Sharp Z-336J Manual do Utilizador

RVersion 1.0Produced in June 2002Sharp Programmable ControllerModule nameFL-netUser's ManualJW-20FL5JW-20FLTJW-50FLZ-336J

[6] Status management of the FL-net ... 15-28[7] Control messag

9-23Chapter 9: Message transfers9[3] Descriptions of each commandThis section describes the "COM" settings and the items thereafter of the c

9-24Chapter 9: Message transfers9Selecting the write enable mode COM = F9(H)[Format]COM = F9(H)WMOD = 00(H) : Mode 0 (All memory write-disabled)01(H)

9-25Chapter 9: Message transfers9Monitoring relay (COM = 20(H))[Format]COM = 20(H)DSED = Segment (00 to 07, 10 to 2C(H)) See page 9-20.DADRL, H = By

9-26Chapter 9: Message transfers9Set/reset relay (COM = 30(H))[Format]COM = 30(H)DSED = Segment (00 to 07, 10 to 2C(H)) See page 9-20.DADRL, H = Byt

9-27Chapter 9: Message transfers9Set/reset timer/counter (COM = 32(H))[Format]COM = 32(H)TADRL, H = Timer-counter number (0000(H) to 03FF(H)) See pa

9-28Chapter 9: Message transfers9The current value monitor of the timers/counters (COM = 23(H))[Format]COM = 23(H)TADRL, H = Timer and counter number

9-29Chapter 9: Message transfers9Monitoring register COM = 24(H)[Format]COM = 24(H)DSEG = Segment (00 to 07, 10 to 2C(H)) See page 9-20.DADRL, H = B

9-30Chapter 9: Message transfers9Write in register (COM = 34(H))[Format]COM = 34(H)DSEG = Segment (00 to 07, 10 to 2C(H)) See page 9-20.DADRL, H = B

9-31Chapter 9: Message transfers9Ë CommandË ResponseCOM DSEG DADRL DADRH LL LH DATACOM RSLT DSEG DADRL DADRH LL LHWrite same data to register (COM = 3

9-32Chapter 9: Message transfers9Read out the system memory (COM = 44(H))[Format]COM = 44(H)SEG = Segment (08(H))SADRL,H = System memory address (0000

1-11Chapter 1: OutlineAn FL-net module (JW-20FL5/20FLT, JW-50FL, FL-net board (Z-336J)) is an interface module use to connect aprogrammable controller

9-33Chapter 9: Message transfers9Write to the system memory (COM = 54(H))[Format]COM = 54(H)SEG = Segment (08(H))SADRL, H = System memory address (000

9-34Chapter 9: Message transfers9Reading program (COM = 04(H))[Format]COM = 04(H)PSEG = Program segment (08(H), 09(H)) See page 9-20.PADRL,H = Progr

9-35Chapter 9: Message transfers9Write program (COM = 14(H))[Format]COM = 14(H)PSEG = Program segment (08(H), 09(H)) See page 9-20.PADRL, H = Progra

9-36Chapter 9: Message transfers9Read date (COM = A2(H))[Format]COM = A2(H)Y= Year (express lower two digits of Western year, 00(H) to 99(H))M= Month

9-37Chapter 9: Message transfers9Set date (COM = B2(H))[Format]COM = B2(H)Y= Year (express lower two digits of Western year in BCD. 00(H) to 99(H))M=

9-38Chapter 9: Message transfers9Read time (COM = A3(H))[Format]COM = A3(H)H= Hour (00(H) to 23(H): BCD)M= Minute (00(H) to 59(H): BCD)S= Second (00(H

9-39Chapter 9: Message transfers9Set time (COM = B3(H))[Format]COM =B3(H)H= Hour (00(H) to 23(H): BCD)M= Minute (00(H) to 59(H): BCD)S= Second (00(H)

9-40Chapter 9: Message transfers9Monitor PC operation status (COM = E8(H))[Format]COM = E8(H)MODE = 00(H): Operating01(H): Stopped operation by an ins

9-41Chapter 9: Message transfers9Halt and release halting of PC(COM = F8(H))[Format]COM = F8(H)MODE = 00(H): Release halt01(H): Halt[Function]- Halt/r

9-42Chapter 9: Message transfers9[4] Computer link error code tableDetails000106070F1310RSLT(Hexadecimal)Normally endFormat errorPC does not stop oper

2-12Chapter 2: Handling PrecautionsMake sure to follow the precautions bellow who using the JW-20FL5/20FLT, JW-50FL (hereafter referred toas this modu

9-43Chapter 9: Message transfers9[5] Two-layer communication with the EthernetIn order to communicate with the Ethernet on a different layer, use the

9-44Chapter 9: Message transfers9NoteThe two-layer communication is possible only with the computer link to the module on the FL-net fromthe host comp

9-45Chapter 9: Message transfers99-6 Remote programming and remote monitor functionsThe remote programming and remote monitor functions are methods fo

9-46Chapter 9: Message transfers9[2] Example operationThe example below shows the procedure for using the JW-100SP ladder logic programming software.F

9-47Chapter 9: Message transfers933333 Network settingsSelect whether a node (target station) that will be used to execute remote programming and remo

10-1Chapter 10: Communication Control10Chapter 10: Communication ControlA participating node list flag, an operation status flag, error status flag, l

10-2Chapter 10: Communication Control10[1] Participating nodes list flagShows the participation status of each node in the network*1: Addresses +000 t

10-3Chapter 10: Communication Control10[2] Operation status flagShows the operation information for each node*1: Addresses +040 to 077(8) are offset a

10-4Chapter 10: Communication Control10[3] Error status flagShows the error information for each node*1: Addresses +100 to 137(8) are offset addresses

10-5Chapter 10: Communication Control10[4] Local node management tableThis section shows the information about the local node as part of the network c

3-13Chapter 3: System Configuration[Connection example]- A basic system (segment) configuration consists of a 10BASE5 coaxial cable between 10m and 50

10-6Chapter 10: Communication Control10[5] Participating node management tableShows the information for the node numbers at address offset +300 for ea

11-1Chapter 11: SEND/RECEIVE function11Chapter 11: SEND/RECEIVE functionThe SEND/RECEIVE functions are exclusive SHARP functions. These can only be us

11-2Chapter 11: SEND/RECEIVE function11F-203OPCHUN-CH-STfileNF-204SENDnSDFlag status during and after the operationZero07357Carry07356Error07355Non-ca

11-3Chapter 11: SEND/RECEIVE function11Zero07357Carry07356Error07355Non-carry07354DescriptionNo responsefrom port001 0The value entered for the PORT a

11-4Chapter 11: SEND/RECEIVE function11 Sample of program (for the JW30H)When transferring 8 bytes of data from source station register ｺ1000 to the r

11-5Chapter 11: SEND/RECEIVE function11[2] RECEIVEThis function operates by the combination of F-203 (OPCH) and F-205 (RCV).(1) When the module is use

11-6Chapter 11: SEND/RECEIVE function11- Setting range of Dｺ0000 to ｺ1577b0000 to b177709000 to 99777E0000 to E1777@ｺ0000 to @ｺ1574@b0000 to @b1774@09

11-7Chapter 11: SEND/RECEIVE function11 Sample of program (for the JW30H)When transferring 8 bytes of data from source station register ｺ1000 to the r

11-8Chapter 11: SEND/RECEIVE function1111-2 Timeout time for SEND/RECEIVE instructionsEnter a timeout time for the SEND/RECEIVE functions in the param

12-1Chapter 12: Parameters12Chapter 12: ParametersThis chapter describes the parameters that can be set in the module. The parameter area is set in th

4-1                              Chapter 4: Name and Function of Each Part4Chapter 4: Name and Function of Each Part4-1 JW-20FL5Name Function1Display

12-2Chapter 12: Parameters1212-2 Details of each of the parameters(1) Enable/disable the use of the transmission buffer (Setting parameter address 37(

12-3Chapter 12: Parameters1212-3 How to set parameters[1] When the JW-20FL5/20FLT or Z-366J is usedSet parameters of JW-20FL5/20FLT and Z-336J as opti

12-4Chapter 12: Parameters12Switch SW3 setting 0 1 2 3 4Parameter address(8)(system memory)#0300 to#0377#1400 to#1477#1500 to#1577#1600 to#1677#1700 t

12-5Chapter 12: Parameters12Parameter address (System memory address)Parameteraddress(8)Set value for switch SW3Details of parameter(Details ----- See

13-1Chapter 13: Troubleshooting13Chapter 13: Troubleshooting13-1 Before you conclude that the machine is faulty Check itemDescription1 Check whether t

13-2Chapter 13: Troubleshooting1313-2 General network problems and countermeasures[1] Problems concerning the network and appropriate countermeasures

13-3Chapter 13: Troubleshooting13[2] Problems concerning the network and appropriate countermeasures (whencommunications are unstable)Symptom Check po

13-4Chapter 13: Troubleshooting13[3] How to check an IP address using the Ping function on a personal computerEven without specialized tools, such as

13-5Chapter 13: Troubleshooting1313-3 General precautions related to the FL-netFor details about the FL-net transfer route standards, see the previous

13-6Chapter 13: Troubleshooting1313-4 Error indicators on the display panelIf an error occurs while communicating with the module, the error details c

4-2Chapter 4: Name and Function of Each Part44-2 JW-20FLT1234567890ONOFFSHIELDJW-20FLTLN TX RX 12V T PE HES7 S6 S5 S4 S3 S2 S1 S 01Display panel2Conne

14-1Chapter 14: Specifications14Chapter 14: Specifications14-1 JW-20FL5/20FLT[1] General specifications[2] Communication specifications(1) Communicati

14-2Chapter 14: Specifications14[3] External dimension drawings JW-20FL5 JW-20FLTONOFFFGRESETSHIELDJW-20FL5351161106130LN TX RX 12V T PE HES7 S6 S5 S4

14-3Chapter 14: Specifications1414-2 Z-336J[1] General specifications[2] Communication specifications(1) Communication section specifications*1: Maxim

14-4Chapter 14: Specifications1414-3 JW-50FL[1] General specifications*1: The JW-50FL cannot be installed on a W70H/100H.[2] Communication specificati

14-5Chapter 14: Specifications14Item SpecificationsCommunication control method Master-less token methodNumber of stations supported Maximum 254Commun

15-1Chapter 15: Appendix15Chapter 15: Appendix15-1 System configuration guide[1] Brief description of the EthernetEthernet is a standardized LAN (Loca

15-2Chapter 15: Appendix15[2] 10BASE5 Specifications10BASE5 is a connection method for creating an Ethernet network using a coaxial cable approximatel

15-3Chapter 15: Appendix15[3] 10BASE-T Specifications10BASE-T is a connection method for creating an Ethernet network using twisted pair cables. The &

15-4Chapter 15: Appendix15[4] Other Ethernet Specifications(1) 10BASE210BASE2 is a connection method for creating an Ethernet network using a coaxial

15-5Chapter 15: Appendix1515-2 Examples of system configurations[1] Small scale configurationUsing a single, multi-port transceiver or hub, you can co

4-3                              Chapter 4: Name and Function of Each Part44-3 Z-336J21OFF  SWA ON SW1SW1SWASW6ON8901234567SW6ONS0S1 S2 S3 S4 S5 S6

15-6Chapter 15: Appendix15[2] Basic configurationConnect several multi-port transceivers and hubs to a single coaxial cable, and construct a network o

15-7Chapter 15: Appendix15[3] Configuration of a large-scale networkBy connecting several 10BASE5 network segments using repeaters, you can construct

15-8Chapter 15: Appendix15[4] Configuration of a long distance distribution systemWhen constructing a large-scale network, if the distance between net

15-9Chapter 15: Appendix15[5] Configuration of local concentrationsIn a location where several dozen devices are concentrated in close proximity, a ne

15-10Chapter 15: Appendix15[6] Configuration combining local and long distance distributionIn the basic configuration, if a specific controller is loc

15-11Chapter 15: Appendix15[7] Principles of the FL-net systemThe goal of an FL-net is real-time communication between controllers, such as programmab

15-12Chapter 15: Appendix1515-3 Definition of network systems[1] Communication protocol standardsThe term "Communication protocol" refers to

15-13Chapter 15: Appendix15FixedDevice addressNetwork address[3] Physical implementations of an FL-netThere are five physical implementations of an Et

15-14Chapter 15: Appendix15[5] FL-net sub net maskThe sub net mask on an FL-net is always "255.255.255.0." The user does not need to set th

15-15Chapter 15: Appendix15[8] FL-net data format(1) Outline of the FL-net data formatData that are sent and received over the FL-net are packed in ea

4-4Chapter 4: Name and Function of Each Part44-4 JW-50FLNote: Only 10BASE5 or 10BASE-T protocol is used. Mixed use of these two types is not permitted

15-16Chapter 15: Appendix15One frame of FL-net data that can be monitored in a communication circuit is shown below. In theexample below, 128 bytes of

15-17Chapter 15: Appendix15(2) FL-net header formatThe FL-net header is 64 to 96 bytes long. FL-net headerAn FL-net header is added to every frame, to

15-18Chapter 15: Appendix15Each message has a transaction code for requesting or responding in its header. It is used to identifythe message frame. Ta

15-19Chapter 15: Appendix1515-4 Network control of the FL-net[1] Token control of the FL-net(1) TokenBasically, a node can send data whenever it holds

15-20Chapter 15: Appendix15(2) Flow of the tokenBasically, only one token exists on the same network.If there are two or more tokens on the same netwo

15-21Chapter 15: Appendix15(3) Token and dataThere are six data patterns that can be attached to and sent with a token, as follows. Token and dataNo.1

15-22Chapter 15: Appendix15(4) Interval between frames (minimum allowable interval between frames)The time interval after a node receives a token unti

15-23Chapter 15: Appendix15[2] Joining and leaving an FL-net network(1) Participation in the FL-netEach node monitors the circuit while the FL-net sta

15-24Chapter 15: Appendix15 Participation in an existing networkWhen the JW-50FL receives a token within the participating token detection time, it co

15-25Chapter 15: Appendix15(2) Leaving an FL-net networkEach node checks the node numbers each time it receives a token frame. If the JW-50FL does not

5-1                              Chapter 5: Installation5Chapter 5: Installation5-1 Installation of JW-20FL5/20FLTThis section describes the installat

15-26Chapter 15: Appendix15[3] Node status controlThe status control of nodes consists of a local node management table, a participating nodes manage-

15-27Chapter 15: Appendix15[5] FL-net Participating node management table(1) Basic functionsThe status of each node is monitored by the management tab

15-28Chapter 15: Appendix15[6] Status management of the FL-net(1) Basic functionsControl parameters related to the network.(2) Management data Network

15-29Chapter 15: Appendix1515-5 Parts needed to build a network[1] Parts needed to configure an EthernetThe parts needed to configure an Ethernet are

15-30Chapter 15: Appendix15Secure using cable ties etc. (two positions)Transceiver cable (AUI cable)Leave enough extra length to be able to ensure the

15-31Chapter 15: Appendix15 Installation of a tap in the main case of a transceiver Transceiver (tap type)To connect a tap type transceiver to a coaxi

15-32Chapter 15: Appendix15 Transceiver (connector type)Install the transceiver connector on a coaxial cable. Then, connect the transceiver to the con

15-33Chapter 15: Appendix15 Multi-port transceiverThe tap type transceiver and connector type transceiver can only be used to connect one terminal. Am

15-34Chapter 15: Appendix15 RepeaterA repeater is used to relay or transfer signals. It is used for communication between segments usingdifferent medi

15-35Chapter 15: Appendix15(2) Coaxial cableCoaxial cable consists of a center conductor and an external conductive layer that functions as ashield. C

5-2Chapter 5: Installation55-2 Installation of Z-336JBoard dimensions and assembled dimensions of the Z-336J are shown below. Board dimensions Assembl

15-36Chapter 15: Appendix15(4) Relay connectorThis connector is used to make a connection between coaxial cables. Although the repeater is usedto exte

15-37Chapter 15: Appendix15(6) Ground terminal of a coaxial cableThis device is used to prevent communication data errors that may be caused by electr

15-38Chapter 15: Appendix1510BASE5 connector (male)LED10BASE-T connector (female)Coaxial cable10BASE-TTransceiverTransceiver cable (AUI cable)(8) 10BA

15-39Chapter 15: Appendix15(9) Coaxial/optical converter, repeaterThis device converts electrical signals on a coaxial cable (10BASE5/10BASE2) into op

15-40Chapter 15: Appendix15[3] 10BASE-T related items(1) HubA hub connects a number of twisted pair cables in a10BASE-T installation and it has a repe

15-41Chapter 15: Appendix15(2) 10BASE-T cableThis cable is also called "twisted pair cable" or "twisted couple cable." Two copper

15-42Chapter 15: Appendix1515-6 Installation of an FL-net network[1] Wiring 10BASE5 coaxial cable(1) Laying and connecting cablesVarious installation

15-43Chapter 15: Appendix15(3) Major coaxial cable installation specificationsThe primary coaxial cable installation requirements are as follows: Coax

15-44Chapter 15: Appendix15 Remove the aluminum braided screen around the cable1. Remove aluminum screen around the cable2. Remove the aluminum tape o

15-45Chapter 15: Appendix15 Assemble the coaxial cable connectorNote: The gap between the center pin and the insulator should not be larger than 1 mm.

Thank you for purchasing the FL-net module (board) for use with the sharp programmable controller.Please familiarize yourself with the module by readi

5-3                              Chapter 5: Installation5J-board CPU boardTotal number of boards able to be mounted includingZ-336J and other communic

15-46Chapter 15: Appendix15 Handling and installation procedures1. Names of the parts in the transceiverSecuring screwMarkers every 2.5 m on the coaxi

15-47Chapter 15: Appendix152. Insert a shield crimping pin into the tap case.3. Tighten the case screw so that it will not loosen.4. Place the tap cas

15-48Chapter 15: Appendix15 Insert into the transceiver tap frame and coaxial cableNote: When inserting a frame, make sure that the cable is at the ce

15-49Chapter 15: Appendix156. Tighten the core probe using a special spanner.Note: That completes the installation of a tap connector. The test method

15-50Chapter 15: Appendix158. If you think the shield-crimping pin or the core probe may be bent, pull them out. If they areinserted improperly, you

15-51Chapter 15: Appendix15(6) Installation of terminators (terminating resistors)Insulation on connectors and terminatorsShown below is a method for

15-52Chapter 15: Appendix15(7) Installation of a transceiver cableAn example of how to install a transceiver and transceiver cable is shown below. An

15-53Chapter 15: Appendix15 Installation example of a transceiver and transceiver cable: 1An example of an installation on a wall (3)Wooden board Wood

15-54Chapter 15: Appendix15 Installation example of a transceiver and transceiver cable: 2An example of an installation in a ceilingAn example of an i

15-55Chapter 15: Appendix15(8) Installation of a ground terminal for a coaxial cableA method for installing a grounding terminal for a coaxial cable i

5-4Chapter 5: Installation5[2] Address allocation of I/O relayThis section describes I/O relay addresses allocated to the Z-336J.(1) When mounted on Z

15-56Chapter 15: Appendix15[2] 10BASE-T (UTP)(1) How to create a 10BASE-T (UTP) cable Strip the sheath on a 10BASE-T (UTP) cableCut the sheath 40 mm a

15-57Chapter 15: Appendix15 Insert the UTP cable signal lines into the connectorInstall the signal lines in the correct order, and check to make sure

15-58Chapter 15: Appendix1515-7 Grounding the FL-net system[1] Outline of the grounding procedures for the FL-net systemThis section uses an example o

15-59Chapter 15: Appendix15[2] Wiring power lines and grounding equipmentThis section describes how to wire power lines and ground lines in a distribu

15-60Chapter 15: Appendix15[3] Wiring the power lines and grounding the network equipment in an FL-netThis section describes how to wire the power lin

15-61Chapter 15: Appendix15[4] Installation of network equipment in an FL-netShown below is an example installation of network equipment in an FL-net

15-62Chapter 15: Appendix15[5] Wiring and grounding through wiring ducts and conduitsShown below are methods for wiring and grounding through wiring d

15-63Chapter 15: Appendix15CableModule (device)Hub ect.FL-net installation check sheetCommunication line name: Station number:Date checked:Item to che

I-1IAlphabetical Index[A]Address allocation of I/O relay ...

I-2IConnection/Wiring... 6-1Con

5-5                              Chapter 5: Installation5(2) When mounted on Z-313JThe number of boards available mounted on the Z-336J including othe

I-3I[G]General network problems and countermeasures ... 13-2General precautions re

I-4IMemory address expression format... 9-20Message other th

I-5IPrecautions for laying and hooking up ... 15-42Principles of t

I-6ISpecifications ... 14-

I-7I[U]Upper layer status ... 10-

5-6Chapter 5: Installation5(3) When mounted on Z-511JThe number of boards available mounted on the Z-336J including other communication boards istwo a

5-7                              Chapter 5: Installation5 When using two communication boards (Z-336J) Switch settingThe set switches SW1 and SWA on t

5-8Chapter 5: Installation55-3 JW-50FL(1) Installation of cable for option moduleInstall the optional cable on the basic rack panel that installed JW-

6-1Chapter 6: Connection/Wiring6Chapter 6: Connection/Wiring6-1 Installing an Ethernet cableWorkers who will install or hook up an Ethernet cable must

6-2Chapter 6: Connection/Wiring66-2 Connection[1] Connection of JW-20FL5This paragraph describes how to connect 10BASE5 cable to the JW-20FL5.(1) Conn

6-3Chapter 6: Connection/Wiring6(2) Wiring the power sourceWhen a 10BASE5 is used, 12 VDC power should be supplied to the transceiver.Supply power to

6-4Chapter 6: Connection/Wiring6[2] When connecting to a JW-20FLTConnect a 10BASE-T twisted pair cable to the 10BASE-T connector on the JW-20FLT.10BAS

Safety PrecautionsRead this manual and attached documents carefully before installation, operation, maintenance and check-ing in order to use the mach

6-5Chapter 6: Connection/Wiring6[3] Connection of Z-336J(1) When connecting to a 10BASE5This paragraph describes how to connect 10BASE5 cable to the Z

6-6Chapter 6: Connection/Wiring6 Wiring the power sourceWhen a 10BASE5 is used, 12 VDC power should be supplied to the transceiver.Supply power to the

6-7Chapter 6: Connection/Wiring6(2) When connecting to a 10BASE-TConnect a 10BASE-T twisted pair cable to the 10BASE-T connector on the Z-336J.21OFF  

6-8Chapter 6: Connection/Wiring6[4] Connection of JW-50FL(1) Connection of 10BASE5This paragraph describes how to connect 10BASE5 cable to the JW-50FL

6-9Chapter 6: Connection/Wiring6(2) When connecting to a 10BASE-TConnect a 10BASE-T twisted pair cable to the 10BASE-T connector on the JW-50FL.10BASE

7-1Chapter 7: Computer Link Function7Chapter 7: Use GuideMax. 500 mSegment: Coaxial cable: Transceiver cable (AUI cable): Singe port transceiver: Mult

7-2Chapter 7: Computer Link Function7If the distance between nodes is greater than 500 m, connect a repeater as shown below, or to increasethe number

7-3Chapter 7: Computer Link Function7The example shown below allows up to 2,500m between nodes. In order to extend communicationdistance, link cables

7-4Chapter 7: Computer Link Function7Parameters related to the system configuration are summed up below. General specifications for configuring an Eth

7-5Chapter 7: Computer Link Function7[3] IP addresses on an EthernetIn general, the UDP/IP uses a 32-bit logical address called the "IP address.&

3) Use Danger- Don't touch the terminal while the power is being supplied or you may have an electric shock.- Assemble the emergency stop circuit

7-6Chapter 7: Computer Link Function77-2 FL-net[1] Description of the FL-net(1) The FL-net conceptFL-net is an FA control network that uses an Etherne

7-7Chapter 7: Computer Link Function7(2) FL-net protocolThe FL-net consists of the following 6 protocol layers.FL-netprotocol FA link protocolNote: Th

7-8Chapter 7: Computer Link Function7(4) FL-net's IP address schemeEach node in the FL-net should be set independently using class C addresses. A

7-9Chapter 7: Computer Link Function7[3] Data communication typeFL-net data communication supports both "cyclic transfer" and "message

7-10Chapter 7: Computer Link Function7(2) Message transferIn the message transfer operation, the JW-50FL sends data non-cyclically.Normally, when a re

7-11Chapter 7: Computer Link Function7(2) Message transferThe maximum amount of data that can be transferred in one message frame is 1024 bytes (exclu

7-12Chapter 7: Computer Link Function7[6] Data area and memory Data area and memoryFL-net communication moduleCyclic transferCommon memory area 1Commo

7-13Chapter 7: Computer Link Function7[7] Communication management tableThe status of each node is controlled using an individual node management tabl

7-14Chapter 7: Computer Link Function7(2) Participating node management tableThe participating node management table contains data related to the node

7-15Chapter 7: Computer Link Function7[8] Cyclic transfer and data area(1) Outline of the cyclic transfer processThe cyclic transfer process is a func

    User's ManualChapter 1: OutlineChapter 2: Handling PrecautionsChapter 3: System ConfigurationChapter 4: Name and Function of Each PartChapte

7-16Chapter 7: Computer Link Function7(2) Common memoryThe description of the common memory is as follows.1 The common memory allows the memory to be

7-17Chapter 7: Computer Link Function7The common memory can also be used exclusively as a receiving area. Example 2: Common memory during a cyclic tra

7-18Chapter 7: Computer Link Function7(4) Guarantee of simultaneityThe cyclic transfer divides data into frames, depending on the amount of data being

7-19Chapter 7: Computer Link Function7 [9] Message transfers(1) Outline of the message transfer processThe message transfer process is a function that

7-20Chapter 7: Computer Link Function7(2) Table of support messages Table of support messagesNo. Message Request Response Pages to refer1Read byte-blo

7-21Chapter 7: Computer Link Function7(3) Details of the support messages11111 Read byte-block dataThis is a message function used to read a virtual a

7-22Chapter 7: Computer Link Function722222 Write byte-block dataThis is a message function used to write to a virtual address space (32-bit address s

7-23Chapter 7: Computer Link Function733333 Read word-block dataThis is a message function used to read a virtual address space (32-bit address space)

7-24Chapter 7: Computer Link Function744444 Write word-block dataThis is a message function used to write to a virtual address space (32-bit address s

7-25Chapter 7: Computer Link Function75 5 5 5 5 Read network parametersThis is a function used to read the network parameter data for a target node th

Table of ContentsChapter 1: Outline ... 1-1Chapter

7-26Chapter 7: Computer Link Function766666 Write network parametersThis is a function used to change the network parameter data of a receiving node t

7-27Chapter 7: Computer Link Function777777 Start, stop commandsThis is a function used to remotely start and stop the operation of equipment that is

7-28Chapter 7: Computer Link Function788888 Read profileThis is a function used to remotely set the system parameters of a device profile that is the

7-29Chapter 7: Computer Link Function799999 Read log dataThis is a function used to read the log data of the receiving node.00000 Clear log dataThis i

7-30Chapter 7: Computer Link Function7qqqqq Return messageThis is a function used to send back a message that has been received.The FL-net automatical

8-1Chapter 8: Cyclic Transfer8Chapter 8: Cyclic TransferCommonmemory areaArea 1 8K bits (8192 bits = 1024 bytes)8.5K wordsArea 2 8K words (8192 words

8-2Chapter 8: Cyclic Transfer8Notes on the common memory areasThe common memory areas (area 1 and 2) can also be set using the following procedures.1.

8-3Chapter 8: Cyclic Transfer88-1 Setting proceduresThis section describes all of the FL-net module setting procedures. For details about message tran

8-4Chapter 8: Cyclic Transfer88-2 Areas that can be allocated as the common memory areaThe data memory area that can be allocated as the common memory

8-5Chapter 8: Cyclic Transfer8(2) For the JW30H or J-board (Z-500 series)- The relationship between the control module (on which the memory module is

(1) Cyclic transfer... 7-10(2) Messag

8-6Chapter 8: Cyclic Transfer8(3) For the JW50H/70H/100H* ｺ1300 to ｺ1477 (file addresses 001300 to 001477) are for shared use with the general-purpose

8-7Chapter 8: Cyclic Transfer88-3 Parameter settings for cyclic transfersThe parameters related to cyclic transfers are as follows.Corresponds to 1 to

8-8Chapter 8: Cyclic Transfer8[1] Word addresses used for the top addressThe top address entered in the parameters for cyclic transfers on the FL-net

8-9Chapter 8: Cyclic Transfer8(2) For the JW30H or J-board (Z-500 series)File 0JW30H/J-board (Z-500 series)addressTop address set in FL-net cyclictran

8-10Chapter 8: Cyclic Transfer8JW30H/J-board (Z-500 series)addressTop address set in FL-net cyclictransferByte address(8)File address(8)Word unit: Oct

8-11Chapter 8: Cyclic Transfer8(3) For the JW50H/70H/100HJW30H/J-board (Z-500 series)addressTop address set in FL-net cyclictransferByte address(8)Fil

8-12Chapter 8: Cyclic Transfer8From the previous page- The relationship between the PC model, the memory module that is installed, and file memory is

8-13Chapter 8: Cyclic Transfer88-4 Communication time[1] Token round timeThe token round time can be obtained as follows.mToken round time = ∑ △Tnn=1(

9-1Chapter 9: Message transfers9*1Client functionUseDo not useUseDo not useUseDo not useUseDo not useUseDo not use81(H)83(H)81(H)80(H)82(H)00(H)Messag

9-2Chapter 9: Message transfers99-1 Message sending procedures and data reception detailsThis section describes procedures used for the settings neede

(3) Execution condition ... 9-21(4) Table of c

9-3Chapter 9: Message transfers9From the previous page22222 Setting transmission buffer (set the sending details)Specify the [information section] and

9-4Chapter 9: Message transfers99-2 Transmission bufferThis section describes the transmission buffer that is used for sending and receiving data for

9-5Chapter 9: Message transfers9FL-net board Host J-board CPU board DetailsZ-336JZ-300 series Z-311J/312J/313J See belowZ-500 series Z-511J Next page[

9-6Chapter 9: Message transfers9(2) For the JW30H or J-board (Z-500 series)- The relationship between the control module (on which the memory module i

9-7Chapter 9: Message transfers9(3) For the JW50H/70H/100H* ｺ1300 to ｺ1477 (file addresses 001300 to 001477) are for shared use with the general-purpo

9-8Chapter 9: Message transfers99-3 Message transaction codes and execution conditionsThe transaction codes (TCD) and execution conditions for the mes

9-9Chapter 9: Message transfers99-4 Use of virtual address space and PC memory spaceThis section describes the addresses used in the host PC by the FL

9-10Chapter 9: Message transfers9PC memory spaceVirtual address spaceHighwordLow wordByte block Word blockRelay areaｺ 0000 to ｺ 00770x00000x0000 to 0x

9-11Chapter 9: Message transfers9(2) For the JW30H or J-board (Z-500 series) Files 0PC memory spaceVirtual address spaceHighwordLow wordByte block Wor

9-12Chapter 9: Message transfers9From the previous pagePC memory spaceVirtual address spaceHighwordLow wordByte block Word blockSpecial I/O parameterT

[1] General specifications ... 14-3[2] Comm

9-13Chapter 9: Message transfers9 Files 1 to 3 and 10 to 2C(H)- The relationship between the control module (on which the memory module is installed)

9-14Chapter 9: Message transfers9* When the timer/counter is set to use 1024 points, ｺ1300 to ｺ1400 cannot be used as general-purpose relays.(3) For t

9-15Chapter 9: Message transfers9 Files 1 to 7- Relationship between the host PC (memory module) and the file memory is as follows.PC memory addressVi

9-16Chapter 9: Message transfers99-5 Computer link function(Compatible with Satellite net: SHARP's proprietary message format)The computer link f

9-17Chapter 9: Message transfers9Command page 9-14.Transmissionbuffer address(8)Details+2000Header (40 bytes)- Normally, all 40 bytes to 00(H).When yo

9-18Chapter 9: Message transfers9From the previous page33333 Receive (response details)The details of the data received (response) from the node to co

9-19Chapter 9: Message transfers9[2] Basic format of computer link commands(1) Communication formatWhen a computer link is used, data sent from this n

9-20Chapter 9: Message transfers9(2) Memory address expression formatThe format expressing memory address contained in the command (command text/respo

9-21Chapter 9: Message transfers9Write enable mode DetailsMode 0Mode 1Mode 2Writing to all of memory is prohibitedWriting is only enabled to data memo

9-22Chapter 9: Message transfers9(4) Table of commands04(H)9-34Reading program14(H)9-35Write program20(H)9-25Monitoring relay23(H)9-28The current valu