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Showa DS-6200 Operating Manual

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Summary of Contents for Showa DS-6200

  • Page 2 Thank you very much for purchasing our Digital Indicator DS-6200. For good performance, and proper and safe use of the DS-6200, be sure to read this operation manual and properly understand the contents of it before use. Also, carefully keep this operation manual so that it can be referred to at any time.
  • Page 3 Safety Precautions ● Indications for safe use and their meanings In this manual, precautions for using the DS-6200 Digital Indicator safely are indicated as follows. Be sure to follow the precautions given here because they are important descriptions relating to safety.
  • Page 4 RoHS-Compliant Product ● About the signal I/O terminal block CAUTION Misuse may cause the risk of injury to persons or damage to property. For connection to the signal I/O terminal block, wire correctly after checking the signal names and terminal block numbers. Also, turn off the power of the main body before connection / wiring to the signal I/O terminal block.

  • Page 5: Table Of Contents

    ■ DS-6200 screen configuration........
  • Page 6 CONTENTS 4-7. Digital Offset............34 4-8.
  • Page 7 7-3. DS-6200 Block Diagram ........
  • Page 8 CONTENTS 8-1. Error Display List ........... . 83 ■...
  • Page 9 CONTENTS CONTENTS <Expansion> 1 EXP. HOLD FUNCTIONS ........95 1-1.
  • Page 10 CONTENTS 4-1. CR Characteristic (Primary) Digital Filter ....... . . 125 ■...
  • Page 11 CONTENTS M E M O...

  • Page 12: Standard

    STANDARD...
  • Page 13 M E M O...

  • Page 14: Outline

    Contents of the Package The packaging box contains the following. Be sure to check them before use. DS-6200 body ・ ・ ・ 1 DS-6200 operation manual ・ ・ ・ 1 External input/output AC input cord ・ ・ ・ 1 Conversion plug for connector ・...

  • Page 15: Appearance Description

    This is the touch panel display for displaying an indicated value and graph set value and for setting various setting items of the DS-6200. During measurement, a comparison display, hold display and graph display can be selected according to the function in use.

  • Page 16: Rear Panel

    1 OUTLINE ■Rear panel Chapter RS-232C connector AC power input Signal input / output terminal block connector Analog input / output Frame ground connector Option board mounting slot     Analog input / output connector - MONITOR + MONITOR SHIELD + SIG -...
  • Page 17 1 OUTLINE The terminal for connecting to a strain-gage sensor. Chapter + EXC - EXC + SIG - SIG SHIELD See the section on "Load cell connection" page 21 for connection. The voltage output terminal for sensor input monitor. + MONITOR →...
  • Page 18 1 OUTLINE AC power input terminal block Connect an AC input cord. Chapter The input power source is free in the range of 100 to 240V AC (-15%, +10%). The frequency is 50/60Hz. Adaptable crimp terminal [TMEV1.25-3S] Frame ground (Functional ground) This is a ground terminal block.

  • Page 19: Installation & Connection

    2 INSTALLATION & CONNECTION INSTALLATION & CONNECTION 2-1. Installation Chapter To install the DS-6200 into a control panel, use the following procedure. Make a hole in the panel according 92mm – to the panel-cut dimensions. Panel-cut dimensions 92mm Panel thickness 0 –...

  • Page 20: Connection

    2 INSTALLATION & CONNECTION 2-2. Connection ■Power input connection Connect an AC input cord. The input power source is free in the range of 100 to 240V AC (-15%, +10%). The frequency is 50/60Hz. Chapter Make connections to the terminal block with a solderless terminal within 6mm in diameter as shown in the illustration so as not to let the tip of the cable spread out.

  • Page 21: Analog Input / Output Terminals Connection

    Loosen the screws (two) with a screwdriver. Loosen. (Turn Remove the terminal block by giving it counterclockwise. a strong pull. Loosen. (Turn counterclockwise. Attention Insert side When installing the terminal block to the DS-6200 body, check its orientation. (See the illustration at the right.) Right side...

  • Page 22: Load Cell Connection

    ■Load cell connection - 4-wire sensor ( + EXC) + IN ( - SIG) Chapter + OUT - OUT DS-6200 ( - EXC) - IN ( + SIG) (SHIELD or - 6-wire sensor Short-circuit +EXC with +S and + IN ( +...

  • Page 23: External I/O Connection

    The external output circuit is operated through an open collector. A1(A7) COM1 is the common terminal. The open collector output capacity is 30mA and the withstand voltage is up to 30V. Chapter Equivalent circuit Vext DS-6200 Inside Spark Killer Power A2~6 Supply...

  • Page 24: Rs-232C Interface Connection

    For details, see the operation manual Case of the equipment to be connected. Adaptable plug (TCP8080-015267) (manufactured by HOSIDEN or equivalent) DS-6200 PC etc. TCP8080-015267 or equivalent D-Sub 9pin * This connection diagram shows cabling applicable to the case where your PC is DTE (data terminal equipment).

  • Page 25: Voltage Output Connection

    2 INSTALLATION & CONNECTION ■Voltage output connection The monitor output terminal is an interface to extract analog voltage proportional to sensor signal inputs. ← DS-6200 inside outside → Chapter + MONITOR + External equipment - MONITOR - F.G or - Since the ±MONITOR terminals are not insulated from the internal circuit, use two-core shielded twisted pair wires for connection with external equipment, and carry out with as short a wiring as possible.

  • Page 26: Setting Procedure

    3 SETTING PROCEDURE SETTING PROCEDURE 3-1. Screens And Operations ■Setting modes tree Ordinary display screen Chapter Setting menu screen Work Setting System Setting Contrast (P40) Operation RS-232C Setting Comp. Setting Hold Setting Graph Setting PAGE1 PAGE1 PAGE1 PAGE1 PAGE1 Digital Filter (P39) Com.
  • Page 27 3 SETTING PROCEDURE Chapter Exp. Setting Protect / Init Self Check Calibration PAGE1 PAGE1 PAGE1 LCD Check (P85) Exc. Voltage (P32) Work Protect (P84) See the Expansion of KEY Check (P85) Zero Cal. (P32) System Protect (P84) this manual. Option Setting Cal.

  • Page 28: Ds-6200 Screen Configuration

    3 SETTING PROCEDURE ■DS-6200 screen configuration [Ordinary display screen] Setting Chapter Set value entry from the ordinary display screen Measurement [Setting menu screen] Mode buttons Back [Set value selection screen] HOME Setting buttons [Set value entry screen] Back Measurement Back...

  • Page 29: About A Setting Call

    3 SETTING PROCEDURE ■About a setting call In this manual, a setting function call is described as follows.   Example) Digital filter SET. System setting Operation Page 1 → → → ↑ ↑ ↑ Setting menu Item classification Page Chapter This call can be made by the following procedure. Press the [SET.] button on the ordinary display screen.

  • Page 30: Calibration Procedure

    4 CALIBRATION PROCEDURE CALIBRATION PROCEDURE How to calibration Calibration is performed for matching the DS-6200 to a strain-gage sensor. The following two types of calibration are available for the DS-6200. ● Equivalent input calibration Calibration is performed without an actual load by entering the rated output value (mV/V) and the capacity (to be indicated) of the strain-gage sensor by the keys.

  • Page 31: Calibration Value Selection

    4 CALIBRATION PROCEDURE 4-1. Calibration Value Selection By storing up to four calibration values in the memory, the desired calibration value can be called to switch the indicated value. Setting values that can be switched are as follows: Calibration Mode Setting Excitation Voltage Zero Calibration Actual Load Calibration...

  • Page 32: Equivalent Input Calibration And Actual Load Calibration Procedures

    4 CALIBRATION PROCEDURE 4-2. Equivalent Input Calibration and Actual Load Calibration Procedures Follow the steps below to perform equivalent input calibration and actual load calibration. Equivalent Input Actual Load Calibration Calibration Release the calibration protection. 4-10. Calibration Protect 4-1. Set the calibration value No. Calibration Selecttion (Set "0"...

  • Page 33: Excitation Voltage

    4 CALIBRATION PROCEDURE 4-3. Excitation Voltage Select the bridge voltage supplied to the strain gauge sensor. The bridge voltage can be selected from 2.5V and 10V. After this setting, be sure to perform calibration. How to set SET. Calibration Page 1 →...

  • Page 34: Actual Load Calibration

    4 CALIBRATION PROCEDURE 4-5. Actual Load Calibration Set the actual load value under an actual load. Setting range: -99999 - 99999 (0 is excluded.) How to set SET. Calibration Page 1 → → Press the [SET.] button. (refer to page 32) Press the [Calibration] button.

  • Page 35: Registration Method At Decimal Place

    4 CALIBRATION PROCEDURE ■Registration method at decimal place Example) The indicated value is made “200.0” by Equivalent Input Calibration. It is a specification to which the decimal point is input with the numerical keys. Please input it in the image that operates the calculator. Press →...

  • Page 36: Digital Zero Limit

    4 CALIBRATION PROCEDURE 4-8. Digital Zero Limit This is a load limit to allow digital zero. When digital zero is executed, if the difference from the zero calibration point is larger than the setting value, an error will result, and the indicated value will not be zeroed. Setting range: 0 - 99999 How to set SET.

  • Page 37: 4-10.Calibration Protect

    4 CALIBRATION PROCEDURE 4-10. Calibration Protect Calibration-related set values can be protected so that they will not be changed by misoperation. When Cal. Protect is ON, no change can be made while the alarm sounds. ON: Protected OFF: Unprotected How to set SET.

  • Page 38: 4-11.Unit

    4 CALIBRATION PROCEDURE 4-11. Unit Set the unit of the values displayed. For settable units, see the "Unit Setting List"on page 86. How to set SET. Calibration Page 2 → → Press the [SET.] button. (refer to page 32) Press the [Calibration] button. (refer to page 32) Select page 2, and press the [Unit] button.

  • Page 39: Setting Of Functions

    5 SETTING OF FUNCTIONS SETTING OF FUNCTIONS 5-1. Digital Zero The indicated values is forcedly zeroed. Digital zero by means of Keys 1) Press the [DZ] button.in the ordinary display screen (COMP・HOLD・GRAPH) 2) Press the [YES] button to perform the digital zero. Press the [NO] button to go back to Chapter the previous screen without...

  • Page 40: Digital Filter

    5 SETTING OF FUNCTIONS 5-2. Digital Filter The digital filter is a function for reducing drifts of the indicated value by means of a moving average of data converted from analog to digital. With an increase in the number of filterings, the indicated value becomes more stable, but the response to inputs becomes slower.

  • Page 41: Zero Tracking (Zt)

    5 SETTING OF FUNCTIONS 5-5. Zero Tracking (ZT) Gradual changes in the zero point due to drifts etc., are automatically tracked for correction. ・When displacement of the zero point is within the set count of tracking and it continues more than the set time, it is automatically made zero by Zero Tracking function.

  • Page 42: Backlight

    Operation Page 1 → → → 5-8. About Japanese / English Display Selection The display language of the DS-6200 is selectable between Japanese and English. Setting range: JPN(日): Japanese, ENG(英): English How to set SET. System Setting Operation Page 1 →...

  • Page 43: 5-10.Indicate Color

    5 SETTING OF FUNCTIONS - HOLD At hold-off time, the held value is automatically printed to the printer coupled with the DS-6200 through the SI/F. At hold-off time, hold values and real time values are output in the GROSS area and NET area, respectively. Others are the same as in the setting of "OFF".

  • Page 44: Hi Limit / Lo Limit / Hh Limit / Ll Limit

    5 SETTING OF FUNCTIONS ■HI limit / LO limit / HH limit / LL limit How to set SET. Work Setting Comp. Setting Page 1 → → → Simple setting call Press any of the [HH], [HI], [LO] and [LL] buttons at the bottom of the indicated value display screen to go direct to the entry screen.

  • Page 45: Near Zero

    5 SETTING OF FUNCTIONS - Hysteresis operation Indicated Value HI Limit Hysteresis Range LO Limit + Time - HI Output HI Status Display Output OFF Output ON Output OFF Status OFF Status ON Status OFF LO Output LO Status Display Output ON Output OFF Output ON Status ON...

  • Page 46: Comparison Output Selection

    5 SETTING OF FUNCTIONS ■Comparison output selection The number of HI-LO limits can be changed. Correspondence between comparison screens and external I/O output terminals. Mode HI limit operation LO limit operation H4 / L0 HI-1 to HI-4 None H4 / L0 HI-4 HI-3 HI-2...

  • Page 47: Alarm Hi And Lo Limits

    The operation of each hold will be described in detail. ■Hold setting --- Common --- Hold mode The DS-6200 includes 10 hold modes as shown in the table below. In the peak, valley, peak-to-peak and average modes, section setting is required. Select all section, external signal, external signal+time, level+time, level.
  • Page 48 5 SETTING OF FUNCTIONS Simple setting call Press the [MODE] button at the bottom of the indicated value display screen to go direct to the hold mode entry screen. Section time If you set the hold section setting in the hold function setting to external signal+time or level+time, set the time.

  • Page 49: Hold Setting

    5 SETTING OF FUNCTIONS Level condition (hold section setting; Level + Time or Level, or detection start condition; External + Level) Setting range: Passed, Passed HI, Passed LO - Passed: Detection starts when the indicated value passes the level set value. - Passed HI: Detection starts when the indicated value passes the level set value in the direction from smaller toward larger values.

  • Page 50: Hold Setting

    5 SETTING OF FUNCTIONS Relative minimum count Setting range: 0001 - 99999 How to set SET. Work Setting Hold Setting Page 1 → → → Relative magnification Setting range: ×0.25, ×0.50, ×0.75, ×1.00, ×1.25, ×1.50, ×2.00, ×3.00, ×4.00 How to set SET.
  • Page 51 5 SETTING OF FUNCTIONS Inflection front (rear) slope time setting is the number of samplings. Since the DS-6200's sampling speed is 2000 times/sec., one sampling is 0.5msec. Therefore, setting of the interval at 100 means setting of 50msec. Caution regarding inflection point hold...

  • Page 52: Hold Setting

    5 SETTING OF FUNCTIONS ■Hold setting --- Average value --- Average sample number In average hold, the average in each sampling can be detected for up to 5 seconds. Then, if the average sample number is set at 2 or more, the representative value of the sampling values by the set number (average by the number) is adopted as the sampling data used for average calculation.
  • Page 53 5 SETTING OF FUNCTIONS Peak hold The maximum value (peak) in the positive direction of the specified section is held. The section is specified by the setting of “all section”, “external signal”, “external signal+time”, “level+time”, or “level”. (Example) All section peak hold t1: A delay time between the instant +...
  • Page 54 5 SETTING OF FUNCTIONS Peak-to-Peak (P-P) hold The difference value between the peak and valley over the specified section is held. The section is specified by the setting of “all section”, “external signal”, “external signal+time”, or “level+time”. (Example) All section Peak-to-Peak (P-P) hold t1: A delay time between the instant +...
  • Page 55 5 SETTING OF FUNCTIONS Inflection point hold Detection starts when the SECTION signal is inputted and also the Level Condition is met in comparison of the Hold Start Level and indicated value. Detection is performed as long as the SECTION signal is ON. The hold is released by turning on the T/H signal as a reset signal.

  • Page 56: How To Specify The Hold Detection Section(Peak, Valley, P-P, Average)

    5 SETTING OF FUNCTIONS ■How to specify the hold detection section(Peak, Valley, P-P, Average) All section By this method, the hold detection section is externally specified by the T/H signal. Detection starts with the T/H signal ON to perform each hold operation. According to the ON/OFF state of the T/H signal, detection and tracking are repeated.
  • Page 57 5 SETTING OF FUNCTIONS External signal + time Hold is detected during the predetermined time (hold section time) from the point in time when the SECTION signal is turned on. The hold is released by turning on the T/H signal as a reset signal. The H/E output signal is on between the instant when the SECTION signal is turned off and the instant when the T/H signal is turned on.

  • Page 58: 5-13.Multi-Hold Function

    5 SETTING OF FUNCTIONS Level (only Peak and Valley) By this method, the hold detection section is from the point in time when the indicated value crosses the Hold Start Level until it crosses the Hold Stop Level. The hold is released by turning on the T/H signal as a reset signal.

  • Page 59: About Changing Of The Setting Work

    5 SETTING OF FUNCTIONS I/O terminal block CAUTION B1 or B7 COM2 It takes 15msec at the maximum for the changed work No. WORK0 to become effective. During this section, which work is measured is undefined. WORK1 Also, when the work is switched, the hold and graph WORK2 functions are reset under the after-switching work conditions irrespective of the previous operation.

  • Page 60: 5-14.Measurement Work Selection

    5 SETTING OF FUNCTIONS 5-14. Measurement Work Selection Select the method for specifying the measurement work. COM.: Measurement work specification by external input becomes ineffective, and only measurement work specification by communication (RS-232C) becomes effective. EXT.: Measurement work specification by communication (RS-232C) becomes ineffective, and only measurement work specification by external input becomes effective.

  • Page 61: 5-17.B8 Off Detection Wait

    5 SETTING OF FUNCTIONS 5-17. B8 OFF Detection Wait This is convenient in hold controlled by the SECTION signal. Operationally, detection/hold section is assured as in the case of B6 OFF Detection Wait. The timer functions so as to also ignore chattering when the OFF edge is detected. Setting range: 0.00 - 1.00 sec.

  • Page 62: Graph Plotting

    5 SETTING OF FUNCTIONS CAUTION If the hold value is simply renewed without renewing the graph, the value will differ from the hold point on the graph. In such a case, the hold point alarm status is displayed. Detection section display By plotting a graph at the same time as the hold function, a cobalt line indicating the detection section is displayed at the bottom of the X-axis.
  • Page 63 5 SETTING OF FUNCTIONS External Graph plotting starts with the GRAPH Start/Stop key input or the GRAPH TRIG external input ON. Plotting ends on one screen at the predetermined time of the X end point. + START/STOP (Key) GRAPH TRIG (external input) 1.0msec more Plotting Section X(TM) end point...

  • Page 64: Graph Mode

    5 SETTING OF FUNCTIONS ■Graph mode Set the graph plotting mode. Setting range: Continued, Ext, Level, Ext+Level How to set SET. Work Setting Graph Setting Page 1 → → → ■Interval time If you select "Continued" in the graph function setting, set the graph plotting operation interrupting time from clearing the screen until moving to the next graph plotting operation.

  • Page 65: Time) End Point

    5 SETTING OF FUNCTIONS ■X(Time) end point Set the time to display by one screen. Setting range: 00.1 - 99.9 sec. How to set SET. Work Setting Graph Setting Page 1 → → → Simple setting call Press the [X] button on the graph display to go direct to the X end point entry screen. ■Y(Load) start point and Y(Load) end point Chapter Setting range: -99999 - 99999 (where Y start point <...

  • Page 66: 5-19.Voltage Output Filter

    This interface extracts analog voltage proportional to sensor input signals. This interface is convenient for observation and recording of waveforms with a recorder, etc., connected. The output level is approx. 2V per 1mV/V of sensor input. - Example of output equivalent circuit and external equipment connection DS-6200 inside  + SIG + Analogue  -...

  • Page 67: 5-21.Event Output At The End Of Graph Plotting

    5 SETTING OF FUNCTIONS CAUTION By the selection of each LOCK function, measurement work that can be specified externally is limited to WORK00 to WORK07. How to set SET. System Setting Operation Page 2 → → → 5-21. Event Output at the End of Graph Plotting Each time a graph is plotted on screen, a pulse signal is output (the pulse width is 200msec).

  • Page 68: 5-23.Rs-232C Interface

    5-23. RS-232C Interface The RS-232C is an interface to read the indicated value and status of the DS-6200 and to write parameters into the DS-6200. This interface is convenient to process controls, totals, records, etc., by connecting the DS-6200 to a computer, process controller, sequencer or the like.

  • Page 69: Rs-232C Interface Setting

    5 SETTING OF FUNCTIONS ■RS-232C interface setting Set the RS-232C communication conditions of the DS-6200. Communication mode Normal, Continue, Print How to set SET. System Setting → RS-232C Setting Page 1 → → Baudrate 9600, 19200, 38400, 57600bps How to set SET.

  • Page 70: Communication Format

    - Reading the indicated value (sign, 5-digit indicated value, decimal point) Host A CR + Delimiter DS-6200 * If the indicated value has no decimal point, a decimal point follows the numerical value. - Reading the status (7-digit) Host D CR...
  • Page 71 5 SETTING OF FUNCTIONS - Writing parameters Work Setting HH Limit ± Protect Work Setting HI Limit ± Protect Work Setting CR LF ± LO Limit Protect Work Setting CR LF ± LL Limit Protect Work Setting CR LF Hysteresis Protect Cal.
  • Page 72 Passed LO Cal.2 Ext+Level Beyond Cal.3 Below EXT. Chapter - Reading waveform data Host ± DS-6200 …… 00 - 19 Data Section No. 00 - 19 Decimal Point and Five digits Data1 Data Section No. ± ± Delimiter …… Decimal Point and Five digits Data9...
  • Page 73 - Reading parameters Host W W DS-6200 Delimiter Set Value No. Set Value No. The same format as write-in of set values. - Commands (Host→DS-6200)      Digital Zero C G Digital Zero reset C H Print instruction C I (This will issue print a command onto SIF.) 2.Continue...

  • Page 74: Bcd Data Output (Option)

    6-1. BCD Data Output (Option) The BCD data output is an interface to extract the indicated value of the DS-6200 as BCD data. This interface is convenient to process controls, totals, records, etc., by connecting the DS-6200 to a computer, process controller, sequencer or the like.

  • Page 75: Bcd Output Data Selection

    6 OPTION ■BCD output data selection When "External" is set by the BCD Output Selection setting, the output data is switched by A15. In the case of external selection, read after at least 2 cycles. When COM and A15 are open: real time value, When they are short-circuited:hold value Output data: Realtime, Hold, EXT.

  • Page 76: Equivalent Circuit

    6 OPTION ■Equivalent circuit -Output The signal output circuit is operated through a TTL open collector. DS-6200 Vext Inside Outside Vceo=30V(max) Ic =30mA (max) Internal transistor status Output pin level Output data Negative Positive Output data Negative Positive H L L...

  • Page 77: Self Check

    D/A Converter (Option) A D/A converter is provided for obtaining analog output synchronized with the indicated value of the DS-6200. The analog output ranges are -10 - +10V output and 4 - 20mA constant-current output. By using the D/A zero setting and D/A full scale setting functions, analog output can be obtained between zero (0V, 4mA) and full scale (10V, 20mA) with respect to the predetermined digital value.

  • Page 78: Scale Setting Value Selection

    6 OPTION - Taking voltage output signals DS-6200 Connect external equipment (2kΩ or more ← Inside Outside → load resistance) to + and - of the DS-6200. + + External equipment - Load resistance: - 2kΩ or more - Taking current output signals DS-6200 Connect external equipment (350Ω...

  • Page 79: D/A Output Mode

    6 OPTION ■D/A output mode Hold, Realtime, Zero scale, Full scale Hold : Output is produced in synchronization with the indicated value. Realtime : Output is produced in synchronization with the sensor input value. Zero scale : Output is fixed at zero output (0V or 4mA). Full scale : Output is fixed at full scale (10V or 20mA).

  • Page 80: Specifications

    7 SPECIFICATIONS SPECIFICATIONS 7-1. Specifications ■Analog section Sensor excitation 10V, 2.5V DC Output current: Within 120mA 4-wire (Up to four 350Ωload cells can be connected.) Signal input range -3.0 - +3.0mV/V Performed by digital computation Zero and gain adjustment Accuracy Non-linearity: Within 0.02%FS±1 digit (at a 3.0mV/V input) Zero drift: Within 0.5μV/℃RTI...

  • Page 81: Standard Interfaces

    7 SPECIFICATIONS ■Standard interfaces RS-232C communication interface Start/stop system Baud rate: 9600bps - 57600bps SI/F (2-wire serial interface) Start/stop system Baud rate: 600bps ■Options interfaces BCD data output Open collector Output rate Can be selected from 10, 20, 50, 100, 200, 500, 1000 and 2000 times/sec. Capacity 30V, 30mA D/A converter...

  • Page 82: Accessories

    7 SPECIFICATIONS ■Accessories Operation manual .....................1 Control signal Input/Output connector.............1 ※ AC input cord (with solderless terminal) ............1 Conversion plug for AC input code ..............1 Connector for BCD output (with BCD option) ..........1 Mini screwdriver (with DAV/DAI option) ..........1 * The attached AC input cord is intended for 100V AC power in Japan. 7-2.

  • Page 83: Ds-6200 Block Diagram

    7 SPECIFICATIONS 7-3. DS-6200 Block Diagram Gain +MONITOR Buffer adjustment - MONITOR Low-pass + SIG × 100 Fillter - SIG Conversion + EXC Excitation Voltage - EXC Reference Standard Voltage RS-232C FRAME Watch Serial 32bit Port External Flash Flash 256Kbyte External...

  • Page 84: Supplements

    Although the DS-6200 will not break down immediately even if the above messages are displayed, Sensor +error or Sensor -error indicates that an excessive voltage may be applied to the input circuit of the DS-6200.

  • Page 85: Protect / Initialization

    8 SUPPLEMENTS 8-2. Protect / Initialization ■Work setting protect Set whether to protect the set values in Work Setting from changing. Setting range: ON / OFF How to set SET. Protect / Init. Page 1 → → ■System setting protect Set whether to protect the set values in System Setting from changing. Setting range: ON / OFF How to set SET.

  • Page 86: Self-Check

    8 SUPPLEMENTS 8-3. Self-Check ■Self-check The self-check function includes a memory check to check the memory automatically for detecting problems, a visual check to check the display visually, a touch panel key input check and an external I/O check. ①LCD check Check the display to see that it is free from color and display defects, etc.

  • Page 87: Password

    8 SUPPLEMENTS ⑥COM check The data displayed under "Transmit data" is sent by pressing the button. Under "Receive data", externally transmitted data is displayed. How to set SET. Self Check COM Check → → Please transmit something information sentence from connected equipment side to the check on the reception.

  • Page 88: Setting Item List

    8 SUPPLEMENTS 8-5. Setting Item List ■Work setting Comparison setting (WORK0 to WORK15) Protect  ○:Work Setting Protect, ◎:System Setting Protect, ●:Calibration Protect, レ:Expansion Protect Memory  S:SRAM, N:NOVRAM Page Item Initial value Setting range Memory Protect HH Limit 8000 - 99999 to 99999 ○...

  • Page 89: Work Setting Graph Setting (Work0 To Work15)

    8 SUPPLEMENTS -Relative Maximum / Relative Minimum / Relative Difference hold- Relative Minimum Count 1 to 99999 ○ Relative magnification × 1.00 ○ Detection Start Condition 0: Ext+Level 0: Ext+Level 1: Ext Only ○                     0:x0.25 Hold Hold Section 1:x0.50 0:OFF 0:All 1:Sample 1:EXT...

  • Page 90: Calibration (Cal0 To Cal3)

    8 SUPPLEMENTS ■Calibration (CAL0 to CAL3) Protect  ○:Work Setting Protect, ◎:System Setting Protect, ●:Calibration Protect, レ:Expansion Protect Memory  S:SRAM, N:NOVRAM Page Item Initial value Setting range Memory Protect Excitation Voltage 0: 2.5V 0: 2.5V  1: 10V ● Zero Calibration - 3.000mV / V to 3.000mV / V ●...

  • Page 91: Protect / Initialization

    8 SUPPLEMENTS Option setting BCD output BCD Output Select 1: Hold 0: Realtime 1: Hold 2: EXT. ◎ BCD Output Rate 3: 100 /s 0: 10 1: 20 2: 50 3: 100 4: 200 5: 500 6: 1000 7: 2000 [ /s] ◎ Option setting D/A output Output Select 1: Hold 0: Real Time 1: Hold 2: Zero Scale 4: Full Scale ◎...
  • Page 92 EXPANSION...
  • Page 93 M E M O...
  • Page 94 Expansion Function Expansion Function The DS-6200 is designed so as to be able to perform more operations than the DS-6000 by selecting the following functions from the Expansion menu.   Expansion Comparison Setting ● Before Value Comparison (P114) ● Relative Value Comparison (P118)   Expansion Hold Setting...
  • Page 95 Expansion Function M E M O...

  • Page 96: Exp. Hold Functions

    1 EXP. HOLD FUNCTIONS EXP. HOLD FUNCTIONS Chapter 1-1. Double Hold Specifically combined two types of hold functions are performed simultaneously in one Hold Section. You can select hold modes from 26 modes in the following table. Hold A Hold B SECTION None None...

  • Page 97: Double Hold Setting

    When this setting is ON, you can set Hold A and Hold B in Hold Setting. ■Hold operations For the operations of the HOLD buttons and HI/LO Limit judgment outputs, see the DS-6200 Operation Manual (Standard). A: Sample hold B: None An arbitrary point is held when the SECTION signal is ON.
  • Page 98 1 EXP. HOLD FUNCTIONS A: Peak hold B: None The maximum value in the section specified is held. Chapter When the Section setting is External Sensor Input Value(Hold Value B) Hold Value A SECTION HOLD(A) Status Display PEAK(A) Blink Status Display HOLD(B) Status Display ----(B) Status Display...
  • Page 99 1 EXP. HOLD FUNCTIONS A: P-P hold B: None The difference between the maximum value and minimum value in the section specified is Chapter held. When the Section setting is External Sensor Input Value(Hold Value B) Hold Value A SECTION HOLD(A) Status Display P-P(A)...
  • Page 100 1 EXP. HOLD FUNCTIONS A: Inflection point hold B: None When the Hold Start Level is detected after turning-ON of the SECTION signal, Inflection Chapter Point hold detection starts. For the Hold Start Level, Detection Start Condition can be selected. Also, the value is maintained until the T/H signal turns ON with the hold Detection Start Condition External Only.
  • Page 101 1 EXP. HOLD FUNCTIONS A: Sample hold B: Peak hold An arbitrary point is held when the SECTION signal is ON. Chapter The maximum value in the section specified is held. The value is maintained until the T/H signal turns ON. Sensor Input Value Hold Value B Hold Value A SECTION...
  • Page 102 1 EXP. HOLD FUNCTIONS A: Sample hold B: P-P hold An arbitrary point is held when the SECTION signal is ON. Chapter The difference between the maximum value and minimum value in the section specified is held. The value is maintained until the T/H signal turns ON. Sensor Input Value Hold Value A Hold Value B...
  • Page 103 1 EXP. HOLD FUNCTIONS A: Sample hold B: Inflection point hold When the Hold Start Level is detected An arbitrary point is held when the SECTION signal is ON. Chapter after turning-ON of the SECTION signal, Inflection Point hold detection starts. For the Hold Start Level, Detection Start Condition can be selected. Also, operation can be performed without using the Hold Start Level with the hold Detection Start Condition External Only.
  • Page 104 1 EXP. HOLD FUNCTIONS A: Peak hold B: Valley hold The maximum value and minimum value in the section specified by the SECTION signal Chapter are held. The value is maintained until the T/H signal turns ON. When the Section setting is External Hold Value A Sensor Input Value Hold Value B...
  • Page 105 1 EXP. HOLD FUNCTIONS A: Valley hold B: P-P hold The minimum value and the difference between the maximum value and minimum value in Chapter the section specified by the SECTION signal are held. The value is maintained until the T/H signal turns ON. When the Section setting is External Sensor Input Value Hold Value B...
  • Page 106 1 EXP. HOLD FUNCTIONS A: Average hold B: Valley hold The average of and the minimum value in the section specified by the SECTION signal are Chapter held. The value is maintained until the T/H signal turns ON. Sensor Input Value Hold Value A Hold Value B SECTION HOLD(A)...
  • Page 107 1 EXP. HOLD FUNCTIONS A: Relative maximum hold B: Relative minimum hold When the Hold Start Level is detected after turning-ON of the SECTION signal, Relative Maximum / Chapter Minimum hold detection starts. For the Hold Start Level, Detection Start Condition can be selected. Also, the value is maintained until the T/H signal turns ON with the hold Detection Start Condition External Only.

  • Page 108: Hi/Lo Limit Comparisons Of Double Hold

    1 EXP. HOLD FUNCTIONS A: Relative minimum hold B: Relative difference hold When the Hold Start Level is detected after turning-ON of the SECTION signal, Relative Minimum and Chapter Relative Difference (difference between the Relative Maximum and Relative Minimum) hold detection starts. For the Hold Start Level, Detection Start Condition can be selected. Also, the value is maintained until the T/H signal turns ON with the hold Detection Start Condition External Only.

  • Page 109: Sample Hold Trigger Edge Selection

    1 EXP. HOLD FUNCTIONS - External I/O pin assignments for Double Hold Chapter COM1 COM2 - - HI-B WORK0 HI-A WORK1 WORK2 LO-A WORK3(LOCK) LO-B COM1 COM2 - - HOLD END(H/E) SECTION DIGITAL ZERO EVENT GRAPH TRIG CAL0 CAL1 FCN-365P024-AU/FCN-360C024-B External I/O 1-2.

  • Page 110: Sample Trigger Selection Setting

    1 EXP. HOLD FUNCTIONS Chapter ● In the case of ON-edge operation ● In the case of OFF-edge operation where the hold modes are where the hold modes are A: Sample hold A: Sample hold B: Inflection Point B: Inflection Point When the Detection Start Condition is External Only When the Detection Start Condition is External Only Sensor Input Value...

  • Page 111: Auto Reset Selection At The Start Of Hold Detection

    1 EXP. HOLD FUNCTIONS 1-3. Auto Reset Selection at the Start of Hold Detection Chapter As standard, hold reset is automatically performed at the start of each Hold Section. This allows simple control as control can be performed by the SECTION signal alone without inputting the T/H signal. When Hold Auto Reset is ON in Externally specified section Hold Peak hold ピークホールドで自動リセット有効のとき...

  • Page 112: Hold Auto Reset

    1 EXP. HOLD FUNCTIONS ■Hold auto reset Chapter ON / OFF Initial value: ON How to set SET. Work Setting Hold Setting Page 1 → → → ・OFF: After a hold is confirmed, the next detection is not started until the T/H signal is turned on even if the SECTION signal is turned on.

  • Page 113: Renewal Of Hold Value

    1 EXP. HOLD FUNCTIONS 1-5. Renewal of Hold Value Chapter You can change the operation of renewing the hold value display. All Time / Hold Stop Initial value: All Time How to set SET. Exp. Setting Exp. Hold Set. Page 1 →...

  • Page 114: Hold End Timing

    1 EXP. HOLD FUNCTIONS 1-6. Hold End Timing Chapter The HOLD END (H/E) signal timing when Inflection Point, Relative Maximum, Relative Minimum or Relative Difference hold is used can be changed. Hold Sct / Detect Sct Initial value: Detect Sct How to set SET.

  • Page 115: Exp. Comparison Functions

    2 EXP. COMPARISON FUNCTIONS EXP. COMPARISON FUNCTIONS 2-1. Before Value Comparison Chapter ■Before value comparison ON / OFF Initial value: OFF How to set SET. Exp. Setting Exp. Comp. Set. Page 1 → → → In addition to the HI/LO Limit comparisons of hold values, the difference between the presently- measured hold value and the previously-measured hold value can be judged.

  • Page 116: Screens Appearing When Before Value Comparison Is Selected

    2 EXP. COMPARISON FUNCTIONS ■Screens appearing when before value comparison is selected Before-value-comparison-specific measurement screens appear. Chapter Also, the Comparison Setting menu is dedicated. ■Before value renewal condition The previous hold value used for Before Value Comparison is renewed under the following conditions: 1) When the hold is canceled (except when the Before Value Regulation is exceeded) 2) When the Before Value in the Comparison Setting menu is changed by inputting a value in a similar manner to set values.

  • Page 117: Before Value Regulation

    2 EXP. COMPARISON FUNCTIONS COM1 COM2 - - DF-HI WORK0 WORK1 WORK2 WORK3(LOCK) Chapter DF-LO COM1 COM2 - - HOLD END(H/E) SECTION EVENT GRAPH TRIG CAL0 CAL1 FCN-365P024-AU/FCN-360C024-B External I/O ■Before value regulation * For judging that the difference between the previous and present hold values is too large for comparison, set the Before Value Regulation.

  • Page 118: Double Hold And Difference-Hi/Lo Limit Comparisons

    2 EXP. COMPARISON FUNCTIONS ■Double hold and difference-HI/LO limit comparisons Double Hold HI/LO Limit and Difference-HI/LO Limit comparisons are made, and respective judgment results are output externally. When the Comparison Standard is A The HI/LO Limit comparison result and Difference-HI/LO Limit comparison result of hold value A are output together. Chapter - Hold value A HI Limit (HI-A) &...

  • Page 119: Relative Value Comparison (In Expansion Double Hold Only)

    2 EXP. COMPARISON FUNCTIONS * The Hysteresis setting is not reflected in the Difference-HI/LO Limit comparison operation. * If the Comparison Timing condition is not met, the comparison result of the value targeted for the Comparison Timing turns OFF. * OK is displayed each on the LCD screen as hold value A is OK, and hold B and the difference value are OK.

  • Page 120: Screens Appearing When Relative Value Comparison Is Selected

    2 EXP. COMPARISON FUNCTIONS ● In the case of Comparison Standard B A comparison of Hold where A is made based on the inflection point of Hold A: Sample Hold B. Hold B: Inflection Point HI-B Chapter LO-B Relative-HI Relative-LO Relative Hold A from Hold B Hold Section SECTION...

  • Page 121: Relative Value Hi/Lo Limit Comparison

    2 EXP. COMPARISON FUNCTIONS ■Relative value HI/LO limit comparison Double hold HI/LO Limit and Relative Value HI/LO Limit comparisons are made, and respective judgment results are output externally. When the Comparison Standard is A The HI/LO Limit comparison result and Relative Value HI/LO Limit comparison result of hold value A are output together.

  • Page 122: Before Value Comparison And Relative Value Comparison

    2 EXP. COMPARISON FUNCTIONS * The Hysteresis setting is not reflected in the Relative-HI/LO Limit comparison operation. * If the Comparison Timing condition is not met, the comparison result of the value targeted for the Comparison Timing turns OFF. * OK is displayed each on the LCD screen as the relative value is OK, and hold value B is OK. - External I/O pin assignments afor Comparison Standard B Chapter COM1...
  • Page 123 2 EXP. COMPARISON FUNCTIONS - Hold value A HI Limit (HI-A) & Difference-HI Limit (DF-HI) ON condition: Hold value A > HI-A Limit, or Difference value > Difference-HI Limit OFF condition: Hold value A ≦HI-A Limit, and Difference value ≦ Difference-HI Limit - Hold value A LO Limit (LO-A) &...
  • Page 124 2 EXP. COMPARISON FUNCTIONS * The Hysteresis setting is not reflected in the Difference-HI/LO Limit and Relative-HI/LO Limit comparison operations. * If the Comparison Timing condition is not met, the comparison result of the value targeted for the Comparison Timing turns OFF. * OK is displayed each on the LCD screen as the relative value is OK, and hold value B and the difference value are OK.

  • Page 125: Exp. Graph Function

    3 EXP. GRAPH FUNCTION EXP. GRAPH FUNCTION 3-1. Graph Pre Trigger Display Function A graph is plotted by tracking back the time by the percentage set for Pre Trigger Display. Absence of Pre Trigger Display Presence of Pre Trigger Display (20%) Chapter A graph is plotted by tracking back the time.

  • Page 126: Exp. Operation Functions

    4 EXP. OPERATION FUNCTIONS EXP. OPERATION FUNCTIONS 4-1. CR Characteristic (Primary) Digital Filter You can select CR characteristic digital filters in addition to the conventional digital filtering by the moving-average method alone. CR characteristic low pass filtering Moving-average type low pass filtering Step response waveform Chapter...

  • Page 127: Average Time On Digital Zero

    RUN Output Selection You can select the output form of the external output signal RUN (A9). - ON-OFF operation See "5-22.RUN Output" in the operation manual (Standard) of the DS-6200 - ON fixed Turns OFF when an error occurs. 3.0sec Turns ON in 3.0 sec.

  • Page 128: Exp. Option Function

    5 EXP. OPTION FUNCTION EXP. OPTION FUNCTION 5-1. BCD Output Data Selection When the BCD option is mounted, you can select the output data form from BCD and binary. BCD / Binary Initial value BCD How to set SET. Exp. Setting Exp. Option Set Page 1 →...

  • Page 129: Standard Interfaces

    Indicated value/status read Header Protocol Function Compa- Main Sub tibility Host R A CR DS-6200 R A + 1 2 3 . 4 5 Delimiter Hold A R A ○ Sign, decimal point, 5-digit indicated value Host R B CR...
  • Page 130 6 STANDARD INTERFACES Indicated value/status read Header Protocol Compa Function Main Sub tibility Host R E CR DS-6200 R E 0 0 0 0 0 0 0 Delimiter Hold(B) 0:OFF 1:ON Stable(B) 0:OFF 1:ON Status 3 R E × Undefined HI(B) 0:OFF 1:ON OK(B) 0:OFF 1:ON LO(B) 0:OFF 1:ON...
  • Page 131 Setting W × work no. DS-6200 W A 0 0 0 1 0 0 0 0 1 2 Delimiter Work no. 00 – 16 This work no. is specific to 232C. If the power is turned on again, and in the case of entry into the COM Check screen in Self Check, "0"...
  • Page 132 Standard; Continuous transmission/transmission upon printing Header Protocol Function Compa- Main Sub tibility 10 11 12 DS-6200 G S , S1 13 14 15 16 17 18 19 20 21 + 1 2 3 . 4 5 Delimiter Indicated Sign, decimal point, 5-digit indicated value value ○...
  • Page 133 Protocol Function Compa- Main Sub tibility DS-6200 G S , S1 S2 S3 S4 S5 S6 S7 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 + 1 2 3 . 4 5 , + 1 2 3 . 4 5...
  • Page 134 Protocol Function Compa- Main Sub tibility 10 11 12 13 14 15 16 17 DS-6200 G S , , + 1 2 3 . 4 5 S2 S3 S4 S5 S6 S7 S1 Hold value A 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 , +...
  • Page 135 Protocol Function Compa- Main Sub tibility 10 11 12 13 14 15 16 17 DS-6200 G S , , + 1 2 3 . 4 5 S2 S3 S4 S5 S6 S7 S1 Hold value A(B) 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 , +...

  • Page 136: Option Interfaces

    7 OPTION INTERFACES OPTION INTERFACES 7-1. BCO Option You can set data to be output as fixed, or read data by setting external selection. - Connector pin assignments for BCD output FCN-365P032-AU/FCN-360C032-B - - 1000 2000 4000 8000 10000 20000 40000 80000 Minus (Polarity) OVER...

  • Page 137: Dav/Dai Option

    7 OPTION INTERFACES 7-2. DAV/DAI Option At standard time, you can select real time value or hold value. At expansion Double Hold time, you can select real time value, hold value A, or hold value B. * Before Value / Relative Value cannot be output. Chapter...

  • Page 138: Supplements

    8 SUPPLEMENTS SUPPLEMENTS 8-1. Setting Item List ■Work setting Comparison setting (WORK0 to WORK15) Protect  ○:Work Setting Protect, ◎:System Setting Protect, ●:Calibration Protect, レ:Expansion Protect Memory  S:SRAM, N:NOVRAM Standard COM. Command Page No. Item Initial value Setting range Memory Protect Read/ Write HH Limit 8000 -...
  • Page 139 8 SUPPLEMENTS Expansion 3 -Double hold&Before value comparison- HI Limit A 6000 - 99999 to 99999 ○ LO Limit A 4000 - 99999 to 99999 ○ HI Limit B 8000 - 99999 to 99999 ○ LO Limit B 2000 - 99999 to 99999 ○...

  • Page 140: Work Setting Hold Setting (Work0 To Work15)

    8 SUPPLEMENTS ■Work setting Hold setting (WORK0 to WORK15) Protect  ○:Work Setting Protect, ◎:System Setting Protect, ●:Calibration Protect, レ:Expansion Protect Memory  S:SRAM, N:NOVRAM Standard COM. Command Page No. Item Initial value Setting range Memory Protect Read/ Write Hold Mode *2 *3 ○ Hold Start Level -...
  • Page 141 8 SUPPLEMENTS Standard -Sample hold- Sample Removal Value - 999 to 999 ○ Expansion 2 -Sample trigger selection- Sample Removal Value - 999 to 999 ○ 0: ON Edge Sample Trigger Select *1 0: ON Edge 1: OFF Edge ○ *1)  When the hold mode is Sample and also Hold Auto Reset is ON, the OFF edge cannot be selected in terms of hold operation: therefore, the Sample Trigger Select setting is not displayed.
  • Page 142 8 SUPPLEMENTS Standard -Inflection point hold- Inflection Minimum Slope 1 to 99999 ○ Inflection Front Slope Time 10 to 990 (Front slope time + rear slope time < 1000) ○ Inflection Rear Slope Time 10 to 990 (Front slope time + rear slope time < 1000) ○...
  • Page 143 8 SUPPLEMENTS Standard -Relative maximum / Relative minimum / Relative difference hold- Relative Minimum Count 1 to 99999 ○ Relative magnification 3: × 1.00 ○ Detection Start Condition 0:Ext+Level 0: Ext+Level 1: Ext Only ○ Expansion 5-1 -Sample&Relative maximum / Relative minimum / Relative difference hold- Sample Removal Value -...

  • Page 144: Work Setting Graph Setting (Work0 To Work15)

    8 SUPPLEMENTS ■Work setting Graph setting (WORK0 to WORK15) Protect  ○:Work Setting Protect, ◎:System Setting Protect, ●:Calibration Protect, レ:Expansion Protect Memory  S:SRAM, N:NOVRAM Standard COM. Command Page No. Item Initial value Setting range Memory Protect Read/ Write Graph Mode 0: Continued 0: Continued 1: Ext 2: Level 3: Ext+Level ○...

  • Page 145: Calibration (Cal0 To Cal3)

    8 SUPPLEMENTS ■Calibration (CAL0 to CAL3) Protect  ○:Work Setting Protect, ◎:System Setting Protect, ●:Calibration Protect, レ:Expansion Protect Memory  S:SRAM, N:NOVRAM Standard COM. Command Page No. Item Initial value Setting range Memory Protect Read/ Write Excitation Voltage 0:2.5V 2001 0: 2.5V  1: 10V ●...

  • Page 146: System Setting

    8 SUPPLEMENTS ■System setting Protect  ○:Work Setting Protect, ◎:System Setting Protect, ●:Calibration Protect, レ:Expansion Protect Memory  S:SRAM, N:NOVRAM Operation setting Standard COM. Command Page No. Item Initial value Setting range Memory Protect Read/ Write Digital Filter 0: OFF,2 to 999 Times ◎ Analog Filter 2: 300Hz 0: 30 ...
  • Page 147 8 SUPPLEMENTS Option setting BCD output Standard BCD Output Select 1: Hold 0: Realtime 1: Hold 2: EXT. ◎ BCD Output Rate 3: 100 /s 0: 10 1: 20 2: 50 3: 100 4: 200 5: 500 6: 1000 7: 2000 [ /s] ◎ Option setting BCD output Expansion 1 -Before value comparison- BCD Output Select 1: Hold 0: Realtime 1: Hold 2: Dif. 3: EXT.

  • Page 148: Expansion Setting

    8 SUPPLEMENTS Protect / Initialization COM. Command Page No. Item Initial value Setting range Memory Protect Read/ Write Work Protect 0: OFF 4001 0: OFF 1: ON System Protect 0: OFF 4002 0: OFF 1: ON Calibration Protect 0: OFF 0: OFF 1: ON 4003 Expansion Protect 1: ON...
  • Page 149 8 SUPPLEMENTS Expansion hold setting Double Hold 0: OFF 3101 0: OFF 1: ON レ Auto Reset Select 0: OFF 3102 0: OFF 1: ON レ Renewal Of Hold Value 1: All Time 3103 0: Detect End 1: All Time レ Sample Trigger Selection 0: OFF 0: OFF 1: ON 3104...
  • Page 150       ● The contents in this manual may be updated without prior notice. HEAD OFFICE : 1-17-16,NISHI-HOKIMA,ADATI-KU,TOKYO 121-0812 JAPAN Tel.03(3850)5431/Fax.03(3850)5436 FACTORY : 5-24-27,HOKIMA,ADATI-KU,TOKYO 121-0064 JAPAN Tel.03(3858)3241/Fax.03(3859)1240 BRANCH OFFICE : 1-5-16,ENOKOJIMA,NISI-KU,OSAKA 550-0006 JAPAN Tel.06(6448)3412/Fax.06(6448)0875 20 JUL. 2011...

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