Benutzeranleitung / Produktwartung CQM1H-SCB41 des Produzenten Omron
Zur Seite of 421
Cat.No. W365–E1–1 CQM1H-SCB41 Serial Communications Board SYSMAC CQM1H Series OPERA TION MANUAL.
SYSMAC CQM1H Series CQM1H-SCB41 Serial Communications Board Operation Manual Produced September 1999.
! ! ! v Notice: OMRON products are manufactured for use according to proper procedures by a qualified operator and only for the purposes described in this manual. The following conventions are used to indicate and classify precautions in this manual. Always heed the information provided with them.
vii About this Manual: This manual describes the installation and operation of the SYSMAC CQM1H-series CQM1H-SCB41 Se- rial Communications Board and includes the sections described below . The Serial Communications Board is classified as an Inner Board.
T ABLE OF CONTENTS viii PRECAUTIONS xi . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Intended Audience xii . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 General Precautions xii .
T ABLE OF CONTENTS ix SECTION 7 Communications for 1:1 Data Links 107 . . . . . . . . . . . . . . . . 7-1 Overview 108 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2 Application Procedure 109 .
xi PRECAUTIONS This section provides general precautions for using the Serial Communications Boards. The information contained in this section is important for the safe and reliable application of the Serial Communica- tions Boards and the PC in general.
! ! ! ! ! 3 Conformance to EC Directives xii 1 Intended Audience This manual is intended for the following personnel, who must also have knowl- edge of electrical systems (an electrical engineer or the equivalent). • Personnel in charge of installing F A systems.
! ! ! ! ! 5 Conformance to EC Directives xiii 4 Operating Environment Precautions Caution Do not operate the control system in the following locations: • Locations subject to direct sunlight. • Locations subject to temperatures or humidity outside the range specified in the specifications.
5 Conformance to EC Directives xiv • Always discharge static electricity by touching a grounded metal part before mounting the Serial Communications Board. • Always discharge static electricity by touching a grounded metal part before connecting cable connectors to RS-232C or RS-422A/485 port of the Serial Communications Board.
6 Conformance to EC Directives xv 6 Conformance to EC Directives 6-1 Applicable Directives • EMC Directives • Low V oltage Directive 6-1-1 Concepts EMC Directives OMRON devices that comply with EC Directives also conform to the related EMC standards so that they can be more easily built into other devices or ma- chines.
6 Conformance to EC Directives xvi Recommended Ferrite Cores The following ferrite core (data line noise filter) is recommended: 0443-164151 by Fair-Rite Products Corp. Low impedance, 25 MHz: 90 Ω , 100 MHz: 160 Ω Recommended Mounting Method Mount the core on one turn of the communications cable, as shown in the follow- ing illustration.
1 SECTION 1 Intr oduction This section introduces the hardware and software functions of the Serial Communications Board, including the serial com- munications modes, system configurations, and specifications. 1-1 Overview 2 . . . . . . . . . . . . . .
1-1 Section Basic Operating Procedure 2 1-1 Overview 1-1-1 Model Number Name Model Specifications Serial Communications Board CQM1H-SCB41 One RS-232 port One RS-422A/485 port 1-1-2 Serial Communications Boards Th e Serial Communications Board is an Inner Board for the CQM1H-series PCs.
1-1 Section Protocol Overview 3 1-1-4 System Configuration The following serial communications modes are supported by the Serial Com- munications Board: Host Link (SYSMAC W A Y), protocol macro, no-protocol, 1:1 Data Links, 1:N-mode NT Link, and 1:1-mode NT Link modes.
1-2 Section Basic Operating Procedure 4 1-1-5 Mounting Location The Serial Communications Board can be installed in Inner Board slot 1 of a CQM1H-series CPU Unit.
1-2 Section Protocol Overview 5 1-2-1 Host Link Mode In Host Link Mode, C-mode Host Link commands can be sent from a computer , P T , or other host to read or write I/O memory in the PC or to control the PC ’ s oper- ating modes. The TXD( –– ) instruction can be used to send ASCII data to the host.
1-2 Section Basic Operating Procedure 6 • Pin 8 on the DIP switch on the front of the CQM1H-series CPU Unit must be turned ON t o use the CX-Protocol. While pin 8 is ON, you will not be able to use an y of the CPU Unit or Board ports for the CX-Programmer , SYSMAC-CPT , or SYSMAC Support Software.
1-2 Section Protocol Overview 7 Note A 4-wire connection must be used when using an RS-422A/485 port. LR 00 LR 31 LR 32 LR 63 Master PC Slave PC Master area (sent) LR 00 LR 31 LR 32 LR 63 Master area .
1-4 Section Basic Operating Procedure 8 1-3 Specifications 1-3-1 Serial Communications Board Device name Serial Communications Board Model number CQM1H-SCB41 Classification CQM1H-series Inner Board Su.
9 SECTION 2 Board Components and Installation This section describes the components of the Serial Communications Board, how to connect it in the CPU Unit, and how to connect it to external devices. 2-1 Component Names and Functions 10 . . . . . . . . .
2-1 Section Installation 10 2-1 Component Names and Functions Th e components of the Serial Communications Board are described in this sec- tion. T erminating resistance switch 2-wire or 4-wire switch.
2-1 Section W iring 11 A Serial Communications Board is mounted as an Inner Board in the CPU Unit and thus affects the CPU Unit ERR/ALM indicator . Indicator Color Status Meaning ERR/ALM Red Lit Fatal error If a fatal error occurs, the CPU Unit will stop operation in either RUN or MONITOR mode.
! 2-1 Section Installation 12 Caution Do not connect the 5-V power supply of pin 6 to any external device other than an NT -AL001-E Link Adapter . Otherwise, the external device and the Serial Com- munications Board may be damaged. The following cables are provided for connection to NT -AL001-E Link Adapters.
! 2-1 Section W iring 13 The internal circuits for port 2 are shown below . Receiver Driver T erminating resistance: 200 Ω T erminating resistance switch 2-wire/4-wire switch Pin 8: RDB (+) Pin 6: RDA ( – ) Pin 2: SDB (+) Pin 1: SDA ( – ) Caution Confirm polarities before connecting RS-422A/485 cables.
2-2 Section Installation 14 2-2 Installation 2-2-1 Mounting the Board This section describes how to mount a Serial Communications Board in Inner Board slot 1 of a CPU Unit. Slot 1 is the slot on the left. Only one Serial Commu- nications Board can be installed in each CPU Unit.
2-2 Section W iring 15 2-2-2 External Dimensions CS1W-SCB41 Mounted in the CPU Unit Unit: mm 11 0 107 25 2-2-3 Mounting Height and Connector Cover Dimensions When mounting the Serial Communications Board, make sure to provide space for the mounting height and connector cover dimensions shown below .
2-2 Section Installation 16 2-2-4 Precautions in Handling the Board • T urn OFF the power supply to the CPU Unit before mounting or removing the Board. • T urn OFF the power supply to the CPU Unit before before connecting or dis- connecting Board connectors or wiring.
2-3 Section W iring 17 2-3 Wiring 2-3-1 Connectors Prepare connecting cables for port 1 (RS-232C) and port 2 (RS422A/485) using the Sockets and Hoods provided with the Board and the recommended cables. Connection methods vary with the serial communications mode that is being used.
2-3 Section Installation 18 RS-422A/485 Cable Model Manufacturer CO-HC-ESV -3P × 7/0.2 Hirakawa Hewtech Corp. Refer to pages 1 1 and 12 for the connector pin layouts. Refer to 2-3-5 Recom- mended RS-232C Wiring Examples and 2-3-6 Recommended RS-422A/485 Wiring Examples for wiring examples, and to 2-3-7 Wiring Connectors for wiring methods.
2-3 Section W iring 19 2-3-4 Port Applicability and Restrictions for 2-W ire/4-Wire Connections The following table shows the port connections that can be used for each serial communications mode.
2-3 Section Installation 20 Pin Function Factory setting 1 Not used. Always set this pin to ON. ON 2 Built-in terminating resistance setting ON: Connects terminating resistance. OFF: Disconnects terminating resistance. ON 3 2/4-wire setting OFF 4 2-wire: Set both pins to ON.
2-3 Section W iring 21 Note Th e Hood (FG) is internally connected to the ground terminal (GR) on the Power Supply Unit. Therefore, FG is grounded by grounding the ground terminal (GR) on the Power Supply Unit.
2-3 Section Installation 22 4-Wire Connections Serial Communications Board Remote device Shield Pin Signal Hood Signal Using a 3G2A9-AL001 Link Adapter Serial Communications Board Remote device Signal.
2-3 Section W iring 23 Note Th e Hood (FG) is internally connected to the ground terminal (GR) on the Power Supply Unit. Therefore, FG is grounded by grounding the ground terminal (GR) on the Power Supply Unit. Serial Communications Board Power Supply Unit Hood and GR are internally connected.
2-3 Section Installation 24 5. Fold back the braided shield. 6. Wrap aluminum foil tape around the folded shield. Aluminum foil tape Shield Not Connected to Hood (FG) 1, 2, 3... 1. Cut the cable to the required length. 2. Remove the specified length of the sheath from the cable using a knife.
2-3 Section W iring 25 2-3-8 Soldering 1, 2, 3... 1. Thread a heat-shrinking tube through each conductor . 2. T emporarily solder each conductor to the corresponding connector termi- nals. 3. Completely solder each conductor . Soldering iron Heat-shrinking tube Inside diameter: 1.
2-3 Section Installation 26 2-3-10 Connecting to the Board T ighten the screws firmly with your fingers..
27 SECTION 3 Default Settings and Related Bits/Flags This section describes the settings, control bits, flags, and status information available in the CPU Unit for use with the Serial Communications Board. 3-1 Overview 28 . . . . . . . . . . . . . . .
3-2 Section PC Setup Settings 28 3-1 Overview The following settings, control bits, flags, and information are available in the CPU Unit memory for use with the Serial Communications Board.
3-2 Section PC Setup Settings 29 Word(s) Bit(s) Function Applicable mode DM 6550 (port 2) DM 6555 (port 1) 00 to 03 Port settings 0: Standard (1 start bit, 7-bit data, even parity , 2 stop bits, 9,600.
3-3 Section PC Setup Settings 30 3-3 Control Bits, Flags, and Status Information Control bits, flags, and status information for the Serial Communications Board is available in the Inner Board Slot 1 area. The addresses in this area are as fol- lows: Inner Board Slot 1 Area: IR 200 to IR 207 The following bits are often used in Protocol Macro Mode.
3-3 Section PC Setup Settings 31 Word Communications modes Function Bits IR 202 00 to 07 Port 1 Communicating with PT Flags (Bits 00 to 07 are flags for PT s 0 to 7.) NT Link in 1:N mode Repeat counter PV (00 to FF hexadecimal) Protocol macro 00 to 15 Reception counter Th e number of bytes of data received in No-protocol Mode (Hex).
3-3 Section PC Setup Settings 32 Word Bit(s) Function SR 254 15 Inner Board Error Flag T urns ON when an error occurs in an Inner Board mounted in slot 1 or slot 2. The error code for slot 1 is stored in AR 0400 to AR 0407 and the error code for slot 2 is stored in AR 0408 to AR 0415.
33 SECTION 4 Host Link Communications This section describes the procedure and other information required to use Host Link communications. 4-1 Host Link Communications 34 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
4-1 Section Connections 34 4-1 Host Link Communications A Host Link System can be used to send C-mode Host Link commands from a host (e.g., personal computer or PT) to a PC to read/write I/O memory , control operating modes, etc.
4-1 Section Application Procedure 35 4-1-1 Host Link Communications Host Link communications are supported by all CQM1H-series CPU Units. A Serial Communications Board can be used to connect a single PC to more than one host computer for Host Link communications, including slave-initiated com- munications.
4-2 Section Connections 36 4-1-2 Host Link Specifications Item Description Communications mode Half-duplex (Full-duplex for slave-initiated communications) Synchronization Start-stop (asynchronous mod.
4-2 Section Application Procedure 37 shown below . Perform other processing as required, such as setting switches on the external device(s). Serial Communications Board T erminating resistance ON NT -.
4-2 Section Connections 38 6. Program the host and the CPU Unit and execute the programs. Host-initiated Communications: Host Link Commands A program must be prepared in the host to send Host Link commands to the PC and receive responses.
4-3 Section Application Procedure 39 4-3 Connections 4-3-1 T ypes of Connection Port connections for Host Link communications are shown in the following table.
! 4-3 Section Connections 40 Host Computer Connections 1:1 Connections Using RS-232C Ports IBM PC/A T or Compatible Computers Serial Communications Board RS-232C interface Pin Signal D-sub, 9-pin conn.
4-3 Section Application Procedure 41 1:N Connections Using RS-232C Ports 5-V (+) power ( – ) D-sub, 9-pin connector (male) NT -AL001-E Link Adapter Shield RS-232C Interface RS-232C Interface RS-232C.
4-3 Section Connections 42 1:1 Connections Using RS-422A/485 Ports 5-V (+) power ( – ) D-sub, 9-pin connector (male) NT -AL001-E Link Adapter Shield RS-232C Interface RS-422A / 485 In- terface Signa.
4-3 Section Application Procedure 43 1:N Connections Using RS-422A/485 Ports 5-V (+) power ( – ) D-sub, 9-pin connector (male) NT -AL001-E Link Adapter Shield RS-232C Interface DIP Switch Settings P.
4-3 Section Connections 44 4-3-2 Standard Cables from Board to Personal Computer Board port Computer Computer port Network type Model Length Remarks RS-232C port IBM PT/A T or D-sub, 9-pin Host Link XW2Z-200S-CV 2 m Conforms to (D-sub, 9-pin female) compatible male (SYSMAC WA Y ) XW2Z-500S-CV 5 m ESD.
4-4 Section Application Procedure 45 4-4 Host Link Communications 4-4-1 Protocol Host Link communications are executed by means of an exchange of com- mands and responses between the host computer and the PC. The command or response data that is transferred in one exchange is known as a frame and one frame can contain up to 131 characters of data.
4-4 Section Connections 46 When the response is longer than 131 characters, it will be divided into more than one frame. A carriage return delimiter ( ↵ , CHR$(13)) instead of a terminator will automatically be set a t the end of the frame. A terminator will be set at the end of the last frame.
4-4 Section Application Procedure 47 that is included in the frame makes it possible to check for data errors in the frame. FCS ↵ 0 1R R 0 @0 014 2 T ext Node No. Header code FCS calculation range T erminator @ 40 0100 0000 EOR 1 31 001 1 0001 EOR 0 30 001 1 0000 EOR R 52 0101 0010 1 31 001 1 0001 0100 0010 ↓↓ Converted to hexadecimal.
4-4 Section Connections 48 Th e TXD( –– ) instruction can be used to transmit data from the PC ’ s data area to the host computer . There is no response from the host computer .
4-4 Section Application Procedure 49 480 Q=ASC(MID$(RESPONSE$,I,1)) XOR Q 490 NEXT I 500 FCSD$=HEX$(Q) 510 IF LEN(FCSD$)=1 THEN FCSD$= ” 0 ” +FCSD$ ’ FCS result 520 IF FCSD$<>FCSP$ THEN FCSCK$= ” ERR ” 530 PRINT ” FCSD$= ” ;FCSD$, ” FCSP$= ” ;FCSP$, ” FCSCK$= ” ;FCSCK$ 540 RETURN Note 1.
4-4 Section Connections 50 A transmission delay can be set in the PC Setup to create a minimum interval between sending a response from the PC to a Host Link command until the be- ginning of sending the response to the next command. Th e delay is not used in the response to the first command.
4-4 Section Application Procedure 51 4-4-3 Host Link Commands Th e Host Link commands listed in the following table can be sent to the CQM1H fo r Host Link communications.
4-4 Section Connections 52 4-4-4 End Codes The response (end) codes listed in the following table are returned in the re- sponse frame for Host Link commands. When two or more errors occur , the end code for the first error will be returned. End code Contents Probable cause Corrective measures 00 Normal completion No problem exists.
4-5 Section Application Procedure 53 A response will not be received with some errors, regardless of the command. These errors are listed in the following table. Error PC operation Parity , overrun, or framing error during command reception. (Same even for commands address to other Units.
4-5 Section Connections 54 Previous products Changes required for CQM1H-series product Model number Previous products Other Wiring Model number C-series CPU Units SRM1 CPM1 CPM1A CPM2A/CPM2C CQM1-CPU -E C200HS-CPU -E C200HX/HG/HE- CPU -E C200HW-COM -E No changes have been made in wiring.
4-5 Section Application Procedure 55 4-5-2 RS-422A/485 Ports T ake the following differences into consideration when changing from an exist- ing Host Link System to one using an RS-422A/485 port on a CQM1H-series Serial Communications Board.
57 SECTION 5 Pr otocol Macr os This section describes the procedure and other information required to use protocol macros. 5-1 Overview of the Protocol Macro Functions 58 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1-1 Protocol Macros 58 .
5-1 Section Using Protocol Macros 58 5-1 Overview of the Protocol Macro Functions 5-1-1 Protocol Macros The protocol macro function is used to control devices by using the PMCR( –– ) instruction i.
5-1 Section Using Protocol Macros 59 Protocol Macro Function Specifications Item Description Number of protocols (20 max.) Can be created and registered with the Protocol Support T ool Number of sequences (1,000 max.) (CX-Protocol). Per protocol Number of sequences 60 max.
5-1 Section Using Protocol Macros 60 Item Description Sequence contents (step common Number of steps per sequence 16 max. parameters) T ransmission control parameters X-on/X-off flow , RTS/CTS flow , delimiter control, or contention control, and modem control can be selected.
5-1 Section Using Protocol Macros 61 Item Description Step contents Commands Send only (SEND), receive only (RECEIVE), or send and receive (SEND&RECEIVE) Repeat counter 1 to 255 times Retry count 0 to 9 (Only when the command is SEND&RECEIVE) Send wait time 0.
5-1 Section Using Protocol Macros 62 Item Description Message con- tents *1: Header and terminator data attrib- utes Con- stant ASCII data, hexadecimal data, or control code *2: Data attrib- Con- stan.
5-1 Section Using Protocol Macros 63 Item Description Message con- tents (contin- *3: Error check codes LRC, LRC2, CRC-CCITT , CRC-16, SUM, SUM1, and SUM2 can be calcu- lated.
5-1 Section Using Protocol Macros 64 If there is no standard system protocol for the required OMRON product or you wish to modify part of the protocol, you can use the CX-Protocol to modify a stan- da.
5-2 Section Using Protocol Macros 65 In this manual, the protocol structure is explained in simple terms, and examples are given of the use of the PMCR( –– ) instruction when controlling OMRON de- vices using standard system protocols.
5-3 Section Using Protocol Macros 66 Item Procedure Restriction Communications port settings on the Board Use the same communications port settings for the Board as those used for the C200HX/HG/HE. The communications port names will be as follows: Communications Port A will be port 1 on the Board.
5-3 Section Using Protocol Macros 67 Note Th e PC Setup settings for the Serial Communications Board are read constantly during PC operation. It is not necessary to restart the PC after changing these settings. Th e default settings are shown in the following table.
5-3 Section Using Protocol Macros 68 Send Data 7 words from D00000 to D00006 K3N node No. : 00 CompoW ay/F command “ 0101 ” (reads the K3N present value) Number of send bytes CompoW ay/F command s.
5-3 Section Using Protocol Macros 69 e) T ransferring the created project to the Board: See 1 1.1 T ransferring and Reading Protocol Data between Personal Computers and Serial Communications Boards .
5-4 Section Using Protocol Macros 70 5-4 Connections This section describes the connections for protocol macros. Up to 32 nodes can be used for 1:N connections.
5-4 Section Using Protocol Macros 71 Port Schematic diagram Configuration RS-422A/485 1:N RS-422A/485 RS-232C interface RS-422A/485 Resistance ON RS-422A/485 interface RS-422A/485 interface 3G2A9-AL001 Resistance ON Resistance ON Resistance ON NT -AL001-E RS-232C RS-232C RS-232C Resistance ON 5-V power Resistance ON RS-422A/485 Note 1.
5-4 Section Using Protocol Macros 72 Connecting a Host Computer with NT -AL001-E Converting Link Adapters 5-V (+) power ( – ) NT -AL001-E Link Adapter RS-232C Interface RS-232C Interface Signal Pin .
5-4 Section Using Protocol Macros 73 1:N Connections Using RS-232C Ports Signal Pin Serial Communications Board Shield NT -AL001-E Device supporting RS-422A/485 communications (4-wire) RS-422A /485 in.
5-4 Section Using Protocol Macros 74 1:1 Connections Using RS-422A/485 Ports Signal Pin Serial Communications Board RS-422A /485 in- terface Device supporting RS-422A/485 communications (2-wire) Seria.
5-4 Section Using Protocol Macros 75 1:N Connections Using RS-422A/485 Ports Signal Pin Serial Communications Board RS-422A/ 485 inter- face Device supporting RS-422A/485 communications (2-wire) Hood .
5-5 Section Using Protocol Macros 76 5-5 Protocol Structure Protocols consist of communications sequences. A sequence consists of steps. These steps can be repeated, or they can be branched or ended depending on the responses received.
5-5 Section Using Protocol Macros 77 Depending on the response received, the user can either choose to resend the same send message (retry processing), or to perform the next process (for ex- ample, read the process value for a T emperature Controller with a different ad- dress).
5-5 Section Using Protocol Macros 78 Parameter Meaning Command One of the following: SEND, RECEIVE, or SEND&RECEIVE Messages Send message The message sent for SEND. Receive message The expected message for RECEIVE. Send message and receive message The message sent and the expected message for SEND&RECEIVE.
5-5 Section Using Protocol Macros 79 Level Setting Item Send message Header <h> “ @ ” SD (00) _1 T erminator <t> [2A0D] SD (00) _1 Error check code <c> LRC (horizontal parity) (0.
5-6 Section Using Protocol Macros 80 5-6 Control Bits, Flags, and Status Information Control bits, flags, and status information for the Serial Communications Board are available in the Inner Board Slot 1 area.
5-6 Section Using Protocol Macros 81 Word Reset Set Classifi- cation Name and Function Bits IR 201 00 to 03 Port 1 Error Code (Transmission Error Status) When an error occurs during transmissions for a protocol macro, an error code will be output to these bits.
5-6 Section Using Protocol Macros 82 Word Reset Set Classifi- cation Name and Function Bits IR 204 00 Port 1 T racing Flag According to instructions from the CX-Protocol, this flag is turned ON while time-series data for send and receive messages is being traced.
5-6 Section Using Protocol Macros 83 Word Reset Set Classifi- cation Name and Function Bits IR 207 00 Port 1 Restart Bit The communications port will be restarted when this bit is turned ON by the user . Port sta- tus User-set or STUP( –– ) After settings are changed 01 Port 2 Restart Bit Same as IR 20700.
5-6 Section Using Protocol Macros 84 Word Reset Set Classifi- cation Name and Function Bits IR 207 08 Port 1 Protocol Macro Executing Flag (instruction execution) This flag is turned ON when a PMCR( –– ) instruction (se- quence) is executed. The flag will remain OFF if execution fails.
5-7 Section Using Protocol Macros 85 Error Codes The contents of the error codes are shown in the following table. Code Error contents Protocol macro execution 0 No error Executed 2 Sequence Number Error The sequence number specified by the PMCR( –– ) instruction does not exist in the Board.
5-7 Section Using Protocol Macros 86 The number of send words in S+1 and the following words is stored in S. The setting range is 0001 to 0129 (4 digits BCD).
5-7 Section Using Protocol Macros 87 Operand Areas and Address Ranges Area C S D IR and SR Areas IR 000 to IR 255 IR 000 to IR 252 HR Area HR 00 to HR 99 AR Area AR 00 to AR 27 LR Area LR 00 to LR 63 .
5-7 Section Using Protocol Macros 88 5-7-3 Ladder Program Example Th e following diagram shows an example in which sequence number 000 (Pres- ent V alue Read) for a T emperature Controller (E5 K Read Protocol) is executed using the protocol for an OMRON T emperature Controller connected to port 2 (RS-422A/485) of a Serial Communications Board.
5-7 Section Using Protocol Macros 89 Reading the present value of E5 K Unit No. 03 and storing it in DM 0201 C: Control data 0000: Sequence No. 000 S: First send data word D: First receive data storage word Number of receive data words = 2 Present value is stored.
5-7 Section Using Protocol Macros 90 The following diagram shows an example in which sequence number 000 (PRESENT V ALUE READ) of a T emperature Controller (E5 K Read System) is executed using the PMCR( –– ) instruction. If the sequence has been completed normally , the present value that has been read is transferred to another word.
5-7 Section Using Protocol Macros 91 T ransmission Methods Although the following two transmission methods are commonly used, only half- duplex transmissions are supported for CQM1H protocol macros. A B Or A B Half-duplex: Data can be sent only one direction at a time.
5-7 Section Using Protocol Macros 92 Time Lag t1 Baud rate (b/s) Lag time (ms) 1,200 30 2,400 15 4,800 8 9,600 5 19,200 3 Note The lag time shown above is an approximate value.
5-7 Section Using Protocol Macros 93 troller . When sequence execution has been completed, the PV is transferred to words to store it. Execution condition Protocol Macro Exe- cuting Flag Protocol Macr.
5-7 Section Using Protocol Macros 94 Example 1 Sequence Error Sequence ended abnormally Step No. 01 Error Sequence ended abnormally Sequence ended normally Example 2 Sequence Step No.
5-7 Section Using Protocol Macros 95 Precautions on Using the Force Abort Bit Th e Protocol Macro Executing Flag will turn OFF as soon as the Forced Abort Bit is turned ON from the ladder program. The Forced Abort Bit must remain ON for at least 15 ms longer than the CPU Unit cycle time.
97 SECTION 6 No-protocol Communications This section provides information required to use no-protocol communications on a Serial Communications Board port. 6-1 Overview 98 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
6-1 Section Using No-protocol Communications 98 6-1 Overview Data can be sent or received without a protocol and without conversion by con- necting an external device to the RS-232C port and executing the TXD( –– ) or RXD( –– ) instruction from the ladder program.
6-1 Section Using No-protocol Communications 99 Send/Receive Message Frames Start code End code No Ye s CR+LF No Data 256 bytes max. 256 bytes max. Data ED 256 bytes max. Data CR+LF Ye s 256 bytes max. Data ST 256 bytes max. Data ST ED 256 bytes max. Data ST CR+LF • Only the first start code is valid if there is more than one start code.
6-2 Section Using No-protocol Communications 100 6-2 Application Procedure 1, 2, 3... 1. Turn OFF the power supply to the PC. 2. Mount the Board. 3. Connections Connect the external devices using RS-232C or RS-422 cables. The TERM a nd WIRE switches on the front panel of the Board must be set if the Board is connected using the RS-422A/485 port.
6-3 Section Using No-protocol Communications 101 6-3 Connections The connection examples in this section show only the basic connection dia- grams. W e recommend that appropriate noise countermeasures be taken in ac- tual applications, including the use of shielded twisted-pair cables.
6-4 Section Using No-protocol Communications 102 6-4 Using No-protocol Communications 6-4-1 TRANSMIT – TXD( –– ) and RECEIVE – RXD( –– ) This section describes using TXD( –– ) and RXD( –– ) for no-protocol communica- tions.
6-4 Section Using No-protocol Communications 103 RECEIVE – RXD( –– ) in No-protocol Mode First destination word Control word Number of bytes (4 digits BCD, 0000 to 0256) RXD( –– ) D C N Control Word: C Byte order 0: Most significant bytes first 1: Least significant bytes first Not used.
6-4 Section Using No-protocol Communications 104 6-4-2 TXD( –– ) Communications Procedure Confirm that the T ransmission Enabled Flag is ON before executing TXD( –– ). Th e Port 1 T ransmission Enabled Flag is IR 20105 and the Port 2 T ransmission Enabled Flag is IR 201 13.
6-4 Section Using No-protocol Communications 105 Port 1 Port 2 Function IR 20100 to IR 20103 IR 20108 to IR 201 1 1 Error Code 0: Normal operation 1: Parity error 2: Framing error 3: Overrun error IR .
107 SECTION 7 Communications for 1:1 Data Links This section provides information required to create 1:1 Data Links through a Serial Communications Board port. 7-1 Overview 108 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
7-1 Section Overview 108 7-1 Overview If two PCs are linked one-to-one by connecting them together through RS-232C or 4-wire RS-422A/485 cable, they can share up to 64 words of their LR areas. Th e 1:1 Data Links are the same as normal Data Links in that data is not shared bidirectionally , i.
7-2 Section Using 1:1 Data Links 109 7-1-2 Specifications Item Specification Connection method Connection of 2 PCs through their RS-232C ports (prepared cable).
7-3 Section Overview 11 0 Port 1 Port 2 Bits Setting Function DM 6555 DM 6550 00 to 07 --- Not used. 08 to 1 1 0 Hex Link words for 1:1 Data Link 0: LR 00 to LR 63 (default) 1: LR 00 to LR 31 2: LR 00 to LR 15 12 to 15 3 Hex Communications mode 2: 1:1 Data Link slave 3: 1:1 Data Link master DM 6556 DM 6551 00 to 15 --- Not used.
7-4 Section Using 1:1 Data Links 111 7-4 Using 1:1 Data Links This section provides an example of using 1:1 Data Links. Conditions The following settings are made in the PC Setup before executing the program.
11 3 SECTION 8 NT Link Communications This section describes the procedure and other information required to use 1:N-mode and 1:1-mode NT Links to Program- mable T erminals (PT s). 8-1 Overview of NT Links 1 14 . . . . . . . . . . . . . . . . . . . . .
8-1 Section Connections 11 4 8-1 Overview of NT Links This section explains the application of a Serial Communications Board for an NT Link in either 1:N or 1:1 mode. For details on the operation of the PT , refer to the operation manual for the PT . Note In an NT Link using 1:N mode, a PC can be connected to either one or more than on e P T s.
8-1 Section Connections 11 5 3. Th e Programming Console functions of the PT (Expansion Mode) cannot be used when connected to Serial Communications Board ports. They can be used only by connecting to the peripheral port or RS-232C port on the CPU Unit.
8-2 Section Connections 11 6 6. With some PT s, timeout settings can be changed to eliminate some of the communications errors. Refer to the operation manual for the PT for details.
8-3 Section Connections 11 7 Port 1 Function Setting Bit(s) Port 2 DM 6556 DM 6551 00 to 15 --- Not used. DM 6557 DM 6552 00 to 15 DM 6558 DM 6553 00 to 15 DM 6559 DM 6554 00 to 15 Port Settings are always the same for 1:1-mode NT Links. Settings of the start bits, stop bits, parity , and baud rate are not necessary and will be ig- nored.
8-3 Section Connections 11 8 1:N, 4-wire Connections from RS-422A/485 to RS-422A/485 Ports (1:N Mode) Serial Communications Board Pin Signal Signal PT T erminal block or D-sub connector RS-422A /485 I.
11 9 SECTION 9 T roubleshooting and Maintenance This section describes the troubleshooting and maintenance procedures for the Serial Communications Boards. 9-1 Front-panel Indicator Error Displays 120 . . . . . . . . . . . . . . . . . . . . . . . . . .
9-1 Section Board Replacement 120 9-1 Front-panel Indicator Error Displays Indicators Possible cause Remedy Board CPU Unit RDY ERR/ALM Lit Not lit The Serial Communications Board has started normally . --- Not lit Lit The Serial Communications Board is faulty (hardware self-diagnostic function).
9-2 Section Board Replacement 121 For Serial Communications Boards, refer to the following error flags. When an error occurs, the corresponding flag is turned ON. All of these flags represent non-fatal errors. Word Bit Name Probable cause Possible remedy IR 200 00 Serial Communications Board Hardware Error Flag The Board has failed.
9-2 Section Board Replacement 122 Serial com- munications mode Remedy Cause I/O memory Status information, etc. Indicator status Serial commu- nications mode is not set to Host Link. --- --- Bits 12 to 15 (Serial Communications Mode) of DM 6555/DM 6550 are set to a value other than 0 Hex.
9-2 Section Board Replacement 123 Serial com- munications mode Remedy Cause I/O memory Status information, etc. Indicator status Serial commu- nications mode is set to Host Link. (Contin- ued) The COMM indicators are flashing, but the response has not been returned to the There is a transmission error .
9-2 Section Board Replacement 124 Serial com- munications mode Remedy Cause I/O memory Status information, etc. Indicator status Host Link, slave-initiated communica- tions The COMM indicators are flashing, but there is no re- sponse from the host.
9-2 Section Board Replacement 125 9-2-2 Protocol Macros Serial commu- nications mode Indicator display Status information, etc. I/O memory Cause Remedy Serial com- munica- tions mode is not set to protocol macro. --- --- Bits 12 to 15 (Serial Communications Mode) of DM 6555/DM 6550 are set to a value other than 6 Hex.
9-2 Section Board Replacement 126 Serial commu- nications mode Remedy Cause I/O memory Status information, etc. Indicator display Serial com- munica- tions mode is set to protocol macro.
9-2 Section Board Replacement 127 Serial commu- nications mode Remedy Cause I/O memory Status information, etc. Indicator display Serial com- munica- tions mode is set to protocol macro. The COMM indicators are flash- ing, but the Serial A transmission error occurs.
9-2 Section Board Replacement 128 Error code Remedy Cause Error details Indicator 2 Hex No display Sequence number error The communications sequence number specified in bits 00 to 1 1 of the PMCR( –– ) instruction ’ s C operand is not registered.
9-2 Section Board Replacement 129 9-2-3 1:N NT Link Mode Serial commu- nications mode Indicator display Status information, etc. I/O memory Cause Remedy Serial commu- nications mode is not set to NT Link. --- --- Bits 12 to 15 (Serial Commu- nications Mode) of DM 6555/ DM 6550 are set to a value other than 5 Hex.
9-3 Section Board Replacement 130 Serial commu- nications mode Remedy Cause I/O memory Status information, etc. Indicator display Serial commu- nications mode is set to NT Link. The COMM indicators are flashing, but a communica- tions error sometimes oc- curs in the PT .
9-3 Section Board Replacement 131 9-3-2 Inspection T o keep the Serial Communications Board in optimum condition, regular inspec- tions must be performed.
9-4 Section Board Replacement 132 9-4 Board Replacement A malfunction of the Serial Communications Board may affect the operation of remote communications devices, so be sure to perform repairs or replace the faulty Board promptly .
9-4 Section Board Replacement 133 4. Turn ON the power of the PC to which the replacement Serial Communica- tions Board is mounted, and to all serially connected external devices, and start operating the system. 5. Check from the indicators and status display that the system is operating normally .
135 Appendix A Introduction Appendices B t o N provide information on the standard system protocols provided with the CX-Protocol, the Serial Communications Boards.
Appendix A Introduction 136 D: Receive Data Word Allocation (4th Operand) Receive data storage words Number of receive data words +0 +1 +2 Response code Receive data Offset Contents (data format) Data.
137 Appendix B CompoW ay/F Master Protocol The CompoWay/F Master Protocol is used to send CompoW ay/F commands with the CS1-series PC serving as the host (master). CompoW ay/F CompoW ay/F is a protocol used by many OMRON components for serial communications.
Appendix B CompoW ay/F Master Protocol 138 Communications Specifications Item Specification T ransmission path connections Multipoint Communications RS-232C, RS-422A/485, 4-wire half-duplex, 2-wire ha.
Appendix B CompoW ay/F Master Protocol 139 Command Frame Contents Item Meaning STX A code, 02 Hex, indicating the beginning of a communications frame (text). This code must always be set as the first byte. Node number The node number identifies the source of the command frame.
Appendix B CompoW ay/F Master Protocol 140 Note The end codes are described in the following table. End code Name Meaning “ 00 ” Normal end The command frame was processed normally without any of the following errors. “ 0F ” Command error The specified command could not be executed.
Appendix B CompoW ay/F Master Protocol 141 Example: V ARIABLE AREA READ The following command and text are used to read the present value, maximum value, minimum value, and status of the Intelligent Signal Processor . Command and T ext 4 bytes 2 bytes 2 bytes 2 bytes 4 bytes V ariable type First read address No.
Appendix B CompoW ay/F Master Protocol 142 CompoW ay/F Master Protocol Sequences The CompoW ay/F Master Protocol provides six communications sequences that can be used for the following: • Convertin.
Appendix B CompoW ay/F Master Protocol 143 CompoW ay/F Message Frames and PMCR(260) Operands The relationship between the CompoWay/F command and response frames and the operands of PMCR(260) is shown below , using communications sequence No. 600 as an example.
Appendix B CompoW ay/F Master Protocol 144 Send Data Word Allocation (2nd Operand of PMCR(260)) Send data First word of send data Number of send data words +0 +1 +2 +3 +4 (Undefined) Node No. MRC SRC Number of send bytes Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0005 to 0128 +1 (Undefined) Node No.
Appendix B CompoW ay/F Master Protocol 145 Example: The following example illustrates reading the present value from a K3N -series Intelligent Signal Proc- essor .
Appendix B CompoW ay/F Master Protocol 146 The 2nd and 3rd operands of the PMCR(260) instruction are specified as follows. Send Data Word Allocation (2nd Operand of PMCR(260)) Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0007 +1 (Undefined) Node No.
Appendix B CompoW ay/F Master Protocol 147 2. When hexadecimal data is converted to ASCII data, data is sent starting from the send data word with the largest offset.
Appendix B CompoW ay/F Master Protocol 148 Broadcast with No Conversion and No Response (Sequence No. 603) This sequence broadcasts the specified data beginning with the command code No responses are received and no conversions are performed on the send data.
Appendix B CompoW ay/F Master Protocol 149 General-purpose Send with No Conversion and with Response (Sequence No. 604) This sequence sends the specified data beginning with the subaddress and SID to the specified Unit. The re- sponse is stored starting at the specified word.
Appendix B CompoW ay/F Master Protocol 150 General-purpose Broadcast with No Conversion and No Response (Sequence No. 605) This sequence broadcasts the specified data beginning with the subaddress and SID. No responses are received and no conversions are performed on the send data.
Appendix B CompoW ay/F Master Protocol 151 Connections Connection methods between a Serial Communications Board and the K3N -series Intelligent Signal Processor are shown below . RS-232C • RS-232C connections are one-to-one. • The max. cable length is 15 m.
Appendix B CompoW ay/F Master Protocol 152 RS-422 4-wire Connections • RS-422 connections can be one-to-one, or one-to-N when a 3G2A9-AL001 Link Adapter is used. A maximum o f 32 Serial Communications Boards can be connected in one-to-N systems. • The total cable length can be 500 m max.
153 Appendix C E5 K Digital Controller Read Protocol The E5 K Digital Controller Read Protocol reads and controls various parameters in remote mode for the Con- troller connected to the Serial Communications Board via RS-232C or RS-485 cable.
Appendix C E5 j K Digital Controller Read Protocol 154 Connection Configuration The connection configuration for using the E5 K Digital Controller Read Protocol is shown below . RS-232C Connection Serial Commu- nications Board RS-232C port E5 K Serial Communications Board Signal name Pin No.
Appendix C E5 j K Digital Controller Read Protocol 155 terminator to units No.0 to No.29. Use a resistance of 120 Ω (1/2W) for the terminators (the total resis- tance of both ends must be 54 Ω or more). T erminator (120 /2 W) A<B: [1] Mark A>B: [0] Space Serial Communications Board Pin No.
Appendix C E5 j K Digital Controller Read Protocol 156 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0002 +1 Set point during SP ramp (4 digits BCD) Set point lower limit to upper limit Read MV (Sequence No.
Appendix C E5 j K Digital Controller Read Protocol 157 Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No. Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0002 (fixed) +1 Unit No.
Appendix C E5 j K Digital Controller Read Protocol 158 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0002 (fixed) +1 Unit No.
Appendix C E5 j K Digital Controller Read Protocol 159 Read Hysteresis (Sequence No. 009) Reads the hysteresis for heating and for cooling and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix C E5 j K Digital Controller Read Protocol 160 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0002 (fixed) +1 Unit No.
Appendix C E5 j K Digital Controller Read Protocol 161 Read MV at Stop T ime and at PV Error (Sequence No.013) Reads the MV at stop time and at PV error and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix C E5 j K Digital Controller Read Protocol 162 Read Input Digital Filter (Sequence No. 015) Reads the input digital filter and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix C E5 j K Digital Controller Read Protocol 163 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 Input shift upper limit Input.
Appendix C E5 j K Digital Controller Read Protocol 164 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) Number of units 5 + 1 +1 1st unit Process value (4 digits B.
Appendix C E5 j K Digital Controller Read Protocol 165 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) Number of units 6 + 1 +1 1st unit Alarm value 1 (4 digits BCD) A999 to 9999 F indicates a negative value and A indicates – 1.
Appendix C E5 j K Digital Controller Read Protocol 166 Receive Data Word Allocation (3rd Operand of PMCR) Cooling coef ficient Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5.
Appendix C E5 j K Digital Controller Read Protocol 167 Read Level 2 Parameters 1 (Sequence No. 021) Reads parameters in level 2 (SP ramp time unit, SP ramp set value, LBA detection time, MV at stop, MV at PV Error , MV upper limit, MV lower limit, and MV change rate limit) from multiple units and stores the results in the specified words.
Appendix C E5 j K Digital Controller Read Protocol 168 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) Number of units 8 + 1 +1 1st unit SP ramp time unit (4 digi.
Appendix C E5 j K Digital Controller Read Protocol 169 Receive Data Word Allocation (3rd Operand of PMCR) Input digital filter Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5.
Appendix C E5 j K Digital Controller Read Protocol 170 General-purpose Read (Sequence No. 023) Reads the specified parameter and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 (Undefined) Unit No.
171 Appendix D E5 K Digital Controller W rite Protocol The E 5 K Digital Controller Write Protocol writes and controls various settings in remote mode for the Controller connected to the Serial Communications Board via RS-232C or RS-485 cable.
Appendix D E5 j K Digital Controller W rite Protocol 172 Connections The connections are the same as that for the E5 K Digital Controller Read Protocol. W rite Set Point (Sequence No. 050) Writes the set point. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 (Undefined) Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 173 Receive Data Word Allocation (3rd Operand of PMCR) None. W rite Cooling Coefficient (Sequence No. 053) Writes the cooling coef ficient. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 (Undefined) Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 174 Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 (Undefined) Unit No. Hysteresis (heating) Hysteresis (cooling) Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0004 (fixed) +1 Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 175 Receive Data Word Allocation (3rd Operand of PMCR) None. W rite LBA Detection Time (Sequence No. 059) Writes the LBA detection time. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 (Undefined) Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 176 Receive Data Word Allocation (3rd Operand of PMCR) None. W rite Input Digital Filter (Sequence No. 062) Writes the input digital filter . Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 (Undefined) Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 177 Receive Data Word Allocation (3rd Operand of PMCR) None. W rite Level 0 Parameters (Sequence No. 065) Writes parameters (set points) in level 0 to multiple units. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 178 W rite Level 1 Parameters 1 (Sequence No. 066) Writes parameters in level 1 (alarm value 1, alarm value 2, alarm value 3, proportional band, integral time, and derivative time) to multiple units.
Appendix D E5 j K Digital Controller W rite Protocol 179 W rite Level 1 Parameter 2 (Sequence No. 067) Writes parameters in level 1 (cooling coefficient, dead band, manual reset value, hysteresis (heating), hysteresis (cooling), control period (heating), and control period (cooling)) to multiple units.
Appendix D E5 j K Digital Controller W rite Protocol 180 W rite Level 2 Parameters 1 (Sequence No. 068) Writes parameters in level 2 (SP ramp time unit, SP ramp set value, LBA detection time, MV at stop time, MV at PV error , MV upper limit, MV lower limit, and MV change rate limit) to multiple units.
Appendix D E5 j K Digital Controller W rite Protocol 181 W rite Level 2 Parameters 2 (Sequence No. 069) Writes parameters in level 2 (input digital filter , alarm 1 hysteresis, alarm 2 hysteresis, alarm 3 hysteresis, input shift upper limit, and input shift lower limit) to multiple units.
Appendix D E5 j K Digital Controller W rite Protocol 182 General-purpose W rite (Sequence No. 070) Writes the specified parameter . Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 (Undefined) Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 183 Run/Stop (Sequence No. 072) Switches the mode to Run or Stop according to the command code. This sequence can be executed for multiple units. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No.
Appendix D E5 j K Digital Controller W rite Protocol 184 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units 2 + 2 +1 Number of units (4 digits BCD) 0001 to 0008 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 1st unit Command code (4 digits BCD) 0000: Local 0001: Remote +17 (max.
Appendix D E5 j K Digital Controller W rite Protocol 185 Switch to Level 1 (Sequence No. 075) Switches the setting level to level 1 (setup mode, extended mode). This sequence can be executed for multiple units. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No.
187 Appendix E E5ZE T emperature Controller Read Protocol The E5ZE T emperature Controller Read Protocol reads and controls various parameters in remote mode for the T emperature Controller connected to the Serial Communications Board via RS-232C or RS-422A/485 cable.
Appendix E E5ZE T emperature Controller Read Protocol 188 Connections This section shows connections for using the E5ZE T emperature Controller Read Protocol. RS-232C Connections Serial Commu- nications Board RS-232C port E5ZE → RS-232C CQM1H Signal name Ab- brevi- ation Signal direction Pin No.
Appendix E E5ZE T emperature Controller Read Protocol 189 RS422/485 Connections • RS-485 Pin No. Signal name Abbreviation Signal direction 1 Disabled (Do not connect.
Appendix E E5ZE T emperature Controller Read Protocol 190 • RS-422A Pin No. Signal name Abbreviation Signal direction 1 Receive data B RDB Input 2 Receive data A RDA Input 3 Signal ground SG – 4 S.
Appendix E E5ZE T emperature Controller Read Protocol 191 Switch Settings This section shows the switch settings for using the E5ZE T emperature Controller Read Protocol.
Appendix E E5ZE T emperature Controller Read Protocol 192 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0002 (fixed) +1 Unit No.
Appendix E E5ZE T emperature Controller Read Protocol 193 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0017 +1 Channel 0 Process value (rightmost 4 digits) (4 digits BCD) V aries according to the temperature sensor type.
Appendix E E5ZE T emperature Controller Read Protocol 194 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0017 +1 Channel 0 Output value (4 digits BCD) 0000 to 1000 +.
Appendix E E5ZE T emperature Controller Read Protocol 195 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0041 +1 Channel 0 Set point (rightmost 4 digits) (4 digits BCD) V aries according to the temperature sensor type.
Appendix E E5ZE T emperature Controller Read Protocol 196 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0025 +1 Channel 0 Constant P (4 digits BCD) 0000 to 9999 +2 .
Appendix E E5ZE T emperature Controller Read Protocol 197 Read Output Mode (Sequence No. 106) Reads the output modes (normal/reverse) and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix E E5ZE T emperature Controller Read Protocol 198 Read Alarm T emperatures (Sequence No. 108) Reads the alarm temperatures and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix E E5ZE T emperature Controller Read Protocol 199 Read Hysteresis (Sequence No. 109) Reads the hysteresis and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix E E5ZE T emperature Controller Read Protocol 200 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0009 +1 Channel 0 Status code (4 digits Hex) 0000 to FFFF +2 Channel 1 Status code (4 digits Hex) 0000 to FFFF +8 Channel 7 Status code (4 digits Hex) 0000 to FFFF Read Error Status (Sequence No.
Appendix E E5ZE T emperature Controller Read Protocol 201 Read Input Shift V alue (Sequence No. 1 13) Reads the input shift values and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix E E5ZE T emperature Controller Read Protocol 202 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0009 +1 Channel 0 Manual reset value (4 digits BCD) 0000 to .
Appendix E E5ZE T emperature Controller Read Protocol 203 Read Present Set Point (Sequence No. 1 16) Reads the present set points during ramp operation and stores the results in the specified word. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix E E5ZE T emperature Controller Read Protocol 204 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +29 +30 +31 +32 Outp.
Appendix E E5ZE T emperature Controller Read Protocol 205 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0009 +1 Channel 0 Output value change rate limit (4 digits B.
Appendix E E5ZE T emperature Controller Read Protocol 206 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +15 +16 Heater burno.
Appendix E E5ZE T emperature Controller Read Protocol 207 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0017 +1 Channel 0 Heater current (4 digits BCD) 0000 to 0500.
Appendix E E5ZE T emperature Controller Read Protocol 208 Read Cooling Coefficient (Sequence No. 123) Reads the cooling coefficients and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
209 Appendix F E5ZE T emperature Controller Write Protocol T he E5ZE T emperature Controller Write Protocol writes and controls various settings in remote mode for the T e m- perature Controller connected via a RS-232C or RS-422A/485 cable from the PC via the Serial Communications Board.
Appendix F E5ZE T emperature Controller W rite Protocol 210 Connections The connections are the same as that for the E5ZE T emperature Controller Read Protocol. W rite Set Point (Setting Unit 1) (Sequence No. 150) Writes the set points using a setting unit of 1 (4 digits).
Appendix F E5ZE T emperature Controller W rite Protocol 21 1 W rite Set Point (Setting Unit 0.1) (Sequence No. 151) Writes the set points using a setting unit of 0.1 (5 digits). Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +16 +17 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 212 W rite Proportional Band, Integral Time, and Derivative T ime (Sequence No. 152) Writes the proportional bands (constant P), integral times (constant I), and derivative times (constant D).
Appendix F E5ZE T emperature Controller W rite Protocol 213 W rite Control Period (Sequence No. 153) Writes the control periods and cooling control periods. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +16 +17 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 214 W rite Output Mode (Sequence No. 154) Writes the output mode (normal/reverse). Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 215 W rite Alarm T emperature (Setting Unit 1) (Sequence No. 156) Writes the alarm temperatures using a setting unit of 1 (4 digits) Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +30 +31 +32 +33 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 216 W rite Alarm T emperature (Setting Unit 0.1) (Sequence No. 157) Writes the alarm temperatures using a setting unit of 0.1 (5 digits) Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +30 +31 +32 +33 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 217 W rite Hysteresis (Sequence No. 158) Writes the hysteresis for control outputs for ON/OFF control. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +16 +17 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 218 Cancel Autotuning (Sequence No. 160) Cancels Autotuning (A T) for all channels. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 219 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0010 (fixed) +1 Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 220 W rite Ramp V alue (Sequence No. 164) Writes the ramp values. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +16 +17 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 221 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0018 (fixed) +1 Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 222 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0034 (fixed) +1 Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 223 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0010 (fixed) +1 Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 224 W rite HB and HS Alarm V alid Channels (Sequence No. 170) Writes the valid or invalid channels of HB alarm and HS alarm. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 225 W rite Dead Band/Overlap Band (Sequence No. 172) Writes the dead bands or overlap bands for control outputs during heating/cooling control. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 (Undefined) Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 226 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0010 (fixed) +1 Unit No.
Appendix F E5ZE T emperature Controller W rite Protocol 227 Start Manual Operation (Sequence No. 176) Starts manual operation based on the output values that were set for all channels of the specified Unit. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
229 Appendix G E5 J T emperature Controller Protocol The E5 J T emperature Controller Protocol performs various settings and controls in remote mode for the T em- perature Controller connected to the Serial Communications Board via RS-232C or RS-422A/485 cable.
Appendix G E5 j J T emperature Controller Protocol 230 Connections The connections for using the E5 J T emperature Controller Protocol are shown below . RS-232C Connections Serial Communica- tions Board RS-232C port E5 J RS-232C → CQM1H Signal name Abbreviation Signal direction Pin No.
Appendix G E5 j J T emperature Controller Protocol 231 • RS-422A Signal name Abbreviation Signal direction Pin No. Send data A SDA Output 26 Send data B SDB Output 25 Receive data A RDA Input 28 Rec.
Appendix G E5 j J T emperature Controller Protocol 232 Note 1. The connection configuration is a one-to-one or a one-to-N configuration. Using a one-to-N configura- tion, up to 32 units can be connected including the Serial Communications Board. 2. The maximum cable length is 500 m.
Appendix G E5 j J T emperature Controller Protocol 233 Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No. Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0002 (fixed) +1 Unit No.
Appendix G E5 j J T emperature Controller Protocol 234 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units 5 + 2 +1 Number of units (4 digits BCD) 0001 to 0025 +2 1st unit Unit No.
Appendix G E5 j J T emperature Controller Protocol 235 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units 4 + 2 +1 Number of units (4 digits BCD) 0001 to 0031 +2 1st unit Unit No.
Appendix G E5 j J T emperature Controller Protocol 236 Read Parameters 1 (Sequence No. 208) Reads the set points, alarm values 1, alarm values 2, and heater burnout alarm values for multiple units and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No.
Appendix G E5 j J T emperature Controller Protocol 237 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) Number of units 4 + 1 +1 1st unit Set point (4 digits BCD) 0000 to 9999 When the left digit is – 1, A is set and when it is – , F is set.
Appendix G E5 j J T emperature Controller Protocol 238 Receive Data Word Allocation (3rd Operand of PMCR) Proportional band Receive data storage words Number of receive data words +0 +1 +2 +3 +91 +92 +93 Proportional band Integral time Derivative time ~ ~ Integral time Derivative time 1st unit 31th unit (max.
Appendix G E5 j J T emperature Controller Protocol 239 Read Output V alue (Sequence No. 21 1) Reads the output value and stores the results in the specified word. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix G E5 j J T emperature Controller Protocol 240 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0002 (fixed) +1 Unit No.
Appendix G E5 j J T emperature Controller Protocol 241 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 Status Alarm 1 type (Undefine.
Appendix G E5 j J T emperature Controller Protocol 242 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0002 +1 Read data (4 digits BCD) 0000 to 9999 When the left digit is – 1, A is set and when it is – , F is set.
243 Appendix H ES100 j Digital Controller Protocol The ES100 Digital Controller Protocol controls in remote mode and reads various settings from the Controller connected to the Serial Communications Board via RS-232C or RS-422A/485 cable. Note Negative values cannot be written.
Appendix H ES100 j Digital Controller Protocol 244 Sequence No. Ladder interface Function T ransmission sequence name Sequence No. Receive word allocation Send word allocation Function T ransmission sequence name 273 Auto mode Switches the control mode to auto.
Appendix H ES100 j Digital Controller Protocol 245 RS-422A/485 Connections Serial Communica- tions Board RS-422A/485 port ES100 ES100 ES100 Up to 32 units can be connected. RS-422A/485 RS-422A/485 RS-422A/485 → → → CQM1H • RS-422A Serial Communications Board Next ES100 Shielded cable ES100 - 04 Signal name Pin No.
Appendix H ES100 j Digital Controller Protocol 246 Switch Settings There are two switches located on the board on the left of the Unit. Set SW1 to the interface: RS-422A or RS-485. Set SW2 to the center on all terminating Units and to the same setting as SW1 on all other Units.
Appendix H ES100 j Digital Controller Protocol 247 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) Number of units x 5 + 1 +1 1st unit Event data 1 (2 digits Hex) Eve.
Appendix H ES100 j Digital Controller Protocol 248 Receive Data Word Allocation (3rd Operand of PMCR) T ime signal 1 T ime signal 9 T ime signal 2 Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5 +121 +122 +123 +124 +125 T ime signal 1 ~ ~ 1st unit 25th unit (max.
Appendix H ES100 j Digital Controller Protocol 249 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units + 2 +1 Number of units (4 digits BCD) 0001 to 0008 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 2nd unit Unit No.
Appendix H ES100 j Digital Controller Protocol 250 Read Heater Burnout Data (Sequence No. 253) Reads the heater burnout alarm in the variable area. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No. First word of send data Number of send data words +0 +1 +2 +3 +33 (Undefined) Unit No.
Appendix H ES100 j Digital Controller Protocol 251 Read PV Data (Sequence No. 254) Reads the PV data for the variable type “ analog data ” in the variable area. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No. First word of send data Number of send data words +0 +1 +2 +3 +33 (Undefined) Unit No.
Appendix H ES100 j Digital Controller Protocol 252 Offset Contents (data format) Data +0 Number of receive data words (4digits BCD) Number of units 2 + 1 +1 1st unit PV data (rightmost 4 digits) (4 digits BCD) 00000000 to 09999000 F indicates a negative number .
Appendix H ES100 j Digital Controller Protocol 253 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +63 +64 SP data (rightmost .
Appendix H ES100 j Digital Controller Protocol 254 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units + 2 +1 Number of units (4 digits BCD) 0001 to 0032 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 2nd unit Unit No.
Appendix H ES100 j Digital Controller Protocol 255 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units + 2 +1 Number of units (4 digits BCD) 0001 to 0021 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 2nd unit Unit No.
Appendix H ES100 j Digital Controller Protocol 256 Read Adjustment Parameters (Sequence No. 258) Reads the adjustment parameters in the parameter area and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix H ES100 j Digital Controller Protocol 257 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +10 +1 1 +12.
Appendix H ES100 j Digital Controller Protocol 258 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0043 +1 to 2 Fixed SP (8 digits BCD) 00000000 to 09999000 +3 to 4 Control output 1 pulse cycle (8 digits BCD) F indicates a negative number .
Appendix H ES100 j Digital Controller Protocol 259 W rite Adjustment Parameters (Sequence No. 259) Writes the adjust parameters in the parameter area. Send Data Word Allocation (2nd Operand of PMCR) +.
Appendix H ES100 j Digital Controller Protocol 260 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0044 (fixed) +1 Unit No.
Appendix H ES100 j Digital Controller Protocol 261 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +10 +1 1 +12 +13 +14 +51 +52 +53 +54 +55 +56 PID No. 1 P ~ ~ (rightmost 4 digits) PID No.
Appendix H ES100 j Digital Controller Protocol 262 Read PID Control Parameters 2 (Sequence No. 261) Reads PID parameters No. 5 to 8 from the PID control parameters in the parameter area and stores the results in the specified words.
Appendix H ES100 j Digital Controller Protocol 263 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0057 +1 to 2 PID No. 5 P (8 digits BCD) 00000000 to 09999000 +3 to 4 PID No. 5 I (8 digits BCD) +5 to 6 PID No. 5 D (8 digits BCD) +7 to 8 PID No.
Appendix H ES100 j Digital Controller Protocol 264 W rite PID Control Parameters 1 (Sequence No. 262) Writes PID parameters No. 1 to 4 to the PID control parameters in the parameter area. Send Data Word Allocation (2nd Operand of PMCR) +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +10 +1 1 +12 +13 +14 +15 +52 +53 +54 +55 +56 +57 PID No.
Appendix H ES100 j Digital Controller Protocol 265 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0058 (fixed) +1 Unit No. (2 digits BCD) 00 to 31 +2 to 3 PID No. 1 P (8 digits BCD) 00000000 to 09999000 +4 to 5 PID No. 1 I (8 digits BCD) +6 to 7 PID No.
Appendix H ES100 j Digital Controller Protocol 266 W rite PID Control Parameters 2 (Sequence No. 263) Writes the PID parameters No. 5 to 8 to the PID control parameters in the parameter area. Send Data Word Allocation (2nd Operand of PMCR) +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +10 +1 1 +12 +13 +14 +15 +52 +53 +54 +55 +56 +57 PID No.
Appendix H ES100 j Digital Controller Protocol 267 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0058 (fixed) +1 Unit No. (2 digits BCD) 00 to 31 +2 to 3 PID No. 5 P (8 digits BCD) 00000000 to 09999000 +4 to 5 PID No. 5 I (8 digits BCD) +6 to 7 PID No.
Appendix H ES100 j Digital Controller Protocol 268 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units 2 + 2 +1 Number of units (4 digits BCD) 0001 to 0032 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 1st unit Pattern No.
Appendix H ES100 j Digital Controller Protocol 269 W rite Local SP (Sequence No. 265) Writes the local SP to the program parameter area. Send Data Word Allocation (2nd Operand of PMCR) 1st unit First word of send data Number of send data words +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +122 +123 +124 +125 (Undefined) Unit No.
Appendix H ES100 j Digital Controller Protocol 270 Read Program Parameters (Sequence No. 266) Reads the local SP , step time, PID set No., wait code, and events from 1 to 10 set values in the program parameter area.
Appendix H ES100 j Digital Controller Protocol 271 Receive Data Word Allocation (3rd Operand of PMCR) ~ ~ Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +10 +27 .
Appendix H ES100 j Digital Controller Protocol 272 Offset Contents (data format) Data +0 Number of receive data words (4digits BCD) Number of units 28 + 1 +1 to 2 1st unit Local SP (8 digits BCD) 00000000 to 09999000 F indicates a negative number .
Appendix H ES100 j Digital Controller Protocol 273 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units 30 + 2 +1 Number of units (4 digits BCD) 0001 to 0004 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 1st unit Pattern No.
Appendix H ES100 j Digital Controller Protocol 274 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units + 2 +1 Number of units (4 digits BCD) 0001 to 0032 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 2nd unit Unit No.
Appendix H ES100 j Digital Controller Protocol 275 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units + 2 +1 Number of units (4 digits BCD) 0001 to 0032 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 2nd unit Unit No.
Appendix H ES100 j Digital Controller Protocol 276 Reset (Stop) (Sequence No. 272) Stops control. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No. First word of send data Number of send data words +0 +1 +2 +3 +33 (Undefined) Unit No.
Appendix H ES100 j Digital Controller Protocol 277 Manual Mode (Sequence No. 274) Switches the control mode to the manual mode. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Unit No. First word of send data Number of send data words +0 +1 +2 +3 +33 (Undefined) Unit No.
Appendix H ES100 j Digital Controller Protocol 278 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units 2 + 2 +1 Number of units (4 digits BCD) 0001 to 0032 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 1st unit PID set No.
Appendix H ES100 j Digital Controller Protocol 279 Change Pattern No. (Sequence No. 277) Changes the pattern number . Send Data Word Allocation (2nd Operand of PMCR) 1st unit First word of send data Number of send data words +0 +1 +2 +3 +64 +65 (Undefined) Unit No.
Appendix H ES100 j Digital Controller Protocol 280 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) Number of units 2 + 2 +1 Number of units (4 digits BCD) 0001 to 0032 +2 1st unit Unit No. (2 digits BCD) 00 to 31 +3 1st unit Bank No.
Appendix H ES100 j Digital Controller Protocol 281 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) Number of units 5 + 1 +1 1st unit Operation status (2 digits BC.
Appendix H ES100 j Digital Controller Protocol 282 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0001 to 0128 +1 Number of send data bytes 0001 to 0251 The number of send bytes not including @, the FCS, or the terminator .
283 Appendix I K3T Intelligent Signal Processor Protocol T he K3T Intelligent Signal Processor Protocol is used to make various settings or control remotely the Intelligent Signal Processor connected to the Serial Communications Board via RS-232C or RS-422A/485 cable.
Appendix I K3T j Intelligent Signal Processor Protocol 284 Sequence No. Notes Ladder interface Function Communications sequence name Sequence No. Notes Receive word allocation Send word allocation Function Communications sequence name 320 Read set value L (con- tinuous units) Reads the set value L.
Appendix I K3T j Intelligent Signal Processor Protocol 285 Connections The connections used for the K3T Intelligent Signal Processor Protocol are shown below . RS-232C Connections Serial Commu- nications Board RS-232C port K3T CQM1H Signal name Abbreviation Signal direction Pin No.
Appendix I K3T j Intelligent Signal Processor Protocol 286 RS-422A/485 Connections Up to 32 units can be connected Serial Communica- tions Board RS-422A/485 port K3T K3T K3T CQM1H • RS-422A Signal name Abbreviation Signal direction Pin No.
Appendix I K3T j Intelligent Signal Processor Protocol 287 • RS-485 Signal name Abbreviation Signal direction T erminal Inverting output – Input or output 19 Non-inverting output + Input or output 18 Serial Communications Board Shielded cable Intelligent Signal Processor T urn ON the terminal block switch for terminators only .
Appendix I K3T j Intelligent Signal Processor Protocol 288 Reset (by Unit Number) (Sequence No. 300) This sequence performs the same processing as when an input is received on the reset terminal. Send Data Word Allocation (2nd Operand of PMCR) Relevant unit No.
Appendix I K3T j Intelligent Signal Processor Protocol 289 W rite Set V alue (by Unit Number) (Sequence No. 302) This sequence writes each set value (HH, H, L, LL).
Appendix I K3T j Intelligent Signal Processor Protocol 290 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0004 to 0066 +1 Number of units (2 digits BCD) 01 to 32 +2 to .
Appendix I K3T j Intelligent Signal Processor Protocol 291 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0007 to 0127 +1 Number of units (2 digits BCD) 01 to 25 +2 Relevant unit No.
Appendix I K3T j Intelligent Signal Processor Protocol 292 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0004 to 0098 +1 Number of units (2 digits BCD) 01 to 32 +2 Bank No.
Appendix I K3T j Intelligent Signal Processor Protocol 293 W rite Set V alue O2 with Bank (Continuous Units) (Sequence No. 315) This sequence writes set value O2 of a bank not in use for continuous units. The word allocation is identical to that of sequence No.
Appendix I K3T j Intelligent Signal Processor Protocol 294 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0004 to 0097 +1 End code (2 digits Hex) 00 to 22 +2 to +3 S.
Appendix I K3T j Intelligent Signal Processor Protocol 295 Read Set V alue with Bank (by Unit Number) (Sequence No. 322) Reads the set value of a bank which is not in use (K3TR: HH to LL, K3TC:01 to 05) and stores the results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) Relevant unit No.
Appendix I K3T j Intelligent Signal Processor Protocol 296 Read Set V alue HH with Bank (Continuous Units) (Sequence No. 323) This sequence reads set value HH of a bank not in use for continuous units. Send Data Word Allocation (2nd Operand of PMCR) Bank No.
Appendix I K3T j Intelligent Signal Processor Protocol 297 Read Set V alue O3 with Bank (Continuous Units) (Sequence No. 329) This sequence reads set value O3 of a bank not in use for continuous units. The word allocation is identical to that of sequence No.
Appendix I K3T j Intelligent Signal Processor Protocol 298 Receive Data Word Allocation (3rd Operand of PMCR) Peak/bottom data Status +0 +1 +2 +3 +94 +95 +96 Number of receive data words Receive data .
Appendix I K3T j Intelligent Signal Processor Protocol 299 Read Holding Data BH (Continuous Units) (Sequence No. 334) This sequence reads bottom holding data for continuous units. The word allocation is identical to that of sequence No. 333 (Read Holding Data PH (Continuous Units)).
Appendix I K3T j Intelligent Signal Processor Protocol 300 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0004 to 0097 +1 to +2 Display value (5 digits BCD) 00000 to.
Appendix I K3T j Intelligent Signal Processor Protocol 301 Read Display V alue (PV) (Continuous Units) (Sequence No. 336) This sequence reads display value (PV) for continuous units.
Appendix I K3T j Intelligent Signal Processor Protocol 302 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0006 to 0126 +1 to + 2 Input specifications (ASCII 3 charac.
Appendix I K3T j Intelligent Signal Processor Protocol 303 General-purpose Command (Sequence No. 339) Sends the specified data and writes the receive data to the receive data words. The characters such as “ @ ” , FCS, terminators need not be set in the send and receive data words.
305 Appendix J V500/V520 Bar Code Reader Protocol The V500/V520 Bar Code Reader Protocol is used to make various settings or control remotely the Bar Code Reader connected the Serial Communications Board via RS-232C cable.
Appendix J V500/V520 Bar Code Reader Protocol 306 Protocol Configuration The configuration of the V500/V520 Bar Code Reader Protocol is shown below . Sequence Communications Function Ladder interface No. sequence name Send word allocation Receive word allocation 350 BCR read start Instructs the Reader to start a BCR read.
Appendix J V500/V520 Bar Code Reader Protocol 307 Connections The connections for using the V500/V520 Bar Code Reader Protocol are shown below . V500 Connections Serial Communica- tions Board RS-232C port V500-C1 1 ID Controller Reader Signal Name Serial Communications Board: D-sub 9 pin female Signal Name Pin No.
Appendix J V500/V520 Bar Code Reader Protocol 308 System Setting Shown below are the system settings of the V500-C1 1 and V520-R121 when this protocol is used.
Appendix J V500/V520 Bar Code Reader Protocol 309 BCR Read Start (Sequence No. 350) This sequence instructs the Bar Code Reader to start reading. Send Data Word Allocation (2nd Operand of PMCR) None. Receive Data Word Allocation (3rd Operand of PMCR) None.
Appendix J V500/V520 Bar Code Reader Protocol 310 BCR Function W rite (V500) (Sequence No. 354) This sequence sets the operation mode and read functions in the Bar Code Reader .
Appendix J V500/V520 Bar Code Reader Protocol 31 1 BCR Function Read (V500) (Sequence No. 355) This sequence reads the settings of functions in the Bar Code Reader . Send Data Word Allocation (2nd Operand of PMCR) None. Receive Data Word Allocation (3rd Operand of PMCR) Number of matches.
Appendix J V500/V520 Bar Code Reader Protocol 312 Log Data Output Request (V500) (Sequence No. 356) This sequence requests output of the log data sent to host.
Appendix J V500/V520 Bar Code Reader Protocol 313 Preset Data Set (V500) (Sequence No. 357) This sequence sets preset data. Send Data Word Allocation (2nd Operand of PMCR) (Undefined) Number of units .
Appendix J V500/V520 Bar Code Reader Protocol 314 Log Data Clear (V500) (Sequence No. 359) This sequence clears the log data. Send Data Word Allocation (2nd Operand of PMCR) None. Receive Data Word Allocation (3rd Operand of PMCR) None. Data Continuous Read (Scan) (V500) (Sequence No.
Appendix J V500/V520 Bar Code Reader Protocol 315 Receive Data Word Allocation (3rd Operand of PMCR) The receive data word allocation is similar to that of sequence No. 352 (Data Read). Note 1. Since this sequence repeats itself within the sequence, once it is executed, it remains in the execution state until cancelled.
Appendix J V500/V520 Bar Code Reader Protocol 316 Send Data Word Allocation (2nd Operand of PMCR) Send data Send data +0 +1 +2 +3 +127 +128 Number of send data words First word of send data ~ ~ Send d.
317 Appendix K 3Z4L Laser Micrometer Protocol The 3Z4L Laser Micrometer Protocol is used to make various settings or control remotely the Laser Micrometer connected to the Serial Communications Board via RS-232C cable. Protocol Configuration The configuration of the 3Z4L Laser Micrometer Protocol is shown below .
Appendix K 3Z4L Laser Micrometer Protocol 318 Sequence No. Ladder interface Function Communications sequence name Sequence No. Receive word allocation Send word allocation Function Communications sequence name 418 All statistic memory clear (3000-series) Clears statistic processing memories of all programs.
Appendix K 3Z4L Laser Micrometer Protocol 319 Sequence No. Ladder interface Function Communications sequence name Sequence No. Receive word allocation Send word allocation Function Communications sequ.
Appendix K 3Z4L Laser Micrometer Protocol 320 DIP Switch Settings Shown below are the settings of 3Z4L-3000, 3Z4L-4000-series DIP switches required to use the system protocol sequences.
Appendix K 3Z4L Laser Micrometer Protocol 321 • DIP Switch 2 No. Setting Status 1 Selection for ON/OFF 2 measurement section ON/OFF 3 ON/OFF 4 ON/OFF 5 Setting of minimum read ON/OFF 6 value ON/OFF .
Appendix K 3Z4L Laser Micrometer Protocol 322 control codes in the sequence to CR+LF for the send code and to CR or CR+LF for the receive code. See the settings in the following diagram.
Appendix K 3Z4L Laser Micrometer Protocol 323 3Z4L Clear (Sequence No. 400) This sequence resets errors, data, analog output, and decision result, and puts the Laser Micrometer into standby . Send Data Word Allocation (2nd Operand of PMCR) None. Receive Data Word Allocation (3rd Operand of PMCR) None.
Appendix K 3Z4L Laser Micrometer Protocol 324 Calibration Set (Sequence No. 404) This sequence calibrates the Laser Micrometer . Send Data Word Allocation (2nd Operand of PMCR) First word of send data.
Appendix K 3Z4L Laser Micrometer Protocol 325 Program Number Set (3000-series) (Sequence No. 406) This sequence switches the program number to a specified number .
Appendix K 3Z4L Laser Micrometer Protocol 326 +30 +31 +32 +33 +34 +35 +36 +37 +38 +39 +40 +41 +42 +43 +44 +45 +46 +47 +48 +49 +50 +51 +52 +53 (Undefined) Integer portion Sign (Undefined) (Undefined) (.
Appendix K 3Z4L Laser Micrometer Protocol 327 Offset Data Contents (data format) +30 to +32 Reference value Same as lower limit values +33 Analog output scale number (1 digit BCD) 1 to 3 +34 to +35 Of.
Appendix K 3Z4L Laser Micrometer Protocol 328 Measurement Condition Release (3000-series) (Sequence No. 408) This sequence releases the measurement conditions that have been set. Send Data Word Allocation (2nd Operand of PMCR) Send data word allocation is similar to that of sequence No.
Appendix K 3Z4L Laser Micrometer Protocol 329 Receive Data Word Allocation (3rd Operand of PMCR) First word of send data Number of receive data words +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +10 +1 1 +12 +13 +14.
Appendix K 3Z4L Laser Micrometer Protocol 330 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0046 (fixed) +1 Program number (1 digit BCD) 0 to 9 +2 to +4 Segment num.
Appendix K 3Z4L Laser Micrometer Protocol 331 Single Run Measurement Start (3000-series) (Sequence No. 410) When the sample measurement condition is from 1 to 999, this sequence performs a single run measurement and requests the measurement results Send Data Word Allocation (2nd Operand of PMCR) None.
Appendix K 3Z4L Laser Micrometer Protocol 332 Note 1. Since this sequence repeats itself within the sequence, once it is executed, it remains in the execution state until cancelled. 2. Even if execution is cancelled, the Laser Micrometer still keeps measuring.
Appendix K 3Z4L Laser Micrometer Protocol 333 Statistic Processing Non-execution (3000-series) (Sequence No. 417) This sequence turns the statistic processing LED off and does not carry out the statistic processing. Send Data Word Allocation (2nd Operand of PMCR) None.
Appendix K 3Z4L Laser Micrometer Protocol 334 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0019 (fixed) +1 Program number (1digit BCD) 0 to 9 +2 to +3 Number of statistic data (6 digits BCD) 000000 to 999999 +4 Average value (decimal portion) (4 digits BCD) 0000 to 9999 Example – 123.
Appendix K 3Z4L Laser Micrometer Protocol 335 Memory Switch Set 1 (3000-series, High-speed T ype) (Sequence No. 421) This sequence sets memory switches.
Appendix K 3Z4L Laser Micrometer Protocol 336 Memory Switch Set 2 (3000-series, High-speed T ype) (Sequence No. 422) This sequence sets memory switches.
Appendix K 3Z4L Laser Micrometer Protocol 337 A VG Move Interval Set (3000-series, High-speed T ype) (Sequence No. 424) This sequence uses the average move as the averaging method and sets the measurement interval number .
Appendix K 3Z4L Laser Micrometer Protocol 338 Automatic Detection Set (3000-series, High-speed T ype) (Sequence No. 427) This sequence sets the work automatic detection function.
Appendix K 3Z4L Laser Micrometer Protocol 339 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5 +6 +7 +8 (Undefined) Invalid .
Appendix K 3Z4L Laser Micrometer Protocol 340 Measurement Condition Set (4000-series) (Sequence No. 431) This sequence sets measurement conditions. Conditions to be set can be selected by setting Y es/No flags.
Appendix K 3Z4L Laser Micrometer Protocol 341 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0025 (fixed) +1 Segment number (1 digit BCD) 1 to 5 +2 Measurement interval number (1 digit BCD) 1 to 7 +3 Lower limit value (Decimal portion) (4 digits BCD) 0000 to 9999 Example – 123.
Appendix K 3Z4L Laser Micrometer Protocol 342 Measurement Condition Release (4000-series) (Sequence No. 432) This sequence clears the measurement conditions that have been set. Send Data Word Allocation (2nd Operand of PMCR) The send data word allocation is similar to that of sequence No.
Appendix K 3Z4L Laser Micrometer Protocol 343 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0019 (fixed) +1 Segment number (1 digit BCD) 1 to 5 +2 Measurement interval number (1 digit BCD) 1 to 7 +3 Lower limit value (Decimal portion) (4 digits BCD) 0000 to 9999 4 5 6 7 +3 Example – 123.
Appendix K 3Z4L Laser Micrometer Protocol 344 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) With no reference setting: 0005 With reference setting: 0008 +1 Decision.
Appendix K 3Z4L Laser Micrometer Protocol 345 Continuous Measurement T ermination (4000-series) (Sequence No. 438) This sequence terminates continuous measurement. Send Data Word Allocation (2nd Operand of PMCR) None. Receive Data Word Allocation (3rd Operand of PMCR) For continuous measurement: None.
Appendix K 3Z4L Laser Micrometer Protocol 346 General-purpose Command 1 (4000-series) (Sequence No. 444) This general-purpose command is used to send data with a specified data length, and receive back only OK. The terminator (CR) is automatically attached to the send data.
Appendix K 3Z4L Laser Micrometer Protocol 347 General-purpose Command 2 (4000-series) (Sequence No. 445) This general-purpose command is used to send data with a specified data length, and receive back receive data other than OK. The terminator (CR) is automatically attached to the send data.
349 Appendix L V isual Inspection System Protocol Th e V isual Inspection System Protocol is used to make various settings or control remotely the Visual Recognition Device connected to the Serial Communications Board via RS-232C cable. Protocol Configuration The configuration of the Visual Inspection System Protocol is shown below .
Appendix L V isual Inspection System Protocol 350 Sequence No. Ladder interface Function Communications sequence name Sequence No. Receive word allocation Send word allocation Function Communications sequence name 471 Camera designation and positioning (F350) Designates the camera for measurement.
Appendix L V isual Inspection System Protocol 351 Connections The connections for using the Visual Inspection System Protocol are shown below . RS-232C Connections Serial Communica- tions Board RS-232C port RS-232C Unit → F200/300/350 CQM1H Pin No.
Appendix L V isual Inspection System Protocol 352 Measurement Execution (F200) (Sequence No. 450) This sequence carries out one measurement and stores the measurement results in the specified words. Send Data Word Allocation (2nd Operand of PMCR) None.
Appendix L V isual Inspection System Protocol 353 Offset Content (data format) Data +0 Number of receive data words (4 digits BCD) 0006 +1 Output No. (2 digits BCD) 00 to 07 +2 Evaluation result (1 digit BCD) 0: OK 1: NG +3 to +5 Measurement value (decimal portion) (3 digits BCD) Example – 123.
Appendix L V isual Inspection System Protocol 354 3. The ranges of measurement values are as follows: For calibration OFF setting : – 2147483.648 to 2147483.
Appendix L V isual Inspection System Protocol 355 Offset Content (data format) Data +0 Number of send data words (4 digits BCD) 0010 +1 Output No. (2 digits BCD) 00 to 07 +2 to +5 Upper limit value (decimal portion) (3 digits BCD) Example – 123.456 Example +123.
Appendix L V isual Inspection System Protocol 356 Receive Data Word Allocation (3rd Operand of PMCR) (Undefined) Integer portion Receive data storage words Number of receive data words +0 +1 +2 +3 Mea.
Appendix L V isual Inspection System Protocol 357 Offset Content (data format) Data +0 Number of receive data words (4 digits BCD) 0006: 1 measurement item 0009: 2 measurement items 0012: 3 measuremen.
Appendix L V isual Inspection System Protocol 358 Receive Data Word Allocation (3rd Operand of PMCR) Integer portion Receive data storage words Number of receive data words +0 +1 +2 +3 +4 +5 +6 +7 +8 +9 +10 +1 1 +12 +13 +14 +15 +16 +17 (Undefined) Window No.
Appendix L V isual Inspection System Protocol 359 Main axis angle aberration (reserved) Edge angle Edge angle (reserved) Center X, center Y Center X displacement (reserved), center Y displacement (res.
Appendix L V isual Inspection System Protocol 360 Offset Content (data format) Data +0 Number of receive data words (4 digits BCD) 0006: 1 measurement item 0009: 2 measurement items 0012: 3 measurement items 0015: 4 measurement items 0018: 5 measurement items +1 Window No.
Appendix L V isual Inspection System Protocol 361 Reference Object Registration Command 2 Execution (F300) (Sequence No. 464) This sequence performs a measurement for the input image and updates the reference object data of a desig- nated window .
Appendix L V isual Inspection System Protocol 362 Offset Content (data format) Data +0 Number of receive data words 0007 +1 to +2 X displacement (decimal portion) (3 digits BCD) Example – 123.456 Example +123.456 X displacement (integer portion) (3 digits BCD) +1 3456 +1 3456 X displacement (sign) (1 digit) (See note.
Appendix L V isual Inspection System Protocol 363 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0002 +1 Scene No. (2 digits BCD) 00 to 15 Receive Data Word Allocation (3rd Operand of PMCR) None. Note 1. If a scene No. is abnormal, CIO 28909 (if port A is used) or CIO 28913 (if port B is used) will turn ON.
Appendix L V isual Inspection System Protocol 364 Camera Change (Increase by 1) (F200/300) (Sequence No. 481) This sequence increases the display camera No. by 1. Send Data Word Allocation (2nd Operand of PMCR) None. Receive Data Word Allocation (3rd Operand of PMCR) None.
Appendix L V isual Inspection System Protocol 365 Scene Switching (Arbitrary) (Sequence No. 492) This sequence switches to a designated scene No. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Scene No.
Appendix L V isual Inspection System Protocol 366 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0003 to 0129 +1 Command length (4 digits BCD) 0001 to 0253 +2 to Command (ASCII) Specify ASCII data.
367 Appendix M V600/V620 ID Controller Protocol The V600/V620 ID Controller Protocol is used to make various settings or control remotely the ID Controller Con- nected to the Serial Communications Board via RS-232C or RS-422A cable. Protocol Configuration The configuration of the V600/V620 ID Controller Protocol is shown below .
Appendix M V600/V620 ID Controller Protocol 368 Sequence No. Ladder interface Function Communications sequence name Sequence No. Receive word allocation Send word allocation Function Communications sequence name 519 Write (ASCII/2) Used when the number of Heads to be written to the Carrier is 2.
Appendix M V600/V620 ID Controller Protocol 369 Sequence No. Ladder interface Function Communications sequence name Sequence No. Receive word allocation Send word allocation Function Communications sequence name 544 Polling auto-read command proces- sing cancel Cancels polling auto-read processing.
Appendix M V600/V620 ID Controller Protocol 370 RS-422A Connections Up to 16 units can be connected Serial Commu- nications Board RS-422A port ID Controller Head Data Carrier ID Controller Head Data Carrier CQM1H Shielded cable Signal name Pin No. Signal name Pin No.
Appendix M V600/V620 ID Controller Protocol 371 DIP Switch Settings V600/620-CD1D DIP Switches DIP Switch 1 Baud rate (bps) 2400 4800 9600 19,200 Display mode Error display mode I/O display mode Local.
Appendix M V600/V620 ID Controller Protocol 372 DIP Switch 2 12 3456 7 8 Communications protocol setting with host devices 1-to-N protocol 1-to-1 protocol Unit No. No. 0 No. 1 No. 2 No. 3 No. 4 No. 5 No. 6 No. 7 Synchronous condition OFF (LL level) ON (HL level) T railing edge Leading edge Note 1.
Appendix M V600/V620 ID Controller Protocol 373 V600-CA A DIP Switches DIP Switch 1 Mode 1 12 3456 7 8 Note 1. Data length setting 7 bits: ASCII code 8 bits: JIS8 unit code 2.
Appendix M V600/V620 ID Controller Protocol 374 Read (ASCII/1) (Sequence No. 500) This sequence is used when the number of Heads to be read from the Carrier is 1. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 +2 +3 +4 (Undefined) Unit No.
Appendix M V600/V620 ID Controller Protocol 375 Read (ASCII/2) (Sequence No. 501) This sequence is used when the number of Heads to be read from the Carrier is 2.
Appendix M V600/V620 ID Controller Protocol 376 Read (ASCII/4) (Sequence No. 502) This sequence is used when the maximum number of Heads to be read from the Carrier is 4.
Appendix M V600/V620 ID Controller Protocol 377 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0002 to 0097 +(24(N – 1)+1) to +(24(N – 1)+24) Read data (ASCII) N.
Appendix M V600/V620 ID Controller Protocol 378 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +10 +1 1 +20 +71 +80 ~ ~ Read data Read.
Appendix M V600/V620 ID Controller Protocol 379 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0002 to 0062 +1 to +61 Read data (Hexadecimal) Number of read bytes st.
Appendix M V600/V620 ID Controller Protocol 380 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0002 to 0091 +(60(N – 1)+1) to +(60(N – 1)+30) Read data (Hexadeci.
Appendix M V600/V620 ID Controller Protocol 381 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 +12 +13 +24 +25 +36 +73 +84 ~ ~ Read da.
Appendix M V600/V620 ID Controller Protocol 382 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0006 to 0034 +1 Number of Heads (4 digits BCD) 0001 to 0008 +(4(N – 1)+2) Unit No. (2 digits BCD) Arbitrary (However , there is a limit for the maximum Unit No.
Appendix M V600/V620 ID Controller Protocol 383 Auto-read (Hexadecimal/1) (Sequence No. 509) This sequence is used when the maximum number of Heads to be read from the Carrier is 1. Send Data Word Allocation (2nd Operand of PMCR) The send data word allocation is similar to that of Sequence No.
Appendix M V600/V620 ID Controller Protocol 384 Polling Auto-read Sub-command (ASCII/2) (Sequence No. 51 1) This sequence is used when the maximum number of Heads to be read from the Carrier is 2. Up to 1 18 bytes of data can be read for each Read/Write Head.
Appendix M V600/V620 ID Controller Protocol 385 Polling Auto-read (Hexadecimal) (Sequence No. 514) This sequence is used when the number of Heads to be read from the Carrier is from 1 to 8.
Appendix M V600/V620 ID Controller Protocol 386 2. Data from Data Carrier designated for hexadecimal is stored beginning with the largest of fset from the receive data words. 3. Retry processing is not performed for this sequence. Polling Auto-read Sub-command (Hexadecimal/4) (Sequence No.
Appendix M V600/V620 ID Controller Protocol 387 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0006 to 0129 +1 Relevant Unit No. (2 digits BCD) 00 to 07 (CD1D) 00 to 15 (CA2A) +2 R/W Head CH No. (1 digit BCD) R/W Head CH 1 designation: 1 R/W Head CH 2 designation: 2 The CD1D must be set to 1.
Appendix M V600/V620 ID Controller Protocol 388 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0007 to 0129 +1 Number of Heads (4 digits BCD) 0001 to 0002 +(64(N – 1)+2) Unit No. (2 digits BCD) Arbitrary (However , there is a limit for the maximum Unit No.
Appendix M V600/V620 ID Controller Protocol 389 W rite (ASCII/4) (Sequence No. 520) This sequence is used when the number of Heads to be written to the Carrier is 4.
Appendix M V600/V620 ID Controller Protocol 390 W rite (ASCII/8) (Sequence No. 521) This sequence is used when the number of Heads to be written to the Carrier is 8.
Appendix M V600/V620 ID Controller Protocol 391 W rite (Hexadecimal/1) (Sequence No. 522) This sequence is used when the number of Heads to be written to the Carrier is 1. Send Data Word Allocation (2nd Operand of PMCR) First word of send data +0 +1 +2 +3 +4 +5 Max +35 Number of send data words (Undefined) Unit No.
Appendix M V600/V620 ID Controller Protocol 392 W rite (Hexadecimal/2) (Sequence No. 523) This sequence is used when the number of Heads to be written to the Carrier is 2.
Appendix M V600/V620 ID Controller Protocol 393 W rite (Hexadecimal/4) (Sequence No. 524) This sequence is used when the number of Heads to be written to the Carrier is 4.
Appendix M V600/V620 ID Controller Protocol 394 Note 1. Write data designated for hexadecimal is sent beginning with the largest of fset from the send data words. 2. Always set an even number of digits for the write data. W rite (Hexadecimal/8) (Sequence No.
Appendix M V600/V620 ID Controller Protocol 395 Offset Contents (data format) Data +0 Number of send data words (4 digits BCD) 0007 to 0107 +1 Number of Heads (4 digits BCD) 0001 to 0004 +(14(N – 1)+2) Unit No. (2 digits BCD) Arbitrary (However , there is a limit for the maximum Unit No.
Appendix M V600/V620 ID Controller Protocol 396 Polling Auto-write Subcommand (ASCII/2) (Sequence No. 529) This sequence is used when the number of Heads to be written to the Carrier is 2. Up to 1 18 digits of data can be written for each Read/Write Head.
Appendix M V600/V620 ID Controller Protocol 397 Receive Data Word Allocation (3rd Operand of PMCR) None. Note 1. Execute Sequence No. 532 before executing Sequence No. 533. 2. Retry processing is not performed for this sequence. Polling Auto-write (Hexadecimal/2) (Sequence No.
Appendix M V600/V620 ID Controller Protocol 398 Note 1. Execute Sequence No. 536 before executing Sequence No. 537. 2. Retry processing is not performed for this sequence. Polling Auto-write (Hexadecimal/8) (Sequence No. 538) This sequence is used when the number of Heads to be written to the Carrier is 8.
Appendix M V600/V620 ID Controller Protocol 399 Receive Data Word Allocation (3rd Operand of PMCR) Receive data storage words Number of receive data words +0 +1 (Undefined) (Undefined) Completion code.
Appendix M V600/V620 ID Controller Protocol 400 Error Information Read (Sequence No. 542) This sequence reads information from the latest error log. Send Data Word Allocation (2nd Operand of PMCR) First word of send data Number of send data words +0 +1 (Undefined) Unit No.
Appendix M V600/V620 ID Controller Protocol 401 Offset Contents (data format) Data +0 Number of receive data words (4 digits BCD) 0002 (fixed) +1 Completion code (2 digits Hexadecimal) 00: Normal term.
Appendix M V600/V620 ID Controller Protocol 402 General-purpose Command (Sequence No. 546) This sequence transmits arbitrary data and stores receive data to the receive data words. The characters “ @ ” , FCS (terminator) are not required in the send data words and receive data words.
403 Appendix N Hayes Modem A T Command Protocol The Hayes Modem A T Command Protocol is used to make various settings or control remotely a Hayes modem connected to the Serial Communications Board via RS-232C cable. Protocol Configuration The configuration of the Hayes Modem A T Command Protocol is shown below .
Appendix N Hayes Modem A T Command Protocol 404 Connections The connections when using the Hayes Modem A T Command Protocol is shown below . RS-232C Connection Modem T elephone line Modem Modem: D-sub.
Appendix N Hayes Modem A T Command Protocol 405 Modem Settings When this protocol is used, it is required that the modem connected to the Serial Communications Board be initial- ized to the following .
Appendix N Hayes Modem A T Command Protocol 406 MD144FB5V (OMRON) The following command is set in the words specified by the second operand of PMCR. A TE0V0X4V2N3%C0*C0Q0&M0&D0%B9600S26=10 Cha.
Appendix N Hayes Modem A T Command Protocol 407 Setting Example If telephone number is 03-0123-4567 Character string length of dialling operation sent to modem (bytes) Code length of PMCR when it is used (words) 0016 0010 4154 A T 4454 D T 3033 0 3 2D30 – 0 3132 1 2 332D 3 – 3435 4 5 3637 6 7 Note 1.
Appendix N Hayes Modem A T Command Protocol 408 Password V erification Operation The number of retries is 3 for password verification. PC Personal computer (remote exchange) Password verification (sta.
Appendix N Hayes Modem A T Command Protocol 409 Setting Example When send data is THIS IS SAMPLE. Character string length of send data sent to modem (bytes) Code length of PMCR when it is used (words) 0014 0009 5448 T H 4953 I S 2049 I 5320 S 5341 S A 4D50 M P 4C45 L E A maximum of 200 bytes (including the CR) can be received.
41 1 Index Numbers 1:1 Data Link, 3, 4, 6, 107 functions, 108 ports, connections, 1 10 specifications, 109 starting, 108 1:1 NT Link, 3, 4, 7 1:N NT Link, 3, 4, 7 errors, 129 2-wire and 4-wire connect.
Index 412 errors 1:N NT Link, 129 error codes, 30, 81, 85, 105 error flags, 30 flags, 121 Host Link, 121 end codes, 52 indicators, 120 protocol macros, 125 troubleshooting, 121 ES100 Digital Controller , 63 connections, 244 protocols, sequences, 243 – 282 Executed Reception Case No.
Index 413 P parameters sequence, 77 step, 78 PC Setup, 8, 28 link words, 1:1 Data Link, 108 standard settings 1:1 Data Link, 109 Host Link, 37 no-protocol communications, 100 NT Links, 1 16 protocol m.
Index 414 S safety precautions. See precautions sequence parameters, 77 sequences, CompoW ay/F Master Broadcast with ASCII Conversion, No Response, 146 Broadcast with No Conversion and No Response, 14.
Index 415 W rite Level 2 Parameters 1, 180 W rite Level 2 Parameters 2, 181 W rite Manual Reset V alue, 173 W rite MV at Stop T ime and at PV Error , 175 W rite MV Limits, 175 W rite Proportional Band.
Index 416 sequences, K3T Intelligent Signal Processor General-purpose Command, 303 Model Data Read (by Unit Number), 301 Model Data Read (Continuous Units), 302 Read Display V alue (PV) (by Unit N.
Index 417 sequences, V isual Inspection System Arbitrary Measurement V alue Acquisition (F200), 355 Binary Level Modification (F200/300), 364 Camera Change (Decrease by 1) (F200/300), 363 Camera Chang.
419 Revision History A manual revision code appears as a suffix to the catalog number on the front cover of the manual. Cat. No. W365-E1-1 Revision code The following table outlines the changes made to the manual during each revision. Page numbers refer to the previous version.
Cat. No. W365-E1-1 Note: Specifications subject to change without notice. Printed in Japan Authorized Distributor:.
Ein wichtiger Punkt beim Kauf des Geräts Omron CQM1H-SCB41 (oder sogar vor seinem Kauf) ist das durchlesen seiner Bedienungsanleitung. Dies sollten wir wegen ein paar einfacher Gründe machen:
Wenn Sie Omron CQM1H-SCB41 noch nicht gekauft haben, ist jetzt ein guter Moment, um sich mit den grundliegenden Daten des Produkts bekannt zu machen. Schauen Sie zuerst die ersten Seiten der Anleitung durch, die Sie oben finden. Dort finden Sie die wichtigsten technischen Daten für Omron CQM1H-SCB41 - auf diese Weise prüfen Sie, ob das Gerät Ihren Wünschen entspricht. Wenn Sie tiefer in die Benutzeranleitung von Omron CQM1H-SCB41 reinschauen, lernen Sie alle zugänglichen Produktfunktionen kennen, sowie erhalten Informationen über die Nutzung. Die Informationen, die Sie über Omron CQM1H-SCB41 erhalten, werden Ihnen bestimmt bei der Kaufentscheidung helfen.
Wenn Sie aber schon Omron CQM1H-SCB41 besitzen, und noch keine Gelegenheit dazu hatten, die Bedienungsanleitung zu lesen, sollten Sie es aufgrund der oben beschriebenen Gründe machen. Sie erfahren dann, ob Sie die zugänglichen Funktionen richtig genutzt haben, aber auch, ob Sie keine Fehler begangen haben, die den Nutzungszeitraum von Omron CQM1H-SCB41 verkürzen könnten.
Jedoch ist die eine der wichtigsten Rollen, die eine Bedienungsanleitung für den Nutzer spielt, die Hilfe bei der Lösung von Problemen mit Omron CQM1H-SCB41. Sie finden dort fast immer Troubleshooting, also die am häufigsten auftauchenden Störungen und Mängel bei Omron CQM1H-SCB41 gemeinsam mit Hinweisen bezüglich der Arten ihrer Lösung. Sogar wenn es Ihnen nicht gelingen sollte das Problem alleine zu bewältigen, die Anleitung zeigt Ihnen die weitere Vorgehensweise – den Kontakt zur Kundenberatung oder dem naheliegenden Service.