instruction manual calibration setting of function...measuring components business unit minebea co.,...

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EN294-1540-A General Installation/Wiring Changeover of mode Calibration Setting of Function Setting of Comparator Check mode CC-Link interface USB (RS-232C) interface Trouble shooting Specifications & others CSD-892-73 Instruction Manual DIGITAL CONVERSION MODULE Measuring Components Business Unit Minebea Co., Ltd.

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Page 1: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

EN294-1540-A

General

Installation/Wiring

Changeover of mode

Calibration

Setting of Function

Setting of Comparator

Check mode

CC-Link interface

USB (RS-232C) interface

Trouble shooting

Specifications & others

CSD-892-73Instruction Manual

DIGITAL CONVERSION MODULE

Measuring Components Business UnitMinebea Co., Ltd.

Page 2: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

I

FOREWARDThank you very much for your purchasing Minebea's Digital Conversion module, model CSD-892-73. This manual for CSD-892-73 explains the procedures and checkpoints in operation. We would like you to read through this instruction manual with much care for the best use of our product to avoid malfunctions.

To read this manual, the basic knowledge of PLC program and CC-Link interface is needed.

Moreover, please refer to the manual of PLC and PLC program.

● CC-Link is an abbreviation of 'Control & Communication Link'.  

Marks and references described in this manual.In this instruction manual, the following marks are used to understand the matters that indicate "Don't do this", "Caution", and "For reference". Please be sure to read following descriptions for safety.

This sign forewarns the presence of hazards that could result in serious injury or fatality when incorrectly handled.Be sure to read to prevent from malfunction.

This sign forewarns the presence of hazard that the user may result in serious injury.

This sign describes a attention and a limitation, etc., in the operation and the work

Warning

Caution

Page 3: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

II

For safe operation  Be sure to read this manual before use.

1. Location of installation

Environment not to set up.• Places exposed to direct sunlight and/or places in the high temperature.• Places in a highly humid area.• Places where the instrument is directly affected by vibrations or mechanical

shocks.• Environments with full of dust or coarse particulates.• Environments containing of corrosive gas or salt.• Environments with raid change in temperature and/or humidity.• Near the devices which generate magnetism or electromagnetic waves.• Environments vulnerable to radioactivity or radioactivity rays.• Environments where chemical reaction may take place such as a laboratory.

Please set up into the operation control panel when the instrument is used in

the following places.• Places where drop of water splashes.•

● Environmental temperature:-10 ℃ ~ 50 ℃(Preservation:-20 ℃ ~ 60 ℃) ● Environmental humidity:85 %RH or less. (Non-condensing)

Warning

Caution

• Do not install the Instrument in following places. It may cause damage to the Instrument.

• Use the Instrument under the following conditions.

Page 4: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

III

Front installation

Vertical installationUpward installation

Installation on ceiling

■ Direction of installationWhen you install it in the control panel, please set it up in the front on upward so that the front panel that includes the display of this instrument may come forward

2. Installing the instrumentWhen you set up two or more devices, you can install on the same panel with no clearance in between.

■ Outline dimensionsFront Side

Unit : mm

72 6.2

96

67.4

Caution• Please secure and set up the space between this instrument and the device

Page 5: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

IV

3. Power supply

4. Instruction for usage Caution

• Be sure to ground a grounding wire. If a grounding wire is not grounded, it may cause malfunction of the instrument or an electric shock to an operator.

• Before using a new instrument, or when exchanging a strain gage applied transducer for a new one, be sure to make calibration. If neglected, it may cause incorrect results in measurement or malfunction in the instrument and moreover may cause damage to peripheral equipments. When similar trouble occurs after calibration, be sure to make calibration again, even if calibration has completed.

• When using the instrument, check that wires are connected properly. If neglected, correct measurement cannot be obtained and it may cause malfunction in the instrument or cause damage to peripheral devices or a critical accident.

• Improper change of setting during operation may cause incorrect measurement or malfunction, or cause damage to peripheral equipments.

• Do not give the instrument such a shock as throwing something at it. It may cause damage or destroy electrical circuits and even have loose resistance to environment or operability.

• Do not remove the cover of the case of the instrument, nor peel off the panel sheet nor take the instrument into pieces. If neglected, it may cause damage to the case and the panel sheet and even have the possibility of damage to resist to environments or operational performances.

Caution

Warning

• Be sure to check that power supply is OFF when installing each cable. If an operator works with power ON, operator may have an electric shock or the instrument may be destroyed.

• with supplied power. If they are not identical, contact with Minebea. Without checking the above, operation may cause damage to the instrument or electric shock.

Page 6: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

V

5. Conformity standardThis instrument has suited the following standard. EN61326-1:2006

"Electrical equipment for measurement, control, and laboratory use - EMC requirements" "Immunity test requirements for equipment intended for use in industrial locations"

• Installation place Please set up in the control board and the operation panel where EMC solution is given.

• Power supply Please set up the power supply of DC24 V in the control board and operation panel where EMC solution is also given. The power supply of DC24 V must use "CE applied product".

• Cable Use the shielded cable other than the power cable.

• Shield processing Please connect the shield cable of load cell with E terminal in upper terminal block.

• Please connect the shield cable only for CC-Link interface with SLD terminal in the connector for CC-Link interface. Please process the shield to the cable for CC-Link and the external I/O surely by the conduit piping including the control board.

• Grounding The ground shall apply the individual ground by using the F.G. terminal in lower terminal block. Please make the single ground of the instrument, or of the storage case after connecting with the storage case when you store only the DC24 V power circuit and the instrument in the storage case. Please give the earth as a single earth when you store the device other than the instrument in the storage case.

Caution

• At the time of shipment from the factory, the instrument has been plated with a clear sheet on the panel sheet for protective purpose. In case of application, use

• Do not push the panel sheet on the instrument with the excessive strong force nor push it with sharp edge object such as a driver.

• If neglected, it may cause damage to the panel switch and even have the possibility of damage to resist to environments or operational performances.

• When the USB interface is used, the applied CE standard is excluded.• Please observe the following conditions strictly when this instrument suits the below. If

neglected, it may not conform to the above standard.

Page 7: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

VI

Date Instruction No. Reason of revised (Contents)

2012/08 DRW. NO. EN294-1540 First version

2012/09 DRW. NO. EN294-1540-A Deu to FN13-02154• Cover Change the revision number to EN294-1540A• 14-5-2. 1) Change from [Remote input] to [Remote

output].• 14-5-2. 2) Change from [Remote output] to [Remote

input].• 15-3. Change from [Initial data setting response] to

[Initial data setting completion].

Revision history

Page 8: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

CONTENTS

FOREWARD ...................................................................................... I

Marks and references described in this manual. ............................... I

For safe operation ............................................................................. II1. Location of installation .......................................................................................... II2. Installing the instrument ........................................................................................III3. Power supply ....................................................................................................... IV4. Instruction for usage ............................................................................................ IV5. Conformity standard ..............................................................................................V

Revision history ................................................................................ VI

1. Each Name and Function ..............................................................11-1. Front panel ............................................................................................................11-2. Upper and lower part of front panel ...................................................................... 3

2. Installation and Wiring ...................................................................42-1. Attaching to and Removing from a DIN rail ........................................................... 42-2. Note for connecting wires ..................................................................................... 42-3. Connection with strain gage based transducer ..................................................... 52-4. Connecting of power supply and ground ............................................................. 102-5. Connection with external control I/O .................................................................... 112-6. Connection of CC-Link interface .......................................................................... 12

3. Operation ......................................................................................133-1. Changeover of mode ........................................................................................... 133-2. Display transition diagram .................................................................................... 15

4. Calibration mode ..........................................................................164-1. What is calibration? .............................................................................................. 164-2. Procedure of calibration ....................................................................................... 174-3. Selection of calibration method ............................................................................ 194-4. Fine adjustment and re-calibration of calibration ................................................. 194-5. Item set if necessary after a calibration ............................................................... 194-6. Details of calibration procedure ........................................................................... 204-7. Fine adjustment of ZERO and SPAN ................................................................... 264-8. Digital linearization .............................................................................................. 284-9. Calibration only of ZERO ..................................................................................... 304-10. Simple calibration ................................................................................................. 31

VII

Page 9: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

5. C function mode ...........................................................................355-1. Setting method of C function mode ...................................................................... 355-2. Details of C function data ..................................................................................... 36

6. Various operations by C function data ..........................................386-1. Decimal point display position .............................................................................. 386-2. A/D sampling ........................................................................................................ 386-3. Condition of overload display (Display of [OL] and [-OL]) .................................... 386-4. Comparison operation display synchronization ................................................... 386-5. Unit ....................................................................................................................... 386-6. ZERO set ............................................................................................................. 396-7. ZERO tracking ..................................................................................................... 396-8. Power on ZERO ................................................................................................... 416-9. Tare weight cancellation ...................................................................................... 416-10. Change of data stored place ................................................................................ 426-11. Stability detection while setting ............................................................................ 426-12. Gravity acceleration compensation ...................................................................... 426-13. Calibration data (For reference) ........................................................................... 446-14. Stability detection time width in calibration .......................................................... 446-15. Digital linearize clear ............................................................................................ 446-16. C function clear .................................................................................................... 44

7. Function mode ..............................................................................457-1. Setting method of function mode ......................................................................... 457-2. Details of function data ........................................................................................ 46

8. Various operations by function data .............................................49 ........................................................................................................... 49 .......................................................................................................... 49

.................................................................................................. 498-4. Key lock function .................................................................................................. 518-5. Stability detection ................................................................................................. 518-6. Hold ...................................................................................................................... 528-7. Operation of F/ENTER ......................................................................................... 528-8. External control I/O .............................................................................................. 538-9. Maintenance date, Maintenance number ............................................................. 558-10. Lighting time of liquid crystal back light ................................................................ 558-11. Function clear ...................................................................................................... 55

9. S function mode............................................................................569-1. Setting method of S function mode ...................................................................... 569-2. Details of S function data ..................................................................................... 57

VIII

Page 10: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

10. Various operations by S function data ........................................5810-1. Measurement mode ............................................................................................. 5810-2. Control mode ....................................................................................................... 5810-3. Operation of comparative signal .......................................................................... 5810-4. Comparative operation at NEAR ZERO (ZERO BAND) ........................................ 10-5. Comparative operation of FULL ........................................................................... 5810-6. S function clear .................................................................................................... 58

11. Measurement mode ....................................................................5911-1. Selection method of Measurement mode ............................................................ 6011-2. Simple comparison mode .................................................................................... 6111-3. 5 steps comparator mode .................................................................................... 67

12. Stored data of setting data .........................................................7312-1. Data stored in internal RAM ................................................................................. 7312-2. Data stored in EEPROM ...................................................................................... 7312-3. Data that stored place can be changed ............................................................... 73

13. Check mode ...............................................................................7413-1. Setting method of Check mode ............................................................................ 7413-2. EzCTS mode ........................................................................................................ 75

............................................................................... 75 .................................................................. 76

................................................................ 76 ..................................... 77

14. CC-Link interface ........................................................................7814-1. General .................................................................................................................7814-2. Features ............................................................................................................... 78

....................................................................... 7814-4. PLC memory explanation ..................................................................................... 8014-5. Address map ........................................................................................................ 8114-6. Calibration by CC-Link interface .......................................................................... 100

15. Operation method ..................................................................... 10815-1. Writing set value ................................................................................................. 10815-2. Writing/Reading by general command ................................................................ 10815-3. Shift to condition that can be communicated ...................................................... 109

................................................................ 11015-5. CPU normal operation signal .............................................................................. 110

16. USB (RS-232C) interface ..........................................................111 ................................................................................... 111

IX

Page 11: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

16-2. Operation mode .................................................................................................. 11116-3. Command data format ........................................................................................ 11316-4. Data format for stream mode .............................................................................. 12516-5. Data format of calibration by transmission .......................................................... 127

17. Trouble shooting ....................................................................... 13617-1. Basic chapter ...................................................................................................... 13617-2. External control I/O chapter ................................................................................ 13717-3. CC-Link interface chapter ................................................................................... 13717-4. USB interface chapter ......................................................................................... 137

........................................................................... 138 ..................................................................................... 138

...................................................................................... 13818-3. Interface ..............................................................................................................138

......................................................................................... 139 ................................................................ 139

18-6. Accessories ......................................................................................................... 139

19. Error display ............................................................................. 140

20. Warranty ................................................................................... 14220-1. Warranty ............................................................................................................. 14220-2. Repair .................................................................................................................14220-3. Life time of using parts ........................................................................................ 142

21. Pattern of display character ...................................................... 143

22. Index ......................................................................................... 144

23. Function setting table ............................................................... 147

X

Page 12: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

1

General

1. Each Name and Function

① Unit display sectionDisplay the setting unit of weighing.

② Load display sectionDisplay the Gross/Net, Overload or Error. In the various setting mode, display the condition and the setting value.

③ Condition display sectionDisplay the condition of CSD-892-73.

ZERO Light on when the zero calibration is processed.

SPAN Light on when the span calibration is processed.

mV/V Light on when mV/V value is displayed, like in the calibration by the numeric input, or in monitoring the output value from load cell.

STABLE Light on when the weighing data is in stable condition.

TARE Light on when the tare weight cancellation is processed.

GROSS Light on when the display of weighing is set to the gross value.

NET Light on when the display of weighing is set to the net value.

CZ Light on when the displayed load value is zero, and within 1/4 of the scale intervals.

LOCK Light on when the key lock is effective.

HOLD Light on when the holding is effective.

ERROR Light on when the error signal is output.

OUT1 ~ 5 The number lights on when the corresponding external output is turning on.

1-1. Front panel

① Unit display

③ Condition display

⑨ USB interface connector

⑧ F/ENTER key⑤ FUNC. key⑦ CAL-S/▲ key⑥ CAL-Z/ key

② Load display

④ Status LED

Page 13: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

2

Gen

eral

④ Status LED The communication of CC-Link is expressed with four LED.

Name of LED Turn on Turn off BlinkingRUN ・ Normal ・During reset

・No communication-

SD ・Transmitting - -RD ・Receiving - -

ERROR ・Abnormal setting ・CRC error occurs ・ Trouble

・Normal ・When the set is changed.

⑤ FUNC. keyEnter into the function mode, or change each status to the former status set in advance.

Shifts to Calibration setting mode by pushing for 2 seconds or more.

⑥ CAL-Z/ keyCarry up the setting value.

Shifts to ZERO calibration mode of a simple calibration by pushing for 2 seconds or more. Also shifts to calibration lock mode of a simple calibration.

Also shifts to calibration lock mode of a simple calibration by pushing for 2 seconds or more CAL-Z/ and CAL-S/▲ key at the same time.

⑦ CAL-S/▲ keySet value increment. Shifts to SPAN calibration mode of a simple calibration by pushing for 2 seconds or more.

⑧ F/ENTER keyResister the setting value, and execute function set in F/ENTER key.

(Selectable from None, Hold, ZERO set, ZERO clear, Tare weight cancellation, Tare weight clear, Changeover of gross /net value.

Shift to the setting mode of comparator, Check the CC-Link station number.)

※Default function has set to Check the CC-Link station number.

⑨ Connector for USB interface (mini-USB connector type-B)USB interface is used for reading the set data from host and writing the parameter details set for the measurement and calibrate.

The subject driver installation is needed.

Please download from Minebea's homepage, and install it to the PC.

Additionally, EzCTS_USB1 (Optional software for PC) is convenient for reading, writing, saving and printing the setting data by connecting with PC.

• Please refer to [4-10. Simple calibration] for the details.

Page 14: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

3

General

① Cover-1 and -2 of terminal block This is the protection cover of upper / lower terminal blocks. Please connect after opening the cover when you wire to the terminal block.② Terminals for power supply and external control I/O (Lower part terminals) This terminal block is used for the connection with DC24V power supply, grounding and external

control equipment.

The external control I/O can use the input up to 3 points and the output up to 5 points at maximum.③ Terminals for load cell (Upper part terminals) 4 units of strain gage based transducer (350 Ω ) can be connected in parallel.④ CC-Link interface connector This connects to PLC with CC-Link connector of accessory.

1-2. Upper and lower part of front panel CC-Link interface connector

Terminals for load cell (Upper part terminals)

Cover-1 and -2 of terminal block

Terminals for power supply and external control I/O (Lower part terminals)

Page 15: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

4

Inst

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2-1. Attaching to and Removing from a DIN railThis instrument adopts the rail mounting type with 35 mm width of DIN standard.

The procedures of attaching and removing are as follows:

2-2. Note for connecting wires

① Hang an upper claw of this instrument on the upper side of DIN rail.

② Press this instrument onto DIN rail until a click sound is heard.

①supply cable have come off from the main body.

② Pull a lower claw of this instrument downward from the front direction using a screwdriver, and then remove this instrument from the DIN rail.

Attaching method to a DIN rail

Removing method from a DIN rail

● When connecting wires, turn off the power supply without fail. ● Do not supply the electric power until the installation is completed. There is no switch

that switches ON/OFF of power supply in the main body. ● Do not drop or do not give the high impact because the terminal block is made by the

resin. ● Please separate the cable connected with the main body from the noise source such as I/

O for the control, power supply line as much as possible. ● Do not share the wiring with the other lines as a special conduit wiring. ● Be sure to connect a grounding wire with exclusive use of D-type single grounding. Do not

share it with other groundings for power supply system. ● The tightening torque of terminal screws on the terminal board is 0.6 N・m. ● Please use the solderless terminal with 6.2 mm or less in the width.

(O-type 1.25-3 or Y-type 1.25-3)

Page 16: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

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2-3. Connection with strain gage based transducerThis instrument can connect with the strain gage based transducers, such as load cells, pressure sensors, etc. Please connect the load cell to the upper terminal block. We describe here as an example of connection with load cells, and please process it similarly for connecting with other strain gage based transducers.

① Case 6-wires type connection cableLoad cell

Load cell power supply + (Red)

Load cell power supply - (White)Load cell input + (Green)Load cell input - (Blue)Shield (Yellow)

Sensing input + (Orange)

Sensing input - (Black)-SIG +SIG

+EXC

-EXC

Load cell power supply +Sensing input +Sensing input -Load cell power supply -Load cell input +Load cell input -Shield

RedOrangeBlackWhiteGreenBlue

Yellow

• When tension is applied with the use of tension type or universal (tension/com-pression) type load cell, and display of (+) direction is required, connect input (+) of load cell to terminal B and input (-) of load cell to terminal D individually. (Excluding Minebea's load cell of CLS-A, CL- B, UL(A) and UT(A)).

• Cable color is Minebea's standard. (Excluding Minebea's load cell of LSM-B.)

• When the length of CAB-501 (Minebea's standard cable) is more than 100 m totally, the accuracy may be out of warranty as the remote sensing function of the instrument does not work enough due to the resistance of the cable.

• Shorten the remote sensing input + and remote sensing input - near the main body of load cell. When the short is made near the instrument, the sensing function does not work as it is.

Page 17: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

6

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② Case 4-wires type connection cable

Short-bar attached.

-SIG +SIG

+EXC

-EXC

Load cell Load cell power supply + (Red)

Load cell power supply - (White)Load cell input + (Green)Load cell input - (Blue)Shield (Yellow)

• When you use the 4-wires cable, shorten the load cell terminals A - F with the attached short-bar. CSD-892-73 does not work in normal operation when the terminal F and G is in the open status.

• When the length of CAB-502 (Minebea's standard cable) is more than 30 m totally, there may have the case that the accuracy is out of warranty due to the resistance of cable, the input voltage of the instrument will be decreased.

• When you use a zener barrier, connect by using above method with 4-wires cable.

Page 18: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

7

Installation & W

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③ Case connection of the load cells in parallelThe hopper scale, the track scale, etc, have the case to connect with several pieces of the load cells in parallel. The parallel connections can be easily executed by using optional SB-310 and SB-320 (Summing type junction box).

-SIG+SIG

+EXC

-EXC

-SIG+SIG

+EXC

-EXC

-SIG+SIG

+EXC

-EXC

-SIG+SIG

+EXC

-EXC

No.1

Load cell power supply + (Red)

Load cell power supply - (White)Load cell input + (Green)Load cell input - (Blue)Shield (Yellow)

Sensing input + (Orange)Sensing input - (Black)

No.2

No.3

No.4

• CSD-892-73 can make up to 4 parallel connections when the load cell is 350 Ω type.

Page 19: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

8

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④ Connecting with load cell, junction box B-304B for extension, and CSD-892-73.(1) When you use CAB-501 (6-cores cable)

B-304B internal terminal connection chart.

B-304B

CAB-501

Junction box

Load cell power supply + (Red)

Load cell power supply - (White)Load cell input + (Green)Load cell input - (Blue)Shield (Yellow)

Sensing input + (Orange)Sensing input - (Black)

Load cell

to load cell

Load cell power supply + (Red)

Load cell power supply - (White)

Load cell input + (Green)

Load cell input - (Blue)

Shield (Yellow)

Sensing input + (Orange)

Sensing input - (Black)

Shield (Yellow)

Load cell input + (Green)

Load cell power supply - (White)

Load cell power supply + (Red)

Load cell input - (Blue)

to CSD-892-73

• The remote sensing function of the instrument does not function enough due to the resistance of the cable at the time of total 100 m or more in length of CAB-501 (Minebea's standard cable), and there may have the possibility of outside the accuracy guarantee.

Page 20: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

9

Installation & W

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(2) When you use CAB-502 (4-cores cable)

B-304B internal terminal connection

B-304B

CAB-502

Junction box

Load cell power supply + (Red)

Load cell power supply - (White)

Load cell input + (Green)Load cell input - (Blue)Shield (Yellow)

Short-bar attached

Load cell

to load cell

Load cell power supply + (Red)

Load cell power supply - (White)

Load cell input + (Green)

Load cell input - (Blue)

Shield (Yellow)Shield (Yellow)

Load cell input + (Green)

Load cell power supply - (White)

Load cell power supply + (Red)

Load cell input - (Blue)

to CSD-892-73

• When you use with 4-wires method, be sure to make a short-circuited between A-F and C-G of the load cell terminal board. When terminal F and terminal G are used with opening status, CSD-892-73 cannot make normal operation.

• When the length of CAB-502 (Minebea's standard cable) is more than 30 m totally, the accuracy may be out of warranty due to the resistance of cable, the input voltage of the instrument will be decreased.

Page 21: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

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2-4. Connecting of power supply and groundPlease connect the power supply and ground to the lower terminal block as shown in the

F.G.+24 V

Frame groundPower supply DC24V

0 V Power supply DC V

DC24V (Permissible variable range : DC20.4 V ~ DC27.6 V)

D-class with single earth

• Please ground the protective ground terminal by D-class with single earth.

noise from the other equipment.• Please refer to [5. Applied standard] in [Safety Precaution] about the grounding to

comply with CE Standard.

• within the regulated power supply condition.

CAUTION

Page 22: Instruction Manual Calibration Setting of Function...Measuring Components Business Unit Minebea Co., Ltd. I FOREWARD Thank you very much for your purchasing Minebea's Digital Conversion

11

Installation & W

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2-5. Connection with external control I/OYou can control the function from the external control I/O terminals (Lower terminal block). The external control input is executed by shortening each input and COM1 with a contact point or open collector after wiring the connector. The external control output is an open electron collector output.(Open collector ratings VCE = DC35 V, IC = DC50 mA MAX) Please refer to [5. Applied Standard] in [Safety precaution] about the grounding to comply with CE Standard.

(1) Connection for input

(2) Connection for output

COM.1

to internal IN1 3

+5V

2.2kΩ

2.2kΩ

+5V

200Ω

OUT1 ~ 5

COM.2

Load

Serge elimination device VCE

VCE =DC35V IC=DC50mA MAXOpen collector rated

OUT1

Common 2 for output

Output 1

OUT2 Output 2

OUT3 Output 3

OUT4 Output 4

OUT5 Output 5

8

9

10

11

12

13

F.G.

+24 V

Frame ground

Power supply DC24 V

0 V Power supply DC0 V

COM.1

COM.2

Common 1 for input

IN1 Input

IN2 Input

IN3 Input

1

2

3

4

5

6

7

• There are a pulse input and a level input in the recognition of the external control input signal depending on setting items.

• Refer to [8-8-1. Setting method of external control input] for the details.• COM.1 for external control input and COM.2 for 2-wires serial interface circuit are

connected internally.

• Please refer [8-8-2. Setting method of external control output] for the details.• COM.1 for external control input and COM.2 for external control output are

connected internally.

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12

Inst

alla

tion

& W

iring

2-6. Connection of CC-Link interfaceThe cable only for CC-Link is wired to the attached connector for CC-Link, and connected

● For connection of CC-Link cable, use a twisted pair cable line with shield (Cable only for CC-Link) and connect a shield with SLD terminal.

● Stripped length of electrical cable tip is 6 mm. ● The tightening torque of terminal screws on the terminal block is 0.6 N・m. ● When you connect with this instrument, please check the direction of upper/lower sides

of the connector, and insert until it bumps.

CC-Link interface connector

Attached CC-Link interface connector

Cable only for CC-Link interface.

Signal line DA side

Signal line DB side

Signal ground

Shield

Frame ground

 • Attached connector for CC-Link : MSTB 2,5-ST-5,08 AU(by PHOENIX CONTACT)• As to the termination, connect the terminating resistance of 110 Ω with the CC-Link

connector which is the furthest from PLC as possible.• The connecting cable must use the cable only for CC-Link.•

version of CC-Link Cable Wiring Manual published by CC-Link Partner Association about communication speed and cable length.

• [SLD] and [FG] are connected internally.• Please refer to [5. Applied standard] in [Safety Precaution] about the grounding to

comply with CE Standard.

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13

Change of m

ode

3. Operation3-1. Changeover of mode

CSD-892-73 has various modes according to the operating situation.Please push the [F/ENTER] key when you display the mode that shifts with the [CAL-Z/ ] key and the [CAL-S/▲ ] key after pushing the [FUNC] key.Please refer to [3-2. Display transition diagram] for details of the screen transition.

Power ON

Display check(All light on)

Measurement mode(Display measuring value)

① Refer to the function mode

② Refer to the C function mode

③ Refer to the C function mode

④ Refer to the calibration mode

⑤ Refer to the check mode

⑥ Refer to the measurement mode([COMP] setting mode)

(FUNC)

(CFUNC)

(SFUNC)

(CAL)

(CHECK)

(COMP)

  • Display becomes (error indication) when 'Power-On-Zero' function is effective and load cell output exceeds over ± 10 % of weighing capacity after turning on power supply. Similarly, when the load cell output is an unstable condition, the display becomes all lighting (error indication). If the [FUNC] key is pushed at the above-mentioned, the display compulsorily becomes a load display.

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14

Cha

nge

of m

ode

① Function modeThe setting concerning the following functions and effective/invalid are changed.

• • Key lock• Detection of stability• Hold• • Allocation of function to [F/ENTER] key.• External control I/O• Time of liquid crystal back light on• Various interface• Function clear

② C-Function modeThe setting concerning the following functions and effective/invalid are changed.

• Decimal point display position• A/D sampling• Overload display• Comparative action display synchronization• Unit• ZERO set• ZERO tracking• Power-On-Zero• Tare weight cancellation• Gravity acceleration compensation• Change of data saving location• Clear of digital linearization.• Stability detecting time width at calibration• C-function clear

③ S-Function modeThe setting concerning the following functions and effective/invalid are changed.

• Measuring mode• Control mode • Signal of comparative action• Comparative action at near zero• Comparative action at full• S-function clear

④ Calibration modeCalibration is processed to display the electrical signal from the measuring part (load cell) as an accurate weight.

⑤ Check modeThis operation checks the condition and movement of this unit.

• Shift to EzCTS mode• • •

⑥ Measurement mode (Comparator setting mode)Setting of measurement value at simple comparison mode and

(FUNC)

(CFUNC)

(CAL)

(COMP)

(CHECK)

(SFUNC)

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15

Change of m

ode

3-2. Display transition diagram▶

▶▶

▶▶

▶▶

▶▶

Function mode

(CFUNC)

(CCAL)

(CADJ)

(LNR)

(TARE)

(CAL)

(CHECK) (EzCTS)

(ROM)

(IN)

(OUT)

(MONT)

(S *)

(SET*)

(COMP)

(SFUNC)

(CF-**)

(SF-**)

(FUNC)

(FUNC)

(F -**)

C-function mode

S-function modeInput the function number at [**],and execute the setting of each function

(In selecting 5-steps  comparator mode)

In selecting [Simple comparative mode]

Calibration mode

Check mode

Measurement modekey pushing movement

key pushing movement

key pushing movement

kg

**

**

**

FUNC.FUNC.

ENTERENTER

FF

CAL-ZCAL-Z

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16

Cal

ibra

tion

4. Calibration mode4-1. What is calibration?

The calibration is an operation that matches the load of the sensor to the display of this instrument to display the electrical signal from the sensor (load cell) as an accurate load.If the calibration is not proceeded, a correct display and an output cannot be taken. The example when the load cell is used is shown as follows.

For instance, when you put the weight of 100 kg on the weighing section.

When calibration is executed ・・・

When calibration is not executed ・・・

Neither the load value, the unit nor the decimal point display position, etc. are correctly displayed.

100kg100kg

A correct load value is displayed, and a unit and a decimal point display position are displayed as set.

100kg100kg

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17

Calibration

4-2. Procedure of calibrationPlease refer to [4-6. Details of calibration procedure] for the actual steps.

After turning on DC24V, CSD-892-73 is energized for about 10 minutes to stabilize CSD-892-73 and weighing section (load cell).

Switch from measuring mode to the calibration mode.

The unit is set.Select the unit from [kg],[t], [lb], [N], [kN], [Pa], [kPa], [MPa], [OFF (no unit)] or [g].Moreover, only this item can be individually changed with C-function: CF-05.

The decimal point display position is set.Select the decimal point from [0] (Nothing), [0.0], [0.00], [0.000] or [0.0000].Moreover, only this item can be individually changed with C-function: CF-01.

The scale interval is set.The scale interval is the minimum unit of measurement value.Select from [1], [2], [5], [10], [20] or [50]. Example) When the setting is 2, the display changed with 2→ 4→ 6….

The weighing capacity is set.The weighing value is rated capacity that can be measured.

The mass of weight used at the span calibration is set. Please use the weight of 2/3 or more of weighing capacity to reduce the calibration error. Please input the same value as weighing capacity when there is no weight.

▶▶

▶▶

▶▶

Turn on power supplyAdvance preparation

Switch to the calibration modeStep 1

Step 2

Step 3

Step 4

Step 5

Step 6

Setting the unit

Set of decimal point display position

Set the scale interval

Set weighing Capacity

Set the mass of the weight

Continue to the next page

(CCAL)

(UNIT)

(D.P.)

(SCAL)

(DISP)

(LOAD)

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18

Cal

ibra

tion

▶ ▶

Continue from former page.

▶▶

▶ZERO calibration by the measurement value ZERO calibration by numeric input

(Electric calibration)

SPAN calibration by the weight SPAN calibration by numeric input

(ZERO) (Z MV)

(SPAN) (S MV)

ZERO is registered by reading the load cell output value in the condition that nothing is put on the weighing section. (Initial condition including tare.)

Execute ZERO calibration by the numeric input.Please adopt only under the specific condition for this calibration method. Please refer to [4-3 Selection of calibration method] for the details.

SPAN is registered by inputting the value in which the load cell output value of ZERO is subtracted from the load cell output value assumed when loaded for rating weight.

SPAN is registered by reading the load cell output value in the condition to put the weight set in step 6 on measuring part.

When there is a weight. When there is not a weight

Finish the calibration mode.The set value is registered temporary until fixing by pushing the [F/ENTER] key on display. The set value is not saved when canceling on the way.

Step 7 Step 7(Actual weight calibration)

Step 8

Step 9

Step 8(Actual weight calibration) (Electric calibration)

Finish the calibration

(END)

 • The environment used must execute the calibration again if necessary in altered

case.• When Minebea has executed the calibration in the combination with load cell, you

don't need to execute the calibration again.• Execute the calibration with actual load when you can prepare the weight of 2/3 or

more of weighing capacity. The accuracy over 1/1000 can be expected because of a calibration in an actual measurement system.

• SPAN calibration by the value input is possible even when there is no weight.

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19

Calibration

4-3. Selection of calibration methodThe procedure is different according to the using condition and presence of weight as for [Step 7 ZERO calibration] and [Step 8 SPAN calibration].

● Calibration of ZEROIn the normal using condition, ZERO calibration by measuring value (Actual load calibration) is executed.The ZERO is registered by reading the load cell output value with the tare or the corresponding weight put on the weighing part.To execute the ZERO calibration by numeric input (Electric calibration) is only when CSD-892-73 under using is replaced with another CSD-892-73, and moreover, only when the following requirement is applied.・When ZERO calibration data (mV/V value) of CSD-892-73 at the previous condition of the replacement remain.・When you cannot set in the condition that nothing is put on the measuring part (Initial condition including tare).

● Calibration of SPANThe span calibration (Actual load calibration) with the weight is executed when there is a weight. Please prepare 2/3 of more of weighing capacity to reduce the calibration error.When there is no weight, the span calibration by numeric input (Electrical calibration) is executed.

4-4. Fine adjustment and re-calibration of calibration ● Fine adjustment of ZERO and SPAN

margin in an actual weighing value and the mass of weight.Please refer to [4-7.]

● Calibration only for ZEROThis function is to execute the re-calibration of ZERO when the tare outside the weighing capacity of measuring part changes. Please refer to [4-9.].

● Simple calibrationThis function is to execute the immediate shift to a setting screen and a calibration screen of

Please refer to [4-10.].

4-5. Item set if necessary after a calibration ● Digital linearize

This function is to reduce a measuring error by compensating the 3 points at maximum excluding ZERO and SPAN. Please refer to [4-8].

● Gravity acceleration correction (C function : CF-25,CF-26)This function is to compensate the SPAN error by setting the gravity acceleration of different 2(two) places for the calibration place and using place. Please refer to [6-12.].

• The accuracy of calibration by the numeric input is about 1/1 000. Please execute the calibration when the accuracy of 1/1000 or more is required.

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20

Cal

ibra

tion

4-6. Details of calibration procedureWe explain the calibration procedures from a condition of factory shipment.For example, we explain by the case that the maximum display value is 6.000 t, and the scale interval is 0.002 t.

2

3

4

Switch to the calibration modeStep 1

Measurement mode

Set of the scale interval

Change from the standard measurement mode to the display by pushing key.

displays. Push key here.

displays, and it enters into the calibration mode.

FUNC.FUNC.

F

ENTER

→→

By pushing key three times. The display changes as follows.

CAL-ZCAL-Z

2

3

4

Set of decimal point display position.

記憶されている単位The unit memorized

設定した単位Setting [UNIT]

Step 2Setting the unit

After setting, push key to display .

t

kg

F

ENTER

F

ENTERWhen key is pushed at , is

displayed.

Select the unit.

Select the unit by or key.CAL-ZCAL-Z CAL-SCAL-S

Unit display section changes as [OFF(none)], [g], [kg], [t], [lb],[N], [kN], [Pa], [kPa] or [MPa].

F

ENTERkgWhen key is pushed at ,

is displayed.

* The unit memorized now is displayed.

• When key pushed since step 2, the set value before is cancelled, and return to . The set value is not preserved when canceling on the way.

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21

Calibration

2

3

The position memorized

Setting position

Step 3Set of decimal point display position

t

t

* The position of decimal point memorized now is displayed.

Select the position of decimal point.

After the setting, push key to display .

Select the position by or key.

2

3

記憶されている目量

設定した目量

The scale intervalmemorized.

Setting scale interval

Step 4Set of the scale interval

t

t

* The scale interval memorized now is displayed.

After setting, push key to display .

Please set the scale interval.

Select the scale interval by or key.

Set of the scale interval

Set weighing capacity

When key is pushed at ,

is displayed.

When key is pushed at display,

is displayed.

The position of decimal point changes as [0(non)], [0.0], [0.00], [0.000] and [0.0000]

Lower 2 digit changes as [01], [02], [05], [10], [20] and [50].

F

ENTER

F

ENTER

CAL-ZCAL-Z CAL-SCAL-S

F

ENTER

F

ENTER

CAL-ZCAL-Z CAL-SCAL-S

Example of display changes by setting scale interval.• The load display changes with 0.002 t → 0.004 t → 0.006 t, when the scale interval

is set to [02]. (Set Decimal point [0.000] and Unit [t])

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22

Cal

ibra

tion

2

1

3

2

3After setting, push key to display .

After setting, push key to display .F

ENTER

* The weighing capacity memorized now is displayed.

Select the changed digit.

Increment the value of selected digit.

The weighingcapacitymemorized now.

Set-up weighing capacity

Weight value equal to weighing capacity

Weight value put on measurement section

Step 5

Step 6

Set the weighing capacity

* The mass of the weight memorized now is displayed.

Set the weighing capacity.

Set the mass of the weight.

Set the mass of the weight

Select the changed digit.CAL-ZCAL-Z

Increment the value of selected digit.CAL-SCAL-S

Set the mass of weight

Calibration of ZERO

When key is pushed at display,

is displayed.

is displayed.

When key is pushed at display,F

ENTER

1

F

ENTER

F

ENTER

CAL-ZCAL-Z

CAL-SCAL-S

 

display blinks for about 2 seconds when the calibration is executed, and [Weighing capacity < Mass of weight] is set.Please set the each value to become as [Weighing capacity≧ Mass of weight]

Error display for setting the weighing capacity or mass of the weight.

• Please adjust the mass of the weight used for the calibration to 2/3 or more of the weighing capacity.

• When the weight of the same mass as weighing capacity can be prepared, weighing capacity is equal to mass of weight.

• When the SPAN calibration in [step 8] is registered by the value input, set as [Weighing capacity equal to mass of weight]

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23

Calibration

2

3

Push key when displays.

ZERO memorized, and displays.

* Set the condition that nothing is put on the measuring part.

ZERO Calibration by measurement valueStep 7 (Actual weight calibration)

to SPAN calibration▲

to SPAN calibration▲

ZERO calibration by numeric inputStep 7 (Electronic calibration)

2

3

Please set the load cell output value equal to ZERO in eachmV/V.

After setting, push key to display .

荷重をゼロにしたときに相当するロードセル出力値を入力して、ゼロ点を登録します。

mV/V

mV/V

Set-up load cell output value

Please select the method of ZERO calibration referring to [4-3. Selection of Calibration Method]

Change the value of digit to be changed.CAL-SCAL-S

Select the digit to be changed.CAL-ZCAL-Z

* Memorized load cell output value is displayed.

By pushing key, displays, and by pushing

key, of condition display is turned on, and mV/V

mV/V

ZERO is registered by reading the load cell output value in the condition that nothing is put on the measuring part (Initial condi- tion including tare).

ZERO is registered by inputting the load cell output value when the load is zero.This procedure is used only when a specific condition is met.

sign lights on.

Push the key when blinks, and the

Please select the method of ZERO calibration referring to [4-3. Selection of Calibration Method]

displays.

F

ENTER

F

ENTER

F

ENTER

F

ENTER

Memorized load cell output value.

STABLE

CAL-ZCAL-Z

blinks for about 2 seconds when the output and input value of load cell exceeds over ZERO adjustment range at minus side (at -2.5 mV/V or less).

blinks for about 2 seconds when the output and input value of load cell exceeds over ZERO adjustment range at plus side (at 2.5 mV/V or more).

exceed the adjustable range.

Error display for ZERO calibration

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24

Cal

ibra

tion

Please select the method of SPAN calibration referring to [4-3. Selection of Calibration Method]

Please select the method of SPAN calibration referring to [4-3. Selection of Calibration Method]

2

3SPAN is memorized, and displays

Please push key with displayed.

* Please put the weight equal to the mass set to the measuring part by step 6 [Set the mass of weight]

記憶しているロードセル出力値

設定したロードセル出力値

Memorized load celloutput value

Set-up load cell output value

mV/V

mV/V

SPAN calibration by the weightStep 8 (Actual weight calibration)

SPAN calibration by numeric inputStep 8 (Electric calibration)

to end of calibration▲

to end of calibration▲

Push key after blinks and turns on.STABLE

2

3

After the setting, by pushing key, displays.

* Memorized load cell output value is displays.

By pushing key, displays, and then by

mV/V

mV/V

Please set the value in which the output value equal to ZEROis subtracted from the load cell output value equal to the set weighing capacity in each mV/V.

Select the digit to be selected.

Change the value of digit to be changed.

Pushing key, of condition is turned on, and

displays

F

ENTER

CAL-ZCAL-Z

CAL-ZCAL-Z

CAL-SCAL-S

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

SPAN is registered by reading the output value in the condition to put the weight set according to step 6.

SPAN is registered by inputting the value in which the load cell output value of ZERO is subtracted from the output value of the load cell expected when the load for measuring is put.

Error display of SPAN calibration blinks for about 2 seconds when the output and input value of lo ad cell doesn't reach

within the range of the span adjustment range ([Load cell output voltage at SPAN] - [Load cell output voltage at ZERO]≦ 0.0 mV/V)

blinks for about 2 seconds when the span width of inputting numeric amount for output and input of the load cell (the width from ZERO to SPAN) exceeds over the span adjustment range (higher than 3.1 mV/V).

exceed the adjustable range.

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25

Calibration2

By pushing key twice, return to the measurement mode.

displays after the span calibration is finished.

Push key to complete the calibration mode.

Step 9End of calibration

Measurement mode▲

The display becomes , and the set data is memorized

internally.

F

ENTER

FUNC.FUNC.

• display. The set value is not preserved when canceling the calibration on

the way.•

set, and Tare weight cancellation after completing the calibration. If the calibration is executed over again, those data is cleared.

light on when the load display exceeds over [(+Weighing capacity)+9D] or [+110 % of weighing capacity. (Setting by CF-03 of C function)

light on when the load display falls below the [(- Weighing capacity) - 9D], falls bellow the [+110 % of weighing capacity], or falls below [-20D]. (Setting by CF-03 of C function)

Error display in the measurement and after the calibration

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26

Cal

ibra

tion

4-7. Fine adjustment of ZERO and SPAN

weighing capacity and the mass of weight.You can register only of either the ZERO or SPAN.

follows.

2

3

2

3

Change to fine adjustment mode of ZERO and SPANStep 1

to fine adjustment of ZEROStep 2

Measurement mode

to fine adjustment of ZERO and SPAN

By Pushing key from the normal measurement mode,

displays.

4

By pushing key , blinks.

Set the display to [ZERO] after the condition that nothing is put

on the measuring part.

Push key three times. Display changes in order of

→ → →

By pushing key once, display becomes ,

and you enter into the fine adjustment mode of ZERO and SPAN.

by pushing key after the fine adjustment of ZERO,

displays.

to fine adjustment of SPAN▲

When you keep pushing these two keys, the number decreases / increases continuously.

* The present measurement value is displayed.

By pushing key from the display of

the display becomes .

Display becomes and by pressing key,

displays.

.

CAL-ZCAL-Z

CAL-ZCAL-Z

Measurement value decreases.CAL-ZCAL-Z

Measurement value increases.CAL-SCAL-S

ENTERENTER

FF

FUNC.FUNC.

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

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27

Calibration

2

1

to fine adjustment of SPANStep 3

End of fine adjustment of ZERO and SPANStep 4

to end of fine adjustment for ZERO and SPAN After the fine adjustment of SPAN, by pressing key,▲

to Measurement mode▲

After the end of fine adjustment of ZERO and SPAN, displays.

By pushing key from ,

blinks.

Please put the weight that can be put on the measuring part below weighing capacity, and adjust the display to become the value equal to mass of weight.

Measurement value decreases.

Measurement value increases

displays.

Push key to finish the adjustment mode of ZERO and SPAN.

displays, and the setting data is memorized internally.

* The present measurement value is displayed.

When you keep pushing these two keys, the number decreases / increases continuously.

2Back to the Measurement mode by pushing key twice.

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

CAL-ZCAL-Z

CAL-SCAL-S

FUNC.FUNC.

• display. The set value is not preserved when canceling the calibration on

the way.•

of , and can be moved by CAL-Z/ key or CAL-S/▲ key.

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28

Cal

ibra

tion

4-8. Digital linearization After the calibration, the measurement error of some scale interval levels might be caused

etc.The digital linearization function executes the compensation of three points or less except ZERO and SPAN, and to reduce the measurement error.

4-8-1. Setting procedure of digital linearization mode

Changeover to digital linearization modeStep 1

Measurement mode

Move to the digital linearization mode.

By pushing key from normal measurement mode,

displays.

4By pushing key twice, display changes in order of

▲ Display becomes , you can enter into the digital

linearization mode.

→ .

FUNC.FUNC.

CAL-ZCAL-Z

2

3

Push key at three times. The display changes as follows:

→ → →

Display becomes    . By pressing key,

displays.

CAL-ZCAL-Z

ENTERENTER

FF

0

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29

Calibration

• Please set the mass of weight to be compensated as < < .

• The linearization compensation cannot be executed over the maximum capacity.

• The compensation data of the digital linearization can be cleared by C function CF-98. Please refer to [6-15. Digital linearization clear].

Setting of digital linearizationStep 2

to Measurement mode▲1

2

3

As the 100 ~ 101 digit of the measuring value blinks, set to the same value with the weight put on the measuring section.

Display becomes       , and the set data is memorized

to the internal memory.

By pushing key twice, you can return to the measurement mode.

Push key to finish the digital linearization mode.

As the display becomes by pushing

the key from display,

: Compensation by 2 points

: Compensation by 1 point

: Compensation by 3 points

Put the weight

is displayed for p-1.

Please set by the same procedure of above when the number of compensating point is P-2 or P-3.

Even if key is pushed, the number of correction points can be changed.CAL-ZCAL-Z

please select the numbers of points which wants to compensate

linearization, and press key.

CAL-SCAL-S

ENTERENTER

FF

FUNC.FUNC.

Measuring value decreases.CAL-ZCAL-Z

Measuring value increases.CAL-SCAL-S

Setting is interrupted, and return to display.FUNC.FUNC.

The display value is memorized, and proceed to the next step.ENTERENTER

FF

Please put the weight of the point which should be compensated

after the display becomes on the measuring part and

press key.

As the measuring amount blinks, push key after confirming

the sign turns on.STABLE

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

By pushing key twice from display,

→Display changes in order of

ENTERENTER

FF

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30

Cal

ibra

tion

4-9. Calibration only of ZEROThis function is for calibrating again only of the ZERO when the amount of the tare other than the maximum capacity of the measuring part are changed.

2

3

Change to calibration mode only for ZEROStep 1

Measurement mode

Calibration mode only for ZERO

By pushing key from the normal measurement mode,

displays.

4

The display becomes . By pushing key,

displays.

Push key at three times. The display changes as follows:

→→ →

2

3

Calibration only for ZEROStep 2

Measurement mode

Push key to finish this mode.

By pushing key , blinks and the calibration of

ZERO starts.

By pushing key from the display of ,

* Please set the condition that nothing is put on the measuring part.

The calibration of ZERO is finished, and displays

4By pushing key twice, you can return to the measuring mode.

Display becomes , the set data is memorized to the internal memory.

After lights on, push key.STABLE

→ → →

By pressing key three times, display changes in order as

Display becomes , you can enter into the calibration

mode only for ZERO.

displays.

F

ENTER

FUNC.FUNC.

CAL-ZCAL-Z

ENTERENTER

FF

CAL-ZCAL-Z

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

FUNC.FUNC.

Error display of ZERO calibration blinks for about 2 seconds when the load cell output value exceeds over ZERO adjustment

range at minus side (at -2.5 mV/V or more) blinks for about 2 seconds when the load cell output exceeds over zero adjustment

range at plus side (at 2.5 mV/V or more), or the value of [Registered SPAN + ZERO registering again] exceeds over 3.1 mV/V.

exceed the adjustable range.

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31

Calibration

4-10. Simple calibration

Each item can be immediately shifted to a set screen and the calibration screen by pushingFUNC.FUNC.

,CAL-ZCAL-Z

or CAL-SCAL-S

key for about 2 second or more.

4-10-1. Simple calibration lockBy pushing

CAL-ZCAL-Z key and

FUNC.FUNC. key at the same time for two seconds or more, a simple

calibration is prohibited or can be released by pushing FUNC.FUNC.

key, CAL-ZCAL-Z

key or CAL-SCAL-S

key for a while.

1By pushing key and key at the same time for a while

from the normal measurement mode, displays.

Change the set value.

Interrupt the setting, and return to the measurementmode.

2Please select the lock release or the lock, and push the key.

        (LOCK0):Lock release

        (LOCK1):Lock

3The setting is memorized after blinks, and you

return to the measurement mode.

Measurement mode

Pushing at the same time for 2 second or more.

Measurement mode▲

CAL-ZCAL-Z CAL-SCAL-SCAL-ZCAL-Z CAL-SCAL-S

CAL-ZCAL-Z CAL-SCAL-S

ENTERENTER

FF

FUNC.FUNC.

• When [FUNC.] key, [CAL-Z/ ] key, or [CAL-S/▲ ] key is pushed for a while in the simple calibration mode, blinks and you cannot enter into the screen of setting mode, ZERO mode or SPAN mode.

• Please return this function to the condition of the lock to prevent the operational error after using a simple calibration.

• Please use the simple calibration function after releasing the lock referring to [4-10-1. Simple calibration lock] because that function is locked when the factory is shipped.

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32

Cal

ibra

tion

4-10-2. Setting mode

By pushing key for 2 seconds or more, you can set the unit, decimal point display

position, scale interval, weighing capacity, ZERO calibration, SPAN calibration (both are calibration by numeric input). When the display blinks while setting the item and the item

procedure of [4-6. Details of calibration procedures] for a detailed procedure after the item is selected.

By pushing key for 2 seconds or more

from measurement mode, displays

and blinks.

You can enter into the setting mode.

Interrupt the setting and return to the item selecting screen.

Measurement mode

to [4-6. Step 2. Set of unit]

to [4-6. Step 3. Set of decimal point display position]

to [4-6. Step 4. Set of scale interval]

to [4-6. Step 5. Set of weighing capacity]

to [4-6. Step 7. ZERO calibration]Only the calibration by numeric input.

to [4-6. Step 8. SPAN calibration]Only the calibration by numeric input.

After finishing the setting of the necessary item,

push key at display.

The setting is memorized after blinks

for 2 seconds, and return to the measurement mode.

Push for 2 seconds or more.

Measurement mode▲

FUNC.FUNC.

FUNC.FUNC.

Enter into the change screen of setting item.ENTERENTER

FF

FUNC.FUNC.

Change the setting item.CAL-ZCAL-ZCAL-SCAL-S

ENTERENTER

FF

• display. The set value is not preserved when cancellation on the way.

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33

Calibration

4-10-3. ZERO mode

ZERO calibration is executed by reading the load cell output value at ZERO by pushingCAL-ZCAL-Z

key for 2 seconds or more.

1By pushing key for 2 seconds or more from the normal

measurement mode, blinks.

2* Please make the condition that nothing is put on the measuring section.After blinks, push the key.

3ZERO is memorized after blinks for 2 seconds,

and you can return to the measurement mode.

Measurement mode

Measurement mode

STABLE

ENTERENTER

FF

CAL-ZCAL-Z Push for 2 seconds or more

CAL-ZCAL-Z

blinks for about 2 seconds when the output and input value of load cell exceeds over ZERO adjustment range at minus side (at -2.5 mV/V or less)

Blinks for about 2 seconds when the output and input value of load cell exceeds over ZERO adjustment range at plus side (at 2.5 mV/V or more.)

the adjustable range.

keeps the display when the value of [Registered SPAN + Registering ZERO again] is over 3.1 mV/V.* Please register SPAN continuously or repeat the registration of ZERO again.

Error display of ZERO calibration

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34

Cal

ibra

tion

4-10-4. SPAN mode

The setting of weighing capacity and mass of weight, and span calibration by reading the

load cell output value is executed by pushing CAL-ZCAL-Z

key for 2 seconds or more.

4By pushing key after the setting, displays.

F

ENTER

2

Select the changing digit.

Change the value of changing digit.

Interrupt the setting, and return to measurement mode.

Memorized the displayed value, and shift to next step.

3Please set the weighing capacity.

6

Measurement mode

7By pushing key after the setting, blinks.

Mass of weight for weighing capacity.

Set-up value of weight

* The weighing capacity memorized at present is displayed.

5 F

ENTER

* The mass of weight memorized at present is displayed.

8

9All the setting is memorized after blinks for 2 seconds,

and you can return to the measurement mode.

Set the mass of weight. The key operation is the same as .2

By pushing key from , displays.

Please put the weight on the measuring section set by .

Please push after lights on.

5

STABLE

By pushing key from , displays.

Measurement mode

1By pushing key from the normal measurement mode,

blinks.

CAL-SCAL-S CAL-SCAL-S

CAL-ZCAL-Z

CAL-SCAL-S

FUNC.FUNC.

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

Push for 2 seconds or more

ENTERENTER

FF

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35

Setting of Function

5. C function modeBy setting of C function, the setting of the function related to the calibration, and changeover of valid / invalid is executed.

5-1. Setting method of C function modeMeasurement mode

Measurement mode

2

3

4

5

By pushing key from the normal measurement mode,

displays.

By pushing key, displays.

Please select the number of C function that you want to change.

Push key. The changed contents has been memorized,

and the next function number is displayed.

When you will change the other setting of C function, please select

the number of C function continuously by the same step as above.

By pushing key after memorized, displays.

By pushing key again, you can return to measurement mode.

Select the changing digit.

Change the value of the changing digit.

Return to display.

Memorize the display value, and proceed to next step.

Push key. Please change the set value of C function number

that you select. The key operation is as same as Step .3

By pushing key, displays and you can enter into

C function mode.

FUNC.FUNC.

ENTERENTER

FF

CAL-ZCAL-Z

CAL-ZCAL-Z

CAL-SCAL-S

FUNC.FUNC.

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

FUNC.FUNC.

FUNC.FUNC.

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5-2. Details of C function dataReference No. Item Function No. Set value Contents

6-1 Display position of decimal point CF-01

● 0 No decimal point

1 1234.5

2 123.45

3 12.345

4 1.2345

6-2 A/D sampling rate CF-02

0 50 times/s

1 100 times/s

2 250 times/s

● 3 500 times/s

6-3 Condition of overload display CF-03

0 At exceeding | Weighing capacity + 9D |

● 1 At exceeding 110 % of Weighing capacity

2 At exceeding -20D ~ (Weighing capacity+9D)

6-4 Comparative operation display synchronization CF-04

● 0 Invalid

1 valid

6-5 Unit CF-05

0 No unit

1 g

● 2 kg

3 t

4 lb

5 N

6 Pa

7 kN

8 kPa

9 MPa

6-6-1 Operating condition of ZERO set CF-10

0 Operation on stable condition

● 1 Operation by unconditional

6-5-2 Effective range of ZERO set CF-11

00 ~ 30 Unit : ± 1 % of weighing capacity 00 : ZERO set off● 02

6-7-1 Target of ZERO tracking CF-120 Gross value and Net value

● 1 Gross (Only when gross weight displays.)

6-7-2 Date width of ZERO tracking CF-13

000~ 999 Unit : 0.1 D

● 000 000 : ZERO tracking is OFF

6-7-3 Time width of ZERO tracking CF-14

00~ 99 Unit : 0.1 s

● 00 00 : ZERO tracking is OFF

6-8-1 Operation of power on CF-15● 0 Invalid

1 valid

6-9-1Operating condition of

tare weight cancellationCF-16

● 0 in steady by 0 < Gross value <= Weighing capacity

1 in normal by 0 < Gross value <= Weighing capacity

2 in steady by Gross weight <= Weighing capacity

3 in normal by Gross weight <= Weighing capacity

6-10 Date stored CF-17 000~ 111 ● 100

0 : Internal RAM 1 : EEPROM 100 : Data of ZERO set. 101 : Tare weight cancellation 102 : Setting mode of simple comparison mode, and setting data of 5 steps of comparator mode.

● : default

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37

Setting of Function

Reference No. Item Function No. Set value Contents

6-11 Stability detection in the setting. CF-20

● 0 Invalid

1 Valid

6-12-1Method of setting

gravity acceleration compensation

CF-25● 0 Set the district number

1 Set the numerical value of gravity acceleration

6-12-2 District number of using place

CF-26 (Can be set in

CF25=0)

01~16 Unit : District

● 10

6-12-3 District number of calibration place

CF-27 (Can be set in

CF25=0)

01~16 Unit : District

● 10

6-12-4 Gravity acceleration value setting of using place

CF-28 (Can be set in

CF25=1)

9.000~ 9.999 ● 9.797

Unit : m/s2

6-12-5 Gravity acceleration value setting of calibration place

CF-29 (Can be set in

CF25=1)

9.000~ 9.999 ● 9.797

Unit : m/s2

6-13Calibration data (for reference) Scale interval

CF-90 At the shipment from factory : 1

6-13Calibration data (for reference)

Weighing capacityCF-91 At the shipment from factory : 10000

6-13Calibration data (for reference) mass of weight

CF-92 At the shipment from factory : 10000

6-13Calibration data (for reference)

ZERO mV/V valueCF-93 At the shipment from factory : 0.0000

6-13Calibration data (for reference)

SPAN mV/V valueCF-94 At the shipment from factory : 0.5000

6-14 Stability detection time width at calibration CF-97

00~99 Unit : 0.1 s 00 : OFF of stability detection at calibration.● 05

6-15 Digital linearize clear CF-98The data of the compensation by the digital linearization is cleared.

6-16 C function clear CF-99 C function set content is returned default setting.

● : default

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6. Various operations by C function data6-1.Decimal point display position

The decimal point display position is selected by C function CF-01. Setting range : 0~ 4 0:Nothing  1:1234.5 2:123.45 3:12.345 4:1.2345

6-2.A/D samplingThe A/D sampling rate is selected by C function CF-02 Setting range:0~ 3 0:50 times/s 1:100 times/s 2:250 times/s 3:500 times/s 

6-3.Condition of overload display (Display of [OL] and [-OL])

The overload display condition is selected by C function CF-03. Setting range:0~ 2 0:At exceeding over∣Weighing capacity+ 9D∣ 1:At exceeding over [± 110 % of weighing capacity] 2:At exceeding over [-20D~(Weighing capacity + 9D)]

6-4. Comparison operation display synchronization[VALID] or [INVALID] of comparison operation display synchronization is selected by C function CF-04.At the selection of [INVALID], the comparison operation synchronizes with A/D sampling rate, and at the selection of [VALID], it synchronizes with display. Setting range:0,1 0:Invalid  1:Valid

6-5. UnitUnit is selected by C function CF-05. Setting range:0~ 9 0:Nothing 1:g 2:kg 3:t 4:lb 5:N 6:kN 7:Pa 8:kPa 9:MPa

• The A/D sampling rate decreases temporarily while writing data in EEPROM.

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39

Setting of Function

6-6.ZERO setZERO set function memorizes a present measuring value as ZERO when the indicated value of the load display section is the gross display and within the effective range of ZERO set, and adjust the display to zero. This function is used by pushing [F/ENTER] key allocated (Refer to function F-55), or used as the external control after allocating to the external control input (Refer to function F-60 ~ F-62).

6-6-1.Operating condition of ZERO setZERO set operating condition is selected by C function CF-10.

Setting range : 0,1 0:Operation at steady 1:Unconditional operation

6-6-2.ZERO set effective rangeZERO set effective range is set by C function CF-11.The effective range is common both for ZERO set and ZERO tracking.

Setting range : 00~ 30 :02 Unit : ± 1 % of weighing capacity OFF:00

6-7. ZERO trackingZERO tracking is the function that the compensation of gradual zero drifts in a constant condition and ZERO is stabilized.

6-7-1. Target of ZERO trackingThe target of ZERO tracking is selected by C function CF-12.

Setting range:0,1 0:Gross value and Net value (Against the load display) 1:Gross value (When gross weight is displayed)

6-7-2. Data width of ZERO trackingThe data width of ZERO tracking is set by C function CF-13.

Setting range : 000~ 999 :000  Unit : 0.1 DOFF:000

• When the ZERO compensation in effective range for ZERO set and ZERO tracking is executed, ZERO set is not accepted.

• When tare weight cancellation is executed, ZERO set is executed after clearing tare weight cancellation.

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6-7-3. Time width of ZERO trackingThe time width of ZERO tracking is set by C function CF-14.

Setting range : 00~ 99 :00 Unit : 0.1 s OFF:00

Ex. The data width to which the ZERO tracking is executed by C function CF-13 is set. The data width of ZERO tracking for each set value [n] is obtained in the display conversion by the following formula [Data width of ZERO tracking] = [Set value(n) of CF-13] x 0.1 x [Scale interval] When the set value of C function CF-13 is [10], and the scale interval is [D = 5], that is [Data width of ZERO tracking] = 10 x 0.1 x 5 D = 5 D

Setting of CF-14

Less than setting of CF-14Setting of CF-14

Setting of CF-14+ Data width of ZERO tracking

- Data width of ZERO tracking

ZERO

Dis

play

• The ZERO tracking does not operate when either of setting C function CF-13 or CF-14 is [0].

• Please do not use the ZERO tracking when the load vibrates gradually in the vicinity of ZERO.

• Please note that the zero tracking might become effective even if an actual load change is rapid when the load change becomes gradual by strength of the digital

• The ZERO tracking will not be operated when the ZERO compensation is executed for the effective range of portion by the ZERO tracking and ZERO set.

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41

Setting of Function

6-8.Power on ZEROThe power on ZERO function makes the display to a zero if the changes of display is within ± 10 % of the maximum capacity when the power is turn on, or in the stable condition in the operation of display turning on.

6-8-1. Operation of power on ZERO[VALID] or [INVALID] of power on ZERO is selected by C function CF-15.

Setting range:0,1 0:[INVALID]  1:{VALID]

6-9.Tare weight cancellationBy pushing [F/ENTER] key after allocating this function to [F/ENTER], (Tare weight cancellation) and (Net value) in the condition display section is light on at the same time as the load display value becoming a net amount display, and the display becomes zero.There are following two procedures to clear a tare weight cancellation.

• After allocating [Tare weight cancellation] to [F/ENTER] key, and push it when gross value is zero.

• After allocating [Tare weight cancellation clear] to [F/ENTER] key, and push it.After tare weight cancellation is cleared, in the condition display section is light on at the same time as the display becomes gross value.Both [Tare weight cancellation] and [Tare weight cancellation clear] can be used by not only allocating to [F/ENTER] key but also allocating to external control input.

6-9-1. Operating condition of tare weight cancellationThe operating condition of tare weight cancellation is selected by C function CF-16.

Setting range:0~ 3 0:Operation during steady and 0 < [Gross value] <= [Weighing capacity] 1:Continuous operation during 0 < [Gross value] <= [Weighing capacity] 2:Operation during steady and [Gross value] <= [Weighing capacity] 3:Continuous operation during [Gross value ] <= [Weighing capacity]

• The ZERO compensation is not accepted in the following condition when the setting of C function is [Power on ZERO effective] and power on ZERO is starting.

① When the display is not a stable condition, it becomes as all lighting. ② When the measurement value exceeds ± 10 % of the maximum capacity,

displays. At this time, by pushing [FUNC.] key, the display becomes a load value compulsorily.

• tare weight cancellation, ZERO set and ZERO tracking are all cleared.

  • If ZERO set is executed, tare weight cancellation is cleared.

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6-10. Change of data stored placeThe data stored place of [Internal RAM] or [EEPROM] is selected by C function CF-17. Setting range:000~ 111       :100 0:Internal RAM 1:EEPROM* Each digit of the set value corresponds to the following items, and selects stored place of each digit. 100 digit : ZERO set data, 101 digit : Tare weight cancellation data 102 digit : Set data of simple comparator mode and 5 steps comparator mode

Ex) Setting value:001 -> ZERO set data is stored at [EEPROM], and set data of tare weight cancellation, simple comparator mode and 5 steps comparator mode is stored at [Internal RAM]

6-11.Stability detection while setting[VALID] or [INVALID] of stability detection while setting the S function and various measurement mode is selected by C function CF-20. Setting range:0,1 0:INVALID  1:VALID

6-12.Gravity acceleration compensationWhen the calibration place and the using place of the measuring are different, the error is caused in span by the difference of the gravity acceleration of the various place districts. The gravity acceleration compensation function is a function for the compensation of this span error by setting the gravity acceleration of two districts with a different calibration place and using place. When the calibration place and the using place are the same, it is not necessary to execute the gravityacceleration compensation.

6-12-1. Setting method of gravity acceleration compensationThe setting method of the gravity acceleration compensation is selected by C function CF-25.

Selectable range:0,1 0:The district number is set.  1:The numerical value of gravity acceleration is set.

 • Please refer to [12. Memorized place of set data] for the stored place of data other

than the above.• The data stored at [Internal RAM] is not backed up.• Please set the stored place to [Internal RAM] when the set data is continuously

changed, and the rewritable time of [EEPROM] might exceed about on million times.• Please do not change in the set value under the measurement because the A/D

sampling rate decreases temporarily while rewriting the set value when the stored place of set data is [EEPROM]. Please set the stored place to [Internal RAM] if you change the set value under the measurement.

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43

Setting of Function

6-12-2. Setting of district number of the using place (CF-25:0)The district number of the using place is set by C function CF-26. Please refer to the below list. Setting range:01~ 16 :No.10 district

6-12-3. Setting of district number of calibration place (CF-25:0)The district number of calibration place is set by C function CF-27. Please refer to the below list. Setting range:01~ 16 :No.10 district

6-12-4. Setting of Gravity acceleration value of using place (CF-25:1)The gravity acceleration value of using place is set by C function CF-28. Please refer to the below list. Setting range:9.000~ 9.999 :9.797 Unit:m/s2

6-12-5. Setting of Gravity acceleration value of calibration place (CF-25:1)The gravity acceleration value of calibration place is set by C function CF-29. Please refer to the below list. Setting range:9.000~ 9.999 :9.797 Unit:m/s2

< The compensation table of gravitational acceleration (for reference) >

District No.

Acceleration (m/s2)

Pertinent district

1 9.806jurisdiction of Souya, Rumoi, Abashiri, Nemuro, and Kushiro.

2 9.805

Sapporo-shi, Otaru-shi, Asahikawa-shi, Yubari-shi, Iwamizawa-shi, Biubai-shi, Ashibetsu-shi, Ebetsu-shi, Akahira-shi, Shibetsu-shi, Furano-shi, Nayoro-shi, Mikasa-shi, Chitose-shi, Takigawa-shi, Sunagawa-shi,

and Sorachi.

3 9.804jurisdiction of Toshima, Hinoyama, Tanshin, Hidaka and Tokachi

4 9.803 Aomori-ken

5 9.802 Iwate-ken, Akita-ken

6 9.801 Miyagi-ken, Yamagata-ken

7 9.800 Fukushima-ken, Ibaragi-ken, Niigata-ken

8 9.799 Tochigi-ken, Toyama-ken, Ishikawa-ken

9 9.798Ogasawara), Fukui-ken, Kyoto-fu, Tottori-ken, Shimane-ken

10 9.797Aichi-ken, Mie-ken, Wakayama-ken, Shiga-ken, Osaka-fu, Hyogo-ken, Nara-ken, Okayama-ken, Hiroshima-ken, Yamaguchi-ken, Tokushima-ken, Kagawa-ken,

11 9.796ken, Nagasaki-ken, Oita-ken

12 9.795 Kumamoto-ken, Miyazaki-ken

13 9.794

14 9.793

15 9.792

16 9.791 Okinawa-ken

 •

gravity data on the homepage of “Science chronology” and Geographical Survey Institute, etc. (http://vldb.gsi.go.jp/sokuchi/gravity/grv_search/gravity.pl)

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6-13. Calibration data (For reference)Scale interval, Weighing capacity, Mass of weight, ZERO mV/V value and SPAN mV/V value set at present is referred by C function CF-90 ~ CF94.

6-14. Stability detection time width in calibrationStability detection time width in calibration is set by C-function CF-97 Setting range : 00~ 99   :05 Unit : 0.1 s 

6-15. Digital linearize clearThe setting data for digital linearize is cleared by C function CF-98

By pushing key in the display condition of , blinks.

Please push key at this time if you want to quit the digital linearization clear.

The display becomes , and digital linearization clear is not executed.

By pushing key when blinks, the display becomes , and the operation of digital linearization clear is completed.

6-16. C function clearC function clear is executed by C function CF-99.The set value of C function returns to default.By pushing key in the display condition of , blinks.

Please push key at this time if you want to clear the memory.

The display becomes , and the clear of memory is not executed.

By pushing key in the display condition of blinking, the display becomes

and the operation of memory clear is completed.

  • CF-90~ CF94 is C function to refer to the calibration data which is not cleared in the clear memory execution.

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Setting of Function

7. Function modeVarious functions become effective by setting the function data.

7-1. Setting method of function mode

2

3

By pushing key from normal measurement mode, the display

becomes and you can enter into the function mode.

By pushing key, displays.

Please select the function number you want to change.

Push key. Please set the function number selected.

Select the digit to be changed.

Change the value of digit to be changed.

Return to the display of

Memorize the displayed value and proceed to the next step.

The operations of keys are as same as 2

4

In the same way, please select the changed function numbercontinuously when you want to change the setting of other function numbers.

When key is pushed after the memory is completed,

displays.

By pushing key, you can return to the measurement mode.

Press key. Memorize the contents changed, and display

the next function number.

Measurement mode

Measurement mode

FUNC.FUNC.

FUNC.FUNC.

FUNC.FUNC.

ENTERENTER

FF

CAL-ZCAL-Z

CAL-SCAL-S

ENTERENTER

FUNC.FUNC.

FF

ENTERENTER

FF

ENTERENTER

FF

  • Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value.

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7-2. Details of function dataReference No. Item Function No. Set value Contents

8-1 F-01 001 ~ 512 ● 016 Unit : Moving average time 1 time

8-2 F-02

0 2 Hz

● 1 4 Hz

2 6 Hz

3 8 Hz

4 10 Hz

8-3-1 F-05 001~512 ● 092 Unit : Moving average time 1 time

8-3-2 Data width of stabilization F-06 0000~9999 ● 0020

Unit : 0.1D

8-3-3 Time width of stabilization F-07 00~99 ● 05

Unit : 0.1 sec.

8-4-1 Independent key lock F-08 0000~1111 ● 0000

0 : INVALID 1 : VALID 100 digit : [F/ENTER] key 101 digit : [CAL-S/ ] key 102 digit : [CAL-Z/ ] key

103 digit : [FUNC.] key

8-5-1 Data width of stability detection F-10 000~999

● 020Unit : 0.1D 0000 : Stability detection is OFF.

8-5-2 Time width of stability detection F-11 00~99

● 10Unit : 0.1 sec. 0000 : Stability detection is OFF.

8-6 Target of hold F-18 000~111 ● 111

0 : INVALID 1 : VALID 100 digit : Display 101 digit : Comparative result 102 digit : Gross / Net data of CC-Link interface.

11-3-4 Operating target of 5-steps comparator F-21

00000 ~22222 ● 00000

0 : Synchronizing with display 1 : Gross value 2 : Net value 100 digit : Operating target of S0 101 digit : Operating target of S1 102 digit : Operating target of S2 102 digit : Operating target of S3 102 digit : Operating target of S4

11-3-3 Operating condition of 5-steps comparator F-22

00000 ~22222 ● 00000

0 : OFF 1 : Setting value or more 2 : Setting value or less 100 digit : Operation of S0 101 digit : Operation of S1 102 digit : Operation of S2 102 digit : Operation of S3 102 digit : Operation of S4

11-3-5 Operating condition of comparator hysteresis F-24

● 0 On-Delay

1 Off-Delay

11-3-5 Data width of comparator hysteresis F-25 00~99

● 00Unit : 1D (00 : Hysteresis OFF

11-3-5 Time width of comparator hysteresis F-26 00~99

● 00Unit : 1 sec. (00 : Hysteresis OFF

● : default

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47

Setting of Function

Reference No. Item Function No. Set value Contents

16-2-1 Operation mode of USB (RS-232C) F-40

● 0 Command mode

1 Stream mode

16-2-2 Output target in stream mode of USB (RS-232C)

F-41 (effective at

F-40=1)

● 0Synchronizing with display (HOLD at HOLD signal ON)

1 Gross value

2 Net value

3 Load display data with condition

16-2-3USB (RS-232C)

CommunicationF-42 ● 13020

Data bit length 100 digit : ● 0 = 7 bit, 1 = 8 bit Parity 101 digit : 0 = No parity, 1 = Even parity, ● 2 = Odd parity Stop bit 102 digit : ● 0 = 1 bit, 1 = 2 bit Baud rate 103 digit : 0 = 1 200 bps, 1 = 2 400 bps, 2 = 4 800 bps, ● 3 = 9 600 bps, 4 = 19 200 bps, 5 = 38 400 bps Terminator 104 digit : 0 = CR, ● 1 = CR+LF

16-2-4USB (RS-232C) decimal point for communication

dataF-46

● 0 Nothing

1 Existing

16-2-5USB (RS-232C)

number of digit for communication data

F-49● 0 Unit : 2 digits

1 Unit : 3 digits

8-7 Operation of [F/ENTER] key F-55

0 Nothing

1 HOLD

2 ZERO set

3 ZERO clear

4 Tare weight cancellation

5 Tare weight cancellation clear

6 Changeover of Net / Gross value

7 Shift to the setting mode of comparison

● 8

8-8-1 Operation of INUPT1 of external control input F-60

● 00 OFF

01 ZERO set

02 ZERO clear

03 Tare weight cancellation

04 Tare weight cancellation clear

05 Changeover of Net / Gross value

06 HOLD (Pulse)

07 HOLD (Level)

08Display of net value (Level : This becomes the net value display at ON while gross value is displayed.)

09Batched key lock (Level : This becomes effective at ON while measuring screen is displayed.)

10 ERROR release.

8-8-1 Operation of INUPT2 of external control input F-61 Selectable as well as F-60

8-8-1 Operation of INUPT3 of external control input F-62 Selectable as well as F-60

● : default

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Reference No. Item Function No. Set value Contents

8-8-2Operation of external

control output (OUTPUT1)

F-70

● 00 OFF

01 STABLE

02 DURING TARE WEIGHT CANCELLATION

03 DISPLAY GROSS VALUE

04 DISPLAY NET VALUE

05 CENTER ZERO

06 DURING HOLD

07 ERROR

08 CAPACITY EXCEED ERROR

09 NEAR ZERO

10 OK (S0)

11 FULL FLOW (S1)

12 MIDIUM FLOW (S2)

13 DRIBBLE FLOW (S3)

14 OVER (S4)

15 UNDER

16 FULL

17 RUN (DURING MEASUREMENT)

8-8-2Operation of external

control output (OUTPUT2)

F-71 Selectable as well as F-70

8-8-2Operation of external

control output (OUTPUT3)

F-72 Selectable as well as F-70

8-8-2Operation of external

control output (OUTPUT4)

F-73 Selectable as well as F-70

8-8-2Operation of external

control output (OUTPUT5)

F-74 Selectable as well as F-70

8-8-3 OUTPUT LOGIC for external control output F-83

00000 ~11111 ● 00000

0 : INVALID 1 : VALID 100 digit : Display 101 digit : Comparative result 102 digit : Gross / Net data of CC-Link interface.

14-3-1 Occupied terminal number of CC-Link interface F-84

0

1

● 2

14-3-2 Terminal number of CC-Link interface F-85 01~64

● 01

14-3-3 Baud rate of CC-Link interface F-86

● 0

1

2

3

4

14-3-432 bit data representation

method for CC-Link interface

F-87● 0

1

8-9 Maintenance date F-90 Don't use here.

8-9 Maintenance number F-91 Don't use here.

8-10 Turning ON time of liquid crystal back light F-95 00~60

● 00

8-11 Function clear F-99 The content of function set is returned to the setting of default.

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49

Setting of Function

8. Various operations by function data

processing. The running average frequency is selected by the setting of function F-01. Setting range:001~ 512 :016 Unit:1 timesThe tendency to the characteristic by running average is shown in the table below.

Running average frequency Little Much

Noise proof Sharpness Stable

Response speed Quick Slow

The frequency is selected by the setting of function F-02. Setting range:0~ 4 0:2Hz 1:4Hz 2:6Hz 3:8Hz 4:10Hz

function F-05. Setting range:001~ 512 :092 Unit:1 times

Setting range:0000~ 9999 :0020 Unit:0.1D OFF:0000

Setting range:00~ 99 :05 Unit:0.1 s OFF:00

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conversion by the following formula.

When the setting of function F-06 is [0010] (1D) and the scale interval is [D=05], this will be as follows:

change width of load display is within the value set by function F-06, and also that condition continues over the time set by function F-07.

Time width of stabilization filter

Data width of Stabilization filter

ON

OFF

Time width of stabilization filter

Time width of stabilization filter

Data width of Stabilization filter

Data width of Stabilization filter

Digital filter forstabilization filter

Change width of load

Change width of load

Change width of load

Time

Dis

play

  •

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51

Setting of Function

8-4. Key lock functionThis function limits the operation to prevent the operational error of various keys at a front panel. Condition indicator lights on when each key lock function becomes effective.

8-4-1. Individual key lock[VALID] or [INVALID] of the operation for [FUNC.] key, [CAL-Z/ ] key, [CAL-S/ ] key and [F/ENTER] key is set by function F-08.

Setting range:0000~ 1111 :0000 0: INVALID 1: VALID

Each digit corresponds to the following keys, and you can select [VALID] or [INVALID] individually.

100 digit:[F/ENTER] key 101 digit:[CAL-S/ ] key 102 digit:[CAL-Z/ ] key 103 digit:[FUNC.] key

8-4-2. Batch key lock[VALID] or [INVALID] of the batch key locking is set to allocate [09 : Batch key locking] to external control input by function F-60 ~ F-62. All the key operations are prohibited while inputting the signal of 50 msec or more.

8-5. Stability detectionThis function is determined that the measuring data is steady when the change width of load display is within the data width set by function F-10, and also that condition continues over the time set by function F-11. At this time, the condition display of is light on.

8-5-1. Data width of stability detectionThe data width of stability detection is set by function F-10. Setting range : 000 ~ 999 :020 Unit : 0.1D OFF:000The data width is obtained in the display conversion by the below formula.[Data width of stability detection] = [Set value of F-10] x 0.1 x [Scale interval]When the setting of function F-10 is [5], and the scale interval is [D=2], this will become as follows :[Data width of stability detection] = 5 x 0.1 x 2 = 1D

8-5-2. Time width of stability detectionThe time width of stability detection is set by the setting of function F-11. Setting range : 00 ~ 99 :10 Unit : 0.1 s OFF:00

 • When the [FUNC.] key is prohibited, by pushing [F/ENTER] key with [FUNC.] key,

the operation of [FUNC.] key becomes effective once.• The releasing method mentioned above cannot be used for the batch key locking by

external control input.

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8-6.HoldThis function retains the measurement value and comparison result during the operation. The HOLD signal can be input by the method of allocating the HOLD function to [F/ENTER] key, and otherwise, by using the external control input.The condition display lights on while holding.

8-6-1. Target of HOLDThe target of HOLD is selected by function F-18.

Setting range:000~ 111 :111 0:Invalid 1:Valid

[VALID] or [INVALID] is selectable individually because each digit corresponds to [Display], [Comparison result] and [Gross/Net data of CC-Link interface].

100 digit:Display 101 digit:Comparison result 102 digit:Gross / Net data of CC-Link interface

8-7.Operation of F/ENTERThe operation of [F/ENTER] key during measurement is allocated by function F-55. Setting range:0~ 8 :8 0:Nothing 1:HOLD Input the hold signal. 2:ZERO set Execute the operation of ZERO set. 3:ZERO clear When ZERO set or ZERO tracking is executed, the display is returned to the state before that. 4:Tare weight cancellation Execute the operation of tare weight cancellation. 5:Tare weight cancellation clear When tare weight cancellation is executed, the display is returned to the condition before that. 6:Changeover of NET / GROSS value The changeover operation of the display for gross net value is executed. 7:Shift to comparison setting mode Shift to the setting screen of simple comparison mode and 5-steps comparator mode. 8:

 •

to [F/ENTER] key, the station number is displayed as (No.1), and by pushing [F/ENTER] key or [FUNC.] key, you can return to measurement mode. The display automatically returns to the measurement mode when any key is not pushed for three minutes.

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53

Setting of Function

8-8.External control I/OThe external control I/O is set.

8-8-1. Setting of external control inputThe operation of external control input is selected by the setting of function F-60 ~ F62.

Setting range:00 ~ 10 :00 00:OFF No setting 01:ZERO set Execute the operation of ZERO set 02:ZERO clear When ZERO set and ZERO tracking is executed, this returns the condition of display before. 03:Tare weight cancellation Execute the tare weight cancellation 04:Tare weight cancellation clear When tare weight cancellation is executed, this returns the condition of display before. 05:Changeover of NET/GROSS value Changeover the display of NET/GROSS value. 06:HOLD (Pulse) Changeover ON/OFF of HOLD when the signal of 50 msec or more is input. 07:HOLD (Level) Turn ON condition of HOLD during input, when the signal of 50msec or more is input. 08:NET value display Display NET value in the measurement mode. 09:Batch key lock When the signal of 50 ms or more in the condition of measuring display is input, all the key operations are prohibited during this input. The key can be operated regardless of the signal excluding the measurement mode. 10:ERROR release ZERO set error and tare weight cancellation error is released.

The above mentioned [07 : HOLD (Level)], [08 : NET value display] and [09 : Key lock] are level input and become effective by the continuous short circuit of 50 ms or more. Other items are pulse inputs, and become effective once by pulse width of 50 ms or more.

  • As for a batch key locking by the external input and an individual key locking by the function, the operation is different. Even if the [F/ENTER] key is pushed together with [FUNC.] key, the operation of [FUNC.] key doesn't become possible.

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8-8-2.Setting of external control outputThe operation of external control output is selected by the setting of function F-70 ~ F-74

Setting range:00 ~ 17    :00 00:OFF No setting 01:STABLE Output during stable 02:DURING TARE Output when tare weight cancellation is executed. 03:GROSS DISPLAY Output when display is the gross value. 04:NET DISPLAY Output when display is the net value. 05:CENTER OF ZERO Output in the condition of the center zero. 06:DURING HOLD Output during the operation is holding. 07:ERROR Output when the error occurs. 08: 09:NEAR ZERO Output in near zero. 10:OK/S0 Output when the measuring value is OK. When measurement mode is set to 5-steps comparator mode, the signal is output at the time

11:FULL FLOW/S1 Output when FULL FLOW is executed. When measurement mode is set to 5-steps comparator mode, the signal is output at the time

12:MIDIUM FLOW/S2 Output when MIDIUM FLOW is executed. When measurement mode is set to 5-steps comparator mode, the signal is output at the time

13:DRIBBLE FLOW/S3 Output when DRIBBLE FLOW is executed. When measurement mode is set to 5-steps comparator mode, the signal is output at the time

14:OVER/S4 Output when the measuring value is over. When measurement mode is set to 5-steps comparator mode, the signal is output at the time

15:UNDER Output when the measuring value is UNDER. 16:FULL Output when the measuring value is FULL. 17:RUN Output in the measurement mode.

8-8-3. External control output logicThe external control output logic is changed by the setting of function F-83.The external control output operates according to the set logic.

Setting range:00000 ~ 11111 :00000 0:Negative logic 1:Positive logicEach digit corresponds to OUTPUT1 ~ 5, and can select logic individually. 100 digit:Operation of OUTPUT1 101 digit:Operation of OUTPUT2 102 digit:Operation of OUTPUT3 103 digit:Operation of OUTPUT4 104 digit:Operation of OUTPUT5

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55

Setting of Function

8-9. Maintenance date, Maintenance numberPlease do not use because F-90 and F-91 are functions for our maintenance.

8-10. Lighting time of liquid crystal back lightLighting time of liquid crystal back light is set by function F-95.When the set time has passed since the key was operated at the end, back light of liquid crystal is turned off. Setting range:00 ~ 60 :00 Unit:1 minute Lighting always:00

8-11.Function clearFunction clear is executed by function F-99.The set value of the function is returned to default.

By pushing key in the display condition of , becomes blinking.

At this time, please push if you want to discontinue a clear memory.

The display becomes , and clear memory is not executed.

By pushing key during the display of blinking, displays and a

operation of clear memory is completed.

  • F-90 and F-91 are functions for our maintenance, and these are not cleared by the memory clearness execution.

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value.

  • Back light is turned on again by pushing either of key at the liquid crystal backlighting shut off.

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9. S function modeThe changeover of measurement mode, the changeover of control mode, the operation of comparison signal, the comparison operation of near zero, the comparison operation of full are set in S function mode. Please refer [11. Measurement mode] for the details of measurement mode and control mode.

9-1. Setting method of S function modeMeasurement mode

Measurement mode▲

5

1By pushing key from normal measurement mode,

displays.

3

Select the digit to be changed.

Change the value of digit to be changed.

Memorize the displayed value, and proceed to the next step.

Return to the display of .

4

2Push the key twice.

The display changes in order of → →      

→      , and you can enter into S function mode.

By pushing key, displays.

Select S function number you want to change.

The operation of key is as same as .

Push the key. Please change the setting value of S function

number selected.3

In the same way, please select the changed S function number

continuously

when you change the setting of other S function numbers.

By pushing key after completing that memorize, displays.

By pushing key again, you can return to the measurement mode.

Push the key. The changed contents is memorized and

the next S function number is displayed.

CAL-ZCAL-Z

FUNC.FUNC.

ENTERENTER

FF

CAL-ZCAL-Z

CAL-SCAL-S

FUNC.FUNC.

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

FUNC.FUNC.

FUNC.FUNC.

  • Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value.

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9-2. Details of S function dataReferenced

No. Item No. Function No. Setting value Contents

10-1 Measurement mode SF-010 Simple comparison mode● 1 5 steps comparator mode

10-2 Control mode SF-02● 0 Batch mode

1 Discharge mode

10-3 Operation of comparative signal SF-05

0 Any time● 1 In stable mode

10-4 Comparative operation of NEAR ZERO SF-06

● 0 Gross1 Net2 comparison OFF3 | Gross |4 | Net |

10-5 Comparative operation of FULL SF-07

● 0 Gross1 Net2 comparison OFF3 | Gross |4 | Net |

10-6 S function clear SF-99 Return the setting of S function to the default.

● : Default

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Setting of Function

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10. Various operations by S function data10-1. Measurement mode

The measuring mode is selected by the setting of S function SF-01. Setting range:0,1  0:Simple comparison mode (Batch/Discharge mode)  1:5 steps comparator mode 

10-2. Control modeThe Control mode (Batch/Discharge mode) is selected by the setting of S function SF-02. Selecting range:0,1 0:Batch mode   1:Discharge mode

10-3. Operation of comparative signalThe operation of comparative signal is selected by the setting of S function SF-05. Setting range:0,1 0:Anytime 1:In stable condition

10-4. Comparative operation at NEAR ZERO (ZERO BAND)

The comparative operation at NEAR ZERO (ZERO BAND) is selected by the setting of S function SF-06. Selecting range:0~ 4 0:GROSS 1:NET 2:Comparative OFF 3:| GROSS | 4:| NET |

10-5. Comparative operation of FULLThe comparative operation of FULL is selected by the setting of S function SF-07. Selecting range:0~ 4 0:GROSS 1:NET 2:Comparative OFF 3:| GROSS | 4:| NET |

10-6. S function clearS function clear is executed by S function SF-99.The setting content of S function is returned to default.By pushing key in the display of , blinks.Please push key to discontinue the memory clear.The display becomes , and memory clear is not executed.By pushing key in the display of blinking, the display becomes and the operation of memory clear is completed.

  • Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while executing S function clear.

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11. Measurement mode

Selection of measurement modeS function SF-01

(1) Simple comparison modeSet the measuring value of SET1 ~ SET8Details : [11-2.]

Set the comparison value of S0 ~ S4, SET7, SET8Details : [11-3.]

Simple comparison batch modeDetails of adjusting condition : [11-2-3.]

Simple comparison discharge modeDetails adjusting condition : [11-2-4.]

(2) 5-steps comparator mode

Setting SF-01 [0] Setting SF-01 [1]

Setting SF-01 [0] Setting SF-01 [1]

Selection of control modeS function SF-02

Details : [11-1. Selection method of measurement mode]

Details : [9-2. Function of S function data]

CSD-892-73 consists of two(2) measurement mode as [Simple comparison mode] and [5 steps comparator mode], and furthermore, [Simple comparison mode] includes [Batch mode] and [Discharge mode]. The comparison result of the set value and the measuring value can be output by selecting either of mode, and also setting the necessary parameter. The outside equipment such as PLC and PC can be controlled by allocating the function to the external control output ([OUTPUT1] ~ [OUTPUT5]) of a lower terminal block. Please refer to the followings for the selection method and the setting method of each mode.

The outline of each mode is as follows:(1) Simple calibration mode

Whenever the result of comparing the set value with the measuring value meets the condition of judgement, the output is always ON.There are two(2) control mode in the simple comparison mode, and either [Simple comparison batch mode] or [Simple comparison discharge mode] is selected.Please refer to [11-2.] for the details of comparison and judgement condition.

(2) 5-steps comparator modeThe result of comparing the set value with measuring value is output.After the measuring value is compared with one of the set values, ON/OFF of the output is decided on the condition of over and under.

Please refer to each item in [11-3.] for the details of operational setting.

59

Setting of Com

parator

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4

2

By pushing key from the normal measurement mode,

displays.

3

Push key twice.

Simple comparison mode : [0]

5-steps comparator mode : [1]

Measurement mode

Measurement mode

The display changes in order of       → →      

, you can enter into S function mode.

By pushing key, displays.

Please set the set value of S function SF-01 to [0] or [1] by pushing

key.

Select the digit to be changed.

Change the value of digit to be changed.

Memorize the displayed value, and proceed to the next step.

Return to the display of .

By pushing key, updated contents is memorized and the next

S function number is displayed.

In the same way, please select the S function number continuously

when you change the setting of the other S function number.

By pushing key after completing the memory,

displays.

By pushing key again, you can return to the measurement mode.

CAL-ZCAL-Z

F

ENTER

F

ENTER

FUNC.FUNC.

CAL-ZCAL-Z

CAL-SCAL-S

FUNC.FUNC.

ENTERENTER

FF

F

ENTER

FUNC.FUNC.

FUNC.FUNC.

11-1. Selection method of Measurement modeEither the simple comparison mode or the 5-steps comparator mode is selected.

  • Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value.

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Measuring example by Discharge modeMeasuring example by Batch mode.

Raw material Raw material

Batch output of Full, Medium and Dribble

Discharge gatePLC

Programmable Logic Controller

VesselVessel

Batch output of Full, Medium and Dribble

Output of Full

Programmable Logic Controller

PLC

Full

flow

Med

ium

flow

Drib

ble

flow

Batch gate Supply gate

Measuring hopperMeasuring hopper

Discharge gate

Load cellLoad cell

11-2. Simple comparison modeThe simple comparison mode includes [Simple comparison batch mode] and [Simple comparison discharge mode].Please select the set value [0] in the setting of S function SF-01 to use the simple comparison mode.Also, please refer to [11-2. Simple comparison mode for the selection of [Batch mode] and [Discharge mode].The setting category of the simple comparison mode and the example of The example of Batch/Discharge are shown as follows:

• Please control the raw material provisioning to the measuring hopper while observing the full amount output by PLC.

• When the gate control etc., are executed, PLC, etc., are required.

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Setting of Com

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4

2

3

Push key once.

After select the data number SET1~SET8 you want to change,

push key.

Please set the measuring value to be compared.

By pushing key, the changed content is memorized and the next data number is displayed.

displays and you can enter into the measuring value setting mode.

By pushing key, Blinks.

Measurement mode

Measurement mode

Select the digit to be changed.

Change the value of digit to be changed.

After memorizing the displayed value, you can proceed to the next step.

Return to the display of .

In the same way, please select the changed S function numbercontinuously when you change the setting of other S function numbers.By pushing key after completing that memorize,

displays.By pushing key again, you can return to the measurement mode.

1By pushing key from the normal measurement mode, displays.

CAL-ZCAL-Z

CAL-SCAL-S

FUNC.FUNC.

FUNC.FUNC.

FUNC.FUNC.

FUNC.FUNC.

ENTERENTER

FF

ENTERENTER

FF

CAL-ZCAL-Z

ENTERENTER

FF

ENTERENTER

FF

11-2-1. Setting of measuring value (COMP. setting mode)The setting of measuring value used in Single comparison mode is executed.

• Please execute after selecting a set value : [0] (Simple comparison mode) in the setting of S function SF-01.

  • Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value.

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11-2-2. Set items of single comparison modeItem Set data number Setting value Contents

FINAL SET1 00000 ~ 99999● 00000 Unit : 1D

FREE FALL SET2 00000 ~ 99999● 00000 Unit : 1D

PRELIMINARY 1 SET3 00000 ~ 99999● 00000 Unit : 1D

PRELIMINARY 2 SET4 00000 ~ 99999● 00000 Unit : 1D

OVER SET5 00000 ~ 99999● 00000 Unit : 1D

UNDER SET6 00000 ~ 99999● 00000 Unit : 1D

NEAR ZERO (ZERO BAND) SET7 00000 ~ 99999

● 00000 Unit : 1D

FULL SET8 00000 ~ 99999● 00000 Unit : 1D

● : Default

FINALThe target value of measurement is set by set data number SET1. Setting range:00000~ 99999 :00000 Unit:1D 

FREE FALLThe value of FREE FALL is set by set data number SET2.

- FREE FALL(SET2)]. Setting range:-99999~ 99999 :00000 Unit : 1D

PRELIMINARY 1The value of PRELIMINARY 1 is set by set data number SET3.

[FINAL(SET1) - PRELIMINARY1(SET3)]. Setting range : 00000~ 99999 :00000 Unit : 1D

PRELIMINARY 2The value of PRELIMINARY 2 is set by set data number SET4.

PRELIMINARY2(SET4)]. Setting range : 00000~ 99999 :00000 Unit : 1D 

OVERThe value of OVER is set by set data number set5.The output of OVER is turned ON when the measurement result exceeds [FINAL(SET1) - OVER(SET5)] Setting range : 00000~ 99999 :00000 Unit : 1D 

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Setting of Com

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UNDERThe value of UNDER is set by set data number SET6.The output of UNDER is turned on when the measurement result is falling below [FINAL(SET1 - UNDER(SET6)] Setting range : 00000~ 99999    :00000 Unit : 1D

NEAR ZERO (ZERO BAND)The output value of NEAR ZERO signal is set by set data number SET7.The output of NEAR ZERO is turned on when the value of operational target selected by S function SF-06 (Comparative operation of ZERO BAND) is falling below the NEAR ZERO value. Setting range : 00000~ 99999    :00000 Unit : 1D

FULLThe output value of FULL signal is set by set data number SET8.The output of FULL is turned on when the value of operational target selected by S function SF-07 (Comparative operation of FULL) exceeds the value of FULL. Setting range : 00000~ 99999    :00000 Unit : 1D 

• Please set the stored place to [Internal RAM] when the set data is continuously changed, and the rewritable time of [EEPROM] might exceed about on million times. Please refer [6-10. Changeover of data stored place] for the setting method of stored place.

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11-2-3. Simple comparison batching modeThe simple comparison batching mode is an output mode when the result of comparing the increasing amount of measurement value in batching the measuring material with the set value meets the judgement condition.The set value : [0] (Batching mode) is selected by the setting of S function SF-02.

Judgement conditionCondition display Judgement condition

NEAR ZERO | Gross value or Net value | <= NEAR ZERO (SET7)FULL FLOW Net value >= [FINAL(SET1) - PRELIMINARY2 (SET4)]

MEDIUM FLOW Net value >= [FINAL(SET1) - PRELIMINARY1 (SET3)]DRIBBLE FLOW Net value >= [FINAL(SET1) - FREE FALL (SET2)]

UNDER Net value < [FINAL(SET1) - UNDER (SET6)]OVER Net value > [FINAL(SET1) + OVER (SET5)]

OK [FINAL(SET1) - UNDER (SET6)] <= Net value + [FINAL(SET1) + OVER (SET5)]

Operating explanation(1) The output of FULL FLOW turns on when Net value becomes [FINAL - PRELIMINARY2].(2) The output of MEDIUM FLOW turns on when Net value becomes [FINAL - PRELIMINARY2].(3) The output of DRIBBLE FLOW turns on when Net value becomes [FINAL - FREE FALL].

• The comparative target of NEAR ZERO and the comparative target of FULL is selectable from [GROSS] or [NET].

• UNDER, OVER and OK can be operated with NET weight. The comparative operation can be changed to simple comparison.

• At the time of setting [PRELIMINARY2] = [0], the FULL FLOW becomes OFF and at the time of setting [PRELIMINARY1] = [0], becomes MEDIUM FLOW to OFF.

• The update of the output to each condition display synchronizes with A/D sampling rate or the display. This selection is executed by C function CF-04 (Comparative operation display synchronization.

Measurement value

Time0

Changeable to simple comparison mode.

FinalFinal - Free Fall

Final - Preliminary1

Final - Preliminary2ZERO band

Full Flow

Medium Flow

Dribble Flow

Stable

Over

OK

Under

Near ZERO

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FINAL - PRELIMINARY2

FULL FLOW MEDIUM FLOW

DRIBBLE FLOW

STABLE

Measurement value

OVER

OK

UNDER

TARE

0

Changeable to simple comparison.

TIME

FINAL - PRELIMINARY1

FINAL - FREE FALLFINAL

11-2-4. Simple comparison discharge modeSimple comparison discharge mode is a mode output when the judgement condition that compares a decreasing amount in discharging a measurement material and a value to

The set value : [1] (Discharge mode) is selected by the setting of S function SF-02.Judgement condition

Condition display Judgement conditionNEAR ZERO | GROSS value (or NET value) | <= NEAR ZERO (SET 7)FULL FLOW - NET value >= [FINAL (SET1) - PRELIMINARY2 (SET4)]MEDIUM FLOW - NET value >= [FINAL (SET1) - PRELIMINARY1 (SET3)]DRIBBLE FLOW - NET value >= [FINAL (SET1) - FREE FALL (SET2)]UNDER - NET value < [FINAL (SET1) - UNDER (SET6)]OVER - NET value > [FINAL (SET1) - OVER (SET5)]

OK [FINAL(SET1)-UNDER(SET6)]<=-NET VALUE <=[FINAL (SET1)+OVER(SET5)]

Explanation of operation(1) FULL FLOW turns ON when - NET value becomes (FINAL - PRERIMINARY2)(2) MEDIUM FLOW turns ON when - NET value becomes (FINAL - PRERIMINARY1)(3) DRIBBLE FLOW turns ON when - NET value becomes (FINAL - FREE FALL)

• The comparison target of NEAR ZERO and FULL is selectable from [GROSS value] or [NET value].

• UNDER, OVER, and OK operate by the NET value. The comparison operation can be changed to a simple comparison.・FULL FLOW becomes OFF when the setting of PRELIMINARY2 is [0], and MEDIUM FLOW becomes OFF when the setting of PRELIMINARY1 is [0].

• The update of output for each condition display synchronizes with A/D sampling rate or the display. This selection is executed by C function CF-04 (Comparative operation display synchronizing).

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11-3. 5 steps comparator modeThe result of comparing up to 5 points of setting value and the measurement value is output.

11-3-1. Setting of comparison value (COMP. setting mode)The comparison value used in 5 steps comparator mode is set.

• Please execute after selecting the set value : [1] (5 steps comparator mode) by the setting S function SF-01.

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set

• value.

4

2

3

By pushing key, blinks.

Measurement mode

Measurement mode

Select the digit to be changed.

Change the value of digit to be changed.

Memorize the displaying value, and proceed to the next step.

Return to display.

Push key once.

The display becomes , and you can enter into setting mode of comparison value

In the same way, please select the data number continuously when you change the setting of the others.By pushing key after completing the memorize, displays.By pushing key again, you can return to the measurement mode.

Completing registration

Please push key after selecting the number of S0~S4,

SET7, SET8 you want to change.Please set the comparative value to execute comparison.

By pushing key, the changing contents are memorized,

and display the next number of the data.

1By pushing key from normal measurement mode, displays.

CAL-ZCAL-Z

CAL-SCAL-S

FUNC.FUNC.

FUNC.FUNC.

FUNC.FUNC.

ENTERENTER

FF

ENTERENTER

FF

ENTERENTER

FF

CAL-SCAL-S

FUNC.FUNC.

ENTERENTER

FF

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11-3-2. Setting items of 5-steps comparator modeItems Set data number Set value Contents

S0 S0 -99999 ~ 99999 ● 00000 Unit : 1D

S1 S1 -99999 ~ 99999 ● 00000 Unit : 1D

S2 S2 -99999 ~ 99999 ● 00000 Unit : 1D

S3 S3 -99999 ~ 99999 ● 00000 Unit : 1D

S4 S4 -99999 ~ 99999 ● 00000 Unit : 1D

NEAR ZERO SET7 -99999 ~ 99999 ● 00000 Unit : 1D

FULL SET8 -99999 ~ 99999 ● 00000 Unit : 1D

● : Default

S0 ~ S4Set data number Set the value executing the comparison at S0 ~ S4.Please refer the operation for the setting value to [11-3-3. Operating condition of comparator S0, S1, S2, S3 and S4. Setting range : -99999 ~ 99999    :00000 Unit : 1D

NEAR ZEROSet data number Set the output value of the signals for NEAR ZERO at SET7.The output for NEAR ZERO turns on when the operating target value selected by S function SF-06 (Comparative operation of NEAR ZERO) is fallen below the value of NEAR ZERO. Setting range : 00000 ~ 99999    :00000 Unit : 1D

FULLSetting data number Set the output value of the signals for FULL at SET8.The output for FULL turns on when the operating target value selected by S function SF-07 (Comparative operation of FULL) exceeds the value of FULL. Setting range : 00000 ~ 99999    :00000 Unit : 1D 

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11-3-3. Operating condition of comparator S0, S1, S2, S3 and S4.The comparator in this mode, S0, S1, S2, S3 and S4 individually can select the operation whichever [More than setting value] or [Less than setting value].These can be selected by function F-22 [Operating condition of 5-steps comparator].Please refer [7-2. Function data list]Default has selected both [OFF] for S0, S1, S2, S3 and S4.

The comparison value of each target and the operation of output are indicated as follows as an example of S0. The operation of S1, S2, S3 and S4 are similar.

(1) [More than the set value] is selected.S0 output turns ON in S0 set value <= Comparison target value.

Comparative target value (Large)Comparative target value (Small)

S0 Output ON

S0 Output OFF

S0 setting value

(2) [Less than the set value] is selected.S0 output turns ON in S0 set value >= Comparison target value.

Comparative target value (Large)Comparative target value (Small)

S0 Output ON

S0 Output OFF

S0 setting value

• The ON/OFF condition of each output is different according to the operating condition of comparator. Please note that the output of ON/OFF condition becomes improper, and it causes an unexpected accident due to the malfunction of peripherals, etc., when wrong operation is selected.

• The update of each comparison output synchronizes with A/D sampling rate, or the display. This selection is executed by C function CF-04 (Comparative operation display synchronizes).

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11-3-4. Operating target of comparator S0, S1, S2, S3 and S4The comparator in this mode, S0, S1, S2, S3 and S4 individually can select the comparison target from [Display synchronization], [GROSS value] or [NET value].These can be selected by function F-21 [Operating target of 5-steps comparator].Please refer [7-2. Function data list]Default has selected both [Display synchronization] for S0, S1, S2, S3 and S4.

The comparison value of each target and the operation of output are indicated as follows as an example of S0. The operation of S1, S2, S3 and S4 are similar.

(1) [Display synchronization] is selected.S0 output turns ON in S0 set value <= Load display value.

Load display value (Large)Load display value (Small)

S0 Output ON

S0 Output OFF

S0 setting value

(2) [Gross value] is selected.S0 output turns ON in S0 set value >= Gross value.

Gross value (Large)Gross value (Small)

S0 Output ON

S0 Output OFF

S0 setting value

(3) [Net value] is selected.S0 output turns ON in S0 set value >= Net value.

Net value (Large)Net value (Small)

S0 Output ON

S0 Output OFF

S0 setting value

• The ON/OFF condition of each output is different according to the operating condition of comparator. Please note that the output of ON/OFF condition becomes improper, and it causes an unexpected accident due to the malfunction of peripherals, etc., when wrong operation is selected.

• The update of each comparison output synchronizes with A/D sampling rate, or the display. This selection is executed by C function CF-04 (Comparative operation display synchronizes).

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11-3-5. Hysteresis of comparatorHysteresis can be set because the comparator S0, S1, S2, S3 and S4 prevent the chattering of each output (phenomenon that ON/OFF is repeated in detail when the signal divides the change). Hysteresis combines and uses the setting of data width and time width. Moreover, effective directions of hysteresis can be selected from either [Off Delay] or [On Delay]. These are selected in the function mode of [Operating condition of comparator hysteresis], [Comparator hysteresis data width] or [Comparator hysteresis time width]. (Relative function F-24, F-25 and F-26)Please refer to [7-2. Function data list]Default has set as [On Delay] and [OFF] for hysteresis.

The operation of each output when the comparator hysteresis is set is indicated as follows as an example of S0. The operation of S1, S2, S3 and S4 are similar.

(1)When the operation by [More than set value] with S0 is selected, and an effective direction of hysteresis is set to [On Delay].

Dis

play

S0 output ON S0 output OFF

Hysteresis data width

Hysteresis time width

S0 set value

Time

(2) When the operation of [More than set value] with S0 is selected, and an effective direction of hysteresis is set to [OFF delay].

Dis

play

S0 output ON S0 output OFF

Hysteresis data width

Hysteresis time width

S0 set value

Time

• The ON/OFF condition of each output is different according to the setting of the comparator hysteresis. Please note that the output of ON/OFF condition becomes improper, and it causes an unexpected accident due to the malfunction of peripherals, etc., when wrong operation is selected.

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(3) When the operation of [Less than set value] with S0 is selected, and an effective direction of hysteresis is set to [ON delay].

Dis

play

S0 output ON S0 output OFF

Hysteresis data width

Hysteresis time width

S0 set value

Time

(4) When the operation of [Less than set value] with S0 is selected, and an effective direction of hysteresis is set to [OFF delay].

Dis

play

S0 output ON

S0 output OFF

Hysteresis data width

Hysteresis time width

S0 set value

Time

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In CSD-892-73, each data is stored in internal RAM and EEPROM as follows.The data in EEPROM can be stored almost permanent due to nonvolatile.

12-1. Data stored in internal RAM• Tare weight cancellation (Saving to EEPROM is also possible.)• ZERO set data (Saving to EEPROM is also possible.)• ZERO tracking data

12-2. Data stored in EEPROM• Calibration data• Function data• C function data• S function data• Digital linearize data• Set data of simple comparison data (FINAL, FREE FALL, PRELIMINARY 1,

PRELIMINARY 2, OVER, UNDER, NEAR ZERO, FULL)• Set data of 5-steps comparator mode (S0, S1, S2, S3, S4, NEAR ZERO and FULL)

12-3. Data that stored place can be changed• ZERO set data• Tare weight cancellation data

The above-mentioned data can select the preservation place from [Internal RAM] or [EEPROM].The stored place of data is set by the setting of C function CF-17.Please refer to [6-10. Change of data stored place].Default has set to [Internal RAM] for both data.

12. Stored data of setting data

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while writing data to EEPROM.

• The data stored in internal RAM is not backed up.

• Please set the stored place to [Internal RAM] when the set data is continuously changed, and the rewritable time of [EEPROM] might exceed about one million times.

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value when the stored place of set data is [EEPROM]. Please set the stored place to Internal [RAM] if you change the set value under the measurement. Please refer to [6-10. Change of data stored place] for the details of setting method of stored place.

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2

3

Push key twice.

By pushing key, displays.

Measurement mode

By the operation with key or key, you can change the item that you want to confirm.

Change the item of Check mode.

Display changes as → → in order, and you can enter into Check mode

After the confirmation is interrupted, displays or you can return to the display of selecting item.

After selecting item, you can proceed to the next step.

1By pushing key from normal measurement mode, displays.

Check mode

to [13-2. EzCTS mode]

to [13-3. Confirmation of ROM version.

to [13-4. Confirmation of external control input.

to 13-5. Confirmation of external output

to 13-6. Confirmation of load cell output voltage

(FUNC)

(CHECK)

(EZCTS)

(ROM)

(IN)

(OUT)

(MONT)

FUNC.FUNC.

FUNC.FUNC.

CAL-ZCAL-Z CAL-SCAL-S

CAL-ZCAL-Z CAL-SCAL-S

CAL-SCAL-S

ENTERENTER

FF

ENTERENTER

FF

● Shift to EzCTS mode ●

13-1. Setting method of Check mode

13. Check mode

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1By pushing key from the display of ,

Confirmation of ROM version▲

EzCTS can be used while the display is blinking, and the function can read and write the data by communicating with personal computer.Please execute reading and writing the set data by using application EzCTS (as an option) in this mode.

the display of becomes blinking.

2Please push key after completion of reading/writing the set data. displays and finish the EzCTS mode.

ENTERENTER

FF

ENTERENTER

FF

1 By pushing key from the display of ,

it blinks with ROM version.

2Please push key after confirming ROM version.

to the confirmation of external control input▲

displays, and the confirmation of ROM version is finished.

ENTERENTER

FF

ENTERENTER

FF

13-2. EzCTS modeEzCTS is an application for the personal computer (EzCTS_USB1 as an option), and reading out and reading in the CSD-892-73 function data can be facilitated. This software is useful for maintenance and data back-up.

• In the EzCTS mode, CSD-892-73 doesn't reply the command not used.• In the EzCTS mode, CSD-892-73 doesn't operate excluding the communication

of EzCTS. • Please refer the details of the communication with personal computer to [16.

USB (RS-232C) interface].

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the display of becomes blinking.

By pushing key from the display of ,

At this time, ON/OFF condition of external control input can be confirmed in the condition display section.When each input terminal of external control input (at lower terminal block) is ON, each condition display [1 ~ 3] lights on.

When ON is input after shortening between COM.1 and INPUT2, [2] at condition display section turns on.

2After confirming the external control input, please push key.

displays, and the confirmation of external control input is finished.

Condition display

[1] Light on

[2] Light on

[3] Light on

Pin No.

INPUT1

INPUT2

INPUT3

Confirmation of external output

Confirmed byON/OFF of external output

Example

ENTERENTER

FF

ENTERENTER

FF

the display of becomes blinking.

By pushing key from the display of ,

to confirmation of load cell output

Condition display

1 lights on.

2 lights on.

3 lights on.

4 lights on.

5 lights on.

Pin No.

OUTPUT1

OUTPUT2

OUTPUT3

OUTPUT4

OUTPUT5

At this time, by pushing key and key, the external

output (at Lower terminal block) corresponding to the change in condition display [OUT1 ~ OUT5] is turned on.

When OUTPUT3 is turned on by the above mentioned operation, [3] in the condition display section lights on, and ON is output from lower terminal block OUTPUT3 by the open electron collector output.

Example

2Please push key after confirming the external control

output.

displays, and the confirmation of external control output is finished.

ENTERENTER

FF

ENTERENTER

FF

CAL-ZCAL-Z CAL-SCAL-S

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13-6. load cell is converted into mV/V is displayed. For instance, please execute the calibration by reading the load cell output of tare amount and weighing capacity by using this function when you use the load cell for the output.

When the load display doesn't indicate a normal value and it doesn't stabilize, the cause

procedures. When the load display doesn't indicate a normal value ① Does the output value in the condition to connect a strain gage based transducer exceed ± 3.1mV/V? → Yes… Please advance to ② . → No… Please calibrate again according to the procedure of [4. Calibration

mode]. ② Does the output value in the condition to be compulsorily short-circuited between B-D of the upper terminal block exceeds ± 3.1mV/V? → Yes … Please inform the details to Minebea. → No… The breakdown and the disconnection of the strain gage based

transducer are thought. When the load display is not steady Is the output value in the condition to be the short-circuited between A-F and B-C-D-G of the upper terminal block after the strain gage based transducer had been removed steady? → Yes…

Please contact Minebea when the condition doesn't change even if

→ No… Please inform the details to Minebea.

At such time?

1By pushing key from the display of ,

the display becomes blinking with a present value of load cell output voltage.

to EzCTS mode▲

2Please push key after confirming the load cell output voltage.

displays, and the monitor mode is finished.

ENTERENTER

FF

ENTERENTER

FF

• The displayed loading cell output voltage value is a reference value. The displayed accuracy is about 0.5%.

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14. CC-Link interface14-1. General

This is a remote device station of CC-Link Ver 1.10.This unit can be connected with the mastering station of CC-Link Ver 1.10

14-2. FeaturesMain futures of CC-Link interface communication are as follows:

• The program volume of PLC can be reduced because this unit can be controlled by using remote I/O and a remote register of PLC.

• Wiring with PLC can be reduced.• The calibration can be executed by the control from PLC using the CC-Link

interface communication.

ContentsVersion Ver. 1.10Number of occupied station Selectable from 1, 2 or 4 stationsCommunication method Polling methodSynchronous method Bit synchronization method

Baud rate Selectable from 156 kbps, 625 kbps, 2.5 Mbps, 5 Mbps or 10 Mbps.

Transmission path form RS-485 bus standardTransmission format HDLC conforming

Remote station numberNo. 01 ~ 64 at 1 station occupied. No. 01 ~ 63 at 2 stations occupied. No. 01 ~ 61 at 4 stations occupied.

Numbers of connectionUp to 64 units at 1 station occupied. Up to 32 units at 2 stations occupied. Up to 16 units at 4 stations occupied.

Termination 110 Ω resistance externally attached.Status LED [RUN], [SD], [RD], [ERROR]

14-3-1. Occupied stationNumber of occupied station for CC-Link communication is set by function F-84.

Setting range : 0 ~ 2 0:1 station is occupied. 1:2 stations are occupied. 2:4 stations are occupied.

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14-3-2. Station numberThe station number for CC-Link communication is set by function F-85.

Setting range : 01 ~ 64    :01 When 1 station is occupied : Select from station number 01 ~ 64 When 2 stations are occupied : Select from station number 01 ~ 63 When 4 stations are occupied : Select from station number 01 ~ 61 Numbers of occupied station of this unit is 1, 2 or 4 stations.

14-3-3. Baud rate (Communication speed)The baud rate (unit : bps) for CC-Link communication is set by function F-86.

Setting range:0 ~ 4 0:156kbps  1:625kbps 2:2.5Mbps 3:5Mbp 4:10Mbps

14-3-4. 32 bit data indication method32 bit data indication method for CC-Link communication is set by function F-87.

Setting range:0,1 0:Indication by standard binary   1:

Load value 32 bit data indication method Upper 16 bit Lower 16 bit

-1Indication of standard binary FFFFH FFFFH

Highest bit sign 8000H 0001H

-10Indication of standard binary FFFFH FFF6H

Highest bit sign 8000H 000AH

-99999Expression of standard binary FFFEH 7961H

Highest bit sign 8001H 869FH

  • When 2 stations are occupied and station No. is set as [01] : No. 01 ~ 02 is occupied.

• When 4 stations are occupied and station No. is [01] : No. 01 ~ 04 is occupied. Therefore, the station number must not overlap.

Please refer [8-7. Operation of F/ENTER key] for the details.

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14-4. PLC memory explanationA remote I/O (RX/RY : Bit handling register) and a remote register (RWw/RWr : Word handling register) secures the zone in the master station depends on the occupied station number. As shown in the table below in case of this unit.

TypeOccupied station number

Remarks4 stations occupied

2 stations occupied

1 station occupied

Remote input 128 points 64 points 32 points I/O for each 16 points is occupied as a system area.Remote output 128 points 64 points 32 points

Remote resister

Master→ Remote 16 points 8 points 4 pointsRemote→ Master 16 points 8 points 4 points

The address number of the remote station allocated to the mastering station is as shown in the table below.

Station No. Remote input Remote

outputRemote register

Remarks Master→ Remote Remote→ Master

0 - - - - - - - - - - - - - - - - - - - - Specify the master station

1 RX0000 RY0000 RWw0000 RWr00002 RX0020 RY0020 RWw0004 RWr00043 RX0040 RY0040 RWw0008 RWr0008-

10 RX0120 RY0120 RWw00024 RWr0024-

64 RX07E0 RY07E0 RWw00FC RWr00FC

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14-5. Address map14-5-1. Data detail 1) Batch/Discharge mode Remote register

4 stations occupied (Master → CSD-892-73)Station Remote register Contents Remarks

1

RWwn① Final (24 bit)

Special data area

RWwn+1RWwn+2

① Preliminary 2 (32 bit)RWwn+3

2

RWwn+4 ① Preliminary 1 (16 bit)RWwn+5 ① Free Fall (16 bit)RWwn+6 ① Over (16 bit)RWwn+7 ① Under (16 bit)

3

RWwn+8① Full (32 bit)

RWwn+9RWwn+A

① Near zero (32 bit)RWwn+B

4

RWwn+C② General data area

RWwn+DRWwn+E ③ Command No. (Return)RWwn+F ④ Operating mode (Return)

n : Value decided by setting of station No.

2 stations occupied (Master→ CSD-892-73)Station Remote register Contents Remarks

1

RWwn① Final(32 bit)

Special data areaRWwn+1RWwn+2RWwn+3 ① Free Fall (16 bit)

2

RWwn+4② General data area

RWwn+5RWwn+6 ③ Command No. (Return)RWwn+7 ④ Operating mode (Return)

n : Value decided by setting of station No.

1 station occupied (Master→ CSD-892-73Station Remote resister Contents Remarks

1

RWwnRWwn+1RWwn+2RWwn+3

n : Value decided by setting of station No.

• Please set the stored place to [Internal RAM] when the set data is continuously changed, and the rewritable time of [EEPROM] might exceed about one million times.

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value when the stored place of set data is [EEPROM]. Please set the stored place to Internal [RAM] if you change the set value under the measurement. Please refer to [6-10. Change of data stored place] for the details of setting method of stored place.

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① Special data area (4 stations, 2 stations)When the set value is registered by using the set value writing request (Request 1), the set value is set in each area.Details of each set value are shown as follows;

Data type Setting rangeFinal 32 bit binary with sign 0 ~ 999999

Preliminary 2 32 bit binary with sign 0 ~ 999999Preliminary 1 16 bit binary with sign 0 ~ 32767

Free Fall 16 bit binary with sign -32767 ~ 32767Over 16 bit binary with sign 0 ~ 32767

Under 16 bit binary with sign 0 ~ 32767Full 32 bit binary with sign 0 ~ 999999

Near Zero 32 bit binary with sign 0 ~ 999999

② General data area (4 stations, 2 stations)When the set value or data is registered by using the general command request (request 2), the set value is set in this area.

Data type : 32 bit binary with sign Setting range : Depends on the set value

③ Command No. (4 stations, 2 stations)When the set value or data is registered by using the general command request (request 2), the command No. is set in this area.The content of the general data area is set depending on the command set in this command area.

Data type : 8 bit binary Setting range : 0 ~ 255

④ Operation mode (4 stations, 2 stations)When the operation mode is changed by using the operation mode changeover request (request 3), the mode number is set in this area.This function is prepared for future expansion.

Data type : 8 bit binary Setting range : ~ 255

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2) Remote register of 5 steps comparator mode4 stations occupied (Master → CSD-892-73

Station Remote register Contents Remarks

1

RWwn① S1 (32 bit)

Special data area

RWwn+1RWwn+2

① S2 (32 bit)RWwn+3

2

RWwn+4① S3 (32 bit)

RWwn+5RWwn+6

① S4 (32 bit)RWwn+7

3

RWwn+8① Full (32 bit)

RWwn+9RWwn+A

① Near zero (32 bit)RWwn+B

4

RWwn+C② General data area

RWwn+DRWwn+E ③ Command No. (Return)RWwn+F ④ Operating mode (Return)

n : Value decided by setting of station No.      

2 stations occupied (Master→ CSD-892-73)Station Remote register Contents Remarks

1

RWwn① S1 (32 bit)

Special data areaRWwn+1RWwn+2

① S2 (32 bit)RWwn+3

2

RWwn+4② General data area

RWwn+5RWwn+6 ③ Command No. (Return)RWwn+7 ④ Operating mode (Return)

n : Value decided by setting of station No.

1 station occupied (Master→ CSD-892-73)Station Remote resister Contents Remarks

1

RWwnRWwn+1RWwn+2RWwn+3

n : Value decided by setting of station No.     

• Please change by using the general command request (Request 2) when you change S0

• Please set the stored place to [Internal RAM] when the set data is continuously changed, and the rewritable time of [EEPROM] might exceed about one million times.

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value when the stored place of set data is [EEPROM]. Please set the stored place to Internal [RAM] if you change the set value under the measurement. Please refer to [6-10. Change of data stored place] for the details of setting method of stored place.

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① Special data area (4 stations, 2 stations)When the set value is registered by using the setting value writing request (request 1), the set value is set in each area.Details of each set value are shown as follows;

Data type Setting rangeS1 32 bit binary with sign -999999 ~ 999999S2 32 bit binary with sign -999999 ~ 999999S3 32 bit binary with sign -999999 ~ 999999S4 32 bit binary with sign -999999 ~ 999999Full 32 bit binary with sign 0 ~ 999999

Near Zero 32 bit binary with sign 0 ~ 999999

② General data area (4 stations, 2 stations)When the set value or data is registered by using the general command request (request 2), the set value is set in this areaDetails of each set value are shown as follows;

Data type Setting rangeS0 32 bit binary with sign -999999 ~ 999999S1 32 bit binary with sign -999999 ~ 999999S2 32 bit binary with sign -999999 ~ 999999S3 32 bit binary with sign -999999 ~ 999999S4 32 bit binary with sign -999999 ~ 999999Full 32 bit binary with sign 0 ~ 999999

Near Zero 32 bit binary with sign 0 ~ 999999

③ Command No. (4 stations, 2 stations)When the set value or data is registered by using the general command request (request 2), the command No. is set in this area.The content of the general data area is set depending on the command set in this command area.

Data type : 8 bit binary Setting range : 0 ~ 255

④ Operating mode (4 stations, 2 stations)When the operation mode is changed by using the operation mode changeover request (request 3), the mode number is set in this area.This function is prepared for future expansion.

Data type : 8 bit binary Setting range : 0 ~ 255

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3) Command listThe command No. and the value which is set in General data area when the command order is executed by using the general command request (request 2) are shown in the next page.Writing set value and command order (Writing/Reading selection = Writing [OFF])

Setting value or command order Command No. (RWwnE)

General data area (RWwnC ~ RWwnD)

12345

Final / S1 6Free fall / S4 7Preliminary 1 / S3 8Preliminary 2 / S2 9Over / S0 10Under 11Near zero 12Full 13

14151617181920216061626364

ZERO 0 1ZERO clear 0 2Tare weight cancellation 0 3Tare weight cancellation clear 0 4

0 50 70 100 110 120 130 140 150 210 22

Display of net value 0 23Display of gross value 0 24

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Reading set value (Writing/reading selection = Reading [OFF])

Setting value or command order Command No. (RWwnE)

General data area (RWwnC ~ RWwnD)

12345

Final / S1 6Free fall / S4 7Preliminary 1 / S3 8Preliminary 2 / S2 9Over / S0 10Under 11Near zero 12Full 13

14151617181920216061626364

      

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4) Remote register4 stations occupied (CSD-892-73 → Master)

Station Remote register Contents Remarks

1

RWwn① Net value

RWwn+1RWwn+2

② Gross valueRWwn+3

2

RWwn+4RWwn+5RWwn+6 ③ Error codeRWwn+7 ④ Error assistance code

3

RWwn+8RWwn+9RWwn+ARWwn+B

4

RWwn+C⑤ General data area

RWwn+DRWwn+E ⑥ Command No. (Return)RWwn+F ⑦ Operating mode (Return)

n : Value decided by setting of station No.

2 stations occupied (CSD-892-73 → Master)Station Remote register Contents Remarks

1

RWwn ⑧ Indicated value (Net value / Gross value)RWwn+1

RWwn+2 ③ Error codeRWwn+3 ④ Error assistance code

2

RWwn+4⑤ General data area

RWwn+5RWwn+6 ⑥ Command No. (Return)RWwn+7 ⑦ Operating mode (Return)

n : Value decided by setting of station No.

1 station occupied (CSD-892-73 → Master)Station Remote resister Contents Remarks

1

RWwn ⑧ Indicated value (Net value / Gross value)RWwn+1

RWwn+2 ③ Error codeRWwn+3 ④ Error assistance code

n : Value decided by setting of station No.

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① Net value (4 stations)Area for displaying the net value. Data type : 32 bit binary with sign Setting range : -99999 ~ 99999

② Gross value (4 stations)Area for displaying the gross value. Data type : 32 bit binary with sign Setting range : -99999 ~ 99999

③ Error code (4 stations, 2 stations, 1 station)Area for displaying the error generating in the main body of CSD-892-73.Refer to [④ Error assistance code] for the contents of error code. Data type : 16 bit binary Setting range : 0 ~ 255

④ Error assistance code (4 stations, 2 stations, 1 station)Area for displaying the error generating in the main body of CSD-892-73. Data type : 16 bit binary Setting range : 0 ~ 255

Error code Error assistance code Contents0 0

1 Weighing sequence

error

2 (ZERO set error)

1 ZERO set error In case of execute ZERO out of range of zero.

2Tare weight cancellation error In case of execute tare weight cancellation under the condition of being not able to execute it.

3 (Other error)

3 A/D conversion error31 EEPROM writing error.32 EEPROM reading error.99 Except for the measurement mode.

4 (Calibration error)

0 TE-L error1 TE-H error2 SP-L error3 SP-H error

99 (Setting Error)

0

1 Error outside setting range2 Error that cannot be executed.

 

• Please refer to [19. Error display] for the contents of error code.

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⑤ General data area (4 stations, 2 stations)When the set value reading out command is ordered by using the general command request (Request 2), This area represents the set value. Data type : 32 bit binary with sign.

⑥ Command No. (Response) (4 stations, 2 stations)When the set value reading out command is ordered by the general command request (Request 2), this area represents that command No. Data type : 8 bit binary

⑦ Operation mode (Response) (4 station, 2 stations)When the operation mode is changed by the operation mode changeover request (request 3), this area represents that command No. Data type : 8 bit binary

⑧ Indicated value

Data type : 32 bit binary with sign. Setting range : -99999 ~ 99999

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14-5-2. Relay zone 1) Remote output

4 stations occupied (Master → CSD-892-73)Device No. Contents

RYn0 ① Setting value writing request (Request 1)

Communication

RYn1RYn2 ② General command request (Request 2)RYn3 ③ Selection of writing/Reading out. (R/W)RYn4 ④ Operation mode changeover request (Request 3)RYn5RYn6RYn7RYn8RYn9RYnARYnBRYnCRYnDRYnERYnF

RY(n+1)0 ⑤ ZERO

Control signal

RY(n+1)1 ⑥ ZERO ClearRY(n+1)2 ⑦ Tare weight cancellationRY(n+1)3 ⑧ Tare weight cancellation clearRY(n+1)4 ⑨ HoldRY(n+1)5 ⑩ Net displayRY(n+1)6 ⑪ Gross displayRY(n+1)7RY(n+1)8RY(n+1)9RY(n+1)A ⑫

RY(n+1)BRY(n+1)CRY(n+1)DRY(n+1)ERY(n+1)FRY(n+2)0RY(n+2)1RY(n+2)2

~RY(n+7)0RY(n+7)1RY(n+7)2RY(n+7)3RY(n+7)4RY(n+7)5RY(n+7)6RY(n+7)7RY(n+7)8RY(n+7)9 ⑬

RY(n+7)A ⑭

RY(n+7)BRY(n+7)CRY(n+7)DRY(n+7)ERY(n+7)F

n : Value decided by setting of station No.

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2 stations occupied (Master → CSD-892-73)Device No. Contents

RYn0 ① Setting value writing request (Request 1)

Communication

RYn1RYn2 ② General command request (Request 2)RYn3 ③ Selection of writing/Reading out. (R/W)RYn4 ④ Operation mode changeover request (Request 3)RYn5RYn6RYn7RYn8RYn9RYnARYnBRYnCRYnDRYnERYnF

RY(n+1)0 ⑤ ZERO

Control signal

RY(n+1)1 ⑥ ZERO ClearRY(n+1)2 ⑦ Tare weight cancellationRY(n+1)3 ⑧ Tare weight cancellation clearRY(n+1)4 ⑨ HoldRY(n+1)5 ⑩ Net displayRY(n+1)6 ⑪ Gross displayRY(n+1)7RY(n+1)8RY(n+1)9RY(n+1)A ⑫

RY(n+1)BRY(n+1)CRY(n+1)DRY(n+1)ERY(n+1)F ⑮

RY(n+2)0RY(n+2)1RY(n+2)2

~RY(n+3)0RY(n+3)1RY(n+3)2RY(n+3)3RY(n+3)4RY(n+3)5RY(n+3)6RY(n+3)7RY(n+3)8RY(n+3)9 ⑬

RY(n+3)A ⑭

RY(n+3)BRY(n+3)CRY(n+3)DRY(n+3)ERY(n+3)F

n : Value decided by setting of station No.

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1 stations occupied (Master → CSD-892-73)Device No. Contents

RYn0 ⑤ ZERO

Control signal

RYn1 ⑥ ZERO ClearRYn2 ⑦ Tare weight cancellationRYn3 ⑧ Tare weight cancellation clearRYn4 ⑨ HoldRYn5RYn6RYn7 ⑮

RYn8RYn9RYnARYnBRYnCRYnDRYnERYnF

RY(n+1)0

System reservation zone

RY(n+1)1RY(n+1)2RY(n+1)3RY(n+1)4RY(n+1)5RY(n+1)6RY(n+1)7RY(n+1)8RY(n+1)9 ⑬

RY(n+1)A ⑭

RY(n+1)BRY(n+1)CRY(n+1)DRY(n+1)ERY(n+1)F

n : Value decided by setting of station No.

① Setting value writing request (Request 1)Writing of the data set in special data area (RWwn0 ~ RWwnB) is requested ON :In the request of writing OFF :

② General command request (Request 2)Writing or reading out is requested by the command order.Use with selection of writing or reading out (R/W) at the same time. ON :In the request of writing/reading out OFF :

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③ Selection of writing or reading out (R/W)Writing or reading out is selected by the command order.Writing the data set in General data area (RWwnC ~ RWwnD) is ordered for writing by command No. (RWwnE)Reading out the data set in General data area (RWwnC ~ RWrnD) is ordered for reading out by command No. (RWwnE). ON :Reading out OFF :Writing

④ Operation mode changeover request (Request 3)Writing of the data set in operation mode (RWwnF) is requested.This function is prepared for future expansion, and CSD-892-73 is not equipped with. ON :In the request of changeover. OFF :

⑤ ZEROZERO set is executed. ON :In requesting the execution of ZERO set (Operated once by OFF→ ON) OFF :Normal

⑥ ZERO clearZERO clear is executed. ON :In requesting the execution of ZERO clear (Operated once by OFF→ ON) OFF :Normal

⑦ Tare weight cancellationTare weight cancellation clear is executed. ON :In requesting the execution of tare weight cancellation (Operated once by OFF→ ON) OFF :Normal

⑧ Tare weight cancellation clear ON :In requesting the execution of tare weight cancellation clear (Operated once by OFF→ ON) OFF :Normal

⑨ HOLDThe holding target selected from [Display], [Comparison result] or [Gross/Net value of CC-Link interface] by the setting of function F-18 is held. ON :HOLD (Level operation) OFF :HOLD OFF

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⑩ Display of net valueThe display is set to net value. ON : In requesting the display of net value (Operated once by OFF→ ON). OFF : Normal

⑪ Display of gross valueThe display is set to gross value. ON : In requesting the display of gross value (Operated once by OFF→ ON). OFF : Normal

ZERO set error and A/Z error. And also, the category and the number of error are cleared to zero. ON :In requesting the release (Operated once by OFF→ ON). OFF :Normal

CSD-892-73 is not equipped with, and the initialization is not executed. ON :In requesting the initialization. OFF :Normal

The release of error is requested when the occurrence of error is informed by error

zero. ON :In requesting the reset (Operated once by OFF→ ON) OFF :Normal

When one or two station(s) is/are occupied, the weighing value set in the range of indicated value in remote register is changed as follows. ON :Gross weight (Same as Gross weight in remote register when four stations are occupied.) OFF :Net weight (Same as Net weight in remote register when four stations are occupied.)

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2) Remote input4 stations occupied (CSD-892-73 → Master)

Device No. ContentsRYn0 ① Setting value writing request (Request 1)

Communication

RYn1RYn2 ② General command request (Request 2)RYn3 ③ Selection of writing/Reading out. (R/W)RYn4 ④ Operation mode changeover request (Request 3)RYn5RYn6 ⑤ Normal operation of CPURYn7RYn8 ⑥ Decimal point 1RYn9 ⑥ Decimal point 2RYnA ⑥ Decimal point 4RYnBRYnCRYnDRYnERYnF

RY(n+1)0 ⑦ Near Zero

Control signal

RY(n+1)1 ⑦

RY(n+1)2 ⑦

RY(n+1)3 ⑦

RY(n+1)4 ⑦ Over/S4RY(n+1)5 ⑦ OK/S0RY(n+1)6 ⑦ UnderRY(n+1)7 ⑦ StableRY(n+1)8RY(n+1)9 ⑧Weight value overRY(n+1)A ⑨ During HOLDRY(n+1)B ⑦ FullRY(n+1)CRY(n+1)DRY(n+1)ERY(n+1)F ⑩ Abnormal weightRY(n+2)0RY(n+2)1RY(n+2)2

~RY(n+7)0RY(n+7)1RY(n+7)2RY(n+7)3RY(n+7)4RY(n+7)5RY(n+7)6RY(n+7)7RY(n+7)8RY(n+7)9 ⑪

RY(n+7)A ⑫

RY(n+7)B ⑬ RY(n+7)CRY(n+7)DRY(n+7)ERY(n+7)F

n : Value decided by setting of station No.

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2 stations occupied (CSD-892-73 → Master)Device No. Contents

RYn0 ① Setting value writing request (Request 1)

Communication

RYn1RYn2 ② General command request (Request 2)RYn3 ③ Selection of writing/Reading out. (R/W)RYn4 ④ Operation mode changeover request (Request 3)RYn5RYn6 ⑤ Normal operation of CPURYn7RYn8 ⑥ Decimal point 1RYn9 ⑥ Decimal point 2RYnA ⑥ Decimal point 4RYnBRYnCRYnDRYnERYnF

RY(n+1)0 ⑦ Near Zero

Control signal

RY(n+1)1 ⑦

RY(n+1)2 ⑦

RY(n+1)3 ⑦

RY(n+1)4 ⑦ Over/S4RY(n+1)5 ⑦ OK/S0RY(n+1)6 ⑦ UnderRY(n+1)7 ⑦ StableRY(n+1)8RY(n+1)9 ⑧Weight value overRY(n+1)A ⑨ During HOLDRY(n+1)B ⑦ FullRY(n+1)CRY(n+1)DRY(n+1)ERY(n+1)F ⑩ Abnormal weightRY(n+2)0RY(n+2)1RY(n+2)2

~RY(n+3)0RY(n+3)1RY(n+3)2RY(n+3)3RY(n+3)4RY(n+3)5RY(n+3)6RY(n+3)7RY(n+3)8RY(n+3)9 ⑪

RY(n+3)A ⑫

RY(n+3)B ⑬

RY(n+3)CRY(n+3)DRY(n+7)ERY(n+7)F

n : Value decided by setting of station No.

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1 stations occupied (CSD-892-73 → Master)Device No. Contents

RYn0 ⑦ Near Zero

Control signal

RYn1 ⑦

RYn2 ⑦

RYn3 ⑦

RYn4 ⑦ Over/S4RYn5 ⑦ OK/S0RYn6 ⑦ UnderRYn7 ⑦ StableRYn8RYn9 ⑧Weight value overRYnA ⑨ During HOLDRYnB ⑦ FullRYnCRYnDRYnERYnF ⑩ Abnormal weight

RY(n+1)0

System reservation zone

RY(n+1)1RY(n+1)2RY(n+1)3RY(n+1)4RY(n+1)5RY(n+1)6RY(n+1)7RY(n+1)8RY(n+1)9 ⑪

RY(n+1)A ⑫

RY(n+1)B ⑬

RY(n+1)CRY(n+1)DRY(n+1)ERY(n+1)F

n : Value decided by setting of station No.

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① Setting value writing response (Response 1)

ON :In completion or writing OFF :

② General command response (Response 2)

ON :In completion or writing OFF :

③ Writing / Reading out selection response (R/W response)

general command response (Response 2). ON :Reading out OFF :Writing

④ Operation mode changeover request (Request 3)

ON :In the completion of the changeover OFF :

⑤ CPU normal operation

ON→ OFF→

⑥ Decimal point display position 1, 2 and 4

Decimal point position Decimal point position 1 Decimal point position 2 Decimal point position 4

0 (None) OFF OFF OFF0.0 ON OFF OFF0.00 OFF ON OFF0.000 ON ON OFF0.0000 OFF OFF ON

  • A temporary delay occurs in CPU normal operation signal while memorizing various set values and while executing memory clearness.

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⑦ Near ZERO, and the other conditionThe conditions of NEAR ZERO, FULL FLOW/S1, MEDIUM FLOW/S2, DRIBBLE FLOW/

⑧ Weighing capacity over

-OVF). ON :In the occurrence of abnormal condition OFF :Normal

⑨ During HOLDThe hold condition either of [Display], [Comparison result], [Gross/Net value of CC-Link

ON :During HOLD OFF :Free running

⑩ Abnormal weight

ON :In the occurrence of abnormal error OFF :Normal

ON :In the completion of setting OFF :Normal

ON :In the occurrence of the error OFF :Normal

⑬ Remote READY

ON :Possible to communicate OFF :In the initialization

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14-6. Calibration by CC-Link interfaceWhen 4(four) and 2(two) stations are occupied, the calibration by the CC-Link interface is possible by using the general command request (Request 2). In this calibration, please set

[4-6]. Please refer to [4-6.] for the details.

③ Setting of Decimal point display position (4-6. Step 3)

④ Setting of Scale interval (4-6. Step 4)

① Change to Calibration mode by communication (4-6. Step 1)

② Setting of Unit (4-6. Step 2)

⑤ Setting of Measuring value (4-6. Step 5)

⑥ Setting of mass of weight (4-6. Step 6)

In the calibration by numeric input(Electrical calibration)

In the calibration by actual weight(Calibration by actual weight)

⑬ Calibration is finished (4-6. Step 9)

⑦ Confirmation of stable at ZERO (4-6. Step 7)

⑧ ZERO calibration by measuring value (4-6. Step 7)

⑩ Confirmation of stable of SPAN (4-6. Step 8)

⑪ SPAN calibration by weight.

⑨ ZERO calibration by numeric input (4-6. Step 7)

⑫ SPAN calibration by numeric input (4-6. step 8)

 • CSD-892-73 displays during the calibration by communication.• Please refer [14-5-1. 4) ④ Error assistance code] for the details of error code for the

calibration by communication.•

before the calibration without executing the registration.•

condition without fail.

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① Change of calibration modeShift to the calibration mode after writing the data showing below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9001 0

Error that cannot be executedThe following code is set when executing by other than the measurement mode.

Condition Error code Error assistance codeCondition that cannot be executed. 99 2

② Setting of UNITThe UNIT is set by writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9020 UNIT Setting valueNothing 0

g 1kg 2t 3lb 4N 5kN 6Pa 7

KPa 8MPa 9

Error outside the setting rangeWhen the data outside the setting range is written, the following code is set.

Condition Error code Error assistance codeSetting range error 99 1

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not

Condition Error code Error assistance codeCondition that cannot be executed. 99 2

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③ Setting of decimal point display positionThe decimal point display position is set by writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9021 Decimal point display position Setting value

0 (Nothing) 00.0 10.00 20.000 30.0000 4

Error outside the setting rangeWhen the data outside the setting range is written, the following code is set.

Condition Error code Error assistance codeSetting range error 99 1

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeCondition that cannot be executed. 99 2

④ Setting of scale intervalThe scale interval is set by writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9002 Scale interval Setting value1 12 25 5

10 1020 2050 50

Error outside the setting rangeWhen the data outside the setting range is written, the following code is set.

Condition Error code Error assistance codeSetting range error 99 1

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeCondition that cannot be executed. 99 2

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⑤ Setting of weighing capacityThe maximum display value is set by writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9003 Setting range : 1 ~ 99999

Error outside the setting rangeWhen the data outside the setting range is written, the following code is set.

Condition Error code Error assistance codeSetting range error 99 1

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeError that cannot be executed. 99 2

⑥ Setting of mass of weightThe mass of weight is set by writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9004 Setting range : 1 ~ 99999 However, below the maximum display value.

Error outside the setting rangeWhen the data outside the setting range is written, the following code is set.

Condition Error code Error assistance codeSetting range error 99 1

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeError that cannot be executed. 99 2

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The condition of STABLE/UNSTABLE is reading out after setting the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9006 Optional

The condition of STABLE/UNSTABLE read out is set in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9006 0 : UNSTABLE1 : STABLE

Error that cannot be executedThe following code is set when executing by other than the calibration mode.

Condition Error code Error assistance codeError that cannot be executed. 99 0

⑧ ZERO calibration by measurement valueThe load cell output value is registered as ZERO after writing the data in the table below. When the data other than [0] are written in the general data area, the signal becomes an error outside a set range. (Error code : 99, Error assistance code : 1)

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) (RWwn4~RWwn5)

9007 0

TE-L error   When the read load cell output value is below than -2.5 mV/V and exceeds over ZERO adjustment range at minus side, the following code is set.

Condition Error code Error assistance codeTE-L error 4 0

TE-H error When the read load cell output value is over than 2.5 mV/V and exceeds over ZERO adjustment range at plus side, the following code is set.

Condition Error code Error assistance codeTE-H error 4 1

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeError that cannot be executed. 99 2

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⑨ ZERO calibration by numeric inputThe load cell output value is registered as ZERO after writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9008 Setting range : -25 000 ~ 25 000

TE-L error   When the read load cell output value is below than -2.5 mV/V and exceeds over the ZERO adjustment range at minus side, the following code is set.

Condition Error code Error assistance codeTE-L error 4 0

TE-H error When the read load cell output value is over than 2.5 mV/V and exceeds over the ZERO adjustment range at plus side, the following code is set.

Condition Error code Error assistance codeTE-H error 4 1

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeError that cannot be executed. 99 2

The condition of STABLE/UNSTABLE is reading out after setting the data in the below table.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9006 Optional

The read condition of STABLE/UNSTABLE is set as follows:Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) : 4 stations are occupied.(RWwn4~RWwn5) : 2 stations are occupied.

9006 0 : UNSTABLE1 : STABLE

Error that cannot be executedThe following code is set when executing by other than the calibration mode.

Condition Error code Error assistance codeError that cannot be executed. 99 2

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⑪ SPAN calibration by weightThe load cell outptu value is registered as a SPAN by writing the data in the table below.When the data other than [0] are written in the general data area, the signal becomes an error outside a set range. (Error code : 99, Error assistance code : 1)

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) (RWwn4~RWwn5)

9010 0

SP-L error   When the read load cell output value is below than 0 mV/V and exceeds over SPAN adjustment range at minus side, the following code is set.

Condition Error code Error assistance codeSP-L error 4 2

SP-H error When the read load cell output value is over than 3.1 mV/V and exceeds over SPAN adjustment range at plus side, the following code is set.

Condition Error code Error assistance codeSP-H error 4 3

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeError that cannot be executed. 99 2

⑫ SPAN calibration by numeric inputSPAN is registered by setting the numeric value with the unit of mV/V after writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) (RWwn4~RWwn5)

9011 Setting range : 1 ~ 31 000

SP-L error   When the read load cell output value is below than 0 mV/V and exceeds over SPAN adjustment range at minus side, the following code is set.

Condition Error code Error assistance codeSP-L error 4 2

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SP-H error When the read load cell output value is over than 3.1 mV/V and exceeds over SPAN adjustment range at plus side, the following code is set.

Condition Error code Error assistance codeSP-H error 4 3

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting it

Condition Error code Error assistance codeError that cannot be executed. 99 2

⑬ End of calibrationThe calibration data of the ZERO/SPAN, etc., that is registered temporary is stored by writing the data in the table below.

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) (RWwn4~RWwn5)

9099 0

Error that cannot be executedThe following code is set when executing by other than the calibration mode, or not setting

Condition Error code Error assistance codeError that cannot be executed. 99 2

During the calibration procedure, the calibration is discontinued without storing the calibration data that is registered temporarily by writing the data in the table below, and you can return to the measurement mode.When the data other than [0] are written in the general data area, the signal becomes an error outside a set range. (Error code : 99, Error assistance code : 1)

Command No.(RWwnE) : 4 stations are occupied.(RWwn6) : 2 stations are occupied.

General data area(RWwnC~RWwnD) (RWwn4~RWwn5)

9000 0

Error that cannot be executedThe following code is set when executing by other than the calibration mode.

Condition Error code Error assistance codeError that cannot be executed. 99 2

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15-1. Writing set valueSetting value is written by [Set value writing request] from the master station.CSD-892-73 writes the data set in the special data area [RWwn0~ RWwn+9] when [Set value writing request (Request 1)] transmitted from the master station is turned on.After completing the writing, CSD-892-73 responds to the master station by [Set value writing response (Response 1)]

Time chart

15-2. Writing/Reading by general commandOperation of the command order is executed by the general command request from the master station.When [General command request (Request 2) [RYn2] ] transmitted from the master station is turned on, writing of data set in [General data area (RWrn+C ~ D)] or reading out the data to [General data area (RWwn+C ~ D)] is executed by [Writing/Readin (RYn3)] or [Command No.(RWwn+E]. After completing the writing / reading, CSD-892-73 responds to the master station by [General command response (Response 2) (RXn2)]

①Writing request

15. Operation method

Setting value writing request(Request 1 [RYn0])

Special data(RWwn0 ~ RWwn+9)

Setting value writing response(Response 1 [RYn0])

General command request(Request 2) [RYn2]

Command No. [Response](RWrnE)

Writing/Reading response(RXn3)

Command No.(RWwnE)

General command response(Response 2) [RXn2]

Selection of writing or reading(R/W) [RYn3]

General data[RWwnC/D)

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15-3.Shift to condition that can be communicatedThe condition that can be communicated is displayed after turning on the power and initial setting request from the master station.CSD-892-73 becomes the condition that can be communicated by turning on [Remote READY (RX(n+7)B)] after completing the initialization with power supply turning on.The initialization is executed by turning OFF [Remote READY (RX(n+7)9)] when [Initialization setting request (RY(n+7)9] transmitted from the master station is turned on.After the initialization is completed, CSD-892-73 responds to the master station by turning on [Initialization setting completion (RX(n+7)9].[Initialization setting completion (RX(n+7)9] is turned OFF and [Remote READY (RX(n+7)B] is turned on by turning off [Initialization setting request (RY(n+7)9)] after the master station recognizes ON of [Initialization setting rcompletion (RX(n+7)9)]

Timing chart

② Reading out request

General command requestRequest 2 [RYn2]

Command No. [Response](RWrnE)

Writing/Reading response(RXn3)

Command No.(RWwnE)

General command response(Response 2) [RXn2]

Selection of writing or reading(R/W) [RYn3]

General data[RWwnC/D)

Initial data setting request(RY(n+7)9)

Initial data setting completion(RX(n+7)9)

Remote READY(RX(n+7)B)

Power supply turning on

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The condition sequence and the reset sequence when CSD-892-73 detects the error are displayed.

READY (RX(n+7)B)] is turned off.

When CSD-892-73 detects the error, please reset the error by the following sequence.

15-5. CPU normal operation signalThis signal informs that CSD-892-73 executes the normal operation.When CSD-892-73 operates normally, the condition of [CPU normal operation signal (RXn6)] is reversed at 500 ms. intervals.

Error condition flag(RX(n+7)A)

Error reset requesting flag(RY(n+7)A)

Remote READY(RX(n+7)B)

500 ms.

CPU normal operation(RXn6)

  • A temporary delay occurs in CPU normal operation signal while memorizing various set values and while executing memory clearness.

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16. USB (RS-232C) interface

To install special driver software from our homepage to the host side to use the USB(RS-232C) interface is necessary. Moreover, the USB cable must use less than 5 m.

Contents

Conforming Conforming to USB2.0 (To use also with the equipment with USB 1.1 standard.

Output connector mini USB connector B type (Female)Communication method Half duplexSynchronizing method Start-Stop synchronized methodBaud rate Selectable from 1 200, 2 400, 4 800, 9 600, 19 200 or 38 400 bpsData bit length Selectable from 7 bit or 8 bitParity bit Selectable from none, even or odd.Stop bit Selectable from 1 bit or 2 bit.Terminator Selectable from CR+LF or CRCommunication data ASC II code

16-2. Operation modeYou can select from [Command mode] or [Stream mode]Each mode is explained as follows.

(1) Command modeData is sent back from CSD-892-73 to the host side by sending Command/data provided by the Host (Personal computer) to CSD-892-73 according to Command / Data. Please execute the communication according to the following procedure.

  Start Command / Data Data

Host→CSD-892-73 CSD-892-73→Host

    

        

(2) Stream modeThis mode keeps outputting the latest data of the output target selected by function F-41 [Output target of USB (RS-232C)]. However, the output frequency changes by setting the baud rate. Please refer to [7-2. Function data list].

• Error command is transmitted without communicating while the calibration mode, Check mode and setting of C function.

• • The communicating operation is interactive mode.

• When USB (RS-232C) interface is used, the CE standard is excluded.• Host limits to PC (Personal Computer).• Error command is transmitted without communicating while the Calibration mode,

Check mode and setting of C function.

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0 0 0 0 0 Data bit lengthParity bit

Stop bitBaud rate

Terminator

0 : 7 bit, 1 : 8 bit0 : No parity1 : Even parity2 : Odd parity0 : 1 bit, 1 : 2 bit0 : 1 200 bps, 1 : 2,400 bps2 : 4 800 bps, 3 : 9 600 bps4 : 19 200 bps 5 : 38 400 bps0 : CR, 1 : CR + LF

16-2-1. Operation modeOperation mode is selected by the setting of function F-40.

Setting range : 0 or 1 0 : Command mode 1 : Stream mode

16-2-2. Output target in Stream modeThe output target in stream mode is selected by the setting of function F-41.Output target is effective when the set value : [1] is selected by function F-40.

Setting range : 0 ~ 3 0 : Display interlocked 1 : Gross value 2 : Net value 3 : Load display data with condition

Setting range : 00000 ~ 15121 :13020

Function No. Set value Contents

F-41 00000 ~ 15121

 

16-2-4. Addition of decimal point to transmission dataThe presence of transmission data decimal point is selected by the setting of function F-46.When you select the set value : 1 (with decimal point), a decimal point is put in the decimal

Setting range : 0 or 1 0 : No decimal point 1 : With decimal point

16-2-5. Number of digit for unitThe number of digit for unit of transmission data is set by function F-49.This becomes effective when the set value : [3] (Load display data with the condition) is selected by function F-40.

Setting range : 0 or 1 0 : 2 digit of unit 1 : 3 digit of unit

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16-3. Command data format

① Reading out the load data (Host → CSD-892-73)When command No.20~ 23

2 4 6

@ 0 0 2 2 Terminator

Return (CSD-892-73 → Host)2 4 6 8 10 12 14

@ 0 0 2 2 Terminator

2 4 6 8 10 12 14

@ 0 0 2 2 - 1 2 3 Terminator

2 4 6 8 10 12 14

@ 0 0 2 2 + 0 . 1 2 3 Terminator

2 4 6 8 10 12 14

@ 0 0 2 2 + O L Terminator

2 4 6 8 10 12 14

@ 0 0 2 2 - O L Terminator

Command No. Operation20 Reading out load data21 Reading out gross value22 Reading out net value23 Reading out tare value26 Reading out load data with condition

Load dataSign of load dataCommand No.

Command No.

• The load data enters from the right.• The sign of [-] for minus and [+] for plus is entered.• The load data performs zero suppress.•

• [OL] is put out to the load data section at the overload. [-OL] is put out to the load data section when Gross value is in the minus condition.

• The empty sections are all spaces.

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When command number is 26.2 4 6

@ 0 0 2 6 Terminator

Return (CSD-892-73→ Host) * When setting numbers of digit for unit is 2 digit (F-49 = 0).

2 4 6 8 10 12 14 16 18 20 22

@ 0 0 2 6 C1 C2 . C3 C4 . C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 Terminator

Header 1 Header 1 Sign Load data 8 digit UnitC1 C2 Contents C3 C4 Contents C5 Contents C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 ContentsO L Overload N T Net weight + Plus 1 2 3 g GramS T Stable G S Gross weight - Minus 0 . 1 2 3 k g Kilo gramU S Unstable O L t ton

l b PoundN Newton

k N Kilo NewtonP Pascal

k P Kilo PascalM P Mega Pascal

Return (Host→ CSD-892-73) * When setting numbers of digit for unit is 3 digit (F-49 = 1).

2 4 6 8 10 12 14 16 18 20 22

@ 0 0 2 6 C1 C2 . C3 C4 . C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 Terminator

Header 1 Header 1 Sign Load data 8 digit UnitC1 C2 Contents C3 C4 Contents C5 Contents C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 ContentsO L Overload N T Net weight + Plus 1 2 3 g GramS T Stable G S Gross weight - Minus 0 . 1 2 3 k g Kilo gramU S Unstable O L t ton

l b PoundN Newton

k N Kilo NewtonP a Pascal

k P a Kilo PascalM P a Mega Pascal

Command No.

Command No. UnitLoad data 8 digitSignHeader 2Header 1

Command No. UnitLoad data 8 digitSignHeader 2Header 1

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② Reading out set data for measurement (Host→ CSD-892-73)2 4 6

@ 0 0 3 0 Terminator

Return (Host→ CSD-892-73)2 4 6 8 10 12 14

@ 0 0 3 0 Terminator

② Reading out comparative set data for measurement (Host→ CSD-892-73)2 4 6

@ 0 0 3 0 Terminator

Return (CSD-892-73→ Host)2 4 6 8 10 12 14

@ 0 0 3 0 Terminator

Command No. Operation30 Reading out FINAL value (SET1)31 Reading out FREE FALL (SET2)32 Reading out PRELIMINARY1 (SET3)33 Reading out PRELIMINARY2 (SET4)34 Reading out OVER (SET5)35 Reading out UNDER (SET6)36 Reading out FULL (SET8)37 Reading out NEAR ZERO (SET7)

Command No. Operation30 Reading out S1 set value31 Reading out S4 set value32 Reading out S3 set value33 Reading out S2 set value34 Reading out S0 set value36 Reading out FULL (SET8)37 Reading out NEAR ZERO (SET7)

Set valueSignCommand No.

Set valueSignCommand No.

Command No.

Command No.

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④ Reading out the condition 1 (Host → CSD-892-73)2 4 6

@ 0 0 4 0 Terminator

Return (CSD-892-73→ Host)2 4 6 8 10 12 14

@ 0 0 4 0 a b c d e f g h Terminator

a : STABLE [1] = ON, [0] = OFF b : No use [0] = Fixed c : TARE WEIGHT [1] = ON, [0] = OFF d : GROSS value [1] = ON, [0] = OFF e : NET value [1] = ON, [0] = OFF f : ZERO [1] = ON, [0] = OFF g : HOLD [1] = ON, [0] = OFF h : ERROR [1] = ON, [0] = OFF

⑤ Reading out the condition 2 (Host → CSD-892-73)2 4 6

@ 0 0 4 1 Terminator

Return (CSD-892-73→ Host)2 4 6 8 10 12 14

@ 0 0 4 1 a b c d e f g h Terminator

a : NEAR ZERO [1] = ON, [0] = OFF b : FULL FLOW/S1 [1] = ON, [0] = OFF c : MEDIUM FLOW/S2 [1] = ON, [0] = OFF d : DRIBBLE FLOW/S3 [1] = ON, [0] = OFF e : OVER/S4 [1] = ON, [0] = OFF f : OK/S0 [1] = ON, [0] = OFF g : UNDER [1] = ON, [0] = OFF h : FULL [1] = ON, [0] = OFF

Command No. Operation40 Reading out the condition 1

Command No. Operation40 Reading out the condition 1

SpaceConditionCommand No.

SpaceConditionCommand No.

Command No.

Command No.

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⑥ Reading out ROM version (Host → CSD-892-73)2 4 6

@ 0 0 4 5 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14

@ 0 0 4 5 v Terminator

⑦ Reading out the condition 2 (Host → CSD-892-73)2 4 6

@ 0 0 5 0 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6

@ 0 0 5 0 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 0 2 Terminator

Command No. Operation40 Reading out ROM version

Command No. ROM version

Command No. Operation50 Display Gross value51 Display Net value52 ZERO53 ZERO clear54 Tare weight cancellation55 Tare weight cancellation clear5I Error cancellation

The condition of error transmission is as follows:• When we cannot execute ZERO set outside the effective range in executing the

command No. 52 for ZERO set.• When we cannot proceed tare weight cancellation with the display of [± OL] in

executing the command No. 54 for tare weight cancellation.

Command No.

Command No.

Command No.

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⑧ Writing the measurement set data (Host → CSD-892-73)2 4 6 8 10 12 14

@ 0 0 6 0 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14

@ 0 0 6 0 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

Command No. Operation60 Writing FINAL(SET1) 61 Writing FREE FALL(SET2)62 Writing PRELIMINARY1(SET3)63 Writing PRELIMINARY2(SET4)64 Writing OVER(SET5)65 Writing UNDER (SET6)66 Writing FULL(SET8)67 Writing NEAR ZERO(SET7)

Set valueSignCommand No.

Set valueSignCommand No.

• The load data enters from the right.• Please do not add the decimal point.• Please set the stored place to [Internal RAM] when the set data is continuously

changed, and the rewritable time of [EEPROM] might exceed about one million times.

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value when the stored place of set data is [EEPROM]. Please set the stored place to Internal [RAM] if you change the set value under the measurement. Please refer to [6-10.

• Change of data stored place] for the details of setting method of stored place.

The condition of error transmission is as follows:• When you set the value that exceeds the regular value.• When you set the character other than the numeric in the set value.• When you set excluding + or - in the sign section.

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⑨ Writing the comparison set data (Host → CSD-892-73)2 4 6 8 10 12 14

@ 0 0 6 0 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14

@ 0 0 6 0 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

Command No. Operation60 Writing S1 setting value61 Writing S4 setting value62 Writing S5 setting value63 Writing S2 setting value64 Writing S0 setting value66 Writing FULL(SET8)67 Writing NEAR ZERO(SET7)

Set valueSignCommand No.

Set valueSignCommand No.

• The load data enters from the right.• Please do not add the decimal point.• Please set the stored place to [Internal RAM] when the set data is continuously

changed, and the rewritable time of [EEPROM] might exceed about one million times.

• Please do not change in the set value under the measurement because the A/D sampling rate decreases temporarily while rewriting the set value when the stored place of set data is [EEPROM]. Please set the stored place to Internal [RAM] if you change the set value under the measurement. Please refer to [6-10.

• Change of data stored place] for the details of setting method of stored place.

The condition of error transmission is as follows:

• When you set the value that exceeds the regular value.• When you set the character other than the numeric in the set value.• When you set excluding + or - in the sign section.

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⑩ Reading out the set value (Host → CSD-892-73)2 4 6 8 10 12 14

@ 0 0 7 0 0 1 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14

@ 0 0 7 0 0 1 Terminator

⑪ Reading out the set value (Host → CSD-892-73)2 4 6 8 10 12 14

@ 0 0 7 0 0 1 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14

@ 0 0 7 0 0 1 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

SpaceNumberCommand No.

Set value

NumberSignCommand No.

SpaceNumberCommand No.

Set value

NumberSignCommand No.

• The load data enters from the right.• Please do not add the decimal point.• Please do not change in the set value under the measurement because the A/D

sampling rate decreases temporarily while rewriting the set value.

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Table of reading out commandCommand name Command Number Return command set value

70 01 001 ~ 512 (Unit : Moving average time 1 time)70 02 0: 2 Hz, 1: 4 Hz, 2: 6 Hz, 3: 8 Hz, 4: 10 Hz70 05 001 ~ 512 (Unit : moving average time 1 time)70 06 0000 ~ 9999 (Unit : 0.1D)70 07 00 ~ 99 (Unit : 0.1 s)

Individual key lock 70 08

0000 ~ 1111 (0 : Invalid, 1 : Valid) 100 digit : F/ENTER key 101 digit : CAL-S/▲ key 102 digit : CAL-Z/ key 103 digit : FUNC. key

Stability detection data width 70 10 000 ~ 999 (Unit : 0.1D)Stability detection time width 70 11 00 ~ 99 (Unit : 0.1 s)

Hold target 70 17000 ~ 111 (0 : Invalid, 1 : Valid) 100 digit : Output of CC-Link interface 101 digit : Comparative output 102 digit : Display

5-steps comparator operation target 70 21

00000 ~ 22222 (0: Display interlock, 1: Gross, 2: Net) 100 digit : S0 operation target 101 digit : S1 operation target 102 digit : S2 operation target 103 digit : S3 operation target 104 digit : S4 operation target

5-steps comparator operation condition 70 22

00000 ~ 22222 (0: OFF, 1: OVER, 2: UNDER) 100 digit : S0 operation 101 digit : S1 operation 102 digit : S2 operation 103 digit : S3 operation 104 digit : S4 operation

Comparator hysteresis operation condition 70 24 0 : On-delay, 1 : Off-delay

Comparator hysteresis data width 70 25 00 ~ 99 (Unit : 1D)Comparator hysteresis time width 70 26 00 ~ 99 (Unit : 0.1 s)USB (RS-232C) operation mode 70 40 0 : Command mode, 1 : Stream modeUSB (RS-232C) output target in stream mode 70 41 0 : Display interlock, 1 : Gross, 2 : Net

3 : Load display data with condition

communication 70 42

0000 ~ 15121 100 digit : Data bit length 0 : 7 bit, 1 : 8 bit 101 digit : Parity 0 = No parity, 1 = Even, 2 = Odd 102 digit : Stop bit 0 = 1 bit, 1 = 2 bit 103 digit : Baud rate 0 = 1 200 bps, 1 = 2 400 bps, 2 = 4 800 bps, 3 = 9 600 bps, 4 = 19 200 bps, 5 = 38 400 bps 104 digit : Terminator 0 = CR, 1 = CR+LF

USB (RS-232C) transmission data with decimal point 70 46 0 : No decimal point, 1 : With decimal point

USB (RS-232C) digit of unit 70 49 0 : Unit 2 digit, 1 : Unit 3 digit

• Please change [7*] in the above mentioned command part to [8*] at the time of writing.

• The number of 40 ~ 49 is only reading because these relates to the transmission setting.

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Command name Command Number Return command set value

Operation of F/ENTER key 70 550 : No use, 1 : Hold, 2 : ZERO set, 3 : ZERO clear, 4 : Tare weight cancellation clear, 5 : Tare weight cancellation clear, 6 : Change of NET/GROSS, 7 : Shift to comparator setting mode

External control input INPUT1 operation 70 60

00 : OFF, 01 : ZERO set, 02 : ZERO clear, 03 : Tare weight cancellation, 04 : Tare weight cancellation clear, 05 : Change of NET/GROSS, 06 : Hold (Pulse), 07 : Hold (Level), 08 : Net value display (Level : When gross weight is displayed, the net amount is displayed by turning on.), 09 : Batch key lock (Level : Effective in turning on at the measurement screen.), 10 : Error release

External control input INPUT2 operation 70 61 Selectable as well as F-60.

External control input INPUT3 operation 70 62 Selectable as well as F-60.

External control output OUTPUT1 operation 70 70

00 : OFF, 01 : Stable, 02 : During tare weight cancellation, 03 : Gross display, 04 : Net display, 05 : Center ZERO, 06 : During HOLD, 07 : ERROR, 08 : Abnormal weight, 09 : Near Zero, 10 : OK (S0), 11 : FULL FLOW (S1), 12 : MEDIUM FLOW (S2), 13 : DRIBBLE FLOW (S3), 14 : OVER (S4), 15 : UNDER, 16 : FULL, 17 : RUN (during measurement)

External control output OUTPUT2 operation 70 71 Selectable as well as F-70.

External control output OUTPUT3 operation 70 72 Selectable as well as F-70.

External control output OUTPUT4 operation 70 73 Selectable as well as F-70.

External control output OUTPUT5 operation 70 74 Selectable as well as F-70.

External control output OUTPUT logic 70 83

00000 ~ 11111 (0 : Negative logic, 1 : Positive logic) 100 digit : OUTPUT1 operation 101 digit : OUTPUT2 operation 102 digit : OUTPUT3 operation 103 digit : OUTPUT4 operation 104 digit : OUTPUT5 operation

Occupied station of CC-Link interface 70 84 0 : Occupied 1 station, 1 : Occupied 2 stations,

2 : Occupied 4 stations

Station number of CC-Link interface 70 85 01 ~ 64 at F-84 = 0, 01 ~ 63 at F-84 = 1,

01 ~ 61 at F-84 = 2

Baud rate of CC-Link interface 70 86 0 : 156 kbps, 1 : 625 kbps, 2 : 2.5 Mbps, 3 : 5 Mbps, 4 : 10 Mbps

32 bit data expression method of CC-Link interface 70 87 0 : Standard binary expression,

Date of maintenance 70 90 Do not use.Maintenance number 70 91 Do not use.Liquid crystal backlight ON time 70 95 00 ~ 60 (Unit : minute)

• Please change [7*] in the above mentioned command part to [8*] at the time of writing.

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Command name Command Number Return command set value

Decimal point display position 71 01 0 : No decimal point, 1 : 1234.5, 2 : 123.45 3 : 12.345, 4 : 1.2345

A/D sampling rate 71 02 0 : 50 times/s, 1 : 100 times/s, 2 : 250 times/s 3 : 500 times/s

Overload display condition 71 030 : When exceeding | Weighing capacity + 9D | 1 : When exceeding ± 110 of weighing capacity 2 : When exceeding -20D ~ |Weighing capacity+9D |

Comparative operation display interlocked 71 04 0 : Invalid, 1 : Valid

Unit 71 05 0 : No unit, 1 : g, 2 : kg, 3 : t, 4 : lb, 5 : N, 6 : kN, 7 : Pa, 8 : kPa, 9 : MPa

ZERO set operation condition 71 10 0 : Operation in stable condition, 1 : Unconditionally operation

ZERO set effective range 71 11 00 ~ 30 (Unit : ± 1 % of weighing capacity)

Target of ZERO tracking 71 12 0 : Gross and Net value (against load display) 1 : Gross value (only in the display of gross weight)

ZERO tracking data width 71 13 000 ~ 999 (Unit : 0.1D)ZERO tracking time width 71 14 00 ~ 99 (Unit : 0.1 s)Power-on-ZERO operation 71 15 0 : Invalid, 1 : Valid

Operative condition of tare weight cancellation 71 16

0 : Operation during stable with 0 < Gross value <= Weighing capacity. 1 : Operation always with 0 < Gross value <= Weighing capacity. 2 : Operation during stable with Gross value <= | Weighing capacity | 3 : Operation always with Gross value <= | Weighing capacity |.

Change of data stored place 71 170 : Internal RAM, 1 : EEPROM 100 digit : ZERO set data 101 digit : Tare weight cancellation data

Detecting stability while setting 71 20 0 : Invalid, 1 : ValidSetting method of gravity acceleration compensation value 71 25 0 : Set the district number

1 : Set the numeric value of gravity accelerationDistrict number of using place 71 26 01 ~ 16 (Unit : District)

District number of calibration place 71 27 01 ~ 16 (Unit : District)

Gravity acceleration value of using place 71 28 9.000 ~ 9.999 (Unit : m/s2)

Gravity acceleration value of calibration place 71 29 9.000 ~ 9.999 (Unit : m/s2)

Calibration data (for reference) - Scale interval 71 90

0 : 1 scale interval, 1 : 2 scale interval, 2 : 5 scale interval, 3 : 10 scale interval, 4 : 20 scale interval, 5 : 50 scale interval,

Calibration data (for reference) - Weighing capacity 71 91 00000 ~ 99999

Calibration data (for reference) - Mass of weight 71 92 00000 ~ 99999

Calibration data (for reference) - ZERO mV/V value 71 93 - 3.1000 ~ 3.1000

Calibration data (for reference) - SPAN mV/V value 71 94 - 3.1000 ~ 3.1000

Stability detecting time width while calibration 71 97 00 ~ 99 (Unit : 0.1 s)

• Please change [7*] in above mentioned command part to [8*] at the time of writing.• The number of [90] ~ [94] is only reading because of the items relating to the

calibration.

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Command name Command Number Return command set valueMeasurement mode 72 01 0 : Simple comparative mode, 1 : 5-steps comparatorControl mode 72 02 0 : Batch mode, 1 : Discharge modeComparative signal operation 72 05 0 : Always, 1 : During stable

Comparative operation at NEAR ZERO 72 06

0 : Gross value, 1 : Net value, 2 : Comparison OFF, 3 : | Gross value |, 4 : | Net value |

Comparative operation at FULL 72 070 : Gross value, 1 : Net value, 2 : Comparison OFF, 3 : | Gross value |, 4 : | Net value |

⑫ Communication error processingCSD-892-73 replies the error command to the host side in occurrence of communication error or execution error.

2 4 6 8

@ 0 0 E R 0 1 Terminator

Error Command No. Contents Remarks

01 Non-executable condition errorWhen Calibration mode, C function mode, Check mode and Power-on-ZERO are non-executable condition.

02 Other errors by CSD-892-73 When the receiving command cannot be executed.

10 Parity error When parity cannot be detected.11 Fleming error When stop bit cannot be detected.

12 Over run error When the receiving command cannot be read in.

13 Data code and data lengthy error When neither the receiving data code nor data length is corresponding.

14 No pertinent command When the receiving command is not corresponding

20 ZERO calibration error When ZERO set value is less than -2.5 mV/V.21 ZERO calibration error When ZERO set value is more than 2.5 mV/V.

22 SPAN calibration error When SPAN set value and ZERO set value are less than 0.0 mV/V.

23 SPAN calibration error When SPAN set value is more than 3.1 mV/V

Set value

• Please change [7*] in the above mentioned command part to [8*] at the time of writing.

• The error command is not replied when the address and the completion code (Terminator) cannot be detected.

• Please consider dealing on the host side when the communication error command is replied from CSD-892-73.

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16-4. Data format for stream mode

① When the setting of function F-41 is set to [Load display], [Gross value] or [Net value]. (CSD-892-73 → Host)

2 4 6 8 10 12 14

@ 0 0 9 9 Terminator

2 4 6 8 10 12 14

@ 0 0 9 9 - 1 2 3 Terminator

2 4 6 8 10 12 14

@ 0 0 9 9 + 0 . 1 2 3 Terminator

2 4 6 8 10 12 14

@ 0 0 9 9 + O L Terminator

2 4 6 8 10 12 14

@ 0 0 9 9 - O L Terminator

Sign of load dataCommand No.Load data

• The sign of [-] for minus and [+] for plus is entered.• The load data performs zero suppress.•

• [OL] is put out to the load data section at the overload. [-OL] is put out to the load data section when Gross value is in the minus condition.

• The empty sections are all spaces.

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② When [Load display data with condition] is set by function F-41Return (CSD-892-73 → Host) * When setting numbers of digit for unit is 2 digit (F-49 = 0).

2 4 6 8 10 12 14 16 18

C1 C2 . C3 C4 . C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 Terminator

Header 1 Header 1 Sign Load data 8 digit UnitC1 C2 Contents C3 C4 Contents C5 Contents C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 ContentsO L Overload N T Net weight + Plus 1 2 3 g GramS T Stable G S Gross weight - Minus 0 . 1 2 3 k g Kilo gramU S Unstable O L t ton

l b Pound

N Newtonk N Kilo Newton

P Pascalk P Kilo PascalM P Mega Pascal

Return (CSD-892-73 → Host) * When setting numbers of digit for unit is 3 digit (F-49 = 1).

2 4 6 8 10 12 14 16 18

C1 C2 . C3 C4 . C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 Terminator

Header 1 Header 1 Sign Load data 8 digit UnitC1 C2 Contents C3 C4 Contents C5 Contents C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 ContentsO L Overload N T Net weight + Plus 1 2 3 g GramS T Stable G S Gross weight - Minus 0 . 1 2 3 k g Kilo gramU S Unstable O L t ton

l b PoundN Newton

k N Kilo NewtonP Pascal

k P a Kilo PascalM P a Mega Pascal

Header 2Header 1 Load data 8 digit UnitSign

Header 2Header 1 Load data 8 digit UnitSign

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③ Setting of Decimal point display position (4-6. Step 3)

④ Setting of Scale interval (4-6. Step 4)

① Change to Calibration mode by communication (4-6. Step 1)

② Setting of Unit (4-6. Step 2)

⑤ Setting of Measuring value (4-6. Step 5)

⑥ Setting of mass of weight (4-6. Step 6)

In the calibration by numeric input(Electrical calibration)

In the calibration by actual weight(Calibration by actual weight)

⑬ Calibration is finished (4-6. Step 9)

⑦ Confirmation of stable at ZERO (4-6. Step 7)

⑧ ZERO calibration by measuring value (4-6. Step 7)

⑩ Confirmation of stable of SPAN (4-6. Step 8)

⑪ SPAN calibration by weight.

⑨ ZERO calibration by numeric input (4-6. Step 7)

⑫ SPAN calibration by numeric input (4-6. step 8)

16-5. Data format of calibration by transmission

details]. Please refer [4-6. Calibration procedure details] for the details.

• While executing the calibration by transmission, (-RS-) is displyed.• Please refer [16-3. ⑫ Error processing for communication] for the details of error

command in calibration by communication].•

before the calibration without executing the registration.•

stable condition without fail.

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• The load data enters from the right.• The sign of [-] for minus and [+] for plus is entered.• The load data performs zero suppress.• Please do not put the decimal point to the set data in the calibration by

communication.• [OL] is put out to the load data section at the overload. [-OL] is put out to the load

data section when Gross value is in the minus condition.• The empty sections are all spaces.

① Change to communication calibration mode (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 1 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 1 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

When the calibration lock is effective.Return (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 0 2 Terminator

SpacesCommand No. Number

Command No. NumberSpaces

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② Setting of Unit (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 2 0 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 2 0 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

③ Setting of Decimal point position (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 2 1 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 2 1 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

Unit0 : None, 1 : g, 2 : kg, 3 : t, 4 : lb,

5 : N, 6 : kN, 7 : Pa, 8 : kPa, 9 : MPaCommand No. Number

Command No. NumberUnit

0 : None, 1 : g, 2 : kg, 3 : t, 4 : lb, 5 : N, 6 : kN, 7 : Pa, 8 : kPa, 9 : MPa

Decimal point display position0 : No decimal point, 1 : 0.0, 2 : 0.00,

3 : 0.000, 4 : 0.0000Command No. Number

Decimal point display position0 : No decimal point, 1 : 0.0, 2 : 0.00,

3 : 0.000, 4 : 0.0000Command No. Number

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④ Setting of scale interval (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 2 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 2 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

⑤ Setting of weighing capacity (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 3 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 3 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

Scale interval1 : 1, 2 : 2, 5 : 5, 10 : 10,

20 : 20, 50 : 50Command No. Number

Command No. NumberScale interval

1 : 1, 2 : 2, 5 : 5, 10 : 10, 20 : 20, 50 : 50

Command No. NumberSet value

Command No. NumberSet value

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⑥ Setting of mass of weight (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 4 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 4 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

⑦ → CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 6 Terminator

In stable conditionReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 6 1 Terminator

In unstable conditionReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 6 0 Terminator

Command No. Number

Command No. Number

Command No. Number

Command No. Number

Command No. NumberSet value

Set value

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⑧ ZERO calibration by measurement value (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 7 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 7 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 2 0 Terminator

2 4 6 8

@ 0 0 E R 2 1 Terminator

⑨ ZERO calibration by numeric input (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 8 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 8 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 2 0 Terminator

2 4 6 8

@ 0 0 E R 2 1 Terminator

Command No. Number

Command No. Number

Command No. NumberSign

Command No. NumberSign

Set value

Set value

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⑩ → CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 6 Terminator

In stable conditionReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 6 1 Terminator

In unstable conditionReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 6 0 Terminator

⑪ SPAN calibration by weight (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 1 0 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 1 0 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 2 2 Terminator

2 4 6 8

@ 0 0 E R 2 3 Terminator

Command No. Number

Command No. Number

Command No. Number

Command No. Number

Command No. Number

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⑫ SPAN calibration by numeric input (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 1 1 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 1 1 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 2 2 Terminator

2 4 6 8

@ 0 0 E R 2 3 Terminator

⑬ Finish the calibration (Host→ CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 9 9 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 9 9 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

Command No. NumberSign

Command No. Number

Command No. Number

Command No. NumberSign Set value

Set value

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⑭ → CSD-892-73)2 4 6 8 10 12 14 16

@ 0 0 9 0 0 0 Terminator

In normal operationReturn (CSD-892-73→ Host)

2 4 6 8 10 12 14 16

@ 0 0 9 0 0 0 Terminator

In abnormal operationReturn (CSD-892-73→ Host)

2 4 6 8

@ 0 0 E R 1 3 Terminator

Command No. Number

Command No. Number

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17. Trouble shootingwhile using CSD-892-73. Also, please contact with Minebea when there is no corresponding item, and when that abnormal operation is not improved even if the countermeasures are executed.

17-1. Basic chapterEvent Reference

Display is not light.Is the power supply voltage in a permissible variable range (DC20.4 V ~ DC27.6 V)? -

Is the power supply cable correctly connected? 2-4.

The load display doesn't indicate a normal value.

Is load cell cable correctly connected? 2-3.Is the calibration executed? When not executed, please proceed the calibration. 4.

Is the bridge voltage normal? Please measure the voltage between A-C after shortening between A-F and A-C in the condition of not connecting with a strain gage based transducer.

± 0.25 V)

-

Is the input from strain gage based transducer normal?

the monitoring mode13-6.

The display is not steady.

Is the condition of the weight on the measurement section steady? -

Is the bridge voltage normal? Please measure the voltage between A-C after shortening between A-F and A-C in the condition of not connecting with a strain gage based transducer.

± 0.25 V)

-

Is the input from strain gage based transducer steady?

the monitoring mode13-6.

8-1. 8-2. 8-3.

The display staggers temporarily.

Are you setting the function, etc., or executing the memory clear? Please do not operate them while measurement. -

The back light of liquid crystal disappears.

Is the power supply voltage in a permissible variable range (DC20.4 V ~ DC27.6 V)? -

Is not the ON time of back light for liquid crystal set? 8-10.The key operation is not accepted.

Is neither an individual key locking nor the batch key locking effectively set? 8-4.

The simple calibration function is not accepted. Is not the simple calibration lock set to turning on? 4-10-1.

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17-2. External control I/O chapterEvent Reference

A set item of simple calibration mode is not displayed.

Is not the measurement mode set to 5-steps comparator mode? 11-1.

A set item of 5-steps comparator mode is not displayed.

Is not the measurement mode set to simple calibration mode? 11-1.

The external control input doesn't operate.

Do you correctly connect the equipment? 2-5.Is the allocation of the external control output correctly set? 8-8-1.Is the signal of 50 ms or more input for the pulse input? -Is the signal input at the level input of 50 ms or more continuously? -

The external control output doesn't operate.

Do you correctly connect the equipment? 2-5.Is the allocation of the external control output correctly set? 8-8-2.Is the setting of measurement value / comparison value within the range of setting?

11-2-2. 11-3-2.

Are the voltage and the electric current for an open collector

Vce = DC35 V, Ic = DC50 mA max.2-5.

The logic of an external output is not suitable. You want to reverse the logic.

Please execute a logical change of the external output. 8-8-3.

17-3. CC-Link interface chapterEvent Reference

The communication is not normal.

Is the cable for CC-Link interface correctly connected? 2-6.Is the length of the cable for CC-Link interface within the regulation that CC-Link society provides? -

Is the terminating resistance correctly connected? 2-6.Are the number of occupied station, the station number, the baud rate and the method of 32 bit data representation correctly set?

14-3-1. ~ 14-3-4.

setting station number easily. interface to F/ENTER key by that operation setting. 8-7.

17-4. USB interface chapterEvent Reference

The communication is not normal.

Is the USB driver installed in the host side? Please install after downloading from our homepage. -

Is the port normally recognized on the host side? Please download [USB interface driver install manual] from 16

Is the length of USB cable within 5 m regulated? -

are the command mode and the stream mode correctly set? 16-2

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Bridge power supply DC5 V± 0.25 V within 60 mA, with sensing

Applicable transducer Up to 4 pieces of strain gage applied transducers (350 ohm) can beconnectable.

Input sensitivity 0.15 μ V/d or more (d= minimum scale) * 0.2 μ V/d (In case of applying CE conformity standard.)

Input range -3.1 mV/V to 3.1 mV/VZERO adjustable range ± 2.5 mV/VNon-linearlty 0.01%F.S.

Temp. ZERO ± 0.2 μ V/℃

(In the calibration by the input sensitivity of 0.15 μ V/d or more.)

Sensitivity ± 0.001 5 %F.S./℃ (In the calibration by the input sensitivity of 0.15 μ V/d or more.)

Input noise ± 0.2 μ

Approx. 4 Hz (Changeable to 2Hz, 6Hz, 8Hz or 10Hz)A/D sampling 500 times/s (Changeable to 250 times/s, 100 times/s or 50 times/s.)A/D internal resolution 24 bits

Load

dis

play

Display range -99 999 ~ 99 999Display increment 1 (Changeable to 2, 5, 10, 20 or 50)Display unit FSTN liquid crystal (With umber color LED back light.)Over display [-OL] display at minus over, [OL] display at plus overAD value over display [-OVF] display at minus over, [OVF] display at plus over

Condition display ZERO, SPAN, mV/V, STABLE, TARE, GROSS, NET, CZ, LOCK, HOLD, ERROR

Display rate 2 times/sJudgement display OUT1, 2, 3, 4, 5Decimal point display Changeable to No display, 101, 102 ,103 or 104.Unit display Changeable to No display, g, kg, t, N, kN, lb, Pa, kPa or MPa.

18-3. Interface

External control input

3 functions in the following can be arbitrarily selected. OFF, SERO set, ZERO clear, Tare weight cancellation, Tare weight cancellation clear, Hold, Net/Gross value * Above are pulse input, and effective only once at the pulse width of 50 ms or more. Hold, NET value display (With ON, a NET weight is displayed when the Gross weight is shown.) * Above are level input, and effective during the input of short for 50 ms or more.

External control output

5 functions in the following can be arbitrarily selected.OFF, RUN, Stable, During canceling the Tare weight, Display of gross value, Display of net value, Center zero, During the hold, Error,

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CC-Link interface

Version of CC-Link : Ver.1.10Occupied stations Nos. : Selectable from 1, 2 or 4 stations.Communication method : Poling methodSynchronous method : Bit synchronous methodBaud rate : Selectable from 156 kbps, 625 kbps, 2.5 Mbps, 5 Mbps or 10 Mbps.Transmission route : RS-485 busTransmission format : HDLC conformingRemote station : 01 to 64 when one station is occupied.01 to 63 when two stations are occupied.01 to 61 when four stations are occupied.Connectable units : 64 units at maximum with occupied one station.32 units at maximum with occupied two stations.16 units at maximum with occupied four stations.Connectable cable : Shielded twist pair special cable for [CC-Link]Termination : Attached with 110 ohm resistance externally.Status LED : Display the communication status by four (4) LEDs of [RUN], [ERR], [SD] and [RD].

USB interface Conforms to USB2.0 (Can also use with the standard of USB1.1) Connector : mini USB B type (female)

Operating temp./humidity range

Temperaure -10 ℃ ~ 50 ℃Humidity 85 %RH or less (Non-condensing.)

Stored temperature range -20 ℃ ~ 60 ℃

Power supplyVoltage DC24 V (Permissible variable range DC20.4 V ~ DC27.6

V)Consumption Approx. 2.4W (at DC24 V)

Outline dimensions 72 mm(W) x 96 mm(H) x 67.4 mm(D)Weight Approx.260 g

Span adjustment 10 000 display at the input of 0.5 mV/VMinimum scale interval 1

18-6. AccessoriesStart guide Each 1 sheet written in Japanese and EnglishShort bar, between A-F and C-G 2 piecesConnector for CC-Link interface 1 piece

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ER-0

ZERO set error. becomes blinking display when you execute ZERO set with not enforceable condition. By pushing F/ENTER key, [ER-0] continues the blinking display. By pushing F/ENTER key, the error condition is released and returns to the condition before the error is displayed.

ER-1This displays with blinking for about 2 seconds when you select the setteing of C function, function and S function by the number that doesn't exist. Meanwhile,

lignts on. (However, the setting of C function is excluded.

ER-2

This displays with blinking for about 2 seconds when you set the calibration by [Weighing capacity (DISP) < Mass of weight (LOAD)], and when the compensation value is the value of weighing capacity or more, or ZERO or less in adjusting it for digital linearization.

ER-3 A/D conversion error. Please inform Minebea.

ER-7

Tare weight cancellation error. becomes blinking display when you execute tare weight cancellation with not enforceable condition. By pushing [F/ENTER] key, [ER-7] continues the blinking display. By pushing F/ENTER key, the error condition is released and returns to the condition before the error is displayed.

ER-8This displays with blinking for about 2 seconds when you set the value outside the setting range for C function, function and S function. Meanwhile, lights on.

ER-E EEPROM writing error. Please inform Minebea.

ER-R EEPROM reading error. Please inform Minebea.

TE-LThis displays with blinking for about 2 seconds when the load cell I/O value in calibration becomes - 2.5 mV/V or less that falls below the ZERO adjustment range at minus side.

TE-HThis displays with blinking for about 2 seconds when the load cell I/O value in calibration becomes 2.5 mV/V or more that exceeds over the range of ZERO adjustment range at plus side.

SP-L This displays with blinking for about 2 seconds when the load cell I/O value is less than 0 mV/V that doesn't reach to SPAN adjustment range.

SP-H

This displays with blinking for about w seconds when the load cell I/O value is more than 3.1 mV/V that exceeds over SPAN adjustment range.In the simple calibration, this display keeps blinking the error even if the condition returns to the measurement mode, and the measurement is not executed. It released after calibrating again by the right range.

LN-LThis displays with blinking for about 2 seconds when the load value is lower than ZERO and does not satisfy the condition of LNR-1 < LNR2 < LNR3 in registering the load value compensation by digital linearization.

LN-HThis displays with blinking for about 2 seconds when the load value is higher than the weighing capacity in registering the load value compensation by digital linearization.

-

(When C function CF-15 [Power on ZERO operation is valid.) This displays when the power supply is turned on in the condition that the load cell output exceeds over ± 10 % of the weighing capacity. By pushing [FUNC.] key in the display of [ ], the display becomes the load display compulsorily.

19. Error display

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OLThis lights on with when the load display exceeds over [(+ Weighing capacity) + 9D] or [+110 % of the weighing value]. (By the setting of C function CF-03.)

- OLThis lights on with when the load display exceeds over [(- Weighing capacity) - 9D] or [-110 % of the weighing value]. (By the setting of C function CF-03.)

OVF Plus over of A/D conversion input. This lights on with .

- OVF Minus over of A/D conversion input. This lights on with .

All light on -

(When C function CF-15 [Power on ZERO operation is valid.) All the segments light on when the stability is not detected at turning on the power. By pushing [FUNC.] key in the condition of all lighting on, the display becomes the load display compulsorily.

HOLD This lights on when the power turns on in the condition of HOLD signal ON.By releasing from the HOLD signal, the display becomes the load display.

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20-1. WarrantyThe instrument is covered by a warranty for a period of one year from the date of delivery.

for repairs and/or after service is required during the period of warranty.

20-2. RepairBefore asking repairs, please check once again that the connection, setting and adjustment

Especially, please check whether the connections of strain gage applied transducers are disconnected or cut off. As a result of checking, still there may have some defects in the instrument, please contact

20-3. Life time of using partsThere is a lifetime in parts used with this instrument. The standard lifetime is as follows though it changes according to the use and the environmental condition, etc.

Name of parts Applications Standard lifetime

Back light of LED Display Approx. 50 000 hours (Environmental temperature : 50℃ )

EEPROM Record of set data Approx. 1 000 000 times for writing in EEPROM

Electrolytic capacitor for elimination from input noise of power supply

Approx. 10 years (Environmental temperature : 20℃ )

DC-DC converter Power supply Approx. 5 years

20. Warranty

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The display pattern in the liquid crystal of CSD-892-73 is as shown in the table below.

0 D Q

1 E R

2 F S

3 G T

4 H U

5 I V

6 J W

7 K X

8 L Y

9 M Z

A N ?

B O !

C P -

21. Pattern of display character

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144

22. Index【+ / -】

+EXC / -EXC .............................. 2-3+SEN / -SEN .............................. 2-3+SIG / -SIG ................................ 2-3

【0 ~ 9】4-wires/6-wires type connection cable ......................... 2-35-steps comparator mode ........... 3-2, 8-8-2, 10-1, 11,

11-1, 11-3, 17-2

【A】A/D conversion error ................... 16-3, 19A/D internal resolution ................ 18-1 A/D sampling rate ....................... 3-1, 5-2, 6-2, 6-4, 16-3,

18-1, 19Abnormal weight ......................... 7-2, 8-8-2, 14-5-2, 16-3,

18-3Address map ............................... 14-5

................................. 7-2, 8-2, 16-3, 18-1

【B】 B-304B ....................................... 2-3Batch mode ................................. 9-2, 10-1, 10-2, 11, 11-2,

11-2-3, 16-3Baud rate..................................... 7-2, 14-3, 14-3-3, 16-1,

16-2, 16-2-3, 16-3, 17-3, 18-3

Bridge power supply.................... 17-1, 18-1

【C】C function clear ........................... 3-1, 5-2, 6-16C function mode .......................... 3, 5, 6CAB-502 ..................................... 2-3Calibration data ........................... 3-1, 4

............... 14-3-14, 16-5Calibration mode ......................... 3-1, 3-2, 4, 13-6,

14-6-1, 16-3, 16-5Calibration only for ZERO ........... 4-4, 4-9Calibraton by actual weight ......... 4-2, 4-3, 4-6, 16-5CAL-S/▲ key, CAL-Z/ key ...... 1-1, 8-4CC-Link interface ........................ 2-6, 14, 17-3

32bit data indication method 7-2, 14-3-4, 16-3Baud rate ............................. 14-3-3Calibration ........................... 14-6Connector ............................ 1-2, 2-6, 18-6Highest bit sign .................... 7-2, 14-3-4, 16-3Occupied station number .... 7-2, 14-3, 14-4, 16-3, 17-3, 18-3

...................... 14-3, 18-3Standard binary indication ... 7-2, 14-3-4, 16-3

14-3-2, 16-3, 17-3CE standard ................................ For safe operation-5,

2-4, 2-5, 2-6, 16-1, 18-1Center ZERO .............................. 7-2, 8-8-2, 16-3, 18-3Change of data stored place ....... 3-1, 5-2, 6-10, 12-3, 16-3Change of gross/net .................... 1-1, 7-2, 8-7, 8-8-1,

14-5-1, 16-3, 18-3Change to calibration mode by transmission

16-5

Check mode ................................ 3-1, 3-2, 13, 16-3COM.1, COM.2 ........................... 2-5, 13-4, 13-5Command list .............................. 14-5, 16-3Command mode.......................... 7-2, 16-2, 16-2-1, 16-3Communication method .............. 14-3, 18-3COMP. setting mode ................... 1-1, 3-1, 7-2, 8-7,

11-2-1, 11-3-1, 16-3Comparator hysteresis ................ 7-2, 11-3-5

Hysteresis operating condition 7-2, 16-3Hysteresis width .................. 7-2, 16-3Compensation of gravity acceleration value 3-1, 4-5, 5-2, 6-12,16-3

Condition display section ............ 1-1, 6-9, 13-4, 13-5, 18-2

Conduit piping and wiring ............ For safe operation-5, 2-2

Control mode............................... 3-1, 9-2, 10-2, 16-3 CPU normal operation................. 14-5-2, 15-5CZ ............................................... 1-1

【D】DA/DB/DG .................................. 2-6Data bit length ............................. 7-2, 16-1, 16-2-3, 16-3

.................................. 6-7-3, 7-2-2, 8-1, 8-3, 16-3, 18-1

Digital linearization ...................... 4-5, 4-8, 5-2, 12-2, 19Digital linearization clear ............. 3-1, 4-8-1, 5-2, 6-15DIN rail, DIN standard ................. 2-1Discharge mode .......................... 9-2, 10-1, 10-2, 11, 11-2,

11-2-4, 16-3Display of net value ..................... 6-9, 7-2, 8-8-1, 8-8-2,

14-5-1, 14-5-2, 16-3, 18-3

Display position of decimal point 3-1, 4-1, 4-2, 4-6, 4-10-2, 5-2, 6-1, 14-5-2, 14-6-3, 16-2-5, 16-3, 16-5, 18-2

Display synchronization of comparing operation 3-1, 5-2, 6-4, 16-3

Display times ............................... 18-2Display transition diagram ........... 3-1, 3-2District number ............................ 5-2, 6-12-1, 6-12-2,

6-12-3 ................................. 7-2, 8-8-2, 11-2-2,

11-2-3, 11-2-4, 14-5-2, 16-3, 18-3

Driver software ............................ 1-1, 16-1, 17-4 D-type single ground ................... 2-4

【E】EEPROM..................................... 5-2, 6-10, 12, 14-5-1,

16-3, 19, 20-3Electric calibration ....................... 4-2, 4-3, 4-6, 16-5EN61325-1 : 2006 ....................... For safe operation-5End of calibration ........................ 4-2, 4-6, 14-6-13, 16-5ERROR ....................................... 1-1, 18-2, 19Error display ................................ 1-1, 3-1, 4-6, 4-9,

4-10-3, 6-8, 16-3, 19

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8-6, 8-8-1, 13-1, 13-4, 16-3, 17-2, 18-3

8-8-2, 9, 13-5, 11, 13-1, 16-3, 17-2, 18-3

7-2, 8-8-3EzCTS mode (EzCTS_USB1)..... 1-1, 3-1, 3-2, 13-2

【E】F.G.(FG) ...................................... 2-4, 2-6F/ENTER key (Operation) ........... 1-1, 7-2, 8-4, 8-7, 16-3Final / Preliminary 1/2 ................. 11-2-2, 11-2-3, 11-2-4,

12-2, 14-5-1, 16-3Fine adjustment of ZERO/SPAN . 4-7Free fall ....................................... 11-2-2, 11-2-3, 11-2-4,

12-2, 14-5-1,16-3Front panel .................................. 1-1, 1-2, 8-4FULL ........................................... 7-2, 8-8-2, 11-2, 11-2-2,

11-2-3, 11-3-2, 12-2, 14-5-1, 14-5-2, 16-3, 18-3

FULL comparative operation ....... 3-1, 9-2, 10-5, 11-2-2, 11-2-3, 11-3-2

....................................... 7-2, 8-8-2, 11-2-2, 11-2-3, 11-2-4

FUNC. key ................................... 1-1, 8-4Function clear.............................. 3-1, 7-2, 8-11Function mode ............................ 3, 7, 8

【G】Gross........................................... 1-1, 18-2Gross display .............................. 6-9, 6-9-1, 7-2, 8-8-1,

8-8-2, 14-5-2,16-3, 18-3

【H】HOLD .......................................... 1-1, 3-1, 7-2, 8-6, 8-7,

8-8-1, 8-8-2, 14-5-2, 16-3, 18-2, 18-3, 19

HOLD Target ............................... 7-2, 8-6-1

【I】IN1 ~ 5 (INPUT) .......................... 2-5, 13-4Input noise................................... 18-1Input range .................................. 18-1Input sensitivity............................ 18-1Internal RAM ............................... 5-2, 6-10, 12, 16-3

【J】Judgement display ...................... 18-2Junction box for extension .......... 2-3

【K】Key lock....................................... 1-1, 3-1, 7-2, 8-4, 8-8,

16-3, 17-1

【L】Level input ................................... 2-5, 8-8-1, 17-2, 18-3Load cell parallel connection ....... 2-3, 18-1Load display section.................... 1-1, 18-2LOCK .......................................... 1-1, 18-2Lower terminal block ................... For safe operation-5,

1-2, 2-5, 13-4, 13-5, 11

【M】Maintenance date / number ........ 7-2, 8-9Mass of weight ............................ 4, 5-2, 14-6-6, 16-5Measurement mode .................... 3-1, 6-11, 8-8, 9, 9-2,

10-1, 11, 16-3, 17-2mini USB connector B-type ......... 1-1, 13-2, 18-3 Monitor mode .............................. 13-6, 17-1mV/V ........................................... 1-1, 18-2

【N】Near ZERO ................................. 7-2, 8-8-2, 11-2-2,

11-2-3, 11-3-2, 12-2, 14-5-1, 14-5-2, 16-3, 18-3

Near ZERO Comparative operation 3-1, 9-2, 10-4, 11-2-2, 11-2-3, 11-3-2

NET ............................................. 1-1, 18-2Net value ..................................... 7-2, 8-8-2, 11-2-3, 11-2-4

14-5-2, 16-3, 18-3Non-linearity ................................ 18-1

【O】ON time of liquid crystal backlight 7-2, 8-10, 16-3, 17-1Open collector ............................. 2-5, 13-5, 17-2Operation mode .......................... 14-5-1, 14-5-2, 16-2,

16-2-1, 16-3Operation of comparative signal . 3-1, 9-1, 9-2, 10-3, 16-3OUT1~ 5 (OUTPUT) ................ 2-5, 13-5, 18-2Outline dimension ....................... For safe operation-2,

18-4OVER .......................................... 7-2, 8-8-2, 11-2-2,

11-2-3, 11-2-4, 12-2, 14-5-1, 14-5-2, 16-3, 18-3

Overload (Display) ...................... 1-1, 3-1, 5-2, 6-3, 16-3 16-4, 16-5, 17-1, 18-2, 19

【P】Parity (Bit) ................................... 7-2, 16-1, 16-2-3, 16-3PLC (Memory) ............................. 2-6, 11, 11-2, 14-4, 16-2Power consumption..................... 18-4Power on ZERO .......................... 3-1, 5-2, 6-8, 16-3, 19Power supply +/- and input +/- for load cell 2-3Pressure sensor .......................... 2-3Pulse input .................................. 2-5, 8-8-1, 17-2, 18-3

【R】RD ............................................... 1-1, 18-3Remote I/O .................................. 14-2, 14-5-2

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Remote station ............................ 14-3, 18-3ROM version .............................. 3-1, 13-1, 13-3, 16-3RUN ............................................ 1-1, 18-3Running average processing ...... 8-1

【S】S functin clear ............................. 3-1, 9-2, 10-6S function mode .......................... 3, 9, 10SB-310 ........................................ 2-3SB-320 ........................................ 2-3Scale interval............................... 1-1, 4-2, 4-6, 4-8,

4-10-2, 5-2, 14-6-4, 16-3, 16-5, 18-1, 18-5

SD ............................................... 1-1, 18-3Selection of calibration method ... 4-2, 4-3, 4-6Sensing (Input +/-) ...................... 2-3, 18-1SHIELD, SLD terminal ................ 2-3, 2-6Short bar ..................................... 2-3, 18-6Simple calibration ........................ 1-1, 4-4, 4-10, 17-1Simple calibration Lock ............... 1-1, 4-10-1, 17-1Simple comparison batch mode .. 11-2, 11-2-3Simple comparison discharge mode 11-2, 11-2-4Simple comparison mode............ 3-1, 9-2, 10-1, 11, 11-1,

11-2, 11-2-1, 11-2-2, 16-3

Solderless terminal...................... 2-2SPAN ........................................... 1-1, 18-2SPAN calibration by numeric input 4-2, 4-3, 4-6, 14-6-12,

16-5SPAN calibration by weight ......... 4-2, 4-3, 14-6-11, 16-5SPAN mode ................................. 1-1, 4-10-1, 4-10-4

............. 7-2, 16-1, 16-2-3, 16-3Stability........................................ 1-1

.... 14-6-10, 16-5 .... 14-6-7, 16-5

Stability detection ........................ 3-1, 5-2, 6-11, 6-14, 7-2, 8-5, 16-3, 19

Stability detection time in calibration 3-1, 5-2, 6-14, 16-3 ............................. 7-2, 8-3, 16-3, 18-1

STABLE ....................................... 1-1, 18-2

Status LED .................................. 1-1, 18-3Stop bit ........................................ 7-2, 16-1, 16-2-3, 16-3Strain gage based transducer ..... 1-2, 4-1, 13-6, 17-1,

18-1, 20-2Stream mode (Output target) ...... 7-2, 16-2, 16-3, 16-4Summing type junction box ......... 2-3Synchronized method ................. 14-3, 16-1, 18-3

【T】TARE ........................................... 1-1, 3-2, 18-2Tare weight cancellation .............. 1-1, 3-1, 5-2, 6-6, 6-8-1,

6-9, 6-10, 7-2, 8-7, 8-8-1, 8-8-2, 12-1, 12-3, 14-5-1, 14-5-2, 16-3, 18-3Error .................................... 8-8-1, 19Operating condition ............. 6-9-1

Tare weight cancellation clear ..... 1-1, 6-9, 7-2, 8-7, 8-8-1, 14-5-2, 16-3, 18-3

Terminal cover 1 and 2 ................ 1-2Terminating resistance ................ 2-6, 14-3, 17-3, 18-3Terminator ................................... 7-2, 16-1, 16-2-3, 16-3,

16-4Transmission data with decimal point 7-2, 16-2-4, 16-3Transmission format .................... 14-3, 18-3Transmission path form ............... 14-3, 18-3

【U】Under .......................................... 7-2, 8-8-2Unit .............................................. 3-1, 4-1, 4-2, 4-6, 5-2, .................................................... 6-5, 14-6-2, 16-3, 16-5Unit display section ..................... 1-1, 4-6Upper terminal block ................... For safe operation-5,

1-2, 2-3, 17-1, 13-6USB (RS-232C) interface ............ For safe operation-5,

1-1, 13-2, 16, 17-4, 18-3Digit for unit ......................... 7-2, 16-2-5 16-3Operation mode .................. 7-2, 16-2-1 16-3Output target ....................... 7-2, 16-2-2, 16-3

transmission data with decimal point 7-2, 16-2-4 16-3

【W】Weighing capacity ....................... 3-1, 4, 5-2, 6-3, 6-6-2,

6-8, 6-9, 13-6, 14-6-5, 16-3, 16-5, 19

【Z】Zener barrier ............................... 2-3ZERO .......................................... 1-1, 18-2ZERO adjustment range ............. 18-1ZERO calibration by numeric input 4-2, 4-3, 4-6,14-6-9,

16-5ZERO calibration by measuring value 4-2, 4-3, 4-6,

14-6-8, 16-5ZERO clear ................................. 7-2, 8-7, 8-8-1, 14-5-1,

14-5-2, 16-3, 18-3ZERO mode ................................ 1-1, 4-10-1, 4-10-3ZERO set .................................... 1-1, 3-1, 5-2, 6-6, 6-7-3,

6-9-1, 6-10, 7-2, 8-7, 12-1, 12-3, 14-5-2, 16-3, 18-3Effective range .................... 7-2, 6-6-2, 16-3Error .................................... 8-8-1, 14-5-2, 16-4, 19Operating condition ............. 7-2, 6-6-1, 16-3

ZERO tracking............................. 3-1, 5-2, 6-6-1, 6-7, 8-7, 8-8-1, 12-1Data width ........................... 5-2, 6-7-2, 16-3Target .................................. 5-2, 6-7-1, 16-3Time width ........................... 5-2, 6-7-3, 16-3

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23. Function setting tablePlease use this table when the customer executes the setting change of the function.

C function setting tableFunction No. Initial data Setting value Function No. Initial data Setting value

CF-01 0 CF-25 0CF-02 3 CF-26 10CF-03 1 CF-27 10CF-04 0 CF-28 9.797CF-05 2 CF-29 9.797CF-10 1 CF-90 1CF-11 02 CF-91 10000CF-12 1 CF-92 10000CF-13 000 CF-93 0.0000CF-14 00 CF-94 0.5000CF-15 0 CF-97 05CF-16 0 CF-98 ---CF-17 100 CF-99 ---CF-18 0

Function setting tableFunction No. Initial data Setting value Function No. Initial data Setting value

F-01 016 F-55 8F-02 1 F-60 00F-05 092 F-61 00F-06 0020 F-62 00F-07 05 F-70 00F-08 0000 F-71 00F-10 020 F-72 00F-11 10 F-73 00F-18 111 F-74 00F-21 0000 F-83 00000F-22 00000 F-84 2F-24 0 F-85 01F-25 00 F-86 0F-26 00 F-87 0F-40 0 F-90 ---F-41 0 F-91 ---F-42 13020 F-95 00F-46 0 F-99 ---F-49 0

S function setting tableFunction No. Initial data Setting value Function No. Initial data Setting value

SF-01 1 SF-06 0SF-02 0 SF-07 0SF-05 1 SF-99 ---

Memo

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The contents of this manual may subject to change without notice.

Head Quater : MINEBEA CO., LTD.Measuring Component Product Sales Management :

Measuring Components Business UnitFujisawa Plant :

Karuizawa Plant :

Homepage http://www.minebea mcd.com

4106 73 Miyota, Miyota machi, Kitasakugun, Nagano ken 389 0293, JapanTEL : +81 267 32 2200 FAX : +81 267 31 1350

1 1 1, Katase, Fujisawa shi Kanagawa ken, 251 8531 JapanTEL : +81 466 22 7152 FAX : +81 466 22 1701

4106 73 Miyota, Miyota machi, Kitasakugun, Nagano ken 389 0293, JapanTEL : +81 267 31 1309 FAX : +81 267 31 1350

1 1 1, Katase, Fujisawa shi Kanagawa ken, 251 8531 JapanTEL : +81 466 23 2681 FAX : +81 466 22 7191