional RS 232C communication RS 422 communication and RS 485 communication For more information about the data formats refer to 12 5 RS 2...

Page 268: ...mark applicable standards and the JIS standards use cables with shielded cable wires and connectors with metal shells so that the shields come in direct contact with the connector metal shell parts Wiring ex 1 Wiring ex 2 1 2 3 4 5 7 6 8 9 to 19 20 21 to 25 F G 7 5 RTS CTS S G DSR DCD DTR 1 2 3 4 5 7 6 8 9 CD 7 5 N C S G RTS N C CTS N C CSD 912B Host 25 pins 1 2 3 4 5 7 6 8 9 CD 7 5 N C S G RTS N ...

Page 269: ...ps 9 600 bps 19 200 bps 38 400 bps LQLWLDO YDOXH ESV Data bit length Sets a data bit length of the RS 232C interface 7 bit 8 bit LQLWLDO YDOXH ELW Parity Sets a parity bit of the RS 232C interface 121 2 9 1 LQLWLDO YDOXH ODD Stop bits Sets a stop bit of the RS 232C interface 1 bit 2 bit LQLWLDO YDOXH ELW Terminator Sets the terminator of the standard RS 485 interface CR CR LF LQLWLDO YDOXH 5 Add t...

Page 270: ...g operation 6 GRHV QRW FRQWURO WKH FRPPXQLFDWLRQ ÀRZ The CTS RTS signal is not used ÀRZ FRQWURO LV QRW H HFXWHG The communication operation is interactive 1 Stream print output target setting Sets data to be output in stream mode and in synchronization with the print signal 1 Set an output target 1 Select an output target 6HOHFWLRQV 2 63 5266 1 7 2 63 7 67 7 QLWLDO YDOXH 2 63 2 Tap OK The output t...

Page 271: ...S 232C interface 251 External equipment 9 2 Check the setting that you set 1 Check the output target setting The setting is completed if the item set by the step 1 above appears under TARGET OF STREAM PRINT ...

Page 272: ...table from 1 bit and 2 bit Terminator Selectable from CR LF and CR Transmission data ASCII code Length of cable Approx 1 km Address number Select one from 0 to 31 Number of connectable units Up to 32 units 10 units for RS 422 1 unit for stream mode Termination resistance Built in type Selectable on the terminal block wiring screen I O monitor LWK V RS 422 485 switching Switchable on the RS 422 RS ...

Page 273: ...rew tightening torque is0 6 N m 7KH ZLULQJ FDEOHV VKRXOG EH WR The use of twisted pair cables is recommended for wiring The optional parts output section is insulated from the internal circuit by a photocoupler The RS 422 485 interface BCD output and the common terminal of the RS 232C interface are shred To conform CSD 912B to the CE mark applicable standards and the JIS standards wire a cable to ...

Page 274: ...pment 9 1 For wiring with a CSD 912B 7R ZLUH D 6 ZLWK WKH 56 LQWHUIDFH GR VR DV VKRZQ EHORZ RDA RDB SDA SDB S G RS 485 host SDA SDB RDA RDB S G CSD 912B TRM Address 00 RDA RDB SDA SDB S G RS 422 host SDA SDB RDA RDB S G CSD 912B TRM Address 00 ...

Page 275: ...interface The polarity of signals on the host side such as a PC or a sequencer may be opposite depending on the equipment RDA RDB SDA SDB S G RS 422 host SDA SDB RDA S G CSD 912B TRM RDB Address 00 SDA SDB RDA S G CSD 912B TRM RDB Address 01 RDA RDB SDA SDB S G RS 485 host SDA SDB RDA S G CSD 912B TRM RDB Address 00 SDA SDB RDA S G CSD 912B TRM RDB Address 01 SDA SDB RDA S G CSD 912B TRM RDB Addre...

Page 276: ...S 422 485 interface CR CR LF LQLWLDO YDOXH 5 Add the decimal point Sets whether or not a decimal point is added to output data 121 67 1 LQLWLDO YDOXH NONE Address Sets an address number for communication 0 to 31 QLWLDO YDOXH RS 422 RS 485 Switches the communication method between RS 422 and RS 485 RS 422 RS 485 LQLWLDO YDOXH 56 422 Data delay time Sets a data delay time while communicating with RS...

Page 277: ...485 follow the same procedures described in 9 1 3 Communication setting on the RS 422 485 communication setting screen Communication with the RS 422 485 interface is executed only during weighing operation The error command is returned except during weighing operation 6 GRHV QRW FRQWURO WKH FRPPXQLFDWLRQ ÀRZ The CTS RTS signal is not used ÀRZ FRQWURO LV QRW H HFXWHG The communication operation is ...

Page 278: ...the communication method 1 Tap RS 422 RS 485 QLWLDO YDOXH 56 2 Tap OK The communication method will be switched and the RS 422 485 communication setting screen 1 2 will be displayed 2 Check the setting that you set 1 Check the communication method The setting is completed if the item set by the step 1 above appears under RS 422 RS 485 ...

Page 279: ...259 Maintenance 10 10 1 Parts life 260 10 2 Operation check 261 10 3 Fuse replacement 268 10 Maintenance This chapter describes maintenance of CSD 912B ...

Page 280: ...ontinuous operation in an air conditioned environment Liquid crystal display Backlight After approx 50 000 hours of use the surface brightness decreases to approx 50 of its initial value For use at room temperature of 25 C Battery RAM backup Approx 10 years For storage at room temperature of 20 C POINT Note that if the number of writings exceeds the life of EEPROM data will not be recorded The par...

Page 281: ...the load applied on the strain gage based transducer 10 2 3 External control I O Checks whether or not the external control I O is operating properly 10 2 4 BCD output Checks whether or not the BCD output is operating properly 10 2 5 Analog output Checks whether or not the analog output is operating properly 10 2 6 Maintenance date Registers a date maintenance is executed 10 2 7 Maintenance number...

Page 282: ... Example When the analog current output and the BCD output are wired to CSD 912B CSD 912B 07 15 MAIN CPU Indicates the software version of the main CPU Example Ver 2 400 SUB CPU Indicates the software version of the sub CPU Example Ver 1 000 2 Tap OK The operation check screen 1 1 will be displayed 10 2 2 Display check The color display line display and touch panel operation of the display can be ...

Page 283: ...s displayed on the display screen 1 Check the lines Check that vertical and horizontal lines are displayed in this order Upon completion of the line display the operation check screen 1 1 will be displayed 3 Touch panel check Whether or not the touch panel is operating properly can be checked 1 Display the touch panel check screen 1 Tap CHECK OF TOUCH PANEL The touch panel check screen will be dis...

Page 284: ... that this is just for reference The load display range is approx 3 1 mV V to 3 1 mV V 10 2 4 External control I O check Whether or not the external control I O that is wired with CSD 912B is operating properly can be checked 1 Check the external control I O operation 1 Check the external control input operation On the external control input that is wired with CSD 912B perform input to check that ...

Page 285: ...ration Input can be checked when B18 is ON on the BCD output 3 Tap BACK The operation check screen 1 1 will be displayed POINT When two BCD output boards are installed both units operate the same way 10 2 6 Analog output check Whether or not the analog output that is wired with CSD 912B is operating properly can be checked 1 Check the analog output operation 1 Check the analog output operation Che...

Page 286: ...ration check screen 1 1 will be displayed 2 Check the registration 1 Check the maintenance date Make sure that the value set in Step 1 above is displayed under MAINTENANCE DATA If so this completes the registration 10 2 8 Maintenance number registration A maintenance number can be optionally registered 1 Register a maintenance number 1 Input a maintenance number Settable range 0 to 99 999 Initial ...

Page 287: ...Operation check 267 Maintenance 10 2 Check the registration 1 Check the maintenance number Make sure that the value set in Step 1 above is displayed under MAINTENANCE No If so this completes the registration ...

Page 288: ...the power of CSD 912B Incorrect fuse attachment or the use of inappropriate fuse capacity will result in unexpected malfunction 5HPRYH WKH WRS FRYHU LQJ VFUHZV SODFHV 2 Slide the top cover to the back direction to remove the top cover 3 Replace the fuse that is attached on the board 4 Attach the top cover WWDFK WKH WRS FRYHU LQJ VFUHZV SODFHV Top cover 7RS FRYHU LQJ screw Time lag fuse2 5 A ...

Page 289: ...rouble causes and corrective measures 270 11 2 Error display and buzzer sound 276 11 Troubleshooting This chapter describes corrective measures to be taken in the case where abnormal operation occurs or where an error is displayed ...

Page 290: ...rial interface Describes corrective measures to be taken against troubles related to the 2 wires method serial interface serial interface communication and print operation 11 1 4 External control I O Describes corrective measures to be taken against troubles related to the communication and operation of the external control I O 11 1 5 Analog output Describes corrective measures to be taken against...

Page 291: ...does not respond Contact us to inform us of detailed information about your problem and the current status OL overload status or OL unstable status is displayed on the display or the load value display is unstable The strain gage based transducer has been faulty Use another strain gage based transducer ĺ LULQJ The strain gage based transducer has been incorrectly wired Correctly wire the strain ga...

Page 292: ... The address number has been incorrectly set Correctly set the address number ĺ GGUHVV VHWWLQJ The communication protocol has been incorrectly set Set the communication protocol according to WKH VSHFL FDWLRQV RI WKH KRVW ĺ RPPXQLFDWLRQ VHWWLQJ Command data have been incorrectly set RUUHFWO VHW FRPPDQG GDWD ĺ RPPDQG PRGH GDWD IRUPDWV Communication cannot be controlled 7KH FRPPXQLFDWLRQ ÀRZ has been...

Page 293: ...the external control I O on 6 ĺ WHUQDO FRQWURO 2 VHWWLQJ The external control I O incorrectly operates The pulse input width has been 50 ms or less Set the pulse input width of the external control input to 50 ms or more The level input width has been 50 ms or less Set the level input width of the external control input to 50 ms or more The logic of the external control output has been inappropria...

Page 294: ...tput does not change The BCD output has been held Disable the BCD output hold 11 1 8 RS 232C interface Phenomenon Cause Action Signals are not transmitted The RS 232C interface has been incorrectly wired Correctly wire the RS 232C interface with the H WHUQDO HTXLSPHQW ĺ 56 FRQQHFWRU SLQ DUUDQJHPHQW The communication protocol has been incorrectly set Set the communication protocol according to WKH ...

Page 295: ...RS 485 interface has been incorrectly wired Correctly wire the RS 485 interface with the H WHUQDO HTXLSPHQW ĺ 56 WHUPLQDO EORFN SLQ DUUDQJHPHQW The address number has been incorrectly set Correctly set the address number ĺ RPPXQLFDWLRQ VHWWLQJ The communication protocol has been incorrectly set Set the communication protocol according to WKH VSHFL FDWLRQV RI WKH KRVW ĺ RPPXQLFDWLRQ VHWWLQJ Command...

Page 296: ...make buzzer sound 11 2 1 Error display Error display Cause Action The battery has been low Contact us ODVKHV IRU DSSUR WZR seconds when A value beyond the setting range is set at the time of calibration Set a value within the setting UDQJH ĺ DOLEUDWLRQ An A D conversion error has occurred Contact us Backup data has been broken Contact us EEPROM writing error has occurred Contact us EEPROM reading ...

Page 297: ...tput and value input are less than 0 mV V and beyond the span adjustment range ODVKHV IRU DSSUR WZR seconds when at the time of calibration the load cell output and value input are more than3 1 mV V and beyond the span adjustment range ODVKHV IRU DSSUR WZR seconds when the load cell output is low at the time of compensation by digital linearization Check that the weight mass is appropriate Execute...

Page 298: ...etting value of the weighing capacity to a lower value ĺ 6HW WKH ZHLJKLQJ FDSDFLW The accumulation value and the accumulation times are displayed in red Displayed in red when the accumulation value and the accumulation times exceed the display range Delete the accumulation value and the accumulation times ĺ UDQG VHWWLQJV 6HWWLQJV RI UHFLSH FRQWHQWV DQG 6HWWLQJV EHIRUH PHDVXUHPHQW 11 2 2 Zero error...

Page 299: ...tory Check the setting vales to solve the FRQWUDGLFWLRQ ĺ UDQG VHWWLQJV SQ ERR 4 5 7KH ÀRZ WLPH KDV H FHHGHG the the time limit Check the batch gate for clogging SQ ERR 5 6 The discharge time has exceeded the time limit Check the discharge gate for clogging SQ ERR 6 7 The gross value is less than WKH QDO YDOXH DW WKH WLPH RI weighing in discharge mode Add material to the brand hopper SQ ERR 7 8 Th...

Page 300: ...11 11 2 Error display and buzzer sound 11 2 4 Error buzzer sound During key lock pressing any key on the weighing screen will sound the buzzer two times beep beep POINT RU PRUH LQIRUPDWLRQ DERXW WKH NH ORFN UHIHU WR H ORFN ...

Page 301: ...ustomer service 290 6SHFL FDWLRQV 291 0RGEXV FRPPXQLFDWLRQ PHPRU RSHUDWLRQ PDSSLQJ 297 56 FRPPXQLFDWLRQ GDWD IRUPDWV 320 12 Appendix 7KLV FKDSWHU GHVFULEHV VXSSOHPHQWDU LQIRUPDWLRQ DERXW 6 VXFK DV WKH PHQX OLVW FXVWRPHU VHUYLFH DQG GDWD FRPPXQLFDWLRQ IRUPDWV ...

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Page 303: ...ecipe code screen Recipe code 1 2 0HDVXUHPHQW ĺ To P118 0HDVXUHPHQW 0HDVXUHPHQW 0HDVXUHPHQW 0HDVXUHPHQW 0HDVXUHPHQW 0HDVXUHPHQW 0HDVXUHPHQW 0HDVXUHPHQW Recipe code 2 2 0HDVXUHPHQW ĺ To P118 FFXPXODWLRQ YDOXH FFXPXODWLRQ WLPHV ĺ To P119 ...

Page 304: ...R WUDFNLQJ EDQG 2SHUDWLRQ RI WDUH ĺ To P140 5DQJH RI WDUH ĺ To P140 2SHUDWLRQ RI SUHVHW WDUH ĺ To P149 3UHVHW WDUH FKRLFH ĺ To P150 DVLF IXQFWLRQ HUR DW SRZHU RQ ĺ To P154 HUR FOHDU DW SRZHU RQ ĺ To P155 7DUH DW SRZHU RQ ĺ To P156 7DUH FOHDU DW SRZHU RQ 2SHUDWLRQ RI KROG ĺ To P158 3ULQW FRPPDQG ĺ To P227 FFXPXODWLRQ FRPPDQG ĺ To P227 UDSK WULJJHU VHWWLQJ ĺ To P176 UDSK WULJJHU OHYHO ĺ To P177 DVLF...

Page 305: ...m 1 to 9 ĺ To P222 2 VHWWLQJ VFUHHQ I O input from 10 to 11 ĺ To P222 2 VHWWLQJ VFUHHQ I O output from 1 to 9 ĺ To P224 2 VHWWLQJ VFUHHQ I O output from 10 to 11 ĺ To P224 2 RXWSXW ORJLF 2 VHWWLQJ VFUHHQ HUR NH ORFN ĺ To P143 URVV 1HW NH ORFN 7DUH ZHLJKW NH ORFN UDQG VHWWLQJ NH ORFN NH ORFN 0HQX NH ORFN DOLEUDWLRQ NH ORFN 6 2 EDWFK VHWWLQJ ĺ To P225 ...

Page 306: ...WLYH RSHUDWLRQ RI IXOO ĺ To P148 Recipe mode ĺ To P116 6DYH WKH DXWRPDWLF IUHH IDOO YDOXH ĺ To P94 DWFKLQJ VDIHW FKHFN ĺ To P96 LVFKDUJLQJ VDIHW FKHFN ĺ To P97 HLJKLQJ RSHUDWLRQ VHWWLQJ screen 2 2 5HFLSH VDIHW FKHFN ĺ To P98 0L LQJ VDIHW FKHFN ĺ To P99 HQHUDO VDIHW FKHFN ĺ To P100 XWRPDWLF DFFXPXODWLRQ ĺ To P163 RQGLWLRQ RI DXWRPDWLF DFFXPXODWLRQ ĺ To P163 XWRPDWLF UHFLSH FRGH DFFXPXODWLRQ ĺ To P1...

Page 307: ...reen 2 3 XWRPDWLF IUHH IDOO FRPSHQVDWLRQ ĺ To P94 DWFK QLVK RXWSXW RII ĺ To P82 7DUH EDWFK VWDUW GHOD ĺ To P76 DWFK PRQLWRULQJ WLPHU ĺ To P83 DWFK VWDUW GHOD WLPHU ĺ To P75 XOO ÀRZ FRPSDULVRQ VWRS WLPHU ĺ To P76 0HGLXP ÀRZ FRPSDULVRQ VWRS WLPHU ĺ To P77 ULEEOH ÀRZ FRPSDULVRQ VWRS WLPHU ĺ To P78 DLWLQJ WLPH IRU MXGJHPHQW 6HTXHQFH FRQWURO VHWWLQJ screen 3 3 LVFKDUJH PRQLWRULQJ WLPHU ĺ To P84 LVFKDUJ...

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Page 309: ... LQWHUIDFH ĺ To P256 QDORJ RXWSXW ĺ To P265 RXWSXW LQN LQWHUIDFH ĺ 6HH VHSDUDWH volume 352 86 LQWHUIDFH ĺ 6HH VHSDUDWH volume 12 Check screen Check 1 1 ROM version ĺ To P262 LVSOD FKHFN I O check ĺ To P264 Monitor ĺ To P262 ĺ To P265 QDORJ RXWSXW 0DLQWHQDQFH GDWH ĺ To P266 0DLQWHQDQFH 1R ...

Page 310: ...IURP IRU UHSDLU RU FXVWRPHU VHUYLFH GXULQJ WKH ZDUUDQW SHULRG 12 2 2 Repair HIRUH UHTXHVWLQJ D UHSDLU FKHFN RQFH DJDLQ WKDW DOO RI WKH ZLULQJV VHWWLQJV DGMXVWPHQWV DUH correct Q SDUWLFXODU FKHFN WKH VWUDLQ JDJH EDVHG WUDQVGXFHU IRU GLVORFDWHG DQG RU EURNHQ ZLUHV YHQ DIWHU DOO WKLV LI WKH SUREOHP VWLOO SHUVLVWV FRQWDFW RXU VDOH RI FH RU DJHQF RX SXUFKDVHG RXU 6 IURP WR UHTXHVW UHSDLU VHUYLFH ...

Page 311: ...WR DSSUR RU VDPSOLQJ UDWH WLPHV V 6ZLWFKDEOH WR WLPHV V WLPHV V WLPHV V WLPHV V RU WLPHV V LQWHUQDO UHVROXWLRQ 24 bit LVSOD VSHFL FDWLRQV LVSOD LVSOD LQFK 9 WUDQVPLVVLYH FRORU 7 7 Number of dots 640 dots x 240 dots RW SLWFK 0 077 mm x0 231 mm DFNOLJKW ULJKWQHVV Approx 130 cd m2 TYP Life 7KH VXUIDFH EULJKWQHVV GURSV WR RI WKH LQLWLDO YDOXH DW DSSUR K W SLFDOO DW RDG GLVSOD LVSOD UDQJH 999 999 to 99...

Page 312: ... WKH IROORZLQJ 2 5266 1 7 52 52 5 7 5 7 5 5 7 67 57 5 3 67 57 6 5 67 57 0 1 67 57 0 203 16 7 21 80 200 1 20 5 0 7 5 3 86 5 67 57 5 0 2 5 1 5 0 2 5 1 5 0 2 5 3 5 0 2 5 3 25 7 1 6 25 5 3 1 6 25 6 1 6 5525 5 6 7 35 17 200 1 7KH DERYH DUH SXOVH LQSXW LWHPV DQG EHFRPH YDOLG RQFH ZKHQ WKH SXOVH width is 50 ms or more 7 6 5 2 12 2 12 2 12 2 12 2 12 2 12 2 12 2 12 6 7 1387 6 7 1387 6 7 1387 6 7 1387 6 7 1...

Page 313: ... 5 8 2 233 5 0 80 2 233 5 5 2 IN SIMILARTY OUT 2 wires method VHULDO LQWHUIDFH DXG UDWH ESV DWD ELW OHQJWK ELW 3DULW ELW 2GG 6WRS ELW ELW 6WDUW ELW ELW 7UDQVPLVVLRQ GDWD LQDU FRGH QVXODWHG IURP WKH LQWHUQDO FLUFXLW E D SKRWRFRXSOHU 7KH FRPPRQ WHUPLQDO LV VKDUHG ZLWK WKH H WHUQDO FRQWURO LQSXW 6WDQGDUG 56 LQWHUIDFH DXG UDWH 6HOHFWDEOH IURP ESV ESV ESV ESV ESV DQG ESV DWD ELW OHQJWK 6HOHFWDEOH IURP ...

Page 314: ... 6HOHFWDEOH IURP QRQH HYHQ DQG RGG 6WRS ELW 6HOHFWDEOH IURP ELW DQG ELW 7HUPLQDWRU 6HOHFWDEOH IURP 5 DQG 5 7UDQVPLVVLRQ PHWKRG DOI GXSOH 6 QFKURQRXV V VWHP 6WDUW VWRS V QFKURQL DWLRQ 7UDQVPLVVLRQ GDWD 6 FRGH RS 422 485 Option DXG UDWH 6HOHFWDEOH IURP ESV ESV ESV ESV ESV DQG ESV DWD ELW OHQJWK 6HOHFWDEOH IURP ELW DQG ELW 3DULW ELW 6HOHFWDEOH IURP QRQH HYHQ DQG RGG 6WRS ELW 6HOHFWDEOH IURP ELW DQG E...

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Page 317: ...H WKH 0RGEXV FRPPXQLFDWLRQ VHW HDFK LWHP GHVFULEHG LQ RPPXQLFDWLRQ VHWWLQJ DV VKRZQ EHORZ Item Setting value 2SHUDWLRQ PRGH OPERATION 02 Modbus DXG UDWH 8 5 7 6HOHFWDEOH IURP ESV ESV ESV ESV ESV RU bps DWD ELW OHQJWK 7 7 LENGTH 8 bit 3DULW ELW PARITY 6HOHFWDEOH IURP 121 9 1 RU 2 Stop bit STOP 76 6HOHFWDEOH IURP ELW RU ELW Address 5 66 Q QXPEHU IURP WR FDQ EH VHOHFWHG 1RWH WKDW LV D EURDGFDVW DGGUH...

Page 318: ...H 1R 22 2 6193 to 6208 80 VWDWXV RI 5 1 FRGH 1R 23 OVER 6449 to 6464 80 VWDWXV RI 5 1 FRGH 1R 24 2 6705 to 6720 80 VWDWXV RI 5 1 FRGH 1R 25 81 5 6961 to 6976 80 VWDWXV RI 5 1 FRGH 1R 26 Not used 7217 to 7232 80 VWDWXV RI 5 1 FRGH 1R 27 Not used 7473 to 7488 80 VWDWXV RI 5 1 FRGH 1R 28 MIXING 7729 to 7744 80 VWDWXV RI 5 1 FRGH 1R 29 6 7985 to 8000 80 VWDWXV RI 5 1 FRGH 1R 30 7 1 6 8241 to 8256 80 V...

Page 319: ... 1R 16177 to 16192 80 VWDWXV RI 5 1 FRGH 1R 2865 to 2880 80 VWDWXV RI 5 1 FRGH 1R 16433 to 16448 80 VWDWXV RI 5 1 FRGH 1R 3121 to 3136 80 VWDWXV RI 5 1 FRGH 1R 16689 to 16704 80 VWDWXV RI 5 1 FRGH 1R 3377 to 3392 80 VWDWXV RI 5 1 FRGH 1R 16945 to 16960 80 VWDWXV RI 5 1 FRGH 1R 3633 to 3648 80 VWDWXV RI 5 1 FRGH 1R 17201 to 17216 80 VWDWXV RI 5 1 FRGH 1R 3889 to 3904 80 VWDWXV RI 5 1 FRGH 1R 17457 ...

Page 320: ... 3 FRGH 1R 25905 to 25920 80 VWDWXV RI 5 3 FRGH 1R 39473 to 39488 80 VWDWXV RI 5 3 FRGH 1R 26161 to 26176 80 VWDWXV RI 5 3 FRGH 1R 39729 to 39744 80 VWDWXV RI 5 3 FRGH 1R 26417 to 26432 80 VWDWXV RI 5 3 FRGH 1R 39985 to 40000 80 VWDWXV RI 5 3 FRGH 1R 26673 to 26688 80 VWDWXV RI 5 3 FRGH 1R 40241 to 40256 80 VWDWXV RI 5 3 FRGH 1R 26929 to 26944 80 VWDWXV RI 5 3 FRGH 1R 40497 to 40512 80 VWDWXV RI 5...

Page 321: ...LVWHU RUG UHDG 5HIHUHQFH Address Data name Address Data name 1 HFLPDO SRLQW SRVLWLRQ 1RQH 5665 to 5680 80 GDWD RI 5 1 FRGH 1R 2 Unit 1RQH J NJ W OE 5921 to 5936 80 GDWD RI 5 1 FRGH 1R 3 7DUH ZHLJKW 6177 to 6192 80 GDWD RI 5 1 FRGH 1R 5 URVV ZHLJKW 6433 to 6448 80 GDWD RI 5 1 FRGH 1R 7 1HW ZHLJKW 6689 to 6704 80 GDWD RI 5 1 FRGH 1R 9 5 1 FRGH 1R LQ XVH 6945 to 6960 80 GDWD RI 5 1 FRGH 1R 10 RECIPE ...

Page 322: ... RI 5 1 FRGH 1R 15649 to 15664 80 GDWD RI 5 1 FRGH 1R 28705 to 28720 80 GDWD RI 5 3 FRGH 1R 15905 to 15920 80 GDWD RI 5 1 FRGH 1R 28961 to 28976 80 GDWD RI 5 3 FRGH 1R 16161 to 16176 80 GDWD RI 5 1 FRGH 1R 29217 to 29232 80 GDWD RI 5 3 FRGH 1R 16417 to 16432 80 GDWD RI 5 1 FRGH 1R 29473 to 29488 80 GDWD RI 5 3 FRGH 1R 16673 to 16688 80 GDWD RI 5 1 FRGH 1R 29729 to 29744 80 GDWD RI 5 3 FRGH 1R 1692...

Page 323: ...GH 1R 38689 to 38704 80 GDWD RI 5 3 FRGH 1R 25633 80 ZHLJKW GLJLWV 38945 to 38960 80 GDWD RI 5 3 FRGH 1R 25635 ACCUM times 39201 to 39216 80 GDWD RI 5 3 FRGH 1R 25637 80 ZHLJKW GLJLWV LQ WKH ORZHU IRXU E WHV 39457 to 39472 80 GDWD RI 5 3 FRGH 1R 25639 80 ZHLJKW GLJLWV LQ WKH XSSHU IRXU E WHV 39713 to 39728 80 GDWD RI 5 3 FRGH 1R 25889 to 25904 80 GDWD RI 5 3 FRGH 1R 39969 to 39984 80 GDWD RI 5 3 F...

Page 324: ... 5 3 FRGH 1R Ŷ ROGLQJ UHJLVWHU RUG UHDG ZULWH 5HIHUHQFH 1R Address Data name Address Data name 0 0 685 0 17 GDWD RI 5 1 FRGH 1R 2817 to 2864 0 685 0 17 GDWD RI 5 1 FRGH 1R 1 VW QG FKDUDFWHU RI 5 1 QDPH 6 FRGH 3073 to 3120 0 685 0 17 GDWD RI 5 1 FRGH 1R 2 UG WK FKDUDFWHU RI 5 1 QDPH 3329 to 3376 0 685 0 17 GDWD RI 5 1 FRGH 1R 3 WK WK FKDUDFWHU RI 5 1 QDPH 3585 to 3632 0 685 0 17 GDWD RI 5 1 FRGH 1R...

Page 325: ...o 9520 0 685 0 17 GDWD RI 5 1 FRGH 1R 1025 to 1072 0 685 0 17 GDWD RI 5 1 FRGH 1R 9729 to 9776 0 685 0 17 GDWD RI 5 1 FRGH 1R 1281 to 1328 0 685 0 17 GDWD RI 5 1 FRGH 1R 9985 to 10032 0 685 0 17 GDWD RI 5 1 FRGH 1R 1537 to 1584 0 685 0 17 GDWD RI 5 1 FRGH 1R 10241 to 10288 0 685 0 17 GDWD RI 5 1 FRGH 1R 1793 to 1840 0 685 0 17 GDWD RI 5 1 FRGH 1R 10497 to 10544 0 685 0 17 GDWD RI 5 1 FRGH 1R 2049 ...

Page 326: ...0 685 0 17 GDWD RI 5 1 FRGH 1R 25613 WK 5 1 FRGH 15361 to 15408 0 685 0 17 GDWD RI 5 1 FRGH 1R 25614 WK 5 1 FRGH 15617 to 15632 0 685 0 17 GDWD RI 5 1 FRGH 1R 25615 WK 5 1 FRGH 15873 to 15920 0 685 0 17 GDWD RI 5 1 FRGH 1R 25616 WK 5 1 FRGH 16129 to 16176 0 685 0 17 GDWD RI 5 1 FRGH 1R 25617 WK 5 1 FRGH 16385 to 16432 0 685 0 17 GDWD RI 5 1 FRGH 1R 25618 WK 5 1 FRGH 16641 to 16688 0 685 0 17 GDWD ...

Page 327: ...7 20993 to 21040 0 685 0 17 GDWD RI 5 1 FRGH 1R 30209 to 30224 0 685 0 17 GDWD RI RECIPE code No 18 21249 to 21296 0 685 0 17 GDWD RI 5 1 FRGH 1R 30465 to 30496 0 685 0 17 GDWD RI RECIPE code No 19 21505 to 21552 0 685 0 17 GDWD RI 5 1 FRGH 1R 30721 to 30752 0 685 0 17 GDWD RI RECIPE code No 20 21761 to 21808 0 685 0 17 GDWD RI 5 1 FRGH 1R 30977 to 31008 0 685 0 17 GDWD RI RECIPE code No 21 22017 ...

Page 328: ...85 0 17 GDWD RI RECIPE code No 41 44801 to 44832 0 685 0 17 GDWD RI RECIPE code No 75 36353 to 36384 0 685 0 17 GDWD RI RECIPE code No 42 45057 to 45088 0 685 0 17 GDWD RI RECIPE code No 76 36609 to 36640 0 685 0 17 GDWD RI RECIPE code No 43 45313 to 45344 0 685 0 17 GDWD RI RECIPE code No 77 36865 to 36896 0 685 0 17 GDWD RI RECIPE code No 44 45569 to 45600 0 685 0 17 GDWD RI RECIPE code No 78 37...

Page 329: ...49409 to 49440 0 685 0 17 GDWD RI RECIPE code No 93 40961 to 40992 0 685 0 17 GDWD RI RECIPE code No 60 49665 to 49696 0 685 0 17 GDWD RI RECIPE code No 94 41217 to 41248 0 685 0 17 GDWD RI RECIPE code No 61 49921 to 49952 0 685 0 17 GDWD RI RECIPE code No 95 41473 to 41504 0 685 0 17 GDWD RI RECIPE code No 62 50177 to 50208 0 685 0 17 GDWD RI RECIPE code No 96 41729 to 41760 0 685 0 17 GDWD RI RE...

Page 330: ...7369 52 75 1 7 0 0 0 s to 9 9 s 57371 52 75 1 1 WR 57373 23 5 7 21 2 7 5 1 67 02 1 7 0 57375 5 1 2 7 5 2 1 3 7 2 1 3 7 57377 23 5 7 21 2 35 7 5 9 1 7 1 7 7 2 6 7 OP 57379 35 6 7 7 5 2 7 67 7 5 6 86 7 5 5 57381 ZERO AT POWER ON 9 1 7 57383 ZERO CLR AT POWER ON 9 1 7 57385 TARE AT POWER ON 9 1 7 57387 TARE CLR AT POWER ON 9 1 7 57389 23 5 7 21 2 2 6 1 7 2 6 1 7 7 1 6 1 7 5 3 1 57391 80 200 1 1 67 02...

Page 331: ... 1 7 57413 NET WEIGHT SIGN INVERSE 9 1 7 57415 Ŷ 2 VHWWLQJ Address Data name Setting value 57601 57603 NH IXQFWLRQ 2 35 17 52 5 7 5 5 7 67 57 5 3 67 57 6 5 67 57 0 1 67 57 3 86 5 67 57 25 7 1 6 25 5 3 1 6 25 6 1 6 80 200 1 1 7 80 0 203 16 7 21 5525 5 6 7 5 0 2 5 1 5 0 2 5 3 5 0 2 5 1 5 0 2 5 3 2 57605 NH IXQFWLRQ 57607 NH IXQFWLRQ 57609 NH IXQFWLRQ 57611 57613 57615 57617 57619 ...

Page 332: ... 5 67 57 5 0 2 5 1 5 0 2 5 1 5 0 2 5 3 5 0 2 5 3 6 7 1387 6 7 1387 6 7 1387 6 7 1387 6 7 1387 6 7 1387 6 7 1387 6 7 1387 25 7 1 6 25 5 3 1 6 25 6 1 6 0 18 8 2 0 18 0 80 2 0 18 5 2 0 18 6 5 0 18 0 1 5525 5 6 7 35 17 200 1 2 1 25 6 0 5 287 57623 I O INPUT2 57625 I O INPUT3 57627 I O INPUT4 57629 I O INPUT5 57631 I O INPUT6 57633 I O INPUT7 57635 I O INPUT8 57637 I O INPUT9 57639 I O INPUT10 57641 I ...

Page 333: ... 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 57663 I O OUTPUT2 57665 I O OUTPUT3 57667 I O OUTPUT4 57669 I O OUTPUT5 57671 I O OUTPUT6 57673 I O OUTPUT7 576...

Page 334: ...DWLRQ 101 GLJLWV 287387 RSHUDWLRQ 102 GLJLWV 287387 RSHUDWLRQ 103 GLJLWV 287387 RSHUDWLRQ 104 GLJLWV 287387 RSHUDWLRQ 105 GLJLWV 287387 RSHUDWLRQ 106 GLJLWV 287387 RSHUDWLRQ 57723 I O OUTPUT LOGIC 8 to 11 1 7 9 2 326 7 9 2 100 GLJLWV 287387 RSHUDWLRQ 101 GLJLWV 287387 RSHUDWLRQ 102 GLJLWV 287387 RSHUDWLRQ 103 GLJLWV 287387 RSHUDWLRQ 57725 57727 57729 57731 57733 57735 57737 57739 57741 57743 Ŷ HLJ...

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Page 336: ...1 2 57925 5 3 6 7 6 7 21 2 57927 5 3 6 7 6 7 21 2 57929 5 3 6 7 6 7 21 2 57931 5 3 6 7 6 7 21 2 57933 57935 57937 0 1 6 7 6 7 21 2 57939 0 1 6 7 6 7 21 2 57941 0 1 6 7 6 7 21 2 57943 0 1 6 7 6 7 21 2 57945 0 1 6 7 6 7 21 2 57947 0 1 6 7 6 7 21 2 57949 0 1 6 7 6 7 21 2 57951 0 1 6 7 6 7 21 2 57953 57955 57957 1 5 6 7 6 7 21 2 57959 1 5 6 7 6 7 21 2 57961 1 5 6 7 6 7 21 2 57963 1 5 6 7 6 7 21 2 ...

Page 337: ...ddress Data name Setting value 58113 6LJQDO RSHUDWLRQ RI 7 1 VWDUW 67 57 29 52 1 9 1 7 58115 6LJQDO RSHUDWLRQ RI 7 1 VWDUW AUTOMATIC TARE 9 1 7 58117 23 5 7 21 2 12 NOZZLE CONTROL 9 1 7 58119 23 5 7 21 2 12 CONTACT STOP SEQUENCE 9 1 7 58121 23 5 7 21 2 12 83 7 5 203 16 7 9 1 7 58123 8 21 7 21 7 0 5 6 83 67 1 7 0 5 6 83 67 25 7 0 5 6 83 58125 7 1 6 7 216 RECIPE START 9 1 7 58127 7 1 6 7 216 6 5 67 ...

Page 338: ...8167 52 1 58149 58151 58153 7 5 7 67 57 9 1 7 58155 7 021 725 1 TIMER 0 s to 9 999 s 58157 7 67 57 TIMER 0 s to 9 999 s 58159 2 203 6723 TIMER 0 00 s to 99 99 s 58161 0 2 203 6723 TIMER 0 00 s to 99 99 s 58163 2 203 6723 TIMER 0 00 s to 99 99 s 58165 7 1 7 0 25 8 0 00 s to 99 99 s 58167 6 021 7 0 5 V WR V 2 58169 7 26 0 00 s to 99 99 s 58171 7 1 6 287387 ON 0 00 s to 99 99 s 58173 6 1 6 287387 ON ...

Page 339: ... 21 VFDOH LQWHUYDO 58377 ZERO POINT mV V WR 8QLW P9 9 58379 SPAN POINT mV V WR 8QLW P9 9 58381 58383 58385 58387 58389 0 32 17 58391 UNIT 121 J NJ W OE 1 N1 58393 5 32 5 6833 9 9 9 58395 2 63 21 7 21 WR 58397 58399 58401 58403 58405 58407 58409 5 9 5 7 21 675 7 1R 5 9 7 5 7 21 58411 3 1R 01 to 16 58413 OPERATION PLACE No 01 to 16 58415 3 9 000 to 9 999 58417 OPERATION PLACE G A 9 000 to 9 999 5841...

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Page 341: ... C12 C13 C14 C15 7HUPLQDWRU Address 00 to 31 RPPDQG 1R HDGHU HDGHU 6LJQ RDG GDWD GLJLWV Unit Header 1 Header 2 Sign Load data 8 digits Unit C1 C2 HVFULSWLRQ C3 C4 HVFULSWLRQ C5 HVFULSWLRQ C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 HVFULSWLRQ O L 2YHUORDG N T 1HW ZHLJKW Plus 1 2 3 J UDP S T 6WDEOH G S Gross ZHLJKW Minus 0 1 2 3 k J LORJUDP U S 8QVWDEOH O L t Ton l b Pound N Newton k N LORQHZWRQ 6WDWXV UHD...

Page 342: ...JKW E 1HW ZHLJKW F 7DUH G L HG UDWH H 6WDEOH I 2 J 55 K 581 21 2 6WDWXV UHDG RVW ĺ 6 2 4 6 0 0 4 1 7HUPLQDWRU Address 00 to 31 RPPDQG 1R 5HWXUQ 6 ĺ RVW 2 4 6 8 10 12 14 0 0 4 1 D b c d e f J h 7HUPLQDWRU Address 00 to 31 6SDFH 6WDWXV RPPDQG 1R D 2 E 0 2 F 2 G 3523 5 H 2 I 81 5 J 8 K 52 1 21 2 6WDWXV UHDG RVW ĺ 6 2 4 6 0 0 4 2 7HUPLQDWRU Address 00 to 31 RPPDQG 1R ...

Page 343: ...HUURU QXPEHU IURP WR VKRXOG EH VHW IRU L RU LQIRUPDWLRQ DERXW WKH VHTXHQFH HUURUV UHIHU WR 6HTXHQFH HUURU GLVSOD 6WDWXV UHDG RVW ĺ 6 2 4 6 0 0 4 5 7HUPLQDWRU Address 00 to 31 RPPDQG 1R 5HWXUQ 6 ĺ RVW 2 4 6 8 10 12 14 0 0 4 5 D b 7HUPLQDWRU Address 00 to 31 6SDFH 6WDWXV RPPDQG 1R D DOLEUDWLRQ PRGH 85 1 0 685 0 17 85 1 52 8670 17 85 1 63 1 8670 17 E DOLEUDWLRQ HUURU 1RQH 2FFXUUHQFH RI 5525 520 YHUVL...

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Page 345: ...10 12 14 16 0 0 7 0 1 5 7HUPLQDWRU Address 00 to 31 6SDFH No RPPDQG 1R 5HWXUQ DW WKH WLPH RI QRUPDOLW 6 ĺ RVW 2 4 6 8 10 12 14 16 0 0 7 0 1 5 7HUPLQDWRU Address 00 to 31 6HWWLQJ YDOXH 6LJQ RU No RPPDQG 1R Return at the time of abnormality when corresponding numbers are missing 6 ĺ RVW 2 4 6 8 0 0 E R 0 2 7HUPLQDWRU Address 00 to 31 ...

Page 346: ...Q DW WKH WLPH RI QRUPDOLW 6 ĺ RVW 2 4 6 8 10 12 14 16 18 0 0 7 0 2 1 7HUPLQDWRU Address 00 to 31 6HWWLQJ YDOXH 6LJQ RU RPPDQG 1R No Return at the time of abnormality when corresponding numbers are missing 6 ĺ RVW 2 4 6 8 0 0 E R 0 2 7HUPLQDWRU Address 00 to 31 POINT 7KH VHWWLQJ YDOXH LV VHW DV DQ LQWHJHU YDOXH ZLWKRXW D GHFLPDO SRLQW LQ WKH XQLW GHVFULEHG LQ 5HDG FRPPDQG OLVW ...

Page 347: ...8 0 1 5 7HUPLQDWRU Address 00 to 31 6HWWLQJ YDOXH 6LJQ RU No RPPDQG 1R 5HWXUQ DW WKH WLPH RI QRUPDOLW 6 ĺ RVW 2 4 6 8 10 12 14 16 0 0 8 0 1 5 7HUPLQDWRU Address 00 to 31 6HWWLQJ YDOXH 6LJQ RU No RPPDQG 1R Return at the time of abnormality when the setting value range is different CSD 912B ĺ RVW 2 4 6 8 0 0 E R 1 3 7HUPLQDWRU Address 00 to 31 ...

Page 348: ...8 10 12 14 16 18 0 0 8 0 2 1 7HUPLQDWRU Address 00 to 31 6HWWLQJ YDOXH 6LJQ RU RPPDQG 1R No Return at the time of abnormality when the setting value range is different CSD 912B ĺ RVW 2 4 6 8 0 0 E R 1 3 7HUPLQDWRU Address 00 to 31 POINT RU ZULWH FRPPDQGV UHJDUG WKH FRPPDQG QXPEHUV ZKLFK DUH GHVFULEHG LQ 5HDG FRPPDQG OLVW DV RU WKH VHWWLQJ YDOXH VHW DQ LQWHJHU YDOXH ZLWKRXW D GHFLPDO SRLQW LQ WKH X...

Page 349: ... 7 9 0 1 9 9 9 7HUPLQDWRU Address 00 to 31 6HWWLQJ YDOXH RPPDQG 1R 8QLW V HG Number of weighing points 2 4 6 8 10 12 14 16 0 0 7 9 0 2 7HUPLQDWRU Address 00 to 31 6SDFH RPPDQG 1R 5HWXUQ 6 ĺ RVW 2 4 6 8 10 12 14 16 0 0 7 9 0 2 3 5 0 7HUPLQDWRU Address 00 to 31 6LJQ RU 6HWWLQJ YDOXH RPPDQG 1R 6HWWLQJ YDOXH UDQJH WR 5HWXUQ DW WKH WLPH RI DEQRUPDOLW 6 ĺ RVW 2 4 6 8 0 0 E R 0 2 7HUPLQDWRU Address 00 to...

Page 350: ... 0 7 9 0 3 9 9 9 9 9 9 7HUPLQDWRU Address 00 to 31 RDG GDWD 6LJQ RU RPPDQG 1R 6HWWLQJ YDOXH UDQJH WR 7KH VHWWLQJ YDOXH LV HQWHUHG IURP WKH ULJKW HQG IRU GDWD WUDQVPLVVLRQ 1R GHFLPDO SRLQW LV DGGHG Return at the time of abnormality when read is executed during weighing CSD 912B ĺ RVW 2 4 6 8 0 0 E R 0 2 7HUPLQDWRU Address 00 to 31 5HWXUQ DW WKH WLPH RI DEQRUPDOLW ZKHQ GDWD DW PRUH ZHLJKLQJ SRLQWV W...

Page 351: ...WKDW IROORZV WKH FRPPDQG QXPEHU GLVDJUHHV ZLWK WKH FRQGLWLRQV 14 1R FRUUHVSRQGLQJ FRPPDQG Process to be executed when the FRUUHVSRQGLQJ FRPPDQG QXPEHU LV PLVVLQJ POINT I WKH DGGUHVV DQG WKH H LW FRGH WHUPLQDWRU FDQQRW EH GHWHFWHG DQ HUURU FRPPDQG ZLOO QRW EH UHWXUQHG I D FRPPXQLFDWLRQ HUURU FRPPDQG LV UHWXUQHG IURP 6 WDNH DFWLRQ RQ WKH KRVW VLGH VXFK DV D 3 RU D VHTXHQFHU 7KH VHWWLQJ YDOXH VKRXOG ...

Page 352: ...IMINARY1 70 06 0 to 999 999 PRELIMINARY2 70 07 0 to 999 999 OVER 70 08 0 to 999 999 81 5 70 09 0 to 999 999 52 1 70 10 0 to 999 999 8 70 11 0 to 999 999 COMPENSATION 70 12 WR 203 16 7 21 2 SUPPLEMENTARY 2 7 0 70 13 V WR V 8QLW V 8 7 5 6 2 7 70 14 V WR V 8QLW V 5 1 80 9 8 GLJLWV 70 15 99 999 999 to 99 999 999 5 1 80 COUNT 70 16 0 to 999 999 PRESET TARE 70 17 0 to 999 999 1 7 8 2 70 18 0 to 999 999 ...

Page 353: ...HOHFWHG When not selected MEAS 6 76 08 9DOXH IURP WR ZKHQ VHOHFWHG When not selected MEAS 7 76 09 9DOXH IURP WR ZKHQ VHOHFWHG When not selected MEAS 8 76 10 9DOXH IURP WR ZKHQ VHOHFWHG When not selected MEAS 9 76 11 9DOXH IURP WR ZKHQ VHOHFWHG When not selected MEAS 10 76 12 9DOXH IURP WR ZKHQ VHOHFWHG When not selected RECIPE ACCUM 9 8 GLJLWV 76 13 99 999 999 to 99 999 999 RECIPE ACCUM COUNT 76 1...

Page 354: ... 999 5 1 80 9 8 GLJLWV 70 15 99 999 999 to 99 999 999 5 1 80 COUNT 70 16 0 to 999 999 5 1 80 9 8 GLJLWV 70 21 9 999 999 999 to 9 999 999 999 7 5 7 2 6 OPERATION 70 31 5266 1 7 7 5 7 2 6 OPERATION 70 32 5266 1 7 7 5 7 2 6 OPERATION 70 33 5266 1 7 7 5 7 2 6 OPERATION 70 34 5266 1 7 21 7 21 2 6 70 41 025 7 1 66 7 1 21 7 21 2 6 70 42 025 7 1 66 7 1 21 7 21 2 6 70 43 025 7 1 66 7 1 21 7 21 2 6 70 44 02...

Page 355: ...3 5 7 21 2 TARE 71 15 1 67 02 1 7 0 1 7 7 2 6 7 23 5 1 2 7 5 71 16 2 1 3 7 2 _ 1 3 7 _ 23 5 7 21 2 35 7 5 71 17 9 1 7 3UHVHW WDUH FKRLFH 71 18 7 67 7 5 6 86 7 5 5 ZERO AT POWER ON 71 19 9 1 7 ZERO CLR AT POWER ON 71 20 9 1 7 TARE AT POWER ON 71 21 9 1 7 TARE CLR AT POWER ON 71 22 9 1 7 23 5 7 21 2 2 71 23 6 1 7 2 6 1 7 7 1 6 1 7 5 3 1 80 200 1 71 24 1 67 02 1 7 0 35 17 200 1 71 25 1 67 02 1 7 0 GR...

Page 356: ...72 12 I O INPUT3 72 13 I O INPUT4 72 14 I O INPUT5 72 15 I O INPUT6 72 16 I O INPUT7 72 17 I O INPUT8 72 18 I O INPUT9 72 19 I O INPUT10 72 20 I O INPUT11 72 21 5HWXUQ FRPPDQG VHWWLQJ YDOXH SRUWLRQ 2 5266 1 7 52 52 5 7 5 7 5 5 7 67 57 5 3 67 57 6 5 67 57 0 1 67 57 7 6 5 0 203 16 7 21 80 200 1 20 5 0 7 5 2 12 2 12 2 12 2 12 2 12 2 12 2 12 2 12 3 86 5 67 57 5 0 2 5 1 5 0 2 5 1 5 0 2 5 3 5 0 2 5 3 6 ...

Page 357: ...6 12 2 1 16 57 0 6 1 6 4 5525 3 5525 5525 85 1 7 5 17 5 2 52 5266 63 1 7 63 85 1 2 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2 233 5 8 2 233 5 0 80 2 233 5 5 2...

Page 358: ...O OUTPUT LOGIC output 1 to 7 72 61 1 7 9 2 326 7 9 2 GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ I O OUTPUT LOGIC output 8 to 11 72 62 1 7 9 2 326 7 9 2 GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ GLJLWV 2 RXWSXW RSHUDWLRQ POINT...

Page 359: ...9 2 8 73 05 5266 1 7 203 5 6 21 2 _ 5266_ _1 7_ 5 3 02 73 06 1 7 6 0 872 5 3 02 872 5 3 02 6 9 7 73 07 12 0 025 0 025 7 1 6 7 6 7 73 11 21 2 6 7 73 12 21 2 6 7 73 13 21 2 6 7 73 14 21 2 6 7 73 15 21 2 6 7 73 16 21 2 6 7 73 17 21 2 6 7 73 18 21 2 6 6 7 6 7 73 21 21 2 6 7 73 22 21 2 6 7 73 23 21 2 6 7 73 24 21 2 6 7 73 25 21 2 6 7 73 26 21 2 6 7 73 27 21 2 6 7 73 28 21 2 5 3 6 7 6 7 73 31 21 2 6 7 7...

Page 360: ...4 21 2 6 7 73 45 21 2 6 7 73 46 21 2 6 7 73 47 21 2 6 7 73 48 21 2 1 5 6 7 6 7 73 51 21 2 6 7 73 52 21 2 6 7 73 53 21 2 6 7 73 54 21 2 6 7 73 55 21 2 6 7 73 56 21 2 6 7 73 57 21 2 6 7 73 58 21 2 AUTOMATIC ACCUM 73 61 2 6 1 7 1 6 872 80 7 67 21 7 21 2 872 ACM 73 62 1 2 02 12 21 7 21 872 5 3 2 ACM 73 63 9 1 7 AUTOMATIC PRINT 73 64 9 1 7 POINT RU WKH ZULWH FRPPDQG UHJDUG WKH FRPPDQG QXPEHU LQ WKH WDE...

Page 361: ...7 5 3 1 6 7 216 TARE CLEAR 74 12 9 1 7 MIXING START 74 13 9 1 7 6 5 67 57 74 14 9 1 7 0 7 0 2 203 16 7 21 74 15 WLPH WR WLPHV 2 8QLW WLPHV 203 5 621 2 EVAL 74 16 7 0 5 6 83 67 1 7 0 5 6 83 67 25 7 0 5 6 83 203 16 7 21 74 17 9 1 7 7 1 6 287387 2 74 18 12 21 7 21 2 25 8167 52 1 7 5 7 67 57 74 21 9 1 7 7 021 725 1 7 0 5 74 22 V WR V 8QLW V 7 67 57 7 0 5 74 23 V WR V 8QLW V 2 203 6723 7 0 5 74 24 V WR...

Page 362: ...ERATION 75 21 675 7 1R 5 9 7 5 7 21 3 1R 75 22 01 to 16 OPERATION PLACE No 75 23 01 to 16 3 75 24 WR 8QLW OPERATION PLACE G A 75 25 WR 8QLW ZERO POINT mV V LYH GHFLPDO SODFHV 75 26 2 500 00 mV V to 2 500 00 mV V 8QLW P9 9 SPAN POINT mV V LYH GHFLPDO SODFHV 75 27 0 000 01 mV V to 3 100 00 mV V 8QLW P9 9 POINT RU WKH ZULWH FRPPDQG UHJDUG WKH FRPPDQG QXPEHU LQ WKH WDEOH DV 7KH VSDQ FDOLEUDWLRQ YDOXH ...

Page 363: ... D VSHFL HG SRVLWLRQ ZKHQ 7 0 32 17 LV VHW WR 67 1 DQG GHFLPDO SRLQW SRVLWLRQ LV VSHFL HG RQ WKH FDOLEUDWLRQ VFUHHQ KHQ RYHUORDG RFFXUV 2 ZLOO EH GLVSOD HG RQ WKH ORDG GDWD SDUW OO EODQN VTXDUHV DUH HPSW VSDFHV 1 When TARGET OF STREAM PRINT is set to LOAD DISPLAY GROSS or NET 5HWXUQ 6 ĺ RVW 2 4 6 8 10 12 14 0 0 9 9 7HUPLQDWRU RPPDQG No RDG GDWD RDG GDWD VLJQ 2 4 6 8 10 12 14 0 0 9 9 1 2 3 7HUPLQDW...

Page 364: ... C12 C13 C14 C15 7HUPLQDWRU HDGHU HDGHU 6LJQ RDG GDWD GLJLWV Unit Header 1 Header 2 Sign Load data 8 digits Unit C1 C2 HVFULSWLRQ C3 C4 HVFULSWLRQ C5 HVFULSWLRQ C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 HVFULSWLRQ O L 2YHUORDG N T 1HW ZHLJKW Plus 1 2 3 J UDP S T 6WDEOH G S Gross ZHLJKW Minus 0 1 2 3 k J LORJUDP U S 8QVWDEOH O L t Ton l b Pound N Newton k N LORQHZWRQ ...

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Page 366: ...e Product Sales Management 1 1 1 Katase Fujisawa shi Kanagawa ken 251 8531 Japan Tel 81 466 23 2681 Fax 81 466 22 7191 Sensing Device Business Unit FUJISAWA PLANT 1 1 1 Katase Fujisawa shi Kanagawa ken 251 8531 Japan Tel 81 466 22 7151 Fax 81 466 22 1701 KARUIZAWA PLANT 4106 73 Miyota Miyota machi Kitasaku gun Nagano ken 389 0293 Japan Tel 81 267 31 1309 Fax 81 267 31 1353 HOMEPAGE ADDRESS http ww...

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