Minebea CSD-892B-73 Instruction Manual
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Minebea CSD-892B-73 Instruction Manual

Weight conversion module
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WEIGHT CONVERSION MODULE
CSD-892B-73
Instruction Manual
General
Installation & Wiring
Change of mode
Calibration
Setting of Function
Setting of Comparator
Check Mode
CC-Link interface
USB (RS-232C)
interface
Trouble Shooting
Specifications & Others
EN294-1961A

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Summary of Contents for Minebea CSD-892B-73

  • Page 1 General Installation & Wiring WEIGHT CONVERSION MODULE Change of mode CSD-892B-73 Calibration Instruction Manual Setting of Function Setting of Comparator Check Mode CC-Link interface USB (RS-232C) interface Trouble Shooting Specifications & Others EN294-1961A...
  • Page 3 FOREWORD Thank you very much for your purchasing the Weight conversion module, model CSD- 892B-73. This instruction manual describes how to operate the devices as well as noteworthy points. Note that handling or operating the device incorrectly may result in malfunctions. Read this manual thoroughly before use for safety and optimal results.
  • Page 4 For safe operation Be sure to read this manual before attempting to use the equipment. Ⅰ. Location of installation Caution • Install in a location where temperature and humidity conditions are within the ranges described below. Environmental temperature:-10 ℃ ~ 50 ℃(Preservation:-20 ℃ ~ 60 ℃) ●...
  • Page 5 Ⅱ. Installing the instrument When you set up two or more devices, you can install on the same panel with no clearance in between. Caution • Please secure and set up the space between this instrument and the device ■ Outline dimensions Front Side 67.4...
  • Page 6 Ⅲ. Power supply 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. • Before supplying power, check the indication of power voltage/specifications to be identical with supplied power.
  • Page 7 Ⅴ. Conformity standard This instrument has suited the following standard. EN61326-1:2013 "Electrical equipment for measurement, control, and laboratory use - EMC requirements" "Immunity test requirements for equipment intended for use in industrial locations" JIS B 7611-2:2015 "Non-automatic weighing instruments - Metrological and technical requirements and test - Part2: Measuring instruments used in transaction or certification."...
  • Page 8 [Net weight offset function] hall be applied the value of 00000. Ⅵ . Function set when this is used in the tank weighing system • When using CSD-892B-73 as a tank weighing system, the setting of the function shall be changed to as below.
  • Page 9 Revision history Date Instruction No. Reason of revised (Contents) 2022/04 DRW. NO. EN294-1961 First version ROM Ver.3.000 ECN No.FN22-0210 -Correction- V.Conformity standard <Before the change> RoHS directive <After the change> RoHS compliant 2-4.Connecting of power supply and ground [Point!] 2022/05 DRW. NO. EN294-1961A 2-5.Connection with external control I/O 2-6.Connection of CC-Link interface [Point!] <Before the change>...
  • Page 10 CONTENTS FOREWORD …………………………………………………………… I For safe operation …………………………………………………… II Location of installation ……………………………………………………………… II Ⅰ. Installing the instrument …………………………………………………………… III Ⅱ. Power supply ………………………………………………………………………… IV Ⅲ. Instruction for usage ………………………………………………………………… IV Ⅳ. Conformity standard ………………………………………………………………… V Ⅴ. Function set when this is used in the tank weighing system …………………………………………… VI Ⅵ.
  • Page 11 5. C function mode …………………………………………………… 36 5-1. Setting method of C function mode ……………………………………………… 36 5-2. Details of C function data …………………………………………………………… 37 6. Various operations by C function data ………………………… 39 6-1. Decimal point display position ……………………………………………………… 39 6-2. A/D sampling …………………………………………………………………………...
  • Page 12 10. Various operations by S function data …………………………… 62 10-1. Measurement mode ………………………………………………………………… 62 10-2. Control mode ………………………………………………………………………… 62 10-3. Operation of comparative signal …………………………………………………… 62 10-4. Comparative operation at NEAR ZERO (ZERO BAND) ………………………… 62 10-5. Comparative operation of FULL …………………………………………………… 62 10-6.
  • Page 13 14-6. Calibration by CC-Link interface …………………………………………………… 125 14-7. Calibration for only zero point by CC-Link interface …………………………… 133 15. Operation method ………………………………………………… 136 15-1. Writing set value …………………………………………………………………… 136 15-2. Writing/Reading by general command …………………………………………… 136 15-3. Shift to condition that can be communicated …………………………………… 137 15-4.
  • Page 15 ② Load display section Display the Gross/Net, Overload or Error. In the various setting mode, display the condition and the setting value. ③ Condition display section Display the condition of CSD-892B-73. ZERO Light on when the zero calibration is processed. SPAN Light on when the span calibration is processed.
  • Page 16 ④ Status LED The sending / receiving status is monitored with two LED. Name of LED Turn on Turn off Blinking ・ Normal ・During reset ・No communication ・Transmitting ・Receiving ERROR ・Abnormal setting ・When the set is ・Normal ・CRC error occurs changed.
  • Page 17 1-2. Upper and lower part of front panel ④ CC-Link interface connector ③ Terminals for load cell ② Terminals for power supply and (Upper part terminals) external control I/O (Lower part terminals) ① Cover-1 and -2 of terminal block ① Cover-1 and -2 of terminal block This is the protection cover of upper / lower terminal blocks.
  • Page 18 2. Installation and Wiring 2-1. Attaching to and Removing from a DIN rail This instrument adopts the rail mounting type with 35 mm width of DIN standard. The procedures of attaching and removing are as follows: Attaching method to a DIN rail ①...
  • Page 19 2-3. Connection with strain gage based transducer This 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.
  • Page 20 Short-bar attached. • When you use the 4-wires cable, shorten the load cell terminals A - F with the attached short-bar. CSD-892B-73 does not work in normal operation when the terminal F and G is in the open status. • When the length of CAB-502 (our standard cable) is more than 30 m totally, there...
  • Page 21 Load cell input - (Blue) +EXC Shield (Yellow) +SIG -SIG No.2 -EXC +EXC +SIG -SIG No.3 -EXC +EXC +SIG -SIG No.4 -EXC • CSD-892B-73 can make up to 4 parallel connections when the load cell is 350 Ω type. Point!
  • Page 22 ④ Connecting the load cell and junction box B-304B for extension with CSD-892B-73 (1) When you use CAB-501 (6-cores cable) Junction box Load cell B-304B Load cell power supply + (Red) Sensing input + (Orange) Sensing input - (Black) CAB-501...
  • Page 23 C-G of the load cell terminal board. When terminal F and terminal G are used with opening status, CSD-892B-73 cannot make normal operation. • When the length of CAB-502 (our standard cable) is more than 30 m totally, the...
  • Page 24 2-4. Connecting of power supply and ground Please connect the power supply and ground to the lower terminal block as shown in the following figure. ❶ F.G. Frame ground ❷ + 24 V Power supply DC24V ❸ 0 V Power supply DC 0V D-class with single earth DC24V...
  • Page 25 2-5. Connection with external control I/O You 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 V = DC35 V, I = DC50 mA MAX)...
  • Page 26 2-6. Connection of CC-Link interface The cable only for CC-Link is wired to the attached connector for CC-Link, and connected as shown in the figure below. For connection of CC-Link cable, use a twisted pair cable line with shield (Cable only for ●...
  • Page 27 2-7. Connection of surge absober If this instrument is compliant with the conforming JIS standard or EMC directive, connect the surge absorber as shown in the figure below. ❶ F.G. Frame ground ❷ + 24 V Power supply DC24V 1 2 3 ❸...
  • Page 28 3. Operation 3-1. Changeover of mode CSD-892B-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.
  • Page 29 ① Function mode   The setting concerning the following functions and (FUNC) effective/invalid are changed. • Various filter • Key lock • Detection of stability • Net amount offset function • Hold • Set of action for five steps comparator •...
  • Page 30 3-2. Display transition diagram Measurement mode movement by pushing key. ▶ ENTER ENTER ▶ CAL-Z CAL-Z movement by pushing key. FUNC. FUNC. movement by pushing key. ▶ * * ▶ Function mode (F -**) (FUNC) * * ▶ C-function mode (CF-**)...
  • Page 31 4. Calibration mode 4-1. 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 processed, a correct display and an output cannot be taken. The example when the load cell is used is shown as follows.

  • Page 32: Table Of Contents

    4-2. Procedure of calibration Please refer to [4-6. Details of calibration procedure] for the actual steps. After turning on DC24V, CSD-892B-73 is Advance preparation energized for about 10 minutes to stabilize Turn on power supply CSD-892B-73 and weighing section (load cell).

  • Page 33: Step

    Continue from former page. Step Step (Actual weight calibration) (Electric calibration) ZERO calibration by the measurement value ZERO calibration by numeric input (Z MV) (ZERO) Execute ZERO calibration by the numeric input. ZERO is registered by reading the load Please adopt only under the specific condition cell output value in the condition that for this calibration method.
  • Page 34 892B-73 under using is replaced with another CSD-892B-73, and moreover, only when the following requirement is applied. ・When ZERO calibration data (mV/V value) of CSD-892B-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).

  • Page 35: Switch To The Calibration Mode

    4-6. Details of calibration procedure We 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. Step Switch to the calibration mode Measurement mode 1...

  • Page 36: Step

    Step Set of decimal point display position 1 When key is pushed at ENTER is displayed. * The position of decimal point memorized now is displayed. The position memorized Select the position of decimal point. CAL-Z CAL-Z CAL-S CAL-S Select the position by key.

  • Page 37: Step

    Step Set the weighing capacity When key is pushed at display, ENTER is displayed. * The weighing capacity memorized now is displayed. The weighing capacity memorized now. Set the weighing capacity. CAL-Z CAL-Z Select the changed digit. Set-up weighing capacity CAL-S CAL-S Increment the value of selected digit.
  • Page 38 ZERO is registered by reading the load cell output value in the Step (Actual weight calibration) condition that nothing is put on the measuring part (Initial condi- ZERO Calibration by measurement value tion including tare). Please select the method of ZERO calibration referring to [4-3. Selection of Calibration Method] 1...
  • Page 39 Step (Actual weight calibration) SPAN is registered by reading the output value in the condition to SPAN calibration by the weight put the weight set according to step 6. Please select the method of SPAN calibration referring to [4-3. Selection of Calibration Method] 1...
  • Page 40 Step End of calibration 1 displays after the span calibration is finished. Push key to complete the calibration mode. ENTER The display becomes , and the set data is memorized internally. FUNC. FUNC. Measurement mode By pushing key twice, return to the measurement mode. •...
  • Page 41 4-7. Fine adjustment of ZERO and SPAN This function fine-adjusts ZERO and SPAN when there is any difference margin in an actual weighing capacity and the mass of weight. You can register only of either the ZERO or SPAN. We explain the procedures for fine adjustment of SPAN after the fine adjustment of ZERO as follows.
  • Page 42 Step to fine adjustment of SPAN 1 By pushing key from ENTER ENTER blinks. * The present measurement value is displayed. 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.
  • Page 43 4-8. Digital linearization After the calibration, the measurement error of some scale interval levels might be caused between ZERO and SPAN (maximum capacity) by the influence of the measuring section etc. The digital linearization function executes the compensation of three points or less except ZERO and SPAN, and to reduce the measurement error.
  • Page 44 Step Setting of digital linearization 1 By pushing key twice from display, ENTER ENTER → Display changes in order of → As the display becomes by pushing → CAL-S CAL-S key from display, please select the numbers of points which wants to compensate linearization, and push key.
  • Page 45 4-9. Calibration only of ZERO This 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. Step Change to calibration mode only for ZERO Measurement mode 1...
  • Page 46 4-10. Simple calibration Each item can be immediately shifted to a set screen and the calibration screen by pushing CAL-S CAL-S CAL-S FUNC. FUNC. FUNC. CAL-Z CAL-Z CAL-Z key for about 2 second or more. • Please use the simple calibration function after releasing the lock referring to [4-10-1. Simple calibration lock] because that function is locked at the shipment from factory.
  • Page 47 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 is fixed with the [F/ENTER] key, the display becomes a lighting display.
  • Page 48 4-10-3. ZERO mode ZERO calibration is executed by reading the load cell output value at ZERO by pushing CAL-Z CAL-Z CAL-Z key for 2 seconds or more. Measurement mode CAL-Z CAL-Z CAL-Z CAL-Z Push for 2 By pushing key for 2 seconds or more from the normal seconds or more measurement mode, blinks.
  • Page 49 4-10-4. SPAN mode The setting of weighing capacity and mass of weight, and span calibration by reading the CAL-Z CAL-Z CAL-Z load cell output value is executed by pushing key for 2 seconds or more. Measurement mode CAL-S CAL-S CAL-S CAL-S Push for 2 By pushing...
  • Page 50 5. C function mode By 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 mode Measurement mode 1 FUNC. FUNC. By pushing key from the normal measurement mode, displays.
  • Page 51 5-2. Details of C function data Reference No. Item Function No. Set value Contents ● 0 No decimal point 1234.5 Display position of CF-01 123.45 decimal point 12.345 1.2345 50 times/s 100 times/s A/D sampling rate CF-02 250 times/s ● 3 500 times/s At exceeding | Weighing capacity + 9D | Condition of overload...
  • Page 52 Reference No. Item Function No. Set value Contents ● 0 Invalid Stability detection in the 6-12 CF-20 setting. Valid ● 0 Set the district number Method of setting 6-13-1 gravity acceleration CF-25 Set the numerical value of gravity acceleration compensation CF-26 01~16 Unit : District...
  • Page 53 6. Various operations by C function data 6-1. 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 sampling The A/D sampling rate is selected by C function CF-02 Setting range:0 ~...
  • Page 54 6-6. Function to reverse the sign of net amount For instance, the net amount display and net amount data output outside in the simple comparative discharge mode display the negative value. The function to reverse the sign of net amount changes the net amount display and the net amount data output outside to a positive value by reversing the polarity of the net amount by C function CF-08.
  • Page 55 6-8-2. Data width of ZERO tracking The data width of ZERO tracking is set by C function CF-13. Setting range : 000 ~ 999 :000  Unit : 0.1 DOFF:000 6-8-3. Time width of ZERO tracking The time width of ZERO tracking is set by C function CF-14. Setting range : 00 ~...
  • Page 56 6-9. Power on ZERO The power on ZERO function makes the display to a zero if the change 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.
  • Page 57 6-11. Change of data stored place The 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.
  • Page 58 6-13-2. 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 6-13-3. Setting of district number of calibration place (CF-25:0) The district number of calibration place is set by C function CF-27.
  • Page 59 6-14. 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. 6-15. Stability detection time width in calibration Stability detection time width in calibration is set by C-function CF-97 Setting range : 00 ~...
  • Page 60 7. Function mode Various functions become effective by setting the function data. 7-1. Setting method of function mode Measurement mode 1 FUNC. FUNC. By pushing key from normal measurement mode, the display becomes and you can enter into the function mode. By pushing key, displays.
  • Page 61 7-2. Details of function data Reference No. Item Function No. Set value Contents 001 ~ 512 Digital filter F-01 Unit : Moving average time 1 time ● 016 020~100 Analog filter F-02 Unit : 0.1 Hz ● 040 001~512 8-3-1 Stabilization filter F-05 Unit : Moving average time 1 time...
  • Page 62 Reference No. Item Function No. Set value Contents ● 0 Command mode Operation mode of USB 16-2-1 F-40 (RS-232C) Stream mode Synchronizing with display ● 0 (HOLD at HOLD signal ON) F-41 Output target in stream 16-2-2 (effective at Gross value mode of USB (RS-232C) F-40=1) Net value...
  • Page 63 Reference No. Item Function No. Set value Contents Generic input 3 Batch start Discharge start Operation of INPUT1 of 8-8-1 F-60 Emergency stop external control input Manual free fall compensation Forced batch finish Forced discharge finish Operation of INUPT2 of 8-8-1 F-61 Selectable as well as F-60...
  • Page 64 Reference No. Item Function No. Set value Contents 00000 ~ 11111(0:INVALID、1:VALID) digit: Operation of OUTPUT1 00000 digit: Operation of OUTPUT2 Output logic of external 8-9-3 F-83 ~11111 control output digit: Operation of OUTPUT3 ● 00000 digit: Operation of OUTPUT4 digit: Operation of OUTPUT5 1 station occupied.
  • Page 65 8. Various operations by function data 8-1. Digital filter The function of digital filter is a steady of A/D converted data by the running average processing. The running average frequency is selected by the setting of function F-01. Setting range:001 ~ 512 :016 Unit:1 times The tendency to the characteristic by running average is shown in the table below.
  • Page 66 Ex. The data width to which the stabilization filter is executed is selected by function F-06. The data width of stabilization filter for set value [n] is obtained in the display conversion by the following formula. [Data width of stabilization filter]=[Set value(n) of F-06]x[Scale interval] When the setting of function F-06 is [0010] (1D) and the scale interval is [D=05], this will be as follows: [Data width of stabilization filter] = 1 x 5 = 5D...
  • Page 67 8-4. Key lock function This 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.
  • Page 68 8-6. Net amount offset function When the tare amount is notified, the net amount offset function sets and offsets it beforehand. The value in which the value corresponding to the setting input digitally by function F-15 is subtracted from gross weight is displayed as a net value. The status LED lights when the net amount offset function becomes effective.
  • Page 69 8-8. Operation of F/ENTER The operation of [F/ENTER] key during measurement is allocated by function F-55. Setting range:00 ~ 11 :08 00:Nothing 01:HOLD Input the hold signal. 02:ZERO set Execute the operation of ZERO set. 03:ZERO clear When ZERO set or ZERO tracking is executed, the display is returned to the state before that.
  • Page 70 50 ms or more is input. 07:HOLD (Level) Turn ON condition of HOLD during input, when the signal of 50 ms 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.
  • Page 71 condition is satisfied. 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 of S1 output condition is satisfied. 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 of S2 output condition is satisfied.
  • Page 72 8-10. Maintenance date, Maintenance number Please do not use because F-90 and F-91 are functions for our maintenance. 8-11. Lighting time of liquid crystal back light Lighting 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.
  • Page 73 9. S function mode The 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.
  • Page 74 9-2. Details of S function data Reference No. Item Function No. Setting value Contents Simple comparison mode 10-1 Weighing mode SF-01 ● 1 5 steps comparator mode Sequential mode ● 0 Batch mode 10-2 Control mode SF-02 Discharge mode Anytime ●...
  • Page 75 Reference No. Item Function No. Setting value Contents ● 0 Timer is up 10-12 Judgement condition SF-30 Stable and timer is up Stable or timer is up 0000 ~ 9999 Unit: 0.01 s Waiting time for 10-13 SF-31 judgement ● 0000 0000:Waiting time for judge OFF 000to255 Unit: 1 time...
  • Page 76 10. Various operations by S function data 10-1. Measurement mode The measuring mode is selected by the setting of S function SF-01. Setting range:0,1,2 0:Simple comparison mode (Batch/Discharge mode)   1:5 steps comparator mode    2:Sequential mode 10-2. Control mode The Control mode (Batch/Discharge mode) is selected by the setting of S function SF-02.
  • Page 77 10-7. Set for operation at the time of batch start 10-7-1. Start above near zero at the time of batch start Set the operation when the setting is not ZERO BAND at the input of batch start signal by the setting of S function SF-15. When [Invalid] is selected, the error is output and the batch does not start upon the input of batch start signal in the condition that the setting is not ZERO BAND.

  • Page 78: Judgement Condition

    10-11. Automatic free fall compensation This is the function to set the free fall value automatically by expecting the next free fall value from the actual free fall value in the continuous measuring operation. The set value of the next Free Fall uses the moving averaged value calculated from 4 times of actual former Free Fall values.

  • Page 79: Compensation Flow Time

    10-14-2. Judge condition after compensation flow Set the Judge condition after compensation flow by S function SF-36. Judge condition after compensation flow can be selected from [Timer is up], [Stable and timer is up] or [Stable or timer is up]. Default is set to [Timer is up].

  • Page 80: Discharge Monitor Timer

    10-16. Set for discharging operation after measuring finish Set for discharge operation after measuring finish. 10-16-1. Discharge start at the time of measuring finish Set the operation of discharge start at the time of measuring finish by S function SF-45. Default is set to [Invalid].
  • Page 81 Furthermore, there are two control modes about [Simple comparrison mode], [Sequential mode], and they divide to [Batch mode], and [Discharge mode]. Batching mode 1) Simple comparison mode Discharge mode Batching mode CSD-892B-73 2) Sequence mode Discharge mode 3) 5 steps comoarator mode Raw material Raw material Programmable Logic Controller Full ・...
  • Page 82 (3) Sequential mode The comparison of the measured value without connecting PLC, etc., outside, and the control that sets up the order of the gate control etc., can be worked. As a result, system construction that omits PLC becomes possible. In this mode, each output is turned ON, according to the value of each brand set with the on edge (OFF →...
  • Page 83 11-1. Selection method of Measurement mode Either the simple comparison mode or the 5-steps comparator mode is selected. Measurement mode 1 FUNC. FUNC. By pushing key from the normal measurement mode, displays. CAL-Z CAL-Z Push key twice. The display changes in order of       → →      ...
  • Page 84 11-2. Simple comparison mode The 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. Measurement mode] for the selection of [Batch mode] and [Discharge mode].
  • Page 85 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. Point! Measurement mode 1...

  • Page 86: Free Fall Set2

    11-2-2. Set items of single comparison mode Item Set data number Setting value Contents 00000 ~ 99999 FINAL SET1 Unit : 1D ● 00000 00000 ~ 99999 FREE FALL SET2 Unit : 1D ● 00000 00000 ~ 99999 PRELIMINARY 1 SET3 Unit : 1D ●...

  • Page 87: Under Set6

    UNDER The 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.
  • Page 88 11-2-3. Simple comparison batching mode The 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 condition Condition display Judgement condition...
  • Page 89 Measurement Final Final-Free Fall Final-Preliminary1 Final-Preliminary2 Zero band Time Start Full flow Medium flow Dribble flow F-flow comp. stop timer Operate when the start signal is input. M-flow comp. stop timer D-flow comp. judge stop timer Waiting time for judge Stable Batch finish output on Finish...
  • Page 90 11-2-4. Simple comparison discharge mode Simple 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 execute the setting is satisfied. The set value : [1] (Discharge mode) is selected by the setting of S function SF-02. Judgement condition Condition display Judgement condition...
  • Page 91 Measurement Final-Preliminary2 Final-Preliminary1 Final-Free Fall Final Time Tare Start Full flow Medium flow Dribble flow F-flow comp. stop timer Operate when the start signal is input. M-flow comp. stop timer D-flow comp. judge stop timer Waiting time for judge Stable Batch finish output on Finish Can be changed to...
  • Page 92 11-3. 5 steps comparator mode The 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. •...

  • Page 93: Near Zero Set7

    11-3-2. Setting items of 5-steps comparator mode Items Set data number Set value Contents -99999 ~ 99999 Unit : 1D ● 00000 -99999 ~ 99999 Unit : 1D ● 00000 -99999 ~ 99999 Unit : 1D ● 00000 -99999 ~ 99999 Unit : 1D ●...
  • Page 94 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.
  • Page 95 11-3-4. Operating target of comparator S0, S1, S2, S3 and S4 The 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.
  • Page 96 11-3-5. Hysteresis of comparator Hysteresis 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.
  • Page 97 (3) When the operation of [Less than set value] with S0 is selected, and an effective direction of hysteresis is set to [ON delay]. Hysteresis time width ↑ S0 set value Hysteresis data width Time → S0 output ON S0 output OFF (4) When the operation of [Less than set value] with S0 is selected, and an effective direction of hysteresis is set to [OFF delay].
  • Page 98 11-4. Sequential mode The sequential mode includes the sequential batching mode and the sequential discharge mode. Moreover, Supplementary batching, Initial batching, Nuzzle batching and automatic free flow compensation can be set if necessity requires. 11-4-1. Sequential batching mode The sequential batching mode is a mode to control the measurement sequence depending to the increased value of measuring value when the raw material is batching in.
  • Page 99 Measurement Gross Final Final-Free Fall Final-Preliminary1 Final-Preliminary2 Zero band Time Can be tare at the same time depends on setting. Batch start Batch start delay timer Batch start delay Full flow Medium flow Dribble flow F-flow comp. stop timer M-flow comp. stop timer judge D-flow comp.
  • Page 100 11-4-2. Sequential batching mode The sequential batching mode is a mode to control the measurement sequence by the decrease value of measured value when the measuring object is batching out. Judgment condition Status display Judgment condition Z-BAND |Gross weight or (Net weight) | ≦ ZERO BAND (SET7). F.
  • Page 101 Measurement Final Gross Zero band Final-Preliminary2 Final-Preliminary1 Time Final-Free Fall Can be tare at the same time depends on setting. Tare Batch start Batch start delay timer Batch monitoring timer Full flow Medium flow Dribble flow F-flow comp. stop timer M-flow comp.
  • Page 102 11-4-3. Supplementary Batch (discharge) mode Supplementary batch (discharge) is a function to turn on the Dribble batch automatically in fixed time when the batch (discharge) weight is short in the Sequential batch (discharge) mode. In order to apply supplementary batch (discharge), set the items of [Maximum times of supplementary flow], [Time of supplementary batch] and [Waiting time after supplementary batch] in [9-9.
  • Page 103 Measurement Final Final-Under Final-Free Fall Final-Preliminary1 Final-Preliminary2 Time Batch start Batch start delay Batch monitoring timer Full flow Medium flow Dribble flow Waiting time for Enforce within the MAXTIME judge OF COMPENSATION Supplementary flow time Judge after judge S-flow wait Stable Finish Over...
  • Page 104 11-4-4. Automatic Free Fall compensation This is the function to set the free fall value automatically by expecting the next free hall value from the actual free fall value in the continuous measuring operation. The set value of the next Free Fall uses the moving averaged value calculated from 4 times of actual former Free Fall values.
  • Page 105 12. Stored data of setting data In CSD-892B-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.) •...
  • Page 106 13. Check mode The followings are confirmed in check mode. Shift to EzCTS mode ● Confirmation of ROM version ● Confirmation of external control input operation ● Confirmation of external control output operation ● Confirmation of load cell output voltage ●...
  • Page 107 13-2. EzCTS mode EzCTS is an application for the personal computer (EzCTS_USB1 as an option), and reading out and reading in the CSD-892B-73 function data can be facilitated. This software is useful for maintenance and data back-up. 1 By pushing...
  • Page 108 13-4. Confirmation of external control input 1 By pushing key from the display of ENTER ENTER the display of becomes blinking. Confirmed by At this time, ON/OFF condition of external control input ON/OFF of can be confirmed in the condition display section. external output When each input terminal of external control input (at lower terminal block) is ON, each condition display [1 ~ 3] lights on.
  • Page 109 → Yes… The influence from the noise source such as inverters is thought. Please contact Minebea when the condition doesn't change even if you reconfirm the wiring. → No… Please inform the details to us or our sales agents.
  • Page 110 14. CC-Link interface 14-1. 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. Features Main 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.
  • Page 111 14-3-2. Station number The 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.
  • Page 112 14-4. PLC memory explanation A 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. Occupied station number Type Remarks...
  • Page 113 14-5. Address map 14-5-1. Data detail 1) Batch/Discharge mode Remote register 4 stations occupied (Master → CSD-892B-73) Station Remote register Contents Remarks RWwn ① Final (32 bit) RWwn+1 RWwn+2 ① Preliminary 2 (32 bit) RWwn+3 RWwn+4 ① Preliminary 1 (16 bit) RWwn+5 ①...
  • Page 114 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 range Final...
  • Page 115 2) Remote register of 5 steps comparator mode 4 stations occupied (Master → CSD-892B-73) Station Remote register Contents Remarks RWwn ① S1 (32 bit) RWwn+1 RWwn+2 ① S2 (32 bit) RWwn+3 RWwn+4 ① S3 (32 bit) RWwn+5 Special data area RWwn+6 ①...
  • Page 116 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 range 32 bit binary with sign...
  • Page 117 3) Command list The 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]) Command No.
  • Page 118 Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) 0000 ~ 1111 (0: Invalid, 1: Valid) digit: F/ENTER key Individual key lock digit: CAL-S ▲ key 7008 digit: CAL-Z ▲ key digit: FUNC. Key Data width of stability detection 000 ~ 999 (Unit: 0.1D) 7010 Time width of stability detection...
  • Page 119 Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) 00: OFF, 01: ZERO set, 02: ZERO clear, 03: Tare weight cancellation, 04: Tare weight cancellation clear, 05: Change of net amount and gross amount, 06: HOLD (Pulse), 07: HOLD (Level), 08: Display of net amount (Display of net amount at ON when the level displays gross amount.),...
  • Page 120 Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) 0: No unit, 1: g, 2: kg, 3: t, 4: lb, 5: N, 6:kN, Unit 7105 7: Pa, 8: kPa, 9: MPa Reverse function of net amount sign 0: Invalid, 1: Valid 7108 0: Operation during stable,...
  • Page 121 Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) Width for the automatic free fall 00000 ~ 99999: Unit: 1D 7226 compensation 00000: Automatic free fall compensation OFF Save of automatic free fall value 7227 0: Invalid, 1: Effective 0: Timer is up, 1: Stable and timer is up Judge condition...
  • Page 122 Reading set value (Writing/reading selection = Reading [ON]) Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) Undefined Undefined Undefined Undefined Undefined Final / S1 Free fall / S4 Preliminary 1 / S3 Preliminary 2 / S2 Over / S0 Under Near zero...
  • Page 123 Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) 00000 ~ 22222(0:OFF、1:OVER、 2:UNDER) digit: Operating target of S0 Operating condition of 5-steps 7022 digit: Operating target of S1 comparator digit: Operating target of S2 digit: Operating target of S3 digit: Operating target of S4 Operating condition of comparator 0: On-delay, 1: Off-delay...
  • Page 124 Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) 00000 ~ 11111(0:INVALID、1:VALID) digit: Operation of OUTPUT1 digit: Operation of OUTPUT2 Output logic of external control output 7083 digit: Operation of OUTPUT3 digit: Operation of OUTPUT4 digit: Operation of OUTPUT5 Occupied station number of CC-Link 0: 1 station occupied., 1: 2 stations occupied,...
  • Page 125 Command No. General data area Setting value or command order (RWwnE) (RWwnC ~ RWwnD) 0: Simple comparison mode, 1: 5-steps comparator mode Weighing mode 7201 2: Sequential mode Control mode 7202 0: Batch mode, 1: Discharge mode, 2: External input changeover 0: Anytime, 1: In stable condition, Comparison signal operation 7205...
  • Page 126 4) Remote register 4 stations occupied (CSD-892B-73 → Master) Station Remote register Contents Remarks RWwn ① Net value RWwn+1 RWwn+2 ② Gross value RWwn+3 RWwn+4 Undefined RWwn+5 RWwn+6 ③ Error code RWwn+7 ④ Error assistance code RWwn+8 RWwn+9 Undefined RWwn+A...
  • Page 127 ③ Error code (4 stations, 2 stations, 1 station) Area for displaying the error generating in the main body of CSD-892B-73. Refer to [ ④ Error assistance code] for the contents of error code. Data type : 16 bit binary...
  • Page 128 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 number.
  • Page 129 14-5-2. Relay zone 1) Remote output 4 stations occupied (Master → CSD-892B-73) Device No. Contents Classification RYn0 ① Setting value writing request (Request 1) RYn1 RYn2 ② General command request (Request 2) RYn3 ③ Selection of writing/Reading out. (R/W) Communication RYn4 ④...
  • Page 130 2 stations occupied (Master → CSD-892B-73) Device No. Contents Classification RYn0 ① Setting value writing request (Request 1) RYn1 RYn2 ② General command request (Request 2) RYn3 ③ Selection of writing/Reading out. (R/W) Communication RYn4 ④ Operation mode changeover request (Request 3)
  • Page 131 1 stations occupied (Master → CSD-892B-73) Device No. Contents Classification RYn0 ⑤ ZERO RYn1 ⑥ ZERO Clear RYn2 ⑦ Tare weight cancellation RYn3 ⑧ Tare weight cancellation clear Control signal RYn4 ⑨ Hold RYn5 RYn6 RYn7 ⑮ Indicate value changeover flag (Net value/Gross value)
  • Page 132 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-892B-73 is not equipped with. :In the request of changeover. OFF :After confirming [Operation mode changeover response (Response 3) ⑤...
  • Page 133 :In requesting the release (Operated once by OFF → ON). OFF :Normal ⑬ Initial data setting request flag CSD-892B-73 does not provide, and the initialization is not executed. :In requesting the initialization. OFF :Normal ⑭ Error reset request flag The release of error is requested when the occurrence of error is informed by error condition flag RX(n+7)A.
  • Page 134 2) Remote input 4 stations occupied (CSD-892B-73 → Master) Device No. Contents Classification RXn0 ① Setting value writing request (Request 1) RXn1 RXn2 ② General command request (Request 2) RXn3 ③ Selection of writing/Reading out. (R/W) Communication RXn4 ④ Operation mode changeover request (Request 3)
  • Page 135 2 stations occupied (CSD-892B-73 → Master) Device No. Contents Classification RXn0 ① Setting value writing request (Request 1) RXn1 RXn2 ② General command request (Request 2) RXn3 ③ Selection of writing/Reading out. (R/W) Communication RXn4 ④ Operation mode changeover request (Request 3)
  • Page 136 1 stations occupied (CSD-892B-73 → Master) Device No. Contents Classification RXn0 ⑦ Near Zero RXn1 ⑦ Full flow/S1 RXn2 ⑦ Medium flow/S2 RXn3 ⑦ Dribble flow/S3 RXn4 ⑦ Over/S4 RXn5 ⑦ OK/S0 RXn6 ⑦ Under RXn7 ⑦ Stable Control signal RXn8 ⑦...
  • Page 137 ④ Operation mode changeover request (Request 3) The finish of changing operation mode by Operation mode changeover request (Request 3) is notified. This function is a extension facility, and CSD-892B-73 cannot used this function. :In the completion of the changeover OFF :After confirming OFF of the Operation mode changeover (Request 3).
  • Page 138 :In the occurrence of abnormal error OFF :Normal ⑪ Initial data setting completion flag CSD-892B-73 is not available. Even if the flag is turned on, data is not initialized. :In the completion of setting OFF :Normal ⑫ Error condition flag The occurrence of the error in CSD-892B-73 is notified.
  • Page 139 ⑪ SPAN calibration by weight. (4-6. Step 8) ⑬ Calibration is finished (4-6. Step 9) • CSD-892B-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.
  • Page 140 ① Change of calibration mode Shift to the calibration mode after writing the data showing below. Command No. General data area (RWwnE) : 4 stations are occupied. (RWwnC~RWwnD) : 4 stations are occupied. (RWwn6) : 2 stations are occupied. (RWwn4~RWwn5) : 2 stations are occupied. 9001 Error that cannot be executed The following code is set when executing by other than the measurement mode.
  • Page 141 ③ Setting of decimal point display position The decimal point display position is set by writing the data in the table below. Command No. General data area (RWwnE) : 4 stations are occupied. (RWwnC~RWwnD) : 4 stations are occupied. (RWwn6) : 2 stations are occupied. (RWwn4~RWwn5) : 2 stations are occupied.
  • Page 142 ⑤ Setting of weighing capacity The maximum display value is set by writing the data in the table below. Command No. General data area (RWwnE) : 4 stations are occupied. (RWwnC~RWwnD) : 4 stations are occupied. (RWwn6) : 2 stations are occupied. (RWwn4~RWwn5) : 2 stations are occupied.
  • Page 143 ⑦ Confirmation of ZERO stability (Actual weight) The condition of STABLE/UNSTABLE is reading out after setting the data in the table below. Command No. General data area (RWwnE) : 4 stations are occupied. (RWwnC~RWwnD) : 4 stations are occupied. (RWwn6) : 2 stations are occupied. (RWwn4~RWwn5) : 2 stations are occupied.
  • Page 144 ⑨ ZERO calibration by numeric input The load cell output value is registered as ZERO after writing the data in the table below. Command No. General data area (RWwnE) : 4 stations are occupied. (RWwnC~RWwnD) : 4 stations are occupied. (RWwn6) : 2 stations are occupied.
  • Page 145 ⑪ SPAN calibration by weight The load cell output 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.
  • Page 146 SP-H error When the read load cell output value is more than 3.1 mV/V and exceeds over SPAN adjustment range at plus side, the following code is set. Condition Error code Error assistance code SP-H error Error that cannot be executed The following code is set when executing by other than the calibration mode, or not setting it according to the flow chart in [14-6.].
  • Page 147 14-7. Calibration for only zero point by CC-Link interface This function calibrate the zero point only. The calibration for two or four stations can be executed by using the Generic command request (request 2). The procedure of the calibration is processed according to the following steps. The display shows during the calibration ①...
  • Page 148 ③ Zero point registration (Actual load) 1) Write Set the code described in the below table. Command No. General data area ((RWwnE): 4 stations are occupied. (RWwnC ~ RWwnD) : 4 stations are occupied. ((RWwn6): 2 stations are occupied. (RWwn4 ~ RWwn5) : 2 stations are occupied. 9007 2) TE-L error Following code is set when the error is occurred.
  • Page 149 ⑤ Forced calibration finish 1) Write Write data described in the below table. Command No. General data area ((RWwnE): 4 stations are occupied. (RWwnC ~ RWwnD) : 4 stations are occupied. ((RWwn6): 2 stations are occupied. (RWwn4 ~ RWwn5) : 2 stations are occupied. 9000 2) Error outside the setting range Following code is set when the error is occurred.
  • Page 150 Setting value is written by [Set value writing request] from the master station. CSD-892B-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.
  • Page 151 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-892B-73 responds to the master station by turning on [Initialization setting completion (RX(n+7)9].
  • Page 152 15-4. Error condition / Reset requesting flag The condition sequence and the reset sequence when CSD-892B-73 detects the error are displayed. When an error is detected, [Error condition flag (RX(n+7)A] is turned on after [Remote READY (RX(n+7)B)] is turned off.
  • Page 153 Each mode is explained as follows. (1) Command mode Data is sent back from CSD-892B-73 to the host side by sending Command/data provided by the Host (Personal computer) to CSD-892B-73 according to Command / Data. Please execute the communication according to the following procedure.
  • Page 154 16-2-1. Operation mode Operation 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 mode The 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.
  • Page 155 • [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 Reading out the load data (Host → CSD-892B-73) When command No.20 ~ 23 Command No.
  • Page 156 When command number is 26. Terminator @ Address Command No. 00 ~ 31 Return (CSD-892B-73 → Host) * When setting numbers of digit for unit is 2 digit (F-49 = 0). Terminator C9 C10 C11 C12 C13 C14 C15 @ Address 00 ~...
  • Page 157 Return (Host → CSD-892B-73) Terminator @ Address Set value 00 ~ 31 Sign Command No. ③ Reading out comparative set data for measurement (Host→CSD-892B-73)   Command No. Operation Reading out S1 set value Terminator @ Reading out S4 set value...
  • Page 158 ④ Reading out the condition 1 (Host → CSD-892B-73)      Command No. Operation Reading out the condition 1 Terminator @ Address Command No. 00 ~ 31 Return (CSD-892B-73 → Host) Terminator @ Address Space 00 ~ 31 Condition Command No.
  • Page 159 ⑥ Reading out condition 3 (Host → CSD-892B-73)      Command No. Operation Reading out condition 3 Terminator @ Address Command No. 00 ~ 31 Return (CSD-892B-73 → host) Terminator @ Address 00 ~ 31 Condition Command No. a : N.C.
  • Page 160 ⑧ Reading out the condition 2 (Host → CSD-892B-73)      Command No. Operation Display Gross value Terminator @ Display Net value ZERO Address Command No. 00 ~ 31 ZERO clear Tare weight cancellation Tare weight cancellation clear In normal operation Error cancellation Return (CSD-892B-73 →...
  • Page 161 ⑨ Writing the measurement set data (Host → CSD-892B-73) Terminator @ Address Set value 00 ~ 31 Sign Command No. Operation Command No. Writing FINAL (SET1) Writing FREE FALL (SET2) Writing PRELIMINARY1 (SET3) Writing PRELIMINARY2 (SET4) Writing OVER (SET5) Writing UNDER (SET6)
  • Page 162 ⑩ Writing the comparison set data (Host → CSD-892B-73) Terminator @ Address Set value 00 ~ 31 Sign Command No. Command No. Operation Writing S1 setting value Writing S4 setting value Writing S5 setting value Writing S2 setting value Writing S0 setting value...
  • Page 163 ⑪ Reading out the set value (Host → CSD-892B-73) Terminator @ Address Space 00 ~ 31 Number Command No. In normal operation Return (CSD-892B-73 → Host) Terminator @ Address Set value 00 ~ 31 Sign Number Command No. ⑫ Reading out the set value (Host → CSD-892B-73) Terminator @...
  • Page 164 Table of reading out command Command name Command Number Return command set value Digital filter 001 ~ 512 (Unit : Moving average time 1 time) Analog filter 020 ~ 100 (Unit : 0.1 Hz) Stabilization filter 001 ~ 512 (Unit : moving average time 1 time) Stabilization filter data width 0000 ~ 9999 (Unit : 0.1D) Stabilization filter time width...
  • Page 165 Command name Command Number Return command set value 0 : 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, Operation of F/ENTER key 7 : Shift to comparator setting mode 9: Batch start...
  • Page 166 Command name Command Number Return command set value Occupied station of CC-Link 0 : Occupied 1 station, 1 : Occupied 2 stations, interface 2 : Occupied 4 stations Station number of CC-Link 01 ~ 64 at F-84 = 0, 01 ~ 63 at F-84 = 1, interface 01 ~ 61 at F-84 = 2 0 : 156 kbps, 1 : 625 kbps, 2 : 2.5 Mbps, 3 : 5 Mbps,...
  • Page 167 Command name Command Number Return command set value 0 : No decimal point, 1 : 1234.5, 2 : 123.45 Decimal point display position 3 : 12.345, 4 : 1.2345 0 : 50 times/s, 1 : 100 times/s, 2 : 250 times/s A/D sampling rate 3 : 500 times/s 0 : When exceeding | Weighing capacity + 9D |...
  • Page 168 Command name Command Number Return command set value 0: Simple comparison mode, 1: Sequential mode Weighing mode 2: 4 steps comparator mode 1 3: 4 steps comparator mode 2 0: Batch mode, 1: Discharge mode Control mode 2: External input changeover 0: Anytime, 1: In stable condition Comparison signal operation 2: Synchronizing with batch finish...
  • Page 169 ⑬ Communication error processing CSD-892B-73 replies the error command to the host side in occurrence of communication error or execution error. Terminator @ Address Set value 00 ~ 31 Error Contents Remarks Command No. When Calibration mode, C function mode, Check...
  • Page 170 Gross value is in the minus condition. • The empty sections are all spaces. ① When the setting of function F-41 is set to [Load display], [Gross value] or [Net value]. (CSD-892B-73 → Host) Terminator @ Address Load data 00 ~...
  • Page 171 ② When [Load display data with condition] is set by function F-41 Return (CSD-892B-73 → Host) * When setting numbers of digit for unit is 2 digit (F-49 = 0). Terminator C9 C10 C11 C12 C13 C14 C15 Header 1...
  • Page 172 16-5. Data format of calibration by transmission 16-5-1. Calibration Procedures The procedure of the calibration by communication is as shown in the following flow chart. Each item of the flow chart corresponds to each procedure of [4-6. Calibration procedure details]. Please refer [4-6. Calibration procedure details] for the details. ①...
  • Page 173 • [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-892B-73) Terminator @...
  • Page 174 5 : N, 6 : kN, 7 : Pa, 8 : kPa, 9 : MPa In abnormal operation Return (CSD-892B-73 → Host) Terminator @ Address 00 ~ 31 ③ Setting of Decimal point position (Host → CSD-892B-73) Terminator @ Address Decimal point display position 00 ~ 31 Number 0 : No decimal point, 1 : 0.0, 2 : 0.00,...
  • Page 175 ④ Setting of scale interval (Host → CSD-892B-73) Terminator @ Address Scale interval 00 ~ 31 Number 1 : 1, 2 : 2, 5 : 5, 10 : 10, Command No. 20 : 20, 50 : 50 In normal operation Return (CSD-892B-73 →...
  • Page 176 ⑥ Setting of mass of weight (Host → CSD-892B-73) Terminator @ Address Set value 00 ~ 31 Number Command No. In normal operation Return (CSD-892B-73 → Host) Terminator @ Address Set value 00 ~ 31 Number Command No. In abnormal operation Return (CSD-892B-73 →...
  • Page 177 ⑧ ZERO calibration by measurement value (Host → CSD-892B-73) Terminator @ Address 00 ~ 31 Number Command No. In normal operation Return (CSD-892B-73 → Host) Terminator @ Address 00 ~ 31 Number Command No. In abnormal operation Return (CSD-892B-73 → Host) Terminator @...
  • Page 178 ⑨ ZERO calibration by numeric input (Host → CSD-892B-73) Terminator @ Address Set value 00 ~ 31 Sign Number Command No. In normal operation Return (CSD-892B-73 → Host) Terminator @ Address Set value 00 ~ 31 Sign Number Command No.
  • Page 179 In unstable condition Return (CSD-892B-73 → Host) Terminator @ Address 00 ~ 31 Number Command No. ⑪ SPAN calibration by weight (Host → CSD-892B-73) Terminator @ Address 00 ~ 31 Number Command No. In normal operation Return (CSD-892B-73 → Host) Terminator @...
  • Page 180 ⑫ SPAN calibration by numeric input (Host → CSD-892B-73) Terminator @ Address Set value 00 ~ 31 Sign Number Command No. In normal operation Return (CSD-892B-73 → Host) Terminator @ Address Set value 00 ~ 31 Sign Number Command No.
  • Page 181 ⑬ Finish the calibration (Host → CSD-892B-73) Terminator @ Address 00 ~ 31 Number Command No. In normal operation Return (CSD-892B-73 → Host) Terminator @ Address 00 ~ 31 Number Command No. In abnormal operation Return (CSD-892B-73 → Host) Terminator @...
  • Page 182 16-5-2. Calibration for the zero point only This function calibrates only the zero point again. (1) Stability confirmation • Only the screen where the measurement value is displayed can be operated. • Besides, unexecutable error is returned. Point! ① Receiving command MSB 2 Terminator @...
  • Page 183 ③ At abnormal operation MSB 2 8    LCB Terminator @ Command No. Command No. Description Contents Calibration error Tare weight in calibration is less than the specified value. Calibration error Tare weight in calibration is more than the specified value. Calibration error Actual weight in calibration is more than the specified value.
  • Page 184 (2) Register the span point • Only the screen where the measurement value is displayed can be operated. • Besides, unexecutable error is returned. Point! ① Receiving command MSB 2 Terminator @ Set value Sign 1 ~ 999999 Number Command No. •...
  • Page 185 16-5-4. Calibration for weighing capacity only This function calibrates only the weighing capacity again. ① Receiving command MSB 2 Terminator @ Set value 1 ~ 999999 Number Command No. • The set value enters from the right. • The set value performs zero suppress. ② Return command in normal condition MSB 2 Terminator...
  • Page 186 Please confirm the contents of the reference item when the following abnormal operation exists while using CSD-892B-73. Also, please contact with us or our sales agents when there is no corresponding item, and when that abnormal operation is not improved even if the countermeasures are executed.
  • Page 187 Are the command mode and the stream mode correctly set? 16-2 17-5. EzCTS chapter Event Please confirm here. Reference Are PC (Personal computer) and CSD-892B-73 correctly connected? 13-2 The communication is not 13-1 ~ normal. Has CSD-892B-73 shifted to the EzCTS mode?
  • Page 188 18. Specifications 18-1. Specifications for analog Bridge power supply DC5 V±0.25 V within 60 mA, with sensing Up to 4 pieces of strain gage applied transducers (350 ohm) can be Applicable transducer connectable. 0.15 µV/d or more (d = minimum scale) Input sensitivity * 0.2 µV/d (In case of applying CE conformity standard.) Input range...
  • Page 189 18-3. Interface 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 External control input more.
  • Page 190 19. Error display ZERO set error. becomes blinking display when you execute ZERO set with not enforceable condition. By pushing F/ENTER key, [ER-0] continues the ER-0 blinking display. By pushing F/ENTER key, the error condition is released and returns to the condition before the error is displayed. This displays with blinking for about 2 seconds when you select the setting of C ER-1 function, function and S function by the number that doesn't exist.
  • Page 191 This lights on with when the load display exceeds over [(- Weighing - OL capacity) - 9D] or [-110 % of the weighing value]. (By the setting of C function CF-03.) Plus over of A/D conversion input. This lights on with - OVF Minus over of A/D conversion input.
  • Page 192 20. Warranty 20-1. Warranty The instrument is covered by a warranty for a period of one year from the date of delivery. Please contact with our sales office or sales agent from which you have purchased as for repairs and/or after service is required during the period of warranty. 20-2.
  • Page 193 21. Pattern of character The display pattern in the liquid crystal of CSD-892B-73 is as shown in the table below.
  • Page 194 22. Function setting table Please use this table when the customer executes the setting change of the function. C function setting table Function No. Initial data Setting value Function No. Initial data Setting value CF-01 CF-20 CF-02 CF-25 CF-03 CF-26 CF-04 CF-27 CF-05...
  • Page 196 1-1-1, Katase, Fujisawa-shi, Kanagawa-ken, 251-8531 Japan Tel: +81-466-23-2681 Fax: +81-466-22-7191 Sensing Device Business Unit FUJISAWA PLANT 1-1-1, Katase, Fujisawa-shi, Kanagawa-ken, 251-8531 Japan Tel: +81-466-22-7151 Fax: +81-466-22-1701 KARUIZAWA PLANT 4106-73 Miyota, Miyota-machi, Kitasaku gun, Nagano-ken 389-0293 Japan Tel: +81-267-31-1309 Fax: +81-267-31-1353 HOMEPAGE ADDRESS http://www.minebea-mcd.com...

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