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Configuring an Analog I/O Module

1. Cursor to BT or Edit Choose one OG ClO instruction gt faj gt or Edit Channel Edit o ae gt j os or Module Edit Channel Edit meer io N Series A Channel 1 Edit output channel type 0 50 mA output data 3000 signal low high scale dflt 1000 5000 reset state 10 mA 50 mA maxi mum ra of full sc 15 of alarms are enabled 0 4000 low high clamp user channel status cal amp prog OK al arms Please enter value in scaled units 32767 in bina gt Rem Prog Change Mode Fl out put 17 Def mod 7 of BT Data Tables F6 Module Monitor Edit F4 1 0 Switch Ovrview Channel F2 F3 F5 3 30 1 0 Edit Channel Edit d gt H ramping 30 00 mA last state second units 6 0 mA mp rate per ale eng FS rate limit ry 7999 in BCD Offline ARDA ault Accept F10 Field Output Channel Type Output Data I Signal 1 Low High Scale Reset State Value Of Output On Reset Alarms Are Configuring N Series Analog I O Modules Valid Values Displays the input output module channel configuration Enter the value in scaled units to be sent to the module If you programmed a rate limit the output may take some time after you press F10 Accept to reach the value shown here During this time if alarms are enabled youseer ate limit in the alarms field Enter the desired output current 0 to 51 26 mA If you program a rate limit the m
2. 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 20 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 20C Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 20E Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 25 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 26 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 30 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 40 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 Master Index PLC 5 40C Instruction vii Program viii I O Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 40E Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 40L Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 46 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 60 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 P
3. Displaying Block Transfer Data for 1794 IR8 Series A Modules Use the Block Transfer Data screen to display an image of the processor data tables fora 1794 IR8 series A module without returning to the ladder editor to use the data monitor function Follow the steps on the left Block Transfer Data WRITE DATA 0 1 0 Module or 1 0 Module READ DATA SystemOverview System Overview BT Data Tables BT Data Tables Press a function key fr fr fre re Rem Prog mod 1 of 1 File FLEX_A Change 1 0 Channel Monitor Change Display Mode Ovrview Edit Radix Symbols Fl F2 F3 F5 F6 F7 You cannot edit the information on this screen 8 17 Configuring 1794 Flex I O Modules Configuring 1794 IT8 Series A To configure a 1794 IT8 series A Flex I O module follow the steps below Channel Edit Screen 1794 IT8 Ladder Editor Cursor to BT Edit 1 0 Edit Choose one Oj gt instruction gt gt or Edit gt or Channel Edit o gt 1794 IT8 A Channel Edit RGM 0321 Calibration OFFSET Calibration Clock STOP First Notch Frequency 10 Hz Module Data Type DEGREES CENTI GRADE Thermocouple Type Ch CAL Thermocouple Type millivolts 4 millivolts millivolts 5 millivolts millivolts 6 millivolts millivolts 7 millivolts Press F9 to select calibration type gt Rem Prog mod 1 File FLEX_A Change 1 0 Monitor BT Data Toggle Accept Mode Ovrview Tables F1 F2 F5 F6 F9 F10 8 18 Field Calibration Cali
4. Master Index comments address Program 17 21 import export See importing documentation instruction Program 17 22 rung Program 17 22 SFC Program 10 22 communication mode change characters used Config M aint 13 22 configuring serial port Config M aint 13 22 communication scan time configuring Config M aint 11 11 communication time slice See configuring communication scan time communications boards Config M aint 6 1 DH Config M aint 6 19 modem Config M aint 6 25 serial Config M aint 6 20 using DH Config M aint 8 1 using Ethernet Config M aint 8 1 compare EQU Instruction 3 6 expression Instruction 3 3 GEQ Instruction 3 7 3 8 instructions Instruction 3 3 length of expressions Instruction 3 4 LEQ Instruction 3 9 LES Instruction 3 10 NEQ Instruction 3 15 comparing data table entries Program 4 1 force table entries Program 4 1 ladder program Program 4 1 options Program 4 5 processor memory Program 4 2 program directory Program 4 1 Master Index compute ACS Instruction 4 13 ADD Instruction 4 14 ASN Instruction 4 15 ATN Instruction 4 16 AVE Instruction 4 17 CLR Instruction 4 20 COS Instruction 4 21 CPT Instruction 4 5 DEG Instruction 6 5 DIV Instruction 4 22 EOT Instruction 13 24 expression Instruction 4 6 FSC Instruction 9 15 functions Instruction 4 11 IOT Instruction 1 9 length of expressions Instruction 4 8 LN Instruction 4 23
5. Signal nput and Output Channels Displays the data scaled to the selected range f the module detects that the circuit to the channel is open wi re of f is displayed to the right of the Signal field Outputs Output Channels Only Displays whether or not output is disabled Note This field is ignored when the processor is placed in Program mode or communications are lost Failsafe Data Output Channels Only Value of output when the processor is placed in Program mode communications are lost or you disable the output Status Displays the status of the output act i ve ori nacti ve 1 Displayed by 1794 IE4XOE2 series B modules only 8 9 Configuring 1794 Flex I O Modules Configuring 1794 IE8 Series A and Series B To configure a 1794 IE8 series A or series B Flex I O module follow the steps below Channel Edit Screen 1794 IE 8 Ladder Editor Cursor to BT Edit 1 0 Edit Da 9 gt instruction gt gt or Edit o gt f or Channel Edit gt 1794 E8 B Channel Edit C Address Range N7 2 0 20 mA N7 3 4 20 mA N7 4 mA N7 mA N7 mA N7 mA N7 mA N7 mA Enter a channel number gt Rem Prog mod of Offline HCO_310 Change 1 0 Delete Monitor BT Data Display Accept Mode Ovrview Tables Symbols Fl F2 F4 F6 F7 F10 8 10 Field Channel Address Range Data Signal Configuring 1794 Flex I O Modules Valid Values Displays the index number of a valid channel Di
6. or Channel Edit or Monitor Scaling Edit I O Edit Cursor to BT or 3 5 CIO instruction gt rd gt fr Edit Module Edit ra Module Edit USER DEFINED Input Channel Range 5V Filter Time Press F9 Toggle to change scaling Rem RUN Change 1 0 Mode Ovrview Edit Fl F2 F3 Field Scaling Input Channel Range Filter Time Channel mod 2 of 2 Addr 2 ASMTEST2 Monitor BT Data Other Toggle Accept Tables Functns F5 F6 F8 F9 F10 Valid Values Press F9 Toggle to select default user defined or off The default is off Press F9 Toggle to select 10 V 10 V 5 V 5 V 20 mA 0 20 mA The default is 10 V Press F9 Toggle to choose between 0 disabled and 1 5 seconds in 100 ms steps The defaultis disabled Configuring 1791 Analog I O Blocks Channel Edit Screen Ladder Editor Cursor to BT or Edit vo Edit Channel Edit Choose one nen gt CIO instruction gt gt gt or yO Module Edit Channel Edit EN 52 or Module Edit Channel Edit o Ez gt 1791 N4C2 A Channel Edit Scaling USER DEFINED Range Lo Scal Hi Scal Alarm Lo Alm Hi Alm DeadBand 70 5V 0 5000 ON 0 10000 12 70 5V 0 5000 off 70 5V 0 5000 off 70 5V 0 5000 off 0 20mA 20000 0 20mA 20000 gt Rem RUN Addr 2 ASMTEST2 Change 1 0 Module Monitor BT Data Accept Mode Ovrview Edit Tables Fl F2 F4 F5 F6 F10 Field Valid Values Channel Displays the index number of a valid chann
7. 5 10 mod 1 of 1 Offline STARTI BT Data Tables F6 Voltage C urrent Monitor Use PageUp or PageDown to move through the setup screens Power Monitor Use PageUp or PageDown to move through the setup screens 1400 PD A present phase LI N phase L2 N phase L3 N average L N phase L1 L2 phase L2 L3 phase L3 L1 average L L V_AUX Press a function key Rem Prog Change 1 0 Ovrview 1400 PD A prese phase LI N phase L2 N phase L3 N total PF total 88 net imported exported Press a function key Rem Prog Change 1 0 Mode Ovrview Fl F2 readings at 5062 5060 5112 5078 8765 8808 8819 8794 5000 nt readings at demand 0 KW Power Configuring 1400 PB and 1400 PD Power Monitor Devices Voltage Current Monitor Monitor KW 9 771 9 480 9 490 28 741 KWH 45 343 45 343 0 14 57 15 on 19 Oct 14 57 15 on 19 Oct 1994 phase L1 2190 A phase L2 2126 A Phase L3 2107 A average line 2141 A 5000 A I 4 neutral present LI N line frequency 60 000 Hz 1994 KVA KVAR 11 086 5 238 10 756 5 082 10 768 5 088 32 611 15 408 average demand KVARH 20 097 0 45 343 KVAH 6 337 327 mod 1 of 1 BT Data Tables F6 Offline STARTI 5 11 Configuring 1400 PB and 1400 PD Power Monitor Devices Device Status 1400 PD A module Status RGM 100 relay 1 operated status 1 nor ma 3 normal 2 released inputs 2 nor
8. 8 16 Field First Notch Frequency Calibration Clock Calibration Channel Value RTD Type Valid Values Displays the first notch frequency in Hz Valid values are 10 Hz 25 Hz 50 Hz 60 Hz 100 Hz 250 Hz 500 Hz and 1000 Hz The defaultis 10 Hz Valid values are STOP and START Valid values are OFFSET and GAIN Displays the index number of a valid channel Entries to the right of the Channel field indicate the range bit setting lt Underrange bit is set gt Overrange bit is set Displays the input data value for the channel between 32767and 32768 Entries displayed to the right of the Value field indicate the module data type c Degrees Centigrade F Degrees Fahrenheit Bi Bipolar Un Unipolar Valid values are resistance no sensor 100 ohm pt 0 00385 100 ohm pt 0 003916 200 ohm pt 500 ohm pt 10 ohm copper 120 ohm nickel 100 ohm nickel 250 ohm nickel 500 ohm nickel and Module Data Time Stamp The default is resistance The following messages may be displayed at the bottom of the 1794 IR8 series A Monitor screen when the appropriate bit is set on the module data table e Unconfigured power up bit e Invalid Calibration calibration bit e Reference Signal Out of Range reference signal bit e Invalid RTD invalid RTD bit e Calibration Complete calibration done bit For more information on these messages see the 8 Input RTD Module User M anual Configuring 1794 Flex I O Modules
9. Data Units Channel Status Valid Values Control and data file addresses and length for the BTW or CIO Write instruction Control and data file addresses and length for the BTR or CIO Read instruction ON or OFF to indicate whether or not the module powered up successfully f there is a scaling error INVALID otherwise NORMAL fthere is aRTS error TIMEOUT otherwise NORMAL ndex number of the valid channel Displays the logical address of the value in the Data field P ress F7 to display symbols if you ve defined them in place of addresses Displays online data from the module The data is read from the BTR or ClO Read data file on the processor and may be out of date if the processor is notin Run mode Displays a word or phrase that describes the type of channel data Whether the channel data is Normal Overrange or Underrange Configuring Analog I O Modules Other than N Series Analog I O Modules Configuring 1771 IL Series To configure a 1771 IL series B module follow the steps below Module Edit Screen 1771 IL B Edit 1 0 Edit i Cursor to BT or gt g Choose one CIO instruction gt gt fr or b 1 0 Module Edit System Overview D ej dule Edit or Mo Q or Monitor or sp BT Data fra Channel Edit If you are using CIO 1771 IL B instructions the rack group module address in the upper right corner is replaced with a node slot address data format f Module Edit or read BT
10. LOG Instruction 4 24 MUL Instruction 4 25 NEG Instruction 4 26 ONS Instruction 13 20 order of operation Instruction 4 9 RAD Instruction 6 6 SIN Instruction 4 27 SQR Instruction 4 28 SRT Instruction 4 29 STD Instruction 4 31 SUB Instruction 4 34 TAN Instruction 4 35 XPY Instruction 4 36 Compute instruction CPT Instruction 4 5 computers supported by 6200 programming software Config M aint 1 11 concepts data storage Config M aint 9 1 CONFIG SYS FILES and BUFFERS Config M aint 1 3 mouse support Config M aint 1 3 setting Config M aint 1 2 configurable application routine See CAR utility configuration files Config M aint 2 8 1 0 See I O configuration system Config M aint 5 2 configuring 1400 PB 1 0 Config 5 2 1400 PD 1 0 Config 5 2 1402 LS51 A 1 O Config 6 1 1770 K FC Config M aint 6 20 1770 KFCD Config M aint 6 20 1771 CFM 1 OConfig 4 11 1771 IFE A OConfig 2 2 1771 IFE B OConfig 2 2 1771 IFE C 1 OConfig 2 2 1771 IL A 1 0 Config 2 8 1771 IR A OConfig 2 19 1771 IR B 1 OConfig 2 19 1771 IXE A 1 0 Config 2 27 1771 IXE B OConfig 2 27 1771 IXHR A OConfig 2 35 1771 OFE A 1 OConfig 2 43 1771 OFE B OConfig 2 43 1771 SDN A 1 0 Config 2 48 1771 VHSC OConfig 4 2 1784 KL Config M aint 6 38 1784 KT KT2 Config M aint 6 7 1784 KTC Config M aint 6 12 1784 KTX KTXD Config M aint 6 16 1784 PCMK Config M aint 6 17 1791 analog I O blocks 1 0Config 7 1 1794 flex
11. Units Channel Status degrees normal degrees normal degrees normal degrees normal degrees normal degrees normal mod 6 of 6 BT Data Display Tables Symbols F6 F7 Addr 12 TEST 2 23 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 24 Field Write BT Read BT Power up Bit Module Status Real Time Sample Status Auto cal Read from EEPROM Channel Address Data Units Channel Status Valid Values Control and data file addresses and length for the BTW or CIO Write instruction Control and data file addresses and length for the BTR or CIO Read instruction ON or OFF to indicate whether or not the module powered up successfully fthe module is faulted INVALID otherwise NORMAL fthere is an RTS error INVALID otherwise NORMAL Series B only f the auto calibrated values cannot be read from the EEPROM FAILED otherwise NORMAL ndex number of the valid channel Displays the logical address of the value in the Data field P ress F7 to display symbols if you ve defined them in place of addresses Displays online data from the module The data is read from the BTR or ClO Read data file on the processor and may be out of date if the processor is notin Run mode Displays Degrees C Degrees F or ohms Displays any alarms Normal OVERRANGE or UNDERRANGE Configuring Analog I O Modules Other than N Series Analog I O Modules Auto Calibrating 1771 IR Series B You m
12. gt g gt g gt 9 On Count 0 Cts Cts Cts Cts Cts Cts Cts Cts Monitor Output Setup Off Count 0 Cts Cts Cts Cts Cts Cts Cts Cts or press a function key 5 10 File Default Config F8 Accept F10 Configuring the 1771 VHSC and 1771 CFM Field Output Tied to Count Value On Count and Off Count Config State Valid Values Displays the output channel numbers Enter a value between 0 and 7 or use the up down arrow keys to move to the line for that channel F9 Toggle switches through e None do not tie a counter channel to an output channel e Counter0 tie counter channel 0 to the current output channel e Counter1 tie counter channel 1 to the current output channel e Counter 2 tie counter channel 2 to the current output channel e Counter 3 tie counter channel 3 to the current output channel The default is None If an output is tied to a counter in Rate Meas mode the On and Off Count values must not exceed 500 000 Hz Displays the count or value that the module uses with the On Count and Off Count to decide whether to turn the output on or off In Rate Measurement mode this is the frequency value BTR or CIO Read words 11 18 in all other modes this is the current counter value BTR or CIO Read words 3 10 Use the On Count and Off Count with the Config field see below to determine the on off cycle of the output channel If the output is Enable
13. 8 21 Configuring 1794 Flex I O Modules Displaying Block Transfer Data for 1794 IT8 Series A Modules Use the Block Transfer Data screen to display an image of the processor data tables for a 1794 1T8 series A module without returning to the ladder editor to use the data monitor function Follow the steps on the left Block Transfer Data WRITE DATA 0 1 0 Module or 1 0 Module READ DATA SystemOverview System Overview BT Data Tables BT Data Tables Press a function key fr fr re re Rem Prog mod 1 of 1 File FLEX Change 1 0 Channel Monitor Change Display Mode Ovrview Edit Radix Symbols Fl F2 F3 F5 F6 F7 You cannot edit the information on this screen 8 22 Preface How to Use Your Documentation Your PLC 5 programmable controller documentation is organized into manuals according to the tasks you perform This organization lets you easily find the information you want without reading through information that is not related to your current task The arrow points to the book you are currently using Preface Figure 1 PLC 5 Programmable Controller Documentation Library HARDWARE Classic PLC 5 Processors 1785 PLC 5 Programmable Controllers Design Manual Explanation of processor functionality system design and programming 1785 PLC 5 Programmable Controllers Design Worksheets Worksheets to help the designer plan the system and the installer to install the system SOFTWARE Classic and
14. B Monitor Monitor ite BT read BT N12 295 N12 300 28 ption N12 N12 N12 N12 N12 N12 N12 N12 N12 V 5 5 5 5 5 5 press a function key annel Module Edit F4 F3 addr symbol Data Monitor I O Monitor Module status channel status 303 ok 231 232 309 311 313 315 317 319 5100 5200 0 0 0 for editing mod 8 of 17 BT Data Display Tables Symbols F6 F7 Offline ARDA 3 33 Configuring N Series Analog I O Modules 3 34 Field Write BT Read BT Module Status Channel Description Address Symbol Data Channel Status Displays this Information Control and data file addresses and data file length for the BTW or CIO Write instruction Control and data file addresses and data file length for the BTR or CIO Read instruction One of the following appears f aul t RTS ti meout NZ one or more reserved fields in the BTW or CIO Write data file contain nonzero values al arm bad program bad chnl data bad BT struc pgm verifiedorpgm no verify power up and 0O reset ndex number of a channel If you press F3 Channel Edit the software displays the channel configuration screen for the currently highlighted channel Description of the input output residing on the channel Displays the logical address or the symbol of the value in the Data field Displays online data for each of the module s channel from the module The da
15. Digital Filter Enter a value between 0 00 and 0 99 seconds The default is 0 00 Real Time Enter a real time sample rate between 0 1 and 3 1 seconds enter 0 for Sample Rate disabled The default is 0 0 Press F3 Configuring Analog I O Modules Other than N Series Analog I O Modules Channel Edit to configure individual channels or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Channel Edit Screen Choose one or O or 1771 IF E Ladder Edito Cursor to BT or Edit VO Edit Chamnel Edit gt CIO instruction gt faj gt gt Edit Channel Edit gt gt Module Edit Channel Edit BT Data 1771 I FE A Ch Address N20 54 Channel Edit Units R GM Min 000 Max N20 55 N20 N20 N20 N20 N20 N20 Enter a channel number gt mod 1 of 4 Display Default Symbols Config F7 F8 Addr 12 TEST Accept Rem Prog Change Mode Fl 1 0 Ovrview F2 Module Edit F4 Monitor BT Data Tables F6 F5 F10 2 3 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Valid Values Channel Index number of a valid channel Enter 1 to 16 to move to the line for that channel or use the arrow keys or PageUp or PageDown Address Displays the logical address of the value in the Data field display only
16. Instruction 3 9 LFL instruction Instruction 11 5 LFU instruction Instruction 11 5 LIFO Load LFL instruction Instruction 11 5 LIFO Unload LFU instruction Instruction 11 5 LIM instruction Instruction 3 11 Limit Test instruction Instruction 3 11 link mode See Programming Terminal configuring LN instruction Instruction 4 23 LOG instruction Instruction 4 24 Log to the base 10 instruction LOG Instruction 4 24 logic branch Program 13 6 writing Program 13 4 logical AND Instruction 5 2 NOT Instruction 5 4 OR Instruction 5 6 XOR Instruction 5 8 logical address Config M aint 9 12 mnemonic Config M aint 9 14 M machine statements converting to logic Program 13 2 macros Program 11 12 assigning comments Program 11 13 creating Program 11 12 deleting step tran Program 11 13 searching within Program 11 14 main control programs Program 2 3 8 2 configuring Config M aint 11 24 main menu using Config M aint 3 1 manipulating file data Instruction 8 4 M asked Comparison for E qual instruction Instruction 3 13 M asked M ove instruction Instruction 7 5 Master Index M aster Control R eset instruction Instruction 13 3 M CP See main control programs MCR instruction Instruction 13 3 memory choosing memory size Config M aint 3 14 clearing Config M aint 3 18 expanded or extended Config M aint 1 8 gapping Config M aint 9 4 hard disk Config M aint 1 1 instruction requirements Instruction A 1 processor fi
17. Please enter the lower acceptance limit in percent 25 to 25 in 0 05 steps gt Rem Prog mod 1 of 1 Offline BTSLSM2E Change 1 0 Monitor BT Data Default Accept Mode Ovrview BTR Tables Config Fl F2 F5 F6 F8 F10 Field Valid Values Synchronization Method Delayed Acceptance Window You cannot edit this field Voltage Match Error Limits Enter the upper and lower acceptance limits in percent The default high limit is 5 00 Frequency Match Error Limits Enter the upper and lower acceptance limits in steps of Phase Match Error Limits Enter the upper and lower acceptance limits in steps of 10 degrees Acceptance Window Delay Enter the acceptance window delay in seconds 0 10 in 0 05 second steps The default is 1 00 25to 25 in 0 05 steps The default low limitis 5 00 0 01 Hertz 1to 1 The defaults are 0 50Hz and 0 50 Hz 0 01 degrees 20to 20 The defaults are 10degrees and Configuring 1402 LS51 Series A Line Synchronization Modules Load Share Parameters Edit Screen 1402 LS51 A Load Share Parameters Edit max sync bus output power 20 000 KW load share full scale voltage 4 00 V load share excess 000 load share deficit 000 Use PageUp or PageDown to move through the setup screens Please enter the maximum sync bus power in kilowatts 0 to 999999 gt Rem Prog mod 1 of 1 Offline BTSLSM2E Change 1 0 Monitor BT Data Default Accept Mode Ovrview BTR Tables Config Fl F2 F
18. See page 1 13 l Add To Copy On the I O Module Type Selection screen choose the type of module to add See page 1 15 On the Block Transfer Control screen enter the BT block transfer or ClO ControlNet I O transfer control data required for your processor See page 1 16 The module is added to the database 1 4 On the ControlNet Node Information Edit screen enter network and device information For more information see Configuring Channel 2 for ControlNet PLC 5 Processors in the Software Configuration and Maintenance manual On the ControlNet I O Mapping Edit screen enter I O mapping information for the devices and the modules For more information see Configuring Channel 2 for ControlNet PLC 5 Processors in the Software Configuration and Maintenance manual The module is added to the database Configuring Documented Modules Using the I O Configuration Utility Figure 1 2 Configuring Documented Modules Configuring Documented Modules in the Ladder Editor in the Channel Configuration In the ladder editor In the channel configuration for a i ControlNet PLC 5 processor Go to the 1 0 Module Cursor to BT or System Overview screen CIO instruction mg gt Go to the I O Mapping T i Monitor screen Configure a module See f Table 1 A for information Configure a modul
19. The edits for all of the Device Setup screens are written to the BTW or CIO Write data file Data from other edit screens is not written to the BTW or CIO Write data file i However if you accept edits on any of the other three edit screens Setpoint Setup Time Setup or Control R equest only the edits made on that particular screen are written to the BTW or CIO Write data file Therefore if you make edits on more P than one of these screens you must accept the edits you have made on each individual screen If you press Esc or F2 1 0 Ovrvi ew while you have pending edits on another screen the software reminds you that you have pending edits and asks you if you want to abandon them Press F10 No and then PageUp or PageDown to find the screens with pending edits 5 1 Configuring 1400 PB and 1400 PD Power Monitor Devices Configuring 1400 PB and 1400 PD Setup Screens 5 2 To configure 1400 PB and PD Series A devices follow these steps 1400 PB 1400 PD When you first access any of the six setup screens the following message appears Do you intend to reconfigure the Power Monitor device If you press F8 Yes the software prompts you to enter the current unit password Enter the password Y ou have three tries to enter the correct password If you do not succeed you can view all screens but you cannot edit any setup screens If you press F10 No you can view all screens but you cannot edit any se
20. Too M any Files error message Program 1 3 Config M aint 7 3 Numbers 1400 PB configuring I O 1 0 Config 5 1 monitoring 1 0 I O Config 5 9 1400 PD configuring I O 1 0 Config 5 1 monitoring 1 0 I O Config 5 9 1402 LS51 configuring I O 1 0 Config 6 1 monitoring I O I O Config 6 6 1770 K FC configuring Config M aint 6 20 ControlNet Config M aint 6 20 Master Index 1770 K FCD configuring Config M aint 6 20 ControlNet Config M aint 6 20 1771 CFM configuring I O I O Config 4 11 monitoring I O OConfig 4 18 1771 IFE auto calibrating I O 1 0 Config 2 7 configuring I O 1 0 Config 2 2 monitoring I O 1 0 Config 2 5 1771 IFE Series C auto calibrating 1 0 1 0 Config 2 7 1771 IL configuring I O I O Config 2 8 1771 IL B monitoring 1 0 1 0 Config 2 17 1771 IR auto calibrating 1 0 1 0 Config 2 25 configuring I O 1 0 Config 2 19 monitoring 1 0 1 0 Config 2 23 1771 IR Series B auto calibrating 1 0 1 0 Config 2 25 1771 IXE auto calibrating 1 0 1 0 Config 2 33 configuring 1 0 1 0 Config 2 27 monitoring I O I O Config 2 31 1771 IXE Series B auto calibrating I O 1 0 Config 2 33 1771 IXHR auto calibrating I O 1 0 Config 2 41 configuring I O 1 0 Config 2 35 monitoring I O 1 0 Config 2 39 1771 IX HR Series A auto calibrating I O 1 0 Config 2 41 1771 OFE configuring 1 0 1 0 Config 2 43 monitoring 1 0 1 0 Config 2 46 1771 SDN configuring 1 0 1 0 Config 2 48 monitoring I O 1 0 Config 2 50 Master Ind
21. distributor or system integrator If additional assistance is needed then contact your local Customer Support Center or contact System Support Services In the United States and Canada If you have a SupportPlus agreement or your software is under warranty you can contact System Support Services at 1 800 289 2279 Have your support contract or software registration number available For assistance that requires on site support contact your local sales office distributor or system integrator During non office hours contact the Allen Bradley 24 hour Hot Line at 1 800 422 4913 Outside of the United States Contact your local Customer Support Center at Region or Area Customer Support Center Telephone Number Canada Cambridge Ontario 519 623 1810 Latin America Mexico 52 5 259 0040 United Kingdom Milton Keynes 44 908 838800 France Paris 33 1 3067 7200 Germany Gruiten 49 2104 6900 Italy Milan 39 2 939 721 852 887 4788 34 3 331 7004 Asia Pacific Hong Kong Spain Barcelona For assistance that requires on site support contact your local office distributor or system integrator During non office hours contact your local Customer Support Center Summary of Changes Summary of Changes The table below summarizes the changes that have been made to the I O Configuration Utility manual since the last printing For this New Information See Chapter ControlNet I O transfer throughout 1771 IFE B an
22. o ETA f E gt Pj sd Channel Configuration 0 If the number of modules you have in the database exceeds the lines Change available on one screen Mode this message appears Fa Rem Prog Edit 1 0 Monitor ControlNet PLC 5 processors only Cat No Ser 1402 LS51 A 1771 VHSC A N Series A 1771 I FE A 1771 I FE A Use keys to position cursor F2 F3 1 0 Module System Overview BTW data N12 10 N12 110 N15 0 N16 0 Monitor Delete F4 then press a BTR data BTW ctrl 2105 2145 2165 2205 230 260 320 380 415 80 N12 0 170 N12 100 N15 100 N11 0 N11 5 N11 10 6 38 N14 0 unction key mod 5 of 16 Add New Display Copy Config Module Symbols Display F6 F7 F8 F9 Offline TINUVIEL 1 17 Using the I O Configuration Utility 1 18 If You Want to Change processor mode Change the configuration of a module Monitor status data and the configuration of a module Delete the documentation for a module module record This does not change the BTR or CIO Read and BTW or CIO Write data files and control files Add a module record to the database Display symbols if defined or display only addresses Note The I O configuration utility does not support symbols that are wider than 10 characters if you enter symbols wider than 10 characters the display is truncated to the first 10 characters Copy the configuration of a documented module Change di
23. 0 Config 8 15 1794 IT 8 A I O Config 8 20 1794 OE4 A OConfig 8 4 1794 0E4 B 1 OConfig 8 4 active steps Program 12 11 BTR BTW instructions Config M aint 16 8 changing radix Config M aint 16 3 CIO instructions Instruction 15 27 Config M aint 16 10 data Config M aint 16 2 entering data Config M aint 16 6 I O status Config M aint 12 1 MSG instructions Config M aint 16 11 N Series modules 1 0 Config 3 33 PID instructions Config M aint 16 14 processor channels Config M aint 14 1 1 22 processor status Config M aint 12 1 specific addresses Config M aint 16 5 status data processor Config M aint 12 1 monitoring a module I O configuration I O Config 1 23 MOV instruction Instruction 7 4 Move instruction MOV Instruction 7 4 moving to rungs Program 14 8 moving around on screens I O configuration I O Config 1 1 MSG instruction entry Instruction 16 11 MSG instruction Instruction 16 1 monitoring Config M aint 16 11 using Instruction 16 10 MUL instruction Instruction 4 25 multi session driver configuring Config M aint 4 8 installing Config M aint 4 9 removing Config M aint 4 11 multiple communication cards using Config M aint 4 8 Multiply instruction MUL Instruction 4 25 MVM instruction Instruction 7 5 N N Series modules 5 V input I O Config 3 6 10 V input 1 0 Config 3 9 10 V output 1 0 Config 3 24 100 mV thermocouple input 1 0 Config 3 15 20 mA sourcing sinking input 1 0 Config 3 21 25 mA o
24. 0 Monitor BT Data Display Revi ew Mode Ovrview Tables Symbols Errors Fl F2 F5 F6 F7 F10 Field Channel Address Range Data Signal Outputs Failsafe Data Status Configuring 1794 Flex I O Modules Valid Values put and Output Channels isplays the index number of a valid channel US put and Output Channels isplays the address of the channel data US nput and Output Channels ress F9 Toggle to select the desired range for the channel uv nput Channels Displays the data value reported by the module Output Channels Enter output data values between 32768and 32767 nput Channels Displays the data scaled to the selected range Output Channels Enter output data according to the selected range Value must be within the specified range Output Channels Only Lets you disable an output which causes the module to output the backup data value Note This field is ignored when the processor is placed in Program mode or communications are lost Output Channels Only Value of output when the processor is placed in Program mode communications are lost or you disable the output Displays the status of the output active ori nacti ve Configuring 1794 Flex I O Modules f Monitoring 1794 IE4XOE2 Series A and Series B Use the monitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1794 IE4XOE2 Data Monitor 1 0 Monitor Ladder Editor Cursor
25. 1 0 Config 3 15 20 mA sourcing sinking input 1 0 Config 3 21 I 18 25 mA output I O Config 3 27 50 mA output I O Config 3 30 55 mV thermocouple input 1 0 Config 3 12 65 ohm RTD input I O Config 3 18 PLC 5 entering BT information 1 0 Config 1 16 entering CIO information 1 0 Config 1 16 programming BT instructions I O Config 1 5 review errors I OConfig 1 21 standalone utility 1 O Config 1 13 3 1 starting the I O configuration utility 1 0 Config 1 12 starting the utility 1 O Config 1 12 supported processors 1 0Config 1 1 using the I O configuration utility 1 0 Config 1 1 I O configuration utility 1 O Config 1 1 1 4 using 1 O Config 1 1 I O image address Config M aint 9 17 I O image files Instruction 1 2 I O rack configuration table Config M aint 14 20 I O scan mode block transfer Instruction 15 2 I O status Config M aint 12 23 monitoring Config M aint 14 20 rack configuration tables Config M aint 12 32 I O status file addressing Config M aint 11 15 configuring Config M aint 11 14 IDI instruction Instruction 1 10 using Instruction 1 12 IDO instruction Instruction 1 11 using Instruction 1 12 IEC 1131 3 international programming language standard Program 8 1 IIN instruction Instruction 1 8 Immediate Data Input instruction Instruction 1 10 Immediate Data Output instruction Instruction 1 11 Immediate Input instruction Instruction 1 8 Immediate Output instruction IOT Instruction 1 9 imp
26. 1 O modules I O Config 8 1 1794 IE4X OE2 A OConfig 8 6 1794 IE4X OE2 B 1 0Config 8 6 1794 IE8 A 1 0 Config 8 10 1794 1E8 B I O Config 8 10 1794 IR8 A OConfig 8 13 1794 IT8 A 1 O Config 8 18 1794 OE4 A 1 0 Config 8 2 1794 0E4 B OConfig 8 2 adapter channel response Config M aint 11 9 adapter image file Config M aint 11 19 analog modules OConfig 2 1 channel 0 ASCII user mode Config M aint 13 20 communication mode change Config M aint 13 22 DF1 master Config M aint 13 15 DF1 point to point Config M aint 13 10 DF1 slave Config M aint 13 12 channel 2 Config M aint 13 39 channels 1A 2B as Data Highway Plus Config M aint 13 24 as remote I O adapter Config M aint 13 32 as remote I O scanner Config M aint 13 28 colors Config M aint 5 4 communication scan time C onfig M aint 11 11 directory paths Config M aint 5 7 display Config M aint 5 1 documentation export utility Program 6 12 fault routine Config M aint 11 12 I O automatic Config M aint 12 34 I O status file Config M aint 11 14 import documentation Program 6 5 ladder editor Program 14 5 link mode Config M aint 5 6 main control programs Config M aint 11 24 memory protect feature Config M aint 11 10 N Series modules I O Config 3 4 offline Config M aint 7 2 PII Config M aint 11 20 PLC 5 V ME status file Config M aint 11 18 printer Config M aint 5 7 20 21 processor Config M aint 11 1 processor channels C onfig M aint 13 1 processor mem
27. 13 39 ControlN et view times Config M aint 13 55 configuring documented modules channel configuration ControlNet PLC 5 processor 1 O Config 1 5 ladder editor 1 O Config 1 5 configuring N Series M odules I O configuration 1 0 Config 3 1 connecting to Ethernet PLC 5 processors using hostnames tip Instruction 16 7 constructing rungs Program 13 4 contact histogram generating Config M aint 19 1 printing Config M aint 19 5 using masks Config M aint 19 4 control bits See user control bits control file example Instruction 8 3 ControlN et interpreting status Config M aint 14 30 monitoring status Config M aint 14 30 ControlN et Channel 2 Status Screen Config M aint 14 30 ControlNet communication Config M aint 8 24 ControlNet I O action editing Config M aint 13 59 monitoring Config M aint 13 58 ControlNet I O Action Channel 2 Configuration Edit Screen Config M aint 13 58 ControlN et I O Action Channel 2 Configuration Monitor Screen Config M aint 13 58 ControlN et I O map entry error messages C onfig M aint B 1 status words Config M aint B 1 ControlN et I O mapping editing Config M aint 13 48 monitoring Config M aint 13 46 ControlN et I O M apping Channel 2 Configuration Edit Screen Config M aint 13 46 I 10 ControlN et I O M apping Channel 2 Configuration Monitor Screen Config M aint 13 46 ControlN et I O transfer entering information PLC 5 OConfig 1 16 instruction Instruction 15 25
28. 16 1 ladder editor auto document Program 14 7 branches adding Program 15 12 extending Program 15 14 multiple Program 15 13 nested Program 15 16 configuring Program 14 5 copy rungs Program 16 16 using disk files Program 16 19 using the buffer Program 16 17 1 20 cut rungs Program 16 16 using disk files Program 16 19 using the buffer Program 16 17 documenting program files Program 17 2 editing keys Program 17 14 entering comments Program 17 3 guidelines Program 17 13 entering instructions Program 15 4 rungs Program 15 2 symbols Program 17 16 forcing I O Config M aint 18 2 getting started Program 14 1 IRD marking Program 15 3 moving to rungs Program 14 8 navigational keys Program 14 4 online help Config M aint 3 7 paste rungs Program 16 16 paste errors Program 16 21 using disk files Program 16 19 using the buffer Program 16 17 viewing paste file Program 16 20 searching Program 16 3 configuring Program 16 14 standard search Program 16 6 selecting rungs Program 14 7 status messages Program 14 9 testing edits Program 16 22 using the database editor Program 17 18 ladder logic branch Program 13 6 entering Program 15 2 15 4 writing Program 13 4 ladder program comparing Program 4 1 report Config M aint 20 10 LBL instruction Instruction 13 5 13 8 LEQ instruction Instruction 3 9 LES instruction Instruction 3 10 Less Than instruction Instruction 3 10 Less Than or Equal To instruction
29. 1771 IL A Edit 1 0 Edit Ladder Editor Cursor to BT or gt at Choose one CIO instruction gt gt or Edit o gt dule Edit or Oo Channel Edit Mo or Monitor or sp BT Data 1771 ILIA Module Edit data format BCD real time sample rate 0 second s 0 disabled Press F9 Toggle to change selection Rem Prog mod 5 of 6 Addr 12 TEST Change 1 0 Channel Monitor BT Data Default Toggle Accept Mode Ovrview Edit Tables Config Fl F2 F3 F5 F6 F8 F9 F10 Field Valid Values Data Format Press F9 Toggle to select Binary Coded Decimal BCD Signed Magnitude Binary or Twos Complement Binary The default is Binary Coded Decimal Real Time Sample Rate Enter a real time sample rate between 0 5 and 3 1 seconds enter 0 for disabled The default is 0 2 8 Configuring Analog I O Modules Other than N Series Analog I O Modules Press F3 Channel Edit to configure individual channels or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Channel Edit Screen 1771 IL A to BT Edit 1 0 Edit Channel Edit choseo O gt ono P g gt yp gt or Edit Channel Edit oma gt or Module Edit Channel Edit Q or Monitor or mj 4 BT Data r3 1771 IL A Channel Edit RGM 110 Ch Units Min Max Enter a channel number gt Rem Prog mod 5 of 6 Addr 12 TEST C
30. 1771 IXE Series B 1 0 Config 2 33 auto calibrating 1771 IX HR Series A 1 0 Config 2 41 availability 1 O Config 1 1 calibrating an N Series module 1 0 Config 3 35 capturing screens 1 O Config xi 1 26 choosing a catalog number 1 0 Config 3 1 choosing a module type 1 0 Config 1 15 configuring 1400 PB OConfig 5 1 Master Index configuring 1400 PB or 1400 PD entering password 1 0 Config 5 2 configuring 1400 PD I OConfig 5 1 configuring 1402 LS51 I O Config 6 1 configuring 1771 CFM OConfig 4 11 configuring 1771 IFE OConfig 2 2 configuring 1771 IL 1 0 Config 2 8 configuring 1771 IR OConfig 2 19 configuring 1771 IXE OConfig 2 27 configuring 1771 IXHR 1 0Config 2 35 configuring 1771 OFE I OConfig 2 43 configuring 1771 SDN 1 0Config 2 48 configuring 1771 VHSC I OConfig 4 1 4 2 configuring 1791 analog I O blocks 1 0 Config 7 1 configuring 1794 flex I O modules 1 0 Config 8 1 configuring 1794 IE4X OE2 1 O Config 8 6 configuring 1794 IE8 1 0Config 8 10 configuring 1794 IR8 1 0 Config 8 13 configuring 1794 IT8 I O Config 8 18 configuring 1794 0E4 1 OConfig 8 2 configuring a module I O Config 1 5 1 17 accepting edits 1 0 Config 1 21 applying default values I O Config 1 21 displaying block transfer data 1 0 Config 1 25 editing a module 1 0 Config 1 19 monitoring a module 1 0 Config 1 23 review errors 1 0Config 1 21 configuring an N Series module 1 0 Config 3 4 configuring analog modules I O Conf
31. 2 Master Index One Shot Falling OSF instruction Instruction 13 22 One Shot instruction ONS Instruction 13 20 One Shot Rising OSR instruction Instruction 13 21 online communications C onfig M aint 6 1 creating reports Config M aint 20 3 programming Config M aint 3 8 online communication configuring C onfig M aint 4 31 ONS instruction Instruction 13 20 operands instructions Instruction C 2 OR instruction Instruction 5 6 OR Operation instruction OR Instruction 5 6 order of operation Instruction 4 9 organizing data Config M aint 9 4 data files Config M aint 9 1 program files Program 2 1 OSF instruction Instruction 13 22 OSR instruction Instruction 13 21 OTE instruction Instruction 1 5 OTL instruction Instruction 1 6 OTU instruction Instruction 1 7 OUTDATED VERSION CAN T CONNECT error message Config M aint 6 18 Output Energize instruction Instruction 1 5 Output Latch instruction Instruction 1 6 Output Unlatch instruction Instruction 1 7 P page breaks processing Config M aint 20 11 page header Program 17 5 text color Config M aint 5 5 page headers processing Config M aint 20 11 pairs step transition Program 9 4 1 23 Master Index passwords Config M aint 15 1 1400 PB I OConfig 5 2 1400 PD 1 OConfig 5 2 adding to file Config M aint 15 3 changing to a different class Config M aint 15 7 power monitor devices O Config 5 2 passwords and privileges Config M aint 15 1 pas
32. 2 AND Operation instruction AND Instruction 5 2 ANSI SYS Config M aint 1 3 Master Index applying default values I O configuration 1 OConfig 1 21 Arc Cosine instruction ACS Instruction 4 13 Arc Sine instruction ASN Instruction 4 15 Arc Tangent instruction ATN Instruction 4 16 archive files See also processor memory AF5 files Program A 1 ARD instruction Instruction 17 15 arithmetic flags See status information arithmetic ARL instruction Instruction 17 18 ASC instruction Instruction 17 21 ASCII ABL Instruction 17 5 ACB Instruction 17 7 ACI Instruction 17 9 ACN Instruction 17 10 AEX Instruction 17 11 AHL Instruction 17 12 AIC Instruction 17 14 ARD Instruction 17 15 ARL Instruction 17 18 ASC Instruction 17 21 ASR Instruction 17 22 AWA Instruction 17 23 AWT Instruction 17 26 configuring serial port Config M aint 13 20 documenting file Program 7 13 import export Program 6 2 status Config M aint 14 10 ASCII characters Program 17 18 ASCII instructions strings Instruction 17 4 ASCII Integer to String instruction Instruction 17 14 ASCII Read Characters instruction Instruction 17 15 ASCII Read Line instruction Instruction 17 18 ASCII Set Handshake L ines instruction Instruction 17 12 ASCII String Compare instruction Instruction 17 22 ASCII String Concatenate instruction Instruction 17 10 ASCII String Extract instruction Instruction 17 11 ASCII String Search instruction
33. 3 6 ERR Program 15 3 ERROR RNASTR v3 1 is already running error message Config M aint 4 10 error message 2WARNING UNABLE TO APPLY PORT CONFIGURATION TO CHANNEL xx Program 3 9 Too Many Files Program 1 3 Config M aint 7 3 CAN T CONNECT TOA SLC WITH CURRENT CONFIGURATION Config M aint 8 8 EEPROM SUCCESSFULLY BURNED Program 3 11 ERROR RNASTR v3 1 is already running Config M aint 4 10 INVALID OPERAND Instruction 4 4 NO ACCESS OR PRIVILEGE VIOLATION Config M aint 15 22 NO BACKUP DIRECTORIES ARE CONFIGURED Program 5 5 l 14 NO MORE DATA Config M aint 12 34 NO PRIVILEGE TO READ FILE N7 Config M aint 15 22 OUTDATED VERSION CAN T CONNECT Config M aint 6 18 PROCESSOR FILES ALREADY EXIST NO DOCUMENTATION FILES EXIST ON SOURCE DRIVE DOCUMENTATION FILES WILL BE DELETED ON TARGET DRIVE Proceed Program 5 10 SYMBOL MUST NOT EXCEED 10 CHARACTERS Program 5 4 UNABLE TO ATTACH TO THIS STATION Config M aint 8 8 WARNING no KT KL KT2 devices available Config M aint 4 10 WARNING no ports available on driver 1 Config M aint 4 10 error messages ControlN et I O map entry status Config M aint B 1 errors review OConfig 1 21 Ethernet communications Config M aint 8 1 interpreting status Config M aint 14 27 monitoring status Config M aint 14 27 Ethernet communications Config M aint 8 18 Ethernet PLC 5 processors Instruction vii Program viii 1 OConfig viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A
34. 4 postscan configuration Program 12 10 1 30 programming offline Program 9 3 10 2 quadrants Program 8 18 reports Config M aint 20 8 scan configuration Program 12 10 scan sequences considerations Program 8 21 scanning sequence example Instruction B 13 selection branch Instruction B 9 simultaneous branch Instruction B 10 scanning sequences step transition Instruction B 8 searching Program 12 3 selection branch Program 8 5 8 6 simultaneous branch Program 8 6 8 7 special structures Program 8 21 specifying a qualifier Program 10 8 status information Instruction B 2 Program 12 10 step Program 8 2 step actions Program 8 3 subcharts Program 11 15 transition Program 8 4 zooming Program 12 7 SFR instruction Instruction 13 23 Program 11 18 SHARE EXE Config M aint 1 3 4 4 shift register instruction applying Instruction 11 1 BSL and BSR Instruction 11 2 FFL and FFU Instruction 11 5 LFL and LFU Instruction 11 5 short cuts Config M aint 3 3 simultaneous branch Program 8 6 entering Program 11 6 11 8 post scan mode Program 8 7 scanning sequence Instruction B 10 SIN instruction Instruction 4 27 Sine instruction SIN Instruction 4 27 SLC 5 04 support DH WHO Config M aint 8 7 Smart Directed Sequencer SDS Instruction overview Instruction 18 2 programming Instruction 18 2 Smart Directed Sequencer Instruction Instruction 18 1 Smart M enu modifying Config M aint 1 15 specifying 6200 programmin
35. 7999 in BCD mod 8 of BT Data Tables F6 17 Default Offline ARDA Module Accept Edit F4 1 0 Switch Monitor Ovrview Channel F2 F3 F5 F10 3 27 Configuring N Series Analog I O Modules Field Valid Values Output Channel Type Displays the input output module channel configuration Output Data I Enter the value in scaled units to be sent to the module If you programmed a rate limit the output may take some time after you press F10 Accept to reach the value shown here During this time if alarms are enabled youseer ate limit in the alarms field Signal 1 Enter the desired output current 0 to 26 mA If you program a rate limit the module limits the rate of change of the output Therefore it might take time after accepting your edits before the actual signal value shown here is reached During this time if alarms are enabled youseer ate limit inthe alarms field The signal shows 1 or 3 decimal places depending on data format BCD or binary That precision is appropriate when the greatest possible scaling ranges are selected However when you select a narrower scaling range including default scaling not all the decimal places may be significant Low High Scale Scaling lets you convert the input signal to units that fit your application Enter values for low and high scaling separated by a that correspond to the predefined signal values of 4 mA and 20 mA The values you enter can be from 32768t
36. ControlNet Local Rack Characteristics Screen Config M aint 13 40 ControlN et M ap Entries Status Screen Config M aint 13 56 ControlN et node information editing Config M aint 13 43 monitoring Config M aint 13 39 ControlN et Node Information Channel 2 Configuration Edit Screen Config M aint 13 39 ControlN et Node Information Channel 2 Configuration M onitor Screen Config M aint 13 39 ControlNet PLC 5 processors Instruction vii Program viii 1 OConfig viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 ControlN et View Times Screen Config M aint 13 55 ControlNet WHO using Config M aint 8 25 ControlNet WHO ACTIVE active node identification screen Config M aint 8 26 active node status screen Config M aint 8 28 channel status screen Config M aint 8 29 network status screen Config M aint 8 31 ControlNet WHO Network Menu Config M aint 2 5 convergent scan time Instruction B 16 conversion BCD Instruction 6 3 FRD Instruction 6 4 PLC 5 files to PLC 5 250 files Program A 1 Convert from BCD instruction FRD Instruction 6 4 convert PLC 5 files to PLC 5 250 files Program A 1 Convert to BCD instruction TOD Instruction 6 3 converting machine statements ladder logic Program 13 2 COP instruction Instruction 9 20 copy documentation files from backup to save directory Program 5 5 copy PMF from backup to save directory Program 5 5 copy rungs Program 16 16 using disk files Program 16 19 using the buffer
37. Enhanced PLC 5 Processors Software Configuration o and Maintenance Installing 6200 programming software Defining data table files Configuring processor Processor channel status Clearing faults 1785 PLC 5 Programmable Controllers Quick Reference Quick access to switches status bits indicators considerations 1785 PLC 5 Hardware Installation How to install and set switches for chassis PLC 5 processor how to wire and ground your system Enhanced PLC 5 Processors Enhanced and Ethernet PLC 5 Programmable Controllers User Manual Placing system hardware Addressing 1 0 and processor memory Communicating with devices on a DH serial and Ethernet link o Enhanced PLC 5 Ethernet PLC 5 Printing reports instructions software screens o 1 0 Configuration Structured Text Uti iy o User Manual Configuring intelligent I O modules Program considerations Program examples Mnemonic explanations Using PowerTextt Instruction parameters and syntax o Programming Optional for use with 9313 ST5 Creating managing files Saving restoring files Importing exporting Creating editing SFCs Creating editing documenting ladder logic programs Instruction Set Reference Instruction execution For more information o Programmable o Programmable Controllers Installation Instructions Handling the Enhanced PLC 5 processor Connecting a remote extended DH link o ocal and Co
38. Functions Calibrate In order to access the calibration function you must specify the maximum lengths for the BTW 27 and BTR 5 fields on the Block Transfer Control screen Note 7 6 1791 N4C2 A Calibration Select Channels RGM 100 Calibrate Calibrate Press F9 Toggle to select or deselect channel for calibration Rem RUN mod 2 of 2 Addr 2 ASMTEST2 Change 1 0 End Toggle Accept Mode Ovrview Cali br Fl F2 F4 F8 F9 F10 Depending on the types of channels you want to calibrate input output or a combination of input and output the 1 O configuration utility prompts you for the appropriate reference signals Figure 7 1 shows the procedure for calibrating a combination of input and output channels Make sure that you apply the correct reference signals and that you measure and record the output signals correctly Configuring 1791 Analog I O Blocks Figure 7 1 Using the Calibration Screens Oi FENG Connect appropriate E Use the arrow keys to Edit or Edit reference signal to enter data You can drive each input channel calibrated outputs or alter inputs to specified levels Other Functions Vv to verify that calibration 4 is correct re Measure and enter 5 each low output v value read Accept Restart Vv Calibration Calibrate Vv er Accept Vv I 5 Yes No Vv Edit Va r Connect high reference signal to each input channel V Measure and enter Vv each high output value read arrow
39. I OUT Scale Enter the scale of current output 0 999 999 The default is 200 I OUT Type Press F9 Toggle to move among the various I OUT types Types are voltage phase L1 KVA phase L1 KVA total voltage phase L22 KVA phase L2 KVAR total voltage phase L33 KVA phase L3 power factor current phase L1 KVAR phase L1 KW demand current phase L2 KVAR phase L2 AMP demand current phase L3 KVAR phase L3 frequency KW phase L1 voltage average Vaux KW phase L2 current average I 4 neutral current KW phase L3 KW total I out external The default is voltage phase L1 Mode Press F9 Toggle to move among Setpoint KWH Pulse KVARH Pulse and KVAH pulse The default is Setpoint Value Available for setpoint or pulse modes In setpoint mode enter a relay value of 0 latch to 65 535 in seconds In any pulse mode enter the pulse duration 0 disabled to 65 535 hours pulse 1 Voltage from L1 L2 if voltage input mode is delta 2 Voltage from L3 L1 if voltage input mode is delta 3 Voltage from L2 L3 if voltage input mode is delta 5 5 Configuring 1400 PB and 1400 PD Power Monitor Devices Setpoint Setup Use PageUp or PageDown to move through the setup screens 1400 PD A limits delay Setpoint Setup setpoint 1 relay none setpoint type over voltage low 0 Vv high release operate Which setpoint do you want to set up gt Rem Prog Change 1 0 Mode Ovrview Fl F2 Field Setpoint Relay Setpoint Type Limi
40. Module 1771 IFE A 1771 IFE B and 1771 IFE C 1771 IL A 1771 IL B 1771 IR A and 1771 IR B 1771 IXE A and 1771 IXE B 1771 IXHR A 1771 OFE A and 1771 0FE B 1771 SDN A See Page 2 2 2 8 2 13 2 19 2 27 2 35 2 43 2 48 2 1 Configuring Analog I O Modules Other than N Series Analog I O Modules Configuring 1771 IFE Series A Series B and Series C To configure a1771 IFE series A series B or series C module follow the steps below Module Edit Screen 1771 IFE Ladder Editor Cursor to BT or Edit 1 0 Edit Choose one Main Menu ae CIO instruction m or Edit 1 0 Module A gt f or Channel Edit Module Edit or Monitor or BT Data If you are using CIO 771 FEJA ee ee instructions the rack group module address in the upper right corner is replaced TRUE EYPES JSUNGLE ented with a node slot address data format BCD for example 001 00 digital filter 0 00 seconds real time sample rate 0 0 second s 0 disabled Press F9 Toggle to change selection Rem Prog mod 1 of 4 Addr 12 TEST Change 1 0 Channel Monitor BT Data Default Toggle Accept Mode Ovrview Edit Tables Config Fl F2 F3 F5 F6 F8 F9 F10 Field Valid Values Input Type Press F9 Toggle to select Single ended or Differential The default is Single ended Data Format Press F9 Toggle to select Binary Coded Decimal BCD Twos Complement Binary or Signed Magnitude Binary The default is BCD
41. O Config 3 35 CAN T CONNECT TOA SLC WITH CURRENT CONFIGURATION error message C onfig M aint 8 8 capturing 6200 programming software screens Windows ASCII text Config M aint 4 26 bit map graphics Config M aint 4 22 tip Config M aint 4 21 1 6 CAR utility Instruction 18 1 restoring files Program 3 10 changing width of existing databases tip Config M aint 5 10 channel privileges Config M aint 15 11 channel 0 configuration Config M aint 13 8 DF1 master status Config M aint 14 7 DF1 point to point status C onfig M aint 14 6 DF1 slave status Config M aint 14 7 interpreting status Config M aint 14 5 user mode ASCII Config M aint 14 10 channel 1A 2B monitoring Data Highway Plus Config M aint 14 12 remote I O adapter C onfig M aint 14 22 remote I O scanner Config M aint 14 18 channel 2 configuring Config M aint 13 39 monitoring ControlNet Config M aint 14 30 Ethernet Config M aint 14 27 extended local I O Config M aint 14 33 channel 3A monitoring PLC 5 Ethernet Interface Module Config M aint 14 36 channel configuration 1A Config M aint 13 24 1B Config M aint 13 24 2A Config M aint 13 24 2B Config M aint 13 24 adapter remote I O Config M aint 13 32 channel 0 Config M aint 13 8 Data Highway Plus Config M aint 13 24 extended local I O Config M aint 13 61 monitoring Config M aint 14 1 saving edits Config M aint 13 7 scanner remote I O Config M aint 13 28 unused mode Config M aint 13 35 chann
42. Program 16 17 copying files Program 5 8 5 9 COS instruction Instruction 4 21 Cosine instruction COS Instruction 4 21 Count Down instruction Instruction 2 20 Count Up instruction Instruction 2 18 counter CTD Instruction 2 20 CTU Instruction 2 18 RES Instruction 2 25 counters instructions Instruction 2 16 CPT instruction Instruction 4 5 creating offline files Config M aint 7 4 program files Program 2 5 reports Config M aint 20 3 SFCs Program 9 1 10 1 undefined program files Program 10 26 cross reference displaying Program 13 9 Config M aint 16 6 regenerate Program 13 10 report Config M aint 20 9 20 11 CTD instruction Instruction 2 20 CTU instruction Instruction 2 18 custom application routine See CAR utility cut rungs Program 16 16 using disk files Program 16 19 using the buffer Program 16 17 Master Index D data monitor message Config M aint 16 11 16 14 data block Config M aint 9 3 organizing Config M aint 9 4 user defined C onfig M aint 9 3 data file addressing Config M aint 9 1 creating Config M aint 10 2 default Config M aint 9 6 deleting Config M aint 10 5 extending Config M aint 10 4 manipulating Instruction 8 4 memory used Config M aint 9 6 organizing Config M aint 9 1 9 4 privileges Config M aint 15 18 report Config M aint 20 12 size Config M aint 9 6 types of Config M aint 9 6 unused Config M aint 9 4 data files range of values Instruction C 1 Config
43. SFC Program 8 1 8 10 DTR instruction Instruction 10 8 E edit mode SFCs Program 8 17 editing SFC Program 12 2 editing a module I O configuration 1 0 Config 1 19 editing advanced address comments Program 17 7 aligning text Program 17 7 copying Program 17 7 cutting Program 17 7 instruction comments Program 17 7 pasting Program 17 7 rung comments Program 17 7 searching Program 17 7 structured text Program 17 7 edits testing Program 16 22 EEPROM writing to Program 3 11 EEPROM SUCCESSFULLY BURNED error message Program 3 11 effects of online ladder editing Program 16 1 element manipulation LIM Instruction 3 11 MEQ Instruction 3 13 MOV Instruction 7 4 MVM Instruction 7 5 enabling I O forces Config M aint 18 7 End of Transmission instruction EOT Instruction 13 24 engineering units scaling Instruction 14 7 I 13 Master Index Enhanced PLC 5 processors Instruction vii Program viii OConfig viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 entering step actions transitions Program 10 4 step transition pairs Program 9 4 entering block transfer information 1 0 configuration PLC 5 1 0 Config 1 16 entering ControlN et I O transfer information 1 0 configuration PLC 5 1 0Config 1 16 environment using 6200 programming software in Windows Config M aint 4 1 EOT instruction Instruction 13 24 using Program 9 4 10 4 EQU instruction Instruction 3 6 Equal To instruction Instruction
44. Setup for other configuration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Output Setup Screen 1771 CFM Ladder Editor General Utility 10 Ovrview Edit Output Setup Choose one mf i a gt or dder Edi Cursor to BT or Edit VO Edit Oo BP Clo instruction gt sp Output Setup or O CounterSetup or Monitor e or BT Data fra 1771 CFM A Output Setup output current tied to forced or number status channel triggered by ON when gt OFF when gt off 0 rate frequency 1 000 25 000 off 2 total 0 3 500 000 on 0 rate frequency 0 12 000 off acceleration 100 0 Enter numeric trigger value or press F9 to change direction trigger gt Rem RUN mod 1 of 1 Addr 42 CFM4B Change 1 0 Channel Monitor BT Data Default Accept Mode Ovrview Setup Tables Config Fl F2 F3 F5 F6 F8 F10 4 15 Configuring the 1771 VHSC and 1771 CFM Field Valid Values Output Displays the output numbers 0 3 Number Current Status Displays each output s current status on or of f These values reflect the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Tied to Press F9 Toggle to display which input channel the output channel Channel is tied to The default is None Forced or Press F9 Toggle to sel
45. Toggle to move between ABC and ACB The default is ABC Displays the current scale Enter a value between 0 and 30 000 to change the scale The default is 5 000 Displays the I 4 neutral current scale Enter a value between 0 and 9 999 to change the scale The default is 5 000 Press F9 Toggle to move among 300 1200 2400 4800 9600 and 19200 Default is 9600 Press F9 Toggle to move among Delta Single Phase Demo 3 Wire Wye and 4 Wire Wye Default is 4 Wire Wye 5 3 Configuring 1400 PB and 1400 PD Power Monitor Devices Device Setup 2 of 3 If you are using CIO instructions the rack group module address in the upper right corner is replaced with a node slot address for example 001 00 1400 PD A RE 232 RS 485 unit ID number new unit password module Setup 2 of 3 standard frequency snapshot interval demand period length log status input changes number of demand periods 1 no 2 no 3 yes 4 no Please enter new unit ID 0 to 9999 Rem Prog Change 1 0 Mode Ovrview Fl F2 Field RS 232 RS 485 Unit D Number New Unit Password Demand Period Length Number of Demand Periods Standard Frequency Snapshot Interval Log Status Input Changes mod 1 of 1 Monitor BT Data Default BTR Tables Config F5 F6 F8 F10 Offline STARTI Accept Valid Values Displays the unit ID number Enter value between 0 and 9999 to change the ID The default is set in the dev
46. V If low scale is higher than high scale the low clamp must be higher than the high clamp Displays the status of calibration and programming for this channel The processor must be in Run mode if you want to receive current status from the module Displays the status bits for alarms Ifall alarms are reset NONE appears The processor must be in Run mode if you want to receive current status from the module Use PageUp or PageDown to configure other channels Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring N Series Analog I O Modules Channel Edit Screen Ladder Edito Choose one a mj or or 25 mA output Cursor to BT or Edit 1 0 Edit Channel Edit CIO instruction gt faj gt gt fe VO Module Edit Channel Edit o m gt gt Module Edit Channel Edit BT Data a N Series A Channel 1 Edit output channel type 0 25 mA output data 6450 signal 6 450 mA low high scale 20000 4 mA 20 mA 4000 reset state last state alarms are enabled maximum ramp rate per second of full scale eng units 26000 25 of FS 4 00 mA low high cl amp 0 channel status cal amp prog OK alarms none Please enter value in scaled units gt Rem Prog Change Mode Fl out put 32767 in binary
47. a number to determine how many frequency intervals 1 to 750 should be spanned in computing acceleration If you enter 0 acceleration is calculated as a rolling average over five frequency sampling intervals Enter a value up to 120 000 Hz for the overspeed threshold Entering 0 selects the default 120 000 Hz The highest allowed frequency is in Hz not in scaled frequency units For example if you select 120 000 Hz as the highest allowed frequency and select frequency scalers of 1 60 the module sets the overspeed bit in the BTR or CIO Read for any scaled frequency above 2000 120 000 Hz Press F9 Toggle to select 1 Hz full frequency range 1 Hz to 100 KHz or 1 sample time This field corresponds to the bandwidth limit bit in the BTW data file as described in the 1771 Configurable Flowmeter Module User Manual In high resolution frequency mode press F9 Toggle to select time only or time counts This field corresponds to the sampling termination bit in the BTW data file as described in the 1771 Configurable Flowmeter Module User Manual In high resolution frequency mode when you have selected time counts to end sampling enter a number of counts up to 32 767 In other modes or when sampling ends on time only the software sets this field to 0 Continued 4 13 Configuring the 1771 VHSC and 1771 CFM 4 14 Field Frequency Resolution Frequency Scalers Multiply Divide Scalers for Total Mult
48. among 10 Hz 25 Hz 50 Hz 60 Hz 100 Hz 250 Hz 500 Hz and 1000 Hz The default is 10 Hz Press F9 Toggle to selectamong DEGREES CENTIGRADE DEGREES FAHRENHEIT BIPOLAR between 32768and 32768 and UNIPOLAR between 0 and 65535 Displays the index number of a valid channel Press F9 Toggle to indicate if the channel is calibrated Press F9 Toggle to select among resistance no sensor 100 ohm pt 0 00385 100 ohm pt 0 003916 200 ohm pt 500 ohm pt 10 ohm copper 120 ohm nickel 100 ohm nickel 250 ohm nickel 500 ohm nickel and Module Data Time Stamp The defaultis resistance Configuring 1794 Flex I O Modules Monitoring 1794 IR8 Series A Use the monitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1794 IR8 Data Monitor 1 0 Monitor Ladder Editor Cursor to BT 7 a Hese O iin gt gt fe or 1 0 Module Monitor o gt fj p or Monitor Q Channel Edit D gt a 1794 I R8 A Monitor First Notch Frequency 10 Hz Calibration Clock STOP Calibration OFFSET Ch Value RTD Type Ch Value RTD Type 0 0 C resistance 4 0 resistance 0 C resistance resistance 0 C resistance resistance 0 C resistance resistance UNCONFI GURED INVALID CALI BRATI ON Ok CALI BRATION COMPLETE INVALID RTD REFERENCE SIGNAL OUT OF RANGE Press a function key gt Rem Prog File FLEX_A Change 1 0 Channe Mode Ovrview Edit Fl F2 F3 8 15 Configuring 1794 Flex I O Modules Note
49. converting PLC 5 to PLC 5 250 Program A 1 copy operations Instruction 9 5 copying same directory Program 5 8 to from floppy Program 5 9 data storage Config M aint 9 3 deleting Program 5 12 Config M aint 10 5 disk Program 1 2 documenting Program 17 2 editing keys Program 17 14 guidelines Program 17 13 entering symbols Program 17 16 extending Config M aint 10 4 extensions Program 1 3 frequently used Config M aint 9 8 functions Instruction 9 14 instruction COP Instruction 9 20 FLL Instruction 9 21 logical operations Instruction 9 13 merging documentation Program 5 13 merging processor memory Program 3 12 offline selecting Config M aint 7 5 operation modes Instruction 8 7 passwords Config M aint 15 3 privileges Config M aint 15 17 processor Program 1 7 Config M aint 7 4 program Program 2 1 renaming Program 5 7 reports Config M aint 20 18 restoring Program 3 7 saving Program 3 1 types of Program 1 1 l 16 understanding Program 1 1 user configuration Config M aint 2 8 utilities Program 5 1 filesharing SHARE EXE Config M aint 1 3 4 4 using the software off line Config M aint 7 3 finding address switch settings for 1784 KT ABHELP tip Config M aint 6 10 FLL instruction Instruction 9 21 floating point valid value range Instruction C 1 Config M aint 9 10 For FOR instruction Instruction 13 8 FOR instruction Instruction 13 8 forcing SFC transitions Program 12 8 Config M aint 18 8 for
50. detects that the toggle bit is set correctly Ok is displayed to the right of the R ead BT field if the module detects that the toggle bit is set incorrectly unconfi gur ed is displayed to the right of the Read BT field 1 Channel Displays the index number of a valid channel Address Displays the logical address of the value in the Data field Range Displays the range of the channel Data Displays online data from the module Signal Displays data scaled to a selected range Failsafe Data Displays value of output when the processor is placed in Program mode communications are lost or the user disables the output Status Displays the status of the output act i ve ori nacti ve 1 Displayed by 1794 OE4 series B modules only Configuring 1794 Flex I O Modules Configuring 1794 IE4XOE2 Series A and Series B To configure a 1794 IE 4X OE2 series A or Series B Flex I O module follow the steps below Channel Edit Screen 1794 IE4XOE2 Ladder Editor Cursor to BT Edit 1 0 Edit PS nS Q gt instruction gt gt or Edit o gt f or Channel Edit o gt 1794 I E4X0E2 B Channel Edit Inputs Ch Address Range Data Signal 1 N7 2 4 20 mA 0 000 mA 2 N7 3 20 mA 000 mA 3 N7 4 20 mA 4 000 mA 4 N7 5 20 mA 000 mA Failsafe Outputs Ch Address Range Si gnal Data Status 1 N7 2 20 mA 000 mA 0 active 2 N7 3 20 mA 000 mA 0 active Enter channel number gt Rem Prog mod 1 of 1 Offline HCO 310 Change 1
51. example if minis 9999 max is 9999 and data is 0 the software displays 50 Displays the minimum scaling range Displays the maximum scaling range Displays data from the digital to analog converter as received in the BTR or ClO Read data file 2 47 Configuring Analog I O Modules Other than N Series Analog I O Modules Configuring 1771 SDN Series A To configure a 1771 SDN series A module follow the steps below Note The 1771 SDN series A module cannot use CIO instructions on ControlNet 1 0 Channel Edit Screen 1771 SDN Ladder Editor Cursor to Edit 1 0 Edit iio gt BT instruction gt gt or gt 1 0 Module Edit gt or Channel Edit o gt 1771 SDN A Channel Edit RGM 000 1 MAC ID 0 Port Number 0 2 MAC ID 0 Port Number 0 Command Ignore Block Command Ignore Block Service No Service Request Service No Service Request ock Size 0 Transaction ID 0 Block Size 0 Transaction ID 0 ass 0 Instance 0 Class 0 Instance 0 tribute 0 tribute 0 1 38 1 43 1 48 Enter the MAC ID Rem Prog mod 1 of 1 File SCANNER Change 1 0 Monitor BT Data Display Accept Mode Ovrview Tables Symbols Fl F2 F5 F6 F F10 Field Valid Values MAC ID Displays the MAC ID number Enter a value between 0 and 63 Port Number Displays the Port Number Enter 0 or 1 Command Displays the command type Valid values are Ignore Block Execute Block and Report Status Continued 2 48 Configuring Ana
52. for both sensors f the auto calibrated values cannot be read from the EEPROM FAILED otherwise NORMAL Displays whether the dynamic clamp is inhibited yes or not no ndex number of a channel Displays the logical address of the value in the Data field Press F7 to display symbols if you ve defined them in place of addresses Displays online data from the module The data is read from the module s BTR or ClO Read data file and may be out of date if the processor is not in Run mode Displays an engineering unit string to describe the type of channel data Degrees C Degrees F or millivolts Displays the status of the alarm NORMAL LOW ALARM or HIGH ALARM Displays the channel status NORMAL OVERRANGE or UNDERRANGE 1 This field only applies to a 1771 IXHR series A module revision B or later Configuring Analog I O Modules Other than N Series Analog I O Modules Auto Calibrating 1771 IXHR Series A You must be connected to a processor to calibrate a module To calibrate a 1771 IXHR Series A module follow the steps on the left Auto Calibration Screen 1771 IXHR Series A Note In order to access the auto calibration function you must Specify the maximum lengths for the BTW or CIO Write 15 and BTR or ClO Read 9 fields in your ladder program The offset and gain values on the Channel Edit screen must be 0 See page 2 37 1771 I XHR A Auto Calibration status of request Request offset c
53. if they occur The processor must be in Run mode if you want to receive current data from the module If alarms are enabled Enter a value in scaled units per second The rate alarm cannot be less than 0 04 or more than 50 of full scale Enter 0 to disable If alarms are enabled Enter values in scaled units for low and high alarms separated by a You cannot set alarms outside the operating range of the channel When you enter alarms the screen displays us er and the alarm values If you enter 0 0 to select default low and high alarms the screen displays df I t followed by the default alarm values In millivolt mode the default alarms are equal to the current low and high scale values In degree modes the default alarms are the scaled equivalents of the operating limits for the selected thermocouple type If low scale is higher than high scale low alarm must be higher than high alarm If alarms are enabled Enter a value It must be less than half of the difference between the low and high alarms and cannot exceed 255 99 for BCD The default is 0 Displays the status of calibration and programming for this channel The processor must be in Run mode if you want to receive current data from the module Displays the status bits for alarms If all alarms are reset NONE appears The processor must be in Run mode if you want to receive current data from the module Use PageUp or PageDown to configure other channe
54. information about completing configuration tasks see NO TAG To study the keys you can use to move around on any screen in the I O configuration utility see Table 1 B Table L A Where to Find Information To 1 Document module configuration information You can add or copy information about the I O modules in your system 2 Display a list of the modules in your database You can list the documented modules in your system on the 1 0 System Overview screen 3 Configure a module You can edit monitor or calibrate I O modules in your system If you want to return to the default configuration values for a module or a channel e check the status or input data of an I O module in your system e display block transfer data 4 Delete module records 5 Capture I O configuration screens and save them to a file See 1 3 to 1 16 1 12 1 17 1 17 to 1 25 e 1 21 e 1 23 1 25 1 26 1 26 Using the I O Configuration Utility Table 1 B Navigational Keys in the I O Configuration Utility To move horizontally To move vertically If You Want to Move to the first field on the screen Move to the last field on the screen Move to the preceding field on the line Move to the next field on the line Move to the leftmost field on the line Move to the rightmost field on the line Move straight up to find a field Move straight down to find a field Move to the top of the current page Move to the bottom of th
55. keys and a Accept Accept 2 ed L Yes No go to or vt 2 Restart View Status EndCal Calibration Use or or r at any time during calibration 7 7 Configuring 1794 Flex I O Modules 8 Configuring 1794 Flex I O Modules Chapter Objectives This chapter explains how to configure 1794 Flex I O modules You should have already read chapter 1 because it explains the basic functions and screens you ll use For Information about Configuring See Page this Module 1794 OE4 A and 1794 0E4 B 8 2 1794 IE4XOE2 A and 1794 1E4X0E2 B 8 6 1794 IE8 A and 1794 1E8 B 8 10 1794 IR 8 A 8 13 1794 IT8 A 8 18 8 1 Configuring 1794 Flex I O Modules Configuring 1794 OE4 Series A and Series B To configure a 1794 OE4 series A or series B Flex I O module follow the steps below Channel Edit Screen 1794 0E4 Ladder Editor Cursor to BT Edit 1 0 Edit ee gt instruction gt ep or Edit gt or Channel Edit 6 gt 1794 0E4 8B Channel Edit Failsafe Address Signal Data Status N7 2 0 4 000 mA 0 active N7 3 4 000 mA 0 active N7 4 4 000 mA active N7 5 4 000 mA inactive Enter a channel number gt Rem Prog mod 1 of 1 Offline HCO_310 Change 1 0 Monitor BT Data Display Accept Mode Ovrview Tables Symbols Fl F2 F5 F6 F7 F10 Field Channel Address Range Data Signal Failsafe Data Status Configuring 1794 Flex I O Modules Valid Values Displays the index number of a valid ch
56. local I O creating a scan list Config M aint 13 64 modifying a scan list Config M aint 13 30 13 64 scanner remote I O configuring channels 1A 2B Config M aint 13 28 creating a scan list Config M aint 13 30 13 64 Screens capturing 1 0Config xi 1 26 Config M aint 3 7 printing 1 0Config 1 26 Config M aint 3 7 SDS instruction Instruction 18 1 searching configuring Program 16 14 database editor replacing Program 17 26 ladder editor Program 16 3 macros Program 11 14 SFC Program 12 3 standard Program 16 6 Selectable Timed Interrupt See STI selecting offline files Config M aint 7 5 rungs Program 14 7 selection branch Program 8 5 8 6 entering Program 11 5 11 7 scanning sequence Instruction B 9 sequencer applying Instruction 12 1 instructions Instruction 12 1 SQI Instruction 12 2 SQL Instruction 12 2 SQO Instruction 12 2 Sequencer Input instruction Instruction 12 2 Sequencer Load instruction Instruction 12 2 Sequencer Output instruction Instruction 12 2 sequential function chart See also SFC building Program 10 24 Sequential Function Chart R eset instruction Instruction 13 23 Program 11 18 serial port communications Config M aint 6 20 6 24 configuration Config M aint 13 8 configuring Config M aint 6 20 ASCII user mode Config M aint 13 20 communication mode change Config M aint 13 22 DF1 master Config M aint 13 15 DF1 point to point Config M aint 13 10 DF1 slave Config M aint 13 12 D
57. logical address of the value in the Data field display only Press F7 to display symbols if you ve defined them in place of addresses Data Displays data from the module The data is read from the module s BTR or ClO Read data file The data in this field cannot be edited on this screen display only Ifthe processor is notin Run mode the data reflects input values the last time a BTR or ClO Read was performed Units Select a single channel in ohms Toggles between the units specified on the Module Edit screen Degrees C Degrees F and ohms Ifthe Units of Measure on the Module Edit screen is ohms the software sets the Units to ohms Bias Enter a value for the range according to the table below Units Range Sensor Type 0 to 999 9 copper degrees C or degrees F 0 to 99 99 copper ohms 0 to 999 9 not copper degrees C or degrees F 0 to 299 97 not copper ohms The default is 0 Offset Enter the offset value for manual calibration Series A 127to 127 the default is 0 Series B 1 295to 1 295 Valid values are in steps of about 0 010 the software calculates the nearest valid value to the number you enter The default is 0 If you plan to perform auto calibration all manual calibration offset and gain fields must be 0 Gain Value for Series A Enter the gain value for manual calibration between 1 5503and Manual 1 5503 Valid values are in steps of about 0 0122 the software calculates the Calibration nearest vali
58. monitor screen or path Q if you wanted to get to this screen from a channel edit screen e Words in square brackets represent actual keys that you press Enter or Fl Online Programmi ng Documentation e Words that describe information that you have to provide are shown in italics For example if you have to type a file name this is shown as f i ename e Messages and prompts that the terminal displays are shown as Press a function key Preface Using the Index At the back of each software manual there is a master index for the complete software documentation set The page reference for the item you are looking for appears in this format data file addressing Config Maint 9 1 creating Config M aint 10 2 where the name of the manual that the entry can be found in is in italics followed by the page reference For example the entry for data file addressing Config M aint is in the Software Configuration and M aintenance manual You would go to the Software Configuration and M aintenance manual and then find the page number vii Master Index Symbols ACH to AF5 convert Program A 1 AF5to ACH convert Program A 1 AF5to X5 convert Program B 1 X5 file format Program B 1 X5 to AF5 convert Program B 1 Config M aint 7 6 WARNING UNABLE TO APPLY PORT CONFIGURATION TO CHANNEL xx error message Program 3 9 amp B Instruction 3 3 4 6 amp H Instruction 3 3 4 6 amp 0 Instruction 3 3 4 6
59. monitored value exceeds the ON count e The output state transitions from an ON state to an OFF state when the monitored value exceeds OFF e The ON and OFF values must not be equal to each other These fields are only available in certain trigger modes see the Forced or Triggered by field above for constraints ON when gt OFF when gt Press F3 Channel Setup to configure individual channels or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 4 17 Configuring the 1771 VHSC and 1771 CFM Monitoring 1771 CFM Series A Use the Monitor screen to check and verify the configuration data The values on a this screen reflect the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Follow the steps below Monitor Screen 1771 CFM Ladder Editor Eas Cursor to BT or CIO instruction or Monitor fe o Ek gt gt Output Setup gt Choose one gt g Edit rc Counter Setup Monitor or Output Setup me or BT Data frs 1771 CFM A Moni tor ch frequency tota full scale 0 43 0 07 23 1 2 15 498 12 91 4231 4 349 126 3 258 12 92 4233 2 047 108 AC acceleration SP overspeed Press a function key Several conditions can cause a no S
60. of pulses The outputs are updated constantly The default is Counter Only available in Counter and Encoder modes Enter a value between 0 and 999 999 so that the count rolls over This value must be greater than the value in the Preset Count field The default is 999 999 Only available in Counter and Encoder modes Enter a value 0 to 999 999 to initialize the counter on demand This value must be less than the Rollover Count The defaultis 0 You can assign a preset value here but you cannot actually enable or disable the preset through the I O configuration utility The only way to load a preset value into a counter is for your PLC program to set the appropriate bit in the BTW or CIO Write data file BTW or CIO Write word 1 bits 8 11 Continued 4 3 Configuring the 1771 VHSC and 1771 CFM Field Store Count Mode Gate R eset Scaler Time Base Valid Values Only available in Counter and Encoder modes F9 Toggle switches through e None No store count mode selected e Store Continue on the rising edge of the gate signal saves the current count into the stored count field and continues counting e Store Wait Resume on the rising edge of the gate signal saves the current count into the stored count field stops counting until the Gate R eset changes states then resumes counting e Store Reset Wait Start on the rising edge of the gate signal saves the current count into the stored count field resets the coun
61. or CIO Read Anda Number of Number of with these Lengths Default with these Lengths Default Output Input in words 3 Length in words 3 Length Channels Channels of of 28 3 5 1 2 3 4 6 12 18 24 31 38 45 52 or 59 4 4 1 2 3 4 5 7 13 19 25 31 38 45 52 or 59 5 3 1 2 3 4 5 6 8 14 20 26 32 38 45 52 or 59 6 2 1 2 3 4 5 6 7 9 15 21 27 33 39 45 52 or 59 7 1 1 2 3 4 5 6 7 8 10 16 22 28 34 40 46 52 or 59 8 1 2 3 4 5 6 7 8 9 11 17 23 29 35 41 47 53 or 59 0 a a 1 3 10 17 24 or 31 z2 2 1 3 1 2 4 10 17 24 0 31 2 2 1 2 3 5 11 17 24 0F 31 3 1 1 2 3 4 6 12 18 24 or 31 4 1 2 3 4 5 7 13 19 25 or 31 11771 NBRC NBSC NBTC NBVC NBV1 NBAS NB4T NIS NIV NIVR NIVT NIV1 NOC NOV NR NT1 NT2 NX1 NX2 NX3 NX4 modules 2 All N Series modules can be added to the 1 0 configuration database from the channel configuration 3 The software inserts the default lengths for these instructions if you specify 0 BT only 0 1 3 10 17 24 31 38 45 52 59 or 59 1 7 1 2 4 10 17 24 31 38 45 52 or 59 2 1 2 3 5 11 17 24 31 38 45 52 or 59 Using the I O Configuration Utility Guidelines for Programming Multiple BT or CIO Instructions If a module requires multiple BT or CIO instructions enter the following BTW or CIO Write and BTR or CIO Read instructions in the order shown below on
62. rack configuration tables Config M aint 12 32 inhibiting Config M aint 12 32 resetting Config M aint 12 31 rack addressing Config M aint 13 61 rack fault status information C onfig M aint 12 33 rack inhibit status information C onfig M aint 12 33 rack reset status information C onfig M aint 12 33 rack size configuring in remote I O scanner Config M aint 13 30 13 64 RAD instruction Instruction 6 6 Radian instruction RAD Instruction 6 6 radix changing C onfig M aint 16 3 relay type IIN Instruction 1 8 OTE Instruction 1 5 OTL Instruction 1 6 OTU Instruction 1 7 XIC Instruction 1 3 X10 Instruction 1 4 remote I O adapter image file Config M aint 11 19 remote I O adapter interpreting status Config M aint 14 22 remote I O scanner interpreting status Config M aint 14 18 remote programming Config M aint 6 19 See also DH renaming files Program 5 7 replacing database editor Program 17 26 report header Program 17 5 reports changing title Config M aint 20 16 configuring printer Config M aint 20 21 creating offline Config M aint 20 5 creating online Config M aint 20 3 file extensions Config M aint 20 18 generating Config M aint 20 1 1 28 options Config M aint 20 15 printing Config M aint 20 17 types of Config M aint 20 1 20 7 viewing Config M aint 20 25 requirements system Config M aint 1 1 RES instruction Instruction 2 25 Reset instruction Instruction 2 25 restore documentation files
63. sync bus output power 20 000 KW load share full scale voltage 4 00 V load share excess 000 load share deficit 000 Use PageUp or PageDown to move through the setup screens Press a function key Rem Prog Offline BTSLSM2E Change 1 0 Mode Ovrview Fl F2 Configuring 1402 LS51 Series A Line Synchronization Modules Diagnostics Screen 1402 LS51 A Diagnostics the elapsed time that the device has Date 24 Oct 1994 Time 00 16 33 been powered up Bulletin Number 5185 Firmware Version Number 1 ROM Status FAILED any value but 0 ROM Checksum 1264 indicates a failure RAM Status OK EEPROM Status OK 15 Volt Supply Status OVERRANGE 5 Volt Supply Status OK Data Acquisition Status OK Use PageUp or Load Share A D D A Status OK PageDown to Watchdog Status OK move through the Setup screens Press a function key Rem Prog mod 1 of 1 Offline BTSLSM2E Change 1 0 BT Data Mode Ovrview Tables Fl F2 F6 6 10 Configuring 1791 Analog I O Blocks 7 Configuring 1791 Analog I O Blocks Chapter Objectives This chapter explains how to configure 1791 analog I O blocks You should have already read chapter 1 because it explains the basic functions and screens you ll use 7 1 Configuring 1791 Analog I O Blocks Configuring 1791 Analog I O Blocks To configure a 1791 analog 1 0 block follow the steps below Module Edit Screen Ladder Editor Choose one O or 1 0 Module b System Overview a
64. than the high clamp Displays the status of calibration and programming for this channel The processor must be in Run mode if you want to receive current status from the module Displays the status bits for alarms Ifall alarms are reset NONE appears The processor must be in Run mode if you want to receive current status from the module Use PageUp or PageDown to configure other channels Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring N Series Analog I O Modules Monitoring an N Series Analog Module Use the monitor screen to check and verify the configuration data The data and status shown reflect the latest values read from the BTR or CIO Read data file The Jj processor must be in Run mode if you want to receive current status from the module Follow the steps below Monitor Screen N Series Analog Ladder Editor Choose one fa or b 1 0 Module System Overview or Channel Edit or Module Edit or BT Data N Series A wr control file data file data length descri Cold junctn temp 0 25 mA 0 25 mA out out in in in in in in Select a channel gt Rem Prog Change Mode Fl 110 Ovrview F2 Ch gt N12 290 Edit Cursor to BT or CIO instruction Monitor
65. the Block Transfer Control screen Enter these instructions in any order in the ladder editor Table 1 E Required BT or CIO Data for Modules Requiring Multiple BTWs or CIO Writes and BTRs or CIO Reads This Module Requires BTW With this Anda And Requires With this Anda or CIO Write Length in Default BTR or CIO Read Length in Default Number words 1 Length of Number words 1 Length of 1 1400 P B A 1 Device setup Bo Boo o 1 Device setup Bo o ang 2 Setpoint 2 2 2 Setpoint setup 11 configuration 3 Setpoint 11 11 3 Voltage current 44 setup parameters 4 Time setup 7 7 4 Power 63 parameters 5 Control 12 12 5 Status 38 request parameters 6 PLC written 6 Diagnostic parameters parameters 1402 LS51 A 1 Factory FE S 35 35 1 Factory 35 configuration configuration parameters 2 User 12 12 2 User 12 configuration configuration parameters 3 Control 3 Acknowledge request factory configuration i 1 Full length BTW or CIO Write and BTR or CIO Read instructions must be specified explicitly to calibrate the module Continue Using the I O Configuration Utility This Module Requires BTW With this Anda And Requires With this Anda or CIO Write Length in Default BTR or CIO Read Length in Default Number words 1 Length of Number words 1 Length of 1 1402 LS51 A 4 Acknowledge 15 user configuration 5 Synchronization bus error parameters 6 Synchronization
66. the module Continued Field Rate Alarm Low High Alarm Alarm Deadband Channel Status Alarms Configuring N Series Analog I O Modules Valid Values Only available if alarms are enabled Enter a value in scaled units per second The rate alarm cannot be less than 0 04 or more than 50 of full scale Enter 0 to disable Only available if alarms are enabled Enter values in scaled units for low and high alarms separated by a You cannot set alarms below 3 2 mA or above 21 25 mA When you enter alarms the screen displays us er and the alarm values If you enter 0 0 to select default low and high alarms the screen displays df t followed by default alarm values which are equal to the current low and high scale values If low scale is higher than high scale low alarm must be higher than high alarm Only available if alarms are enabled Enter a value It must be less than half of the difference between the low and high alarms and cannot exceed 255 99 for BCD The default is 0 Displays the status of calibration and programming for this channel The processor must be in Run mode if you want to receive current status from the module Displays the status bits for alarms If all alarms are reset NONE appears The processor must be in Run mode if you want to receive current status from the module Use PageUp or PageDown to configure other channels Press F4 Module Edit for other configuration choi
67. these modules from the I O configuration utility 1 0 Module System Overview Cursor to module to delete Delete a Yes No Ifyou specify no the module remains on ie the 1 0 Module System Overview screen If you specify yes the system deletes the module record The corresponding block transfer or ClO instructions in the program the BTW or ClO Write and BTR or CIO Read control files and the BTW or CIO Write and BTR or CIO Read data files remain unaltered Capturing Screens 1 26 You can capture I O configuration screens and save them to a file from anywhere in the utility by pressing Ctrl Z The screens are appended to a single screen dump filenamed SCREEN DMP in the default documentation report directory PDS LI PLC5 You can use DOS commands such as pri nt to print these files Configuring Analog I O Modules Other than N Series Analog I O Modules 2 Configuring Analog I O Modules Other than N Series Analog I O Modules Chapter Objectives This chapter explains how to configure analog 1 O modules You should have already read chapter 1 because it explains the basic functions and screens you ll use Configuring an Analog I O Module When you edit a module configuration you can change the BTW or CIO Write data associated with a module accept those changes and then initiate the block transfer or ControlN et I O transfer Editing Module Configuration For Information about Configuring this
68. to BT i ee Pin gt PE or 1 0 Module Monitor o gt E or Monitor o gt 1794 I E4X0E2 B Monitor Write BT Read BT Control File N7 1 N7 1 Ok Data File N7 2 N7 2 Length 10 5 h Address Range Signal 1 N7 2 4 20 mA 4 000 mA 2 N7 3 4 20 mA 4 000 mA 3 4 Inputs C N7 4 4 20 mA 4 000 mA N7 5 4 20 mA 4 000 mA Failsafe Outputs Ch Address Range Signal Data Status 1 N7 2 4 20 mA 0 4 000 mA 0 active 2 N7 3 4 20 mA 4 000 mA 0 active Press a function key gt Rem Prog mod 1 of 1 Offline HCO 310 Change 1 0 Channel BT Data Display Mode Ovrview Edit Tables Symbols F1 F2 F3 F6 F7 Configuring 1794 Flex I O Modules Field Displays this Information Write BT Control and data file addresses for the write block transfer instruction Read BT Control and data file addresses for the read block transfer instruction fthe module detects that the toggle bitis set correctly Ok is displayed to the right of the R ead BT field if the module detects that the toggle bit is set incorrectly unconfi gur ed is displayed to the right of the Read BT field 1 put and Output Channels isplays the index number of a valid channel put and Output Channels isplays the logical address of the value in the Data field put and Output Channels isplays the selected range for the channel nput and Output Channels Displays the data value reported by the module Channel US Address US Range US Data
69. to read the types of the module s channels from the BTR or CIO Read data file If the configuration information is not available in the BTR or CIO Read data file the I O configuration utility prompts you to choose the module s catalog number see Figure 3 1 or individual channel types see Figure 3 2 from a displayed list If the catalog number you want is on the list follow the steps on the left Otherwise see page 3 3 3 1 Configuring N Series Analog I O Modules Figure 3 1 Choosing the Module s Catalog Number Series Series A Module Catalog Numbers Rack Group Module 3 1 1 lease select one of the following catalog numbers 771 NBRC Six 650 Ohm RTD Inputs Two 0 25mA Out puts RA SG Six Sourcing Sinking uts Two 25mA Outputs 77 TC Six 100mV Thermocou uts Two 0 25mA Out puts 77 vc Six 5V 4 20mA Two 0 25mA Outputs Cursor to catalog bt Vi Two 10V Outputs Six nputs number you want 77 45 Two Srcing Sinking Two 25mA Out pu frenum nd 77 4T Two Thermocouple In s Two 25mA Outputs or Fd lt a TR data header is invalid please specify module configuration se up and down arrows to move to selection Press Fl0 Select or Return em Prog new I O module Offline ARDA You can use PageDown or Change 1 0 Enter Select down arrow to display Mode Ovrview FAB Ds more catalog numbers Fl F2 F5 F10 3 2 Configuring N Series Analog I O Modules If the catalog number you want is n
70. units engineering scaling Instruction 14 7 unused channel configuration Config M aint 13 35 Master Index unused addresses reports Config M aint 20 12 user configuration files Config M aint 2 8 user control bits adapter channel response Config M aint 11 9 memory protect feature Config M aint 11 10 processor resident local I O block transfer compatibility Config M aint 11 8 processor resident rack address C onfig M aint 11 7 start up procedure Config M aint 11 5 User Interrupt Disable UID Instruction 13 25 User Interrupt Enable UIE Instruction 13 26 using CIO instruction Instruction 15 26 IDI instruction Instruction 1 12 IDO instruction Instruction 1 12 keywords Program 6 7 MSG instruction Instruction 16 10 undefined program files Program 9 7 using 6200 programming software Windows Config M aint 4 1 using communications Config M aint 8 1 using the I O configuration utility O Config 1 1 using the WHO utility 1784 PCMK Config M aint 6 18 utilities files Program 5 1 V viewing reports Config M aint 20 25 VME Driver using Config M aint 6 28 VME PLC 5 processors Instruction vii Program viii I OConfig viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 VSHARE 386 Config M aint 4 4 W WARNING noKT KL KT2 devices available error message Config M aint 4 10 1 33 Master Index WARNING no ports available on driver 1 error message Config M aint 4 10 watchdog timer configuring C
71. with the ladder program For example if you program block transfer instructions at a rack group module address of 2 3 1 and add the module in the I O configuration utility the database record is written with a key of 2 3 1 If you edit the ladder program and change the BT instructions to 3 0 0 the I O configuration utility displays the correct rack group module address of 3 0 0 because this information is read from the BT control files But if you attempt to add a new module at 2 3 1 an error message displays that an I O module is already located at that r g m and the module is not added to the database To avoid this database discrepancy you must delete the changed module from the I O Configuration Module Overview screen and then add the module by pressing F6 Add New Module Using the I O Configuration Utility Choosing a Module Type Catalog Number When you add a new module select a module group and catalog number on the I O M odule Type Selection screen To do this follow the steps on the left 1 0 Module 1 0 Module Type Selection System Overview Vv Cat No Description of Group Add New 1771 Module rs 1791 series block 1 0 modul es 7 1794 Flex 1 0 modules series analog 1 0 modules 1400 1402 synchronization and power monitoring devices To Choose a Group Cursor to desired group Use up and down arrows to move to selection Press F10 Select or Return Vv Select Rem Prog new 1 0 module Offline TI NUVI EL
72. 0 5 V dc 0 20 mA e 5Vdc 20 mA e 10 V dc 0 10 V dc Min Max Scale The minimum and maximum scaling value The valid range is 9999 BCD or 32768to 32767 binary The minimum scaling value must be less than the maximum scaling value The defaultis 0 no scaling Lo Hi Alarm The low and high alarm limit The valid range is 9999 BCD or 32768to 32767 binary To disable alarms set both limits to zero The default is 0 alarms disabled Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 of this manual for more information 2 16 Configuring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 IL Series B Use the M onitor screen to verify the configuration data Follow the steps below Monitor Screen 1771 IL B Ladder Editor Choose one fa or Q 1 0 Module System Overview or Channel Edit or Module Edit or BT Data 1771 IL B Control File N Data File N Length Channel Wite BT 9 Cursor to BT or CIO instruction Monitor eJ Monitor gt g Moni tor Read BT N10 0 N11 0 12 055 1 10 Data Units Press a function key Rem Prog Change 1 0 Mode Ovrview Fl F2 Channel Module Edit Edit F3 F4 Data Monitor io 2 R GM valid BTW since power up latest BTW configu
73. 00 PD Power Monitor Devices Monitoring 1400 PB and 1400 PD Use the monitor screen to check and verify the configuration data The processor must be in Run mode if you want to receive current status from the device The monitor screen is divided into six screens The following table lists page references for each screen For Information about this Screen See Page Device Setup Monitor 5 10 Voltage C urrent Monitor 5 11 Power Monitor 5 11 Device Status 5 12 Device Diagnostics 1 of 2 5 12 Device Diagnostics 2 of 2 5 13 5 9 Configuring 1400 PB and 1400 PD Power Monitor Devices Device Setup Monitor Ladder Editor Cursor to BT or gt CIO instruction Data Monitor a 1 0 Monitor a input mode voltage scale V_AUX scale current scale I 4 neutral current snapshot interval 4 no scale 120 3 yes I OUT type Voltage average nor mal 10 s nor mal latch latch Choose one or Monitor Q 1 0 Module EN System Overview a or ay san Monitor BTR Q or BT Data o B 1400 PD A module Setup Monitor RS 232 RS 485 unit ID number 3761 baud rate 300 phase sequence ABC standard frequency 60 Hz demand period 5 min number of periods 5 status input changes logged 1 no 2 no I OUT range 0 20 mA I OUT scale 1 200 relay 1 setpoint Use PageUp or 2 setpoint PageDown to Fr set pol nt move through the setup screens Press a function key Rem Prog Change Mode Fl 1 0 Ovrview F2
74. 1 Ethernet WHO active Config M aint 8 20 active host diagnostics Config M aint 8 21 host list editor Config M aint 8 22 using Config M aint 8 19 Ethernet WHO Network Menu Config M aint 2 5 Examine Off instruction Instruction 1 4 Examine On instruction Instruction 1 3 example indexed addressing Config M aint 9 21 privilege classes Config M aint 15 8 rung Program 13 5 executable starting the software Config M aint 2 4 exiting 6200 programming software Config M aint 2 10 expanded local 1 0 configuring channel 2 Config M aint 13 61 expanded memory Config M aint 1 8 exporting creating Rockwell Software Inc ASCII file Program 6 17 7 9 documentation Program 6 10 configuring Program 6 12 documentation files Program 6 1 examining results Program 7 8 processor memory files Program 7 6 configuring Program 7 7 documenting Program 7 13 expression determining the length of Instruction 3 4 4 8 extended characters Program 17 18 extended local I O concepts Config M aint 13 61 configuration table Config M aint 14 34 interpreting status Config M aint 14 33 monitoring Config M aint 14 34 monitoring status Config M aint 14 33 extended memory Config M aint 1 8 extending data files Config M aint 10 4 extensions reports Config M aint 20 18 external format processor memory file Program B 1 F FAL logical instruction Instruction 9 13 fault routine configuring Config M aint 11 12 Master Index faults cle
75. 1 printer configuring Config M aint 5 7 printing contact histogram Config M aint 19 5 reports Config M aint 20 17 privileges Config M aint 15 1 assigning to channels Config M aint 15 11 assigning to data files Config M aint 15 18 assigning to nodes Config M aint 15 14 assigning to offline files Config M aint 15 11 assigning to program files Config M aint 15 17 defining classes Config M aint 15 8 overview Config M aint 15 5 restoring defaults Config M aint 15 20 types of Config M aint 15 5 process control biasing Instruction 14 13 derivative smoothing Instruction 14 5 equations Instruction 14 3 gain constants Instruction 14 4 integer PID examples Instruction 14 35 PD PID examples Instruction 14 40 PID Instruction 14 15 PID examples Instruction 14 35 PID instruction Instruction 14 1 selecting derivative term Instruction 14 9 setting output alarms Instruction 14 9 using manual mode Instruction 14 11 using output limiting Instruction 14 10 processor configuring Config M aint 11 1 files Program 1 7 functions Config M aint 3 12 PLC 5 10 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 11 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 12 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 15 Instruction vii Program viii
76. 5 F6 F8 F10 Field Valid Values Max Sync Bus Output Power Enter the maximum synchronous bus power in kilowatts 0 999 999 The default is 0 Load Share Full Enter the load share full scale voltage in steps of 0 01 V 2 4 V Scale Voltage The default is 4 Load Share Excess Enter the load share excess 0 500to 0 The default is 0 500 Load Share Deficit Enter the load share deficit 0 0 500 The default is 0 500 6 4 Configuring 1402 LS51 Series A Line Synchronization Modules Control Request Parameters Screen Press F9 Toggle 1402 LS51 Control Request Parameters to choose between Do Not Execute and Execute The default Self Test Do Not Execute is Do Not Execute Clear KW Hours Counter Do Not Execute Clear KVAR Hours Counter Do Not Execute Use PageUp or PageDown to move through the setup screens Press F9 Toggle to change selection Rem Prog mod 1 of 1 Offline BTSLSM2E Change 1 0 Monitor BT Data Default Toggle Accept Mode Ovrview BTR Tables Config Fl F2 F5 F6 F8 F9 F10 6 5 Configuring 1402 LS51 Series A Line Synchronization Modules Monitoring 1402 LS51 Series A Use the M onitor screen to check and verify the configuration data The processor must be in Run mode if you want to receive current status from the device Synchronization Load Share Monitor Screen Data Monitor 1 0 Monitor dder Edi Cursor to BT or si Chooseone gt co instruction gt gt fa or 1 0 Module Monit
77. 58 mV 00 00 00000 80 59 i mV 00 00 00000 80 60 mV 00 00 i 00000 Enter a channel number gt Rem Prog mod 9 of 9 Addr 12 TEST Change 1 0 Monitor BT Data Display Other Accept Mode Ovrview Tables Symbols Functns Fl F2 F5 F6 F7 F8 F10 2 37 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 38 Field Channel Address Data Units Lo Alm and Hi Alm Offset Gain Press F4 F10 Valid Values ndex number of a valid channel enter a value between 1 and 8 to move to the line for that channel or use the arrow keys Display only Displays the logical address of the value in the Data field Press F7 to display symbols if you ve defined them in place of addresses Display only Displays online data from the module The data is read from the BTR or CIO Read data file on the processor and may be out of date if the processor is notin Run mode Displays Degrees C Degrees F or millivolts Enter a value from in temperature modes 3276 8to 3276 7 in mV mode with 10 uV resolution 327 68to 327 67 in mV mode with 1 uV resolution 32 768to 32 76 For channels in this mode with this resolution the alarm values are not absolute voltages but permitted deviations from the zoom center you specified on the Module Edit screen There is no separate alarm enable field If you set low alarm equal to high alarm for any channel alarms are disabled fo
78. 7 beep associated with error messages disabling Config M aint 1 8 bit data storage Config M aint 9 3 Bit Distribute instruction BTD Instruction 7 2 Bit Shift Left BSL instruction Instruction 11 2 Bit Shift Right BSR instruction Instruction 11 2 block transfer BTR instruction Instruction 15 4 BTW instruction Instruction 15 4 direct communication mode Instruction 15 2 entering information PLC 5 I O Config 1 16 I O scan mode Instruction 15 2 instructions Instruction 15 1 programming examples Instruction 15 18 timing Instruction 15 15 15 17 Master Index block transfer example disk 1 O Config 1 10 Block Transfer Read instruction BTR Instruction 15 4 Block Transfer Write instruction BTW Instruction 15 4 branches Program 13 6 entering multiple Program 15 13 extending Program 15 14 ladder editor adding Program 15 12 nested Program 15 16 Break BRK instruction Instruction 13 8 BRK instruction Instruction 13 8 BSL instruction Instruction 11 2 BSR instruction Instruction 11 2 BTD instruction Instruction 7 2 BTR instruction Instruction 15 4 BTR BTW instruction monitoring C onfig M aint 16 8 BTW instruction Instruction 15 4 building SFCs Program 9 6 10 24 building blocks path Program 8 4 selection branch Program 8 5 SFC Program 8 3 simultaneous branch Program 8 6 step Program 8 3 transition Program 8 4 C calibrating 1791 analog I O blocks 1 0 Config 7 6 N Series modules I
79. BCD for example 001 00 data format for write BT BCD real time sample rate 05 0 disabled digital filter constant no filter Press F9 Toggle to change the module s format for reporting data Rem Prog Change 1 0 Channel Mode Ovrview Edit Fl F2 F3 mod 1 of 1 Offline DRILL Monitor BT Data Default Toggle Accept Tables Config F5 F6 F8 F9 F10 2 13 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 14 Field Valid Values BTR Data Format Press F9 Toggle to select a data format The choices are BCD Binary Coded Decimal Signed Magnitude Binary and Twos Complement Binary The default is BCD BTW Data Format Press F9 Toggle to select a data format The choices are BCD and Twos Complement Binary The default is BCD Real Time Type a value for the real time sample rate The valid range is 0 1 to 3 1 Sample Rate seconds in 0 1 second increments Type 0 to disable real time sampling The default is 0 Digital Filter Type a value for the digital filter time constant The valid range is 0 00 to 0 99 Time Constant BCD or 0 0 to 2 55 binary seconds Type 0 to disable the digital filter The default is 0 Press F3 Channel Edit to configure individual channels or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 of this manual for more information Configuring A
80. BTW or CIO Write information associated with a module accept those changes and then initiate the block transfer or ControlN et I O transfer Editing Module Configuration For Information about See Page Configuring this Module 1771 VHSC 4 2 1771 CFM 4 11 4 1 Configuring the 1771 VHSC and 1771 CFM Configuring 1771 VHSC Series A To configure a 1771 V HSC series A module follow the steps below Counter Setup Screen 1771 VHSC Edit 1 0 Module 2 Choose one a PJ 7 Counter Setup or O Output Setup or Monitor me B or BT Data fe or Ladder Edito Cursor to BT or Edit VO Edit O CIO instruction gt m fr 1771 VHSC A Counter Setup RGM 0321 Counter Rollover Preset Gate Scaler Mode Count Count Store Count Mode Reset Time Base Counter 0 0 None H True No Scale Counter 0 0 None H True No Scale Counter 0 0 None H True No Scale Counter 0 0 None H True No Scale Tied to Output s Current Count Stored Value Rst EN Prst EN 0 Cts 0 Cts Of f Of f 0 Cts Cts Of f Of f 0 Cts Cts Of f Of f 0 Cts Cts Of f Of f Enter a Counter number 0 to 3 or press a function key gt Rem Prog File 5 10 PJ A3 Change System Output Monitor BT Data Default Accept Mode Ovrview Setup Config Fl F2 F4 F5 F6 F8 F10 Field Ctr Counter Mode Rollover Count Preset Count Configuring the 1771 VHSC and 1771 CFM Valid Values Displays counter channel numbers Enter 0 to 3 or use up down arrow keys to move to the lin
81. Data Mode Ovrview Tables Fl F2 F6 Configuring 1402 LS51 Series A Line Synchronization Modules Reference Bus Voltage Monitor Screen 1402 LS51 A Ref Bus Voltage Monitor L1 L2 Li N L2 L3 L2 N L3 L1 L3 N Average L Average L Bus Frequency 60 04 Hz Bus Phase Rotation ABC Module Status OK Use PageUp or PageDown to move through the setup screens Press a function key Rem Prog Offline BTSLSM2E Change 1 0 Mode Ovrview Fl F2 Scaling Parameters View Screen 1402 LS51 A Sync Bus Monitor Parameters View voltage mode PT primary rating line CT primary rating neutral CT primary rating demand period number of demand periods Use PageUp or PageDown to move through the setup screens Press a function Rem Prog Offline BTSLSM2E Change 1 0 Mode Ovrview Fl F2 Configuring 1402 LS51 Series A Line Synchronization Modules Synchronization Parameters View Screen Synchronization Parameters View this field synchronization method Delayed Acceptance Window never changes voltage match error limits lower 10 00 upper 10 00 frequency match error limits lower 40 Hz upper 40 Hz phase match error limits lower 5 upper 5 acceptance window delay 75 sec Use PageUp or PageDown to move through the setup screens Press a function key Rem Prog Offline BTSLSM2E Change 1 0 Mode Ovrview Fl F2 Load Share Parameters View Screen 1402 LS51 A Load Share Parameters View max
82. Disable The On Count and Off Count are ineffective if the Config field shows disabled or Forced On The 1 0 configuration utility will not diagnose this condition as a problem because some applications use the PLC program to alter the config bits in the BTW or CIO Write data file Displays the output state of the current output channel ON or OF F The processor must be in Run mode if you want to receive current status from the module Press F3 Counter Setup for other configuration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Monitoring 1771 VHSC Series A Configuring the 1771 VHSC and 1771 CFM Use the M onitor screen to check and verify the configuration data The M onitor screen for the 1771 V HSC module is divided into two screens Input status and data reflect the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current status from the module Configuration data copied from the Counter Setup and Output Setup screens to the M onitor screens are the values from the BTW or CIO Write file on the processor and do not reflect any pending edits that you have not yet accepted Follow the steps below Monitor Screen 1771 VHSC Ladder Editor Choose one fa or b 1 0 Module System Overview or Counter Setup
83. F1 master status Config M aint 14 7 DF1 point to point status Config M aint 14 6 DF1 slave status Config M aint 14 7 modem Config M aint 6 25 monitoring Config M aint 14 5 protocols Config M aint 13 8 user mode ASCII Config M aint 14 10 Serial to KFC KFCD CNET configuring Config M aint 6 20 1 29 Master Index setting CONFIG SYS SHARE EXE Config M aint 1 3 4 4 SFC assigning step tran names Program 10 21 building Program 9 6 10 3 10 24 building blocks Program 8 3 constraints Instruction B 6 conversion Program 12 2 creating Program 9 1 10 1 macros Program 11 12 structures Program 11 1 display configuring Program 8 15 drawing Program 8 1 8 10 edit mode Program 8 17 editing Program 12 2 editor program mode Program 12 4 entering selection branch Program 11 5 11 7 simultaneous branch Program 11 6 11 8 step actions transitions Program 10 4 step transition pairs Program 9 4 entering comments Program 10 22 example scanning sequence Instruction B 13 standard building blocks Program 8 12 example ASCII export file Program 7 20 forcing transitions Program 12 8 Config M aint 18 8 getting started Program 8 1 GOTOs and labels Program 11 9 macros Program 11 12 assigning comments Program 11 13 creating Program 11 12 deleting step tran Program 11 13 searching Program 11 14 12 4 searching within Program 11 14 memory requirements Instruction B 4 monitor mode Program 8 17 path Program 8
84. Instruction 17 21 ASCII String to Integer instruction Instruction 17 9 ASCII Write Append instruction Instruction 17 23 ASCII Write instruction Instruction 17 26 ASN instruction Instruction 4 15 ASR instruction Instruction 17 22 ATN instruction Instruction 4 16 Attention 32 to 16 bit conversion Instruction 4 11 assign unique diagnostic file Config M aint 13 3 13 8 13 26 13 29 13 33 13 37 13 44 13 63 13 67 AVE indexed address Instruction 4 18 change index value Instruction 13 10 control structure addressing Instruction 10 4 deleting processor memory Config M aint 20 14 DTR online programming Instruction 10 8 edit online Program 14 2 edit SFC Program 8 13 entering input addresses Instruction 1 8 entering output addresses Instruction 1 9 FAL indexed address Instruction 9 2 FOR and NXT with output branches Instruction 13 8 FOR and NXT within branches Instruction 13 8 forcing a transition Config M aint 18 8 forcing an output Config M aint 18 7 forcing I O Program 3 7 forcing transitions Program 12 8 indexed addressing Instruction 8 2 inverse logic Program 13 4 jumped timers and counters Instruction 13 5 MCR zone overlapping or nesting Instruction 13 3 MCR zones timers and counters Instruction 13 3 modify status bits of BTR BTW Instruction 15 8 MSG modify status bits Instruction 16 12 status bits ST and EW Instruction 15 28 16 12 on line programming with ONS Instruction 13 20 pairing st
85. LC 5 60C Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 60L Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 80 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 80C Instruction vii Program viii 1 OConfig viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 80E Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 86 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 V 30 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 V 40 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 1 25 Master Index PLC 5 V40L Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 V 80 Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 PLC 5 VME Instruction vii Program viii 1 0 Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 programming features Program 2 9 status Config M aint 12 11 processor channels configuring Config M aint 13 1 processor configuration adapter channel response Config M aint 11 9
86. Line Synchronization Modules ChapterObjectives rrrrrrrrnnnrnnr Configuring1402 LS51SeriesA Monitoring1402 LS51SeriesA Configuring 1791 Analog I O BlockS rrrnnnnnnvvvvnnnnnnnnnnnvvnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnnn ChapterObjectives rrrrrrrrnnnrnnr Configuring1791Analogl OBlocks Monitoring1791Analogl OBlocks N vrir I NNNNNDN I I I I I I Oow 4 OG O 4 NOV OND ONO ARKKKQOGAQONNDNNA4 NNNNNNNNNNNNNDRDDDND Calibrating 1791 Analogl OBIOCKS ccceceeeeeeeeeceeeeeeeeaeeeeeeeeeaaaeeeceeeseaaeeeceeeeseaeeseeaeeseceeeeeeetee Configuring 1794 Flex I O Modules rrrnnnnnnnvvvvnnnnnnnnnnnnvnnnnnnnnnnnnnnnnnnnnnnnnnnvnnnnnnnnnn GhapterObjectives uansett hanker db Vidda aker dataen Configuring1794 OE4SeriesAandSeriesB rnnrnnrnnnnnvnnnnvvvnnnnrnnnenvennnnrnnnrnnnnerrrnnnennenerrrnneennnnerenn Monitoring1794 OE4SeriesAandSeriesB mrrrraannrvnnervvnnnnrrnnnnvrnnnnrrnnnnnnnnrrrrreennrnnrerrreensrnnsennnenn Configuring 1794 IE4XOE2SeriesAandSeriesB ccccccceeeceeeeeneeeeeaeeeeeeeeseeaeeeeaaeeseaeeeeeaeeeeeas Monitoring1794 IE4XOE2SeriesAandSeriesb ccccccccceeceeseeeeeeeeeeeeeeeeeeeeeesaeeeeeeeeetaeeeteaeeees Configuring 1794 IE8SeriesAandSeriesB cscceceeeeeceeeeeeeeeeeeeeeeeaaeeeeeeeeseaaeseceeeeeeaeeeeeneeeeaas Monitoring1794 IE8SeriesAandSeriesB ccccceeeeeseeeeeneeeeeeeeeceeeeeeaaeeseeeeseaaeeeeeeeeetiaaeeeeneeess Gontigur
87. M aint 9 10 types of Config M aint 9 12 types of addressing Config M aint 9 11 Data Highway Plus configuring channels 1A 2B Config M aint 13 24 interpreting status Config M aint 14 12 monitoring status Config M aint 14 12 data monitor Config M aint 16 2 block transfer Config M aint 16 8 changing the radix Config M aint 16 3 displaying cross reference Config M aint 16 6 entering data Config M aint 16 6 specific address Config M aint 16 5 I 11 Master Index data storage bit Config M aint 9 3 concepts Config M aint 9 1 data block Config M aint 9 3 files Config M aint 9 3 I O image files Instruction 1 2 sub member Config M aint 9 3 type Config M aint 9 3 user defined Config M aint 9 3 words Config M aint 9 3 data table file defaults Config M aint 9 7 report Config M aint 20 12 Data Transitional instruction DTR Instruction 10 8 database determining width Program 5 4 database editor address comment Program 17 21 displaying cross reference Program 13 9 instruction comment Program 17 22 modes Program 17 23 regenerating cross reference Program 13 10 replacing Program 17 26 rung comment Program 17 22 search order Program 17 25 using Program 17 18 database revision checking Program 17 4 database width specifying Config M aint 5 10 databases for comments and symbols compatibility Program 17 4 DDT instruction Instruction 10 2 default channel configuration Config M aint 13 1 data table Config
88. M aint 9 6 defining privilege class Config M aint 15 8 DEG instruction Instruction 6 5 Degree instruction DEG Instruction 6 5 deleting files Program 5 12 deleting a module I O configuration 1 0 Config 1 26 I 12 derivative smoothing Instruction 14 5 DF1 Master Configuration polling scheme Config M aint 13 17 DFA instruction Instruction 18 1 DH II serial port configuring Config M aint 6 20 DH active nodes Config M aint 12 17 communications Config M aint 8 1 between DH networks Config M aint 6 19 serial port configuring Config M aint 6 20 DH communications Config M aint 8 1 DH Network Menu Config M aint 8 6 DH station See status information DH DH WHO active Config M aint 8 6 listen Config M aint 8 4 SLC 5 04 support Config M aint 8 7 station diagnostics displaying Config M aint 8 9 using Config M aint 8 3 DH WHO Network Menu Config M aint 2 5 diagnostic DDT Instruction 10 2 DTR Instruction 10 8 FBC Instruction 10 2 parameters Instruction 10 4 10 8 search mode Instruction 10 2 status Instruction 10 5 Diagnostic Detect instruction DDT Instruction 10 2 Diagnostic Fault A nnunciator Instruction Instruction 18 1 diagnostic instructions Instruction 10 1 diagnostics Config M aint 8 9 digital 1 0 example instructions Program 13 3 direct communication block transfer Instruction 15 2 directory paths defining Config M aint 5 7 disabling I O forces Config M aint 18 7 d
89. M series A module follow the steps below Channel Setup Screen Channel 0 Channel 1 Channel 2 Channel 3 1771 CFM Edit 5 1 0 Module 2 dosene gt n 7 or Output Setup or Monitor Channel Setup or BT Data or i Cursor to BT or Edit VO Edit O m Cio instruction gt ap 4 11 Configuring the 1771 VHSC and 1771 CFM The top part of each 1771 CFM A Channel Setup RGM 0 page of the Channel channel 0 channel 1 channel 2 channel h current values Setup screen s ows channel mode high res freq not totalizer noreset totzr selected current values frequency 43 0 15 487 258 for each channel These tota counts 3 881 128 L TEL 151 acceleration 0 359 0 values reflect the data channel 0 channel 1 channel 2 channel 3 received the last time a new channel mode high res freq not used totalizer noreset totzr BTR or ClO Read was minimum sample time 10 ms 1000 ms 100 ms completed The for frequency processor must be in Run acceleration 2 000 5 000 disabled alarm value mode if you want to accel sample time 100 rolling avg receive current data from freq intervals the module highest allowed 60 000 0 frequency Press F9 Toggle to change channel mode The bottom part of each Rem RUN mod 1 of 1 Addr 42 CFM4B page of the Channel Change 1 0 Output Monitor BT Data Default Toggle Accept Setup screen shows Mode Ovrview Setup Tables Config Fl F2 F4 F5 F6 F8 F9 F10 current programming for each channel and lets y
90. NAL OUT OF RANGE Press a function key gt Rem Prog File FLEX_A Change 1 0 Channel Mode Ovrview Edit Fl F2 F3 8 20 Configuring 1794 Flex I O Modules Note Field Channel Value Thermocouple Type Valid Values Displays the index number of a valid channel Entries to the right of the Channel field indicate the range bit setting lt Underrange bit is set gt Overrange bit is set Displays the input data value for the channel between 32767and 32768 Entries displayed to the right of the Value field indicate the module data type C Degrees Centigrade F Degrees Fahrenheit Bi Bipolar Un Unipolar Displays the thermocouple type Valid values are millivolts B E J K R S T C N Module Data Time Stamp Cold J unction Temp 0 3 Cold J unction Temp4 7 and No Sensor The default is millivolts The following messages may be displayed at the bottom of the 1794 IT8 series A Monitor screen when the appropriate bit is set on the module data table e Unconfigured power up bit e Invalid Calibration calibration bit e Reference Signal Out of Range reference signal bit e Cold Junction Sensor lt 0 Degrees cold sensor underrange bit e Cold Junction Sensor gt 70 Degrees cold sensor overrange bit e Invalid Thermocouple invalid thermocouple bit e Calibration Complete invalid calibration bit For more information on these messages see the 8 Input Thermocouple M odule User M anual
91. PG ee or rf Mode Ovrview g Fl F2 F10 1771 Series Analog Module Selection To Choose a Catalog Number Cursor to catalog number to add Use arrows and paging keys to move to selection Press Fl0 Select or Return Vv Select Rem Prog new I O module Offline TINUVIEL retum f 2 Change 1 0 Group Select or Mode Ovrview Menu 7 je Fl F2 F3 F10 1 15 Using the I O Configuration Utility Entering Block Transfer or ControlNet I O Transfer Control Information Enter the block transfer or ControlN et I O transfer control information described in JO HE the table below on the Block Transfer Control screen Y ou should have recorded this These are the only data when you programmed your BT or CIO instructions in the ladder editor navigational keys active on the Block Transfer Control screen 1 0 Module Block Transfer Control System Overview 1771 IFE Series B Add New v Module Address 001 00 Module Cursor to rs or module to Control block Data table length copy v Write address CT21 50 N7 0 10 VO Module Copy Read address CT21 60 Type Selection fe Cursor to desired group Please enter Control Block address gt Rem Prog new I O module Offline TI NUVI EL renn Select Change 1 0 Display Accept Return Mode Ovrview Symbol s aa or F1 F2 F7 F10 Cursor to module type to add Select ped On the Block Transfer Control screen enter information in the follow ing fields In this Field Ente
92. Press F7 to display symbols if you ve defined them in place of addresses Data Displays data from the module The data is read from the module s BTR or CIO Read data file The data in this field cannot be edited on this screen display only Ifthe processor is notin Run mode the data reflects input values the last time a BTR or CIO Read was performed Units Enter a word or phrase that describes the type of channel data up to 10 characters or press F9 Toggle to make a choice Range Press F9 Toggle to select the valid ranges for each channel The choices are e 1 5 V dc 4 20 mA default e 0 5 V dc 0 20 mA e 5Vdc 20mA e 10 V de 0 10 V dc Min and Max Lets you change the scaling values for each channel Valid values for Min are 9999to the value in the max field Valid values for Max are the value in the min field to 9999 If Min and Max are both 0 for all 16 channels then the module applies default scaling to all channels Default values depend on range selection for each channel If you choose 1 5 V dc 4 20 mA or 0 5 V dc 0 20 mA for the range default scaling is 0 4095 If you choose 5 V dc 20 mA or 10 V 0 10 V dc for the range default scaling is 4095to 4095 Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information C
93. T Data Fa 1771 I XE B Module Edit If you are using ClO instructions the rack group module address in the upper right comer is replaced with a node slot address for example 001 00 Sensor Type Chnls 1 to 4 millivolts 100 mV Sensor Type Chnls 5 to 8 millivolts 100 mV Data Format BCD Units of Measure millivolts Real Time Sample Rate disabled Switching to dual input mode no functional difference Press F9 Toggle to change selection Rem Prog mod 8 of 8 Addr 12 TEST Change 1 0 Channel Monitor BT Data Other Toggle Accept Mode Ovrview Edit Tables Functns Fl F2 F3 F5 F6 F8 F9 F10 2 27 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Valid Values Sensor Type Press F9 Toggle to select millivolts 100 mV type E type J type K Channels 1 4 type T type R type S The default is millivolts Sensor Type Press F9 Toggle to select millivolts 100 mV type E type J type K Channels 5 8 type T type R type S The default is millivolts Data Format Press F9 Toggle to select Signed Magnitude Binary Twos Complement Binary or BCD The default is BCD Units of Measure Press F9 Toggle to select Degrees C or Degrees F for channels that are in temperature mode The default is Degrees C Ifthe Sensor Type is millivolts for channels 1 4 and 5 8 the software sets the
94. TR or CIO Read data file to compute the signal Depending on the data format the software displays 2 or 4 decimal places That precision is appropriate when you Select the greatest possible scaling ranges However when you select a narrower scaling range including default scaling not all of the decimal places may be significant This value reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Scaling lets you convert the input signal to units that fit your application Enter values for low and high scaling separated by a These values correspond to the predefined signal values of 10 Vand 10V The values you enter can be from 32768to 32767 in twos complement binary or 7999to 7999 in BCD When you enter scaling the screen displays us er and the scale values If you enter 0 0 to select default scaling the screen displays df t followed by default scale values which are 10000 10000in binary or 100 100 in BCD Low scale can be higher than high scale In this case the low alarm must also be higher than the high alarm Enter a value e Ifthe data format is binary enter a value between 0 1 and 10 seconds 0 1 second increments e ifthe data formatis BCD enter a value between 0 1 and 9 9 seconds 0 1 second increments Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status
95. Units of Measure to millivolts Real Time Enter a real time sample rate between 0 1 and 3 1 seconds enter 0 for Sample Rate disabled The default is 0 Calibration Series B only Set this field on during manual calibration to scan the cold junction temperature more frequently S et this field off during normal operation Press F9 Toggle to select On or Off The defaultis Off Press F3 Channel Edit to configure individual channels or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring Analog I O Modules Other than N Series Analog I O Modules Channel Edit Screen 1771 IXE Cursor to BT or Edit 1 0 Edit Channel Edit Clo instruction gt f or b 1 0 Module gt Edit Channel Edit System Overview fr wee ra or Choose one Module Edit Channel Edit Q or Monitor or gt B BT Data fe 1771 I XE B Channel Edit Data Units Alarm Lo Alm Hi Gain mV 0 00 00000 mV 0 00 i 00000 60 55 mV 0 00 00000 60 56 mV 00 5 i 00000 60 57 mV 00 i 00000 60 58 mV 00 i 00000 60 59 mV 00 i 00000 60 60 mV 00 00000 Enter a channel number gt Rem Prog mod 8 of 8 Addr 12 TEST Change 1 0 Module Monitor BT Data Display Other Accept Mode Ovrview Edit Tables Symbols Functns Fl F2 F4 F5 F6 F7 F8 F10 2 29 Configuri
96. Using the I O Configuration Utility rnnnnnvrnnnnnnnnnvvvnnnnnnnnnnnnnvvnnnnnnnnnnnnnnnnnnnnnnnnen ChapterObjectives rrrrrrrrnnnrnnr DocumentingaModule Startingthel OConfigurationUtility GontiguringaModule a 4 s sez c seesugtee sce cesses cad pent dd enka den dad Eie md re again DeletingModuleDocumentation CapturingScreens ccccccee Configuring Analog I O Modu ChapterObjectives rrrnrrrrnnnrnnr ConfiguringanAnalogl OModule les Other than N Series Analog I O 00 Configuring1771 IFESeriesA SerieSB andSerieSC ccccccssccceesesseeeeeeseseeeesescsaeeeeesennaeeeeeeeaas Monitoring1771 IFESeriesA SerieSB andSerieSC ceecccecssesseeeeeeeeeeeesseeeeeeseeseaeeesesseaeeess Auto Calibrating1771 IFESeriesC Configuringa1771 ILSeriesA Monitoring1771 ILSeriesA Configuring1771 ILSeriesB Monitoring1771 ILSeriesB Configuring1771 IRSeriesAandSeriesB marrrrurnrvnnanvvnnnnrrrnnnnvnnrnrrrnnnnrnnnenrreennrnnnennrenssrnnnsnnneeenn Monitoring1771 IRSeriesAandSeriesB rrrnnnannvnrnnvrnnnnnvnnnnrrennnnnnnrrrrnnnnnnnnnenrenennrnnsrnnenernrnennnnene Auto Calibrating1771 IRSeriesB Configuring1771 IXESeriesAandSeriesB cccccccecceceeeeeeeeceeeeeeeeecaaeeeceeeeseaaeseseeeeseeaeeeeeaeeeeeas Monitoring1771 IXESeriesAandSeriesB rrrnrrnnnnrnnnnnnvnnnvrrnnnnnvnnrnrrennnnnnnnrnrenennrnnnrnnenesnrn
97. Valid values are in steps of about 0 00153 the software calculates the nearest valid value to the number you enter If you plan to perform auto calibration all manual calibration offset and gain fields must be 0 Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 IXE Series A and Series B Use the M onitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1771 IXE Data Monitor 1 0 Monitor Ladder Editor Cursor to BT or br a Choose one Hannene gt CIO instruction gt ra gt B or Monitor 1 0 Module gt System Overview B or not applicable if you set both rc Channel Edit Monitor sensors to millivolt mode series B or Module Edit or BT Data On No BTW or CIO Write received since module powerup Off BTW s or CIO Write s received since module powerup 1771 I XE B Monitor Write BT Read B Power up bit off Control file N150 0 N160 0 Module status normal Data file N150 50 N160 50 Real time sample status normal Length 13 Cold junction status normal Auto cal read from EEPROM normal Channel ress nits Alarm Status Channel Status 1 60 3 illivolts not enabled nor mal 60 5 i illivolts n
98. W data BTR data BTW ctrl BTR ctrl 1400 PD A N10 6 N16 6 43 N10 1 N16 General Utility F7 1771 I FE A N10 50 N20 50 20 N10 0 N20 1771 OFE A N50 50 N60 50 5 N50 0 N60 1791 N4C2 A N30 50 N40 50 5 N30 0 N40 al N Series A N70 50 N80 50 28 N70 0 N80 1 0 Overview E Use keys to position cursor then press a function key Rem Prog mod 1 of 1 Offline STARTI Change Edit Monitor Delete Add New Display Copy Change Mode Module Symbols Display F1 F2 F6 F7 F8 F9 Preface R 1 0 Module Choose one a ae or 10 Module Monitor System Overview a ej ape or Edit B Edit BT Data Tables BT Data Tables rs Channel Edit BT Data Tables 1791 N4C2 A 1 0 Module Q System Overview Block Transfer ga os Data RGM 100 vi Input Data Status BTR Configuration Data and Outputs BTW 0 10 3861 12333 0 0 20000 N10 100 0 70 N10 102 70 70 0 20000 0 5000 0 N10 104 70 5000 0 5000 0 5000 0 12 0 0 0 0 0 Press a function key Rem RUN mod 2 of 2 Addr 2 ASMTEST2 Change 1 0 Channel Module Monitor Change Display Mode Ovrview Edit Edit Radix Symbols F1 F2 F3 F4 F5 F6 F7 In the previous example you can get to the screen shown above the Block Transfer Data screen by any of the three lettered paths You would probably choose path if you wanted to get to the Block Transfer Data screen from an edit screen path b if you wanted to get to this screen from a
99. a Monitor 3 6 mod 8 of 17 Default Config F8 1 0 Edit const alarm deadband mark 0 0 default Channel Edit gt g gt g gt g 5 1000 V 0 sec disabled high alarm Offline ARDA Accept F10 Field Input Channel Type Input Data Signal Low High Scale Filter Constant Alarms Are Configuring N Series Analog I O Modules Valid Values Displays the input output module channel configuration Displays the value reported by the module in the BTR or CIO Read data file in scaled units This value reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Displays the actual input voltage measured by the module The 1 0 configuration utility uses the scaling in the BTW or CIO Write data file and channel data in the BTR or CIO Read data file to compute the signal Depending on the data format the software displays 3 or 4 decimal places That precision is appropriate when you Select the greatest possible scaling ranges However when you select a narrower scaling range including default scaling not all of the decimal places may be significant This value reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Scaling lets you convert the input signal to units that fit your app
100. a choice The I O configuration utility only saves units currently in use by the module on the Channel Edit screen Enter a value for the percentage 0 to 100 The default is 0 You can enter a data value or a percentage of output If you enter a data value the of Output min to max is calculated If you enter a of Output the data value is calculated If the min or max value is changed the of Outputis recalculated For example if min is 0 and max is 4095 and you enter 25 the software computes the value 1024 Lets you change the minimum scaling value for each channel 9999to max The default is 0 A new minimum scaling value causes the output to be recalculated Lets you change the maximum scaling value for each channel min to 9999 The default is 4095 A new maximum scaling value causes the output to be recalculated Module Edit for other configuration choices or Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 2 45 Configuring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 OFE Series A and Series B Use the M onitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1771 OFE Data Monitor 1 0 Monitor Ladder Editor Cursor to BT or s od gt comm gt gj gt fe or Monitor b 1 0 Module EN System Overvi
101. a file in scaled units The processor must be in Run mode if you want to receive current data from the module Displays the actual input voltage or temperature measured by the module The I O configuration utility uses the scaling in the BTW or CIO Write data file and channel data in the BTR or CIO Read data file to compute the signal The display shows 0 3 decimal places depending on data format BCD or binary and channel mode mV or degrees That precision is appropriate when the greatest possible scaling ranges are selected However when you select a narrower scaling range including default scaling not all the decimal places may be significant This value reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Scaling lets you convert the input signal to units that fit your application Enter values for low and high scaling separated by a The values you enter can be from 32768to 32767 in twos complement binary or 7999 to 7999 in BCD When you enter scaling the screen displays us er and the scale values If you enter 0 0 to select default scaling the screen displays df It followed by the default scale values which are e in mV mode binary 500 5500 BCD 50 550 e fortypes B E J K N R S T binary 3000 18000in Celsius 5080 32720in Fahrenheit BCD 30 180in Celsius 51 327in Fahrenheit e fortypeC binary 3000 25000in Ce
102. a used by the class or object e Save copies the contents of a class or object s attributes to a location accessible by the Restore function e No Operation causes the receiving object to return a No Operation response The receiving object does not carry out any other internal action Use this function to test if a particular object is present and responding without causing a state change Block Size Displays the block size Enter a value between 0 and 29 Transaction ID Displays the transaction ID number Enter a value between 1 and 255 Class Displays the class level Enter a value between 0 and FFFF hex Instance Displays the instance number Enter a value between 0 and FFFF hex Attribute Displays the attribute level Enter a value between 0 and FFFF hex Press F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See Accepting Edits in chapter 1 for more information 2 49 Configuring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 SDN Series A Use the M onitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1771 SDN Data Monitor I O Monitor t sate Pinna 2 gt E or VO Module Monitor o gt or gt E 1771 SDN A Moni tor RGM 000 1 MAC ID 0 Port Number 0 2 MAC ID 0 Port Number 0 Status Ignore Transaction Block Status Ignore Transaction B
103. ack instructions Instruction 11 6 passwords and privileges limitations of Config M aint 15 6 PID change engineering unit max Instruction 14 27 change engineering unit min Instruction 14 27 change inputs or units Instruction 14 23 changing scaling Instruction 14 7 resume last state Instruction 14 14 setting temperature limits Instruction 14 33 update time Instruction 14 27 placement of critical counters Instruction 2 18 2 20 resetting TON and TOF Instruction 2 10 2 25 set or clear the reset and inhibit bits Config M aint 11 17 SRT indexed address Instruction 4 30 status of BTR BTW bits Instruction 15 9 STD indexed address Instruction 4 33 use of control address Instruction 12 3 using control addresses Instruction 8 3 Master Index using control addresses for instructions Instruction 11 2 using indexed addresses Config M aint 9 20 zeroes written in the global status file Config M aint 13 26 auto configuration C onfig M aint 13 30 13 64 auto document Program 14 7 auto calibrating 1771 IFE C OConfig 2 7 1771 IR B I O Config 2 25 1771 IXE B I O Config 2 33 1771 IXHR A 1 0 Config 2 41 AUTOEXEC BAT Config M aint 1 7 1 17 2 3 setting Config M aint 1 8 automatic configuration C onfig M aint 13 30 13 64 AVE instruction Instruction 4 17 Average File instruction AVE Instruction 4 17 AWA instruction Instruction 17 23 AWT instruction Instruction 17 26 B baud rate using a 6171 IDH Config M aint 1
104. ad data file in scaled units The processor must be in Run mode if you want to receive current Status from the module Displays the actual input resistance or temperature measured by the module The I O configuration utility uses the scaling in the BTW or CIO Write data file and channel data in the BTR or CIO Read data file to compute the signal The display shows 0 2 decimal places depending on data format BCD or binary and channel mode ohms or degrees That precision is appropriate when the greatest possible scaling ranges are selected However when you select a narrower scaling range including default scaling not all the decimal places may be significant This value reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Scaling lets you convert the input signal to units that fit your application Enter values for low and high scaling separated by a The values you enter can be from 32768to 32767 in twos complement binary or 7999to 7999 in BCD When you enter scaling the screen displays us er and the scale values If you enter 0 0 to select default scaling the screen displays df I t followed by the default scale values which are e for resistance binary 10 6500 BCD 1 650 e for temperature binary 2000 9000in Celsius 3280 16520in Fahrenheit BCD 200 900in Celsius 33 165in Fahrenheit Low scale can be higher than hi
105. adapter image file Config M aint 11 19 communication scan time Config M aint 11 11 fault routine Config M aint 11 12 I O status file Config M aint 11 14 main control programs Config M aint 11 24 memory protect feature C onfig M aint 11 10 PII Config M aint 11 20 processor resident local I O block transfer compatibility Config M aint 11 8 processor resident rack address C onfig M aint 11 7 start up procedure Config M aint 11 5 STI Config M aint 11 22 processor configuration screen Enhanced PLC 5 processors Config M aint 11 4 PROCESSOR FILES ALREADY EXIST NO DOCUMENTATION FILES EXIST ON SOURCE DRIVE DOCUMENTATION FILES WILL BE DELETED ON TARGET DRIVE Proceed error message Program 5 10 Processor Input Interrupt See PI processor memory comparing Program 4 2 files passwords Config M aint 15 3 processor memory file SFC example A SCII Program 7 20 1 26 processor memory files backing up duplicate copies Program 3 5 documenting Program 17 2 editing keys Program 17 14 guidelines Program 17 13 entering symbols Program 17 16 export Program 7 6 importing Program 7 2 ladder example ASCII Program 7 14 merging Program 3 12 naming Program 2 7 primary and secondary backup directories Program 3 5 primary and secondary save directories Program 3 5 restoring Program 3 7 save and continue Program 3 2 save and restore Program 3 3 saving Program 3 1 saving duplicate copies Program 3 5 us
106. ain Menu Software Config Define Dir 4 Processor Vv Documentation Memory Reports 4 or 2 D J archive files reports If you want to copy the example files to a different drive or directory go to DOS and copy them to the drive or directory you choose 1 11 Using the I O Configuration Utility Starting the I O Configuration Utility To start the I O configuration utility follow the steps on the left 1 0 Module System Overview Choose one Ladder Editor Ladder Editor Main Menu Or Main Menu Cursor to BT or General CIO instruction Utility Edit Vv Vo RGM Cat No Ser BTW data BTR data BTW ctrl BTR ctrl ile Overview Press a function key D Rem RUN no 1 0 modules Addr 42 TI NUVI EL 1 0 Edit Change Add New Mode Module fr Fil F6 Ifyou have not documented any modules yet the 1 0 Module System Overview screen appears with only two function keys F1 Change Mode and F6 Add New Module If You Want to Press this Key Change the processor mode F1 Change Mode Document a new module add a module record to the system F6 Add New Module Copy the configuration of a documented module F8 Copy if you have previously documented modules Return to the Ladder Editor Esc 1 12 Tip Using the I O Configuration Utility If you used the PLC 5 standalone I O configuration utility for N Series modules prior to release 4 4 and are now using the same processor n
107. alibration no Request gain calibration no Save auto calibration values no Channel Selections for Calibration 1 2 3 4 5 calibrate yes yes yes yes yes status ok ok ok ok ok Press F9 Toggle to change selection Rem Prog mod 7 of 7 Addr 12 TEST Change 1 0 Channel Module Monitor BT Data Toggle Accept Mode Ovrview Edit Edit Tables Fl F2 F3 F4 F5 F6 F9 Choose channels to calibrate Setothers to NO here by pressing F9 Toggle setRequest offset calibration toyes Apply a precision voltage of 0 000 mV to all selected channels O Press this key then press F8 Yes twice as it appears OG Press F9 ToggletosetRequest offset calibration tono OG Repeat step 4 setRequest gain calibration toyes 8 Apply a precision voltage of 100 000 mV to all selected channels Repeat step 4 setSave auto calibration values toyes Repeat step 4 If you are using CIO instructions the rack group module address in the upper right corner is replaced with a node slot address for example 001 00 2 41 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 42 Field Valid Values Request Offset Calibration Press F9 Toggle to select Yes or No Apply 0 000 mV to all channels before pressing F10 Accept Request Gain Calibration Press F9 Toggle to select Yes or No Apply 100 000 mV to all channels before pressing F10 Accept Save Auto calibration Values Press F9 Toggle
108. ame the I O configuration utility merges these modules into the I O configuration database This happens automatically when you first enter the I O configuration utility from the ladder editor During this merge a message states that your module list is being merged into the 6200 database The software edits the module list for you by adding the modules that you had configured using the standalone utility to the module list previously configured using the I O configuration utility Save your edits before exiting 6200 programming software or the modules from the I O standalone configuration utility will disappear from your module list Adding a Module to the Database Note 1 0 Module System Overview Add New Module Cursor to rs module to copy Choose a catalog number See page 1 15 Block Transfer Control You can add a module to the database in two ways Add New Module e copy the configuration from an existing module by cursoring to it and pressing e add anew module by pressing F 6 F8 Copy Follow the guidelines in the table below to decide which option to choose If you do not have any I O modules configured the F8 Copy keyis not available If You Want to Add Press this Key the first module of a given type F6 Add New Module If you press F6 Add New Module you need to choose the type of module to add on the I O Module Type Selection screen See page 1 15 for information about choosing a modu
109. annel Displays the address of the channel data Press F9 Toggle to select the desired range for the channel Enter output data values between 32768and 32767 Enter output data according to the selected range Value must be within the specified range Value of output when the processor is placed in Program mode communications are lost or the user disables the output Displays the status of the output active ori nacti ve Configuring 1794 Flex I O Modules Monitoring 1794 OE4 Series A and Series B Use the monitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1794 OE4 Data Monitor 1 0 Monitor Ladder Editor Cursor to BT 7 sed Pisin gt gt fe or 1 0 Module Monitor o gt fj p or Monitor Q Channel Edit D gt a 1794 0E4 8B Monitor Write BT Read BT Control File N7 1 NT 1 Data File N7 2 N7 2 Length 14 1 Failsafe Address Data Signal Data Status N7 2 4 000 mA 0 active N7 3 4 000 mA 0 active N7 4 4 000 mA 0 active N7 5 4 000 mA inactive Press a function key gt Rem Prog mod 1 of 1 Offline HCO_310 Change 1 0 Channel BT Data Display Mode Ovrview Edit Tables Symbols Fl F2 F3 F6 F7 8 4 Configuring 1794 Flex I O Modules Field Valid Values Write BT Displays control and data file addresses for the write block transfer instruction Read BT Displays control and data file addresses for the read block transfer instruction fthe module
110. aring Config M aint 12 9 17 1 codes Config M aint 12 8 12 9 17 5 major Config M aint 12 9 codes Config M aint 17 5 major and minor Config M aint 12 8 minor Config M aint 12 9 types of Config M aint 17 9 minor fault word 1 description Config M aint 17 9 minor fault word 2 description Config M aint 17 10 remote I O rack Config M aint 12 8 status information Config M aint 12 8 where faulted Config M aint 12 10 FBC instruction Instruction 10 2 FFL instruction Instruction 11 5 FFU instruction Instruction 11 5 FIFO Load FFL instruction Instruction 11 5 FIFO Unload FFU instruction Instruction 11 5 file search and compare operations Instruction 9 18 File Arithmetic and Logic instruction FAL Instruction 9 2 File Bit Comparison instruction FBC Instruction 10 2 file concepts control structure Instruction 8 3 manipulating data Instruction 8 4 modes of operation Instruction 8 7 parameters Instruction 8 1 file convert utility ACH to from AF5 Program A 1 AF5 to from X5 Program B 1 6200 series to from A I Series Program B 1 6200 series to from WINTelligent LOGIC 5 Program B 1 File Copy instruction COP Instruction 9 20 File Fill instruction FLL Instruction 9 21 file instructions logical Instruction 9 13 l 15 Master Index file number selecting Program 2 2 File Search and Compare instruction FSC Instruction 9 15 files archive See Processor M emory Files arithmetic operations Instruction 9 7
111. ation utility rounds the value you entered to match the prescribed step size of 0 16 mA When the programmed output data changes rapidly the module limits the actual rate of change of the output signal as indicated If you don t want the module to impose any limit on the rate of change of the output signal enter 0 The module always clamps outputs to 0 mA to 26 mA If you want narrower clamping range enter the low and high clamps in scaled units separated by a The software displays us er followed by the values you entered Enter 0 0 to use the default clamps The software displays df I t followed by the scaled values that correspond to 0 mA and 26 mA If low scale is higher than high scale the low clamp must be higher than the high clamp Displays the status of calibration and programming for this channel The processor must be in Run mode if you want to receive current status from the module Displays the status bits for alarms Ifall alarms are reset NONE appears The processor must be in Run mode if you want to receive current status from the module Use PageUp or PageDown to configure other channels Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 3 29 Configuring N Series Analog I O Modules Channel Edit Screen 50 mA output
112. bits are set by the module e Enabled you can edit the low high alarm alarm deadband and rate alarm The module reports these conditions as well as overrange and underrange if they occur Continued Field Rate Alarm Low High Alarm Alarm Deadband Channel Status Alarms Configuring N Series Analog I O Modules Valid Values Only available if alarms are enabled Enter a value in scaled units per second The rate alarm cannot be less than 0 04 or more than 50 of full scale Enter 0 to disable Only available if alarms are enabled Enter values in scaled units for low and high alarms separated by a You cannot set alarms below 10 4V or above 10 4 V When you enter alarms the screen displays us er and the alarm values If you enter 0 0 to select default low and high alarms the screen displays df t followed by default alarm values which are equal to the current low and high scale values If low scale is higher than high scale low alarm must be higher than high alarm Only available if alarms are enabled Enter a value It must be less than half of the difference between the low and high alarms and cannot exceed 255 99 for BCD Displays the status of calibration and programming for this channel The processor must be in Run mode if you want to receive current data from the module Displays the status bits for alarms Ifall alarms are reset NONE appears The processor must be in Run mode if you want t
113. bration Clock First Notch Frequency Module Data Type Channel CAL Thermocouple Type Configuring 1794 Flex I O Modules Valid Values Press F9 Toggle to select between OFFSET and GAIN Press F9 Toggle to select between STOP and START Displays the first notch frequency in Hz Press F9 Toggle to select among 10 Hz 25 Hz 50 Hz 60 Hz 100 Hz 250 Hz 500 Hz and 1000 Hz The default is 10 Hz Press F9 Toggle to selectamong DEGREES CENTIGRADE DEGREES FAHRENHEIT BIPOLAR between 32768and 32768 and UNIPOLAR between 0 and 65535 Displays the index number of a valid channel Press F9 Toggle to indicate if the channel is calibrated Press F9 Toggle to select among millivolts B E J K R S T C N Module Data Time Stamp Cold J unction Temp 0 3 Cold J unction Temp 4 7 and No Sensor The default is millivolts 8 19 Configuring 1794 Flex I O Modules Monitoring 1794 IT8 Series A Use the monitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1794 IT8 5 to BT Data Monitor 1 0 Monitor Choose one a D gt eee en D gt rf sp al or 1 0 Module Monitor o gt fj p or Monitor Q Channel Edit ae a 1794 I T8 A Monitor Thermocouple Type Thermocouple Type millivolts 0 millivolts millivolts millivolts millivolts millivolts millivolts millivolts UNCONFI GURED INVALID CALI BRATI ON Ok CALI BRATION COMPLETE INVALID THERMOCOUPL REFERENCE SIG
114. bus voltage current parameters T Synchronization bus power parameters 8 Reference bus voltage parameters 9 Diagnostic 24 parameters 1 Full length BTW or CIO Write and BTR or CIO Read instructions must be specified explicitly to calibrate the module When you finish entering information press F10 Accept to validate and save the information 1 9 Using the I O Configuration Utility Block Transfer Example Disk 1 10 A block transfer example disk containing archive files and ASCII ladder listing and data table reports is also included with your 6200 programming software Use this disk to view block transfer programming examples for certain module types The following table summarizes the control file types and names Control File Type Block Transfer Block Transfer Block Transfer Block Transfer Block Transfer Block Transfer Block Transfer Block Transfer Block Transfer Name Control File Type ransfer ransfer ransfer ransfer ransfer ransfer ransfer ransfer esrenie a Name CFM_MOD DR_MASK FLEX OE4 FLEXCOMB NSERIES PD QB IAXIS QC 2AXIS Install the example disk the same way you installed the 6200 programming software i e I nstal I drive Enter You should have already installed 6200 programming software Install the example disk to the same drive that you installed the 6200 programming software For more information on installatio
115. celeration Alarm Value Acceleration Sample Time Freq Intervals Highest Allowed Frequency Lowest Measurable Frequency End Sample On Counts to End Sampling Valid Values Displays the following Configuring the 1771 VHSC and 1771 CFM e the current channel mode as returned in the BTR or CIO Read data file by the module e the current scaled frequency in totalizer and nonresettable totalizer modes the scaled total counts e the change per second in scaled frequency only if the acceleration alarm value is nonzero e notused e totalizer e nonresettable totalizer Press F9 Toggle to select a channel mode from this list e high resolution frequency channels 0 and 2 only direction sensor channels 0 and 2 only The last two modes are two channel modes If you program channel 0 in either of these modes the software sets channel 1 to not used and you cannot edit it If you program channel 2 to a two channel mode the software sets channel 3 to not used and you cannot edit it Enter a value of 4 to 1000 ms The default if you enter 0 is 100 ms in the totalizer modes and 4 ms in frequency and direction modes In direction mode this field is meaningful only when the lowest measurable frequency is 1 sample time Enter an alarm value up to 32 767 If the acceleration alarm is 0 the default all acceleration features of the module are disabled Only when the acceleration alarm is not 0 Enter
116. ces or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 3 23 Configuring N Series Analog I O Modules Channel Edit Screen 10 V output Ladder Editor Cursor to BT or Edit 1 0 Edit Channel Edit KR gt CIO instruction gt gt gt B or 1 0 Module Edit Channel Edit o gt gt i or Module Edit Channel Edit Q or Monitor or Ep 4 BT Data r3 la N Series A Channel 2 Edit output channel type 10 V output data signal 000 V low high scale user 20000 20000 reset state user value 10 VI 10 V value of output on reset 0 alarms are disabled maximum ramp rate per second of full scale eng units low high clamp d 20800 20800 disabled disabled channel status cal amp prog OK al arms none Please enter output value in scaled units 32767 in binary 7999 in BCD gt Rem Prog mod 7 of 17 Offline ARDA Change 1 0 Switch Module Monitor BT Data Default Accept Mode Ovrview Channel Edit Tables Fl F2 3 F4 F5 F6 F10 3 24 Configuring N Series Analog I O Modules Field Valid Values Output Channel Type Displays the input output module channel configuration Output Data I Enter the value in scaled units to be sent to the module If you programmed a rate limit the output may take some time after you press F10 Accept to reach the value shown here During
117. cing I O disabling Config M aint 18 7 enabling Config M aint 18 7 from Force Monitor Config M aint 18 3 from ladder editor Config M aint 18 2 removing forces Config M aint 18 5 formatting keywords Program 6 7 FRD instruction Instruction 6 4 FSC instruction Instruction 9 15 function keys Config M aint 3 6 G gain constants Instruction 14 4 gapping Config M aint 9 4 generating contact histogram Config M aint 19 1 reports Config M aint 20 1 GEQ instruction Instruction 3 7 3 8 global control bits Config M aint 12 29 global inhibit bits clearing Config M aint 13 30 13 64 global status bits Config M aint 12 27 global status flags file Config M aint 13 27 GOTO placing Program 11 10 using Program 11 9 Greater Than or Equal To instruction Instruction 3 7 3 8 H help Config M aint 3 7 histogram See contact histogram history of data table values See contact histogram host list editor Config M aint 8 22 hot keys available throughout 6200 programming software Config M aint 3 3 moving between screens Config M aint 3 3 SFC Editor Program 8 20 l I O automatic configuration Config M aint 12 34 I O configuration accepting edits 1 0 Config 1 21 review errors OConfig 1 21 adding a module 1 0 Config 1 13 adding or copying 1 0 Config 1 13 applying default values I O Config 1 21 auto calibrating 1771 IFE Series C 1 O Config 2 7 auto calibrating 1771 IR Series B 1 O Config 2 25 auto calibrating
118. ction 15 27 Config M aint 16 10 compare Instruction 3 3 diagnostic Instruction 10 1 entering Program 15 4 examples Program 13 3 memory requirements Instruction A 1 message Instruction 16 1 MSG monitoring Config M aint 16 11 operands Instruction C 2 PID monitoring Config M aint 16 14 program flow Instruction 13 1 quick reference Config M aint A 1 relay type Instruction 1 1 2 1 sequencer Instruction 12 1 shift register Instruction 11 1 timer Instruction 2 2 timing Instruction A 1 INTERCHANGE Config M aint 6 35 INTERCHANGE compliant software using 6200 software with Config M aint 4 30 internal modem Config M aint 6 27 INVALID OPERAND error message Instruction 4 4 IOT instruction Instruction 1 9 IRD marking Program 15 3 IRQ setting Config M aint 4 5 IRQ settings Config M aint 1 7 6 21 19 Master Index IT executable C onfig M aint 2 4 See also programming software starting J JMP instruction Instruction 13 5 JSR instruction Instruction 13 12 Jump instruction Instruction 13 5 Jump to Subroutine instruction Instruction 13 12 K keys function Config M aint 3 6 input Config M aint 3 3 ladder editor Program 14 4 navigational C onfig M aint 3 3 keywords WIDTH Program 6 8 formatting Program 6 7 using Program 6 7 L Label LBL instruction Instruction 13 8 Label instruction Instruction 13 5 labels Program 11 9 placing Program 11 10 ladder editing effects of online Program
119. ctive node identification screen ControlN et WHO ACTIVE Config M aint 8 26 active node list See status information active node active node status screen ControlN et WHO ACTIVE Config M aint 8 28 adapter channel response configuring Config M aint 11 9 Master Index adapter mode configuring channels 1A 2B Config M aint 13 32 monitoring status Config M aint 14 22 transferring data determining processor status Config M aint 14 25 determining status of supervisory processor Config M aint 14 26 transferring bits with supervisory processor Config M aint 14 24 ADD instruction Instruction 4 14 adding a module I O configuration 1 0 Config 1 13 adding a module to the database I O configuration 1 0 Config 1 13 adding or copying I O configuration 1 0 Config 1 13 Addition instruction ADD Instruction 4 14 addressing data files Config M aint 9 1 9 11 frequently used files Config M aint 9 8 I O image Config M aint 9 17 I O status file Config M aint 11 15 indexed Config M aint 9 20 indirect Config M aint 9 19 logical Config M aint 9 12 mnemonics Config M aint 9 14 symbolic Config M aint 9 22 AEX instruction Instruction 17 11 AFI instruction Instruction 13 19 AHL instruction Instruction 17 12 A I Series to 6200 series conversion Program B 1 Config M aint 7 6 AIC instruction Instruction 17 14 Always False instruction Instruction 13 19 analog modules configuring 1 0 Config 2 1 AND instruction Instruction 5
120. d IFE C 2 1771 SDN A module 2 1794 Flex I O Series B modules 8 1794 IR8 A and 1794 IT8 A Flex I O modules 8 To help you find new and updated information in this release of the manual we have included change bars as shown to the right of this paragraph
121. d it turns ON when the current count or frequency reaches the On Count and turns OFF when the current count or frequency reaches the Off Count The On Count may be greater or less than the Off Count Valid values for the On Count and Off Count depend on the mode of the counter that this output is tied to e Ifthe counter is in Counter mode Encoder mode Period Rate mode or Cont Rate mode enter values from 0 to 999 999 counts The module compares the current count BTR or CIO Read words 3 10 to these On and Off Counts e Ifthe counter is in Rate Meas mode enter values from 0 to 500 000 Hz for the On Count and the Off Count The module compares the frequency stored value BTR or CIO Read words 11 18 to these On and Off Counts The On Count and the Off Count are ineffective if the Config field shows Disabled or Forced On The I O configuration utility does not view this as a problem because some applications use the PLC program to alter the Config bits in the BTW or CIO Write data file If your program doesn t do this make sure you set the Config field on this screen when you set nonzero On Countand Off Count F9 Toggle switches through e Disable forces the output to an OFF state by setting the output enable to zero e Forced On forces the output to an ON state by setting the force and enable to 1 e Enable allows the On Count Off Count and Count Value to determine the ON OFF cycle of the output by setting the enable to 1 The default is
122. d value to the number you enter Series B Enter a value between 0 19379and 0 19379 for manual calibration Valid values are in steps of about 0 00153 the software calculates the nearest valid value to the number you enter If you plan to perform auto calibration all manual calibration offset and gain fields must be 0 Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 IR Series A and Series B Use the M onitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1771 IR Cursor to BT or Ladder Editor gt CIO instruction Choose one or Monitor Q 1 0 Module EN System Overview B a Channel Edit Monitor or Q or Module Edit gt or BT Data 1771 IR A Write BT Control File N110 0 Data File N110 50 Length 14 Channel Address N120 52 N120 53 N120 54 N120 55 N120 56 N120 57 Press a function key Rem Prog Change 1 0 Channel Module Mode Ovrview Edit Edit Fl F2 F3 F4 Data Monitor 1 0 Monitor On No BTW or CIO Write received since module powerup Off BTW s or CIO Write s received since module powerup RGM 1 Power Up Bit off Module Status normal Real Time Sample Status normal
123. data I O Config 8 22 1794 0E4 configuring 1 0 1 0Config 8 2 monitoring 1 0 1 0Config 8 4 6171 IDH COM1 COM2 Config M aint 1 7 IRQ settings Config M aint 1 7 using with the software Config M aint 1 6 6174 DM B9 Config M aint 1 2 6200 programming software capturing screens Config M aint 3 7 DOS mouse driver Config M aint 1 3 exiting Config M aint 2 10 function keys Config M aint 3 6 improving performance Config M aint 1 10 input keys Config M aint 3 3 installing Config M aint 1 1 keys Config M aint 3 3 main menu Config M aint 3 1 navigational keys Config M aint 3 3 registration Config M aint 1 18 starting Config M aint 2 1 ControlNet WHO Network Menu Config M aint 2 5 DH WHO Network Menu Config M aint 2 5 Ethernet WHO Network M enu Config M aint 2 5 Smart Menu Config M aint 2 1 with an executable Config M aint 2 4 user configuration Config M aint 2 8 6200 series to A l Series conversion Program B 1 6200 series to WINTelligentL OGIC 5 conversion Program B 1 A ABL instruction Instruction 17 5 ABMENU adding entries Config M aint 1 18 modifying Config M aint 1 15 ABMENU EXE Config M aint 2 3 ACB instruction Instruction 17 7 accepting edits 1400 PB OConfig 5 1 1400 PD 1 OConfig 5 1 I O configuration 1 0 Config 1 21 power monitor devices I O Config 5 1 review errors OConfig 1 21 ACI instruction Instruction 17 9 ACN instruction Instruction 17 10 ACS instruction Instruction 4 13 a
124. decimal places may be significant This value reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Scaling lets you convert the input signal to units that fit your application To do this enter two scale values separated by a that correspond to the predefined signal values of 4 mA and 20 mA The values you enter can be from 32768to 32767 in twos complement binary or 7999to 7999 in BCD When you enter scaling the screen displays us er and the scale values If you enter 0 0 to select default scaling the screen displays df I t followed by the default scale values which are 4000 20000 in binary or 40 200 in BCD Low scale can be higher than high scale In this case the low alarm must also be higher than the high alarm Enter a value e Ifthe data format is binary enter a value between 0 1 and 10 seconds 0 1 second increments e Ifthe data formatis BCD enter a value between 0 1 and 9 9 seconds 0 1 second increments The default is 0 no filtering Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status bits are set by the module e Enabled you can edit the low high alarm alarm deadband and rate alarm The module reports these conditions as well as overrange and underrange if they occur The processor must be in Run mode if you want to receive current status from
125. disregarded Resolution Press F9 Toggle to select 10 uV resolution or 1 uV resolution zoom Zoom Mode mode Zoom mode applies only to channels where the sensor type is mV Sensor Type Press F9 Toggle to select millivolts 100 mV type B type E type type K type T type R type S The default is mV Filter Constant Enter values from 0 50 to 6 4 seconds for channels 1 4 and channels 5 8 Valid filter values are in 25 ms increments the software rounds the value you enter to the nearest 0 025 second 25 ms Enter 0 for no filter The default is 0 Zoom Center Enter the zoom center between 70and 70 mV for channels 1 4 and 5 8 in mV This field is only available if zoom mode is enabled and the sensor type is mV Press F3 Channel Edit for other configuration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 2 36 Configuring Analog I O Modules Other than N Series Analog I O Modules Channel Edit Screen 1771 IXHR c to BT Edit 1 0 Edit Channel Edit mene O a RRS gt gt gt or Edit Channel Edit oc i or Module Edit Channel Edit Q or Monitor or p B BT Data j 1771 IXHR A Channel Edit RGM 211 Data Units Lo Alm Hi Alm Offset Gain mV 00 00 00000 mV 00 00 i 00000 80 55 mV 00 00 00000 80 56 mV 00 00 00000 80 57 mV 00 00 00000 80
126. dule Edit i 1 0 Module ER Or System Overview Cursor on Edit BT instruction r input type single ended data format BCD lie digital filter 0 00 seconds real time sample rate 0 0 second s 0 continuous Edit rd Press F9 Toggle to change selection Rem Prog mod 1 of 4 Addr 12 TEST Change 1 0 Channel Monitor BT Data Default Toggle Accept Mode Ovrview Edit Tables Config VO Edit Fl F2 F3 F5 F6 F8 F9 F10 I O modules may have several edit or setup screens e g module edit channel edit 1 19 Using the I O Configuration Utility If You Want to Change processor mode Return to the System Overview screen Move to other edit screens for a module Exact function of these keys varies for different module types Monitor the module s data and status Display block transfer configuration and input data and Status information e Display data in octal format e Display data in decimal format e Display data in Hex BCD format Return to the the default configuration values for the module Press this Key if available F1 Change Mode F2 1 0 Overview Esc F 3 F4 F5 Monitor F6 BT Data Tables On all Block Transfer Data screens F6 Change Radix You see e F2 Octal Data e F3 Decimal Data e F4 Hex BCD Data F8 Default Config Other Functns See Applying Default Values on page 1 21 Cycle through available options for data field F9 Toggle Press
127. e See Table 1 A for information Guidelines for Programming BT and CIO Instructions in the Ladder Editor Note Note BTW BTR You must program the BT or CIO instructions for a module before you can add the module to the database Program these instructions in the ladder editor For more information about programming block transfers or ControlNet 1 0 transfers see the Instruction Set Reference manual See the appropriate user manual for a particular module to look at sample ladder programs for that module All BT instructions for a module must have the same rack group module address all CIO instructions for a module must have the same node slot address A Iso the rack group module address when using BT instructions or the node slot address when using CIO instructions for a new module must not be the same as the rack group module address BT or node slot address CIO for another module already documented on the same processor Some modules require more than one BTW or CIO Write instruction and BTR or CIO Read instruction See Table LE Record the control file addresses when you program the block transfers and ControlNet 1 0 transfers so that you can enter these addresses on the Block Transfer Control screen when you are documenting an I O module Using the I O Configuration Utility Table 1 C Required BT or CIO Data for Modules Requiring One BTW or CIO Write and One BTR or CIO Read except N Series se
128. e Table 1 D This Module Requires a BTW or CIO Write Anda And Requires a BTR or CIO Read Anda with these Lengths in words 2 Default with these Lengths in words 2 Default Length Length of 2 of 2 1771 CFM A 1 2 3 4 14 24 34 44 48 52 3 4 5 14 23 32 or 41 41 56 or 60 1771 IFE A and 3 37 37 5 20 20 1771 IFE B 1771 OFE A and 5 or 13 13 5 5 1771 0FE B 1771 VHSC A 6 1 2 4 12 20 24 29 34 39 44 64 1 26 18 49 54 59 or 64 1794 IE4XOE2 A 1 10 10 1 5 5 and 1794 IE4XOE2 B 4 1794 IE8 A and 1 6 1 9 9 1794 IE8 B 4 1794 1794 OE4 A and 1 14 14 1 1 OE4 B 4 1 The software inserts the default lengths for these instructions if you specify 0 BT only 2 These lengths are also valid when documenting a module from the channel configuration for ControlNet PLC 5 processors 3Fulllength BTW or CIO Write and BTR or CIO Read instructions must be specified explicitly to calibrate the module 4The 1 771 SDN and the 1794 IE4XOE2 IE8 IR8 IT8 and OE4 modules cannot use CIO instructions on ControlNet I O 5 These modules are not supported using scheduled 1 0 with ControlNet PLC 5 processors 6 If you want to read any totalizer values contained in words 19 26 you must specify the BTR or CIO Read length explicitly Using the I O Configuration Utility Table 1 D Required BT and CIO Data for N Series 2 Analog Modules An N Series Module With The And the Requires a BTW or CIO Write Anda And aBTR
129. e and or RTD inputs Data Format Press F9 Toggle to select Twos Complement Binary or BCD The default is Twos Complement Binary Press F3 Channel Edit to configure individual channels or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Channel Edit Screens N Series Analog Switch Channel and then press the appropriate function key for the channel you want to edit To Edit Channel Information for this Input Output See Page 5 V input 3 6 10 V input 3 9 55 mV thermocouple input 3 12 100 mV thermocouple input 3 15 650 ohm RTD input 3 18 20 mA sourcing sinking input 3 21 10 V output 3 24 25 mA output 3 27 50 mA output 3 30 3 5 Configuring N Series Analog I O Modules Channel Edit Screen 5 V input Edit Ladder Editor Cursor to BT or GAS gt CIO instruction or Edit Channel Edit 1 0 Module A gt p gt E or Module Edit Channel Edit or Monitor or B Q BT Data B N Series A Channel 3 Edit input channel type 5V input data 5100 signal low high scale dflt 1 VI 5 V 1000 5000 filter alarms are enabled rate alarm dflt low high alarm 1000 5000 channel status cal amp prog OK alarms Please enter gt Rem Prog Change 1 0 Switch Module BT Data Mode Ovrview Channel Edit Tables Fl F2 F3 F4 F5 F6 low and high scale separated by
130. e current page Scroll up one page Go to the preceding screen in a series of screens Scroll down one page Go to the next screen in a series of screens Press this Key Home End left arrow If this is the first field on the line move to the last field of the preceding line right arrow If this is the last field on the line move to the first field on the next line Ctrl left arrow Ctrl right arrow up arrow Ifthere are no fields above this one move to the bottom of the current page down arrow If there are no fields below this one move to the top of the current page Ctrl PageUp Ctrl PageDown PageUp PageDown Using the I O Configuration Utility Documenting a Module To document a module When using Perform the following steps this Instruction BT 1 In the ladder editor program the BT instructions for the module 2 Inthe I O configuration utility add the module to the 1 0 configuration database CIO 1 In the ladder editor program the CIO instructions for the module all modules excluding 1771 SDN and 1794 Flex I O on ControlNet 2 Inthe I O configuration utility add the module to the 1 0 configuration database 3 Inthe channel configuration for a ControlNet PLC 5 processor enter network device and I O mapping information for the module 1771 CFM A IFE A IFE B IFE C IL A IL B IR A IR B IXE A IXE B IXHR A OFE A OFE B VHSC A and N Se
131. e for that channel F9 Toggle switches through e Counter the counter channel reads incoming pulses on channel A from single phase outputs while sensing direction from channel B and the puts the count in the read block transfer or ControlNet 1 0 transfer data e Encoder x1 the counter reads incoming pulses from 2 phase quadrature outputs and puts the count in the read block transfer or ControlNet I O transfer data counts on the leading edges of channel A and senses direction on channel B e Encoder x4 the counter reads incoming pulses from 2 phase quadrature outputs and puts the count in the read block transfer or ControlNet I O transfer data counts on leading and trailing edges of channel A and B and senses direction from channel B e ChNotUsed channel not used e Period Rate the counter channel performs period rate counting by gating the 4 MHz internal clock signal with an external signal at the gate reset input the count frequency and outputs are updated at the end ofa falling edge of a gate reset pulse e RateMeas the counter channel will calculate the frequency of an external signal on channelA based on a Selectable time base and returns count and frequency in the read block transfer or ControlNet I O transfer e Cont Rate the counter channel performs continuous rate counting by gating the 4 MHz internal clock signal with an external signal at the gate reset input the count and frequency are updated at the end of a selectable number
132. e output state of the current channel ON or OF F If you are using ClO instructions the rack group module address in the upper right corner is replaced with a node slot address for example 001 00 Configuring the 1771 VHSC and 1771 CFM 1771 VHSC A Monitor BTW BTR Reset Preset Gate Reset Gate Reset Ctr New Data Ack New Data Enable Enable Config Signal 0 No Old Data Reset Reset H True Inactive 1 No Old Data Reset Reset H True Inactive 2 No Old Data Reset Reset H True Inactive 3 No Old Data Reset Reset H True Inactive Power up Status A successful BTW has occurred since module start up Program Status No Program Errors PLC Addresses Write BT Read BT Control File N12 100 N15 105 Data File N39 2 N10 25 Data File Length 64 18 Press Page Up to view counter and output information 2 of 2 gt Rem Prog 5 10 File PJA3 Change System Counter Output Other Display Mode Ovrview Setup Setup Monitor Symbol s F1 F2 F3 F4 F5 F7 Field Monitor 2 of 2 Displays this Information Ctr Displays the counter channel 0 to 3 BTW New Data ACK Your ladder program can acknowledge new data sent from the module by setting the data ACK bit for a particular channel This field displays YES when your program sends an acknowledgement to the VHSC module NO when no acknowledgement is sent This field is controlled by your ladder program and is display only BTR New Data After new data has been acknowledged ACK sent to
133. e receiving object does not carry out any other internal action Use this function to test if a particular object is present and responding without causing a state change Block Size Displays the block size between 0 and 29 Transaction ID Displays the transaction ID number between 1 and 255 Note Transaction ID field values will constantly update for each BTR that iS performed The 1771 SDN series A module supports continuous data reading be sure that the BTR control block is set for continuous operation when configuring this module F or more information on the 1771 SDN series A module see the 1771 SDN DeviceNet Scanner Module manual for more information on using the BTR instruction see the Instruction Set Reference manual Configuring Analog I O Modules Other than N Series Analog I O Modules Displaying Block Transfer Data for 1771 SDN Series A Modules Use the Block Transfer Data screen to display an image of the processor data tables fora 1771 SDN series A module without returning to the ladder editor to use the data monitor function Follow the steps on the left 1 0 Module or 1 0 Module SystemOverview System Overview Edi Monitor BT Data Tables BT Data Tables J 5 1771 SDN A Block Transfer Data Block Transfer Wite Data 0 Press a function key Rem Prog mod 1 of 1 File SCANNER Change 1 0 Monitor Change Display Mode Ovrview Radix Symbols Fl F2 F5 F6 F7 You cannot edit the information on this scr
134. ecify this mode you must tie the output to a channel and that channel s mode must be totalizer or nonresettable totalizer You cannot enter ON and OFF values The output will be ON when the overflow bit is set in the BTR or CIO Read and OFF when the overflow bit is clear e Prover Running If you specify this mode you must tie the output to a channel and that channel s mode must be totalizer or nonresettable totalizer You cannot enter ON and OFF values The output will be ON during a prover run and OFF at other times Continued 4 16 Configuring the 1771 VHSC and 1771 CFM Field Valid Values Forced or Triggered by continued Press F9 Toggle to select one of these characteristics e Prover Range Ifyou specify this mode you must tie the output to a channel and that channel s mode must be totalizer or nonresettable totalizer For ON and OFF values press F9 Toggle to select possible prover values prover not selected prover selected but not running in fwd forward leg fwd leg done in rev reverse leg and done If the channel s prover type on the Channel Setup screen is unidirectional fwd leg done and in rev leg are not valid settings for ON and OFF values e ForcedOn Ifyou specify this mode you cannot tie this output to a channel or enter ON and OFF values The default is Disabled Enter a value between 0 and 9 999 999 e The output state transitions from an OFF state to an ON state when the
135. ect one of these characteristics Triggered by e Disabled always forces the output to an OFF state If you select this mode you cannot tie this output to a channel and the software won t let you enter ON and OFF values e Rate Frequency Ifyou select this mode you must tie the output to a channel Specify ON and OFF values in Hz notin scaled frequency units e of FullScale Ifyou specify this mode you must tie the output to a channel and that channel s mode must be totalizer nonresettable totalizer or high resolution frequency Specify ON and OFF values as percentages of the channel s highest allowable frequency from the Channel Setup screen e Acceleration If you specify this mode you must tie the output to a channel and that channel s acceleration alarm must be nonzero Specify ON and OFF values of 32 768to 32 767 Hz s representing a change per second in unscaled frequency e Total Ifyou specify this mode you must tie the output to a channel and that channel s mode must be totalizer or nonresettable totalizer Specify ON and OFF values in unscaled counts from 0 to 9 999 999 If the channel has a nonzero rollover value programmed the ON and OFF values must be less than the rollover e Direction If you specify this mode you must tie the output to a channel and that channel s mode must be direction sensor For ON and OFF values press F9 Toggle to select stop CW clockwise or CCW counterclockwise e Overflow If you sp
136. ee next field Value Of Output Only available if Reset State is User Value On Reset Enter a value in scaled units Alarms Are Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status bits are set by the module e Enabled the module sets alarm status bits for bad output data low high clamp and limited rate if those conditions occur The processor must be in Run mode if you want to receive current status from the module I Enter either of these two fields and the software computes the other field for you using the programmed scaling Continue 3 25 Configuring N Series Analog I O Modules Field Maximum Ramp Rate Per Second Low High Clamp Channel Status Alarms Valid Values Enter a rate limit either as a percentage of full scale per second 1 to 200 or as a change in signal per second 0 2 to 40 in steps of 0 2 When the programmed output data changes rapidly the module limits the actual rate of change of the output signal as indicated If you don t want the module to impose any limit on the rate of change of the output signal enter 0 The module always clamps outputs to 10 4 V Ifyou want a narrower clamping range enter the low and high clamps in scaled units separated by a The software displays us er followed by the values you entered Or enter 0 0 to use the default clamps The software displays df I t followed by the scaled equivalent of 10 4V and 10 4
137. ee the description of the power up bit in the 1771 Configurable Flowmeter Module User Manual Rem RUN Change Mode F1 1 0 Ovrview F2 Channel Out put Setup Setup F3 F4 Tables F6 4 18 Data Monitor acceleration OF overflow ch mode direction prover output current tied to status number status channel 0 high resolution frequency 0 of f 0 1 not used 1 off 2 2 totalizer done 2 on 0 3 nonresettable totalizer done 3 off 0 Has module received valid BTW since powerup yes BTW error code none BT Data 1 0 Monitor E Output Setup a RGM 0 00 prover total alarms stored count 0 0 0 0 0 OF OR overrange mod 1 of 1 Addr 42 CFM4B Configuring the 1771 VHSC and 1771 CFM Field Displays this Information Channel Displays the channel 0 to 3 Frequency Displays the frequency in Hz and full scale Total Displays scaled total counts using scaling from the Channel Setup screen in totalizer and nonresettable totalizer modes Acceleration Displays the acceleration as a change per second in scaled requency in totalizer nonresettable totalizer high resolution requency and direction sensor modes Prover Total Displays the stored count or prover run result tot al i zer and Stored Count nonresettable totalizer total Alarms Displays S P overspeed AC acceleration OF overflow OR overrange Mode Displays the current counter mode Direc
138. een 2 53 Configuring N Series Analog I O Modules 3 Configuring N Series Analog I O Modules Chapter Objectives Note This chapter explains how to configure N Series analog I O modules 1771 NBRC NBSC NBTC NBVC NBV1 NB4S NB4T NIS NIV NIVR NIVT NIV1 NOC NOV NR NT1 NT2 NX1 NX 2 NX3 NX4 You should have already read chapter 1 because it explains the basic functions and screens you ll use If you used the PLC 5 standalone I O configuration utility for N Series modules prior to release 4 4 and are now using the same processor name the I O configuration utility merges these modules into the I O configuration database This happens automatically when you first enter the I O configuration utility from the ladder editor During this merge a message states that your module list is being merged into the 6200 database The software edits the module list for you by adding the modules that you had configured using the standalone utility to the module list previously configured using the I O configuration utility Save your edits before exiting 6200 programming software or the modules from the I O standalone configuration utility will disappear from your module list Choosing a Catalog Number W hen you add an N Series module to the I O configuration database enter the block transfer or ControlN et I O transfer information on the Block Transfer Control screen The I O configuration utility then tries
139. efault alarms are equal to the current low and high scale values In degree modes the default alarms are the scaled equivalents of the operating limits for the selected thermocouple type If low scale is higher than high scale low alarm must be higher than high alarm If alarms are enabled Enter a value It must be less than half of the difference between the low and high alarms and cannot exceed 255 99 for BCD The default is 0 Displays the status of calibration and programming for this channel The processor must be in Run mode if want to receive current status from the module Displays the status bits for alarms If all alarms are reset NONE appears or PageDown to configure other channels Press F4 Module Edit for other configuration choicesor F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring N Series Analog I O Modules Channel Edit Screen 100 mV thermocouple input oe Cursor ETG Edit 0 Edit Channel Edit Choose one Main Menu ae ClO instruction Be gt gt fe or Edit Channel Edit eiu gt el or Ch l Edit o G B al N Series A input data Channel 5 Edit thermocouple type 4520 type J signal low high scale dflt 300 1800 C 3000 18000 filter const alarms are enabled rate alarm 100 per sec low high alarm dflt 2100 12000 a
140. el Data Enter output data values between 32768and 32767 Range Displays a value for the range in volts or mA for channels 1 4 Displays a range value for channels 5 and 6 of the N4C2 module in mA Displays a range value for channels 5 and 6 of the N4V2 module in volts Lo Scaland Only editable if scaling is user defined This field is not displayed when scaling is off This field is displayed Hi Scal but not editable when you choose default scaling Enter values for low and high scale low scale must be less than high scale Data from the BTR or ClO Read will be scaled between these values Alarm Channels 1 4 only Press F9 Toggle to turn lo and hi alarms On or Off Lo Alm and Only displayed when alarm is on Hi Alm Enter the alarm values Low alarm must be less than high alarm Deadband Only displayed when alarm is on Enter the alarm deadband value lt 1 2 hi alarm lo alarm 7 3 Configuring 1791 Analog I O Blocks Monitoring 1791 Analog I O Blocks Use the monitor screen to check and verify the configuration data Follow the steps below Monitor Screen Ladder Editor Cursor to BT or Data Monitor V0 Monitor Choose one a CIO instruction gt re gt al or Monitor b 1 0 Module A System Overview B or Monitor Q g GB On No valid BTW or CIO Write Off Valid BTW s or CIO Write s 1791 N4C2 A Monitor Control file 0 power up bit of Data file scaling USER DEFINED Length 5 filter ti
141. el Address Data Units Status Valid Values Control and data file addresses and length for the BTW or CIO Write instruction Control and data file addresses and length for the BTR or CIO Read instruction ON or OFF to indicate whether or not the module powered up successfully f there is a range error ERROR otherwise NORMAL f there is a scaling error INVALID otherwise NORMAL fthere is an RTS error TIMEOUT otherwise NORMAL f the new calibration values cannot be stored in memory FAILED otherwise OK ndex number of the valid channel Displays the logical address of the value in the Data field P ress F7 to display symbols if you ve defined them in place of addresses Displays online data from the module The data is read from the BTR or ClO Read data file on the processor and may be out of date if the processor is notin Run mode Displays a word or phrase that describes the type of channel data Whether the channel data is Normal Overrange or Underrange Configuring Analog I O Modules Other than N Series Analog I O Modules Auto Calibrating 1771 IFE Series C Y ou must be connected to a processor to calibrate a module To calibrate a1771 IFE series C module follow the steps on the left Auto Calibration Screen 1771 IFE Series C only In order to access the auto calibration function you must Specify the maximum lengths for the BTW or CIO Write 15 and BTR or CIO Read 9 fields in yo
142. el Edit screen to report ohms Real Time Enter a value Sample Rate Series A 0 35 or 0 4 to 3 1 Series B 0 1 to 3 1 Enter 0 for disabled The defaultis disabled Copper RTD This field only appears if the Sensor Type is Copper Resistance Enter a value Series A 9 00 to 10 99 ohms Series B 9 00 to 11 00 ohms The default is 10 00 ohms Press F3 Channel Edit to configure individual channels or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring Analog I O Modules Other than N Series Analog I O Modules Channel Edit Screen 1771 IR 10 Module Edit Channel Edit Chooseone p me Ga or Channel Edit 2 Module E 3 Cursor to BT or Edit 1 0 Edit Channel Edit Q m cio instruction gt ru gt gt 1771 IR A Channel Edit RGM 111 ni ts Offset Gain rees 0 0000 rees 0 0000 rees 0 0000 rees i 0000 rees X 0000 rees 0000 Enter a channel number gt Rem Prog mod 6 of 6 Addr 12 TEST Change 1 0 Monitor BT Data Display Default Accept Mode Ovrview Tables Symbols Config Fl F2 F5 F6 F7 F8 F10 2 21 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Valid Values Channel Index number of a valid channel Enter 1 to 6 to move to the line for that channel or use the arrow keys Address Displays the
143. el edits saving Config M aint 13 7 channel functions default Config M aint 13 1 Channel Overview screen Config M aint 13 5 channel status interpreting for channel 0 Config M aint 14 5 interpreting for ControlNet Config M aint 14 30 interpreting for Data Highway Plus Config M aint 14 12 interpreting for Ethernet Config M aint 14 27 interpreting for extended local I O Config M aint 14 33 interpreting for PLC 5 Ethernet Interface Module Config M aint 14 36 interpreting for remote I O adapter Config M aint 14 22 interpreting for remote I O scanner Config M aint 14 18 channel status screen ControlNet WHO ACTIVE Config M aint 8 29 choosing a catalog number N Series 1 0 Config 3 1 choosing a module type I O configuration I O Config 1 15 CIO instruction Instruction 15 25 monitoring Instruction 15 27 Config M aint 16 10 status bits Instruction 15 28 using Instruction 15 26 classes privileges Config M aint 15 8 Classic PLC 5 processors Instruction vii Program viii 1 OConfig viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 Clear instruction CLR Instruction 4 20 clearing memory Config M aint 3 18 CLR instruction Instruction 4 20 CMP instruction Instruction 3 3 collisions importing documentation Program 6 6 color display adjusting on a 1784 T 47 Config M aint 5 5 colors See Programming Terminal configuring COM1 COM2 communications C onfig M aint 6 20 setting the baud rate Config M aint 1 7
144. enter 0 0 to select default low and high alarms the screen displays df t followed by the default alarm values In resistance mode the default alarms are equal to the current low and high scale values in temperature modes the default alarms are the scaled equivalents of the operating limits of the channel If low scale if higher than high scale low alarm must be higher than high alarm Only available if alarms are enabled Enter a value It must be less than half of the difference between the low and high alarms and cannot exceed 255 99 for BCD Displays the status of calibration and programming for this channel The processor must be in Run mode if you want to receive current status from the module Displays the status bits for alarms If all alarms are reset NONE appears The processor must be in Run mode if you want to receive current status from the module Use PageUp or PageDown to configure other channels Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring N Series Analog I O Modules Channel Edit Screen 20 mA sourcing sinking input Choose one Module Edit Q or Monitor or BT Data N Series A input data low high scale 4 mA 20 mA alarms are low high alarm channel status Cursor to BT or Edi
145. es Analog I O Modules Channel Edit Screen 1771 OFE p 1 0 Modul conse O gt or Module Edit Q or Monitor or BT Data or Ladder OQ gt Main Menu 1771 OFE A Address N50 50 N50 51 N50 52 N50 53 Enter a channel number gt Rem Prog Change Mode Fl 1 0 Ovrview F2 2 44 Edit Channel Edit Channel Edit Cursor to BT or CIO instruction Edit 1 0 Edit Channel Edit gt ag gt g gt by Channel Edit Units of Output HK OF Min mod 2 of 9 Monitor BT Data Display Default Tables Symbols Config F6 F7 F8 Addr 12 TEST Module Accept Edit F4 F5 F10 Field Channel Address Data Units of Output Min Max Press F4 F10 Configuring Analog I O Modules Other than N Series Analog I O Modules Valid Values Index number of a valid channel Enter 1 to 4 to move to the line for that channel or use the arrow keys Displays the logical address of the value in the Data field display only Press F7 to display symbols if you ve defined them in place of addresses Enter a value between the Min and Max values The default is 0 You can enter a data value or a percentage of output If you enter a data value the of Output min to max is calculated If you enter a of Output the data value is calculated Enter a word or phrase of up to 10 characters that describes the type of channel data or press F9 Toggle to make
146. ew B a Channel Edit Monitor or Q or Module Edit id or BT Data 1771 OFE A Monitor Write BT Read BT Module Status Control File N50 0 N60 0 Data File N50 50 N60 50 Length 13 5 Ch Address Data Units of Output Min Max D A Data 1 N50 50 0 RE 0 N50 51 N50 52 N50 53 Press a function key Rem Prog Addr 12 TEST Change 1 0 Channel Module Mode Ovrview Edit Edit Fl F2 F3 F4 Displays data you entered on Channel Edit screen Data from the digital to analog converter as received in the BTR or CIO Read data file 2 46 Field Write BT Read BT Module Status Channel Address Data Units of Output Min Max D A Data Configuring Analog I O Modules Other than N Series Analog I O Modules Valid Values Control and data file addresses and length for the BTW or CIO Write instruction Control and data file addresses and length for the BTR or CIO Read instruction fthe module is faulted FAULTED otherwise NORMAL ndex number of the channel Displays the logical address of the value in the Data field Press F7 to display symbols if you ve defined them in place of addresses Displays online data from the module The data is read from the module s BTR or CIO Read data file and may be out of date if the processor is not in Run mode Displays an engineering unit string to describe the type of channel data The value displayed is the percentage of the scaling range Min to Max For
147. ex 1771 VHSC configuring I O 1 0Config 4 1 4 2 monitoring 1 0 1 0 Config 4 7 1771 SDN A displaying block transfer data I O Config 2 53 1784 KL configuring Config M aint 6 38 DH Config M aint 6 38 DH routing Config M aint 6 38 1784 KT addressing Config M aint 6 9 1784 KT KT2 configuring Config M aint 6 7 DH II Config M aint 6 7 DH Config M aint 6 7 DH routing Config M aint 6 7 1784 KT2 addressing Config M aint 6 11 1784 K TC configuring Config M aint 6 12 ControlNet Config M aint 6 12 1784 K TX KTXD addressing Config M aint 6 16 configuring Config M aint 6 16 DH II Config M aint 6 16 DH Config M aint 6 16 DH routing Config M aint 6 16 1784 PCM K addressing Config M aint 6 17 configuring Config M aint 6 17 DH II Config M aint 6 17 DH Config M aint 6 17 DH routing Config M aint 6 17 1784 T 47 adjusting the color display Config M aint 5 5 1791 configuring analog I O blocks I OConfig 7 1 monitoring analog I O blocks 1 0 Config 7 4 1794 configuring flex I O modules 1 0 Config 8 1 1794 IE4XOE2 configuring I O I O Config 8 6 monitoring 1 0 I O Config 8 8 1794 1E8 configuring I O 1 0Config 8 10 monitoring I O I O Config 8 12 1794 IR8 configuring I O 1 0Config 8 13 monitoring I O OConfig 8 15 1794 IR8 A displaying block transfer data I O Config 8 17 1794 1T8 configuring I O 1 0Config 8 18 monitoring I O 1 0Config 8 20 1794 IT8 A displaying block transfer
148. f you are using CIO instructions the rack group module address in the upper right comer is replaced with a node slot address for example 001 00 Addr 12 TEST 2 25 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 26 Field Request Offset Calibration Request Gain Calibration Save Auto calibration Values Status of Request Request Failed Because Channel Selections for Calibration Calibrate Status Valid Values Press F9 Toggle to select Yes or No Apply 1 00 ohm to all channels before pressing F10 Accept Press F9 Toggle to select Yes or No Apply 402 00 ohms to all channels before pressing F10 Accept Press F9 Toggle to select Yes or No Displays COMPLETE when the calibrate request completed successfully This message appears if a calibrate request fails BAD CAL OR EEPROM FAULT Press F9 Toggle to select whether you want that channel calibrated Displays the status of the channel if the calibration is successful OK otherwise FAILED Configuring Analog I O Modules Other than N Series Analog I O Modules Configuring 1771 IXE Series A and Series B To configure a1771 IXE series A or series B module follow the steps below Module Edit Screen 1771 IXE Edit 1 0 Edit Ladder Editor Cursor to BT or p Ei Choose one Clo instruction gt E gt PJ or 1O Module Edit System Overview me fe Channel Edit dule Edit or Mo Q or Monitor or id B
149. field Range Displays the current input output channel voltage milliamp range Data Displays online data from the module The data is read from the modules BTR data file Signal Displays the channel data scaled to the selected range fthe module detects that the circuit to the channel is open wi r e of f is displayed to the right of the Signal field 8 12 Configuring 1794 Flex I O Modules Configuring 1794 IR8 Series A To configure a 1794 IR8 series A Flex I O module follow the steps below Channel Edit Screen 1794 IR8 Ladder Editor Cursor to BT Edit 1 0 Edit Sune gt instruction gt gt or Edit gt or Channel Edit o gt 1794 IR8 A Channel Edit RGM 0321 Calibration OFFSET Calibration Clock STOP First Notch Frequency 10 Hz Module Data Type DEGREES CENTI GRADE RTD Type Ch CAL RTD Type resistance 4 resistance resistance 5 resistance resistance 6 resistance resistance resistance Press F9 to select calibration type gt Rem Prog mod 1 of 1 File FLEX_A Change 1 0 Monitor BT Data Toggle Accept Mode Ovrview Tables F1 F2 F5 F6 F9 F10 8 13 Configuring 1794 Flex I O Modules 8 14 Field Calibration Calibration Clock First Notch Frequency Module Data Type Channel CAL RTD Type Valid Values Press F9 Toggle to select between OFFSET and GAIN Press F9 Toggle to select between STOP and START Displays the first notch frequency in Hz Press F9 Toggle to select
150. g for all modules except N Series pr Yes No This Screen Entire Module No 7 or 4 2 2 2 gl pb or or 7 7 A a 7 as prompted When you press F10 Accept thel O configuration utility merges your edits with the latest version of the BTW CIO Write or scheduled I O data file from the processor The I O configuration utility then writes the merged file to the PLC Because it takes time to read data from the processor and to perform the merge if your program continuously changes the output data files the I O configuration utility may miss some updates The execution of the BTW or CIO Write instruction in your ladder program occurs automatically if the processor is in Run mode If the software initiates a block transfer or ControlNet I O transfer request and the processor is notin Run mode as soon as the processor is switched to Run mode the BTW or CIO Write instruction is automatically executed 1 21 Using the I O Configuration Utility Note 1 22 The execution of Scheduled I O data transfers in your channel configuration for ControlNet PLC 5 processors occurs automatically When you press F10 Accept the following occurs The system asks you to verify that you want to write the pending edits from all screens to the database files and to the processor data table IF YOU ANSWER CI vs No BC 1 Pending edits are written to the Changes are not made processor data table aes 2 If you are connected to a p
151. g M aint 16 17 deleting Config M aint 16 17 entering Config M aint 16 17 structured text listing report Config M aint 20 9 SUB instruction Instruction 4 34 sub member data storage Config M aint 9 3 subcharts Program 11 15 Subroutine Header instruction Instruction 13 12 Subtract instruction SUB Instruction 4 34 symbol address Config M aint 9 22 SYMBOL MUST NOT EXCEED 10 CHARACTERS error message Program 5 4 symbols import export See importing documentation report Config M aint 20 12 syntax errors responding Program 6 9 1 32 system mode status Config M aint 14 6 system requirements Config M aint 1 1 T TAN instruction Instruction 4 35 Tangent instruction TAN Instruction 4 35 Temporary End instruction Instruction 13 19 Temporary End instruction Instruction 13 26 terminal See programming terminal Test Buffer For Line instruction Instruction 17 5 testing edits Program 16 22 timer accuracy Instruction 2 4 instruction parameters Instruction 2 2 2 16 RES Instruction 2 25 RTO Instruction 2 13 TOF Instruction 2 9 TON instruction Instruction 2 5 Timer Off Delay instruction Instruction 2 9 Timer On Delay instruction Instruction 2 5 timers Instruction 2 2 timing block transfer Instruction 15 15 15 17 instructions Instruction A 1 tip capturing 6200 programming software screens Windows Config M aint 4 21 changing width of existing databases Config M aint 5 10 connecting to Ethernet PLC 5 proces
152. g Parameters Edit voltage mode Wye PT primary rating line CT primary rating neutral CT primary rating demand period number of demand periods Use PageUp or PageDown to move through the setup screens Press F9 Toggle to change selection Rem Prog mod 1 of 1 Offline BTSLSM2E Change 1 0 Monitor BT Data Default Toggle Accept Mode Ovrview BTR Tables Config Fl F2 F5 F6 F8 F9 F10 Field Valid Values Voltage Mode Press F9 Toggle to choose among wye delta and open delta The default is wye PT Primary Rating Enter the potential transformer s primary rating in volts 120 115 000 The default is 120 Line CT Primary Rating Enter the line current transformer s primary rating in amps 5 10 000 The default is 5 Neutral CT Primary Rating Enter the neutral current transformer s primary rating in amps 5 10 000 The default is 5 Demand Period Enter the demand period in minutes 1 99 The default is 1 Number of Demand Periods Enter the number of demand periods 1 15 The default is 15 Configuring 1402 LS51 Series A Line Synchronization Modules Synchronization Parameters Edit Screen Use PageUp or PageDown to move through the setup screens 1402 LS51 A Synchronization Parameters Edit synchronization method Delayed Acceptance Window voltage match error limits lower 10 00 frequency match error limits lower 40 Hz phase match error limits lower 5 acceptance window delay 75 sec
153. g software Config M aint 1 18 other software Config M aint 1 18 starting Config M aint 2 3 starting 6200 programming software Config M aint 2 1 using Config M aint 2 2 software offline Config M aint 7 1 online Config M aint 6 1 starting ControIN et WHO Network M enu Config M aint 2 5 DH WHO Network Menu Config M aint 2 5 Ethernet WHO Network M enu Config M aint 2 5 Sort File instruction SRT Instruction 4 29 SQI instruction Instruction 12 2 SQL instruction Instruction 12 2 SQO instruction Instruction 12 2 SQR instruction Instruction 4 28 Square R oot instruction SQR Instruction 4 28 SRT instruction Instruction 4 29 Standard Deviation instruction STD Instruction 4 31 standard searching Program 16 6 starting 6200 programming software C onfig M aint 2 1 clearing memory Config M aint 3 18 ControIN et WHO Network M enu Config M aint 2 5 Master Index DH WHO Network Menu Config M aint 2 5 Ethernet WHO Network Menu Config M aint 2 5 Smart Menu Config M aint 2 1 starting I O group Config M aint 12 33 startup routines C onfig M aint 11 6 station privileges Config M aint 15 14 15 17 status Local I O Config M aint 14 34 monitoring the processor Config M aint 12 1 of I O racks Config M aint 14 20 processor layout Config M aint 12 1 processor channels Config M aint 14 1 status bits CIO instruction Instruction 15 28 global control Config M aint 12 29 global status Config M aint 12 27 status data
154. gh scale In this case the low alarm must also be higher than the high alarm Enter a value e Ifthe data format is binary enter a value between 0 1 and 10 seconds 0 1 second increments e Ifthe data formatis BCD enter a value between 0 1 and 9 9 seconds 0 1 second increments The default is 0 no filtering Ifthe RTD sensor type is copper enter a variance of up to 0 99 from 10 00 forthe sensor being used 0 79 if the data format is BCD Continued 3 19 Configuring N Series Analog I O Modules 3 20 Field Alarms Are Rate Alarm Low High Alarm Alarm Deadband Channel Status Alarms Valid Values Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status bits are set by the module e Enabled you can edit the low high alarm alarm deadband and rate alarm The module reports these conditions as well as overrange and underrange if they occur The processor must be in Run mode if you want to receive current status from the module Only available if alarms are enabled Enter a value in scaled units per second The rate alarm cannot be less than 0 04 or more than 50 of full scale Enter 0 to disable Only available if alarms are enabled Enter values in scaled units for low and high alarms separated by a You cannot set alarms outside the operating range of the channel When you enter alarms the screen displays us er and the alarm values If you
155. hange 1 0 Module Monitor BT Data Display Default Accept Mode Ovrview Edit Tables Symbols Config Fl F2 F4 F5 F6 F7 F8 F10 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Valid Values Channel Index number of a valid channel Enter 1 to 8 to move to the line for that channel or use the arrow keys Address Displays the logical address of the value in the Data field display only Press F7 to display symbols if you ve defined them in place of addresses Data Displays data from the module The data is read from the module s BTR or CIO Read data file The data in this field cannot be edited on this screen display only Ifthe processor is notin Run mode the data reflects input values the last time a BTR or ClO Read was performed Units Enter a word or phrase that describes the type of channel data up to 10 characters or press F9 Toggle to make a choice The I O configuration utility only saves units currently in use by the module on the Channel Edit screen Range Press F9 Toggle to select the valid ranges for each channel The choices are e 1 5 V dc 4 20 mA default e 0 5 V dc 0 20 mA e 5Vdc 20 mA e 10 V dc 0 10 V dc Min and Max The minimum scaling value for each channel Default scaling is 0 4095 if you choose 1 5 V dc 4 20 mA or 0 5 V dc 0 20 mA forthe range and 4095 if you choose 5 V dc 20 mA or 10 V 0 10 V dc for the range Press F4 Module Edit for other configu
156. ice You can change this setting but do not use 0 Change the unit password by entering a new 4 digit value here The default is 0 Enter the password a second time to confirm it The password is visible on your screen until you press Enter Select external sync mode or enter the length of each demand period 0 99 minutes to use in calculating demand values The default is 2 minutes Enter the number of demand 1 15 periods to be averaged The default is 2 Press F9 Toggle to select the frequency 50 60 400 Hz for the module to monitor The default is 60 Hz Enter the duration of the Snapshot Interval 0 999 999 999 The default is 60 seconds Press F9 Toggle to select which if any status inputs you want to log The default is No Device Setup 3 of 3 Use PageUp or PageDown to move through the setup screens 1400 PD A Configuring 1400 PB and 1400 PD Power Monitor Devices module Setup 3 of 3 I OUT range 0 20 mA scale 1 200 I OUT type Voltage average mode value relay 1 setpoint normal latch 2 setpoint normal latch 3 setpoint normal latch To change the I OUT range press the Toggle key Rem Prog Change 1 0 Mode Ovrview Fl F2 mod 1 of 1 Offline STARTI Monitor BT Data Default Toggle Accept BTR Tables Config F5 F6 F8 F9 F10 Field Valid Values I OUT Range Press F9 Toggle to move between 0 20 mA or 4 20 mA proportional current output The default is 4 20 mA
157. id Values Displays the counter channel 0 to 3 Displays the counter mode you configured on the Counter Setup screen The value shown on the Monitor screen is the value from the BTW or CIO Write data file on the processor and does not reflect any pending edits that you have not yet accepted Displays the rollover count value you configured on the Counter Setup screen Displays the preset you configured on the Counter Setup screen Only valid in Counter or Encoder modes Displays the store count mode you configured on the Counter Setup screen Displays the current count value of the counter Displays the stored count Hz for Rate Meas mode counts for all other modes Displays the scaler or time base depending on the counter mode as entered on the Counter Setup screen Displays the output channel 0 to 7 Displays which counter channel the output is tied to see the Output Setup screen Displays the count or value that the module uses with the On Count and Off Count to decide whether to turn the output on or off In Rate Meas mode this is the frequency value BTR or CIO Read words 11 18 in all other modes this is the current counter value BTR or CIO Read words 3 10 Displays the configured ON value from the Output Setup screen Displays the configured OFF value from the Output Setup screen Displays how you have that output configured on the Output Setup screen Di sabl ed Enabled Forced On Displays th
158. ig 2 1 configuring line synchronization modules I O Config 6 1 configuring N Series modules I O Config 3 1 configuring power monitor devices 1 0 Config 5 1 database O Config 1 3 deleting a module I O Config 1 26 I 17 Master Index displaying block transfer data I O Config 1 25 documenting a module 1 0 Config 1 3 adding a module to the database 1 0 Config 1 13 adding or copying 1 0 Config 1 13 programming BT instructions I O Config 1 5 editing a module 1 0 Config 1 19 monitoring 1400 PB I O Config 5 9 monitoring 1400 PD 1 0 Config 5 9 monitoring 1402 LS51 1 O Config 6 6 monitoring 1771 CFM OConfig 4 18 monitoring 1771 IFE OConfig 2 5 monitoring 1771 IL B I O Config 2 17 monitoring 1771 IR 1 0 Config 2 23 monitoring 1771 IXE OConfig 2 31 monitoring 1771 IXHR OConfig 2 39 monitoring 1771 OFE OConfig 2 46 monitoring 1771 SDN 1 OConfig 2 50 monitoring 1771 VHSC 1 O Config 4 7 monitoring 1791 analog I O blocks I O Config 7 4 monitoring 1794 IE4X OE2 I O Config 8 8 monitoring 1794 IE8 I O Config 8 12 monitoring 1794 IR8 OConfig 8 15 monitoring 1794 IT8 1 0 Config 8 20 monitoring 1794 OE4 1 0 Config 8 4 monitoring a module 1 0 Config 1 23 monitoring an N Series module 1 0 Config 3 33 moving around on screens O Config 1 1 navigational keys I O Config 1 1 N Series modules 5 V input I O Config 3 6 10 V input 1 0 Config 3 9 10 V output 1 0 Config 3 24 100 mV thermocouple input
159. in Run mode if you want to receive current data from the module Scaling lets you convert the input signal to units that fit your application Enter values for low and high scaling separated by a The values you enter can be from 32768to 32767 in twos complement binary or 7999 to 7999 in BCD When you enter scaling the screen displays us er and the scale values If you enter 0 0 to select default scaling the screen displays df t followed by the default scale values which are e in mV mode binary 10000 10000 BCD 100 100 e fortypes B E J K R S T binary 3000 18000in Celsius 5080 32720in Fahrenheit BCD 30 180in Celsius 51 327in Fahrenheit Low scale can be higher than high scale In this case the low alarm must also be higher than the high alarm Enter a value e Ifthe data format is binary enter a value between 0 1 and 10 seconds 0 1 second increments e ifthe data formatis BCD enter a value between 0 1 and 9 9 seconds 0 1 second increments The default is 0 no filtering Continued Field Alarms Are Rate Alarm Low High Alarm Alarm Deadband Channel Status Alarms Configuring N Series Analog I O Modules Valid Values Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status bits are set by the module e Enabled you can edit the low high alarm alarm deadband and rate alarm The module reports these conditions as well as overrange and underrange
160. ing database editor Program 17 18 processor resident local I O block transfer compatibility configuring Config M aint 11 8 processor resident rack address configuring Config M aint 11 7 processor startup procedure Config M aint 11 5 processor status Config M aint 12 1 12 6 chassis backplane settings Config M aint 12 15 file layout Config M aint 12 1 runtime date and time Config M aint 12 14 processor status file Config M aint 12 1 layout Config M aint 12 1 processor status screen Classic PLC 5 processors Config M aint 11 3 program ladder report Config M aint 20 10 program constant valid value range Instruction C 1 Config M aint 9 10 program constants amp H amp 0 amp B Instruction 3 3 4 6 program directory Program 2 2 comparing Program 4 1 offline Config M aint 3 10 online Config M aint 3 8 program files creating Program 2 1 2 5 documenting Program 17 2 editing keys Program 17 14 guidelines Program 17 13 entering symbols Program 17 16 merging Program 3 12 naming Program 2 7 numbering Program 2 3 8 14 organizing Program 2 1 overview Program 2 3 privileges Config M aint 15 17 undefined Program 9 7 10 26 using the database editor Program 17 18 program flow AFI Instruction 13 19 JMP and LBL Instruction 13 5 JSR SBR and RET Instruction 13 12 MCR Instruction 13 3 UID Instruction 13 25 UIE Instruction 13 26 program flow instruction FOR BRK LBL and RET I
161. ing1794 IR8SEKESA Luma detn aTa a a raa a OE TAa EEE DAE EAEE EATA RERE aei aS Monitoring1794 IR8SeriesA mrrnnannnvnnnrrrnnnnvnnnrnrrnnnnrnnnnnvrennnrnnnnnnnenenrnnnannnennnrrnsennnnenenrrssnnnresennn Configuring1794 IT8SerieSA umnrmmmnvvvvvnnvvnnrvrrennnnvnnrenreernnr nero nnnrnnr annan nnnnennrensnnnnnnenrenennrnnnnnnnne Monitoring1794 IT8SeriesA rrrrnnannnvnnnrrrnnnnvnnnenrrnnnnrnnnnnvrennnrnnnnnnvennnrnnsannnennnnrnsennnnenenrresnnnresennn HowtoUseY ourDocumentation rrrnnnonnrrvvnnonnnrrnnnnennrrrnnnnennrnnnnrnnnnnnennnennrnnennnnnnnnensrennnnnessnnnnnne WnheretoStar uer AE EO E E E E T EE ENE WSIS ASX i ariu ganen estuar erat tue et Eide Customer Support m ummuissssssisssaaniunskakannesevunknannndannsanadn nende danekrnn in ia irinae adadini aaaeei Summary of Changes auwmsnnsssumnasininninnssemnrinisesijsvsninveiia invk kvin keen 1 1 O0MMMNOKAH AN 00 00 00 C0 CO Li N e n Using the I O Configuration Utility 1 Using the I O Configuration Utility Chapter Objectives Note This chapter explains how to document I O modules and how to configure a documented module using the I O configuration utility Read this chapter first for information on the basic operation of the I O configuration utility then read the remaining chapters for information about configuring specific 1 0 modules The I O configuration utility supports Classic PLC 5 processors and Enhanced PLC 5 processors To find
162. iply Divide Rollover Value Tied to Outputs Reset Total Reset Overflow Start P rover Prover Type Uni or Bidirectional Gate Debounce Valid Values In high resolution frequency mode select the precision of the frequency returned in the BTR or CIO Read You can select 1 Hz or 0 1 Hz resolution If you have scaling programmed for frequency the resolution will be in whole numbers of tenths of scaled frequency units In other channel modes frequency is always reported in whole numbers If you want to have the module report frequency in units meaningful to your application enter a multiplier and divisor here separated by a Each scaler must be 1 to 255 and the multiplier must be less than or equal to the divisor For example if one count represents 7 gallons you could scale frequency to gallons per minute by entering scalers of 7 60 Scaling affects only the frequency value that the module returns in the BTR or CIO Read All programming in the BTW or CIO Write e g highest allowed frequency output ON and OFF values is still in Hz The default is 1 1 meaning no scaling In totalizer and nonresettable totalizer modes you can configure the module to report total counts in units meaningful to your application To do this enter a multiplier and a divisor here separated by a Each scaler must be 1 to 32 767 and the multiplier must be less than or equal to the divisor The default is 1 1 meaning no scaling For exa
163. iscrete transfer data determining status of adapter mode processor Config M aint 14 25 determining status of supervisory processor Config M aint 14 26 transferring bits with supervisory processor Config M aint 14 24 disk files Program 1 2 display configuring Config M aint 5 1 ladder editor Program 14 5 SFC Program 8 15 displaying block transfer data 1771 SDN A 1 0 Config 2 53 1794 IR8 A 1 0 Config 8 17 1794 IT8 A 1 0 Config 8 22 I O configuration 1 0 Config 1 25 DIV instruction Instruction 4 22 divergent scan time Instruction B 16 Divide instruction DIV Instruction 4 22 documentation exporting Program 6 10 importing Program 6 3 documented modules configuring I O Config 1 5 documenting ASCII file Program 7 13 documenting a module 1 0 Config 1 3 1 5 adding a module to the database 1 0 Config 1 13 channel configuration ControlNet PLC 5 processor 1 0 Config 1 4 ladder editor 1 O Config 1 4 programming BT instructions 1 0 Config 1 5 documenting program files Program 17 2 auto document Program 14 7 editing keys Program 17 14 entering comments Program 17 3 entering symbols Program 17 16 guidelines Program 17 13 using the database editor Program 17 18 Master Index documenting programs page breaks Program 17 5 page headers Program 17 5 DOS Config M aint 1 2 prompt Config M aint 1 12 1 19 DOS extender Config M aint 1 8 DOS mouse driver 6200 programming software Config M aint 1 3 drawing an
164. l Edit F3 Modul e Edit F4 Off BTW s or CIO Write s received since module powerup Monitor RGM 211 off normal normal nor mal nor mal power modul e real time sample cold junction auto cal read from up bit status status status EEPROM Read B 80 0 N180 50 Channel Status normal normal normal normal normal normal normal normal Alarm Status normal normal normal normal normal normal normal normal nits livolts livolts livolts livolts livolts livolts livolts livolts mod 9 of 9 BT Data Display Tables Symbols F6 F7 Addr 12 TEST not applicable if you set both sensors to millivolt mode 2 39 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 40 Field Write BT Read BT Power up Bit Module Status Real Time Sample Status Cold J unction Status Auto cal Read from EEPROM Dynamic Clamp Inhibited I Channel Address Data Units Alarm Status Channel Status Valid Values Control and data file addresses and length for the BTW or CIO Write instruction Control and data file addresses and length forthe BTR or CIO Read instruction ON or OFF to indicate whether or not the module powered up successfully If the module is faulted FAULTED otherwise NORMAL If there is a RTS error INVALID otherwise NORMAL Cold junction error NORMAL LOW or HIGH This field does not apply when the 1771 IXHR module is set to millivolt mode
165. larm deadband channel status cal amp prog OK alarms Press F9 Toggle to change thermocouple mode and type Rem Prog mod 7 of 17 Offline ARDA Change 1 0 Switch Module Monitor BT Data Default Toggle Accept Mode Ovrview Channel Edit Tables Config Fl F2 F3 F4 F5 F6 F8 F9 F10 3 15 Configuring N Series Analog I O Modules Field Thermocouple Type Input Data Signal Low High Scale Filter Constant 3 16 Valid Values Press F9 Toggle to select among 100 mV B E J K R S T The default is 100 mV Displays the value reported by the module in the BTR or CIO Read data file in scaled units The value shown reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Displays the actual input voltage or temperature measured by the module The I O configuration utility uses the scaling in the BTW or CIO Write data file and channel data in the BTR or CIO Read data file to compute the signal The display shows 0 3 decimal places depending on data format BCD or binary and channel mode mV or degrees That precision is appropriate when the greatest possible scaling ranges are selected However when you select a narrower scaling range including default scaling not all the decimal places may be significant This value reflects the data received the last time a BTR or CIO Read was completed The processor must be
166. larm status of the channel Configuring Analog I O Modules Other than N Series Analog I O Modules Configuring 1771 IR Series A and Series B To configure a 1771 IR series A or series B module follow the steps below Module Edit Screen 1771 IR Edit 1 0 Edit i Cursor to BT or gi p Choose one 0 e gt gt fr or Edit o E gt or rc Channel Edit Module Edit or Monitor or p gt BT Data B 1771 IR A Module Edit sensor type platinum data format BCD units of measure degrees C real time sample rate 0 second s 0 disabled Press F9 Toggle to change selection Rem Prog mod 6 of 6 Addr 12 TEST Change 1 0 Channel Monitor BT Data Default Toggle Accept Mode Ovrview Edit Tables Config Fl F2 F3 F5 F6 F8 F9 F10 2 19 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Valid Values Sensor Type Press F9 Toggle to select 10 ohm Copper Platinum Nickel or Other The default is Platinum Data Format Press F9 Toggle to select Signed Magnitude Binary Twos Complement Binary or BCD The default is BCD fthe Units of Measure is ohms the software sets Signed Magnitude Binary as the data format Units of Measure Press F9 Toggle to select Degrees C Degrees F or ohms The default is Degrees C fthe Sensor Type is Nickel or Other the Units of Measure must be ohms fthe Units of Measure is Degrees C or Degrees F you can still set individual channels on the Chann
167. le follow the steps below Module Edit Screen N Series Analog Ladder Editor Cursor to BT or Edit VO Edit oai gt CIO instruction gt or b 1 0 Module Edit System Overview B B or Channel Edit Module Edit or Monitor or 4 BT Data N Series A Module Edit temperature scale degrees C real time sample interval disabled cold junction alarm disabled data format twos complement binary Press F9 Toggle to change temperature scale for all channels Rem Prog mod 8 of 17 Offline ARDA Change 1 0 Channel Monitor BT Data Default Toggle Accept Mode Ovrview Edit Tables Config Fl F2 F3 F5 F6 F8 F9 F10 Configuring N Series Analog I O Modules Field Valid Values Temperature Scale Press F9 Toggle to select degrees C or degrees F Only applies to modules with thermocouple and or RTD inputs Real Time Enter a real time sample rate Sample Interval e Ifthe data format is binary enter a value between 0 1 and 10 seconds 0 001 second increments e Ifthe data formatis BCD enter a value between 0 1 and 9 999 seconds in 0 001 second increments e Enter 0 to disable Cold J unction Alarm Press F9 Toggle to select Enabled or Disabled e Ifyou select enabled overrange and underrange conditions on the cold junction are reported the module sets the range bit in module status Ifyou select disabled overrange and underrange conditions are not reported the range bit is not set Only applies to modules with thermocoupl
168. le type After you choose a module type you must enter block transfer or ControlNet I O transfer control information for the module See page 1 16 F8 Copy a module with a configuration very different from modules of the same type previously added a module you ve already started to configure using data monitor in the ladder editor a module with the same or a similar configuration to a module of the same type previously added gt fter you press F8 Copy enter block transfer or ControlNet I O transfer control Note The BTW or CIO Write and BTR or CIO Read lengths that you programmed for the new module must be identical to the lengths that you programmed for the existing module information for the new module See page 1 16 The I O configuration utility copies the selected existing module s configuration to the BTW or CIO Write data table for the new module To edit the copied configuration press F2 Edit 1 13 Using the I O Configuration Utility Note 1 14 Example If you want to configure two 1771 IL modules slightly differently configure the first IL module and then copy that configuration and edit it to suit the configuration of the second IL module If you want to configure two 1771 IL modules very differently or to configure two modules of different types e g a 1771 IL and a1771 IFE then add each new module separately The I O configuration entries in the database may not remain synchronized
169. les Channel Edit Screen 10 V input Choose one Edit 1 0 Edit Channel Edit gt gt gt po 1 0 Module Edit Channel Edit o E gt j gt or Cursor to BT or CIO instruction or Module Edit Channel Edit Q or Monitor or gt 4 BT Data r3 N Series A Channel 7 Edit input channel type 10 V input data 4000 signal 6 0000 V low high scale user 0 20000 filter const 0 sec 10 V 10 V alarms are enabled rate alarm disabled low high alarm dflt 0 20000 alarm deadband channel status cal amp prog OK alarms Please enter low and high scale separated by a mark 0 0 default gt Rem Prog mod 7 of 17 Offline ARDA Change 1 0 Switch Module Monitor BT Data Default Accept Mode Ovrview Channel Edit Tables Config Fl F2 F3 F4 F5 F6 F8 F10 Configuring N Series Analog I O Modules Field Input Channel Type Input Data Signal Low High Scale Filter Constant Alarms Are 3 10 Valid Values Displays the input output module channel configuration Displays the value reported by the module in the BTR or CIO Read data file in scaled units This value reflects the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Displays the actual input voltage measured by the module The 1 0 configuration utility uses the scaling in the BTW or CIO Write data file and channel data in the B
170. les Calibrate F1 F2 F3 F4 F5 F6 F9 F10 6 I a N Choose channels to calibrate Setothers to NO here by pressing F9 Toggle setRequest offset calibration toyes Apply a precision voltage of 0 000 mV to all selected channels Oo Press this key then press F8 Yes twice as it appears OG Press F9 ToggletosetRequest offset calibration tono OG Repeat step 4 setRequest gain calibration toyes 8 Apply a precision voltage of 100 000 mV to all selected channels Repeat step 4 setSave auto calibration values toyes Repeat step 4 If you are using CIO instructions the rack group module address in the upper right corner is replaced with a node slot address for example 001 00 2 33 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 34 Field Request Offset Calibration Request Gain Calibration Save Auto calibration Values Channel Selections for Calibration Calibrate Status Valid Values Press F9 Toggle to select yes or no Apply 0 000 mV to all channels before pressing F10 Accept Press F9 Toggle to select yes or no Apply 100 000 mV to all channels before pressing F10 Accept Press F9 Toggle to select yes orn o Press F9 Toggle to select whether you want that channel calibrated Displays the status of the channel if the calibration is successful OK otherwise FAILED Configuring 1771 IXHR Series A Configuring Analog I O Mod
171. les Config M aint 7 4 SFC requirements Instruction B 4 size offline Config M aint 3 14 system requirements C onfig M aint 1 1 usage report Config M aint 20 14 memory protect feature Config M aint 11 10 MEQ instruction Instruction 3 13 merging files configuring Program 5 14 documentation Program 5 13 processor memory Program 3 12 rules Program 3 13 message instruction Instruction 16 1 ladder editor Program 14 9 minor fault word 1 description Config M aint 17 9 word 2 description Config M aint 17 10 mnemonic addressing Config M aint 9 14 modem using Config M aint 6 25 using an internal Config M aint 6 27 modes file operation Instruction 8 7 modifying Smart Menu Config M aint 1 15 monitor status information Config M aint 12 6 monitor mode SFCs Program 8 17 l 21 Master Index monitoring 1400 PB 1 OConfig 5 9 1400 PD 1 0 Config 5 9 1402 LS51 A 1 OConfig 6 6 1771 CFM I OConfig 4 18 1771 IFE A 1 0 Config 2 5 1771 IFE B I O Config 2 5 1771 IFE C 1 0 Config 2 5 1771 IL B OConfig 2 17 1771 IR A I O Config 2 23 1771 IR B 1 0 Config 2 23 1771 IXE A 1 0 Config 2 31 1771 IXE B OConfig 2 31 1771 IXHR A 1 0 Config 2 39 1771 0FE A 1 OConfig 2 46 1771 0FE B OConfig 2 46 1771 SDN A 1 0 Config 2 50 1771 VHSC OConfig 4 7 1791 analog I O blocks I 0Config 7 4 1794 IE4X OE2 A 1 0 Config 8 8 1794 IE4X OE2 B 1 0Config 8 8 1794 IE8 A I O Config 8 12 1794 1E8 B I O Config 8 12 1794 IR8 A 1
172. lication Enter values for low and high scaling separated by a These values correspond to the predefined signal values of 1 V and 5 V The values you enter can be from 32768to 32767 in twos complement binary or 7999to 7999 in BCD When you enter scaling the screen displays us er and the scaling values If you enter 0 0 to select default scaling the screen displays df t followed by default scaling values which are 1000 5000 in binary or 100 500 in BCD If low scale is higher than high scale the low alarm must also be higher than the high alarm Enter a value e Ifthe data format is binary enter a value between 0 1 and 10 seconds 0 1 second increments e Ifthe data formatis BCD enter a value between 0 1 and 9 9 seconds 0 1 second increments The default is 0 no filtering Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status bits are set by the module e Enabled you can edit the low high alarm alarm deadband and rate alarm The module reports these conditions as well as overrange and underrange if they occur The processor must be in Run mode if you want to receive current data from the module Continued 3 7 Configuring N Series Analog I O Modules 3 8 Field Rate Alarm Low High Alarm Alarm Deadband Channel Status Alarms Valid Values Only available if alarms are enabled Enter a value in scaled units per second The rate alarm can
173. lock Service No Service Request Service No Service Request ock Size 0 Transaction ID 0 Block Size 0 Transaction ID 0 0 0 N13 35 0 0 0 N13 40 0 0 N13 45 0 0 N13 50 0 0 N13 55 0 Press a function key Rem Prog mod 1 of 1 File SCANNER Change 1 0 Channel BT Data Display Mode Ovrview Edit Tables Symbols Fl F2 F3 F6 F7 2 50 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Valid Values MAC ID Displays the MAC ID number between 0 and 63 Port Number Displays the Port Number 0 or 1 Status Displays one of the following module status messages e Ignore Transaction Block e Transaction Successful e Transaction in progress e Not in Scan List Table e Slave offline e DeviceNet Port di sabled offline e Transaction ID unknown e Duplication Transaction ID e Invalid Command Code e Scanner out of buffers e Other Client Server transaction in progress e Service not supported e Could not connect to Slave e Response data too large e invalid port e Invalid size e Connection busy Note Status field values will constantly update for each BTR that is performed Service Displays one of the following available 1771 SDN A service responses e Get Attributes All returns the contents of all attributes of an object or class e Set Attributes All modifies the contents of the attributes of the class or object e Reset _ invokes the reset service of the specified clas
174. log I O Modules Other than N Series Analog I O Modules Field Valid Values Service Displays one of the following available 1771 SDN A service requests e Get Attributes All returns the contents of all attributes of an object or class e Set Attributes All modifies the contents of the attributes of the Class or object e Reset invokes the reset service of the specified class or object Typically this causes a transition to a default state mode e Start invokes the start service of the specified class or object Typically this places an object into a running state mode e Stop Invokes the stop service of the specified class or object Typically this places an object into a stopped or idle state mode e Create initializes a new object within the specified class e Delete eliminates an object instance of the specified class e Apply Attributes causes attribute values in the pending state to become active e Get Attribute Single returns the contents of the Specified attribute e Set Attribute Single modifies an attribute value e Find Next Instance causes the specified class to search for and return a list of instance IDs associated with existing object instances existing instances are those that are currently accessible from DeviceNet e Restore returns the contents of a class or object s attributes from a storage location accessible by the Save function Attribute data is copied from a storage area to the currently active memory are
175. ls Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 3 17 Configuring N Series Analog I O Modules Channel Edit Screen 650 RTD input Leader ator pp Cursor to BT or Edit VO Edit Channel Edit iia CIO instruction gt nj gt 2 ap fe or 1 0 Module Edit Channel Edit o gt j or Channel Edit Ed Q or Monitor or D gt 4 BT Data r3 N Series A Channel 6 Edit 650 ohm RTD type copper input data 1104 signal low high scale dflt 2000 9000 filter const 200 900 C 10 ohm offset 04 alarms are enabled rate alarm disabled low high alarm user 0 1000 alarm deadband 50 channel status cal amp prog OK alarms high alarm Press F9 Toggle to change RTD mode and sensor type Rem Prog mod 7 of 17 Offline ARDA Change 1 0 Switch Module Monitor BT Data Default Toggle Accept Mode Ovrview Channel Edit Tables Config Fl F2 F3 F4 F5 F6 F8 F9 F10 3 18 Field 650 RTD Type Input Data Signal Low High Scale Filter Constant 10 Ohm Offset Configuring N Series Analog I O Modules Valid Values Press F9 Toggle to select among resistance platinum European standard platinum U S standard copper or nickel The defaultis resistance Displays the value reported by the module in the BTR or CIO Re
176. lsius 508 4532in Fahrenheit BCD 30 250in Celsius 51 453in Fahrenheit Low scale can be higher than high scale In this case the low alarm must also be higher than the high alarm Enter a value e Ifthe data format is binary enter a value between 0 1 and 10 seconds 0 1 second increments e ifthe data formatis BCD enter a value between 0 1 and 9 9 seconds 0 1 second increments The default is 0 no filtering Continued 3 13 Configuring N Series Analog I O Modules 3 14 Field Alarms Are Rate Alarm Low High Alarm Alarm Deadband Channel Status Alarms Use PageUp Valid Values Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status bits are set by the module e Enabled you can edit the low high alarm alarm deadband and rate alarm The module reports these conditions as well as overrange and underrange if they occur If alarms are enabled Enter a value in scaled units per second The rate alarm cannot be less than 0 04 or more than 50 of full scale Enter 0 to disable If alarms are enabled Enter values in scaled units for low and high alarms separated by a You cannot set alarms outside the operating range of the channel When you enter alarms the screen displays us er and the alarm values If you enter 0 0 to select default low and high alarms the screen displays df t followed by the default alarm values In millivolt mode the d
177. ma 4 normal 3 released 1 counter log counters event 151 snapshot 993 993 max min View logs via Power Monitor Option setpoint status 9 norma Voltage phase 1 active Voltage phase L2 10 norma Voltage phase active KW phase L1 11 norma Voltage phase normal Voltage phase 12 norma Voltage phase normal Voltage phase 13 norma Voltage phase normal Voltage phase norma Voltage phase normal Voltage phase 15 norma Voltage phase Use PageUp or normal Voltage phase 16 norma Voltage phase normal Voltage phase 17 norma Voltage phase PageDown to EN i move through the Press a function key Setup screens Rem Prog Offline STARTI Change 1 0 Mode Ovrview Fl F2 Device Diagnostics 1 of 2 1400 PB A module Diagnostics 1 of 2 memory diagnostics module setup ok setpoint setup ok ISR failure no node adapter status ok fatal counter 0 non fatal counter 0 BTW confirmation status module setup ok clear status input 1 counter ok external OUT update ok clear max min data log ok setpoint inquiry ok clear KWH counter ok setpoint setup ok clear KVAH counter ok time setup ok clear KVARH counter ok waveform capture clear diagnostic flags ok Use PageUp or configuration ok relay control ok PageDown to data log request setup move through the setup screens Press a function key Rem Prog mod 1 of 1 Offline STARTI Change 1 0 BT Data Mode Ovrview Tables Fl F2 F6 5 12 Configuring 1400 PB a
178. may only need the Instruction Set Reference manual or the Structured Text User M anual Preface Conventions This manual uses the following conventions to describe how to enter information e Unless otherwise stated References to Classic PLC 5 processors Enhanced PLC 5 processors Ethernet PLC 5 processors ControlNet PLC 5 processors Protected PLC 5 processors 1 VME PLC 5 processors Include these Allen Bradley Processors PLC 5 10 5 12 5 15 5 25 and S5NME processors PLC 5 11 5 20 5 30 5 40 5 40L 5 60 5 60L and 5 80 processors Note Unless otherwise specified Enhanced PLC 5 processors include Ethernet P LC 5 ControlNet P LC 5 P rotected PLC 5 and VME PLC 5 processors PLC 5 20E 5 40E and 5 80E processors PLC 5 20C 5 40C 5 60C and 5 80C processors PLC 5 26 5 46 and 5 86 processors m LC 5 V30 5 V40 5 V40L and 5 V80 processors See the LC 5 VME VMEbus Programmable Controllers User Manual for more information O 1 Protected PLC 5 processors alone do not ensure PLC 5 system security System security is a combination of the Protected PLC 5 processor the software and your application expertise Preface e Pictures of keys and or screens represent actual keys that you press or screens that you see For example in the procedure for accessing the I O M odule System Overview screen you see Ladder Editor Main Menu 1 0 Module System Overview v Cat No Ser BT
179. me 500 mS Channel Alarm Status Channel Status 1 normal i i nor mal nor mal nor mal nor mal nor mal Press a function key Rem RUN mod 2 of 2 Addr 2 ASMTEST2 Change 1 0 Channel Module BT Data Display Mode Ovrview Edit Edit Tables Symbols Fl F2 F3 F4 F6 F7 7 4 Configuring 1791 Analog I O Blocks Field Displays this Information Write BT Control and data file addresses for the write block transfer or write ControlNet 1 0 transfer instruction Read BT Control and data file addresses for the read block transfer or read ControlNet 1 0 transfer instruction Power up Bit ON or OFF to indicate whether or not the module powered up successfully Scaling Displays DEFAULT OFF or USER DEFINED Filter Time Displays the filter time you configured Channel ndex number of a valid channel Address Displays the logical address of the value in the Data field Data Displays online data from the module The data is read from the modules BTR or CIO Read data file Range Displays the current input output channel voltage milliamp range Alarm Status Displays the status of the alarm Channel Status Displays the status of the channel 75 Configuring 1791 Analog I O Blocks Calibrating 1791 Analog I O Blocks You must be connected to a processor to calibrate an I O block To prepare to calibrate a 1791 1 0 block follow the steps on the left Calibration Select Channels Screen Channel Edit or Module Edit Other
180. mple if 15 counts represent 2 gallons you could scale counts to gallons by entering scalers of 2 15 Scaling affects only the total counts value that the module returns in the BTR or CIO Read All programming in the BTW or CIO Write e g rollover value output ON and OFF values is still in unscaled counts Enter a value between 0 and 9 999 999 The default 0 is equivalent to 9 999 999 When the unscaled count reaches that value the module sets the overflow status bit in the BTR or CIO Read and starts counting again from 0 Display only This shows the output s that this channel is currently tied to You can tie outputs to different channels on the Output Setup screen but you can t change the values on the Channel Setup screen Totalizer mode only Totalizer and nonresettable totalizer mode only Totalizer and nonresettable totalizer mode only These fields display the current settings in the BTW or CIO Write data file You must make any changes to these fields through a running program on the PLC or by directly setting the bits in the BTW or CIO Write you can t edit these fields with the I O configuration utility In totalizer and nonresettable totalizer modes press F9 Toggle to select the type of prover to use unidirectional or bidirectional prover In totalizer and nonresttable totalizer modes press F9 Toggle to select off or on The defaultis off Configuring the 1771 VHSC and 1771 CFM Press F4 Out put
181. n procedures see chapter 1 in the Configuration and M aintenance manual Use the arrow keys to select the group of examples that you want to install from those listed on the installation screen A II options except the report only option copy both the archive files and the reports See the following table for more information Selecting this LIS and DTR only ANALOG DATA MOTION PID ALL Installs Examples for these Modules ladder listing report and data table report 1771 IFE 1771 IL 1771 IR 1771 IXE N Series analog 1771 OFE 1771 DA 1771 DB 1771 DCM 1771 DR 1771 SN 1771 DE 1771 1 1771 IK 1771 1771 QC 1771 VHSC Hard Drive 220K 137K 199K QA 1771 QB 201K 1771 LI 1771 PD 52K archive files for all of the above modules 589K Using this Amount of Storage in bytes on the Using the I O Configuration Utility Note Allen Bradley I O modules are highly flexible and configurable These examples do not cover every possible configuration Evaluate the suitability of these examples for your application carefully You will need to modify the values and comments to integrate them into your application see the documentation provided with the modules These Options Are Installed in this Directory the archive files VIPDSVARCHYPLCSVAB EXAMP the reports VIPDSVLISVPLCSVAB EXAMP Access the archive files and reports by changing the directory To do this follow these steps 6200 M
182. nalog I O Modules Other than N Series Analog I O Modules Channel Edit Screen 1771 IL B Cursor to BT or Edit 1 0 Edit Channel Edit gt Cio instruction gt ru gt gt fe or Edit Channel Edit o E gt 5 gt or Choose one Module Edit Channel Edit 1771 IL B Channel Edit RGM 0320 Ch Data Range Min Max Scale Lo Hi Alarm c 4 20mA 0 0 0 c 4 20mA 0 0 0 4 20mA 0 0 0 20mA 20mA 20mA 20mA 20mA Enter a channel number gt Rem Prog mod 1 of 1 Offline DRILL Change 1 0 Monitor BT Data Default Toggle Accept Ovrview Tables Config FS F6 F8 F9 F10 2 15 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Description Channel Index number of a valid channel Enter 1 to 8 to move to the line for that channel or use the arrow keys Data Displays data from the module The data is read from the module s BTR or CIO Read data file The data in this field cannot be edited on this screen display only Ifthe processor is notin Run mode the data reflects input values the last time a BTR or ClO Read was performed Units Enter a word or phrase that describes the type of channel data up to10 characters or press F9 Toggle to make a choice The I O configuration utility only saves units currently in use by the module on the Channel Edit screen Range Press F9 Toggle to select the valid ranges for each channel The choices are e 1 5 V dc 4 20 mA default e
183. nd 1400 PD Power Monitor Devices Device Diagnostics 2 of 2 factory configured Use PageUp or PageDown to move through the setup screens 5 13 Configuring 1402 LS51 Series A Line Synchronization Modules 6 Configuring 1402 LS51 Series A Line Synchronization Modules Chapter Objectives This chapter explains how to configure a 1402 LS51 series A Line Synchronization module You should have already read chapter 1 because it explains the basic functions and screens you ll use Configuring 1402 LS51 Series A To configure a 1402 LS51 series A module enter the appropriate information on the following screens The following table lists page references for each screen Follow the steps on the next page For Information about this Screen See Page Scaling Parameters Edit 6 2 Synchronization Parameters Edit 6 3 Load Share Parameters Edit 6 4 Control Request Parameters 6 5 Synchronization Load Share Monitor 6 6 Synchronization Bus Voltage C urrent Monitor 6 7 Synchronization Bus Power Monitor 6 7 Reference Bus Voltage Monitor 6 8 Scaling Parameters View 6 8 Synchronization Parameters View 6 9 Load Share Parameters View 6 9 Diagnostics 6 10 Configuring 1402 LS51 Series A Line Synchronization Modules Scaling Parameters Edit Screen Ladder Editor Cursor to BT or Edit 1 0 Edit Choose one Main Menu gt CIO instruction ap D gt fr or Edit o E gt A or op or BT Data 1402 LS51 A Sync Bus Scalin
184. nd input data and status information Display data in octal format e Display data in decimal format e Display data in Hex BCD format Display symbols if defined or display only addresses Note The 1 0 configuration utility does not support symbols that are wider than 10 characters if you enter symbols wider than 10 characters the display is truncated to the first 10 characters Move through the various monitor screens Some modules have only one monitor screen Press this Key if available F1 Change Mode F2 1 0 Overview Esc F3 F4 F6 BT Data Tables On the Block Transfer Data screen F6 Change Radix You see e F2 Octal Data e F3 Decimal Data e F4 Hex BCD Data F7 Display Suppress Symbols PageUp PageDown Using the I O Configuration Utility Displaying Block Transfer or ControlNet I O Transfer Data Use the Block Transfer Data screen to display an image of the processor data tables for a module without returning to the ladder editor to use the data monitor function This example shows the Block Transfer Data screen for a 1771 CFM module using BT instructions Follow the steps on the left 1771 CFM A Block Transfer Data RGM 000 Configuration Data BTW Input Data Status BTR 2 b 8192 0 0 7712 i 8192 772 VO Module p _ VO Module 0 0 SystemOverview System Overview i 0 0 0 Edit Monitor 0 re fr 100 Vv Vv i 0 BT Data Tables BT Data Tables rs
185. ng Analog I O Modules Other than N Series Analog I O Modules Field Valid Values Channel ndex number of a valid channel enter a value between 1 and 8 to move to the line for that channel or use the arrow keys Address Display only Displays the logical address of the value in the Data field Press F7 to display symbols if you ve defined them in place of addresses Data Display only Displays online data from the module The data is read from the BTR or ClO R ead data file on the processor and may be out of date if the processor is notin Run mode Units Display only Displays Degrees C Degrees F or millivolts Alarm Press F9 Toggle to select On or Off Lo Alm Enter a value from 9999to 9999 If Units is millivolts enter a value from 99 99 to 99 99 Hi Alm Enter a value from 9999to 9999 If Units is millivolts enter a value from 99 99to 99 99 Offset Series A Enter a value between 127and 127 The default is 0 Series B Enter a value from 410 6to 410 6 Valid values are in steps of about 3 2 The software calculates the nearest valid value to the number you enter The default is 0 If you plan to perform auto calibration all manual calibration offset and gain fields must be 0 Gain Series A Enter a value between 1 5503and 1 5503 Valid values are in steps of about 0 0122 the software calculates the nearest valid value to the number you enter The default is 0 Series B Enter a value between 0 19379and 0 19379
186. nnenneneenn Auto Calibrating1771 IXESeriesB Configuring1771 IXHRSeriesA Monitoring1771 IXHRSeriesA Auto Calibrating1771 IXHRSerieSA nmmnsvrnvrnvvnrnnvrvnnnrvnrnrrrennnnrnnrrrrennnnnnnrenrenennrnnsrnnenernrnessnneneen Configuring1771 OFESeriesAand SOMOSB EAE TEE ee et Monitoring1771 OFESeriesAandSeriesB ccccccsccececeeeeeeeeeeeeeeeeaaaeseceeeecaaaeeseneeeseaeeeseaeeseeas Configuring1771 SDNSeriesA Monitoring1771 SDNSeriesA Configuring N Series Analog ChapterObjectives ccce VO Modules vsisicisdecicccecens Savceateneisecdebedeaveaszeseoee esac ConfiguringanN SeriesAnalog Module cccccceceeceeeeeeeeeeaeeeeeeeeeeaaeeeceeeeecaeeeseaeeeseeeeseateseaes MonitoringanN SeriesAnalogModule c ccceccceeeeeeeeeeeeeeeaeeseeeeeesaaaeseeeeeesaaeseeaeeeseaeeseaeeee CalibratinganN SeriesAnalogMod Verna E AEE E AS AE E a Configuring the V ery High Speed Counter Module 1771 VHSC and ChapterObjectives rrrrrrrnnnrnnr Configuringanl OModule Configuring1771 VHSCSeriesA Monitoring1771 VHSCSeriesA Configuring1771 CFMSeriesA Monitoring1771 CFMSeriesA Configuring 1400 PB and 1400 PD Power Monitor Devices ccsssseseeeeeeees ChapterObjectives rrrrrrrrnnnrnnr AcceptingEdits rnnnnnnnnrnnnnnnnnnnn Configuring 1400 PBand1400 PD Monitoring1400 PBand1400 PD Configuring 1402 LS51 Series A
187. not be less than 0 04 or more than 50 of full scale Enter 0 to disable Only available if alarms are enabled Enter values in scaled units for low and high alarms separated by a You cannot set alarm values below 0 8 V or above 5 2 V When you enter alarms the screen displays us er and the alarm values If you enter 0 0 to select default low and high alarms the screen displays df t followed by default alarm values which are equal to the current low and high scale values If low scale is higher than high scale low alarm must be higher than high alarm Only available if alarms are enabled Enter a value It must be less than half of the difference between the low and high alarms and cannot exceed 255 99 for BCD Displays the status of calibration and programming for this channel The Status reflects the latest values read from the BTR or CIO Read file The processor must be in Run mode if you want to receive current data from the module Displays the status bits for alarms If all alarms are reset NONE appears The processor must be in Run mode if you want to receive current data from the module Use PageUp or PageDown to configure other channels Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring N Series Analog I O Modu
188. nstruction 13 8 OSF Instruction 13 22 OSR Instruction 13 21 SFR Instruction 13 23 Program 11 18 program flow instructions Instruction 13 1 program group creating Config M aint 4 12 program scan main control program Config M aint 12 19 12 26 overall Config M aint 12 18 Programming SDS instruction Instruction 18 2 Master Index programming DH to DH Config M aint 6 19 instructions operands Instruction C 2 offline Config M aint 3 10 online Config M aint 3 8 programming BT instructions I O configuration I O Config 1 5 programming features Program 2 9 ladder logic Program 2 9 MCPs Program 2 9 SFCs Program 2 9 structured text Program 2 9 subroutines Program 2 9 programming over Ethernet PC TCP software Config M aint 6 34 programming software offline Config M aint 7 1 online Config M aint 6 1 using 6171 IDH Config M aint 1 6 verifying installation Config M aint 1 18 programming terminal configuring Config M aint 5 1 onDH Config M aint 8 6 online Config M aint 6 1 privileges Config M aint 15 14 supported by 6200 programming software Config M aint 1 11 Proportional Integral and Derivative instruction Instruction 14 15 Protected PLC 5 processors Config M aint 15 21 Protected PLC 5 processors Instruction vii Program viii 1 0Config viii Config M aint viii 11 1 12 1 13 1 14 1 17 1 A 1 protecting programs Config M aint 15 1 Q quadrants Program 8 18 1 27 Master Index R
189. ntrollers Installation Instructions Handling the Enhanced PLC 5 processor Connecting a remote extended local and DH link parameters status bits and examples about PLC 5 programmable controllers or these publications contact your local sales office distributor or system integrator Preface Where to Start To use 6200 programming software If you are a new user of a Classic PLC 5 processor use the Hardware Installation M anual to make sure your PLC 5 system is correctly installed then see the Design M anual and the Design Worksheets for programming guidelines for your PLC 5 system If you are a new user of an Enhanced PLC 5 processor use the Enhanced PLC 5 Programmable Controllers Installation Instructions or the Ethernet PLC 5 Programmable Controllers Installation Instructions to make sure your PLC 5 system is correctly installed then see the Enhanced and Ethernet PLC 5 Programmable Controllers User M anual for programming guidelines for your PLC 5 system For Classic PLC 5 and Enhanced PLC 5 processors start with the Software Configuration and M aintenance manual to learn how to get your software running Use the remaining manuals in Figure 1 that are designated for your type of processor to plan create and test your programs After your system is up and running use the Quick Reference manual for help in maintaining your system If you are already familiar with 6200 programming software you
190. o 32767 in twos complement binary or 7999to 7999 in BCD When you enter scaling the screen displays us er and the scale values If you enter 0 0 to select default scaling the screen displays df I t followed by the default scale values which are 4000 20000 in binary or 40 200 in BCD Low scale can be higher than high scale In this case the low clamp must also be higher than the high clamp Reset State Press F9 Toggle to select among Last State Channel Minimum Channel Maximum or User Value see next field Value Of Output Only available if Reset State is User Value On Reset Enter a value in scaled units Alarms Are Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm status bits are set by the module e Enabled the module sets alarm status bits for bad output data low high clamp and limited rate if those conditions occur The processor must be in Run mode if you want to receive current status from the module 1 Enter either of these two fields and the software computes the other field for you using the programmed scaling Continued 3 28 Field Maximum Ramp Rate Per Second Low High Clamp Channel Status Alarms Configuring N Series Analog I O Modules Valid Values Enter a rate limit either as a percentage of full scale per second 1 to 200 or as a change in signal per second up to 32 mA s If you enter the rate limit as a signal value the I O configur
191. o receive current data from the module Use PageUp or PageDown to configure other channels Press F4 Module Edit for other configuration choices or F10 Accept to accept your edits We suggest you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 3 11 Configuring N Series Analog I O Modules Channel Edit Screen 55 mV thermocouple input Cursor to BT or Edit 1 0 Edit Channel Edit Choose one CIO instruction gt fad gt gt fe Edit Channel Edit gt 9 or Module Edit Channel Edit Q or Monitor or 4 BT Data r3 N Series A Channel 3 Edit thermocouple type 55 mV input data 200 signal low high scale dflt 500 5500 filter const 5 1 55 mV alarms are enabled rate alarm 200 per sec low high alarm user 500 5500 alarm deadband 250 channel status cal amp prog OK alarms low alarm rate alarm Press F9 Toggle to change thermocouple mode and type Rem Prog mod 7 of 17 Offline ARDA Change 1 0 Switch Module Monitor BT Data Default Toggle Accept Mode Ovrview Channel Edit Tables Config Fl F2 F3 F4 F5 F6 F8 F9 F10 3 12 Field Thermocouple Type Input Data Signal Low High Scale Filter Constant Configuring N Series Analog I O Modules Valid Values Press F9 Toggle to select among 55 mV B C EJ LNR S T The default is 55 mV Displays the value reported by the module in the BTR or CIO Read dat
192. odule limits the rate of change of the output Therefore it might take time after accepting your edits before the actual signal value shown here is reached During this time if alarms are enabled youseer ate limit in the alarms field The signal shows 1 or 2 decimal places depending on data format BCD or binary That precision is appropriate when the greatest possible scaling ranges are selected However when you select a narrower scaling range including default scaling not all the decimal places may be significant Scaling lets you convert the input signal to units that fit your application Enter values for low and high scaling separated by a that correspond to the predefined signal values of 10 mA and 50 mA The values you enter canbe from 32768to 32767 in twos complement binary or 7999to 7999 in BCD When you enter scaling the screen displays us er and the scale values If you enter 0 0 to select default scaling the screen displays df I t followed by the default scale values which are 1000 5000 in binary or 100 500 in BCD Low scale can be higher than high scale In this case the low clamp must also be higher than the high clamp Press F9 Toggle to select among Last State Channel Minimum Channel Maximum or User Value see next field Only available if Reset State is User Value Enter a value in scaled units Press F9 Toggle to select Enabled or Disabled the default is Disabled e Disabled no alarm stat
193. of 1 Offline STARTI Change 1 0 Monitor BT Data Default Accept Mode Ovrview BTR Tables Config Fl F2 F5 F6 F8 F10 Field Valid Values Time Enter the time in hours minutes and seconds 24 hour clock Date To specify the day enter a value between 1 and 31 To specify the month press F9 Toggle to cycle through the 12 months To specify the year enter a value between 0 and 2050 Configuring 1400 PB and 1400 PD Power Monitor Devices Control Request Use PageUp or PageDown to move through the setup screens 1400 PD A Control Request clear status input 1 counter clear max min data log clear KWH counter clear KVAH counter clear KVARH counter clear diagnostics flags relay contro numbe Press Toggle to change control request Rem Prog Change 1 0 Mode Ovrview Fl F2 Field Clear Status Input 1 Counter Clear Max Min Datalog Clear KWH Counter Clear KVAH Counter Clear KVARH Counter Clear Diagnostics Flags Relay Control Number Relay Control Command mod 1 of 1 Offline STARTI Monitor BT Data Default Toggle Accept BTR Tables Config F5 F6 F8 F9 F10 Valid Values Press F9 Toggle to choose between Yes and No The default is No Press F9 Toggle to select relay 1 2 3 or None The default is None If relay selected for control Press F9 Toggle to select a relay command relay control by 1400 forced operated or forced released Configuring 1400 PB and 14
194. onfig M aint 11 13 WHO Config M aint 2 7 See also DH Network M enu station diagnostics Classic PLC 5 processors Config M aint 8 11 Enhanced PLC 5 processors Config M aint 8 12 PLC 2 Config M aint 8 9 PLC 3 Config M aint 8 11 PLC 5 250 Config M aint 8 16 Windows Config M aint 4 5 definitions Config M aint 4 2 requirements for running 6200 software under Config M aint 4 3 running 6200 software under Config M aint 4 19 using 6200 programming software under Config M aint 4 1 Windows KL KT KT2 PCMK KTX configuring Config M aint 6 30 DH Config M aint 6 30 DH routing Config M aint 6 30 1 34 Windows terminology Config M aint 4 2 Windows DOS KTC ControlN et configuring Config M aint 6 32 WINTelligent LOGIC 5 to 6200 series conversion Program B 1 Config M aint 7 6 words data storage Config M aint 9 3 writing branch logic Program 13 6 rung logic Program 13 4 to an EEPROM Program 3 11 X X to the Power of Y instruction XPY Instruction 4 36 XIC instruction Instruction 1 3 X10 instruction Instruction 1 4 XOR instruction Instruction 5 8 XOR Operation instruction XOR Instruction 5 8 XPY instruction Instruction 4 36 Z zooming Program 12 7 Customer Support If you need additional assistance in using your software Allen Bradley offers telephone and on site product support at Customer Support Centers worldwide For technical assistance on the telephone first contact your local sales office
195. onfiguring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 IFE Series A Series B and Series C Use the M onitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1771 IFE Data Monitor I O Monitor Ladder Editor Cursor to BT or EG 7 Choose one gt CIO instruction gt gt B or Monitor 1 0 Module a o 2 a or Channel Edit Monitor Q or Module Edit D gt B On No BTW or CIO Write received since module powerup or Off BTW s or CIO Write s received since module powerup 1771 I FE C Monitor RGM 000 Write BT Read BT Power up Bit OFF Control File N10 0 N20 0 Range Status normal Data File N10 50 N20 50 Scaling Status normal Length 37 20 Real Time Sample Status normal EEPROM Status ok Address Data Units Status Address Data Units Status N20 54 normal N20 62 normal N20 55 normal N20 63 normal N20 56 normal N20 64 normal N20 57 normal N20 65 normal N20 58 nor mal N20 66 normal N20 59 normal N20 67 normal N20 60 normal N20 68 normal N20 61 normal N20 69 normal Press a function key Rem Prog mod 1 of 4 Addr 12 TEST Change 1 0 Channel Module BT Data Display Mode Ovrview Edit Edit Tables Symbols Fl F2 F3 F4 F6 F7 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 6 Field Write BT Read BT Power up Bit Range Status Scaling Status Real Time Sample Status EEPROM Status Chann
196. or b System Overview a or lonitor Monitor BTR ge 1402 LS51 A Synchronization Load Share Monitor Voltage Match Error requency Match Error Sync Bus to Ref Bus Phase Match Error Load Share Error otal Power in Watts Synchronization Status Use PageUp or odule Status PageDown to move through the setup screens Press a function key Rem Prog Offline BTSLSM2E Change 1 0 Mode Ovrview Fl F2 Configuring 1402 LS51 Series A Line Synchronization Modules Synchronization Bus Voltage C urrent Monitor Screen 402 LS51 A Sync Bus Voltage Current Monitor Sync Bus Current Sync Bus Voltage L1 L1 L2 L2 L2 L3 L3 L3 L1 Average Neutral L1 N L2 N ositive Sequence L3 N egative Sequence Average L L ercent Unbalance Average L N Sync Bus Frequency Use PageUp or Sync Bus Phase Rotation Pos Sequence L L PageDown to Neg Sequence L L move through the Module Status Percent Unbal ance setup screens Press a function key Rem Prog mod 1 of 1 Offline BTSLSM2E Change 110 BT Data Mode Ovrview Tables Fl F2 F6 Synchronization Bus Power Monitor Screen 402 LS51 A Sync Bus Power Monitor RGM 070 Power Apparent Reactive Factor Power Power Consumption Demand ower KW Hrs Current eactive Power KVAR Hrs Apparent Power Module Status Powe Use PageUp or PageDown to move through the setup screens Press a function key Rem Prog mod 1 of 1 BTSLSM2E Change 1 0 BT
197. or Counter and Encoder modes Hz for Period Rate Measure and Continuous Rate modes The processor must be in Run mode if you want to receive current status from the module Displays the status of the Reset Enable bit for each counter channel in the BT or CIO data file This field cannot be edited from the I O configuration utility You must enable or disable reset through a program running in the PLC processor Displays the status of the Preset Enable bit for each counter channel in the BT or CIO data file This field cannot be edited from the I O configuration utility You must enable or disable preset through a program running in the PLC processor Configuring the 1771 VHSC and 1771 CFM Press F4 Out put Setup to continue the configuration or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Output Setup Screen 1771 VHSC Ladder Editor Choose one ap or o J gt gt Output Setup or Counter Setup Q or Monitor or BT Data 1771 VHSC A Out put Tied to Count Value 0 None None None None None None None None Enter an Output number gt Rem Prog Change System Counte Mode Ovrview Setup Fl F2 F3 Cursor to BT or CIO instruction Edit a Output Setup 0 N A N A N A N A N A N A N A N A to 7 Edit 1 0 Edit Output Setup
198. or Output Setup gt 1771 VHSC A Cursor to BT or Monitor eJ Monitor c Moni tor Counter Rollover Preset Ctr Mode 0 Counter 1 Counter 2 Counter 3 Counter Out put Tied to None None None None None None None None Press Page Down gt Rem Prog Change System Mode Ovrview Fl F2 Count 0 0 0 0 Count 0 0 0 0 Count Value N A N A N A N A N A N A N A N A Counter Output Ot CIO instruction Data Monitor 1 0 Monitor RGM 03 21 Current Stored Scaler Store Count Mode Count Value Time Base None None None None On Count 0 Cts 0 Cts her Setup Monitor F4 F5 Cts Cts Cts Cts Cts Cts to viewJcurrent VHSC status 0 0 No Scale 0 0 No Scale 0 0 No Scale 0 0 No Scale Config e Disable Disable Disable Disable Disable Disable Disable Disable 5 10 File P Display Symbol s F7 Displays the count or value that the module uses with the On Count and Off Count to decide whether to turn the output on or off In Rate Meas mode this is the frequency value BTR or CIO Read words 11 18 in all other modes this is the current counter value BTR or CIO Read words 3 10 Field Monitor 1 of 2 Ctr Counter Mode Rollover Count Preset Count Store Count Mode Current Count Stored Value Scaler Time Base Output Tied to Count Value On Count Off Count Config State Configuring the 1771 VHSC and 1771 CFM Val
199. orting comments symbols See importing documentation creating Rockwell Software Inc ASCII file Program 6 17 7 9 documentation Program 6 3 configuring Program 6 5 data collisions Program 6 6 examining results Program 6 9 documentation files Program 6 1 documenting ASCII Program 6 21 examining results Program 7 5 processor memory files Program 7 2 configuring Program 7 4 documenting Program 7 13 importing and exporting X 5 to from AF5 Program B 1 6200 series to from A I Series Program B 1 6200 series to from WINTelligent LOGIC 5 Program B 1 A I Series to from 6200 series Program B 1 documentation files Program 6 1 WINTelligent LOGIC 5 to from 6200 series Program B 1 improving performance 6200 programming software Config M aint 1 10 improving search performance tip Program 16 3 incremental mode Instruction 8 10 indexed address Config M aint 9 20 addressing example Config M aint 9 21 indexed addressing offset See status information indexed indirect address Config M aint 9 19 input keys Config M aint 3 3 Master Index installing 6200 programming software Config M aint 1 1 verifying Config M aint 1 18 instruction ControlNet I O transfer Instruction 15 25 immediate data input Instruction 1 10 immediate data output Instruction 1 11 instructions arranging Program 13 4 13 8 ASCII Instruction 17 1 block transfer Instruction 15 1 BTR BTW monitoring Config M aint 16 8 CIO monitoring Instru
200. ory file import Program 7 4 processor memory files export Program 7 7 processor resident local I O block transfer compatibility Config M aint 11 8 Master Index processor resident rack address C onfig M aint 11 7 programming terminal Config M aint 5 1 serial port Config M aint 6 20 13 8 ASCII user mode Config M aint 13 20 communication mode change Config M aint 13 22 DF1 master Config M aint 13 15 DF1 point to point Config M aint 13 10 DF1 slave Config M aint 13 12 Serial to KFC KFCD CNET Config M aint 6 20 SFC display Program 8 15 startup procedure Config M aint 11 5 STI Config M aint 11 22 watchdog timer Config M aint 11 13 Windows KL KT KT2 PCMK KTX C onfig M aint 6 30 Windows DOS KTC ControlN et C onfig M aint 6 32 configuring a module OConfig 1 5 accepting edits 1 0 Config 1 21 applying default values 1 O Config 1 21 displaying block transfer data 1 O Config 1 25 editing a module 1 O Config 1 19 I O configuration 1 0 Config 1 17 monitoring a module I O Config 1 23 review errors OConfig 1 21 configuring channel 2 ControlNet 1 0 action edit Config M aint 13 59 monitor Config M aint 13 58 ControlN et I O mapping edit Config M aint 13 48 monitor Config M aint 13 46 ControlN et local rack characteristics Config M aint 13 40 ControlN et map entries status Config M aint 13 56 Master Index ControlN et node information edit Config M aint 13 43 monitor Config M aint
201. ot enabled nor mal 155 illivolts not enabled nor mal 56 i illivolts not enabled nor mal 57 illivolts not enabled nor mal 58 i illivolts not enabled nor mal 59 illivolts not enabled nor mal 60 illivolts not enabled nor mal Cold Junction Temperature 0 degrees C Press a function key Rem Prog mod 8 of 9 Addr 12 TEST Change 1 0 Channel Module BT Data Display Mode Ovrview Edit Edit Tables Symbols Fl F2 F3 F4 F6 F7 series B only 2 31 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Write BT Read BT Power up Bit Module Status Real Time Sample Status Cold J unction Status Auto cal Read from EEPROM Channel Address Data Units Alarm Status Channel Status Cold J unction Temperature Valid Values Control and data file addresses and length forthe BTW or CIO Write instruction Control and data file addresses and length forthe BTR or CIO Read instruction ON or OFF to indicate whether or not the module powered up successfully fthe module is faulted FAULTED otherwise NORMAL fthere is an RTS error INVALID otherwise NORMAL Cold junction error NORMAL LOW or HIGH This field does not apply when the 1771 IXE B module is set to millivolt mode for both sensors Series B only f the auto calibrated values cannot be read from the EEPROM FAILED otherwise NORMAL ndex number of a channel Displays the logical address of the value in the Data field Pres
202. ot on the list follow the steps on the left Figure 3 2 Choosing the Channel Types N Series A Channel FAB IDs Enter FAB IDs B Enter the proper FAB ID for each channel a FAB ID description 0 i invali 0 i invali invali invali 5 i invali 6 0 i invali Press F9 Toggle to select input or output types Rem Prog new I O module Offline ARDA Change 1 0 Toggle Review Mode Ovrview Errors Fl F2 F9 F10 If you are using CIO instructions the rack group module address in the upper right corner is replaced with a node slot address for example 001 00 You can configure a channel by entering either a description of the channel or the FAB ID number See the following fields Field Valid Values FAB ID Enter the FAB ID number description is displayed on the right If the module has fewer than 8 channels enter 127 as the FAB ID for the unused channels Description There are two parts to the description e Press F9 Toggle to select Input or Output type e Press F9 Toggle until the description appears numeric ID is on the left Ifthe module has fewer than 8 channels toggle to Out and Channel Not Used for each of the unused channels After you configure all eight channels press F10 Accept to add the module to the database and return to the 1 0 System Overview screen 3 3 Configuring N Series Analog I O Modules Configuring an N Series Analog Module To configure an N Series Analog M odu
203. ou channel channel 1 channel 2 channel owest measurable 1 Hz change the channel re programming Fields end sample on time only inapplicable in the parte end sampling programmed channel requency resolution 0 1 Hz mode are shown as requency scalers 1 1 1 1 1 60 multiply divide dashes and cannot be edited Follow the steps below ress F9 Toggle to change bandwidth limit em RUN mod 1 of 1 Addr 42 CFM4B Change 1 0 Output Monitor BT Data Default Toggle Accept Mode Ovrview Setup Tables Config F2 F4 F5 F6 F8 channel 0 channel 1 channel channel scalers for total 1 2 1 1 Use PageUp or PageDown to move through the Channel F10 Setup screen mul tiply divide rollover value 0 5 000 000 tied to outputs 0 2 3 1 none X reset total disabled If you are using CIO reset overflow disabled disabled instructions the start prover enabled enabled prover type uni bi uni rack group module address in the upper right corner is or bidirectional Enter rollover value 0 to 9 999 999 a gt replaced with a Rem RUN mod 1 of 1 Addr 42 CFMAB node slot address for Change 1 0 Output Monitor BT Data Default Accept Mode Ovrview Setup Tables Config example 001 00 Fl F2 F4 F5 F6 F8 F10 4 12 Field Current Values e Channel Mode e Frequency e Total Counts e Acceleration New Channel Mode Minimum Sample Time for Frequency Ac
204. r that channel Enter a value between 410 6and 410 6 Valid values are in steps of about 3 2 the software calculates the nearest valid value of the number you enter If you plan to perform auto calibration all manual offset and gain fields must be 0 Enter a value between 0 193787 and 0 193787 Valid values are in steps of about 0 00153 the software calculates the nearest valid value to the number you enter If you plan to perform auto calibration all manual offsetand gain fields must be 0 Module Edit for other configuration choices or Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 IXHR Series A Use the M onitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1771 IXHR Ladder Editor gt or 1 0 Module System Overview Choose one C B Cursor to BT or O instruction Data Monitor I O Monitor Monitor On No BTW or CIO Write received since module powerup or Channel Edit Monitor Q or Module Edit ep or BT Data 1771 I XHR A Write BT 70 0 N170 50 Control file N Data file Length N1 28 13 Channel 1 d N N N N N N N N Press a function key Rem Prog Change Mode F1 1 0 Ovrview F2 Channe
205. r this Information Control block Write address Read address Enter the block transfer or ControlNet I O transfer control file addresses for each BT or ControlNet 1 0 transfer instruction These addresses must be identical to the BTW and BTR or CIO Write and CIO Read control file addresses in your ladder logic You do not have to enter the data table addresses lengths or module addresses block transfer or rack group module addresses ControlNet I O transfer on this screen The I O configuration utility reads the actual BT or ControlNet 1 0 transfer control files from the processor to get this information for you Press F10 Accept and the software returns to the 1 0 M odule System Overview screen See page 1 17 for information on configuring the module Note When you add a new N Series module to the database the I O configuration utility may prompt you to choose a specific catalog number after you have entered information on the Block Transfer Control screen If this happens see page 3 1 1 16 Configuring a Module Using the I O Configuration Utility After you have added a module to the I O configuration database you can edit monitor or calibrate it as often as you want Do this by selecting a module to configure from the ladder editor or the I O M odule System Overview screen h i 2 Ladder Editor sp Cursor to BT or ap Edit se vo Edit Choose one Main Menu CIO instruction ro B General 1 0 L ETA Edito Utili verview
206. ration real time sampling fuse status Channel Ranges nor mal nor mal nor mal nor mal nor mal nor mal nor mal nor mal mod 1 of 1 BT Data Display Tables Symbol s F7 I O Monitor 0320 yes valid nor mal ok Channel Al arms Offline DRILL 2 17 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 18 Field Write BT Read BT Valid BTW Since Power Up Latest BTW Configuration Real Time Sampling Fuse Status Channel Address Data Units Channel Ranges Channel Alarms Valid Values Address of the control file and address and length of the data file Address of the control file and address and length of the data file Yes or No indicates whether or nota valid BTW or CIO Write occurred after power up Valid or Invalid indicates the status of the BTW or CIO Write configuration Timeout or Normal indicates the status of RTS Ok or Not Ok indicates the status of the fuse Index number of the valid channel Logical address of the value in the Data field Press F7 to display symbols if you ve defined them in place of addresses The online data from the module Data is read from the BTR or CIO Read data file on the processor and may be out of date if the processor is notin Run mode A word or phrase describing the type of channel data Normal Overrange or Underrange indicates the status of the channel Normal High Alarm or Low Alarm indicates the a
207. ration choices or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information Configuring Analog I O Modules Other than N Series Analog I O Modules Monitoring 1771 IL Series A Use the M onitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1771 IL A Data Monitor 1 0 Monitor Ladder Editor Cursor to BT or 2 eg consmen gt gt p or Monitor b 1 0 Module a System Overview a Channel Edit Monitor or Q or Module Edit a is On No BTW or CIO Write received since module powerup or BT Data Off BTW s or CIO Write s received since module powerup 1771 ILIA Monitor R GM 110 Write BT Read BT Power Up Bit Off Control File N90 0 N100 0 Scaling Status normal Data File N90 50 N100 50 Real Time Sample Status normal Length 19 12 Channel Address Data Units Channel S 1 N100 54 norma N100 55 norma N100 56 norma N100 57 norma N100 58 norma N100 59 norma N100 60 norma N100 61 norma Press a function key Rem Prog mod 5 of 6 Addr 12 TEST Change 1 0 Channel Module BT Data Display Mode Ovrview Edit Edit Tables Symbols Fl F2 F3 F4 F6 F7 2 11 Configuring Analog I O Modules Other than N Series Analog I O Modules 2 12 Field Write BT Read BT Power up Bit Scaling Status Real Time Sample Status Channel Address
208. ries modules on ControlNet 1 0 only the module is automatically added to the I O configuration database 4 Use the 1 0 configuration utility to configure a module See page 1 17 For more information see Configuring Channel 2 for ControlNet PLC 5 Processors in the Software Configuration and Maintenance manual For more information on documenting a module see Figure 1 1 Once you document a module you can configure the module as often as you want See Figure 1 2 Using the I O Configuration Utility Figure 1 1 Documenting a Module Documenting a Module in the Ladder Editor Adding a Module to the Database In the ladder editor program the BTW block transfer write or CIO Write ControlNet I O write and BTR block transfer read or CIO Read ControlNet I O read instructions for the modules you want to document Note Record the control file addresses when you program the BT and CIO instructions so that you can enter these addresses on the Block Transfer Control screen when you are documenting an I O module See pages 1 4 to 1 9 for BT and CIO instructions Documenting a Module in the Channel Configuration fora ControlNet PLC 5 Processor Adding a Module to the Database On the Channel Overview screen for a ControlNet PLC 5 processor select channel 2 v On the I O Module System Overview screen choose whether to add or copy lt J a module configuration to the database
209. rocessor the HR system asks you to verify that you want to initiate a block transfer or ControlNet I O transfer of the data to the processor If PLC Processor you answer yes when using BT instructions the software adjusts the BTW control file to execute a BTW the next time that BTW instruction is scanned in Run mode if you answer yes when using CIO instructions the ControlNet 1 0 transfer takes place immediately 3 The pending edits become current on 0 Module your screen The procedure for accepting edits to the configuration of 1400 PB and 1400 PD devices differs in that you can accept edits for individual screens or all screens See chapter 5 for specific information Monitoring a Module To monitor the data and status of a Using the I O Configuration Utility module start on the monitor screen s The information on the monitor screen s varies according to module type The following example shows the M onitor screen for a 1771 CFM A module using BT instructions Follow the steps on the left Choose one BELLS EM Ladder Editor 1 0 Module Main Menu or System Overview Monitor a frequency full scale 26 G 9 592 7 99 2619 AC acceleration Cursor on BT instruction ch mode direction sensor not used high resolution frequency lt Moni tor RGM 000 total acceleration prover total alarms
210. rs Press arrow keys or PgUp PgDn to see more data rs 7 Rem RUN Addr 42 CFM4 Change 1 0 Channel Output Monitor Change Display Mode Ovrview Setup Setup Radix Symbols Fl F2 F3 F4 F5 F6 F7 You cannot edit the information on this screen If You Want to Press this Key if available Change processor mode F1 Change Mode Return to the I O Overview screen F2 1 0 Overview Esc Move to edit screens for a module Exact function of these keys F3 F4 varies for different module types Monitor the module F5 Monitor Choose a format in which to display block transfer or ControlNet F6 Change Radix I O transfer information You See e Display data in octal format e F2 Octal Data e Display data in decimal format e F3 Decimal Data e Display data in Hex BCD format e F4 Hex BCD Data Display symbols if defined or display only addresses F7 Display Suppress Note The 1 0 configuration utility does not support symbols that Symbols are wider than 10 characters if you enter symbols wider than 10 characters the display is truncated to the first 10 characters 1 25 Using the I O Configuration Utility Deleting Module Documentation Note To remove a module record from the I O configuration utility database follow these steps Modules added to the I O configuration utility from the Channel 2 Configuration screens for ControlNet can be deleted from the Channel 2 Configuration screens only you cannot delete
211. s F7 to display symbols if defined in place of addresses Displays online data from the module The data is read from the BTR or ClO Read data file on the processor and may be out of date if the processor is notin Run mode Displays Degrees C Degrees F or millivolts Displays the status of the alarm Displays the channel data Normal Overrange or Underrange Displays C and F 2 32 Configuring Analog I O Modules Other than N Series Analog I O Modules Auto Calibrating 1771 IXE Series B You must be connected to a processor to calibrate a module To calibrate a 1771 IXE series B module follow the steps on the left 1771 IXE Series B only The offset and gain values on the Channel Edit screen must be 0 See page 2 29 Auto Calibration Screen Note In order to access 1771 I XE B the auto calibration k Auto Calibration function you must specify the maximum lengths for the BTW or CIO Write 15 and BTR or ClO Request offset calibration Request gain calibration Save auto calibration values status of request no no no R ead 9 fields in your ladder program Channel Edit or Monitor Channel Selections for Calibration 1 2 3 4 5 calibrate yes yes yes yes yes li status ok ok ok ok ok Other Functions 4 E Press F9 Toggle to change selection Rem Prog mod 7 of 7 Addr 12 TEST Change 1 0 Channel Module Monitor BT Data Toggle Accept Mode Ovrview Edit Edit Tab
212. s or object Typically this causes a transition to a default state mode e Start invokes the start service of the specified class or object Typically this places an object into a running state mode e Stop Invokes the stop service of the specified class or object Typically this places an object into a stopped or idle state mode e Create initializes a new object within the specified class e Delete eliminates an object instance of the specified class e Apply Attributes causes attribute values in the pending state to become active e Get Attribute Single returns the contents of the Specified attribute e Set Attribute Single modifies an attribute value Continued 2 51 Configuring Analog I O Modules Other than N Series Analog I O Modules Note 2 52 Field Valid Values Service e Find Next Instance causes the specified class to search Continued for and return a list of instance IDs associated with existing object instances existing instances are those that are currently accessible from DeviceNet e Restore returns the contents of a class or object s attributes from a Storage location accessible by the Save function Attribute data is copied from a storage area to the currently active memory area used by the class or object e Save copies the contents of a class or object s attributes to a location accessible by the Restore function e No Operation causes the receiving object to return a No Operation response Th
213. serial port DF1 master Config M aint 14 7 DF1 point to point C onfig M aint 14 6 DF1 slave Config M aint 14 7 user mode ASCII Config M aint 14 10 status file size Config M aint 9 6 status information active node table Config M aint 12 17 arithmetic flags Config M aint 12 16 chassis addressing Config M aint 12 15 EEPROM status Config M aint 12 15 1 0 Config M aint 12 23 indexed addressing offset Config M aint 12 16 main control program scan Config M aint 12 19 12 26 Plis Config M aint 12 21 processor Config M aint 12 11 12 13 See also processor status processor memory protection Config M aint 12 15 processor station address C onfig M aint 12 17 program scan Config M aint 12 18 1 31 Master Index RAM backup Config M aint 12 15 SFC Instruction B 2 STIs Config M aint 12 22 status messages ladder editor Program 14 9 status words ControlN et I O map entry status Config M aint B 1 STD instruction Instruction 4 31 steady state scan time Instruction B 16 step actions Program 8 3 9 1 10 1 display configuration Program 8 15 entering Program 10 5 reference numbers Program 8 15 assigning names Program 10 21 building block Program 8 3 entering comments Program 10 22 monitoring Program 12 11 scanning sequence Instruction B 8 step transition pairs Program 9 4 STI configuration fields Config M aint 11 22 configuring Config M aint 11 22 STIs status Config M aint 12 22 string data copying Confi
214. sors using hostnames Instruction 16 7 cross reference database Program 13 10 finding address switch settings for 1784 KT ABHELP Config M aint 6 10 improving search performance Program 16 3 multiple header commands printed reports Program 17 5 preventing forces with the memory protect feature Config M aint 18 1 regenerating cross reference database Program 13 10 toggling through default options Config M aint 6 2 topical help Config M aint 3 7 undocumented addresses report completing the program Config M aint 20 13 title page printed reports multiple header commands Program 17 5 title report Config M aint 20 16 TND instruction Instruction 13 19 TND instruction Instruction 13 25 13 26 TOD instruction Instruction 6 3 TOF instruction Instruction 2 9 toggling through default options tip Config M aint 6 2 TON instruction Instruction 2 5 topical help tip Config M aint 3 7 transition assigning names Program 10 21 building block Program 8 4 entering comments Program 10 22 forcing Program 12 8 Config M aint 18 8 scanning sequence Instruction B 8 transitions entering Program 10 14 type data storage Config M aint 9 3 U UNABLE TO ATTACH TO THIS STATION error message Config M aint 8 8 undefined program file memory used Program 2 5 understanding files Program 1 1 undocumented addresses reports Config M aint 20 13 undocumented addresses report completing the program tip Config M aint 20 13
215. splay options e Select how to order the configured modules on the screen The defaultis sort by rack group module Select whether to display all BTs or CIOs or just the first BTW or CIO Write and BTR or CIO Read for each module Only these modules have more than one BTW or ClO Write and one BTR or CIO Read 1400 PB 1400 PD and 1402 LS51 The default displays all BTs or CIOs Select the previous or next module Select the first or last module in the list Select the first or last module on the current page Show the next or previous page of modules Return to the ladder editor Press this Key F1 Change Mode F2 Edit F3 Monitor F4 Delete F6 Add New Module F7 Display S uppress Symbols F8 Copy F9 Config Display You See e F3 F4 e F7 F8 Sort by Rack Sort by Cat No All BTW BTR First BTW BTR up arrow or down arrow Home or End Ctrl PageUp or Ctrl PageDown PageDown or PageUp Esc Using the I O Configuration Utility Editing a Module When you edit a module you change the BTW or CIO Write data associated with the module accept those changes and then initiate the write block transfer or write ControlN et I O transfer to the I O module The following example shows the Module Edit screen for a 1771 IFE module using BT instructions Other modules have different edit and setup screens with slightly different function keys Follow the steps on the left 1771 I FE A Mo
216. splays the address of the channel data Press F9 Toggle to select the desired range for the channel Displays the data value reported by the module for the channel Displays the data scaled to a selected range 8 11 Configuring 1794 Flex I O Modules Monitoring 1794 IE8 Series A and Series B Use the monitor screen to check and verify the configuration data Follow the steps below Monitor Screen 1794 IE8 Ladder Editor Cursor to BT Data Monitor 1 0 Monitor ai rn instruction gt fre a or ji ae 1 0 Module Monitor o gt fe or Monitor o gt i 1794 E8 B Monitor Write BT Read BT Control File N7 1 NT 1 Data File N7 2 N7 2 Length 1 Address N7 2 N7 N7 N7 N7 N7 N7 N7 Press a function key gt Rem Prog mod 1 of 1 Offline HCO_310 Change 1 0 Channel Delete BT Data Display Mode Ovrview Edit Tables Symbols Fl F2 F3 F4 F6 F7 Field Displays this Information Write BT Displays control and data file addresses for the write block transfer instruction Read BT Displays control and data file addresses for the read block transfer instruction fthe module detects that the toggle bit is set correctly Ok is displayed to the right of the R ead BT field if the module detects that the toggle bit is set incorrectly unconfi gur ed is displayed to the right of the Read BT field Channel Displays the index number of a valid channel Address Displays the logical address of the value in the Data
217. stored count 23 3332 SP overspeed OF overflow OR overrange tied to channel none none none direction current status off off off prover output status number cw 0 1 2 3 off BTW error code not used Has module received valid BTW since powerup yes none none Data Monitor 0 1 2 3 a Press a function key mod 1 of 1 BT Data Tables F6 Rem RUN Addr 42 CFM4 Change Mode F lt 1 0 Ovrview F2 Channel Out put Setup Setup 1 0 Monitor Ed a Note Monitor screens display the contents of the BTR or CIO Read file in the processor s data table The I O configuration utility depends on your ladder program to execute BTR or CIO Read instructions that update the BTR or CIO Read data If the processor is in Program or Test mode or if your ladder logic disables the rung containing the BTR or CIO Read instruction the data shown on the monitor screen may be different from the data actually sensed by the module and the status actually reported by the module If the BTR or CIO Read is shorter than the maximum length the software will display only the data contained in the actual BTR or CIO Read length 1 23 Using the I O Configuration Utility 1 24 If You Want to Change processor mode Return to the System Overview screen Move to edit screens for a module Exact function of these Keys varies for different module types Display Block Transfer configuration a
218. t 1 0 Edit Channel Edit CIO instruction gt a gt fe Edit Channel Edit Channel Edit 5 Channel 8 Edit input channel type 20mA Sourcing Sinking 14200 signal 14 2000 mA dflt 4000 20000 filter const 1 0 sec enabled rate alarm 2000 per sec dflt 4000 20000 alarm deadband cal amp prog OK alarms Please enter low and high scale separated by a mark 0 0 default gt Rem Prog Change 1 0 Fl F2 Switch Mode Ovrview Channel Edit mod 7 of 17 Monitor BT Data Default Tables Config F3 F4 F5 F6 F8 F10 Offline ARDA Module Accept 3 21 Configuring N Series Analog I O Modules Field Input Channel Type Input Data Signal Low High Scale Filter Constant Alarms Are 3 22 Valid Values Displays the input output module channel configuration Displays the value reported by the module in the BTR or CIO Read data file in scaled units The processor must be in Run mode if you want to receive current status from the module Displays the actual input current measured by the module The 1 0 configuration utility uses the scaling in the BTW or CIO Write data file and channel data in the BTR or CIO Read data file to compute the signal The display shows 2 or 4 decimal places depending on data format BCD or binary That precision is appropriate when the greatest possible scaling ranges are selected However when you select a narrower scaling range including default scaling not all the
219. ta is read from the module s BTR or CIO Read data file for inputs or the BTW or CIO Write file for outputs Displays the status of the channel e ok channelis correctly calibrated and programmed and no alarm conditions are reported e OR UR overrange or underrange e o hi for input channels the input signal is outside of the alarm range for output channels the signal has been clamped e RA forinput channels rate alarm for output channels the programmed ramp rate is currently limiting the output e data you selected BCD format but the output data word for this channel is not valid BCD e bad cal channel has not been calibrated or the calibration is not correct e bad pgm programming for that channel in the BTW or ClO Write data file contained errors If any of the following status codes appear your module is not working properly NZ OU hI Configuring N Series Analog I O Modules Calibrating an N Series Analog Module You must be connected to a processor to calibrate a module To calibrate an N Series analog module see Figure 3 3 The example shown calibrates a combination of input and output channels Depending on the types of channels you want to calibrate input output or a combination of input and output the I O configuration utility prompts you for the appropriate reference signals 3 35 Configuring N Series Analog I O Modules Figure 3 3 Using the Calibration Screen 2 Connect appropriate Enter minim
220. te rungs Program 16 16 paste errors Program 16 21 using disk files Program 16 19 using the buffer Program 16 17 viewing paste file Program 16 20 PC TCP software programming over Ethernet Config M aint 6 34 performance of 6200 programming software Config M aint 1 10 PID biasing Instruction 14 13 equations Instruction 14 3 examples Instruction 14 35 instruction Instruction 14 15 integer examples Instruction 14 35 PD examples Instruction 14 40 selecting derivative term Instruction 14 9 setting output alarms Instruction 14 9 using manual mode Instruction 14 11 using output limiting Instruction 14 10 PID instruction Instruction 14 1 monitoring Config M aint 16 14 PII configuration fields Config M aint 11 20 configuring Config M aint 11 20 status Config M aint 12 21 placing GOTO statements Program 11 10 instructions Program 13 8 labels Program 11 10 PLC 2 compatibility file Instruction 16 16 l 24 PLC 5 Ethernet Interface M odule interpreting status Config M aint 14 36 monitoring status Config M aint 14 36 PLC 5 files converting to PLC 5 250 files Program A 1 PLC 5 to PLC 5 250 convert Program A 1 PLC 5 processor choosing series revision Config M aint 3 12 PLC 5 V ME status file configuring Config M aint 11 18 PLC 5 processors data table file structure and size Config M aint 9 6 Polling schemes Config M aint 13 17 preventing forces with the memory protect feature tip Config M aint 18
221. ter to zero then waits until the Gate R eset changes state to begin counting e Store Reset Start saves the current count into the stored count field resets the counter to zero and begins counting The default is None When you select a counter mode of Period Rate Rate Meas or Cont Rate the software sets the store count mode to none and won t let you edit it Press F9 to toggle between H True and L True to invert the Gate R eset signal for the counter The default is H True Not available when the Counter is in Rate Meas mode or when the Store Count Mode is None in Counter or Encoder modes In Counter Encoder Period Rate and Continuous modes e enter a scale value to divide the Gate R eset signal by 1 2 4 8 16 32 64 or 128 default O No Scale Counter and Encoder modes are only valid if the Store Count mode is not None In Rate Meas mode e enter a time base to calculate the frequency of channel A 10 to 2000 ms in 10 ms increments 0 1 s default 1 s The remaining fields are display only Ctr Tied to Outputs Current Count Stored Value Reset Enable Preset Enable Displays the counter channel numbers Displays any outputs tied to a counter channel You can set these on the Output Setup screen Displays the current count value for each counter channel The processor must be in Run mode if you want to receive current status from the module Displays the stored value for each counter channel count value f
222. the VHSC module the module reports the data for that channel as OI d Dat a when new data is available data received after an ACK the module reports the data for that channel as New Data This field is controlled by your VHSC module and is display only Reset Enable Displays whether you have enabled the counter reset This field is controlled by your ladder program and is display only Set if the counter s reset bit is set 1 Reset if the counter s reset bit is reset 0 Continued Configuring the 1771 VHSC and 1771 CFM 4 10 Field Monitor 2 of 2 Preset Enable Gate R eset Config Gate R eset Signal Power up Status Program Status PLC Addresses Control File Data File Data File Length Displays this Information Displays whether you have enabled the counter preset This field is controlled by your ladder program and is display only Set if the counter s preset bit is set 1 Reset if the counter s preset bit is reset 0 Displays your configuration of Gate Reset H True L True Displays the Gate R eset signal on the Counter Setup screen Inactive orAsserted Displays whether a BTW or CIO Write has successfully occurred since power up Displays whether a programming error occurred with the last BTW or CIO Write sent Displays the addresses and lengths of the PLC files used by the module Configuring the 1771 VHSC and 1771 CFM Configuring 1771 CFM Series A To configure a 1771 CF
223. this key repeatedly until the option you want appears Accept your edits and write the data to the processor F10 Accept R eview Errors See page 1 21 The I O configuration utility supports navigational keys that you can use to move around on any screen in the utility See Table 1 B on page 1 2 W hen you change information on edit or setup screens pending edits appear below the current values These edits are not saved until you press F10 Accept We suggest that you edit all screens for a module before you accept edits See page 1 21 If the processor is in Run mode the processor might be changing a BTW or CIO Write data file while you are editing the same data file with the I O configuration utility The software updates the configuration utility screens continuously to show changes in the BTW or CIO Write data file from the processor These changes replace old field values on monitor screens and do not appear as pending edits 1 20 Using the I O Configuration Utility Applying Default Values Accepting Edits If F10 Accept does not appear as an option F10 Review Errors appears in its place The Review Errors option helps you to correct configuration mistakes by listing errors When you correct these errors F10 Accept appears Note While editing you can return to the default values for a module To re establish defaults follow these steps Any Edit or Setup Default Config Other Functns Default Confi
224. this time if alarms are enabled youseer ate limit in the alarms field Signal 1 Enter the desired output voltage 10 4V to 10 4 V If you program a rate limit the module limits the rate of change of the output Therefore it might take time after accepting your edits before the actual signal value shown here is reached During this time if alarms are enabled youseer ate limit in the alarms field The signal shows 1 or 3 decimal places depending on data format BCD or binary That precision is appropriate when the greatest possible scaling ranges are selected However when you select a narrower scaling range including default scaling not all the decimal places may be significant Low High Scale Scaling lets you convert the input signal to units that fit your application Enter values for low and high scaling separated by a that correspond to the predefined signal values of 10V and 10 V The values you enter can be from 32768to 32767 in twos complement binary or 7999to 7999 in BCD When you enter scaling the screen displays us er and the scale values Ifyou enter 0 0 to select default scaling the screen displays df I t followed by the default scale values which are 10000 10000in binary or 100 100in BCD Low scale can be higher than high scale In this case the low clamp must also be higher than the high clamp Reset State Press F9 Toggle to select among Last State Channel Minimum Channel Maximum or User Value s
225. tion Only in direction sensor mode Displays the direction of rotation CW or CCW Prover Status Displays prover status for channels in totalizer and nonresettable totalizer modes Output Number Displays the output channel 0 to 3 Current Status Displays the output state of the current output ON or OF F These values reflect the data received the last time a BTR or CIO Read was completed The processor must be in Run mode if you want to receive current data from the module Tied to Channel Displays which channel the output is tied to Module Power up Displays whether a BTW or CIO Write has successfully occurred since power up BTW Error Code If an error occurred in the last BTW the error code is shown here Error codes 1 to 60 are word numbers where invalid configuration was programmed in the BTW data file other error codes are listed in the 1771 CFM User manual 4 19 Configuring 1400 PB and 1400 PD Power Monitor Devices 5 Configuring 1400 PB and 1400 PD Power Monitor Devices Chapter Objectives This chapter explains how to configure 1400 PB and 1400 PD I O devices using the I O configuration utility You should have already read chapter 1 because it explains the basic functions and screens you ll use Accepting Edits The procedure for accepting edits in the configuration of 1400 PB and 1400 PD devices differs from that for other I O modules Y ou can accept the edits on any of the three D evice Setup screens
226. to primary save directory Program 5 5 restore PMF to primary save directory Program 5 5 restoring CAR files Program 3 10 files Program 3 7 RET instruction Instruction 13 12 Retentive Timer On instruction Instruction 2 13 Return instruction Instruction 13 12 review errors I O configuration O Config 1 21 RS232C RS422 RS423 configuration Config M aint 13 8 RTO instruction Instruction 2 13 run times determining Instruction B 15 rung creating Program 13 4 definition Program 13 2 entering Program 15 2 example Program 13 5 example format Program 13 2 logic writing Program 13 4 moving Program 14 8 selecting Program 14 7 rungs cut or copy compatibility Program 16 17 S save and continue Program 3 2 saving processor memory Program 3 4 saving files Program 3 1 SBR instruction Instruction 13 12 scaling to engineering units Instruction 14 7 Master Index scan list creating extended local I O Config M aint 13 64 remote I O Config M aint 13 30 13 64 extended local I O Config M aint 13 62 14 34 limitations Config M aint 13 30 13 64 modifying extended local I O Config M aint 13 64 remote I O Config M aint 13 30 remote I O Config M aint 14 20 scan sequence SFC Instruction B 8 scan time convergent Instruction B 16 divergent Instruction B 16 steady state Instruction B 16 scanner monitoring status Config M aint 14 18 scanner mode configuring Instruction 15 16 15 17 scanner extended
227. to select Yes or No Request Clamp Inhibit 1 Press F9 Toggle to select Yes or No Channel Selections for Calibration Calibrate Press F9 Toggle to select whether you want that channel calibrated Status Displays the status of the channel if the calibration is successful OK otherwise FAILED 1 This field only applies to a 1771 IXHR series A module revision B or later Configuring Analog I O Modules Other than N Series Analog I O Modules Configuring 1771 OFE Series A and Series B Module Edit Screen Choose one To configure a 1771 OFE series A or series B module follow the steps below i 1771 OFE Edit VO Edit Ladder Editor e Cursor to BT or 2 CIO instruction gt fr or Edit O Modul o a gt or Channel Edit Module Edit OG imo m 1771 OFE A Module Edit RGM 001 Data Format BCD Press F9 Toggle to change selection Addr 12 TEST Accept mod 2 of 9 Change 1 0 Monitor BT Data Default Toggle Mode Ovrview Edit Tables Config Fl F2 F3 F5 F6 F8 F9 F10 Rem Prog Channel Valid Values Press F9 Toggle to select BCD or Twos Complement Binary The default is BCD Field Data Format Press F3 Channel Edit to configure individual channels or F10 Accept to accept your edits We suggest that you complete your edits on all screens before accepting the edits See A ccepting Edits in chapter 1 for more information 2 43 Configuring Analog I O Modules Other than N Seri
228. ts Low High Delay Release Delay Operate mod 1 of 1 Monitor BT Data Default BTR Tables Config F5 F6 F8 F10 Offline STARTI Accept Valid Values Enter the setpoint you want to program 1 17 Press F9 Toggle to select relay 1 2 3 or none The default is None Press F9 Toggle to choose among various setpoint types Possibilities are not used over AMP demand S1 input normal over voltage over frequency S1 input active under voltage under frequency S2 input normal voltage unbalance over V AUX S2 input active over current under V AUX S3 input normal current unbalance phase reversal S3 input active over KVA under PF lagging S4 input normal over KW forward under PF leading S4 input active over KW reverse over 4 SX input normal over KVAR forward over KVAR reverse SX input active over KW demand The default is Not Used Enter a low and a high limit value between 0 and 999 999 For frequency setpoints enter limits between 0 and 99 999 9 If the setpoint type is phase reversal the limits fields do not appear The defaultis 0 Enter the time to delay between releases 0 32 000 The defaultis 0 Enter the time to delay operation 0 32 000 seconds of the setpoint Configuring 1400 PB and 1400 PD Power Monitor Devices Time Setup Use PageUp or PageDown to move through the setup screens 1400 PD A Time Setup 14 56 15 19 Oct 1994 Please enter the hour 0 to 23 gt Rem Prog mod 1
229. tup screens If you change your mind and want to edit the configuration press F2 1 0 Ovrview then F2 Edit The following table lists page references for each screen For Information about this Screen See Page Device Setup Screen 1 5 3 Screen 2 5 4 Screen 3 5 5 Setpoint Setup 5 6 Time Setup 5 7 Control Request 5 8 Configuring 1400 PB and 1400 PD Power Monitor Devices Device Setup 1 of 3 Ladder Editor By Cursor to BT or CIO instruction Edit 1 0 Edit gt og gt g 1 0 Module Edit o gt f A Choose one or or Use PageUp or PageDown to move through the setup screens 1400 PD A Channel Edit Edit BTW or Module Edit ED 4 or BT Data Fa module Setup 1 of 3 current scale voltage scale 5 000V I 4 neutral current scale 5 000 A V_AUX scale 5 000 V nhasenseqvence baud rate 9600 voltage input mode demo Please enter voltage scale 0 to 999 999 gt Rem Prog Change 1 0 Mode Field Voltage Scale V_AUX Scale Phase Sequence Current Scale I 4 Neutral Current Scale Baud Rate Voltage Input Mode Offline STARTI Accept mod 1 of 1 Default Config F8 F10 Monitor BT Data Ovrview BTR Tables F2 F5 F6 Valid Values Displays the voltage scale Enter a value between 0 and 999 999 to change the scale The default is 1 200 Displays the Vaux scale Enter a value between 0 and 999 999 to change the scale The default is 1 000 Press F9
230. ules Other than N Series Analog I O Modules To configure a 1771 IXHR series A module follow the steps below Module Edit Screen 1771 IXHR Choose one Channel Edit or Monitor or BT Data or 1771 I XHR A Switching to dual input mode Enter real time sample rate 025 to 3 175 gt Rem Prog Change Mode F1 F2 1 0 Ladder Editor a gt CIO instruction or 1 0 Module gt Ovrview Cursor to BT or Edit dule Edit Mo gt j Module Edit real time sample rate temperature scale resolution zoom mode channe sensor type filter constant disa zoom center in mV no functiona Channel Monitor BT Edit Ta F3 F5 100 mV Edit 1 0 Edit gt a g disabled degrees C 10 uV s 14 channels 5 8 100 mV led disabled difference sec or 0 for RTS disabled mod 9 of 9 Data Ot her les Functns 6 F8 Addr 12 TEST Accept F10 2 35 Configuring Analog I O Modules Other than N Series Analog I O Modules Field Valid Values Real Time Enter a real time sample rate between 0 025 and 3 175 seconds enter 0 for Sample Rate RTS disabled The default is disabled The software rounds the number you enter to the nearest 0 025 second 25 ms as required by the module Temperature Scale Press F9 Toggle to select Degrees C or Degrees F The default is Degrees C Ifthe sensor type is millivolts for channels 1 4 and 5 8 the temperature scale is
231. um output Module Channel A Edit or Edit low reference signal or reference signal to each to each input channel ouput channel Other Functions Vv i Accept F10 Yes Vv No Yes h No M Measure and enter 7 or HO each low output reference signal Calibrate NI 6 Select Connect appropriate Enter maximum output high reference signal reference signal to each to each input channel ouput channel arrow keys and Accept Accept Vv ro Measure and enter each high output reference signal go re gt oO pt a ISkipped if no inputs selected for calibration 2Skipped if no outputs selected for calibration Restart View Status EndCal Calibration Use or or rs at any time during calibration The Calibration Status screen appears automatically after you complete the calibration The status column displays done if the calibration was successful or bad cal if the calibration was not successful 3 36 Configuring the 1771 VHSC and 1771 CFM 4 Configuring the Very High Speed Counter Module 1771 VHSC and Configurable Flow Meter Module 1771 C FM Chapter Objectives This chapter explains how to configure the Very High Speed Counter and Configurable Flow M eter I O modules You should have already read chapter 1 because it explains the basic functions and screens you ll use Configuring an I O Module When you edit a module configuration you can change the
232. ur ladder program 1771 I FE C Auto Calibration Calibration Status ok EEPROM Status ok Offset Calibration Requests 2 3 4 5 6 7 8 9 10 11 12 13 14 5 16 offset no no no no no no no status ok ok ok ok ok ok ok Channel Edit or Monitor Gain Calibration Requests 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 gain no no no no no no no no no no no no no no no no status ok ok ok ok ok ok li ok ok ok ok ok Other Functions Press F9 Toggle to change selection Rem Prog mod 7 of 7 File TEST Change 1 0 Channel Module Monitor BT Data Toggle Accept Mode Ovrview Edit Edit Tables F1 F2 F3 F4 F5 F6 F9 F10 Calibrate settheOf f set Calibration Requests to yes 2 Apply a precision voltage of 0 000 V to all selected input channels Press this key then press F8 Yes twice as it appears setineGain Calibration Requests toyes 5 According to the input range for each channel apply the correct precision voltage to all selected input channels If you have a range of 1 5V dc 0 5 V dc or 5 V dc apply 5 V if you have a range of 10 V dc apply 10 V if you have a range of 4 20 mA apply 20 mA Q Repeat step 3 OG settheGain Calibration Requests tono Repeat step 3 2 7 Configuring Analog I O Modules Other than N Series Analog I O Modules Configuring a 1771 IL Series A To configure a 1771 IL series A module follow the steps below Module Edit Screen
233. us bits are set by the module e Enabled the module sets alarm status bits for bad output data low high clamp and limited rate if those conditions occur The processor must be in Run mode if you want to receive current status from the module 1 Enter either of these two fields and the software computes the other field for you using the programmed scaling Continue 3 31 Configuring N Series Analog I O Modules Field Maximum Ramp Rate Per Second Low High Clamp Channel Status Alarms Valid Values Enter a rate limit either as a percentage of full scale per second 1 to 200 or as a change in signal per second up to 80 mA s If you enter the rate limit as a signal value the I O configuration utility rounds the value you enter to match the prescribed step size of 0 4 mA When the programmed output data changes rapidly the module limits the actual rate of change of the output signal as indicated If you don t want the module to impose any limit on the rate of change of the output signal enter 0 The module always clamps outputs to 0 mA to 51 26 mA If you want a narrower clamping range enter the low and high clamps in scaled units separated by a The software displays us er followed by the values you entered Enter 0 0 to use the default clamps The software displays df I t followed by the scaled values that correspond to 0 mA and 51 26 mA If low scale is higher than high scale the low clamp must be higher
234. ust be connected to a processor to calibrate a module To calibrate a 1771 IR series B module follow the steps on the left Auto Calibration Screen Note Channel Edit or Monitor Other Functions V Calibrate 2 a In order to access the auto calibration function you must Specify the maximum lengths for the BTW or CIO Write 15 and BTR or ClO Read 9 fields in your ladder program 1771 IR Series B only The offset and gain values on the Channel Edit screen must be 0 See page 2 21 Auto Calibration 1771 IR B status of request Request offset calibration no Request gain calibration no Save auto calibration values no Channel Selections for Calibration 4 calibrate yes yes yes yes yes status ok ok ok ok ok Press F9 Toggle to change selection Rem Prog mod 7 of 7 Change 1 0 Channel Module Monitor BT Data Toggle Accept Mode Ovrview Edit Edit Tables Fl F2 F3 F4 F5 F6 F9 F10 Choose channels to calibrate Setothers to NO here by pressing F9 Toggle setRequest offset calibration toyes Apply a precision resistance of 1 00 ohm to all selected channels Press this key then press F8 _Yes twice as it appears OG Press F9 ToggletosetRequest offset calibration tono OG Repeat step 4 setRequest gain calibration toyes O Apply a precision resistance of 402 00 ohms to all selected channels Repeat step 4 setSave auto calibration values toyes Repeat step 4 I
235. utput I O Config 3 27 50 mA output 1 0 Config 3 30 55 mV input I O Config 3 12 650 ohms RTD input I O Config 3 18 N Series standalone utility I O configuration I O Config 1 13 3 1 Natural Log instruction LN Instruction 4 23 navigational keys Config M aint 3 3 I O configuration 1 0 Config 1 1 NEG instruction Instruction 4 26 N egate instruction NEG Instruction 4 26 NEQ instruction Instruction 3 15 network status screen ControlNet WHO ACTIVE Config M aint 8 31 Next NXT instruction Instruction 13 8 NO ACCESS OR PRIVILEGE VIOLATION error message Config M aint 15 22 NO BACKUP DIRECTORIES ARE CONFIGURED error message Program 5 5 NO MORE DATA error message C onfig M aint 12 34 NO PRIVILEGE TO READ FILE N7 error message Config M aint 15 22 node privileges Config M aint 15 14 Not Equal To instruction Instruction 3 15 NOT instruction Instruction 5 4 NOT Operation instruction NOT Instruction 5 4 Number of Char in Buffer instruction Instruction 17 7 NXT instruction Instruction 13 8 0 offline clearing memory Config M aint 3 18 configuring Config M aint 7 2 creating files Config M aint 7 4 reports Config M aint 20 5 memory size Config M aint 3 14 processor series Config M aint 3 12 programming Config M aint 7 1 selecting files Config M aint 7 5 offline file privileges Config M aint 15 11 offline programming Config M aint 3 10 multiple users C onfig M aint 7 3 SFC considerations Program 9 3 10

Configuring an Analog I/O Module

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