SR10000 Communication Interface User`s Manual
Contents
1. Ic n I anm rnt COMM S EIE Select the address value III Select the baud rate Zi IZ III e m L i L Select the data length Fite oc Select the parity Een Iu Tr lect the protocol ee rn el Salectihe p A Protocol 7 LI i i lr The settings are activated SG I I g OK 4 Ifyou are done press the ESC key 5 Toreturn to the Operation mode 1 Press the Esc key use the A or S7 key to select 4 d and press the key 2 Press the A or 7 key to select 5b or E or Abe E and press the 2 key IM 04P03B01 17E 3 5 Setting the Serial Interface Explanation Address Select the address from the following range 01 to 32 Baud rate Select the baud rate from the following 1200 2400 4800 9600 19200 or 38400 Data length Select the data length from below To output data in BINARY format be sure to set the data length to 8 bits 70r8 Parity Parity check method Select the parity check from the following Odd dd Even E HE ol or None pra me Protocol Select the protocol when using the Modbus slave protocol NORMAL or ol Standard protocol MODBUS _ 1 5 Modbus slave protocol Saving the Settings To activate the settings made in the Basic Setting mode the settings must be saved IM 04P03B01 17E uondo 9 e2ejyieyu uoneoiunuiuio cgr vzer SsH eui Buisn B Chapter 4 Commands 4 1 Command Sy2. esses 3 1 Terminal Arrangement and Signal Names and the Connection Procedure of the RS 422A 485 Communication Interface esses eene nennen nnn 3 2 Terminal Arrangement and Signal Names sse 3 2 Connection Procedure 6 rie acte m Eee e Dea ee a e e ELT Ge es 3 2 Connection Example with a Host Computer 3 3 The Bit Structure of One Character and the Operation of the Receive Buffer 3 7 The Bit Structure of One Character ssssssssssseeeeen eene menn 3 7 Receive Buffer and Received Data 3 7 Modbus Slave Protocol Specifications eee eee nnne 3 8 Ke ECHTEN 3 9 Modbus Error Response eeesssseeseseeene enne enne eren nennen nennen 3 9 Setting the Serial Interface eee eese esee en eene tnn unten tnnt anne nennt 3 10 IM 04P03B01 17E Contents Chapter 4 Commands 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 4 10 Command Synt ax s niii nee atit eie tede need ter idet estie redeat 4 1 RESPONSC sash EIC 4 2 A Listof Commands otii cecacdeccecedi needed erede eie cr tenores 4 3 Execution Modes and User Levels AAA 4 3 Setting COMMANA EE 4 3 Basic Setting COMMANA Siia iniia a a a a aa 4 4 Control Commands iu iei e epu E Qr ane isse pride ir og 4 5 Output Gommands 2 2 pe RR ROUEN OPEM 4 5 RS 422A 485 Dedicated Commande A 4 5 Maintenance Test Commands AAA 4 5
3. The following figure illustrates the case when the host computer s interface is RS 232 Host computer Terminator externally attached 120 Q 1 2 W or more Terminator externally attached RS 422A 485 RS 232 terminal on the Recorder N N SDA N N RD O f Sb B A i RD O B REX B TD O za TD O SHIELD SG d Converter AN SG EN SG A Do not connect terminator to 1 to n 1 Note 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 with a capacitor connected in series on one side is effective Consider these possibilities to eliminate noise When using the two wire type 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 Serial Interface Conve
4. 4 19 sub delimiter subnet mask sum value Switches the channel 4 20 switches TT EE 4 20 SV MAX ao 4 1 T Page 18g nct T Eee errr cere errr 4 13 temperature unt 4 16 terminator etre esee de d tace ec eee 3 6 4 2 time printout format ssssseeeeenn 4 16 timeout types of responses user information output seeeeeeee 5 10 user level eie en et eo eee tte ttes p rto e ERA 4 3 EE 2 9 user registration a cista ten te teen nate 2 7 Z Page zone recording sssssessseeeeeeeee eene nne 4 12 IM 04P 01B01 17E Index 3 x pul
5. Spuewwog D Chapter 5 Responses 5 1 Response Syntax The following table shows the types of responses for various commands described in the previous chapter The recorder returns a response affirmative negative response to a command that is separated by a single terminator The controller should follow the one command to one response format Function Command Response Command Type Affirmation Negation Setting command i Setting Measurement g Affirmative SG response response server Basic setting command Control command or Setup and measured tout Multiple Output data output ASCII outpu negative command BINARY output responses RS 422A 485 dedicated Dedicated response No response Maintenance Test Server See section 4 9 Instrument Information server See section 4 10 Note The CRLF used in this section denotes a terminator Affirmative Response When the command is processed correctly an affirmative response is returned Syntax E0 CRLF Example EO Single Negative Response When the command is not processed correctly a single negative response is returned Syntax EI nnn mmmeeemCRLF nnn Error number 001 to 999 mmme e em Message variable length one line Space Example E1 001 System error Multiple Negative Responses If there is an error in any one of the multiple commands that are separated by sub delimiters multip
6. Setthe IP address to assign to the recorder The default value is 0 0 0 0 The IP address is used to distinguish between the various devices connected to the Internet when communicating using the TCP IP protocol The address is a 32 bit value expressed using four octets each 0 to 255 each separated by a period as in 192 168 111 24 Subnet mask to et Specify the mask that is used to determine the network address of the subnet from the IP address The default value is 0 0 0 0 Setthis value according to the system or the network to which the recorder belongs In some cases this setting may not be necessary Default Gateway t to 4 Setthe IP address of the gateway router etc used to communicate with other networks The default value is 0 0 0 0 Setthis value according to the system or the network to which the recorder belongs In some cases this setting may not be necessary Saving the Settings To activate the settings made in the Basic Setting mode the settings must be saved IM 04P03B01 17E uondo 29 e2ejieiu 19u18u13 eui Busy H 2 5 Checking the Connection Status The connection is located to the status of the Ethernet interface can be confirmed with the indicator that left of the Ethernet port on the recorder Indicator Connection Status of the Ethernet Interface ON Green The Ethernet interface is electrically connected Blinking Green
7. BINARY header BINARY data BINARY footer Note The FIFO acquiring interval must be set using the FR command beforehand The FIFO acquiring interval applies to both serial and Ethernet communications IM 04P03B01 17E App 3 xipueddy H Appendix 3 Login Procedure When using the Setting Measurement server or the Maintenance Test server via the Ethernet interface C7 option you must log into the recorder from the PC If you complete the procedure successfully up to login complete in the following figure the commands in chapter 4 become functional When using the login function No ithin the number of connectionst No Yes Entered Increment retry count E1 401 Password Cwait 5s gt No No No No Within the number of simultaneous uses ttt erification match Hes Login complete mbe 142 M Start lt gt Judgment End C 2 Transition User entry Response from the uR message omitted For a description of the response format see section 5 1 ai Code for a description of codes and messages see the SR10000 User s Manual t Connections cannot exceed the maximum number of connections see section 2 1 TT f you attempt to log in using a wrong password four consecutive times the communication is dropped the number of retries for login is three Tff f you attempt to log in causing the number of simultaneous uses at the administrator or user level to
8. Positive over data error data and the burnout data when up is specified are positive Negative over data and the burnout data when down is specified are negaitive 5 8 IM 04P03B01 17E 5 2 Output Format of ASCII Data ddddd Mantissa 00000 to 999989 5 digits Forerror data channel data status is E over data channel data status is O or burnout data channel status data is B the mantissa is set to 99999 2 Sign of exponent pp Exponent 00 to 04 Space Example EA DATE 99 02 23 TIME 19 56 32 500 N 001h mv 12345E 03 N 002 mV 12345E 01 S 003 EN Note Data for non existing channels are not output not even the channel number For channels set to skip output values from alarm status to exponent are spaces IM 04P03B01 17E 5 9 sosuodseyu H 5 2 Output Format of ASCII Data Status Information User Information D The IS command is used to output the data The operation status of the recorder is output For details on the status information see section 6 2 The Bit Structure of the Status Information Syntax EACRLF ddd ccc bbb aaaCRLF ENCRLFE aaa Status information 1 000 to 255 bbb Status information 2 000 to 255 ccc Status information 3 000 to 255 ddd Status information 4 000 to 255 Example D EA 000 000 032 000 EN The FU command is used to output the data User name user level and other information are output Syn
9. SDA Send Data A Send data A RDB Received Data B Receive data B RDA Received Data A Receive data A Connection Procedure Cable Use the cable that meets the conditions below Item Conditions Cable Shielded twisted pair cable 3 pairs AWG24 14 Four wire system 2 pairs 24 AWG or more Two wire system Characteristic impedance 100 Q Capacitance 50 pF m Cable length Up to 1 2 km The transmission distance of the RS 422A 485 interface is not the straight line distance but rather the total length of the shielded twisted pair cable Connecting the Cable As shown in the following figure attach a crimp on lug with isolation sleeves for 4 mm screws to the end of the cable Keep the exposed section from the end of the shield within 5 cm Four wire system Two wire system Shield d d Shield SDA SDA SDB SG dde 2 R A RDA RDB F O Electric O Electric Q potential of Q potential of the shield the shield 3 2 IM 04P03B01 17E 3 2 Terminal Arrangement and Signal Names and the Connection Procedure of the RS 422A 485 Communication Interface A WARNING To prevent the possibility of electric shock connect the cables with the power turned OFF Note 5 LLL Connect the RD pin to the SD TD pin on the PC converter end and the SD pin to the RD pin on th
10. TCP connects Total number of connections established TCP closed Total number of dropped connections TCP timeoutdrop Total number of dropped connections due to TCP retransmission timeout When the transmitted packet the unit of transmitted data is not received the packet is automatically retransmitted at a predetermined time interval If the packet is not received after 14 retransmissions timeout occurs and the connection is dropped TCP keepdrops Total number of dropped connections due to TCP keepalive timeout TCP sndtotal Total number of transmitted packets TCP sndbyte Total number of transmitted bytes TCP sndrexmitpack Total number of retransmitted packets TCP sndrexmitbyte Total number of retransmitted bytes TCP rcvtotal Total number of received packets TCP rcvbyte Total number of received bytes DLC 16 collisions Number of collision incidents A collision occurs when two or more instruments on the network attempt to transmit simultaneously The tendency for collisions to occur increases when the network is congested 16 collisions would mean 16 consecutive collision incidents EE E quit Disconnects the connection of ABUS denadvopa ud the instrument being operated APP diagdrops 20 quit lt terminator gt APP ftpsdrops 0 TCP keepalive 30s TCP connects 14 TCP closed 0 TCP timeoutdrop 0 TCP keepdrops 0 TCP sndtotal 53 TCP sndbyte 0 TCP sndrexmitpack 0
11. Ee I OK Press the lt key to register other users If you are done press the ESC key To return to the Operation mode 1 Press the Esc key use the A or 7 key to select d and press the 2 key 2 Press the A or Q key to select 5t or E or key tor E and press the 2 8 IM 04P03B01 17E 2 6 Registering Users Explanation You can limit the users that can access the Setting Measurement and Maintenance Test servers on the recorder via the Ethernet interface Enabling Disabling the Login Function Enable 1j E Disable mit Registering Users e User Level Select administrator D de 111 Or user 1 5 to ty Administrator One administrator can be registered An administrator has the authority to use all Setting Measurement server and Maintenance Test server commands of the recorder User Six users can be registered A user has limited authority to use the commands See section 4 2 nm uw TT Selecting Whether to Register occ iot E the User When registering a user set the user name and password User name mn Dot Setthe user name using up to 16 alphanumeric characters Use ASCII character codes for the characters For the characters that can be used see appendix 1 The same user name cannot be registered Since the word quit is reserved as a command on the recorder the user name quit is not allowed Password DOG Enter the pas
12. TCP sndrexmitbyte 1 TCP rcvtotal 0 TCP rcvbyte 0 DLC 16 collisions 0 EN 4 24 IM 04P03B01 17E 4 10 Instrument Information Output Commands 4 10 Instrument Information Output Commands Available when using the instrument information server function via Ethernet communications The instrument information server function interprets one UDP packet to be one command and returns a single packet containing the recorder s information in response to the command Port number 34264 udp see section 2 1 Transfer data ASCII Received buffer length 128 Transmit buffer length 512 Maximum number of parameters 32 Parameter serial host ip Example In the command packet parameters corresponding to the desired information are placed one after another Description Outputs the serial number Outputs the host name the host name specified in section 2 3 Outputs the IP address the IP address specified in section 2 3 Query the IP address and host name Of the two frames below the top frame represents the command packet the bottom frame represents the response packet ip host EA ip 192 168 111 24 host ABC EN Description Separate each parameter with one or more blanks space tab carriage return line feed Parameters are not case sensitive Undefined parameters are ignored Parameters beyond the 32nd parameter are ignored IM 04P03B01 17E 4 25
13. UF USE USE USE USE Description The input offset is set using the VB command DT Syntax Query Example The low cut function is set using the SR command Parameter p4 can be specified on models with the calibration correction CC1 option Use the UQ and VL commands to set the correction values Selects the time printout format UT pl p2 p3 p4 lt terminator gt pl Time printout format of the alarm printout The available selections are the same as those of p2 None is not available p2 Time printout format of the message printout HH MM Hour Minute HH MM SS HourMinute Second M D H M Month Day Hour Minute M D H M S Month Day Hour Minute Second YMD H M S Month Day Year Hour Minute Second No time printout p3 Time printout format of the record start time printout The available selections are the same as those of p2 None is not available p4 Time printout format of the new chart speed printout The available selections are the same as those of p2 None is not available UT Set the all time printouts to Hour Minute format UT HH MM HH MM HH MM HH MM None 4 16 IM 04P03B01 17E 4 5 Basic Setting Commands XR Sets the remote control input R1 option Syntax XR pl p2 lt terminator gt pl Remote control input terminal number 1 to 5 p2 Action NONE No action Record On Off Start Stop recording Chart speed Change the chart speed Reset the internal clock to the nearest hour Execute ma
14. key to select values If you press the ESC key the operation is cancelled and the display returns to a higher level menu IM 04P03B01 17E 2 7 uondo 29 age 19u18u13 eui Huish H 2 6 Registering Users A Iri ni COMM E Ka Lol E See Lost ES e NN Cem m Select the user level ADMIN c 8 Y LEI ele Select ON to register ON OFF ES u E 8 n zl d User name ee ee a a NAME E es H el fu 1910 9 S 1stchar 1st character code t I ott REN i D I 4 2 char 2nd character code EJ gt TU Set the user name up to 16 characters For the characters that can be used see appendix 1 V c F SS UC Tu BEA ees A a a a L gt pae 16t character code ze Wy ft Password L ri Al Ai PASSW x II Ze bai S Pug ul Zi A p 1 chat 1s character code Y CU OU Inn P e E rk eg JL Ve Set the password up to 4 characters For the characters that can be used see appendix 1 27d char and character code c III lgprg aa L aa T LJ Hl Jr 4 E 4th character code The settings are activated
15. 200 0 to 600 0 C 2000 to 6000 JPt100 JPT 200 0 to 550 0 C 2000 to 5500 Difference between channels DELTA Pt100 800 0 to 800 0 C 8000 to 8000 JPt100 750 0 to 750 0 C 7500 to 7500 ON OFF input DI Range Type Parameter for Range of Leftmost and Selectable Range of the SR Command _ Rightmost Values of Span Leftmost and Rightmost Values of Span Level LEVEL 0 to 1 0 to 1 Contact CONT 0 to 1f 0 to 1 t 0 when less than 2 4 V 1 when greater than or equal to 2 4 V tt 0 when contact is OFF 1 when contact is ON N1 Option Range Type Parameter Range of Leftmost Selectable Range of for the SR and Rightmost Leftmost and Rightmost Command Values of Span Values of Span Cu10 GE CU1 200 0 to 300 0 C 2000 to 3000 Cu10 L amp N CU2 200 0 to 300 0 C 2000 to 3000 Cu10 WEED CUS 200 0 to 300 0 C 2000 to 3000 Cu10 BAILEY CU4 200 0 to 300 0 C 2000 to 3000 Cu10 a 0 00392 at 20 C CU5 200 0 to 300 0 C 2000 to 3000 Cu10 a 0 00393 at 20 C CU6 200 0 to 300 0 C 2000 to 3000 Cu25 o 0 00425 at 0 C CU25 200 0 to 300 0 C 2000 to 3000 Difference between channels DELTA Cu10 GE CU1 500 0 to 500 0 C 5000 to 5000 Cu10 L amp N CU2 500 0 to 500 0 C 5000 to 5000 Cu10 WEED CUS 500 0 to 500 0 C 5000 to 5000 Cu10 BAILEY CUA 500 0 to 500 0 C 5000 to 5000 Cu10 a 0 00392 at 20 C CU5 500 0 to 500 0 C 5000 to 5000 Cu10 a 0 00393 a
16. Ethernet interface eese eene 2 1 Ethernet statistical information ssesssss 4 24 execution mode ctae render terre ated to nea 4 20 execution Modes s diee ete these nente tes 4 3 exits from basic setting mode A 4 19 extended functions sssssseeeeneeene 4 16 EF 05 0 page FIEQ i scia terree omm om aen App 2 FIFO ata ni konia h 4 22 5 11 filter status information eee 6 1 first in first out ssssseeeneeeneenn App 2 Tlag uten ne Lu NIS DUCUM LE 5 3 5 12 frequently used parameters eesesseeesieerrierrrieerierrree 4 7 FUNC key menu nssssssssssseeserreren 4 18 functional construction ethernet ssesssse 1 1 functional construction RS 422A 485 sss 1 3 H Page Relies Su ut ok ese Ee lt 4 24 e gn EES 4 17 4 25 l Page el UE 5 3 INGICALON bo 2 6 initializes settings sssssseeen 4 19 iniput fille soe ede ee 4 13 inp t Tiller ees SA a ee eh ee co tI ee E 4 16 INPUT range rne te sette etian eet 4 7 4 10 leif ge EE 3 9 instrument information output commands 4 6 instrument information server 1 2 interval for acquiring data to the FIFO buffer 4 14 IS TEE 2 5 4 17 4 25 items to be printed 0 eee ese cee cee eeeeeeeeeeeeeeeseeeeeeeeeeeeees 4 15 K Page keepalive sssseeenene nennen 1 2 4 18 g
17. P o 10BASE T straight cable When Connecting to a Preexisting Network The following figure illustrates an example in which a recorder and a PC are connected to the network When connecting the recorder or the PC to a preexisting network the transfer rate connector type etc must be matched For details consult your system or network administrator Network HR H M Hub router etc Recorder gE EJ O jj 2 ooo cm BS g e am DI CO TER cE BEBE ER EH zm ES oa bat S 10BASE T straight cable Note Depending on the reliability of the network or the volume of network traffic all the transferred data may not be retrieved by the PC Communication performance deteriorates if multiple PCs access the recorder simultaneously 2 2 IM 04P03B01 17E 2 3 Configuring the Ethernet Interface Setup Items and Setup Procedure Some setup items of the Ethernet interface can be configured using keys while others cannot The items that are listed as Yes can be configured using keys Setup Items Setup Procedure Keys Communication reference section commands section 4 2 Host name and domain name Yes IP address Yes section 2 4 Yes DNS
18. Syntax TD pl p2 p3 p4 p5 p6 p7 p8 p9 terminator pl Use Notuse DST USE NOT p2 DST start time month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov or Dec p3 DST start time number of the week in the month 1st 2nd 3rd 4th or Last p4 DST start time day of the week Sun Mon Tue Wed Thu Fri or Sat p5 DST start time hour 0 to 23 p6 DST end time month Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov or Dec p7 DST end time number of the week in the month 1st 2nd 3rd 4th or Last p8 DST end time day of the week Sun Mon Tue Wed Thu Fri or Sat p9 DST end time hour 0 to 23 TD pl Enable DST and set the DST start time to hour O on the 2nd Sunday of June and the DST end time to hour 0 on the 2nd Sunday of December TD Use Jun 2nd Sun 0 Dec 2nd Sun 0 Description The DST start time and end time cannot be set to the same time Query Example FR Sets the interval for acquiring data to the FIFO buffer Syntax FR pl lt terminator gt pl Pen model 125ms 250ms 500ms 1s 2s 2 58 5s 10s Dot model 1s 2s 2 5s 5s 10s Query FR Example Set the acquiring interval to the FIFO buffer to 1 s FR 1s Description Set the acquiring interval to an integer multiple of the scan interval that is greater than the scan interval The scan interval on the pen model is 125 ms The scan interval on the dot model varies depends on the integration time of the A D converter as fo
19. 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 The figures given in this manual may differ from those that actually appear on your screen 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 Electric Corporation is strictly prohibited The TCP IP software of this product and the document concerning the TCP IP software have been developed created by YOKOGAWA based on the BSD Networking Software Release 1 that has been licensed from the University of California All the brands or names of Yokogawa Electric s products used in this manual are either trademarks or registered trademarks of Yokogawa Electric Corporation Microsoft MS DOS Windows Windows NT and Windows XP are either registered trademarks or trademarks of Microsoft Corporation in the United States and or other countries Adobe Acrobat and PostScript are trademarks of Adobe Systems incorporated For purposes of this manual the TM and symbols do not accompany their respective trademark names or registered trademark names Other company and product names are trademarks or registered trademarks of their
20. on the Conceptual diagram on page 5 2 1 byte 1 byte 1 byte 1 byte 1 byte 1 byte r le gt lt Geib le gt lt gt lt 2 bytes 1 byte 1 byte gt lt gt lt gt Year Month Day Hour Minute Second Millisecond Reserved Flag Measured Channel A2A1 A4A3 Measured data The sections indicated as Reserved are not used The value is undefined IM 04P03B01 17E sosuodseyu H 5 3 Output Format of BINARY Data Flag The meanings of the flags are given on the table below The flags are valid during FIFO data output The flags are undefined for other cases Meaning of the Flag Bit Flag Flag 0 1 6 5 4 E 3 2 No Yes 1 No Yes 0 No Yes Indicates that the decimal position or unit information was changed during measurement Indicates that the FIFO acquiring interval was changed during measurement Indicates that the internal process took too much time and that FIFO dropout occurred The bits that have for the Block Member flag column are not used The value is undefined Name BINARY Value Year 0 to 99 Month 1to 12 Day 1 to 31 Hour 0 to 23 Minute 0 to 59 Second 0 to 59 Millisecond 0 to 999 DST 1 summer or 0 winter Unit 00H measurement Channel 01 to 06 Alarm status A1 Bit O to 3 A2 Bit 4 to 7 Oto 4 A3 Bit O to 3 A4 Bit 4 to 7 Measured d
21. while the chart is being fed through the panel key 6 7 m Bit Name Description 0 Basic setting Set to 1 during Basic Setting mode 1 Recording Set to 1 while recording is in progress 2 CEA 3 Alarm generating Set to 1 while the alarm is occurring 4 G 5 8 6 7 6 2 IM 04P03B01 17E Appendix Appendix 1 The table below shows characters each command can use ASCII Character Codes Command Used for Characters SN ST SG YB YN Unit Tag Message Host Domain name Domain suffix Alphanumeric characters signs and space Alphanumeric characters signs and space Alphanumeric characters signs and space Alphanumeric characters and signs Alphanumeric characters and signs The table below contains the ASCII character codes of characters that can be used English Note u C 8 and are assigned to character codes as follows u 7BH f amp 7CH I 2 7DH 3 7EH SEH Characters in the parentheses are the characters assigned on the keyboard 3 8 9 5 30 0 1 2 3 4 5 6 7 8 9 40 A BICIDIEIJFIGIHI I J 50 PIQIR ISI TIUVI N XY Z 60 albicidelfigihii j 70 piqirsi tiuviWw X yjz German and French Note Q is assigned to character code as follows The character in the parentheses is the character assigned on the
22. 23 MM Minute 00 to 59 SS Second 00 to 59 SD Set the recorder clock to 13 00 00 December 1 2005 SD 05 12 01 13 00 00 Description The format of p1 is fixed to 17 characters An Li Syntax Query Example error results if a space is inserted in positions other than the specified positions Sets the dot printing interval dot model VT pl terminator pl Dot printing interval setting AUTO Automatically adjust the dot printing interval according to the chart speed FIX Record at the fastest printing interval VT Record at the fastest printing interval VT FIX Description When trend recording is performed on 6 SZ Syntax Query Example channels the fastest printing interval is 10 seconds Sets zone recording SZ pl p2 p3 terminator pl Channel number p2 Leftmost position of the zone 0 to 95 mm p3 _ Rightmost position of the zone 5 to 100 mm SZ pl Display channel 02 in a zone between 30 and 50 mm SZ 02 30 50 Description Be sure that p3 is greater than p2 and that the zone width p3 p2 is greater than or equal to 5 mm 4 12 IM 04P03B01 17E 4 4 Setting Commands SP Sets the partial expanded recording Syntax SP pl p2 p3 p4 terminator pl Channel number p2 Partial expanded recording ON OFF ON OFF p3 Boundary position 1 to 99 p4 Boundary value Query SP pl Example Set the 25 position of channel 01 to 1 000 V SP 01 0N 25 1000
23. Calculated sum intcksum unsigned char buff int len unsigned short p Pointer to the next two byte data word in the buffer that is to be summed unsigned int csum Checksum value int i int odd csum 0 Initialize odd len 2 Check whether or not the number of data points is even len gt gt 1 Determine the number of data points using a short data type p unsigned short buff for 1 0 i lt len i Sum using an unsigned short data type csum p if odd When the data length is odd union tmp Pad with a 0 and add to the unsigned short data unsigned short s unsigned char c 21 jtmp tmp c 1 0 tmp c 0 unsigned char p csum tmp s if csum csum amp Oxffff csum gt gt 16 amp Oxffff gt Oxffff Add the overflowed digits csum csum Oxffff If the digit overflows again add a 1 return csum amp Oxffff bit inversion 5 4 IM 04P03B01 17E 5 1 Response Syntax RS 422A 485 Dedicated Commands and Responses The following table shows dedicated commands for the RS 422A 485 interface and their responses Command Syntax Meaning Response ESC O xx CRLF Open the instrument Response from the instrument with the specified address ESC O xx CRLF _ space Response when the instrument with the specified address does not exist ESC C xx CRLF Close the instrument Response from
24. Communication Functions Using the Ethernet Interface C7 Option Maintenance Test Server Outputs Ethernet communication information such as connection information and network statistics from the recorder The commands that can be used Maintenance Test commands Related Topics Commands Section 4 2 Instrument Information Server Outputs the serial number model name and other information about the recorder connected via the Ethernet network The commands that can be used Instrument Information Output commands Related Topics Commands Section 4 2 Other Functions Login Function Only users that are registered in advance can access the Setting Measurement and Maintenance Test servers Users are identified by their user name and password You can register one administrator and six users Administrator privileges The administrator can use all the functions on the Setting Measurement and Maintenance Test servers User Privileges Setting Measurement server Users can output measured data setup data and the most recent data of the periodic printout Users cannot control the recorder Maintenance Test server Users cannot disconnect communications between the recorder and other PCs All other operations are allowed There is a maximum number of simultaneous connections that can be established with the recorder Related Topics Login function settings Section 2 6 Maximum number of simultaneous con
25. Description When the input range is set to SKIP SR command p2 cannot be turned ON Setp3 as a percentage where 100 mm is assumed to be 100 Parameter p4 can be set in the range leftmost value of span 1 to rightmost value of span 1 If scaling is enabled the range is leftmost value of scaling 1 to rightmost value of scaling 1 Set the parameter using an integer This setting is possible when partial expanded recording is enabled UK command This command cannot be used if the partial expanded recording range does not exist when the span width is set to 1 for example VR Turns ON OFF the recording on each channel Dot model Syntax VR pl p2 p3 terminator pl Channel number p2 Trend recording ON OFF ON OFF p3 Periodic printout ON OFF ON OFF Query VR pl Example Turn trend recording ON and turn periodic printout OFF on channel 06 VR 06 0N OFF Pen model Syntax VR pl p2 terminator pl Channel number p2 Periodic printout ON OFF ON OFF Query VR pl Example Turn periodic printing ON on channel 01 VR 01 0N ST Sets the tag Syntax ST pl p2 terminator pl Channel number p2 Tag string up to 7 characters Query ST pl Example Set the tag of channel 02 to TI 2 ST 02 TI 2 Description For the characters that can be used for the tags see appendix 1 ASCII Character Codes SG Sets the message Syntax SG pl p2 terminator pl Message number 1 to 5 p2 Message str
26. Instrument Information Output Commande A 4 6 Parameter Values 4 7 Input Ranges p 4 7 Mele Nr 4 9 Setting Commands uie rere iie ireecen re eetmd nta Ne cuba cda ue Dr aae a pork aaa ananasai 4 10 Basic Setting COmMand TE 4 14 Control Commande E 4 20 Qutput Comma EE 4 21 RS 422A 485 Dedicated Commands eese eese 4 23 Maintenance Test Commands Available when using the maintenance test server function via Ethernet communications eeeeeeeeeeee eee 4 23 Instrument Information Output Commands Available when using the instrument information server function via Ethernet communications esse 4 25 Chapter 5 Responses 5 1 5 2 5 3 Response Syntax gest 5 1 Affirmative Response seessseeeeeeeeenen ennemi nanena 5 1 Single Negative Response AE 5 1 Multiple Negative Responses A 5 1 ASUCII Output E E DEPT enenpeniemiitts dime 5 2 BINARY Qultp t nite eine t ene et geret tre Ete e cet D Rt SEN ud 5 2 RS 422A 485 Dedicated Commands and Responses AA 5 5 Output Format of ASCII Data 4 eeeeseesese sisse esses enses nnne santa anas nasa annua 5 6 Setting Basic Setting dala tee te ettet ae ete ire 5 6 Decimal Point Position Unit Information A 5 7 Measured Data neret reuse tiit dou rimedio tege S 5 8 Status Information 3 x oo Pep iaa oi
27. Transmitting data OFF The Ethernet interface is not electrically connected T e Optional terminal block yoo a in J EEE BEEJ pan CEL mE Indicator Ethernet port o L Gesi 2 6 IM 04P03B01 17E 2 6 Registering Users Users that are allowed to access the recorder via the Ethernet network must be registered This function is called login function Setup Items LOGST User registration Password 4 characters Procedure 1 Hold down the MENU key for 3 seconds to display the Setting mode screen 2 Hold down the A and keys simultaneously for 3 seconds to display the Basic Setting mode screen Enabling Disabling the Login Function 3 Carry out the procedure shown in the figure below Use the A Si or key to select values If you press the ESC key the operation is cancelled and the display returns to a higher level menu LE 7 mS 2 Lm aaa COMM es ae I pg Select LOGIN LB I tt fw LOGIN es MN Select USE or NOT DU USE NOT ees x tl The settings are activated ESCI fat A OK If you selected NOT you are done with the settings Proceed to step 6 If you select USE proceed to Registering Users below Registering Users 4 Carry out the procedure shown in the figure on the next page Use the A VY or C
28. When the instrument that support only the RS 422A interface exist in the system The maximum number of connection is 16 Some of YOKOGAWA s conventional recorder only support the RS 422A driver In this case only up to 16 units can be connected Note In the RS 422A standard 10 is the maximum number of connections that are allowed on one port for a four wire system Terminator When using a multidrop connection including a point to point connection connect a terminator only to the recorder on the end of the chain In addition turn the terminator on the host computer ON see the computer s manual If a converter is being used turn ON its terminator The terminator must be attached externally to the recommended converters 3 6 IM 04P03B01 17E 3 3 The Bit Structure of One Character and the Operation of the Receive Buffer The Bit Structure of One Character The serial interface on the recorder communicates using start stop synchronization In start stop synchronization a start bit is added every time a character is transmitted The start bit is followed by the data bits parity bit and stop bit See the figure below Return to the idle state dotted line 1 character or the start bit of P the next data character Circuit idle k Data bit d solid line state 7 or 8 bits CUM dq EE Y 4 P hk E I I I I I I I I 3 Parity bit Start bit Even Odd Stop bit or None Receive Buffer and Received Data Th
29. Yes Login function enable disable Yes section 2 5 Yes User registration Yes section 2 5 Communication timeout Yes Keepalive Yes For items that can only be set using communication commands assign an IP address to the recorder connect to the PC and then set the items Connection Example with a PC Below is a setup example in which the PC and the recorder are connected in a one to one relationship via a hub Recorder EE YN Ethernet Setting Example Setup Item Recorder PC IP address 192 168 1 101 192 168 1 100 Subnet mask 255 255 255 0 255 255 255 0 PC Internet Protocol TCP IP Properties A4 xl General You can get IP settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator for the appropriate IP settings C Obtain an IP address automatically e Use the following IP address IP address 192 168 1 100 Subnet mask 255 255 255 0 Default gateway i Obtain DNS server address automatically Ze Use the following DNS server addresses Preferred DNS server S Altemate DNS server A Advanced IM 04P03B01 17E 2 3 uondo 29 age 19u18u13 eui HUSN H 2 4 Setting the IP Address The IP address must be assigned to the recorder Setup Items IP address IP address Default gateway Procedure 1 Hold down the MENU key for 3 seconds to disp
30. buffer AC 0 MC Clears the message printout buffer Syntax MC pl terminator pl Clear the message printout buffer 0 Example Clear the message printout buffer MC 0 4 20 IM 04P03B01 17E 4 7 Output Commands 4 7 Output Commands BO Sets the byte output order Syntax BO pl terminator p1 Byte order 0 Outputs the data MSB first 1 Outputs the data LSB first Query BO Example Output the data MSB first BO 0 Description This command applies to the byte order of numerical data during BINARY output CS Sets the checksum C3 option Syntax CS pl terminator pl Use Notuse the checksum 0 Not use 1 Use Query CS Example Use the checksum cs 1 Description This command can be used only on the RS 422A 485 communication interface IF Sets the status filter Syntax IF pl terminator pl Status filter value 0 0 0 0 to 255 255 255 255 Query IF Example Set the status filter value to 1 0 4 0 IF 1 0 4 0 Description For details see chapter 6 Note Initialization of BO CS IF Command Settings For serial communications Settings entered using the BO CS IF commands revert to their initial values when the recorder is reset when the recorder is power cycled or the user exits the basic setting mode with the YE command Byte output order checksum 0 Status filter 255 255 255 255 If the recorder is reset you must restore these settings For Ethernet communications Settings entered using
31. digits to the right of the decimal 00 000 for 03 Four digits to the right of the decimal 0 0000 for 04 Space 01 01 IM 04P03B01 17E 5 7 sosuodseyu H 5 2 Output Format of ASCII Data Measured Data The FD FDO or FY FYInst command is used to output the data Syntax The measured data are output in the following syntax along with the date and time information for each channel EACRLF DATE yy mo ddCRERLF TIME hh mi ss mmmt S41S9293S4S5S6 CRLF S kccaj4a2asa4quuuuuufj dddaddEfopp CRLF EN CRLF mo dd hh SS t 919283548556 cc a1a 2aa3a4 uuuuuu fi Year 00 to 99 Month 01 to 12 Day 01 to 31 Hour 00 to 23 Minute 00 to 59 Second 00 to 59 Millisecond 000 to 999 A period is placed between seconds and milliseconds S Zsummer or space winter Data status All spaces Channel data status N D S O B E N Normal D Differential input S Skip 0 Over B Burnout E Error Channel type 0 Measurement channel Channel number 01 to 06 ai Alarm status level 1 a2 Alarm status level 2 a3 Alarm status level 3 a4 Alarm status level 4 Each status is set to H L h or space H high limit alarm L low limit alarm h difference high limit alarm difference low limit alarm space no alarm Unit information 6 characters left justified mv mV VM AG DG xxxxxx User defined character string Sign of mantissa
32. ee 3 7 record D teltlont e ien 4 18 recording on off 4 13 relay number 4 9 remote control input 4 17 FESPONSC eege tential ea 4 2 REVISIONS dee r heise hes iiio ti ed bet ets i Men 4 15 RS 422A 485 communication interface 3 1 RS 422A 485 dedicated commands s 4 5 RS 422A 485 dedicated commands and responses 5 5 RS 422A 485 interface cccecccececeeeeeeteesteeeneeeees 4 17 run mode S Page secondary chart speed 4 13 serial interface serial number IM 04P 01B01 17E Index Setting Commande sse 4 3 le H RE 4 18 setting basic setting data out 5 6 setting measurement server ethernet 21 setting measurement server RS 422A 485 1 3 setup data n nec i 4 21 setup list basic setting information printout 4 20 setup procedure Ethernet ssseeeee 2 3 simultaneous userg eene 2 1 special data value e eerie mereri 5 12 square root low cut 4 16 El de LEE 3 7 starts stops recording 4 20 status filter 4 21 status information 4 22 6 1 status information bit structure sssssessss 6 2 status information output sssse 5 10 SLOP TEE 3 7 stops the record position adjustment
33. keyboard Q 7CH I us 0 1 2 3 4 5 6 7 8 9 A 20 SP D 96 30 0 1 2 3 4 5 6 7 8 9 40 Q A BICIDIEIFIGIHI I J 50 P QI R SITIUVIWIXIY ZZ 60 albicidelfigihii j 70 piqir s tiu vw X yjz A0 BO 2 3 u co A DO E0 l l l FO Only German Only French IM 04P03B01 17E App 1 xipueddy D Appendix 2 Output Flow of FIFO Data The recorder has a dedicated internal memory for outputting measured data This memory is structured as a FIFO First In First Out Measured data are constantly acquired to the internal memory at the specified acquiring interval FIFO acquiring interval set with the FR command By using this function it is possible to read measured data that have been saved at the specified intervals regardless of the frequency at which the PC periodically reads the measured data The following example shows the case when the acquiring interval is 1 s and the buffer capacity is for 8 intervals Block 1 2 3 Previous read 4 Position RP1 5 Current read 6 lt Most recent acquire Position RP2 Position WP 7 Block 8 Acquiring of the measured data The measured data are acquired to the internal memory at 1 s intervals Measured data are acquired to blocks 1 through 8 in order After acquiring to block
34. p3 Default gateway 0 0 0 0 to 255 255 255 255 Query YA Example Set the IP address to 192 168 111 24 the subnet mask to 255 255 255 0 and the default gateway to 0 0 0 0 YA 192 168 111 24 255 255 255 0 0 0 0 0 Description The settings specified by this command and saved using the XE command take effect after the recorder is power cycled spuewwod D YN Sets the DNS C7 option When not using the DNS Syntax YN pl terminator pl Use Not use the DNS OFF Query YN Example Do not use the DNS YN OFF When using the DNS Syntax YN pl p2 p3 p4 p5 lt terminator gt p1 Use Not use the DNS ON p2 Address of the primary DNS server 0 0 0 0 to 255 255 255 255 p3 Address of the secondary DNS server 0 0 0 0 to 255 255 255 255 p4 Domain suffix 1 up to 64 characters p5 Domain suffix 2 up to 64 characters Query YN Example Use the DNS server at 192 168 0 1 YN ON 192 168 0 1 Description The settings specified by this command and saved using the XE command take effect after the recorder is power cycled YD Sets whether to use the login function via communication C7 option Syntax YD pl terminator pl Use Not use the login function via communication USE NOT Query YD Example Use the login function via communication YD USE Description The settings specified by this command and saved using the XE command take effect after the recorder is power cycled IM 04P03B01 17E 4 17 4 5 Basic Setting Comm
35. setting information for the following commands is not output Setting commands SD CM and FR Basic Setting commands YE and XE The output format of the setting basic setting data is the same as the syntax of each command Some commands are output in multiple lines Example Commands that are specified for each channel Syntax The two character command name and the succeeding parameters are output in the following syntax EACRLF ttssseeeSCRLF EN CRLF tt Command name SR GA XA XI ssseees Setting basic setting data variable length one line Example EA SRO1 VOLT 20mV 0 20 SR02 VOLT 20mV 0 20 EN IM 04P03B01 17E 5 2 Output Format of ASCII Data Decimal Point Position Unit Information The FE command FE1 is used to output the data Syntax The data is output for each channel in the following syntax EACRLF S kccuuuuuu ppCARLFEF ENCRLF cc uuuuuu PP Example EA N 001mv N 002mv EN Data status N D S N Normal D Differential input S Skip When the input range is set to SKIP Channel type 0 Measurement channel Channel number 01 to 06 Unit information 6 characters left justified mV mV VM 163 C xxxxxx User defined character string Decimal point position 00 to 04 No decimal 00000 for 00 One digit to the right of the decimal 0000 0 for 01 Two digits to the right of the decimal 000 00 for 02 Three
36. terminator gt Terminator Terminating Character Use either of the following two characters for the terminator CR LF 0DH OAH in ASCII code LF OAH in ASCII code Note The total data length from the first character to the terminator must be less than 2047 bytes In addition the character string length of 1 command must be less than 512 bytes Commands are not case sensitive with the exception of user specified character strings All the commands that are listed using sub delimiters are executed even if one of the commands is erroneous Spaces that are inserted before and after a parameter are ignored However if spaces are inserted before a command after a sub delimiter or after a query an error occurs The recorder returns a response affirmative negative response to a command that is separated by a single terminator The controller should follow the one command to one response format When the command response rule is not followed the operation is not guaranteed For the response syntax see section 5 1 The exceptions are the RS 422A 485 dedicated commands see section 4 8 Note When using the RS 422A 485 interface allow at least 1 ms before sending the next command after receiving a response Otherwise the command may not be processed correctly IM 04P03B01 17E 4 2 A List of Commands Execution Modes and User Levels Execution Modes The recorder has two execution modes Ea
37. the high limit alarm low limit alarm enter an integer value in the range below For DC voltage TC and RTD input Values within the measurable range in the specified range example 2 000 to 2 000 V for the 2 V range For ON OFF input DI O or 1 For scaling 1 5V scaling and square root 5 to 10596 of the scale span except within 19999 to 30000 For p5 for the difference high limit alarm difference low limit alarm values in the measurable range can be specified example 1760 0 to 1760 0 C for the TC type R Sets the unit SN pl p2 terminator pl Channel number p2 Unit string up to 6 characters SN pl Set the unit of channel 02 to M H SN 02 M H Description The unit setting is valid on channels set to 1 SC Syntax Query 5V scaling or square root Forthe characters that can be used for the units see appendix 1 ASCII Character Codes Sets the chart speed SC pl terminator pl Chart speed SC Example Set the chart speed to 25 mm h sc 25 Description Select the chart speed from the list of choices SD Syntax Query Example below Pen model 10 to 12000 mm h 40 levels see section 4 3 Dot model 10 to 1500 mm h 28 levels see section 4 3 Sets the date and time SD pl terminator pl Date and time fixed to the YY MM DD HH MM SS format YY Year 00 to 99 the lower 2 digits MM Month 01 to 12 DD Day 01 to 31 HH Hour 00 to
38. the panel keys and the display to configure the communication functions For a description of other parts of the recorder see section 3 1 in the SR10000 User s Manual IM04P03B01 01E Front Keys ESC key Display Keys Power switch Rear panel Optional terminal block It SH CC pce oH me CHG CSS GE liete kei f Cre QG le te CY E E EE ZEE Elte EEN IEEE al 5 Indicator Ethernet port S e Daa E oag LD aaa SSI aa OD aa EE DD eee P ERE e RS 422A 485 communication terminals When setting functions or when the FUNC key is pressed Cancels the operation UP key Switches the setup item or the value RIGHT key Moves the cursor to the right when entering a value or character DOWN key Switches the setup item or the value ENTER key Confirms the setup ite m or value During normal operation Contents FORE WONG EE i Howto Use This ET EE ii Names of Parts and Basic Key Operations eene iv Chapter 1 Overview of the Communication Functions 1 1 1 2 Communication Functions Using the Ethernet Interface C7 Option 1 1 Functional Construction der xe eo c Neo Uu at Dag m e eI d Qe ee 1 1 Setting Measurement Server essen nennen enne nene 1 1 Maintenance Test Gener eene ener nennen nnne nennen 1 2 Instrument Information Server eene nnne 1 2 Other G
39. 1 Description Specifies the address of the instrument with which to communicate Only one instrument can be opened at any given time Whenan instrument is opened with the ESC O command any other instrument that is currently open is automatically closed When this command is received correctly the recorder transmits the data ESC 0 xx xx Instrument s address Use CR LF for the terminator LF cannot be used ESCC Closes the instrument The ASCII code of ESC is 1BH Syntax ESC C pl lt terminator CR LF gt pl Instrument address 01 to 32 Example Close the instrument at address 01 ESC C 01 Description Clears the current connection with the instrument When this command is received correctly the recorder transmits the data ESC C xx xx Instrument s address Use CR LF for the terminator LF cannot be used 4 9 Maintenance Test Commands Available when using the maintenance test server function via Ethernet communications close Syntax Example Disconnects the connection between other instruments close p1 p2 p3 lt terminator gt pl Porton the recorder side 0 to 65535 p2 IP address on the PC side 0 0 0 0 to 255 255 255 255 p3 Porton the PC side 0 to 65535 close 34159 192 168 111 24 1054 EO spuewwod D Description This command cannot be used to disconnect a con Syntax Example con EA Server port Also it cannot disconnect the recorder being oper
40. 39002 Month 39003 Day 39004 Hour 39005 Minute 39006 Second 39007 Millisecond 39008 Summer Winter time Modbus Error Response The recorder returns the following error codes to the master device For the error messages related to communications that the recorder displays see appendix 4 Code Meaning Cause 1 Bad function code Unsupported function request 2 Bad register number Attempted to read write to a register that has no corresponding channel 3 Bad number of registers The specified number of registers is less than or equal to 0 or greater than or equal to 126 when reading 124 when writing However no response is returned for the following cases CRC error Errors other than those in the table above IM 04P03B01 17E 3 9 uondo 9 e2ejyieyu uoneoiunuiuio cgr vzer SsH eui Husn B 3 5 Setting the Serial Interface Procedure The serial interface must be configured Setup Items NORMA Address Baud rate Data length Parity Protocol 1 Hold down the MENU key for 3 seconds to display the Setting mode screen 2 Hold down the A and C keys simultaneously for 3 seconds to display the Basic Setting mode screen 3 Carry out the procedure shown in the figure below Use the A SZ or key to select values If you press the ESC key the operation is cancelled and the display returns to a higher level menu
41. 63 300 0 to 300 0 K 3000 to 3000 Cu53 CU8 200 0 to 200 0 C 2000 to 2000 Cu100 CU9 200 0 to 200 0 C 2000 to 2000 JPt25 PT4 750 0 to 750 0 C 7500 to 7500 Channel Number Pen model 01 to 04 Dot model 01 to 06 Models with the A1 option 101 102 Models with the A2 option 101 to 104 Models with the A3 option 101 to 106 Chart Speed Pen model See the table below Dot model Chart speeds in the thick frame in the table below Relay Number A1 A2 and A3 Options IM 04P03B01 17E spuewuwog D 4 4 Setting Commands 4 4 Setting Commands SR Sets the input range When setting channels to skip Syntax SR pl p2 terminator pl Channel number p2 Measurement mode SKIP Query SR pl Example Set channel 01 to skip SR 01 SKIP Description Measurements are not made on channels that are set to SKIP When setting channels to voltage TC RTD or ON OFF input Syntax SR pl p2 p3 p4 p5 lt terminator gt pl Channel number p2 Measurement mode Input type VOLT DC voltage TC Thermocouple RTD Resistance temperature detector DI ON OFF input p3 Range type p4 Leftmost value of span p5 Rightmost value of span Query SR pl Example Measure 0 C to 1760 0 C on channel 01 using thermocouple type R SR 01 TC R 0 17600 Description Set p3 according to the table in section 4 3 For p4 and p5 enter an integer value of 5 digits or less accordin
42. 8 the next acquiring operation returns to block 1 Reading the measured data FF GET command is used logging output Outputs the data from the next to the previous read position RP1 to the most recent acquire position WP In this example more than 2 s has elapsed from the previous read operation Therefore data in blocks 5 and 6 are output Reading the measured data FF GETNEW command is used output of the most recent value Output the specified number of blocks of FIFO data back starting from the recent acquire position WP In this example if you specify the number of blocks to 5 data in blocks 2 to 6 are output The buffer capacity varies depending on the model Pen model 240 intervals 30 s at an acquiring interval of 125 ms Dot model 60 intervals 60 s at an acquiring interval of 1 s App 2 IM 04P03B01 17E Appendix 2 Output Flow of FIFO Data Example in which the FIFO acquiring interval on the recorder is set to 1 s and the measured data from channel 01 to 06 are continuously output logging function Command to send START Command description Received response data FF RESET Move the FIFO read position to the most recent acquire position Receive response esr sees de e Nevis EE err AS Va Wait for the FIFO acquiring interval 1 s FF GET 01 06 Output the measured data using the FIFO eceive response BINARY see page 5 2 and 5 11
43. ARY Data For the output format of various data types see section 5 3 Data Sum The sum value of BINARY data with the BO command 5 2 IM 04P03B01 17E 5 1 Response Syntax Flag Bit Name Abbreviation Flag Flag Meaning of the Flag 0 1 7 BO MSB LSB Output byte order 6 cs No Yes Existence of a checksum 5 em 4 3 2 1 0 Reserved Fixed to 1 When the BO flag is 0 the MSB is output first When the BO flag is 1 the LSB is output first If the check sum is enabled parameter 1 using the CS command parameter each sum value is inserted in the header sum and data sum sections in the Conceptual Diagram on the previous page If the check sum is disabled parameter 0 a zero is inserted in the header sum and data sum sections For a sample program that calculates the sum value see Calculating the Sum Value below The bits that have for the flag and flag are not used The value is undefined sosuodseH H Identifier ID Number Binary Data Type Format 0 Undefined file 1 Measured data Section 5 3 1 FIFO data Section 5 3 10 Setup data file Undisclosed The table above shows the different types of BINARY Data Measured data can be output using the FD command FIFO data can be output using the FF command The setup data file can be output using the FE command The identifier section in the Conceptual di
44. B Note The following markings are used in this manual AN Improper handling or use can lead to injury to the user or damage to the instrument This symbol appears on the instrument 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 WARNING Calls attention to actions or conditions that could cause serious or CAUTION Note Subheadings fatal injury to the user and precautions that can be taken to prevent such occurrences Calls attentions to actions or conditions that could cause light injury to the user or 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 proper operation of the instrument On pages that describe the operating procedures in Chapter 2 and 3 the following symbols are used to distinguish the procedures from their explanations Explanation This subsection describes the setup parameters and the limitations on the procedures Follow the numbered steps All procedures are written with inexperienced users in mind depending on the operation not all steps need to be taken IM 04P03B01 17E Names of Parts and Basic Key Operations Display and Keys You use
45. Hides setting mode menu items Basic Setting mode Yes No 4 18 UH Show Hides FUNC key menu items Basic Setting mode Yes No 4 18 UA Sets the record position Basic Setting mode Yes No 4 18 UY Stops the record position adjustment Basic Setting mode Yes No 4 19 Yc Initializes the settings Basic Setting mode Yes No 4 19 YE Exits from Basic Setting mode Basic Setting mode Yes No 4 19 XE Exits from Basic Setting mode Basic Setting mode Yes No 4 19 Yes Command usable No Command not usable IM 04P03B01 17E 4 2 A List of Commands Control Commands Key Name Function Execution Mode Administrator User Page DS Switches the execution mode All modes Yes No 4 20 RCD Ps Starts Stops recording Run mode Yes No 4 20 DISP up Switches the screen switches the channel Run mode Yes No 4 20 FUNC MP Starts Stops manual print Run mode Yes No 4 20 FUNC L Starts Stops the list setting information printout Run mode Yes No 4 20 FUNC su Starts Stops the setup list basic setting information Run mode Yes No 4 20 printout FUNC MS Executes the message printout Run mode Yes No 4 20 FUNC ac Clears the alarm printout buffer Run mode Yes No 4 20 FUNC mc Clears the message printout buffer Run mode Yes No 4 20 Output Commands Yes Command usable No Command not usable Type Name Function Execution Mode Administrator User Page Control BO Sets the byte output order All modes Yes Yes 4 21 cs Sets the
46. No 4 15 UP Sets the items to be printed Basic Setting mode Yes No 4 15 UR Sets the periodic printout interval Basic Setting mode Yes No 4 15 UI Sets whether to use moving average dot model Basic Setting mode Yes No 4 16 UJ Sets whether to use the input filter pen model Basic Setting mode Yes No 4 16 UK Sets whether to use of partial expanded recording Basic Setting mode Yes No 4 16 UL Selects the printout font Basic Setting mode Yes No 4 16 XN Selects the date format Basic Setting mode Yes No 4 16 XT Selects the temperature unit Basic Setting mode Yes No 4 16 UF Sets whether to use the extended functions Basic Setting mode Yes No 4 16 UT Selects the time printout format Basic Setting mode Yes No 4 16 XR Sets the remote control input R1 option Basic Setting mode Yes No 4 17 YS Sets the RS 422A 485 interface C3 option Basic Setting mode Yes No 4 17 YB Sets the host name and domain name C7 option Basic Setting mode Yes No 4 17 YA Sets the IP address C7 option Basic Setting mode Yes No 4 17 YN Sets the DNS C7 option Basic Setting mode Yes No 4 17 YD Sets whether to use the login function via communication Basic Setting mode Yes No 4 17 C7 option YO Sets the communication timeout C7 option Basic Setting mode Yes No 4 18 YK Sets keepalive C7 option Basic Setting mode Yes No 4 18 UO Sets the calibration correction setting mode and the Basic Setting mode Yes No 4 18 number of correction points CC1 option UG Shows
47. Query Example Changes the dot color dot model UC pl p2 terminator pl Channel number p2 Dot color PURPLE RED GREEN BLUE BROWN BLACK UC p1 Set the dot color of channel 06 to purple UC 06 PURPLE Sets the pen offset compensation pen model UO pl terminator p1 Pen offset compensation ON OFF ON OFF Uo Use the pen offset compensation UO ON UP Sets the items to be printed Pen model Syntax Query Example UP pl p2 p3 p4 p5 p6 terminator pl Channel number tag selection CHANNEL Print the channel number TAG Print the tag p2 Alarm printout ON1 Print at alarm occurrence and release ON2 Print at alarm occurrence OFF Do not print p3 Record start time printout ON OFF ON OFF p4 New chart speed printout ON OFF ON OFF p5 Scale printout ON OFF ON OFF p6 Recording color printout ON OFF ON OFF UP Print tags Print all items UP AG ONT ON ON ON ON Dot model Syntax Query Example UR Syntax Query Example UP pl p2 p3 p4 p5 p6 terminator pl Channel number tag selection CHANNEL Print the channel number TAG Print the tag p2 Channel number printout ON OFF ON OFF by the trend recording p3 Alarm printout ON1 Print at alarm occurrence and release ON2 Print at alarm occurrence OFF Do not print p4 Record start time printout ON OFF ON OFF p5 New chart speed printout ON OFF ON OFF p6 Scale printout ON OFF ON OFF UP Print the channel numbers Print all i
48. T 1 2 Communication Functions Using the RS 422A 485 Communication Interface C3 lei SY 1 3 Functional Construction EE 1 3 Setting Measurement Server enne enne nennen tenen nennen nnn 1 3 Modb s Slave aint eei tee red ates st ra dece ov ere te ute pre doe dtes 1 3 Chapter 2 Using the Ethernet Interface C7 Option 2 1 2 2 2 3 2 4 2 5 2 6 Ethernet Interface Specifications cecccessseeeeeeeesseeseeeeseeseseeeeeeeneeesaseeseeeaneeneneeneees 2 1 Basic Specifications iici a c i Er e e Re Lp ei it p iain 2 1 The Maximum Number of Simultaneous Connections and the Number of Simultaneous Use due I HERR HEREDI pud 2 1 Connecting the Ethernet Interface esses ener nnne 2 2 When Connecting Only the Recorder and a DC 2 2 When Connecting to a Preexisting Network A 2 2 Configuring the Ethernet Interface esses eeeneee eene nnne nnne nnne 2 3 Setup Items and Setup Procedure sss nennen nenne 2 3 Connection Example with a PC 2 3 Setting the IP Address cien esie entre c seen nann nnn nu nn nun mk ie nnan nananana nannan sanaaa 2 4 Checking the Connection Status eeseeseeeeeeeeeee nennen nnne nnn nnne tnnt nnns 2 6 e apDAUICEtm 2 7 Chapter 3 Using the RS 422A 485 Communication Interface C3 Option A 3 1 3 2 3 3 3 4 3 5 RS 422A 485 Communication Interface Specifications
49. Use the VL command to set the correction points and correction values Shows Hides setting menu items YN pl p2 p3 p4 p5 p6 p7 lt terminator gt pl RANGE ON OFF p2 BIAS ON OFF p3 ALARM ON OFF Query Example p4 UNIT ON OFF p5 CHART ON OFF p6 AUX ON OFF p7 CALIBRATION ON OFF UG Hide the RANGE BIAS and ALARM menus UG OFF OFF OFF Description Parameter p7 can be specified on models with UH the calibration correction CC1 option Shows Hides FUNC key menu items Syntax UH pl p2 p3 p4 terminator pi MANUAL PRINT ON OFF p2 SETUPLIST ON OFF p3 MESSAGE ON OFF p4 BUFFER CLEAR ON OFF Query UH Example Do not show the buffer clear menu UG ON ON ON OFF UA X Sets the record position Pen model Syntax UA pl p2 p3 terminator p1 Record position selection ZERO 096 position FULL 100 position p2 Pennumber 1 to 4 p3 Record position adjustment value When p1 ZERO An integer between 0 and 70 When p1 FULL An integer between 45 to 15 reference value 3026 Example Adjust the 0 position of pen 1 Set the record position adjustment value to 20 UA ZERO 1 20 Description Check the recorded result and correct the record position adjustment value To end the adjustment execute the UYO command If you do not end the adjustment you cannot change the execution mode The unit for p3 is 1 30 mm Dot model Syntax UA pl p2 terminator pl Record position sele
50. User s Models SR10001 SR10002 SR10003 SR10004 Manual SR10006 SR10000 Communication Interface vigilantplant YOKOGAWA IM 04P03B01 17E 1st Edition Yokogawa Electric Corporation Foreword Notes Trademarks Revisions 1st Edition February 2006 YK Thank you for purchasing the YOKOGAWA SR10000 hereafter referred to as the recorder This user s manual describes the functions of the Ethernet interface and the RS 422A 485 communication interface To ensure correct use please read this manual thoroughly before beginning operation After reading the manual keep it in a convenient location for quick reference whenever a question arises during operation The following three manuals including this one are provided as manuals for the recorder Please read all of them Paper Manual Manual Title Manual No Description SR10000 IM 04P03B01 02E Explains the basic operations of the SR10000 Operation Guide It is also provided in the CD Electronic Manuals Provided on the Accompanying CD ROM Manual Title Manual No Description SR10000 IM 04P03B01 01E Explains the convenient functions and User s Manual procedures of the SR10000 SR10000 IM 04P03B01 02E This is the electronic version of the paper Operation Guide manual SR10000 IM 04P03B01 17E This manual Explains the functions of the Communication Interface Ethernet interface and the RS 422A 485 User s Manual communication interface
51. agram on the previous page contains the ID number shown above Note BINARY data that are not indicated in the above table are considered undefined files Calculating the Sum Value If you set the parameter of the CS command to 1 enabled the checksum value is output only during serial communications The check sum is the same as that used in the TCP IP and is derived according to the following algorithm Buffer on Which the Sum Value Is Calculated For the header sum it is calculated from data length flag identifier fixed to 6 bytes Forthe data sum it is calculated from BINARY data 1 byte digi 0 eS 1 2 3 4 5 6 IM 04P03B01 17E 5 3 5 1 Response Syntax If the data length of the buffer is odd a 0 is padded so that it is even 1 through 6 are summed as unsigned two byte integers unsigned short If the digit overflows a 1 is added Finally the result is bit wise inverted Sample Program The sum value is determined using the following sample program and the calculated result is returned The sum determined by the sample program can be compared with the header sum of the output BINARY header section and the data sum of the output BINARY footer section 7 Sum Calculation Function for a 32 bit CPU Parameters buff Pointer to the top of the data on which the sum is calculated len Length of the data on which the sum is calculated Return value
52. alue mode p4 lt p6 lt lt p32 lt p34 SA Sets the alarm When not using the alarm Syntax SA p1 p2 p3 lt terminator gt pl Channel number p2 Alarm number 1 to 4 p3 Alarm ON OFF state OFF Query SA pl p2 Example Do not use alarm number 4 of channel 01 SA 01 4 0FF When using the alarm Syntax SA pl p2 p3 p4 p5 p6 p7 terminator pl Channel number p2 Alarm number 1 to 4 p3 Alarm ON OFF state ON p4 Alarm type H High limit alarm L Low limit alarm h Difference high limit alarm 1 Difference low limit alarm Characters are case sensitive IM 04P03B01 17E 4 11 4 4 Setting Commands Query Example p5 Alarm value p6 Relay output ON Relay ON OFF Relay OFF p7 Relay number SA pl p2 Set a high limit alarm alarm value 1000 on alarm number 1 of channel 02 and output to relay 101 SA 02 1 0N H 1000 0N I01 Description When the input range is set to SKIP SR SN Syntax Query Example command p3 cannot be turned ON The alarm settings are all turned OFF for the following cases When the input type is changed VOLT TC etc When the range type is changed When the span and scaling values are changed during linear scaling includes changing the decimal position The h and settings of p4 are valid only when the measurement range is set to computation between channels The hysteresis of alarm ON OFF valid when p4 is H or L is set using the XA command For p5 for
53. ands YQ Sets the communication timeout C7 option When not using the timeout Syntax Query Example YO pl lt terminator gt p1 Enable Disable communication timeout OFF YQ Disable timeout YQ OFF When using the timeout Syntax Query Example YO pl p2 lt terminator gt pl Enable Disable communication timeout ON p2 Timeout time 1 to 120 minutes YQ Enable communication timeout and set the timeout period to 3 min YQ ON 3 Description The settings specified by this command and YK Syntax Query Example saved using the XE command take effect after the recorder is power cycled Sets keepalive C7 option YK pl lt terminator gt p1 Enable Disable keepalive ON OFF YK Disable keepalive YK OFF Description The settings specified by this command and UO Syntax Query Example saved using the XE command take effect after the recorder is power cycled Sets the calibration correction setting mode and the number of correction points CC1 option UO pl p2 p3 lt terminator gt pl Channel number p2 Setting mode ReviseValue Specify revise value Abs Value Specify absolute value p3 Number of correction points 2 to 16 UQ pl Set the setting mode to Abs Value and the number of correction points to 2 on channel 01 UO 01 ABS VALUE 2 Description This setting is valid when the calibration UG Syntax correction function is enabled see the UF command
54. ata 0 to FFFFH BINARY value 0 to 4 is entered in the upper and lower 4 bits of a byte 8 bits for the alarm status The binary values 0 to 4 correspond to H high limit alarm L low limit alarm h difference high limit alarm and difference low limit alarm as follows 0 no alarm 1 H 2 L 3 Special Data Value h 4 1 The measured data take on the following values under special conditions Special Data Value Measured Data Over Over Skip Burnout when up is set Burnout when down is set Error Undefined 7FFFH 8001H 8002H 7FFAH 8006H 8004H 8005H Note The number of blocks number of bytes and measured data are output according to the byte order specified with the BO command IM 04P03B01 17E Chapter 6 Status Information 6 1 Status Information and Filter The following figure illustrates the status information and filter on the recorder 4 bytes 4 3 2 A A 4 3 2 Status information Filter Condition register When a status indicated on the following page is entered the corresponding bit in the condition register is set to 1 The logical AND of the condition register and the filter becomes the status information The IF command can be used to set the filter The IS command is used to output the status information Status information 1 and 2 are cleared when they are output Status inf
55. ated Use the quit command for this purpose Outputs connection information con lt terminator gt 04 10 01 12 34 56 Active connections Proto Local Address TCP TCP TCP TCP EN Foreign Address State 192 168 111 24 34159 192 168 111 24 1053 0 0 ESTABLISHED 0 0 0 34155 0 0 O0 0 0 LISTEN 0 0 0 34159 0 0 O0 0 0 LISTEN 0 0 0 34150 0 0 O0 O0 0 LISTEN TCP Protocol used Local Address The recorder s socket address Displays IP address port number Foreign Address The destination socket address Displays IP address port number State Connection status ESTABLISHED Connection established IM 04P03B01 17E 4 23 4 9 Maintenance Test Commands eth Syntax Outputs Ethernet statistical information Example eth EA 04 10 01 12 34 56 Ethernet Statistics eth lt terminator gt Name In Pkt In Err Out Pkt Out Err 16 Coll 100 mb0 EN 0 0 74 0 0 64 0 0 0 0 help Outputs help close con eth help net quit connection information ethernet information network status close this connection Outputs network statistical Syntax help pl terminator pl Command name Example help EA con echo eth echo help echo help net echo quit EN net information Syntax net lt terminator gt Example net EA 04 10 01 12 34 56 Network Status APP power on time 00 00 00 12 34 56 TCP keepalive Keepalive check cycle
56. ave Protocol Dedicated protocol Modbus protocol RS 422A 485 Connect the recorder and the PC using a serial cable Setting Measurement Server The functions are the same as those of the Setting Measurement server of the Ethernet interface See page 1 1 Related Topics Commands Section 4 2 RS 422A 485 dedicated commands Section 4 8 Data output format Chapter 5 Modbus Slave The Modbus protocol can be used to read the measured data on your PC by reading the input registers of the recorder The communication input data can be written or read by writing reading the hold register of the recorder For details on the Modbus function codes that the recorder supports see section 3 4 This function can be used only when communicating via the serial interface option Modbus master device Data from slave device geegent a Lem Serial communication Data to slave device c GC Recorder EN Modbus slave device C Related Topics Settings for using the Modbus Section 3 5 IM 04P03B01 17E 1 3 suonoung uoneoiunululO 3y JO MSIAJ9AQ B Chapter 2 Using the Ethernet Interface C7 Option 2 1 Ethernet Interface Specifications Basic Specifications Item Specifications Electrical and mechanical specifications Conforms to IEEE 802 3 Ethernet frames are of DIX specification Transmission medium type 10BASE T Protocol TCP IP UDP ICMP and ARP The Maxi
57. be exceeded see section 2 1 four consecutive times the communication is dropped even if the password is correct App 4 IM 04P03B01 17E Appendix 3 Login Procedure When not using the login function Login as admin or user The user name admin can be used to login to the recorder as an administrator The user name user can be used to access the recorder as a user RR No E1 421 ithin the number of connections No LEE EI Ye s pri Increment retry count No No erificatio Cierres gt gt No No Within the number of gt simultaneous uses Disconnect Login complete IM 04P03B01 17E App 5 xipueddy H Appendix 4 Communication Commands on the SR10000 and the SR1000 The communication commands on the SR10000 conform to the specifications of the DX series paperless recorders and are different from the conventional SR1000 The main differences are described below 1 The command response operation is different 2 Output format specifications 2 1 The procedure to switch the data output mode of the output format ASCII or binary is not necessary 2 2 The output format details have been changed 3 New commands have been added There are changes to the command details as a result of new functions that have been added 1 Command Response Operation The structure of the command syntax is the same as shown below A command consists of a command name two characters parameters de
58. ch command is specified to be used in a particular execution mode If you attempt to execute a command in a mode that is different from the specification a syntax error occurs Use the DS command to switch to the appropriate mode and then execute the command Query commands can be executed in either mode Basic Setting mode Measurement is stopped and settings are changed in this mode Run mode Run mode collectively refers to Operation mode and Setting mode of the recorder User Levels The administrator and user specifications in the table indicate the user level that is specified using the login function for Ethernet communications For details see section 1 1 Setting Commands Name Function Execution Mode Administrator User Page SR Sets the input range Run mode Yes No 4 10 VB Sets the bias Run mode Yes No 4 11 VL Sets the calibration correction CC1 option Run mode Yes No 4 11 SA Sets the alarm Run mode Yes No 4 11 SN Sets the unit Run mode Yes No 4 12 Sc Sets the chart speed Run mode Yes No 4 12 SD Sets the date and time Run mode Yes No 4 12 VT Sets the dot printing interval dot model Run mode Yes No 4 12 SZ Sets zone recording Run mode Yes No 4 12 SP Sets the partial expanded recording Run mode Yes No 4 13 VR Turns ON OFF the recording on each channel Run mode Yes No 4 18 ST Sets the tag Run mode Yes No 4 13 SG Sets the message Run mode Yes No 4 13 SE Sets the secondary chart speed Run mode Y
59. check sum All modes Yes Yes 4 21 usable only during serial communications IF Sets the status filter All modes Yes Yes 4 21 cc Disconnects an Ethernet connection All modes Yes Yes 4 21 usable only during Ethernet communications Setup and measurement data output FE Outputs decimal point position unit information All modes Yes Yes 4 21 and setup data FD Outputs the most recent measured data Run mode Yes Yes 4 21 FY Outputs the most recent data of the periodic printout Run mode Yes Yes 4 21 FF Outputs FIFO data Run mode Yes Yes 4 21 Is Outputs status information All modes Yes Yes 4 22 FU Outputs user information All modes Yes Yes 4 22 Yes Command usable RS 422A 485 Dedicated Commands Name Function Execution Mode Administrator User Page Esc O Opens the instrument All modes Yes Yes 4 23 Esc C Closes the instrument All modes Yes Yes 4 23 Yes Command usable Maintenance Test Commands These commands can be used only when using Ethernet communications Name Function Execution Mode Administrator User Page close Disconnects the connection between other instruments All modes Yes No 4 24 con Outputs connection information All modes Yes Yes 4 24 eth Output Ethernets statistical information All modes Yes Yes 4 24 help Outputs help All modes Yes Yes 4 24 net Outputs network statistical information All modes Yes Yes 4 24 quit Disconnects the connection of the instrument being All modes Yes Yes 4 24 operated Yes Command usable No Co
60. ction ZERO 0 position FULL 100 position Hysteresis The difference in the record position according to the operating direction of the printer carriage p2 Record position adjustment value When p1 Hysteresis 4 18 IM 04P03B01 17E 4 5 Basic Setting Commands An integer between 7 to 7 When p1 ZERO An integer between 0 and 15 When p1 FULL An integer between 30 to 30 reference value 1000 Example Adjust the 100 position Set the record position adjustment value to 25 UA FULL 25 Description Carry out the adjustment in the following order P1 Hysteresis ZERO and then FULL Check the recorded result and correct the record position adjustment value Toend the adjustment execute the UYO command If you do not end the adjustment you cannot change the execution mode The unit for p2 is dot 0 1 mm UY Stops the record position adjustment Syntax UY pl lt terminator gt pl Fixed to 0 Query UY Example Stop the record position adjustment UY 0 Description Returns the execution status of the record position adjustment in response to a query 0 Stopped 1 In progress YC Initializes settings Syntax YC pl terminator pl Initialization type 0 Initialize the Setting mode and Basic Setting mode settings Y Initialize the Setting mode settings Example Initialize the Setting mode and Basic Setting mode settings Yc 0 YE Exits from Basic Setting mode When the YE command is exe
61. cuted communication is dropped Syntax YE pl lt terminator gt pl Apply Discard the settings STORE Apply the settings ABORT Discard the settings Example Apply the basic settings YE STORE Description Applies the settings changed with the basic Setting commands XE Exits from Basic Setting mode Communication is not dropped when the XE command is executed Syntax XE pl terminator pl Apply Discard the settings STORE Apply the settings ABORT Discard the settings Example Apply the basic settings XE STORE Description The settings specified by the following commands and saved using the XE command take effect after the recorder is power cycled YS YB YA YN YD YQ and YK spueuiulo2 D IM 04P03B01 17E 4 19 4 6 Control Commands 4 6 Control Commands DS Switches the execution mode Syntax DS pl terminator pl Mode 0 Run mode 1 Basic Setting mode Example Switch to Basic Setting mode DS 1 Description The execution mode cannot be changed to Basic Setting Mode while recording is in progress PS Starts Stops recording Syntax PS pl terminator pl Start Stop recording 0 Start 1 Stop Example Start recording PS 0 UD Switches the screen switches the channel Returning to the data display screen Returns from the Setting mode screen or the screen that appears when the FUNC key is pressed back to the measurement data display screen Syntax UD pl terminator pl Fixed to O Example Re
62. e previous read position block Make sure to read the data within the following buffer period to prevent data dropouts Pen model FIFO buffer length 240 blocks Maximum buffer period 240 intervals Dot model FIFO buffer length 60 blocks Maximum buffer period 60 intervals Newest value output GETNEW Output the specified number of blocks p4 of FIFO data back starting from the recent acquire position block Parameters p2 p3 and p4 are valid when p1 is set to GET or GETNEW If p4 is omitted all the data of all blocks acquired in the FIFO buffer are output Be sure to set p2 and p3 so that p3 is greater than or equal to p2 For the output flow of FIFO data see appendix 2 IS Outputs status information Syntax IS pl terminator pl Output status information 0 Output status information IS 0 Description The output status can be masked using the status filter IF command Example FU Outputs user information Syntax FU pl terminator p1 Output user information 0 Output user information FU 0 Description Outputs the information of the user currently connected to the recorder Example 4 22 IM 04P03B01 17E 4 8 RS 422A 485 Dedicated Commands 4 9 Maintenance Test Commands 4 8 RS 422A 485 Dedicated Commands ESCO Opens the instrument The ASCII code of ESC is 1BH Syntax ESC O pl lt terminator CR LF gt pl Instrument address 01 to 32 Example Open the instrument at address 01 ESC O 0
63. e PC end The two wire system can be used only when using the Modbus protocol Connection Example with a Host Computer A connection can be made with a host computer having a RS 232 RS 422A or RS 485 port Inthe case of RS 232 a converter is used For recommended converters see Serial Interface Converter on the next page The two wire system can be used only when using the Modbus protocol For the configuration procedure see section 3 5 Four Wire System Generally a four wire system is used to connect to a host computer In the case of a four wire system the transmission and reception lines need to be crossed over Host computer r Terminator external 120 Q 1 2W or greater Terminator external RS 422A 485 terminal on the recorder sa N N sbpA N SD A SDA O O SDA SDA SD B SD B SDB O O SDB SDB t O RDA RD A Y RDA O O RD A RD A O RD B W RD B RDB O O RD B RD B O SG SG SG SG SG FG W at Ge ae 1 LIU WIES ee L 1 200 s n n lt 32 Do not connect terminators to 1 through n 1 IM 04P03B01 17E 3 3 uondo CA e2ejyieyu uoneoiunuiuio cgr vzer sH eui Huish B 3 2 Terminal Arrangement and Signal Names and the Connection Procedure of the RS 422A 485 Communication Interface The follow
64. e data received from the PC is first placed in the receive buffer of the recorder When the received buffer becomes full all of the data that overflow are discarded IM 04P03B01 17E 3 7 uondo 9 e2ejyieyu uoneoiunuiuio cgr vzer SsH eui Buisn B 3 4 Modbus Slave Protocol Specifications The Modbus slave protocol specifications of the recorder are as follows Item Specifications Transmission medium RS 422A 485 Flow control None only Baud rate Select from 1200 2400 4800 9600 19200 or 38400 bps Start bit Fixed to 1 bit Stop bit Fixed to 1 bit Parity check Select odd even or none no parity Transmission mode RTU Remote Terminal Unit mode only Data length 8 bits Data interval 24 bits or less Error detection Uses CRC 16 Determines message termination with a time interval to 3 5 characters or more Maximum number of connected units Four wire system 32 slave devices Two wire system 31 slave devices The function codes of the Modbus slave protocol that the recorder supports are shown below The recorder does not support broadcast commands Function Code Specifications Operation 4 Read the input register 3xxxx The master device loads the measured alarm and time data of the recordr 8 Loopback test The master device performs a loopback test of the recorder The recorder only supports message return test code 0x00 Hexadeci
65. e nebat Lcd E cate ete de Les iv L Page list setting information printout s e 4 20 log into the recorder sssssseeeeeeee App 4 login Ile e ice 1 2 2 9 4 17 M Page maintenance test commands ssseseseee 4 5 maintenance test eener 1 2 ManUal print aee cere dete cnr te eee cent de 4 20 maximum number of simultaneous connections 2 1 measured data mice tette reines 4 21 measured data output sseseseeeenee 5 8 IN oec de teas fric iis II LA iue 4 13 4 20 message printout buffer sssssseeen 4 20 Modbus 1 8 3 8 moving average aiai 4 13 4 16 multiple negative responses ssee 5 1 N Page negative response eeeeeeeeee eee eene nennen nnne 5 1 network statistical information sssessssss 4 24 O Page opens the instrument sssseenn 4 23 output commands sssssseeee eene 4 5 P Page Parameters tein nce E RR ad dues 4 1 parity check 5 5 55 1 hne Ueber EE 3 11 partial expanded recording sess 4 13 4 16 cero 2 9 pen offset COMPENSATION eee eee eset cess cee eteaeeeeeeeees 4 15 periodic printout Internal 4 15 portin mber i4 rore rre ert tr tere ts 2 1 e rej oreet 2 1 Q Page QUCNY eee aleve TT 4 2 R Page fear panel Ee ems iv receive buffer ace
66. e pn a HERE 5 10 User Information EE 5 10 Output Format of BINARY Data esee ee eneenn ntn nennt nnne nnn nnne nnnn nnn 5 11 Measured Data and FIFO Data 5 11 Chapter 6 Status Information 6 1 6 2 Status Information and Filter 11 eeeee Lees e eeeeeee seen eene nn nnne a sana ann na nasa anna 6 1 The Bit Structure of the Status Information ee ecee cesses esee nne nnmnnn 6 2 Status Information d 5 pae teu letti Ita tt EE inae uen 6 2 Status Information 3 6 2 Status Iriformiation 9 et bue ROM eg RENE 6 2 Status Information A 6 2 vi IM 04P03B01 17E Contents Appendix Index Appendix 1 ASCII Character Codes sees eene enne nennt nnn nnn nnns App 1 Appendix 2 Output Flow of FIFO Data cesses esee eene nnne nnne nhan nnn nnn App 2 Appendix 3 Login Procedure eeeeeeseeeeeee esee eene nennen nnne nnne tnnt asas nnns tnnt App 4 Appendix 4 Communication Commands on the SR10000 and the SR1000 App 6 IM 04P03B01 17E vii Chapter 1 Overview of the Communication Functions 1 1 Communication Functions Using the Ethernet Interface C7 Option The recorder can be equipped with an optional Ethernet interface For details on how to use the Ethernet interface see chapter 2 Functional Construction The following figure shows the relationship bet
67. ectrical and mechanical specifications Complies with the EIA 422A RS 422A and EIA 485 RS 485 standards Connection Multidrop Four wire system 1 32 Two wire system 1 31 Modbus slave protocol Transmission mode Half duplex Synchronization Start stop synchronization Baud rate Select from 1200 2400 4800 9600 19200 and 38400 bps Start bit Fixed to 1 bit Data length Select 7 or 8 bits Parity Select Odd Even or None no parity Stop bit Fixed to 1 bit Received buffer length 2047 bytes Escape sequence Open and close Electrical characteristics 6 points consisting of FG SG SDB SDA RDB and RDA The SG SDB SDA RDB and RDA terminals and the internal circuitry of the recorder are functionally isolated The FG terminal is the frame ground Communication distance Up to 1 2 km Terminal resistance 120 9 1 2W IM 04P03B01 17E uondo 9 e2ejyieyu uoneoiunuiuio cgr vzer SsH eui Buisn B 3 2 Terminal Arrangement and Signal Names and the Connection Procedure of the RS 422A 485 Communication Interface Terminal Arrangement and Signal Names Rear panel SDA SDB SG STEE RDA RDB FG Terminal Name Description FG Frame Ground Case ground of the recorder SG Signal Ground Signal ground SDB Send Data B Send data B
68. eftmost value of scaling 19999 to 30000 p7 Rightmost value of scaling 19999 to 30000 p8 Scaling decimal point position 0 to 4 p9 Low cut function ON OFF p10 Low cut value Query SR p1 Example Given channel 01 whose input range is O to 10 V take the square root of the input value and scale the result in the range 0 00 m3 s to 100 00 m3 S When the input value is less than or equal to 5 096 of the recording span use the low cut function SR 01 80RT 20V 0 1000 0 10000 2 0N 50 Description Set p3 according to the table in section 4 3 For p4 and p5 enter an integer value of 5 digits or less according to the table in section 4 3 The decimal position is fixed to the position indicated in the table in section 4 3 Be sure that p7 is greater than p6 Parameters p9 and p10 is valid only when the low cut function is enabled see the UF command VB Sets the bias Syntax VB pl p2 p3 terminator pl Channel number p2 Bias ON OFF ON OFF p3 Bias value Query VB pl Example Given channel 03 whose range type is 2V measurable range 2 000 to 2 000 V add a bias of 0 1 V VB 03 0N 100 Description gt Set p3 in the range of 10 of the span of the measurable range at the range type or 1096 ofthe scaling span Specify the value with an integer see section 4 3 The bias setting is valid only when the bias function is enabled see the UF command VL Set the calibration correction CC1 option Syn
69. er supply frequency 50HZ 12 5 ms 60HZ 16 7 ms 100MS 100 ms dot model Query XI Example Set the A D integral time to 50 Hz XI 50HZ Description 100 ms is available only on the dot model XB Sets the burnout detection Syntax XB pl p2 terminator pl Channel number 4 14 IM 04P03B01 17E 4 5 Basic Setting Commands Query Example XJ p2 The procedure taken when a sensor burnout is detected OFF Disable the burnout detection UP Setthe recording off the scale to the right when a burnout is detected DOWN Set the recording off the scale to the left when a burnout is detected XB pl Set the recording off the scale to the right when a sensor burnout is detected on channel 01 XB 01 UP Sets the RJC When using the internal compensation circuit Syntax Query Example XJ pl p2 terminator pl Channel number p2 Reference junction compensation selection INTERNAL XJ pl Use the internal compensation circuit on channel 01 XJ 01 INTERNAL When using an external RJC Syntax Query Example XJ pl p2 p3 lt terminator gt pl Channel number p2 Reference junction compensation selection EXTERNAL p3 Compensation voltage 19999 to 20000 uV XJ p1 Set the reference junction compensation of channel 02 to external and set the compensation voltage to O uV XJ 02 EXTERNAL 0 Description The unit of p3 is uV microvolts UC Syntax Query Example UO Syntax
70. es No 4 13 used by the remote control function R1 option SV Sets the moving average dot model Run mode Yes No 4 13 SF Sets the input filter pen model Run mode Yes No 4 13 TD Sets the DST Run mode Yes No 4 14 FR Sets the acquiring interval to the FIFO buffer Run mode Yes No 4 14 Yes Command usable No Command not usable IM 04P03B01 17E spuewwodg DH 4 2 A List of Commands Basic Setting Commands Note n order to activate the settings that are changed using the basic setting commands the settings must be saved using the YE or XE command The settings that are returned in response to a query in the basic setting mode will contain the new settings even if they are not saved When the settings are saved with the XE command communication is not dropped The settings that are changed using the YS YB YA YN YD YQ YK command are activated after power cycling the recorder When the YE command is executed communication is dropped The response to the YE command is not returned Name Function Execution Mode Administrator User Page XA Sets alarm related settings Basic Setting mode Yes No 4 14 XI Sets the A D integral time Basic Setting mode Yes No 4 14 XB Sets the burnout detection Basic Setting mode Yes No 4 14 XJ Sets the RJC Basic Setting mode Yes No 4 15 UC Changes the dot color dot model Basic Setting mode Yes No 4 15 UO Sets the pen offset compensation pen model Basic Setting mode Yes
71. etup data is output ASCII data output EA lt Header SRO1 VOLT 20mv 0 20 Setup data EN Footer 3 New Commands New commands have been added on the SR10000 In addition the range of settings that can be specified via communication on the SR10000 has been expanded For example remote control function and periodic printout interval settings For details see section 4 2 The following SR1000 commands in the table are the same on the SR10000 Setting command Control command SN PS SC MP SD LS ST SU SG MS SZ MC SP BO SE IM 04P03B01 17E App 7 xipueddy H Index Symbols Page 1 5V input low Cut esessseseseeseeeeeeennnene enne 4 16 A A D integral time ssssseee nn address administrator affirmative response alarm zen dee he ness eet aarm delay c 1i erit emere ees alarm printout buffer ASCII character codes sss er RER ee RT EE B basic setting commands A basic setting mode baud rate gp BINARY data iere nere e n teens BINARY output OSTEN burnout detection sssssssseeeeeeeenne byte output order C calibration correction ssssseseeseennn calibration correction setting mode channel number Chart speed er retener errare eere EIER CHECKSUM EE checksum
72. g to the table in section 4 3 The decimal position is fixed to the position indicated in the table in section 4 3 When setting channels to 1 5V range Syntax SR pl p2 p3 p4 p5 p6 p7 p8 terminator pl Channel number p2 Measurement mode Input type 1 5V p3 Leftmost value of span p4 Rightmost value of span p5 Leftmost value of scaling 19999 to 30000 p6 Rightmost value of scaling 19999 to 30000 p7 Scale decimal point position 0 to 4 p8 Whether to use 1 5V low cut function ON OFF Query SR pl Example Set channel 01 to 1 5V range and scale the input value in the range 0 0 to 1200 0 Do not use the low cut function SR 01 1 5V 1000 5000 0 12000 1 0FF Description For p3 and p4 enter an integer value of 5 digits or less according to the table in section 4 3 The decimal position is fixed to the position indicated in the table in section 4 3 Besure that p6 is greater than p5 Parameter p8 is valid only when the low cut function is enabled see the UF command When computing the difference between channels Syntax SR pl p2 p3 p4 p5 lt terminator gt pl Channel number p2 Measurement mode DELTA p3 Reference channel p4 Leftmost value of span p5 Rightmost value of span Query SR p1 Example Set channel 03 to channel difference computation with respect to channel 01 reference channel Set the leftmost and rightmost values of span to 200 0 and 200 0 respectively SR 03 DELTA 01 2000 2000 Description T
73. he reference channel must be a channel that is smaller in channel number than itself The range type is the same as that of the reference channel For p4 and p5 enter an integer value of 5 digits or less according to the table in section 4 3 The decimal position is fixed to the position indicated in the table in section 4 3 When setting the linear scaling Syntax SR pl p2 p3 p4 p5 p6 p7 p8 p9 lt terminator gt pl Channel number p2 Measurement mode SCALE p3 Input type VOLT DC voltage TC Thermocouple RTD Resistance temperature detector DI ON OFF input p4 Range type p5 Leftmost value of span p6 Rightmost value of span p7 Leftmost value of scaling 19999 to 30000 p8 hRightmost value of scaling 19999 to 30000 p9 Scaling decimal point position 0 to 4 Query SR p1 Example Scale channel 02 whose input range is 0 to 10 V to 100 0 to 500 0 SR 02 SCALE VOLT 20V 0 1000 1000 5000 1 Description Set p4 according to the table in section 4 3 For p5 and p6 enter an integer value of 5 digits or less according to the table in section 4 3 The decimal position is fixed to the position indicated in the table in section 4 3 Besure that p8 is greater than p7 4 10 IM 04P03B01 17E 4 4 Setting Commands When setting the square root Syntax SR pl p2 p3 p4 p5 p6 p7 p8 p9 p10 terminator pl Channel number p2 Measurement mode SQRT p3 Range type p4 Leftmost value of span p5 Rightmost value of span p6 L
74. ing up to 16 characters Query SG pl Example Set character string START in message number 1 SG 1 START Description For the characters that can be used for the messages see appendix 1 ASCII Character Codes SE Sets the secondary chart speed used by the remote control function R1 option Syntax SE pl lt terminator gt pl Secondary chart speed See the explanation Query SE Example Set the chart speed to 50 mm h SE 50 Description Select the chart speed from the list of choices below Pen model 10 to 12000 mm h 40 levels see section 4 3 Dot model 10 to 1500 mm h 28 levels see section 4 3 SV Sets the moving average dot model Syntax SV pl p2 terminator pl Channel number p2 Number of samples for computing the moving average OFF 2 to 16 times Query SV pl Example Set the number of samples for computing the moving average of channel 02 to 12 SV 02 12 Description This setting is available on the dot model This setting is possible when moving average is enabled Ul command SF Sets the input filter pen model Syntax SF pl p2 terminator pl Channel number p2 Filter time constant OFF 2s 5s 10s Query SF pl Example Set the filter of channel 02 to 2 s SF 02 2s Description This setting is possible when the input filter is enabled UJ command IM 04P03B01 17E 4 13 spuewwogdg D 4 4 Setting Commands 4 5 Basic Setting Commands TD Sets the DST
75. ing figure illustrates the case when the host computer s interface is RS 232 Host computer r Terminator external 120 O 1 2W or greater Terminator external RS 422A 485 RS 232 terminal on the recorder SD A SDA N SD A TD O O SDA O SDA Gel SD B X SD B SD B TD O O SDB O Bag Lo RD A D RD A RD O i O O RD A O t BD B D B W RD B E RD O O O RD B O SG SG SG SHIELD N AN SG FG l pope A ne ee an UN pm preme L i d4d2 0 n Converter n lt 32 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 422A 485 terminal block The two wire system can be used only when using the Modbus protocol Host computer Terminator externally attached 120 Q 1 2 W or more Terminator externally attached E RS 422A 485 terminal on the recorder SDA CHA ay SE fa E gogo i am SDB E e SD B RD A RD A RDA uci RDB RDB ie SG et SG Lo FG L L HM C P Do not connect terminator to 1 to n 1 3 4 IM 04P03B01 17E 3 2 Terminal Arrangement and Signal Names and the Connection Procedure of the RS 422A 485 Communication Interface
76. lay the Setting mode screen 2 Hold down the A and keys simultaneously for 3 seconds to display the Basic Setting mode screen 3 Carry out the procedure shown in the figure below Use the A Z or C key to select values If you press the ESC key the operation is cancelled and the display returns to a higher level menu I Z Select IP Rs m 2 dress Set the IP address Subnet mask gt Sets the subnet mask To the next page 2 4 IM 04P03B01 17E 2 4 Setting the IP Address Explanation From the previous page A ES Y We riot Tt te oot IZ ot Default gateway lt ile ei lt gt Set the default gateway c CG P A Y Lu E c Z 7 i 7 4 Y MIT The settings are activated ESC DN OK 4 If you are done press the ESC key 5 Toreturn to the Operation mode 1 Press the ESC key use the A or key to select E c d and press the key 2 Press the A or 7 key to select Go E or Abe E and press the key For details on the settings consult your system or network administrator IP address OO to 1 1
77. le TC Range Type Parameter for Range of Leftmost and Selectable Range of the SR Command Rightmost Values of Span Leftmost and Rightmost Values of Span R R 0 0 to 1760 0 C 0 to 17600 S S 0 0 to 1760 0 C 0 to 17600 B B 0 0 to 1820 0 C 0 to 18200 K K 200 0 to 1370 0 C 2000 to 13700 E E 200 0 to 800 0 C 2000 to 8000 J J 200 0 to 1100 0 C 2000 to 11000 T T 200 0 to 400 0 C 2000 to 4000 N N 0 0 to 1300 0 C 0 to 13000 Ww Ww 0 0 to 2315 0 C 0 to 23150 L L 200 0 to 900 0 C 2000 to 9000 U U 200 0 to 400 0 C 2000 to 4000 WRe WRe 0 0 to 2400 0 C 0 to 24000 Difference between channels DELTA R 1760 0 to 1760 0 C 17600 to 17600 S 1760 0 to 1760 0 C 17600 to 17600 B 1820 0 to 1820 0 C 18200 to 18200 K 1570 0 to 1570 0 C 15700 to 15700 E 1000 0 to 1000 0 C 10000 to 10000 J 1300 0 to 1300 0 C 13000 to 13000 T 600 0 to 600 0 C 6000 to 6000 N 1300 0 to 1300 0 C 13000 to 13000 Ww 1999 9 to 2315 0 C 19999 to 23150 L 1100 0 to 1100 0 C 11000 to 11000 U 600 0 to 600 0 C 6000 to 6000 WRe 1999 9 to 2400 0 C 19999 to 24000 IM 04P03B01 17E 4 3 Parameter Values Resistance Temperature Detector RTD Range Type Parameter for Range of Leftmost and Selectable Range of the SR Command _ Rightmost Values of Span Leftmost and Rightmost Values of Span Pt100 PT
78. le negative responses are returned The response is generated for each erroneous command If there are multiple commands that have errors the negative responses are separated by commas The error position number is assigned to the series of commands in order starting with 1 assigned to the first command Syntax E2 ee nnnCELF When there is only one error E2 ee nnn ee nnn ee nnnCELF When there are multiple errors ee Error position 01 to 10 nnn Error number 001 to 999 Space IM 04P03B01 17E 5 1 sosuodseyH H 5 1 Response Syntax ASCII Output BINARY Output Example E2 02 001 The following types of ASCII data are available For the data formats see section 5 2 Setting data basic setting data decimal position unit information measured data Nolte SSS The data length of the BINARY header section is output according to the byte order specified status information and user information Syntax EACRLF seeeeeeeeeeeeee CIE seess ssseeeeeee CALF seess ssseeeeeee KL ENCRLF Conceptual Diagram 1 byte CR BINARY header 12 bytes length Header sum BINARY data BINARY data BINARY footer 2 bytes EBCRLF Indicates that the data is BINARY Data Length ASCII BINARY The byte value of flag identifier header sum BINARY data data sum Header Sum The sum value of data length flag identifier BIN
79. limiters and a terminator in ASCII code Example SR 01 VOLT 20mV 0 10000 terminator t t Command name Parameters and delimiters The operation of the response is different as follows After receiving a command and processing the command the SR10000 always returns a response affirmative negative response and notifies the status Therefore the PC must read this response Conventionally the response was returned in a status check command For details see section 5 1 App 6 IM 04P03B01 17E Appendix 4 Communication Commands on the SR10000 and the SR1000 2 Output Format Specifications 2 1 The procedure to switch the data output mode of the output format ASCII or binary The procedure below was used to output the measured or setting values on the SR1000 However the command has been simplified on the SR10000 The procedure is executed by sending an output request command directly The transmission of the TSx and ECS T commands to switch the data output mode is not necessary On the SR1000 Command sequence TSx ECS T and output request command On the SR10000 Command sequence Output request command 2 2 Output format The data output syntax is different on the SR10000 The data is output in the order header data and footer In addition the output data format is different For details see sections 5 2 and 5 3 as well as chapter 3 in the SR1000 Recorder C3RS 422 AlnstuctonManual Example When the s
80. llows When the integration time is 16 7 ms or 20 ms 1s When the integration time is 100 ms 2 5 s 4 5 Basic Setting Commands norder to activate the settings that are changed using the basic setting commands the settings must be saved using the YE or XE command The settings that are returned in response to a query in the basic setting mode will contain the new settings even if they are not saved Note s The settings that are changed using the YS YB YA YN YD YQ YK command and saved using the XE command are activated after power cycling the recorder When the YE command is executed communication is dropped XA Sets alarm related settings Syntax XA pl p2 p3 lt terminator gt pl Fault diagnosis output ON OFF ON OFF p2 Energize De energize the relay ENERGIZE Energize the relay when an alarm is detected De energize the relay when an alarm is detected p3 Alarm hysteresis on measurement channels OFF 0 196 0 296 0 396 0 496 0 596 0 696 0 7 0 8 0 9 or 1 0 DE_ENERGIZE Query XA Example Enable fault diagnosis output Set the relay operation to energize Set the alarm status display to hold Set the measurement alarm hysteresis to 0 596 XA ON ENERGIZE 0 5 Description For the details on the settings see the SR10000 Recorder User s Manual XI Sets the A D integral time Syntax XI pl terminator pl Integration time of the A D converter AUTO Automatically set in synch with the pow
81. mal 00 IM 04P03B01 17E 3 4 Modbus Slave Specifications Registers The registers for using the Modbus slave protocol are listed below The register data does not contain unit and decimal point position information Set them on the Modbus master Binary values are stored to the register in order from the highest byte Input register Data 30001 Measured data of CHO1 30006 Measured data of CHO6 The data is a 16 bit signed integer The value is the same as the measured data in binary output format see page 5 13 The decimal point and unit information varies depending on the range setting of each channel Valid channels vary depending on the device An error response code 2 occurs when an invalid channel is read 31001 Alarm status of the measured data of CHO1 31006 Alarm status of the measured data of CHO6 The data is a 16 bit signed integer The value is the same as the alarm status in binary output format see page 5 12 The data is entered in the A2A1A4A3 order in the register Valid channels vary depending on the device An error response code 2 occurs when an invalid channel is read 36001 List of alarms of the measured data of CHO1 to CH04 36002 List of alarms of the measured data of CHO5 to CHO8 Example of Register 36001 k 1 register 1 word gt E Level 1 Level 2 Level 3 The bit is set to 1 when an alarm occurs Level 4 36003 to 36020 Always 0 39001 Year 4 digits
82. mmand not usable IM 04P03B01 17E Sspuewwogdg DH 4 2 AList of Commands Instrument Information Output Commands These commands can be used only when using Ethernet communications Parameter Function Page serial Outputs the serial number 4 25 host Outputs the host name 4 25 ip Outputs the IP address 4 25 4 6 IM 04P03B01 17E 4 3 Input Range Parameter Values This section explains frequently used parameters The following tables show the input types VOLT TC RTD DI and 1 5V range types and the ranges for the leftmost and rightmost values of the span DC Voltage VOLT Square Root SQRT Difference between Channels DELTA Range Type Parameter for Range of Leftmost and Selectable Range of the SR Command Rightmost Values of Span Leftmost and Rightmost Values of Span 20 mV 20 mV 20 00 to 20 00 mV 2000 to 2000 In 60 mV 60 mV 60 00 to 60 00 mV 6000 to 6000 200 mV 200 mV 200 0 to 200 0 mV 2000 to 2000 Oo 2V 2V 2 000 to 2 000 V 2000 to 2000 3 6v 6v 6 000 to 6 000 V 6000 to 6000 3 20 V 20 V 20 00 to 20 00 V 2000 to 2000 2 50 V 50 V 50 00 to 50 00 V 5000 to 5000 2 e 1 5V Range Type Parameter for Range of Leftmost and Selectable Range of the SR Command Rightmost Values of Span Leftmost and Rightmost Values of Span 1 5V 1 5V Leftmost value 800 to 1200 0 8000 to 1 200 V Rightmost value 4800 to 5200 4 8000 to 5 200 V Thermocoup
83. mum Number of Simultaneous Connections and the Number of Simultaneous Use The following table shows the maximum number of simultaneous connections the number of simultaneous users and the port numbers of the recorder Function Maximum Number Number of Simultaneous Users Port Number of Connections Administrators Users Setting Measurement 3 1 att 34260 tcp server Maintenance Test 1 1 1tt 34261 tcp server Instrument 34264 udp Information server t The port numbers are fixed tt For details on administrator and user privileges see Login Function in section 1 1 IM 04P03B01 17E 2 1 uondo 29 age 19u18u13 eui Busy H 2 2 Connecting the Ethernet Interface When Connecting Only the Recorder and a PC Connect the recorder and the PC via a HUB as in the following figure Recorder 2 Tag 5 Eee ul g e nuu E 10BASE T EE ees straight cable t EE m Of Ge Recorder Hub 9 S a a e EXE c ees LC m es LIT s Loo 9
84. nections Section 2 1 Commands available to the administrator and users Section 4 2 Communication Timeout This function drops the connection with the PC if there is no data transmission for a given time at the application level see Functional Construction For example this function prevents a PC from being connected to the recorder indefinitely which would prohibit other users from making new connections for data transfer Related Topics Communication timeout setting using communication comands Section 4 2 Keepalive This function drops the connection if there is no response to the inspection packet that is periodically transmitted at the TCP level Related Topics Keepalive setting using communication comands Section 4 2 1 2 IM 04P03B01 17E 1 2 Communication Functions Using the RS 422A 485 Communication Interface C3 Option The recorder can be equipped with an optional RS 422A 485 communication interface For details on how to use the RS 422A 485 communication interface see chapter 3 Functional Construction The following figure shows the relationship between the communication function of the recorder and the RS 422A 485 communication interface Perform communication according to the respective protocol Protocol is a set of rules that two computers use to communicate via a communication line or network Communication functions of the recorder Application Setting Measurement Server Modbus Sl
85. ntax The syntax of the setting basic setting output commands see sections 4 4 to 4 7 of the instrument is given below ASCII codes see appendix 1 are used for the character codes For the Maintenance Test command syntax see section 4 9 For the Instrument Information server command syntax see section 4 10 Command example SR 02 SKIP SR 03 VOLT 2V 1500 1800 Command name 7 Delimiter Sub delimiter Parameter 02 SKIP 1800 Delimiter spuewwog H Command name SR Sub delimiter Command Name Defined using two alphabet characters Parameter Command parameters Set using alphabet characters or numerical values Parameters are separated by delimiters commas When the parameter is a numerical value the valid range varies depending on the command Spaces before and after of the parameter are ignored except for parameters that are specified using an ASCII character string unit tag and message string when spaces are valid You can omit the parameters that do not need to be changed from their current settings However delimiters cannot be omitted Example SR 01 2V lt terminator gt If multiple parameters are omitted and delimiters occur at the end of the command those delimiters can be omitted Example SR 01 VOLT lt terminator gt gt SR 01 VOLT lt terminator gt The number of digits of the parameters below i
86. nual print Time adjust Manual print Messagel Print message 1 Message2 Print message 2 Message3 Print message 3 Message4 Print message 4 Message5 Print message 5 Query XR pl Example Assign the printout of message 2 to the remote control input of terminal number 1 XR 1 Message2 YS Sets the RS 422A 485 interface C3 option Syntax YS pl p2 p3 p4 p5 lt terminator gt pl Address 1 to 32 p2 Baud rate 1200 2400 4800 9600 19200 38400 p3 Data length 7 8 p4 Parity check ODD EVEN NONE p5 Protocol NORMAL MODBUS Query YS Example Set the address to 2 the baud rate to 9600 the data length to 8 the parity check to ODD and the NORMAL protocol YS 2 9600 8 0DD NORMAL Description The settings specified by this command and saved using the XE command take effect after the recorder is power cycled If p5 is set to MODBUS Modbus slave is selected YB Sets the host name and domain name C7 option Syntax YB pl p2 lt terminator gt pl Host name up to 64 characters p2 Domain name up to 64 characters Query YB Example Set the host name to ABC and the domain name to recorder co jp YB ABC recorder co jp Description The settings specified by this command and saved using the XE command take effect after the recorder is power cycled YA Sets the IP address C7 option Syntax YA pl p2 p3 terminator pl IP address 0 0 0 0 to 255 255 255 255 p2 Subnet mask 0 0 0 0 to 255 255 255 255
87. ormation 3 and 4 are not cleared when it is output and remains at 1 while the event is occurring When multiple connections are up filters can be specified for the individual connection Therefore the status information can be held for each connection IM 04P03B01 17E uoneulnoju snjels H 6 2 The Bit Structure of the Status Information The following four groups of status information are output in response to a status information output request using the IS command For the output format see Status Information in section 5 2 Output Format of ASCII Data Status Information 1 Status Information 2 Status Information 3 Status Information 4 Bit Name Description 0 A D conversion complete Set to 1 when the A D conversion of the measurement is complete 1 d 2 Periodic printout timeout Set to 1 when the periodic printout timer expires 3 4 D a 5 6 Sp 7 Si Bit Name Description 0 Measurement drop Set to 1 when the measurement process could not keep up 1 Decimal point unit Set to 1 when the decimal point unit information is information change changed 2 Command error Set to 1 when there is a command syntax error 3 Execution error Set to 1 when an error occurs during command execution 4 5 6 7 ex Bit Name Description 0 1 Gi E 2 3 8 A 5 Chart feeding Set to 1
88. respective holders e 1st Edition February 2006 All Rights Reserved Copyright 2006 Yokogawa Electric Corporation IM 04P03B01 17E How to Use This Manual Structure of the Manual This user s manual consists of the following sections This manual does not cover error messages See the SR10000 User s Manual IM04P03B01 01E Chapter 1 Overview of the Communication Functions Gives an overview of the communication functions Chapter 2 Using the Ethernet Interface C7 Option Explains the specifications of the Ethernet interface and how to use the interface Chapter 3 Using the RS 422A 485 Communication Interface C3 Option Explains the specifications of the RS 422A 485 communication interface and how to use the interface Chapter 4 Commands Explains each command that is available Chapter 5 Responses Explains the responses that the recorder returns and the output format of the setup data and measured data Chapter 6 Status Information Explains the registers that indicate the recorder statuses Appendix Provides an ASCII character code table flow charts for outputting data from the recorder and login procedure Describes the difference of communication commands between SR10000 and SR1000 Index Index of contents ii IM 04P03B01 17E How to Use This Manual Conventions Used in This Manual Unit k Denotes 1000 Example 5 kg 100 kHz K Denotes 1024 Example 640 K
89. rter Recommended converter MODEL RC 57 by RA SYSTEMS CORP CAUTION Some converters not recommended by Yokogawa have FG and SG pins that are not isolated In this case do not connect anything to the converter s FG and SG pins unlike the figure on the previous page 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 came with the converter On some non recommended converters the signal polarity may be reversed A B or indication In this case reverse the connection IM 04P03B01 17E 3 5 uondo 9 e2ejyieyu uoneoiunuiuio cgr vzer sH eui Huish D 3 2 Terminal Arrangement and Signal Names and the Connection Procedure of the RS 422A 485 Communication Interface For a two wire system the host computer must control the transmission driver of the 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 422A Interface Exist in the System When using the four wire system up to 32 recorders can be connected to a single host computer However this may not be true if instruments that support only the RS 422A interface exist in the system
90. s fixed If the number of digits is not correct when entering the command a syntax error results Date YY MM DD 8 characters YY Year Enter the lower two digits of the year MM Month DD Day Time HH MM SS 8 characters HH Hour MM Minute SS Second Channel number 2 characters Example 01 Relay number 3 characters Example 101 IM 04P03B01 17E 4 1 Command Syntax Response Query Aquestion mark is used to specify a query By placing a query after a command or parameter the setting information of the corresponding command can be queried Some commands cannot execute queries For the query syntax of each command see sections 4 4 to 4 7 Example 1 SR pl SR Or SR p1 can be executed Example2 SA pl1 p2 SA SA pl orSA pl p2 can be executed Delimiter Acomma is used as a delimiter Parameters are separated by delimiters Sub Delimiter Asemicolon is used as a sub delimiter Byseparating each command with a sub delimiter up to 10 commands can be specified one after another However the following commands and queries cannot be specified one after another Use them independently Output commands other than BO CS and IF commands YE command Queries If there are consecutive sub delimiters they are considered to be single In addition sub delimiters at the front and at the end are ignored Example SROl VOLT SR02 VOLT terminator is taken to be SRO1 VOLT SRO2 VOLT lt
91. sure to set p2 and p3 so that p3 is greater than or equal to p2 Outputs the most recent data of the periodic printout FY pl p2 p3 lt terminator gt pl Output data type Inst Output the most recent periodic printout data instantaneous value p2 First output channel number p3 Lastoutput channel number Outputs the most recent periodic printout data of channel 01 to 04 FY Inst 01 04 IM 04P03B01 17E 4 21 4 7 Output Commands FF Syntax Example O FF p1 p2 p3 p4 utputs the FIFO data pl p2 p3 p4 lt terminator gt Operation type GET Output the data starting from the next to the previous read position Retransmit the previous output Set the read position block to the most recent acquire position block GETNEW Output the most recent data First output channel number Last output channel number The upper limit of number of blocks that are to be loaded Pen model 1 to 240 Dot model 1 to 60 If the measured data is less than the specified number of blocks only the available data is transmitted RESEND RESET Output two blocks of FIFO data from channels 01 to FF 06 GET 01 06 2 Description The FIFO buffer is of a circular type which overwrites from the oldest data when it is full The FR command is used to set the acquiring interval There are two FIFO data output formats Logging output GET Output the specified number of blocks p4 of FIFO data starting from the next to th
92. sword using up to 4 characters Alphanumeric characters and space can be used Specify using ASCII character codes Note The relationship between the login function and the user name that is used when accessing the recorder is as follows When the login function is set to USE The registered user name and password can be used to login to the recorder The user level is the level that was specified when the user name was registered When the login function is set to NOT The user name admin can be used to login to the recorder as an administrator Password is not necessary The user name user can be used to access the recorder as a user Password is not necessary There are limitations on the number of simultaneous connections or simultaneous uses of the recorder from the PC see section 2 1 For a description of the login process of the Setting Measurement server and Maintenance Test server see appendix 3 Saving the Settings To activate the settings made in the Basic Setting mode the settings must be saved IM 04P03B01 17E uondo 29 age jau jeu eui Busy H Chapter 3 Using the RS 422A 485 Communication Interface C3 Option 3 1 RS 422A 485 Communication Interface Specifications This section describes the RS 422A 485 communication interface specifications Item Specifications Terminal block type Number of terminals 6 terminal attachment screws ISO M4 nominal length of 6 mm El
93. t 20 C CU6 500 0 to 500 0 C 5000 to 5000 Cu25 o 0 00425 at 0 C CU25 500 0 to 500 0 C 5000 to 5000 IM 04P03B01 17E 4 3 Parameter Values Miscellaneous N3 Option Range Type Parameter Range of Leftmost Selectable Range of for the SR and Rightmost Leftmost and Rightmost Command Values of Span Values of Span Kp vs Au7Fe Kp 0 0 to 300 0 K 0 to 3000 PLATINEL PLATI 0 0 to 1400 0 C 0 to 14000 PR40 20 PR 0 0 to 1900 0 C 0 to 19000 NiNiMo NiMo 0 0 to 1310 0 C 0 to 13100 W WRe26 W WRe 0 0 to 2400 0 C 0 to 24000 Type N AWG14 N2 0 0 to 1300 0 C 0 to 13000 JPt50 PT3 200 0 to 600 0 C 2000 to 6000 Ni100 SAMA Ni1 200 0 to 250 0 C 2000 to 2500 Ni100 DIN Ni2 60 0 to 180 0 C 600 to 1800 Ni120 Ni3 70 0 to 200 0 C 700 to 2000 J263 B J263 0 0 to 300 0 K 0 to 3000 Cu53 CU8 50 0 to 150 0 C 500 to 1500 Cu100 CU9 50 0 to 150 0 C 500 to 1500 JPt25 PT4 200 0 to 550 0 C 2000 to 5500 Difference between channels DELTA Kp vs Au7Fe Kp 300 0 to 300 0 K 3000 to 3000 PLATINEL PLATI 1400 0 to 1400 0 C 14000 to 14000 PR40 20 PR 1900 0 to 1900 0 C 19000 to 19000 NiNiMo NiMo 1310 0 to 1310 0 C 13100 to 13100 W WRe26 W WRe 1999 9 to 2400 0 C 19999 to 24000 Type N AWG14 N2 1300 0 to 1300 0 C 13000 to 13000 JPt50 PT3 800 0 to 800 0 C 8000 to 8000 Ni100 SAMA Ni1 450 0 to 450 0 C 4500 to 4500 Ni100 DIN Ni2 240 0 to 240 0 C 2400 to 2400 Ni120 Ni3 270 0 to 270 0 C 2700 to 2700 J263 B J2
94. tax EACRLF p_l_uuu e eu CRLF ENCRLF p Physical layer E Ethernet S RS 422A 485 1 User level A Administrator u User uuuee eu User name up to 16 characters Space Example EA E A admin EN 5 10 IM 04P03B01 17E 5 3 Output Format of BINARY Data This section describes the output format of the BINARY data that is disclosed For the BINARY output format see BINARY Output on page 5 2 For other BINARY data types see Identifier on page 5 3 The measured data is output using signed 16 bit integer These integers can be understood as physical values by adding the decimal point and the unit Typical Examples to Obtain Physical Values BINARY Value Decimal Position Code Physical Value Measured Value 10000 0 10000 10000 1 1000 0 10000 2 100 00 10000 3 10 000 10000 4 1 0000 Measured Data and FIFO Data The FD FD1 command is used to output the most recent measured data The FF FEGET FERESEND and FEGETNEW command is used to output the FIFO data The decimal point position and unit can be determined using the FE command The ID number of the output format is 1 See Identifier on page 5 3 2 bytes lt ch gt Number of blocks Number of bytes 2 bytes Block 1 Block n LiL Number of Blocks This is the number of blocks Number of Bytes This is the size of one block in bytes Block BINARY data The BINARY data section
95. tax VL pl p2 p3 p4 p33 p34 terminator pl Channel number p2 Calibration correction function ON OFF p3 Correction point datum p4 Correction value p33 Correction point datum p34 Correction value Query VL pl Example Set three sets of correction points and correction values to channel 02 that is set to 2 V range measurable range 2 000 V to 2 000 V 0 000 0 001 1 000 0 998 and 2 000 2 001 When the calibration correction setting mode is revise value VL 02 ON 0 1 1000 2 2000 1 When the calibration correction setting mode is absolute value VL 02 ON 0 1 1000 998 2000 2001 Description Calibration correction is valid on models with the calibration correction CC1 option when the calibration correction function is enabled UF command The number of parameters p3 to p34 varies depending on the number of points specified by the basic setting command UQ If the input type of the source channel is VOLT TC or RTD the range of the correction points and correction values is the same as the range of the range type see section 4 3 If the measurement mode of the source channel is SCALE or 1 5V the range of the correction points and correction values is 596 to 10596 of the scaling range or 19999 to 30000 The following limitations exist spuewwogdg D p3 lt p5s lt sp31sp33 During revise value mode p3 p4 lt p5 p6 lt lt p33 p34 During absolute v
96. tems UP CHANNEL ON ONT ON ON ON Sets the periodic printout interval UR pl p2 p3 p4 lt terminator gt pl Print interval mode Auto Automatically set the interval according to the chart speed Manual Specify the interval p2 Reference time 00 to 23 hour p3 Interval 10min 12min 15min 20min 30min 1h 2h 3h 4h 6h 8h 12h 24h when p1 is Manual p4 Periodic printout mode OFF Disable periodic printout INST Print instantaneous values UR Carry out periodic printout every 2 hours with hour O as the reference Print the measured values instantaneous values at each interval UR Manual 00 2h INST Description When p1 is set to Auto the periodic printout interval synchronizes to the chart speed IM 04P03B01 17E 4 15 spuewwogdg 4 5 Basic Setting Commands Ul Syntax Query Example UJ Syntax Query Example UK Syntax Query Example UL Syntax Query Example XN Syntax Query Example Sets whether to use moving average dot model UI pl terminator p1 Use Not use moving average USE NOT UI Use moving average UI USE Sets whether to use the input filter pen model UJ pl terminator p1 Use Not use the input filter USE NOT UJ Use the input filter UJ USE Sets whether to use of partial expanded recording UK pl terminator pl Use Not use partial expanded recording USE NOT UK Use partial expanded recording UK USE Selec
97. the BO IF commands revert to their initial values when the connection to the recorder is cut After reconnecting the recorder you must reenter the settings CC Syntax Example FE Syntax Example Disconnects an Ethernet connection C7 option CC pl lt terminator gt pl Disconnect the connection 0 Disconnect the connection cc 0 Outputs decimal point position unit information and setup data FE pl p2 p3 lt terminator gt pl Output data type 0 Setup data of Setting mode 1 Decimal point position and unit information 2 Setup data of Basic Setting mode 4 Setup data file p2 First output channel number p3 Lastoutput channel number Output the setup data of the Setting commands of channel 01 through 04 FE 0 01 04 spuewwod D Description Be sure to set p2 and p3 so that p3 is greater Lo NS Syntax Example than or equal to p2 The settings of p2 and p3 are valid when p1 0 1 or 2 Outputs the most recent measured data FD pl p2 p3 lt terminator gt pl Output data type 0 Output the most recent measured data in ASCII format 1 Output the most recent measured data in BINARY format p2 First output channel number p3 Lastoutput channel number Output the most recent measured data from channel 01 to 04 in ASCII format FD 0 01 04 Description The most recent measured data indicates the E Syntax Example most recent measured data when the recorder receives the FD command Be
98. the instrument with the specified address ESC C xx CRLF _ space Response when the instrument with the specified address does not exist The causes that the condition become The instrument with the specified address does not exist is such as a command error the address not matching that of the instrument the instrument is not turned ON and the instrument not being connected via the serial interface The xx in the table indicates the instrument s address Specify the address that is assigned to the instrument from 01 to 32 Only one instrument can be opened at any one time When an instrument is opened with the ESC O command all commands on the instrument become active When an instrument is opened with the ESC O command any other instrument that is open is automatically closed Use CR LF for the terminator LF cannot be used Note The ASCII code of ESC is 1BH IM 04P03B01 17E 5 5 soesuodsoy H 5 2 Output Format of ASCII Data The following types of ASCII data are available Setting data Basic Setting data Decimal point position unit information Measured data Status information User information Note The CRLF used in this section denotes a terminator Setting Basic Setting data The FE command FEO or FE2 is used to output the data The setting basic setting data are output in the order of the listed commands in the table in section 4 2 A List of Commands However the
99. ts the printout font UL pl terminator pl Font ENGLISH GERMAN FRENCH JAPANESE UL Use English UL ENGLISH Selects the date format UL pl terminator pl Date format for displaying and printing Y M D example 2005 08 31 M D Y example 08 31 2005 D M Y example 31 08 2005 D M Y example 31 08 2005 M D Y example Aug 31 2005 XN Set to the 2005 08 31 format XN Y M D Description This setting applies to the format of the date Note shown on the display and the date printed on the periodic printout manual printout alarm printout message printout recording start printout and new chart speed printout How this setting applies to the time printout format of the alarm printout message printout recording start printout and new chart speed printout The setting specifies the format of the M D and Y M D section when the time printout format is set to M D H M M D H M S or Y M D H M S XT Syntax Query Example UE Syntax Query Example Selects the temperature unit XT pl terminator pl Temperature unit c C F F XT Use F XT F Sets whether to use the extended functions UF pl p2 p3 p4 lt terminator gt p1 Bias function USE NOT p2 Square root low cut function USE NOT p3 1 5V input low cut function USE NOT p4 Calibration correction function USE NOT Cannot be used simultaneously with the bias function UF Use all the extended functions
100. turn to the data display screen UD 0 Displaying the specified data display screen Syntax UD pl1 p2 lt terminator gt pl Fixed to 1 p2 Screen number 1 to 5 Example Display data display screen 2 UD 1 2 Switching the display channel manual switching Syntax UD pl terminator pl Fixed to 2 Example Switch the display channel UD 2 Description UD2 is valid on screens whose display channel is set to manual switching MP Starts Stops manual print Syntax MP pl terminator pl Operation type 0 Manual print start 1 Manual print stop Example Start manual print MP 0 LS Starts Stops the list setting information printout Syntax LS pl terminator pl Operation type 0 List print start 1 List print stop Example Start list print LS 0 Description List print refers to printing of settings of Setting mode SU Starts Stops the setup list basic setting information printout Syntax SU pl lt terminator gt pl Operation type 0 Setup list print start 1 Setup list print stop Example Start setup list print SU 0 Description Setup list print refers to printing of settings of Basic Setting mode MS Prints the message Syntax MS pl terminator pl Message number 1 to 5 Example Print the message of message number 3 MS 3 Description The message string is set with the SG command AC Clears the alarm printout buffer Syntax AC pl terminator pl Clear the alarm printout buffer 0 Example Clear the alarm printout
101. value closes the instrument command x pul YE YK YN eru etos te ar m ee RU Ads 4 17 YQ 4 18 YS 4 17 command syntax A command response rule cece eee eeeeeceee eee eeeeetsaeeeaeeeees 4 2 communication commands of the SR1000 App 6 connection ethernet connection RS 422A 485 sssssssseeeenee 3 2 connection example Ethernet ssesssesssss 2 8 connection example RS 422A 485 33 connection information 4 23 connection status of the Ethernet interface 2 6 IM 04P 01B01 17E Index 1 Index control COMMANAS see netten cases 4 5 ee e iii CONVEMET soc eshcscdassdeasacatusbsenateat anair aae taa carat aieiaa KERSE RES ai 3 5 correction points number of ssssseeee 4 18 D Page data length 2 4 in usi oet eet eet 3 11 date and time audacia ttt ttes 4 12 decimal point position 4 21 decimal point position output 5 7 default gateway 2 5 ele ege ee Eessen 4 2 disconnects an Ethernet connection esseeeserreees 4 21 disconnects the CONNECTION cccccceeeeeeeeeeeeeeeees 4 23 4 24 per iv DNS wn 4 17 domain name 2s 4 17 dot color oo eee 4 15 dot printing interval 4 12 IR e eee ci dees acca a A A E the doeameneneaes 4 14 Eo
102. ween the communication function of the recorder and the Ethernet interface Perform communication according to the respective protocol Protocol is a set of rules that two computers use to communicate via a communication line or network Communication functions of the recorder Settin Maintenance Measurement Server Test Server Application Login user authentication access Instrument privileges granting Information Server Mood Dedicated protocol Lower layer protocol interface Ethernet 10BASE 7 Connect the recorder and the PC using an Ethernet cable TCP Transmission Control Protocol UDP User Datagram Protocol IP Internet Protocol Setting Measurement Server You can specify settings that are approximately equivalent to those specified by front panel key operations However you cannot turn the power ON OFF set the user name and password for communications or set the customize menu or the key lock The data below can be output Data Type Output Format Measured data BINARY ASCII Setup data ASCII Most recent data of the periodic printout ASCII Status information ASCII Information on connected users ASCII The commands that can be used are Setting commands Basic Setting commands Control commands and Output commands Related Topics Commands Section 4 2 Data output format Chapter 5 IM 04P03B01 17E 1 1 suonoung uoneoiunululO2 3y JO MSIAJ9AQ BH 1 1
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