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FP7 TC Multi-Analog Input Unit/ RTD Input Unit User`s Manual

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1. Range Input value Converted value 115 C or less 1150 K1 Thermocouple type K 615 C or more 6150 215 C or less 2150 K2 Thermocouple type K 1015 C or more 10150 115 C or less 1150 J1 Thermocouple type J 415 C or more 4150 215 C or less 2150 J2 Thermocouple type J 765 C or more 7650 285 C or less 2850 Thermocouple type T 415 C or more 4150 285 C or less 2850 Thermocouple type N 1315 C or more 13150 15 C or less 150 Thermocouple type R 1775 C or more 17750 15 C or less 150 Thermocouple type S 1775 C or more 17750 15 C or less 150 Thermocouple type B 1835 C or more 18350 285 C or less 2850 Thermocouple type E 1015 C or more 10150 15 C or less 150 Thermocouple type PL II 1405 C or more 14050 15 C or less 150 Thermocouple type WRe5 26 2330 C or more 23300 Disconnection 30000 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 1 2 Voltage Input Range m 10 V to 10 V DC input 0 32 mV 1 62500 Conversion characteristics graph Table of A D converted values K Input voltage V Digital value o II INEA 10 31250 8 25000 6 18750 4 12500 2 6250 15 625 0 0 2 6250 4 12500 6
2. E Analog input control is available in combination with the CPU unit e Temperature data measured by a thermocouple or resistance temperature detector RTD is converted as digital values E Input with simple programs e For input data digital conversion values are read as input devices WX e At the time of the thermocouple input or the RTD input temperatures are read as integer values in units of 0 1 degrees E Ten types of thermocouples and three types of RTDs are supported for each channel e Ten types of thermocouples K J T N R S B E PLII and WRe5 26 and three types of RTDs Pt100 JPt100 and Pt1000 can be used Also on the thermocouple multi analog input unit they can be used in combination with volotage and current inputs e Types of temperature sensors can be changed by the settings of tool software or user programs Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Various optional settings Functions to process loaded analog input data are provided User programs can be simplified Function Specifications Average processing setting Averages analog values obtained by sampling and stores them in the I O area as digital values lt can be selected from No of averaging times time average and moving average Offset Gain processing setting Scale conversion setting Performs the correction of offset values a
3. Unit memory Name Default Setting range and description No Hex UM 00080 UM 00090 UM 000A0 Conversion Select wheter to execute the conversion processing or not UM 000Bo Processing i BON UM 000C0 Execution Non HA ee UM 000D0 execution UM 000E0 UM 000FO Select the input range 0001h Voltage input 10 V to 10 V 0002h Voltage input 0 V to 5 V 0003h Voltage input 1 V to 5 V 0004h Voltage input 100 mV to 100 mV 0005h Current input 0 mA to 20 mA 0006h Current input 4 mA to 20 mA UM 00081 0010h Thermocouple input K1 100 0 to 600 0 C UM 00091 i UM 000A1 Range setting 0011h Thermocouple input K2 200 0 to 1000 0 C UM 00081 For Thermocouple y 0012h Thermocouple input J1 100 0 to 400 0 C UM 000C1 multi analog input Pr oe unit 0013h Thermocouple input J2 200 0 to 750 0 C UM 000F1 0014h Thermocouple input T 270 0 to 400 0 C 0015h Thermocouple input N 270 0 to 1300 0 C 0016h Thermocouple input R 0 0 to 1760 0 C 0017h Thermocouple input S 0 0 to 1760 0 C 0018h Thermocouple input B 0 0 to 1820 0 C 0019h Thermocouple input E 270 0 to 1000 0 C 001Ah Thermocouple input PL II 0 0 to 1390 0 C 001Bh Thermocouple input WRe5 26 0 0 to 2315 0 C UM 00081 Select the input range UM 00091 0001h RTD input Pt100 1 100 0 to 200 0 C UM 000A1 UM 000B1 Range setting Ha 0002h RTD input Pt100 2 200 0 to 650 0 C OM ae For RTD input unit 0003h RTD input JPt100
4. Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 2 Names and Functions of Parts Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 2 1 Thermocouple Multi analog Input Unit and RTD Input Unit 5 1 or ALARM V T gt 2 MENE AE a EN ha EE H la I 44 als a a ED pa cal al a al a SAN pa ies m Names and Functions of Parts 1 Operation monitor LEDs LED name LED Contents color Blue Lit when the CPU unit is turned ON Lit when the configuration settings are beyond the allowable range or A D ERROR Red conversion is not possible ALARM Red Lit when the hardware has an error 2 Analog input terminal block The terminal block is removable Remove the terminal block before wiring 3 DIN rail attachment lever This lever is used to fix the unit to the DIN rail 4 Unit connector Connects to other I O units and highly functional units 5 Fixing hook This hook is used to secure the unit with another unit Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 3 1 Wiring of Terminal Block 3 1 1 Terminal Block Suitable Wires and Tools E Sup
5. MV SS S1 UM00178 Unit memory specified for slot 1 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 6 Disconnection Detection AFP7TC8 E Overview of functions This function is to announce an error with the disconnection detection flag if the result of input does not reach a certain value while thermocouple input voltage input range of 1 to 5 V or current input range of 4 to 20 mA is set in the thermocouple multi analog input unit e f disconnection is detected while the disconnection detection execution relay is ON using a user program the disconnection detection flag will be turned ON e There are two ways to reset the disconnection detection When selecting Auto the disconnection detect flag will be automatically turned OFF at the time of reset If the manual reset setting is made the disconnection detection flag will be turned OFF by using a user program and turning OFF the disconnection detection execution relay E Action with the detection disconnection reset setting set to auto V mA Analog input value Disconnection threshold I I 0 7 V or 2 8 mA Disconnection I I detection execution relay I I 1 I I Disconnection detection flag 2 t Note The disconnection threshold in the above figure is that when the voltage input range of 1 to 5 V or current input range of 4 to 20 mA is set m Action with the detection disconnection rese
6. AL Jed Note Do not connect anything to N C terminals NOTES e Connect wires in accordance with the polarity of he thermocouple Also when extending the signal line of the thermocouple use the compensating lead wire for the used thermocouple It is recommended to ground the unit using the shielded compensating lead wire e Do not have the analog input wiring close to AC wires power wires or load line from a device other than PLC Also do not bundle it with them Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 3 2 2 For Voltage Input E Wiring Diagram and Internal Circuit Diagram Input device PhotoMOS tale RH visn lay i SEF E T I 2 2 13 COM n 2 5 5 T p I ST T or 1E y o y s Ine 12500 Mol Mmo 2 E Int mom J E Terminal layout y V i 0 tal Vil 4 gt cHo4 COMO 7 de 10 4 Vil 1 Vil 5 CH COM 1 COM 5 Gus 1 5 VIl 2 Vil 6 CH2 SONE COMS cre 12 6 J V I 3 Vil 7 CH3 COM 3 COM 7 cH7 13 N C N C Note Do not connect anything to N C terminals NOTES e Use double core twisted pair shielded wires It is recommended to ground them However depending on the conditions of the external noise it may be better not to ground the shielding e Do not have the analog input wiring close to AC wires power wires or load line
7. Setting monitoring item CH4 CH5 CH6 CH7 Configuration settings refresh UM 00028 Power frequency setting UM 00071 Conversion time setting UM 00072 Conversion processing UM 000CO UM 000DO UM 000E0 UM 000FO Range setting UM 000C1 UM 000D1 UM 000E1 UM 000F1 Average processing Function setting offset Gain processing UM 00002 UM000D2 UM 000E2 UM 000F2 1 Scale conversion Upper Lower limit comparison i i Holding max min values Function setting ke UM 00003 UM000D3 UM000E3 UM000F3 2 Disconnection detection Disconnection detection reset Averaging constant UM 000C4 UM 000D4 UM 000E4 UM 000F4 Offset value UM 000C5 UM 000D5 UM 000E5 UM 000F5 Gain value UM 000C6 UM 000D6 UM 000E6 UM 000F6 Scale Max value UM 000C7 UM 000D7 UM 000E7 UM 000F7 conversion Min value UM 000C8 UM 000D8 UM 000E8 UM 000F8 Upper limit comparison UM000C9 uMoooD9 UMoooE9 UMO0OF9 ON level Upper limit comparison UM 000CA UMO000DA UMO000EA UM 000FA Upper Lower OFF level limit comparison imi i E Lower IE comparison UM 000CB UM000DB UMO00EB UM 000FB OFF level poner limit comparison UM000CC UM000DC UMO00EC UM 000FC ON level Max Min value Holding max value UM 00174 UM 00175 UM 00176 UM 00177 hold monitor i 7 area Holding min value UM 0017C UM 0017D UM 0017E UM 0017F NOTES e Unit memories UM include the areas used in the system Do not write
8. 8 1 2 Specifications of Thermocouple Multi analog Input Unit AFP7TC8 E Performance specifications Input range resolution Item Specifications Number of channels 8 channels 10 to 10 V DC Resolution 1 62 500 0to 5 VDC Resolution 1 31 250 Voltage y 1t05 V DC Resolution 1 25 000 Note 1 100 to 100 mV DC Resolution 1 62 500 0 to 20 mA Resolution 1 31 250 Current 4 to 20 mA Resolution 1 25 000 Note 1 Thermocouple resolution 0 1 C Conversion speed K1 100 0 to 600 0 C K2 200 0 to 1000 0 C J1 100 0 to 400 0 C J2 200 0 to 750 0 C T 270 0 to 400 0 C 270 0 to 1300 0 C 0 0 to 1760 0 C 0 0 to 1760 0 C 0 0 to 1820 0 C mojoj D Z 270 0 to 1000 0 C PLT 0 0 to 1390 0 C WRe5 26 0 0 to 2315 0 C Processing time is added to the conversion time for the number of execution channels High speed mode 5 ms ch 5 ms Note 2 Normal mode 25 ms ch 25 ms Indication accuracy Note 4 0 1 F S or less at 25 C in the normal mode Note 3 0 3 F S or less at 0 to 55 C Reference junction compensation 1 0 C with thermocouple input accuracy Input Voltage input 1 MQ impedance Current input 2500 15 to 15 V DC Voltage input Absolute max input gt 2 to 30 mA Current input Insulation method Between input terminals and internal circuit Photocoupler Insulated
9. i ayele Upper limit of range 30 C ra is For Pt1000 20 c Lower limit of range Upper limit of range 15 C 15 C m When exceeding the rated range re To the next page Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net m When exceeding the rated range e Up to the lower limit 15 C and the upper limit 15 C of the range reference values which the conversion accuracy is not assured are indicated e When exceeding the upper limit of the range 30 C converted values are 3000 In the case of Pt1000 it is 20 C Range Input value Converted value 215 C or less 2150 Pt100 665 C or more 6650 115 C or less 1150 Pt100 215 C or more 2150 215 C or less 2150 JPt100 665 C or more 6650 115 C or less 1150 JPt100 215 C or more 2150 115 C or less 1150 Pt1000 115 C or more 1150 Disconnection 30000 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Optional settings Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 1 Average Processing Settings 6 1 1 Number of Averaging Times E Overview of functions e Analog input data sampled by the unit is averaged and stored as digital values e If the number of averaging time is set analog input data items acquired will be stored in
10. annnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnenenenn 7 1 7 1 What to Do If an Error Occurs Analog Input oooocccnnnnnnnnncccnnnnccnnnnnn 7 2 7 1 1 Failure in Reading Input Data reronnronnronnrrrnrrnnrrnnnennrrnnrrnnrrnnrrnnrrnnrrnnnnn 7 2 7 1 2 Unstable Input Conversion Value mnsrnnrnvrnrnrrvnnnrnnnnnvnrnrrnnnnrrnnnnrnnrnnnnnn 7 2 7 1 3 No Proper Conversion Values Obtained with Current Input 7 2 8 Specifications escent cease seed ciudad 8 1 A Sea precinct toed REE E a bet EE a EEE 8 3 8 1 1 General Specifications ooonnocncicnnini nnnnnnncnocccnnnrnnncrnnn nr cnn 8 3 8 1 2 Specifications of Thermocouple Multi analog Input Unit AFP7TC8 8 4 8 1 3 Specifications of RTD Unit AFP7RTD8 coooccconccconocinancccnoncnonanananannnncnos 8 7 82 JO MEG ee o 8 8 83 List of Unit Memories due 8 10 8 31 Configuration Area icipin aiii ei aii iais 8 10 8 4 List of Detailed Specifications of Unit Memories ccccccccccnnnnnnnns 8 12 8 5 DIMENSIONS src rare 8 17 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 1 Unit Functions and Restrictions Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 1 1 Unit Functions and How They Work 1 1 1 Functions of Unit Vorl
11. 18750 H 8 25000 AR AR 10 v 10 31250 When exceeding the rated range A D converted Input voltage V value 10 V or more 31250 pee 10 V or more 31250 E 0 Vto 5 V DC input 0 16mV 1 31250 Conversion characteristics graph Table of A D converted values K Input voltage V Digital value 5 31250 APA 4 25000 3 18750 2 12500 1 6250 0 0 When exceeding the rated ran 15 625 kN converte Input voltage V value 5 V or more 31250 0 V or less 0 T T l 0 1 2 3 4 5 V Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net m 1 Vto 5 V DC input 0 16 mV 1 25000 Conversion characteristics graph Table of A D converted values 12 500 v Input voltage V Digital value 5 25000 4 18750 3 12500 2 6250 1 0 When exceeding the rated ra nge Input voltage V A D converted value 5 V or more 25000 1 V or less 0 m 100 mV to 100 mV DC input 3 2 uV 1 62500 Conversion characteristics graph Table of A D converted values K 31 250 15 625 100 mv 31 250 Input voltage mV Digital value 100 31250 80 25000 60 18750 40 12500 20 6250 0 0 20 6250 40 12500 60 18750 80 25000 100 31250 When exceeding the rated ra nge Input voltage V A D convert
12. 3 1 Wiring of Terminal Block ooo nod 3 2 3 1 1 Terminal Block Suitable Wires and Tools cccccccccnccocicicicicicicinicicinaness 3 2 Sided WIIG a Ape ne 3 3 3 2 Connection of Thermocouple Multi analog Input Unit ee 3 5 3 2 1 For Thermocouple IMpUt ooooooccconnncccnnnoccccnnnoncccnanoncccnnnoncncnnnnnnccnnnnncccnnnns 3 5 3 2 2 For Voltage Mpb ecann a a a 3 6 3 2 3 For Current Input e a a aa a aE aaa eaa aa EAA E aea a Eais 3 7 3 3 Connection of RTD Input Unit citrtbi etatand i cea taleaes 3 8 4 Unit Settings and Data Reading cccccconnnnnnnnnnnnccnennononans 4 1 4 1 Confirming the I O Number Allocations and Starting Word Number 4 2 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 1 1 Occupied I O Area and I O Allocation oonmoninnnnninninnnnccnnnconnnccnnnccccnncnnn 4 2 4 1 2 Confirming Allocation of I O NUMberFS oooocococinnccnnncccconccononanonannnancccnnncnnn 4 4 4 2 Configuration Set Sid 4 5 4 2 1 Unit ConfiguratiON oonnncnncicnnnnnnnnnnnnnccnnncncnnrnnn narran cnn cnn ranma 4 5 4 2 2 Unit Setting and Conversion Processing Time 4 8 4 3 Reading Analog Input Data woooinsis arcas 4 9 4 3 1 Reading Analog Input Data eesonnvonnnrnnvrnnnrnnrrnnnensvrnnnensrrnnnrrsrrnnnersrrnnrnn 4 9 4 4 Data Acquisition TIMO uc 4 10 5 Conversion Characteristics of Analog Input 5 1 5 1 Input Conversion Characteristics
13. DC DC converter Between channels PhotoMOS relay settings Execution Non execution channel Possible to make settings on a channel by channel basis Input range selection Possible to make settings on a channel by channel basis Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Item Specifications Average processing Number of averaging times Time average Moving average settings Digital Scale conversion ait processing setting A desired value within the range of 30 000 Voltage current range only Offset setting A desired value within the range of 3 000 Gain setting 10 Upper Lower limit comparison Possible to make settings on a channel by channel basis Holding max min values Possible to make settings on a channel by channel basis Available Voltage range of 1 to 5 V current range of 4 to 20 mA and Disconnection detection thermocouple range only External connection method Connection terminal block connection Weight main unit 1459 Consumption current 80 mA or less Note 1 The full scale F S on the accuracy of a voltage range from 1 to 5 V DC and that of a current range from 4 to 20 mA are 0 to 5 V DC and 0 to 20 mA respectively Note 2 The indication accuracy in the high speed mode is 0 3 at 0 to 55 C Note 3 The indication accuracy rating of the thermocouple range varies by the input
14. No of averaging Average processing settings times Time average Moving average Not execute Offset Gain processing Not execute Execute Not execute Scale conversion Note Not execute Execute Not execute Upper Lower limit comparison Not execute Execute Not execute Max Min hold Not execute Execute Not execute Disconnection detection Not execute Execute Not execute Disconnection detection reset Auto Manual Auto No of times 2 to 60000 times 8 Averaging constant Time 200 to 60000 ms 200 Optional Moving 3 to 64 times 8 setting item Offset value 3000 to 3000 0 e each Gain value 9000 to 11000 10000 Maximum value of seale 30000 to 30000 10000 conversion Note Minimum value of scale 30000 to 30000 0 conversion Note Upper limit comparison ON 31250 to 31250 1000 level e OFF 31250 to 31250 1000 eve Lower limit comparison ON 31250 to 31250 0 level Lower limit comparison OFF 31250 to 31250 0 Note Scale conversion can be set only when selecting voltage or current range in the thermocouple multi analog input unit Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 2 2 Unit Setting and Conversion Processing Time Conversion time varies with the configuration setting conditions E Unit s conversion process cycle time e The unit s conversion time is determined by the number of channels that the conversion process is executed e For the thermocouple multi an
15. ON level HI A TS A op OMI RS Wear ANNE A I I 4 i I I I 1 I Flag I i i I Comparison I execution relay 1 I 1 i 5 I 1 I I I Upper limit I l I comparison roay Lower limit I comparison relay Comparison execution 28 t 1 The upper lower limit comparison function will be executed when the user program turns ON the comparison execution relay 2 The upper limit comparison relay will turn ON if the upper limit comparison ON level or an upper level is detected 3 The upper limit comparison relay will turn OFF if the upper limit comparison OFF level or a lower level is detected 4 The lower limit comparison relay will turn ON if the lower limit comparison ON level or a lower level is detected 5 The upper lower limit comparison relay and comparison execution flag will be forcibly turned OFF if the comparison execution relay is turned OFF Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E 1 0 allocation The I O numbers in the timing chart and program are shown on the condition that the starting word number of the unit is 10 Actual I O numbers allocated to the analog input unit are determined by the starting word number CHO CH1 CH2 CH3 CH4 CH5 CH6 CH7 1 Comparison execution relay Y103 Y113 Y123 Y133 Y143 Y153 Y163 Y173 2 Upper limit X111 X131 X151 X171 X191 X211 X231 X251 comparison relay 3 Lower limit comparison relay X112 X132 X152
16. RTD Input Unit FP7 High speed counter Unit FP7 Thermocouple Multi analog Input Unit FP7 RTD Input Unit Users Manual FP7 High speed counter Unit Users Manual WUME FP7TCRTD WUME FP7HSC FP7 Pulse Output Unit FP7 Pulse Output Unit Users Manual WUME FP7PG FP7 Positioning Unit FP7 Positioning Unit Users Manual WUME FP7POSP FP7 Serial Communication Unit PHLS System Programming Software FPWIN GR7 FP7 series Users Manual SCU communication PHLS System Users Manual FPWIN GR7 Introduction Guidance WUME FP7COM WUME PHLS WUME FPWINGR7 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Table of Contents 1 Unit Functions and Restrictions rrnrrnnnnnnnnnnnnnnnnnnnnevnnnnn 1 1 1 1 Unit Functions and How They Work oooooooccccnnccccnnncnonocccnnnccnnnnnnnanccononcnns 1 2 TAA Functions ot Unit A A eee 1 2 1 1 2 Unit Type and Product Number rnnnannvvnnnnnnvrnnnnnnvrnnnnnnrrnnnrnsrrnnernsrrnneenn 1 3 1 2 Restrictions on Combinations of Units eenen 1 4 1 2 1 Restrictions on Power Consumption oooocccncccnnoncconocacnncccnoncnnnonananannnancccnns 1 4 1 2 2 Applicable Versions of Unit and Software oooooncninnnnnncccinncnnocnnnnannnancccnns 1 4 2 Names and Functions of PartS rnnnnnnnnnnnnnnnnnnnnnnnnnnnnennnnn 2 1 2 1 Thermocouple Multi analog Input Unit and RTD Input Unit 2 2 3 MING eee 3 1
17. Turns ON when the upper limit lower X13 X33 X53 X73 X93 X113 X133 X153 comparison limit comparison function is execution flag executed X14 X34 X54 X74 X99 X114 X134 X154 Not used Do not use Max Min hold Turns ON when the max min hold X15 X35 X55 X75 X95 X115 X135 X155 execution flag function is executed X16 X36 X56 X76 X96 X116 X136 X156 to to to to to to to to Not used Do not use X1E X3E X5E X7E X9E X11E X13E X15E X1F X3F X5F X7F X9F X11F X13F X15F Error flag Turns ON when an error occurs Note 1 The I O numbers in the table indicates offset addresses The I O numbers actually allocated are the numbers based on the starting word number allocated to the unit Example When the starting word number for the unit is 10 the C error flag is X11F E Output contact I O number DAN Name Description CHO CH1 CH2 CH3 CH4 CH5 CH6 CH7 ON to execute the disconnection Disconnection detection function yo Y10 Y20 Y30 Y40 Y50 Yso Y70 detection ere disconnection exec tion relay Valid for thermocouple voltage 1 5 V and current 4 20 mA ranges only Y1 Y11 Y21 Y31 Y41 Y51 Y61 Y71 Not used Donotuse Y2 Y12 Y22 Y32 Y42 Y52 Y62 Y72 i ON to execute the function to Upper Lower limit compare the upper and lower limits Y3 Y13 Y23 Y33 Y43 Y5
18. data KO WX1 CHO Optional function flag HO WX2 CH1 Analog conversion data KO WX3 CH1 Optional function flag HO WX4 CH2 Analog conversion data KO WS CH2 Optional function flag Rg a aie ag to analog WX6 CH3 Analog conversion data KO input are stored as 16 bit signed integer data We Ca Optional uncon fag HD an by anges When onion WX8 CH4 Analog conversion data KO processing has been set data after the WX9 CH4 Optional function flag HO processing Is stored WX10 CH5 Analog conversion data KO El de i AER ker Sa WX11 CH5 Optional function flag HO WX12 CH6 Analog conversion data KO WX13 CH6 Optional function flag HO WX14 CH7 Analog conversion data KO WX15 CH7 Optional function flag HO Note 1 The I O numbers in the table indicates offset addresses The I O numbers actually allocated are the numbers based on the starting word number allocated to the unit Example When the starting word number for the unit is 10 the A D conversion data of CHO is WX10 and the error flag is X11F Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Input contact Optional functions Error flag area I O number Er Name Description CHO CH1 CH2 CH3 CH4 CH5 CH6 CH7 ON with disconnection detected and Disconnection OFF with disconnection restored XAO X30 X501 79 XI0 FAD ALIGN X150 detection flag Valid for thermocoupl
19. exec tion relay Valid for thermocouple voltage 1 5 V and current 4 20 mA ranges only Y1 Y11 Y21 Y31 Y41 Y51 Y61 Y71 Not used Donotuse Y2 Y12 Y22 Y32 Y42 Y52 Y62 Y72 i ON to execute the function to Upper Lower limit compare the upper and lower limits Y3 Y13 Y23 Y33 Y43 Y53 Y63 Y73 comparison OFF to turn OFF the upper limit execution relay comparison relay Xn1 and lower limit comparison relay Xn2 Y4 Y14 Y24 Y34 Y44 Y54 Y64 Y74 Not used Do not use Max Min hold ON to execute the max min hold Y5 Y15 Y25 Y35 Y45 Y55 Y65 Y75 execution relay fonction Y6 Y16 Y26 Y36 Y46 Y56 Y66 Y76 to to to to to to to to Not used Do not use YE Y1E Y2E Y3E Y4E Y5E Y6E Y7E YE VIF Y2F Y3F Y4F Y5F Yer Y7F Te reset Resets an error flag Note 1 The I O numbers in the table indicates offset addresses The I O numbers actually allocated are the numbers based on the starting word number allocated to the unit Example When the starting word number for the unit is 10 the disconnection detection execution relay of CHO is Y100 and the error flag reset relay is Y10F Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 1 2 Confirming Allocation of I O Numbers e The I O numbers and base word numbers are always necessary when creating programs Always check to see if the numbers match t
20. type of the thermocouple to be used and measurement temperature Note 4 If highly accurate temperature data is necessary use the temperautre data in about 30 minutes after the unit was powered on Note 5 If a sudden temperature change occurs in the unit the accuracy may not be stable temporarily Install to keep the unit out of the direct wind from devices such as a cooling fan in a control panel REFERENCE e Also refer to the section Indication accuracy rating of thermocouple range on the next page Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Indication accuracy rating of thermocouple range Normal mode 25 ms conversion ON sped meets Measurement temperature 5 ms conversion Thermocouple range Ambient Ambient Ambient Note 1 temperature temperature temperature 25 C 0 to 55 C 0 to 55 C K1 100 0 to 600 0 C 0 1 0 3 0 30 K2 200 0 to 1000 0 C 0 1 0 3 0 30 J1 100 0 to 400 0 C 0 1 0 3 0 30 J2 200 0 to 750 0 C 0 1 0 3 0 30 270 0 to 200 0 C Note 2 Note 2 Note 2 T 200 0 to 0 0 C 0 15 10 3 0 30 0 0 to 400 0 C 0 1 0 3 0 30 270 0 to 200 0 C Note 2 Note 2 Note 2 N 200 0 to 0 0 C 0 15 0 3 0 30 0 0 to 1300 0 C 0 1 0 3 0 30 3 0 0 to 300 0 C 0 15 0 3 1 00 300 0 to 1760 0 C 0 1 0 3 0 30 0 0 to 300 0 C 0 1
21. unit memory UM as digital values when the number of analog input data items reaches the set number of averaging times e If the number of data items acquired is less than the number of averaging times the first acquired data will be stored in the l O area e Obtain the number of averaging times to be processed from the following input Input The sum of analog input data items for the number of averaging times Output Number of averaging times value E Processing during the number of averaging times Averaging setting example The number of averaging times is set to 5 Analog signal o d I I I I I I I I I I o A ee eee ay hee aQ 0 d o J gt EEE ee le ey A Analog input processing I Average ofatoe Average offtoj Average of kto o GE I data m Configuration Name Default Setting range and description Functi Average processing Not execute Select the number of averaging times unction i K8 Number 2 to 60000 times specified with an settin g Averaging constant unsigned integer Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 1 2 Time Average E Overview of functions e Analog input data sampled by the unit is averaged and stored as digital values e If time average is set analog input data items acquired will b
22. 1 100 0 to 200 0 C UM 000E1 0004h RTD input JPt100 2 100 0 to 200 0 C eeu 0005h RTD input Pt1000 100 0 to 100 0 C Note The unit memory numbers in the above table are listed for CHO to CH7 in numerical order Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Individual setting area per channel Unit memory Name Default Setting range and description No Hex Select the desired function to be used bit Name Settings UM 00082 Ser oe HO Not execute UM 00092 unction setting 3 0 Average H1 No of averaging times UN as Average processing processing H2 Time average UM 0002 Offset Gain HO H3 Moving average UM 000D2 Processing 7 4 Offset Gain HO Not execute UM 000E2 Scale conversion Processing H1 Execute UM 000F2 11 8 Scale HO Not execute conversion H1 Execute 15 12 Not used Select the desired function to be used Function setting 2 bit Name Settings UM 00083 Upper Lower limit 3 0 Upper Lower HO Not execute UM 00093 comparison limit comparison Hi Execute Gu ae Holding max min 7 4 rasere a a cea values ho xecute UM 000C3 values HO UM 000D3 Disconnection 11 8 Disconnection HO Not execute UM 000E3 detection detection H1 Execute UM 000F3 Disconnection HO Auto Auto reset for detection reset 15 12 Disconnection reconnection detection reset Hi Manual Set consta
23. 12 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Example of 1 channel conversion Analog signal of chO Converts chO repeatedly yp yy py yy MR MG tt a r Processing in the analog input AAA AA ME ME part I O refresh Processing in the CPU unit Data of chO r to be read in a e g J l n p the CPU unit Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 9 Conversion Characteristics of Analog Input Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 1 Input Conversion Characteristics AFP7TC8 5 1 1 Thermocouple Input Range m Conversion characteristics graph Upper limit of range 150 Upper limit of range C rs Lower limit of range Md Lower limit of range 150 Input range Upper limit of range 30 C Lower limit of range Upper limit of range 15 C 15 C Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net m When exceeding the rated range e Up to the lower limit 15 C and the upper limit 15 C of the range reference values which the conversion accuracy is not assured are indicated e When exceeding the upper limit of the range 30 C converted values are 30000
24. 3 Y63 Y73 comparison OFF to turn OFF the upper limit execution relay comparison relay Xn1 and lower limit comparison relay Xn2 Y4 Y14 Y24 Y34 Y44 Y54 Y64 Y74 Not used Do not use Max Min hold ON to execute the max min hold Y5 Y15 Y25 Y35 Y45 Y55 Y65 Y75 execution relay fonction Y6 Y16 Y26 Y36 Y46 Y56 Y66 Y76 to to to to to to to to Not used Do not use YE Y1E Y2E Y3E Y4E Y5E Y6E Y7E YE VIF Y2F Y3F Y4F Y5F Yer Y7F ate flag reset Resets an error flag Note 1 The I O numbers in the table indicates offset addresses The I O numbers actually allocated are the numbers based on the starting word number allocated to the unit Example When the starting word number for the unit is 10 the disconnection detection execution relay of CHO is Y100 and the error flag reset relay is Y10F Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 8 3 List of Unit Memories 8 3 1 Configuration Area User programs are not necessary because the configuration area will be written automatically if it is set with the tool software In the case of changing settings with user programs specify the desired unit memory number and write the corresponding values m Setting monitoring items and allocation of unit memories CHO to CH3 2 JE Unit memory U
25. 4 Bol 19 84 CHO bol Ei Eba pCH4 NC 13 C J Tk CH1 r CHS CH2 r CHG CH3 lt gt CH7 e On the RTD input unit AFP7RTD8 the disconnection detection execution relay and the disconnection detection flag cannot be used Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 8 Configuration by Programming E Overview of functions e The thermocouple multi analog input unit and the RTD input unit make it possible to overwrite configuration information by programming e The configuration information is refreshed by writing 55AA to unit memory UM 00028 after the value is stored in the unit memory where a desired parameter is set e The value of unit memory UM 00028 will be set to O when the configuration information is refreshed E Sample program Program setting the input range of CHO CH1 to the thermocouple input K1 range 100 to 600 C and CH2 and CH3 as non execution channel for the thermocouple multi analog input unit in the slot number 1 i Sets CHO and CH1 to i i thermocouple K1 range i RO DF Sets CH2 and CH3 to i non execute RO y Setting updating if A i progress R1 R1 S1 UM00028 R2 R3 Hk DF lt A SET gt A MV SS WX10 DT100 MV SS WX11 DT101 R3 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web
26. 5 0 3 1 00 gt 300 0 to 1760 0 C 0 1 0 3 0 30 0 0 to 400 0 C Note 2 Note 2 Note 2 B 400 0 to 800 0 C 0 15 0 3 1 00 800 0 to 1820 0 C 0 1 0 3 0 30 270 0 to 200 0 C Note 2 Note 2 Note 2 E 200 0 to 0 0 C 0 15 0 3 1 00 0 0 to 1000 0 C 0 1 0 3 0 30 PLII 0 0 to 1390 0 C 0 1 0 3 0 30 WRe5 26 0 0 to 2315 0 C 0 1 0 3 0 30 Note 1 Although it is possible to measure the temperature of 15 C outside the measurement temperature range the accuracy cannot be assured Note 2 Although it is possible to measure temperatures the accuracy cannot be assured Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 8 1 3 Specifications of RTD Unit AFP7RTD8 Item Specifications Number of channels 8 channels Pt100 1 100 0 to 200 0 C Pt100 2 200 0 to 650 0 C JPt100 1 100 0 to 200 0 C JPt100 2 200 0 to 650 0 C Pt1000 100 0 to 100 0 C Processing time is added to the conversion time for the number of Conversion speed execution channels 25 ms ch 25 ms 0 1 F S or less at 25 C 0 3 F S or less at 0 to 55 C Allowable signal source resistance RTD input 30 Q 3 wire balance Input range RTD resolution resolution 0 1 C Total accuracy Between input terminals and Insulation method internal circuit Between channels Photocoupler Ins
27. 773 Web www ctiautomation net Email info ctiautomation net
28. AFP7TC8 ooocccnnncccnccccnnncccnannnaannnons 5 2 5 1 1 Thermocouple Input Range ooccoonoccccnnnoccccnononccccnnonccnonannncncnnnncnnnnnancncnnns 5 2 5 1 2 Voltage Input Range tia da 5 4 5 1 3 Current Input RanQl oocccccnccccnoniconocanonoccconcnnnnnc canon cnc cnn rca nn rana 5 6 5 2 Input Conversion Characteristics APP7RTD8 oooonnnnccccccccnnnccccnnnanannnnns 5 7 5 2 1 RTD Input Range oec n eE E EEANN 5 7 6 Optional Settings iii 6 1 6 1 Average Processing SettidQS ccoooconnnnnocccncnnnnncnnnnanncnnnnnnnnnnnnnnnannnos 6 2 6 1 1 Number of Averaging Times urrnnrrnnnnnnrrnnnnnnvrnnnrnnrrnnrennrrnnrennrrnnrennrrensennn 6 2 61 22 NN 6 3 6 1 3 Movng Av rag him udnnmdddmededtddidendertd kb derene 6 4 6 2 Offset Gain ProcessiMua doma 6 5 6 3 Scale Conversion AFP7TC8 Voltage Current Range Only 0 6 7 6 4 Comparison for Upper and Lower Limits rnnnnnnnnnnnnrrrnnnnnnnnnnnnnnnrrnnnnne 6 8 6 5 Holding Maximum and Minimum Values rerrnrrnnnnnrrrrnnnnnnnnnnnnnnrrrnnnne 6 11 6 6 Disconnection Detection AFP7T C8 rrrrnnnnnnnnnnnnnnrrrrnnnnnnnrnrnnnnrrrnnnn 6 14 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 7 Disconnection Detection AFP7RTD8 ooooconnnccoccccncncccnnnananancccnnncnnnnnnns 6 16 6 8 Configuration by PrOgraMMiNQ cconnnnnccccnnnccinnnnnanonccnnnncnnnnnnnnnnnccnnncnnnnns 6 17 7 What to Do If an Error OCCUES
29. M number Setting monitoring item CHO CH1 CH2 CH3 Configuration settings refresh UM 00028 Power frequency setting UM 00071 Conversion time setting UM 00072 Conversion processing UM 00080 UM 00090 UM 000A0 UM 000BO Range setting UM 00081 UM 00091 UM 000A1 UM 000B1 Average processing es Offset Gain processing UM 00082 UM 00092 UM 000A2 UM 000B2 Scale conversion Upper Lower limit comparison He Holding me mI values UM 00083 UM00093 UM000A3 UM000B3 Setting Disconnection detection Disconnection detection reset Averaging constant UM 00084 UM 00094 UM 000A4 UM 000B4 Offset value UM 00085 UM 00095 UM 000A5 UM 000B5 Gain value UM 00086 UM 00096 UM 000A6 UM 000B6 Scale Max value UM 00087 UM 00097 UM 000A7 UM 000B7 conversion Min value UM 00088 UM 00098 UM 000A8 UM 000B8 upper limit Comparison umoooss UM00099 UM000A9 UM 000B9 ON level Upper limit comparison UM 00084 UM0009A UMO000AA UM 000BA Upper Lower OFF level limit comparison imi i i OWE comparison UM 0008B UM 0009B UM 000AB UM 000BB OFF level owenlimit comparison UM0008C UM0009C UMO00AC UM 000BC ON level Max Min value Holding max value UM 00170 UM 00171 UM 00172 UM 00173 hold monitor area Holding min value UM 00178 UM 00179 UM 0017A UM 0017B Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Setting monitoring items and allocation of unit memories CH4 to CH7 Unit memory UM number
30. Panasonic PROGRAMMABLE CONTROLLER FP7 TC Multi analog Input Unit FP7 RTD Input Unit User s Manual WUME FP7TCRTD 01 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Safety Precautions Observe the following notices to ensure personal safety or to prevent accidents To ensure that you use this product correctly read this User s Manual thoroughly before use Make sure that you fully understand the product and information on safety This manual uses two safety flags to indicate different levels of danger WARNING If critical situations that could lead to user s death or serious injury is assumed by mishandling of the product Always take precautions to ensure the overall safety of your system so that the whole system remains safe in the event of failure of this product or other external factor Do not use this product in areas with inflammable gas It could lead to an explosion Exposing this product to excessive heat or open flames could cause damage to the lithium battery or other electronic parts CAUTION If critical situations that could lead to user s injury or only property damage is assumed by mishandling of the product To prevent excessive exothermic heat or smoke generation use this product at the values less than the maximum of the characteristics and performance that are assured in these specifications Do not dismantle or remodel the product It coul
31. X172 X192 X212 X232 X252 4 Comparison execution flag X113 X133 X153 X173 X193 X213 X233 X253 m Configuration Name Default Setting range and description Function Upper Lower Not E setting limit comparison execute Select the desired function to be used Upper Lower limit comparison Set the upper limit to turn ON the output flag at the time of using Upper limit comparison ON K1000 the upper lower limit comparison function level Setting range 31250 to 31250 specicfied with a signed integer Upper Lower limit comparison Set the upper limit to turn OFF the output flag at the time of using Upper limit comparison OFF K1000 the upper lower limit comparison function level Setting range 31250 to 31250 specicfied with a signed integer Upper Lower limit comparison Set the lower limit to turn OFF the output flag at the time of using Lower limit comparison OFF KO the upper lower limit comparison function level Setting range 31250 to 31250 specicfied with a signed integer Upper Lower limit comparison Set the lower limit to turn ON the output flag at the time of using Lower limit comparison ON KO the upper lower limit comparison function level Setting range 31250 to 31250 specicfied with a signed integer Note 1 Make the following level settings for upper lower limit comparison Lower limit comparison ON level lt Lower limit comparison OFF level lt Upper limit com
32. alog input unit a conversion time per channel can be selected Normal mode High speed mode When conversion time is 25 ms ch When conversion time is 5 ms ch Note 2 No of executed Conversion time No of executed Conversion time channels Note 1 Processing time channels Note 1 Processing time 1 25 ms 25 ms 1 5 ms 5 ms 2 50 ms 25 ms 2 10ms 5ms 3 75 ms 25 ms 3 15ms 5ms 4 100 ms 25 ms 4 20 ms 5 ms 5 125 ms 25 ms 5 25 ms 5 ms 6 150 ms 25 ms 6 30 ms 5 ms 7 175 ms 25 ms 7 35 ms 5 ms 8 200 ms 25 ms 8 40 ms 5 ms Note 1 Channels to execute the conversion processing are set in the unit memories UM00080 UM00090 UM000A0 UM000BO UM000C0 UM000D0 UMO000E0 UM000F0 Note 2 Conversion time can be set only when selecting the thermocouple multi analog input unit It is set in the unit memory UM00071 E Normal mode and High speed mode e In the normal mode conversion time 25 ms c a process is available to reduce the effects of commercial frequency 50Hz 60H2 noises by a digial filter In the high speed mode conversion time 5 ms ch this process is not available e When there are effects of commercial frequency 50Hz 60Hz noises it is recommended to use the normal mode m Conversion processing execution non execution setting and conversion processing time Select the execution or non execution of the conversion processing of analog input on a channel by c
33. d cause excessive exothermic heat or smoke generation Do not touch the terminal while turning on electricity It could lead to an electric shock Use the external devices to function the emergency stop and interlock circuit Connect the wires or connectors securely The loose connection could cause excessive exothermic heat or smoke generation Do not allow foreign matters such as liquid flammable materials metals to go into the inside of the product lt could cause excessive exothermic heat or smoke generation Do not undertake construction such as connection and disconnection while the power supply is on It could lead to an electric shock Copyright Trademarks This manual and its contents are copyrighted You may not copy this manual in whole or part without written consent of Panasonic Industrial Devices SUNX Co Ltd Windows is a registered trademark of Microsoft Corporation in the United States and other countries All other company names and product names are trademarks or registered trademarks of their respective owners PLC_ORG Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Introduction Thank you for buying a Panasonic product Before you use the product please carefully read the installation instructions and the users manual and understand their contents in detail to use the product properly Phone 800 894 0412 Fax 888 723 4773 Web www ctiau
34. d execution relay turned ON e When the hold execution relay is turned ON the values at the time will be preset as maximum and minimum values in the unit memories e The maximum and minimum values will be stored in the unit memories even if the hold execution relay is turned OFF or the unit is set into PROG mode e The maximum and minimum values are held on a channel by channel basis EE Holds min value in unit memory Digital conversion value I I I l I I 1 Holds max value i in unit memory I I I I Flag I I I I I I Hold execution relay 1 Hold execution I flag 2 l I I I I Refreshes Rbfreshed Refreshes max value min value min value Unit memory Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net m Hold data storage area Unit memory Name Default Data range and description No Hex UM 00170 UM 00171 UM 00172 The acquired maximum value will be held when the maximum UM 00173 i and minimum value hold function is used UM 00174 Holding max value KO UM 00175 Setting range 31250 to 31250 specified with a signed integer UM 00176 UM 00177 UM 00178 UM 00179 UM 0017A The acquired maximum value will be held when the maximum UM 0017B UM 00170 Holding min value KO and minimum value hold function is used UM 0017D Setting range 31250 to 31250 specified with a signed integer UM 0017E UM 0017F Not
35. data with user programs in the areas other than the configuration area where the settings are opened Unit memory UM No range Application UM00000 to UM0006F UM 00028 can be set Reserved area for the system UM00070 to UMOOOFF Configuration area UM00100 to UM0016F Reserved area for the system UM00170 to UM001FF Monitor area UM00200 to UMOFFFF Reserved area for the system Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 8 4 List of Detailed Specifications of Unit Memories m Common to all channels Unit memory Name Default Setting range and description No Hex This is used to rewrite configuration infromation using a user program Unit memory If the constant SSAA is written to the unit memory UM 00028 after UM 00028 refresh HO transferring a desired parameter to a unit memory the settings will be updated The value of unit memory UM 00028 will be set to 0 when the configuration information is refreshed Select a power frequency UM 00071 Power frequency HO HO 60 Hz H1 50 Hz For the thermocouple multi analog input unit select a conversion time per channel HO 25 ms H1 5 ms UM 00072 Conversion time HO Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Individual setting area per channel
36. ddition correct or gain values magnification correction and stores the data after processing in the I O area Only the voltage and current ranges of the thermocouple mult analog input unit The function makes it possible to convert values to an easy to use data range Analog input data acquired in a range between preset minimum and maximum values is scale converted and stored in the I O area This function is convenient if used for scale unit conversion Upper lower limit value comparison setting This function compares acquired data with the upper limit and lower limit and turns ON the upper limit relay or lower limit relay if the acquired data exceeds the upper limit value or lower limit value Max Min hold setting Disconnection detection This function maintains the maximum and minimum values of acquired data Holds the maximum and minimum digital conversion values when the maximum minimum value hold setting is enabled and stores the values in provided unit memories for each channel Thermocouple multi analog input unit Turns ON the disconnection detection flag when input is disconnected or unconnected when selecting the thermocouple or the range of 1 5 V 4 20 mA and warns of the error state Also in case of thermocouple converts values to digital values in the range K30000 which are different from those normally converted RTD input unit When the A terminal and b terminal or B terminal and b termi
37. e The unit memory numbers in the above table are listed for CHO to CH7 in numerical order E 1 0 allocation The I O numbers in the timing chart and program are shown on the condition that the starting word number of the unit is 10 Actual I O numbers allocated to the analog input unit are determined by the starting word number CHO CH1 CH2 CH3 CH4 CH5 CH6 CH7 1 Hold execution relay 2 Hold execution flag X115 X135 X155 X175 X195 X215 X235 X255 Y105 Y115 Y125 Y135 Y145 Y155 Y165 Y175 m Configuration Name Default Setting range and description Function Holding max min Not setting values execute SPE Eee Holding min value KO Holding min value 31250 to 31250 Holding max value KO Holding max valeu 31250 to 31250 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Sample program The analog data on chO of the unit is read and the data holding the maximum and minimum values will be read at the desired data register RO Y105 HH DF gt lt SET gt Max Min hold execution relay CHO Controls max min hold function ON Execute OFF Not execute R1 Y105 DF NA RST gt Max Min hold execution relay a MV SS S1 UM00170 DTO y CHO Copies max value Max Min hold Unit memory o ee ear execution flag specified for slot 1
38. e voltage 1 5 V and current 4 20 mA ranges only X411 X31 X51 X71 X91 X111 X131 X151 Upper limit Turns ON when the value exceeds comparison relay the set upper limit Lower limit Turns OFF when the value drops a asset len NIA ATI ke kg comparison relay below the set lower limit Upper Lower limit Turns ON when the upper limit lower X13 X33 X53 X73 X93 X113 X133 X153 comparison limit comparison function is execution flag executed X14 X34 X54 X74 X99 X114 X134 X154 Not used Do not use Max Min hold Turns ON when the max min hold X15 X35 X55 X75 X95 X115 X135 X155 execution flag function is executed X16 X36 X56 X76 X96 X116 X136 X156 to to to to to to to to Not used Do not use X1E X3E X5E X7E X9E X11E X13E X15E X1F X3F X5F X7F X9F X11F X13F X15F Error flag Turns ON when an error occurs Note 1 The I O numbers in the table indicates offset addresses The I O numbers actually allocated are the numbers based on the starting word number allocated to the unit Example When the starting word number for the unit is 10 the C error flag is X11F E Output flag 1 0 number DAN Name Description CHO CH1 CH2 CH3 CH4 CH5 CH6 CH7 ON to execute the disconnection Disconnection detection function yo Y10 Y20 Y30 Y40 Y50 Yso Y70 detection er disconnection
39. e stored in unit memory UM as digital values when the acquisition period of the analog input data items reaches the set averaging time e Obtain the time average to be processed from the following input Input The sum of analog input data items for the number of averaging time Output Time average value E Processing during time average Average setting example Example of an averaging time of 200 msec Elapse of Elapse of 200 msec 200 msec ae An CO C1 C2 I I I l I I I I nn Vi 1 too Me oie L i I Analog signal 1 1 rad Gy SER i parrer RE EE p SETET I I i I i I I o oe oe o og Analog input processing PALE JO cae ICSI TT Saas kr A I I Average of AO to An I Average of BO to Bn PE NE a FOS Cow a o Analog input data E Configuration Name Default Setting range and description Average Notexecute Select time average Function processing setting Time 200 to 60000 ms specified with an Averaging constant K200 unsigned integer Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 1 3 Moving Average E Overview of functions Analog input data sampled by the unit is averaged and stored as digital values If moving average is set analog input data items acquired will be stored in unit memory UM as digital values when the number of analog input data items reaches the set number of moving average time
40. e table are listed for CHO to CH7 in numerical order Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Individual monitor area per channel Unit memory No Name Default Data range and description Hex UM 00170 UM 00171 UM 00172 UM 00173 Holding max UM 00174 value UM 00175 Setting range 31250 to 31250 specified with a signed integer UM 00176 UM 00177 UM 00178 UM 00179 UM 0017A UM 0017B Holding min UM 0017C value a UM 0017D Setting range 31250 to 31250 specified with a signed integer UM 0017E UM 0017F Note The unit memory numbers in the above table are listed for CHO to CH7 in numerical order The acquired maximum value will be held when the maximum KO and minimum value hold function is used The acquired maximum value will be held when the maximum KO and minimum value hold function is used Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 8 5 Dimensions 28 Unit mm Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Record of changes Manual No Date Record of Changes WUME FP7TCRTD 01 May 2014 First Edition Phone 800 894 0412 Fax 888 723 4
41. ed value 100 mV or 31250 more 100 mV or less 31250 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 1 3 Current Input Range 0 mA to 20 mA DC input 0 64 uA 1 31250 Conversion characteristics graph Table of A D converted values K Input current mA Digital value 20 31250 31 250 16 25000 12 18750 8 12500 4 6250 0 0 15 625 When exceeding the rated range Input current mA Digital value 20 mA or more 31250 0 mA or less 0 Negative value 0 5 10 15 20 mA E 4mAto 20 mA DC input 0 64 A 1 25000 Conversion characteristics graph Table of A D converted values K Input current mA Digital value 20 25000 25 000 16 18750 12 12500 8 6250 4 0 When exceeding the rated range 12 500 Input current MA Digital value 20 mA or more 25000 4 m or less 0 T 0 4 8 12 16 20 mA Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 5 2 Input Conversion Characteristics AFP7RTD8 5 2 1 RTD Input Range m Conversion characteristics graph K 30000 Upper limit of range 150 Upper limit of range gt C AA Lowerdfyitutsange 00 ge dere Loway trnip gfrainge 352 gt SG R v ie i nr E RENE ENTER NI AOR e i 4
42. er Set the maximum value at the time of using the scale conversion Maximum value of scale K10000 function conversion VOR i i Setting range 3000 to 30000 specicfied with a signed integer Note 1 If data outside the minimum or maximum scale is input scale conversion will be disabled and the minimum or maximum scale value will be stored as a conversion value Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 4 Comparison for Upper and Lower Limits E Overview of functions This function compares acquired data with the upper limit and lower limit and turns ON the upper limit relay or lower limit relay if the acquired data exceeds the upper limit value or lower limit value e Comparison for upper and lower limits is executed on a channel by channel basis e The upper limit relay will turn ON if the digital conversion value is larger than the upper limit e The lower limit relay will turn ON if the digital conversion value is smaller than the lower limit e The function will be disabled with the comparison execution relay Y turned ON if the configuration upper lower limit comparison setting is not executed K Upper limit comparison ON level A ng 2 z l ERA E a a a A Upper limit comparison OFF level I I Digital i 1 3 Lower limit gefmparison OFF level conversion TA DDE A NESA TE value i Lowef limit comparison
43. ess the OK button The set values will be effective when they are downloaded with programs as a project Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Settings RTD unit JPt100 1 100 0 to 200 0 C JPt100 2 200 0 to 650 0 C Pt1000 100 0 to 100 0 C Group Setting item Settings Default Basic Power frequency 60Hz 50Hz 60 Hz setting item Conversion time Note 25ms 5ms 25 ms Common Conversion processing Execute Not execute Execute K1 100 0 to 600 0 C K2 200 0 to 1000 0 C J1 100 0 to 400 0 C J2 200 0 to 750 0 C T 270 0 to 400 0 C Thermocouple N 270 0 to 1300 0 C P e R 0 0 to 1760 0 C S 0 0 to 1760 0 C R tti B 0 0 to 1820 0 C Basic TC unity Ing E 270 0 to 1000 0 C 10 to 10 V setting PLII 0 0 to 1390 0 C item for WRe5 26 0 0 to 2315 0 C Taa 10 to 10 V 0to 5V Voltage 1 to 5 V 100 to 100 mV 0 to 20 mA Current 4 to 20 mA Pt100 1 100 0 to 200 0 C Range setting Pt100 2 200 0 to 650 0 C Pt100 1 100 0 to 200 0 C Note Conversion time can be set only when selecting the thermocouple multi analog input unit Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Settings level Group Setting item Settings Default i Not execute
44. from a device other than PLC Also do not bundle it with them Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 3 2 3 For Current Input E Wiring Diagram and Internal Circuit Diagram In case of the current input connect In terminals each other Input device PhotoMOS alrt m vieran TAY 8 E a Jm 7 VA gt y 2 g gt 5l COM n S E 3 As LEE EE S E nl J 12500 mal Jima IS H2 Connect In terminals y JU ll ad each other In sf E Terminal layout Vii 0 CO Vi 4 gt COM 0 COM 4 CHO 14 CH4 10 5114 V l 1 VII 5 Gi ME Hel COMS ors 1 103115 Vil 2 V I 6 CH2 COM 2 B COM 6 LCHG 12 3116 12 16 J Vil 3 DS V I 7 CH3 COM 3 1 COM 7 gt CH7 13 17 13 17 N C N C N C N C Note Do not connect anything to N C terminals NOTES e Use double core twisted pair shielded wires It is recommended to ground them However depending on the conditions of the external noise it may be better not to ground the shielding e Do not have the analog input wiring close to AC wires power wires or load line from a device other than PLC Also do not bundle it with them Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 3 3 Connection of RTD Input Unit E Wiring Diagra
45. g input areas WX10 WX12 WX14 and WX16 to MV SS WX14 DT102 data registers ranging MV SS WX106 DT103 CH3 input Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 4 Data Acquisition Timing E Input conversion processing time of the unit Conversion processing time varies with the range and the number of channels in use The conversion execution non execution channel function can save the conversion time for channels that do no execute conversion processing Example of 2 channel conversion Converted in the order of ch0 gt ch1 gt ch0 gt ch1 gt cho cht i conversion conversion J m Data acquisition timing of CPU unit e Digital values converted by the unit are input into the CPU unit at the I O refreshing timing of the CPU unit e The conversion processing of the analog input unit is not synchronized with the I O refreshing timing of the CPU unit Therefore the latest data is input into the operation memory of the CPU unit when the CPU unit implements I O refreshing Example of 4 channel conversion Analog signal of cho Converts in the order of CHO CH1 CH2 CH3 Processing in the analog input part Processing in I I I I I I I I I I the CPU unit l q E q A To 1 2 JOME JOE 2 sjo i 2 sjo e e I O refresh Data of cho to be read in a b c d the CPU unit Phone 800 894 04
46. h a signed integer Set an offset value at the time of using the offset processing function Setting range 9000 to 11000 0 9x to 1 1x Specified with a signed integer Gain value K10000 Wa MTS e The offset value is corrected to a value corresponding to the resolution of the input range of the original value regardless of whether scale conversion is set or not Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 3 Scale Conversion AFP7TC8 Voltage Current Range Only E Overview of functions e This function makes it possible to convert values to an easy to use data range Analog input data acquired in a range between preset minimum and maximum values is scale converted and stored in the I O area This function is convenient if used for scale unit conversion e Scale conversion is executed on a channel by channel basis e Conversion values read from the analog input unit include fractions Therefore convert the values to easy to handle figures if needed K K 25000 10000 12 12500 Scale 5000 conversion 1 3 5 V m Configuration Name Default Setting range and description Function Scale Not Select Execute setting conversion execute x Set the minimum value at the time of using the scale conversion Minimum value of scale KO function conversion i _ i i Setting range 3000 to 30000 specicfied with a signed integ
47. hamnel basis This can save the conversion time for channels that do not execute conversion processing Example Conversion time for two channels with CH2 to CH7 excluded Conversion is executed in the order of ch0 gt ch1 gt ch0 gt ch1 gt ch0 gt ch1 gt ch0 gt ch1 gt and the conversion time for CH2 to CH7 which are excluded is saved Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 3 Reading Analog Input Data 4 3 1 Reading Analog Input Data E Basic operation of analog input processing 1 Receiving analog input The input part of the unit receives analog input data from the thermocouple RTD or external devices 2 Digital conversion processing Analog input data received by the unit is converted into digital values in sequence automatically in the unit The converted digital value varies with the setting of the range 3 Storage of digital values A user program is used to read converted digital values as data in the unit relay area WX The specified area number varies depending on the installation position of the unit Vorl E Program to acquire converted digital values Reading the values in digital conversion value storage areas WX10 WX12 WX14 and WX16 to any areas of data registers ranging from DT100 to DT103 MV SS WX10 DT100 re Transfer digital data MV SS WX12 DT101 g E RO stored in analo
48. he design e The I O numbers allocated to the analog input unit are determined by the starting word numbers E Allocation method Take the following procedure to set the starting word number 1 gt AP PROCEDURE Select Options gt FP7 Configuration in the menu bar Select I O map in the field Double click the target slot where the operating unit is to be inserted PO I EE Select Thermocouple Multi analog Input Unit or RTD Input Unit in the field of Select unit to use 5 Press the OK button The specified starting word number is set Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 2 Configuration Settings 4 2 1 Unit Configuration The settings for the unit such as input range channels to be converted and optional functions are specified in the configuration menu of tool software m Setting method The following procedure describes the process when the thermocouple multi analog input unit or RTD input unit has been already allocated in the I O map _ PROCEDURE 1 Select Options gt FP7 Configuration in the menu bar Select I O Map in the field Select the slot where the unit has been registered and press the Advanced button Thermocouple multi analog input unit or RTD input unit setting dialog box is displayed 4 Select items according to the conditions used Select optional settings as necessary 5 Pr
49. hen onion WX8 CH4 Analog conversion data KO processing has been set data after the WX9 CH4 Optional function flag HO processing is stored WX10 CH5 Analog conversion data KO Se da E se Us te WX11 CH5 Optional function flag HO WX12 CH6 Analog conversion data KO WX13 CH6 Optional function flag HO WX14 CH7 Analog conversion data KO WX15 CH7 Optional function flag HO Note 1 The I O numbers in the table indicates offset addresses The I O numbers actually allocated are the numbers based on the starting word number allocated to the unit Example When the starting word number for the unit is 10 the A D conversion data of CHO is WX10 and the error flag is X11F Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Input contact Optional functions Error flag area I O number Er Name Description CHO CH1 CH2 CH3 CH4 CH5 CH6 CH7 ON with disconnection detected and Disconnection OFF with disconnection restored XAO X30 X501 79 XI0 FAD ALIGN X150 detection flag Valid for thermocouple voltage 1 5 V and current 4 20 mA ranges only X411 X31 X51 X71 X91 X111 X131 X151 Upper limit Turns ON when the value exceeds comparison relay the set upper limit Lower limit Turns OFF when the value drops a asset len NIA ATI ke kg comparison relay below the set lower limit Upper Lower limit
50. le conversion Min value KO Set the minimum value at the time of using the scale conversion function Setting range 3000 to 30000 specicfied with a signed integer UM 00089 UM 00099 UM 000A9 UM 000B9 UM 000C9 UM 000D9 UM 000E9 UM 000F9 Upper limit comparison ON level K1000 Set the upper limit to turn ON the output flag at the time of using the upper lower limit comparison function Setting range 31250 to 31250 specicfied with a signed integer UM 0008A UM 0009A UM 000AA UM 000BA UM 000CA UM 000DA UM 000EA UM 000FA Upper limit comparison OFF level K1000 Set the upper limit to turn OFF the output flag at the time of using the upper lower limit comparison function Setting range 31250 to 31250 specicfied with a signed integer UM 0008B UM 0009B UM 000AB UM 000BB UM 000CB UM 000DB UM 000EB UM 000FB UM 0008C UM 0009C UM 000AC UM 000BC UM 000CC UM 000DC UM 000EC UM 000FC Lower limit comparison OFF level Lower limit comparison ON level KO KO Set the lower limit to turn OFF the output flag at the time of using the upper lower limit comparison function Setting range 31250 to 31250 specicfied with a signed integer Set the lower limit to turn ON the output flag at the time of using the upper lower limit comparison function Setting range 31250 to 31250 specicfied with a signed integer Note The unit memory numbers in the abov
51. m and Internal Circuit Diagram An 3 wire resistance tempera ture detectors input Bn bn E Terminal layout AO Bo CHOY bo CH14 CH2 lt CH3 lt Note Do not connect anything to N C terminals PhotoMOS relay Multiplexer 1MAa 1MQ A D converter 7 Internal circuit NOTES e For copper wires for wiring use thick wires having insulation performance of JISC3307 and JISC3401 or equivalents to prevent a large increase in the electric resistance It is recommended to ground the unit using the shielded compensating lead wire e Do not have the analog input wiring close to AC wires power wires or load line from a device other than PLC Also do not bundle it with them Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 Unit Settings and Data Reading Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 4 1 Confirming the I O Number Allocations and Starting Word Number 4 1 1 Occupied I O Area and I O Allocation e Input data is allocated to the external input relay areas WX e To the I O areas of the thermocouple multi analog input unit and RTD input unit an area to set optional functions and an area to reset errors are allocated E Input contact edi Name Default Description WXO CHO Analog conversion
52. nal are disconnected converts values to digital values in the range K30000 which are different from those normally converted and warns of the error state 1 1 2 Unit Type and Product Number Name Specifications Product No Thermocouple multi analog input unit Thermocouple input range K1 K2 J1 J2 T N R S B E PL I WRe5 26 Voltage input range 8 ch input 10 to 10 V O to 5 V 1 to 5 V AFP7TC8 100 to 100 mV Current input range 0 to 20 mA 4 to 20 mA RTD input unit RTD input range 8 ch input AFP7RTD8 Pt100 1 Pt100 2 JPt100 1 JPt100 2 Pt1000 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 1 2 Restrictions on Combinations of Units 1 2 1 Restrictions on Power Consumption The internal current consumption of the unit is as follows Make sure that the total current consumption is within the capacity of the power supply with consideration of all other units used in combination with this unit Name Product No Consumption current Thermocouple multi analog input unit AFP7TC8 80 mA or less RTD input unit AFP7RTD8 65 mA or less 1 2 2 Applicable Versions of Unit and Software For using the above function cassettes the following versions of unit and software are required Item Applicable version FP7 CPU unit Ver 2 0 or later Programmingn tool software FPWINGR7 Ver 2 2 or later
53. nts for average processing UM 00084 F 7 UM 00094 Function used Settings UM 000A4 No of No of UM 000B4 averaging averaging 2 to 60000 times UM 000C4 Averaging constant K200 times times UCE Time average Average time 200 to 60000 ms UM 000F4 Moving No of moving 2 to 2000 times average average UM 00085 UM 00095 n bra Set an offset value at the time of using the offset processing function UM 000C5 Offset value KO UM 000D5 Setting range 3000 to 3000 specicfied with a signed integer UM 000E5 UM 000F5 UM 00086 UM 00096 i UM 000A6 Set an offset value at the time of using the offset processing function UM 00088 Gain value K10000 at Setting range 9000 to 11000 0 9x to 1 1x Specified with a UM 000D6 signed integer UM 000E6 UM 000F6 Note The unit memory numbers in the above table are listed for CHO to CH7 in numerical order Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Individual setting area per channel Unit memory No Hex Name Default Setting range and description UM 00087 UM 00097 UM 000A7 UM 000B7 UM 000C7 UM 000D7 UM 000E7 UM 000F7 Scale conversion Max value K10000 Set the maximum value at the time of using the scale conversion function Setting range 3000 to 30000 specicfied with a signed integer UM 00088 UM 00098 UM 000A8 UM 000B8 UM 000C8 UM 000D8 UM 000E8 UM 000F8 Sca
54. parison OFF level lt Upper limit comparison ON level Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E Sample program The digital conversion value on chO of the unit is read to detect the upper limit and lower limit and the desired output is turned ON with the upper or lower limit detected RO Y103 CHO Controls DEA SET gt i upper lower limit Upper Lower comparison function RO ON Comparison execution R1 ON limit comparison execution relay Ma DF ENG E Turns OFF comparison UpperiLower execution relay limit comparison execution relay X113 X111 Y200 CHO Turns ON Y200 i when the value exceeds Comparison Upper limit execution comparison flag relay X113 X112 CHO Turns ON Y201 when the value drops below the lower limit Comparison Lower limit execution comparison flag relay Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 5 Holding Maximum and Minimum Values E Overview of functions This function maintains the maximum and minimum values of acquired data Holds the maximum and minimum digital conversion values when the maximum minimum value hold setting is enabled and stores the values in provided unit memories for each channel e If the function has not been enabled with the configuration settings the function will not work with the hol
55. pecifications Item Specifications Operating ambient temperature 0 C to 55 C Storage ambient temperature 40 C to 70 C Operating ambient humidity 10 to 95 RH at 25 C no condensation Storage ambient humidity 10 to 95 RH at 25 C no condensation Breakdown voltage Note Between I O terminals and CPU power supply terminal function earth Between analog input terminal channels 500 V AC for 1 minute 200 V AC for 1 minute 100 MQ Insulation Between I O terminals and CPU power supply terminal function resistance earth P ppYy Test voltage 500 V DC Conforms to JISB3502 and IEC61131 2 Vibration 5 to 8 4 Hz 3 5 mm single amplitude resistance 8 4 to 150 Hz Acceleration 9 8 m s 10 sweeps each in X Y and Z directions 1 octave min Shock resistance Conforms to JISB3502 and IEC61131 2 147 m s 3 times in the X Y Z directions Noise resistance 1 000 V DC P P with pulse width of 50 ns or 1 us by using a noise simulator Applied to the power supply of the CPU unit Environment Free from corrosive gases and excessive dust EU Directive applicable standard Overvoltage category EMC Directive EN61131 2 Category II Pollution degree Pollution level 2 Note Cutoff current 5 mA Factory default setting Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net
56. plied terminal block and suitable wires A screw down connection type is used for the terminal block Use the following suitable wires for the wiring Terminal block socket Phoenix Contact model No MC1 5 18 ST 3 5BK 1840528 Suitable wires strand wire No of wires Nominal cross sectional area AWG 28 to 16 0 08 mm to 1 25 mm AWG 28 to 20 0 08 mm to 0 5 mm Pole terminals with compatible insulation sleeve If a pole terminal is being used the following models made by Phoenix Contact should be used Cross Phoenix Contact Par No sectional TE E F 3 area With insulating sleeve Without insulating sleeve AWG 24 Al 0 25 6 BU A 0 25 7 AWG 22 Al 0 34 6TQ A 0 34 7 0 50 mm AWG 20 Al 0 5 6 WH A 0 5 6 Phoenix Contact AWG 18 Al 0 75 6 GY A 0 75 6 AWG 16 z A 1 6 AWGH20x2 Al TWIN 2X 0 5 8 WH Pressure welding tool for pole terminals Phoenix Contact model No Size CRIMPFOX6 1212034 Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 3 1 2 Wiring E Wiring method 1 Insert a screwdriver between the terminal block and the case and remove the terminal block 2 Remove a portion of the wire s insulation E 7mm 3 Insert the wire into the terminal block until it contacts the back of the block socket and then tighten the screw clockwise to fix the wire in place A Phone 800 894 0412 Fax 888 723 4773 Web ww
57. rage Not execute Select moving average Function processing settin g Averaging constant K8 be 3 to 64 times specified with an unsigned Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 2 Offset Gain Processing E Overview of functions e Offset value added correction and gain value magnification correction adjustments are made to store processed data in the I O area Analog input Analog post data processing data e Offset value settings are used as a function zero point adjustment to make offset error adjustments between load devices If the analog conversion value is K50 when the analog input value is O V the analog conversion data is corrected to O V based on K 50 as an offset value I Offset i Se Sanna processing l e Gain value settings are used as a function to adjust delicate scale errors between load devices The gain value slope can be changed in a range of x0 9 to x1 1 Gain processing e Offset Gain processing is executed on a channel by channel basis Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net m Configuration Name Default Setting range and description Function Offset Gain Not Select Execute setting Processing execute Set an offset value at the time of using the offset processing Offset value KO function Setting range 3000 to 3000 specicfied wit
58. s e When the set number of moving average times is 3 to 64 the maximum and minimum values are cut from the data for n times and the data for n 2 times is averaged e When the set number of moving average times is 1 or 2 the latest measured data is stored without averaging processing e When data sampling for the set number of times has not been completed data is not updated When all data are acquired the data will be updated e Obtain output moving average value to be processed from the following input The number of average times analog input data for the number of average times the latet analog Input input data and old analog input data Output Moving average value E Processing during moving average Averaging setting example The number of averaging times is set to 15 Analog signal p e f d g Q C I I h l I I b I I I I I i I EE ke e mie g ki I i l I I 1 I I i l I I I I l l E A l po a EE l I i l DLN i I I I I I ee OE EE a ae l d Seat ese SG r I I I I I I I I j m k f o l I l I I l I I l I I I I xd or vo vy yoyo yoyo yoyo y y gt Average of a to o Max and min values are cut Average of b to p Max and min values are cut Average of c to q Max and min values are cut Analog input processing A AA el I Analog input data a E Configuration Name Default Setting range and description ave
59. t setting set to manual V mA While in manual mode the i disconnection detection flag X as e will not automatically turn OFF when the voltage is recovered Disconnection threshold The disconnection Disconnection detection flag X is turned detection OFF with the disconnection execution relay detection execution relay 1 turned OFF Disconnection detection flag 2 t Note The disconnection threshold in the above figure is that when the voltage input range of 1 to 5 V or current input range of 4 to 20 mA is set Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net E 1 0 allocation The I O numbers in the timing chart and program are shown on the condition that the starting word number of the unit is 10 Actual I O numbers allocated to the analog input unit are determined by the starting word number CHO CH1 CH2 CH3 CH4 CH5 CH6 CH7 1 Disconnection detection execution Y100 Y110 Y120 Y130 Y140 Y150 Y160 Y170 relay 2 Disconnection x110 x130 x150 X170 x190 X210 x230 x250 detection flag m Configuration Name Default Setting range and description Disconnection Not execute Select Execute Function detection settin i i g Disconnection Auto Select Auto detection reset E Sample program RO Y100 DF Jeaus lt SET gt i CHO Controls Disconnection i disconnection de
60. tection detection execution function execution relay FON Execute R1 Y100 OFF Turns OFF i disconnection detection DF __ est gt X110 Y200 GRO Furns V200 ON ai the time of disconnection Disconnection detection sssrinin detection flag PA e rons e Not executed unless thermocouple a voltage input range of 1 to 5 V or current input range of 4 to 20 mA is set This function will not be executed even if the disconnection detection execution relay is turned ON when the disconnection detection has been set to Not execute in the configuration Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 6 7 Disconnection Detection AFP7RTD8 m Overview of functions This function is to warn of the error state by converting to a digital value in the range K30000 which is different from the values converted in the normal state when the disconnection is detected in the RTD input unit e In the figure below it is regarded as disconnection when the line of the A terminal is disconnected or the lines of the B terminal and b terminal are both disconnected If either line of the B terminal or b terminal is connected it is not detected as disconnection PhotoMOS _ An relay 5 g B 3 wire resistance tempera 2 92 10 ture detectors input i Bn 5 o o El bn 2 k Q o gt 1mMQ Jima J 3 ee Ao TEN 104
61. tomation net Email info ctiautomation net Types of Manual e There are different types of users manual for the FP7 series as listed below Please refer to a relevant manual for the unit and purpose of your use e The manuals can be downloaded on our website Unit name or purpose of use Manual name Manual code FP7 Power Supply Unit FP7 CPU Unit FP7 CPU Unit Users Manual Hardware WUME FP7CPUH FP7 CPU Unit Command Reference Manual WUME FP7CPUPGR FP7 CPU Unit Users Manual Logging Trace Function WUME FP7CPULOG FP7 CPU Unit Users Manual Security Function WUME FP7CPUSEC Instructions for Built in LAN Port FP7 CPU Unit Users Manual LAN Port Communication WUME FP7LAN Instructions for Built in COM Port FP7 Extension Cassette Communication RS 232C RS485 type FP7 Extension Cassette Communication Ethernet type FP7 series Users Manual SCU communication FP7 series Users Manual Communication cassette Ethernet type WUME FP7COM WUME FP7CCET FP7 Extension Function Cassette Analog Cassette FP7 Analog Cassette Users Manual WUME FP7FCA FP7 Digital Input Output Unit FP7 Digital Input Output Unit Users Manual WUME FP7DIO FP7 Analog Input Unit FP7 Analog Input Unit Users Manual WUME FP7AIH FP7 Analog Output Unit FP7 Analog Output Unit Users Manual WUME FP7AOH FP7 Thermocouple Multi analog Input Unit FP7
62. ulated DC DC converter PhotoMOS relay Execution ivon execition channel Possible to make settings on a channel by channel basis settings Input range selection Possible to make settings on a channel by channel basis re Number of averaging times Time average Moving average Digital processing Offset setting A desired value within the range of 3 000 Gain setting 10 Upper Lower limit comparison Possible to make settings on a channel by channel basis Holding max min values Possible to make settings on a channel by channel basis Disconnection detection Available External connection method Connection terminal block connection Weight main unit 1459 Consumption current 65 mA or less Note If highly accurate temperature data is necessary use the temperature data in about 30 minutes after the unit was powered on Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 8 2 I O Allocation E Input contact re Name Default Description WXO CHO Analog conversion data KO WX1 CHO Optional function flag HO WX2 CH1 Analog conversion data KO WX3 CH1 Optional function flag HO WX4 CH2 Analog conversion data KO WAS CH2 Optional function flag pg ee ee Eg to analog WX6 CH3 Analog conversion data KO input are stored as 16 bit signed integer data WT CHS Optonaltunctonteg Ho Sied values vary by W
63. w ctiautomation net Email info ctiautomation net E Tightening the terminal block e When tightening the terminals of the terminal block use a screwdriver Phoenix Contact Product No 1205037 with a blade size of 0 4 x 2 5 Part No SZS 0 4x2 5 e The tightening torque should be 0 22 to 0 25 N m E Precautions on wiring The following precautions should be observed to avoid broken or disconnected wires e When removing the wire s insulation be careful not to scratch the core wire e Do not twist the wires to connect them e Do not solder the wires to connect them The solder may break due to vibration e After wiring make sure stress is not applied to the wire e In the terminal block socket construction if the wire is fastened upon counter clockwise rotation of the screw the connection is faulty Disconnect the wire check the terminal hole and then re connect the wire O Clockwise Counter clockwise Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 3 2 Connection of Thermocouple Multi analog Input Unit 3 2 1 For Thermocouple Input E Wiring Diagram and Internal Circuit Diagram PhotoMOS relay H V l n Thermocouple lt COM n Multiplexer A D converter Internal circuit In 12500 1MQ Jima H E Terminal layout Vil 0 gt CH4 gt CHS gt CH6 7 Vil 3 cu COMS CH7
64. www ctiautomation net Email info ctiautomation net l What to Do If an Error Occurs Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 7 1 What to Do If an Error Occurs Analog Input 7 1 1 Failure in Reading Input Data Check again that I O allocations are correct Check again the connection of the terminal block Check again the configuration settings 7 1 2 Unstable Input Conversion Value Check that the power frequency setting unit memory UM 00072 complies with the frequency in the region where the unit is used Check that a twisted pair shielded wire is used and the wire is properly shielded Check that the input wiring is not placed close to AC lines or high tension lines or bundled with the lines Check that there are not power lines high tension lines high capacity relays or noise generating equipment such as inverters close to the unit 7 1 3 No Proper Conversion Values Obtained with Current Input Check again the connection of the terminal block Check again the connections of the output equipment Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Specifications Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net Phone 800 894 0412 Fax 888 723 4773 Web www ctiautomation net Email info ctiautomation net 8 1 Specifications 8 1 1 General S

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