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Panasonic HL-C2 Series User Manual
Panasonic HL-C2 Series User Manual

Panasonic HL-C2 Series User Manual

Ultra high-speed, high-accuracy laser displacement sensor, rs-232c communication control
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  • Page 2 Thank you for purchasing Ultra High-Speed, High-Accuracy Laser Displacement Sensor “HL-C2 Series”. To fully use this product safely and properly, please read this manual carefully. See our Website (https://panasonic.net/id/pidsx/global) for the latest information about the product and latest user’s manual. ■ Note 1.
  • Page 3: Whole User's Manual Construction

    Preface Whole USER’S MANUAL Construction The HL-C2 Series is prepared for the following user’s manuals. Read them as necessary. HL-C2 Series USER’S MANUAL (PDF) It describes cautions for using HL-C2 Series, and installation method, operation method, function details, Ultra High-Speed, High-Accuracy...
  • Page 4 Preface HL-C2 Series USER’S MANUAL: RS-232C Communication Control (PDF) This manual It describes various commands for controlling the system by Ultra High-Speed, High-Accuracy Laser Displacement Sensor PLC or PC using RS-232C communication. HL-C2 Series User's Manual RS-232C Communication Control ME-HLCSRS-09 2013.6...
  • Page 5 This manual describes installation method, operation Intelligent Monitor AiM method, functional details and error messages of the software. It also describes an evaluation analysis of HL-C2 Series or use of buffering function and received light intensity waveform display function, which are useful for optimum ME-HLCSAIM-08 2013.6...
  • Page 6 Preface MEMO...
  • Page 7: Manual Construction

    Preface Manual Construction This chapter provides cautions for safe and correct Preface operation of the product. Be sure to read this chapter. This chapter explains the commands for controlling Head Command the sensor head. This chapter explains various commands for function OUT Command settings regarding output data processing.
  • Page 8: Table Of Contents

    Preface Contents Whole USER’S MANUAL Construction 1 2 OUT Command ···························· 2-1 ■ USER’S MANUAL for Intelligent 2-1 Explanation of OUT Command ···· 2-2 Monitor AiM ······························································· 3 2-1-1 Output Selection: ROS/WOS ····· 2-2 Manual Construction ···························· 5 2-1-2 Transparent Object: RMN/WMN · 2-3 Contents ··············································...
  • Page 9 Preface 2-1-33 Judgment Output HI: RHI ······· 2-24 6. Accumulated data readout ························· 5-9 2-1-34 Judgment Output GO: RGO ··· 2-24 5-2 Explanation of Buffering Command 2-1-35 Judgment Output LO: RLO ····· 2-25 ······················································· 5-11 5-2-1 Self-stop: RSS/WSS ················· 5-11 5-2-2 Buffering Mode: RBD/WBD ·······...
  • Page 10: Safety Precautions

    Preface Safety Precautions This product is intended to detect the objects and does not have the control function to ensure safety such as accident prevention. Do not use the product as a sensing device to protect human body. Please use the products that comply with local laws and standards for human body protection specified by e.g., OSHA, ANSI and IEC.
  • Page 11 Preface ● Install a fail-safe device when the product is used for the purpose that has a possibility of physical injury or serious extended damage. ● Do not use the product in the atmosphere of flammable gas, to prevent explosion. ●...
  • Page 12: For Correct Use

    For the detailed description of each function and communication format on the system, refer to “HL-C2 Series USER’S MANUAL” (separate volume). Correct Handling For the items listed below, refer to “HL-C2 Series USER’S MANUAL” (separate volume). ・ Installation Environment ・ Use Environment ・...
  • Page 13: Head Command

    Head Command This chapter explains the commands for controlling the sensor head. 1-1 Explanation of Head Command ······························· 1-2 1-1-1 Installation Mode: RMM/WMM ·································· 1-2 1-1-2 Emission Adjustment: RFB/WFB ······························ 1-2 1-1-3 Emission Adjustment Area - a : REA/WEA ·········· 1-4 1-1-4 Emission Adjustment Area - b : REB/WEB ··········...
  • Page 14: Explanation Of Head Command

    Chapter 1 Head Command Explanation of Head Command 1-1-1 Installation Mode: RMM/WMM WMM and RMM respectively specify and load the setting of installation mode for each sensor head. Command Code Subdata Description Read Setting 00000 Diffuse Reflection 00001 Specular Reflection % E E # R M M FORMAT Header...
  • Page 15 Chapter 1 Head Command Command Code Subdata Description Read Setting 00007 0.18% Fixed 00008 0.24% Fixed 00009 0.31% Fixed 00010 0.40% Fixed 00011 0.53% Fixed 00012 0.68% Fixed 00013 0.89% Fixed 00014 1.16% Fixed 00015 1.50% Fixed 00016 1.95% Fixed 00017 2.54% Fixed 00018...
  • Page 16: Emission Adjustment Area - A

    Chapter 1 Head Command 1-1-3 Emission Adjustment Area - a : REA/WEA Command Least input Code Setting value increment Read Setting 00001 to 00512 % E E # R E A 1 * * FORMAT Header Command Code % E E # W E A FORMAT Header Command...
  • Page 17: Emitted Light Intensity Search

    Chapter 1 Head Command (2) Emission Adjustment Area – b is set to “00215”. Request: # W E B * * FORMAT Response: $ W E B FORMAT * * 1-1-5Emitted Light Intensity Search: RFC/WFC WFC automatically adjusts the emitted light intensity for each sensor head.
  • Page 18: Alarm Delay Times: Rhc/Whc

    Chapter 1 Head Command 1-1-6 Alarm Delay Times: RHC/WHC WHC and RHC respectively specify and load the setting of alarm delay times for each sensor head. The setting here is reflected in digital measurement value, analog output, alarm terminal output and alarm indicator on the controller. Command Code Subdata...
  • Page 19: Measurement Surface Reference: Rbf/Wbf

    Chapter 1 Head Command % E E # R S M FORMAT Header Command Code % E E # W S M FORMAT Header Command Code Subdata (1) Setting of Measurement Mode is loaded. Request: R S M 1 * *...
  • Page 20: Measuring Range (A): Rpa・Wpa

    Chapter 1 Head Command 1-1-9 Measuring Range (a): RPA・WPA A given range can be specified for measurement. Command Least input Code Setting value increment Read Setting 00003 to 00510 % E E # R P A 1 * * FORMAT Header Command Code...
  • Page 21: Calibration Measurement Value A: Rca/Wca

    Chapter 1 Head Command 1-1-11 Calibration Measurement Value A: RCA/WCA WCA and RCA respectively specify and load the setting of calibration measurement value A for each sensor head. For the execution procedures of calibration, refer to “1-1-11 Execute Calibration: WCE”. Command Least input Code...
  • Page 22: Rca/Wca

    Chapter 1 Head Command 1-1-12 Calibration Measurement Value B: RCB/WCB WCB and RCB respectively specify and load the setting of calibration measurement value B for each sensor head. For the execution procedures of calibration, refer to “1-1-11 Execute Calibration: WCE”. Command Least input Code...
  • Page 23: Calibration Correction Value A: Rha/Wha

    Chapter 1 Head Command 1-1-13 Calibration Correction Value a: RHA/WHA WHA and RHA respectively specify and load the setting of calibration correction value a for each sensor head. For the execution procedures of calibration, refer to “1-1-11 Execute Calibration: WCE”. Command Least input Code...
  • Page 24: Execute Calibration: Wce

    Chapter 1 Head Command (1) Setting value of Calibration Correction Value b is loaded. Request: % E E # R H B 1 FORMAT Response: % E E $ R H B - FORMAT (2) Calibration Correction Value b is set to “-123.456789”. Request: % E E # W H B 1 FORMAT...
  • Page 25: Laser Control: Rlr/Wlr

    Chapter 1 Head Command 1-1-16 Laser Control: RLR/WLR WLR and RLR respectively specify and load the status of laser control for each sensor head. Command Code Subdata Description Read Setting 00000 Emission 00001 Stop % E E # R L R FORMAT Header Command...
  • Page 26: Peak Recognition Sensitivity: Rth/Wth

    Chapter 1 Head Command 1-1-18 Peak Recognition Sensitivity: RTH/WTH Command Least input Code Setting value increment Read Setting 00100 to 00400 % E E # R T H 1 * * FORMAT Header Command Code % E E # W T H FORMAT Header Command...
  • Page 27: Median Filter Rmf・Wmf

    Chapter 1 Head Command 1-1-19 Median Filter RMF・WMF Cut off changes in measurement values in order to prevent variation in measurement. Command Code Subdata Description Read Setting 00000 00001 7 points 00002 15 points 00003 31 points % E E # R M F FORMAT Header Command...
  • Page 28 Chapter 1 Head Command MEMO 1-16...
  • Page 29: Out Command

    OUT Command This chapter explains various commands for function settings regarding output data processing. 2-1-19 Analog Scaling Measurement 2-1 Explanation of OUT Command ··· 2-2 Value A: RAH/WAH ················ 2-15 2-1-1 Output Selection: ROS/WOS ····· 2-2 2-1-20 Analog Scaling Measurement 2-1-2 Transparent Object: RMN/WMN 2-3 Value B: RAL/WAL ·················...
  • Page 30: Explanation Of Out Command

    Chapter 2 OUT Command Explanation of OUT Command 2-1-1 Output Selection: ROS/WOS WOS and ROS respectively specify and load the setting of output selection for each OUT. The default of OUT1 and OUT2 is “A” and “B” respectively. Command Code Subdata Description Read...
  • Page 31: Transparent Object: Rmn/Wmn

    Chapter 2 OUT Command 2-1-2 Transparent Object: RMN/WMN WMN and RMN respectively specify and load the setting of transparent object for each OUT. The commands are available while “Transparent Object” is selected in “Output Selection”. Select the target surface(s) for measurement. Command Code Subdata...
  • Page 32: Refractive Index Calculation

    Chapter 2 OUT Command 2-1-3 Refractive Index Calculation: RGK/WGK WGK and RGK respectively specify and load the setting of refractive index calculation for each OUT. The commands are available while “Transparent Object” is selected in “Output Selection”. Select if calculation of refractive index is executed or not.
  • Page 33: Zero Set: Rzs/Wzs

    Chapter 2 OUT Command (1) Setting value of Refractive Index is loaded. Request: % E E # R G R 3 FORMAT Response: % E E $ R G R + 0 0 1 0 0 0 0 0 0 * * FORMAT (2) Refractive Index is set to “+002.000000”.
  • Page 34: Timing: Rti/Wti

    Chapter 2 OUT Command 2-1-6 Timing: RTI/WTI WTI and RTI execute and load the setting of timing for each OUT. Command Code Subdata Description Read Setting 00000 00001 % E E # R T FORMAT Header Command Code % E E # W T FORMAT Header Command...
  • Page 35: Hold: Rhd/Whd

    Chapter 2 OUT Command (2) Reset is executed. Request: % E E # W R S 3 FORMAT Response: % E E $ W R S * FORMAT 2-1-8 Hold: RHD/WHD WHD and RHD execute and load the setting of hold. Command Code Subdata...
  • Page 36: Analysis Mode: Rhm/Whm

    Chapter 2 OUT Command 2-1-9 Analysis Mode: RHM/WHM WHM and RHM respectively specify and load the setting of analysis mode for each OUT. Command Code Subdata Description Read Setting 00000 Normal Measurement 00001 Peak Measurement 00002 Bottom Measurement 00003 Peak to Peak Measurement % E E # R H M FORMAT Header...
  • Page 37: Filter Operation: Rfl/Wfl

    Chapter 2 OUT Command 2-1-10 Filter Operation: RFL/WFL WFL and RFL respectively specify and load the setting of filter operation for each OUT. Command Code Subdata Description Read Setting 00000 Moving Average 00001 Low-pass Filter 00002 High-pass Filter % E E # R F FORMAT Header Command...
  • Page 38: Average Times: Rav/Wav

    Chapter 2 OUT Command 2-1-11 Average Times: RAV/WAV WAV and RAV respectively specify and load the setting of average times for each OUT. The commands are available while Moving Average is selected in “Filter Operation”. Command Code Subdata Description Read Setting 00000 1 time 00001...
  • Page 39: Cutoff Frequency: Rco/Wco

    Chapter 2 OUT Command 2-1-12 Cutoff Frequency: RCO/WCO WCO and RCO respectively specify and load the setting of cutoff frequency for each OUT. Command Code Subdata Description Read Setting 00000 1[Hz] 00001 2[Hz] 00002 4[Hz] 00003 10[Hz] 00004 20[Hz] 00005 40[Hz] 00006 100[Hz]...
  • Page 40: Operation Coefficient: Rmk/Wmk

    Chapter 2 OUT Command 2-1-13 Operation Coefficient: RMK/WMK WMK and RMK respectively specify and load the setting of operation coefficient for each OUT. Command Least input Code Setting value Read Setting increment +000.100000 to +009.999999 0.000001 % E E # R M K FORMAT Header Command...
  • Page 41: Judgment Output Upper Limit

    Chapter 2 OUT Command 2-1-15 Judgment Output Upper Limit Value: RHL/WHL WHL and RHL respectively specify and load the setting of upper limit value of judgment output for each OUT. Command Least input Code Setting value increment Read Setting -950.000000 to +950.000000[mm] 0.000001[mm] % E E # R H L FORMAT...
  • Page 42: Judgment Output Lower Limit

    Chapter 2 OUT Command 2-1-17 Judgment Output Upper Limit Hysteresis: REH/WEH WEH and REH respectively specify and load the setting of upper limit hysteresis of judgment output for each OUT. Command Least input Code Setting value increment Read Setting +000.000000 to +950.000000[mm] 0.000001[mm] % E E # R E H FORMAT...
  • Page 43: Value A: Rah/Wah

    Chapter 2 OUT Command 2-1-19 Analog Scaling Measurement Value A: RAH/WAH WAH and RAH respectively specify and load the setting of analog scaling measurement value A. For the execution procedures of analog scaling, refer to “2-1-20 Execute Analog Scaling: WAS”. Command Least input Code...
  • Page 44: Value B: Ral/Wal

    Chapter 2 OUT Command 2-1-20 Analog Scaling Measurement Value B: RAL/WAL WAL and RAL respectively specify and load the setting of analog scaling measurement value B. For the execution procedures of analog scaling, refer to “2-1-20 Execute Analog Scaling: WAS”. Command Least input Code...
  • Page 45: Analog Scaling Voltage B

    Chapter 2 OUT Command (2) Analog Scaling Voltage a is set to “8[V]”. Request: % E E # W V H 3 FORMAT Response: % E E $ W V H * FORMAT 2-1-22 Analog Scaling Voltage b: RVL/WVL WVL and RVL respectively specify and load the setting of analog scaling voltage b.
  • Page 46: Execute Analog Scaling: Was

    Chapter 2 OUT Command 2-1-23 Execute Analog Scaling: WAS WAS executes respective analog scaling. Measurement value A[mm]= a[V], Measurement value B[mm]=b[V] Set appropriate voltage to any two points A and B. Execution procedures of analog scaling Set Measurement Value A. Refer to “2-1-16”.
  • Page 47: Value: Rfm/Wfm

    Chapter 2 OUT Command % E E # W A A FORMAT Header Command Code Subdata (1) Setting value of Analog Output at Alarm is loaded. Request: % E E # R A A 3 FORMAT Response: % E E $ R A A 0 FORMAT (2) Analog Output at Alarm is set to “Fixed Value”.
  • Page 48: Analog Output At Data Unfixed

    Chapter 2 OUT Command 2-1-26 Analog Output at Data Unfixed: RDA/WDA WDA and RDA respectively specify and load the setting of analog output at data unfixed for each OUT. Analog output at data unfixed can be specified arbitrarily. The digital measurement value at data unfixed is “-999.999999”.
  • Page 49: Alarm Output Delay: Rac/Wac2-21

    Chapter 2 OUT Command (1) Setting of Digital Output at Alarm is loaded. Request: % E E # R A D 3 FORMAT Response: % E E $ R A D 0 FORMAT (2) Digital Output at Alarm is set to “Hold Previous Value”. Request: % E E # W A D 3 FORMAT...
  • Page 50: Digit Number Of Measurement

    Chapter 2 OUT Command 2-1-29 Digit Number of Measurement Value: RKT/WKT WKT and RKT respectively specify and load the setting of digit number of measurement value displayed on the compact console for each OUT. The command specifies the number of digits displayed after decimal point on the compact console at the measurement using the measurement value that consists of “1-character symbol + 3-character integral part + decimal point + 5-character decimal part”.
  • Page 51: Alarm Output: Roa

    Chapter 2 OUT Command Setting value of OUT1 Measurement Value is loaded. Request: % E E # R M D 3 FORMAT Response: % E E $ R M D + FORMAT 2-1-31 Alarm Output: ROA ROA loads the status of alarm output for each OUT. Command Code Subdata...
  • Page 52: Judgment Output Hi: Rhi

    Chapter 2 OUT Command 2-1-33 Judgment Output HI: RHI RHI loads the status of judgment output HI for each OUT. Command Code Subdata Description Read Setting No output (OFF) 00000 - Output (ON) 00001 % E E # R H FORMAT Header Command...
  • Page 53: Judgment Output Lo: Rlo

    Chapter 2 OUT Command 2-1-35 Judgment Output LO: RLO RLO loads the status of judgment output LO for each OUT. Command Code Subdata Description Read Setting No output (OFF) 00000 - Output (ON) 00001 % E E # R L O FORMAT Header Command...
  • Page 54 Chapter 2 OUT Command MEMO 2-26...
  • Page 55 Common Command This chapter explains the commands for function settings common in Head setting and OUT setting. 3-1 Explanation of Common Command ··········· 3-2 3-1-1 Sampling Cycle: RSP/WSP ··························· 3-2 3-1-2 Terminal Input Control: RIM/WIM ················ 3-3 3-1-3 Chattering Prevention for Terminal Input: RIC/WIC ·································································...
  • Page 56: Common Command

    Chapter 3 Common Command Explanation of Common Command 3-1-1 Sampling Cycle: RSP/WSP WSP and RSP respectively specify and load the setting of sampling cycle. Command Code Subdata Description Read Setting 00000 10 [µs] 00001 20 [µs] 00002 40 [µs] 00003 100 [µs] 00004 200 [µs]...
  • Page 57: Terminal Input Control: Rim/Wim

    Chapter 3 Common Command 3-1-2 Terminal Input Control: RIM/WIM WIM and RIM respectively specify and load the setting of terminal input control. Command Code Subdata Description Read Setting 00000 Independent 00001 % E E # R FORMAT Header Command Code % E E # W I FORMAT Header...
  • Page 58: Judgment Output Off Delay: Rof/Wof

    Chapter 3 Common Command (1) Setting of Chattering Prevention for Terminal Input is loaded. Request: % E E # R FORMAT Response: % E E $ R FORMAT (2) Chattering Prevention for Terminal Input is set to “OFF”. Request: % E E # W FORMAT Response: % E E $ W...
  • Page 59: Interference Prevention: Rxt/Wxt

    Chapter 3 Common Command 3-1-5 Interference Prevention: RXT/WXT WXT and RXT respectively specify and load the setting of interference Prevention. Command Code Subdata Description Read Setting 00000 00001 % E E # R X T FORMAT Header Command Code % E E # W X T FORMAT Header Command...
  • Page 60: All Output Read: Rmb

    Chapter 3 Common Command FORMAT 3-1-7 All Output Read: RMB RMB loads the status of all terminal outputs simultaneously. Command Code Subdata Description Read Setting All Output Read % E E # R M B FORMAT Header Command Code All terminal outputs are loaded simultaneously. Request: % E E # R M B 5 FORMAT...
  • Page 61: System Command

    System Command 4 This chapter explains various commands for function settings regarding the system of equipment, such as initialization, save and communication settings. 4-1 Explanation of System Command ··············· 4-2 4-1-1 Copy Output Setting: WOC ························ 4-2 4-1-2 Priority Setting of Memory Change: RYU/WYU ·············································...
  • Page 62: Explanation Of System Command

    Chapter 4 System Command Explanation of System Command 4-1-1 Copy Output Setting: WOC WOC copies the setting of OUT1 or OUT2 to the other OUT. In the memory No. selected in “Memory Change”, the command copies the setting of OUT to the other ( from OUT1 to OUT2 or from OUT2 to OUT1 ) . However, Zero Set, Timing and Reset are not copied.
  • Page 63: Memory Change: Rmc/Wmc

    Chapter 4 System Command 4-1-3 Memory Change: RMC/WMC WMC and RMC respectively specify and load the setting of Memory Change. Up to 16 settings can be saved. Command Code Subdata Description Read Setting 00000 to 00015 Memory No. % E E # R M C FORMAT Header Command...
  • Page 64: Copy Destination Memory: Wdf

    Chapter 4 System Command 4-1-5 Copy Destination Memory: WDF WDF specifies the memory number of copy destination. For the memory copy procedures, refer to “4-1-6 Memory Copy: WCF”. Command Code Subdata Description Read Setting 00000 to 00015 Memory No. % E E # W D F FORMAT Header Command...
  • Page 65: Initialize: Win

    Chapter 4 System Command 4-1-7 Initialize: WIN WIN initializes the memory. The command resets the status of selected memory No. to factory default. For the detail of "Selected Memory No.", refer to "4-1-3 Memory Change: RMC/WMC". Command Code Subdata Description Read Setting 00000 No command...
  • Page 66: Rs-232C Baud Rate: Rsa/Wsa

    Chapter 4 System Command 4-1-9 RS-232C Baud Rate: RSA/WSA WSA and RSA respectively specify and load the setting of baud rate in RS-232C. Command Code Subdata Description Read Setting 00000 9600[bps] 00001 19200[bps] 00002 38400[bps] 00003 115200[bps] % E E # R S A FORMAT Header Command...
  • Page 67: Rs-232C Parity Check: Rsc/Wsc

    Chapter 4 System Command (1) Setting of RS-232C Data Length is loaded. Request: % E E # R S B 0 FORMAT Response: % E E $ R S B 0 FORMAT (2) RS-232C Data Length is set to “7-bit”. Request: % E E # W S B 0 FORMAT...
  • Page 68: Rs-232C Output Mode: Rsd/Wsd

    Chapter 4 System Command 4-1-12 RS-232C Output Mode: RSD/WSD WSD and RSD respectively specify and load the setting of output mode in RS-232C communication. Command Code Subdata Description Read Setting 00000 Handshake 00001 Timing 00002 Continuous % E E # R S D FORMAT Header Command...
  • Page 69: Display Update Cycle Of

    Chapter 4 System Command (1) Setting of RS-232C Output Type is loaded. Request: * * FORMAT Response: R S E * * FORMAT (2) RS-232C Output Type is set to “OUT2 only”. # W S Request: * * FORMAT Response: $ W S E *...
  • Page 70: Change Indication Unit: Rut/Wut

    Chapter 4 System Command 4-1-15 Change Indication Unit: RUT/WUT WUT and RUT respectively specify and load the setting of change indication unit of measurement value. Command Code Subdata Description Read Setting 00000 mm Unit 00001 μm Unit % E E # R U T FORMAT Header Command...
  • Page 71: Console Start-Up Screen: Rkg/Wkg

    The setting command specifies the screen displayed after the Wake-Up screen on the compact console. For the selectable screen, refer to “Console Setting” in “4-3-4 System Setting” of “HL-C2 Series USER’S MANUAL”. Command Code Subdata Description...
  • Page 72: Console Panel Lock: Rpl/Wpl

    Chapter 4 System Command Response: % E E $ W K G * FORMAT 4-1-17 Console Panel Lock: RPL/WPL WPL and RPL respectively specify and load the setting of panel lock on the compact console. Command Code Subdata Description Read Setting 00000 Panel Lock OFF (unlock) 00001...
  • Page 73: Buffering Command

    Buffering Command This chapter explains various commands for function settings and execution of operation regarding data buffering. 5-1 Data Buffering Description ························ 5-2 5-2 Explanation of Buffering Command ···· 5-11 5-2-1 Self-stop: RSS/WSS ································· 5-11 5-2-2 Buffering Mode: RBD/WBD ···················· 5-11 5-2-3 Buffering Type: RTT/WTT ·······················...
  • Page 74: Data Buffering Description

    They also can be saved in the CSV data format. Programs for buffering must be created by RS-232C/USB communication control. Use the sample program included in “ our web site: https://panasonic.net/id/pidsx/global ” to try to the basic buffering functions.
  • Page 75: Data Buffering Procedures

    Chapter 5 Buffering Command ■ Data Buffering Procedures Data buffering procedure HL-C2 (host device) Perform necessary setting for buffering. · Buffering mode (1) Send · Buffering type Settings · Buffering rate · Accumulation amount · Sample trigger accumulation amount · Self-stop ·...
  • Page 76: Send Settings

    Chapter 5 Buffering Command 1. Send settings This process configures the settings of buffering. Select the self-stop. This function stops the buffering operation automatically at completion of accumulation. When the Self-stop function is set to ON (buffering operation is automatically stopped), stop input for buffering operation becomes unnecessary.
  • Page 77 Chapter 5 Buffering Command ・ Timing input stops when the accumulation amount has reached the setting value or when buffering operation stops. Timing input Timing input ON accumulation Buffering start Buffering stop amount reached Stand-by Accumulation of data Stand-by Meas ope Timing input Changing the timing input from “ON”...
  • Page 78 Chapter 5 Buffering Command Select the buffering rate. The rate (interval) of data accumulation to sampling cycle can be adjusted to accumulate the measurement data for long period. The rate can be selected from “1” (all measurement data) to “1/32768”. (When “1/4”...
  • Page 79 Chapter 5 Buffering Command of “judgment output” (HI, LO, HI or LO, HI to GO, LO to GO, HI or LO to GO), “At an alarm occurred”, and “At an alarm released”. The initial value is set to “At timing input ON”. ·...
  • Page 80: Buffering Start

    Chapter 5 Buffering Command For trigger mode: Loads the measured data from the actual trigger generated point to the delayed trigger point that has been set for this function. For sample trigger mode: Starts accumulation of the measured data from the delayed trigger point that has been set for this function after the trigger was generated.
  • Page 81: Status Check

    Chapter 5 Buffering Command For the initiation conditions of each buffering mode, refer to "5-1-① 2. Select the buffering mode." 4. Status check Wait until accumulation is completed. Starting conditions of accumulating performance differs on the buffering mode type. The status of accumulation can be loaded by the “Status Readout” command.
  • Page 82 Chapter 5 Buffering Command Status Contents Buffering operation is not executed at all after turning on the power Non-buffering supply or after initialization, or buffering operation is stopped while waiting for trigger after buffering has started. Wait for trigger Wait for trigger status after buffering operation has started. Buffering operation has started and measurement data is being Accumulating accumulated, or trigger has being generated and measurement data is...
  • Page 83: Self-Stop: Rss/Wss

    Chapter 5 Buffering Command Explanation of Buffering Command 5-2-1Self-stop: RSS/WSS WSS and RSS respectively specify and load the setting of self-stop. Command Code Subdata Description Read Setting 00000 00001 % E E # R S S FORMAT Header Command Code % E E # W S S FORMAT Header...
  • Page 84: Buffering Type: Rtt/Wtt

    Chapter 5 Buffering Command % E E # R B D FORMAT Header Command Code % E E # W B D FORMAT Header Command Code Subdata (1) Setting of Buffering Mode is loaded. Request: % E E # R B D 5 * * FORMAT Response: % E E $ R B D 0 0 0 0 0 * *...
  • Page 85: Buffering Rate: Rbr/Wbr

    Chapter 5 Buffering Command 5-2-4 Buffering Rate: RBR/WBR WBR and RBR respectively specify and load the setting of buffering rate. The rate at buffering can be selected from “1” to “1/32768”. When “1/4” is selected, data buffering is executed once in four sampling cycles.
  • Page 86: Accumulated Amount: Rbc/Wbc

    Chapter 5 Buffering Command 5-2-5 Accumulated Amount: RBC/WBC WBC and RBC respectively specify and load the setting of accumulated amount of data. The maximum accumulated amount is 65,000 data when “OUT1” or “OUT2” is selected in Buffering Type, or 32,500 data when “OUT1&OUT2” is selected.
  • Page 87 Chapter 5 Buffering Command % E E # R T R FORMAT Header Command Code % E E # W T R FORMAT Header Command Code Subdata (1) Setting of Trigger Conditions is loaded. Request: * * FORMAT Response: FORMAT *...
  • Page 88: Trigger Point: Rtp/Wtp

    Chapter 5 Buffering Command 5-2-8 Trigger Point: RTP/WTP WTP and RTP respectively specify and load the setting of trigger point of data. Command Code Subdata Description Read Setting 1 to Accumulated amount % E E # R B C FORMAT Header Command Code...
  • Page 89: Buffering Operation: Rbs/Wbs

    Chapter 5 Buffering Command Response: R S R FORMAT * * (2) Sample Trigger Accumulation Amount is set to “10”. # W S R Request: * * FORMAT Response: $ W S R FORMAT * * 5-2-10 Buffering Operation: RBS/WBS WBS and RBS respectively specify and load the setting of buffering operation.
  • Page 90: Final Data Point: Rld

    Chapter 5 Buffering Command (1) Status Readout setting is loaded. Request: % E E # R T S 3 * * FORMAT Response: % E E $ R T S 0 0 0 0 0 * * FORMAT 5-2-12 Final Data Point: RLD RLD loads the final data point.
  • Page 91: Data (Rapid): Rlb

    Chapter 5 Buffering Command Accumulation data is loaded by normal readout. Request: % E E # R L A 3 0 0 2 0 1 0 0 4 0 0 * * FORMAT Response: % E E $ R L A + 0 1 2 3 4 5 6 7 8 + 0 1 2 3 4 5 6 7 8 + 0 1 2 3 4 5 6 7 8 …...
  • Page 92: Trigger Counter Readout: Rle

    Chapter 5 Buffering Command 5-2-15 Trigger Counter Readout: RLE RLE loads the number of times of the trigger generation. Command Least input Code Setting value increment Read Setting 0 to end data point % E E # R L E FORMAT Header Command...
  • Page 93: Appendix

    Appendix This chapter describes index and revision history. 1 Index ········································ 2...
  • Page 94: Index

    Appendix Index Chattering Prevention for Terminal 2 Input ........... 3-3 Console Panel Lock ....4-12 2 Output Measurement Value ..3-5 Console Start-up Screen ..... 4-11 A Copy Destination Memory ..... 4-4 Copy Output Setting ...... 4-2 Accumulated Amount ....5-14 Copy Source Memory ....
  • Page 95 Appendix H P Hold ..........2-7 Peak Recognition Sensitivity ..1-15 Priority Setting of Memory Change4-2 I R Initialize ......... 4-5 Installation Mode ......1-2 RAA..........2-18 Interference Prevention ....3-5 RAC ..........2-21 RAD ..........2-20 J RAH ..........2-15 RAL ..........
  • Page 96 Appendix RIC ..........3-3 RSR ..........5-16 RID ..........1-13 RSS ..........5-11 RIM ..........3-3 RTH ..........1-15 RKG ..........4-11 RTI ..........2-6 RKS ..........4-9 RTL ..........5-15 RKT ..........2-22 RTP ..........5-16 RLA ..........5-18 RTR ..........
  • Page 97 Appendix WAS ..........2-18 WMF ........... 1-15 WAV ..........2-10 WMK ........... 2-12 WBC ..........5-14 WML..........2-12 WMM ..........1-2 WBD ..........5-11 WMN ..........2-3 WBF ..........1-7 WBR ..........5-13 WOC ..........4-2 WBS ..........5-17 WOF..........3-4 WCA ..........
  • Page 98: Revision History

    Appendix Revision history Released date Revision No. October 2007 First release May 2008 Second release July 2008 Third release October 2008 Fourth release September 2009 Fifth release June 2010 Sixth release February 2011 Seventh release December 2012 Eighth release June 2013 Ninth release January 2019 Tenth release...

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