Page 1 Cat. No. W222-E1-3 SYSMAC CVM1/CVM1D/CV Series CVM1-PRS21-EV1 Programming Console Downloaded from Elcodis.com electronic components distributor...
Page 2: Programming Console
CVM1-PRS21-EV1 Programming Console Operation Manual Revised January 1999 Downloaded from Elcodis.com electronic components distributor...
Page 3 Downloaded from Elcodis.com electronic components distributor...
Page 4: Omron Product References
OMRON. No patent liability is assumed with respect to the use of the information contained herein. Moreover, because OMRON is constantly striving to improve its high-quality products, the information contained in this manual is subject to change without notice.
Page 5 Downloaded from Elcodis.com electronic components distributor...
Page 6: Table Of Contents
TABLE OF CONTENTS PRECAUTIONS ....... . . 1 Intended Audience ............2 General Precautions .
Page 7 TABLE OF CONTENTS Index ......... . Revision History .
Page 8 About this Manual: This manual describes the installation and operation of the CVM1-PRS21-EV1 Programming Console and includes the sections described below. This Programming Console is used for CVM1, CVM1D, and CV-series PCs and cannot be used for C-series PCs. Please read this manual carefully and be sure you understand the information provided before attempting to install and operate the Programming Console.
Page 9 PRECAUTIONS This section provides general precautions for using the Programmable Controller (PC) and related devices. The information contained in this section is important for the safe and reliable application of the Programmable Con- troller. You must read this section and understand the information contained before attempting to set up or operate a PC system.
Page 10: Intended Audience
It is extremely important that a PC and all PC Units be used for the specified purpose and under the specified conditions, especially in applications that can directly or indirectly affect human life. You must consult with your OMRON representative before applying a PC System to the above-mentioned applications.
Page 11: Operating Environment Precautions
Application Precautions Operating Environment Precautions Caution Do not operate the control system in the following places: Locations subject to direct sunlight. Locations subject to temperatures outside the range 0 to 55 C. Locations subject to humidity outside the range 10 to 90%. Locations subject to condensation as the result of severe changes in tempera- ture.
Page 12 Safety Precautions Interlock circuits, limit circuits, and similar safety measures in external circuits (i.e., not in the Programmable Controller) must be provided by the customer. Always use the power supply voltage specified in the operation manuals. An incorrect voltage may result in malfunction or burning. In places where the power supply is unstable, take appropriate measures to ensure that the rated power supply is made available.
Page 13 SECTION 1 Introduction This section describes the applications environment required for the Programming Console and lists the operations it does and does not support. Details are provided in following sections. Features ..............Programming Console Capabilities .
Page 14: Features
Programming Console Capabilities Section 1-2 Features The CVM1-PRS21-EV1 Programming Console is an on-site Programming Device for SYSMAC CVM1, CVM1D, and CV-series PCs. It can be used together with other Programming Devices, such as the SSS (SYSMAC Support Software), to enable on-site maintenance of user programs and data. Programming Console Capabilities The procedure for programming and operating a PC is illustrated below.
Page 15: Connecting Programming Consoles
Connecting Programming Consoles Section 1-3 Connecting Programming Consoles 1-3-1 CVM1 and CV-series PCs It is possible to connect the Programming Console to any of the following: CV500, CV1000, CV2000, or CVM1 CPU Units. CV500-II201 I/O Interface Units SYSMAC BUS/2 Remote I/O Slave Units. Programming Devices cannot be connected to both the CPU Unit and an I/O Interface Unit at the same time on the same PC.
Page 16 Connecting Programming Consoles Section 1-3 1-3-2 CVM1D PCs Programming Consoles or other Programming Devices cannot be connected directly to the CPU Unit of a CVM1D Duplex System. Connect to the Duplex Unit instead of the CPU Unit. The CVM1-PRS21-EV1 Programming Console can be used for the CVM1, CVM1D, and CV-series PC, but not for C-series PCs.
Page 17: Connecting Cables
Connecting Programming Consoles Section 1-3 1-3-3 Connecting Cables Use one of the following Cables (sold separately) to connect the Programming Console to the PC. Model Cable length CV500-CN224 CV500-CN424 CV500-CN624 1-3-4 Priority of Programming Devices If Programming Devices are connected to both the CPU Unit and one or more I/O Interface Units within the same PC, only one, at most, will be operative.
Page 18: Lists Of Operations
Lists of Operations Section 1-4 Lists of Operations The Programming Console provides the following operations. Classification Operation Sub-operations System settings Response monitor time Initial settings Message number Program designation PC mode change Address set Program editing Program read Instruction search Operand search Instruction overwrite Instruction insert...
Page 19: Unsupported Operations
Unsupported Operations Section 1-5 Unsupported Operations The CVM1, CVM1D, and CV-series Programming Consoles do not support the following operations. The CVSS, SSS, or SYSMAC-CPT must be used instead. Inputting or modifying SFC programs. Checking programs. The following I/O table operations: I/O table read I/O table change I/O table cancel...
Page 20: Component Parts And Installation
SECTION 2 Component Parts and Installation This section describes the functional parts of the Programming Console and connection procedures for installing the Pro- gramming Console. Details on basic key functions are provided in Section 3 Key Functions and Displays. Nomenclature ............Connections .
Page 21: Nomenclature
Section 2-1 Nomenclature Nomenclature Cable connectors Display RUN indicator Contrast adjustment Panel mounting screw Volume adjustment Keypad System memory cassette Display Displays programs and other information. RUN Indicator Lights in synchronization with the RUN indicator on the CPU Unit. Contrast Adjustment Used to adjust the contrast of the display.
Page 22: Connections
Connections Section 2-2 Connections Refer to Section 1 Introduction for details on connecting cables, connectable Units, and the maximum number of Programming Devices allowed per PC. When connecting to the CPU Unit, connect the Programming Console to the peripheral device connector (PERIPHERAL). The Programming Console can be connected to the PC while the PC is turned on, and even while the PC is oper- ating.
Page 23: Connecting To The Pc
Connections Section 2-2 Connecting to the PC Be sure to check the direction of the connector and insert it correctly. Insert the connector until it locks into place. CPU Unit (CVM1and CV Series) DPL Unit (CVM1D) I/O Interface Units Downloaded from Elcodis.com electronic components distributor...
Page 24: Switch Settings And Adjustments
Connections Section 2-2 Remote I/O Slave Units Disconnecting the Cable Squeeze the lock release levers on the sides of the connector and pull the con- nector straight out to disconnect. Lock release lever Switch Settings and Adjustments PC Switch Settings Set the DIP switch to a baud rate of 50 kbps.
Page 25: Panel Mounting
Panel Mounting Section 2-3 2. Remove the Memory Cassette and replace it with the new Memory Cas- sette. DIP switch Memory cassette 3. Replace the screw removed in the first step. Note There is a DIP switch on the left of the Memory Cassette that can be accessed when the Memory Cassette is removed.
Page 26 Panel Mounting Section 2-3 Leave enough space for the connectors as shown by the following illustration. 15.5 mm 80 mm min. Use either one of the connectors. 70 mm min. Insert the Programming Console into the cutout, attach the Mounting Bracket from the rear side of the panel, and secure the Mounting Bracket with screws.
Page 27: Dimensions
Precautions Section 2-5 Dimensions 48.5 mm 15.1 mm 192 mm 95 mm 29.6 mm Precautions Although the Programming Console does not require regular maintenance, observe the following precautions. Do not subject the Programming Console to excessive shock during trans- portation or operation. Handle the keypad and the display with care. Do not remove the System Memory Cassette.
Page 28: Key Functions And Displays
SECTION 3 Key Functions and Displays This section describes the basic functions of the keys on the keypad and the main displays that appear during operation. Keypad ..............Initial Displays .
Page 29: Keypad
Section 3-1 Keypad Keypad The Programming Console’s keypad is shown below. The use of individual keys is described in Section 4 Operation and in Appendix D Inputs for Instructions and Operands . , IR+ SHIFT , IR , –IR Note On the keys, “CONT” stands for “Bit” and “CH”...
Page 30: Initial Displays
Initial Displays Section 3-2 Mode Displays The current input mode is indicated in the upper right-hand corner of the display. If there is nothing displayed, the Programming Console is in normal input mode. Shift mode mark SHIFT Toggled when the Shift Key is pressed.
Page 31: Sub-Operations
Sub-operations Section 3-3 Error Display: The following display will appear and Programming Console operation will not “Cannot Connect” be possible in the following cases. When the PC (including Expansion I/O Racks) is not turned ON. When the baud rate is not 50 kbps. When the number of connected Programming Devices exceeds the permissi- ble number.
Page 32: Display Symbols And Abbreviations
Display Examples Section 3-5 If an error occurs, an error message will be displayed automatically regardless of the current operation. When an error message is displayed, press the Clear Key to restore Programming Console operation. If the error is not fatal, the operation can be continued.
Page 33 Display Examples Section 3-5 000010 PRG Read ! MOV 1200H Note Differentiate Up/Down status is displayed before the (030) D00000 instruction mnemonic for applications instructions. Hold bit Differentiate Up/Differentiate Down status Immediate refresh 000002 PRG Read 100000 Monitor Displays Completion Flag status : ON (Displayed for the bit/flag on the top line.) ¢: OFF...
Page 34 Display Examples Section 3-5 ST0025 OE 0235 The present value of the step timer Step status E: EXECUTE, P: PAUSE, H: HALT, I: INACTIVE : ON Step Flag status ¢: OFF D01234 ABCD Hexadecimal display E01234 "3E" ASCII display Address in current bank E2 12345 +01234 Bank number display...
Page 35: Operations
SECTION 4 Operations This section individually describes the operations that are possible from the Programming Console. Key sequences for input- ting ladder-diagram instructions and operands are provided in Appendix D Inputs for Instructions and Operands. Overview ............. . . Layout of Descriptions .
Page 36 Section 4-1 Overview Overview This section explains how to use each operation of the Programming Console and the things that must be taken into consideration when operating the Pro- gramming Console. The following table lists all the operations that are explained in this section. Classification Operation Page...
Page 37: Layout Of Descriptions
Operations Section 4-4 Classification Operation Page I/O table operations I/O table create I/O table compare Memory clear Memory clear Online Unit replacement Online Unit replacement (See note 3) Note 1. Not possible with the CVM1 or CVM1D. 2. Setting not possible with the CVM1D. 3.
Page 38 Operations Section 4-4 Operation The input display for the response monitor time and message number is the ini- tial display produced when the Programming Console is turned on. In this exam- ple, a response monitor time of 15 s and message number 1 are set. CVM1 PRS21 V1 20 Model/Version Mon time:...
Page 39: Program Designation
Operations Section 4-4 4-4-2 Program Designation Used to designate the program to be read by the Programming Console. The Programming Console can read the following programs. Ladder-diagram Programming Only Main program Interrupt programs 00 to 35 SFC + Ladder-diagram Programming Action programs Transition programs Modes...
Page 40 Operations Section 4-4 The END(001) instruction will be automatically created when a program is newly created. Use the instruction insert and instruction overwrite operations to com- plete inputting the program (refer to 4-4-9 Instruction Insert ). Operation The following example shows how to read interrupt program 01 when only lad- der-diagram programming is being used.
Page 41: Pc Mode Change
Operations Section 4-4 <Ladder> INT01 Select program. 0:Main program 1:Interrupts The programming operation will be entered. If the specified program does not exist, a confirmation message will ask if you want to create the program. Refer to Remarks for details. 000000 PRG 4-4-3 PC Mode Change This operation is not executed directly from the main display and instead...
Page 42: Program Editing G G
Operations Section 4-4 Mode 0:PRG PRG~MON? 1:DBG 2:MON 3:RUN Execute the mode change. WRITE Mode 0:PRG 1:DBG 2:MON 3:RUN The main display will appear when the Clear Key is pressed. The Shift–SW Keys may also be used to return to the main display. Main display PC Operating Modes Operating mode...
Page 43: Program Read
Operations Section 4-4 Operation In this example program address 000123 is set. Call the programming operation. 000000 PRG Set the address. 000123 PRG Remarks It is not necessary to input leading zeros of the address, e.g., just input 1, 2, and 3 to set 000123.
Page 44 Operations Section 4-4 000123 PRG Read I000000 120012H AND N Q001001 Scroll downward one line with the Down Key. The address indicated in the display will change to the address of the instruction at the cursor. 000124 PRG Read 120012H AND N Q001001 Q000104...
Page 45: Instruction Search
Operations Section 4-4 4-4-6 Instruction Search Used to search for an instruction used in the program. Modes MONITOR DEBUG PROGRAM Key Sequence Address set Input instruction SRCH Program read Operation In this example MOV(030) is searched starting with address 000030. Set address 000030.
Page 46: Operand Search
Operations Section 4-4 After all addresses have been searched, the display will return to the SRCH address where the search was started, and the message “Instr not found” will appear. 000030 PRGSearch 0000 (030) 0000 Instr not found Remarks All programs contained in the PC will be searched, e.g., it is impossible to search only the main program or only individual action programs.
Page 47 Operations Section 4-4 Key Sequence Address set Input operand SRCH Operation In this example CIO 001308 is searched for starting from program address 000012. Set address 000012. 000012 PRG Specify the bit to be searched for. It is not necessary to input leading CONT SHIFT zeros.
Page 48: Instruction Overwrite
Operations Section 4-4 Remarks All programs contained in the PC will be searched, e.g., it is impossible to search only the main program or only individual action programs. When using only ladder programming, the following program names will appear: Main program: Main Interruption program: INT ** (interrupt number)
Page 49: Instruction Insert
Operations Section 4-4 000003 PRG D00010 (030) 0000 Input the second operand. 000003 PRG D00010 (030) 0002 Press the Write Key to write the instruction. WRITE The next address will appear and program reading can be continued. 000004 PRG Read 150012H Q001001 LD N...
Page 50 Operations Section 4-4 Modes MONITOR DEBUG PROGRAM Key Sequence Program read Input instruction and operand(s). Address set Operation In this example, AND 000109 is inserted at program address 000021. Read the address where the instruction is to be inserted. 000021 PRG Read 150012H Q001001 LD N...
Page 51: Instruction Delete
Operations Section 4-4 Remarks The following display will appear if the Insert Key is pressed in MONITOR or DEBUG mode. Press the Down Key to insert the instruction at the current address. 000023 MOV Ins ? A012 (030) D01000 Online edit ? The next address will appear after inserting an instruction.
Page 52: Timer/Counter Sv Change
Operations Section 4-4 000301 PRG Del ? XCHG D00000 (034) D02000 0100 Press the Up Key to delete the instruction. The succeeding instructions will be displayed. 000301 PRG Read 0100 (030) D12345 000000 Remarks The following display will appear if the Delete Key is pressed in MONITOR or DEBUG mode.
Page 53 Operations Section 4-4 Operation Two examples of operation are provided. The first example shows how to input a new SV. The second example shows how to increment/decrement an existing Example 1 In this example, TIM 0001’s SV is changed from #0100 to #0085. First, read the TIM 0001 instruction to produce the following display.
Page 54: Simple I/O Monitor
Operations Section 4-4 000298 Adj SV ? 0001 #0100 The value will increase or decrease by one when the Up or Down Key is pressed once. Press the Down Key six times to get #0106. 000298 Adj SV ? 0001 #0100 #0106 Press the Clear Key twice to return to the read operation.
Page 55 Operations Section 4-4 Up and Down Keys: Used to increment or decrement the word and bit address on the first line. Clear Key: Used to delete the first line. Change Key, (Data), Write Key: Used to change the PV on the first line. Set/Reset Keys: Used to temporary force-set or force-reset the first line (while the keys are pressed).
Page 56 Operations Section 4-4 T0200 ~ 0250 Specify the remaining 4 items for monitoring. Up to 8 items can be spe- Inputs for remaining four items. cified. C0011 ~ 0500 I000101 D05000 2A5F 0030 1992 To increment or decrement the word and bit address on the first line, press the Up or Down Key.
Page 57 Operations Section 4-4 Example 2 In this example the PV of CNT 0014 is changed to #0020. Only the item on the first line can be changed. C0014 ~ 0125 I000101 D05000 2A5F 0030 1992 Call the change operation. C0014 ~ 0125 Change? ????
Page 58: I/O Multipoint Monitor
Operations Section 4-4 I000101 ~ SON D05000 2A5F 0030 1992 C0014 0020 Press the NOT Key to release the forced status of the bit monitored on the first line. I000101 ~ D05000 2A5F 0030 1992 C0014 0020 4-4-13 I/O Multipoint Monitor Used to monitor memory status for bits, words, timers, counters, etc.
Page 59 Operations Section 4-4 The Shift–Clear Keys can be pressed to return to the program edit operation. The items being monitored will be recorded. Once this has been done, the Shift– Monitor Keys can be pressed to resume monitoring the items that were recorded in memory.
Page 60 Operations Section 4-4 C0014 0125 I000101 D05000 2A5F 0030 1992 Press the Monitor Key to scroll by one line. MONTR T0200 0032 C0014 0125 I000101 D05000 2A5F Press the Clear Key to delete the first line. C0014 0125 I000101 D05000 2A5F 0030 1992...
Page 61 Operations Section 4-4 Remarks The monitor operation can be entered by pressing the Monitor Key from the pro- gram read operation. 000123 MON Read I000000 050012H Q001001 The monitor display will appear showing the word or bit on the first line. MONTR I000000 Precautions...
Page 62 Operations Section 4-4 C0017 0108 C0016 0000 C0015 0052 C0014 0125 It is possible to increment or decrement the words being monitored by pressing the Up or Down Key. C1014 0125 C0013 0040 C0012 0000 C0011 0084 The PV change operation can be entered directly from the four-word monitor operation.
Page 63: Word Monitor
Operations Section 4-4 Remarks The items being monitored are recorded in memory when the Shift–Clear Keys are pressed. After recording monitor items in memory, the Shift–Monitor Keys can be pressed to recall the same items to the monitor display. If the Monitor Key is pressed after recalling monitor items stored in memory, the initial monitor dis- play will be returned to and the items stored in memory will be displayed.
Page 64 Operations Section 4-4 Operation In this example, output word CIO 0000 is monitored and then the monitor is change to CIO 0001 and bit status changed. Q0000 8B3F A25501 Q000000 I050012H Enter the word monitor operation from the I/O multipoint monitor SHIFT MONTR operation with CIO 0000 on the first line.
Page 65: Differential Monitor
Operations Section 4-4 Q0001 Chg ? 00S1000000S110R1 A25501 Q000000 Move the cursor to bit 01. Q0001 Chg ? 00S1000000S110R1 A25501 Q000000 Press the NOT Key to clear the force-set or force-reset status of the bit where the cursor is located. Q0001 Chg ? 0S10000000S11001...
Page 66: Force Set/Reset
Operations Section 4-4 Modes MONITOR DEBUG PROGRAM Key Sequence I/O multipoint monitor OFF to ON SHIFT change Cancels the operation. ON to OFF SHIFT change Operation In this example, input bit CIO 000002 is monitored to detect when it turns ON. I000002 D05000 8B3F...
Page 67 Operations Section 4-4 Key Sequence Temporary force-set I/O multipoint monitor Temporary force-reset RESET Word monitor Force-set SHIFT Force-reset SHIFT RESET Force-status release Global Forced Status Release Initial program- ming display RESET Note a) Press the Shift–Clear Keys to return to the programming opera- tion.
Page 68 Operations Section 4-4 I000101 D05000 2A5F 0030 1992 C0014 0020 Press the Shift–Set Keys to force-set the bit. S will be displayed and SHIFT the bit will remain ON until forced status is released by pressing the NOT Key or by globally releasing forced status. The S will change to R if the Shift–Reset Key is pressed to force-reset the bit.
Page 69: Pv Change
Operations Section 4-4 4-4-18 PV Change Used to change the content of a word that is being monitored. Caution Make sure that there will be no adverse effects on the control system before changing a PV. Not doing so may result in injury. Modes MONITOR DEBUG...
Page 70 Operations Section 4-4 Modes MONITOR DEBUG PROGRAM See note. Note Although monitoring is possible, it is not possible to change values in the RUN mode. Key Sequence , –IR I/O multipoint monitor display New contents WRITE The form of data display will change in sequence each time the TR Key is pressed.
Page 71 Operations Section 4-4 D01001 "1B" D05000 2987 A25501 Q0000000 Remarks It is possible to display data from the following areas in ASCII. CIO Area (CIO 0000 to CIO 2555) CPU Bus Link Area (G) Auxiliary Area (A), DM Area EM Area Step timers Index registers (IR) Data registers (DR)
Page 72: Decimal Display
Operations Section 4-4 4-4-20 Decimal Display Used to display the contents of a displayed word in signed decimal. It is possible to change the contents in decimal. Modes MONITOR DEBUG PROGRAM See note. Note Although monitoring is possible, it is not possible to change word content in RUN mode.
Page 73: Clock Read/Change
Operations Section 4-4 E00123 +09067 D05000 2987 A25501 Q000000 Input the new value. RESET E00123 +09067 Change? 00123 D05000 2987 A25501 Press the Write Key to execute. WRITE E00123 00123 D05000 2987 A25501 Q000000 , –IR Return to hexadecimal display by pressing the TR Key. E00123 FF85 D05000...
Page 74 Operations Section 4-4 Remarks The following keys are used to change the day. 0: Sunday 1: Monday 2: Tuesday 3: Wednesday 4: Thursday 5: Friday 6: Saturday Operation In this example, the clock is read and the day is changed to Monday. 000000 MON Access the Misc.
Page 75: Um Protect
Operations Section 4-4 Clock Chg ? 92 11 16 14:15:40 Press 1 for Monday. Clock Chg ? 92 11 16 14:40:40 Execute with the Write Key. WRITE Press the Clear Key to return to the menu. Clock Read 92 11 16 14:40:40 4-4-22 UM Protect Used to set or clear the read/write protection for the user’s program memory...
Page 76 Operations Section 4-4 Misc. 0:PC Clock 1:Protect UM 2:Step Monitor Specify “Protect UM.” Protect UM 0:Total Protect 1:Part Protect Specify “Total protect.” Total Protect 0:Set 1:Release Specify “Set.” Total Protect Passwd ???????? Set a password. SHIFT The password can be 8 digits in hexadecimal. The same password will be needed to clear protection later.
Page 77 Operations Section 4-4 Remarks The part-protection clear operation clears part-protection set using the CVSS, SSS, or SYSMAC-CPT. The same password that was used for the part-protect operation must be used. If there is an error, an error message will be displayed when the Write Key is pressed.
Page 78 Operations Section 4-4 Misc. 0:PC Clock 1:Protect UM 2:Step Monitor Specify “Step monitor.” Active Step Moni Sheet #000 Input the sheet number. Active Step Moni Sheet #011 Press the Monitor Key to search and display active step numbers. MONTR A set of nine active step numbers will be displayed at the same time for 0.7 s then each succeeding sets will be displayed if there are more than nine active step numbers.
Page 79 Operations Section 4-4 Key Sequence Bit and word SHIFT MONTR SRCH address Operation In this example, a search is made for address 010005. 000000 MON Access the Misc. menu. SHIFT MONTR Misc. 0:PC Clock 1:Protect UM 2:Step Monitor Press the Down Key to access the next page of the menu. Misc.
Page 80 Operations Section 4-4 Search SFC 010005 Press the Search Key to start the search operation. SRCH Search SFC 010005 Busy When the first occurrence is found, the sheet number, step or transition number, and action or FV where it was found will be displayed. Search SFC I010005 Tran:...
Page 81 Operations Section 4-4 4-4-25 Action Block Change (CV-series PCs Only) Modes Used to read the contents of the designated step number’s action block and change AQs, set values, actions, and FVs within the action block. Modes MONITOR DEBUG PROGRAM See note. Note Data can only be read in the RUN mode.
Page 82 Operations Section 4-4 If there is an error, one of the following messages will be displayed. No such step: Occurs when the user has attempted to designate a step that does not exist in the program. No act block: Occurs when no action block exists for the designated step num- ber.
Page 83 Operations Section 4-4 ST0123 Read Action AC0010 010010 Press the Change Key to enable changing the action. ST0123 Chg ? Action AC0010 010010 The AQ will change each time the Change Key pressed. Press the Change Key until the required AQ appears. Press the Down Key to go to the next part of the action.
Page 84 Operations Section 4-4 ST0123 Read #0100 Action 001002 010010 4-4-26 Transition Change (CV-series PCs Only) Used to add a bit address to a transition, change the number of a transition, or delete the bit address for a transition. Modes MONITOR DEBUG PROGRAM See note.
Page 85: Cycle Time Display
Operations Section 4-4 Misc. 0:PC Clock 1:Protect UM 2:Step Monitor Press the Down Key to access the next menu. Misc. 3:Search SFC 4:Action Block 5:Change Tran Specify “Change trans.” Change Tran Transition #0000 Input the transition number. MONTR Change Tr Read Transition #0123 Add the bit.
Page 86: Automatic Error Display
Operations Section 4-4 Key Sequence MONTR Operation In this example, the cycle time is read. 000000 MON The present values for the cycle time will appear when the Monitor Key MONTR is pressed. The cycle time display will be refreshed each time the Monitor Key is pressed.
Page 87 Operations Section 4-4 Operation In this example, an error is cleared to return to the main display. <<< ERROR >>> I/O verify error Errors are read when the Search Key is pressed. SRCH Up to three errors are displayed on one display. The succeeding errors, if any, will be displayed on the succeeding displays.
Page 88 Operations Section 4-4 Remarks The following table lists the display priority of error messages. ??? indicates where the FAL number would appear in the actual display. Priority Type Message Fatal errors Memory error High priority I/O bus error Dup I/O error CPU bus error Too many I/O I/O set error...
Page 89: Error Display/Clear
Operations Section 4-4 4-4-29 Error Display/Clear Used to read and clear errors. Modes MONITOR DEBUG PROGRAM Note It is possible to clear a fatal error in PROGRAM mode only. Key Sequence MONTR MONTR (Switches between the FAL/ FALS number and message) Operation In this example, an error is read and cleared.
Page 90: Error History Read
Operations Section 4-4 Disp error Read No errors Remarks Error messages will be displayed in the order of priority order shown in the table on page 78. Press the Change Key to change the display between the FAL/FALS number and the message (if a message exists). Disp error Read Memory error System FAL...
Page 91: Message Read
Operations Section 4-4 Read Errors 0:Error display 1:History 2:Messages Specify “History.” The latest error record will be displayed. Press the Down Key to read the errors in chronological order from the latest error. Press the Up Key to scroll up. Press the Clear Key to return to the menu.
Page 92 Operations Section 4-4 Read Errors 0:Error display 1:History 2:Messages Specify “Messages.” The message number that will appear first will be the one that was set in the Programming Console system settings. The following display will appear if MSG(195) has not been executed. Message #1 NO Message Press the Down or Up Key to change the message number.
Page 93: Startup Mode
Operations Section 4-4 Operation In this example, the startup mode is changed from MONITOR to RUN mode so that the PC will begin operation immediately the next time it is turned on. 000000 MON Access the PC Setup menu. PC Sys Setup 1/3 0:Startup mode 1:Exec controls 2:Host link...
Page 94: Execution Controls
Operations Section 4-4 4-4-33 Execution Controls Used to determine whether or not to regard multiple, simultaneous execution of the same action from two steps as an non-fatal SFC error, and whether or not to continue PC operation when an I/O comparison error occurs. This operation is not supported by the CVM1D.
Page 95 Operations Section 4-4 Exec Controls 0:Dup action err 1:Comparison err Comparison Error Dup Action Error ~Not run ~No detect 0:Non fatal 0:Generate error 1:Fatal 1:Ignore WRITE WRITE Comparison Error Dup Action Error ~Run ~Detect 0:Non fatal 0:Generate error 1:Fatal 1:Ignore Remarks The data changed will be effective immediately.
Page 96: Host Link
Operations Section 4-4 PC Sys Setup 1/3 0:Startup mode 1:Exec controls 2:Host link Specify “Host link.” Host link 0:Baud rate 1:Stop bits 2:Parity Press the Down or Up Key to change the display and specify the desired item. Host link 3:Data length 4:Unit number Settings...
Page 97 Operations Section 4-4 Input the unit number and press the Write Key. Then press the Clear Key to return to the menu. Unit Number 00 31 Any parameters that are changed will be effective immediately. 4-4-35 Scheduled Interrupt Used to set the time unit for scheduled interrupts. This operation is not supported by the CVM1D.
Page 98: Momentary Power Interruption Time
Operations Section 4-4 Scheduled unit ~10.0ms 0:10.0 1:1.0 2: 0.5 Specify 1.0 and press the Write Key. WRITE Press the Clear Key to return to the menu. Scheduled unit ~ 1.0ms? 0:10.0 1:1.0 2: 0.5 Remarks The data changed will be effective from the next time operation is started. 4-4-36 Momentary Power Interruption Time Used to set a momentary power interruption time, which is used to determine when a momentary power interruption has occurred.
Page 99: Cycle Time
Operations Section 4-4 PC Sys Setup 2/3 3:Scheduled 4:Momen pwr int 5:Cycle time Specify “Momen pwr int.” Mo Pwr Int Time ~00ms 00 09 Specify the desired value and press the Write Key. WRITE Press the Clear Key to return to the first menu. Mo Pwr Int Time ~05ms? 00 09...
Page 100: Cycle Time Monitoring Time
Operations Section 4-4 PC Sys Setup 1/3 0:Startup mode 1:Exec controls 2:Host link Press the Down or Up Key to change the menu. PC Sys Setup 2/3 3:Scheduled 4:Momen pwr int 5:Cycle time Specify “Cycle time.” Set cycle time ~Var 0:Cycle variable 1:Cycle constant Specify “Cycle constant.”...
Page 101 Operations Section 4-4 Key Sequence Input time WRITE Operation In this example, a cycle time monitoring time of 1,200 ms is set. 000000 MON Access the PC Sys Setup menu. PC Sys Setup 1/3 0:Startup mode 1:Exec controls 2:Host link Move to the third menu.
Page 102: Memory Card Format
Operations Section 4-4 4-4-39 Memory Card Format Used to format the memory card mounted in the CPU Unit. Modes MONITOR DEBUG PROGRAM Key Sequence CONT SHIFT WRITE Operation In this example, the RAM memory card mounted in the CPU Unit is formatted. 000000 PRG CONT Access the Memory Card Oper menu.
Page 103: File Write
Operations Section 4-4 Finished Remarks Only RAM memory cards can be formatted. Write-enable the card before mount- ing it. The drive name of the memory card is 0. If there is an error, one of the following error messages will appear. No file device: No memory card has been mounted in the CPU Unit.
Page 104 Operations Section 4-4 Normal Input Mode 0 to 9 Up and Down Keys: Used to move the cursor to the right or left. DEL: Used to delete the character where the cursor is located. CLR: Used to delete all the characters of a file name. SEARCH: Used to read a file name in the memory card.
Page 105 Operations Section 4-4 Operation In this example, the file name SAMPLE is written containing the data from between D00000 and D08191. The initial display will appear when the Clear Key is pressed. 000000 PRG CONT Access the Memory Card Oper menu. SHIFT Memory Card Oper 0:Tran...
Page 106 Operations Section 4-4 PC to Card (IOM) Area: St 00000End00000 File"0: " Move the cursor to “End” and input the end address. PC to Card (IOM) Area: St 00000End08191 File"0: " Move the cursor to the file name input area. PC to Card (IOM) Area: St 00000End08191...
Page 107: File Read
Operations Section 4-4 4-4-41 File Read Used so that the contents of the memory card mounted in the CPU Unit can be read in the PC’s memory. The data that can be written includes the user’s pro- gram, I/O memory, and extended PC setup. Modes MONITOR DEBUG...
Page 108 Operations Section 4-4 Memory Card Oper 0:Tran 1:Comp 2:Format 3:Erase Specify “Trans.” Data Transfer 0:PC to Card 1:Card to PC Specify “PC to Card.” Card to PC 0:Programs (OBJ) 1:IOM (IOM) 2:Settings (STD) Specify “Programs.” Card to PC(OBJ) File"0: " Press the Search Key to find the file named SAMPLE.
Page 109: File Compare
Operations Section 4-4 4-4-42 File Compare Used to compare the contents of files in the memory card mounted in the CPU Unit and the PC’s memory contents (user’s program, I/O memory, or extended PC Setup). Modes MONITOR DEBUG PROGRAM Key Sequence CONT File name SHIFT...
Page 110: File Delete
Operations Section 4-4 Memory Card Oper 0:Tran 1:Comp 2:Format 3:Erase Specify “Comp.” PC Card compar 0:Programs (OBJ) 1:IOM (IOM) 2:Settings (STD) Specify “Programs.” Compare (OBJ) File"0: " Specify the file name. SRCH SRCH Compare (OBJ) File"0:SAMPLE " The comparison will start when the Verify Key is pressed. The following display will appear if the comparison finishes without finding any differences in the data being compared.
Page 111 Operations Section 4-4 Key Sequence CONT File name SHIFT WRITE WRITE SRCH WRITE WRITE File name SRCH Remarks Only RAM memory cards can be deleted from using this operation. Be sure to write-enable the card before mounting it. The drive name for the memory card is 0. Press the Search Key to read the file name from the memory card.
Page 112 Operations Section 4-4 Erase (STD) File"0: " Read the name of the file to be deleted. SRCH SRCH Erase (STD) File"0:SAMPLE " Press the Write Key when the name of the file to be deleted is dis- WRITE played. A confirmation display will appear. Erase (STD) File"0:SAMPLE...
Page 113 Operations Section 4-4 “Clear CPU BUnit?” means to clear the contents of software settings for CPU Bus Units or data link tables set with CVSS/SSS online operations. If this data is held, all data will be held regardless of where or not the Units the settings are for actual exist.
Page 114 Operations Section 4-4 I/O table Create Clear CPU BUnit? 0:Clear 1:Hold Specify “Clear.” A message will appear when the operation has been completed. I/O table Create Clear CPU BUnit 4-4-45 I/O Table Compare Used to compare the I/O table registered in the PC to the Units actually mounted or connected to it.
Page 115 Operations Section 4-4 I/O table If the data do not coincide, the rack numbers, slot numbers, and the contents of the I/O table and actual I/O that do not coincide with each other will be displayed. I/O table Rack 1 Slot10 II** **** I/O table...
Page 116 Operations Section 4-4 I/O Units Display Unit Display Unit **** OOOO No Unit 64 output points o*** IIII 8 output points 64 input points i*** OOII 8 input points 64 I/O points O*** NNNN 16 output points 64 dummy I/O points I*** GG** 16 input points...
Page 117: Memory Clear
Operations Section 4-4 Optical I/O Units Display Unit 8 output points OUT 8 input points Duplication allocation No Unit SYSMAC BUS/2 Units CPU Bus Unit number Slave group (3) I/O table RM2 04 G3 Remote I/O Master Remote I/O Slave address (0 to 3) number (0 to 7) Slot 10...
Page 118 Operations Section 4-4 Key Sequence MONTR RESET (UM clear excluded) User program, data areas Abbreviation of data area not to be cleared Range of user program Start/End address MONTR Operation Either the entire program area and/or designated data areas can be deleted, or a specified range of the user program area can be deleted.
Page 119: Clear Memory
Operations Section 4-4 Clear memory ? 0:All UM/IOM 1:UM Part Specify “All UM/IOM.” The displayed items will be cleared. EM Area banks will not be dis- played for PCs that do not have the EM Area. Clear memory ? All UM WD A TIM CNT DM EM:01234567...
Page 120 Operations Section 4-4 Example 2 In this example, action program AC 0001’s addresses 000050 to 000120 are cleared. Use the program designation operation to designate program AC 0001 in advance. The initial display will appear when the Clear Key is pressed. 000000 PRG Access the menu of Clear Memory menu.
Page 121 Operations Section 4-4 4-4-47 Online Unit Replacement Used to replace an Input or Output Unit without stopping PC operation. Online Unit replacement can be performed for an Input Unit or Output Unit mounted to a CVM1D CPU Rack, an Expansion CPU Rack built on a CVM1D Backplane, or an Expansion I/O Rack.
Page 122 Operations Section 4-4 The status of online Unit replacement can be read from the display on the I/O Control Unit or the I/O Interface Unit. I/O Control Unit I/O Interface Unit (CV500-IC101/201/301) (CV500-II101/201) Display Display Rack Mode 1 Slot number of Unit being replaced.
Page 123 Operations Section 4-4 Operation In this example, a 32-point Output Unit in slot 8 (counted from the left) of an Expansion I/O Rack (Rack 5) is replaced. Use a Unit with the same model num- ber and specifications as the Unit being replaced. The initial display will appear when the Clear Key is pressed.
Page 124 Operations Section 4-4 Replace I/O Rack Slot (Slot number starts at 0 from left edge) Slot 8 II201 Expansion I/O Rack Rack number set to 5. Press the Search Key. The type of Unit connected will be displayed. SRCH Replace I/O Rack Slot OO**...
Page 125 Operations Section 4-4 Replace I/O Rack Slot OO** The dark box at the start of the 4th line indicates that the Unit can be replaced. Replace the Unit. Slot 8 Disconnect the wiring from the detachable terminal block before replacing the Unit. After replacement, be sure to connect the wiring for the detachable terminal blocks in the correct positions and in the correct directions.
Page 126 Operations Section 4-4 Replace I/O Rack Slot OO** The initial display will appear when the online Unit replacement opera- tion has been ended. 00000 Downloaded from Elcodis.com electronic components distributor...
Page 127: Error Processing
SECTION 5 Error Processing This section describes errors that can occur during Programming Console operation, including both errors directly relation to Programming Console operation and PC errors. Refer to the CV-series PC Operation Manual: Ladder Diagrams for further details on PC operation and errors. Reading Errors .
Page 128: Reading Errors
Section 5-1 Reading Errors Reading Errors It is possible to read the following three kinds of errors. Communications errors Operating errors PC errors Communications Errors Messages for errors occurring in communications between the Programming Console and PC will be displayed automatically. It will be impossible to operate the Programming Console if there is a communications error.
Page 129: Error Messages
Operating Errors Section 5-3 Error History Read It is possible to read the data recorded in the error history area by pressing the Clear Key, Function–Monitor Keys, and 1 Key. History Read Cycle time over 92 12 09 20:21:41 Error Messages Error message Probable cause Possible correction...
Page 130 Operating Errors Section 5-3 Error message Probable cause Possible correction No action block No actions exist in the designated step. Input the correct step number. Check the program. No active steps There are no active steps in the designated sheet. Check the user program.
Page 131 PC Errors Section 5-4 PC Errors 5-4-1 Initialization Errors The following errors occur before program execution has been started. The POWER indicator will be lit and the RUN indicator will not be lit for any of these. The RUN output will be OFF for each of these errors. The alarm indicator (ALARM) will be ON for the I/O table verification error.
Page 132 PC Errors Section 5-4 Programming Console Probable cause Flag(s) Error code Possible remedy error message (A400) Battery error CPU Unit or Memory Card A40204 00F7 Check battery and replace if backup battery is missing or its necessary. voltage has dropped. CPU SIO set error The registered CPU Bus Unit A40203 0400 to 0415...
Page 133 PC Errors Section 5-4 Programming Console Probable Cause Flag(s) Error code Possible remedy error message (A400) I/O bus error Error has occurred in the A40114 80C0 to 80C7 Check cable connections between bus line between the or 80CE or the I/O Units and Racks. Check I/O CPU Unit and I/O Units.
Page 134 Appendix A Standard Models Name Specifications Model number CV-series Programming Console Connectable to CV-series CPU Unit, CVM1 CPU Unit, CVM1-PRS21-EV1 CVM1D Duplex Unit, I/O Interface Unit, or SYSMAC BUS/2 Remote I/O Slave Unit. Connecting Cable sold separately (see below). Memory Cassette Installed in the CVM1-PRS21-EV1 Programming CVM1-MP201-V1 Console.
Page 135 Appendix B Specifications Item Specification Power supply 300 mA max. at 5 VDC +5%/–10% (supplied from the connecting Unit) Ambient operating temperature 0 to 55 C Ambient operating humidity 10% to 90% with no condensation Ambient operating environment Must be free of corrosive gas. Ambient storage temperature –20 to 75 C Display...
Page 136 Appendix C Programming Console Operations Press the CLEAR Key and return to the initial menu before continue operating. Main Key Sequence Operation Key sequences and displays Page System CVM1 PRS21 V1 20 settings Mon time:02sec Message #: 0 Read setup Yes SHIFT SHIFT Program...
Page 137 Appendix C Programming Console Operations Operation Key sequences and displays Page Changing to Other operations Programming operation SHIFT program- ming opera- . . . tion Program <Ladder> Main designation Select program. 0:Main program 1:Interrupts <SFC+Ladd>AC0012 Select programs. 0:Action 1:Tran Monitoring Programming 000000 MON operation...
Page 138 Appendix C Programming Console Operations Operation Key sequences and displays Page Memory Clear memory ? clear o:All UM/IOM 1:UM Part RESET Special Misc. operations 0:PC Clock SHIFT MONTR 1:Protect UM 2:Step Monitor Misc. 3:Search SFC 4:Action Block 5:Change Tran Cycle time Cycle time display Avg:...
Page 139 Appendix C Programming Console Operations Operation Key sequences and displays Page Memory Memory Card Oper card CONT 0:Tran 1:Comp SHIFT operations 2:Format 3:Erase I/O table I/O table operations 0:Create SHIFT 1:Compare 2:Replace I/O Downloaded from Elcodis.com electronic components distributor...
Page 140: Key Sequences
Appendix C Programming Console Operations Key Sequences All basic key sequences here beginning with the initial menu omits the CLEAR Key input. Initial Settings Operation Mode Key sequence Page System RUN, settings MON, Initial menu of the WRITE DEB, Programming Console (Select item) (Input value) Program...
Page 141 Appendix C Programming Console Operations Operation Mode Key sequence Page Operand RUN, search MON, DEB, Address set Operand SRCH Instruction MON, Program read Instruction/operand WRITE overwrite DEB, Address set WRITE WRITE In DEBUG or MONITOR mode Instruction MON, Program read Instruction/operand insert DEB,...
Page 142 Appendix C Programming Console Operations Operation Mode Key sequence Page 4-word monitor (See I/O multipoint monitor note.), multipoint MON, monitor DEB, Note Memory word New data WRITE contents can- not be changed in RUN mode. Word monitor (See I/O multipoint monitor note.), SHIFT MONTR...
Page 143: Special Operations
Appendix C Programming Console Operations Operation Mode Key sequence Page ASCII display (See , –IR I/O multipoint monitor menu note.), MON, DEB, Note Memory word contents cannot New data WRITE be changed in RUN mode. Decimal display (See , –IR I/O multipoint monitor menu note.), MON,...
Page 144 Appendix C Programming Console Operations Operation Mode Key sequence Page Action Step number SHIFT MONTR MONTR block (See change note.), MON, DEB, The actions in the action block will be read in sequence. WRITE (AQ change) Set value (Set value change) Word setting Note Data can only be moni- Action number...
Page 145 Appendix C Programming Console Operations Operation Mode Key sequence Page Error RUN, display/ MON, MONTR MONTR clear DEB, Note Errors can be cleared in (Selection of the FAL/FALS PROGRAM mode only. number and message) Error RUN, history MON, MONTR read DEB, Message RUN,...
Page 146: Memory Card Operations
Appendix C Programming Console Operations Memory Card Operations Operation Mode Key sequence Page Memory RUN, CONT WRITE SHIFT card format MON, DEB, File write RUN, MON, CONT File name SHIFT WRITE DEB, SRCH WRITE Start address End address File name SRCH File read (See...
Page 147 Appendix C Programming Console Operations Operation Mode Key sequence Page File RUN, compare MON, CONT File name SHIFT DEB, SRCH Start address File name SRCH File delete RUN, MON, CONT File name SHIFT WRITE WRITE DEB, SRCH WRITE WRITE File name SRCH I/O Table Operations Operation...
Page 148 Appendix C Programming Console Operations Memory Clear Operation Mode Key sequence Page Clear memory (See MONTR RESET note.), (UM area not cleared) (See note.), Data area abbreviations for areas not to be cleared Start/End address MONTR Note The program cannot be cleared in MONITOR or DEBUG mode. Online Unit Replacement Operation Mode...
Page 149 Appendix D Inputs for Instructions and Operands The following tables show the key strokes required to input instructions and operands. Instructions Instruction Keys Remarks LOAD LOAD NOT Displayed as LD N. AND NOT Displayed as AND N. OR NOT Displayed as OR N. AND LOAD OR LOAD Cannot be input using the NOT Key.
Page 150 Appendix D Inputs for Instructions and Operands Operands Data area abbreviations set in custom operations from the CVSS/SSS or other Programming Devices are not dis- played and cannot be used from the Programming Console. Custom data areas and abbreviations for them, how- ever, can be used (as can the default addresses).
Page 151 Appendix D Inputs for Instructions and Operands Item Bit/Flag addresses Word addresses Display Remarks ,IR+ , IR+ SHIFT IR address auto-increment , IR ,IR++ , IR+ , IR+ SHIFT SHIFT , IR , IR IR address ,–IR , –IR SHIFT IR address auto-decrement ,––IR...
Page 152 Appendix E Alphabetic List of Instructions by Function Code Sequence Control, Error Handling, and Step Data Move and Sequence Output Instructions Control Instructions Code Mnemonic Name Code Mnemonic Name MOV(!j) MOVE NO OPERATION MVN(j) MOVE NOT MOVL(j) DOUBLE MOVE INTERLOCK MVNL(j) DOUBLE MOVE NOT INTERLOCK CLEAR...
Page 153 Appendix E Alphabetic List of Instructions by Function Code Data Shift Instructions Binary Calculation Instructions Code Mnemonic Name Code Mnemonic Name ADB(j) BINARY ADD SHIFT REGISTER SBB(j) BINARY SUBTRACT SFTR(j) REVERSIBLE SHIFT REGISTER MLB(j) BINARY MULTIPLY ASFT(j) ASYNCHRONOUS SHIFT DVB(j) BINARY DIVIDE REGISTER ADBL(j)
Page 154 Appendix E Alphabetic List of Instructions by Function Code Special Timer and SFC Control Instructions Table Data Processing Instructions Code Mnemonic Name Code Mnemonic Name TTIM ACCUMULATIVE TIMER SSET(j) SET STACK TIML DOUBLE TIMER PUSH(j) PUSH ONTO STACK MTIM MULTI-OUTPUT TIMER LIFO(j) LAST IN FIRST OUT TCNT**...
Page 155 Appendix E Alphabetic List of Instructions by Function Code SFC Control Instructions Data Control, Special Calculation, and Data Conversion Instructions Code Mnemonic Name Code Mnemonic Name TOUT** TRANSITION OUTPUT PID* PID CONTROL SA(j)** ACTIVATE STEP LMT(j)* LIMIT CONTROL SP(j)** PAUSE STEP BAND(j)* DEAD BAND CONTROL SR(j)**...
Page 156 Appendix E Alphabetic List of Instructions by Function Code Bit Tests >=SL* DOUBLE SIGNED GREATER THAN OR Code Mnemonic Name EQUAL TST* BIT TEST TSTN* BIT TEST Symbol Math Instructions Code Mnemonic Name +(j)* SIGNED BINARY ADD WITHOUT CARRY +L(j)* DOUBLE SIGNED BINARY ADD WITHOUT CARRY +C(j)*...
Page 157 Appendix E Alphabetic List of Instructions by Function Code /BL(j)* DOUBLE BCD DIVIDE Floating-point Math Instructions Code Mnemonic Name FIX(j)* FLOATING-TO-16-BIT FIXL(j)* FLOATING-TO-32-BIT FLT(j)* 16-BIT-TO-FLOATING FLTL(j)* 32-BIT-TO-FLOATING +F(j)* FLOATING-POINT ADD –F(j)* FLOATING-POINT SUBTRACT *F(j)* FLOATING-POINT MULTIPLY /F(j)* FLOATING-POINT DIVIDE RAD(j)* DEGREES-TO-RADIANS DEG(j)* RADIANS-TO-DEGREES...
Page 158 Appendix F Alphabetic List of Instructions by Mnemonics Mnemonic Code Name Mnemonic Code Name BXFR(j)* INTERBANK BLOCK ACOS(j)* COSINE-TO-ANGLE TRANSFER ADB(j) BINARY ADD CADD(j) CALENDAR ADD ADBL(j) DOUBLE BINARY ADD CCL(j) LOAD FLAGS ADD(j) BCD ADD CCS(j) SAVE FLAGS ADDL(j) DOUBLE BCD ADD CJP* CONDITIONAL JUMP...
Page 159 Appendix F Alphabetic List of Instructions by Mnemonics Mnemonic Code Name Mnemonic Code Name LEND(NOT) <010> REPEAT BLOCK END DMPX(j) 16-TO-4/256-8 ENCODER DOWN* CONDITION OFF LIFO(j) LAST IN FIRST OUT DVB(j) BINARY DIVIDE LINE(j) COLUMN-TO-LINE DVBL(j) DOUBLE BINARY DIVIDE LMT(j)* LIMIT CONTROL ELSE* <003>...
Page 160 Appendix F Alphabetic List of Instructions by Mnemonics Mnemonic Code Name Mnemonic Code Name RAD(j)* DEGREES-TO-RADIANS SQRT(j)* SQUARE ROOT RD2* I/O READ 2 SR(j)** RESTART STEP READ I/O READ SRCH(j) DATA SEARCH RECV(j) NETWORK RECEIVE SRD(j) SHIFT DIGIT RIGHT REGL(j) LOAD REGISTER SSET(j) SET STACK...
Page 161 Appendix F Alphabetic List of Instructions by Mnemonics Mnemonic Code Name Mnemonic Code Name SIGNED EQUAL /F(j)* FLOATING-POINT DIVIDE /L(j)* DOUBLE SIGNED BINARY =SL* DOUBLE SIGNED EQUAL DIVIDE <* LESS THAN /U(j)* UNSIGNED BINARY DIVIDE <=* LESS THAN OR EQUAL /UL(j)* DOUBLE UNSIGNED BINARY <=L*...
Page 162 Index PC baud rate setting, , displays, ASCII, action blocks, changing, automatic error displays, alphanumeric input mode, contrast adjustment, , cycle time, ASCII display, display example, decimal, baud rate, , examples, FAL, , buzzer, volume adjustment, , FALS, , hexadecimal, I/O tables, initial display, MSG(195),...
Page 163 Index force-set/reset, monitoring four words, monitoring multiple items, binary display, monitoring on ASCII display, simple I/O monitor, monitoring on binary display, forced status monitoring on decimal display, display example, monitoring on hexadecimal display, globally releasing, simple I/O monitoring, Mounting Bracket, , dimensions, MSG(195), displays, normal input mode,...
Page 164 Index simple I/O monitor, startup mode, structure, refresh, immediate refresh instructions, display example, system settings, table of procedures, Remote I/O Slave Units, , timer/counter SV change, connection, transition change, reading/not reading PC Setup, time required, UM protect, restrictions when not reading PC Setup, unsupported operations, replacing Units, online replacement, word monitor,...
Page 165: Revision History
Revision History A manual revision code appears as a suffix to the catalog number on the front cover of the manual. Cat. No. W222-E1-3 Revision code The following table outlines the changes made to the manual during each revision. Page numbers refer to the previous version.
Page 166 Authorized Distributor: Cat. No. W222-E1-3 Note: Specifications subject to change without notice. Printed in Japan Downloaded from Elcodis.com electronic components distributor...

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