User`s Manual
Contents
1. Description 2 14 IM 04L51B01 17EN 2 4 Setting Commands You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p3 Off you cannot set p4 This setting is valid when event data recording is enabled recording mode of the SMemory command There is a limit to the number of recording channels depending on the recording interval SEventData command Recording Number of Recording Channels Interval 100 ms 100 200 ms 200 500 ms or more 500 For the large memory type GX20 2 GP20 2 GM10 2 the following table applies Recording Number of Recording Channels Interval When recording only When recording display event data data and event data 100ms 500 100 200ms 500 200 500ms 1000 500 1s or more 1000 1000 You cannot set a channel more than once BsrRecManual Channel for Recording Manual Sampled Data Sets the channel for recording manual sampled data Syntax SRecManual pl p2 p3 pl Number 1 to 50 p2 Channel type Off Do not record manual sampled data IO I O channel Math Math channel Com Communication channel p3 Channel number Query SRecManual p1 Example Assign the manual sampled data of I O channel 0003 to number 2 and record SRecManual 2 10 0003 Description You cannot use this command to configure settings2. IM 04L51B01 17EN 2 55 sesuodses pue spueuluio 2 H 2 4 Setting Commands Bspiuetooth Bluetooth Communication Function C8 GM Sets the Bluetooth communication function Syntax SBluetooth pl pl Bluetooth function On Off On Off On Use Off Not Use Query SBluetooth Example Use the Bluetooth communication function SBluetooth On Description The settings specified with this command take effect with the OBTApply command The settings do not change until you send the OBTApply command Isetip Bluetooth Communication ID C8 GM Sets the Bluetooth communication ID Syntax SBTID p1l pl Local device name GM s Bluetooth device name Up to 30 characters ASCII Query SBTID Example Set the local device name to SMARTDAC GM SBTID SMARTDAC GM Eiserrimeout Bluetooth Communication Timeout C8 GN Sets the Bluetooth communication timeout Syntax SBTTimeOut pl pi Timeout function Off 1min 2min 5min 10min Query SBTTimeOut Example Set the Bluetooth communication timeout value to 5 minutes SBTTimeOut 5min Description e If the login function is in use users that are logged in are automatically logged out when a timeout occurs BsusbFunction USB Communication Function GM Configures USB communication function settings Syntax SUsbFunction pl pl USB communication function On Off On Off On Use Off Not Use Query SUsbFunction Example Use t
3. COMM SRangeCom SValueCom SWDCom SAlarmCom SAlmHysCom SAlmDlyCom STagCom SColorCom SZoneCom SScaleCom SBarCom SPartialCom SBandCom SAlmMarkCom GROUP SGroup STripLine SSclBmp IP SIpAddress SDns SDhcp SECURITY SKdc SSecurity SOpePass SOpeLimit SUser SUserLimit SSignlIn SSignInTitle SSignInLimit SBTPassword SWebCustomMenu SWebTimeOut SSessionSecurity CALIB SCalibIO ETH SERVER SServerEncrypt SDarwinCnvCh SServer INSTRUMENT SBTID SInstruTag e For the output format see page 2 101 BFchinfo Outputs Decimal Place and Unit Information Outputs decimal place and unit information Syntax FCnf pl pl Operation ALL Read all settings IO Read I O settings MATH Read Math settings CO Read communication settings GROUP Read display group settings IP Read IP address settings SECURITY Read security settings CALIB Read calibration correction settings ETH SERVER Read Ethernet server related settings INSTRUMENT Read instrument information related settings FChInfo pl p2 pl First channel p2 Last channel Syntax 2 60 IM 04L51B01 17EN 2 5 Output Commands Example Output the decimal place and unit information of channels 0001 to 0003 FSysConf FChInfo 0001 0003 Description Queries the System Configuration and e Ifyou omit p1 and p2 all channels will be output Reconfigures Modules
4. CRLF is the terminator that the recorder uses CRLF will be used in the explanation of the syntax In the response examples CRLF will be omitted Negative Response If a command syntax error setting error or other error occurs the recorder returns a negative response Syntax El p p pCRLF p Error number and the position of error occurrence The detailed format of p is indicated below The recorder outputs the error number the position of the command where the error occurred and the position of the parameter where the error occurred each separated by a colon en cp pp en Error number cp A value indicating the command position where the error occurred The position is numbered in order with the first command as 1 For a single command the recorder outputs 1 pp A value indicating the parameter position where the error occurred The position is numbered in order with the first parameter in each command as 1 For errors that pertain to the entire command for example error in the command name the recorder outputs 0 If errors occur in multiple parameters the recorder outputs numbers separated by commas in ascending order Response Example 1 If error number 3 occurs in the second parameter of a single command the recorder outputs ELT 3 122 Response Example 2 If error number 1 occurs in the third parameter and error number 100 occurs in the fifth parameter of a single command the recorder output
5. Outputs an event log You can specify the event user etc Syntax FEventLog p1 p2 p3 p4 p1 Output format 0 The same output format as Flog EVENT no detailed information 1 Include detailed information p2 Username Up to five user names can be specified by separating each user with a colon p3 Event specification specified with an event string Up to five events can be specified by separating each user with a colon Events will be searched using a prefix search P4 Maximum number of output 1 to 400 Example Output the log of up to 10 message001 writing operations by User01 FEventLog 1 User01 Message001 10 Description Omitting p2 is equivalent to specifying all users e f more than five users are specified by p2 only the first five users will be valid Omitting p3 is equivalent to specifying all events e f more than five events are specified by p3 only the first five events will be valid e For the event strings of p3 see section 2 10 19 Detail Event Log Output FEventLog AS Temedia Outputs External Storage Medium and Internal Memory Information Outputs external storage medium and internal memory information File list Syntax FMedia pl p2 p3 p4 p1 Output type DIR p2 Path name up to 100 characters Path name for outputting the file list p3 File list output start position 1 to 99999999 P4 File list output end position 1 to 99999998 1 Last position for outputting the file lis
6. When you open an instrument with the ESC O command you can send commands to it Use CR LF for the terminator 2 74 IM 04L51B01 17EN 2 10 ASCII Output Format This section explains the ASCII output format In the following format descriptions the terminator is denoted by lt crif gt One space ASCII code 0x 20 is denoted by an underscore _ Consecutive spaces are denoted by alternating underscores _ and overscores Anl O channel is expressed as a four digit number e g 0102 a math channel is expressed as A followed by a three digit number e g A015 and a communication channel is expressed as C followed by a three digit number e g C120 2 10 1 Most Recent Channel Data FData The output in response to the command FData 0 is shown below Syntax EA crlf DATE yy mo dd lt crlf gt TIME hh mm ss mmmt crlf S CCCCa1a2asa uuuuuuuuuufddddddddE pp crlf S CCCCa1a2asa uuuuuuuuuufddddddddE pp crlf S CCCCa1a2asaguuuuuuuuuufddddddddE pp crlf EN crlf yy mo dd Data time year month day yy Year 00 to 99 mo Month 01 to 12 dd Day 01 to 31 hh mm ss mmmt Data time hour minute second millisecond hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 mmm Millisecond 000 to 999 Cccc a1a2a3a4 uuuuuuuuuu A period is inserted between the minute and millisecond Reserved space Data status Normal D Dif
7. 2 82 IM 04L51B01 17EN 2 10 ASCII Output Format Status Information 3 Bit Name Description 0 Computation dropout Set to 1 when computation cannot keep up 1 Decimal and unit Set to 1 when the decimal or unit information is information setting changed 2 Command error Set to 1 when there is a command syntax error 3 Execution error Set to 1 when there is a command execution error 4 SNTP error at startup Set to 1 when SNTP time synchronization fails at startup 5 6 7 E Status Information 4 Bit Name Description 0 1 Medium access complete Set to 1 when a display event manual sample report or screen image data file is saved to the external storage medium Set to 1 when settings have been successfully saved or loaded 2 Report generation complete Set to 1 when report generation is complete 3 Timeout Set to 1 when a timer expires 4 Saving or loading complete Set to 1 when the saving or loading of setting parameters report template scale image and custom display settings is complete 5 7 6 7 z IM 04L51B01 17EN 2 83 sesuodses pue spuewwog H 2 10 ASCII Output Format 2 10 8 Alarm Summary FLog The output in response to the command FLog ALARM is shown below Syntax EA crlf EN crlf yyyy mo dd hh mm ss ttt kkk cccc lss crlf yyyy mo dd hh mm ss ttt Time of alarm occurrence
8. Event Action Setting Commands SEventAct Event action Report Setting Commands SReport SRepData SRepTemp SDigitalSign SRepCh Report type MT Report data MT Report output MT Electronic signature inclusion MT Report channel MT Display Setting Commands SLcd SViewAngle SBackColor SGrpChange SAutoJump SCalFormat SBarDirect SChgMonitor STrdWave STrdScale STrdLine STrdRate STrdKind STrdPartial SMsgBasic SGroup STripLine SSclBmp essage TimeZone DateBasic DateFormat Dst Lang Temp DPoint SFailAct NNNNNHNNDP O SFailSts SPrinter SLed SSound SInstruTag SConfCmt SUsbInput LCD GX GP View angle GX GP Screen background color GX GP Automatic group switching time GX GP Jump default display operation GX GP Calendar display format GX GP Bar graph display direction GX GP Value modification from the monitor Trend waveform display GX GP Scale GX GP Page 2 33 Page 2 34 2 34 2 35 2 35 2 35 Page 2 36 2 36 2 36 2 36 2 36 2 36 2 36 2 36 2 37 2 37 Trend line width grid GX GP 2 37 Trend interval switching GX GP Trend type GX GP 2 37 2 37 Partial expanded trend display2 37 GX GP Message writing Display group Display group trip line Scale bitmap image usage GX GP Message ystem Setting Commands Time zone Gradual time adjustment Date format Daylight saving time
9. Example Apply the IP address settings OIPApply 0 Description e This command applies the IP address settings specified by the SlpAddress SDhcp SDns and SServer commands e When you send this command the IP address settings take effect when the recorder returns a response After this process the connection will be cut off This includes Ethernet connections to other devices Modbus server FTP server etc Fonit Clears Measured Data and Initializes Setting Data Clears the measured data in internal memory The command also initializes setting data Syntax OInit pl p2 p1 The types of data to be initialized and cleared SECURITY Security settings Display data event data manual sampled data report data alarm summary message summary Settings other than those above ALL All measured data and settings You can specify multiple items at once To do so separate items with a colon p2 Setting items to be excluded from the items specified by p1 OTHERS Memory OTHERS IP IP address settings SERVER Server related settings CALIB Calibration correction setteings INSTRU nstrumentinformation settings You can specify multiple items at once To do so separate items with a colon Example Delete the measured data and summary from the internal memory OInit MEMORY Initialize the settings excluding IP address settings and instrument information OInit MEMORY SECURITY OTHERS IP IN
10. Example In allocation number 1 allocate the RMS voltage of element 1 of the WT1800 assigned to server registration number 2 to communication channel 003 SWattData 1 0n 003 2 Elementl1 URMS Description The available data groups p5 vary depending on the model p5 Description Supported Item WT1800 WT500 WT300 Off Unspecified Yes Yes Yes Element1 Element 1 data Yes Yes Yes Element2 Element 2 data Yes Yes Yes Element3 Element 3 data Yes Yes Yes Element4 Element 4 data Yes Element5 Element 5 data Yes Elemente Element 6 data Yes ElemHrm1 Element 1 harmonic Yes Yes Yes data ElemHrm2 Element 2 harmonic Yes Yes Yes data ElemHrm3 Element 3 harmonic Yes Yes Yes data ElemHrm4 Element 4 harmonic Yes data ElemHrm5 Element 5 harmonic Yes data ElemHrm6 Element 6 harmonic Yes data SigmaA First wiring unit data Yes Yes Yes SigmaB Second wiring unit data Yes SigmaC Third wiring unit data Yes Other Other types of data Yes Yes _ Yes DeltaA First wiring unit delta Yes math data DeltaB Second wiring unit delta Yes math data DeltaC Third wiring unit delta Yes math data Delta Delta math data Yes Motor Motor option data Yes Aux Auxiliary input option Yes data Phase Phase differenc
11. Example Output an alarm on internal switch 3 Use OR logic SSwitch 3 Alarm Or Description p3is valid when p2 Alarm IM 04L51B01 17EN 2 41 sesuodses pue spueuluio 2 H 2 4 Setting Commands BsserialBasic Serial Communication Basics C2 or C3 Sets basic serial communication parameters Not Use Syntax SSerialBasic pl pl Function Off Normal Bar code Syntax SSerialBasic pl p2 p3 p4 p5 p6 p7 pl Function Normal GX GP Normal Barcode Darwin GM Normal Darwin p2 Address 1 to 99 p3 Baud rate bps 1200 2400 4800 9600 19200 38400 57600 115200 P4 Parity Odd Even None p5 Stop bits 1 2 p6 Data length bit 7 8 p7 Handshaking Off Off XON XON XON RS CS RS Modbus Master and Modbus Slave Syntax SSerialBasic pl p2 p3 p4 p5 p1 Function Master Slave p2 Address 1 to 247 p3 Baud rate bps 1200 2400 4800 9600 19200 38400 57600 115200 P4 Parity Odd Even None p5 Stop bits 1 2 Query SSerialBasic Example Set the baud rate to 9600 the data length to 8 the parity check to ODD the stop bits to 1 the handshaking to OFF OFF the address to 02 and the protocol to NORMAL SSerialBasic Normal 2 9600 0dd 1 8 Off Off Description You can set p1 Master only on recorders that have the MC option The settings specified with this command takes effect with the OSeriApply command The recorder serial settings do not change until you send
12. p5 G value of the RGB mark colors for alarm 1 0to 255 p6 B value of the RGB mark colors for alarm 1 0to 255 p7 R value of the RGB mark colors for alarm 2 0to 255 p8 G value of the RGB mark colors for alarm 2 0to 255 p9 B value of the RGB mark colors for alarm 2 0to 255 p10 R value of the RGB mark colors for alarm 3 0 to 255 p11 G value of the RGB mark colors for alarm 3 0 to 255 p12 B value of the RGB mark colors for alarm 3 0 to 255 p13 R value of the RGB mark colors for alarm 4 0 to 255 p14 G value of the RGB mark colors for alarm 4 0to 255 p15 B value of the RGB mark colors for alarm 4 0to 255 Query SAlmMarkCom p1 Example Display the alarm marks for alarms 1 to 4 of communication channel 025 in fixed colors red brown orange and yellow respectively SAlmMarkCom 025 0n Fixed 255 0 0 165 42 42 255 165 0 255 255 0 Description e For details on RGB values see Description of the SColorlO command IM 04L51B01 17EN 2 31 sesuodsey pue spueuiuio 2 H 2 4 Setting Commands Bsaimcimit Rate of Change Alarm Interval Sets the rate of change interval of the rate of change alarm Syntax SAlmLimit pl p2 pl Interval for the low limit on rate of change alarm 1 to 32 Integer multiple of the scan interval p2 Interval for the high limit on rate of change alarm 1 to 32 Integer multiple of the scan interval Query SAlmLimit Example Set the intervals for the low limit on rate of
13. xipueddy E Appendix 2 Login Procedure To communicate using the general communication feature you must log in to the recorder from your PC If you complete the procedure successfully up to Login complete in the following figure you will be able to use the commands When Using the Login Function For Bluetooth the Bluetooth connection flow chart is inserted here see appendix 7 ithin the number of connections Login complete start Cc End Response from the recorder message omitted Code Response E1 402 is returned when the advanced security function AS is enabled f the format of the CLogin command is not correct verification is not performed and an error code indicating the error is returned The following error code is returned when the advanced security function AS is enabled 251 262 263 264 265 272 273 767 When the password management is in use the following error code is returned in addition to the error code above 004 252 261 651 657 760 761 762 763 764 765 766 768 769 770 771 772 773 774 775 App 2 IM 04L51B01 17EN Appendix 2 Login Procedure When Not Using the Login Function For Bluetooth the Bluetooth connection flow No chart is inserted here see appendix 7 Within the number of connections Login complete Start End Judge Disconnect Lt L3 lt gt Response from the recorder
14. Queries the System Configuration Reconfigures Modules and Performs Activation Query the System Configuration Syntax FSysConf Example Query the System Configuration FSysConf Description e For the output format see page 2 101 e For the output format see page 2 102 Reconfigures Modules Aligns the module configuration settings that are recognized by the recorder and the actual module configuration Syntax FSysConf pl pl Module reconfiguration 1 Example Reconfigure the modules FSysConf 1 Activate module Modules need to be activated when the firmware in installed modules is updated or when modules are recalibrated Syntax FSysConf p1l pl Activate module 3 Example Activate modules FSysConf 3 Description When the advanced security function AS is disabled this commands will result in error I FBTDevinfo Bluetooth Device Information Output GM Outputs the Bluetooth device information of the recorder Syntax FBTDevInfo pl p1 Bluetooth device information output 0 Example Output the Bluetooth device information of the connected device FBTDevinfo 0 Description e p1 can be omitted e For the output format see page 2 104 IM 04L51B01 17EN 2 61 s suods y pue spuewwog 2 6 Operation Commands lBlosetrime Sets the Time Sets the time Syntax OSetTime pl pl Time to set YYYY MO DD_HH MI SS the underscore denote a space YYYY MO DD
15. Query SSerialAutoLOut Example Set the auto logout time for users logged in through serial communication to 1 minute SSerialAutoLOut 1min Description e Auto logout is applied to users logged in through serial communication when the communication security function is set to Login p2 of the SSecurity command and the receiver function setting in the basic serial settings p1 of the SSerialBasic command is set to Normal IsipAddress IP Address Information Sets the IP address information Syntax SIpAddress pl p2 p3 pl IP address 0 0 0 0 to 255 255 255 255 p2 Subnet mask 0 0 0 0 to 255 255 255 255 p3 Default gateway 0 0 0 0 to 255 255 255 255 Query SIpAddress Example Set the IP address to 192 168 111 24 the subnet mask to 255 255 255 0 and the default gateway to 192 168 111 20 SIpAddress 192 168 111 24 255 255 255 0 192 168 111 20 Description The settings specified with this command takes effect with the OIPApply command The recorder IP address does not change until you send the OIPApply command lisciient Client Function Sets the client function Syntax SClient p1 p2 pl Client type FTP SMTP SNTP MODBUS WATT p2 Client Function Off On Query SClient p1 Example Use the FTP client function SClient FTP On Description e Modbus client is valid on models with the MC communication channel option WT connection client is valid on models with the E2 WT
16. SMatchTimer pl p2 p3 p4 p5 p6 Match time timer number 1 to 4 Type Month Start time Day 1 to 28 Interval Hours HH 00 to 23 Interval Minutes MM 00 to 59 Timer action Single Single shot Repeat Repeat Match Time Timer That Synchronizes Once a Week Syntax p1 p2 p3 P4 po p6 SMatchTimer pl p2 p3 p4 p5 p6 Match time timer number 1 to 4 Type Week Start time Day of week Sun Mon Tue Wed Thu Fri Sat Interval Hours HH 00 to 23 Interval Minutes MM 00 to 59 Timer action Single Single shot Repeat Repeat Match Time Timer That Synchronizes Once a Day Syntax pi p2 p3 P4 p5 Query SMatchTimer pl p2 p3 p4 p5 Match time timer number 1 to 4 Type Day Interval Hours HH 00 to 23 Interval Minutes MM 00 to 59 Timer action Single Single shot Repeat Repeat SMatchTimer p1 Example Sets match time timer number 2 to a timer that operates on 21 hours 30 minutes on April 17 every year SMatchTimer 2 Year Apr 17 21 30 Re peat Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p2 Off you cannot set p3 or subsequent parameters SEventAct Event Action Sets an event action Syntax SEventAct p1 p2 p3 p4 p5 p6 p7 SEventAct p1 p2 p3 p4 p5 p6 p7 p8 SEventAct p1 p2 p3 p4 p5 p6 p7 p8 rp9 SEventAc
17. Syntax SModList pl p2 p3 p1 Registration number 1 to 10 p2 Enable or disable registration Off On p3 P address 0 0 0 0 to 255 255 255 255 Query SModList p1 Example Register IP address 192 168 111 24 to registration number 1 SModList 1 0n 192 168 111 24 B swattList WT Communication Connection Server E2 Sets the WT communication connection server Syntax SWattList pl p2 p3 p4 p1 Registration number p2 Enable or disable On Off p3 Server name up to 64 characters ASCII p4 Model WT300 WT500 WT1800 Query SWattList p1 Example Register model WT1800 and server name Watt01 in registration number 1 SWattList l1 On WattO1 WT1800 BswattCiient WT Communication Operation E2 Sets the WT communication operation Syntax SWattClient pl p2 pi Read cycle 500ms 1s 2s 5s 10s 20s 30s p2 Recovery wait time 5s 10s 30s 1min 2min 5min Query SWattClient Example Set the read cycle to 10 seconds and recovery wait time to 2 minutes SWattClient 10 2min i SWattData WT Data Allocation to Communication Channel E2 Allocates WT data to a communication channel Syntax SWattData pl p2 p3 p4 p5 p6 p7 p1 Allocation No p2 Enable or disable specification On Off p3 Communication channel p4 Serverregistration number p5 Data group name see Description and Appendix 6 p6 Data name see Appendix 6 p7 Exponential scaling 9 to 18 default value 0 Query SWattData p1
18. Syntax SReport pl p2 p3 p1 Type Day Month p2 Day to create reports 1 to 28 p3 Time to create reports Hour HH 00 to 23 Batch Reports Syntax SReport pl p2 p1 Type Batch p2 Recording interval 2min 3min 4min 5min 10min 15min 30min 1h Day Custom Reports Syntax SReport pl p2 p3 p4 p5 pl Type Custom p2 Recording interval 2min 3min 4min 5min 10min 15min 30min 1h p3 File creation interval 4h 6h 8h 12h 24h P4 Time to create reports Hour HH 00 to 23 p5 A to create reports Minute MM 00 to 59 Query SReport p1 Example Create daily reports at 09 00 every day and monthly reports at 09 00 on the first day of each month SReport Day Month 1 09 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p1 Off you cannot set p2 or subsequent parameters BisReppata Report Data MT Sets the data type and file type of reports Syntax SRepData pl p2 p3 p4 p5 p6 2 34 IM 04L51B01 17EN 2 4 Setting Commands pl Data type 1 Max Min Ave Sum Inst p2 Data type 2 Off Max Min Ave Sum Inst p3 Data type 3 Off Max Min Ave Sum Inst P4 Data type 4 Off Max Min Ave Sum Inst p5 Data type 5 Off Max Min Ave Sum Inst Off No Max Maximum value Min Minimum value Ave Average value Sum Integrated value Inst I
19. User s SMABT 10 Manual Model GX10 GX20 GP10 GP20 GM10 Communication Command User s Manual vigilantplant YOKOGAWA IM 04L51B01 17EN Yokogawa Electric Corporation 6th Edition Introduction Notes Trademarks Revisions 6th Edition Aug 2015 YK Thank you for purchasing the SMARTDAC GX10 GX20 GP10 GP20 GM10 Series hereafter referred to as the recorder GX GP or GM This manual explains the dedicated commands for the recorder To ensure correct use please read this manual thoroughly before beginning operation The contents of this manual are subject to change without prior notice as a result of continuing improvements to the instrument s performance and functions Every effort has been made in the preparation of this manual to ensure the accuracy of its contents However should you have any questions or find any errors please contact your nearest YOKOGAWA dealer Copying or reproducing all or any part of the contents of this manual without the permission of YOKOGAWA is strictly prohibited The TCP IP software of this product and the documents concerning it have been developed created by YOKOGAWA based on the BSD Networking Software Release 1 that has been licensed from the Regents of the University of California vigilantplant is a registered trademark of Yokogawa Electric Corporation e SMARTDACt is a registered trademark of Yokogawa Electric Corporation Microsoft and Windows are reg
20. VER Outputs the instrument s firmware 2 70 version information _OPT Outputs the instrument s option 2 70 installation information _TYP Outputs the instrument s 2 70 temperature unit and daylight saving time installation information _ERR Outputs the instrument s error 2 70 number information UNS Outputs the instrument s unit 2 70 configuration information _UNR Outputs the instrument s unit 2 70 configuration information _MDS Outputs the instrument s module 2 70 configuration information _MDR Outputs the instrument s module 2 70 configuration information 2 2 6 Conditions for Executing Commands A command can be executed only when the recorder can execute the setting change or operation that the command specifies Commands are invalid in the following circumstances The recorder is not in a condition to accept the operation For example if the recorder is not recording you cannot write a message If the recorder does not have the function or is not using the function The Description column in section 2 2 1 Setting Commands contains the recorder suffix codes that are required for using the commands If the login function is in use the command cannot be used at the user level that the user is logged in at User restriction is placed on the operation The following table lists the commands that are invalid according to the limitation types p1 of the SOpeLimit command or p2 of the SUserLimit c
21. p2 Recipient Off 1 2 1 2 Power failure notification Syntax SMail pl p2 pl Setting type Power p2 Recipient Off 1 2 1 2 System Error Notification Syntax SMail pl p2 p1 Setting type System p2 Recipient Off 1 2 1 2 User Lockout Notification AS Syntax SMail pl p2 p1 Setting type UserLock p2 Recipient Off 1 2 1 2 Query SMail pl Example Send alarm notifications to recipient 1 when alarms occur and when they are cleared Include instantaneous data at the time of transmission and include the tag number or channel number in the subject SMail Alarm 1 0n On Off On Description The report function is an option MT suailAlarm Alarm Notification Mail Target Channels Detects the alarm status of the specified channels and sends alarm notifications Syntax SMailAlarm pl pl Channel string up to 249 characters up to 50 channels e Use channel number to specify the channels 4 digit numbers for I O channels Numbers that start with A for math channels A015 Numbers that start with C for communication channels C020 The maximum number of characters per channel is 4 Use periods to separate channel numbers see example To specify all channels from the first channel to the last channel delimit the channels with a hyphen An error will occur if there are no valid channels in the hyphen designated channels SMailAlarm The channel string is output exactly as it is
22. 02 03 04 Unit nnf aaa aaa aaa aaa aaa lt erl cri lt cerl lt erl Sor Sc Gri er Serl lt CrL cri SC Meri lt Serl cri Scri KOEL SEEL cri LOr lt cerl KEL lt Ccrl lt cerl Merk lt crL cri KOTLE SCEL lt cerl lt cerl KOEL cri crl Mer Sign or Mantissa 00000000 to 99999999 8 digits For erroneous data data status is E the mantissa is 99999999 If the data status is O over the mantissa is 99999999 over or 99999999 over If the data status is B burnout the mantissa is 99999999 burnout or 99999999 burnout Exponent 00 to 05 On channels set to Log scale LG pp is a two digit integer and the sign before pp is or If the data status is E O or B this value will be 99 including the sign f gt f gt f gt f gt f gt f gt E gt f gt f gt f gt f gt f gt f gt gt f gt f gt f gt f gt f gt E gt gt f gt f gt f gt f gt f gt f gt f gt f gt f gt E gt f gt E gt f gt f gt 2 76 IM 04L51B01 17EN 2 10 ASCII Output Format aaa 05 06 07 08 09 aaa aaa aaa aaa aaa EN lt crlf gt Sor lLt gt lt crlf gt lt crlf gt lt crlf gt lt crlf gt Unit number i Main unit Space Expandable I O or sub unit Outputs the relay DO channel status of module numbers 00 to 09 If the module installed in the corre
23. 1st 2nd 3rd 4th Last p8 End time Weekday Sun Mon Tue Wed Thu Fri Sat p9 End time Hour 0 to 23 Query SDst Example Switch to daylight saving time at hour 0 on the first Sunday of June and switch back at hour 0 on the first Sunday of December SDst On Jun 1st Sun 0 Dec 1st Sun 0 Isang Language Sets the language to use Syntax SLang pl pl Language Japanese English German French Chinese Russian Korean Query SLang Example Set the language to Japanese SLang Japanese Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress e If you change the language with this command the recorder may restart IM 04L51B01 17EN 2 39 sesuodsey pue spueuluio 2 H 2 4 Setting Commands Istemp Temperature Unit Sets the temperature unit Syntax STemp pl pl Temperature unit C Celsius F Fahrenheit Query STemp Example Set the temperature unit to Celsius STemp C Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress EspPoint Decimal Point Type Sets the decimal point type Syntax SDPoint pl pl Decimal point type Point Use points Comma Use commas Query SDPoint Example Use a comma for the decimal point
24. MT 2 25 SKConst Constant MT 2 25 SRangeMath Computation expression MT 2 25 STlogMath TLOG MT 2 26 SRolAveMath Rolling average MT 2 26 SAlarmMath Alarm MT 2 26 SAlmHysMath Alarm hysteresis MT 2 26 SAlmDlyMath Alarm delay time MT 2 27 STagMath Tag MT 2 27 SColorMath Channel color MT 2 27 SZoneMath Waveform display zone MT 2 27 SScaleMath Scale display MT GX GP 2 27 SBarMath Bar graph display MT 2 27 SPartialMath Partial expanded display 2 27 MT GX GP SBandMath Color scale band MT 2 28 SAlmMarkMath Alarm mark MT 2 28 Communication Channel Setting Commands Page SRangeCom Measurement range IMC 2 29 SValueCom Preset operation MC 2 29 SWDCom Watchdog timer MC 2 29 SAlarmCom Alarm MC 2 29 SAlmHysCom Alarm hysteresis MC 2 30 SAlmDlyCom Alarm delay time MC 2 30 STagCom Tag MC 2 30 SColorCom Channel color MC 2 30 SZoneCom Waveform display zone MC 2 30 SScaleCom Scale display MC GX GP 2 30 SBarCom Bar graph display MC 2 30 SPartialCom Partial expanded display 2 31 MC GX GP SBandCom Color scale band MC 2 31 SAlmMarkCom Alarm mark MC 2 31 Alarm Setting Commands Page SAlmLimit Rate of change alarm interval 2 32 SIndivAlmACK Individual alarm ACK 2 32 SAlmSts Alarm display hold nonhold 2 32 Time Setting Commands Page STimer Timer 2 32 SMatchTimer Match time timer 2 32 IM 04L51B01 17EN 2 5 sesuodses pue spuewwog H 2 2 List of Commands
25. Off On Query SFtpKind p1 Example Automatically transfer display and event data files SFtpKind Data On Description The report function is an option MT e p1 can be set to Setting when the advanced security function AS is enabled lsrtprime FTP Transfer Time Shift Sets the amount of time to shift file transfers that are carried out by the FTP client function Syntax SFtpTime pl p2 pl Setting type Data Display and event data files Report Report files p2 Transfer shift time minutes 0 to 120 Query SFtpTime p1 Example Shift delay FTP transfers of report data files by 30 minutes SFtpTime Report 30 Description The report function is an option MT 2 44 IM 04L51B01 17EN 2 4 Setting Commands EsFtpcnct FTP Client Connection Destination Server Sets the FTP client connection destination server Syntax SFtpCnct pl p2 p3 p4 p5 p6 p7 pl Server Primary Primary Secondary Secondary p2 Server name up to 64 characters ASCII p3 Port number 1 to 65535 P4 Username up to 32 characters ASCII p5 Password up to 32 characters ASCII p6 Directory name up to 64 characters ASCII p7 PASV mode Off On SFtpCnct pl The password is displayed using asterisks Example For the primary server assign the name server1 and port number 21 Set the user name to Administrator1 the password to password1 and the directory to directory1 Set PASV mod
26. RS 422 485 USB Bluetooth You can control the recorder by sending commands from a PC through the serial interface There are various types of commands setting commands output commands operation commands communication control commands and instrument information output commands Except for a few special commands the commands are the same as those used over an Ethernet network 1 2 1 Preparing the Instrument Connection See section 1 2 3 RS 232 Connection Procedure section 1 2 4 RS 422 485 Connection Procedure section 1 2 5 USB Connection Procedure or section 1 2 6 Bluetooth Connection Procedure Recorder Configuration Configure the recorder to use serial communication For instructions on how to configure the recorder see section 1 17 Configuring the Serial Communication Function C2 and C3 options in the Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN or section 2 18 Configuring the Serial Communication Function C3 option section 2 19 Configuring the USB Communication Function or section 2 20 Configuring the Bluetooth Communication Functions in the Data Acquisition System GM User s Manual IM 04L55B01 01EN PC The PC that you will use must meet the following requirements The PC is connected to the recorder through the serial interface The PC can run programs that you have created see section 1 2 2 Sending Commands and Receiving Response
27. Veee Version number Unit uu Slot ss dd UUsees u Unit S Slot dde Calibration date same format as the log date UUseee Calibration user Example Unit00 Slot 01 2013 06 05 User01 Unit uu Slot ss mmees iise vveee u Unit S Slot mmeee Module name iieee Serial number vveee Version number cccc s typ val hys Otyp Ono b1 b2 b3 b4 b5 b 6 b7 gt a1 a2 a3 a4 a5 a6 a7 C Channel Level b1 b7 Before change a a7 After change The following settings those that have been changed among the following seven settings S On Off ON OFF typ Type H L R r h 1 T t val Alarm value hys Hysteresis Logging ON OFF Otyp Output type OFF DO SW Ono Output number Example 1 0001 1 s typ val hys Otyp Ono off TH Off 2 000 0 0005 D0 0001 gt off TL off 2 000 0 0005 SW 001 Example 2 0002 2 val 2 000 gt 1 000 cccc hour min sec b1 b2 b3 gt a1 a2 a3 cccc Channel b1 b2 b3 Before change a1 a2 a3 After change The following settings those that have been changed among the following three settings hour Delay hour min Delay minute sec Delay second Example A100 hour min sec 00 00 00 gt 01 02 03 2 98 IM 04L51B01 17EN 2 10 ASCII Output Format Operation Event string information and detailed information Calibration SetCCModePnt cccc mode num b1 b2 gt a1 a2 correction set point C Channel change b1 b2 Before change
28. a1 a After change The following settings those that have been changed among the following two settings mode Mode OFF Bias Appro num Number of set points Example 0001 mode num OFF 3 gt Appro 12 Calibration correction SetCCValue cccc pp input output b1 b2 gt a1 a2 value change c Channel p Set number b1 b2 Before change a1 a2 After change The following settings those that have been changed among the following two settings input Calibration correction value output Output calibration value Example 0001 02 output 1 234 gt 2 234 Save directory SetDirectory b1 gt a1 change Folder name Example DATAO gt DATA1 Recipient address SetRecipient Recipient change l Recipient number 1 2 Example Recipient 1 Source address SetSender change Subject change SetSubject Login change SetLogin User UUU UUU User number Change while recording is stopped Setting change SetParameter sseee kkere sseee Setting file name kkeee Setting change type Security Comm l OCh MathCh CommCh Other list of changed settings Example 000111 131219 095412 GSL Security Comm OCh MathCh CommCh Other Updating Other updates Update Action output in the event string Web Web application lt Detailed information gt vveee VV Version number IM 04L51B01 17EN 2 99 s suods y pue spuewwog H 2 10 ASCII Output Format 2 10 20 External Storage Medium and Internal Memory File List
29. expandable I O or GM sub unit p2 0 1 2 Address number of the unit that the module is installed in Fixed at 0 ps 0 l 2 Slot number of the unit that the module is installed in 0 reference P4 GX90YD 06 11 Module name model name Enclosed in single quotation GX90EX 02 ET1 marks GX90XA 10 U2 All modules installed in the main unit GX90XD 16 11 e Amodule installed in an expandable I O or sub unit excluding the expansion module p5 1234567 Product serial number p6 R1 01 01 Module firmware version The output format is R version R1 02 01 p7 Space Options Codes of installed options delimited by spaces p8 O0 Fixed at 0 2 108 IM 04L51B01 17EN 2 10 ASCII Output Format Pn Value Description p9 0 10 8 Maximum number of input channels allowed on the module If there are no inputs O is output pio 0 16 Maximum number of output channels allowed on the module If there are no outputs 0 is output E pi o rannta EHan Module status The Module status is output in a character string The I O module information is output indicated in green below Without an expandable I O or sub unit With an expandable I O or sub unit s suods y pue spuewwog EX Expansion module er Al DI etc 1 0 module IM 04L51B01 17EN 2 109 2 11 Format of the Data Block of Binary Output This section explains the data that is stored in the data block in the binary output of data output res
30. or HH MI SS YYYY Year 2001 to 2035 MO Month 01 to 12 DD Day 01 to 31 HH Hour 00 to 23 MI Minute 00 to 59 SS Second 00 to 59 OSetTime The OSetTime query outputs the recorder current time Example Set the time to 23 00 00 on May 24 2013 OSetTime 2013 05 24 23 00 00 Blonec Starts or Stops Recording Starts or stops recording Syntax ORec pl pl Recording start or stop 0 Start 1 Stop Query ORec Example Start recording ORec 0 BoatarmAck Clears Alarm Output Clears alarm output performs an alarm ACK Syntax OAlarmAck p1 p1 Alarm output clearance 0 Example Clear the alarm output OAlarmAck 0 Query Individual alarm ACK Syntax OAlarmAck p1 p2 p3 pl Individual alarm output clearance 1 p2 Channel number p3 Alarm level 1 to 4 Example Clear the alarm output of alarm 3 of channel 0001 OAlarmAck 1 0001 3 Description e Ifyou send an individual alarm ACK command when the individual alarm ACK function is not in use no action is taken and a normal response is returned BoExecRec Generates a Manual Trigger Executes Manual Sample Takes a Snapshot or Causes a Timeout Generates a manual trigger executes manual sample takes a snapshot or divides the data being recorded into separate files Syntax OExecRec pl pl Action type GX GP 0 1 2 3 4 GM 0 1 3 4 0 Execute manual sampling 1 Generate a manual trigger 2 Take a snapshot 3 Cause a displa
31. 1s E Example 1 Description 9 To specify 3 to 10 3 10 You cannot use this command to configure settings To specify 3 to the maximum number 3 while recording is in progress To specify the first number to 10 10 You cannot use this command to configure settings To specify all numbers while computation is in progress e Ifa low withstand voltage relay type analog input Example 2 module is installed scan interval less than or equal to A command that sets the channel ranges of Al modules 200 ms cannot be specified installed in slots 0 to 2 to Skip e If an electro magnetic relay type analog input module SRangeAI 0001 0210 Skip or is installed scan interval less than or equal to 500 ms SRangeAI 0210 Skip cannot be specified If a different module is installed in slot 1 queries will work but setting commands will result in error E sscancroup Scan Group Registers a measurement channel in scan group 1 Syntax SScanGroup pl p2 p3 pl Unit number p2 Module number p3 Scan group 1 1 Scan group 1 Query SScanGroup p1 p21 Example Set the module installed in the main unit whose module number is 2 in scan group 1 SScanGroup 0 2 1 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress Ei suoaeA Al Module Sets the mode and A D integration time of an Al module excl
32. 2 10 6 Instrument Address FAddr us ctetu etic Le oett dt petuo buo Eus dde 2 81 2 10 7 GX status FStat 2 10 68 Alarm Sumimiaty Fog 2 2 nion eee HO ep trece iacit ted reo lee era 2 84 210 9 Message Summary FLO tissieri orda atate des ne rtu de esate 2 85 2 10 10 Event log FLog 2 10 11 Error Log FLog 2 10 12 Address Setting Log ELog icp hee ee dua 2 87 2 10 13 General Communication Log FLog 2 10 14 Modbus Commo nication Eog FLOg sic awienes inte eel cete de eo Pt Co pa db d 2 89 IM 04L51B01 17EN Contents 2 11 Appendix Appendix 1 Appendix 2 Appendix 3 Appendix 4 Appendix 5 Appendix 6 Appendix 7 2 10 15 ETR Client LO F LOO rine etr mter Ec ere eco vete cited rere te 2 90 2 10 16 SNTP Time Adjustment Client Log FlItog rice e rris 2 91 2 10 17 EMail Client LOJ FEOJ rri re to trt entree ce rede iret peni et erre dd 2 92 2 10 18 Web Log FLog rn 2 93 2 10 19 Detail Event Log Output FEventLog AS etr teneret reiten c iac 2 94 2 10 20 External Storage Medium and Internal Memory File List FMedia 2 100 2 10 21 External Storage Medium Free Space FMedia 2 100 2 10 22 Setting Data FCnt nee tnr 2 101 2 10 23 Decimal Place and Unit Information FChlnfo esssssesssseeeenneeennne 2 101 2 10 24 System Configuration FSysC
33. 2 63 SMultiKind Multi panel GX GP 2 54 OMath Starts stops or resets 2 63 inf ti 2 54 computation or clears the SHomeMonitor Standard display information 2 computation dropout status GX GP display SHomeKind Standard display GX GP 2 54 OSaveConf Saves setting data 2 63 SFavoriteMonitor Favorite screen display 2 55 OSaveConfAll1 Saves setting data at once GM 2 63 information GX GP OCommCh Sets a communication channel to 2 64 SFavoriteKind Favorite screen GX GP 2 55 a value Bluetooth Communication Setting Commands Page OEMail Starts or stops the e mail 2 64 SBluetooth Bluetooth communication 2 56 transmission function function C8 GM OMBRestore Recovers Modbus manually 2 64 SBTID Bluetooth communication ID 2 56 ORTReset Resets a relative timer 2 64 C8 GM OMTReset Resets the match time timer 2 64 SBTTimeOut Bluetooth communication 2 56 OCmdRelay Outputs the DO channel and 2 64 timeout C8 GM internal switch status USB Setting Commands Page OBatName Sets a batch name 2 64 SUsbFunction USB function GM 2 56 OBatComment Sets a batch comment 2 65 SUsbAutoLOut USB auto logout GM 2 56 OBatText Sets a batch text 2 65 Web Setting Commands Page ODispRate Switches the trend interval 2 65 SWebCustomMenu Web monitor screen 2 57 GX GP OLoadConf Loads setting data 2 65 2 2 2 Output Commands OLoadConfAllLoads setting data at once GM 2 66 Command Description Page OSeriApply Applies serial communication 2 66 Required Options se
34. F VDE cable R AS cable Q BS cable H GB cable N NBR cable 2 10 29 Instrument s Firmware Version Information VER The output in response to the command VER is shown below Output Example EA crlf B999999 Rx xx xx Main B999999 Rx xx xx Web EN crlf B999999 RX XX XX Program lt crlf gt Program lt crlf gt Firmware part number first line Web program part number second line Firmware version first line Web program version second line IM 04L51B01 17EN 2 105 s suods y pue spuewwog H 2 10 ASCII Output Format 2 10 30 Instrument s Option Installation Information _OPT The output in response to the command _OPT is shown below Output Example EA crlf C2 RS 232 crlf C3 RS 422 485 crlf C8 Bluetooth crlf D5 VGA output lt crlf gt FL Fail output 1 point lt crlf gt MT Mathematical function with report function crlf MC Communication channel function crlf P1 24 VDC AC power supply lt crlf gt UH USB interface Host 2 ports crlf U O0 Model pre installed with analog universal input module s crlf CR Model pre installed with digital output module s and or digital input module s crlf EN crlf C2 RS 232 C3 RS 422 485 C8 Bluetooth D5 VGA output FL Fail output 1 point MT Math including the report function MC Communication channel function P1 24VDC AC power
35. Main Chained kkeee Purpose SSL PDF COM PDF Example Main PDF Certificate creation CreateCert Touch screen ExecTouchCal calibration reset Initialize Initialize sseee Initialize type Security Other Data w o IP w o SERVER w o CALIB w o INSTRU List of initialized settings All for all settings Example Security Other Data Sign in Sign In l ss l Level 1 to 3 SSeee File name Lock the keys Keylock ON Release the key lock Keylock OFF Turn on the Bluetooth ON Bluetooth function Turn off the Bluetooth OFF Bluetooth function Clear the Bluetooth BTListClear connection list Fixed IP address FixedlPMode mode Saving of unsaved _ DiffAutoSave data Module Reconfiguration ConfigModule Module RemoveModule Unit uu Slot ss mmees iiss vveere disconnection u Unit S Slot mmeee Module name lisse Serial number IM 04L51B01 17EN 2 97 s suods y pue spuewwog H 2 10 ASCII Output Format Operation Modules installed Module information Module activation Module update Event string AttachModule InfoModule ApplyModule UpdateModule Setting changes during recording Alarm setting change SetAlarm Alarm delay setting change SetAlmDelay information and detailed information vveee Version number Example Unit00 Slot 01 GX90XA 10 U2 0000 1 00 00 Unit uu Slot ss mmees iise vveee u Unit S Slot mmeee Module name iieee Serial number
36. O module names Only the units that have modules installed will be output EA U00 GX20 1J GX20 1J U01 GX90EX 02 TP1 GX90EX 02 TP1 00 GX90XA 10 U2 01 GX90XA 10 U2 GX90XA 10 U2 GX90XA 10 U2 Unit 01 00 GX90XA 10 U2 GX90XA 10 U2 GooccoccococOOUG Module models that are actually installed Module not installed 16 hyphens Displays the module model code Module models recognized by the GX MM Module not installed 16 hyphens Displays the module model code Module status uuuuuuuuuuuuuuuu defghijklmnopqrs Normal X Error d to s express the following items d System data error e Calibration value error f Parameter error g Reserved h FRAM error i Reserved j Reserved k Reserved 1 A D error m RJC error n Reserved o Reserved p Reserved q Reserved r Reserved S Reserved nn Unit number f E GX GP or GM main unit IM 04L51B01 17EN 2 103 sasuodsay pue spuewwoy H 2 10 ASCII Output Format Space Expandable I O or sub unit EFGHIJKLMNOPORS Expansion module status D to S express the following items D System data error normal X error E Ethernet error normal X error F to S Reserved o 2 10 25 Bluetooth Device Information FBTDevinfo The output in response to the command FBTDevInfo is shown below Syntax EA crlf BD address module information lt cr1f gt EN lt crlf gt BD a
37. On You cannot choose a second trend interval that is shorter than the scan interval Trend intervals shorter than 30 s cannot be specified if an electro magnetic relay type analog input module is in use set up lsrrakina Trend Type GX GP Sets the type of trend waveform to display Syntax STrdKind pl pl Type Fixed to T Y Query STrdKind Example Display using rectangular coordinates STrdKind T Y EsrraPartiat Partial Expanded Trend Display GX GP Enable or disable the partial expanded trend display Syntax STrdPartial pl pl Disable or enable Off On Query STrdPartial Example Enable the partial expanded trend display STrdPartial On IM 04L51B01 17EN 2 37 sesuodses pue spuewwog H 2 4 Setting Commands IsmsgBasic Message Writing Sets the message writing operation Syntax SMsgBasic p1 p2 p3 pl Message writing method GX GP Common Separate GM Common Common Write messages to all display groups Separate Write messages to only the groups that are displayed p2 Power failure message Off On p3 Change message Off On GX GP On Off GM On Off Fixed to Off when the advanced security function AS is disabled Query SMsgBasic Example Write messages to only the groups that are displayed Enable the power failure message and change message SMsgBasic Separate On On E scroup Display Group Sets the display group Syntax SGroup p1 p2 p3 p4 pl Gro
38. SDPoint Comma Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress Esraitact Fail Relay Operation FL GX GP Sets the fail relay DO channel operation Syntax SFailAct pl pl Operation Fail Output fail information Status Output instrument information Query SFailAct Example Output fail signals from the fail relay DO channel SFailAct Fail Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress Israiists Instrument Status to Output FL GX GP Sets the instrument status to output from the fail relay DO channel Syntax SFailSts pl p2 p3 p4 p5 pl Memory media status Off On p2 Measurement error Off On p3 Communication error Off On P4 Recording stop Off On p5 Alarm Off On Query SFailSts Example Output all information SFailSts On On On On On Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress Esprinter Printer Sets the printer Syntax SPrinter pl p2 p3 p4 p5 p6 p7 pl IP address 0 0 0 0 to 255 255 255 255 p2 Paper size A4 A3 Letter p3 Paper orientation Ho
39. SMathBasic pl p2 p3 p4 p5 p6 p1 Indication on computation error Over Display the computed value as Over Over Display the computed value as Over p2 SUM and AVE computation when overflow data is detected Error Sets the computation result to computation error Skip Discards the data that overflowed and continues the computation Limit Computes by substituting upper or lower limit values in the data that overflowed Forchannels that do not have linear scaling specified the upper or lower limit of the measuring range Forchannels that have linear scaling specified the scaling upper or lower limit For math channels the specified span upper or lower limit p3 MAX MIN and P P computation when overflow data is detected Over Computes using data that overflowed Skip Discards the data that overflowed and continues the computation P4 START STOP key action GX GP Off Start Stop Reset Start Stop GM Off Off Computation does not start even when recording starts Start Stop Computation starts when recording starts Resett Computation resets and Start Stop starts when recording starts P5 START key action Off Start Reset Start Off Recording starts but not computation Start Computation starts when recording starts P6 ResettStart Computation resets and starts when recording starts STOP key action Off Stop Off Recording stops but not computation Stop Comp
40. STRU Description Paddress settings are those set with the SlpAddress SDns SDhcp and SDhcp commands e Forp1 and p2 values setting category and target commands see Setting Category and Target Commands on page 2 60 e If you omit parameter p2 no setting will be excluded TousbFApply Applies USB Communication Settings GM Applies USB communication settings Syntax OUsbFApply pl pl Apply the settings Example Apply the USB communication On Off setting specified with the SUsbFunction command OUsbFApply 0 PoBtApply Applies Bluetooth Communication 2 66 IM 04L51B01 17EN 2 6 Operation Commands Settings C8 GM Applies Bluetooth communication settings Syntax OBTApply pl pl Apply the settings 0 Example Apply the Bluetooth communication On Off setting specified with the SBluetooth command OBTApply 0 BogrciearList Clears the Bluetooth Connection List C8 GM Clears the Bluetooth connection list Syntax OBTClearList No parameters Example Clear the connected Bluetooth connection list OBTClearList BloLoginAssist Assists Login GX GP Assists logging in to the recorder during bar code input Syntax OLoginAssist pl p2 p3 p1 Input type 1 2 1 User name input 2 Username and user ID input p2 Username p3 UserID Example Log in with the user name User01 OLoginAssist 1 User01 Description When this command is executed the re
41. Scan group 1 p3 First channel P4 Last channel p5 Read start position 1 0 to 99999999999 1 The most recent read position p6 Read end position 1 0 to 99999999999 1 The most recent read position p7 Maximum number of blocks to read 1 to 9999 Example Read the measured data of channels 0001 to 0020 Set the read start position to 180 and the read end position to the most recent position Set the maximum number of blocks to read to 9999 FFifoCur 0 1 0001 0020 180 1 9999 Acquire the FIFO Data Read Range Syntax FFifoCur pl p2 p1 FIFO read range output 1 p2 Scan group 1 Example Acquire the current readable range FFifoCur 1 1 Description e For the binary output format see page 2 113 ll rsnap Snapshot GX GP Outputs a snapshot data screen image data file Syntax FSnap pl pl Screen image data output GET Example Acquire screen image data FSnap GET Description APNG image file will be stored in the data block of the binary output file see page 2 73 BFuser Outputs the User Level Outputs information about the users who are currently logged in Syntax FUser pl p1 Information about the users who are currently logged in 0 Refer to your own user information 1 Refer to information about all users who are currently logged in Example Refer to information about all users who are currently logged in FUser 1 Description e For the ASCII output format see page
42. alarm 1 0to 255 p6 B value of the RGB mark colors for alarm 1 0to 255 p7 R value of the RGB mark colors for alarm 2 0to 255 p8 G value of the RGB mark colors for alarm 2 0to 255 p9 B value of the RGB mark colors for alarm 2 0to 255 2 28 IM 04L51B01 17EN 2 4 Setting Commands IsrangeCom Measurement Range MC Sets the measurement range of a communication channel Unused Channels Syntax SRangeCom p1 p2 p1 Channel number p2 Enable or disable Off Used Channels Syntax SRangeCom p1 p2 p3 p4 p5 p6 pl Channel number p2 Enable or disable On p3 Decimal Place 0 to 5 P4 Span lower limit 9999999 to 99999999 p5 Span upper limit 9999999 to 99999999 p6 Unit up to 6 characters UTF 8 Query SRangeCom p1 Example Measure 0 00 to 100 00 on communication channel 025 SRangeCom 025 0n 2 0 10000 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p2 Off you cannot set p3 or subsequent parameters You cannot set the span upper and lower limits to the same value Esvaiuecom Preset Operation MC Sets the preset operation of a communication channel Syntax SValueCom p1 p2 p3 p1 Channel number p2 Value at power on Preset Last p3 Preset value 9 999999E 429 to 1E 30 0 1E 30 to 9 999999E 29 Query SValueCom p1 Example At power on replace the
43. at the end The request data is entered in the data block 4 bytes CR Data length Flag Reserved area 1 Reserved area 2 Header sum Data block EBCRLF The EBCRLF block stores ASCII code E ASCII code B followed by CR LE This indicates that the output data is binary Data length 32 bits big endian The data length block indicates the length of flag reserved area 1 reserved area 2 header sum data block data sum in bytes Flag 16 bits big endian The flag block indicates information of the entire data block Bit Flag Value Flag Meaning 0 1 15 Always zero Not used 14 No Yes Data sum inclusion 13 Always zero Not used 1 0 Intermediate Last data If the output data is continuous data this flag data indicates whether the last value in the data block is intermediate data or last data Reserved area 1 16 bits reserved area 2 to 16 bits Not used Header sum 16 bits big endian The header sum block indicates the sum of data length flag reserved area 1 reserved area 2 IM 04L51B01 17EN 2 73 s suods y pue spuewwog H 2 9 Responses to Commands 2 9 4 Data Block The actual output data The format varies depending on the output content For details see section 2 11 Format of the Data Block of Binary Output Data sum 16 bits big endian The data sum block indicates the sum of the data block Use the CChec
44. below Syntax EA crlf aaa bbb ccc ddd lt crlf gt EN crlf aaa bbb ccc ddd Status information 1 see table below Status information 2 see table below Status information 3 see table below Status information 4 see table below Status Information 1 Bit Name Description Memory sampling Set to 1 during recording Computing Set to 1 while computation is in progress Alarm activated Set to 1 when an alarm is activated Accessing medium Set to 1 while the SD medium is being accessed E mail started Set to 1 while the e mail transmission has been started Buzzer activated Set to 1 when the buzzer is activated O O1 00 N50 O Status Information 2 Bit Name Description 0 E 5 1 a 2 Memory end Set to 1 when the free space in the external memory is low 3 Touch operation Set to 1 when a user is logged in through touch operation login 4 User lock out Set to 1 when a user lock out occurs and remains at 1 until present user locked ACK is issued only when the advanced security function AS enabled 5 6 Measurement Set to 1 while measurement errors are detected on an Al error module or when a burnout has occurred 7 Communication Set to 1 when a Modbus master Modbus client or WT error communication error has occurred Status 3 and 4 are edge operations They are cleared when read
45. below nnn Command number 0 to 999 d Command type R Read W Write O Write immediately write from the custom display N Miscellaneous Detail Meaning SKIP Command not set INVALID Command cannot be executed WAITING Server slave communication recovery wait CLOSED Server slave connection closed RESOLVING Server slave connection being established resolving address CONNECTING Server slave connection being established requesting connection UNREACH Server slave connection failed peer not found TIMEDOUT Server slave connection failed timeout occurred BROKEN Response message corrupt CRC error ERR_FC Response message was an illegal function message ERR_ADDR Response message was an illegal data address message ERR VALUE Response message was an illegal data value message ERR DEVICE Response message was a slave device failure message ERR ACK Response message was an acknowledge message ERR BUSY Response message was a slave device busy message ERR NEGATIVE Response message was a negative acknowledge message ERR GATE PATH Response message was a gateway path unavailable message ERR GATE TARGET Response message was a gateway target device failed to respond message BAD SLAVE The slave address of the response message is invalid does not match the command BAD FC The function code
46. change alarm and high limit on rate of change alarm to 10 times and 20 times the scan interval respectively SAlmLimit 10 20 Description You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress BsindivAimack Individual Alarm ACK Enables or disables the individual alarm ACK function Syntax SIndivAlmACK pl pl Enable or disable Off On Query SIndivAlmACK Example Enable the individual alarm ACK function SIndivAlmACK On Bsaimsts Alarm Display Hold Nonhold Sets the alarm display hold nonhold operation Syntax SAlmSts pl pl Operation Hold NonHold Query SAlmSts Example Hold the alarm display until an alarm ACK operation SAlmSts Hold Description You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress e If the individual alarm ACK is enabled SIndivAlmACK command p1 is fixed to Hold Esrimer Timer Sets a timer Do Not Use Timers Syntax STimer pl p2 p1 Timer number 1 to 4 p2 Timer type Off Relative Timer Syntax STimer pl p2 p3 p4 p5 p6 pl Timer number 1 to 4 p2 Timer type Relative p3 Interval Days 0 to 31 P4 Interval Hours HH 00 to 23 p5 Interval Minutes MM 00 to 59 p6 Reseton Math start Off On Absolute Timer Syntax STimer p1 p2 p
47. colors for alarm 3 0 to 255 p13 R value of the RGB mark colors for alarm 4 0 to 255 p14 G value of the RGB mark colors for alarm 4 0to 255 p15 B value of the RGB mark colors for alarm 4 0to 255 Query SAlmMarkIO p1 Example Display the alarm marks for alarms 1 to 4 of channel 0001 in fixed colors red brown orange and yellow respectively SAlmMarkIO 0001 0n Fixed 255 0 0 165 42 42 255 165 0 255 255 0 Description For details on RGB values see Description of the SColorlO command B svaiueio Upper Lower Limit Display Characters Sets the upper lower limit display characters of DI channel or DO channel Syntax SValueIO p1 p2 p3 p1 Channel number p2 Lower limit display string up to 8 characters UTF 8 p3 Upper limit display string up to 8 characters UTF 8 SValueIO p1 Query Example For channel 0001 set the lower limit to OFF and the upper limit to ON SValueIO 0001 OFF ON lscaiibio Calibration Correction Sets the calibration correction for Al channels Disable Calibration Correction Syntax SCalibIO p1 p2 p1 Channel number p2 Linearizer mode Off Use Calibration Correction Syntax SCalibIO pl p1 Channel number p2 Linearizer mode Appro Linearizer approximation Bias Linearizer bias p3 Number of set points 2 to 12 P4 Input value of set point 1 p5 Output value of set point 1 p6 Input value of set point 2 p7 Output value of set point 2 p8 Input value of set
48. communication channel 025 value with the preset value of 0 5 SValueCom 025 Preset 0 5 E swpcom Watchdog Timer MC Sets the watchdog timer of a communication channel Channels That Do Not Use Watchdog Timers Syntax SWDCom p1 p2 pl Channel number p2 Watchdog timer usage Off Channels That Use Watchdog Timers Syntax SWDCom p1 p2 p3 p4 pl Channel number p2 Watchdog timer usage On p3 Watchdog timer 1 to 120 s p4 Value at timer expired Preset Last Query SWDCom p1 Example Set the watchdog timer of communication channel 025 to 60 seconds Replace the communication channel 025 value with its preset value at watchdog timer expiration SWDCom 025 On 60 Preset Description f p2 Off you cannot set p3 or subsequent parameters Bsatarmcom Alarm MC Sets the alarm of a communication channel No Alarm Setting Syntax SAlarmCom p1 p2 p3 pl Channel number p2 Alarm number 1 to 4 p3 Alarm on or off Off Do Not Output Alarms Syntax SAlarmCom pl p2 p3 p4 p5 p6 p7 p1 Channel number p2 Alarm number 1 to 4 p3 Alarm on or off On P4 Alarm type H L TH TL p5 Alarm value within the span range p6 Detection Off On p7 Output Off Output Alarms Syntax SAlarmCom p1l p2 p3 p4 p5 p6 p7 p8 pl Channel number p2 Alarm number 1 to 4 p3 Alarm on or off On P4 Alarm type H L TH TL p5 Alarm value within the span range p6 Detection Off On p7 Output Off DO Output to a relay
49. converter in order to prevent collisions of transmit and received data When using the recommended converter the driver is controlled using the RS RTS signal on the RS 232 When instruments that support only the RS 422 interface exist in the system When using the four wire system up to 32 recorders can be connected to a single host device However this may not be true if instruments that support only the RS 422 interface exist in the system When YOKOGAWA s recorders that support only the RS 422 interface exist in the system The maximum number of connection is 16 Some of YOKOGAWA s conventional recorders HR2400 and pR for example only support the RS 422 driver In this case only up to 16 units can be connected M ot e PL In the RS 422 standard 10 is the maximum number of connections that are allowed on one port for a four wire system ML Terminator When using a multidrop connection including a point to point connection connect a terminator to the recorder if the recorder is connected to the end of the chain Do not connect a terminator to a recorder in the middle of the chain In addition turn ON the terminator on the host device see the manual of the host device If a converter is being used turn ON its terminator The recommended converter is a type that has a built in terminator Select the appropriate terminator 120 Q indicated in the figure according to the characteristic impedance of the line the insta
50. error ESERVFAIL DNS server processing error ENXDOMAIN DNS server query rejected domain does not exist EREFUSED DNS server query rejected process not allowed EYXDOMAIN DNS server query rejected record exists EYXRESET DNS server query rejected record exists ENXRESET DNS server query rejected record does not exist ENOTAUTH DNS server query rejected not authenticated ENOTZONE DNS server query rejected query error ENOTIMP DNS server query rejected The command is not implemented ENONAME Tried to register an blank host name to the DNS server f the recorder cannot accept the IP address obtained from the DHCP server the recorder will reject the address and immediately return a response to the DHCP server IM 04L51B01 17EN 2 87 sesuodses pue spuewwog H 2 10 ASCII Output Format 2 10 13 General Communication Log FLog The output in response to the command FLog General is shown below Syntax EA crlf EN crlf yyyy mo dd hh mm ss Time of command Tx Rx yyyy mo dd hh mm ss nn uuu u fdmmm m crlf yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 nn Connection ID s0 Serial general sl Bluetooth connection s2 USB connection e0 Ethernet connection 0 general el Ethernet connection 1 general e2 Ethernet connection 2 general e3 Ethernet connection 3 general uuu u User name fixed to 20 ch
51. graph of display group 8 in screen position 3 of the registration number 1 panel SMultiKind 1 3 Bar 8 Description This command is only valid for the GX20 GP20 Reportis an option MT e Modbus M and Modbus C are an option MC e Watt is an option E2 Custom display screen CG cannot be shown in a multi panel suomeMonitor Standard Screen Information GX GP Sets the standard screen display information SHomeMonitor pl p2 p1 Information type see the table of the SMonitor command p2 Status see the table of the SMonitor command Query SHomeMonitor p1 Example Set the trend display to all channel display SHomeMonitor Trend All Bsuomekind Standard Screen GX GP Set the standard screen Syntax Syntax SHomeKind pl p2 pl Screen type Trend Trend Digital Digital Bar Bar graph Overview OVERVIEW Alarm Alarm summary Message Message summary Memory Memory summary Report Report summary Modbus M Modbus master status Mosbus C Modbus client status Watt WT communication status Switch Internal switch status Action Log Eventlog Error Log Errorlog Commu Log Communication log Ftp Log FTP log Web Log Web log 2 54 IM 04L51B01 17EN 2 4 Setting Commands Mail Log Maillog Modbus Log Modbus log Sntp Log SNTP log Dhcp Log DHCP log Network Network information Setting Settings SaveLoad Save load SystemInfo System information Multi Multi panel Custom Customi
52. input type Al channel Unused Channels Syntax SRangeAICurrent pl p2 pl Channel number p2 Input type Skip Channels Whose Input Type is Current and No Math Syntax SRangeAICurrent pl p2 p3 p4 p5 p6 p pl Channel number p2 Input type Current p3 Range 0 20mA p4 Math type Off p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 Delta Channels Syntax SRangeAlCurrent pl p2 p3 p4 p5 p6 p7 p8 pl Channel number p2 Input type Current p3 Range 0 20mA P4 Math type Delta p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 p8 Reference channel number Scaling Channels Syntax SRangeAlCurrent pl p2 p3 p4 p5 p6 p7 p8 p9 p10 pl1 pl Channel number p2 Input type Current p3 Range 0 20mA P4 Math type Scale p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 p8 Decimal place 0 to 5 p9 Scaling lower limit p10 Scaling upper limit p11 Unit up to 6 characters UTF 8 Scaling Channels General Signal 4 20 mA Input Syntax SRangeAICurrent pl p2 p3 p4 p5 p6 p7 p8 p9 p10 p11 p12 p13 pl Channel number p2 Input type GS p3 Range 4 20mA P4 Math type Scale p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 p8 Decimal place 0 to 5 p9 Scaling lower limit p10 Scaling upper limit p11 Unit up to 6 characters UTF 8 p12 Low cut function Off On p13 Low cut point 0 to 50 Square Roo
53. of channel 0001 Set the alarm value to 1 8000V Use the alarm detection function When an alarm occurs output to the relay DO channel at number 0205 SAlarmIO 0001 2 0n H 18000 0n D0 0205 Description You cannot set this on a Skip channel If p3 Off you cannot set p4 or subsequent parameters If p7 Off you cannot set p8 For the alarm values of p5 use the values in the following table Channel Input Calculation Alarm Type Type Type Type H L RH RL DH DL TH TL Al channel Volt Off 1 3 GS Delta 1 3 5 TC Scale 2 4 RTD Sgrt 2 4 LogT1 6 LogT2 LogT3 DI Off 0 1 1 Delta 1 3 5 Scale 2 4 DI channel DI Same as the DI input of Al channels Pulse Off 0 1 Off 999999 999999 1 2 3 4 5 6 Within the measurement range 5 to 105 of the scale but within 999999 to 999999 excluding the decimal point 1 digit to measurement upper limit measurement lower limit 1 digit to scale upper limit scale lower limit but within 1 to 999999 excluding the decimal point Within the difference measurement range Log scale range that corresponds to 5 to 105 of the span You cannot set DO channels or internal switches whose output type is set to Manual as output destination numbers IM 04L51B01 17EN 2 21 sesuodses pue spueuluio 2 H 2 4 Setting Commands BsaimHysio Alarm Hyst
54. of the response message is invalid does not match the command IM 04L51B01 17EN 2 89 sesuodses pue spuewwog H 2 10 ASCII Output Format Detail Meaning BAD ADDR The address of the response message is invalid does not match the command BAD NUM The register of the response message is invalid does not match the command BAD CNT The number of registers in the response message is invalid does not match the command NO DATA Data has not yet been received once BAD DATA Data conversion of the response message failed VALID Data is being acquired normally DROP OUT Communication dropout occurred due to the inability to keep up STALE The response from the connected device is slow relative to the read cycle START Modbus or communication settings were changed STOP Modbus or communication settings were changed 2 10 15 FTP Client Log FLog expresses an underscore The output in response to the command FLog FTP is shown below Syntax EA crlf EN lt crlf gt yyyy mo dd hh mm ss xxxxxxxxx k fff f crlf yyyy mo dd hh mm ss Time of error occurrence XXXXXXXXX EEEn yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 Detailed code fixed to 9 characters TCPIP_ _ Internal processing error HOSTADDR IP address no
55. on the PC to disconnect and then remove the cable When Using Bluetooth GM C8 option When not using the login function When the Bluetooth password function is enabled use a command to start communication CBTConnect to send the password When a connection is established the GM will be ready to receive commands When using the login function In addition to the procedure above log in using a registered user account CLogin command After you finish the operation log out CLogout command You can also use the auto logout function SBTTimeOut command To disconnect perform a device removal procedure on the PC Forthe login operation see appendix 2 Login Procedure Fordetails on Bluetooth connection see appendix 7 Bluetooth Communication Connection Flow Chart y 2 2 8 Device Nomenclature in Command Descriptions The following nomenclature is used in the command descriptions in section 2 4 to distinguish the devices Nomenclature Device Recorder Both GX GP and GM Main unit Both GX GP and GM main units GX GP main unit GX GP main unit GM main unit GM main unit Expandable I O GX GP Expandable I O Sub unit GM sub unit IM 04L51B01 17EN 2 9 s suods y pue spuewwog H 2 3 Parameters This section describes parameters 2 3 1 Measuring Range Parameters Al Channel Span Specify the span using an integer Example If the range is 2 0000 V to 2 0000 V and you
56. p2 pl Auto saving to an external storage medium GX GP Off On GM Off On Fixed to On when the advanced security function AS is enabled and the log in via communication is enabled p2 Media FIFO Off On Query SMediaSave Example Enable the auto saving to the external storage medium and media FIFO SMediaSave On On EsriteFormat Display Event Data File Format Sets the file format of display data files and event data files Syntax SFileFormat pl pl File format Binary Text Query SFileFormat Example Create files in text format SFileFormat Text Description The types of data that you can set file formats for are display data and event data The file saving methods that the specified file format is applied to are auto saving saving of unsaved data manual saving and FTP data transfer When the advanced security function AS is enabled p1 is fixed to Binary IM 04L51B01 17EN 2 4 Setting Commands IsrangeAl Measurement Range of Al Channel Sets the measurement range of an Al channel Unused Channels Syntax SRangeAI p1 p2 pl Channel number p2 Input type Skip Channels Whose Input Type Is DI and No Math Syntax SRangeAI pl p2 p3 p4 p5 p6 pl Channel number p2 Input type DI p3 Range see Description P4 Calculation type Off p5 Span lower limit p6 Span upper limit Channels Whose Input Type Is Volt TC or RTD and No Calculation Syntax SRangeAI p1 p2 p3 p4 p5 p6 p7
57. point 3 p9 Output value of set point 3 p10 Input value of set point 4 11 Output value of set point 4 12 Input value of set point 5 13 Output value of set point 5 14 Input value of set point 6 15 Output value of set point 6 16 Input value of set point 7 17 Output value of set point 7 18 Input value of set point 8 19 Output value of set point 8 p20 Input value of set point 9 p21 Output value of set point 9 p22 Input value of set point 10 p23 Output value of set point 10 p24 Input value of set point 11 p25 Output value of set point 11 p26 Input value of set point 12 p27 Output value of set point 12 Query SCalibIO p1 Example Set three set points on channel 0001 measurement range 0 to 1 0000 V Set the set points as follows when the input value is 0 V the output value is 0 0010 V when the input value is 0 5000 V the output value is 0 5020 V when the input value is 1 0000 V the output value is 0 9970 V SCalibIO 0001 A2ppro 3 0 10 5000 5020 10000 9970 Description f p2 Off you cannot set p3 or subsequent parameters e You cannot specify set points beyond the number of points specified by p3 e If the Al channel input type p2 of SRangeAl is set to Skip or DI you cannot specify anything other than p2 Off g g g g g FOO gy ue 2 24 IM 04L51B01 17EN 2 4 Setting Commands I smathBasic Math Action MT Sets the basic operation of math channels Syntax GX GP SMathBasic pl p2 p3 p4 GM
58. stand alone type channels to recorder channels SDarwinCnvCh Standalone lssecurity Security Function Sets the security function Syntax SSecurity pl p2 p3 p4 p5 p6 pl Operations on the recorder GX GP Off Login Operate GM Off Off Disables the security function Enables the login function Enables the function that prohibits touch screen operation p2 Operations via communication Off Login p3 Auto logout GX GP Off 1min 2min 5min 10min GM Off P4 Operation without login GX GP Off On GM Off P5 Password retry Off 3 5 P6 Enable or disable user ID On Off Query SSecurity Example Use the login function when operating the recorder directly or via communication When logged in automatically log out if there is no user activity for 5 minutes The screen can be changed even when logged out SSecurity Login Login 5min On Login Operate Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress You cannot use this command to configure settings when logged in as a user when the user level is User e p1 cannot be set to Operate when the advanced security function AS is enabled pband p6 are valid when the advanced security function AS is enabled Iskac Password Management AS Sets the password management Syntax SKdc pl p2 pl Enable disable passw
59. supply UH USB interface host 2 ports AS Advanced security function Part 11 compliant E1 EtherNet IP communication E2 WT communication CG Custom display function LG Log scale UX1X20 Model pre installed with analog universal input modules X1 Terminal type S Screw terminal C Clamp terminal X2 Number of analog universal input modules installed 1 2 3 4 5 6 7 8 9 A where A represents 10 CRY1Y2 Model pre installed with digital output modules and or digital input modules Y1 Number of digital output C contact modules installed 1 2 3 4 5 Y2 Number of digital input modules installed 1 2 2 10 31 Instrument s Temperature Unit and Daylight Saving Time Installation Information TYP The output in response to the command TYP is shown below Output Example EA crlf DST Summer time Winter time lt crlf gt DEGF degF crlf EN lt crlf gt DST Daylight saving time enabled DEGF Fahrenheit temperature unit enabled 2 106 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 32 Instrument s Error Number Information _ERR The output in response to the command ERR is shown below Output Example 500 2 10 33 EA crlf 10 1 2 Dram 2 5 Media EN crlf Error crlf Error lt crlf gt Instrument s Unit Configuration Information _UNS or UNR The output in response to the command UNS or UNR is shown below Syntax EA crlf p1 p2
60. syntax Queries can be used on some of the available setting and operation commands Command name terminator Command name parameter1 terminator Examples of Queries and Responses Query Example of Responses SRangeAI SRangeAl 0001 VOLT 2V OFF 20000 20000 0 SRangeAlL0002 2 aped haere ties tues SRangeAl 0001 SRangeAl 0001 VOLT 2V OFF 20000 20000 0 Command Names Acommand name is a character string consisting of up to 16 alphanumeric characters The first character represents the command type Notes on Writing Commands Names Command names are not case sensitive Spaces before the character string are ignored IM 04L51B01 17EN 2 1 Command Transmission and Recorder Responses Parameters Parameters are characteristic values that are attached to commands Notes on Writing Parameters Write parameters in their appropriate order Spaces around and in the middle of parameters are ignored Exception is the character strings that users specify You can omit the setting command parameters that do not need to be changed from their current settings If you omit parameters write only the delimiters Example SRangeAI 0001 1800 0 terminator f parameters are omitted and there are multiple delimiters at the end of the command those delimiters can be omitted Example SRangeAI 0001 VOLT 2V terminator gt SRangeAI 0001 VOLT 2Vterminator There are two types of parameters predef
61. that overflows are discarded RS 7 True fixed XON XON Data transmission control Software handshaking is performed between the GX GP and the PC When an X OFF code is received while sending data to the PC the GX GP stops the data transmission When the GX GP receives the next X ON code the GX GP resumes the data transmission The CS signal received from the PC is ignored Data reception control Software handshaking is performed between the GX GP and the PC When the amount of used area in the received buffer reaches to 3 4 full 192 bytes for R2 01 and earlier 6144 bytes for R2 02 and later the GX GP sends an X OFF code Then when the amount of used area decreases to 1 4 bytes 64 bytes for R2 01 and earlier 2048 bytes for R2 02 and later the GX GP sends an X ON code RS 7 True fixed XON RS Data transmission control The operation is the same as with XON XON Data reception control Hardware handshaking is performed between the GX GP and the PC When the amount of used area in the received buffer reaches to 3 4 full 192 bytes for R2 01 and earlier 6144 bytes for R2 02 and later the GX GP sets RS False Then when the amount of used area decreases to 1 4 bytes 64 bytes for R2 01 and earlier 2048 bytes for R2 02 and later the GX GP sets RS True 1 4 IM 04L51B01 17EN 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth CS RS Data transmission control Hardwar
62. to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 Event cause KEY Touchscreen operation key operation REM Remote COM Ethernet communication SER Serial communication RS 232 RS 422 485 USB communication or Bluetooth ACT Event action SYS System EXT Operation from an external device e g Modbus WEB Operation from web pages GM only when the advanced security function AS is enabled Event string fixed to 16 characters Unused character positions are filled with spaces See the table below User name fixed to 20 characters Unused character positions are filled with spaces Detailed information see table below Event string detailed information Operations that are marked with an asterisk will be logged regardless of whether the advanced security function is enabled or disabled All other operations are logged only when the advanced security function AS is enabled Operation Error Error occurrence Event string information and detailed information Information is Blue text indicates the detailed information output included in format A D calibration operation A D calibration Login Power off Power on Login Logout User lock out Control Mode change Time change New time Errores HHH Error number output in the event string ExecA DCal Unit uu Slot ss uu Unit ss Slot POWER OFF POWER ON LOGIN LOGOUT UserL
63. to 9 characters SUCCESS Success EOVER Adjustment limit exceeded EDORMANT Internal processing error EHOSTNAME Host name lookup failed ETCPIP Internal processing error ESEND Packet transmission failed ETIMEDOUT Response timeout occurred EBROKEN Response packet corrupt ERECV_ Reception error EINVALID Internal processing error ENOID Internal processing error IM 04L51B01 17EN 2 91 s suods y pue spuewwog H 2 10 ASCII Output Format 2 10 17 E Mail Client Log FLog The output in response to the command FLog MAIL is shown below Syntax EA crlf yyyy mo dd hh mm ss ffffff eeeeeeeeeeee n uuu u crlf EN crlf yyyy mo dd hh mm ss Time of transmission yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 ffffff Cause fixed to 6 characters ALARM _ Alarm mail TIMER Scheduled mail POWER _ Power on power failure recovery emory Low external storage memory ERROR _ Error notification REPORT Report file TEST Test mail PASSWD User lock out eeeeeeeeeeee Detailed error code fixed to 12 characters HOSTADDR _ IP address not set HOSTNAME Unable to resolve server host name TIMEOUT _ Communication with server timed out LINK X Ethernet cable not connected UNREACH Unable to connect to server HELO _ Server rejected greeting message AILFROM_ Serverrejected sender RCPTTO Serverrejected
64. type Volt GS p3 Range see Description P4 Calculation type Sqrt p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 p8 Decimal Place 0 to 5 p9 Scaling lower limit p10 Scaling upper limit p11 Unit up to 6 characters UTF 8 p12 Low cut function Off On p13 Low cut point 0 to 50 p14 Low cut output Zero Linear Log Scale LG Channels Syntax SRangeAI p1 p2 p3 p4 p5 p6 p7 P8 P 9 p10 p11 p1 Channel number p2 Input type Volt p3 Range see Description P4 Calculation type LogT1 LogT2 LogT3 Log input Pseudo Log Input LogT3 Linear log input p5 Span lower limit see Description p6 Span upper limit see Description p7 Bias 999999 to 999999 p8 Decimal place of mantissa 1 2 p9 Scaling lower limit exponential notation 1 00E 15 to 1 00E15 see Description p10 Scaling upper limit exponential notation 1 00E 15 to 1 00E15 see Description p11 Unit up to 6 characters UTF 8 Query SRangeAI p1 Example Measure 0 5000 to 1 0000 V on channel 0002 No scaling No bias SRangeAI 0002 Volt 2V Off 5000 10000 0 LogT1l LogT2 Description IM 04L51B01 17EN s suods y pue spueuluio 2 H 2 4 Setting Commands You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress If p2 TC RTD DI you cannot specify p4 Sqrt
65. will be the remote module Sets the type of data to record For modules installed in an expandable I O or sub Syntax SMemory pl unit p3 is fixed to Normal pl Recording mode Pulse input is valid on products with the math function D Display data MT option D E1 Display data and event data El Event data Query SMemory BsscaleOver Example Record display data SMemory D Detection of Values That Exceed the Description Scale You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress When the advanced security function AS is enabled p1 D E1 cannot be specified Sets how to detect measurement over range Syntax SSclOver pl P1 How to detect values that exceed the scale FREE Assume scale over range when the measurement range is exceeded OVER Assume scale over range when swemkeyContirm 105 of the scale is exceeded Query 53clOver Record Confirmation Action GX GP Example Assume scale over range when the Sets the record confirmation action measurement range is exceeded Syntax SMemKeyConfirm pl alae ski EREE pl Enable or disable confirmation screen Description Off On You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress The setting specified with this command is valid
66. 0 GP20 2 8 IM 04L51B01 17EN 2 2 List of Commands 2 2 How to Use Commands When Using Ethernet When not using the login function When you connect a PC to the recorder the recorder will be ready to receive commands When using the login function Establish communication with the recorder and log in using a registered user account CLogin command After you finish the operation log out CLogout command When Using RS 232 GX GP When you wire and connect a PC to the GX GP the GX GP will be ready to receive commands When using the login function log in using a registered user account CLogin command After you finish the operation log out CLogout command When Using RS 422 485 The device that is opened with an open command ESC o will be ready to receive commands When using the login function log in using a registered user account CLogin command After you finish the operation log out CLogout command To close the connection send the close command ESC c When Using USB Communication GM When not using the login function When you connect a PC to the GM the GM will be ready to receive commands When using the login function Log in using a registered user account CLogin command to establish a connection After you finish the operation log out CLogout command You can also use the auto logout function SUsbAutoL Out command To remove a GM perform a device removal procedure
67. 0 0001 SYSTEM1 TIOO2 iscoio o Channel Color Sets the color an Al DI or DO channel Syntax SColorIO pl p2 p3 p4 pl Channel number p2 R value of RGB display colors 0 to 255 see Description p3 G value of RGB display colors 0 to 255 see Description P4 B value of RGB display colors 0 to 255 see Description Query SColorIO p1 Example Set the channel 0001 display color to red SColorIO 0001 255 0 0 Description The RGB values for different colors are indicated in the following table Color R G B Note Red 255 0 0 Green 0 153 51 Blue 0 51 255 Blue violet 119 51 204 GX10 GP10 102 51 204 GX20 GP20 GM10 Brown 153 51 0 Orange 255 153 51 Yellow green 153 204 51 GX10 GP10 170 221 51 GX20 GP20 GM10 Light blue 119 170 221 GX10 GP10 153 204 255 GX20 GP20 GM10 Violet 204 102 204 GX10 GP10 221 153 221 GX20 GP20 GM10 Gray 153 153 153 Lime 102 255 0 Cyan 0 255 255 Dark blue 0 0 153 Yellow 255 255 0 Light gray 204 204 204 Purple 153 0 153 GX10 GP10 136 0 136 GX20 GP20 GM10 Black 0 0 0 Pink 255 17 153 Rosy brown 204 153 153 Pale green 153 255 153 GX10 GP10 187 255 153 GX20 GP20 GM10 Dark gray 102 102 102 Olive 153 153 0 Dark cyan 0 153 153 Spring green 0 204 153 GX10 GP10 0 221 119 GX20 GP20 GM10 Eszoneio Waveform Display Zone Sets the waveform displ
68. 0 GP20 large memory type and expandable I O has been added Support for new modules current mA input low withstand voltage relay and DI DO has been added Feature additions Advanced security function AS option Custom display function CG option EtherNet IP communication E1 option WT communication E2 option Log scale function LG option Etc 5 GX GP Version 2 02 and later Describes the GM GM Version 2 02 and later Feature additions Bluetooth communication C8 option GM USB communication GM Pulse input DI module 6 GX GP Version 2 02 and later Advanced security function AS option is added to the GM GM Version 2 03 and later How to Use This Manual This manual explains the dedicated communication commands for the recorder and how to use them For details on the features of the recorder and how to use it see the following manuals Model GX10 GX20 GP10 GP20 Paperless Recorder First Step Guide IM 04L51B01 02EN Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN Data Acquisition System GM First Step Guide IM 04L55B01 02EN Data Acquisition System GM User s Manual IM 04L55B01 01EN Conventions Used in This Manual Unit K k Markings WARNING CAUTION Note Denotes 1024 Example 768K file size Denotes 1000 Improper handling or use can lead to injury to the user or damage to the instrument This symbol appears on the in
69. 000E 30 to 9 9999999E 29 The number of significant digits is 8 Query OCommCh p1 Example Set communication channel C001 to 2 5350 OCommCh C001 2 5350 Toenail Starts or Stops the E mail Transmission Function Starts or stops the e mail transmission function Syntax OEMail pl pl Action type 0 Start the e mail transmission function 1 Stop the e mail transmission function Example Start the e mail transmission function OEMail 0 low BRestore Recovers Modbus manually Resumes command transmission from Modbus client or Modbus master to devices in which communication errors have occurred Syntax OMBRestore pl p1 Action type 0 Modbus client Ethernet 1 Modbus master serial Example Manually recover the Modbus client OMBRestore 0 BonrReset Resets a Relative Timer Resets a relative timer Syntax ORTReset pl pl Timer type 0 All timers 1 to 4 Timer number Example Reset relative timer 2 ORTReset 2 BowrReset Resets the Match Time Timer Resets the match time timer Syntax OMTReset pl p1 Timer type 0 All timers 1 to 4 Timer number Example Reset match time timer 2 OMTReset 2 Tocmarelay Outputs the DO Channel and Internal Switch Status Outputs the DO channel and internal switch status Syntax OCmdRelay pl pl Specification of a setting Express the setting Set a channel status as follows channel number status Use a hyphen as a separator e You can specify the following values for th
70. 13 xipueddy H Appendix 7 Bluetooth Communication Connection Flow Chart To compose the complete Bluetooth communication connection flow chart in appendix 2 insert the following flow chart after Connect in the flow chart shown under When Using the Login Function when the communication login function is in use or When Not Using the Login Function when the function is not in use Addition start Password required Yes Password input request Send password with CBTConnect command CBTConnect command Response from the recorder message omitted Code 1 ABluetooth password is required when the first terminal tries to establish a connection when the password usage is enabled 2 If no input is received within 2 minutes of a password input request E403 Bluetooth communication will be disconnected 3 If an error occurs during the CBTConnect command check the number of parameters whether the command is a query etc the flow chart sequence follows the same path as when the password verification fails 4 The above sequence between Addition start and Addition end is not recorded in the general log App 14 IM 04L51B01 17EN
71. 1B01 17EN 2 69 sesuodses pue spueuluio 2 H 2 8 Instrument Information Output Commands MFG Outputs the Instrument Manufacturer Outputs the instrument manufacturer Syntax MFG Description e For the ASCII output format see page 2 104 INF Outputs the Instrument s Product Name Outputs the instrument s product name Syntax INF Description e For the ASCII output format see page 2 104 COD Outputs the Instrument s Basic Specifications Outputs the instrument s basic specifications Syntax COD Description e For the ASCII output format see page 2 105 VER Outputs the Instrument s Firmware Version Information Outputs the instrument s firmware version information Syntax VER Description e For the ASCII output format see page 2 105 _OPT Outputs the Instrument s Option Installation Information Outputs the instrument s option installation information Syntax OPT Description e For the ASCII output format see page 2 106 _TYP Outputs the Instrument s Temperature Unit and Daylight Saving Time Installation Information Outputs whether the instrument s Fahrenheit temperature unit and daylight saving time setting is enabled or disabled Syntax TYP Description e For the ASCII output format see page 2 106 _ERR Outputs the Instrument s Error Number Information Outputs the error description that corresponds to
72. 2 79 radar Outputs the IP Address Outputs the recorder IP address information Syntax FAddr p1 2 58 IM 04L51B01 17EN 2 5 Output Commands pl Address output IP Output address information that includes the IP address subnet mask default gateway and DNS server as well as the host name and domain name Example Output the recorder IP address information FAddr IP Description e For the ASCII output format see page 2 81 FStat Outputs the Recorder Status Outputs the recorder status Syntax FStat pl pl Status output 0 Example Output the recorder status FStat 0 Description e For the ASCII output format see page 2 82 BFLog Outputs the Log Outputs the alarm summary message summary error log etc Syntax FLog pl p2 pl Status output 0 ALARM Alarm summary SG Message summary EVENT X Eventlog ERROR Error log DHCP Ethernet address setting log GENERAL General communication log ODBUS Modbus log FTP FTP client log SNTP SNTP client log AIL E mail log WEB Web log p2 Maximum log readout length pi Read range ALARM 1 to 1000 MSG 1 to 500 GENERAL 1 to 200 MODBUS 1 to 50 1 to 200 for the GX20 2 GP20 2 Other than those 1 to 50 above Example Output 600 alarm summary entries FLog ALARM 600 Description e For the ASCII output format see page 2 84 p FEventLog Outputs a Detail Event Log AS
73. 3 p4 p5 p1 Timer number 1 to 4 p2 Timer type Absolute p3 Interval 1min 2min 3min 4min 5min 6min 10min 12min 15min 20min 30min 1h 2h 3h 4h 6h 8h 12h 24h P4 Reference time Hours HH 00 to 23 p5 Reference time Minutes MM 00 to 59 Query STimer p1 Example Set timer number 2 to relative timer at 6 hours 30 minutes Reset the timer when computation starts STimer 2 Relative 0 6 30 0n Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p2 Off you cannot set p3 or subsequent parameters f p2 Relative and p3 0 you cannot set 00 00 for p4 and p5 I smatchTimer Match Time Timer Sets a match time timer Do Not Use Match Time Timers Syntax SMatchTimer pl p2 pl Match time timer number 1 to 4 p2 Type Off Match Time Timer That Synchronizes Once a Year Syntax SMatchTimer pl p2 p3 p4 p5 p6 p7 p1 Match time timer number 1 to 4 p2 Type Year p3 Starttime Month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec P4 Start time Day 1 to 31 depends on the month p5 Interval Hours HH 00 to 23 2 32 IM 04L51B01 17EN 2 4 Setting Commands p6 pT Interval Minutes MM 00 to 59 Timer action Single Single shot Repeat Repeat Match Time Timer That Synchronizes Once a Month Syntax p1 p2 p3 P4 p5 p6
74. 6 F16 F17 User defined function 17 F17 F18 User defined function 18 F18 DeltaA to DeltaC DU1 Delta computation voltage 1 AU1 DU2 Delta computation voltage 2 A U2 DU3 Delta computation voltage 3 AUS DUS Delta computation wiring voltage AU DI Delta computation current Al DP1 Delta computation power 1 AP1 DP2 Delta computation power 2 AP2 DP3 Delta computation power 3 AP3 DPS Delta computation wiring power AP Motor SPEED Motor rotating speed Speed TORQUE Motor torque Torque SYNCSP Synchronous speed SyncSp SLIP Slip Slip PM Mechanical output of the motor Pm mechanical power Aux Aux1 Auxiliary input 1 Aux1 Aux2 Auxiliary input 2 Aux2 1 Will become 24A 2B or 2C depending on the WT1800 wiring type IM 04L51B01 17EN App 9 xipueddy H Appendix 6 Data Group Name and Data Name for WT Communication WT500 Data group name Data name Description WT Function mark Off Data assignment is disabled ELEMENT to ELEMENT3 URMS True rms voltage Urms UMN Rectified mean voltage calibrated to Umn the rms value UDC Simple voltage average Udc URMN Rectified mean voltage Urmn UAC AC component Uac IRMS True rms current Irms IMN Rectified mean current calibrated to Imn the rms value IDC Simple current average Idc IRMN Rectified mean current I
75. 7 using exponential notation e g 1 23E10 where the number of digits of the mantissa is as specified by p8 of the SRangeAl command Query SBandIO p1 Example For channel 0001 set a blue band in the range of 0 5000 to 1 0000 SBandl1O 0001 1n 0 0 255 5000 10000 Description You cannot set this on a Skip channel p2 is fixed to Off f p2 Off you cannot set p3 or subsequent parameters e For details on RGB values see Description of the SColorlO command IM 04L51B01 17EN 2 23 sesuodses pue spueuluio 2 H 2 4 Setting Commands Bsaimmarkio Alarm Mark Sets the display of the marker that indicates the specified alarm position of an Al or DI channel Syntax SAlmMarkIO p1 p2 p3 p4 p5 p6 p7 p8 p9 p10 p11 p12 p13 p14 p15 pl Channel number p2 Whether to display the alarm mark on the scale Off On p3 Alarm mark type Alarm Display the default alarm mark Fixed Display the mark with the specified color P4 R value of the RGB mark colors for alarm 1 0 to 255 p5 G value of the RGB mark colors for alarm 1 0to 255 p6 B value of the RGB mark colors for alarm 1 0to 255 p7 R value of the RGB mark colors for alarm 2 0to 255 p8 G value of the RGB mark colors for alarm 2 0to 255 p9 B value of the RGB mark colors for alarm 2 0to 255 p10 R value of the RGB mark colors for alarm 3 0 to 255 p11 G value of the RGB mark colors for alarm 3 0 to 255 p12 B value of the RGB mark
76. Assign server name recorder1 and port number 502 to registration number 1 SModClient 1 recorder1 502 Bsmoaccmd Modbus Client Transmission Command MC Sets the Modbus client transmission command Syntax SModCCmd p1 p2 p3 p4 p5 p6 P7 ps8 1p9 5 Command number p2 Command type Off Disable command Write Write a value to a Modbus register of another device Read Read a value from a Modbus register of another device p3 Server number 1 to 16 P4 Unit number 1 to 255 p5 Data type BIT Bit String data INT16 16 bit signed integer UINT16 16 bit unsigned integer INT32 B 32 bit signed integer big endian INT32 L 32 bit signed integer little endian UINT32_B 32 bit unsigned integer big endian UINT32 L 32 bit unsigned integer little endian FLOAT B 32 bit floating point big endian FLOAT L 32 bit floating point little endian p6 Register 1 to 465535 p7 Channel type IO 1 O channel Math Math channel Com Communication channel p8 First channel p9 Last channel Query SModCCmd p1 Example Register the following command in command number 2 read the 32 bit signed integer data that is assigned to registers 30003 upper 16 bits and 30004 lower 16 bits in the server device assigned to address 5 and unit number 1 into channel C002 SModCCmd 2 Read 5 1 INT32 B 30003 Com C002 C002 Description e f p2 Read set the communication channel in p7 p8 and p9 e Set the same typ
77. B Receive data B RDA Receive data A Connecting to the host device The figure below illustrates the connection of the recorder to a host device If the port on the host device is an RS 232 interface connect a converter Host computer i RS 422 485 or host device i terminal on the recorder Host device side j lt RS 422 485 RS 422 485 Host computer terminal on the recorder Host device side Converter i 55 E RS 232 L RS 422 485 Connection example to the host device A connection can be made with a host device having a RS 232 RS422 or RS 485 port In the case of RS 232 a converter is used See the connection examples below for a typical converter terminal For details see the manual that comes with the converter RS 422 485 Port Converter SDA TD SDB TD RDA RD RDB RD SG SHIELD FG EARTH There is no problem of connecting a 220 O terminator at either end if YOKOGAWA s PLCs or temperature controllers are also connected to the communication line 1 6 IM 04L51B01 17EN 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth Four wire system Generally a four wire system is used to connect to a host device In the case of a four wire system the transmission and reception lines need to be crossed over r Terminator external 120 O 1 2W or greater Terminat
78. B01 17EN 2 11 Format of the Data Block of Binary Output 2 11 2 Channel FIFO Data FFifoCur The output in response to the command FFifoCur 0 is shown below Outputs the I O channel math channel and communication channel FIFO data Configuration Block Data is stored in Block 1 shown below as 2 bytes 2 bytes Number of Blocks 16 bits Number of stored blocks Stores the number of blocks that can be output within the range specified by the read start position and end position Number of Bytes 16 bits Stores the number of bytes per block The content of the block is the same as that of Block 1 described in section 2 11 1 Most Recent Channel Data FData IM 04L51B01 17EN 2 113 sesuodses pue spuewwog H 2 11 Format of the Data Block of Binary Output 2 11 3 FIFO Data Read Range FFifoCur The output in response to the command FFifoCur 1 is shown below Outputs FIFO data read position information 8 bytes m Additional information always 0 The read position of the oldest data in the FIFO 1 to 99999999999 The read position of the most recent data in the FIFO 1 to 99999999999 The read position of the oldest data in the FIFO This is the oldest data number within the readable data range The read position of the most recent data in the FIFO This is the most recent data number within the readable data range 2 114 IM 04L51B01 17EN Appe
79. DO channel SW Output to an internal switch p8 Number If p7 DO Relay DO channel number Internal switch number 001 to 100 If p7 SW Query SAlarmCom p1 Example Set a high limit alarm H on alarm number 2 of communication channel 025 Set the alarm value to 85 096 When an alarm occurs output to the relay DO channel at number 0105 SAlarmCom 025 2 0n H 850 0n DO 0105 Description You cannot set this on a Off communication channel IM 04L51B01 17EN 2 29 sesuodses pue spueuluio 2 H 2 4 Setting Commands f p3 Off you cannot set p4 or subsequent parameters If p7 Off you cannot set p8 Youcannot set DO channels or internal switches whose output type is set to Manual as output destination numbers E saimHyscom Alarm Hysteresis MC Sets the alarm hysteresis for a communication channel Syntax SAlmHysCom pl p2 p3 pl Channel number p2 Alarm number 1 to 4 p3 Hysteresis Alarm Type Hysteresis Range H L 0 to 100000 Query SAlmHysCom p1 Example Set a hysteresis on alarm 3 of communication channel 025 SAlmHysCom 025 3 10 Description Hysteresis specified for delay high and low limit alarms TH and TL does not apply BsaimDlycom Alarm Delay Time MC Sets the alarm delay time for a communication channel Syntax SAlmDlyCom p1 p2 p3 p4 pl Channel number p2 Hour 0 to 24 p3 Minute 0 to 59 P4 Second 0 to 59 Query SAlmDlyCom p1 Example
80. FMedia The output in response to the command FMedia DIR is shown below Syntax EA crlf yy mm dd hh mi ss lll l fff crlf yy mm dd hh mi ss DIR dddddddd crlf EN crlf yyyy mo dd hh mm ss Time of file generation yy Year 1900 to 2099 mm Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mi Minute 00 to 59 ss Second 00 to 59 LIr b File size fixed to 10 characters Unused character positions are filled with spaces For directories lt DIR gt is output fff File name 2 10 21 External Storage Medium Free Space FMedia The output in response to the command FMedia CHKDSK is shown below Syntax EA crlf ZZZZzZzzz Kbytes free lt crlf gt EN crlf ZZZZZZZ Free space KB 2 100 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 22 Setting Data FCnf The output in response to the command FCnf is shown below Syntax EA crlf EN crlf Response to a setting query The setting data is output in the format of the response to a setting query 2 10 23 Decimal Place and Unit Information FChinfo The output in response to the command FChlnfo is shown below Syntax EA crlf S cccc uuuuuuuuuu ppc crlf S CCCC uuuuuuuuuu ppc crlf S CCCC uuuuuuuuuu ppc crlf EN crlf Cccc uuuuuuuuuu pP Data status N Normal D Differential input S Skip Channel number I O channel math channel communication channel Unit informati
81. If p2 GS you cannot specify p4 Off Delta If p2 DI you cannot set p7 If an electro magnetic relay type or low withstand voltage relay type analog input module is in use you cannot specify p2 RTD The settable items for p3 are shown below p2 Volt p2 TC p2 RTD p2 GS p2 DI 20mv Pt100 1 5V Level 60mV Pt100 H 0 4 2V DI 200mv JPt100 1V JPt100 H 2V Cul0GE 6v Cul0LN 20V CulOWEED 3 C Ed XL X 0 Joa 50V CulOBAILEY Cu10a392 Cu10a393 EE Cu25 U Cubs PLATINEL Cu100 PR20 40 J263B WRe3 25 Nil100SAMA pvsAu7Fe Nil00DIN NiNiMo Ni120 WWRe26 Pt25 N14 Pt50 XK Pt200WEED Cul0G Cu50G Cu100G Pt46G Pt100G If p4 LogT1 on a Log scale channel set the value in the following range p5 p6 p9 p10 p9 lt p10 The maximum span is 15 decades If the mantissa of p9 is 1 00 the minimum span is 1 decade If the mantissa of p9 is not 1 00 the minimum span is 2 decades If p4 LogT2 or LogT3 on a Log scale channel set the value in the following range e p5 p6 p9 p10 The maximum span is 15 decades the minimum is 1 decade If the mantissa of p9 is not 1 00 the exponent is 14 or less and the maximum span is 14 decades BsRangeAlCurrent Measurement Range of Current Input Type Al Channel Sets the measurement range of an current
82. Language Temperature unit Decimal point type Fail relay operation FL GX GP Instrument status to output FL GX GP Printer LED indicator operation GX GP Sound GX GP Instruments tag Setting file comment USB input device GX GP 2 38 2 38 2 38 2 38 2 38 Page 2 39 2 39 2 39 2 39 2 39 2 40 2 40 2 40 2 40 2 40 2 40 2 41 2 41 2 41 2 41 SSetComment Configuration changes comment AS Internal Switch Setting Commands SSwitch Internal switch operation Serial Communication Setting Commands SSerialBasic SModMaster SModMCmd Serial communication basics C2 or C3 Modbus master C2 MC or C3 MC Modbus master transmission command C2 MC or C3 MC SSerialAutoLOut Auto logout for serial communication C2 or C3 Ethernet Communication Setting Commands SIpAddress SClient SClientEncrypt SDns SDhcp SFtpKind SFtpTime SFtpCnct SSmtpLogin SSmtpCnct SMailHead SMailBasic SMail SMailAlarm ailTime SntpCnct odClient odCList NnNnwWnN Ww SModCCmd SServer SServerEncrypt SKeepAlive STimeOut SFtpFormat SModDelay SModLimit SModList SWattList SMailAlarmLevel IP address information Client function Client Communication Encryption DNS information DHCP client File to transfer via FTP FTP transfer time shift FTP client connection destination server SMTP user authentication SMT
83. MARK as message number 2 in display groups 3 8 and 11 OMessage FREE 2 3 8 11 MARK Bopassword Changes the Password Changes the password Syntax OPassword p1 p2 p3 pl Old password up to 20 characters ASCII p2 New password up to 20 characters ASCII p3 New password enter the same password as p2 Example Change the password from PASSO01 to WORDOOS OPassword PASS001 WORD005 WO RD005 Description e For the characters that you can use for the password see Appendix 1 Bowath Starts Stops or Resets Computation or Clears the Computation Dropout Status Display Starts or stops computation resets computed values or clears the computation dropout status display Syntax OMath pl p1 Action type 0 0 Start computation 1 Stop computation 2 Reset computation 3 Clear the computation dropout status display Query OMath Example Start computation OMath 0 Description You cannot use this command while the recorder is saving or loading setup data lBlosavecont Saves Setting Data Saves the recorder setting data to the recorder s external storage medium Syntax OSaveConf p1 p2 p3 p1 File name up to 80 characters ASCII Specify the path and file name excluding the extension p2 Medium GX GP SD USB GM SD SD SD memory card USB USB flash memory p3 Setting file comment up to 50 characters UTF 8 Example Save setting data to a file named SETFILE1 t
84. O pl p2 p3 pi Channelnumber p2 Alarm number 1 to 4 p3 Alarm on or off Off Do Not Output Alarms Syntax SAlarmIO p1 p2 p3 p4 p5 p6 p7 pl Channel number p2 Alarm number 1 to 4 p3 Alarm on or off On P4 Alarm type H L DH DL RH RL TH TL For a channel set to Log scale LG if p4 of SRangeAl is LogT1 LogT2 or LogT3 p4 is H L TH or TL p5 Value For a channel set to Log scale LG if p4 of SRangeAl is LogT 1 LogT2 or LogT3 specify p5 using exponential notation e g 1 23E10 where the number of digits of the mantissa is as specified by p8 of the SRangeAl command p6 Detection Off On p7 Output Off Output Alarms Syntax SAlarmIO pl p2 p3 p4 p5 p6 p7 p8 p1 Channel number p2 Alarm number 1 to 4 p3 Alarm on or off On P4 Alarm type H L DH DL RH RL TH TL For a channel set to Log scale LG if p4 of SRangeAl is LogT1 LogT2 or LogT3 p4 is H L TH or TL p5 Value For a channel set to Log scale LG if p4 of SRangeAl is LogT1 LogT2 or LogT3 specify p5 using exponential notation e g 1 23E10 where the number of digits of the mantissa is as specified by p8 of the SRangeAl command p6 Detection Off On p7 Output DO Output to a relay DO channel SW Output to an internal switch p8 Number If p7 DO Relay DO channel number If p7 SW Internal switch number 001 to 100 Query SAlarmIO p1 p2 Example Set a high limit alarm H on alarm number 2
85. Ohf unitate eee bte XE La Er Leder de uS 2 102 2 10 25 Bluetooth Device Information FBTDevinfo 2 104 2 10 26 Instrument Manufacturer MFQG 2 104 2 10 27 Instrument s Product Name INF 2 104 2 10 28 Instrument s Basic Specifications COD 2 105 2 10 29 Instrument s Firmware Version Information VER 2 105 2 10 30 Instrument s Option Installation Information OPT ssssssseeenneee 2 106 2 10 31 Instrument s Temperature Unit and Daylight Saving Time Installation Information TYP 2 106 2 10 32 Instrument s Error Number Information ERR ssssssseeneeennens 2 10 33 Instrument s Unit Configuration Information UNS or UNR 2 10 34 Instrument s Module Configuration Information MDS or MDR Format of the Data Block of Binary Output ssssn e 2 11 1 Most Recent Channel Data FData ssssssssssssssseseseeeennee nennen nnne 2 11 2 Channel FIFO Data FFifoCur ane 2 11 3 FIFO Data Read Range FFifOCur cccccecssceeeeseeeeeeeeeeeeeaeeeeeneeeeeaeeeseneeeseaeeesenaeeeteas ASCIl Character Codes eerie trennen tenuere ee te ai ebbe Exon RAIL nein ata ete App 1 Login PROC GUNG eR App 2 When Using thie EogiriF nctlon uiuat ceni ara net otl ie biis the aa aE EESE App 2 When Not Using the Login Function iae petiti edema i eher dete pa App 3 Output Flow C
86. P client connection destination server Mail header Common section of the mail body Destination and behavior for each mail type Alarm notification mail target channels Alarm notification mail target alarm levels SMailAlarmDetect Alarm notification mail target alarm detection method 2 41 Page 2 41 Page 2 42 2 42 2 42 2 43 Page 2 43 2 43 2 43 2 44 2 44 2 44 2 44 2 45 2 45 2 45 2 45 2 45 2 45 2 46 2 46 2 46 Scheduled transmission times 2 46 SNTP client 2 46 Modbus client operation MC 2 47 Modbus client connection destination server MC Modbus client transmission command MC Server function Server communication encryption Keepalive Communication timeout FTP server directory output format Modbus server delay response Modbus server connection limit IP address to allow connection to Modbus server WT communication connection server E2 2 47 2 47 2 47 2 48 2 48 2 48 2 48 2 48 2 48 2 49 2 49 2 6 IM 04L51B01 17EN 2 2 List of Commands SWattClient WT communication operation 2 49 FUser Outputs the user level 2 58 E2 FAddr Outputs the IP address 2 58 SWattData WT data allocation to 2 49 FStat Outputs the GX GP status 2 59 communication channel E2 KOE aon desinat 2 49 FLog Outputs the log 2 59 SEDOUNGE AS nec Ie deuten FEventLog Outputs a detail event log AS 2 59 rn d FM
87. Set the communication channel 025 alarm delay time to 2 minutes 30 seconds SAlmDlyCom 025 0 2 30 Description Setthe delay time so that it is an integer multiple of the scan interval SScan command E sragcom Tag MC Sets the tag of a communication channel Syntax STagCom pl p2 p3 pl Channel number p2 Tag up to 32 characters UTF 8 p3 Tag number up to 16 characters ASCII Query STagCom p1 Example Set the communication channel 025 tag to SYSTEM and the tag number to T1002 STagCom 025 SYSTEM1 TI002 lEscoiorcom Channel Color MC Sets the color of a communication channel Syntax SColorCom p1 p2 p3 p4 pl Channel number p2 R value of RGB display colors 0 to 255 p3 G value of RGB display colors 0 to 255 P4 B value of RGB display colors 0 to 255 Query SColorCom p1 Example Set the communication channel 025 display color to red SColorCom 025 255 0 0 Description Fordetails on RGB values see Description of the SColorlO command BszoneCcom Waveform Display Zone MC Sets the waveform display zone of a communication channel Syntax SZoneCom pl p2 p3 pl Channel number p2 Zone lower limit 76 0 to 95 p3 Zone upper limit 5 to 100 Query SZoneCom p1 Example Set the waveform zone of communication channel 025 waveform to 096 to 3096 SZoneCom 025 0 30 Esscalecom Scale Display MC GX GP Sets the scale display of a communica
88. Syntax OKeyLock pl p1 Key lock on off On Off On Locks the keys Off Releases the key lock Example Release the key lock OKeyLock Off Description Turning the key lock on will lock the START STOP USER and USER2 keys You cannot lock the key individually Only administrator level users can turn key lock on and off This command is invalid when the advanced security function AS is enabled and the log in via communication is enabled BogrrorCiear Clears the Error Display GM Clears the error display status from the 7 segment LED Syntax OErrorClear pl p1 Error display clear type 0 Error display clear Example Clear the error display status from the 7 segment LED OErrorClear 0 IM 04L51B01 17EN 2 67 s suods y pue spuewwog H 2 7 Communication Control Commands Bcchecksum Sets the Checksum Sets the presence or absence of checksum Syntax CCheckSum p1 pl Checksum usage 0 Do not compute 1 Compute Query Example Enable the checksum CCheckSum 1 lBlcsriter Sets the Status Filter Sets the filter used when outputting the recorder status Syntax CSFilter pl p1 Filter values for status information numbers 1 to 4 0 0 0 0 to 255 255 255 255 Query CSFilter Example Set the status filter value to 255 127 63 31 CSFilter 255 127 63 31 Description The status filter is applied to each communication connection lB cLogin Log in over a Communication P
89. TU T RS 232 2 RD 104 BB RXD Received data Input signal to the GX GP 3 SD 103 BA TXD Transmitted data Output signal from the GX GP 5 SG 102 JAB GND Signal ground Signal ground 7 RS 105 CA RTS Requestto send Handshaking signal when receiving data from the PC Output signal from the GX GP 8 CS 106 JCB CTS Clear to send Handshaking signal when receiving data from the PC Input signal to the GX GP 1 Pins 1 4 6 and 9 are not used Signal direction lt lt e Connection example e OFF OFF XON XON PC GX GP SD 3 SD RD 2 RD RS 7 RS cs 8 CS SG 5 SG XON RS XON RTS PC GX GP SD 3 SD RD gt RD RS CS SG 7 RS 4 8 CS 5 SG RS Request to send Ready to receive CS Clear to send Ready gt 8 SD Send data RD Received data CS RS CTS RTS PC GX GP SD 3 SD RD gt RD RS 7 RS cs gt 8 cs SG 5 SG The connection of RS on the PC and CS on the GX GP is not necessary However we recommend that you wire them so that the cable can be used in either direction IM 04L51B01 17EN 1 3 je39uo5 spueuiuio2 pojeoipeg Buisf 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth Handshaking When using the RS 232 interface for transferring data it is necessary for equipment on both sides to agree
90. Web Log in using touch operation and via communication P4 Username up to 20 characters ASCII p5 Password between 6 and 20 characters ASCII p6 Enable or disable user limitation Off On p7 User limitation number 1 to 10 p8 User ID up to 20 characters ASCII Specify a user ID and password combination that have not been registered in the past p9 Password expiration Off 1Month 3Month 6Month p10 Enable or disable sign in property Off On p11 Sign in property number 1 to 8 Key Comm IM 04L51B01 17EN 2 51 s suods y pue spueuluio 2 H 2 4 Setting Commands SUser pl The password of p5 and user ID of p8 are displayed using asterisks Example Register a user level user to user number 3 Set the user name to user10 Allow login only using touch operation and specify user limitation number 5 SUser 3 User Key userl0 0n 5 Description Query e If p1 1 p2 is fixed to Admin In addition you cannot set p3 to Comm If p2 Admin p6 and p10 are fixed to Off e If p2 Monitor p6 p9 and p10 are fixed to Off You cannot enter NULL or spaces in p4 or p5 Setting to enable password management SKdc command If p2 Off Admin or User p5 is invalid The response to a query will be blank p9 is fixed to Off You can specify p5 only when p2 Monitor When p2 Admin or User you cannot specify p5 and the default password is enabled For the default password s
91. X GP to return from saver mode to the pressing of a key and tapping of the touchscreen SLecd 3 Dimmer 5min Key Touch Description e p3 and subsequent parameters are valid when p2 Off IsviewAngle View Angle GX GP Set the view angle Syntax SViewAngle p1l pl View Angle Upper Easy to view from above Lower Easy to view from below Query SViewAngle Example Set the view angle so that it is easy to view from above SViewAngle Upper Description This command is valid for the GX10 GP10 BsBackCotor Screen Background Color GX GP Sets the screen background color Syntax SBackColor pl p2 p3 p1 R value of RGB background colors 0 to 255 p2 G value of RGB background colors 0 to 255 p3 B value of RGB background colors 0 to 255 Query SBackColor Example Set the background color to black SBackColor 0 0 0 Description e For details on RGB values see Description of the SColorlO command B scrpChange Automatic Group Switching Time GX GP Sets the time for automatically switching between display groups Syntax SGrpChange pl pl Automatic group switching time 5s 10s 20s 30s 1min Query SGrpChange Example Set the switching time to 1 minute SGrpChange lmin TsautoJump Jump Default Display Operation GX GP Sets the amount of time that must elapse until the GX GP returns to the specified screen standard screen when there is no user interaction Syntax SAutoJump pl
92. YYYY Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 ttt Millisecond 000 to 999 A period is inserted between the minute and millisecond kkk Alarm cause OFF Alarm release ON Alarm occurrence ACK All channel alarm ACK Individual alarm ACK ALL All channel alarm OFF cccc Channel number set to four spaces if the alarm cause is ACK or ALL Alarm level 1 to 4 ss Alarm type H High limit alarm h Difference high limit alarm L Low limit alarm L Difference low limit alarm R_ High limit on rate of change alarm ro Low limit on rate of change alarm T Delay high limit alarm t Delay low limit alarm If the cause of alarm is all channel alarm ACK or all channel alarm OFF the channel number alarm level and alarm type will be blank If the cause of alarm is individual alarm ACK the alarm type will be blank 2 84 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 9 Message Summary FLog The output in response to the command FLog MSG is shown below Syntax EA crlf yyyy mo dd hh mm ss YYYY MO DD HH MM SS t mmm m zzz ggg g uuu u lt crlf gt EN lt crlf gt yyyy mo dd hh mm ss YYYY MO DD_HH MM SS mmm m ZZZ ggg g uuu u Time when the message was written yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 t
93. address does not change until you send the OIPApply command Ispnep DHCP Client Sets the DHCP client Do Not Obtain the IP Address Automatically Syntax SDhcp pl pl Automatic IP address assignment Off Obtain the IP Address Automatically Syntax SDhcp p1 p2 p3 pl Automatic IP address acquisition On p2 DNS information acquisition Off On p3 Automatic host name registration Off On Query SDhcp Example Automatically obtain the IP address and DNS information and automatically register the host name SDhcp On On On Description The settings specified with this command takes effect with the OIPApply command The recorder IP address does not change until you send the OIPApply command lsrtpkina File to Transfer via FTP Sets the file to transfer via FTP Syntax SFtpKind pl p2 pl Setting type GX GP Data Report Snapshot AlarmSummary ManualSample Setting GM Data Report AlarmSummary ManualSample Setting Data Automatically transfer display and event data files when files are generated Report Automatically transfer report data files when files are generated Snapshot Automatically transfer snapshot data files when files are generated AlarmSummary Transfer alarm summaries ManualSample Automatically transfer manual sampled data files when manual sampling is executed Setting Automatically transfer the setting file when settings are changed p2 Enable or disable transfer
94. ameter A delimiter is a symbol that indicates a separation A terminator is attached to the end of a command Command name parameter 1 parameter 2 terminator Pa ee Delimiters Example of a Command SRangeAI 0001 VOLT 2V OFF 15000 18000 0 Commands in a Series Setting commands only You can send multiple setting commands in a series When writing a series of commands separate each command with a sub delimiter A sub delimiter is a symbol that indicates a separation A terminator is attached to the end of the series The maximum number of bytes that can be sent at once is 8000 bytes 8000 characters Command name parameter 1 parameter 2 command name parameter1 terminator Command 1 Command 2 Sub delimiter IM 04L51B01 17EN 2 1 sesuodses pue spuewwog H 2 1 Command Transmission and Recorder Responses Queries Notes on Writing Commands in a Series Only setting commands can be written in a series Queries see the next section cannot be written in a series fthere is an error in one of the commands in a series the commands before it are canceled and those after it are not executed Example of a Command SRangeAI 0001 VOLT 2V OFF 15000 18000 0 SRangeAI 0002 SKIP Queries are used to inquire the recorder settings To send a query append a question mark to the command name or parameter When the recorder receives a query it returns the relevant setting as a character string in an appropriate
95. an upper limit 1 digit Query SPartialIO pl Example For channel 0001 whose measurement range is 0 to 1 0000 V display the measured value of 0 7500 V at the 50 position SPartiallO 0001 0n 50 7500 Description e You cannot set this on a Skip channel p2 is fixed to Off e You cannot set this on a channel set to Log scale LG if p4 of SRangeAl is LogT1 LogT2 or LogT3 p2 is fixed to Off e f p2 Off you cannot set p3 or subsequent parameters e P2 On can be specified when the difference between the span upper and lower limits is 2 digits or greater B sBandio Color Scale Band Sets the color scale band of an Al channel Syntax SBandIO pl1 p2 p3 p4 p5 p6 p7 pl Channel number p2 Color scale band Off In Out p3 R value of the color scale band RGB colors 0 to 255 P4 G value of the color scale band RGB colors 0 to 255 p5 B value of the color scale band RGB colors 0 to 255 p6 Upper limit of the color scale band display Span or scale lower limit to span or scale upper limit For a channel set to Log scale LG if p4 of SRangeAl is LogT1 LogT2 or LogT3 specify p6 using exponential notation e g 1 23E10 where the number of digits of the mantissa is as specified by p8 of the SRangeAl command p7 Lower limit of the color scale band display Span or scale lower limit to span or scale upper limit For a channel set to Log scale LG if p4 of SRangeAl is LogT1 LogT2 or LogT3 specify p
96. and in the range of 0 5000 to 1 0000 SBandMath 015 1n 0 0 255 5000 10000 Description e You cannot set this on a Off channel p2 is fixed to Off e f p2 Off you cannot set p3 or subsequent parameters For details on RGB values see Description of the SColorlO command E sAimMarkMath Alarm Mark MT Sets the display of the marker that indicates the specified alarm position of a math channel p10 R value of the RGB mark colors for alarm 3 0to 255 p11 G value of the RGB mark colors for alarm 3 0 to 255 p12 B value of the RGB mark colors for alarm 3 0to 255 p13 R value of the RGB mark colors for alarm 4 0to 255 p14 G value of the RGB mark colors for alarm 4 0to 255 p15 B value of the RGB mark colors for alarm 4 0to 255 Query SAlmMarkMath p1 Example Display the alarm marks for alarms 1 to 4 of math channel 015 in fixed colors red brown orange and yellow respectively SAlmMarkMath 015 0n Fixed 255 0 0 165 42 42 255 105 0 255 255 0 Description e For details on RGB values see Description of the SColorlO command Syntax SAlmMarkMath p1 p2 p3 p4 p5 p6 p7 p8 p9 p10 p11 p12 p13 p14 p15 pl Channel number p2 Whether to display the alarm mark on the scale Off On p3 Alarm mark type Alarm Display the default alarm mark Fixed Display the mark with the specified color P4 R value of the RGB mark colors for alarm 1 0to 255 p5 G value of the RGB mark colors for
97. aracters Unused character positions are filled with spaces f Multiple command flag Space Single command Multiple commands d Tx Rx gt Tx command connected instrument to recorder lt Rx Response recorder to connected instrument mmm m Message fixed to 40 characters Unused character positions are filled with spaces The recorder normally outputs the data that has been transmitted or received as is but it sometimes outputs special messages Special messages are shown below output Over length timed out disconnected Data output Command length too long Timeout Disconnection occurs when an Ethernet connection is disconnected 2 88 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 14 Modbus Communication Log FLog The output in response to the command FLog Modbus is shown below Syntax EA crlf yyyy mo dd hh mm ss c xxxxxx kkk k nnn d crlf EN crlf yyyy mo dd hh mm ss Time of error occurrence yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 c Communication type M Modbus master C Modbus client XXXXXX Event that occurred fixed to 6 characters ACTIVE Activated READY Command ready state CLOSE _ Disconnected HALT Command halted FORM Other than those above kkk k Details fixed to 15 characters Unused character positions are filled with spaces See table
98. ath Logs in over a communication path Syntax CLogin pl p2 pl User name p2 password Example Log in using the user name admin and password password CLogin admin password Description e For the characters that you can use for the password see Appendix 1 When Using the Advanced Security Function AS Syntax CLogin pl p2 p3 p4 p5 pl Username p2 UserID p3 Password p4 The new password when the password has expired p5 The new password when the password has expired for confirmation Example Log in using the user name adminO1 and password password01 CLogin admin01 password01 Description fp4 and p5 are not specified normal login will be used Evenifthe password has not expired you can enter a new password in p4 in p5 to change the password and log in e fp4 and p5 are not the same an error will occur e You cannot change to the same password if p3 is the same as p4 and p5 an error will occur e Ifthe user ID is not used p2 is invalid When using the password management you cannot specify p4 and p5 Forthe characters that you can use for the password see Appendix 1 l i cLogout Log Out over a Communication Path Logs out over a communication path Syntax CLogout Example Logs out from the recorder CLogout Bcetconnect Starts Bluetooth Communication C8 GM Starts Bluetooth communication Syntax CBTConnect pl pl Bluetooth password of the de
99. ation is in progress Isrepch Report Channel MT Assigns a channel to a report channel Not Assign a Channel Syntax SRepCh pl p2 pl Report Channel Number p2 Usage Off Assign a Channel Syntax SRepCh pl p2 p3 p4 pl Report Channel Number p2 Usage IO I O channel Math Math channel Com Communication channel p3 Channel number P4 Sum scale Off sec min hour day Query SRepCh p1 Example Assign I O channel 0002 to report channel 1 Set the sum scale to Off SRepCh 001 10 0002 0ff Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress e fp2 Off you cannot set p3 or subsequent parameters Communication channels are an option MC IM 04L51B01 17EN 2 35 sesuodses pue spueuiuio 2 H 2 4 Setting Commands Esca LCD GX GP Sets the brightness and backlight saver of the LCD Syntax SLcd pl p2 p3 p4 p1 Brightness 1 to 6 p2 Backlight saver mode Off Not used Dimmer Dimmer TimeOff Off p3 Backlight saver saver time 1min 2min 5min 10min 30min 1h P4 Backlight saver restore Key Touch Key or touchscreen Key Toucht tAlarm Key touchscreen or alarm Query SLcd Example Set the LCD brightness to 3 and the screen backlight saver type to DIMMER Set the amount time of until the GX GP switches to saver mode to 5 minutes and the event that causes the G
100. ay a bitmap scale image in the trend display of a display group Syntax SScl1Bmp p1 p2 pl Group number p2 Enable or disable Off On Query SSclBmp pl Example Use a bitmap scale image on display group 3 SSclBmp 3 0n Description Specify the bitmap file to use from the front panel of the GX GP Ismessage Message Sets messages Syntax SMessage pl p2 pl Message number 1 to 100 p2 Message string up to 32 characters UTF 8 Query SMessage p1 Example Assign character string MESSAGE77 to message number 77 SMessage 77 MESSAGE7 7 2 38 IM 04L51B01 17EN 2 4 Setting Commands Istimezone Time Zone Sets the time zone Syntax STimeZone p1 p2 p1 Time zone Hour 13 to 13 p2 Time zone Minute 0 to 59 Query STimeZone Example Set the time offset to 9 hours ahead of GMT STimeZone 9 0 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress IspateBasic Gradual Time Adjustment Sets the gradual time adjustment feature Syntax SDateBasic pl p2 pl Boundary value for gradually adjusting the time Off 5s 10s 15s p2 Action to take when the boundary value for gradually adjusting the time is exceeded NotChange Do not change Change Change Query SDateBasic Example Set the boundary value to 15 seconds When the off
101. ay zone of an Al DI or DO channel Syntax SZoneIO p1 p2 p3 2 22 IM 04L51B01 17EN 2 4 Setting Commands pl Channel number p2 Zone lower limit 0 to 95 p3 Zone upper limit 5 to 100 Query SZoneIO p1 Example Set the waveform zone of channel 0001 waveform to 0 to 30 SZonelO 0001 0 30 Isscalelo Scale Display GX GP Sets the scale display of an Al DI or DO channel Syntax SScalelI0 p1 p2 p3 pl Channel number p2 Scale display position Off 1 to 10 p3 Number of scale divisions 4 to 12 C10 Query SScaleIO p1 Example Display the channel 0001 scale at display position 1 Display four equally spaced main scale marks SScaleIO 0001 1 4 Espario Bar Graph Display Sets the bar graph display of an Al DI or DO channel Syntax SBarl0 p1 p2 p3 pl Channel number p2 Bar display base position Lower Lower Center Center Upper Upper p3 Number of scale divisions 4 to 12 Query SBarIO pl Example Display the measured values of channel 0001 on a bar graph with the center set as the base position Center Display four equally spaced main scale marks SBarlO 0001 Center 4 EsPartiato Partial Expanded Display GX GP Sets the partial expanded display of an Al channel waveform Syntax SPartiallO pl p2 p3 p4 p1 Channel number p2 Partial expanded On Off On Off p3 Partial expanded boundary position 1 to 99 P4 Partial expanded boundary value span lower limit 1 digit to sp
102. can be specified when the difference between the span upper and lower limits is 2 digits or greater Espanacom Color Scale Band MC Sets the color scale band of a communication channel Syntax SBandCom p1 p2 p3 p4 p5 p6 p7 pi Channel number p2 Color scale band Off In Out p3 R value of the color scale band RGB colors 0 to 255 P4 G value of the color scale band RGB colors 0 to 255 p5 B value of the color scale band RGB colors 0 to 255 p6 Upper limit of the color scale band display span lower limit to span upper limit p7 Lower limit of the color scale band display span lower limit to span upper limit Query SBandCom p1 Example For communication channel 025 set a blue band in the range of 0 5000 to 1 0000 SBandCom 025 1n 0 0 255 5000 10000 Description e You cannot set this on a Off channel p2 is fixed to Off e f p2 Off you cannot set p3 or subsequent parameters For details on RGB values see Description of the SColorlO command sAimMarkCom Alarm Mark MC Sets the display of the marker that indicates the specified alarm position of a communication channel Syntax SAlmMarkCom p1 p2 p3 p4 p5 p6 p7 p 8 p9 p10 p11 p12 p13 p14 p15 p1 Channel number p2 Whether to display the alarm mark on the scale Off On p3 Alarm mark type Alarm Display the default alarm mark Fixed Display the mark with the specified color P4 R value of the RGB mark colors for alarm 1 0to 255
103. cation The table below shows the parameters p5 Data Group Name and p6 Data Name for SWattData Command Parameters p5 Data Group Name and p6 Data Name for SWattData Command WT1800 p5 Data group name p6 Data name Description WT Function mark Off Data assignment is disabled ELEMENT1 to ELEMENT6 URMS True rms voltage Urms UMN Rectified mean voltage calibrated to Umn the rms value UDC Simple voltage average Udc IRMS True rms current Irms IMN Rectified mean current calibrated to Imn the rms value IDC Simple current average Idc P Active power P S Apparent power S Q Reactive power Q LAMBda Power factor PHI Phase difference 0 FU voltage frequency fU FI current frequency fl TIME Integration time Time WH sum of watt hours WP WHP Sum of positive P consumed watt WP hours WHM Sum of negative P watt hours WP returned to the power supply AH Sum of positive and negative q ampere hours AHP Sum of positive ampere hours q AHM Sum of negative ampere hours q ElemHrm1 to ElemHrm6 UK 1 RMS voltage of harmonic order 1 U 1 UK T Rms voltage U Total IK 1 RMS current of harmonic order 1 1 IK T Rms current I Total UTHD Ratio of the total harmonic voltage Uthd to U 1 or U Total ITHD Ratio of the total harmonic current Ithd to I 1 or I Total SigmaA to SigmaC URMS Tr
104. communication option and the MC communication channel option lsciientEncrypt Client Communication Encryption Sets whether to encrypt FTP client communication and SMTP client communication Syntax SClientEncrypt pl p2 p3 p1 Clienttype FTP SMTP p2 Encryption Off On p3 Verification of certificate Off On Query SClientEncrypt pl Example Encrypt FTP client communication Check that the certificate in the recorder matches the certificate received from the server SClientEncrypt FTP On On IM 04L51B01 17EN 2 43 sesuodses pue spuewwog H 2 4 Setting Commands Ispns DNS Information Sets the DNS information Host GX Syntax SDns p1 p2 p3 pl Setting type Host p2 Host name up to 64 characters ASCII p3 Domain name up to 64 characters ASCII DNS Server Syntax SDns p1 p2 p3 pl Setting type Server p2 Primary DNS server 0 0 0 0 to 255 255 255 255 p3 Secondary DNS server 0 0 0 0 to 255 255 255 255 Suffix Setup Syntax SDns p1 p2 p3 pl Setting type Suffix p2 Primary domain suffix up to 64 characters ASCII p3 Secondary domain suffix up to 64 characters ASCII Query SDns p1 Example Set the IP address of the primary DNS server to 192 168 111 1 and the IP address of the secondary DNS server to 192 168 111 10 SDns Server 192 168 111 1 192 168 111 10 Description The settings specified with this command takes effect with the OIPApply command The recorder IP
105. corder shows the login screen and waits for a user password and user ID input e p1 2is valid when the advanced security function AS is enabled p3is valid when p1 2 However when the user ID is not used p3 is invalid This command is valid when the serial communication function the SSerialBasic command is set to Barcode or the USB input device the SUsbInput command is set to Barcode Bl osenavatue Assists Touch Panel Operation Input GX GP Assists text input during touch panel operation Syntax OSendValue p1 p2 pl Fixed to O p2 Character string up to 64 characters UTF 8 Example On the message settings screen enter the message START display the message settings screen and select the text box for entering the message string in advance OSendValue 0 START Description e Input into a text area that displays asterisks is not possible This command is valid when the serial communication function the SSerialBasic command is set to Barcode or the USB input device the SUsbInput command is set to Barcode BouserLockACK User Locked ACK AS Clears the user locked display Syntax OUserLockACK Example Clears the user locked display OUserLockACK Description This command can be executed only when the user is logged in as an administrator e If there are no locked users nothing will take place BlokeyLock Key Lock On Off GM Turns key lock on or off
106. cription WT Function mark Phase PHI_U112 The phase difference between the p U1 I2 fundamental voltage of element 1 U1 1 and the fundamental current of element 2 I2 1 PHI U1I3 The phase difference between the p U1 I3 fundamental voltage of element 1 U1 1 and the fundamental current of element 3 I3 1 WT300 Data group name Data name Description WT Function mark Off Data assignment is disabled ELEMENT 1 to ELEMENTS U voltage U l current l P active power P S apparent power S Q reactive power Q LAMBda power factor PHI phase difference 0 FU voltage frequency fU FI current frequency fl UPPeak Maximum voltage U pk UMPeak Minimum voltage U pk IPPeak Maximum current I pk IMPeak Minimum current l pk PPPeak Maximum active power P pk PMPeak Minimum active power P pk TIME Integration time Time WH sum of watt hours WP WHP Sum of positive P consumed watt WP hours WHM Sum of negative P watt hours WP returned to the power supply AH Sum of positive and negative q ampere hours AHP Sum of positive ampere hours q AHM Sum of negative ampere hours q ElemHrm1 to ElemHrm3 UK 1 RMS voltage of harmonic order 1 U 1 UK T Rms voltage U Total IK 1 RMS current of harmonic order 1 1 IK T Rms current I Total PK 1 Active power of harmonic order 1 P 1 PK T Active power P Total LAMBDA1 Power factor of harmonic order 1 A 1 PHIK_1 Phase difference between the 1 voltage and current of harmonic order 1 PHIUk3 Phase d
107. d Descriptions sssssssssseeeeeeen 2 9 Parameters ino iniecit eoe Do aie a Do eer edt E ened 2 3 1 Measuring Rarige Paratmietefs esas rere res eren ruo ewes cM CE see R Ea 2 9 2 Parameter Notation and Range 2 9 8 Specifying Ez az Loo REEL Setting Comtriands ainniaee patens ie aA AGA Ebo Ee A Ea ce ask QutputComitands iei cete eer eA ce LEES AA ERU Fee DEEP E AA EL EE o Coe EROS Operation Commands cccccccccececeseseece ee aet ienr reia Ea AEE E e EEE EERE aE E a ESEE Communication Control Commands sse enne nennen nnne Instrument Information Output Commands ssssssssssseseeeen eee nennen 2 70 Responses to Comimarids 2 or ret rm ED Pe HE ences dads dats HERE caresses nnt eb ecu ERES 2 71 2 9 1 Affirmative Response For commands other than output request commands 2 71 2 9 2 Negative RESPONS Geunes Sec careers reines ene U tes ds rA EER 2 71 2 9 3 Data Output Response sssssssss 2 72 2 9 4 Output in Response to RS 422 485 Commands sss 2 74 ASCIL OutpUb FORMA eae 2 10 1 Most Recent Channel Data FData i 2 10 2 Most Recent DO Channel Status FRelay 2110 9 Internal Switch Status FRel ay nee ers teeter dec 2 10 4 Users Who Are Currently Logged In FUser 2 10 5 All Users Who Are Currently Logged In FUser cccceseeeeeeeeneeeeeeeeeesesaeeeeeeeeeeteneeeseanees 2 80
108. d is displayed using asterisks Example Set the password to PaSswoRD2 SBTPPassword On PaSswoRD2 Description e You cannot use this command to configure settings when logged in as a user when the user level is User B ssessionsecurity Web Session Security Function AS GM Sets the web session security function Syntax SSessionSecurity pl pl Session security On Off Query SSessionSecurity Example Use the session security function SSessionSecurity On Description This command can be executed only when the user is logged in as an administrator Bswebrimeout Web Auto Logout AS GM Sets the auto logout time for web screen Syntax SWebTimeOut pl pl Auto logout time Off 10 min 20 min 30 min Query SWebTimeOut Example Set the auto logout time to 10 minutes SWebTimeOut 10min Description This command can be executed only when the user is logged in as an administrator SMonitor Monitor Screen Display Information GX GP Sets the monitor screen display information Syntax SMonitor pl p2 p1 Information type see the table below p2 Status see the table below Information Type Status p1 Description p2 Digital Digital value display Off On Scroll Auto scroll Off On Message Message display Stream List Trend All channel group display Group All Axis Time axis on historical 1 2 3 4 5 trend 6 7 8 Va
109. ddress Format XX20 XX20 XX XX module information xxxx user defined character string Before the Bluetooth function is turned on after power on the xx of the BD address area will be spaces and the module information area will be empty no characters 2 10 26 Instrument Manufacturer _MFG The output in response to the command _MFG is shown below Outputs the instrument manufacturer Output Example EA crlf YOKOGAWA crlf EN crlf 2 10 27 Instrument s Product Name INF The output in response to the command _INF is shown below Output Example EA crlf GX20 GP20 123456789 xx XX XX XX XX XX RX XX XX lt crlf gt EN crlf GX20 GP20 Product name GX20 GP20 GX10 GP10 or GM10 123456789 Product serial number XX XX XX XX XX XX MAC address xx s are hexadecimals RX XX XX Firmware version 2 104 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 28 Instrument s Basic Specifications _COD The output in response to the command _COD is shown below Output Example EA crlf GX20 1 J 1 M lt crlf gt EN lt crlf gt GX20 Model 1 Type 1 100 channels 2 500 channels J Display language J Japanese E English C Chinese 1 Supply voltage Blank when the product name is GX10 GX20 or GM10 1 100 VAC 240 VAC when the product name is GP10 or GP20 M Power cord Blank when the product name is GX10 GX20 or GM10 M PSE cable D UL CSA cable
110. ding at recording start and stops recording at recording stop SingleTrigger After a trigger event occurs the recorder will record for the specified time and stop RepeatTrigger After a trigger event occurs the recorder will record for the specified time and stop Then the recorder will enter the trigger wait state p4 Data length 10min 20min 30min 1h 2h 3h 4h 6h 8h 12h 1day 2day 3day 5day 7day 14day 31day p5 Pre trigger 0 5 25 50 75 95 100 96 p6 Trigger source key Off On Query SEventData pl Example Record event data in Free mode at a recording interval of 1 second Separate the data into different files every 2 hours SEventData 1 1s Free 2h Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress You cannot choose a recording interval that is shorter than the scan interval You cannot choose a recording interval that is not an integer multiple of the scan interval This setting is valid when event data recording is enabled recording mode of the SMemory command When the advanced security function AS is enabled p3 is fixed to Free I SRecDisp Channel for Recording Display Data Sets the channel for recording display data Syntax SRecDisp pl p2 p3 pl Number see Description p2 Channel type Off Do not record displa
111. disabled Query SEventAct p1 Invalid parameters are returned as blanks in queries Example Execute memory start on the rising edge of the remote control input channel 0101 Use event action number 2 SEventAct 2 O0n DI 0101 Rising Mem ory Start Description There are limitations to event and action combinations For details see section 1 14 in the Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN or section 2 15 Configuring the Event Action Function in the Data Acquisition System GM User s Manual IM 04L55B01 01EN Write only delimiters commas for irrelevant parameters invalid even if a value is specified Event type DI is the channel of the DI module that has been set to remote module SModeDI command You can specify p3 Status and p6 Both when an item that can be specified as an action flag DO channel or internal switch is valid Math channel and flag are an option MT Communication channels are an option MC Tsreport Report Type MT Sets the type of report to create No Reports Syntax SReport pl p1 Type Off Hourly and Daily Reports Syntax SReport pl p2 pl Type Hour Day p2 Time to create reports Hour HH 00 to 23 Daily and Weeki Reports Syntax SReport p1l p2 p3 p1 Type Day Week p2 Day to create reports Mon Tue Wed Thu Fri Sat Sun p3 Time to create reports Hour HH 00 to 23 Daily and Wed Reports
112. e FTP HTTP p2 Encryption Off On Query SServerEncrypt p1 Example Encrypt FTP server communication SServerEncrypt FTP On IskeepAlive Keepalive Sets the keepalive function Syntax SKeepAlive p1 pl Operation Off On Query SKeepAlive Example Use keepalive SKeepAlive On E srimeout Communication Timeout Sets the communication timeout function Syntax STimeOut pl p2 pl Timeout function Off On p2 Timeout value minutes 1 to 120 Query STimeOut Example Enable the communication timeout and set the timeout value to 3 minutes STimeOut On 3 f SFtpFormat FTP Server Directory Output Format Sets the FTP server directory output format Syntax SFtpFormat p1 p1 FTP server directory output format MS DOS UNIX Query SFtpFormat Example Specify MS DOS SFtpFormat MS DOS IsmoaDelay Modbus Server Delay Response Sets the Modbus server delay response Syntax SModDelay pl pl Delay response Off 10ms 20ms 50ms Query SModDelay Example Specify no delay response SModDelay Off EiswoaLimit Modbus Server Connection Limit Enables or disables the Modbus server connection limit function Syntax SModLimit pl pl Connection limit Off On Query SModLimit Example Enable connection limit SModLimit On 2 48 IM 04L51B01 17EN 2 4 Setting Commands BsmodList IP Address to Allow Connection to Modbus Server Sets the IP address to allow connection to Modbus server
113. e channel number DO channel number Internal switch number You can specify the following values for the status Off Off status On On status e You can specify the status of multiple channels at once To do so use a semicolon to separate channels as follows channel number status channel number status You can specify up to a total of 32 channels that consist of DO channels and internal switches Example Set channels 0101 0102 and 0103 to On and internal switches S001 and S002 to Off OCmdRelay 0101 0n 0102 0n 0103 On 5001 0Off 5002 Off Description e If any of the channels that you specify do not exist or are not set to manual output SRangeDO command the settings of all channels are canceled and a command error results BosatName Sets a Batch Name Sets a batch name Syntax OBatName pl pl Always set this to 1 p2 Batch number up to 32 characters ASCII p3 Lot number 0 to 99999999 up to eight digits depending on Lot No digit OBatName Query 2 64 IM 04L51B01 17EN 2 6 Operation Commands Example Set the batch name structure to batch number PRESSLINE and the lot number 007 OBatName 1 PRESSLINE 007 Description e For the characters that you can use in the specified batch number p2 see Appendix 1 The character limitations on the batch number p2 are the same as those for directory names See the explanation for the SDirectory comma
114. e data Yes Iskdccnet KDC Connection Destination AS Sets the KDC server for the password management Syntax SKdcCnct pl p2 p3 pl Connection destination Primary Secondary Primary Primary server Secondary Secondary server p2 KDC server name up to 64 characters ASCII p3 Port number 1 to 65535 Query SKdcCnct p1 Example For the primary KDC server assign the server name KdcControl1 and port number 88 SKdcCnct Primary KdcControll 88 IM 04L51B01 17EN 2 49 sesuodses pue spuewwog H 2 4 Setting Commands Tsauth Key Certification Key AS Sets the certification key that is used during password management authentication Syntax SAuthKey p1 p2 p3 p4 p1 Host principal up to 20 characters ASCII p2 Realm name up to 64 characters ASCII p3 Password up to 20 characters ASCII p4 Encryption ARCA AES128 AES256 Query SAuthKey Example Set the password of host principal GX10_001 realm REALM01 to gDcbwT5 and the encryption the same as the server to AES128 SAuthKey GX10 001 REALMO1 gDcbwT5 AES128 i Description Slashes and ampersands cannot be used in p1 or p2 Esparwincnvch Darwin Channel Conversion Darwin compatible communication Replace Darwin channels with recorder channels Syntax SDarwinCnvCh pl pl Darwin model Standalone Stand alone type Extension Extended type Query SDarwinCnvCh Example Replace DA100
115. e energize Energize De energize Fail Output GM10 only Syntax SRangeDO pl p2 p3 p4 p5 p6 p1 Channel number p2 Output type Fail p3 Span lower limit 0 to 1 p4 Span upper limit 0 to 1 p5 Unit up to 6 characters UTF 8 p6 Fixed to De energize De energize De energize the relay DO channel during output Query SRangeDO p1 Example Output an alarm on channel 0203 Set the span lower limit to 0 and span upper limit to 1 Specify energize operation logic or operation and hold operation Set the action on ACK to Normal Set the unit to Unit SRangeDO 0203 Alarm 0 1 Unit Energ ize Or Hold Normal Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p2 Manual you cannot set p7 or subsequent parameters fp7 And or Or you cannot set the reflash time If individual alarm ACK is enabled SIndivAlmACK command p9 is fixed to Reset SMoveAve Moving Average Sets the moving average of an Al channel Syntax SMoveAve pl p2 p3 pl Channel number p2 Enable or disable Off On p3 Number of samples 2 to 100 Query SMoveAve p1 Example Set the number of moving average samples for channel 0002 to 12 SMoveAve 0002 0n 12 EsBurnout Behavior When a Sensor Burns Out Sets the behavior for when a burnout occurs on an Al channel Syntax SBurnOut pl p2 pl Chann
116. e handshaking is performed between the GX GP and the PC When the CS signal becomes False while sending data to the PC the GX GP stops the data transmission When the CS signal becomes True the GX GP resumes the data transmission The X OFF and X ON signals are treated as data Data reception control The operation is the same as with XON RS N ot e Ol The PC program must be designed so that the received buffers of both the GX GP and the PC do not become full If you select XON XON send the data in ASCII format MVP IM 04L51B01 17EN 1 5 je39uo5 spueuiuio2 pojeoipeg Husn 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth RS 422 485 Connection Procedure Connect a cable to the terminal Connection Connecting the Cable As shown in the figure below remove approximately 6 mm of the covering from the end of the cable to expose the conductor Keep the exposed section from the end of the shield within 5 cm Four wire system Two wire system oH NNNM 3 5 A E a Gd aa aa FG SDB SG ISDA RDA Electric potential Shield Electric potential Shield Recommended torque of the shield of the shield for tightening the screw 0 2 Nem Signal names Each terminal corresponds to the signal indicated below Signal Name Meaning FG Frame ground of the recorder SG Signal ground SDB Send data B SDA Send data A RD
117. e of channel in p8 and p9 Math channels are an option MT e For details on data types registers and channel types see section 4 5 1 Modbus Client and Master Function in the Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN or section 4 5 1 Modbus Client Master Function in the Data Acquisition System GM User s Manual IM 04L55B01 01EN Esserver Server Function Enables or disables the server function Syntax SServer p1 p2 p3 p1 Server type FTP HTTP SNTP MODBUS GENE EtherNetlP DARWIN GENE General communication p2 Operation Off On p3 Port number 1 to 65535 SServer pl Query IM 04L51B01 17EN 2 47 s suods y pue spuewwog H 2 4 Setting Commands Example Use the FTP server function SServer FTP On 21 Description e You cannot specify a port number that is used by another function e p3 cannot be set to 44818 2222 34150 or 34151 p3is invalid when p1 DARWIN Darwin compatible communication or when p1 EtherNetIP The default port numbers are listed below Server type p1 Default port number FTP 21 HTTP 80 SNTP 123 MODBUS 502 GENE 34434 e p1 EtherNetIP is an option E1 The settings specified with this command takes effect with the OIPApply command lisserverEncrypt Server Communication Encryption Sets server communication encryption Syntax SServerEncrypt p1 p2 p1 Server typ
118. e position serial number starting from 1 Block 7 Block 8 Writing of Measured Data in the FIFO Buffer Writing to the FIFO buffer takes place every scan interval If measured data is written to block 8 the most recent value will be written to block 1 in the next scan interval overwriting the old value This is called FIFO wraparound On the other hand the most recent write position is managed using serial numbers starting with 1 The serial number does not return to 1 even when a FIFO wraparound occurs Reading Measured Data The FFifoCur 0 command is used to read measured data The read start position and read end position are specified using serial numbers You can use the FFifoCur 1 command to read the serial numbers for the positions that data can be read from App 6 IM 04L51B01 17EN Appendix 5 Check Sum Calculation Method The check sum of binary data is calculated using an algorithm like the one shown below int CalcSum unsigned char buf int len int odd unsigned long sum unsigned char ps sum 0 odd len amp 1 len gt gt 1 for p buf len len p 2 sum p lt lt 8 p 1 if odd sum p lt lt 8 sum sum amp Oxffff sum gt gt 16 amp Oxffff if sum gt Oxffff sum sum Oxffff return sum amp Oxffff IM 04L51B01 17EN App 7 xipueddy E Appendix 6 Data Group Name and Data Name for WT Communi
119. e to Off SFtpCnct Primary serverl 21 Adm inistratorl passwordl director yl Off IssmtpLogin SMTP User Authentication Sets the SMTP user authentication method Syntax Query SSmtpLogin pl p1 User authentication type off Not use authentication Auth Smtp Use Authentication SMTP POP3 Use POP Before SMTP unencrypted Use POP Before SMTP encrypted APOP Query SSmtpLogin Example Do not use authentication SSmtpLogin Off E ssmtpcnct SMTP Client Connection Destination Server Sets the SMTP client connection destination server Syntax SSmtpCnct pl p2 p3 p4 p5 p1 Destination server type SMTP POP p2 Server name up to 64 characters ASCII p3 Port number 1 to 65535 P4 User name up to 32 characters ASCII p5 Password up to 32 characters ASCII SSmtpCnct p1 The password is displayed using asterisks Query Example Connect to SMTP server SMTPserver1 Set the port number to 25 the user name to administrator1 and the password to password1 SSmtpLogin SMTP SMTPserverl 25 administratorl passwordl suaitHead Mail Header Sets the mail header including the recipient address Syntax SMailHead pl p2 p3 p4 pl Sender address up to 64 characters ASCII p2 Recipient address 1 up to 150 characters ASCII p3 Recipient address 2 up to 150 characters ASCII P4 Character string to add to the subject up to 32 characters ASCII Query SMailHead Example Se
120. easured data file Syntax SSignIn pl p2 p3 p1 Sign in type Batch File p2 Signin at record stop GX GP On Off GM Fixed to Off p3 FTP transfer timing GX GP DataSave Signin GM Fixed to DataSave Query SSignIn Example When the recording of measured data of a batch process is stopped switch to the screen for signing in SSignIn Batch On Signin IssigninTitle Sign In Title AS Sets the sign in title Syntax SSignInTitle pl p2 p3 pl Signin 1 title up to 16 alphanumeric and symbol characters p2 Signin 2 title same as above p3 Signin 3 title same as above Query SSignInTitle Example Set the sign in 1 2 and 3 titles to Operator 1 Supervisor 1 and Manager 1 respectively SSignInTitle Operator 1 Supervisor 1 Manager 1 BssigninLimit Sign In Property AS Sets the sign in property Syntax SSignInLimit pl p2 p3 p4 pl Sign in property number 1 to 8 p2 Signin 1 free lock Free Lock p3 Sign in 2 free lock Free Lock 2 52 IM 04L51B01 17EN 2 4 Setting Commands p4 Sign in 3 free lock Free Lock Query SSignInLimit p1 Example Set a sign in property number 2 to allow the execution of only sign in 1 SSignInLimit 1 Free Lock Lock Isptpassword Bluetooth Password C8 GM Sets the Bluetooth password Syntax SBTPassword pl p2 pl Password usage On Off p2 Password up to 20 characters ASCII Query SBTPassword The passwor
121. ed security function AS enabled uuuuuuuuuuuuuuuuuuuu User name fixed to 20 characters Unused character positions are filled with spaces abcdefghijkmnpqrstuvwxy Authority of user F Free L Lock a through y represent actions p through y are output only when the advanced security function AS is enabled a Memory b Math c Data save d Message e Batch f Alarm ACK g Communication h Touch operation i Time set j Setting operation k External media m System operation n Output operation p Calibration correction setting operation qto y Not used Spaces 2 80 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 6 Instrument Address FAddr The output in response to the command FAddr IP is shown below Syntax EA crlf IP Address XXX XXX XXX XXXXCrlf Subnet Mask XXX XXX XXX XXX crlf Default Gateway XXX XXX XXX XXX crlf Primary DNS XXX XXX XXX XXXXCcrlf Secondary _ DNS_ xxx xxx xxx xxx lt crlf gt Host YYYYYYYYYYYYYYYYYYYY crlf Domain izZZZZZZZZZZEZZZEEZZER COKlf EN crlf XXX IP address number 0 to 255 yyy Host name fixed to 64 characters Unused character positions are filled with spaces 222 Domain name fixed to 64 characters Unused character positions are filled with spaces IM 04L51B01 17EN 2 81 s suods y pue spuewwog H 2 10 ASCII Output Format 2 10 7 GX status FStat The output in response to the command FStat 0 is shown
122. edia Outputs external storage medium 2 59 ARM Certification key A5 pid and internal memory information SDarwinCnvCh Darwin channel conversion 2 50 Darwin compatible FCnf Outputs setting data 2 60 communication FChInfo Outputs decimal place and unit 2 60 Security Setting Commands Page information SSecurity Security function 2 50 FSysConf Queries the system configuration 2 61 AS 2 50 and reconfigures modules pide Password Management v9 FBTDevInfo Bluetooth device information 2 61 SOpePass Password to unlock operation 2 50 output C8 GM GX GP SOpeLimit Operation lock details GX GP 2 51 2 2 3 Operation Commands SUser User settings 2 51 Command Description Page SUserLimit Authority of user 2 52 Required Options SSignIn Sign In AS 2 52 Applicable Models SSignInTitle Sign in title AS 2 52 OSetTime Sets the time 2 62 SSignInLimit Sign in property AS 2 52 ORec Starts or stops recording 2 62 SBTPassword Bluetooth password C8 GM 2 53 OAlarmAck Clears alarm output alarm 2 62 SSessionSecurity Web session security function 2 53 acknowledgement AS GM OExecRec Generates a manual ur 2 62 executes manual sample takes a Web eel Web auto logout AS GM I snapshot or causes a timeout Kecal Seng Gommands age OExecSNTP Queries the time using SNTP 2 62 SMonitor Monitor screen display 2 53 information GX GP OMessage Writes a message 2 62 SMultiPattern Multi panel division GX GP 2 54 OPassword Changes the password
123. ee section 2 3 1 Logging In in the Model GX10 GX20 GP10 GP20 Advanced Security Function AS User s Manual IM 04L51B01 05EN or section 2 3 1 Logging In in the Data Acquisition System GM Advanced Security Function AS User s Manual IM 04L55B01 05EN Forthe characters that you can use in the specified password p5 see Appendix 1 You cannot use this command to configure settings when logged in as a user when the user level is User BisuserLimit Authority of User Sets user operation limitations Syntax SUserLimit pl p2 p3 pl User limitation number 1 to 10 p2 Authority of user Memory Memory Math Computations DataSave Data save Message Message Batch Batch AlarmACK Alarm ACK Comm Communication DispOpe Touch operation cannot be specified on the GM ChangeSet Setting operation DateSet Date time settings File File operation System System operation Out Output operation CalibSet Calibration correction settings valid only when the advanced security function AS option is in use on instruments whose version is 2 02 or later p3 Free Lock Free Not lock Lock Lock Query SUserLimit p1 Example Set user limitation number 1 so that changing settings is prohibited SUserLimit 1 ChangeSet Lock Description You cannot use this command to configure settings when logged in as a user when the user level is User lssignin Sign In AS Sets the sign in record for the m
124. eesseeeeeeeess 1 1 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth 1 2 1 2 1 Preparing thensttilTielit eoe eere n ceste entente sc EI eSI 1 2 1 2 2 Sending Commands and Receiving Responses sssssssseeeeeee 1 2 1 2 3 RS 232 Connection Procedure GX GP 1 3 1 2 4 RS 422 485 Connection ProCcedUle ce saxess car ceprn erre ER epi E te ree nE TPAO NS 6 1 2 5 USB Connection Procedure GM cccccccceeeeeeseneeeeeeneeeeeeneeseeaaeeseeaeeseeaeeeeeeaeesteeeesseeeeee 9 1 2 6 Bluetooth Connection Procedure GM C8 option sss 1 10 Commands and Responses 2 1 2 2 2 3 2 4 2 5 2 6 2 7 2 8 2 9 2 10 Command Transmission and Recorder Responses ssse e 2 1 2 1 1 General Communication siriasi 2 1 2 1 2 Command Types and Functions 1 2 1 3 Command Syntax 2 1 4 Recorder Responses Listof GComriands iioii Aesth oe 2 2 1 Setting Commands 2 22 Output Command Sos eterne orn seen ice ren eere tocado er eee EM cane eens eevee 2 2 3 Operation Commands 1 ico idit reet ei pretia CAE rete ds e E ctc ea ee TS cha EOS 2 24 Communication Control Commands n 2 2 5 Instrument Information Commands 5 rra enr rtp to reet ia tinet rai 2 2 6 Conditioris for Executing Gomdmtarids 2 2 0 cit pice certe eere E Fco Sz exe cia bes 2 8 2 2 7 How to Use Commands 2 2 8 Device Nomenclature in Comman
125. el number p2 Burnout processing Off Up Down Query SBurnOut p1 Example Set the measured result to positive overflow Up when a burnout is detected on channel 0001 SBurnOut 0001 Up Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress Isric Reference Junction Compensation Method Sets the reference junction compensation method of an Al channel SRjc p1 p2 p3 pl Channel number p2 Mode Internal Use the internal compensation function External Use an external compensation device Syntax 2 20 IM 04L51B01 17EN 2 4 Setting Commands p3 Compensation temperature 200 to 800 20 0 to 80 0 C 40to 1760 40 to 1760 F 2531 to 3532 253 1 to 353 2K Query SRjc pl Example Perform reference junction compensation of channel 0003 using the internal compensation circuit SRjc 0003 Internal Perform reference junction compensation of channel 0004 using an external compensation device Set the compensation temperature to 2 3 C SRjc 0004 External 23 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress e If p2 Internal p3 is invalid Bsatarmio Alarm Sets the alarm for Al and DI channels Do Not Set Alarms Syntax SAlarmI
126. eresis Sets the alarm hysteresis for Al and DI channels Syntax SAlmHysIO pl p2 p3 pl Channel number p2 Alarm number 1 to 4 p3 Hysteresis Alarm Type Hysteresis Range H L DH DL 0 0 to 5 0 of the span or scale width However this is fixed to 0 for DI channels Delta 0 to 5 0 of the measurement range Linear scaling 0 to 100000 Square root Log scale Fixed to 0 LG Query SAlmHysIO p1 p211 Example Set a 0 5 hysteresis on alarm 3 of channel 0002 SAlmHysIO 0002 3 5 Description Hysteresis specified for delay high and low limit alarms TH and TL and high and low limits on rate of change alarms RH and RL do not apply When the input type of a DI channel is Pulse hysteresis is fixed at O Bsaimplyio Alarm Delay Time Sets the alarm delay time for an Al or DI channel Syntax SAlmDlyIO p1 p2 p3 p4 pl Channel number p2 Hour 0 to 24 p3 Minute 0 to 59 P4 Second 0 to 59 Query SAlmDlyIO p1 Example Set the channel 0001 alarm delay time to 2 minutes 30 seconds SAlmDl1yIO 0001 0 2 30 Description Setthe delay time so that it is an integer multiple of the scan interval SScan command lE sragio Tag Sets a tag to an Al DI or DO channel Syntax STagI10 p1 p2 p3 pl Channel number p2 Tag up to 32 characters UTF 8 p3 Tag number up to 16 characters ASCII Query STagIO p1 Example Set the channel 0001 tag to SYSTEM1 and the tag number to T1002 STagl1
127. es 1 to 1500 Query SRolAveMath p1 Example On math channel 015 take the rolling average of 30 data values over 1 minute intervals and use the results as the computed values SRolAveMath 015 0n 1min 30 Bsalarmmath Alarm MT Sets the alarm of a math channel Do Not Set Alarms Syntax SAlarmMath pl p2 p3 pl Channel number p2 Alarm number 1 to 4 p3 Alarm on or off Off Do Not Output Alarms Syntax SAlarmMath pl1 p2 p3 p4 p5 p6 p7 pl Channel number p2 Alarm number 1 to 4 p3 Alarm on or off On P4 Alarm type H L TH TL p5 Alarm value within the span range p6 Detection Off On p7 Output Off Output Alarms Syntax SAlarmMath pl p2 p3 p4 p5 p6 p7 p8 pl Channel number p2 Alarm number 1 to 4 p3 Alarm on or off On P4 Alarm type H L TH TL p5 Alarm value within the span range p6 Detection Off On p7 Output DO Output to a relay DO channel SW Output to an internal switch p8 Number If p7 DO Relay DO channel number Internal switch number 001 to 100 Query SAlarmMath pl Example Set a high limit alarm H on alarm number 2 of math channel 015 Set the alarm value to 85 0 When an alarm occurs output to the relay DO channel at number 0105 SAlarmMath 015 2 0n H 850 0n DO 0105 Description e You cannot set this on a Off channel f p3 Off you cannot set p4 or subsequent parameters f p7 Off you cannot set p8 You cannot set DO channels or internal switches wh
128. evel Off Not Use Admin Administrator level User User level p3 Login mode GX GP Key Comm Key Comm GM Comm Key Log in using touch operation Log in via communication including Web Log in using touch operation and via communication P4 User name up to 20 characters ASCII p5 Password up to 20 characters ASCII p6 Enable or disable user limitation Off On p7 User limitation number 1 to 10 SUser p1 The password of p5 are displayed using asterisks Example Register a user level user to user number 3 Set the user name to user10 and the password to pass012 Allow login only using touch operation and specify user limitation number 5 SUser 3 User Key userl0 pass012 T OD Comm Key Comm Query Description e If p1 1 p2 is fixed to Admin In addition you cannot set p3 to Comm on the GX GP fp2 Admin p6 is fixed to Off You cannot enter NULL or spaces in p4 or p5 For the characters that you can use in the specified password p5 see Appendix 1 You cannot use this command to configure settings when logged in as a user when the user level is User When Using the Advanced Security Function AS Syntax SUser pl p2 p3 p4 p5 p6 p7 p8 p9 p 10 pl1 pl User number p2 User level Off Not use Admin Administrator level User User level Monitor Monitor level p3 Login method Key Log in using touch operation Comm Log in via communication commands including
129. expansion module information is output indicated in green below IM 04L51B01 17EN 2 107 sesuodses pue spuewwog H 2 10 ASCII Output Format 2 10 34 Without an expandable I O or sub unit EX Al D Expansion module l etc I O module With an expandable I O or sub unit a ex Instrument s Module Configuration Information _MDS or MDR The output in response to the command _MDS or MDR is shown below Syntax EA crlf pl p2 p3 p4 p5 p6 p7 p8 p9 p10 pll crlf pl p2 p3 p4 p5 p6 p7 p8 p9 p10 pll lt crlf gt EN lt crlf gt Output Example Gr lt crl Sub 1 0 GX90XA LOTI Sub 1 1 GX90XA 10 U2 1234567 R1 01 01 crl ub 1 2 GX90XA 10 U2 1234567 R1 02 01 lt Er ub 2 0 GX90XA 10 U2 1234567 R1 02 01 LOTI Sub 2 1 GX90XD 16 11 1234567 R1 01 01 0 1 ain 0 9 GX90 EA crlf ain 0 1 GX90YD 06 11 1234567 R1 01 01 0 0 6 lf EX 02 f f f LES Lf gt er f EN crlf L0 U2 1234567 R1 01 01 ET1 1234567 R1 01 01 0 0 0 One line p1 to p11 contains configuration information of a single module Pn Value Description pl Main Sub Unit dependency main or sub information Main Main unit Only a single one exists in a system GX GP or GM main unit Sub Sub unit Units other than the main unit GX GP
130. f negative P watt hours WP 2 returned to the power supply AH Sum of positive and negative q ampere hours AHP Sum of positive ampere hours q 2 AHM Sum of negative ampere hours q 2 WS Integrated value of S WS 2 WQ Integrated value of Q WQ Other ETA1 Efficiency 1 n 1 ETA2 Efficiency 2 n2 F1 User defined function 1 F1 F2 User defined function 2 F2 F3 User defined function 3 F3 F4 User defined function 4 F4 F5 User defined function 5 F5 F6 User defined function 6 F6 F7 User defined function 7 F7 F8 User defined function 8 F8 Delta DELTA1 Delta computation 1 AF1 DELTA2 Delta computation 2 AF2 DELTA3 Delta computation 3 AF3 DELTA4 Delta computation 4 AF4 Phase PHI_U1U2 The phase difference between the U1 U2 fundamental voltage of element 1 U1 1 and the fundamental voltage of element 2 U2 1 PHI U1U3 The phase difference between the p U1 U3 fundamental voltage of element 1 U1 1 and the fundamental voltage of element 3 U3 1 PHI U11I1 The phase difference between the U1 I1 fundamental voltage of element 1 U1 1 and the fundamental current of element 1 I1 1 Continued on next page IM 04L51B01 17EN App 11 xipueddy E Appendix 6 Data Group Name and Data Name for WT Communication frequency of PLL source Data group name Data name Des
131. ferential input S Skip O Over E Errors B Burnout C Communication channel error Channel number I O channel math channel communication channel 81 Alarm status level 1 82 Alarm status level 2 a3 Alarm status level 3 a4 Alarm status level 4 a1 82 a3 and a4 is set to one of the following H High limit alarm L Low limit alarm h Difference high limit alarm 1 Difference low limit alarm R High limit on rate of change alarm r Low limit on rate of change alarm T Delay high limit alarm t Delay low limit alarm Space No alarm Unit fixed to 10 characters Output flush left Unused character positions are filled with spaces IM 04L51B01 17EN 2 75 sasuodsey pue spuewwog 2 10 ASCII Output Format dddddddd pp 2 10 2 Most Recent DO Channel Status FRelay The output in response to the command FRelay 0 is shown below Syntax When no expandable I O is connected EA crlf aaa aaa aaa aaa aaa aaa aaa aaa aaa aaa EN crlf When an expandable I O or sub unit is connected Only the information of detected units will be output EA crlf Unit nnf aaa aaa aaa aaa aadd aad aaa aaa aaa aaa Unit nnf aaa aaa ada aaa aaa aaa dads aad ada aaa 00 0l 02 03 04 055 06 07 08 09 00 01 02 03 04 055 06 07 08 09 00 O1 023 03 04 05 06 07 08 09 00 01
132. file data will be stored in the data block of the binary output file see page 2 73 Free Space on the External Storage Medium Syntax FMedia pl pl Output type CHKDSK Example Output the free space on the external storage medium FMedia CHKDSK Description e For the ASCII output format see page 2 100 li rcnt Outputs Setting Data Outputs the recorder setting data OTHERS Read settings other than above You can specify multiple items in the list above Separate each item with a colon see the example Example Read I O and Math settings FCnf IO MATH Description e If you omit p1 all settings will be read The setting data is output as the responses to the command queries The following table lists p1 values setting category and the corresponding commands Setting Category and Target Commands Settting category Command IO SModeAI SModeAICurrent SModeDI SScaleOver SBOLmtAI SBOLmtAICurrent SRangeAI SRangeAICurrent SRangeDI SRangeDO SMoveAve SBurnOut SRjc SAlarmIO SAlmHysIO SAlmDlyIO STagIO SColorIO SZonelO SScaleIO SBarIO SPartiallO SBandIO SAlmMarkIO SValueIO MATH SMathBasic SRangeMath SRolAveMath SAlarmMath SAlmHysMath SAlmDlyMath STagMath SColorMath SZoneMath SScaleMath SBarMath SPartialMath SBandMath SAlmMarkMath SReport SRepData SRepTemp SRepCh SDigitalSign SKConst SWconst STlogMath
133. fixed to 32 characters Unused character positions are filled with spaces See table below nnn Error message see table below HTTP Response Code Error Message Proxy Authentication Required Request Time out Conflict Gone Length Required Precondition Failed Request Entity Too Large Request URI Too Large Unsupported Media Type 100 Continue 101 Switching Protocols 201 Created 202 Accepted 203 Non Authoritative Information 204 No Content 205 Reset Content 206 Partial Content 400 Bad Request 401 Unauthorized 4 Forbidden 4 Not Found 4 Method Not Allowed 4 Not Acceptable 4 4 4 4 4 4 4 4 PIR RI RJR rR OO O OO O O OP BWI PKS rP jIOJIo 0 J oO O01 elw n 500 Internal Server Error 501 Not Implemented 502 Bad Gateway 503 Server Unavailable 504 Gateway Time out 505 HTTP Version Not Supported IM 04L51B01 17EN 2 93 sesuodses pue spuewwog B 2 10 ASCII Output Format 2 10 19 Detail Event Log Output FEventLog AS The output in response to the command FEventLog is shown below Output is possible when the advanced security function AS is enabled Syntax EA crlf EN crlf yyyy mo dd hh mm ss zzz sss s uuu u ddd crlf yyyy mo dd hh mm ss Time of event occurrence ZZZ SS58 S uuu u ddd yyyy Year 1900 to 2099 mo Month 01
134. following responses to commands fthe recorder successfully completes the processing of a received output request command it outputs the requested data e If the recorder successfully completes the processing of a received command that is not an output request command it outputs an affirmative response f a command syntax error setting error or other error occurs the recorder outputs a negative response For each command the recorder receives it returns a single response The controller PC side must process commands and responses in accordance with this command response rule If the command response rule is not followed the operation of the recorder is not guaranteed For details on the response syntax see 2 9 Responses to Commands 2 4 IM 04L51B01 17EN 2 2 2 2 1 Command List of Commands Setting Commands Description Page Required Options Applicable Models Measurement Operation Setting Commands SScan Scan interval 2 11 SScanGroup Scan group 2 11 SModeAI Al module 2 11 SModeAICurrent Current input type Al module 2 12 SBOLmtAI Upper and lower burnout 2 12 limits of Al module SBOLmtAICurrent Upper and lower burnout 2 12 limits of current input type AI module SModeDI DI module 2 12 SScaleOver Detection of values that 2 13 exceed the scale Recording Basic Setting Commands Page SMemory Recording mode 2 13 SMemKeyConfirm Record confirmation action 2 13 GX GP SDispData Display da
135. h a capacitor connected in series on one side is effective Consider these possibilities to eliminate noise When using the two wire interface Modbus protocol the 485 driver must be set to high impedance within 3 5 characters after the last data byte is sent by the host computer LLL IM 04L51B01 17EN 1 7 j amp 39uo5 spueuiuio2 pojeoipeg Huis 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth A CAUTION Serial interface converter The recommended converter is given below SYSMEX RA CO LTD MODEL RC 770X LINE EYE SI 30FA YOKOGAWA ML2 e m On M Some converters not recommended by Yokogawa have FG and SG pins that are not isolated In this case do not follow the diagram on the previous page do not connect anything to the FG and SG pins Especially in the case of long distance communications the potential difference that appears may damage the recorder or cause communication errors For converters that do not have the SG pin they can be used without using the signal ground For details see the manual that comes with the converter pr C S OeA xssK eE X SJ On some non recommended converters the signal polarity may be reversed A B or indication In this case reverse the connection For a two wire system the host device must control the transmission driver of the
136. hart of External Storage Medium Files and File Lists App 4 Example for Outputting File aaaa dtd Example for Outputting a File List correnti aa aa iN FIFO Data Output Flow Ghart etant e ee ehh nee catur ncc kx e eden Overview of the FIFO Buffer S Examiple of FIFO Buffer OperatiOti ize rrt estre el ret tinea dread ee cen edd ad s Check Sumi Calculation Method oerte Coe eterna Data Group Name and Data Name for WT Communication seeen App 8 Parameters p5 Data Group Name and p6 Data Name for SWattData Command App 8 Bluetooth Communication Connection Flow Chart IM 04L51B01 17EN Chapter 1 Using Dedicated Commands General 1 1 Operations over an Ethernet Network You can control the recorder by sending commands from a PC over an Ethernet network There are various types of commands setting commands output commands operation commands communication control commands and instrument information output commands 1 1 1 Preparing the Instrument Recorder Configuration Configure the recorder to connect to the Ethernet network that you want to use For instructions on how to configure the recorder see section 1 16 Configuring the Ethernet Communication Function in the Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN or section 2 17 Configuring the Ethernet Communication Function in the Data Acquisitio
137. he USB communication function SUsbFunction On Description The settings specified with this command take effect with the OUsbFApply command The settings do not change until you send the OUsbFApply command BsusbAutoLout USB Communication Auto Logout GM Sets the auto logout for USB communication Syntax SUsbAutoLOut pl pl Auto logout function Off 1 min 2 min 5 min 10 min Query SUsbAutoLOut Example Set the USB communication s auto logout time to 2 minutes SUsbAutoLOut 2min Description Users logged in via USB communication can be automatically logged out 2 56 IM 04L51B01 17EN 2 4 Setting Commands BswebcustomMenu Web Monitor Screen Sets the contents displayed on the monitor screens Syntax SWebCustomMenu p1 p2 p3 p4 p5 pl User level User Monitor p2 Status display category On Off p3 Log category On Off p4 System category On Off p5 File category On Off Query SWebCustomMenu Example Display the log category and file category contents on the monitor screen when a user whoes user level is User accessed SWebCustomMenu User Of f On Off On Description This command can be executed only when the user is logged in as an administrator e p1 Monitor is valid when the advanced security function AS is enabled IM 04L51B01 17EN 2 57 sesuodses pue spuewwog H 2 5 Output Commands Foata Outputs the Most Recent Channel Data Outputs
138. he event string Report Report Scale Scale image Custom Custom display Parameter Setting parameter Cert Certificate All All settings lt Detailed information gt When Report Ceres rpeee CC rreee Report format EXCEL PDF Report type Hour Day Week Month Hour Day Day Week Day Month Batch Custom When Scale Group gg gg Group number When Custom No nnees nneee Display number ALL for all custom display screen Load type output in the event string Report Report Scale Scale image Custom Custom display Parameter Setting parameter Cert Certificate All All settings Detailed information When Report Gose rreee cCeee Report format EXCEL PDF 2 96 IM 04L51B01 17EN 2 10 ASCII Output Format Operation Event string information and detailed information Ieee Report type Hour Day Week Month Hour Day Day Week Day Month Batch Custom When Scale Group gg gg Group number When Custom No nneee nneee Display number ALL for all custom display screen When Parameter sseee sseee Loaded settings Security IP Other All w o SERVER w o CALIB w o INSTRU Create a key GeneKkey i Action output in the event string Start Start Done Complete Cancel Cancel Installation of InstallServCert sseee kkeee certificate sseee Certification type Main Middle
139. if at least one module is installed IspispData Display Data Recording Sets the display data recording mode Syntax SDispData pl p2 pl Recording interval 5s 10s 15s 30s 1min 2min 5min 10min 15min 20min 30min 1h 2h 4h 10h div p2 File save interval 10min 20min 30min 1h 2h 3h 4h 6h 8h 12h 1day 2day 3day 5day 7day 14day 31day Query SDispData Example Set the recording interval to 1 minute and file save interval to 12 hours SDispData lmin 12h Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress You cannot choose a recording interval that is shorter than the scan interval You cannot choose a recording interval that is not an integer multiple of the scan interval File save interval is valid when display data recording is enabled recording mode of the SMemory command Query SMemKeyConfirm Example Show the confirmation screen SMemKeyConfirm On IM 04L51B01 17EN 2 13 sesuodsey pue spueuiuio 2 H 2 4 Setting Commands I SEventData Event Data Recording Sets the event data recording mode Syntax SEventData p1l p2 p3 p4 p5 p6 p1 Scan group 1 p2 Recording interval 100ms 200ms 500ms 1s 2s 5s 10s 15s 20s 30s 1min 2min 5min 10min 15min 20min 30min p3 Operation mode Free Starts recor
140. ifference between harmonic q U 3 voltage U 3 and the fundamental signal U 1 PHIIk3 Phase difference between harmonic I 3 current I 3 and the fundamental signal I 1 UTHD Ratio of the total harmonic voltage Uthd to U 1 or U Total ITHD Ratio of the total harmonic current Ithd to I 1 or I Total Uhdf 1 relative harmonic content of Uhdf 1 harmonic voltage of order 1 Ihdf 1 relative harmonic content of Ihdf 1 harmonic current of order 1 Phdf 1 relative harmonic content of Phdf 1 harmonic power of order 1 FPLL Current frequency or voltage fPLL Continued on next page App 12 IM 04L51B01 17EN Appendix 6 Data Group Name and Data Name for WT Communication Data group name Data name Description WT Function mark SigmaA U voltage Uz l current 12 P active power PX S apparent power Sz Q reactive power Qz LAMBda power factor Ax PHI phase difference QA WH Sum of positive and negative watt WP hours WHP Sum of positive P consumed watt WP hours WHM Sum of negative P watt hours WP 2 returned to the power supply AH Sum of positive and negative q ampere hours AHP Sum of positive ampere hours q 2 AHM Sum of negative ampere hours q 2 Other MATH Computed value such as efficiency Math 1 TIME is valid only when the data group is ELEMENT1 2 PFLL is valid only when the data group is ElemHrm1 IM 04L51B01 17EN App
141. ifference between the 1 voltage and current of harmonic order 1 PHIK_T Total phase difference Total Continued on next page App 10 IM 04L51B01 17EN Appendix 6 Data Group Name and Data Name for WT Communication Data group name Data name Description WT Function mark ElemHrm1 to ElemHrm3 PHIUk3 Phase difference between harmonic q U 3 voltage U 3 and the fundamental signal U 1 PHIIk3 Phase difference between harmonic I 3 current I 3 and the fundamental signal I 1 UTHD Ratio of the total harmonic voltage Uthd to U 1 or U Total ITHD Ratio of the total harmonic current Ithd to I 1 or I Total PTHD Ratio of the total harmonic active Pthd power to P 1 or P Total SigmaA URMS True rms voltage Urms UMN Rectified mean voltage calibrated to Umn the rms value UDC Simple voltage average Udc URMN Rectified mean voltage Urmn UAC AC component Uac IRMS True rms current Irms IMN Rectified mean current calibrated to Imn 2 the rms value IDC Simple current average Idc IRMN Rectified mean current Irmn IAC AC component lac 2 P Active power PE S Apparent power Sz Q Reactive power Q LAMBda Power factor AX PHI Phase difference Q2 WH Sum of positive and negative watt WP hours WHP Sum of positive P consumed watt WP hours WHM Sum o
142. iles 2 Compute the unread position 3 FMedia DIR DRVO DATAO unread position 1 Receive response IM 04L51B01 17EN App 5 xipueddy E Appendix 4 FIFO Data Output Flow Chart Overview of the FIFO Buffer The recorder internal memory is equipped with a dedicated FIFO First In First Out buffer for outputting measured data Measured data is written to the buffer at every scan interval The PC can continuously retrieve the most recent measured data from the FIFO buffer The size of the internal memory allocated for the FIFO buffer varies depending on the model The number of data entries that the FIFO buffer can store varies depending on the number of channels and scan interval The number of data entries that the FIFO buffer can store and the data length can be determined with the following formula Data entries 2000000 16 12 x number of channels fractions truncated Data length data entries x scan interval Example If there are 10 I O channels 10 math channels and 10 communication channels and the scan interval is 100 ms the number data entries will be 5319 and the data length will be 531 9 seconds or 8 865 minutes Example of FIFO Buffer Operation The following example shows the case when the scan interval is 1 second and the FIFO internal memory size is for 8 scan intervals Block 1 Block 2 Block 3 Block 4 Block 5 Block 6 Most recent writ
143. ined expressions and user defined character strings How to Write User Defined Character Strings Parameters Enclose user defined character strings in single quotation marks Example The command for setting the channel 0001 tag to SYSTEM1 is shown below STaglO 0001 SYSTEM1 There are two types of user defined character strings depending on the type of characters that can be used Character Strings Consisting Only of Characters in the ASCII Code Range 0x00 to 0x7f In this manual applicable parameters are indicated with ASCII Example p3 Tag number up to 16 characters ASCII You can use alphanumeric characters and some of the symbols For the ASCII characters that you can use see appendix 1 Character Strings Consisting of Characters in the UTF 8 Code Range In this manual applicable parameters are indicated with UTF 8 Example p2 Tag up to 32 characters UTF 8 UTF 8 codes include ASCII codes You can use UTF 8 characters including the ASCII characters above For the ASCII characters that you can use see appendix 1 Delimiters Commas are used as delimiters Sub delimiters Semicolons are used as sub delimiters Terminators CR LF is used as a terminator meaning CR followed by LF Expressed in ASCII code it is OxOd0x0a IM 04L51B01 17EN 2 3 s suods y pue spuewwog H 2 1 Command Transmission and Recorder Responses 2 1 4 Recorder Responses The recorder returns the
144. istered trademarks or trademarks of Microsoft Corporation in the United States and or other countries Adobe and Acrobat are registered trademarks or trademarks of Adobe Systems Incorporated Kerberos is a trademark of Massachusetts Institute of Technology MIT Bluetooth is a trademark or registered trademark of Bluetooth SIG Inc Company and product names that appear in this manual are registered trademarks or trademarks of their respective holders The company and product names used in this manual are not accompanied by the registered trademark or trademark symbols and December 2012 1st Edition February 2013 2nd Edition May 2013 3rd Edition May 2014 4th Edition December 2014 5th Edition August 2015 6th Edition All Right Reserved Copyright 2012 2015 Yokogawa Electric Corporation IM 04L51B01 17EN Recorder Version and Functions Described in This Manual The contents of this manual correspond to the GX GP with release number 2 see the STYLE S number and style number 1 see the STYLE H number and the GM with release number 2 see the STYLE S number and style number 1 see the STYLE H number Edition Product Explanation 1 GX GP Version 1 01 and later 2 GX GP Version 1 02 and later Feature additions 3 GX GP Version 1 03 and later Electromagnetic relay type analog input modules have been added Feature additions 4 GX GP Version 2 01 and later Support for GX2
145. it 9999999 to 99999999 Span upper limit 9999999 to 99999999 Unit up to 6 characters UTF 8 Query SRangeMath p1 IM 04L51B01 17EN 2 25 sesuodses pue spuewwog H 2 4 Setting Commands Example Set expression 0001 0002 in math channel 015 Set the measurement range is 0 0 to 100 0 SRangeMath 015 0n Normal 0001 0002 1 0 1000 Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress Ablank character string cannot be used in expressions e You cannot set the span upper and lower limits to the same value lE sriogMath TLOG MT Sets the TLOG of a math channel Syntax STlogMath pl p2 p3 p4 p5 p1 Channel number p2 Timer Type Timer Timer MatchTimeTimer Match time timer p3 Timer number 1 to 4 P4 Sum scale Off sec min hour p5 Reset On Off Query STlogMath p1 Example Assign timer 2 to math channel 015 Set the sum scale to Off and disable reset STlogMath 015 Timer 2 Off Off Description e You cannot use this command to configure settings while computation is in progress SRolAveMath Rolling Average MT Sets rolling average on a math channel Syntax SRolAveMath pl p2 p3 p4 p1 Channel number p2 Enable or disable Off On p3 Sample interval 1 to 6s 10s 12s 15s 20s 30s 1 to 6min 10min 12min 15min 20min 30min 1h P4 Number of sampl
146. it signed integer big endian INT32 L 32 bit signed integer little endian UINT32 B 32 bit unsigned integer big endian UINT32 L 32 bit unsigned integer little endian FLOAT B 32 bit floating point big endian FLOAT L 32 bit floating point little endian p5 Register 1 to 465535 p6 Channeltype IO I O channel Math Math channel Com Communication channel p7 First channel p8 Last channel Query SModMCmd p1 2 42 IM 04L51B01 17EN 2 4 Setting Commands Example Register the following command in command number 2 read the 32 bit signed integer data that is assigned to registers 30003 upper 16 bits and 30004 lower 16 bits in the slave device assigned to address 5 into channel C002 SModMCmd 2 Read 5 INT32 B 30003 Com 002 002 Description f p2 Read set the communication channel in p6 p7 and p8 Setthe same type of channel in p7 and p8 Math channels are an option MT For details on data types registers and channel types see section 4 5 1 Modbus Client and Master Function in the Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN or section 4 5 1 Modbus Client Master Function in the Data Acquisition System GM User s Manual IM 04L55B01 01EN Ei sseriaiautoLOut Auto Logout for Serial Communication C2 or C3 Sets the auto logout function for serial communication Syntax SSerialAutoLOut pl pl Auto logout function Off 1min 2min 5min 10min
147. kSum command to specify whether to include data sum By default check sum is set to No Whether data sum is included is expressed by a flag in the header block If the data sum block is not included the area itself will not be included For the check sum calculation method see Appendix 5 Check Sum Calculation Method Output in Response to RS 422 485 Commands The table below shows the responses to the ESC O command and ESC C command ESC in ASCII code is 0x1B For details see Appendix 1 ASCII Character Codes Syntax Meaning Response ESC O xxCRLF Opens an Response from the destination instrument instrument ESC OxxCRLF _ Space If there is no instrument at the address specified by the command No response ESC C_xxCRLF Closes an Response from the destination instrument instrument ESC CxxCRLF _ Space fthere is no instrument at the address specified by the command No response A Some possible reasons why the condition there is no instrument at the address specified by the command occurs are command error the address assigned to the instrument is different the instrument is not turned on and the instrument is not connected through serial interface xx in the table represents the instrument address You can specify any address within the range of 01 to 99 and within the addresses assigned to the communication target instruments You can only open one instrument at any given time
148. llation conditions of the instruments and so on IM 04L51B01 17EN 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth 1 2 5 USB Connection Procedure GM The procedure to connect a GM to the PC via USB is shown below For instructions on how to use the PC see the user s manual for your PC Configuring the GM Turn the USB communication function on default value is on For the procedure see section 2 19 Configuring the USB Communication Function in the Data Acquisition System GM User s Manual IM 04L55B01 01EN Connecting the GM to the PC Connect a USB cable to the USB port USB port USB mini B type If the PC is connected to a network environment a USB driver will be automatically installed If it does not check the download link for the driver at our website below and install the driver http Awww smartdacplus com en support software index html When the USB driver installation is complete a COM port will be assigned Connect using the following communication conditions Baud rate 115200 Parity None Data length 8 bits Stop bits 1 bit e Handshake Off Off IM 04L51B01 17EN 1 9 je39uo5 spueuiuio2 pojeoipeg Husn 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth 1 2 6 Bluetooth Connection Procedure GM C8 option The procedure to connect a GM to the PC via Bluetooth is shown below For instructions on how to u
149. lue Digital value display on 4Value Max historical trend Min Data Historical data type Disp Eventl DigitalWave Digital waveform display Off On Alarm Alarm display Watch List Alarm Sort Alarm sort item Time Channel Level Type Alarm Order Alarm sort order Ascending Descending Alarm Time Detailed alarm time Off On Message Sort Message sort item Datatime WriteTime Message Group User Message Order Ascending Descending Message sort order Memory Data Memory data type Disp Eventi Overview Overview display Grouping All Multi No Multi panel number 1 to 20 Custom No Customized display 1 to 30 screen number CG DigitalPos Default Top Bottom Left Right Digital display position DigitalLabel Display string display Off On Modbus M Modbus master status Overview List display type MC Modbus C Modbus client status Overview List display type MC Watt WT communication Overview List status display type E2 Switch Internal switch DO status All 1 2 3 display 4 Query SMonitor pl Example Set the trend display to all channel display SMonitor Trend A11 Description Custom No is an option CG e Modbus M and Modbus C are an option MC e Wattis an option E2 When p1 Switch p2 3 or 4 is valid only for the GX10 GP10 IM 04L51B01 17EN 2 53 sesuodsey pue spueuluio 2 H 2 4 Setti
150. me up to 20 characters ASCII Query SDirectory Example Set the directory name to DATAO SDirectory DATAO Description e For the characters that you can use in the directory name p1 see Appendix 1 The following character strings cannot be used for directory names Character String AUX CON PRN NUL CLOCK CLOCK COMO to COM9 LPTO to LPT9 You cannot use a character string that starts or ends with a period or space for directory names IsFiteHead File Header Sets the file header character string Syntax SFileHead pl p1 File header up to 50 characters UTF 8 Query SFileHead Example Set the file header to GX DATA SFileHead GX DATA sriteName File Naming Rule Sets the file naming rule for data files Syntax SFileName p1 p2 p1 File naming rule Date Date Serial Serial number Batch Batch name p2 Specified file name up to 16 characters ASCII Query SFileName Example Set the file naming rule to Date Set the specified file name to Recorder1 data SSFileName Date Recorderl data Description Ifthe batch setting is disabled SBatch p1 Off you cannot specify p1 Batch e If p1 Batch p2 is invalid Forthe characters that you can use in the specified file name p2 see Appendix 1 Esweaiasave Automatic Data File Saving Sets the auto saving of data files to an external storage medium Syntax SMediaSave pl
151. me of occurrence YYYY Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 kkk k Type fixed to 15 characters Unused character positions are filled with spaces See table below mmm m Message fixed to 20 characters Unused character positions are filled with spaces See table below Type Message Error Message LINK ON Ethernet connection detected OFF Ethernet disconnection detected SET Address e g IP address set 10 0 122 3 DHCP OFF DHCP disabled ON DHCP enabled RENEWING Acquired IP address renewing RELEASING Acquired IP address releasing REJECTING Acquired IP address rejecting RENEWED IP address renewed RELEASED IP address released XTENDED IP address extension application complete SEND DHCP message transmission failed ESERVER DHCP server search failed SERVFAIL DHCP server response failed reception timeout RENEWED IP address renewal failed RELEASED IP address release failed XTENDED IP address extension application failed XPIRED IP address lease expiration DNS UPDATED DNS host name registration complete REMOVED DNS host name removal complete EFORMERR DNS message syntax
152. message omitted Code Response IM 04L51B01 17EN App 3 xipueddy E Appendix 3 Output Flow Chart of External Storage Medium Files and File Lists Example for Outputting File aaaa dtd The flow chart for outputting file aaaa dtd in the DATAO directory on the external storage medium is shown below FMedia GET DRVO DATAO aaaa dtd 0 1 Receive response 1 If the binary header flag bit 0 is 0 there is more data If it is 1 data Is there more data transmission is complete 1 2 From the data length of the binary output common header obtain the number of received bytes Obtain the number of received bytes 3 Sum the number of received bytes 2 compute the unread position Compute the unread position 3 FMedia GET DRVO DATAO aaaa dtd unread position 1 Receive response App 4 IM 04L51B01 17EN Appendix 3 Output Flow Chart of External Storage Medium Files and File Lists Example for Outputting a File List The flow chart for outputting the list of files in the DATAO directory on the external storage medium is shown below FMedia DIR DRVO DATA0 0 1 Receive response 1 If there are no more files EA crIf EN crIf is output Are there more file lists 1 2 Count the number of lines in the output file list 3 Sum the number of lines in the file lists to compute the unread position Obtain the number of received f
153. n System GM User s Manual IM 04L55B01 01EN PC The PC that you will use must meet the following requirements The PC is connected to the Ethernet network that you want to use The PC can run programs that you have created see section 1 1 2 Sending Commands and Receiving Responses below 1 1 2 Sending Commands and Receiving Responses Programs When you send a command to the recorder it will return a response You can control the recorder by writing a program that sends commands and processes responses and then executing the program You need to create the programs Example If you send the command FData 0 0001 0020 from your PC to the recorder the recorder will return the most recent data of channels 0001 to 0020 in ASCII code For details on commands and responses see chapter 2 Commands and Responses Notes on Creating Programs When Not Using the Login Function You can start using commands immediately after communication is established with the recorder When Using the Login Function Log in to the recorder using a system administrator account or a normal user account that is registered in the recorder Log in by connecting to the recorder and then sending the CLogin command Port Number The defaul port number is 34434 You can change the port number using the SServer command je39uo5 spueuiuio2 pojeoipeg Buisf IM 04L51B01 17EN 1 1 1 2 Operations over the Serial Interface RS 232
154. nd BloBatComment Sets a Batch Comment Sets a batch comment Syntax OBatComment pl p2 p3 p1 Always set this to 1 p2 Comment number 1 to 3 p3 Comment string up to 50 characters UTF 8 Query OBatComment Example Set comment number 2 to THIS PRODUCT IS COMPLETED OBatComment 1 2 THIS PRODUCT IS COMPLETED i OBatText Sets a Batch Text Sets a batch text Syntax OBatText pl p2 p3 p4 p1 Always set this to 1 p2 Field number 1 to 24 p3 Field title up to 20 characters UTF 8 P4 Field string up to 30 characters UTF 8 Query OBatText Example For field number 1 set the title to Ope and the character string to GX OBatText 1 Ope GX BlopispRate Switches the Trend Interval GX GP Switches between first trend interval normal trend interval and second trend interval Syntax ODispRate pl p1 Trend interval NORMAL First trend interval normal trend interval SECOND Second trend interval Example Switch from first trend interval to second trend interval ODispRate SECOND Description e Set the second trend interval with the STrdRate command BloroadCont Loads Setting Data Loads a setting data file from the recorder external storage medium into the recorder Syntax OLoadConf p1 p2 p3 p4 p1 File name up to 80 characters ASCII Specify the path and file name excluding the extension p2 Medium GX GP SD USB GM SD SD SD mem
155. ndix Appendix 1 ASCII Character Codes The ASCII character code table is shown below Characters Used in Commands In addition to alphanumeric characters the following characters are used commas as delimiters semicolons as sub delimiters question marks as query symbols single quotation marks to indicate user defined character strings and CR return LF line feed as terminators Characters That Can Be Used in User Defined Character Strings The table below shows the characters that can be used in user defined character strings tags tag No messages etc Upper 4 Bits 2 3 4 5 6 7 SP 0 P p space 1 A Q a q 2 B R b r 3 C S C S 4 D T d t 5 E U e u 2 6 F V f V m 7 G W g w bd 8 H X h x 9 l Y i y 8 J Z j Z K k t Ev Ly M m N A n o o MENN Item Command and Parameter Description Directory name p1 of the SDirectory command _ The characters other than those in File name p2 of the SFileName command blue cells and those in thick frames Batch number p2 of the OBatName command can be used Password p5 of SUser The characters other than those in p1 p2 and p3 of OPassword blue cells and SP space can be p2 of CLogin used Character strings that users specify other than those The characters other than those in above blue cells can be used IM 04L51B01 17EN App 1
156. nel 2 Math channel 3 Communication channel Status 8 bits Indicates the channel status Channel Status No error Skip Over OVER Burnout Burnout A D error Invalid data 6 Math result is NaN 7 Communication error s suods y pue spuewwog Il S E o OonUo A o NAOoO Channel Number 16 bits Indicates the channel number Stored in the following manner depending on the channel type Channel Type Channel Number I O channel 6 bits 10 bits Reserved i T Channel number Math channel 6 bits 10 bits m 5 Reserved Y Channel number Communication channel 6 bits 10 bits Reserved y Y Channel number Alarm 32 bits Indicates the alarm status 8 bits 8 bits 8 bits 8 bit a a a a is IM 04L51B01 17EN 2 111 2 11 Format of the Data Block of Binary Output The eight bit values of alarm 1 to alarm 4 are described in the table below Bit Value Description 0 to 5 No alarm High limit alarm Low limit alarm Difference high limit alarm Difference low limit alarm High limit on rate of change alarm Low limit on rate of change alarm Delay high limit alarm Delay low limit alarm No alarm is activated An alarm is activated Alarm nonhold state 0 1 2 3 4 5 6 7 8 0 1 0 1 Alarm hold state 2 112 IM 04L51
157. ng Commands suuttiPattern Multi Panel Division GX GP Sets the multi panel multi panel pattern Syntax SMultiPattern p1 p2 p3 pl Registration number 1 to 20 p2 Multi panel pattern Wide2 Split 2 Wide Tall2 Split 2 Tall Wide3 Split 3 Wide Tall3 Split 3 Tall Split4 Split 4 Even Even5 Split 5 Even Odd5 Split 5 Odd Even6 Split 6 Even Odd6 Split 6 Odd p3 Multi panel name up to 16 characters UTF 8 Query SMultiPattern p1 Example Set the panel of registration number 1 to Split 2 Wide Set the multi panel name to Monitor1 SMultiPattern 1 Wide2 Monitorl Description This command is only valid for the GX20 GP20 EisuuttiKind Multi Panel GX GP Set the screens to display on the multi panel SMultiKind p1l p2 p3 p4 p1 Registration number 1 to 20 p2 Screen position 1 to 6 p3 Screen type Syntax Trend Trend Digital Digital Bar Bar graph Overview OVERVIEW Alarm Alarm summary Message Message summary Memory Memory summary Report Report summary Modbus M Modbus master status Mosbus C Modbus client status Watt WT communication status Switch Internal switch status Action Event log nog Error Log Error log Commu Log Communication log Ftp Log FTP log Web Log Web log Mail Log Maillog Modbus Modbus log Log Sntp Log SNTP log Dhcp Log DHCP log Network Network information P4 Display group number Query SMultikind pl p2 Example Display the bar
158. nstantaneous value p6 File type Combine 1 file Separate Separate Query SRepData Example Record the maximum minimum and average values in daily and monthly reports Generate the daily and monthly reports in a single file SRepData Max Min Ave Off Combine Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress I SRepTemp Report Output MT Sets the report output mode Syntax SRepTemp p1 p2 p3 p1 EXCEL template Off Disabled On Enabled p2 PDF output Off On p3 Printer output Off On Query SRepTemp Example Generate reports that use the Excel template SRepTemp On Off Off Description e You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress Ispigitalsign Electronic Signature Inclusion MT Sets whether to include an electronic signature in report template output PDF files Syntax SDigitalSign p1 p2 pl Signature target PDF p2 Electronic signature inclusion Off On Query SDigitalSign p1 Example Include an electronic signature in report template output PDF files SDigitalSign PDF On Description e You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while comput
159. o 1 p6 Span upper limit 0 to 1 Delta Channels Syntax SRangeDI pl p2 p3 p4 p5 p6 p7 pi Channel number p2 Input type DI p3 Fixed at P4 Calculation type Delta p5 Span lower limit 0 to 1 p6 Span upper limit 0 to 1 p7 Reference channel number Scaling Channels Syntax SRangeDI pl p2 p3 p4 p5 p6 p7 p8 p 9 p10 pl Channel number p2 Input type DI p3 Fixed at P4 Calculation type Scale p5 Span lower limit 0 to 1 p6 Span upper limit 0 to 1 p7 Decimal Place 0 to 5 p8 Scaling lower limit p9 Scaling upper limit p10 Unit up to 6 characters UTF 8 Pulse Input Channels Syntax SRangeDI pl p2 p3 p4 p5 p6 pl Channel number p2 Input type Pulse p3 Fixed at P4 Math type Off p5 Span lower limit 0 to 999999 p6 Span upper limit 0 to 999999 Query SRangeDI p1 Example Measure 0 to 1 on channel 0103 No scaling SRangeDI 0103 DI Off 0 1 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress p2 Pulse can be specified when the math function MT is installed fp2 Pulse p4 Delta or Scale cannot be specified p2 Pulse cannot be specified when the operation mode of the DI module is set to Remote IsrangeDo DO Channel Operation Sets the DO channel operation Alarm Output Syntax SRangeDO p1 p2 p3 p4 p5 p6 p7 p8 rDo in Channel numbe
160. o 59 Data position where message was written YYYY Year 1900 to 2099 O Month 01 to 12 DD Day 01 to 31 HH Hour 00 to 23 M Minute 00 to 59 SS Second 00 to 59 Message type N Normal message H Freehand message Message fixed to 48 characters Unused character positions are filled with spaces For freehand message the string image is output Operation property 3 characters KEY Touchscreen operation key operation REM Remote COM Ethernet communication SER Serial communication RS 232 RS 422 485 USB communication or Bluetooth ACT Event action SYS System EXT Operation from an external device e g Modbus WEB Operation from web pages GM only when the advanced security function AS is enabled Target group multiple groups are expressed using dot delimiters fixed to 16 characters Unused character positions are filled with spaces ALL All display groups aa bb cc dd Multiple display groups User name fixed to 20 characters Unused character positions are filled with spaces IM 04L51B01 17EN 2 85 s suods y pue spuewwog H 2 10 ASCII Output Format 2 10 10 Event log FLog The output in response to the command Syntax EA crlf EN crlf FLog EVENT is shown below yyyy mo dd hh mm ss zzz sss s uuu u lt crlf gt yyyy mo dd hh mm ss Time of event occurrence yyyy Year 1900 to 2099 mo Month 01 to 12 dd Da
161. o the SD memory card OSaveConf SETFILE1 SD Description e If you omit p3 the default setting file comment will be added You can edit the default setting file comment from the recorder front panel Bosaveconfall Saves Setting Data at Once GM Saves the GM setting data to the specified folder in the external storage medium Syntax OSaveConfAll pl p2 pl Folder name up to 80 characters ASCII Specify the folder name as path name folder name p2 Medium SD SD SD card Example Save the setting data collectively to the CONFIGO folder OSaveConfAll CONFIGO SD Description If you omit parameter p2 the medium is set to the SD card The following items are saved File names are indicated in parentheses Setting data file Config GNL or Config GSL Report template Report YY xlsx Report YY xlsm or Report YY tpl YY is the report type Trusted certificate A Client folder is created in the specified folder p1 and the data is saved there Server certificate A Server folder is created in the specified folder p1 and the data is saved there IM 04L51B01 17EN 2 63 sesuodses pue spueuiuio 2 H 2 6 Operation Commands Hocommch Sets a Communication Channel to a value Sets a communication channel to a value Syntax OCommCh p1 p2 pl Communication channel p2 Value The setting range is as follows 9 9999999E 29 to 1 0000000E 30 0 1 0000
162. ocked User UUU UUU User number ChgMode SSeee SSeee Mode Operate A Dcal FirmUpdate TIME CHANGE NEW TIME 2 94 IM 04L51B01 17EN 2 10 ASCII Output Format Operation Start time adjustment Stop time adjustment SNTP time change DST start DST end Password change User locked ACK Alarm ACK Message writing Recording start Recording stop Manual sample Math start Math stop Math reset Acknowledge math dropout Mail start Mail stop Modbus manual recovery Display data saved Event data saved Manual data saved Snapshot Set batch number Set lot number Batch text Field setting Event string information and detailed information TIME ADJ START ammi ss xxx yyy TIME ADJ END SNTP ADJUST DST START DST END ChgPasswd UserLockedACK AlarmACK Message Record Start Record Stop ManualSample MathStart MathStop MathRST MathACK MailStart MailStop RefModbus SaveDisp SaveEvent ManualSave Snapshot SetBatchNo SetLotNo SetTextField Difference a mm ss XXX yyy Example Sign lag lead Minute Second Millisecond Microsecond 00 01 000 000 User UUU UUU User number Channel ccees Level lless CcCeee string Channel ALL for all ACK Level ALL for all ACK HHH Message number output in the event Normal messages 001 to 100 Free messages F01 to F10 Freehand message Hnd lt Detailed information gt Data Time ttees
163. ommand Limitation Type Invalid Command Memory ORec Math OMath DataSave OExecRec OMTReset Message OMessage Batch OBatName OBatComment OBatText AlarmACK OAlarmAck Comm OEMail OIPApply OMBRestore DispOpe SHomeKind SHomeMonitor SFavoriteKind SFavoriteMonitor Smonitor SMultiPattern SMultiKind ODispRate DateSet OExecSNTP OSetTime ChangeSet Sxxxx OLoadConf File OLoadConf OLoadConfAll OSaveConf OSaveConfAll Fmedia System OInit FSysConf when pl is specified Out OCmdRelay OCommCh CalibSet SCalibIO 1 Setting commands except for SHomeKind SHomeMonitor SFavoriteKind SFavoriteMonitor Smonitor SMultiPattern SMultiKind and SCaliblO Nete Note Only when the advanced security function AS option is in use on instruments whose version is 2 02 or later 2 Can be specified with the SUserLimit command when the advanced security function AS option is in use on instruments whose version is 2 02 or later The command is not applicable to the model For commands that can be used only on certain models the models are listed in the Description column in section 2 2 1 Setting Commands to section 2 2 4 Communication Control Commands Examples GX GP GM The applicable models for the following commands are further reduced Command Applicable Models SViewAngle GX10 GP10 SMultiPattern GX20 GP20 SMultiKind GX2
164. on fixed to 10 characters Unused character positions are filled with spaces Decimal place 00 to 05 The decimal place of the mantissa on channels set to LOG scale LG IM 04L51B01 17EN 2 101 s suods y pue spuewwog H 2 10 ASCII Output Format 2 10 24 System Configuration FSysConf The output in response to the command FSysConf is shown below Syntax When no expandable I O is connected EA crlf Unit 00 00 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 01 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 02 ccccccccccccccceo uuuuuuuuuuuuuuuu defghij 03 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 04 cccccccccccccccc uuuuuuuuuuuuuuuu defghij 05 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 06 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 07 ccccccccccccccceo uuuuuuuuuuuuuuuu defghij 08 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 09 ccccccccccccccco uuuuuuuuuuuuuuuu defghij EN crlf When an expandable I O or sub unit is connected EA crlf U KJ K 1 KJ KJ K 1 KJ Kl K 1 KJ Ilmnopqrs lt cr Imnopqrs lt cr Imnopqrs lt cr Imnopqrs crl Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr K J 00f cccccccccccccccc uuuuuuuuuuuuuuuu DEFGHIJK Imnopqrs crl U U Olf ccccccccccccccce uuuuuuuuuuuuuuuu DEFGHIJK 02f ccccccccccccccceo uuuuuuuuuuuuuuuu DEFGHIJK U 03f ccccccccccccccce uuuuuuuuuuuuuuuu DEFGHIJK 04f ccccccccccccccce uuuuuuuuuu
165. on a set of rules to ensure the proper transfer of data The set of rules is called handshaking Because there are various handshaking methods that can be used between the GX GP and the PC you must make sure that the same method is chosen by both the GX GP and the PC You can choose any of the four methods on the GX GP in the table below Hand Data transmission control Data Reception Control shaking Control used when sending data to a PC Control used when receiving data from a PC Software Hardware No Software Hardware No Handshaking Handshaking handshaking Handshaking Handshaking handshaking OFF OFF Yes Yes XON XON Yes Yes XON RS_ Yes Yes CS RS Yes Yes Yes Supported 1 Stops transmission when X OFF is received Resume when X ON is received 2 Stops sending when CS CTS is false Resumes when it is true 3 Sends X OFF when the receive data buffer is 3 4 full Sends X ON when the receive data buffer is 1 4th full 4 Sets RS RTS to False when the receive data buffer is 3 4 full Sets RS RTS to True when the receive data buffer becomes 1 4 full OFF OFF Data transmission control There is no handshaking between the GX GP and the PC The X OFF and X ON signals received from the PC are treated as data and the CS signal is ignored Data reception control There is no handshaking between the GX GP and the PC When the received buffer becomes full all of the data
166. or external 4 Host device RS 422 485 side terminal on the recorder SDA O SDA SDA SDA SDB O SDB l W SDB XX p SDB4 RDA O RDA RDA RDA RDB O RDB X RDB RDB NOE 7 cei iin n x32 Do not connect terminators to 1 through n 1 Two wire system Connect the transmission and reception signals with the same polarity on the RS 422 485 terminal block Only two wires are used to connect to the external device Terminator external 120 O 1 2W or greater Terminator external RS 422 485 Host device terminal on the recorder A B ee n n 31 Do not connect terminators to 1 through n 1 N ot e VLLL The method used to eliminate noise varies depending on the situation In the connection example the shield of the cable is connected only to the recorder s ground one sided grounding This is effective when there is a difference in the electric potential between the computer s ground and the recorder s ground This may be the case for long distance communications If there is no difference in the electric potential between the computer s ground and the recorder s ground the method of connecting the shield also to the computer s ground may be effective two sided grounding In addition in some cases using two sided grounding wit
167. ord management On Off p2 Root user password between 6 and 20 characters ASCII Query SKdc Example Enable password management Set the root user password to root3210 SKdc On root3210 BisopePass Password to Unlock Operation GX GP 2 50 IM 04L51B01 17EN 2 4 Setting Commands Sets the password that is used to release the operation lock Syntax SOpePass pl pl Password up to 20 characters ASCII Query SOpePass The password is displayed using asterisks Example Set the password to password1 SOpePass passwordl Description You cannot use this command to configure settings when logged in as a user when the user level is User B soperimit Operation Lock Details GX GP Sets which operations to lock Syntax SOpeLimit pl p2 p1 Authority of user Memory Memory Math Computations DataSave Data save Message Message Batch Batch AlarmACK Alarm ACK Comm Communication DispOpe Touch operation ChangeSet Setting operation DateSet Date time settings File File operation System System operation Out Output operation p2 Free Lock Free Notlock Lock Lock Query SOpeLimit pl Example Prohibit operations for changing settings SOpeLimit ChangeSet Lock Description You cannot use this command to configure settings when logged in as a user when the user level is User Eisuse User Settings Register users Syntax SUser p1 p2 p3 p4 p5 p6 p7 pl User number p2 User l
168. ory card SB USB flash memory ettings to load U p3 S ALL All settings S I e ECURITY Security settings only P IP address settings only All settings except for security and IP address settings Multiple options can be selected for p3 To do so separate items with a colon p4 Setting items to be excluded from the items specified by p3s OTHERS THERS SERVER Server related settings CALIB Calibration correction setteings INSTRU Instrument information settings Multiple options can be selected for p4 To do so separate items with a colon Example Load all settings from the setting file SETTING1 on the SD memory card OLoadConf SETTING1 SD ALL Load security and IP address settings from a setting file named SETTING1 from the SD memory card OLoadConf SETTINGl1 SD SECURITY IP Load settings excluding IP address settings server related setings and instrument information from a setting file named SETTING1 from the SD memory card OLoadConf SETTING1 SD SECURITY O THERS SERVER INSTRU Description e Ifyou omit parameter p2 the medium is set to the SD memory card e For p3 and p4 values setting category and target commands see Setting Category and Target Commands on page 2 60 e If you omit parameter p3 all settings will be loaded e Ifyou omit parameter p4 no setting will be excluded e Ifyou change the language with this command the
169. ose output type is set to Manual as output destination numbers BsaimHysMath Alarm Hysteresis MT Sets the alarm hysteresis for a math channel Syntax SAlmHysMath pl p2 p3 pl Channel number p2 Alarm number 1 to 4 p3 Hysteresis Alarm Type Hysteresis Range H L O to 100000 Query SAlmHysMath p1 p2 Example Set a hysteresis on alarm 3 of math channel 015 If p7 SW 2 26 IM 04L51B01 17EN 2 4 Setting Commands SAlmHysMath 015 3 10 Description e Hysteresis specified for delay high and low limit alarms TH and TL does not apply BsaimblyMath Alarm Delay Time MT Sets the alarm delay time for a math channel Syntax SAlmDlyMath pl p2 p3 p4 pl Channel number p2 Hour 0 to 24 p3 Minute 0 to 59 P4 Second 0 to 59 Query SAlmDlyMath p1 Example Set the math channel 015 alarm delay time to 2 minutes 30 seconds SAlmDlyMath 015 0 2 30 Description Setthe delay time so that it is an integer multiple of the scan interval SScan command E sra Math Tag MT Sets the tag of a math channel Syntax STagMath p1 p2 p3 pl Channel number p2 Tag up to 32 characters UTF 8 p3 Tag number up to 16 characters ASCII Query STagMath p1 Example Set the math channel 015 tag to SYSTEM1 and the tag number to T1002 STagMath 015 SYSTEMI1 T1002 I SColorMath Channel Color MT Sets the color of a math channel Syntax SColorMath p1l p2 p3 p4 p1 Channel number
170. p2 R value of RGB display colors 0 to 255 p3 G value of RGB display colors 0 to 255 P4 B value of RGB display colors 0 to 255 Query SColorMath p1 Example Set the math channel 015 display color to red SColorMath 015 255 0 0 Description For details on RGB values see Description of the SColorlO command szoneMath Waveform Display Zone MT Sets the waveform display zone of a math channel Syntax SZoneMath pl p2 p3 p1 Channel number p2 Zone lower limit 76 0 to 95 p3 Zone upper limit 5 to 100 Query SZoneMath p1 Example Set the waveform zone of math channel 015 waveform to 096 to 3096 SZoneMath 015 0 30 Isscalemath Scale Display MT GX GP Sets the scale display of a math channel Syntax SScaleMath pl p2 p3 pl Channel number p2 Scale display position Off 1 to 10 p3 Number of scale divisions 4 to 12 C10 Query SScaleMath p1 Example Display the math channel 015 scale at display position 1 Display four equally spaced main scale marks SScaleMath 015 1 4 Isparmath Bar Graph Display MT Sets the bar graph display of a math channel Syntax SBarMath pl p2 p3 pl Channel number p2 Bar display base position Lower Lower Center Center Upper Upper p3 Number of scale divisions 4 to 12 Query SBarMath p1 Example Display the computed values of math channel 015 on a bar graph with the center set as the base position Center Display four e
171. p3 p4 p5 p6 p7 p8 p9 pl0 crlf p1 p2 p3 p4 p5 p6 p7 p8 p9 pl0 crlf EN crlf Output Example EA crlf ain 0 GX20 1J3 1234567 xx xx xx xx xx xx R1 01 01 MT C2 0 10 SHeeeeeeee lt crlf gt Sub 1 GX90EX 02 ET1 1234567 xx XX XX XX XX XX R1 01 01 0 6 LE E lt crlf gt EN lt crlf gt One line p1 to p10 contains configuration information of a single unit Pn Value Description pl Main Sub Unit dependency main or sub information Main Main unit Only a single one exists in a system GX GP or GM main unit Sub Sub unit Units other than the main unit GX GP expandable I O or GM sub unit p2 0 1 Unit address number The address number of the main unit is O p3 GX20 1J Unit name model name Enclosed in single quotation marks The GX90EX 02 main unit model or expansion module model in the expandable I O ETI unit or sub unit P4 1234567 Product serial number p5 xx xx xx MAC address XX XX XX xx hexadecimal p6 R1 01 01 Firmware version The output format is R version p7 MT C2 Options Codes of installed options delimited by spaces ps O0 Fixed at 0 p9 6 10 Maximum number of installable modules If there are not installable modules 0 is output p10 Unit status The unit status is output in a character string See the Expansion module status in section 2 10 24 System Configuration FSysConf The main unit and
172. peration and the connection destination server Syntax SSntpCnct pl p2 p3 p4 p5 p6 p7 2 46 IM 04L51B01 17EN 2 4 Setting Commands pl Server name up to 64 characters ASCII p2 Port number 1 to 65535 p3 Reference time Hours HH 00 to 23 P4 Reference time Minutes MM 00 to 59 p5 Access interval 6h 12h 24h p6 Timeout 10s 30s 90s p7 Time adjust on start action Off On Query SSntpCnct Example Set the server name to sntpserver1 the port number to 123 the timeout to 30s Query the time every day at 12 00 and at memory start SSntpCnct sntpserver1 123 12 00 24 30s On I smodclient Modbus Client Operation MC Sets the Modbus client operation Syntax SModClient pl p2 p3 p4 pl Read cycle 100ms 200ms 500ms 1s 2s 5s 10s 20s 30s 1min p2 Recovery wait time Off 5s 10s 30s 1min 2min 5min p3 Keep connection Off On P4 Connection timeout s 1 to 10 Query SModClient Example Set the read cycle to 100ms the recovery wait time to Off and the connection timeout to 1 second SModClient 100ms off on 1 Description This command is valid on models with the MC communication channel option lBiswoacList Modbus Client Connection Destination Server MC Sets the Modbus client connection destination server Syntax SModCList p1 p2 p3 pl Registration number p2 Server name up to 64 characters ASCII p3 Port number 1 to 65535 Query SModCList p1 Example
173. pl Channel number p2 Input type Volt TC RTD p3 Range see Description P4 Calculation type Off p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 Delta Channels Syntax SRangeAI pl p2 p3 p4 p5 p6 p7 p8 pi Channel number p2 Input type Volt TC RTD DI p3 Range see Description P4 Calculation type Delta p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 can be set when p2 is not set to DI p8 Reference channel number Scaling Channels Syntax SRangeAI pl p2 p3 p4 p5 p6 p7 p8 p 9 p10 p11 p1 Channel number p2 Input type Volt TC RTD DI p3 Range see Description P4 Calculation type Scale p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 can be set when p2 is not set to DI p8 Decimal Place 0 to 5 p9 Scaling lower limit p10 Scaling upper limit p11 Unit up to 6 characters UTF 8 Unified Signal Input Channels Input Type Is GS Syntax SRangeAI pl p2 p3 p4 p5 p6 p7 p8 p 9 p10 p11 p12 p13 pl Channel number p2 Input type GS p3 Range see Description P4 Calculation type Scale p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 p8 Decimal Place 0 to 5 p9 Scaling lower limit p10 Scaling upper limit p11 Unit up to 6 characters UTF 8 p12 Low cut function Off On p13 Low cut point 0 to 50 Square Root Channels Syntax SRangeAI pl p2 p3 p4 p5 p6 p7 p8 p 9 p10 p11 p12 p13 p14 pl Channel number p2 Input
174. pl Jump default display operation Off 1min 2min 5min 10min 20min 30min 1h Query SAutoJump Example Set the automatic return time to 5 minutes SAutoJump 5min EiscaiFormat Calendar Display Format GX GP Sets the calendar display format Syntax SCalFormat pl pl 1st weekday Sun Mon Query SCalFormat Example Set the first weekday to Monday SCalFormat Mon IsparDirect Bar Graph Display Direction GX GP Sets the bar graph display direction Syntax SBarDirect pl pl Direction Horizontal Horizontal Vertical Vertical Query SBarDirect Example Display bar graphs horizontally SBarDirect Horizontal EschgMonitor Value Modification from the Monitor Enables or disables the feature that allows values to be changed from the monitor Syntax SChgMonitor pl 2 36 IM 04L51B01 17EN 2 4 Setting Commands pl Disable or enable Off On Query SChgMonitor Example Enable the feature that allows values to be changed from the monitor SChgMonitor On J STrdWave Trend Waveform Display GX GP Sets the trend waveform display mode Syntax STrdWave p1 p2 pl Waveform display direction Horizontal Horizontal Vertical Vertical p2 Trend clear Off Do not clear On Clear Query STrdWave Example Set the trend waveform to horizontal display and clear the waveform when recording is started STrdWave Vertical On Istrdscale Scale GX GP Set the scale Syntax STrdScale pl p2 p3 pl Number of digi
175. ponse 2 11 1 Most Recent Channel Data FData Configuration Block 1 The output in response to the command FData 1 is shown below Outputs the most recent I O channel math channel and communication channel data The figure below shows the structure of the output data Data is stored in Block 1 2 bytes 2 bytes a Number of blocks Number of bytes Number of Blocks 16 bits Always 1 Number of Bytes 16 bits Stores the number of bytes of block 1 The figure below shows the structure of block 1 12 bytes 8 bytes 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte 2 bytes Ee nonin ony wow wn see enc Additional information 4 bytes Channel type pata type Data Time Item Number of Bits Value Year 8 bits 0 to 99 Month 8 bits 1 to 12 Day 8 bits 1 to 31 Hour 8 bits 0 to 23 Minute 8 bits 0 to 59 Second 8 bits 0 to 59 Millisecond 16 bits 0 to 999 2 110 IM 04L51B01 17EN 2 11 Format of the Data Block of Binary Output Additional Information 64 bits Bit 0 Daylight saving time 0 standard time 1 daylight saving time Data Type 4 bits Indicates the data type 1 32 bit integer 2 32 bit floating point Data values for channels set to Log scale LG are 32 bit floating point type Channel Type 4 bits Indicates the channel type Value Channel Type 1 I O chan
176. qually spaced main scale marks SBarMath 015 Center 4 I spartialmath Partial Expanded Display MT GX GP Sets the partial expanded display of a math channel waveform Syntax SPartialMath pl p2 p3 p4 pl Channel number p2 Partial expanded On Off On Off p3 Partial expanded boundary position 1 to 99 P4 Partial expanded boundary value Query SPartialMath p1 Example For channel 015 whose measurement range is 0 to 1 0000 V display the measured value of 0 7500 V at the 5096 position SPartialMath 015 0n 50 7500 Description e You cannot set this on a Off channel p2 is fixed to Off e f p2 Off you cannot set p3 or subsequent parameters IM 04L51B01 17EN 2 27 sesuodses pue spuewwog H 2 4 Setting Commands e P2 On can be specified when the difference between the span upper and lower limits is 2 digits or greater I sBandmath Color Scale Band MT Sets the color scale band of a math channel Syntax SBandMath p1 p2 p3 p4 p5 p6 p7 pl Channel number p2 Color scale band Off In Out p3 R value of the color scale band RGB colors 0 to 255 P4 G value of the color scale band RGB colors 0 to 255 p5 B value of the color scale band RGB colors 0 to 255 p6 Upper limit of the color scale band display span lower limit to span upper limit p7 Lower limit of the color scale band display span lower limit to span upper limit Query SBandMath p1 Example For math channel 015 set a blue b
177. r F Via FTP server S RS 232 RS 422 485 USB communication or Bluetooth D Via front panel 1 User level A Administrator U User M Monitor only when the advanced security function AS enabled uuuuuuuuuuuuuuuuuuuu User name fixed to 20 characters Unused character positions are filled with spaces abcdefghijkmnpqrstuvwxy Authority of user F Free L Lock a through y represent actions p through y are output only when the advanced security function AS is enabled a Memory b Math e Data save d Message e Batch f Alarm ACK g Communication h Touch operation i Time set j Setting operation k External media m System operation n Output operation p Calibration correction setting operation q to y Not used Spaces IM 04L51B01 17EN 2 79 sesuodses pue spuewwog H 2 10 ASCII Output Format 2 10 5 All Users Who Are Currently Logged In FUser The output in response to the command FUser 1 is shown below Syntax EA crlf p l1 uuuuuuuuuuuuuuuuuuuu abcdefghijkmnpqrstuvwxy crlf p l1 uuuuuuuuuuuuuuuuuuuu abcdefghijkmnpqrstuvwxy crlf p 1l uuuuuuuuuuuuuuuuuuuu abcdefghijkmnpqrstuvwxy crlf p 1l uuuuuuuuuuuuuuuuuuuu abcdefghijkmnpqrstuvwxy crlf EN lt crlf gt p Login mode M Via general communication W Via Web HTTP server F Via FTP server S RS 232 RS 422 485 USB communication or Bluetooth D Via front panel 1 User level A Administrator U User M Monitor only when the advanc
178. r p2 Output type Alarm p3 Span lower limit 0 to 1 P4 Span upper limit 0 to 1 p5 Unit up to 6 characters UTF 8 p6 Energize or de energize Energize the relay DO channel during output De energize the relay DO channel during output Energize De energize p7 Operation IM 04L51B01 17EN sesuodses pue spueuluio2 H 2 4 Setting Commands And Operate when all set alarms are in the alarm state Or Operate when any of the set alarms are in the alarm state p8 Hold or nonhold Hold Hold output until an alarm ACK operation Nonhold Clear output when the alarm is cleared p9 Relay DO channel action on acknowledge Normal Reset Alarm Output Reflash Syntax SRangeDO p1 p2 p3 p4 p5 p6 p7 ps p9 i Channel number p2 Output type Alarm p3 Span lower limit 0 to 1 P4 Span upper limit 0 to 1 p5 Unit up to 6 characters UTF 8 p6 Energize or de energize Energize the relay DO channel during output De energize the relay DO channel during output p7 Action Reflash p8 Reflash time 500ms 1s 2s p9 Relay DO channel action on acknowledge Manual Output Specifies the output value Syntax SRangeDO p1 p2 p3 p4 p5 p pi Channel number p2 Output type Manual p3 Span lower limit 0 to 1 P4 Span upper limit 0 to 1 p5 Unit up to 6 characters UTF 8 p6 Energize or de energize Energize the relay DO channel during output De energize the relay DO channel during output Energize D
179. recipient DATA Server rejected the data transmission command TCPIP _ internal processing error INVAL Internal processing error SMTPAUTH _ SMTP AUTH authentication failed ANOTSUPPORT Unsupported authentication method POP3UNREACH_ Unable to connect to POP3 server POP3TIMEOUT POP3 server connection timed out POP3HOSTNAME Unable to resolve POP3 host name E POP3AUTH _ POP3 server authentication failed CERT __ _ Certificate verification error SSL __ Encryption communication error n recipient 1 Recipient 1 2 Recipient 2 t Recipient 1 2 uuu u Recipient mail address fixed to 30 characters Unused character positions are filled with spaces The user name section of the recipient mail address the XXXxX section of XXXX abc def ghi is output 2 92 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 18 Web Log FLog The output in response to the command FLog WEB is shown below Syntax EA crlf yyyy mo dd hh mm ss xxX xxx xxx xxx mmmmmmmm uuu u ccc nnn crlf EN crlf yyyy mo dd hh mm ss Time of error occurrence yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 XXX XXX XXX XXX Source IP address mmmmmmmm HTTP query method GET GET method POST POST method uuu u Access destination URL fixed to 24 characters Unused character positions are filled with spaces ccc HTTP response code
180. recorder may restart IM 04L51B01 17EN 2 65 sesuodses pue spueuiuio 2 H 2 6 Operation Commands BoLoadConfall Loads Setting Data at Once GM Loads all settings into the GM from the specified folder of the GM s external storage medium Syntax OLoadConfAll pl p2 p1 Folder name up to 80 characters Specify the folder name as path name folder name p2 Medium SD SD SD card Example Load all settings from the CONFIGO folder of the SD card OLoadConfAll CONFIGO SD Description e The following items are loaded into the GM File names are indicated in parentheses e Setting data file Config GNL or Config GSL e Report template Report YY xlsx Report YY xlsm or Report YY tpl YY is the report type e Trusted certificate The certificate file in the Client folder in the specified folder p1 is loaded ToseriApply Applies Serial Communication Settings Applies serial communication settings Syntax OSeriApply pl pl Apply the settings 0 Example Apply serial communication settings OSeriApply 0 Description This command applies the serial communication settings specified by the SSerialBasic command e When you send this command the serial communication settings take effect when the recorder returns a response After this process the connection will be cut off BoiPAppty Applies the IP Address Applies Ethernet communication settings Syntax OIPApply pl pl Apply the settings 0
181. rizontal Vertical P4 Resolution dpi 300 600 p5 Number of copies 1 to 10 p6 Snapshot Off On GX GP Off On GM Off p7 Fitto page during snapshot printing Off On GX GP Off On GM Off Query SPrinter Example Set the IP address to 192 168 111 24 the paper size to A3 the paper orientation to horizontal the resolution to 600 the number of copies to 2 and snapshot to On Print by fitting to page Sprinter 192 168 111 24 A3 Horizon tal 600 2 0n On lisi ea LED Indicator Operation GX GP Sets the operation of the LED indicators on the front panel Syntax SLed p p2 p1 Type Function p2 Operation Off Power state 2 40 IM 04L51B01 17EN 2 4 Setting Commands AlarmAll Alarm Query Sled Example Set the LED indicator operation to Alarm SLed Function AlarmAll Bssound Sound GX GP Sets touch and warning sounds Syntax SSound pl p2 pl Touch sound Off On p2 Warning sound Off On Query SSound Example Enable touch and warning sounds SSound On On lisinstruTag Instruments Tag Sets tags Syntax SInstruTag pl p2 p1 Tag up to 32 characters UTF 8 p2 Tag number up to 16 characters ASCII Query SInstruTag Example Set the tag to assign to the GX GP to GX and the tag number to 12345 SinstruTag GX 12345 Isconfcmt Setting File Comment Sets the setting file comment Syntax SConfCmt pl p1 Setting file comment up to 50 characte
182. rk with various applications through the use of commands The communication that is achieved through commands is referred to as general communication 2 1 2 Command Types and Functions The following types of commands are available The first character of command names represents the command type For example in the command SRangeAl S represents the command type The second and subsequent characters represent the contents of commands Type Description Operation commands Commands that start with D These commands are used Example OSet Time to operate the recorder Setting commands Commands that start with S These commands change Example SRangeAI the recorder settings Output commands Commands that start with F These commands cause the Example FData recorder to output measured data and other types of data Communication Control commands Commands that start with C These commands control the Example CCheckSum communication with the recorder Instrument information output Commands that start with an underscore These commands commands cause the recorder to output its instrument information Example MFG 2 1 3 Command Syntax A Single Command A single command consists of a command name parameters delimiters and terminator The command name is written in the beginning and parameters follow Delimiters are used to separate the command name from parameters and between each par
183. rmn IAC AC component lac P Active power P S Apparent power S Q Reactive power Q LAMBda Power factor A PHI Phase difference Q FU Voltage frequency fU FI Current frequency fl UPPeak Maximum voltage U pk UMPeak Minimum voltage U pk IPPeak Maximum current l pk IMPeak Minimum current l pk CFU Voltage crest factor CfU CFI Current crest factor Cfl TIME Integration time Time WH Sum of positive and negative watt WP hours WHP Sum of positive P consumed watt WP hours WHM Sum of negative P watt hours WP returned to the power supply AH Sum of positive and negative q ampere hours AHP Sum of positive ampere hours q AHM Sum of negative ampere hours q WS Volt ampere hours WS WQ Var hours WQ ElemHrm1 to ElemHrm3 UK 0 Rms voltage of harmonic order 0 U 0 UK 1 Rms voltage of harmonic order 1 U 1 UK T Rms voltage U Total IK 0 Rms current of harmonic order 0 0 IK 1 Rms current of harmonic order 1 1 IK T Rms current I Total PK 0 Active power of harmonic orderO P 0 PK 1 Active power of harmonic order 1 P 1 PK T Active power P Total SK 0 Apparent power of harmonic order S 0 SK 1 Apparent power of harmonic order S 1 SK T Total apparent power S Total QK 0 Reactive power of harmonic order 0 Q 0 QK 1 Reactive power of harmonic order 1 Q 1 QK T Total reactive power Q Total LAMBDAO Power factor of harmonic order O A 0 LAMBDA1 Power factor of harmonic order 1 A 1 LAMBDAT Total power factor A Total PHIK_1 Phase d
184. rs UTF 8 Query SConfCmt Example Set SETTING FILE COMMENT SConfCmt SETTING FILE COMMENT Esusbinput USB Input Device GX GP Specifies the USB input device Syntax SUsbInput pl pi USB input device type Japanese 109 Japanese keyboard English 104 English keyboard Barcode Bar code reader Query SUsbInput Example Specify the English keyboard SUsbInput English 104 Description e This command is valid on models with the UH USB interface option e For the communication commads that you can execute using a bar code reader see section 1 18 11 Setting USB Input Devices UH option in the Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN E ssetcomment Configuration Changes Comment AS Sets whether to enter comments when settings are changed Syntax SSetComment pl p1 Enable disable configuration changes comment On Enter comments when settings are changed Off Do not enter comments when settings are changed Query SSetComment Example Enter comments when settings are changed SSetComment On Isswitch Internal Switch Operation Sets the internal switch operation Syntax SSwitch pl p2 p3 p1 Internal switch number 1 to 100 p2 Output type Alarm Output alarms Manual Specify the output value p3 Operation And Operate when all set alarms are in the alarm state Or Operate when any of the set alarms are in the alarm state Query SSwitch p1
185. s Bil 1193 L003 145 IM 04L51B01 17EN 2 71 sasuodsey pue spuewwog H 2 9 Responses to Commands Response Example 3 In a string of two commands if error number 10 occurs in the second parameter of the first command and error number 500 occurs in the fifth parameter of the second command the recorder outputs EI 10 1 2 500 2 5 Error Messages You can use the instrument s error number information output command ERR to output the error message that corresponds to an error number of a negative response 2 9 3 Data Output Response ASCII Output There are two types of data output ASCII and binary The responses to the following commands are in ASCII Queries for operation commands and setting commands e ASCII data output requests of output commands Syntax EACRLF ASCII string data e e e e e e e CRLF ASCII string data e e e e e e CRLF l ASCII string data e e e e e CRLF ENCRLF The recorder adds a header EA in front of the ASCII string output data and a footer EN at the end The recorder adds the two characters CRLF to the end of headers footers and ASCII string data 2 72 IM 04L51B01 17EN 2 9 Responses to Commands Binary Output The responses to output commands consisting of binary data output requests are in binary Format The following figure shows the binary output format The recorder adds a header to the front of binary output data and a checksum
186. s below 1 2 2 Sending Commands and Receiving Responses Programs When you send a command to the recorder it will return a response You can control the recorder by writing a program that sends commands and processes responses and then executing the program You need to create the programs Example If you send the command FData 0 0001 0020 from your PC to the recorder the recorder will return the most recent data of channels 0001 to 0020 in ASCII code For details on commands and responses see chapter 2 Commands and Responses Notes on Creating Programs For RS 232 GX GP USB communication GM Bluetooth GM C8 option When you connect a PC to the recorder through the serial interface the recorder will be ready to receive commands For RS 422 485 The device that receives an open command ESC O from a PC will be ready to receive commands The connection will close in the following situations When the recorder receives a connection close command ESC C IM 04L51B01 17EN 1 2 Operations over the Serial Interface RS 232 RS 422 485 USB Bluetooth 1 2 3 RS 232 Connection Procedure GX GP Connect a cable to the 9 pin D sub RS 232 connector Connection Connector pin arrangement and signal names 4 5 Each pin corresponds to the signal indicated below The following table shows the signal name RS 232 standard JIS and ITU T standard signals Pin Signal Name Name Meaning JIS I
187. s 0102 Server setting GX10 GP10 1 to 8 number for WT GX20 GP20 1 to 16 communication GM10 1 to 16 GX20 GP20 001 to 100 GX10 GP10 001 to 050 Math channel Communication GX10 GP10 1 to 50 channel GX20 GP20 1 to 300 allocation GM10 1 to 300 number for WT communication GM10 001 to 100 For SGroup and SMailAlarm commands insert A in front Example A001 Number of users Advanced security function AS not that can be installed or disabled 1 to 50 registered user Advanced security function AS number enabled 1 to 100 IM 04L51B01 17EN 2 3 3 Specifying a Range 2 4 Setting Commands When specifying consecutive channel numbers or group numbers in a setting command you can specify them using a range instead of specifying each number one by One Isscan ES e Use a hyphen to separate the first number and the last O number For I O channels you can specify a range that Scan Interval E spans over multiple slots that modules are installed in Sets the scan interval 3 You can specify the minimum number by omitting the Syntax SScan pl p2 p number before the hyphen and the maximum number pl Scan group 1 2e by omitting the number after the hyphen If you want p2 Scan interval 100ms 200ms 500ms 1s to specify all numbers from the first number to the last 2s 5s a number specify only the hyphen Query SScan p1 e Example Set the scan interval to 1 second o SScan 1
188. se the PC see the user s manual for your PC Configuring the GM Turn the Bluetooth function on default value is on For the procedure see section 2 20 Configuring the Bluetooth Communication Function in the Data Acquisition System GM User s Manual IM 04L55B01 01EN Connecting the GM to the PC 1 Check whether the BT LED in the GM status display area is on If the LED is off hold down the GM USER key for at least 3 seconds The BT LED in the GM status display area is turns on the GM enters the connection standby state BT LED LLLLLLL START STOP USERI USER 2 Perform a pairing operation from the PC A 6 digit authentication code appears on the GM s 7 segment LED Check that this authentication code matches that shown on the PC and pair the devices When pairing is complete a COM port will be assigned N ote OLLI The GM stores up to eight entries of pairing information This information is retained even when the power is turned off The pairing operation is not necessary in subsequent connections PPP C C ddd ddddddddddddddddddddddddidddidddddddddddddddddsdsdssidiititil 3 Perform the operation for connecting from the PC to the GM See Appendix 7 Bluetooth Communication Connection Flow Chart and section 2 2 1 How to Use Commands 1 10 IM 04L51B01 17EN Chapter 2 Commands and Responses 2 1 Command Transmission and Recorder Responses 2 1 1 General Communication The recorder can wo
189. set exceeds the boundary value do not change the time SDateBasic 15s NotChange Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress EspateFormat Date Format Sets the date format Syntax SDateFormat pl p2 p3 p1 Date format YYMMDD Year month day MMDDYY Month day year DDMMYY Date month year p2 Delimiter Slash Dot period Hyphen p3 Month display Digit Display the month using numerals 1 to 12 Letter Display the month using characters Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Query SDateFormat Example Set the date format to year month day and display the month using numerals SDaeFormat YYMMDD Digit Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress Ispst Daylight Saving Time Set the daylight saving time Syntax SDst p1 p2 p3 p4 p5 p6 p7 p8 p9 pl Enable or disable Use Not p2 Start time Month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec p3 Start time Week 1st 2nd 3rd 4th Last P4 Start time Weekday Sun Mon Tue Wed Thu Fri Sat p5 Start time Hour 0 to 23 p6 End time Month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec p7 End time Week
190. specified Query Example Set the target channels to channels 0001 to 0021 0101 A025 and C003 SMailAlarm 1 21 101 A25 C3 suaitAlarmLevel Alarm Notification Mail Target Alarm levels Detects the alarm status of the specified alarm levels and sends alarm notification mails Syntax SMailAlarmLevel p1 p2 p3 p4 pl Alarm level 1 On Off p2 Alarm level 2 On Off p3 Alarm level 3 On Off P4 Alarm level 4 On Off Query SMailAlarmLevel Example Set the target alarm levels 1 and 2 to On 3 and 4 to Off SMailAlarmLevel On On Off Off I smailAlarmDetect Alarm Notification Mail Target Alarm Detection Method Sets the alarm detection method for the alarm notification mail Syntax SMailAlarmDetect pl pl Detection method Ch Level Query SMailAlarmDetect Example Use alarm levels to specify the target alarms SMailAlarmDetect Level Description When p1 Ch use SMailAlarm command to set the target channels When p1 Level use SMailAlarmLevel command to set the target levels I smailtime Scheduled Transmission Times Sets the scheduled transmission times Syntax SMailTime pl p2 p3 p4 pl Recipient 1 or 2 p2 Reference time Hours HH 00 to 23 p3 Reference time Minutes MM 00 to 59 P4 Interval 1h 2h 3h 4h 6h 8h 12h 24h Query SMailTime p1 Example Send mail to recipient 1 every day at 08 30 SMailTime 1 08 30 24 Issntpcnet SNTP Client Sets the SNTP client o
191. sponding module number is not a DO module a hyphen is output If the module installed in the corresponding module number is a DO module 1 or 0 is output for the number of channels in the module in ascending order by channel number 4 indicates relay DO channel ON state and 0 indicates relay DO channel OFF state IM 04L51B01 17EN 2 77 s suods y pue spuewwog H 2 10 ASCII Output Format 2 10 3 Internal Switch Status FRelay The output in response to the command FRelay 1 is shown below Syntax EA crlf 001 010 aaaaaaaaaa crlf 011 020 aaaaaaaaaa crlf 021 030 aaaaaaaaaa crlf 031 040 aaaaaaaaaa crlf 041 050 aaaaaaaaaa crlf 051 060 aaaaaaaaaa crlf 061 070 aaaaaaaaaa crlf S S S 071 080 aaaaaaaaaa lt crlf gt 081 090 aaaaaaaaaa lt crlf gt 091 100 aaaaaaaaaa crlf EN crlf aaa a The most recent internal switch status is output The internal switch status is output 10 channels per line over 10 lines 1 indicates that the internal switch is ON and 0 indicates that the internal Switch is OFF 2 78 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 4 Users Who Are Currently Logged In FUser The output in response to the command FUser 0 is shown below Syntax EA crlf p l uuuuuuuuuuuuuuuuuuuu abcdefghijkmnpqrstuvwxy crlf EN crlf p Login mode M Via general communication W Via Web HTTP serve
192. strument to indicate that the user must refer to the user s manual for special instructions The same symbol appears in the corresponding place in the user s manual to identify those instructions In the manual the symbol is used in conjunction with the word WARNING or CAUTION Calls attention to actions or conditions that could cause serious or fatal injury to the user and precautions that can be taken to prevent such occurrences Calls attention to actions or conditions that could cause light injury to the user or cause damage to the instrument or user s data and precautions that can be taken to prevent such occurrences Calls attention to information that is important for the proper operation of the instrument IM 04L51B01 17EN Contents Chapter 1 Chapter 2 IMtrODU CH OM t i Recorder Version and Functions Described in This Manual ii Howto Use This Mantdl aterert icis a nua cadran tuo ena eR eE a xn ra S Ec a ed ERSE Vade ii Conventions Used in I his Manual iua ranae cn nho resa eR ce ene vina cia ba nano dn aguda sa REC nea da a Reda agE ii Using Dedicated Commands General 1 1 1 2 Operations over an Ethernet Network eese ener nenee rnnt tnnt 1 1 1 1 1 Preparing the Instrument sssssuss 1 1 1 1 2 Sending Commands and Receiving RESPONSES cccceeeeeeeeeeeeeeeeeeeeeeeseeeeseeee
193. t If you specify 1 the maximum possible number of files as large as the recorder internal communication buffer allows will be output Example Output all the file lists in the DRVO directory FMedia DIR DRV0 Output the file lists of items 10 to 20 in the DRVO directory FMedia DIR DRV0 10 20 Description e Path names p2 for the internal memory and the external media are listed below Set the path name using a full path Internal memory MEMO DATA SD memory card DRVO IM 04L51B01 17EN 2 59 sesuodses pue spuewwog H 2 5 Output Commands USB flash memory USBO e If you omit p3 and p4 the maximum possible number of files as many as the GX internal communication buffer allows will be output e For the ASCII output format see page 2 100 Data in Files Syntax FMedia pl p2 p3 p4 pl Output type GET p2 Path name up to 100 characters Path name of the file for outputting data p3 Data output start position in bytes 0 to 2147483647 P4 Data output end position in bytes 0 to 2147483647 1 The last data output position If you specify 1 the maximum file size as large as the recorder internal communication buffer allows will be output Example Output all the data in file xyz in the DRVO DATAO directory FMedia GET DRVO DATAO xyz Description f you omit p3 and p4 the maximum file size as large as the recorder internal communication buffer allows will be output The
194. t Channels Syntax SRangeAlCurrent pl p2 p3 p4 p5 p6 p7 p8 p9 p10 p11 p12 p13 p14 IM 04L51B01 17EN 2 4 Setting Commands pl Channel number p2 Input type Current GS p3 Range 0 20mA When p2 Current 4 20mA When p2 GS P4 Math type Sqrt p5 Span lower limit p6 Span upper limit p7 Bias 999999 to 999999 p8 Decimal place 0 to 5 p9 Scaling lower limit p10 Scaling upper limit p11 Unit up to 6 characters UTF 8 p12 Low cut function Off On p13 Low cut point 0 to 50 p14 Low cut output Zero Linear Query SRangeAICurrent p1 Example Measure 0 000 to 10 000 mA on channel 0002 No scaling No bias SRangeAICurrent 0002 Current 0 20mA Off 0 10000 0 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p2 GS you cannot specify p4 Off Delta Specify p5 and p6 within the range shown in the following table Range p3 Value p5 p6 0 20mA 0 000 to 20 000 4 20mA 3 200 to 20 800 BisRangeb Measurement Range of DI Channel Sets the measurement range of a DI channel Unused Channels Syntax SRangeDI p1 p2 pl Channel number p2 Input type Skip Channels That Are Not Delta Scaling Pulse Input Syntax SRangeDI p1 p2 p3 p4 p5 p6 p1 Channel number p2 Input type DI p3 Fixed at P4 Calculation type Off p5 Span lower limit 0 t
195. t Limits of Current Input Type AI Module Sets the burnout limits for the general signal range of a current input type Al module Syntax SBOLmtAICurrent pl p2 p3 p4 pl Unit number p2 Module number p3 Lower burnout limit for the general signal range Percentage of the specified span 20 0 to 5 0 p4 Upper burnout limit for the general signal range Percentage of the specified span 105 0 to 120 0 Query SBOLmtAICurrent p1 p2 1 Example For the module installed in the main unit whose module number is 2 set the lower burnout limit for the general signal range to 10 and the upper burnout limit for the general signal range to 110 SBOLmtAICurrent 0 2 10 0 110 0 lBiswodep DI Module Sets the mode of a DI module Syntax IMT SModeDI p1 p2 p3 No MT SModeDI p1 p2 p3 p4 pl Unit number p2 Module number p3 Mode Normal Remote Normal DI input Remote Remote control input p4 Filter for pulse input On Off Query SModeDI pl p2 Example Set the module whose module number is 2 as a remote control input module SModeDI 0 2 Remote Description e You cannot use this command to configure settings while recording is in progress 2 12 IM 04L51B01 17EN 2 4 Setting Commands You cannot use this command to configure settings while computation is in progress Ismemory Only one module can be set to remote If different modules are set to remote numerous times the last Recording Mode module
196. t pl p2 p3 p4 p5 p6 p7 p8 p9 p10 pl Event action number 1 to 50 p2 Type Off On p3 Eventtype see the table below P4 Source element number see the table below p5 Event details see the table below p6 Operation mode see the table below p7 Action type see the table below p8 Source element number see the table below p9 Action detail 1 see the table below p10 Action detail 2 see the table below p3 P4 p5 p6 Event Type Value Source Event details Operation Element mode Number Internal Switch SW 1 to 100 Rising Falling Both Remote control D Channel Rising input number Falling Both Relay DO channel DO Channel Rising number Falling Both Alarm AlarmlO Channel 1to4 Rising I O channel number Falling Both Alarm AlarmMath Channel 1to4 Rising math channel number Falling Both Alarm AlarmCom Channel 1to4 Rising communication number Falling Both channel Alarm AlarmAll Rising Falling Both Device status Status Memory Rising Record Falling Both Math Math Device status Status UserLock User lock out Device status GX Status Login GP When logged in Device status Status MemMediaErr Memory Media error MeasureErr Measurement error CommErr Communication error Timer Timer 1to4 Edge Match time timer MatchTimeTimer 1 to 4 Edge User function User function 1to2 Edge 1 Valid when the advanced securit
197. t set HOSTNAME Unable to resolve server host name UNREACH Unable to connect to server CONNECT Unable to connect to data port SEND Transmission to data port failed RECV Reception from data port failed REPLY Received reject response from server SERVER Invalid server response CMDSEND_ Error in sending command to control port CMDRECV Error in receiving command from control port USER Invalid user name PASS nvalid password ACCT internal processing error TIMEOUT Response timeout LINK Ethernet cable not connected FILE File access failed NOFD Internal processing error NOID Internal processing error PARAM Internal processing error CERT Certificate verification error SSL Encryption communication error Server type P S File name fixed to 51 characters including extension Unused character positions are filled with spaces 2 90 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 16 SNTP Time Adjustment Client Log FLog The output in response to the command FLog SNTP is shown below Syntax EA crlf yyyy mo dd hh mm ss nnn xxxxxxxxx crlf EN crlf yyyy mo dd hh mm ss Time of error occurrence yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 nnn Error code XXXXXXXXX Detailed code fixed
198. t the sender address to recorder1 data com and the recipient address to pc1 data com Add part1 to the subject SMailHead recorderl 8data com pcl8data com partl suaitBasic Common Section of the Mail Body Sets the items that are common to the body of all mails Syntax SMailBasic pl p2 pl Header string up to 128 characters UTF 8 p2 ime source URL Off On Query SMailBasic Example Set the header to recorder1 and include the source URL SMailBasic recorderl On Bsmail Destination and Behavior for Each Mail Type Sets the destination and behavior for each mail type Alarm Notification Syntax SMail pl p2 p3 p4 p5 p6 p1 Setting type Alarm p2 Recipient Off 1 2 1 2 Off Not send 1 Send to recipient 1 2 Send to recipient 1 142 Send to recipient 1 and 2 p3 Inclusion of instantaneous data Off On P4 Alarm action On Send mails when alarms occur On Off Send mails when alarms occur and when they are cleared IM 04L51B01 17EN 2 45 sesuodses pue spueuluio 2 H 2 4 Setting Commands p5 Inclusion of tag number or channel number in subject Off On Scheduled Transmission Syntax SMail pl p2 p3 pl Setting type Time p2 Recipient Off 1 2 1 2 p3 Inclusion of instantaneous data Off On Report Notification MT Syntax SMail pl p2 pl Setting type Report p2 Recipient Off 1 2 1 2 Media Alarm Notification Syntax SMail pl p2 p1 Setting type Media
199. ta recording 2 13 SEventData Event data recording 2 14 Recording Channel Setting Commands Page SRecDisp Channel for recording display 2 14 data SRecEvent Channel for recording event 2 14 SRecManual data Channel for recording manual 2 15 sampled data Batch Setting Commands Page SBatch Batch function 2 15 STextField Batch text 2 15 Data Save Setting Commands Page SDirectory Name of directory to save data2 16 SFileHead File header 2 16 SFileName File naming rule 2 16 SMediaSave Automatic data file saving 2 16 SFileFormat Display event data file format 2 16 I O Channel Al DI DO Setting Commands Page SRangeAI Measurement range of Al 2 17 channel SRangeAICurrent Measurement range of current2 18 input type Al channel SRangeDI Measurement range of DI 2 19 channel SRangeDO DO channel operation 2 19 SMoveAve Moving average 2 20 SBurnOut Behavior when a sensor 2 20 burns out SRjc Reference junction 2 20 compensation method SAlarmIO Alarm 2 21 SAlmHysIO Alarm hysteresis 2 22 SAlmDlyIO Alarm delay time 2 22 STagIO Tag 2 22 SColorIO Channel color 2 22 SZonelO Waveform display zone 2 22 SScaleIO Scale display GX GP 2 23 SBarIO Bar graph display 2 23 SPartialIO Partial expanded display 2 23 GX GP SBandlO Color scale band 2 23 SAlmMarkIO Alarm mark 2 24 SValuelO Upper lower limit display 2 24 characters SCalibIo Calibration correction 2 24 Math Channel Setting Commands Page SMathBasic Math action
200. the OSeriApply command Forthe communication commads that you can execute using a bar code reader see section 1 18 11 Setting USB Input Devices UH option in the Model GX10 GX20 GP10 GP20 Paperless Recorder User s Manual IM 04L51B01 01EN B svoaMaster Modbus Master C2 MC or C3 MC Sets the Modbus master operation Syntax SModMaster pl p2 p3 p4 p5 p6 pi Master function Off On p2 Read cycle 100ms 200ms 500ms 1s 2s 5s 10s 20s 30s 1min p3 Communication timeout 100ms 200ms 250ms 500ms 1s 2s 5s 10s 1min P4 Gap between messages Off 5ms 10ms 20ms 50ms 100ms p5 Recovery action retransmission Off 1 2 3 4 5 10 20 p6 Recovery action wait time Off 5s 10s 30s 1min 2min 5min Query SModMaster Example Set the read cycle to 500ms the communication timeout to 250ms the gap between messages to 10ms the retransmission to 2 and the recovery wait time to 5min SModMaster On 500ms 250ms 2 5min Fsmoamcma Modbus Master Transmission Command C2 MC or C3 MC Sets a transmit command of the Modbus master Syntax SModMCmd p1 p2 p3 p4 p5 p6 p7 p8 pl Command number 1 to 100 p2 Command type Off Disable command Write Write a value to a Modbus register of another device Read Read a value from a Modbus register of another device p3 Slave number 1 to 247 P4 Data type BIT Bit String data INT16 16 bit signed integer UINT16 16 bit unsigned integer INT32 B 32 b
201. the error number Syntax _ERR pl p2 Write the details of the negative response returned from the recorder in p1 p2 etc Example Output the error description when negative response E1 10 1 2 500 2 5 is returned ERR 10 1 2 500 2 5 Description e For the ASCII output format see page 2 107 E UNs or UNR Outputs the Instrument s Unit Configuration Information Outputs the instrument s unit configuration information Syntax UNS Outputs the status that is recognized by the device _UNR Outputs the installation status Description e For the ASCII output format see page 2 107 I ups or MDR Outputs the Instrument s Module Configuration Information Outputs the instrument s module configuration information Syntax MDS Outputs the status that is recognized by the device _MDR Outputs the installation status Description e For the ASCII output format see page 2 108 2 70 IM 04L51B01 17EN 2 9 2 9 1 2 9 2 Responses to Commands This section explains the responses that recorder returns in response to commands There are three types of responses affirmative response negative response and data output response Affirmative Response For commands other than output request commands If the recorder successfully completes the processing of a received command that is not an output request command it returns an affirmative response Syntax EOCRLF
202. the most recent I O channel math channel and communication channel data Syntax FData pl p2 p3 pl Output format 0 The most recent data in ASCII format 1 The most recent data in binary format p2 First channel p3 Last channel Example Output the most recent data of channels 0001 to 0020 in ASCII format FData 0 0001 0020 Description e f you omit p2 and p3 all channels will be output Channel ranges whose first channel and end channel are different channel types are interpreted as follows First Channel Last Channel Setting 0001 A100 0001 to 9999 A001 to A100 A001 C500 A001 to A100 C001 to C500 C001 A100 Not allowed will result in error A001 0001 Not allowed will result in error e For the ASCII output format see page 2 75 e For the binary output format see page 2 110 li rReiay Outputs the Most Recent Relay and Internal Switch Status Outputs the most recent relay DO Channel and internal switch status Syntax FRelay pl pl Output information 0 The most recent relay DO channel status in ASCII format 1 The most recent internal switch status in ASCII format Example Output the relay DO channel status FRelay 0 Description e For the output format see page 2 76 or page 2 78 FFifoCur Outputs Channel FIFO Data Outputs the I O channel math channel and communication channel FIFO data Acquire the FIFO Data Syntax FFifoCur pl1 p2 p3 p4 p5 p6 p7 p1 FIFO data output 0 p2
203. tion channel Syntax SScaleCom p1 p2 p3 pl Channel number p2 Scale display position Off 1 to 10 p3 Number of scale divisions 4 to 12 C10 Query SScaleCom p1 Example Display the communication channel 025 scale at display position 1 Display four equally spaced main scale marks SScaleCom 025 1 4 BspBarcom Bar Graph Display MC Sets the bar graph display of a communication channel Syntax SBarCom p1 p2 p3 pl Channel number p2 Bar display base position Lower Lower Center Center Upper Upper p3 Number of scale divisions 4 to 12 Query SBarCom p1 2 30 IM 04L51B01 17EN 2 4 Setting Commands Example Display the values of communication channel 025 on a bar graph with the center set as the base position Center Display four equally spaced main scale marks SBarCom 025 Center 4 EsPartialCom Partial Expanded Display MC GX GP Sets the partial expanded display of a communication channel waveform Syntax SPartialCom p1 p2 p3 p4 pl Channel number p2 Partial expanded On Off On Off p3 Partial expanded boundary position 1 to 99 P4 Partial expanded boundary value Query SPartialCom p1 Example For channel 025 whose measurement range is 0 to 1 0000 V display the measured value of 0 7500 V at the 50 position SPartialCom 025 0n 50 7500 Description e You cannot set this on a Off channel p2 is fixed to Off e f p2 Off you cannot set p3 or subsequent parameters e P2 On
204. to 500 GM10 2 1 to 1000 Number of GX10 GP10 GX20 1 GP20 1 1 to 50 channels for GX20 2 GP20 2 1 to 100 recordin manual abe OMO oe GM10 2 1 to 100 data Number of GX10 GP10 1 to 50 report channels GX20 GP20 1 to 60 GM10 1 to 60 Number of GX10 GP10 1 to 30 display groups GX20 1 GP20 1 1 to 50 GX20 2 GP20 2 1 to 60 GM10 1 1 to 50 GM10 2 1 to 60 Number of GX10 GP10 10 channels GX20 GP20 20 that can be registered to display groups GM10 20 Type Notation and Range of Values GX GP No expandable I O 0 Unit number Expandable 1 O installed 0 to 6 Modbus server GX10 GP10 GX20 1 GP20 1 1 to 16 setting number GX20 2 GP20 2 1 to 32 GM10 1 1 to 16 GM10 2 1 to 32 Modbus GX10 GP10 1 to 50 command GX20 1 GP20 1 1 to 100 number GX20 2 GP20 2 1 to 200 Ethernet GM10 1 1 to 100 GM10 2 1 to 200 Modbus GX10 GP10 1 to 50 command GX20 GP20 1 to 100 number serial GM10 1 to 100 communication GX GP When the unit is GX10 GP10 0 to 2 Module number When the unit is GX20 GP20 0 to 9 When the unit is an 0 to 6 expandable I O GM No sub unit 0 Unit number Sup unit installed 0 to 6 GM Main unit 0 to 9 Module number Sub unit 0 to 6 Al channel Specify as unit number module DI channel number channel DO channel Example The AI channel whose unit number is 0 module number is 1 and channel number is 02 i
205. ts to display for scale values Normal Normal Fine Fine p2 Current value display Mark Mark Bar Bar graph p3 Number of digits to display for channels that are added to the current value mark 0 digit 0 digits not show channel numbers 3 digit 3 digits 4 digit 4 digits Query STrdScale Example Set the number of digits to display for scale values to Fine display the value indicators on a bar graph and set the number of digits to display for channels that are added to the current value mark to 4 digits StrdScale Fine Bar 4 digit EsrraLine Trend Line Width Grid GX GP Sets the trend waveform line width and the grid in the display area Syntax STrdLine pl p2 pl Line width Thick Thick Normal Normal Thin Thin p2 Grid Auto Auto 4 to 12 Number of grid lines Query STrdLine Example Set the trend waveform line width to Thin and the number of grid lines to 10 StrdLine Thin 10 J STrdRate Trend Interval Switching GX GP Sets the trend interval switching Syntax STrdRate pl p2 p1 Trend interval switching Off Not switch On Switch p2 Second trend interval 5s 10s 15s 30s 1min 2min 5min 10min 15min 20min 30min 1h 2h 4h 10h Query STrdRate Example Set the second trend interval to 30 seconds STrdRate On 30s Description You cannot set parameter p1 while recording is in progress You cannot set parameter p1 while computation is in progress p2is valid only when p1
206. tteee Example Data Time 2012 03 13 10 25 28 sseee sseee sseee sseee No nn nn Data timestamp only for add messages Not output for other messages The format is the same as the time section of the FLog command output Type Client Master Data type Data Report ManualSample AlarmSummary All for all data Cancel if canceled Text field number IM 04L51B01 17EN 2 95 s suods y pue spuewwog H 2 10 ASCII Output Format Operation Event string Display update rate ChgRate change Timer reset TimerRST Match time timer MTimerRST reset Communication WriteComm channel write screen operation only DO channel write for WriteDO manual operation screen operation general communication command only SW channel write for manual operation screen operation general communication command only Settings saved WriteSW SavetHHHHHHHHE Settings loaded Load HHHHHHHHBE information and detailed information sseee sseee Trend interval string Example 1min div Timer tte s tteee Timer number ALL for all timers Timer tte s tteee Timer number ALL for all timers kke s CCCC ddees kkeee Write type Internal External C Communication channel dde Value Example Internal C001 1 234 CCCC ddees C DO channel dde Value ON OFF Example 0901 0FF CCCC ddees C Internal switch dde Value ON OFF Example S001 0N Save type output in t
207. ttings Applicable Models OIPApply Applies the IP address 2 66 FData oo the most recent channel 2 58 OInit Clears measured data aid 2 66 h T dnas initializes setting data FRelay Outputs the most recent relay an A aH T infamal switch status OUsbFApply n ia cpn 2 66 FFifoCur Outputs channel FIFO data 2 58 OBTApply Applies Bluetooth communication 2 66 FSnap Takes a snapshot GX GP 2 58 settings C8 GM IM 04L51B01 17EN 2 7 sesuodses pue spuewwog H 2 2 List of Commands OBTClearList Clears the Bluetooth connection 2 67 list C8 GM OLoginAssistAssists login GX GP 2 67 OSendValue Assists touch panel operation 2 67 Input GX GP OUserLockACK User locked ACK AS 2 67 OKeyLock Key lock on off GM 2 67 OErrorClear Clears the error display GM 2 67 2 24 Communication Control Commands Command Description Page Required Options Applicable Models CCheckSum Sets the checksum 2 68 CSFilter Sets the status filter 2 68 CLogin Log in via communication 2 68 CLogout Log out via communication 2 68 CBTConnect Starts Bluetooth communication 2 68 C8 GM ESC O Opens an instrument RS 422 2 69 485 command ESC C Closes an instrument RS 422 2 69 485 command 2 2 5 Instrument Information Commands Command Description Page MFG Outputs the instrument 2 70 manufacturer _INF Outputs the instrument s product 2 70 name COD Outputs the instrument s basic 2 70 specifications
208. uding current input type Al modules Syntax SModeAI p1 p2 p3 p4 p1 Unit number p2 Module number p3 Mode 2CH 2 channel mode 10CH 10 channel mode p4 AD integration time Auto 50Hz 60Hz Common IM 04L51B01 17EN 2 11 2 4 Setting Commands Query SModeAI p1 p2 Example For the module installed in the main unit whose module number is 2 set the mode to 10CH and the AD integration time to Auto SModeAI 0 2 10CH Auto Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress Scanintervals shorter than 1 s cannot be specified if an electro magnetic relay type Type suffix code T1 analog input module is in use set up Fixed to 10 channel mode if an electro magnetic relay type or low withstand voltage relay type analog input module is in use You can set the parameters in the following combinations Scan Mode Integration time p4 Interval p3 Auto 50Hz 60Hz X Common 100ms 2CH Yes Yes Yes No 10CH Yes No No No 200ms 2CH Yes Yes Yes No 10CH Yes No No No 500ms Yes Yes Yes No 1s Yes Yes Yes Yes 2s Yes Yes Yes Yes 5s Yes Yes Yes Yes No if low withstand voltage relay type analog input module is in use I smodeAiCurrent Current Input Type Al Module Sets the mode and A D integration time of an current input t
209. ue rms voltage Urms 2 1 UMN Rectified mean voltage calibrated to Umn the rms value IRMS True rms current Irms IMN Rectified mean current calibrated to Imn 2 the rms value P Active power P S Apparent power S LAMBda Power factor AX PHI Phase difference Q2 WH Sum of positive and negative watt WP 2 hours WHP Sum of positive P consumed watt WP hours WHM Sum of negative P watt hours WP 2 returned to the power supply AH Sum of positive and negative q ampere hours AHP Sum of positive ampere hours q 2 AHM Sum of negative ampere hours q 2 Continued on next page App 8 IM 04L51B01 17EN Appendix 6 Data Group Name and Data Name for WT Communication Data group name Data name Description WT Function mark Other ETA1 Efficiency 1 n1 ETA2 Efficiency 2 n2 ETA3 Efficiency 3 n3 ETA4 Efficiency 4 n4 F1 User defined function 1 F1 F2 User defined function 2 F2 F3 User defined function 3 F3 F4 User defined function 4 F4 F5 User defined function 5 F5 F6 User defined function 6 F6 F7 User defined function 7 F7 F8 User defined function 8 F8 F9 User defined function 9 F9 F10 User defined function 10 F10 F11 User defined function 11 F11 F12 User defined function 12 F12 F13 User defined function 13 F13 F14 User defined function 14 F14 F15 User defined function 15 F15 F16 User defined function 1
210. up number p2 Enable or disable Off On p3 Group name up to 16 characters UTF 8 P4 Channel string Specify using channel numbers 4 digit numbers for I O channels Numbers that start with A for math channels A015 Numbers that start with C for communication channels C020 The maximum number of characters per channel is 4 Use periods to separate channel numbers see example SGroup pl The channel string is output exactly as it is specified Example Assign channels 0001 0003 0005 A001 and C023 to group 2 and name it GROUP A SGroup 2 On GROUP A 1 3 5 A1 C23 stripline Display Group Trip Line Sets a trip line for a display group Syntax STripLine pl p2 p3 p4 p5 p6 p7 p8 pl Group number p2 Trip line number 1 to 4 p3 Enable or disable Off On P4 Display position 1 to 100 p5 R value of RGB display colors 0 to 255 Query p6 G value of RGB display colors 0 to 255 p7 B value of RGB display colors 0 to 255 p8 Line width GX GP Thin Normal Thick GM Normal Thin Thin Normal Normal Thick Thick Query STripLine pl p2 Example Display trip line 2 using a thick line in red at the 80 position of group 2 STripLine 2 2 0n 80 255 0 0 Thick Description p4and subsequent parameters are valid only when p3 On e For details on RGB values see Description of the SColorlO command IssciBmp Scale Bitmap Image Usage GX GP Sets whether to displ
211. utation stops when recording stops Query SMathBasic Example Set the indication on computation error to Over computation when overflow data is detected to Skip and start computation when recording starts SMathBasic Over Skip Skip Start Stop Description e You cannot use this command to configure settings while recording is in progress e You cannot use this command to configure settings while computation is in progress e pd and p6 are invalid parameters for the GX GP IsKconst Constant MT Sets a constant for use in computations Syntax SKConst p1 p2 pl p2 Constant number 1 to 100 Value 9 9999999E 29 to 1E 30 0 1E 30 to 9 9999999E 29 eight significant digits Query SKConst p1 Example Set constant number 12 to 1 0000E 10 SKConst 12 1 0000E 10 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress BsRangeMath Computation Expression MT Sets the computation expression of a math channel Unused Channels Syntax SRangeMath pl p2 pi p2 Channel number Computation expression on off Off Used Channels Syntax SRangeMath p1 p2 p3 p4 p5 p6 p7 p8 pl p3 Channel number Computation expression on off On Math channel type Normal Expression up to 120 characters ASCII Decimal Place 0 to 5 Span lower lim
212. uuuuuu DEFGHIJK U U O5f cccceccccccccccc uuuuuuuuuuuuuuuu DEFGHIJK 06f ccccccccccccccce uuuuuuuuuuuuuuuu DEFGHIJK Unit nn 00 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 01 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 02 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 03 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 04 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 05 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 06 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 07 ccccccccccccccceo uuuuuuuuuuuuuuuu defghij 08 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 09 cccccccccccccccec uuuuuuuuuuuuuuuu defghij Unit nn 00 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 01 ccccccccccccccceo uuuuuuuuuuuuuuuu defghij 02 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 03 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 04 cccccccccccccccc uuuuuuuuuuuuuuuu defghij 05 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 06 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 07 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 08 cccccccccccccccc uuuuuuuuuuuuuuuu defghij 09 ccccccccccccccco uuuuuuuuuuuuuuuu defghij Unit nn 00 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 01 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 02 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 03 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 04 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 05 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 06 ccccccccccccccco uuuuuuuuuuuuuuuu defghij 07 ccccccccccccccce uuuuuuuuuuuuuuuu defghij 08 cccccccccccccccc uuuu
213. uuuuuuuuuuuu defghij 09 ccccccccccccccco uuuuuuuuuuuuuuuu defghij EN crlf KJ K 1 KJ KJ K 1 Kl K J K 1 KJ KJ K 1 K J K 1 K 1 KJ K J K 1 KJ KJ K J KJ K KJ K 1 KJ KJ KJ KJ K J Imnopqrs crl Imnopqrs lt cr lmnopqrs lt cr Imnopqrs crl Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr lmnopqrs lt cr Ilmnopqrs lt cr lmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr lmnopqrs lt cr Ilmnopqrs lt cr lmnopqrs lt cr Ilmnopqrs lt cr Ilmnopqrs lt cr Imnopqrs lt cr Imnopqrs crl Ilmnopqrs lt cr Ilmnopqrs lt cr Imnopqrs crl Imnopqrs lt cr Ilmnopqrs lt cr Imnopqrs lt cr K J Ilmnopqrs lt cr f Lf f f Lf f f f f f MMNOPORS crlf MNOPORS crlf MMNOPORS crlf MNOPORS crlf MNOPORS crlf MNOPORS crlf MNOPORS crlf f f f f f f f Lf f Lf f Lf f f f f f Lf f f Lf Lf f Lf Lf f Lf f f f 2 102 IM 04L51B01 17EN 2 10 ASCII Output Format Output example when an expandable I O or sub unit is connected The unit information area e g U00 will contain the expansion module name All seven units are output regardless of whether expansion modules are available The module information area after Unit will contain I
214. vice you want to connect to Example Connect to the device whose Bluetooth password is PaSswoRD2 CBTConnect PaSswoRD2 Description This command is valid only when a Bluetooth password request has been received via Bluetooth communication If the command is invalid error 352 Unknown command will occur 2 68 IM 04L51B01 17EN 2 Communication Control Commands esc O Opens an Instrument RS 422 485 Command Starts communication with the recorder ESC in ASCII code is 0x1B For details see Appendix 1 Syntax ESC O pl Space p1 Instrument address 01 to 99 Example Open the instrument at address 99 ESC O 99 Description e Specify the address of the instrument that you want to communicate with e You can only open one instrument at any given time e Use a capital O e For this command use CR LF for the terminator e For the responses to this command see page 2 74 esc C Closes an Instrument RS 422 485 Command Ends communication with the recorder ESC in ASCII code is Ox1B For details see Appendix 1 Syntax ESC C pl _ Space p1 Instrument address 01 to 99 Example Close the instrument at address 77 ESC C 77 Description This command closes the connection to the instrument you are communicating with e Use a capital C e For this command use CR LF for the terminator e For the responses to this command see page 2 74 IM 04L5
215. want to set the span lower limit to 0 5000 V and the span upper limit to 1 8000 V set the parameters to 5000 and 18000 respectively SRangeAI 0001 VOLT 2V FF 5000 18000 0 Scaling Scaling is possible on Al and DI channels Scaling is specified by a mantissa and decimal place Example To set the scaling to 10 00 to 20 00 set the scaling lower limit to 1000 scaling upper limit to 2000 and the decimal place to 2 The decimal place value represents the number of digits to the right of the decimal point Math Channel and Communication Channel Span Set the span of math channels and communication channels using a mantissa and decimal place Example To set the span to 1 000 to 2 000 set the scaling lower limit to 1000 scaling upper limit to 2000 and the decimal place to 3 2 3 2 Parameter Notation and Range The table below shows the principle parameter notations and ranges of values Type Notation and Range of Values Communication GX10 GP10 001 to 050 channel GX20 1 GP20 1 001 to 300 GX20 2 GP20 2 001 to 500 GM10 1 001 to 300 GM10 2 001 to 500 For SGroup and SMailAlarm commands insert C in front Example C001 Number of GX10 GP 10 001 to 100 channels for GX20 1 GP20 1 001 to 500 recording GX20 2 GP20 2 001 to 1000 display data GM10 1 1 to 500 GM10 2 1 to 1000 Number of GX10 GP 10 001 to 100 channels for GX20 1 GP20 1 001 to 500 recording event GX20 2 GP20 2 001 to 1000 data GM10 1 1
216. while recording is in progress You cannot use this command to configure settings while computation is in progress f p2 Off you cannot set p3 You cannot set a channel more than once Ispatch Batch Function Configures the batch function s basic settings Syntax SBatch pl p2 p3 pl Enable or disable Off On p2 Number of lot number digits Off 4 6 8 Off Do not use lot numbers 4 4 digit lot number 6 6 digit lot number 8 8 digit lot number p3 Auto increment Off On Query SBatch Example Enable the batch function Use 4 digit lot numbers Automatically increment the lot number in the next operation SBatch On 4 On Description You cannot use this command to configure settings while recording is in progress IstextField Batch Text Sets a batch text Syntax STextField p1 p2 p3 p1 Field number 1 to 24 p2 Title up to 20 characters UTF 8 p3 Character string up to 30 characters UTF 8 Query STextField p1 Example For field number 3 set the field title to OPERATOR and the character string to RECORDERI1 STextField 3 OPERATOR RECORD ER1 Description You cannot use this command to configure settings while recording is in progress IM 04L51B01 17EN 2 15 sesuodses pue spueuiuio 2 H 2 4 Setting Commands lspirectory Name of Directory to Save Data Sets the name of the directory to save data Syntax SDirectory pl pl Directory na
217. y 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 zzz Event cause KEY Touchscreen operation key operation REM Remote COM Ethernet communication SER Serial communication RS 232 RS 422 485 USB communication or Bluetooth ACT Event action SYS System EXT Operation from an external device e g Modbus WEB Operation from web pages GM only when the advanced security function AS is enabled SSS S Event string fixed to 16 characters Unused character positions are filled with spaces See section 2 10 19 Detail Event Log Output FEventLog AS uuu u User name fixed to 20 characters Unused character positions are filled with spaces 2 10 11 Error Log FLog The output in response to the command Syntax EA crlf EN crlf FLog ERROR is shown below yyyy mo dd hh mm ss nnn uuu u crlf yyyy mo dd hh mm ss Time of error occurrence yyyy Year 1900 to 2099 mo Month 01 to 12 dd Day 01 to 31 hh Hour 00 to 23 mm Minute 00 to 59 ss Second 00 to 59 nnn Error code 001 to 999 uuu u Error message fixed to 80 characters Unused character positions are filled with spaces 2 86 IM 04L51B01 17EN 2 10 ASCII Output Format 2 10 12 Address Setting Log FLog The output in response to the command FLog DHCP is shown below Syntax EA crlf yyyy mo dd hh mm ss kkk k mmm m crlf EN crlf yyyy mo dd hh mm ss Ti
218. y data IO I O channel Math Math channel Com Communication channel p3 Channel number Query SRecDisp p1 Example Assign the display data of I O channel 0005 to number 10 and record SRecDisp 10 10 0005 Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress f p2 Off you cannot set p3 There is a limit to the number of recording channels depending on the recording interval SDispData command Recording Number of Recording Channels Interval 5 s div 100 10 s div 200 15 s div or higher 500 For the large memory type GX20 2 GP20 2 GM 10 2 the following table applies Recording Number of Recording Channels Interval When recording only When recording display display data data and event data 5s div 200 100 10s div 500 200 15s div 1000 500 30s div or 1000 1000 more You cannot set a channel more than once snecEvent Channel for Recording Event Data Sets the channel for recording event data Syntax SRecEvent p1 p2 p3 p4 pl Scan group 1 p2 Number see Description p3 Channeltype Off Do not record event data IO I O channel Math Math channel Com Communication channel p4 Channel number Query SRecEvent pl p2 Example Assign the event data of I O channel 0006 to number 11 and record SEventData 1 11 10 0006
219. y data timeout divide files 4 Cause an event data timeout divide files Example Execute manual sampling OExecRec 0 Description Manual trigger p1 1 cannot be executed when the advanced security function AS is enabled famanual sample is executed p1 0 when there are no source channels for manual sampling a file without any source channels will be created BloExecs NTP Queries the Time Using SNTP Queries the time using SNTP Syntax OExecSNTP p1 pl Time query execution 0 Example Query the time using SNTP OExecSNTP 0 Tomessage Message Writing Writes a message Write a Preset Message Syntax OMessage pl p2 p3 pl Action type PRESET p2 Message number 1 to 100 p3 Display group number ALL Write to all display groups 1 to 60 Write to specified groups You can specify multiple groups at once To do so separate display groups with a colon Example Write the message in preset message number 8 to display groups 1 and 2 2 62 IM 04L51B01 17EN 2 6 Operation Commands OMessage PRESET 8 1 2 Write a Free Message OMessage pl p2 p3 p4 pl Action type FREE p2 Message number 1 to 10 Syntax p3 Display group number ALL Write to all display groups 1 to 60 Write to specified groups You can specify multiple groups at once To do so separate display groups with a colon P4 Message string to write up to 32 characters UTF 8 Example Write a free message
220. y function AS is enabled IM 04L51B01 17EN 2 33 sesuodses pue spueuluio 2 H 2 4 Setting Commands Conditions p7 p8 p9 p10 p6 Action Type Value Source Action Action Element Detail 1 Detail 2 Number Rising Recording Memory Start Falling Stop Edge Reset Math math channel Math Start Stop Reset Display rate switch RateChange 1 2 GX GP Flag Flag 1 to 20 Manual sample ManualSample DO output DO Channel Off On number Output to an internal SW Channel Off On switch number Alarm ACK AlarmACK Snapshot GX GP Snapshot Time adjustment TimeAdjust Display data save SaveDisplay Event data save SaveEvent 1 Event trigger Trigger 1 Message Message 1to 100 All Select 1 to 50 1to 60 for GX20 2 GP20 2 GM10 2 Display group GroupChange 1 to 50 change GX GP Relative timer reset TimerReset 1to4 Settings load ConfigLoad 1 to 10 Settings save GM ConfigSave 1 to 10 Favorite screen PlayList 1 to 20 display GX GP Both Recording start stop MemoryStartStop Math start stop MathStartStop Display rate switch RateChange1_2 10r2 1 2 GX GP Flag On Off FlagOn_Off 1 to 20 DO On Off DOOn_Off Channel number Internal switch SWOn Off Channel on off number 1 Can be output only to DO whose type is set to Manual 2 Can be output only to SW whose type is set to Manual 3 Valid when the advanced security function AS is
221. ype Al module Syntax SModeDICurrent pl p2 p3 p4 pl Unit number p2 Module number p3 Mode 2CH 2 channel mode 10CH 10 channel mode p4 AD integration time Auto 50Hz 60Hz Common Query SModeAlCurrent pl p2 Example For the module installed in the main unit whose module number is 2 set the mode to 10CH and the AD integration time to Auto SModeAICurrent 0 2 10CH Auto Description You cannot use this command to configure settings while recording is in progress You cannot use this command to configure settings while computation is in progress There are limitations on the allowable combinations of scan interval and p3 and p4 See the explanation for the SModeAl command BsBotmtal Upper and Lower Burnout Limits of Al Module Sets the burnout limits for the general signal range of an Al module excluding current input type Al modules Syntax SBOLmtAI p1 p2 p3 p4 pl Unit number p2 Module number p3 Lower burnout limit for the general signal range Percentage of the specified span 20 0 to 5 0 p4 Upper burnout limit for the general signal range Percentage of the specified span 105 0 to 120 0 Query SBOLmtAI p1 p2 Example For the module installed in the main unit whose module number is 2 set the lower burnout limit for the general signal range to 10 and the upper burnout limit for the general signal range to 11096 SBOLmtAI 0 2 10 0 110 0 spoLmtAlCurrent Upper and Lower Burnou
222. zed display screen Display p2 Display group number Multi panel registration number 1 to 20 when p1 Multi Custom display number 1 to 30 when p1 CustomDisplay Query SHomeKind Example Set the standard screen to trend of display group 1 SHomeKind Trend 1 Description Report is an option MT e Modbus M and Modbus C are an option MC Watt is an option E2 e CustomDisplay is an option CG Multi is a GX20 GP20 display EsravoriteMonitor Favorite Screen Display Information GX GP Sets the favorite screen display information SFavoriteMonitor pl p2 p3 pl Favorites number 1 to 20 p2 Information type see the table of the SMonitor command p3 Status see the table of the SMonitor command Query SFavoriteMonitor pl p2 Example Set the trend display to all channel display SFavoriteMonitor 1 Trend All I sFavoriteKind Favorite Screen GX GP Set the favorite screen Syntax Syntax SFavoriteKind p1 p2 pl Favorites number 1 to 20 p2 Enable or disable Off On p3 Screen type see p1 of the SHomeKind command P4 Display group number multi panel registration number if p3 Multi custom display number if p3 CustomDisplay p5 Favorite screen name up to 16 characters UTF 8 Query SFavoriteKind pl Example Register the trend display of display group 2 to favorites screen number 1 Set the screen name to Favorite01 SFavoriteKind 1 On Trend 2 Favori te01
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