2. Function Switches ... 2-30Types ...
21. Operation of ZM-300 Main Menu 2-25LCD Control Terminal OperationsNot Use Network TableIn the following cases, select [Not Use Network Table].• Scr
2-26 1. Operation of ZM-300 Main MenuConnection with ZM-80NU/80NU2 on ZM-3001. Select either [10BASE-T] or [AUI] for the connecting method.2. Set the
21. Operation of ZM-300 Main Menu 2-27LCD Control Terminal Operations5. SRAM/Clock• To use the built-in clock of the ZM-300 series or to use the SRAM
2-28 1. Operation of ZM-300 Main MenuDate and Time Setting1. Move the cursor using the [←] / [→] switch, and change the value by pressing the [+] / [
21. Operation of ZM-300 Main Menu 2-29LCD Control Terminal Operations7. Extended Function SettingWhen the [Editor: MJ1] switch on the Main Menu screen
2-30 2. Function Switches2. Function SwitchesTypes• There are eight function switches provided.[SYSTEM], [F1], [F2], [F3], [F4], [F5], [F6], [F7][SYS
22. Function Switches 2-31LCD Control Terminal OperationsUser-defined Function Switches [F1] to [F7]• User-defined function switches [F1] to [F7] do n
2-32 3. Errors Displayed on the ZM-300 Series3. Errors Displayed on the ZM-300 SeriesThere are five kinds of error messages displayed on the ZM serie
23. Errors Displayed on the ZM-300 Series 2-33LCD Control Terminal OperationsSolution1. Confirm link unit settings. (After making settings, cut power
2-34 3. Errors Displayed on the ZM-300 SeriesError Messages for Network Communication• EthernetError Message Contents SolutionEthernet Error: XXXX Th
7. PLC2Way...3-31PLC2Way...
23. Errors Displayed on the ZM-300 Series 2-35LCD Control Terminal Operations2. Check3. WarningAn error may be displayed on the Main Menu screen durin
2-36 3. Errors Displayed on the ZM-300 Series4. SYSTEM ERRORWhen a system error is detected, the following error screen is displayed.ERROR: XX1: Wat
1. 1 : 1 Connection2. 1 : n Connection (Multi-drop)3. n : 1 Connection (Multi-link 2)4. n : 1 Connection (Multi-link)5. Universal Serial Communication
31. 1 : 1 Connection 3-1Serial Communications1. 1 : 1 Connection1 : 1 Connection• One set of the ZM-300 series is connected to one PLC (1 : 1 connecti
3-2 1. 1 : 1 ConnectionWiringPrepare the communication cable with the PLC on your side. Refer to the following information for the cable. For more
31. 1 : 1 Connection 3-3Serial CommunicationsRS-422/485 Connection• Connect twist-pair cables between +SD/−SD and +RD/−RD.• If the PLC has the termina
3-4 1. 1 : 1 ConnectionPLC SelectionSelect the PLC that is connected.• Setting Position[System Setting] → [PLC Type] → [Select PLC Type] dialogCommun
31. 1 : 1 Connection 3-5Serial Communications-[Start Time]Set a time delay in seconds in starting communications on the ZM-300 series to avoid a delay
3-6 1. 1 : 1 ConnectionSystem Memory[Read Area]/[Write Area] of the system memory must be secured for communications between the ZM-300 series and th
31. 1 : 1 Connection 3-7Serial Communications• SCRN_No. (n + 2) Screen number commandUse example: To specify a screen number from the PLC:When “D0” is
2. MITSUBISHI PLC... 5-8Available PLCs...
3-8 1. 1 : 1 Connection[Write Area] (3 words)*This is an area where the screen status is written. Consecutive three words from the specified memory
32. 1 : n Connection (Multi-drop) 3-9Serial Communications2. 1 : n Connection(Multi-drop)1 : n ConnectionOne ZM-300 series is connected to multiple PL
3-10 2. 1 : n Connection (Multi-drop)ZM-71SE SettingThe following settings must be made on the ZM-71SE editor. Only the points different from those
33. n : 1 Connection (Multi-link 2) 3-11Serial Communications3. n : 1 Connection (Multi-link 2)Multi-link 2• One PLC is connected to a maximum of four
3-12 3. n : 1 Connection (Multi-link 2)• The ZM-300 and ZM-42 to 82 series can be used together. The ZM-42 to 82 series can be the master station.
33. n : 1 Connection (Multi-link 2) 3-13Serial CommunicationsTerminating Resistance Setting• The terminating resistance of the ZM-300 series should be
3-14 3. n : 1 Connection (Multi-link 2)2. When the PLC is connected to ZM-300 series master station via RS-422/485:ZM-71SE SettingThe following setti
33. n : 1 Connection (Multi-link 2) 3-15Serial Communications[Send Delay Time] (0 to 255) (Unit: ×1 msec)Set a time delay in sending the response to t
3-16 4. n : 1 Connection (Multi-link)4. n : 1 Connection (Multi-link)Multi-link• One PLC is connected to multiple ZM-300 series. (Maximum connectabl
34. n : 1 Connection (Multi-link) 3-17Serial CommunicationsWiringConnection with Link UnitUse the RS-485 2-wire connection. (It is recommended that t
9. FUJI PLC ...5-60Available PLCs.
3-18 4. n : 1 Connection (Multi-link)When connecting directly to the CPU of the MITSUBISHI QnA series:Use the GD port of dual port interface ZM-1MD2.
34. n : 1 Connection (Multi-link) 3-19Serial Communications[Total] (2 to 32)Set the total number of the ZM-300 series included in the connection.[Retr
3-20 5. Universal Serial Communications5. Universal Serial CommunicationsUniversal Serial Communications• A general purpose computer or an ASCII unit
36. ZM-Link 3-21Serial Communications6. ZM-LinkZM-Link• “ZM-Link” is the network where the computer reads from and writes to the internal memory of th
3-22 6. ZM-LinkWiringCableUse exclusive cable (order product) for connection with a computer. The shielded frame ground of must be connected to the
36. ZM-Link 3-23Serial CommunicationsRS-485 (ZM-300 series: maximum 31 sets)Wiring example of above (a) and (b)CN1CN1CN1MJ2/1MJ2/1 MJ2/1abExclusive ca
3-24 6. ZM-LinkZM-71SE SettingThe ZM-71SE settings required for ZM-Link are explained.ZM-Link Setting1. Click [System Setting] → [ZM-Link Setting].2.
36. ZM-Link 3-25Serial CommunicationsProtocolRead (with sum check and CR/LF)STXCommandResponse(Normal communication)Read Command*111111112222222184412
3-26 6. ZM-LinkWrite (with sum check and CR/LF)1111222218440064H30H31H02HAB 1202H03H30H30H36H34H42H41H32H31H34H31H 34H32H 33H31H 33H32H01H02H30H32H30
36. ZM-Link 3-27Serial CommunicationsData Items for Protocols• Transmission control code: 1 byte• ZM-300 port number: 2 bytesPort numbers are used so
17. SAMSUNG PLC ... 5-102Available PLCs...
3-28 6. ZM-Link- Type-AddressSpecify the memory address to be accessed.- Expansion codeSet the slot number of the SPU memory of the MITSUBISHI PLC or
36. ZM-Link 3-29Serial CommunicationsSum Check Code (SUM): 2 bytesData is added up (SUM), and the lower one byte (8 bits) of the sum is converted into
3-30 6. ZM-Link1-byte Character Code List2SP!"#$%&’()+,./30123456789:;<=>?4@ABCDEFGHIJKLMNO5PQRSTUVWXYZ[]^_6’abcdefghijklmno7pqrstuvwx
37. PLC2Way 3-31Serial Communications7. PLC2WayPLC2Way• The “PLC2Way” function is an original network function where one ZM-300 series can be connecte
3-32 7. PLC2Way• Data transfer between PLCsThe PLC memory data can be transferred to another PLC in blocks using a macro command.Connection at the CN
37. PLC2Way 3-33Serial CommunicationsWiringTwo kinds of cables are available for PLC2Way connection at the MJ port. Cable connections are explained.C
3-34 7. PLC2Way• Connection example with MITSUBISHI A1SJ71UC24-R4 (1 set)• Connection example with MITSUBISHI A1SJ71UC24-R4 (3 set)Terminating Resist
37. PLC2Way 3-35Serial CommunicationsZM-71SE Setting – System SettingPLC model selection and parameter setting to be made on the ZM-71SE editor for th
3-36 7. PLC2Way4. Select the PLC model to be connected at the MJ port. Click the [Setting] button. The [Type Setting] dialog is displayed. Select
37. PLC2Way 3-37Serial Communications[Return Time] (×10 sec)When the PLC in the PLC2Way communication is turned off, data read from the PLC is tempora
26. SAIA PLC...5-128Available PLCs..
3-38 7. PLC2WaySetting the PLC Memory Connected at the MJ Port1. Open the [Memory Input] dialog for the part where the PLC memory connected at the MJ
37. PLC2Way 3-39Serial CommunicationsTemperature Control Network/PLC2Way Table1. StartingClick [System Setting] → [Temp. CTRL/PLC2Way Setting] → [Temp
3-40 7. PLC2WayEnter the desired comment and click [OK]. The entered comment is displayed at the top right corner.4. Setting data in the tableClick
37. PLC2Way 3-41Serial CommunicationsWhen the data code in the target memory address is BCD:The code (numerical data format) for the PLC2 memory is fi
3-42 7. PLC2WayData Sampling in the PLC2 MemoryTo perform data sampling in the PLC2 memory, the following settings are required.• Temperature control
37. PLC2Way 3-43Serial Communications• Calculating the buffering area capacityWhen [Internal Buffer] is selected for [Store Target] in the [Buffering
3-44 7. PLC2Way3. Trend sampling or data sampling settingTo show data stored in the specified buffer number, trend sampling or data sampling must be
37. PLC2Way 3-45Serial Communications2. Memory card settingThe memory card setting should be made when the memory card is used as the source or target
3-46 7. PLC2WayUser Log Read for YOKOGAWA’s PLCThe user log set with YOKOGAWA’s PLC “FA-M3/FA-M3R” connected at the MJ port can be read using the mac
37. PLC2Way 3-47Serial CommunicationsProcessing CycleThe processing cycle on the ZM-300 series with the PLC2Way function is explained.Fig. a. When the
1. Outline2. Model Name and Peripheral Equipment3. System Composition4. Specifications5. Dimensions and Panel Cut-out6. Names and Functions of Compone
3-48 7. PLC2WayNotes on Screen Data TransferTemperature Control/PLC2 ProgramWhen using the temperature control network/PLC2Way communications, it is
37. PLC2Way 3-49Serial CommunicationsSystem MemoryThe status of the PLC connected at the MJ port for PLC2Way communications is output to the system me
3-50 7. PLC2WayDetails• $s730-761The following status code for the PLC connected at the MJ port is stored.Errors other than the above are stored as s
37. PLC2Way 3-51Serial Communications• $s762Periodical reading that is set in the [Temp. CTRL/PLC2Way Table Setting] dialog can be suspended.- [0]: Pe
3-52 7. PLC2WayPlease use this page freely.
1. Ethernet2. FL-netNetwork Communications
41. Ethernet 4-1Network Communications1. EthernetEthernet• Transferring data in memoryData in memory can be transferred to the ZM-300 series on the Et
4-2 1. Ethernet- Screen data can be transferred from the ZM-71SE editor on the server to the ZM-300 series.• Communications between the Ethernet-read
41. Ethernet 4-3Network CommunicationsNotes on Ethernet CommunicationsFor ZM-300 (high-performance):• To use Ethernet communications on ZM-300 (high-p
4-4 1. EthernetNomenclature and Functions of ZM-80NU/80NU21. LEDIndicates the status of the communication.2. Port number setting switchesSet the port
11. Outline 1-1Hardware Specifications1. OutlineThe LCD Control Terminal ZM-300 series is programmable display equipment with the LCD screen and the t
41. Ethernet 4-5Network CommunicationsWiring10BASE-T Connection• Cable connection diagramStraight cable (with HUB) Cross cable (without HUB)• Notes on
4-6 1. EthernetAUI Connection• 10BASE5The following devices are required for 10BASE5 connection:- Coaxial cable for 10BASE5- AUI cable- N-type connec
41. Ethernet 4-7Network Communications• TransceiverUse the transceiver equipped with the SQE TEST function. (SQE TEST: Signal Quality Error Test)Reco
4-8 1. EthernetTransferring Screen DataThis section describes the procedure for transferring screen data from the ZM-71SE editor on the server to ZM
41. Ethernet 4-9Network CommunicationsTransferring Screen Data from ZM-71SE Editor1. Click the [Transfer] icon. The [Transfer] dialog is displayed.2.
4-10 1. Ethernet5. Check the IP address, and click [PC->].6. Data transfer is started.ZM-71SE Setting (PLC Type/Communication Parameter)To enable
41. Ethernet 4-11Network CommunicationsThe contents of the system setting vary depending on the method selected. Check the connecting method and make
4-12 1. Ethernet2. Communication parameter setting• Select [System Setting] → [Comm. Parameter]. Set the PLC to the ZM-300 series which is connected
41. Ethernet 4-13Network Communications• When communicating with multiple PLCs (same model) on the Ethernet, select [1 : n] for [Connection] on the [D
4-14 1. EthernetZM-71SE Setting (Network Table Editing)To enable Ethernet communications on the ZM-300 series, the following network table setting is
1-2 2. Model Name and Peripheral Equipment2. Model Name and Peripheral EquipmentModel name of LCD Control TerminalModel nameZM-352DZM-362SZM-362SAZM-
41. Ethernet 4-15Network CommunicationsStarting and Closing• StartingSelect [System Setting] → [Network Table Setting] → [Ethernet]. The network tabl
4-16 1. Ethernet- Cancel Monitor RegistrationClick this menu when canceling monitor registration.• [View] menuThe items with a check mark are shown o
41. Ethernet 4-17Network Communications[Send Timeout]Set the time-out time for the ZM-300 series to send a command on the Ethernet.[Port No.] (2049 to
4-18 1. EthernetSubnet MaskA subnet mask is used for dividing one network address into multiple networks (subnet).The subnet is assigned by specifyin
41. Ethernet 4-19Network CommunicationsZM-71SE Setting (Macro)This section explains the macro commands (SEND/EREAD/EWRITE) used for the Ethernet. For
4-20 1. Ethernet[EWRITE]Words from the F2 memory are written into the F0 memory in the ZM-300 series of the network table number specified for F1. F
41. Ethernet 4-21Network Communications[SEND]Words from the F0 memory are transferred to the server of the network table number specified for F2. F1
4-22 1. EthernetSystem MemoryThe Ethernet status is output to the system memory ($s) of the ZM-300 series. This section explains the memory addresse
41. Ethernet 4-23Network Communications$s549 Network table 29 status550 Network table 30 status551 Network table 31 status552 Network table 32 status5
4-24 1. Ethernet$s593 Network table 73 status594 Network table 74 status595 Network table 75 status596 Network table 76 status597 Network table 77 st
12. Model Name and Peripheral Equipment 1-3Hardware SpecificationsPeripheral EquipmentThe following options are available for using the ZM-300 series
41. Ethernet 4-25Network CommunicationsAddresses• $s514, 515These addresses are related to macro commands [SEND], [EREAD] and [EWRITE].$s514: Sets the
4-26 1. EthernetEthernet Access Functions (HKEtn10.DLL)To enable Ethernet communications between the server and the ZM-300 series, it is necessary to
41. Ethernet 4-27Network Communications• Notes on use of the sample programsThe data type to be set when creating a program varies depending on whethe
4-28 1. EthernetFunction SpecificationsList• Read• Write• OthersPLC memoryWordint HKEtn_ReadPlcMemory(WORD *dp,unsigned short Wordcnt,int DeviceType,
41. Ethernet 4-29Network CommunicationsReadRead Words from PLC Memoryint HKEtn_ReadPlcMemory(WORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr
4-30 1. EthernetRead Double-words from PLC Memoryint HKEtn_ReadPlcMemory2(DWORD *dp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, in
41. Ethernet 4-31Network CommunicationsRead Words from Internal Memoryint HKEtn_ReadInternalMemory(WORD *dp,unsigned short Wordcnt,intDeviceType,DWORD
4-32 1. EthernetRead Words from Memory Card Memoryint HKEtn_ReadCardMemory(WORD *dp,unsigned short Wordcnt,int FileNo,intRecordNo,DWORD addr,char *lp
41. Ethernet 4-33Network CommunicationsRead Bits from PLC Memoryint HKEtn_ReadPlcBitMemory(int *lpOnFlag,int DeviceType,DWORD addr,intBitNo,char *lpAd
4-34 1. EthernetRead Bits from Memory Card Memoryint HKEtn_ReadCardBitMemory(int *lpOnFlag,int FileNo,int RecordNo,DWORDaddr,int BitNo,char *lpAddr)T
Thank you for purchasing the LCD Control Terminal ZM-300 series. Please read the instruction manual carefully, and operate the product with full under
1-4 2. Model Name and Peripheral EquipmentZM-30*EU (option module)This option module can only be mounted on the ZM-300 (high-performance) model.ZM-30
41. Ethernet 4-35Network CommunicationsWriteWrite Words to PLC Memoryint HKEtn_WritePlcMemory(WORD *sp,unsigned short Wordcnt,int DeviceType,DWORD add
4-36 1. EthernetWrite Double-words to PLC Memoryint HKEtn_WritePlcMemory2(DWORD *sp,unsigned short Wordcnt,int DeviceType,DWORD addr,char *lpAddr, in
41. Ethernet 4-37Network CommunicationsWrite Words to Internal Memoryint HKEtn_WriteInternalMemory(WORD *sp,unsigned short Wordcnt,int DeviceType,DWOR
4-38 1. EthernetWrite Words to Memory Card Memoryint HKEtn_WriteCardMemory(WORD *sp,unsigned short Wordcnt,int FileNo,int RecordNo,DWORD addr,char *l
41. Ethernet 4-39Network CommunicationsWrite Bits to PLC Memoryint HKEtn_WritePlcBitMemory(int DeviceType,DWORD addr,int BitNo,int OnFlag,char *lpAddr
4-40 1. EthernetWrite Bits to Internal Memoryint HKEtn_WriteInternalBitMemory(int DeviceType,DWORD addr,int BitNo,intOnFlag,char *lpAddr)This functio
41. Ethernet 4-41Network CommunicationsOthers FunctionsInitialization Functionint HKEtn_Init(unsigned short Port=10000,int Retry=3,int RecvTime=2,int
4-42 1. EthernetRequest Connection Informationint HKEtn_GetInf(struct inf *lpinf,char *lpAddr)• Parameters*Ipinf All “0”*lpAddr IP address shown as a
41. Ethernet 4-43Network CommunicationsGet Error Contentsint HKEtn_GetLastError()• Error codes and solutionsCode Contents Solution−1 Undefined command
4-44 1. EthernetServer Communication ProcedureData Request from ZM-300 to Server(1) Execute the receive wait thread using “int HKEtn_RecvFrom()” on t
12. Model Name and Peripheral Equipment 1-5Hardware SpecificationsMemory Card on the market compliant with JEIDA ver. 4.0Used with the card recorder w
41. Ethernet 4-45Network CommunicationsError DisplayError messages displayed on the ZM-300 series and those stored in the system memory are explained.
4-46 1. Ethernet• System memory: $s518No. Contents Solution0Normal200 Failed in send requestCheck cable connection and network table setting of the t
41. Ethernet 4-47Network CommunicationsErrors during Macro Command ExecutionThe execution result of macro commands SEND/EREAD/EWRITE is stored in syst
4-48 2. FL-net2. FL-net FL-net • FL-net is an open FA network that FA Open Systems Promotion Forum (JOP) of the Manufacturing Science and Technology
1. SHARP PLC*2. MITSUBISHI PLC*3. OMRON PLC*4. HITACHI PLC5. MATSUSHITA PLC6. YOKOGAWA PLC*7. YASKAWA PLC8. Toyopuc PLC9. FUJI PLC*10. KOYO PLC11. All
51. SHARP PLC 5-1Connection to PLCs1. SHARP PLCLink moduleCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-
5-2 1. SHARP PLCJW Series: Link Unit Switch Setting(1) Switch setting of JW-10CM, ZW-10CM and JW-21CM(2) Switch setting of Z-331J/332JJW100/70H COM P
51. SHARP PLC 5-3Connection to PLCs(2) System memory setting of JW-32CUH/H1/M1, JW-33CUH/H1/H2/H3, Z-511J/512J • Communication port 1 (PG/COMM 1
5-4 1. SHARP PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available with
51. SHARP PLC 5-5Connection to PLCsWiringIndicate the connection of ZM-300 and each module. CN1 is used alternately with RS-422.RS-232C • Connect
1-6 2. Model Name and Peripheral EquipmentZM-80BC (barcode reader connection cable) 3 mUsed for connection between the ZM-300 series and a barcode re
5-6 1. SHARP PLCRS-422 • Connection with JW-10CM, ZW-10CM, and JW-21CM • Connection with JW-70CUH/100CUH, JW-70CU/100CU, and JW-22CU (
51. SHARP PLC 5-7Connection to PLCs • Connection with JW-32CUH/H1/M1, JW-33CUH/H1/H2/H3, and Z-512J • Connection with JW-1324K/1342K, JW-142
5-8 2. MITSUBISHI PLC2. MITSUBISHI PLCAvailable PLCsA Series Link, QnA Series Link, QnH (Q) Series Link, A Link + Net10*1*2 For more information on A
52. MITSUBISHI PLC 5-9Connection to PLCsA Series CPU, QnA Series CPU, QnH Series CPU*1 For more information of ZM-1MD2 (dual port interface), refer to
5-10 2. MITSUBISHI PLCFX Series*1 For more information of ZM-1MD2 (dual port interface), refer to page 5-24.Select PLC Type CPU Unit/Port Connection
52. MITSUBISHI PLC 5-11Connection to PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is as
5-12 2. MITSUBISHI PLCQnH (A) Series CPU, QnH(Q) Series CPUCommunication parameters for the ZM-300 series except the baud rate are automatically set.
52. MITSUBISHI PLC 5-13Connection to PLCsA Series Link, QnA Series Link: Switch SettingThe following is an example that shows the settings for both ro
5-14 2. MITSUBISHI PLCA1SJ71UC24-R4, A1SJ71C24-R4Example 4 Signal level: RS-422, baud rate: 19200 bps, transmission mode 10123456789ABCDEF0123456789A
52. MITSUBISHI PLC 5-15Connection to PLCsAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within
13. System Composition 1-7Hardware Specifications3. System CompositionThe following illustration shows possible system configurations using the ZM-300
5-16 2. MITSUBISHI PLCFX Series, FX1S Series*1 For numerical data format where double-words can be used (Num. Data Display, Graph, Sampling), data is
52. MITSUBISHI PLC 5-17Connection to PLCsFX Series (A Protocol)*1 CN200 to CN255 equals 32CN (32-bit counter).*2 For numerical data format where doubl
5-18 2. MITSUBISHI PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2ZM-300 (CN1)PLCD-sub 25pin(Male:
52. MITSUBISHI PLC 5-19Connection to PLCsWiring Diagram 3Wiring Diagram 4RS-422Wiring Diagram 5ZM-300 (CN1)PLCD-sub 25pin(Male: )D-sub 9pin(Femal
5-20 2. MITSUBISHI PLCWiring Diagram 6Wiring Diagram 7ZM-300 (CN1)PLCD-sub 25pin(Male: )FGSG+SD-SD+RD-RD1712132425RDASGRDB2715SDB 16SDA 34517182
52. MITSUBISHI PLC 5-21Connection to PLCsWiring Diagram 8According to our noise tests, the attachment of a ferrite core improves noise voltage by 650
5-22 2. MITSUBISHI PLCA Link + Net10• When the ZM-300 series is connected to the standard type link unit on the CPU that is connected to the data lin
52. MITSUBISHI PLC 5-23Connection to PLCs• To have access to the PLC in the other network on NET/10, specify the network number in the OPEN macro for
5-24 2. MITSUBISHI PLCZM-1MD2 (Dual Port Interface)ZM-1MD2 is the add-on connector with two ports, specifically designed for the connector on MITSUBI
52. MITSUBISHI PLC 5-25Connection to PLCsLadder Transfer FunctionUp until now it was necessary to debug the data by removing and mounting two cables r
1-8 4. Specifications4. SpecificationsGeneral SpecificationsModel ZM-350/360 ZM-370 ZM-380Item DC power supply AC power supply DC power supply AC pow
5-26 2. MITSUBISHI PLCConnection• Use exclusive cable when connecting the ZM-300 series (CN1) to the PLC (RS-232C port).• Use Sharps’ ZM-80C cable wh
52. MITSUBISHI PLC 5-27Connection to PLCsSettings and Communications1. PLC type settingSelect [PLC Type] from the [System Setting] menu. Select [MITS
5-28 2. MITSUBISHI PLC3. PLC programming software communication settingFor communication specifications between the PLC programming software and the
53. OMRON PLC 5-29Connection to PLCs3. OMRON PLCAvailable PLCsSelect PLC TypePLC Unit/Port Connection PLC2WaySYSMAC CC20H,C28H,C40HCPU unit with built
5-30 3. OMRON PLC*1 Replace the shell on the D-sub 25-pin side before use. (Recommended part: DDK’s 17J-25)*2 For SYSMAC CS1 DNA, refer to page 5-36
53. OMRON PLC 5-31Connection to PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is as follo
5-32 3. OMRON PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available wit
53. OMRON PLC 5-33Connection to PLCs*1 When using EMn (extended data memory), specify the bank number (CV: 0 to 7, CS1: 0 to C). The assigned memory
5-34 3. OMRON PLCWiring Diagram 3RS-422Wiring Diagram 4Wiring Diagram 5FGRDRSCSSG13457RSSDCSSG2457ZM-300 (CN1)D-sub 25pin(Male: )SD 2RD 3PLCD-s
53. OMRON PLC 5-35Connection to PLCsWiring Diagram 6Wiring Diagram 7FG+SD-SD+RD-RD112132425SDBRDBRDASDA8261PLCD-sub 9pin(Male: )ZM-300 (CN1)D-sub
14. Specifications 1-9Hardware SpecificationsDisplay Specifications*1 When the normal temperature is 25°C, and the surface luminance of the display is
5-36 3. OMRON PLCSYSMAC CS1 DNAWhen connecting the ZM-300 series to CS1 on a network (Controller Link), the ZM-300 series can also access another CS1
54. HITACHI PLC 5-37Connection to PLCs4. HITACHI PLCAvailable PLCs*1 When using the HITACHI’s EH-RS05 or CNCOM-05 cable, connect the cable shown in [W
5-38 4. HITACHI PLCCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is as follows:COMM-2HIf the
54. HITACHI PLC 5-39Connection to PLCsHIDIC-H: Switch SettingBaud rate: 19200 bpsMODE switch: To connect to both RS-232C and RS-422, set MODE switch t
5-40 4. HITACHI PLCHIDIC-S10/2αHIDIC-S10/ABSMemory TYPE RemarksFW (work register) 0X (input relay) 1 XW as word deviceY (output relay) 2 YW as word d
54. HITACHI PLC 5-41Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2RDCS35SDRSZM-300 (CN1
5-42 4. HITACHI PLCWiring Diagram 3RS-422Wiring Diagram 4Wiring Diagram 5When connecting to the S10xα series, add a resistor of 50 Ω (1/2 W) as shown
55. MATSUSHITA PLC 5-43Connection to PLCs5. MATSUSHITA PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the P
5-44 5. MATSUSHITA PLCMEWNET: Link Unit Switch SettingAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure
55. MATSUSHITA PLC 5-45Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2Wiring Diagram 3ZM-
1-10 4. SpecificationsFunction Switch SpecificationsInterface Specifications*1 The CBM292/293 printer cannot print screen hard copies.Clock and Backu
5-46 5. MATSUSHITA PLCRS-422Wiring Diagram 4FG+SD−SD+RD−RD112132425+−ZM-300 (CN1)D-sub 25pin(Male: )PLC* Use shielded twist-pair cables.D-sub 2
56. YOKOGAWA PLC 5-47Connection to PLCs6. YOKOGAWA PLCAvailable PLCs*1 The CPUs that can be connected directly to the programming tool port on the CPU
5-48 6. YOKOGAWA PLCCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is as follows:FA500FA-M3/F
56. YOKOGAWA PLC 5-49Connection to PLCsAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within th
5-50 6. YOKOGAWA PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2ZM-300 (CN1)D-sub 25pin(Male: )FG
56. YOKOGAWA PLC 5-51Connection to PLCsRS-422Wiring Diagram 3ZM-300 (CN1)D-sub 25pin(Male: )FG+SD−SD+RD−RD112132425RDBRDASG 7SDBSDASGPLC* Use s
5-52 7. YASKAWA PLC7. YASKAWA PLCAvailable PLCs* Other PLCs can also be connected with Memobus.Communication SettingThe recommended communication par
57. YASKAWA PLC 5-53Connection to PLCsCP9200SH/MP900Available MemoryThe available memory setting range varies depending on the PLC model. Be sure to
5-54 7. YASKAWA PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2ZM-300 (CN1)D-sub 25pin(Male: )FGS
57. YASKAWA PLC 5-55Connection to PLCsWiring Diagram 3Wiring Diagram 4RS-422Wiring Diagram 5ZM-300 (CN1)D-sub 25pin(Male: )FGSDRDRSCS12345SDRDSG
14. Specifications 1-11Hardware SpecificationsDrawing Environment* When using ZM-373TA/371TL/373TL, ZM-383S/383SA, use version 2.1.0.0 or a newer vers
5-56 7. YASKAWA PLCWiring Diagram 6Wiring Diagram 7Wiring Diagram 8ZM-300 (CN1)D-sub 25pin(Male: )FG+SD−SD+RD−RD112132425TXD+RXD+SG 7RXDRTRXD−S
58. Toyopuc PLC 5-57Connection to PLCs8. Toyopuc PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and
5-58 8. Toyopuc PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available w
58. Toyopuc PLC 5-59Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-422Wiring Diagram 1FG+SD−SD+RD−RD112132425+−0VSG 7ZM-300
5-60 9. FUJI PLC9. FUJI PLCAvailable PLCs*1 To use FLEX-PC of Toyota version, select [FLEX-PC (T)].*2 To use FLEX-PC CPU of Toyota version, select [F
59. FUJI PLC 5-61Connection to PLCsFLEX-PC CPU PortConnect to the CPU port. Communication parameters for the ZM-300 series are automatically set.FLEX
5-62 9. FUJI PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available with
59. FUJI PLC 5-63Connection to PLCsFLEX-PC Series, FLEX-PC CPU PortFLEX-PC COM (T) (NJ Computer Link) Toyota VersionStandard Memory Toyota Version TYP
5-64 9. FUJI PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2ZM-300 (CN1)D-sub 25pin(Male: )FGRDRS
59. FUJI PLC 5-65Connection to PLCsRS-485Wiring Diagram 3RS-422Wiring Diagram 4ZM-300 (CN1)D-sub 25pin(Male: )FG+SD−SD+RD−RD112132425SDASDBSG 7R
1-12 4. SpecificationsFunction Performance Specifications*1 The number of setting memory locations is limited to 1024 per screen.*2 Layer: 4 per scre
5-66 10. KOYO PLC10. KOYO PLCAvailable PLCsSelect PLC Type PLC Unit/Port ConnectionSU/SGSU-5/5E/6B/5M/6M U01-DMRS-232C [Wiring Diagram 1]RS-422 [Wiri
510. KOYO PLC 5-67Connection to PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is as follo
5-68 10. KOYO PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range available wit
510. KOYO PLC 5-69Connection to PLCsSwitch SettingU-01DMOn-line/Off-line switch: On-lineUNIT ADR switch: “0” for ×10, “1” for ×1SW4 DIP switch:SW5 DIP
5-70 10. KOYO PLCG-01DMOn-line/Off-line switch: On-lineShort plug 1: openShort plug 2: RS-232C . . . . ENABLERS-422. . . . . . DISENABLESW1 DIP swit
510. KOYO PLC 5-71Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2ZM-300 (CN1)D-sub 25pi
5-72 10. KOYO PLCRS-422Wiring Diagram 3Wiring Diagram 4Wiring Diagram 5ZM-300 (CN1)D-sub 25pin(Male: )FG+SD−SD+RD−RD112132425+RTS−RTSPLCD-sub 2
510. KOYO PLC 5-73Connection to PLCsWiring Diagram 6Wiring Diagram 7Wiring Diagram 8ZM-300 (CN1)D-sub 25pin(Male: )FG+SD−SD+RD−RD1121324250VTXD+
5-74 11. Allen-Bradley PLC11. Allen-Bradley PLCAvailable PLCs*1 When using RS-232C ladder transfer cable made by Allen-Bradley, connect the cable sho
511. Allen-Bradley PLC 5-75Connection to PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is
15. Dimensions and Panel Cut-out 1-13Hardware Specifications5. Dimensions and Panel Cut-outZM-350/360 Series External View and Dimensions(Unit: mm)24V
5-76 11. Allen-Bradley PLCAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within the range avai
511. Allen-Bradley PLC 5-77Connection to PLCsSLC500 Series, Micro Logix 1000Memory TYPE RemarksN (integer) 0B(bit) 1T.ACC (timer/current value) 2T.PRE
5-78 11. Allen-Bradley PLCPLC-5 Series: Switch Setting1785-KESW1 (Protocol)SW2 (Port)Set the port number of 1785-KE. (This port should not be duplic
511. Allen-Bradley PLC 5-79Connection to PLCs1770-KF2SW1 (Protocol)SW2, SW3, SW4 (Port)Set the port number of 1770-KF2. (This port should not be dupl
5-80 11. Allen-Bradley PLCSLC500 Series, Micro Logix 100: Transmission Parameter SettingCPU Port Channel 0Set up the parameters for CPU port channel
511. Allen-Bradley PLC 5-81Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2ZM-300 (CN1)D-
5-82 11. Allen-Bradley PLCWiring Diagram 3Wiring Diagram 4Wiring Diagram 5ZM-300 (CN1)D-sub 25pin(Male: )FGSDRDRSCS12345DCDRXDTXDDTR12345COMDSR
511. Allen-Bradley PLC 5-83Connection to PLCsRS-422Wiring Diagram 6Wiring Diagram 7D-sub 25pin(Female: )PLCZM-300 (CN1)D-sub 25pin(Male: )FG+
5-84 12. GE Fanuc PLC12. GE Fanuc PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 se
512. GE Fanuc PLC 5-85Connection to PLCsAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within t
NoteWe have created this instruction manual carefully, but in case you have some doubts or comments on this manual, please contact the affiliated stor
1-14 5. Dimensions and Panel Cut-outZM-370 Series External View and Dimensions(Unit: mm)100-240VACL NF1F2F3F4F5F6F7SYSTEMPOWERLANCN1MJ1 MJ2PRIN
5-86 12. GE Fanuc PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1RS-485Wiring Diagram 2ZM-300 (CN1)D-sub 25pin(Male:
512. GE Fanuc PLC 5-87Connection to PLCsWiring Diagram 3ZM-300 (CN1)D-sub 25pin(Male: )FGSG+SD−SD+RD17121324RTS(A)PLCD-sub 15pin(Male: )0VCT
5-88 13. TOSHIBA PLC13. TOSHIBA PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 seri
513. TOSHIBA PLC 5-89Connection to PLCsAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set within th
5-90 14. TOSHIBA MACHINE PLC14. TOSHIBA MACHINE PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and
514. TOSHIBA MACHINE PLC 5-91Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1ZM-300 (CN1)D-sub 25pin(Mal
5-92 15. SIEMENS PLC15. SIEMENS PLCAvailable PLCs* When using the 6ES5 734-1BD20 cable made by SIEMENS, connect the cable shown in [Wiring Diagram 3]
515. SIEMENS PLC 5-93Connection to PLCsS5, S5 ZM-41/70 (S5-115U, S5-135U, S5-155U, S7-300, S7-400)S5 PG portCommunication parameters are automaticall
5-94 15. SIEMENS PLCTI500/505, TI500/505 ZM-41/70Available MemoryThe available memory setting range varies depending on the PLC model. Be sure to se
515. SIEMENS PLC 5-95Connection to PLCsS5 PG portThe assigned memory is indicated when editing the screen as shown on the right.S7-200PPIS7-300/400MP
15. Dimensions and Panel Cut-out 1-15Hardware SpecificationsZM-380 Series External View and Dimensions(Unit: mm)SYSTEMF1F2 F3F4F5 F6 F7POWERCN5MEMORYC
5-96 15. SIEMENS PLCTI500/505 (TI500/505 ZM-41/70)*1 In case of using DCP (drum count/setting value), set drum step No.1 to 16.The assigned memory is
515. SIEMENS PLC 5-97Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2Wiring Diagram 3ZM-30
5-98 15. SIEMENS PLCWiring Diagram 4Wiring Diagram 5RS-422Wiring Diagram 6ZM-300 (CN1)D-sub 25pin(Male: )FGSDRDRSCSDCDPLCD-sub 9pin(Female:
515. SIEMENS PLC 5-99Connection to PLCsWiring Diagram 7- Terminating Resistance SettingSet the DIP switch 7 and 8 of the ZM-300 series to the OFF posi
5-100 16. SHINKO PLC16. SHINKO PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 serie
516. SHINKO PLC 5-101Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1ZM-300 (CN1)D-sub 25pin(Male: )
5-102 17. SAMSUNG PLC17. SAMSUNG PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 ser
517. SAMSUNG PLC 5-103Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1RS-422Wiring Diagram 2ZM-300 (CN1)D
5-104 18. KEYENCE PLC18. KEYENCE PLCAvailable PLCs*1 To connect KZ-24, 300 via RS-232C, select [KZ24/300CPU] for the PLC type on the ZM-71SE editor.*
518. KEYENCE PLC 5-105Connection to PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is as f
1-16 6. Names and Functions of Components6. Names and Functions of ComponentsZM-350/360 SeriesZM-370 Series24VDC- +F1F2F3F4F5F6F7SYSTEMPOWERLANCN
5-106 18. KEYENCE PLCKZ/KV Series CPU / KV-700 CPUCommunication parameters for the ZM-300 series are automatically set.KZ24/300 CPU*1 Maximum baud ra
518. KEYENCE PLC 5-107Connection to PLCsKZ-A500 CPU, MITSUBISHI A Series LinkKZ/KV Series CPU, KZ24/300 CPU, KV10/24 CPU, KV-700 CPUMemory TYPE Remark
5-108 18. KEYENCE PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2Wiring Diagram 3ZM-300 (CN1)D-sub 25
518. KEYENCE PLC 5-109Connection to PLCsWiring Diagram 4Wiring Diagram 5RS-422Wiring Diagram 6ZM-300 (CN1)PLCD-sub 25pin(Male: )D-sub 25pin(Male:
5-110 19. LG PLC19. LG PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is as
519. LG PLC 5-111Connection to PLCsMASTER-KxxxSMASTER-KxxxS CNET / GLOFA CNETAvailable MemoryThe available memory setting range varies depending on th
5-112 19. LG PLCMASTER-K500/1000MASTER-KxxxSMASTER-KxxxS CNETMemory TYPE RemarksP (input/output relay) 0 Input: Read onlyM(relay) 1L (link relay) 2K
519. LG PLC 5-113Connection to PLCsGLOFA CNETWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2Wiring Diagram
5-114 19. LG PLCWiring Diagram 4RS-422Wiring Diagram 5Wiring Diagram 6ZM-300 (CN1)D-sub 25pin(Male: )FGSDRDPLCD-sub 25pin(Male: )RXD213TXDRS
520. FANUC PLC 5-115Connection to PLCs20. FANUC PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and
16. Names and Functions of Components 1-17Hardware SpecificationsZM-380 Series1. DisplayThis is the display unit.2. Power Lamp (POWER)Illuminates (gre
5-116 20. FANUC PLCWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1RS-422Wiring Diagram 2ZM-300 (CN1)D-sub 25pin(Male:
520. FANUC PLC 5-117Connection to PLCsWiring Diagram 3ZM-300 (CN1)D-sub 25pin(Male: )FGSG+SDPLCJD40RXD7112−SD 13 TXD13+RD−RD2425245RTS67CTS8*CTS
5-118 21. FATEK AUTOMATION PLC21. FATEK AUTOMATION PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC
521. FATEK AUTOMATION PLC 5-119Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2RS-422Wirin
5-120 22. IDEC PLC22. IDEC PLCAvailable PLCs* When using RS-232C cable “FC2A-KC2” made by IDEC, connect the cable shown in [Wiring Diagram 3] to the
522. IDEC PLC 5-121Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1ZM-300 (CN1)PLCD-sub 25pin(Male: )
5-122 23. MODICON PLC23. MODICON PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 ser
523. MODICON PLC 5-123Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1ZM-300 (CN1)PLCD-sub 25pin(Male:
5-124 24. YAMATAKE PLC24. YAMATAKE PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 s
524. YAMATAKE PLC 5-125Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1ZM-300 (CN1)PLCD-sub 25pin(Male:
1-18 6. Names and Functions of Components10. Mounting holesUsed for inserting fixtures when securing the ZM-300 series to the mounting panel.11. Comm
5-126 25. TAIAN PLC25. TAIAN PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series
525. TAIAN PLC 5-127Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-422Wiring Diagram 1Wiring Diagram 2FG+SDSG−SD+RD−RD1127132
5-128 26. SAIA PLC26. SAIA PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 series is
526. SAIA PLC 5-129Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1Wiring Diagram 2RS-485Wiring Diagram 3F
5-130 27. MOELLER PLC27. MOELLER PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and the ZM-300 ser
527. MOELLER PLC 5-131Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-232CWiring Diagram 1FGRDSDSG1327TXRXSGZM-300 (CN1)PLC32
5-132 28. Telemecanique PLC28. Telemecanique PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC and th
528. Telemecanique PLC 5-133Connection to PLCsWiringWiring diagrams with the PLC are shown below.RS-485Wiring Diagram 1ZM-300 (CN1)FG+SD−SD+RD−RD1121
5-134 29. Automationdirect PLC29. Automationdirect PLCAvailable PLCsCommunication SettingThe recommended communication parameter settings of the PLC
529. Automationdirect PLC 5-135Connection to PLCsAvailable MemoryThe available memory setting range varies depending on the PLC model. Be sure to set
17. Mounting Procedure 1-19Hardware Specifications7. Mounting ProcedureMounting Procedure1. Cut out the mounting panel (max. thick: 5 mm) to match the
5-136 29. Automationdirect PLCWiring Diagram 2Wiring Diagram 3Wiring Diagram 4ZM-300 (CN1)FGSDRDSGPLCRxD213RS4CS5TxD134SG 7654321* Use shielded twis
529. Automationdirect PLC 5-137Connection to PLCsRS-422Wiring Diagram 5Wiring Diagram 6ZM-300 (CN1)FG+SD−SD+RD−RD112132425RXD+RXD−PLCCTS1+TXD1+TXD1−R
5-138 29. Automationdirect PLCPlease use this page freely.
1-20 7. Mounting ProcedureMounting MarginAbout marginal space for connecting to the serial connector (CN1), see the figures below. ZM-350/360 series
18. Power Supply Cable Connection 1-21Hardware Specifications8. Power Supply Cable ConnectionPower Supply Cable Connection• Connect the power supply c
1-22 8. Power Supply Cable Connection• Keep cables of 100 VAC and 24 VDC sufficiently away from high-voltage, large-current carrying cables.• Be sure
19. Coin-type Lithium Battery 1-23Hardware Specifications9. Coin-type Lithium BatteryBattery Mounting Procedure1. A coin-type lithium battery is attac
Safety Precautions Danger : Wrong handling may possibly lead to death or heavy injury. Caution : Wrong handling may possibly lead to medium or light
1-24 9. Coin-type Lithium BatteryAbout the detection of lower battery power, see the "Notes on Usage" section.6. Check that the battery is
19. Coin-type Lithium Battery 1-25Hardware SpecificationsBattery Replacement ProcedureReplacement batteries are available from Sharp Corporation.1. Re
1-26 10. DIP Switch Setting10. DIP Switch SettingDIP Switch (DIPSW) SettingSet the terminating resistance for RS-422/485 connection with the DIP swit
110. DIP Switch Setting 1-27Hardware SpecificationsCF Auto Load (DIPSW1)A screen data file saved on a CF card can be auto-loaded as described below.1.
1-28 11. Serial Connector (CN1)11. Serial Connector (CN1)Serial Connector for PLC Connection1. To communicate with the PLC (RS-232C, RS-422/485), con
112. Modular Jack (MJ1/MJ2) 1-29Hardware Specifications12. Modular Jack (MJ1/MJ2)Modular Jack 1 (MJ1)/2 (MJ2)1. This is a modular connector used for c
1-30 12. Modular Jack (MJ1/MJ2)ZM-71SE Setting1. The use of modular jacks 1 and 2 can be set on the ZM-71SE editor.2. Select [Modular] from the [Syst
112. Modular Jack (MJ1/MJ2) 1-31Hardware Specifications3. Do not select [Multi-link] and [PLC2Way] for [Modular Jack 1/2] at the same time.• Combinati
1-32 12. Modular Jack (MJ1/MJ2)Transferring Screen Data• Use modular jack 1 (MJ1) when transferring screen data.• When [Editor Port] is selected for
113. 10BASE-T (LAN) 1-33Hardware Specifications13. 10BASE-T (LAN)The connector for 10BASE-T is provided as standard on ZM-300 (high-performance). To
3) Use DangerDon’t touch the terminal while the power is being supplied or you may have on electric shock.Assemble the emergency stop circuit and
1-34 13. 10BASE-T (LAN)Notes on WiringCable Connection DiagramNotes on CablesUse the following recommended cable.Recommended cable (10BASE-T)Type: Tw
114. CF Card (CF) 1-35Hardware Specifications14. CF Card (CF)Recommended CF CardCF cards in compliance with CompactFlashTM can be used. The following
1-36 14. CF Card (CF)Notes on Handling the CF Card1. Do not insert or remove the CF card during access. Doing so may destroy data on the CF card. T
115. Printer Connection (PRINTER) 1-37Hardware Specifications15. Printer Connection (PRINTER)When the ZM-300 series is connected to a printer, a scree
1-38 15. Printer Connection (PRINTER)Connecting Cable• To connect the ZM-300 series to a printer, use Sharp Corporation’ printer cable “ZM-300PC” 2.5
116. Terminal Converter (ZM-1TC) 1-39Hardware Specifications16. Terminal Converter (ZM-1TC)Use the terminal converter ZM-1TC when connecting the ZM-30
1-40 16. Terminal Converter (ZM-1TC)Connection Connecting the RS-422 communicating cable Choose 4-line or 2-line system by the ZM-1TC DIP sw
117. Expansion I/O Module (ZM-322ME) 1-41Hardware Specifications17. Expansion I/O Module (ZM-322ME)ZM-322ME is an expansion I/O module, with 16 input
1-42 17. Expansion I/O Module (ZM-322ME)Installation/connection method1. Installation methodFix four corners of the ZM-322ME on the mounting panel wi
117. Expansion I/O Module (ZM-322ME) 1-43Hardware SpecificationsWiringIn wiring ZM-322ME (I/O terminal block), the terminal screw, the terminal block
Handling Precautions(1) Precautions for installation locations and environmentDo not install the ZM-300 in the following conditions: Exposure to corr
1-44 17. Expansion I/O Module (ZM-322ME)• Output circuitItemOutputsCOM pointsOutput typeRated voltageMax. load currentOutput delay timeResidual volta
117. Expansion I/O Module (ZM-322ME) 1-45Hardware SpecificationsZM-71SE settingSpecify the following settings in port and memory on screen edit softwa
1-46 18. Card Recorder (ZM-1REC)18. Card Recorder (ZM-1REC)Used for the backup of the panel data or recording the memory manager function and the dat
119. Cable for transporting the panel (ZM-80C) 1-47Hardware Specifications19. Cable for transporting the panel (ZM-80C)ZM-80C is the cable that transp
1-48 20. 2 Port Adapter (ZM-1MD2)20. 2 Port Adapter (ZM-1MD2)By mounting to the GPP port of Mitsubishi PC, ZM-1MD2 acts as an module that connects an
120. 2 Port Adapter (ZM-1MD2) 1-49Hardware SpecificationsWhen connecting 2 units togetherCaution1. Since the power supply of ZM-1MD2 is supplied from
1-50 20. 2 Port Adapter (ZM-1MD2)4) When a power supply is switched on where a console is connected to the ZM-1MD2, a console will become a communica
120. 2 Port Adapter (ZM-1MD2) 1-51Hardware SpecificationsSize drawing of ZM-1MD211GPPON100 24.17438.1Devise mounting screw8.08Lot Seal12.74.14.11
1-52 21. Expansion Memory (ZM-300EM)21. Expansion Memory (ZM-300EM)The expansion memory, ZM-300EM, is an extension board to add 8MB to the screen dat
121. Expansion Memory (ZM-300EM) 1-53Hardware Specifications3. Put the slits of ZM-300EM with the projected parts of the display, and fix ZM-300EM int
(5) Coin type lithium battery (See page. 1-23 through 1-25)When using the calendar function or SRAM memory (for battery backup of sampling data or oth
1-54 21. Expansion Memory (ZM-300EM)ZM-71SE setting1. Select [Unit Setting(S)] from the [System Setting (A)] menu. The [Unit Setting] dialog appears.
122. Expansion Memory (ZM-300SM) 1-55Hardware Specifications22. Expansion Memory (ZM-300SM)The expansion memory, ZM-300SM, is an extension board to ad
1-56 22. Expansion Memory (ZM-300SM)Installation methodInstall ZM-300SM to the connector for expansion memory (MEMORY) on the rear side of the ZM-300
122. Expansion Memory (ZM-300SM) 1-57Hardware SpecificationsUninstallUninstall ZM-300SM in the following procedure. Before uninstalling, discharge the
1-58 22. Expansion Memory (ZM-300SM)SpecificationsSRAM(Unit : mm)7046ItemMemory typeMemory sizeUsePower supplyAmbient temperatureAmbient humidityAtmo
1. Operation of ZM-300 Main MenuInitial Screen1. Main Menu Screen2. I/O Test3. Card Menu Screen4. Ethernet5. SRAM/Clock6. Extension Program Informatio
21. Operation of ZM-300 Main Menu 2-1LCD Control Terminal Operations1. Operation of ZM-300 Main MenuInitial ScreenWhen the power of LCD Control Termin
2-2 1. Operation of ZM-300 Main Menu• Auto-uploading screen data from the CF card to the ZM-300 unit1) Transfer screen data from the computer to a CF
21. Operation of ZM-300 Main Menu 2-3LCD Control Terminal Operations2002-4 -1 07:23:30SYSTEM PROG. VER. 1.000FONTVER.1.300 / 1.000 / 1.000
2-4 1. Operation of ZM-300 Main Menu2. I/O TestWhen the [I/O Test] switch on the Main Menu screen is pressed, the following “I/O Test” screen appears
ContentsSafety PrecautionsHandling PrecautionsChapter 1 Hardware Specifications1. Outline...
21. Operation of ZM-300 Main Menu 2-5LCD Control Terminal Operations2-1. Self-loop TestThis is a signal test for communications through the CN1, MJ1 o
2-6 1. Operation of ZM-300 Main MenuCN1: RS-485 Signal TestTurn the [CN1] and [RS485] switches on.• SD/RD TestCheck the signals [SD] and [RD].1. Inst
21. Operation of ZM-300 Main Menu 2-7LCD Control Terminal OperationsMJ1/2: RS-232C Signal TestTurn the [MJ1] (or [MJ2]) and [RS232C] switches on.• RS-
2-8 1. Operation of ZM-300 Main Menu2-2. Print CheckCheck that the ZM-300 series transmits the signals to the printer correctly.1. Connect the ZM-300
21. Operation of ZM-300 Main Menu 2-9LCD Control Terminal Operations2-4. Touch Switch TestIf a touch switch does not activate at all or if an operatio
2-10 1. Operation of ZM-300 Main MenuTouch Switch AdjustmentIf a position different from the pressed position turns white on the touch switch test sc
21. Operation of ZM-300 Main Menu 2-11LCD Control Terminal Operations3. Card Menu ScreenWhen the [Card Menu] switch on the Main Menu screen is pressed
2-12 1. Operation of ZM-300 Main Menu3-1. CREC Menu ScreenWhen the [CREC Menu] switch on the “Card Menu” screen is pressed, the following “CREC Menu”
21. Operation of ZM-300 Main Menu 2-13LCD Control Terminal Operations3. Memory Card InformationPress the [Modular Jack MJ1 (MJ2)] switch. The memory
2-14 1. Operation of ZM-300 Main Menu5. Starting Data TransferPress the [Start] switch. Data transfer is started. During data transfer, the [Start]
12. Modular Jack (MJ1/MJ2)...1-29Modular Jack 1 (MJ1)/2 (
21. Operation of ZM-300 Main Menu 2-15LCD Control Terminal Operations3-2. Transferring Screen Data from a CF CardCF Card Folder ConfigurationFolders i
2-16 1. Operation of ZM-300 Main MenuTransferring Screen Data from a CF CardThe procedure of transferring data between the ZM-300 series and a CF car
21. Operation of ZM-300 Main Menu 2-17LCD Control Terminal Operations2. Check the folder name, free space, and CF card file information. If the corre
2-18 1. Operation of ZM-300 Main Menu4. Press the [Select Data] switch. The [Data Selection] window is displayed and the [Select Data] switch change
21. Operation of ZM-300 Main Menu 2-19LCD Control Terminal OperationsWhen [Display --> Card] is Selected:1. When [Display --> Card] is selected,
2-20 1. Operation of ZM-300 Main MenuWhen [Display <--> Card] is Selected:1. When [Display <--> Card] is selected, the “Card Transfer” sc
21. Operation of ZM-300 Main Menu 2-21LCD Control Terminal Operations3-3. Saving Backup Copies of SRAMIn this section, the procedure for saving backup
2-22 1. Operation of ZM-300 Main Menu• When [Display <-- Card] is selected, the following screen is displayed.1) To change another folder, press t
21. Operation of ZM-300 Main Menu 2-23LCD Control Terminal Operations3-4. Messages during Data TransferIf an error occurs during data transfer, the me
2-24 1. Operation of ZM-300 Main Menu4. EthernetThe “Ethernet” screen is displayed by pressing the [IP Address (English)] switch on the initial scree
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