User Manual - Klockner Moeller Parts
Contents
1. ENGLISH SECURITY DEUTSCH lt SYSTEM FRANCAIS Only one selection is possible MEHL E em ESPANOL CONFIGURATOR ITALIANO PORTUGUES NEDERLANDS SVENSKA POLSKI TURKCE SECURITY SYSTEM MENU LANGUAGE CONFIGURATOR lyet NET PARAMETERS CoM STATIONS LINK CONFIGURE The other menus of NET and COM are only shown in STOP mode For Immediate Delivery call KMParts com at 866 595 9616 23 24 MFD Titan System menu 06 03 AWB2528 1480GB STATIONS CONFIGURE Mt PARAMETERS HET ID WL BAUDRATE KE BUSDELAY n SEND TO REMOTE RUH REMOTE 10 NET ID qi EBAUDRATE 1000KE BUSDELAY DE SEND 10 t MET FARAMETERS CONFIGURATOR STATIONS HET FARAMETERS REMOTE RUN REMOTE I0 lt This list is only created in i i Station 1 This list only appears if y l station 1 has been selected 5 60 b 0 y 1 10 T SAVE CANCEL CONFIGURE CONFIGURATION IN PROGRESS Fault scenario ERR ID CONFLICT OVERWRITE CONFIGURATION with ID conflict Fault scenario with ERF TIME OUT network fault For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB System menu MFD operation HET CONFIGURE BRUDRATE Sb00E COM LINK REMOTE MARKER BRUDRATE i 2005 COM LIN2. Use the combination box spanner with the designation M22 MS For Immediate Delivery call KMParts com at 866 595 9616 35 Installation 06 03 AWB2528 1480GB Removing the display operating unit front mounting gt Unscrew the fixing element and remove the display operating unit Mounting the power supply CPU module If you wish to add expansion units to the power supply CPU module the top hat rail must be fitted beforehand Fitting the top hat rail Ensure that the cutout of the top hat rail was prepared for the fixing shafts according to the specified dimensions lng 60 renee 23 75 a 120 30 pln 38 75 216 Figure 14 Top hat rail with cutout Thetwo fixing shafts of the display operating unit are designed for a 2 space unit expansion device If you wish to fit wider expansion units the top hat rail must be supported at a third support point This third support point should be located in the area 216 mm from the end of the device It should not be possible to twist the top hat rail 36 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Mounting Caution The fixing shafts of the display operating unit are designed for mounting the expansion units Other devices such as contactors must not be mounted on this top hat rail Attach the expansion unit before fitting the top hat rail S IX
3. _ A 06 03 AWB2528 1480GB If the text Connection establishment in progress is displayed for longer than 10 s the connection to the selected device is faulty Press ESC to cancel the selection Rectify the fault Try to re establish the connection The following applies if the device to be operated is in RUN mode and is displaying a mask This mask is not displayed in Terminal mode MFD message The remote device is in Graphic mode gt Press the ALT and ESC button simultaneously This will call up the Status display The easy NET station 2 controls the display of the MFD device The activation of Terminal mode is indicated by the flashing star at the top right of the Status display Caution In Terminal mode you can operate a device that may be positioned far from your actual location All access rights that you would also require locally are granted to you It is not always possible to obtain a view of the situation locally Use of this operating mode and the execution of any changes to device settings should only be carried out with the utmost caution A device with a display and operating unit can also be operated locally In this case operation at the device concerned is always faster than operation via Terminal mode Bear in mind that this may lead to conflicts that may trigger faults or unforeseen events For Immediate Delivery call KMParts com at 866 595 9616
4. Baud rate Stations must send a Stations recognise the sign of life every absence of a sign of life signal after KB ms ms 1000 60 180 500 60 180 250 120 360 125 240 720 50 600 1800 20 1500 4500 10 3000 9000 If the absence of a sign of life is detected the respective diagnostics contact is set to 1 Diagnostics Station contact number ID 01 1 ID 02 ID 03 ID 04 ID 05 ID 06 ID 07 CO NN BD mY BR WwW N ID 08 For Immediate Delivery call KMParts com at 866 595 9616 283 284 easy NET Network COM LINK Serial Connection _ gt V 06 03 AWB2528 1480GB If a station does not send a sign of life signal station not available easy NET interrupted the respective diagnostics contact ID is activated Attention If the states of the inputs outputs or data are required by a station without fail the respective diagnostics contact should be evaluated and the information applied in accordance with its respective application If the respective diagnostics contacts are not evaluated it may cause faults in your application The data to be read from a faulty station is set to 0 after the fault is detected For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Configuration of the easy NET network Network transmission security easy NET is a CAN based networ
5. Figure 124 Signal diagram of timing relay on and off delayed 1 1 trigger coil T EN 2 stop coil T ST 3 reset coil T RE 4 switching contact make contact T Q1 ts1 pick up time ts2 drop out time e Range A The relay processes the two times without any interruption e Range B The trigger coil drops out before the on delay is reached e Range C The Stop coil stops the timeout of the on delay e Range D The stop coil has no effect in this range 258 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Figure 125 Signal diagram of timing relay on and off delayed 2 e Range E The Stop coil stops the timeout of the off delay e Range F The Reset coil resets the relay after the on delay has elapsed e Range G The Reset coil resets the relay and the contact whilst the on delay is timing out After the Reset coil drops out the time elapses normally Figure 126 Signal diagram of timing relay on and off delayed 3 e Range H The Reset signal interrupts the timing out of the set time For Immediate Delivery call KMParts com at 866 595 9616 259 Wiring with MFD Titan 06 03 AWB2528 1480GB Timing relay single pulse Figure 127 Signal diagram of timing relay single pulse 1 1 trigger coil T EN 2 stop coil T ST 3 reset coil T RE 4 switching contac
6. ARO ADD T ib ta CFil 1 L Oe E 1804 For Immediate Delivery call KMParts com at 866 595 9616 Working with contacts and relays Assigning operands to an gt input of a function block Only the following variables can be assigned to the input of a function block e Constants e g 42 e Markers such as MD MW MB e Analog output QA e Analog inputs IA e All output variables of the function blocks QV gt Assigning operands to a QV gt output of a function block Only markers such as MD MW MB or the analog output QA can be assigned to a variable output of a function block Deleting operands on the function block inputs outputs Position the cursor on the required operand gt Press the DEL button The operand is deleted Deleting an entire function block Ensure that all contacts and coils of the function block are deleted gt Select the required function block from the list In this case CP10 gt Press the DEL button 141 Wiring with MFD Titan ARO ACD Tii tx L Oi T Oi x MiS tli gigi tI QY 144d EN ARTI ACD CFil T if tx L Oi RUN I ARTI ACD tli 0056 tld 105 OMe 21154 06 03 AWB2528 1480GB The function block is deleted Checking function blocks You can check function blocks in the same way as circuit diagrams The device is in RUN mode Checking
7. 06 03 AWB2528 1480GB Terminal mode hn Terminal mode the MFD device makes its display and operating unit available to the connected device Only data for the display and the status of the buttons is sent via the connection This ensures that the local data of the connected device is not destroyed in the event of a communication fault Close Terminal mode Press the button to close the Terminal mode STATION ID 2 i AR gt The button cannot be assigned to other tasks if you wish to use Terminal mode in your application Use the button to change from the visualization to the Status display Otherwise the Terminal mode menu cannot be reached gt Press the button This returns you back to your local device STATION ID g gt Press the ESC button twice The Status display of the MFD device is active EER b Bea Be Era I F SA Db 41 sT The flashing star at the top right of the display is no longer E 4 STOF present For Immediate Delivery call KMParts com at 866 595 9616 109 06 03 AWB2528 1480GB 110 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 4 Wiring with MFD Titan This chapter describes all the functions available with MFD Titan MFD Titan operation DeLi amp Buttons for drawing circuit diagrams and function block usage Delete circuit connection contact relay or empty line in the cir
8. If MFD is protected by a password the System menu will not be available until MFD is unlocked see gt Section Unlocking MFD from Page 299 Specify the operating mode which MFD must use when the supply voltage is applied Activating RUN mode If MFD displaysRUM MODE f this means that MFD will start in Run mode when the supply voltage is applied For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB DEBOUNCE oe RUN MODE lt CARD MODE DEBOUNCE i 4 P BUTTONS CARD MODE k Startup behaviour gt Otherwise select RUN MODE and press OK RUN mode is activated gt Press ESC to return to the Status display Deactivating RUN mode gt Select RUN MODE and press OK The RUN mode function is deactivated The default setting for MFD is for RUN MODE to be displayed In other words MFD starts inFUM MODE lt when the power is switched on Startup behaviour Menu display Status of MFD after startup MED starts in STOP RUN MODE MED is in STOP mode mode MFD starts in RUN RUN MODE f MED is in RUN mode mode Behaviour when the circuit diagram is deleted The setting for the startup behaviour is an MFD device function When the circuit diagram is deleted this does not result in the loss of the setting selected Behaviour during upload download to card or PC When a valid circuit diagram is transferred from MFD to a memory card or the PC or
9. I Di I ii 01 oo I rcnic I iC HRE I iT HEN T I1 amp ran Figure 133 MFD Titan wiring and circuit diagram Entering function block parameters from the circuit diagram You can access the parameter entry from the contact as well as from a coil gt Enter the circuit diagram up to E 01 as a coil For Immediate Delivery call KMParts com at 866 595 9616 265 Wiring with MFD Titan _ c H 23H til PSL sou 06 03 AWB2528 1480GB QC is the counter coil of the counter 01 function block I icc I h tc HRE ET HEH T H i rao Figure 134 MFD Titan wiring and circuit diagram gt Keep the cursor on the number gt Press the OK button If the cursor is on the contact number MFD Titan will call up the parameter display when you press OK The first part of the parameter set of a counter is displayed gt Move the cursor gt over the character to the value input behind 5H 3H means function block input upper counter setpoint value The character means that the parameters of this timing relay can be modified using the PARAMETERS menu gt Change the upper counter setpoint to 10
10. TE EASY2 Figure 49 Connecting local expansion units with MFD CP8 The following electrical separation is implemented between the power supply CPU module of the MFD device and the expansion unit separation always in local connection of expansion unit e Simple isolation 400 V AC 10 e Safe isolation 240 V AC 10 Units may be destroyed if the value 400 V AC 10 is exceeded and may cause the malfunction of the entire system or machine MFD power supply CPU modules and expansion units can be fed by different DC power supplies 74 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Expanding inputs outputs Remote expansion Remote expansion units can be installed and run up to 30 m away from the basic unit Warning The two wire or multiple wire cable between the devices must adhere to the insulation voltage requirement which is stipulated for the installation environment Otherwise a fault ground fault short circuit may lead to the destruction of the units or injury to persons A cable such as NYM 0 with a rated operational voltage of Ue 300 500 V AC is normally sufficient 2p ee MFD CP ares eas EASY6 RE TE EASY200 E Ue 300 500 V Figure 50 Connecting remote expansion units to the MFD Titan
11. gt Switch MFD Titan to RUN mode and return to the circuit diagram Each parameter set can be displayed using the power flow display for the circuit diagram gt Move the cursor onto E 01 and press OK The parameter set for the counter is displayed with actual and setpoint values gt Move the cursor downwards until you see the value QV gt gt Switch the input 15 The actual value changes On the display E indicates that the counting coil is actuated If the actual and upper setpoint values of the counter are the same the timing relay switches the warning light on and off every 2 seconds For Immediate Delivery call KMParts com at 866 595 9616 267 268 Wiring with MFD Titan THA Ii 001 000 tI OMe 0 550 EN 06 03 AWB2528 1480GB Doubling the flashing frequency gt Select the power flow display T 11 and change the constant of the setpoint time to 001 000 When you press OK the warning light will flash at twice the frequency On the display EM indicates that the enable coil is actuated Setpoint value settings with constants can be modified via the PARAMETERS menu The actual value is only displayed in RUN mode Call up the parameter display for this via the power flow display or PARAMETERS menu For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 5 Visualization with MFD Titan MFD Titan is a display HMI closed loop and open l
12. Opening the parameter display for function blocks with contacts or coils If you specify the contact or coil of a function relay type in Entry mode MFD Titan automatically switches from the contact number to the function block parameter display when you press OK Press gt to switch to the next contact or coil field without entering any parameters 112 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation Program A program is a sequence of commands which the MFD Titan executes cyclically in RUN mode An MFD Titan program consists of the necessary settings for the device easy NET COM LINK password system settings a circuit diagram and or function blocks and or the visualization masks The circuit diagram is that part of the program where the contacts are connected together In RUN mode a coil is switched on and off in accordance with the current flow and the coil function specified Function blocks Function blocks are program elements with special functions Example timing relays time switches arithmetic function blocks Function blocks are elements provided with or without contacts and coils as required In RUN mode the function blocks are processed according to the circuit diagram and the results are updated accordingly Examples Timing relay function block with contacts and coils Time switch function block with contacts Visualisation masks Visualisation ma
13. Terminals E and E of the EASY200 EASY are protected against short circuits and polarity reversal Functionality is only ensured if E is connected with E and E with E For Immediate Delivery call KMParts com at 866 595 9616 75 06 03 AWB2528 1480GB 76 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 3 Commissioning Switching on Before startup check whether the power supply inputs outputs the serial interface and the easy NET connection are properly connected e 24 V DC version Terminal 24 V 24 V voltage Terminal 0 V 0 V voltage Terminals 11 to 112 R1 to R12 Actuation via 24 V e 230 V AC version Terminal L Phase conductor L Terminal N Neutral conductor N Terminals R1 to R12 Actuation via phase conductor L If you have already integrated devices into a system secure any parts of the system connected to the working area to prevent access and ensure that no one can be injured if for example motors start up unexpectedly Setting the menu language DEUTSCH FRANCAIS ESPANOL For Immediate Delivery call KMParts com at 866 595 9616 77 When you switch on MFD for the first time you will be asked to select the menu language gt Use the cursor buttons or v to select the language required English German French Spanish Italian Portuguese Dutch Swedish Polish Turkis
14. poy Defined actual value Preset gt Actual value in RUN mode In the parameter display of a counter relay you change setpoint values and or the preset value and enable of the parameter display Value range The function block operates in the integer range from 2 147483648 to 2147483647 Behaviour when value range is exceeded e The function block sets the switching contact CH CY to Status 1 e The function block retains the value of the last valid operation _ gt Counter CH counts every rising edge on the counter input If the value range is exceeded the switching contact CH CY switches to status 1 for one cycle per rising edge detected 190 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Inputs The function block inputs 5H SL and 54 can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to I A04 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 The actual value is only cleared in RUN mode with a specific reset signal Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts e CHO1OF to CHO40F Actual
15. MFD Titan Multi Function Display 06 03 AWB2528 1480GB MoE LER Think future Switch to green All brand and product names are trademarks or registered trademarks of the owner concerned 1st published 2003 edition date 06 03 Moeller GmbH 53105 Bonn Author Dieter Bauerfeind Editor Heidrun Riege Translator Terry Osborn All rights reserved including those of the translation No part of this manual may be reproduced in any form printed photocopy microfilm or any other process or processed duplicated or distributed by means of electronic systems without written permission of Moeller GmbH Bonn Subject to alteration without notice Printed on bleached cellulose 100 free from chlorine and acid For Immediate Delivery call KMParts com at 866 595 9616 Moeller GmbH Safety instructions Warning A Dangerous electrical voltage Before commencing the installation e Disconnect the power supply of the device e Ensure that devices cannot be accidentally restarted Verify isolation from the supply Earth and short circuit Cover or enclose neighbouring units that are live Follow the engineering instructions AWA of the device concerned Only suitably qualified personnel in accordance with EN 50110 1 2 VDE 0105 Part 100 may work on this device system Before installation and before touching the device ensure that you are free of electrostatic charge The functi
16. Use lt gt to move the cursor onto the tens digit Use to modify the value of the digit gt Press OK to save the value and ESC to return to the circuit diagram MFD Titan has specific parameter displays for the function blocks The meaning of these parameters is explained under each function block type gt Enter the circuit diagram up to contact T 01 of the timing relay Set the parameters for T 01 266 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB THA BM tli O02 000 IZ 002 000 cn PSL yeu Wt coi PSL Ya arti T Function blocks The timing relay works like a flashing relay The MFD Titan symbol for the flashing relay is IL The function is set on the top right beside the number in the parameter display The time base is set to the right of the flashing function Leave the time base set to gt for seconds gt Move the cursor to the right over the character in order to input the time setpoint value 114 If the same setpoint value is input for I f and I the timing relay functions as a synchronous flasher The character means that the parameters of this timing relay can be modified using the PARAMETERS menu gt Confirm the value input with OK gt Press ESC to leave circuit diagram entry gt Complete the circuit diagram gt Test the circuit diagram using the power flow display
17. n 24V 8A 2A 10 000 000 115V 8A 2A 230V 8A 2A laD 1000 W 0V N A 10 x 58W 25 000 8A 16 f Dy L1 L2 L3 115 230 V Lo 24V Figure 38 EASY2 RE relay outputs Unlike the inputs the MFD R EASY6 RE relay outputs can be connected to different lines Do not exceed the maximum voltage of 250 V AC ona relay contact If the voltage exceeds this threshold flashover may occur at the contact resulting in damage to the device or a connected load Connecting transistor MFD T outputs Pee eS T R n 24V 24V 0 5A 0 5A 20 4 28 8 V l swav ab C ag CI C4 Cl AY AY Y S 10A Figure 39 MFD T transistor outputs 60 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting transistor outputs EASY6 DC TE 24V 24V 0 5A 0 5A 20 4 28 8 V QD sway Figure 40 EASY6 DC TE transistor outputs Parallel connection Up to four outputs can be connected in parallel in order to increase the power The output current will increase in this case to a maximum of 2 A Caution Outputs may only be connected in parallel within a group Q1 to Q4 or Q5 to Q8 1 to 4 or S5 to S8 such as Q1 and Q3 or Q5 Q7 and Q8 Outputs connected in parallel must be switched at the same time For Immediate Delivery call KMParts com at 866 595 9616 61 Installation 06 03 AWB2528 1480GB Caution Plea
18. CPU real time clock timing relay memory Backup accuracy of real time clock see graph 200 25 C 55 C 0 0123 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Accuracy of the real time clock Per day s day ae Per year h year 05 For Immediate Delivery call KMParts com at 866 595 9616 353 354 Appendix Repetition accuracy of timing relays 06 03 AWB2528 1480GB Accuracy of timing relay from value 0 02 Resolution Range s ms 5 Range M S S 1 Range H M min 1 Circuit connections 256 Contacts in series 4 Coil per circuit connection 1 Program memory for program circuit diagram KByte 8 Program memory for display objects visualization KByte 24 RAM working memory KByte 8 Storage of programs retentive FRAM Retentive memory retentive data retentive FRAM Size Byte 200 Operating hours counter Byte 16 Write read cycles FRAM minimum 1010 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data MFD R MFD T Digital inputs Number 12 Inputs usable as analog inputs I7 18 111 112 4 Status display LCD status display if available Electrical isolation To supply voltage No Between each other No To the outputs Yes To PC
19. Data block comparator MFD Titan provides 32 function blocks BC01 to BC32 for comparing values of two consistent marker ranges The comparison is in byte format The following marker types can be compared e MB e MW e MD The function block is enabled in the circuit diagram I E EC2IEH ECHE Bca ER E AA tM Me ECE 1EG ECETEH tM 4a Figure 85 MFD Titan circuit diagram with enabling of data block comparator function block Parameter display and parameter set for a data block comparator EC21 Data block comparator function block number 27 Appears in the parameter display Hit Start of comparison range 1 ca Start of comparison range 2 NO Number of elements to be compared in bytes per range Value range 1 to 383 Only constants can be modified in the parameter display of a function block According to the operands at the inputs 11 and Iz the following operating modes are possible Inputs The function block inputs I 1 22 and HQ can have the following operands For Immediate Delivery call KMParts com at 866 595 9616 157 Wiring with MFD Titan 06 03 AWB2528 1480GB e Constants e Markers MD MW MB e Analog inputs IA01 to 1A04 1A01 terminal 17 1A02 terminal 18 IA03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Specifying the marker range without
20. QV gt of another function block Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 For Immediate Delivery call KMParts com at 866 595 9616 207 Wiring with MFD Titan 06 03 AWB2528 1480GB Value range for inputs and outputs Value range Resolution unit gt l Setpoint of PID controller 32768 to 32 767 gt I2 Actual value of PID 32768 to 32767 controller gt KP Proportional gain Kp 0 to 65535 in gt TN Reset time Tp 0 to 65535 in 100 ms gt TV Rate time Ty 0 to 65535 in 100 ms gt TC Scan time 0 to 65535 in 100 ms gt MV Manual manipulated variable 4096 to 4095 QV gt Manipulated variable 0 to 4095 unipolar 4096 to 4095 bipolar Example Value at input Value processed in the function block gt KP Proportional gain Kp 1500 15 gt TN Reset time Th 250 255 gt TV Rate time Ty 200 20s gt TC Scan time 500 50s gt MV Manual manipulated variable 500 500 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts DCO1LI to DC32LI value range of the manipulated variable exceeded Coils e DCO1EN to DC32EN Enable PID controller e DCO1EP to DC32EP Activate proportional component oo e DCO1EI to DC32EI Activate integral component 208 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Funct
21. Wiring with MFD Titan ARTI L IDi B 1488 ARTI ACD CFil T if tx L Oi E E b488 T Oi x MiS Ii 20 tI GMM b L I E 1808 06 03 AWB2528 1480GB The editor for inputting a function block is displayed Select the desired function block and number with the lt gt cursor buttons The functions of the individual function blocks are explained in the individual function block descriptions on the following pages This display appears if there are function blocks present The function blocks are created in the sequence in which they were edited Calling up function blocks from the circuit diagram If you enter a function block parameter from the circuit diagram you will jump from the circuit diagram editor to the function block editor automatically Once you have assigned the parameters you will return to the position where you left the circuit diagram with Save or Cancel The operation is carried out in the same way as with circuit diagram operation Example timing relay function block Function block Timing relay Switch function On delayed with random switching Time range M S Minute Seconds Set time gt I1 20 min 30s Actual time QV gt Copied to MD96 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB gt TH x M S tli GES tI ayr MONG T Oi x Ii EE tI GMO b L O01 H S E 1808
22. cceesesseseseseeeeeseeeeeeeeeees 145 Increasing the input current s s s 51 Incremental encoder cccecseceeessesssseeeeseees 57 195 Input CONTACTS irii 129 Inrush current limitation ssec 52 Interface pan ieee aatan 336 Interference iania rataran 50 INVENING here a E aa Aa 132 J MPS Aea fs cats tea Seat tas A 229 LatGhing oa 144 Latching relay oaen E 145 LED display astiiica seca n aN IS 17 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Index Main menu OVEWIEW n a N 19 S lection pisania aai 16 Make contatt pisss 114 YETING oaia 132 Marker relay si iiussentenccniadwwonawan awn 326 Memory card Deleting 2sikaniannahncnanoannabanad 340 INS MION sete casa taiead aad ad 338 Memory management Mask Memory ssisssssersssszerszsscrnsenconecaeens 327 Program Memory cceeceeeteeeeeeeteeeeeeeees 327 RAM te euaste tea trated detain ra des eat th ha 327 Menu Changing level sveccvecaveaveaveaveaveraveavenvervel 81 Changing the language scsssseneeees 302 Language Setting sses 77 272 Operator guidance eeeecectsteteteteteteeteteeees 15 Message INVALID PROG nossen 340 341 MFD Evaluating the circuit diagram cccee 323 Operating modes ceesscesseseteteteteteteeeneees 78 OQVEWIEW ni cnntinnnadhnaannnnduananan 12 Mode Changing toser 86 Mounting Display operating unit cccceseseeseeeeeees 33 Inputs outputs onto the power SUPPIY
23. decimal MB15 68 MB65 68 MB16 189 MB66 189 MB17 203 MB67 203 MB18 3 MB68 3 _ After a rising edge from 0 to 1 at coil BTO1T_ the content of MB15 to MB18 is copied to the marker bytes MB65 to MB68 Example Copying of marker blocks definition of a marker range in a different format The value of marker byte MD60 to MD62 is to be copied to MW40 to MW45 Parameters of BT01 function block Source range Ii MOED Destination range I HW4d Number of bytes M0 2 The transfer is in byte format 12 bytes are to be copied The range MD60 to MD62 is 12 bytes This is copied to the range MW40 to MW45 172 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Comparison Value of marker range 1 Comparison Value of marker range 2 range 1 decimal binary range 2 decimal binary MD60 866 143 319 MW40 LSW 19543 0011001110100000 0011001110100000 0100110001010111 0100110001010111 MD60 866 143 319 MW41 MSW 13216 00110011 10100000 00110011 10100000 0100110001010111 0100110001010111 MD61 173304 101 MW42 LSW 26917 0000101001010100 0000101001010100 0110100100100101 0110100100100101 MD61 173304101 MB43 MSW 2644 0000101001010100 0000 101001010100 0110100100100101 0110100100100101 MD62 982644 150 MB44 LSW 62902 0011 101010010001 0011 101010010001 11110101 10110110 11110101 10110110 MD62 982644 150 MB45 MSW 14993 0011 101010010001 0011 10101001
24. B Free memory available in bytes Start value 7944 with the first three circuit connections already generated L 1 C 1 B 1944 The MFD Titan circuit diagram supports 4 contacts and one coil in series The MFD Titan display can display 6 circuit diagram contact fields Use the lt gt cursor buttons to move the cursor over the invisible circuit diagram grid The first four columns are contact fields the fifth column is a coil field Each line is a circuit connection MFD automatically connects the contact to the power supply I li 1 Di f Oi L i 0 4 Be 1444 Figure 53 Circuit diagram with inputs 11 12 and output Q1 gt Now try to wire up the following MFD diagram Switches S1 and 2 are at the input I 01 and I D2 are the contacts for the input terminals Relay K1 is represented by the relay coil 04 The symbol T identifies the coil s function in this case a relay coil acting as a contactor amp 0 4 is one of the MFD output relays 82 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB L 1 C _ m 1 eI I r rm BE 1444 L 1 Cig B 1444 I Qe L 1 0 9 B 1444 For Immediate Delivery call KMParts com at 866 595 9616 83 Creating your first circuit diagram From the first contact to the output coil With MFD you work from the input to the output The f
25. Power supply and CPU ooo Figure 2 T Device overview of power supply and CPU Power supply easy NET terminals EASY LINK terminal Interface for memory card PC and point to point connection Power supply operating mode LED easy NET LED Inputs outputs Figure 3 T Device overview of inputs outputs Inputs Analog output optional Outputs For Immediate Delivery call KMParts com at 866 595 9616 13 MFD Titan 06 03 AWB2528 1480GB Type references for the MFD Titan MFD xxxx XX XX Additional functions Equipment B Operator buttons ME Open loop control closed loop control NT Open loop control closed loop control easy NET Device function Number display and enclosure in mm CP8 Power supply and CPU rating 8 R relay outputs T Transistor outputs A Analog output Number Number of inputs and outputs Multi function display MFD operation Buttons do DEL Delete object in circuit diagram gt ALT Special functions in circuit diagram Status display lt gt Cursor buttons lt gt Av O amp Moeurs Select menu items Set contact numbers contacts and values OK Next menu level Save your entry ESC Previous menu level Cancel Toggle between visualiz
26. Terminal mode using the point to point serial interface For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Terminal mode Terminal mode using the easy NET topology TERMINALMopus f KSJ Figure 63 Terminal mode using the easy NET topology In the above topology the physical location is not identical to the station number The MFD device was connected in the middle of the network line Terminal mode functions irrespective of the device location and station number For Immediate Delivery call KMParts com at 866 595 9616 103 Commissioning 06 03 AWB2528 1480GB MFD TERMINALMoDus oO TERMINAL MODys is 2 SFR O oS _ Figure 64 Terminal mode in easy NET with two MFD devices The above topology allows two MFD devices to be run in easy NET Terminal mode Each MFD device can run with the other devices in Terminal mode 104 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Terminal mode CA 11 12 TERMINA
27. The output signal is simply an inversion of the input signal the relay operates like a contactor with contacts that have been negated If the coil is triggered with the 1 state the coil switches its make contacts to the 0 state Figure 80 Signal diagram of inverse contactor function Rising edge evaluation cycle pulse If the coil is only meant to switch on a rising edge this function will be applied With a change in the coil state from 0 to 1 the coil switches its make contacts to the 1 state for one cycle La Li Lo i Figure 81 Signal diagram of cycle pulse with rising edge Falling edge evaluation cycle pulse lr If the coil is only meant to switch on a falling edge this function will be applied With a change in the coil state from 1 to 0 the coil switches its make contacts to the 1 state for one cycle 146 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Working with contacts and relays to ae Figure 82 Signal diagram of cycle pulse with falling edge gt Aset coil is automatically switched off if the power fails and if the device is in STOP mode Exception Retentive coils retain signal 1 see gt Section Retention Page 316 For Immediate Delivery call KMParts com at 866 595 9616 147 Wiring with MFD Titan 06 03 AWB2528 1480GB Function blocks The function blocks are used to simulate some of the devices used i
28. The value of marker byte MB60 is to be transferred to MD80 and MD81 Parameters of BT01 function block Source range It MERD Destination range I2 MODRI Number of bytes gt gt HO E The transfer is in byte format MD80 has 4 bytes and MD81 has 4 bytes which means that has the value 8 168 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Compariso Value of n range 1 marker range 1 decimal binary MB60 45 00101101 Function blocks Comparison Value of marker range 2 decimal binary range 2 MD80 757935 405 Byte 1 LSB 00101101001011010010110100101101 MD80 Byte 2 757935 405 00101101001011010010110100101101 MD80 Byte 3 757935 405 00101101001011010010110100101101 MD80 757935 405 Byte 4 MSB 00101101001011010010110100101101 MD81 757935 405 Byte 1 LSB 00101101001011010010110100101101 MD81 Byte 2 757935 405 00101101001011010010110100101101 MD81 Byte 3 757935 405 001011000101 10110010110100101101 MD81 757935 405 Byte 4 MSB 00101101001011010010110100101101 After a rising edge from 0 to 1 at coil BTO1T_ the value 757935405 is present in the marker double words MD80 and MD81 Example Transfer of marker byte range violation error The value of marker byte MB96 is to be transferred to MD93 MD94 MD95 and MD96 The length is 16 bytes Parameters of BTO1 function block Source range TT MDA Destination
29. interface connection The remote station responds to the requests of the active station The remote station cannot distinguish whether the COM LINK is active or whether a PC with EASY SOFT PRO is using the interface gt The two devices must support the COM LINK e g MFD and easy800 devices from device version 04 are COM LINK enabled gt Only the MFD can be the active station in a COM LINK connection Remote stations can be MFD or easy800 Topology The following topologies are possible Two devices MFD as active station and easy800 or MFD as remote station 286 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Introduction to COM LINK Figure 139 COM LINK connection to an easy800 or another MFD For Immediate Delivery call KMParts com at 866 595 9616 287 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection Establishing a COM LINK connection to an easy NET station o fle LF T 2 POW Side 2 hn Figure 140 easy NET operation and COM LINK connections A COM LINK connection can be established with an easy NET station The same conditions apply here as with operation without easy NET Data accesses via COM
30. the status of the trigger 170 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Example Copy of marker blocks definition of marker ranges direct The content of marker bytes 10 to 19 is to be transferred to marker bytes 20 to 29 Parameters of BTO1 function block Source range It MEd Destination range I HED Number of bytes NO 10 Source range Value of Destination Value of source marker range destination range marker range decimal decimal MB10 42 MB20 42 MB11 27 MB21 27 MB12 179 MB22 179 MB13 205 MB23 205 MB14 253 MB24 253 MB15 17 MB25 17 MB16 4 MB26 4 MB17 41 MB27 47 MB18 11 MB28 11 MB19 193 MB29 193 After a rising edge from 0 to 1 at coil BTO1T_ the content of MB10 to MB19 is copied to the marker bytes MB20 to MB29 Example Copying of marker blocks definition of a marker range with offset The content of marker bytes MB15 to MB18 is to be copied to marker bytes MB65 to MB68 For Immediate Delivery call KMParts com at 866 595 9616 171 Wiring with MFD Titan 06 03 AWB2528 1480GB Parameters of BTO1 function block Source range PIT MEGS Destination range Te b4 Number of bytes HO 4 Marker MBO1 1 Destination range Constant 64 Marker MB01 plus Offset 1 64 65 gt MB65 Source range Value of Destination Value of source marker range destination range marker range decimal
31. 03 AWB2528 1480GB 7 accept preset actual value coil Cl EN 8 reset coil CI RE 9 contact make contact Cl OF upper setpoint value reached exceeded 10 contact make contact Cl FB lower setpoint value reached undershot 11 contact make contact CI ZE actual value equal to zero 12 contact make contact CI CY value range exceeded or undershot e Range A The counter counts upwards The value leaves the lower threshold value and reaches the upper value e Range B The count direction changes to a downward count The contacts switch in accordance with the actual value e Range C The enable signal is set to 0 The actual value becomes 0 e Range D The rising edge on the accept preset value coil sets the actual value to the preset value e Range E The reset pulse sets the actual value to zero e Range F The actual value goes outside the value range of the counter The contacts become active according to the direction of the values positive or negative Comparators Comparator function blocks allow you to compare constants and variables with one another The following comparisons are possible PIi Greater than Ie Equalto Less than 200 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Re ee ne eee can e oe cali CF3297 G li F Figure 95 MFD Titan circuit diagram with com
32. 03 AWB2528 1480GB Value range 32 bit signed value Inputs The function block inputs 11 and z can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1A04 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts BV01ZE to BV32ZE ZERO zero bit value on output function block is equal to zero Coils The Boolean sequence function block does not have coils Memory requirement Boolean sequence function block The Boolean sequence function block requires 40 bytes of memory plus 4 bytes per constant on the function block inputs 176 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Function of Boolean sequence function block The function block creates the sequence depending on the operating mode gt If you sequence a negative value e g 10dec the CPU will form the two s complement of the amount Example 10dec 10000000 0000 00000000 00000000 1010bin Two s complement 11111111111111111111111111110110pin FF FFFFF6hex Bit 32 is the signed bit and remains as 1 AND Bool
33. 06 03 AWB2528 1480GB Contacts BTO1E1 to BT32E1 the number of marker bytes exceeds the source or destination range BT01E2 to BT32E2 source and destination range overlap Only valid for CPY mode copy marker ranges BTO1E3 to BT32E3 the specified offset is invalid Coils BTO1T_ to BT32T_ trigger coil of the transfer data block function block Memory requirement of the transfer data block function block The transfer data block function block requires 48 bytes of memory plus 4 bytes per constant at the function block inputs Function of the transfer data block function block The transfer data block comparator function block has two operating modes No data blocks are initialised or copied if an error occurs Initalising INI marker ranges There is one source range and one destination range The source range is specified at 11 The length of the source range is one byte The destination range is specified at Iz The length of the destination range is specified by the number of bytes at the MQ input The content of the source range is transferred to the marker bytes in the destination range The function block executes the transfer if there is a rising edge from 0 to 1 at the BT T_ Trigger coil The error outputs E1 E2 and E3 are evaluated regardless of the status of the trigger 166 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Example Initial
34. 1 is permanently assigned to station number 1 gt Use the and cursor buttons to select the STATION menu and press the OK button gt Proceed to the station with physical address 2 gt Select the required physical location with the and v cursor buttons Press the OK button gt Use cursor buttons and to select station number 2 gt Press the OK button At physical location 2 the station has been assigned station address 2 gt Press ESC to return to the STATIONS menu item For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB CONFIGURE CONFIGURE IN o PROGRESS OVERWRITE CONFIGURATION For Immediate Delivery call KMParts com at 866 595 9616 93 Configuring an easy NET network Configuring an easy NET network The easy NET network can only be configured from station 1 Requirement All stations are correctly connected to the network and the termination resistors have been connected All stations have a power supply and are in STOP mode The POW LED is permanently lit The NET LED is permanently lit If the connected stations are configured all stations automatically switch to the STOP mode gt Proceed to the CONFIGURE menu item and press the OK button You will be asked to acknowledge whether you want to configure the system gt Press the OK button The message on the left appears All NET
35. 2 trigger coil contact feedback 3 send Pulse width modulation MFD Titan provides 2 pulse width modulation function blocks PW01 and PW02 The function blocks are connected directly to the outputs They are assigned as follows PW01 gt Q1 PW02 gt Q2 When using the pulse width modulation function block with a minimum on time of less than 1 s only use devices with transistor outputs The pulse width modulation function block is primarily used for outputting the manipulated variable of a PID controller The maximum frequency is 200 kHz This corresponds to a period duration of 5 ms The maximum period duration is 65 5 s Wiring a pulse width modulation function block A pulse width modulation function block is integrated in the circuit diagram as a contact or coil To prevent unpredictable switching states use each coil of a relay once only in the circuit diagram 242 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Full S FE HE Function blocks Figure 116 MFD Titan circuit diagram with pulse width modulation Parameter display and parameter set for pulse width modulation PuDE Pulse width modulation function block number 02 Appears in the parameter display oY Manipulated variable input FO Period duration in ms HE Minimum on duration minimum off duration in ms The parameter display for a timing relay is used to modify t
36. 9616 06 03 AWB2528 1480GB DEBOUNCE F BUTTONS RUM MOD Ri Startup behaviour Deactivation of card mode gt Select CARD MODE and press OK The RUN mode function is deactivated The MFD default setting is for display of the CARD MODE menu i e MFD starts in RUN mode without the memory card when the power is switched on Terminal mode The MFD Titan also supports the TERMINAL MODE Terminal mode enables the display and the keypad of the MED to be used as a terminal for operating another device In this operating mode you are thus able to remotely control all devices supporting Terminal mode operation The interface to the other device can be implemented using the serial interface or easy NET TERMINAL MODE operation is only possible if the MFD is in STOP mode Permanent TERMINAL MODE setting In the SYSTEM menu you set the MFD to start in TERMINAL MODE when the power supply is switched on gt Switch to the System menu If MFD is protected by a password the System menu will not be available until MFD is unlocked see gt Section Unlocking MFD from Page 299 Activating an automatic startup in TERMINAL MODE Requirement The MFD is in RUN or STOP mode without visualization the System menu must be reachable For Immediate Delivery call KMParts com at 866 595 9616 313 MED Settings F BUTTONS RUM MODE CARO MODE 06 03 AWB2528 1480GB gt Select
37. ALT to call up the System menu gt Select the SYSTEM menu gt Move to the cursor to the P BUTTONS menu Activating the P buttons If MED is displaying F BUTTONS 4 this means that the P buttons are active gt Otherwise select P BUTTONS and press OK MFD changes the display toF BUTTONS andthe P buttons are activated gt Press ESC to return to the Status display The P buttons are only active in the Status display In this display you can use the P buttons to activate inputs in your circuit diagram For Immediate Delivery call KMParts com at 866 595 9616 309 310 MED Settings 06 03 AWB2528 1480GB Deactivating the P buttons gt Select F BUTTONS and press OK MED changes the display toP EWTTON S and the P buttons are deactivated The P buttons are automatically deactivated when loading a circuit diagram from the memory card or via EASY SOFT PRO to MFD or when deleting a circuit diagram in MFD Startup behaviour The startup behaviour is an important aid during the commissioning phase The circuit diagram which MFD contains is not as yet fully wired up or the system or machine is in a state which MFD is not permitted to control The outputs should not be controlled when MFD is switched on Setting the startup behaviour The MFD models without a display can only be started in RUN mode Requirement MFD must contain a valid circuit diagram gt Switch to the System menu
38. AWB2528 1480GB A password that has been entered in MFD is transferred to the memory card together with the circuit diagram irrespective of whether it was activated or not If this MFD circuit diagram is loaded back from the memory card the password will also be transferred to MFD and is activated immediately Password setup A password can be set via the System menu regardless of the RUN or STOP modes You cannot change to the System menu if a password is already activated gt Press DEL and ALT to call up the System menu gt Select the menu option SECURITY to enter the password gt Press the OK button and change over to the PASSWORD menu gt If you press the OK button again you will access the password input If no password has been entered MFD changes directly to the password display and displays six dashes No password available gt Press OK six zeros will appear gt Set the password using the cursor buttons lt gt select position in password v set a value between 0 to 9 296 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB ENTER FRSSWORD DO004 CIRCUIT DIAGRAM PARAMETERS TIHE OPERATING MODE INTERFACE DELETE FUNCTION gt Password protection gt Save the new password by pressing OK Use OK to exit the password display and proceed with ESC and v to the RANGE menu The scope of the passwor
39. AWB2528 1480GB Connecting analog outputs Connecting analog outputs LO1 MFD RA and MFD TA each have an analog output QA 01 0V to 10 V DC 10 bit resolution 0 to 1023 The analog output allows you to control servo valves and other final controlling elements Caution Analog signals are more sensitive to interference than digital signals Consequently more care must be taken when laying and connecting the signal lines Incorrect switching states may occur if they are not connected correctly Connecting servo valves LO2 L01 A qT rh L oo Bee oo 7 18 19110 111112 OV OV QA1 BOO ooo a O boo E o 24V ov 0V nR B Figure 42 Connecting servo valves For Immediate Delivery call KMParts com at 866 595 9616 Installation 06 03 AWB2528 1480GB Setpoint entry for a drive LO1 LO2 L01 I ta aan E Ea SG E El OE a a e E e E E fe MN 12 1B 14 15 16 7 18 19110 111112 OV OV QA1 Figure 43 Setpoint entry for a drive Connecting the NET MFD Titan with
40. CI x OF M 01 08 195 function block upper setpoint value exceeded Overflow Incremental encoder counter CI X FE CI X FB M 01 08 195 function block lower setpoint value undershot Fall below Incremental encoder counterfunction CI ZE CI X ZE M 01 08 195 block actual value equal to zero For Immediate Delivery call KMParts com at 866 595 9616 117 Wiring with MFD Titan 06 03 AWB2528 1480GB Contact Make contact Break contact Number Page a Incremental encoder counter en ee icy x CY ME01 02 195 function block actual value has exceeded counter range CARRY Comparator function block CF X LT CF X LT K 01 32 200 less than Comparator function block CF xX EG CF 8 EG K 01 92 200 equal to Comparator function block CF X GT CF X GT K 01 92 200 greater than Text output function block Ox 0i oxo MeDi d2 202 Data function block DE x G4 DE x GH M201 72 203 PID controller value range of oc LI oc LI 01 33 205 manipulated variable exceeded Receive a variable from a station GT Xx i GT x Gt ME01 92 205 Get Seven day time switch Hil x gi Hil x gi MeDi d2 216 Year time switch function block HY x G4 HY x GH x 01 33 221 Master reset sets all outputs and HE OX G4 AHR OX gi Me01 d2 232 markers to zero state Operating hours counter function OT x Qi OT x Gi MEO1 04 239 block set time reached Operating hours counter value oT x CY OT x
41. CY x 01 04 239 overflow CARRY Send a variable to the network FT X G4 PT X amp i M 01 92 240 enable active Put Pulse width modulation error Fil X El FU X El Zee 242 minimum on or off time exceeded Send date and time via the network SC G1 SE x GH slh 245 easy NET function block Timing relay function block TK oH TR Gi MeDi d2 249 118 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation Usable relays and function blocks coils MFD Titan provides various relay types as well as function blocks and their coils for wiring in a circuit diagram Relay function block MFD Titan Number Coil Parameter display Outputs MFD Titan output relays network 0 11 08 JV stations only network master Station address 2 to 8 MFD Titan output relay Q 11 08 JV MFD Titan output relay expansion 5 11 08 JV network stations only network master Station address 2 to 8 MFD Titan expansion output relay S 1i 018 V Bit outputs 54 11 32 V Station address 1 to 8 General coils Markers H 11 16 V COM slave marker REMOTE iH 01 46 JV MARKER Jump label 11 32 V Function blocks Analog value comparator function A 11 32 JV block Arithmetic function block AR 11 32 JV Data block comparator activate EC EN 1i Jz JV JV Transfer data block trigger coil ET X T 1i 32 JV JV Boolean se
42. Coil LS EN is active If coil LS EN is not active the entire function block is deactivated and reset The output value is set to zero The function block operates according to the following equation Y2 Y1 X2 X Y1 X1 x Y2 X2 X1 X2 X Y x Xx Y x Actual output value of target range X Actual input value of source range X Lower value of source range X2 Upper value of source range Y Lower value of target range Y2 Upper value of target range For Immediate Delivery call KMParts com at 866 595 9616 227 Wiring with MFD Titan 06 03 AWB2528 1480GB X1 X2 Y1 Y2 Figure 109 Value scaling function block Reduce value range Source range Target range x1 x2 e Z Y2 Figure 110 Value scaling function block Increase value range Source range Target range Example 1 The source range is a 10 bit value source is the analog input 1A01 The target range has 12 bits 228 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Parameter display and parameter set for the LS01 function Lei t block Ti IAD Si The actual value at the analog input IA01 is 511 H The scaled output value is 2045 bed 1023 Example 2 PME 4015 The source range has 12 bits Lt aw The target range has 16 signed bits TT DC01QV rai 0 PRE 4095 Yd 32768 BYE 32767 The actual value at the analog input DCO1Q
43. EASY DC E Connecting analog inputs Inputs I7 18 111 and 112 can also be used to connect analog voltages ranging from 0 V to 10 V The following applies e 7 IA01 e 8 IA02 e 11 IA03 e 12 IA04 The resolution is 10 bit 0 to 1023 Caution Analog signals are more sensitive to interference than digital signals Consequently more care must be taken when laying and connecting the signal lines Incorrect switching states may occur if they are not connected correctly gt Use shielded twisted pair cables to prevent interference with the analog signals gt For short cable lengths ground the shield at both ends using a large contact area If the cable length exceeds 30 m or so grounding at both ends can result in equalisation currents between the two grounding points 54 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting the inputs and thus in the interference of analog signals In this case only ground the cable at one end gt Do not lay signal lines parallel to power cables gt Connect inductive loads to be switched via the MFD outputs to a separate power feed or use a suppressor circuit for motors and valves If loads such as motors solenoid valves or contactors are operated with MFD via the same power feed switching may give rise to interference on the analog input signals The following circuits contain examples of applications for analog va
44. First station on the NET network 2 Bus termination resistor Last station on the NET network Physical location place C Station number Both RJ45 interfaces are visible after the cover plate has been removed When a cable is plugged in the mechanical connection must be audible click and visible Before a plug or cable is removed the mechanical locking feature must be undone 2 BJ For Immediate Delivery call KMParts com at 866 595 9616 69 Installation 06 03 AWB2528 1480GB Figure 47 Plugging and unplugging cables Connecting the serial The MFD power supply CPU module is provided with a multi interface function interface This can be used to set up point to point communication between different devices The interface is also used for connecting EASY SOFT PRO The following device configurations are possible e MFD with MFD e MFD with easy800 from device version 04 The serial interface must be implemented using special cables The standard MFD 800 CAB cable is 2 m in length gt The MFD 800 CAB cable must not be lengthened in order ensure compliance with EMC requirements 70 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting the serial interface gt Remove the interface cover or other plugs from the interface gt Fit the connectors in the devices For Immediate Delivery call KMParts co
45. H e Figure 15 Fitting the top hat rail gt Fit the top hat rail in the groove using the slide catch of the power supply CPU module and the expansion unit gt Turn the top hat rail towards the housing gt Let the top hat rail snap into position gt Press the power supply CPU module onto the fixing shaft For Immediate Delivery call KMParts com at 866 595 9616 37 06 03 AWB2528 1480GB Installation MeN uuo Mounting the inputs outputs onto the power supply CPU module 38 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Mounting The inputs outputs can be mounted before or after mounting the power supply CPU module onto the fixing shaft l gt Press the two catches together gt Pull one side out of the catch gt Pull the other side out of the second catch For Immediate Delivery call KMParts com at 866 595 9616 39 Installation 06 03 AWB2528 1480GB gt Remove the I O module Removing the power supply CPU module The pow
46. Immediate Delivery call KMParts com at 866 595 9616 e Measures should be taken to ensure the Wherever faults in the automation system proper restart of programs interrupted may cause damage to persons or property after a voltage dip or failure This should external measures must be implemented to not cause dangerous operating stateseven ensure a safe operating state in the event for a short time If necessary emergency of a fault or malfunction for example by stop devices should be implemented means of separate limit switches mechanical interlocks etc Il For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 Contents About This Manual 7 Device designation 7 Writing conventions 7 MFD Titan 9 Target readership 9 Proper use 9 Improper use 9 Overview 10 Device overview 12 MFD devices at a glance 12 Type references for the MFD Titan 14 MFD operation 14 Buttons 14 Moving through menus and choosing values 15 MFD Titan Status display 16 Status display for local expansion 17 MFD Titan advanced Status display 17 MFD Titan LED display 17 Selecting or toggling between menu items 25 Cursor display 26 Setting values 26 Installation 27 Mounting 27 Connecting the expansion unit 45 Terminals 45 Tool for cage clamp terminals 45 Connection cross sections of the MFD cage clamp t
47. LEDs on the stations which are assigned station numbers higher than 1 2 to 8 switch to the OFF state of easy NET As soon as the configuration has been successfully completed the NET LEDs on all stations flash The easy NET network is ready for operation An error message will appear if a station is assigned a Station address which does not correspond to the physical location in the station list If you want to overwrite the station address press the OK button The configuration can be aborted by pressing the ESC button Commissioning 06 03 AWB2528 1480GB Changing the easy NET network configuration The configuration of the easy NET network can be modified at any time at station 1 physical location 1 gt The NET parameters are modified as described for inputting parameters for the first time Station addresses in the STATIONS menu are changed as follows gt Go to the physical location which is to be modified gt Press the OK button Existing station numbers can only be modified to free non assigned station numbers If all eight numbers are assigned all station numbers which are to be modified must be set to zero Thereafter all station numbers can be reassigned MFD Titan sets all station numbers to zero which are assigned a physical location behind the leading zero gt Select the required station number with the and v cursor buttons and confirm your input with the OK button gt Confi
48. LINK The following data access operations are possible from the active station to the remote station 288 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Active station read Introduction to COM LINK Remote station Inputs 1101 to 1116 101 to 116 Inputs of local 1R1 to 1R16 R01 to R16 expansion unit Outputs 1Q01 to 1Q08 Q01 to Q08 Outputs of local 1S01 to 1S08 S01 to S08 expansion unit Diagnostics bits 11D01 to 11D08 IDO1 to ID08 of easy NET Analog inputs 11A01 to 11A04 IA01 to IA04 Analog output 1QA01 QA01 Write read accesses in the marker range Active station Remote station 1 MDO1 MD01 1 MW01 1MW02 MW01 MW02 1 MBO1 1MB02 1MB03 1MB04 MBO1 MB02 MB03 MB04 1 M01 to 1 M32 M01 to M32 1 MD02 MD02 1 MW03 1MW04 MW03 MW04 1 MB05 1MB06 1MB07 1 MB08 MBO5 MB06 MBO7 MB08 1 M33 to 1 M64 M33 to M64 1 MD03 MD03 1 MW05 1 MW06 MW05 MW06 1 MB09 1MB10 1MB11 1MB12 MB09 MB10 MB11 MB12 1 M65 to 1 M96 M65 to M96 1 MD04 MD04 1 MW07 1 MW08 MW07 MW08 For Immediate Delivery call KMParts com at 866 595 9616 289 easy NET Network COM LINK Serial Connection 1 MD20 06 03 AWB2528 1480GB MD20 1 MW39 1 MW40 MW39 MW40 1 MB77 1 MB78 1MB79 1 MB80 MB77 MB78 MB79 MB80 BRUDRATE 192006 COM LIMK REMOTE MARKER gt The normal rules for addressing the markers apply En
49. Parameter sets can only be enabled or protected via the FUNCTION RELAYS menu or via the circuit diagram with the enable and with inhibit parameter set characters For Immediate Delivery call KMParts com at 866 595 9616 303 MED Settings THL Ii 020 03 I3 005 000 gy O12 050 06 03 AWB2528 1480GB gt Select the required function block with or v gt Press the OK button gt Scroll with the or v cursor buttons through the constants of the function block inputs gt Change the values for a parameter set With OK in the Entry mode lt gt change decimal place change the value of a decimal place OK save constants or ESC retain previous setting Press ESC to leave the parameter display Only constants on the function block inputs can be changed Adjustable parameters for function blocks You can modify the function blocks used in the circuit diagram in three different ways e All circuit diagram parameters can be adjusted in STOP mode via the function block editor e Setpoints constants can be modified in RUN mode via the function block editor e Setpoints constants can be modified via the PARAMETERS menu Adjustable setpoint values are e The inputs with all function blocks if constants have been used e Switch on and off times with time switches In RUN mode MFD operates with a new setpoint as soon as ithas been modified in the pa
50. Power supply RUN STOP mode LED LED OFF No power supply LED continuously lit Power supply present STOP mode LED flashing Power supply present RUN mode Table 2 easy NET LED easy NET LED OFF easy NET not operational fault in configuration LED continuously lit easy NET is initialised and no station has been detected LED flashing easy NET operating fault free The front of the MFD 80 device has a green LED and a red LED These can be used in your visualization application as light indicators The following applies to Terminal mode Green LED Table 3 Power supply RUN STOP mode LED LED OFF No power supply LED continuously lit Power supply present STOP mode LED flashing Power supply present RUN mode Red LED Table 4 Fault on the easy NET LED OFF Operation correct LED continuously lit easy NET remote device faulty 18 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD operation Menu structure Main menu without password protection gt You access the main menu by pressing OK STOP Circuit diagram display Main menu RUN Power flow display AH F A If T OLAGRAH a STOP J RUN DELETE PROGRAM FUNCTION RELAYS Circuit diagram PARAMETERS CARD SET CLOCK TERMINAL MODE Parameter f display Parameters T DIAGRAM Function b
51. Q Of L 1 0 1 RUN Figure 56 Power flow display Inputs 11 and 12 are closed relay Q1 has picked up visible area 86 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Creating your first circuit diagram gt Press pushbutton actuator 2 that has been connected as a break contact The circuit connection is interrupted and relay Q1 drops out I 01 1 02 Con L 1 C 1 RUN Figure 57 Power flow display Input 11 is closed input I2 is open relay Q1 has picked up visible area gt Press ESC to return to the Status display _ With MFD you can test parts of a circuit diagram before it is entirely completed MFD simply ignores any incomplete wiring that is not yet working and only runs the finished wiring Power flow display with Zoom function MED enables you to check the following at a glance e all four contacts plus one coil in series e and 3 circuit connections gt Change to the Circuit diagram display and press the ALT button Press pushbutton actuator S1 Figure 58 Power flow display in Zoom function Input 11 and 12 are closed relay Q1 picked up E Contact closed coil is triggered O contact opened coil dropped out For Immediate Delivery call KMParts com at 866 595 9616 87 Commissioning 06 03 AWB2528 1480GB gt Press pushbutton actuator S2 that has been connected as a break contact The circuit con
52. TERMINAL MODE in the System menu and press OK gt The next time that the MFD is started it will establish the connection to the selected device gt Press ESC to return to the Status display TERMINAL MODE F BUTTONS RUN MODE CARD MODE TERMINAL H The correct station number must be selected in order for the MFD to start TERMINAL MODE with the correct station gt chapter Commissioning Page 77 Deactivating an automatic startup in TERMINAL MODE gt Select TERMINAL MODE 4 and press OK The automatic starting in TERMINAL MODE has been deactivated The default setting of the MFD is for the display of the TERMINAL MODE menu i e MFD starts in RUN or STOP mode when the power is switched on Setting LCD contrast and backlight The backlight of the LCD display can be set to one of five stages in order to adapt it to local conditions The display contrast can be set to one of five stages The contrast and backlight settings are implemented as device settings gt Switch to the System menu If MFD is protected by a password the System menu will not be available until MFD is unlocked see gt Section Unlocking MFD from Page 299 314 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 5 cea TY MENU LANGUAGE CONFIGURATOR RUM MODE CARD MODE TERMINAL MODE OTSPLAY CONTRAST LIGHTING
53. The device version provides useful service information about the hardware version and the version of the operating system 344 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Appendix Technical data General MFD 80 display operating unit Front dimensions MFD 80 WxHxD With keys mm 86 5 x 86 5 x 21 5 inches 3 41 x 3 41 x 0 85 Without keys mm 86 5 x 86 5 x 20 inches 3 41 X 3 41 x 0 79 Total dimensions with fixing shaft WxHxD With keys mm 86 5 x 86 5 x 43 inches 3 41 x 3 41 x 1 69 Thickness of fixing wall without intermediate top hat rail minimum maximum mm 1 6 inches 0 04 0 24 Thickness of fixing wall with intermediate top hat rail minimum maximum mm lp 4 inches 0 04 0 16 Weight g 130 Ib 0 287 Mounting 2 22 5 mm 0 886 in holes Display fastened with two fixing rings Maximum tightening torque of the fixing rings Nm 1 2 to2 For Immediate Delivery call KMParts com at 866 595 9616 345 Appendix 06 03 AWB2528 1480GB Protective membrane MFD XM 80 Dimensions WxHxD mm 88 x 88 x 25 inches 3 46 x 3 46 x 0 98 Weight g 25 lb 0 055 Mounting Is fitted over the display keypad with Titan front ring Protective cover MFD XS 80 Dimensions WxHxD mm 86 5 x 94 x 25 inches 3 41 x 3 41 x 0 98 Weight g
54. The loading time can be calculated as follows mask size in byte multiplied by 80 ps Example Mask size 250 bytes The loading time for the mask is 250 x 80 us 20 ms If you require the MFD to have a small cycle time use several small masks so that the loading time is not too long during a mask change Only display necessary information in the masks concerned The loading of mask data and mask changes can be implemented in any segment of the program cycle Take this behaviour into account when considering the reaction time of your entire control system Distribute tasks amongst several devices in the eas NET easy800 for open and closed loop control functions MFD Titan for display and operator functions For Immediate Delivery call KMParts com at 866 595 9616 325 Inside MFD I NS Di f li li 1 D1 8 D4 pene I Da L EC B hie 06 03 AWB2528 1480GB Effects on the creation of the circuit diagram MFD evaluates the circuit diagram in these six segments in succession You should take into account two factors when creating your circuit diagram e The changeover of a relay coil does not change the switching state of an associated contact until the next cycle starts e Always wire forward or from top to bottom Never work backwards Example self latching with own contact Start condition Inputs 11 and 12 are switched on Q1 is switched off This is the circ
55. and coil The counter relay has different coils and contacts To prevent unpredictable switching states use each coil of a relay once only in the circuit diagram 178 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks I Ecc I iC HRE I I 1 iC 20D I f ECE 200F ran C 21FE iG 02 20ZE i403 C 20CY SM AR Figure 87 MFD Titan circuit diagram with counter relay Parameter display and parameter set for the counter c El relay 25H SSL C 20 Counter relay function block number 20 s zu Appears in the parameter display DIE SH Upper setpoint BSL Lower setpoint Pou Defined actual value Preset Gh Actual value in RUN mode In the parameter display of a counter relay you change setpoint values and or the preset value and the enabling of the parameter display Value range The function block operates in the integer range from 2 147483648 to 2147483647 Behaviour when value range is exceeded The function block sets the switching contact C CY to the status 1 and retains the value of the last valid operation The counter C counts every rising edge on the counter input If the value range is exceeded the switching contact C
56. and vice versa Switch MFD to RUN mode from the PC to test the program using the current wiring 2 EASY SOFT PRO provides extensive help on how to use the Overview software wii gt Start EASY SOFT PRO and click on Help About EASY SOFT The on line help provides all additional information about EASY SOFT PRO that you will need If there are transmission problems MFD will display the INVALID PROG message gt Check if the circuit diagram uses function relays which the MF Dunit does not recognise The analog value comparator function relay is only available on the 24 V DC devices easy DC and easy DA _ gt If the operating voltage fails during communication with the PC repeat the last procedure It is possible that not all the data was transferred between the PC and MFD 342 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Loading and saving programs Figure 151 Fitting and removing EASY800 PC CAB gt After transmission remove the cable and close the cover For Immediate Delivery call KMParts com at 866 595 9616 343 Inside MFD 06 03 AWB2528 1480GB Device version Every MFD Titan has the device version number printed on the rear of the device housing The device version is indicated by the first two digits of the device number Example 01 10000003886 DC 20 4 28 8 V 3W This device is of device version 01
57. assigned an address If a spur line is removed on a station all other devices in the network remain functional _ gt The spur line between the T connector and the device must not exceed 0 3 m Otherwise communication via easy NET may be impaired 272 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Topology and addressing examples Physical Station number Loop through the T connector and spur location Example Example unit line place 1 2 1 1 Ca yaoy easy E 2 2 3 Ti easy E 3 3 4 aa easy E 4 4 8 T easy E 5 5 7 s easy E 6 6 2 T easy E 7 7 6 easy E 8 8 5 nE MED easy E e Example 1 physical location is the same as the station number e Example 2 physical location is not the same as the station number apart from location 1 being the same as station 1 Physical location 1 is always assigned as station 1 Station 1 is the only station which must be present For Immediate Delivery call KMParts com at 866 595 9616 273 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection Position and addressing of the operands via easy NET Stations Basic unit Local expansion Network bit data Network word data Input Output Input Output Input Output Receive Send l Q R S RN SN 1 111 1Q1 1R1 1 1to8 2to8RN 2to8 GT 1 PT 1 to 16 to8 to 16 1 to 32 SN 1 to 32 to 32 to 32 2
58. automatically if a telegram has not been sent on the PC interface 30 minutes after unlocking the device using EASY SOFT PRO e via the password menu gt Press DEL and ALT to call up the System menu gt Open the password menu via the menu option SECURITY MED will only show this password menu if a password is present Make a note of the password before you activate it If the password is no longer known MFD can be unlocked DELETE FUNCTION is not active however the circuit diagram and data settings will be lost Attention If the password is unknown or lost and the delete password function is deactivated The unit can only be reset to the factory setting by the manufacturer The program and all data are lost gt Select ACTIVATE PW and confirm with OK The password is now active MFD will automatically return to the Status display 298 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB ut a Tl m D oo j a a a ENTER FASSHORD MMY retata Tutan STOF PARAMETERS SET CLOCK Password protection You must unlock MFD with the password before you implement a protected function enter a protected menu or the System menu Unlocking MFD Unlocking MFD will deactivate the password You can reactivate password protection later via the password menu or by switching the power supply off and on again gt Press OK
59. bit 1HE 01 80 8 bit r W Marker 1 bit iH 0 46 1 bit r W Analog inputs IA x MEOd 04 10 bit r basic unit Analog output igh x zli 10 bit r The following rules apply if you want to use selective binary operands contacts from the markers MD MW MB Table 9 T Composition of the markers Applies Left most Right least to MD significant bit significant bit MW MB M byte word byte word 32 bit MD1 16 bit MW2 MW1 8 bit MB4 MB3 MB2 MB1 1 bit M32 to M25 M24 to M17 M16 to M9 M8 to M1 32 bit MD2 16 bit MW4 MW3 8 bit MB8 MB7 MB6 MB5 1 bit M64 to M57 M56 to M49 M48 to M41 M40 to M33 32 bit MD3 16 bit MW6 MW5 8 bit MB12 MB11 MB10 MB9 1 bit M96 to M89 M88 to M81 M80 to M73 M72 to M65 32 bit MD4 For Immediate Delivery call KMParts com at 866 595 9616 123 124 Wiring with MFD Titan 06 03 AWB2528 1480GB Applies Left most Right least to MD significant bit significant bit MW MB M byte word byte word 16 bit MW8 MW7 8 bit MB16 MB15 MB14 MB13 32 bit MD5 16 bit MW10 MW9 8 bit MB20 MB19 MB18 MB17 32 bit MD23 16 bit MW46 MW45 8 bit MB92 MB91 MB90 MB89 32 bit MD24 16 bit MW48 MW47 8 bit MB96 MB95 MB94 MB93 32 bit MD25 16 bit MW50 MW49 32 bit MD26 16 bit MW52 MW51 32 bit MD48 16 bit MW96 MW95 32 bit MD49 32 bit MD50 32 bit MD95 32 bit MD96 Fo
60. call KMParts com at 866 595 9616 337 338 Inside MFD 06 03 AWB2528 1480GB On the memory card you can save e the program e all the visualization data of the masks e all parameter settings of the circuit diagram the system settings debounce setting P buttons password retention on off and range easy NET configuration setting for automatic startup in Terminal mode COM LINK settings Card mode gt Insert the memory card in the open interface slot For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Loading and saving programs Figure 150 Fitting and removing the memory card With MFD you can insert and remove the memory card even if the power supply is switched on without the risk of losing data Loading or saving circuit diagrams You can only transfer circuit diagrams in STOP mode The MFD versions without a keypad and display automatically transfer the circuit diagram from the inserted memory card to the MFD CP8 when the power supply is switched on If the memory card contains an invalid circuit diagram MFD will keep the circuit diagram still present on the device For Immediate Delivery call KMParts com at 866 595 9616 339 Inside MFD PROGRAM DELETE FROG CARD DEVICE DELETE CARD 06 03 AWB2528 1480GB If you are using a display without a keypad load the pr
61. contact PW E1 e f the off duration of the pulse is less than the minimum off duration outputs Q1 and Q2 are continuously in operation Note the state of the contact PW E1 Setting date time This function block allows you to selectively place the date and time onto the network All other stations accept the date and time of the sending station The function block name is SC01 send clock Hill Gili SEHT Figure 117 MFD Titan circuit diagram with SC function block For Immediate Delivery call KMParts com at 866 595 9616 245 Wiring with MFD Titan 06 03 AWB2528 1480GB Parameter display and parameter set for the SC function block The SC01 function block has no parameters as it is a triggered system service Coil SCO1T trigger coil Memory requirement of the SC function block The SC function block requires 20 bytes of memory SC diagnostics The SC function block only functions when the easy NET network is functioning correctly gt Section Signs of life of the individual stations and diagnostics Page 282 Function of the date time function block If the trigger coil of the function block is activated the current date the day of the week and time from the sending Station is automatically put onto the easy NET network All other network stations must accept these values The station that sends its date and time does this when the seconds value is
62. contacts and relays The device will search for the first occurrence of the contact or coil from the start of the search to the end of the circuit diagram If no contact or coil is found the MFD Titan circuit diagram editor will continue the search from the start of the circuit diagram If a contact or coil is found the MFD Titan editor automatically jumps to the respective field in the circuit diagram Go to a circuit connection The MFD Titan circuit diagram editor provides a Go To function in order to enable fast access to a circuit connection gt Press ESC and use the cursor buttons to select the GO TO menu gt Press OK gt Select the required circuit connection L with the v cursor buttons The first contact on the circuit connection is always indicated gt Press OK The cursor remains stationary at the required circuit connection contact L 1 Deleting the circuit connection MFD Titan only removes empty circuit connections without contacts or coils gt Delete all the contacts and coils from the circuit connection gt Position the cursor on the first contact field of the empty circuit connection gt Press DEL For Immediate Delivery call KMParts com at 866 595 9616 135 Wiring with MFD Titan 06 03 AWB2528 1480GB The subsequent circuit connection s will be pulled up and any existing links between circuit connections will be retained Switching via the cursor bu
63. e Solid 0 2 to 4 mm AWG 24 12 e Flexible with ferrule 0 2 to 2 5 mm2 AWG 24 12 Tool for slot head screws for easy expansion unit Slot head screwdriver width 3 5 x 0 6 mm tightening torque 0 6 Nm Connection cross sections of screw terminal cables e Solid 0 2 to 4 mm AWG 22 12 e Flexible with ferrule 0 2 to 2 5 mm2 AWG 22 12 Installation 06 03 AWB2528 1480GB Connecting the power supply gt The required connection data for both device types MFD DC easy DC with 24 V DC and easy AC with standard voltages of 100 V to 240 V AC are given in the Chapter Appendix Page 345 The MFD Titan devices run a system test for one second after the power supply has been switched on Either RUN or STOP mode will be activated after this time depending on the default setting EASY AC E expansion units L N I I ie QQ S SOSS E E R1 oM R12 L N N 115 230 V Figure 20 Power supply on the AC expansion units Attention A short current surge will be produced when switching on for the first time Do not switch on easy AC via Reed contacts since these may burn or melt 46 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting the power supply DC power supply for the MFD LO1 LO2 L01 ahal gomg 24V OV OV Figure 21 Power supply on the MFD The MFD power supply CPU
64. from the circuit diagram Position the cursor on a contact or a coil of the required function block Press OK The function block will be displayed in this case a timing relay e gt I1 set time of the timing relay e QV gt the actual value is 14 minutes 42 seconds e The enable coil is actuated EN is visible If a coil of a function block is actuated in RUN mode the coil name with the coil designation will appear on the display Checking the function block via the function block editor You access the function block list via the FUNCTION RELAYS menu Select the required function block In this case the arithmetic function block ARO1 in the Adder mode gt Press the OK button The function block is presented with the actual values and the result Displaying the operands when checking the function blocks If you want to know which operands are used on the function block inputs and outputs when checking the function block press the ALT button on the displayed value For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Working with contacts and relays The operand is displayed ARDI ADD sti C Hgs e gt I1 Actual value of counter C 01 SII 1045 e gt 2 Constant 1095 GUS MO SB e QV gt Marker double word MD56 gt Press the ALT button again The display shows the values ARDI ADD Ti 20056 Te 1045 GM 21454 Coil functions You ca
65. function block Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 An arithmetic function block is not wired in the circuit diagram Parameter display and parameter set for arithmetic function blocks ARI Arithmetic function block number 32 ADO Addition mode Appears in the parameter display i First value ble Second value OS Result of the addition Only constants can be modified in the parameter display of a function block 154 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Arithmetic function block modes Parameter Function ADD Addition of summand value 11 plus summand 12 SUE Subtraction of minuend 11 minus subtrahend 12 MUL Multiplication of factor 11 by factor 12 DIY Division of dividend 11 by divisor 12 Value range The function block operates in the integer range from 2 147483 648 to 2147 483647 Behaviour when value range is exceeded e The function block sets the switching contact AR CY to Status 1 e The function block retains the value of the last valid operation The value is zero when it is first called Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts AROICY to AR32CY CARRY overflow bit value on function block output greater than or less than
66. he E EE ie ote Fea wa net Figure 23 Connecting the inputs Connect contacts such as pushbutton actuators or switches to easy or MFD input terminals Connecting easy AC inputs Caution For easy AC connect the inputs to the same line as the power feed in accordance with the VDE IEC UL and CSA safety regulations Otherwise easy will not detect the switching level and may be damaged or destroyed by overvoltage For Immediate Delivery call KMParts com at 866 595 9616 49 Installation 06 03 AWB2528 1480GB E E R1 R2 R3 R4 R5 R6 R7 RB RI R10 R11 R12 N N 115 230 V Figure 24 EASY AC E expansion unit Connect the inputs for example to pushbutton actuators switches or relay contactor contacts Input signal voltage range e OFF signal 0 V to 40 V e ON signal 79 V to 264 V Input current e R1 to R12 0 5 mA 0 25 mA at 230 V 115 V Cable lengths Severe interference can cause a 1 signal on the inputs without a proper signal being applied Observe therefore the following maximum cable lengths e R1 to R12 40 m without additional circuit The following applies to expansion units With longer cables connect a diode e g 1N4007 for 1 A minimum 1 000 V reverse voltage in series to the easy input Ensure that the diode is pointing towards the input as shown in the circuit diagram otherwise easy will not detect the 1 state 50 For Immediate Delive
67. interface memory card easy NET network EASY LINK Yes Rated voltage Rated value V DC 24 0 signal 11 to 16 and 19 to 110 V DC lt 5 17 18 111 112 V DC lt 8 On 1 signal 11 to 16 and 19 to 110 V DC gt 15 17 18 111 112 V DC gt 8 Input current on 1 signal 11 to 16 19 to 110 at 24 V DC mA 3 3 17 18 111 112 at 24 V DC mA 2 2 Delay time for 0 to 1 Debounce ON ms 20 Debounce off typical 11 to 14 ms 0 025 15 16 19 110 ms 0 25 17 18 111 112 ms 0 15 For Immediate Delivery call KMParts com at 866 595 9616 355 Appendix 06 03 AWB2528 1480GB MFD R MFD T Delay time for 1 to 0 Debounce ON ms 20 Debounce off typical 11 to 14 ms 0 025 15 16 19 110 ms 0 25 17 18 111 112 ms 0 15 Cable length unshielded m 100 High speed counter inputs 11 to 14 Number 4 Cable length shielded m 20 High speed up and down counters Counting frequency kHz lt 3 Pulse shape Square wave Mark to space ratio lel Frequency counters Counting frequency kHz lt 3 Pulse shape Square wave Mark to space ratio lef Incremental encoder counters Counting frequency kHz lt 3 Pulse shape Square wave Counter inputs 11 and 12 13 and 14 2 Signal offset 90 Mark to space ratio el 356 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data MFD R MFD T
68. interrupts the timing out of the set time e Range C The Reset coil resets the relay A WwW N Value limitation MFD Titan provides 32 value limitation function blocks VC01 to VC32 The value limitation function block allows you to limit values You can define an upper and lower limit value The function block will then only output values within these limits Wiring of a value limitation function block You can integrate a value limitation function block into your circuit as a coil H 4 E WCE 1EN Figure 130 MFD Titan circuit diagram with VC value limitation Parameter display and parameter set for the VC function block Wee VC value limitation function block number 27 Appears in the parameter display i Input value SH Upper limit value PEL Lower limit value BM Output value limited 262 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Hi Function blocks Inputs The function block inputs I 1 5H and 5L canbe assigned the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Output The function block output QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 Value range
69. is due to the inherent delay factor of LCD displays Function block editor The MFD Titan has the FUNCTION RELAYS menu in order to edit the function blocks without circuit diagrams The function blocks are an inherent component of the program 138 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function block number Function block name Function block inputs Function block outputs G4 EREEEEEEEE L O04 E 1898 Working with contacts and relays Calling the function blocks via the FUNCTION RELAYS menu Function special function parameter display Displays the function E855 GEG EEE blocks used EEEE EEE aa EEEE urrent cursor ine L O01 E EESE Free memory in bytes Figure 74 Explanation of the function block display Display of the function blocks for editing Unit special function Function Parameter display appears does not appear EEEE EEE EEE E 1 GEGEGEEEEEE Variable operand for I2 HEEEEEEEEE inputs Variable operand for outputs Figure 75 Function block display during editing Editing function blocks gt Go to the FUNCTION RELAYS menu gt Press the OK button The following display appears if no function blocks are present The cursor flashes gt Press the OK button For Immediate Delivery call KMParts com at 866 595 9616 139
70. menu appears I I1 I raqi JS N Figure 55 SAVE menu visible area gt Press the OK button The circuit diagram is stored Once you have connected pushbutton actuators 1 and S2 you can test your circuit diagram straight away For Immediate Delivery call KMParts com at 866 595 9616 85 Commissioning 06 03 AWB2528 1480GB Testing the circuit diagram gt Switch to the main menu and select the STOP RUN menu FROGRAM option STOP lt RUN With a tick at RUN or STOP you switch to the RUN or STOP PARAMETERS operating modes SET CLOCK MFD runs in the mode indicated by the tick gt Press the OK button MFD will change to RUN mode The mode assigned the tick is always active The Status display shows the current mode and the switching states of the inputs and outputs gt Change to the Status display and press pushbutton Tie ee actuator S1 Ho 14 i The contacts boxes for inputs 11 and 12 are activated and P RUN relay Q1 picks up This is indicated on the numbers which are displayed Power flow display MFD allows you to check circuit connections in RUN mode This means that you can check your circuit diagram via the built in power flow display while it is being processed by the MFD gt Change to the Circuit diagram display and press pushbutton actuator 1 The relay picks up MFD shows the power flow eee s
71. network connection MFD CP NT can be network used for creating the NET network Up to eight devices can be connected to this network Further information can be found in the Chapter easy NET Network COM LINK Serial Connection Page 271 Accessories Connection plug 8 pole RJ45 EASY NT RJ45 Connection assignment of the RJ45 socket on the device ANAM BRWN Figure 44 RJ45 socket 64 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 65 Connecting the NET network Connection cable 4 pair twisted cable gt Section Technical data Page 345 A 1 ECAN_H o XX A 2 ECAN_L X oe B 3 GND Ground B 4 SELIN Figure 45 Connection assignment ECAN_H data cable pin 1 cable pair A ECAN_L data cable pin 2 cable pair A Ground cable GND pin 3 cable pair B Select cable SEL_IN pin 4 cable pair B Minimum operation with easy NET functions with the cables ECAN_H ECAN_L and GND The SEL_IN cable is only used for automatic addressing Table 5 T Prefabricated cables RJ45 plug on both ends Cable length Type designation cm 30 EASY NT 30 80 EASY NT 80 150 EASY NT 150 Material for self manufactured cables 100 m 4 x 0 18 mm2 EASY NT CAB Required crimping tool for RJ45 plug EASY RJ45 TOOL Bus termination resistor The first and last stations in the network must be provided with a bus termination
72. offset If MB MW or MD markers are specified at both I1 and IE the number of the markers is the start of comparison range 1 or 2 Specifying the marker range with offset If you wish to work with an offset specify one of the following variables at function block input I1 or 12 e Constant e Actual value QV of a function block e Analog input IA e Analog output QA The value at the input is taken as the offset to marker MB01 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts BCO1E1 to BC32E1 the number of comparison elements exceeds one of the comparison ranges BCO1E2 to BC32E2 the two comparison ranges overlap BCO1E3 to BC32E3 the specified offset of the comparison ranges is outside of the permissible range 158 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks BCO1EQ to BC32EQ output of the comparison result Only valid if the BC EN enable has been triggered Status 0 Comparison ranges not equal Status 1 Comparison ranges equal Coils BCO1EN to BC32EN Enable coil of the data block comparator function block Memory requirement of the data block comparator function block The data block comparator function block requires 48 bytes of memory plus 4 bytes per constant on the function block inputs Function of the data block comparator function block The data block comparator function bl
73. one second irrespective of the cycle time and the frequency is determined The result of the measurement is made available as a value to the function block output CF QV Wiring of a counter The following assignment of the digital inputs apply e 1 counter input for the counter CF01 e 2 counter input for the counter CF02 e 3 counter input for the counter CF03 e 4 counter input for the counter CF04 For Immediate Delivery call KMParts com at 866 595 9616 185 Wiring with MFD Titan _ CFI H L GM 06 03 AWB2528 1480GB To prevent unpredictable switching states use each coil of a relay once only in the circuit diagram Use a counter input for the CF CH CI counters only once Wiring of a frequency counter You integrate a frequency counter into your circuit in the form of a contact and coil The counter relay has different coils and contacts I CFHEN CFI 0F rea CFI FE Egi CF 11 ZE 1603 Figure 89 MFD Titan circuit diagram with frequency counter Parameter display and parameter set for frequency counter CFII Frequency counter function block number 01 Does not appear in the parameter display SH Upper setpoint BSL Lower setpoint GH Actual value in RUN mode In the parameter display of a counter relay you change setpoint values and or the preset val
74. operate independently of the cycle time Counter frequency and pulse shape The maximum counter frequency is 3 kHz The signals must be square waves The mark to space ratio is 1 1 Wiring of a counter The following assignment of the digital inputs apply e 1 counter input for the counter CHO1 e 2 counter input for the counter CH02 e 3 counter input for the counter CH03 e 14 counter input for the counter CHO4 To prevent unpredictable switching states use each coil of a relay once only in the circuit diagram Use a counter input for the CF CH Cl counters only once You integrate a counter into your circuit in the form of a contact and coil The counter relay has different coils and contacts For Immediate Delivery call KMParts com at 866 595 9616 189 Wiring with MFD Titan 06 03 AWB2528 1480GB I CHIEN I h CHIRE I E CHID I f CHISE CHI OF Ea CHI FE G02 CHI 1 ZE 1603 CHI C ZH 44 Figure 91 MFD Titan circuit diagram with high speed counter Parameter display and parameter set for high speed CHI 1 counters 25H SL CHI i High speed counter function block number 01 rW Appears in the parameter display iL GW SH Upper setpoint BSL Lower setpoint
75. output operates with decimal values between 0 and 1023 This corresponds to a 10 bit resolution At the output this corresponds to a physical voltage between 0 V and 10 V DC Negative values such as 512 are evaluated as zero and output as 0 V DC Positive values greater than 1023 such as 2047 are evaluated as 1023 and output as 10 V DC Loading and saving You can either use the MFD interface to save programs to a programs memory card or use EASY SOFT PRO and a transmission cable to transfer them to a PC MFD without display and keypad MFD models without buttons and a display can be loaded with the MFD program via EASY SOFT PRO or automatically from the fitted memory card every time the power supply is switched on Interface The MFD interface is covered Remove the cover carefully 336 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Loading and saving programs Figure 149 Remove cover and plug in To close the slot again push the cover back onto the slot Memory card The card is available as an accessory EASY M 256K for MFD Titan Circuit diagrams containing all the relevant data can be transferred from the EASY M 256K memory card to MFD Titan Each memory card can hold one MFD program Information stored on the memory card is non volatile and thus you can use the card to archive transfer and copy your circuit diagram For Immediate Delivery
76. random switching trigger coil T EN stop coil T ST reset coil T RE switching contact make contact T Q1 ts setpoint time e Range A The set time elapses normally e Range B The entered setpoint does not elapse normally because the trigger coil drops out prematurely e Range C The Stop coil stops the time from elapsing AA WN c 254 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Figure 121 Signal diagram of timing relay on delayed with and without random switching e Range D The Stop coil is inoperative after the time has elapsed e Range E The Reset coil resets the relay and the contact e Range F The Reset coil resets the time during the timeout sequence After the Reset coil drops out the time elapses normally Timing relay off delayed with and without random switching Random switching with and without retriggering The contact of the timing relay randomly switches within the set value range Retriggering When the time is running and the trigger coil is reactivated or deactivated the actual value is reset to zero The set time of the timing relay is timed out once more For Immediate Delivery call KMParts com at 866 595 9616 255 Wiring with MFD Titan 06 03 AWB2528 1480GB Figure 122 Signal diagram of timing relay on delayed with without random switchin
77. range 1 I1 MWAI Comparison range 2 IT2 MWS4 Number of bytes PHO C Dia The value of C 01QV is 10042 This value is too big The value at MQ can be between 1 and 383 The message The specified offset of the destination range is outside of the permissible range is output 174 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB BEVET AND I tI BM Function blocks BTO1E3 is 1 Boolean sequence MFD Titan provides 32 function blocks from BVO1 to BV32 for Boolean operations with values The following possibilities are provided by the Boolean sequence function block e Masking out of particular bits from values e Bit pattern recognition e Bit pattern modification A Boolean sequence function block is not wired in the circuit diagram Parameter display and parameter set for Boolean sequence function block E421 Boolean sequence function block number 27 AND AND operation mode Appears in the parameter display HH First value Ie Second value BM Result of the sequence Only constants can be modified in the parameter display of a function block Operating modes of the Boolean sequence function block Parameter Function AND AND operation oF OR operation xOR Exclusive OR operation NOT Negation of the Boolean value of 11 For Immediate Delivery call KMParts com at 866 595 9616 175 Wiring with MFD Titan 06
78. retained Changing the operating mode If you change from RUN to STOP and then back to RUN the actual values of the retentive data will be retained Modifying theMFD circuit diagram If a modification is made to the MFD circuit diagram the actual values will be retained Changing the startup behaviour in the SYSTEM menu The retentive actual values are retained in MFD regardless of the setting Modification of the retentive range If the set retentive ranges are reduced only the actual values saved in the range will remain If the retentive range is extended the older data is retained The new data is written with the current actual values in RUN mode For Immediate Delivery call KMParts com at 866 595 9616 319 MED Settings 06 03 AWB2528 1480GB Displaying device Device information is provided for service tasks and for information determining the capability of the device concerned This function is only available with devices featuring a display Exception Terminal mode with MFD Titan easy800 enables the display of the following device information e AC or DC power supply e T transistor output or R relay output e C clock provided e A analog output provided e LCD display provided e easy NET easy NET provided e OS 1 10 204 operating system version e CRC 25825 checksum of the operating system gt Switch to the System menu _ gt If MFD is protected by a password the System menu
79. station it is accepted into a message memory If the content of a send message changes it is sent Transmission only occurs when there is no message on the network easy NET is configured so that every station can send its messages This means that the station must observe a pause time between sending messages The pause time increases the higher the number of stations and the lower baud rate setting The number of stations is recognised by every station via a sign of life signal The following applies to fast message transfer e Set the fastest possible baud rate to suit the network length and cable cross section e Fewer messages means faster messages e Avoid program downloads during the RUN mode Signs of life of the individual stations and diagnostics The inputs and outputs message type is used as a sign of life recognition to ensure that the state of a station can be recognised by other stations The states of the inputs and outputs are sent cyclically and at the set baud rate irrespective of the SEND IO setting If the inputs and outputs of a station are not recognised by other stations after a time determined by the baud rate the station is deemed to be disconnected until the next sign of life is recognised 282 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Configuration of the easy NET network Evaluation occurs at the following intervals
80. status image register exchange all data on the easy NET network read and write MED only uses this status image for one cycle This ensures that each circuit connection is evaluated with the same switching states for one cycle even if the input signals 11 to 112 change their status several times within a cycle _ gt The following must be observed when operating a PID controller function block The cycle time of the program must be less than the scan time of the controller If the cycle time is greater than the controller scan time the controller will not be able to achieve constant results 324 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Program cycle COM LINK data access during the program cycle The data exchange with the point to point connection can be carried out in any segment of the program cycle This data exchange increases the cycle time with both active and remote stations Only use data that is absolutely necessary Loading visualization data When setting a program to RUN that contains visualization data the contents of the masks to be displayed have to be loaded This operation is repeated every 200 ms With large masks this can take up to one millisecond of cycle time The time required for loading in the event of a mask change depends on the size of the masks to be loaded During a mask change the new mask is loaded from the mask memory into the RAM
81. switch to Entry mode gt Use lt gt to select the position you wish to change or press OK to jump to the next position gt Use to modify the value at the position MFD Titan will leave Entry mode when you press lt gt or OK to leave a contact field or coil field In the contact field to change In the coil field change I Qi tol D TD toshi IH IT Ile ca N Tei iR l 08 n gt D2 ie I lt gt De a H or 13 z Gg or j3 OK OK Hu D4 R c q gt gt or or OK OK 130 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Working with contacts and relays Deleting contacts and coils gt Move the cursor using the buttons lt gt to a contact or coil field gt Press DEL The contact or the coil will be deleted together with any connections Changing make contacts to break contacts Every contact in the MFD Titan circuit diagram can be defined as either a make contact or a break contact gt Switch to Entry mode and move the cursor over the contact name gt Press ALT The make contact will change to a break contact gt Press OK 2 X to confirm the change ALT 2x O E gt Figure 66 Change contact I 13 from make to break Creating and modifying connections Contacts and relay coils are connected with the arrow in the Connect mode MFD Titan displays the cursor in this mode as an arrow gt Use lt gt
82. the protective cover s s s 32 Sensor 20 MA connection neeese 55 Serial interface cccssessscssesesescssssesescecessseseesenees 69 SOt tae ra Sate herd a eee 145 Setpoint potentiometer s s s 55 S tPOINES ts ets ecteeuerevez iania 64 149 304 Setting LCD backlight ccccsceeeeeeeeeeeeees 314 Setting LCD contrast n 314 Setting the LCD roerien 314 Setting the time siistissstasentarantarenterenin 305 SMO MMECIFGUIE sists icccis ivgs foun dnasetes a a 62 331 Monitoring with EASY D T cee 331 Startup behaviour eeeeeeeeseseeeeeees 310 312 After the circuit diagram is deleted 311 Basic setting n se 311 313 314 315 Possibl faults ssiessccveiatessasacsevstactd adh 312 Setting assays aaa aS 310 With upload download to card or PC 311 Station ACTIVE a Sata Sea 286 RAMO E r r aara araara NEn 286 Status display reneedoder 16 Status image register sesser 324 Suppressing contact bounce s s s 328 Switching Contact esena 132 Change sineera kna aa 129 Contact HAME sssrinin 129 Contact number cocodosoronodonostin 129 Cursor DUTIONS anenee 137 Deleting ngreine 132 ENTErIN O isinai anina aaan 83 129 Inverto ck 84 OVENWiOW aaria aaa a a 113 System menu S lECHION sisisisisisieishahshisiuhulnhulslin 16 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Index Temperature sensor CONNECTION s s s 55 Terminal mode aaa aa a 78 Tightening torque
83. to move the cursor onto the contact field or coil field from which you wish to create a connection Do not position the cursor on the first contact field At this position the ALT button has a different function Insert circuit connection For Immediate Delivery call KMParts com at 866 595 9616 131 Wiring with MFD Titan 06 03 AWB2528 1480GB gt Press ALT to switch to Connect mode gt Use lt gt to move the diagonal arrow between the contact fields and coil fields and v to move between circuit connections gt Press ALT to leave Connect mode MFD Titan will leave the mode automatically when you move the diagonal arrow onto a contact field or coil field which has already been assigned In a circuit connection MFD Titan automatically connects contacts and the terminal to the relay coil if there are no empty fields in between Never work backwards You will learn why wiring backwards does not work in Section Effects on the creation of the circuit diagram on Page 326 I li 04 I 13 a 0 02 Figure 67 Circuit diagram with five contacts invalid When wiring more than four contacts in series use one of the 96 M marker relays I li D4 I 03 ZMD I 02 I D4 H 1i 0 02 Figure 68 Circuit diagram with M marker relay Deleting connections gt Move the cursor onto the contact field or coil field to the right of the connec
84. to zero SE set enable Set to a predefined value ST stop STOP block processing P trigger Trigger coil For Immediate Delivery call KMParts com at 866 595 9616 367 368 06 03 AWB2528 1480GB Appendix Function block contacts Contact Meaning of abbreviation Description CY carry Status 1 if the value range is exceeded carry E1 error 1 Error 1 dependent on function block E2 error 2 Error 2 dependent on function block E3 error 3 Error 3 dependent on function block EQ equal Comparison result status 1 if values equal FB fall below Status 1 if the actual value is less than or equal to the lower setpoint value GT greater than Status 1 if the value at 11 gt 12 LI limit indicator Value range manipulated variable exceeded LT less than Status 1 if the value at 11 lt 12 OF overflow Status 1 if the actual value is greater than or equal to the upper setpoint value Q1 output Q1 Switch output QV output value Current actual value of the function block e g counter value ZE zero Status 1 if the value of the element input QV is equal to zero For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB List of the function blocks Function block inputs constants operands Input Meaning of abbreviation Description F1 Factor 1 Gain factor for 11 11 F1 x Value F
85. value goes outside the value range of the counter The contacts become active according to the direction of the values positive or negative 194 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks High speed incremental encoder counters MFD Titan provides two high speed incremental encoder counters Cl01 and Cl02 The high speed counter inputs are hardwired to the digital inputs 11 12 13 and 14 These counter relays allow you to count events independently of the cycle time You can enter upper and lower threshold values as comparison values The contacts will switch according to the actual value You can use a CI counter if you wish to define a start value The CI counters operate independently of the cycle time Counter frequency and pulse shape The maximum counter frequency is 3 kHz The signals must be square waves The mark to space ratio is 1 1 The signals on channels A and B must lead or lag by 90 Otherwise the counting direction cannot be determined Double the number of pulses are counted as a result of the internal method of operation of the incremental encoder The incremental encoder evaluates the rising and falling edges This ensures that the pulse count is not affected by oscillation of a signal edge If the number of pulses are required divide the value by two Wiring of a counter The following assignment of the digital inputs apply e 1 cou
86. value when the device is started or after a reset This speeds up the startup behaviour of the function block gt The function block updates the output value every time recovery time Tg expires The function block operates according to the following equation Y t TalTgl X Kp X x t Y t 1 Y t calculated output value for scan time t Ta Scan time Tg Recovery time Kp proportional gain x t Actual value with scan time t Y t 1 Output value with scan time t 1 Scan time Scan time Ta depends on the set recovery time value Recovery time Ty Scan time Ta 0 1sto1s 10 ms 1 s to 6553 s Tg x 0 01 GET fetch a value from the network The function block allows you to selectively read get a 32 bit value from the network The GET function block fetches data which another station has made available on the easy NET network with a PUT function block 214 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB GTOi lz 20 BM Function blocks GT 1 amp 1 DBT Figure 101 MFD Titan circuit diagram with GET function block Parameter display and parameter set for the GET function block Tli GET function block fetch a value from the network number 01 Di Station number from which the value is sent Possible station number 01 to 08 20 Send function block PT 20 of the sending station
87. vias 303 Password ACtIVALION issue th ct een 298 Change nosen 300 Deleting errereen 300 Protection removal seses 301 S UUD ae tied aa ea taka hate as 296 378 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Index Pause TME asiashsachsaundavhoannsanhead 278 Physical locaton setaa 68 Pow r fallUfeysnnosonpocoonnnnnnpa an 78 Power flow display ccccccseseseseseeees 86 87 138 Ea Ee Eaa E E E RET 323 Gy ClO Serio 323 llOad swiss EE E 336 SAVING wei tee Sthandiatevas a 336 Relay coil Cie lit een RAR RARRRARERARRRCRCAaT 129 Coil FUNCTION seess 130 144 Deleting niana anai 132 ENTENG ahak hha aaa 85 129 Relays Connecting the outputs sssssseesieseeereerereeee 59 Overview oiccen 119 122 126 Removing Inputs OUtPUTS wv sccdas deen cnw denies 39 Power supply CPU Module cccceeseeeseees 39 E E tetas 145 Retention Setting behaviour sssssssississiesierierrerrerrenee 317 Transferring behaviour cccceseseseeeeeneees 319 Retention requirements Permitted easy models ccccseseseseseeeeeees 317 Retentive behaviour sses 319 On circuit diagram transfer cccceeeeees 319 S ttING EEEE 317 RUN Start behaviour ossee 78 RUN STOP changeover cccscssscsssessesesesseeseeeeeees 86 For Immediate Delivery call KMParts com at 866 595 9616 379 380 Index 06 03 AWB2528 1480GB Screw MOUNTING ah aadadoadGindaasauad 42 Sealing
88. 0000000000001100001011001110011 Hexadecimal value 10000000000001100001011001110011 Decimal value QV gt 398 963 Bit 32is the sign bit Bit 32 1 gt Sign Minus Example 6 Input value gt 11 2147483 647 dec BCD binary value 01111111111111111111111111111111 238 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB OTO4 Ii BM Function blocks Hexadecimal value 01111111111111111111111111111111 Decimal value QV gt 161061273 Values greater than 9999999 are output as 161061 273 Values less than 9 999999 are output as 161061 273 The working range of the function block has been exceeded Operating hours counter MFD Titan provides 4 independent operating hours counters The counter states are retained even when the device is switched off As long as the enable coil of the operating hours counter is active MFD Titan counts the hours in minute cycles Dee ee OTIEN VE RAR OTIRE OTI 1 ERN Figure 113 MFD Titan circuit diagram with operating hours counter Parameter display and parameter set for the operating hours counter function block OTD4 Operating hours counter number 04 Appears in the parameter display ti Upper threshold value in hours GM Actual value of the operating hours counter Contacts 0T01Q1 to OT04Q1 The contact switches when the upper threshold value has been reach
89. 0001 1111010110110110 1111010110110110 After a rising edge from 0 to 1 at coil BTO1T_ the values are copied to the appropriate range Example Copying of marker bytes destination range violation error The value of marker bytes MB81 to MB96 is to be transferred to MD93 MD94 MD95 and MD96 The length is 16 bytes Parameters of BTO1 function block Source range Tt MEHI Destination range Izr HDA Number of bytes MO 18 For Immediate Delivery call KMParts com at 866 595 9616 173 Wiring with MFD Titan 06 03 AWB2528 1480GB The transfer is in byte format MD93 to MD96 is 16 bytes 18 bytes were incorrectly defined as length The error message Number of elements exceeds the destination range is output BTO1E1 is 1 Example Comparison of marker blocks range overlap error 12 bytes are to be copied starting from MW60 MW64 is specified as destination address Parameters of BTO1 function block Comparison range 1 I1 MWE0D Comparison range 2 IT2 MWE Number of bytes HO dr gt The copy operation is in byte format MW60 to MW64 is 8 bytes The number of bytes is 12 bytes The error message Both ranges overlap is output BCO1E2 is 1 Example Copying of marker bytes invalid offset error The value of marker word MW40 is to be copied to MW54 and subsequent marker words The block length is specified by the value of the counter C 01QV Parameters of BT01 function block Comparison
90. 15 CONTRAST i LIGHTING 15 CONTRAST ti LIGHTING 15 CONTRAST i LIGHTING Mask CONTRAST i LIGHTING 15 Aa E i i i I TTUTTRIT anne Setting LCD contrast and backlight gt Select the STEM menu gt Press the OK button gt Use the v button to select the DISPLAY menu and press OK The menus for setting the contrast and backlight are displayed gt Press the OK button and move to the contrast entry field Use the and v cursor buttons to set the contrast to a value between 2 and 2 gt Select your setting gt Complete your setting by pressing OK The contrast setting will be retained until it is modified gt Use the cursor buttons and v to move to the LIGHTING menu gt Press the OK button gt Use cursor buttons and v to change the value in 25 steps gt Set the required backlighting The backlight will immediately change to the set value 0 25 50 75 and 100 are possible values For Immediate Delivery call KMParts com at 866 595 9616 315 MED Settings 06 03 AWB2528 1480GB gt MFD comes with the following factory setting The contrast is set to 0 The backlight is set to 75 Retention It is a requirement of system and machine controllers for operating states or actual values to have retentive settings What this means is that the values will be retained safely even after the supply voltage to a
91. 2 For Immediate Delivery call KMParts com at 866 595 9616 351 Appendix Display operating unit Power supply 06 03 AWB2528 1480GB MFD 80 MFD80 B Power supply using power supply unit CPU MFD CP8 LCD display Type Graphic monochrome Visible area W x H mm 62 x 33 Size of pixels mm 0 4 x 0 4 Number of pixels W x H 132 x 64 Spacing pixel centre to pixel centre mm 0 42 LCD backlight Yes Backlight colour Yellow green The backlight can be used and programmed in Yes visualization applications LEDs The backlight can be used and programmed in 2 visualization applications Operating buttons Number 9 Can be used and programmed in visualization 9 applications Pushbutton illumination LED Number 5 Colour Green For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data Power supply MFD CP8 Rated voltage Rated value V DC 24 20 15 Permissible range VDC 20 4 to 28 8 Residual ripple 5 Input current For 24 V DC MFD CP8 normally mA 125 For 24 V DC MFD CP8 MFD 80 normally mA 250 For 24 V DC MFD CP8 MFD 80 MFD R MFD T mA 20 normally Voltage dips IEC EN 61131 2 ms 10 Heat dissipation For 24 V DC MFD CP8 normally W 3 For 24 V DC MFD CP8 MFD 80 normally WwW 6 For 24 V DC MFD CP8 MFD 80 MFD R MFD T W 6 5 normally
92. 2 Factor 2 Gain factor for 12 12 F2 x Value HY Hysteresis Switching hysteresis for value 12 Value HY applies to positive and negative hysteresis 1 Input 1 1st input word 2 Input 2 2nd input word KP Standard Proportional gain ME Minimum make time Minimum make time MV manual value Manual manipulated variable 0 numbers of elements Number of elements OS Offset Offset for the value 11 PD Period duration Period duration SH Setpoint high Upper limit value SL Setpoint low Lower limit value SV Set value Defined actual value Preset TC Scan time TG Recovery time TN Standard Rate time TV Standard Reset time X1 X1 interpolation point 1 Lower value of source range abscissa X2 Interpolation point 2 abscissa Upper value of source range y1 Interpolation point 1 ordinate Lower value of target range Y2 Interpolation point 2 ordinate Upper value of target range For Immediate Delivery call KMParts com at 866 595 9616 369 Appendix 06 03 AWB2528 1480GB Function block output operands Input Meaning of abbreviation Description QV Output value Output value Other operands Other Description operands MB Marker byte 8 bit value IA Analog input if available on device MW Marker word 16 bit value QA Analog output if available on device MD Marker double word 32 bit value NU Constant number value range from 2147483648 to 2 147483647 370 For Immediate Delivery call KMPart
93. 211 2Q1 2R1 2S 1to8 1 3to8 1 3to8 GT1 PT 1 to 16 to8 to 16 RN 1 SN 1 to 32 to 32 to 32 to 32 3 311 3Q1 3R1 3S 1to8 1 2 4to 1 2 4 GT 1 PT 1 to 16 to8 to 16 8RNito to8SN1_ to32 to 32 32 to 32 4 411 4Q1 4R1 4S1to8 1to3 5 1to3 5 GT1 PT 1 to 16 to8 to 16 to8RN1 to8SN1 to32 to 32 to 32 to 32 5 511 5Q1 5R1 5Sito8 1to4 6 1to4 6 GT1 PT 1 to 16 to8 to 16 to8RN1 to8SN1_ to32 to 32 to 32 to 32 6 611 6Q1 6R 1 6S1to8 1to5 7 1to5 7 GT1 PT 1 to 16 to8 to 16 8RNito 8SN1 to 32 to 32 32 to 32 7 711 7Q1 7R1 7S1to8 1to6 8 1to6 8 GT1 PT 1 to 16 to8 to 16 RN 1 SN 1 to 32 to 32 to 32 to 32 8 811 8Q1 8R1 8S1to8 1to7RN 1to7 GT 1 PT 1 to 16 to8 to 16 1 to 32 SN 1 to 32 to 32 to 32 _ gt The RN SN connection is a point to point connection between the stations indicated With RN and SN the number of the contact must have the same number as the coil Example 2SN30 from station 8 is sent to 8RN30 of station 2 274 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB easy NET network topologies addressing and functions Every station with a circuit diagram has read access to the physical station inputs and outputs of other stations and can process them locally Example 1 Station 1 is to read the input 11 of station 2 and write to output Q1 of station 2 Station 2 does not have a circuit diagram Figure 135 Circuit diagram in station 1 Example 2 Marker M 01 of station 4 is to switch the
94. 291 DC power supply for the MFD cceseeseeeeeees 47 Debounce Shelia peenpeeereereeereee rercreeeeer creer reenter Perec rie 308 Delay time Input and output oo cecccecseceseeeseeteteeeeees 328 Delay times For easy DA Tesh ea edit aat 329 For easy DE aad iad dan ene 329 Deleting retentive actual values cceeeeeeees 318 Device OVEIVIEW ccs denn etna ota eae woes 12 Device yers anannnanananananiianiis 343 Dimensions CASY cccecececesetseseeeeteeseeeeeeeeerees 345 EASY AC E AC expansion Units sse 46 Expanding sastavninraddeinvadawadedeads 72 Expanding inputs resres 72 Expanding OUtDUtS cesesesesesesessseeeeeeeseseeeeteeees 72 Expansion boGalucs a a eau 72 REMOTE iani innandura iah 74 For Immediate Delivery call KMParts com at 866 595 9616 375 376 Index 06 03 AWB2528 1480GB Fixing brackets poose A 42 Frequency counters ceeeeeetseseteeeeeeteeeeeeeees 185 Function blocks Evaluating es 324 listici ononon Sta abe tees 367 Function relay Counter relay sscsisesizesizestsectzesazestsesseasectsens 195 Counter high speed ccccseeseseeseeeeeeeeees 189 Counter high speed incremental encoder 195 COUNTS fa itniowad inant anny 178 EXAMI ss sets vcs Sets sca Seas sees ete res ta ders ters ena 263 Frequency counters 0 eeeeeeseeeeeeeetteeeeteeeees 185 OVEIVICW athens ett da eat 148 Time switch aeeie 216 221 Timing relay eerror 249 Impulse relay
95. 36 lb 0 079 Mounting Is fitted over the display keypad without Titan front ring Power supply CPU MFD CP8 module Dimensions WxHxD mm 107 5 x 90 x 30 inches 4 23 x 3 54 x 1 18 346 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data Power supply CPU MFD CP8 module Weight g 145 lb 0 32 Mounting Fitted on the fixing shaft of the display or on the top hat rail to DIN 50022 35mm without display or by means of fixing feet without display Inputs outputs MFD R MFD T Dimensions when fitted WxHxD mm 89 x 90 x 25 inches 3 5 x 3 54 x 0 98 Dimensions when removed WxHxD mm 89 x 90 x 44 inches 3 5 x 3 54 x 1 73 Weight MFD R MFD T g 150 140 MFD R MFD T Ib 0 33 0 31 Mounting Snap fitted into the power supply module For Immediate Delivery call KMParts com at 866 595 9616 347 348 06 03 AWB2528 1480GB Appendix Dimensions of the MFD 80 display operating unit oo ae m oe ie A Aly 7 F a 3 y jj Pp tl 1 e 4 X zae Sbe y A F f A l MFD CP ee 28 25 30 28 25 20 13 7 62 al 86 5 e H Dimensions of the MFD 80 XM protective membrane ei 8 88 5 el 22 5 Dimensions of the MFD 80 XS protective cover A ral a fol 86 5 gt g 25 For Immediate Delive
96. 6 Rated insulation voltage Ui Rated operational voltage Ue VAC 250 Safe isolation to EN 50178 between coil and contact VAC 300 Safe isolation to EN 50178 between two contacts VAC 300 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data MFD R Making capacity IEC 60947 AC 15 250 V AC 3 A 600 Ops h Switch 300000 operations DC 13 L R S 150 ms 24 V DC 1 A 500 Ops h Switch 200000 operations Breaking capacity IEC 60947 AC 15 250 V AC 3 A 600 Ops h Switch 300000 operations DC 13 L R S 150 ms 24 V DC 1 A 500 Ops h Switch 200000 operations Filament lamp load 1000 W at 230 240 V AC Switch 25000 operations 500 W at 115 120 V AC Switch 25000 operations Fluorescent tube with ballast 10 58 W at 230 240 V Switch 25000 AC operations Conventional fluorescent tube compensated Switch 25000 1 x 58 W at 230 240 V AC operations Conventional fluorescent tube uncompensated Switch 25000 10 x 58 W at 230 240 V AC operations Operating frequency relays Mechanical switch operations Switch 10 mill 107 operations Mechanical switching frequency Hz 10 Resistive lamp load Hz 2 Inductive load Hz 0 5 For Immediate Delivery call KMParts com at 866 595 9616 359 360 Appendix 06 03 AWB2528 1480GB UL CSA Uninterrupted current at 240 V AC 24 V DC A 10 8 AC Control Circuit Rating C
97. 7219629 01000001 Byte 4 MSB 01000001 011001100011 11100010 1101 MB64 173 MD81 15277 10101101 Byte 1 LSB 00111011 10101101 MB65 59 MD81 Byte 2 15277 00111011 0000 100010101101 The comparison result of the function block BC01 is BCO1EQ 0 the data block ranges do not have the same content MB65 and MD81 Byte 2 are not identical Example Comparison of marker blocks range violation error Two marker blocks are to be compared Block 1 starts at MD60 Block 2 at MD90 Each block is 30 bytes long Parameters of BC01 function block Comparison range 1 I1 MOBO Comparison range 2 I MODAL Number of bytes HOG The comparison is in byte format MD90 to MD96 is 28 bytes The number of bytes is 30 bytes 162 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks The error message Number of comparison elements exceeds one of the comparison ranges is output BCO1E1 is 1 Example Comparison of marker blocks range overlap error Two marker blocks are to be compared Block 1 starts at MW 60 Block 2 at MW64 Each block is 12 bytes long Parameters of BCO1 function block Comparison range 1 11 MWERI Comparison range 2 IZ MWEN Number of bytes HO dg The comparison is in byte format MW60 to MW64 is 8 bytes The number of bytes is 12 bytes The error message Comparison ranges overlap is output BCO1E2 is 1 Example Comparison of mar
98. Analog inputs Number 4 Electrical isolation To supply voltage No To the digital inputs No To the outputs Yes To the easy NET network Yes Input type DC voltage Signal range VDC 0 to 10 Resolution analog V 0 01 Resolution digital Bit 10 Value 0 to 1023 Input impedance kQ 11 2 Accuracy Two MFD devices from actual value 3 Within a unit from actual value 17 18 111 112 2 Conversion time analog digital Debounce ON ms 20 Debounce OFF Each cycle time Input current mA lt 1 Cable length shielded m 30 For Immediate Delivery call KMParts com at 866 595 9616 357 Appendix 06 03 AWB2528 1480GB Relay outputs MFD R Number 4 Type of outputs Relays In groups of 1 Connection of outputs in parallel to increase the output Not permissible Protection for an output relay Miniature circuit breaker B16 A 16 or fuse slow blow A 8 Potential isolation to mains power supply input PC interface memory card Yes NET network EASY LINK Safe isolation VAC 300 Basic insulation VAC 600 Mechanical lifespan Switch 10 x 106 operations Contacts relays Conventional thermal current UL A 8 10 Recommended for load at 12 V AC DC mA gt 500 Protected against short circuit cos 1 A 600 16 A characteristic B B16 at Protected against short circuit cos 0 5 to 0 7 A 900 16 A characteristic B B16 at Rated impulse withstand voltage Uimp contact coil kV
99. B V Function blocks Attention The shorter the cycle time the faster the control and regulation process Set as small a value for the set cycle time as possible The processing of the function blocks reading of the inputs and writing of outputs is only carried out once every cycle Exception All function blocks that are processed irrespective of the controller Timing relay MFD Titan provides 32 timing relays from T 01 to T 32 A timing relay is used to change the switching duration and the make and break times of a switching contact The delay times can be configured between 5 ms and 99 h 59 min Wiring a timing relay You integrate a timing relay into your circuit in the form of a contact and coil The function of the relay is defined via the parameter display The relay is started via the trigger coil T EN and can be selectively reset via the reset coil T RE The actual timeout running can be stopped via the third coil T ST To prevent unpredictable switching states use each coil of a relay once only in the circuit diagram I 0 T DEH I 2 T DERE Di eS Tam I 0j T 02ST Figure 119 MFD Titan circuit diagram with timing relay For Immediate Delivery call KMParts com at 866 595 9616 249 Wiring with MFD Titan 06 03 AWB2528 1480GB Pa
100. C 12 to C 16 DB 01 to DB 16 T 26 toT 32 should be retentive 124 bytes have been assigned to the retentive data range 76 bytes are still available Deleting ranges Set the ranges to be erased to the values from 00 to 00 e g HB 02 ME OD The markers are no longer retentive Deleting retentive actual values of markers and function blocks The retentive actual values are cleared if the following is fulfilled applies only in STOP mode 318 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Retention e When the circuit diagram is transferred from EASY SOFT PRO PC or from the memory card to MFD the retentive actual values are reset to 0 This also applies when there is no program on the memory card In this case the old circuit diagram is retained in MFD e When changing the respective retentive range e When the circuit diagram is deleted via the DELETE PROGRAM menu Transferring retentive behaviour The setting for retentive behaviour is a circuit diagram setting In other words the setting of the retentive menu may also under certain circumstances be transferred to the memory card or by uploading or downloading from the PC Changing the operating mode or the circuit diagram When the operating mode is changed or the MFD circuit diagram is modified the retentive data is normally saved together with their actual values The actual values of relays no longer being used are also
101. CPU module cceceeeeeeeseseesesees 38 Onitopahat rail savecscavenvedvenvearenrententenves 40 Power supply CPU module cccceceeseseseees 36 Protective COVEN rindade 30 Protective membrane sser 28 SGFEW FIXING iniaineninian iiaia 42 Top hat rail urs 36 For Immediate Delivery call KMParts com at 866 595 9616 377 Index 06 03 AWB2528 1480GB N Network Addressing sern a 273 Automatic change of the RUN and STOP MOd Psie maaan 279 Cables Greena aa 67 Changing the write repetition rate 278 Configuration of the COM LINK e 289 Configuring input output devices 0 280 Connecting the NET network sssi 64 Data accesses via COM LINK nsee 287 Introduction to COM LINK sses 286 Station Message types s src 281 Station signs Of life oo cecsceeesesteeseseeees 282 TOPGlOGY srann NSN 273 286 Transfer behaviour sssssssssiesseieserrererreree 281 Transmission security esseere 285 Network cables ixtananwiedadadaddaadadads 67 0 Operating principles s ssssssssississeesiesresresrerrerrerrene 14 QUT PUL ay a nee dat venavennateeecencces 129 Overload aneis eeni nEs tar 62 331 Monitoring with EASY D T cess 331 P P DUTLONS a ccteneasct ones are once Snrentond enanrdated 137 Activating and deactivating 309 Parameter display Counter relay nenese eanna 190 196 Timing telyn 186 Parameters Change erneta ee ees 303 Display xis Sivan 303 Inhibit ACCESS a acs vives eect
102. CY switches to status 1 for one cycle per rising edge detected For Immediate Delivery call KMParts com at 866 595 9616 179 Wiring with MFD Titan 06 03 AWB2528 1480GB Inputs The function block inputs 5H SL and 34 can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1A04 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts e C 010F to C 320F Actual value upper setpoint e C 01FB to C 32FB Actual value Lower setpoint value e C O1ZE to C 32ZE Actual value zero e COICY to C 32CY Value range exceeded Coils e C01C_ to C 32C_ counter coils count with rising edge e C01D_ to C 32D_ count direction definition status 0 count upwards status 1 count downwards e CO1RE to C 32RE Reset actual value to zero e C01SE to C 32SE accept defined actual value with rising edge 180 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Memory requirement of the counter relay The counter relay function block requires 52 bytes of memory plus 4 bytes per constant on the function block in
103. E MEQ1 92 164 error invalid offset Boolean sequence function block BU x IE EV IE Me01 d2 175 value zero 116 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation Contact Make contact Break contact Number Page Counter function block upper Cx OF X OF 01 33 178 setpoint value exceeded Overflow Counter function block lower C X FE FE z01 12 178 setpoint value undershot Fall below Counter function block actual C X IE Cx JE ME01 d2 178 value equal to zero Counter function block actual value C cx cv ME01 d2 178 has exceeded counter range CARRY Frequency counter function block CF x OF CF x OF MEO1 04 185 upper setpoint value exceeded Overflow Frequency counter function block CF x FE CF x FE BEO1 04 185 lower setpoint value undershot Fall below Frequency counter function block CF x ZE CF x ZE 01 04 185 actual value equal to zero High speed counter function block CH OF TH x OF MED1 04 189 upper setpoint value exceeded Overflow High speed counter function block CH FE CH X FE MED1 04 189 lower setpoint value undershot Fall below High speed counter function block CH ZE CH X ZE MED1 04 189 actual value equal to zero High speed counter function block CH C CH x CY 0i 04 189 actual value has exceeded counter range CARRY Incremental encoder counter CI X OF
104. FIGURE BRUDRATE 125KE BUSDELAY 00 SEND I0 i REMOTE RUM REMOTE 10 BRUDRATE 125KE BUSDELAY 00 SEND I0 d REMOTE RUM REMOTE 10 For Immediate Delivery call KMParts com at 866 595 9616 Configuring an easy NET network gt Proceed to the first physical station Location 1 This station has the termination resistor inserted on socket 1 The following tasks are only possible in STOP mode Entering the network station number gt Simultaneously press the DEL and ALT buttons while easy displays the Status display The System menu appears Select the CONFIGURATOR menu option gt Press the OK button The NET menu appears gt Press the OK button The NET PARAMETERS menu appears gt Press the OK button gt Press the OK button and select the station number with and v In this case the station number NET ID 01 gt Press the OK button gt Exit the NET PARAMETERS menu with ESC The station designated station number 1 is the active station For this reason the REMOTE RUN and REMOTE IO functions are not available 91 92 Commissioning uu ru a a Js e ur oo on 06 03 AWB2528 1480GB Entering network stations Only the network station at physical location 1 with station number 1 has a station list The left hand column is the physical location You can only assign a physical location to unused station numbers Physical location
105. Figure 11 Drill holes for the MFD gt Drill and punch out two 22 5 mm diameter holes The diameter is the same as is normally required for control circuit devices _ gt Observe the following technical requirements e The hole spacing is 30 mm e The maximum thickness of the front plate for mounting the power supply CPU module must not be more than 6 mm e The maximum thickness of the front plate for mounting an expansion unit with a top hat rail in addition to the power supply CPU module must not be more than 4mm e Leave enough space at the side for the power supply CPU module and if necessary the expansion unit e In order to ensure protection to IP65 the surface of the mounting front must be even and smooth For Immediate Delivery call KMParts com at 866 595 9616 33 Installation 06 03 AWB2528 1480GB Figure 12 Mounting the display operating unit The protective membrane or the protective cover must be fitted gt Fit the display operating unit in the punched fixing holes 34 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Mounting a UUUUUUU Figure 13 Screw fastening the display operating unit gt Screw fasten the display operating unit The tightening torque must be between 1 2 and 2 Nm Ensure that the correct torque is used If the tightening torque is too low or high this may impair the seal
106. Frequency counters 185 CH counter high speed High speed counters 189 cl counter fast incremental High speed incremental encoder 195 value encoder CP comparators Comparators 200 D display Text function block 202 DB data block Data function block 203 DC DDC controller direct PID controllers 205 digital control FT filter PT1 signal smoothing filter 211 GT GET GET network 205 HW hora iat week Seven day timer 216 HY hora iat year Twelve month timer 221 LS linear scaling Value scaling 225 MR master reset Master reset 232 NC numeric coding Numerical converters 233 OT operating time Operating hours counter 239 PT PUT PUT network 240 PW pulse width modulation Pulse width modulation 216 SC synchronize clocks Synchronise clock via network 245 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB List of the function blocks Element Meaning of Function block designation Page abbreviation ST set time Set cycle time 221 T timing relays Timing relay 249 VC value capsuling Value limitation 262 Jumps 203 Function block coils Coil Meaning of abbreviation Description C count input Counter input D_ direction input Count up down indicator ED enable Differential component Activate differential component El enable integral component Activate integral component EN enable Enable module EP enable proportional component Activate proportional component RE reset Reset actual value
107. K REMOTE MARKER POororrTrrec PRR i GF PROGRAM STOF SET CLOCK For Immediate Delivery call KMParts com at 866 595 9616 BRUORATE 112 00E oOo 9 Selecting or toggling between menu items gt an READ MDD iMDDO WRITE iHDID iMDDO This menu only appears if the COM LINK was selected Cursor Av Select or toggle 25 MFD Titan 06 03 AWB2528 1480GB Cursor display HH MM 4 29 The cursor flashes OD MM 05 05 YEAR 2003 Full cursor F e Move cursor with lt gt e in circuit diagram also with v Value H M HH MM 14 2 DO MM 05 05 e Change position with lt gt YEAR 20l e Change values with v Flashing values menus are shown in grey in this manual Setting values HH MM 14 24 FP Change value DO MM 03 110 Select cursor position in value lt gt YEAR 2002 io 2 Change value at position Av Values Cok Store entries Positions Value at 2 Retain previous value 26 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 2 Installation The MFD must only be installed and wired up by qualified electricians or other persons familiar with the installation of electrical equipment Danger of electric shock Never carry out electrical work on the device while the power supply is switched on Always follow the safety rules e Swi
108. LMODu i Cy FRO 8S9 f oes 1 6 g i gt owside Figure 65 Terminal mode in easy NET as well as via two serial interfaces The above topology is a combination of easy NET operation and serial interface operation Bear in mind the access rights of the individual devices in easy NET and in the corresponding serial interface For Immediate Delivery call KMParts com at 866 595 9616 105 Commissioning A 06 03 AWB2528 1480GB Caution Data collision In order to ensure proper operation the following conditions must be observed The following applies If there is more than one MFD device in Terminal mode each MFD device must access a different easy NET station A device running in Terminal mode must not access any two devices communicating with each other in Terminal mode If a PC with EASY SOFT PRO or an MFD device with a serial interface is in active communication with an easy NET station this station must not be accessed at the same PROGRAM STOF lt RUN PARAMETERS SET CLOCK STOF lt RUN PARAMETERS SET CLOCK TERMINAL MODE STATION ID START MODE time in Terminal mode via the easy NET Proceed as follows Your easy NET or your serial interface must be running correctly gt Press the OK button from the Status Display The f
109. ME END OO MM 00 00 _ The following applies to MFD Titan devices The time change algorithm always calculates the date from the year 2000 Enter the time change for the year 2000 gt Proceed to the MANUAL menu and press 2 x OK lt gt Move between the parameters Av Change the value OK Save day and time ESC Retain previous setting gt Press ESC to leave the display gt Select the day and time at which summer time is to commence gt Select the day and time at which summer time is to end The same time for conversion applies as for the legally determined variants EU GB US For Immediate Delivery call KMParts com at 866 595 9616 307 MED Settings 06 03 AWB2528 1480GB Activating input delay debounce RUM MODE CARO MODE P BUTTONS RUH MODE CARO MODE P BUTTONS Input signals can be evaluated by MFD with a debounce delay This enables for example the trouble free evaluation of switches and pushbutton actuators subject to contact bounce In many applications however very short input signals have to be monitored In this case the debounce function can be switched off gt Press DEL and ALT to call up the System menu gt Select the SYSTEM menu If MFD is password protected you cannot open the System menu until you have unlocked it The input delay debounce is set with the DEBOUNCE menu item Activating d
110. ON menu 204 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB A Function blocks Function of the data function block TT M 3 Figure 98 Signal diagram of data function block 1 value at input gt I1 2 trigger coil DB T_ 3 value on DB QV gt The value at input I1 is only transferred with a rising trigger edge to an operand e g MD42 QA01 on output GM Output QV retains its value until it is overwritten PID controller MFD Titan provides 32 PID controllers DCO1 to DC32 The PID controllers allow you to implement closed loop control functions Caution A knowledge of closed loop control is required in order to use the PID controllers The control system must be familiar so that the PID controller can function correctly For Immediate Delivery call KMParts com at 866 595 9616 205 206 Wiring with MFD Titan 06 03 AWB2528 1480GB Three separate manipulated variables can be output One manipulated variable can be output via an analog output Two manipulated variables can be processed via two pulse width modulated outputs It is therefore useful to run up to three closed loop controllers per program simultaneously Projects can be structured by selecting the oci UNF I tI EF TH h Ti PTC h Hi BM controller number Example Project with 3 devices Program 1 Controller DC 10 11 Program 2 Controller DC20 21 and 22 Prog
111. Possible function block number 01 to 32 Appears in the parameter display gt Actual value from the network Output The function block output 4 can be assigned the following operands e Markers MD MW MB e Analog output QA01 Contacts GT01Q1 to GT32Q1 Contact make contact GT Q1 switches to status 1 if a new value transferred on the easy NET network is present Memory requirement of the GET function block The GET function block requires 28 bytes of memory GET diagnostics The GET function block only functions when the easy NET network is functioning correctly gt Section Signs of life of the individual stations and diagnostics Page 282 For Immediate Delivery call KMParts com at 866 595 9616 215 Wiring with MFD Titan 06 03 AWB2528 1480GB Function of the GET function block 2 Figure 102 Signal diagram of GET function block 1 GT Q1 2 value on GT QV gt Seven day time switch MFD Titan is equipped with a real time clock which you can use in the circuit diagram as a 7 day time switch and a year time switch The procedure for setting the time is described under Section Setting date time and daylight saving time on Page 305 MFD provides 32 seven day time switches HW01 to HW32 for a total of 128 switching times Each time switch has four channels which you can use to set four on and off times The channels are set via the parameter display The time is backed up in the e
112. Ra 10 mQ A O SiS 2 depending on number of active channels and their load Maximum total short circuit current 8 Peak short circuit current 16 Thermal cutout Yes Maximum switching frequency with constant resistive Switch 40000 load R 100 kQ depends on program and load operations h Parallel connection of outputs with resistive load inductive load with Yes external suppression circuit gt Section Connecting transistor outputs Page 60 combination within a group Group 1 Q1 to Q4 Maximum number of outputs 4 Total maximum current A 2 Attention Outputs must be actuated simultaneously and for the same time duration Status display of the outputs LCD Status display if provided For Immediate Delivery call KMParts com at 866 595 9616 361 362 Appendix 06 03 AWB2528 1480GB Inductive load without external suppressor circuit General explanations To 95 time in milliseconds until 95 of the stationary current is reached L To 95 3 X To 65 3 X R Utilisation category in groups for e Q1 to Q4 Q5 to Q8 To 95 1 ms Utilisation factor per group g 0 25 k ASN Relative duty factor 100 L 16 mH Max switching frequency Switch 1500 f 0 5 Hz operations h Max duty factor DF 50 DC13 Utilisation factor g 0 25 To 95 72 ms J R48 O Relative duty factor h 100 L 1 15H Max switching frequency Switch 1500 f 0 5 Hz Max duty factor DF 50 operations h For Immediate Deli
113. V 1 789 The scaled output value is 4 137 Jumps Jumps can be used to optimise the structure of a circuit diagram or to implement the function of a selector switch For example jumps can be used to implement whether manual automatic mode or different machine programs are to be selected Jumps consist of a jump location and a jump destination label For Immediate Delivery call KMParts com at 866 595 9616 229 Wiring with MFD Titan 06 03 AWB2528 1480GB Circuit diagram symbols for jumps Contact Make contact Numbers Dito 32 Coils Numbers Ii to 3g Coil function gt ate Ita IPs 1h 1 can only be used as first leftmost contact Function If the jump coil is triggered the circuit connections coming directly after it will not be processed The states of the coils before the jump will be retained unless they are overwritten in circuit connections that were not missed by the jump Jumps are always made forwards i e the jump ends on the first contact with the same number as that of the coil e Coil jump when 1 e Contact only at the first left hand contact position Jump destination The Jump contact point will always be set to 1 gt Backward jumps are not possible with MFD due to the way it operates If the jump label does not come after the jump coil the jump will be made to the end of the circuit diagram The last circuit connection will also be skipped If a jump des
114. Value range The function block operates in the integer range from 2 147483648 to 2147483647 Each pulse is counted twice Example value at Cl QV gt 42000 196 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks The counter has counted 21000 pulses Behaviour when value range is exceeded e The function block sets the switching contact CI CY to Status 1 e The function block retains the value of the last valid operation Counter Cl counts every rising edge on the counter input If the value range is exceeded the switching contact Cl CY switches to status 1 for one cycle per rising edge detected Inputs The function block inputs 5H SL and 54 can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 The actual value is only erased in RUN mode with a selective reset signal For Immediate Delivery call KMParts com at 866 595 9616 197 Wiring with MFD Titan 06 03 AWB2528 1480GB Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts e CIO10F to ClO20F Actual v
115. a transfer rate is set under the BAUDRATE menu item Possible baud rates are 10 20 50 125 250 500 and 1000 KB 125 KB factory default setting For Immediate Delivery call KMParts com at 866 595 9616 277 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection Pause time changing the write repetition rate manually Every easy NET network connection automatically determines the number of stations which are active on the network the baud rate which is used and the total number of bytes which are transmitted The minimum pause time which a device requires is automatically determined using this data in order to ensure that all devices can send their messages If a pause time is to be increased the value of the BUSDELAY must be set greater than zero Value 1 doubles the pause time value 15 will increase it by a factor of 16 tpnew tp X 1 n tpnew New pause time tp pause time determined by the network n value on BUSDELAY An increase in the pause time means that fewer messages inputs outputs bit data word data are transferred per time unit The reaction speed of the entire controller depends on the baud rate the pause time and the quantity of transferred data The smaller the amount of data transferred the faster the reaction times of the system gt Arincrease in the pause time is only useful during commissioning To ensure that the data for the power flo
116. agram is processed with a microprocessor that simulates the contacts and relays of the circuit concerned and thus processes all switching operations considerably faster Depending on its size the MFDcircuit diagram is processed cyclically every 0 1 to 40 ms During this time MFD passes through six segments in succession How MFDevaluates the circuit diagram Segment In the first four segments MFD evaluates the contact fields in succession MFD checks whether contacts are switched in parallel or in series and saves the switching states of all contact fields In the fifth segment MFD assigns the new switching states to all the coils in one pass For Immediate Delivery call KMParts com at 866 595 9616 323 Inside MFD 06 03 AWB2528 1480GB The sixth segment is located outside of the circuit diagram MFD uses this to Evaluating function blocks e process the function blocks which are used the output data of a function block is updated immediately after processing MFD processes the function blocks according to the function block list gt FUNCTION RELAYS menu from top to bottom You can sort the function block list with EASY SOFT PRO from Version 4 04 You can then for example use the results consecutively establish contact to the outside world The output relays Q 01 to Q S are switched and the inputs 11 to R are read once more MED also copies all the new switching states to the
117. al isolation Yes To power supply inputs outputs EASY LINK PC interface memory module Bus termination gt accessories Yes First and last station Plug connector gt accessories poles 8 Type RJ45 364 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data MFD CP8 NT Cable cross sections with cable lengths and cable resistance m Cross section up to 1000 lt 16 mQ m mm2 AWG 1 5 16 Cross section up to 600 lt 26 mQ m mm2 AWG 0 75 to 0 8 18 Cross section up to 400 lt 40 mQ m mm AWG 0 5 to 0 6 20 19 Cross section up to 250 lt 60 mQ m mm AWG 0 34 to 0 5 22 21 20 Cross section up to 175 lt 70 mQ m mm2 AWG 0 25 to 0 34 23 22 Cross section up to 40 lt 140 mQ m mm AWG 0 13 26 1 Bus lengths above 40 m can only be achieved with cables with reinforced cross section and connection adapter For Immediate Delivery call KMParts com at 866 595 9616 365 366 Appendix 06 03 AWB2528 1480GB List of the function blocks Function blocks Element Meaning of Function block designation Page abbreviation A Analog value comparator Analog value comparator 150 AR Arithmetic Arithmetic 153 BC block compare Data block compare 157 BT block transfer Data block transfer 164 BV Boolean sequence Boolean sequence 175 C counter Counters 178 CF counter frequency
118. alue Upper setpoint e CIO1FB to ClIO2FB Actual value Lower setpoint e CIO1ZE to Cl02ZE Actual value Zero e CIO1CY to ClO2CY Value range exceeded Coils e CIO1EN to CIO2ZEN Counter enable e CIO1RE to CIO2RE Reset actual value to zero e CIO1SE to Cl02SE Accept preset actual value with rising edge Memory requirement of the counter relay The high speed counter function block requires 52 bytes of memory plus 4 bytes per constant on the function block inputs Retention High speed counter relays can be operated with retentive actual values The number of retentive counter relays can be selected in the SYSTEM gt RETENTION menu If a counter relay is retentive the actual value is retained when the operating mode changes from RUN to STOP as well as when the power supply is switched off If MFD is started in RUN mode the counter relay operates with the retentively saved actual value 198 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Function of the high speed incremental encoder counter function block a lt E wate ig E ja i gt Figure 94 Signal diagram of high speed incremental encoder counter 1 counter input channel A 2 counter input channel B 3 upper setpoint value H 4 preset actual value 54 5 lower setpoint value 5L 6 counter enable For Immediate Delivery call KMParts com at 866 595 9616 199 Wiring with MFD Titan 06
119. ameter display i Input value actual value source range PAI Lower value of source range Aa Lower value of target range PAE Upper value of source range BYE Upper value of target range Gh Output value scaled Inputs The function block inputs 14 281 282 241 and E can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1A04 1A01 terminal 17 1A02 terminal 18 A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Output The function block output QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 226 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Value range for inputs and outputs Value range I1 Input value of the function 2147483648 to 2147483647 block pad Lower value of source range REA Lower value of target range Hd Upper value of source range PYE Upper value of target range By Output value Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Coil VCO1EN to VC32EN function block enable Memory requirement of the LS function block The LS function block requires 64 bytes of memory plus 4 bytes per constant on the function block input Function of the function block _ The scaling function block must be enabled so that it can work
120. an be closed with a sealing facility to provide protection against unauthorised operation Before mounting the display operating unit fit the protective cover 30 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 31 Mounting Figure 7 T Removing the front frame gt Remove the front frame as shown in the figure The protective cover can be mounted in two different positions Choose the position that is most suitable for the application at hand and your requirements Figure 8 T Position of the protective cover Installation 06 03 AWB2528 1480GB Figure 9 Mounting the protective cover gt Mount the protective cover as shown in the figure Sealing the protective cover Figure 10 Sealing the protective cover The grip handle of the protective cover is provided with holes that can be used in any mounting position You can fit a wire or similar material through these holes in order to seal the cover If the wire is provided with a lead seal the cover is sealed The cover can then only be opened by breaking the seal or the wire 32 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Mounting Mounting the display operating unit front mounting IEA LA Hez i L LLED LAA i i i i i lco
121. aps over the lower edge of the top hat rail The MFD will clip into place automatically gt Check that the device is seated firmly The device is mounted vertically on a top hat rail in the same way Screw mounting The power supply CPU module can be screwed onto a mounting plate without the display operating unit For screw mounting on a mounting plate fixing brackets must be used that can be fixed to the back of the MFD The fixing brackets are available as an accessory 42 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Mounting Three fixing fixing brackets are sufficient for a device with four points OO a a Figure 16 Screw mounting for the MFD For Immediate Delivery call KMParts com at 866 595 9616 43 Installation 06 03 AWB2528 1480GB old Figure 17 Screw mounting for the EASY2 Figure 18 Screw mounting for the easy600 44 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting the expansion unit Connecting the expansion unit Figure 19 Connecting expansion units Terminals For Immediate Delivery call KMParts com at 866 595 9616 45 Tool for cage clamp terminals Slot head screwdriver width 3 5 mm x 0 6 mm Connection cross sections of the MFD cage clamp terminal cables
122. arameter display Mi Source range start Mi Destination range start NO Number of elements to be written in bytes per range Value range 1 to 383 Only constants can be modified in the parameter display of a function block For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Operating modes of the transfer data block function block Parameter Function INI Initialise marker ranges CFY Copy marker ranges Inputs The function block inputs 11 12 and H can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Specifying the marker range without offset If MB MW or MD markers are specified both at I4 and at IE the number of markers defines the source or destination range Specifying a marker range with offset If you wish to work with an offset specify one of the following variables at function block input I 4 or IF e Constant e Actual value QV of a function block e Analog input IA e Analog output QA The value at the input is taken as the offset to marker MBO1 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled For Immediate Delivery call KMParts com at 866 595 9616 165 Wiring with MFD Titan
123. arts com at 866 595 9616 133 Wiring with MFD Titan 06 03 AWB2528 1480GB Saving circuit diagrams gt Press the ESC button to save a circuit diagram The menu on the left appears in the status line I Di I D2 a D1 HYO1 Ge gt Press OK to save the entire program circuit diagram and Fi function blocks SAVE After saving you will be in the CIRCUIT DIAGRAM menu Aborting circuit diagram entry gt If you want to exit without saving the circuit diagram I Di 1 ae press ESC D1 HYO1G4 gt Use the cursor buttons to select the CANCEL menu gt Press OK CANCEL The circuit diagram is closed without saving Searching for contacts and coils I I You can search for contacts and coils in the following way G li H li i J gt Press ESC Use the cursor buttons to select the j o SEARCH menu SEARCH gt Press OK gt Select the desired contact coil and number with the v and I li I aL me lt gt cursor buttons g li HY11 i With function relays select the function block the number and the coil SEARCH Ii gt Confirm the search with the OK button 134 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB I Mi 1 D2 Di Hyoied L 1 0 4 B 1t4l I 1i I 12 amp H HY 11g L i 0 4 B 1140 Har i H 1101 Dom L 1 0 1 B 1t4l Working with
124. arts com at 866 595 9616 7 8 About This Manual 06 03 AWB2528 1480GB _ gt Indicates interesting tips and additional information For greater clarity the name of the current chapter is shown in the header of the left hand page and the name of the current section in the header of the right hand page This does not apply to pages at the start of a chapter and empty pages at the end of a chapter For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 1 MED Titan Target readership MFD must only be installed and wired up by trained electricians or other persons familiar with the installation of electrical equipment A specialist knowledge of electrical engineering is needed for commissioning and creating circuit diagrams When controlling active components such as motors or pressure cylinders parts of the system can be damaged and persons put at risk if MFD is connected or programmed incorrectly Proper use MED is a programmable device that provides HMI switching closed loop and open loop control functions and can be used to replace relay and contactor controls as well as being used as an MFD device MFD must be properly installed before use The display and operating unit of the MFD is protected to IP65 and does not normally require any special housing protection The rear MFD units are designed as mounting units and must be installed in an enclosure control cabinet or a servic
125. ation display and Status display close Terminal mode In visualization applications the operating unit can be used for other functions than the ones stated above In this case the buttons are assigned the function selected in the application The standard button functions are only restored when you leave the application 14 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 MFD operation Moving through menus and choosing values Show System menu Go to next menu level Select menu item Activate modify save your entry Return to last menu level Cancel your entry since the last OK AY Change menu item Change value lt gt Change place Function of P buttons lt Input P1 Input P2 gt Input P3 Y InputP4 Reset the MFD display 15 06 03 AWB2528 1480GB MFD Titan Selecting main and system menu Status display SET PEI Shani E R F D and GD Rio gy stor Hole 23rb A No password Yo Current selection FROGRAH SECURITY flashes in ETOF RUN SYSTEM the MFD menu FARAHETERS MEHU LANGUAGE SET CLOCK CONFIGURATOR 1st menu level 1st menu level Main menu System menu Date display Eb Er eee AE O m2 li 50 AEL STOR ete ps M d4 s STOF MFD Titan Status display Display operating mode Terminal Inp
126. card is empty or that the circuit diagram on the card contains function relays that MFD does not recognise The analog value comparator function block is only available on 24 V DC versions of MFD Programs with visualization components are only supported by the MFD If the memory card is password protected the password will also be transferred to the MFD memory and will be active immediately Deleting a circuit diagram on the card gt Select the DELETE CARD menu option gt Press OK to confirm the prompt and to delete the card content Press ESC to cancel Memory card compatibility of the programs Memory cards with programs are always read by MFD Titan devices with the newer higher operating system version The program is executable If programs are written with a newer operating system higher number on the memory card this program can only be read and executed by the same version or a higher one For Immediate Delivery call KMParts com at 866 595 9616 341 Inside MFD 06 03 AWB2528 1480GB EASY SOFT PRO EASY SOFT PRO is a PC program for creating testing and managing circuit diagrams for MFD gt You should only transfer data between the PC and MFD using the MFDPC interface cable which is available as accessory EASY800 PC CAB _ MED cannot exchange data with the PC while the circuit diagram display is on screen Use EASY SOFT PRO to transfer circuit diagrams from your PC to MFD
127. ccess enabled e Access disabled Contacts T 01Q1 to T 32Q1 Coils e TO1EN to T 32EN trigger coil e TO1RE to T 32RE reset coil e T 01ST to T 32ST stop coil Memory requirement of the timing relay The time relay function block requires 48 bytes of memory plus 4 bytes per constant on the function block input 252 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Retention Timing relays can be operated with retentive actual values The number of retentive timing relays can be selected in the SYSTEM gt gt RETENTION menu If a timing relay is retentive the actual value is retained when the operating mode changes from RUN to STOP as well as when the power supply is switched off If MFD is started in RUN mode the timing relay operates with the retentively saved actual value The state of the trigger pulse must correspond to the function of the timing relay 1 signal when e on delayed e single pulse e flashing 0 status for offdelayed Function of the timing relay function block Timing relay on delayed with and without random switching Random switching The contact of the timing relay switches randomly within the setpoint value range For Immediate Delivery call KMParts com at 866 595 9616 253 Wiring with MFD Titan 06 03 AWB2528 1480GB Figure 120 Signal diagram of timing relay on delayed with and without
128. ccur when the manual manipulated variable is transferred or deactivated gt If the function block is running in UNI unipolar mode a negative signed manipulated variable value will be output Signal smoothing filter MFD provides 32 signal smoothing filters FT01 to FT32 The function block allows you to smooth noisy input signals For Immediate Delivery call KMParts com at 866 595 9616 211 Wiring with MFD Titan FTi1 I T KF BM 06 03 AWB2528 1480GB Wiring a signal smoothing filter You can integrate a signal smoothing filter into your circuit as a coil M4 i FTI1EN Figure 100 MFD Titan circuit diagram with smoothing function block Parameter display and parameter set for the FT function block FTi1 FT PT1 signal smoothing filter function block number 17 Appears in the parameter display i Input value TG Recovery time KF Proportional gain Gh Output value smoothed The recovery time Tg is the time in which the output value is calculated The recovery time Tg must be set so that it is an integer multiple of the cycle time or controller scan time Tc Inputs The function block inputs 11 12 and KF can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1A04 1A01 terminal 17 1A02 terminal 18 A03 terminal 111 1A04 terminal 112 e Analog output QA01
129. cimal value QV gt 9099 Bit 32 is the sign bit Bit 32 1 gt Sign Minus Example 6 Input value gt I1 2 147 483647 dec Binary value 01111111111111111111111111111111 Decimal value QV gt 9999999 Values greater than 161061273 are output as 9999999 Values less than 161 061273 are output as 9999 999 The working range of the function block has been exceeded BIN mode The decimal value is assigned to input I 1 The decimal value is represented as a BCD coded value The BCD coded value is interpreted as a hexadecimal value and output as a decimal value at output QV gt For Immediate Delivery call KMParts com at 866 595 9616 237 Wiring with MFD Titan 06 03 AWB2528 1480GB Example 1 Input value gt 11 7 dec BCD binary value 0111 Hexadecimal value 0111 Decimal value QV gt 7 Example 2 Input value gt 11 11 dec BCD binary value 00010001 Hexadecimal value 00010001 Decimal value QV gt 17 1 16 Hexadecimal value Bit 0 has the value 1 Bit 4 has the value 16 Total Bit 0 plus Bit 4 17 Example 3 Input value gt 11 19 dec BCD binary value 0001 1001 Hexadecimal value 0001 1001 Decimal value QV gt 25 1 8 16 Example 4 Input value gt 11 9999 999 gec BCD binary value 1001 1001 1001 1001 1001 10011001 Hexadecimal value 1001 1001 1001 1001 1001 1001 1001 Decimal value QV gt 161061273 Example 5 Input value gt 11 61673 ec BCD binary value 1
130. cross section in mm2 Pcu resistivity of copper if not otherwise stated 0 018 Qmm2 m LX pu 12 4 Smin If the result of the calculation does not yield a standard cross section the next larger cross section is used 68 Installation 06 03 AWB2528 1480GB Calculating length with known cable cross section The maximum cable lengths are calculated for a known conductor cross section Imax Cable length in m S minimum cable cross section in mm2 Pc resistivity of copper if not otherwise stated 0 018 Qmm2 m S X 12 4 max Pcu Plugging and unplugging network cables MFD Titan is provided with two RJ45 network sockets The socket 1 in the first station is for the bus terminating resistor For other stations socket 1 is used for plugging in the incoming cable Socket 2 is used for the outgoing cable or for the bus termination resistor on the last physical station in the network For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting the NET network N 0 0 A 3 ae G AS nterface BE 1 12 R1 12 Q1 6 51 6 1 I i i L I 1 i i 11 12 Y 0 8 0 N Owa Figure 46 Bus termination resistors
131. ction Impulse relay F The relay coil switches whenever the input signal changes from 0 to 1 The relay behaves like a bistable flip flop Figure 77 Signal diagram of impulse relay 144 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Working with contacts and relays A coil is automatically switched off if the power fails and if STOP mode is active Exception Retentive coils retain signal 1 see gt Section Retention Page 316 Set and Reset F coil function The Set and Reset F coil functions are normally used in pairs The relay picks up when the coil is set A and remains in this state until it is reset B by the coil function The supply voltage is switched off C the coil does not have a retentive effect Ea ee a a Figure 78 Signal diagram of Set and Reset If both coils are triggered at the same time priority is given to the coil in the circuit diagram with the higher circuit connection number This is shown in the above signal diagram in section B Figure 79 Simultaneous triggering of amp 04 In the example above the reset coil has priority with simultaneous triggering of the set and reset coils For Immediate Delivery call KMParts com at 866 595 9616 145 Wiring with MFD Titan 06 03 AWB2528 1480GB Coil negation inverse contactor function
132. cuit diagram Toggle between break and make contact Connect contacts and relays Add circuit connections v Change values C ursor up down lt gt lt gt Change place 00 Cursor left right Cursor buttons set as P buttons lt InputP1 InputP2 gt InputP3 Y InputP4 Undo setting from previous OK Exit current display or menu Change add contact relay Save setting Terminal mode on off For Immediate Delivery call KMParts com at 866 595 9616 111 Wiring with MFD Titan 06 03 AWB2528 1480GB Operating principles The cursor buttons in the MFD Titan circuit diagram perform three functions The current mode is indicated by the appearance of the flashing cursor e Move e Entering Connect p In Move mode you can use v lt gt to move the cursor around the circuit diagram in order to select a circuit connection contact or relay coil Use OK to switch to Entry mode so that you can enter or change a value at the current cursor position If you press ESC in Entry mode MFD Titan will undo the most recent changes I Press ALT to switch to Connect mode for wiring contacts and relays Press ALT again to return to Move Press ESC to leave the circuit diagram and parameter display MFD Titan performs many of these cursor movements automatically For example MFD Titan switches the cursor to Move mode if no further entries or connections are possible at the selected cursor position
133. d gt Press DEL and ALT to call up the System menu gt Select MENU LANGUAGE to change the menu language The language selection for the first entry ENGLISH is EMGLI H displayed DEUTSCH FRANCAIS gt Use or v to select the new menu language e g Italian ESPANOL i ENO ITALIANG gt Confirm with OK ITALIANO is assigned a tick PORTUGUES gt Exit the menu with ESC HEDERLAND SVENSKA POLSKI TURKCE 302 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB SICUREZZA SISTEMA CONFIGURATORE Changing parameters MFD will now show the new menu language Press ESC to return to the Status display Changing parameters 1 RUN MFD allows you to change function relay parameters such as timing relay setpoint values and counter setpoints without having to call up the circuit diagram This is possible regardless of whether MFD is running a program or is in STOP mode gt Press OK to switch to the main menu gt Start the parameter display by selecting PARAMETERS All function blocks are displayed as a list The following preconditions must be fulfilled in order for a parameter set to be displayed e A function relay must have been included in the circuit diagram e The PARAMETERS menu must be available e The parameter set must have been enabled for access indicated by the character at the bottom right of the display
134. d 337 EASY SOFT PRO 342 Device version 344 Appendix 345 Technical data 345 General 345 CPU real time clock timing relay memory 353 Transistor outputs 360 Analog output 363 easy NET network 364 List of the function blocks 366 Function blocks 366 Function block coils 367 Function block output operands 370 Other operands 370 Memory requirement 371 Index 373 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB About This Manual This manual describes the installation commissioning and programming circuit diagram generation of the MFD Titan control relay A specialist knowledge of electrical engineering is needed for commissioning and creating circuit diagrams When active components such as motors or pressure cylinders are controlled parts of the system can be damaged and persons put at risk if the MFD device is connected or programmed incorrectly Device designation This manual uses the following abbreviated designations for different device models e MFD Titan e MFD Writing conventions Symbols used in this manual have the following meanings gt Indicates actions to be taken Attention Warns of the possibility of light damage Caution Warns of the possibility of serious damage and slight injury Warning Warns of the possibility of substantial damage serious injury or death gt e lt For Immediate Delivery call KMP
135. d has not yet been considered The password is now valid but not yet activated Selecting the scope of the password gt Press the OK button gt Select the function to be protected or the menu gt Press the OK button in order to protect the function or menu tick protected Standard protection encompasses the programs and circuit diagram At least one function or menu must be protected e CIRCUIT DIAGRAM The password is effective on the program with circuit diagram and non enabled function blocks e PARAMETERS The PARAMETERS menu is protected e TIME Date and time are protected with the password e OPERATING MODE The toggling of the RUN or STOP operating mode is protected e INTERFACE The interface is inhibited for access to a connected device Programs or commands to other devices connected via the NET network are routed further e DELETE FUNCTION After four failed attempts to enter a password the DELETE FUNCTION prompt appears This prompt is not displayed if selected However it is no longer possible to make changes in protected areas if you forget the password For Immediate Delivery call KMParts com at 866 595 9616 297 MED Settings CHANGE FW ACTIVATE 06 03 AWB2528 1480GB Activating the password You can activate an existing password in three different ways e automatically when MFD is switched on again e automatically after a protected circuit diagram is loaded e
136. d not the change in the control difference This is shown in the following equation Yp t Kp X TuTo X Xi t 1 Xi t Kp proportional gain Te Scan time Ty Differential time of the control system also called the rate time 210 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Xi t Actual value with scan time t Xj t 1 Actual value with scan time t 1 Scan time Te Scan time Te determines the duration of the interval in which the function block is called by the operating system for processing The value range is between 0 and 6553 5 s If the value 0 is set the cycle time of the device is the pause time between the function block calls _ gt The device cycle time varies according to the length of the program With a scan time of 0 s this may cause an irregular control response Use the Set cycle time function block gt page 247 in order to keep the cycle time of the device constant Manual mode of the PID controller A value must be present at the M4 input in order to set the manipulated variable directly If the coil DC SE is activated the value at M4 is transferred as manipulated variable iM This value is present for as long as the DC SE coil is activated or the value at the M4 input is changed If coil DC SE is deactivated the control algorithm is reactivated Extreme changes in the manipulated variable can o
137. defines which hardware can use the bus next e Multicast broadcast messaging with receiver side message filtering e High level of real time capability short reaction time for high priority messages short fault message get times e Functionality in environments with severe interference short block lengths e High level of error security For Immediate Delivery call KMParts com at 866 595 9616 271 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection gt CAN has been used as the basis for the design of the easy NET network The messages have been adapted and optimised to suit the requirements of the MFD Titan environment easy NET network The easy NET allows the configuration of a line topology topologies addressing There are two wiring methods which can be used for the and functions required addressing options e Loop through the unit wiring arrangement e Wiring arrangement using a T connector and a spur line Loop through the unit wiring method With this wiring method it is possible to implement the addressing of the stations via station 1 or the EASY SOFT PRO If the line is interrupted the network is no longer operational from this point in the network T connector and spur line Each device must be addressed individually with this wiring method by e Downloading the program e Downloading the address with EASY SOFT PRO e Using the display or e The device is already
138. e Day Month Year DD MM YY Example 11 11 02 On off switch points ON switch on time OFF switch off time The switch on year must not be later than the switch off year Otherwise the year time switch will not function Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled 222 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Contacts HY01Q1 to HY32Q1 Memory requirement for the year time switch The year time switch function block requires 68 bytes of memory plus 4 bytes per channel used Function of the year time switch function block The year time switch can operate with ranges individual days months years or combinations Years ON 2002 to OFF 2010 means Switch on at 00 00 on 01 01 2002 and switch off at 00 00 01 01 2010 Months ON 04 to OFF 10 means Switch on at 00 00 on 1st April and switch off at 00 00 on 1st October Days ON 02 to OFF 25 means Switch on at 00 00 on the 2nd and switch off at 00 00 on the 25th Rules for the year time switch The contact switches in the defined years ON to OFF the defined months ON to OFF and in the days entered ON to OFF Time ranges must be input with two channels one for ON and one for OFF Overlapping channels The first ON date switches on and the first OFF date switches off Avoid incomplete entries It hinders transparency and leads to unwanted
139. e 0 eeeeeeeeeeees 290 Sign of life detection ccscscseeseseseseees 291 Connecting the brightness sensor n 55 Connecting transistor OUTPUTS s s s 60 Connection 2O MA SENSO civiscsccrsiies desea teccanthaa ani 55 Amal0g inputs eaa 54 Analog output sesebitan 62 Brightness Sensor sssssssississiesissiesrerrenrerrerree 55 Contactors Telis ooicnosonodunonoia 58 Frequency generator eseese 57 High speed counters ceeseseeeeeeeeteeeees 57 Incremental encoder sses 57 MFD DC Inputs reiii eaaa 53 NET network iiaea aa 64 QUIDUTS inaa a tren Ras lea ter 58 Proximity SWITCH c ceeseseeseseteteteteteteeeteeeees 53 Pushbutton actuators switches 50 53 Relay OUtDUtS n 59 Serial interfaces sasrvsn cha deta ceutinean caen 69 Setpoint potentiometer s s s 55 Temperature Sensor seeren 55 Transistor OUtPUtS eceeeceseseseeeteeseseeeeeeees 60 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Index Connection cross sections MED Cables 2 achtuvrndt an idiearvienad ie 45 Screw terminals s es 45 Contact tields aie daha a ete ea os 126 Counter relayiawicadcocacanacawanaden 178 195 ParaMeCters sogin oana 190 196 Counter relays ParametefS iposi 186 Counters High Speed s svisscsstienssdtevesssenveniane 57 189 High speed incremental encoder 195 Cursor display E EA 26 112 Cyd sav naa 323 Data CONSISTENCY eceseececeeceeeseseeeteeeeetetaeeeees
140. e Actual value QV gt of another function block 212 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Output The function block output amp can be assigned the following operands e Markers MD MW MB e Analog output QA01 Value range for inputs and outputs Value range Resolution unit HI Input value of the function 32 768 to 32 767 block TG Recovery time Tg 0 to 65535 in 100 ms KF Proportional gain Kp 0 to 65535 in BM Output value 32 768 to 32 767 Example Value at input Value processed in the function block TG Recovery time Tg 250 255s KF Proportional gain Kp 1500 15 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Coil FTO1EN to FT32EN function block enable Memory requirement of the FT function block The FT function block requires 56 bytes of memory plus 4 bytes per constant on the function block input For Immediate Delivery call KMParts com at 866 595 9616 213 Wiring with MFD Titan 06 03 AWB2528 1480GB Function of the signal smoothing filter function block gt The signal smoothing filter must be enabled so that it can work Coil FT EN is active If coil FT EN is not active the entire function block is deactivated and reset The output value is set to zero If the function block is called for the first time the output value is initialised with the input
141. e Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Memory requirement of the 7 day time switch The 7 day time switch function block requires 68 bytes of memory plus 4 bytes per channel used Function of the 7 day time switch The switching points are defined according to the parameters entered MO to FR on the weekdays Mo Tu We Th Fr ON 10 00 OFF 18 00 on and off switching times for the individual days of the week MO every Monday ON 10 00 switch on time SA every Saturday OFF 18 00 switch off time Switching on working days Time switch HW01 switches on Monday to Friday between 6 30 and 9 30 and between 17 00 and 22 30 HWOi A Huli E royi M POY MO POY FR POY FR POM 06 40 ON 17 00 POFF 09 40 POFF d2 40 06 03 AWB2528 1480GB Function blocks Switching at the weekend Time switch HW02 switches on at 16 00 on Friday and switches off at 6 00 on Monday Huo A POY FR DYE OFF POM 16 00 HWD E rovi MO rovg TON POFF 06 00 FR SA SU MO Figure 104 Signal diagram of weekend Overnight switching Time switch HW03 switches on overnight at 22 00 Monday and switches off at 6 00 on Tuesday HWoi C POY MO roye POM 2 00 POFF 06 00 MO TU Doj 7 Figure 105 Signal diagram for night switching If the Off time is before the On time MFD will switch off on the following day For Immediate Deli
142. e Range B Compare 11 lt 1e The actual value drops The contact switches if the actual reaches the setpoint value The actual value changes and rises above the value of the setpoint value plus hysteresis The contact goes to the normal position e Range C Compare 11 gt 12 with offset This example behaves as described in Range A The offset value is added to the actual value e Comparison 11 I The contact switches on If the setpoint is exceeded with the actual value rising If the setpoint is undershot with the actual value decreasing The contact switches off If the hysteresis limit is exceeded with the actual value rising If the hysteresis limit is undershot with the actual value decreasing Arithmetic function block MFD Titan provides 32 arithmetic function blocks ARO1 to AR32 The arithmetic function block is used for arithmetic operations All four basic arithmetic operations are supported e add e subtract e multiply e divide For Immediate Delivery call KMParts com at 866 595 9616 153 Wiring with MFD Titan ARJ ADD I tI BM 06 03 AWB2528 1480GB Inputs The function block inputs 11 and I can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1A04 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another
143. e can be specified via station 1 Station message types The easy NET network recognises various message types They are e Output data of station 1 Q S which is sent to stations without programs e Network outputs and inputs sent and received between stations with programs SN RN e Data sent and received via the network between stations with programs PT and GT function blocks e Inputs outputs station status l R Q S transfers e Loading programs to and from every station The easy NET network is based on a CAN Controller Area Network system Each message type has its own ID The message priority is determined via the respective ID This is important in transmission borderline cases to ensure that all messages reach their destination Transfer behaviour Network CPU data transfer to program image The MFD Titan network connection is equipped with its own CPU Network data can therefore be processed whilst the program is running After each program cycle the status of For Immediate Delivery call KMParts com at 866 595 9616 281 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection the network data is written to the operand image of the program and the send data is read from the image The program runs through the next cycle with this data Reading and sending the network data from the CPU The network CPU of the station reads every message on the network If the message is relevant to the
144. e distribution board Both the power feed and the signal terminals must be laid and covered so as to prevent accidental contact The installation must comply with regulations for electromagnetic compatibility EMC The power up of the MFD must not cause any hazards arising from activated devices such as unexpected motor startups or power ups Improper use MFD should not be used as a substitute for safety related controls such as burner or crane controls emergency stop or two hand safety controls For Immediate Delivery call KMParts com at 866 595 9616 9 MFD Titan 06 03 AWB2528 1480GB Overview MFD Titan is an electronic HMI unit and control relay with the following features e Logic functions e Timing relay and counter functions e Time switch functions e Arithmetic functions e PID controllers e Operator and display functions MFD Titan is a display HMI control and input device in one With MFD Titan you can create solutions for domestic applications as well as for tasks in machine and plant construction MFD Titan is a modular and flexible device The integral easy NET network enables the connection of up to eight easy NET stations to form a single control system Each easy NET station can contain a program This allows the design of systems using high speed controllers with decentralised intelligence In Terminal mode the MFD can be used to control any device in the network and display data from i
145. e marker double words MD16 to MD18 The entire data exchange range available is the marker range MD01 to MD20 of the remote station The active station accesses these markers with 1MD The indicates the number of the marker concerned The smallest possible unit for defining a marker range is an MD marker double word Example The read range of the active station is 1MD02 The write range of the active station is 1MD03 The read range of the remote station is therefore MDO3 The write range of the remote station is MD02 For Immediate Delivery call KMParts com at 866 595 9616 291 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection Operating principle of the COM LINK connection The active station at the COM LINK must be in RUN mode Data can only be exchanged with the active station in RUN mode The remote station must be in RUN or STOP mode The active station scans the remote station The entire READ marker range is transferred as a string The entire WRITE marker range is transferred as a string Data consistency The data is located in the image range data range storing the marker states of the active station 1MD as well as in the image range of the remote station MD Each station writes data to its own image range asynchronously for data communication As the serial interface transfers large data volumes slower than the devices overwrite the image ranges the following applie
146. e of the function block the number and the contact function Contact name Example contact of comparator function block Contact number Contact function g FH 0 a If the contact on a network station is used the address of the station is placed before the contact name T Station address Example contact of an easy NET station Contact nam Contact number i 0 y Coils With a relay coil or function block select the coil function coil or function block name coil or function block number as well gt are Epil fune as coil of the function block With coils of an easy NET Coil 4 network station the network address is selected before the coil name Coil number Example relay coil output T i YEN Relay coil for timing relay function block with control coil Coil a Coil Coil number Function block coil S2SND4 Relay coil of an easy NET station Coil function Station address Coil name Coil number gt A full list of all the contacts and relays is given in the overview starting on Page 114 For Immediate Delivery call KMParts com at 866 595 9616 129 Wiring with MFD Titan 06 03 AWB2528 1480GB 4 Values for contacts and coil fields are changed in Entry mode The value to be changed flashes MFD Titan proposes the contact I D orthe coil t amp 14 when starting entries in an empty field gt Move the cursor using the lt gt buttons to a contact or coil field gt Press OK to
147. e to electromagnetic interference Select 9600 baud as the baud rate If this is not satisfactory the connection cable must be laid in a different location gt Press the OK button Select 19200 baud as the baud rate gt Press the v or button gt Confirm with the OK button Switch on the COM connection The COM LINK must only be switched at the active station Two devices with COM LINK switched on cannot communicate with each other gt Press the v button gt Press the OK button The tick on the COM LINK menu item indicates that COM LINK has been selected No tick means that COM LINK has not been selected The following applies to the active station If you wish to run data transfers between the two devices in both directions you must select the marker range on the active station 98 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB BAUDRATE 142006 CON LINE i REMOTE MARKER READ WRITE MOM iMDO0 MOOD iMDO0 For Immediate Delivery call KMParts com at 866 595 9616 99 _ Configuring the interface for the COM LINK mode gt Select the REMOTE MARKER menu item The following selection will only be displayed if the COM LINK menu item has been ticked gt Press the OK button The data is physically located in the second station i e the remote station The active station reads and writes data from and to the ma
148. ean sequence Value 11 13219dec 001100111010001 1 bin Value Te 57 193dec 110111110110 1001 bin Result QV gt 4897 dec 0001 001100100001pin OR Boolean sequence Value 11 13219dec 001100111010001 1 bin Value Te 57 193dec 110111110110 1001 bin Result QV gt 65515dec 111111111110101 1pin XOR Boolean sequence Value 11 13219dec 001100111010001 1 bin Value I f 57 193dec 1101111101101001pin Result QV gt 606 18gec 111011001100 1010bin For Immediate Delivery call KMParts com at 866 595 9616 177 Wiring with MFD Titan 06 03 AWB2528 1480GB NOT Boolean sequence Value 11 13219dec 000000000000000000110011 1010001 Ipin Value I Omitted Result QV gt 13220dec 1111111111111111110011000101 1100pin The NOT sequence operates according to the following rules 11 positive value Negate value of I 1 and subtract 1 pI 1 318 I1 Negative value Value of I1 and subtract 1 pTdj 1 318 Counters MFD Titan provides 32 up down counters from C 01 to C 32 The counter relays allow you to count events You can enter upper and lower threshold values as comparison values The contacts will switch according to the actual value To specify a start value for example counting from the value 1 200 n this can be implemented using a C counter The C counters are cycle time dependent Wiring of a counter You integrate a counter into your circuit in the form of a contact
149. ebounce If a tick s is set beside DEBOUNCE the input delay is set If this is not so proceed as follows gt Select DEBQUNCE and press OK Debounce mode will be activated and the display will show DEBOUNCE i Press ESC to return to the Status display Deactivating debounce input delay If MFD is showing DEBOUHICE in the display this means that Debounce mode has already been deactivated gt Otherwise select DEEQUMCE 4 and press OK Debounce mode will be deactivated and the display will show DEBOUMCE For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Activating and deactivating the P buttons How MFD input and output signals are processed internally is explained in Section Delay times for inputs and outputs from Page 328 Activating and deactivating the P buttons Es DEBOUNC CARO MODE DEBOUNCE RUN MO CARD MODE DE DEBOUNCE lt CARD MODE Even though the cursor buttons P buttons have been set as pushbutton actuator inputs in the circuit diagram this function is not activated automatically This prevents any unauthorised use of the cursor buttons The P buttons can be activated in the System menu If MFD is password protected you cannot open the System menu until you have unlocked it The P buttons are activated and deactivated via the P BUTTONS menu gt Press DEL and
150. ed greater than or equal to Coils e OTO1EN to OTO4EN enable coil e OTO1RE to OTOARE reset coil For Immediate Delivery call KMParts com at 866 595 9616 239 Wiring with MFD Titan 06 03 AWB2528 1480GB Memory requirement of the operating hours counter The operating hours counter function block requires 36 bytes of memory plus 4 bytes per constant on the function block input Function of the operating hours counter function block If the enable coil OT EN is triggered to the 1 state the counter adds the value 1 to its actual value every minute basic clock rate 1 minute If the actual value on QV gt reaches the setpoint value of gt 11 the contact OT Q1 switches for as long as the actual value is greater than or equal to the setpoint value The actual value is retained in the unit until the Reset coil OT RE is actuated The actual value is then set to zero gt Operating mode change RUN STOP Voltage On Off Delete program Change program Load new program All these actions do not delete the actual value of the operating hours counter Accuracy The operating hours counter is accurate to the nearest minute If the enable coil signal is terminated within a minute the value for seconds is lost PUT send a value onto the network The function block allows you to selectively send a 32 bit value onto the network The PUT function block provides data on the easy NET that another station indicates it req
151. een a make and break contact by pressing the ALT button The wiring arrow works between contacts and relays When you move the arrow onto a contact or relay coil it changes back to the cursor and can be reactivated with ALT if required MFD automatically wires adjacent contacts in a circuit connection up to the coil gt Press ALT to wire the cursor from I D2 through to the coil field The cursor changes into a flashing wiring arrow and automatically jumps to the next possible wiring position gt Press the cursor button gt Contact I 02 will be connected up to the coil field You can use DEL to erase a connection at the cursor or arrow position Where connections intersect the vertical connections are deleted first then if you press DEL again the horizontal connections are deleted 84 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Creating your first circuit diagram gt Press the cursor button gt again The cursor will move to the coil field gt Press OK MFD inserts the relay coil 01 The specified coil function T and the output relay amp 01 are correct and do not have to be changed L 1 0 4 B 1444 Your first working MFD circuit diagram now looks like this I Ii I ran L 4 C 1 Bs 1944 Figure 54 Your first circuit diagram visible area gt Press ESC to leave the circuit diagram display The SAVE
152. ely to show the switching state of the inputs and I F outputs It also indicates whether the MFD is already running MO D2 00 a program Note If another display is visible a visualization CERE STOP mask is shown The examples were written without the use of expansion units If an expansion unit is connected the Status display will first show the status of the basic unit and then the status of the expansion unit before showing the first selection menu gt Press OK to switch to the main menu STOF J RUN Press OK to switch to the next menu level and press ESC to FARAME TERS move one level back SET CLOCK gt OK has two other functions e Press OK to save modified settings e In the circuit diagram you can also press OK to insert and modify contacts and relay coils In this case MFD must be in STOP mode gt Press OK 2 x to enter the circuit diagram display via menu items PROGRAM gt PROGRAM This is where you will create the circuit diagram hae io FUNCTION RELA For Immediate Delivery call KMParts com at 866 595 9616 81 Commissioning 06 03 AWB2528 1480GB Circuit diagram display The circuit diagram display is currently empty The cursor flashes at the top left which is where you will start to create your diagram The location of the cursor is indicated in the status line L Circuit connection line C Contact or coil contact
153. er supply CPU module can be removed with or without the I O module gt If there is another fixing point for the top hat rail apart from the one for the display operating unit undo it Use a screwdriver with a 100 x 3 5 mm slot width gt Insert the screwdriver into the lug of the fixing shaft catch 40 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Mounting gt Lever out the slide catch gt Pull out the power supply CPU module from the fixing shafts Mounting on top hat rail The power supply CPU module can be mounted on a top hat rail without the display operating unit The fastening catches must be removed in order to mount the device on a fastened top hat rail gt Remove the spring with a screwdriver For Immediate Delivery call KMParts com at 866 595 9616 4 Installation 06 03 AWB2528 1480GB gt Pull the slide catch out of the guide and remove it gt Hook the MFD to the top edge of the top hat rail and hinge into place while pressing down slightly gt Press down lightly on both the device and the top hat rail until the unit sn
154. erminal cables 45 Tool for slot head screws for easy expansion unit 45 Connection cross sections of screw terminal cables 45 Connecting the power supply 46 Cable protection 48 1 Contents 06 03 AWB2528 1480GB Connecting the inputs 49 Connecting easy AC inputs 49 Connecting MFD DC inputs 53 Connecting the outputs 58 Connecting relay outputs 59 MFD R 59 EASY6 RE 59 EASY2 RE 60 Connecting transistor outputs 60 MFD T 60 EASY6 DC TE 61 Connecting analog outputs 63 Connecting servo valves 63 Setpoint entry for a drive 64 Connecting the NET network 64 Accessories 64 Cable length and cross sections 66 Plugging and unplugging network cables 68 Connecting the serial interface 70 Expanding inputs outputs 73 Local expansion 73 Commissioning 77 Switching on 77 Setting the menu language 77 MFD operating modes 78 Creating your first circuit diagram 79 Testing the circuit diagram 86 Fast circuit diagram entry 89 Configuring an easy NET network 90 Entering the network station number 91 Changing the easy NET network configuration 94 Displaying the Status display of other stations 94 Configuring the interface for the COM LINK mode 96 Setting up the COM LINK 97 Terminal mode 101 Terminal mode 101 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Contents 4 Wiring with MFD Titan MFD Titan
155. erter function block requires 32 bytes of memory plus 4 bytes per constant on the function block input Function of the numerical converter function block The numerical converter function block must be enabled so that it can work Coil NC EN is active If coil NC EN is not active the entire function block is deactivated and reset The output value is set to zero BCD mode The BCD value at I is provided in decimal format at the input The binary value is formed from this The binary value is interpreted as a BCD value Values greater than 9 1001 are set to the value 9 The BCD value is output as a decimal value at the output QV gt Example 1 Input value gt 11 9dec Binary value 1001 Decimal value QV gt 9 Example 2 Input value gt I1 14dec Binary value 1110 Decimal value QV gt 9 236 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks The highest binary value represented in BCD is 1001 9 All other higher binary values from 1010 to 1111 are output as 9 This behaviour is correct as BCD encoders normally don t generate these values Example 3 Input value gt I1 19 dec Binary value 00010011 Decimal value QV gt 13 Example 4 Input value gt I1 161061273 gec Binary value 1001 10011001 10011001 1001 1001 Decimal value QV gt 9999999 Example 5 Input value gt 1 61 673 dec Binary value 10000000000000001111000011101001 De
156. es to positive and negative hysteresis Inputs The function block inputs 14 2F1 12 F 2 05 and H can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to IA04 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block For Immediate Delivery call KMParts com at 866 595 9616 151 Wiring with MFD Titan 06 03 AWB2528 1480GB Analog value comparator operating modes Parameter Function GT 11 greater than rie E Ii equal to 18 LT 11 less than I Contacts A 01Q1 to A 32Q1 Memory requirement of the analog value comparator The analog value comparator function block requires 68 bytes of memory plus 4 bytes per constant on the function block inputs Figure 84 Signal diagram of the analog value comparator 1 actual value on 11 2 setpoint value on 12 3 hysteresis on H 4 switching contact make contact 5 offset for value I i 152 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks 6 actual value plus offset e Range A Compare I1 gt Te The actual value 14 increases The contact switches when the actual reaches the setpoint value The actual value changes and falls below the value of the setpoint value minus the hysteresis The contact goes to the normal position
157. estores oaee 45 Time switch 24 hour SWitChING eosotosoconesoronoa 221 Overnight switching c ccscsseeeeeeeees 219 POWer TallUTe siscsecesscrectensesent atti tees 220 Switching at the weekend uu 219 Switching on working days sseeeeees 218 Time OVEr ADS ketera 220 Timing relay On delayed c cccssseeeeeeeeeeeees 244 253 Operating MJES ooosorcsoionoruronon 250 WINING a tania 249 Tool for cage clamp terminals cccccceseseseeees 45 Tool for easy expansion unit cceeeeseseeeeseeees 45 Two wire proximity switches ccceeeteeteeeees 51 Visualization data Odd a oiwviiaiinnnin ities 325 Weekday setting ecccsseceeeteeeeeeeeeteeeeeens 305 Wiring Backwards iienaa 326 Deleting ciininncasncacnaanananaanane 84 ENGNG ttre vdnokduahdnnidhaudne tae 84 Relay Coils Wiiwichaccasassancadacadan 144 RULES iarainn anea anien anaa 144 For Immediate Delivery call KMParts com at 866 595 9616 381 Moeller GmbH Industrieautomation Hein Moeller StraBe 7 11 D 53115 Bonn E Mail info moeller net Internet www moeller net 2003 by Moeller GmbH Subject to alteration AWB2528 1480GB IM D IM D xx 06 03 Printed in the Federal Republic of Germany 09 03 Article No 267188 4 015082 671884 MoE LER Think future Switch to green
158. exts by pushbutton process additional inputs and outputs use 7 day and year time switches count operating hours operating hours counter communicate via the integrated easy NET network set up point to point communication via the serial interface provide closed loop control with P PI and PID controllers scale arithmetic values output manipulated variables as pulse width modulated signals run arithmetic functions add subtract MFD Titan 06 03 AWB2528 1480GB multiply divide e track the flow of current in the circuit diagram e load save and password protect circuit diagrams If you prefer to wire up MFD Titan from a PC then use EASY SOFT PRO EASY SOFT PRO allows you to create and test your circuit diagram on the PC All display and operator functions on the MFD device are created exclusively using the EASY SOFT PRO software EASY SOFT PRO is also used to print out your circuit diagram in DIN ANSI or easy format Device overview MFD devices at a glance Display and operating unit 0 cea cou 00000 Figure 1 Overview of the display and operating unit DEL button Graphic display ALT button LEDs for signalling Mode button Right down cursor buttons OK button Left up cursor buttons ESC button 12 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Device overview
159. first contact through to the last coil If you use the first option you will have to select some of the elements in order to create and connect up your circuit diagram The second faster option is what you learned in the example In this case you create the entire circuit connection from left to right Commissioning 06 03 AWB2528 1480GB Configuring an easy NET If you want to work with the easy NET network and network communicate with several stations the network must be configured first Proceed as follows gt Connect all network stations easy NET socket 2 to easy NET socket 1v4 gt The first station 1 socket 14 and the last station socket 2 must be provided with a network termination resistor 1 gt Connect all stations to the power supply Figure 60 Example topology with two easy NET stations Network termination resistor Physical location C Station number gt Switch on the power supply on all stations gt Ensure that all stations have a power supply The POW LED must light up or flash It is only possible to configure the stations which are supplied with voltage 90 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB HENU LANGUAGE CONFIGURATOR LILA gt STATIONS CON
160. for inputs and outputs Value range Input value 2 147483 648 to 2 147483647 23H Upper limit value PSL Lower limit value GS Output value Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Coil VCO1EN to VC32EN function block enable For Immediate Delivery call KMParts com at 866 595 9616 263 Wiring with MFD Titan 06 03 AWB2528 1480GB Memory requirement of the value limitation function block The value limitation function block requires 40 bytes of memory plus 4 bytes per constant on the function block input Function of the value limitation function block The function block must be enabled so that it can work Coil VC EN is active If coil VC EN is not active the entire function block is deactivated and reset The output value is set to zero The value is accepted at input VC 11 if the enable coil is active If the value is greater than the upper limit value or less than the lower limit value the respective limit value is output at VC QV Example with timing relay and counter function block A warning light flashes when the counter reaches 10 In the example both function blocks C 01 and T 01 are wired Counter 2s Value 10 Figure 131 Hardwiring with relays 264 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks
161. function is useful for example in order to ensure a clean switching signal despite contact bounce S1 QVOLOVG wv i Figure 142 MFD input assigned a switch 328 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Delay times for inputs and outputs Delay times for the MFD inputs The delay time for DC signals is 20 ms a A Figure 143 Delay times for MFD DC An input signal 1 must therefore be 15 V or 8 V DA for at least 20 ms on the input terminal before the switch contact will change from 0 to 1 A If applicable this time must also include the cycle time B since MFD does not detect the signal until the start of a cycle The same debounce delay C applies when the signal drops out from 1 to 0 If you use high speed counter function blocks the debounce delay time for the inputs is 0 025 ms Otherwise it is not possible to count high speed signals If the debounce is switched off MFD responds to an input signal after just 0 25 ms A C Figure 144 Switching behaviour with input debounce disabled For Immediate Delivery call KMParts com at 866 595 9616 330 Inside MFD 06 03 AWB2528 1480GB Typical delay times with the debounce delay disabled are e On delay for 11 to 14 0 025 ms 15 to 112 0 25 ms e Off delay for 11 to 14 0 025 ms 15 I6 and 19 to 110 0 4 ms 17 18 111 and 112 0 2 ms Ensure that input sig
162. functions For Immediate Delivery call KMParts com at 866 595 9616 223 Wiring with MFD Titan Hii A ON 02 OFF 15 Hii A PON 13 OFF 01 Hii A ON Di OFF 2B Hii A SON 25 18 OFF 2b 12 06 03 AWB2528 1480GB Example 1 Year range selection The year time switch HY01 should switch on at 00 00 on January 1 2002 and remain on until 23 59 on 31 December 2005 Example 2 Month range selection The year time switch HY01 should switch on at 00 00 on 01st March and remain on until 23 59 on 30th September Example 3 Day range selection The year time switch HY01 should switch on at 00 00 on the 1st of each month and remain on until 23 59 on the 28th of each month Example 4 Holiday selection The year time switch HY01 should switch on at 00 00 on the 25 12 each year and remain on until 23 59 on 26 12 Christmas program Example 5 Time range selection The year time switch HY01 should switch on at 00 00 on 01 05 each year and remain on until 23 59 on the 31 10 Open air season HV A Hi E PON D105 0N OFF OFF 34 40 224 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Example 6 Overlapping ranges The year time switch HY01 The year time switch HY01 channel A switches on at channel B switches on at 00 00 on the 3rd of the 00 00 on t
163. g the DST setting These are subject to different legal requirements in the EU GB and USA gt The time change algorithm only applies to the northern hemisphere e NONE no daylight saving time setting e MANUAL a user defined date for the DST change e EU date defined by the European Union Commences last Sunday in March Ends last Sunday in October e GB date defined in Great Britain Commences last Sunday in March Ends fourth Sunday in October e US date defined in the United States of America Commences first Sunday in April Ends last Sunday in October The following applies to all DST variants Winter time gt Summer time On the day of conversion the clock moves forward one hour at 2 00 to 3 00 Summer time gt Winter time On the day of conversion the clock moves back one hour at 3 00 to 2 00 Select SET CLOCK from the main menu This will open the menu for setting the time gt Select the DST SETTING menu option 306 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Changing between winter summer time DST Selecting DST MFD shows you the options for the DST change The standard setting is NONE for automatic DST changeover Tick at NONE gt Select the required variant and press the OK button HOKE T MANUAL EU GE us Manual selection SUMMERTIME START CO MM 00 00 You want to enter your own date SUMMERTI
164. g with without retriggering trigger coil T EN stop coil T ST reset coil T RE switching contact make contact T Q1 t setpoint time e Range A The time elapses after the trigger coil is deactivated e Range B The Stop coil stops the time from elapsing e Range C The Reset coil resets the relay and the contact After the Reset coil drops out the relay continues to work normally e Range D The Reset coil resets the relay and the contact when the function block is timing out AA WwW Nc 256 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Figure 123 Signal diagram of timing relay on delayed with without random switching with without retriggering e Range E The Trigger coil drops out twice The set time t consists of t plus tz switch function not retriggerable e Range F The Trigger coil drops out twice The actual time ty is cleared and the set time ts elapses completely retriggerable switch function Timing relay on delayed and off delayed with and without random switching Time value gt I1 On delayed time Time value gt I2 Off delayed time Random switching The contact of the timing relay switches randomly within the setpoint value range For Immediate Delivery call KMParts com at 866 595 9616 257 Wiring with MFD Titan 06 03 AWB2528 1480GB
165. gt SV is converted to a pulse string with a constant period duration The pulse width is proportional to the manipulated variable gt SV The period duration and the minimum on duration can be selected as required within the specified limits The function block causes a direct output of the pulse to the corresponding output The output image of the circuit diagram is always updated The following applies if the output of a pulse width modulator is used as a coil in the circuit diagram The state of the output is not refreshed from the circuit diagram 244 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks The following applies to the minimum on duration e The minimum on duration is the same as the minimum off duration e The minimum on duration must not exceed 10 of the period duration The ratio of period duration minimum on duration P M determines which percentage of the manipulated variable has no effect The minimum on duration must be set as low as possible so that the P M ratio is as high as possible If the minimum on duration must not be too low due to the output relay the period duration must be increased accordingly e The smallest permissible minimum on duration must not be less than 100 us e f the actual value of the pulse length is less than the minimum on duration the minimum on duration has the effect of the pulse time Note the state of the
166. gure all easy NET stations again using the CONFIGURATION menu _ Further information concerning the easy NET network topic can be found in Chapter easy NET Network COM LINK Serial Connection Page 271 Displaying the Status display of other stations On every device with a display you can display the states of the inputs and outputs of each network station 94 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB TEES amonei I HTI F MO Db 42 TA aa eet RUM JI Teiss I NTI F MO Db 42 1 1 1 56 FUN IFiz Tecos I NTI OC F MO 06 45 J21 3 6 FUN gt Configuring an easy NET network gt Change to the Status display and press the ESC button The cursor changes to the display of the network station NT and flashes The station number is displayed in front of the inputs and outputs gt Change the number of the required station with the and v cursor buttons gt Press the OK button gt If you want to view the state of the inputs and outputs of a local expansion press the OK button If you press the ESC button again or the OK button the display of the input and output states of the station is terminated The station showing the status on its display cannot read its own data from the network Example NT3 flashes on station 3 The inputs and outputs 31 3R 3Q and 3S cannot be displayed If the NT3 display is not fla
167. h Commissioning 06 03 AWB2528 1480GB gt Press OK to confirm your choice and press ESC to exit the menu easy will then switch to the Status display Youcan change the language setting at a later date if you wish see gt Section Changing the menu language Page 302 If you do not set the language MFD will display this menu every time you switch on and wait for you to select a language MFD operating modes MFD operating modes RUN STOP and TERMINAL MODE In RUN mode the MFD continuously processes a stored program until you select STOP disconnect the power supply or switch to TERMINAL MODE The program parameters and the MFD settings are retained in the event of a power failure All you will have to do is reset the real time clock after the back up time has elapsed Circuit diagram entry is only possible in STOP mode Caution In RUN mode the MFD will immediately run the program saved in the unit when the power supply is switched on This will not happen if STOP or TERMINAL mode was set as startup mode In RUN mode outputs are activated according to the switch logic involved The following applies to devices without display operating unit e Memory card containing a valid circuit diagram must be fitted e Device must be switched on If the device has no program the program stored on the memory card is loaded automatically and the device immediately starts running the program in RUN
168. he period duration the minimum on time and the enabling of the parameter display Value and time ranges Parameter Value and time range Resolution ou 0 to 4095 1 digit Fo 0 to 65535 m ME 0 to 65535 ms The minimum time setting for the period duration is 0 005 s 5 ms Inputs The function block inputs 344 F and ME can be assigned the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 A01 terminal 17 A02 terminal 18 IA03 terminal 111 A04 terminal 112 For Immediate Delivery call KMParts com at 866 595 9616 243 Wiring with MFD Titan 06 03 AWB2528 1480GB e Analog output QA01 e Actual value QV gt of another function block Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts PWO1E1 to PWO2E1 the minimum on duration or the minimum off duration was undershot Coils PWO1EN to PWO2EN enable coil Memory requirement of the function block The pulse width modulation function block requires 48 bytes of memory plus 4 bytes per constant on the function block input Function of the pulse width modulation function block gt The pulse width modulation function block must be enabled so that it can work Coil PW EN is active If coil PW EN is not active the entire function block is deactivated and reset The output value is set to zero The manipulated variable at function block input
169. he 2nd in the months 5 6 7 8 9 10 and months 6 7 8 9 10 11 12 remains on until 23 59 on the and remains on until 23 59 on 25th of these months 17th of these months Hi A HYI E POM 03 05 POM D2 0b POFF 25 10 POFF 11 12 Total number of channels and behaviour of the contact HY01Q1 The time switch will switch on at 00 00 from the 3rd May and off at 23 59 on the 25th May In June July August September October the time switch will switch on at 00 00 on the 2nd of the month and switch off at 23 59 on the 17th In November and December the time switch will switch on at 00 00 on the 2nd of the month and switch off at 23 59 on the 17th Value scaling MED provides 32 value scaling function blocks LS01 to LS32 The function block enables you to convert values from one value range to another one In this way it is possible to reduce or increase values Wiring of a scaling function block You can integrate a value scaling function block into your circuit as a coil M4 I LSPEN Figure 108 MFD Titan circuit diagram with LS value scaling For Immediate Delivery call KMParts com at 866 595 9616 225 Wiring with MFD Titan Loz I Xi p hag ye BM 06 03 AWB2528 1480GB Parameter display and parameter set for the LS function block L527 LS value scaling function block number 27 Appears in the par
170. he type reference EASY256 HCI dal l og OO QOOCSOVOSOSYY OVVLYVOO E E R1 R2 R3 R4 R5 R6 R7 RB RI R10 R11 R12 L N N tl 115 230 V Figure 28 easy600 with EASY256 HCI The increased capacitance increases the drop out time by approx 40 ms For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 53 Connecting the inputs Connecting MFD DC inputs Use input terminals 11 to 112 to connect pushbutton actuators switches or 3 or 4 wire proximity switches Given the high residual current do not use 2 wire proximity switches Input signal voltage range e 1 to 16 19 110 OFF signal 0 to 5V ON signal 15 V to 28 8 V e 7 18 111 112 OFF signal lt 8 V ON signal gt 8 V Input current e 1 to 16 19 110 R1 to R12 3 3 mA at 24 V e 17 18 111 112 2 2 mA at 24 V L01 LO2 O OC 7 18 191 Figure 29 MFD DC The digital inputs must have the same voltage as the power supply of the MFD Installation 06 03 AWB2528 1480GB QQ COGOOLYVOGYYP VOLYVOG E E R1 R2 R3 R4 R5 R6 R7 R8 RI R10 R11 R12 24V OV OV fe 24V Figure 30
171. horisation Intelligent station function Authorised read access to all inputs and outputs of all stations regardless of the function Observe the setting of SEND IO gt Section Send each change on the inputs outputs SEND 10 Page 279 Write authorisation to its own local outputs Write authorisation to the network bit data SN 1 to 32 276 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Configuration of the easy NET network Configuration of the easy NET network easy NET can be configured so that it can be optimised for your application Station number The station number is identified as the easy NET ID in the device The station number can be set on devices with a display using the buttons on the MFD Titan All the easy NET settings are best carried out on station 1 The entire network can be configured via station 1 The configuration should only be carried out locally when a device is replaced Valid station numbers for operation are 01 to 08 Station number 00 factory default setting With station number 00 double address assignment cannot occur when an existing device is being exchanged Transmission speed The MFD Titan device hardware allows you set transmission speeds between 10 and 1000 KBaud in specific stages The length of all cables is determines the maximum permissible data transfer rate gt Section Technical data Page 345 The dat
172. imal values HCI Eco rt Gh Parameter ECO EIN Convert decimal value to BCD coded values Number range Value Number system 161061273 to 161061 273 BCD 9999999 to 9999999 Decimal For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB gt Function blocks BCD code Decimal value 0001 0010 0011 0100 0101 0110 0111 1000 1001 1010 to 1111 Not permissible 10000 10 10001 11 WO ooi NIO wm BY WJI N The BCD code only allows the number range Ohex to 9hex The number range Anex to Fhex cannot be represented The NC function block converts the impermissible range to 9 Inputs The function block input I 1 can be assigned the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block For Immediate Delivery call KMParts com at 866 595 9616 235 Wiring with MFD Titan 06 03 AWB2528 1480GB Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Coil NCO1EN to NC32EN enable coil Memory requirement of the numerical converter The numerical conv
173. ion blocks e DCO1ED to DC32ED Activate the differential component e DCO1SE to DC32SE Activate the manual manipulated variable Memory requirement of the PID controller The PID controller function block requires 96 bytes of memory plus 4 bytes per constant on the function block input Function of the PID controller function block The PID controller works on the basis of the PID algorithm According to this the manipulated variable Y t is the result of the calculation of the proportional component an integral component and a differential component The PID controller must be enabled so that it can work Coil DC EN is active If coil DC EN is not active the entire PID controller is deactivated and reset The manipulated variable is set to zero The corresponding coils for the P and D components must be active Example If only coils DC EP and DC EI are activated the controller operates as a PI controller The device calculates the manipulated variable every time the scan time Te has elapsed If the scan time is zero the manipulated variable is calculated every cycle Equation of PID controller Y t Y t Y t Yolt Y t calculated manipulated variable with scan time t Yp t Value of the proportional component of the manipulated variable with scan time t Y t Value of the integral component of the manipulated variable with scan time t Yp t Value of the differential component of the manipu
174. ircuit diagram via the output relays Q 01 to Q 04 or S 01 to S 06 S 08 You can use the signal states of the output relays as make or break contacts in the MFD circuit diagram for additional switching conditions The relay or transistor outputs are used to switch loads such as fluorescent tubes filament bulbs contactors relays or motors Check the technical thresholds and output data before installing such devices see gt chapter Appendix from Page 345 58 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting relay outputs Connecting relay outputs MFD R a 10000 000 oo Per 4 24V 8A 2A h 115V 8A 2A Er oO ra i o 230V 8A 2A 1000w QI Q2 Q3 Q4 t A 10x58W 55 000 OV N T 4 8AB16 2 L1 L2 L3 115 250V 24V Figure 36 MFD R relay outputs EASY6 RE ma 1 2 2 ae P2 R IEN ae ea N aN ime Me 10 000 000 115V 8A 2A 230V 8A 2A 1000W co c Sa Ed 2 se V N e e eo 10 x 58W A 25 000 8 AB 16 Da ta L1 L2 L3 115 230 V l 24V ia ia 2 ta Figure 37 EASY6 RE relay outputs For Immediate Delivery call KMParts com at 866 595 9616 59 Installation 06 03 AWB2528 1480GB EASY2 RE R
175. irst input contactisI 11 gt Press OK MED proposes the first contact I 01 at the cursor position I flashes and can be changed for example to aF for a pushbutton input using the cursor buttons or v However nothing needs to be changed at this point gt PressOK x to move the cursor across the 11 to the second contact field You could also move the cursor to the next contact field using the gt cursor button gt Press OK Again MFD inserts a contact I 14 at the cursor position Change the contact number to I 22 so that break contact S2 can be connected to input terminal 12 gt Press OK so that the cursor jumps to the next position and press cursor button or to change the number to IE You can press DEL to delete a contact at the cursor position gt Press OK to move the cursor to the third contact field You do not need a third relay contact so you can now wire the contacts directly up to the coil field Commissioning 1 C i B 1944 I de _ 06 03 AWB2528 1480GB Wiring MFD displays a small arrow x in the circuit diagram when creating the wiring Press ALT to activate the wiring arrow cursor and use the cursor buttons v lt gt to move it ALT also has two other functions depending on the cursor position e In the left contact field you can press ALT to insert a new empty circuit connection e The contact under the cursor can be changed betw
176. irst menu will appear gt Press the button This will display the TERMINAL MODE menu item gt Press the OK button The START MODE menu item will flash gt Press the button 106 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB STATION ID START MODE _ gt STATION ID D START MODE STATION ID START MODE STATION ID f Connection establishment in progress For Immediate Delivery call KMParts com at 866 595 9616 Terminal mode W Select the second station This station will control the display and respond to the operating unit Station ID 0 Station at the serial interface 1 Station 1 easy NET 2 Station 2 easy NET 3 Station 3 easy NET 4 Station 4 easy NET 5 Station 5 easy NET 6 Station 6 easy NET 7 Station 7 easy NET 8 Station 8 easy NET gt Press the OK button Select your station gt Press the v or button gt Press the OK button Select the START MODE menu option gt Press the v button gt Press the OK button In this case the easy NET station 2 is connected The MFD tries to establish connection to the selected device The text flashes Once the connection is established the menu appears or the Status display in which the selected device is active 107 108 Commissioning Ta 4 789 R I HT F TU 06 05 2003 O1 45h78 RUN
177. ising marker blocks specifying marker ranges directly The value of marker byte 10 is to be transferred to marker bytes 20 to 29 Parameters of BTO1 function block Source range Ii ME10 Destination range I2 MEr i Number of bytes 7HO 0 Source range Value of Destination Value of source marker range destination range marker range decimal decimal MB10 123 MB20 123 MB21 123 MB22 123 MB23 123 MB24 123 MB25 123 MB26 123 MB27 123 MB28 123 MB29 123 After a rising edge from 0 to 1 at coil BTO1T_ the value 123 is present in the marker bytes MB20 to MB29 Example Initialisation of marker blocks definition of a range with offset The content of marker byte MB15 is to be transferred to marker bytes MB65 to MB68 For Immediate Delivery call KMParts com at 866 595 9616 167 Wiring with MFD Titan 06 03 AWB2528 1480GB Parameters of BTO1 function block Source range I MBS Destination range I1 b4 Number of bytes H 4 Marker MBO1 1 Destination range Constant 64 Marker MB01 plus Offset 1 64 65 gt MB65 Source range Value of Destination Value of source marker range destination range marker range decimal decimal MB15 45 MB65 45 MB66 45 MB67 45 MB68 45 After a rising edge from 0 to 1 at coil BTO1T_ the value 45 is present in the marker bytes MB65 to MB68 Example Initialisation of marker blocks definition of a range in a different format
178. ivery call KMParts com at 866 595 9616 0 The above circuit operates as describe 6 03 AWB2528 1480GB d in example 1 The signal light is triggered at Q4 for additional overload monitoring If Q4 has an overload it would pulse Example 3 Automatic reset of error signal Figure 147 Automatic reset of error signal The above circuit diagram functions in Example 2 In addition the marker M1 1 until 116 switches off again the same way as 6 is reset every 60 seconds by timing relay T08 on delayed 60 s Should 116 remain at 1 M16 will continue to be set Q1 is set briefly to 06 03 AWB2528 1480GB Expanding MFD Titan Expanding MFD Titan You can expand MFD Titan with easy models EASY618 RE EASY620 D TE EASY202 RE locally or use the EASY200 EASY coupling module for remote expansion with easy600 expansion All available bus interface devices such as EASY204 DP EASY221 CN EASY205 ASI or EASY222 DN can be used if present Install the units and connect the inputs and outputs as described see gt Section Connecting the expansion unit Page 45 You process the inputs of the expansion devices as contacts in the MFD circuit diagram in the same way as you process the inputs of the basic unit The input contacts are assigned the operand designations R1 to R12 R15 and R16 are the group fault inputs of the transistor expansion unit gt Section Monitoring of short circuit over
179. k CAN is used in cars and commercial vehicles in all areas The same fault recognition capability with data transfer applies as with CAN A BOSCH study relating to undiscovered and corrupt messages determined the following The probability of non discovery of a corrupted message residual error probability is lt 10 19 message error rate The message error rate depends on e Bus loading e Telegram length e Malfunction frequency e Number of stations Example Network with e 500 KBaud e average bus load 25 e average operating time 2000 h year average error rate of 10 3 i e 1 message is faulty every 1000 e transmission of 1 12 x 101 messages per year of which 1 12 x 107 messages are faulty e residual error probability r lt 10 10 x 10 3 10 13 This means one of 1013 messages is so corrupt that the fault cannot be recognised as such For a network this corresponds to a working time of approx 1000 years For Immediate Delivery call KMParts com at 866 595 9616 285 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection Introduction to COM LINK The COM LINK is a point to point connection using the serial interface This interface connection allows the reading of input output states as well as the reading and writing of marker ranges This data can be used for setpoint entry or for display functions The stations of the COM LINK have different functions The active station controls the entire
180. ker blocks invalid offset error Two marker blocks are to be compared Block 1 starts at MW40 Block 2 at MW54 The block length is specified by the value of the counter C 01QV Parameters of BCO1 function block Comparison range 1 I MW40 Comparison range 2 T2 MW54 Number of bytes PHO C HGY The value of C 01QV is 1024 This value is too big The value at can be between 1 and 383 The message The specified offset of the comparison ranges is outside of the permissible range is output BCO1E3 is 1 For Immediate Delivery call KMParts com at 866 595 9616 163 164 Wiring with MFD Titan ETO INI I tI NO 06 03 AWB2528 1480GB Data block transfer MFD Titan is provided with 32 function blocks BTO1 to BT32 for transferring values from one marker range Copy data The marker ranges can be overwritten with a particular value data initialisation The following marker types can be transferred and overwritten e MB e MW e MD The function block is enabled in the circuit diagram I I BTOITK ETI JEI ETER ETI 1E3 iM Az Figure 86 MFD Titan circuit diagram with enabling of transfer data block function block Parameter display and parameter set for a data block transfer function block ETO1 Data block transfer function block number 07 INI INI mode initialise marker ranges Appears in the p
181. lated variable with scan time t For Immediate Delivery call KMParts com at 866 595 9616 209 Wiring with MFD Titan 06 03 AWB2528 1480GB The proportional component in the PID controller The proportional component Yp is the product of the gain Kp and the control difference e The control difference is the difference between the setpoint Xs and the actual value Xj at a specified scan time The equation used by the device for the proportional component is as follows Yp t Kp X Xs t Xi d Kp proportional gain Xs t Setpoint with scan timet X t Actual value with scan time t The integral component in the PID controller The integral component Y is proportional to the sum of the control difference over time The equation used by the device for the integral component is as follows Y t Kp X TdTh X Xs t Xi t Y t1 Kp proportional gain Te Scan time Th Integration time also known as reset time Xs t Setpoint with scan timet Xi t Actual value with scan time t Y t 1 Value of the integral component of the manipulated variable with scan timet 1 The differential component in the PID controller The differential component Yp is proportional to the change in the control difference So as to avoid step changes or jumps in the manipulated variable caused by the differential behaviour when the setpoint is changed the change of the actual value the process variable is calculated an
182. lied in accordance with its respective application If the respective diagnostics contacts are not evaluated it may cause faults in your application For Immediate Delivery call KMParts com at 866 595 9616 293 06 03 AWB2528 1480GB 294 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 7 MED Settings Settings can only be carried out on MFD models provided with buttons and LCD display EASY SOFT PRO can be used to set all models via the software Password protection The MFD can be protected by a password against unauthorised access In this case the password consists of a value between 000001 and 999999 The number combination 000000 is used to delete a password Password protection inhibits access to selected areas The System menu is always protected by an activated password The password can protect the following inputs and areas e Start or modification of the program e Transfer of a circuit diagram to or from a memory card display operating unit variants e Change of the RUN or STOP mode e Calling and modification of function block parameters e All settings of the real time clock e Modifications of all system parameters e Communication with the individual device looping to other devices possible e Switching off the password delete function For Immediate Delivery call KMParts com at 866 595 9616 295 MED Settings ENTER FASSHORD 06 03
183. load with EASY D T Page 331 The outputs are processed as relay coils or contacts like the outputs in the basic unit The output relays are S1 to S8 EASY618 RE provides the outputs S1 to S6 The other outputs S7 S8 can be used internally How is an expansion unit recognised If atleast one contactor coil contact is used in the circuit diagram the basic unit assumes that an expansion unit is connected For Immediate Delivery call KMParts com at 866 595 9616 333 Inside MFD 06 03 AWB2528 1480GB Transfer behaviour The input and output data of the expansion units is transferred serially in both directions Take into account the modified reaction times of the inputs and outputs of the expansion units Input and output reaction times of expansion units The debounce setting has no effect on the expansion unit Transfer times for input and output signals e Local expansion Time for inputs R1 to R12 30 ms 1 cycle Time for outputs 1 to S6 S8 15 ms 1 cycle e Decentralised expansion Time for inputs R1 to R12 80 ms 1 cycle Time for outputs 1 to S6 S8 40 ms 1 cycle Function monitoring of expansion units If the power supply of the expansion unit is not present no connection can be established between it and the basic unit The expansion inputs R1 to R12 R15 R16 are incorrectly processed in the basic unit and show status 0 It cannot be assured that the outputs 1 t
184. lock ON RELAYS editor Parameters Oc gt For Immediate Delivery call KMParts com at 866 595 9616 MFD Titan 06 03 AWB2528 1480GB Main menu FROGRAH DELETE PROGRAM CARD DEVICE CARD REPLACE CARD DEVICE DELETE CARD z i oe PARAMETERS Al gt REFLACE 7 SET CLOCK TERMINAL MODE DEVICE CARD y CARD DEVICE PROGRAM Parameter display DELETE CARD gt DELETE STOF RUN lt FARAHETERS Parameters SET CLOCK TERMINAL MODE PROGRAM Display for date and STOP RUN lt time setting a eae TERMINAL MODE DST SETTING SET CLOCK NONE J SUMMERTIME DST SETTING MANUAL lt DO WH EU J SUMMERTIME END Ge d DO WH us Only one selection is possible PROGRAM STOF RUH J PARAMETERS Connection STATION ID 0 establishment in progress 20 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Main menu Unlocking MFD FR oo STOP RUN PARAMETERS SET CLOCK PASSWORD Password System menu Setup MFD operation Main menu with password protection Four wrong entries Password entry if enabled DELETE ALL Pas
185. lue processing Ensure that the reference potential is connected Connect the 0 V of the power supply unit for the different setpoint potentiometers and sensors shown in the examples to the 0 V terminal of the MFD power feed Setpoint potentiometer LO1 LO2 L01 gt 1A A N 1 3 kQ 0 25W 1kaI0 25W er 2 fa ov t2v 4 ooo EJEA SA A A a e a E opoo GO 8 G 6 G 0 Oia ooo oo 24V OV OV 1 2 B 14 1 l6 I7 18 1910 111112 Figure 31 Setpoint potentiometer setpoint potentiometer with upstream resistor For Immediate Delivery call KMParts com at 866 595 9616 Installation 06 03 AWB2528 1480GB Use a potentiometer with a resistance of 1 kQ e g 1 kQ 0 25 W Temperature sensor Brightness sensor 20 mA sensor LO1 LO2 L01 gt 1A A A ov azv db 24V 0 0 10 V 35 55 OVO Al 4 20mA neo Out o a d 0 10 V 00g O Aana a a E E E OOo GE ce OG eG fee eI E 24V OV OV 1 12 13 14 15 16 I7 18 19110 111112 Figure 32 Temperature sensor brightness sensor 20 mA sensor 4 to 20 mA 0 to 20 mA sensors can be connected easily without any problem using an external 500 Q resistor The following values apply e 4mA 0 2V e 10 mA 4 8 V e 20 mA 9 5V acc
186. m at 866 595 9616 71 Installation 06 03 AWB2528 1480GB tmust be ensured in all circumstances that the connector with the marking POW Side is fitted in the interface of the MFD device The serial interface only functions if the MFD device is providing the power feed required for the interface cable 72 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Expanding inputs outputs Figure 48 Point to point serial interface Expanding inputs outputs You can add expansion units to all MFD types with an easy LINK connection in order to increase the number of inputs and outputs Expandable easy Expansion units basic units MFD CP8 EASY618 RE e 12 AC inputs e 6 relay outputs EASY620 TE e 12 DC inputs e 8 transistor outputs EASY202 RE 2 relay outputs common Special expansion units for connecting to other bus systems are shown in the latest product catalogue 1 Common supply for multiple outputs Local expansion Local expansion units are fitted directly next to the power supply CPU module with an easy LINK connection For Immediate Delivery call KMParts com at 866 595 9616 73 Installation 06 03 AWB2528 1480GB gt Connect the easy expansion unit via the easy LINK DS plug connector EASY LINK DS MFD CP8 r EASY6 RE U EASY6
187. machine or system has been switched off and are also retained until the next time the actual value is overwritten The following operands and function blocks can be set to operate retentively e Markers e Counter function blocks e Data function blocks and e Timing relays Operating hours counter easy800 provides four retentive operating hours counters They are always retentive and can only be selectively deleted with a reset command Retentive data volume 200 bytes is the maximum memory range for retentive data operating hours counters are not included Markers A user definable and consistent marker range can be declared as retentive Counters All C CH and CI function blocks can be operated with retentive actual values Data function blocks A user definable consistent data function block range can be operated with retentive actual values 316 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB RUH MODE CARO MODE LIGHTING y y Retention Timing relays A user definable and consistent range for timing relays can be run with retentive actual values Requirements In order to make data retentive the relevant markers and function blocks must have been declared as retentive Attention The retentive data is saved every time the power supply is switched off and read every time the device is switched on The data integrity of the memory is guaran
188. mediate Delivery call KMParts com at 866 595 9616 125 Wiring with MFD Titan 06 03 AWB2528 1480GB Contact fields 1 to 4 Coil field 5 I lj Die 7 CP 11 oT lt G01 connections j HV0101 SMM SESH SERGE ny ico TO Circuit Status line mit A nape L circuit Connecting lines connection Number of Amount of free thefieldinthe memory in bytes circuit connection e Connections are used to produce the electrical contact between relay contacts and the coils They can be created across several circuit connections Each point of intersection is a connection e The number of free bytes is displayed so that you can recognise how much memory is available for the circuit diagram and function blocks MFD Titan circuit diagram display For greater legibility the circuit diagram display of the MFD I Di I Df Titan shows two contacts per circuit connection or one a D HY01G4 contact plus a coil in series A total of 16 characters per circuit connection and three circuit connections plus the L 41 E 7840 status line can be displayed simultaneously You can move between the contact fields with the lt gt cursor buttons The number of the circuit connection and the contact are displayed in the lower status line _ gt The circuit diagram display performs two functions e In STOP mode it is used to edit
189. meter display Time range Value and time range Resolution 0 to 1000 ms Inputs The function block input I1 can be assigned the following operands e Constants For Immediate Delivery call KMParts com at 866 595 9616 247 Wiring with MFD Titan 06 03 AWB2528 1480GB e Markers MD MW MB e Analog inputs IA01 to 1404 A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Coils STO1EN enable coil Memory requirement of the function block The set cycle time function block requires 24 bytes of memory plus 4 bytes per constant on the function block input Function of the set cycle time function block The function block is used to define a fixed cycle time The function block must be enabled so that it can work Coil STO1EN is active If coil STO1EN is not active the entire function block is deactivated and reset Actual cycle time is less than the set cycle time If the maximum cycle time present is less than the set cycle time the set cycle time is constant Actual cycle time is greater than the set cycle time If the maximum cycle time present is greater than the set cycle time the set cycle time has no effect 248 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480G
190. mode 78 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Creating your first circuit diagram Creating your first circuit The following single line diagram takes you step by step diagram through wiring up your first circuit diagram In this way you will learn all the rules quickly enabling you to use MFD for your own projects As with conventional wiring you use contacts and relays in the MFD diagram With MFD however you no longer have to connect up components individually At the push of a few buttons the MFD circuit diagram produces all the wiring required All you have to do is then connect any switches sensors lamps or contactors you wish to use LO1 a FA i s1 _ K1 S2 i K1 nes Figure 51 Lamp controller with relays L01 For Immediate Delivery call KMParts com at 866 595 9616 79 Commissioning 06 03 AWB2528 1480GB In the following example MFD carries out all the wiring and performs the tasks of the circuit diagram shown below LO1 01 A SS I Di I D 8 01 O Figure 52 Lamp controller with MFD 80 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Creating your first circuit diagram Starting point Status display When you switch on MFD it opens the Status display ee immediat
191. module supplies the necessary power supply to itself the display the input output electronics the easy LINK and optionally the easy NET gt The MFD device power supply CPU module is protected against reverse polarity Ensure the correct polarity of the terminals to ensure that the MFD functions correctly For Immediate Delivery call KMParts com at 866 595 9616 47 Installation 06 03 AWB2528 1480GB EASY DC E DC expansion units L01 L01 Os SOSS R12 24V OV OV 24V Figure 22 Power supply on the DC expansion units easy DC is protected against polarity reversal To ensure that easy works correctly ensure that the polarity of each terminal is correct Cable protection With easy AC easy DC and the MFD power supply CPU module provide cable protection F1 for at least 1 A slow When easy or the MFD is switched on for the first time its power supply circuit behaves like a capacitor Use a suitable device for switching on the power supply and do not use any reed relay contacts or proximity switches For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting the inputs Connecting the inputs easy or MFD inputs switch electronically Once you have connected a contact via an input terminal you can reuse it as a contact in your MFD circuit diagram as often as you like IEEE yD A amas Be Pee Ric NT Ome ee at S Nh E
192. n conventional open loop and closed loop control systems MFD Titan provides the following function blocks e Analog value comparator threshold controller only with MFD Titan 24 V DC variants e Arithmetic addition subtraction multiplication division Compare data blocks e Transfer data blocks e Boolean sequences e Counters up and down counters with upper and lower threshold values preset frequency counters high speed counters incremental encoder counters e Comparators e Text output freely editable texts enter values e Data function block e PID controllers e Smoothing filters e Value scaling e Pulse width modulator e Read GET data from the easy NET e Time switches weekday time year month day date e Numerical converters e Master reset e Operating hours counter e Write PUT data to the easy NET e Synchronisation of date and time via the easy NET e Timing relays on delayed on delayed with random switching 148 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks off delayed also retriggerable off delayed with random switching also retriggerable on and off delayed on and off delayed with random switching single pulse synchronous flashing asynchronous flashing e Set cycle time e Value limitation The following applies to function blocks The most recent actual values are clea
193. n eet etia detest 14 Cable cross sections oeseri 66 Cable length svi i stscaccarstatssarshatscarsatscanatatsavata dt 66 Cable lengis s wiwscscncacacnoacadacaaans 50 Cable protection eresiaren 48 Circuit connection NUMbGr site at Gane atta tao 126 Circuit connections Add NOW ciscznticnssaains anvenacaredascietiense 84 Deleting M 133 136 ENGNG ianea a 132 WAS a cde estes E TT 134 Position in circuit diagram seess 126 Circuit diagram Checking eoria NoN 138 Circuit CONNECTIONS ccccecsecsecseesessesseeseenes 126 GOI FIM stcecttessteetrevizecdeccts hnali 126 Contact fields o o 126 De l tinG ns canaticatiaticansiatinntiaiicnsiaiaiaitin 89 Eole e E 82 126 FaStiOnnry piora terien anota 89 a E EE E R 82 126 For Immediate Delivery call KMParts com at 866 595 9616 373 374 Index 06 03 AWB2528 1480GB Internal processing cscessseeeeeeees 323 lodd iienaa kakai taai 341 Operating buttons ssssssssissessiesiesiesrerrenrenre 112 OVEN CWiritn cana dita tia dethaia dn 126 SAVING A 339 341 TOSUING irra re 86 138 WINO asistensia 84 132 Coil field ein enan o ann 126 Coil function CONTAGTOT psinnicninnirdnnidisaninennianiniia 144 Impulse relay cceesessesssesseteteteeeneeeeeees 145 Latching relay wis ssa diana asa dasaacnns 145 OVeNVIEW losose aea 144 COM LINK irrin 286 ACUVAUON sca tininadhudnanadhudiin 289 Bald fate ironiei e 289 CONTIGUIATION sasra 289 Data altesse iaa 287 325 Operating principl
194. n set the coil function to determine the switching behaviour of relay coils The following coil functions are assigned to all coils Table 10 Coil function MFD Titan Coil function Example display I Contactor function CG01 f002 0504 0 01 fH01 I Impulse relay function J03 H04 O08 J501 0i E Set SAIB SHIR S011 S3014 R Reset RGO4 RMDS RO01 R509 Contactor function with negated FROG H96 result Cycle pulse with rising edge POA t Cycle pulse with falling edge Laz The function block descriptions state which coil functions can be used with the function block concerned For Immediate Delivery call KMParts com at 866 595 9616 143 Wiring with MFD Titan 06 03 AWB2528 1480GB Rules for wiring relay coils Relay with contactor function gt A coil should only be used once in order to retain an overview of the relay states However retentive coil functions such as J can be used several times The following applies to non retentive coil functions such as contactor negated contactor Ri rising and falling edge detection Each coil must only be used once The last coil in the circuit diagram determines the status of the relay Exception When working with jumps the same coil can be used twice Coil with contactor function T The output signal follows immediately after the input signal and the relay acts as a contactor on i on Figure 76 Signal diagram of contactor fun
195. n via the connection cable Once you have transferred a circuit diagram you can start MFD Titan straight from your PC For Immediate Delivery call KMParts com at 866 595 9616 127 Wiring with MFD Titan 06 03 AWB2528 1480GB Working with contacts and relays I De Contact name Contact number In MFD Titan circuit diagrams the switches buttons and relays of conventional circuit diagrams are connected up using input contacts and relay coils Conventional circuit MFD Titan circuit diagram Connect make contact 1 to input terminal 11 SIF S2F Ki Connect make contact 2 to input terminal 12 Connect load H1 to output Q1 MFD Titan connection S1 or S2 switch on H1 K1 mS MFD Titan circuit diagram I li y ran 1 ma First specify which input and output terminals you wish to use in your circuit The signal states on the input terminals are detected in the circuit diagram with the input contacts R or RN The outputs are switched in the circuit diagram with the output relays Q S or SN Entering and changing contacts and relay function coils Contacts An input contact is selected in the MFD Titan via the contact name and contact number Example input contact 128 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Working with contacts and relays CFOST A contact of a function relay is assigned the nam
196. nals are noise free if the input debounce is disabled MFD will even react to very short signals For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Monitoring of short circuit overload with EASY D T Monitoring of short circuit overload with EASY D T Depending on the type of easy in use it is possible to use the internal inputs 116 R15 and R16 to monitor for short circuits or overloads on an output e MFD Titan 116 Group fault signal for outputs Q1 to Q4 e EASY620 D TE R16 Group fault signal for outputs S1 to S4 R16 Group fault signal for outputs S5 to S8 State Outputs 116 R15 or R16 No fault found 0 switched off make contact At least one output has a 1 switched on make contact fault 116 can only be edited with MFD versions which have transistor outputs The following examples are for 116 Q1 to Q4 Example 1 Selecting an output with fault indication Figure 145 Circuit diagram for fault output via 116 The above circuit diagram functions as follows If a transistor output reports a fault M16 is set by 116 The break contact of M16 switches off output Q1 M16 can be cleared by resetting the MFD power supply Example 2 Output of operating state Figure 146 Output of operating state For Immediate Delivery call KMParts com at 866 595 9616 331 332 Inside MFD For Immediate Del
197. nd coils in the same way as in an easy800 In the MFD device texts actual value output and setpoint entry are implemented using the appropriate visualization elements gt The text function block was adopted from the easy800 so that the circuit diagram is compatible This simplifies the processing of easy800 programs easy800 programs with text function blocks can be loaded directly onto the MFD Titan either from the memory card or from EASY SOFT PRO The contacts and coils are processed in the same way as in an easy800 However texts are not output The function block requires the entire memory even if no texts have been transferred Donotuse the text function block on the MFD device This will use up memory unnecessarily with unused functions Figure 96 MFD Titan circuit diagram with a text output function block 202 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB DE b I aM Function blocks Contacts A contact has been assigned to the text output function block DO1Q1 to D32Q1 text function block is active Coils DO1EN to D32EN enable of the text function block Memory requirement of the text output function block The text output function block function block requires 160 bytes of memory This is irrespective of the text size Data function block The data function block allows you to selectively save a value Setpoint value
198. nection is interrupted and relay Q1 drops out Use the cursor buttons v lt gt to move between the contacts or coil gt Press the cursor button gt io L O02 I D The cursor moves to the second contact gt Press the ALT button The display changes to display status with contact and or coil designation I 012225 0 2 Eli L 1 C 2 RUN Figure 59 Power flow display Input 11 is closed input 12 is open relay Q1 has dropped out visible area 88 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB FROGRAM For Immediate Delivery call KMParts com at 866 595 9616 89 Creating your first circuit diagram Deleting the circuit diagram gt Switch the MFD to STOP mode MFD must be in STOP mode in order to extend delete or modify the circuit diagram gt Use PROGRAM to switch from the main menu to the next menu level gt Select DELETE PROGRAM The MFD will display the prompt DELETE gt Press OK to delete the program or ESC to cancel gt Press ESC to return to the Status display Fast circuit diagram entry You can create a circuit diagram in several ways The first option is to enter the elements in the circuit and then to wire all the elements together The other option is to use the enhanced operator guidance of MFD and create the circuit diagram in one go from the
199. ng between winter summer time DST Activating input delay debounce Deactivating debounce input delay Activating and deactivating the P buttons Activating the P buttons Deactivating the P buttons Startup behaviour Setting the startup behaviour Behaviour when the circuit diagram is deleted Behaviour during upload download to card or PC Possible faults Card startup behaviour Terminal mode Setting LCD contrast and backlight Retention Requirements Setting retentive behaviour Deleting ranges Deleting retentive actual values of markers and function blocks Transferring retentive behaviour Displaying device information 295 295 296 297 298 299 302 303 304 305 306 308 308 309 309 310 310 310 311 311 312 312 313 314 316 317 317 318 318 319 320 For Immediate Delivery call KMParts com at 866 595 9616 5 Contents 06 03 AWB2528 1480GB 8 Inside MFD 323 MFD Program cycle 323 How MFD evaluates the high speed counters CF CH and CI 327 Memory management of the MFD Titan 327 Delay times for inputs and outputs 328 Monitoring of short circuit overload with EASY D T 331 Expanding MFD Titan 333 How is an expansion unit recognised 333 Function monitoring of expansion units 334 QA analog output 336 Loading and saving programs 336 MFD without display and keypad 336 Interface 336 Memory car
200. nimum time setting 0 005 s 5 ms If a time value is less than the MFD cycle time the elapsed time will only be recognised in the next cycle Inputs The function block inputs 11 and Iz can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Outputs Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 For Immediate Delivery call KMParts com at 866 595 9616 251 Wiring with MFD Titan 06 03 AWB2528 1480GB Variable setpoint values Behaviour of the setpoint value when variable values are used e Variable values can be used e Variable values must be transferred using operands e With the time base s the value is accepted as a value in ms e The last position is rounded up to a zero or five e With the time base M S the value is accepted as a value in s e With the time base H M the value is accepted as a value in M minutes _ gt The delay times are the same as described for the constants Example Time base s The operand has the value 9504 The time value is 9 500 s Operand value 45507 The time value is 45 510 s Displaying the parameter set in the PARAMETERS menu e A
201. not used Checking the circuit diagram MFD Titan contains a built in measuring device enabling you to monitor the switching states of contacts relays and function block coils during operation gt Create the small parallel circuit below and save it I 2 7 sa 0 1 n Figure 72 Parallel circuit gt Switch MFD Titan to RUN mode via the main menu gt Return to the circuit diagram display You are now unable to edit the circuit diagram If you switch to the circuit diagram display and are unable to modify a circuit diagram first check whether MFD Titan is in STOP mode The circuit diagram display performs two functions depending on the mode For Immediate Delivery call KMParts com at 866 595 9616 137 Wiring with MFD Titan 06 03 AWB2528 1480GB e STOP Creation of the circuit diagram e RUN Power flow display gt Switch on 13 I oe a rea eam G O04 I i Li0fi Cii RUH Figure 73 Power flow display In the power flow display energized connections are thicker than non energized connections You can follow a current carrying connection across all circuit connections by scrolling the display up and down The bottom right of the power flow display indicates that the controller is in RUN mode gt Section Power flow display with Zoom function Page 87 The power flow display will not show signal fluctuations in the millisecond range This
202. nstant 64 MB01 plus Offset 1 64 65 gt MB65 160 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Comparison Value of Comparison Value of range 1 markerrange1 range 2 marker range 2 decimal decimal MB15 45 MB65 45 MB16 62 MB66 62 MB17 102 MB67 102 MB18 65 MB68 57 gt The comparison result of the function block BC01 is BCO1EQ 0 the data block ranges do not have the same content MB18 are MB68 not identical Example Comparison of marker blocks definition of a marker range in a different format Two marker blocks are to be compared Block 1 starts at MB60 Block 2 at MD80 Each block is 6 bytes long Parameters of BCO1 function block Comparison range 1 11 MERI Comparison range 2 I2 MORI Number of bytes PHO b The comparison is in byte format MD80 has 4 bytes Therefore the first two bytes of MD81 are also compared For Immediate Delivery call KMParts com at 866 595 9616 161 Wiring with MFD Titan 06 03 AWB2528 1480GB Comparison Value of Comparison Value of marker range 2 decimal range 1 markerrange1 range 2 binary decimal binary MB60 45 MD80 Byte 1 LSB 1097219629 00101101 01000001 01100110001111100010 1101 MB61 62 MD80 Byte 2 1097219629 00111110 0100000101100110001111100010 1101 MB62 102 MD80 Byte 3 1097219629 01100110 0100000101100110001111100010 1101 MB63 65 MD80 109
203. nt value 3L 5 enable of the counter CH EN 6 counting direction coil CH D For Immediate Delivery call KMParts com at 866 595 9616 193 Wiring with MFD Titan 06 03 AWB2528 1480GB 7 accept preset actual value coil CH SE 8 reset coil CH RE 9 contact make contact CH OF upper setpoint value reached exceeded 10 contact make contact CH FB lower setpoint value reached undershot 11 contact make contact CH ZE actual value equal to zero 12 out of value range e Range A The counter has the value zero The contacts CH ZE actual value equal to zero and CH FB lower setpoint value undershot are active The counter receives counter values and increases the actual value CH ZE drops out as well as CH FB after the lower setpoint value is reached e Range B The counter counts upwards and reaches the upper setpoint value The contact upper setpoint value CH OF becomes active e Range C The coil CH SE is briefly actuated and the actual value is set to the preset actual value The contacts go to the respective position e Range D The counting direction coil CH D is actuated If counting pulses are present downward count is initiated If the lower setpoint value is undershot the contact CH FB becomes active e Range E The reset coil CH RE is activated The actual value is set to zero The contact CH ZE is active e Range F The actual
204. nter input for the counter C101 channel A e 2 counter input for the counter C101 channel B e 3 counter input for the counter Cl02 channel A e 4 counter input for the counter C102 channel B For Immediate Delivery call KMParts com at 866 595 9616 195 Wiring with MFD Titan CID SH PSL Ya GAY 06 03 AWB2528 1480GB To prevent unpredictable switching states use each coil of a relay once only in the circuit diagram Use a counter input for the CF CH CI counters only once You integrate a counter into your circuit in the form of a contact and coil The counter relay has different coils and contacts I CIHEN I h CIHRE I f CINE CID 0F req CIN FE i602 CI1 ZE 1603 CIN CY Z H 44 Figure 93 MFD Titan circuit diagram with high speed incremental encoder counter Parameter display and parameter set for high speed incremental encoder counter CID High speed incremental encoder counter function block number 01 Appears in the parameter display SH Upper setpoint BSL Lower setpoint poy Defined actual value Preset GH Actual value in RUN mode In the parameter display of a counter relay you change setpoint values and or the preset value and the enable of the parameter display
205. o S8 are transferred to the expansion unit Warning Continuously monitor the functionality of the MFD expansion in order to prevent switching errors in the machine or plant The status of the internal input 114 of the basic unit indicates the status of the expansion unit e 14 0 expansion unit is functional e 14 1 expansion unit is not functional 334 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Expanding MFD Titan Example Power can be applied to the expansion unit later than the basic unit This means that the basic unit is switched to RUN when the expansion unit is absent The following MFD circuit diagram detects if the expansion unit is functional or not functional I tie H 11 i 08 SHH I 4 i 08 ee a ran Di Figure 148 Circuit diagram for expansion testing As long as 14 is 1 the remaining circuit diagram is skipped If I 14 is 0 the circuit diagram is processed If the expansion unit drops out for any reason the circuit diagram is skipped M 01 detects whether the circuit diagram was processed for at least one cycle after the power supply is switched on If the circuit diagram is skipped all the outputs retain their previous state For Immediate Delivery call KMParts com at 866 595 9616 335 Inside MFD 06 03 AWB2528 1480GB QA analog output The analog
206. o the network 240 Pulse width modulation 242 Setting date time 245 Set cycle time 247 Timing relay 249 Value limitation 262 Example with timing relay and counter function block 264 5 Visualization with MFD Titan 269 6 easy NET Network COM LINK Serial Connection 271 Introduction to easy NET 271 easy NET network topologies addressing and functions 272 Loop through the unit wiring method 272 T connector and spur line 272 Position and addressing of the operands via easy NET 274 Possible write and read authorisation in the network 276 Configuration of the easy NET network 277 Station number 277 Transmission speed 277 Pause time changing the write repetition rate manually 278 Automatic change of the RUN and STOP mode 279 Input output device REMOTE 10 configuration 280 Station message types 281 Transfer behaviour 281 Signs of life of the individual stations and diagnostics 282 Introduction to COM LINK 286 Topology 286 Configuration of the COM LINK 290 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Contents MFD Settings Password protection Password setup Selecting the scope of the password Activating the password Unlocking MFD Changing the menu language Changing parameters Adjustable parameters for function blocks Setting date time and daylight saving time Changi
207. ock reset T X RE x 01 32 JV JV Activate value limitation function Wc X EN x 01 32 JV JV The switching behaviour of these relays is set by the coil functions and parameters selected For Immediate Delivery call KMParts com at 866 595 9616 121 Wiring with MFD Titan 06 03 AWB2528 1480GB The options for setting output and marker relays are listed with the description of each coil function The function block coil functions and parameters are listed with the description of each function block type Markers analog operands Specific markers are available for actively addressing values or inputs outputs Table 8 a Markers Markers MFD Titan Number Value Access type display range Analog r Read operand w Write Marker 32 bit Ho 11 96 32 bit rnw Marker 16 bit Hu 11 96 16 bit rnw Marker 8 bit HE 11 96 8 bit rnw Marker 1 bit H 1 96 1 bit rnw Analog inputs IA x MEDd 04 10 bit r basic unit Analog output GA x szli 10 bit r Ww When using the COM communication mode you can make the following data accesses on the slave Note the REMOTE MARKER SETTING in the following table 122 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation Markers MFD Titan Number Value Access type display range Analog r Read operand w Write Marker 32 bit iHD 11 20 32 bit r W Marker 16 bit Mu 01 40 16 bit r W Marker 8
208. ock compares two consistent data blocks The comparison is active if the BC EN enable is triggered No data blocks are compared if an error is present The error outputs E1 E2 and E3 are evaluated regardless of the status of the enable Example Comparison of marker blocks definition of marker ranges direct Two marker blocks are to be compared Block 1 starts at MB10 Block 2 at MB40 Each block is 10 bytes long Parameters of BCO1 function block Comparison range 1 11 HEIO Comparison range 2 Id ME4O Number of bytes HO Oi For Immediate Delivery call KMParts com at 866 595 9616 159 Wiring with MFD Titan 06 03 AWB2528 1480GB Comparison Value of Comparison Value of range 1 markerrange1 range 2 marker range 2 decimal decimal MB10 39 MB40 39 MB11 56 MB41 56 MB12 88 MB42 88 MB13 57 MB43 57 MB14 123 MB44 123 MB15 55 MB45 55 MB16 134 MB46 134 MB17 49 MB47 49 MB18 194 MB48 194 MB19 213 MB49 213 The comparison result of the function block BC01 is BCO1EQ 1 the data block ranges have the same content Example Comparison of marker blocks definition of a marker range with offset Two marker blocks are to be compared Block 1 starts at MB15 Block 2 at MB65 Each block is 4 bytes long Parameters of BCO1 function block Comparison range 1 I1 MES Comparison range 2 IZ 64 Number of bytes Marker MB01 HO 4 Comparison range 2 Co
209. odes utilisation category B300 Light Pilot Duty Max rated operational voltage VAC 300 Max thermal uninterrupted current cos 1 A 5 at B300 Maximum make break capacity cos k 1 Make break VA 3600 360 at B300 DC Control Circuit Rating Codes utilisation category R300 Light Pilot Duty Max rated operational voltage VDC 300 Max thermal uninterrupted current at R300 A 1 Maximum make break capacity at R300 VA 28 28 Transistor outputs MFD T Number of outputs 4 Contacts Semiconductors Rated voltage Ue VDC 24 Permissible range VDC 20 4 to 28 8 Residual ripple 25 Supply current On 0 state typical maximum mA 18 32 On 1 state typical maximum mA 24 44 Reverse polarity protection Yes Attention If voltage is applied to the outputs when the polarity of the power supply is reversed this will result in a short circuit Potential isolation to the inputs supply voltage PC interface Yes memory card NET network EASY Link Rated current J at state 1 maximum A 0 5 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data MFD T Lamp load Q1 to Q4 without Ry Ww 5 Residual current at state 0 per channel mA lt 0 1 Max output voltage On 0 state with external load 10 MQ V 2 5 On 1 state Ie 0 5 A U U 1V Short circuit protection Yes Thermal Q1 to Q4 evaluation with diagnostics inputs 116 115 Short circuit tripping current for
210. ograms with the EASY SOFT PRO software The function for automatically loading from the memory card on power up is only supported on MFD CP8 without display and display operating unit gt Switch to STOP mode gt Select PROGRAM from the main menu gt Select the CARD menu option The CARD menu option will only appear if you have inserted a functional memory card You can transfer a circuit diagram from MFDto the card and from the card to the MFD memory or delete the content of the card If the operating voltage fails during communication with the card repeat the last procedure since MFDmay not have transferred or deleted all the data gt After transmission remove the memory card and close the cover Saving a circuit diagram on the card gt Select DEVICE CARD gt Confirm the prompt with OK to delete the contents of the memory card and replace it with the MFD circuit diagram Press ESC to cancel For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB DEWICE CARD DELETE CARD Loading and saving programs Loading a circuit diagram from the card gt Select the CARD gt DEVICE menu option gt Press OK to confirm the prompt if you want to delete the MFDmemory and replace it with the card content Press ESC to cancel If there are transmission problems MFD will display the INVALID PROG message This either means that the memory
211. on of the data master reset The outputs or the markers are set to the 0 state in accordance with the operating mode when a rising edge is detected on the trigger coil The master reset function block should be used as the last function block in a program so that all data ranges are cleared reliably Otherwise subsequent function blocks may overwrite the data ranges The contacts MR01Q1 to MR32Q1 assume the state of their own trigger coil Numerical converters MFD Titan provides 32 numerical converters NCO1 to NC32 A numerical converter function block enables you to convert BCD coded values to decimal values or decimal coded values to BCD coded values For Immediate Delivery call KMParts com at 866 595 9616 233 234 Wiring with MFD Titan 06 03 AWB2528 1480GB Wiring of a numerical converter A numerical converter in the circuit diagram only has the enable coil I NCDZEN Figure 112 MFD Titan circuit diagram with numerical converter Parameter display and parameter set for the numerical converter NCO Numerical converter function block number 02 ECD Convert BCD code to decimal value mode Appears in the parameter display i Input value BM Output value In the parameter display of a numerical converter you can change the mode and the enable of the parameter display Numerical converter modes Mode Convert BCD coded values to dec
212. onal earth FE must be connected to the protective earth PE or to the potential equalisation The system installer is responsible for implementing this connection Connecting cables and signal lines should be installed so that inductive or capacitive interference does not impair the automation functions Install automation devices and related operating elements in such a way that they are well protected against unintentional operation Suitable safety hardware and software measures should be implemented for the 1 0 interface so that a line or wire breakage on the signal side does not result in undefined states in the automation devices Ensure a reliable electrical isolation of the low voltage for the 24 volt supply Only use power supply units complying with IEC 60364 4 41 VDE 0100 Part 410 or HD 384 4 41 S2 Deviations of the mains voltage from the rated value must not exceed the tolerance limits given in the specifications otherwise this may cause malfunction and dangerous operation Emergency stop devices complying with IEC EN 60204 1 must be effective in all operating modes of the automation devices Unlatching the emergency stop devices must not cause restart Devices that are designed for mounting in housings or control cabinets must only be operated and controlled after they have been installed with the housing closed Desktop or portable units must only be operated and controlled in enclosed housings For
213. oop control and input device in one In the following description the term visualization is used for the display and operator function This chapter is still in preparation The complete chapter will be available in the next edition of this manual All visualization functions can only be programmed in EASY SOFT PRO The Help system in EASY SOFT PRO provides descriptions for all visualization requirements For Immediate Delivery call KMParts com at 866 595 9616 269 06 03 AWB2528 1480GB 270 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 6 easy NET Network COM LINK Serial Connection Introduction to easy NET All MFD Titan units have an easy NET network interface connection This network is designed for eight stations Using the easy NET you can e Process additional inputs and outputs e Implement faster and improved control using decentralised programs e Synchronise date and time e Read and write inputs and outputs e Send values to other stations Receive values from other stations e Load programs from or to any station The easy NET network is based on the CAN network Controller Area Network CAN is specified by the ISO 11898 standard CAN has the following in built features e Message oriented transmission protocol e Multimaster bus access capabilities with non destructive bitwise bus arbitration via priority messaging Arbitration An instance which
214. operation Buttons for drawing circuit diagrams and function block usage Usable relays and function blocks coils Markers analog operands Circuit diagram display Saving and loading programs Working with contacts and relays Creating and modifying connections Inserting and deleting a circuit connection Aborting circuit diagram entry Searching for contacts and coils Go to a circuit connection Deleting the circuit connection Switching via the cursor buttons Checking the circuit diagram Function block editor Checking function blocks Coil functions Function blocks Analog value comparator threshold value switch Arithmetic function block Data block transfer Boolean sequence Counters Frequency counters High speed counters Comparators Text output function block Data function block PID controller Signal smoothing filter GET fetch a value from the network Seven day time switch Year time switch Value scaling Jumps Master reset For Immediate Delivery call KMParts com at 866 595 9616 111 111 111 119 122 125 127 128 131 133 134 134 135 135 136 137 138 142 143 148 150 153 164 175 178 185 189 200 202 203 205 211 214 216 221 225 229 232 3 Contents 06 03 AWB2528 1480GB Numerical converters 233 Operating hours counter 239 PUT send a value ont
215. ording to U R X I 478 Q X 10 mA 4 8 V 56 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 57 Connecting the inputs Connecting high speed counters and frequency generators High speed counter signals on the MFD Titan can be counted correctly on inputs 11 to 14 independently of the cycle time LO1 LO2 L01 gt 1A A Ooo 1 oO ft 24V OV OV 1 12 I wou E a a Eaj l 000 o i Figure 33 High speed counter frequency generator Connecting incremental encoders Inputs 11 12 and 13 14 on the MFD Titan can each be used for the high speed counting of an incremental encoder independently of the cycle time The incremental encoder must generate two 24 V DC square wave signals with a 90 phase shift between them Installation 06 03 AWB2528 1480GB LO1 LO2 L01 0o00 ooo 24V OV OV OOo 000D o a oo i 0o agm S o o 1 12 13 4 15 l6 I7 I 110 111 oo ood oad 0 H oo 8 19 N Figure 34 Connecting incremental encoders Connecting the outputs The Q outputs function inside MFD as isolated contacts 5 IL ey Figure 35 Output Q The respective relay coils are actuated in the MFD c
216. output Q1 of station 3 via the network Both stations have a circuit diagram HI EJSN 01 Figure 136 Circuit diagram in station 4 Set coil 01 in station 3 Figure 137 Circuit diagram in station 3 Get value from coil 01 in station 4 For Immediate Delivery call KMParts com at 866 595 9616 275 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection Functions of the stations in the network The stations on the easy NET can have two different functions e Intelligent stations with their own programs stations 1 to 8 e Input output devices REMOTE IO without their own program stations 2 to 8 _ gt Station 1 must always have a circuit diagram Possible write and read authorisation in the network The stations have differing read and write authorisation in the easy NET network according to their functions and configuration Station 1 Authorised read access to all inputs and outputs of all stations regardless of the function Observe the setting of SEND IO gt Section Send each change on the inputs outputs SEND 10 Page 279 Authorised write access to the station s own local outputs Authorised write access to the physical digital outputs of the stations which are functioning as input output devices Write authorisation to the network bit data 2 to 8 SN 1 to 32 Stations 2 to 8 Input output device function No read and write aut
217. parator Parameter display and parameter set for the comparator CPOe t function block I Ia CF02 Function block analog value comparator number 02 Appears in the parameter display ti Comparison value 1 Ie Comparison value 2 Inputs The function block inputs 11 and Tz can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Contacts e CPO1LT to CP32LT less than Contact make contact switches to status 1 if the value on I 1 is less than the value on I I lt 1 e CPO1EQ to CP32EQ equal to Contact make contact switches to status 1 if the value on T1 is equal to the value on I 2 I I CPO1GT to CP32GT greater than For Immediate Delivery call KMParts com at 866 595 9616 201 Wiring with MFD Titan 06 03 AWB2528 1480GB Contact make contact switches to status 1 if the value at If is greater than the value at I 11 gt I Memory requirement of the counter relay The comparator function block requires 32 bytes of memory plus 4 bytes per constant on the function block inputs Text output function block The MFD device provides 32 function blocks that operate in an easy800 as text output function blocks These function blocks work in the MFD device as contacts a
218. puts Retention Counter relays can be operated with retentive actual values The number of retentive counter relays can be selected in the SYSTEM gt RETENTION menu The retentive actual value requires 4 bytes of memory If a counter relay is retentive the actual value is retained when the operating mode changes from RUN to STOP as well as when the power supply is switched off If MFD is started in RUN mode the counter relay operates with the retentively saved actual value For Immediate Delivery call KMParts com at 866 595 9616 181 Wiring with MFD Titan 06 03 AWB2528 1480GB Function of the counter function block Figure 88 Signal diagram of counter 1 counter coil C C_ 2 upper setpoint value 5H 3 preset actual value 54 4 lower setpoint value L 5 counting direction coil C D_ 6 accept preset actual value coil C SE 7 reset coil C RE 182 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks 8 contact make contact C OF upper setpoint value reached exceeded 9 contact make contact C FB lower setpoint value reached undershot 10 actual value equal to zero 11 out of value range e Range A The counter has the value zero The contacts C ZE actual value equal to zero and C FB lower setpoint value undershot are active The counter receives counter values and increases the actual value C ZE d
219. quences Bl 11 32 JV Counter function block counter input C MED1 92 JV vA For Immediate Delivery call KMParts com at 866 595 9616 119 Wiring with MFD Titan 06 03 AWB2528 1480GB Relay function block MFD Titan Number Coil Parameter display Counter function block direction cx Oo ME0i d2 V JV Counter function block set counter C xX SE ME01 92 VA JV value Preset Counter function block reset counter E X RE BeDt 3e v J value Frequency counter function block CF X EN MEO1 04 JV JV activate counter enable High speed counter function block CH D MEO1 04 JV JV direction High speed counter function block CH X EN MEO1 04 Jv JV activate counter enable High speed counter function block CH X SE MEO1 04 JV J set counter value Preset High speed counter function block CH X RE MEO1 04 JV JV reset counter value Incremental encoder counter function CI X 3E ME01 02 JV JV block set counter value Preset Incremental encoder counter function CI X EW ME01 02 vA vA block activate counter enable Incremental encoder counter function CI X RE ME01 02 vA vA block reset counter value Comparator function block CF MED1 92 JV Activate text output function block D x EN MED1 92 JV JV enable Data function block trigger coil DE X T MED1 92 JV JV PID controller activate oc x EN ME01 92 Jv vA PID controller acti
220. r Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation Number formats MFD makes computations with a signed 31 bit value The value range is 2 147483 648 to 2147 483647 With a 31 bit value the 32nd bit is the sign bit Bit 32 state 0 means a positive number Example 0000 00000000 0000000001000001 001 0pin 41 2hex 1 042dec Bit 32 1 means a negative number Example 11111111111111111101110010101110 bin FFFFDCAEhex 9042 dec The marker byte MB and marker word MW number formats are unsigned Circuit diagram display In the MFD Titan circuit diagram contacts and coils of relays are connected up from left to right from the contact to the coil The circuit diagram is created on a hidden wiring grid containing contact fields coil fields and circuit connections It is then wired up with connections e Insert contacts in the four contact fields The first contact field on the left is automatically connected to the voltage e Insert the relay coil to be controlled together with its function and designation in the coil field The coil designation consists of the coil name coil number and function block from the function designation The coil function defines the method of operation of the coil e Every line in the circuit diagram forms a circuit connection With the MFD Titan up to 256 circuit connections can be wired in a circuit diagram For Im
221. r or threshold value switch you can for example compare analog input values with a setpoint value All MFD Titan DC variants have analog inputs The following comparisons are possible e Function block input I1 greater than or equal to equal to less than or equal to function block input Te e Using the factors F 1 and F 2 as inputs enables you to amplify and adjust the values of the function block inputs e The 0 function block input can be used as an offset for the I4 input e The H function block input is used for the positive and negative switching hysteresis of the input I 2 The contact switches according to the selected comparison mode of the function block 150 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks I Di A 1G1 ran iy Uo ie eee aa 50 02 A 14g1 Fo 03 Figure 83 MFD Titan circuit diagram with analog value comparators Parameter display and parameter set for analog value A d GT t comparators I E a eee ee ee OO Fd A 02 Function block analog value comparator number 02 he aT Greater than mode Fo vos Appears in the parameter display SHY Mi Comparison value 1 FA Gain factor for 11 11 3F1 x value IE Comparison value 2 Fa Gain factor for 12 12 F2 X value 05 Offset for the value of 11 H Switching hysteresis for value 12 Value HY appli
222. ram 3 Controller DC30 Wiring a PID controller You integrate a PID controller in your circuit as a contact and coil H o9 OCOZEM T OCOQZEF T OCIREI T CIEC H OCO25E rao eee ar ae 5M Ab Figure 99 MFD Titan circuit diagram with PID controller Parameter display and parameter set for PID controller Oco2 PID controller function block number 02 UNF Unipolar mode Appears in the parameter display I Setpoint of PID controller Ie Actual value of PID controller KF Proportional gain Kp TH Reset time Tn PTY Rate time Ty For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Parameter UNF Function blocks TC Scan time MY Manual manipulated variable GM Manipulated variable In the parameter display of a PID controller you set the operating mode the setpoints and enable the parameter display Operating modes of the PID controller Manipulated variable is output as Unipolar 12 bit value 0 to 4095 BIF Bipolar 13 bit value signed 12 bit value 4096 to 4095 Inputs The function block inputs I1 12 KF gt TH TY TC and HlM can have the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value
223. rameter display and parameter set for timing relay TOE X MS Tl TO Timing relay function block number 02 Te x On delayed mode Gu H S Time range Minute Seconds Appears in the parameter display i Time setpoint value 1 ble Time setpoint value 12 on a timing relay with 2 setpoint values BM Timed out actual time in RUN mode The parameter display for a timing relay is used to modify the switching function time base or setpoint times and enable the parameter display Timing relay modes Parameter Switch function x On delayed switching oR On delayed with random time range E Off delayed switching Off delayed with random time range xE On and off delayed o Off delayed with random time range setpoint retriggerable 0 Off delayed with random time range retriggerable x On and off delayed switching with random time 2 time setpoints 1 Single pulse switching ll Switch with flashing synchronous 2 time setpoint values 1 Switch with flashing asynchronous 2 time setpoint values 250 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Time range Parameter Time range and setpoint time Resolution 5 000 000 Seconds 0 005 to 2147 483 645 s 596 h for 5ms constants and variable values MS 00 00 Minutes Seconds 00 00 to 99 59 only for 1s constants and variable values H M 00 00 Hours Minutes 00 00 to 99 59 only for 1 min constants and variable values _ gt Mi
224. rameter display and saved with OK 304 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Setting date time and daylight saving time Setting date time and daylight saving time T SETTING Iw w m HH MM OOD 27 DO MM 05 05 YEAR d002 The easy800 devices are equipped with a real time clock with date and time functions The time switch function block can be used to implement time switch applications If the clock has not yet been set or if MFD is switched on after the buffer time has elapsed the clock starts with the setting WE 1 00 01 05 2002 The MFD clock operates with date and time so the hour minute day month and year must all be set The time such as 1 00 indicates the version of the device operating system gt Select SET CLOCK from the main menu This will open the menu for setting the time gt Select SET CLOCK gt Set the values for day time month and year gt Press the OK button to access the Entry mode lt gt Move between the parameters v Change the value OK Save day and time ESC Retain previous setting Press ESC to leave the time setting display For Immediate Delivery call KMParts com at 866 595 9616 305 MFD Settings 06 03 AWB2528 1480GB Changing between winter The easy800 models are fitted with a real time clock The summer time DST clock has various possibilities for changin
225. range Izr HDA Number of bytes MO 18 For Immediate Delivery call KMParts com at 866 595 9616 169 Wiring with MFD Titan 06 03 AWB2528 1480GB The transfer is in byte format MD93 to MD96 is 16 bytes 18 bytes were incorrectly defined as length The error message Number of elements exceeds the destination range is output BTO1E1 is 1 Example Transfer of marker bytes invalid offset error The value of marker byte MB40 is to be transferred to MW54 and subsequent marker words The block length is specified by the value of the counter C 01QV Parameters of BC01 function block Comparison range 1 I1 ME4O Comparison range 2 IT2 MWS4 Number of bytes PHO C Day _ gt The value of C 01QV is 788 This value is too big The value at HQ can be between 1 and 383 The message The specified offset of the destination range is outside of the permissible range is output BTO1E3 is 1 CPY mode copy marker ranges There is one source range and one destination range The source range is specified at 11 The destination range is specified at I R The length of the source and destination range is specified by the number of bytes at the gt Hi input The content of the source range is copied to the marker bytes in the destination range The function block executes the copy operation if there is a rising edge from 0 to 1 at the BT T_ Trigger coil The error outputs E1 E2 and E3 are evaluated regardless of
226. red if the power supply is switched off or if MFD Titan is switched to STOP mode Exception Retentive data keeps its state gt Section Retention Page 316 The most recent actual values are transferred to the operands every cycle The data function block is an exception _ Attention The following applies to RUN mode MFD Titan processes the function block after a pass through the circuit diagram The last state of the coils is used for this gt If you want to prevent other people from modifying the parameters change the access enable symbol from to oon when creating the circuit diagram and setting parameters and protect the circuit diagram with a password For Immediate Delivery call KMParts com at 866 595 9616 149 Wiring with MFD Titan 06 03 AWB2528 1480GB _ gt Attention The function blocks are designed so that a function block output can be assigned directly to the input of another function block This enables you always to have an overview of which value is transferred If different data formats are used such as if the first function block uses 32 bits and an 8 bit or 16 bit format is used for further processing sign value errors or value errors may occur when transferring from one function block to another one Analog value comparator threshold value switch MFD Titan provides 32 analog value comparators from A 01 to A 32 With an analog value comparato
227. resistor e Value 124 Q e Termination connector EASY NT R 66 Installation 06 03 AWB2528 1480GB Cable length and cross sections For correct operation of the network the cable lengths cross sections and cable resistances must correspond to the following table Cable length Cable resistance Cross section m mO m mm2 AWG up to 40 140 0 13 26 up to 175 70 0 25 to 0 34 23 22 up to 250 60 0 34 to 0 5 22 21 20 up to 400 40 0 5 to 0 6 20 19 up to 600 26 0 75 to 0 8 18 up to 1000 16 1 5 16 The surge impedance of the cables used must be 120 Q For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 67 Connecting the NET network Calculating the cable length with known cable resistance If the resistance of the cable per unit of length is known resistance per unit length R in Q m the entire cable resistance R must not exceed the following values R depends on the selected baud rates Baud rate Cable resistance R kBaud Q 10 to 125 50 250 25 500 2 1000 lmax maximum cable length in m Ri Total cable resistance in Q R Cable resistance per unit length in Q m Rt Imax R Calculating cross section with known cable lengths The minimum cross section is determined for the known maximum extent of the network l cable length in m Smin minimum cable
228. rkers of the remote station At the same time the remote station has read and write access to the same marker range Ensure that both stations do not have write access to the same markers simultaneously The last write operation will be the one that is retained Example READ 1MD2 gt 1MD2 WRITE 1MD3 gt 1MD3 The MFD device accesses the markers with station address 1xx These markers correspond to the local markers MD2 and MD3 in the remote station These marker double words contain MD2 MW3 MW4 MB5 MB6 MB7 MB8 M33 to M64 MD3 MW5 MWe MB9 MB19 MB11 MB12 M65 to M96 The following marker ranges can be selected 1MD1 to 1MD20 This corresponds to the following range in the remote station MD1 to MD20 Commissioning READ iMDID WRITE iMDDD iHO00 iHO00 READ iMD1i WRITE iMODD 1HDi 4 iMDOo READ MOAR WRITE iMDDD 1HDi 4 iHO00 READ iMDii WRITE MO 1HDi 4 iHO00 READ iMD11 WRITE iMOME THO 4 iHDi 1 IMR BAUORATE MME 0 REMOTE MARKER FR D2 02 I i2 4 67 I COM 06 03 AWB2528 1480GB gt Press the OK button gt Use the button to select the start of the READ marker range gt Use the gt button to enter the upper limit of the READ range gt Use the button to select the value gt Confirm the entry with the OK button gt Use the v button to en
229. rocessed FOG De FG De Jump to label 8 Co D8 P1mmnumammaf f Range to jump label 8 skipped Dect 13 T T Oe amp Iz I 13 U Jump label 8 circuit diagram amp 04 T I KINGET 7 processed from this point on Master reset The master reset function block allows you to reset the state of the markers and all outputs to the 0 state with a single command Depending on the operating mode of this function block it is possible to reset the outputs only or the markers only or both 32 function blocks are available H h E MRT Figure 111 MFD Titan circuit diagram with master reset function block Parameter display and parameter set for the master MRib amp t reset function block MF amp Master reset function block number 16 a Reset outputs mode Appears in the parameter display 232 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Operating modes e Q Acts on the outputs Q Q S S SN QA01 network station address e M acts on the marker range MDO1 to MD48 e ALL acts on Q and M Contacts MRO1Q1 to MR32Q1 The contact switches on the marker if the trigger coil MR T has the 1 state Coils MRO1T to MR32T trigger coils Memory requirement of the data function block The master reset function block requires 20 bytes of memory Functi
230. rops out as well as C FB and also when the lower setpoint value is reached e Range B The counter counts upwards and reaches the upper setpoint value The upper setpoint value reached contact C OF becomes active e Range C The coil C SE is briefly actuated and the actual value is set to the preset actual value The contacts go to the respective position e Range D The counting direction coil C D_ is actuated If counting pulses are present downward count is initiated If the lower setpoint value is undershot the contact C FB becomes active e Range E The reset coil C RE is activated The actual value is set to zero The contact C ZE is active e Range F The actual value goes outside the value range of the counter The contacts become active according to the direction of the values positive or negative For Immediate Delivery call KMParts com at 866 595 9616 183 Wiring with MFD Titan 06 03 AWB2528 1480GB High speed counters MFD Titan provides various high speed counter functions These counter function blocks are coupled directly to the digital inputs The high speed counter functions are only available with MFD DC inputs The following functions are possible e Frequency counters measure frequencies CF e High speed counters count high speed signals CH e Incremental encoder counters count two channel incremental encoder signals CI The high speed digi
231. ry call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data Dimensions of the MFD CP8 power supply CPU module 38 75 pla 30 bla 38 75 gt 45 gt 16 25 75 i 16 25 La 29 5 Leg 107 5 gt Dimensions of the MFD R I O module MFD T A pes 88 1 m 19 25 For Immediate Delivery call KMParts com at 866 595 9616 349 Appendix 06 03 AWB2528 1480GB General ambient conditions Climatic conditions damp heat constant to IEC 60068 2 78 cyclical to IEC 600618 2 30 cold to IEC 60068 2 1 heat to IEC 60068 2 2 Ambient temperature C F 25 to 55 13 to 131 Installed horizontally vertically Condensation power supply unit CPU Prevent condensation with inputs outputs suitable measures Display legibility C F 5 to 50 23 to 122 Storage transport temperature C F 40 to 70 40 to 158 Relative humidity IEC 60068 2 30 5 to95 non condensing Air pressure operation hPa 795 to 1080 Ambient mechanical conditions Pollution degree Power supply unit CPU inputs 2 outputs Display operating unit 3 Degree of protection EN 50178 IEC 60529 VBG4 Power s
232. ry call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Connecting the inputs OO COVCOVO VOY VOYVOE Q E E R1 R2 R3 R4 R5 R6 R7 RB RI R10 R11 R12 L N 115 230 V Figure 25 easy AC with a diode on the inputs Two wire proximity switches have a residual current with the 0 state If this residual current is too high the easy input may detect a 1 signal If inputs with a higher input current are required an additional input circuit must be used Increasing the input current The following input circuit can be used in order to prevent interference and also when using two wire proximity switches le AN fom aa n 4 SG N E E R1 R2 R3 R4 R5 R6 R7 RB RO R10 R11 R12 L N N i 115 230 V Figure 26 Increasing the input current For Immediate Delivery call KMParts com at 866 595 9616 52 Installation 06 03 AWB2528 1480GB When using a 100 nF capacitor the drop out time of the input increases by 80 66 6 ms at 50 60 Hz A resistor can be connected in series with the circuit shown in order to restrict the inrush current tal TTI 100 nF 275 V OSO COOCSOSSOGSY SASSO E E R1 R2 R3 R4 R5 R6 R7 RB RI R10 R11 R12 L N N L 115 230 V Figure 27 Limitation of the inrush current with a resistor Complete devices for increasing the input current are available under t
233. ry management of the MFD Titan The MFD is provided with three different memories e The working memory or RAM size 8 KByte The RAM only stores the data when the device power supply is active e The mask memory size 24 KByte The mask memory stores the visualization data created with EASY SOFT PRO retentively e The program memory size 8 KByte The program memory stores the program retentively Distribution of data in the RAM When the power supply is switched on the RAM stores the program the retentive data and the masks to be displayed This has a direct effect on the size of the program and the masks The number of retentive data bytes reduces the memory available for program and masks The largest mask to be displayed likewise reduces the memory available for the program For Immediate Delivery call KMParts com at 866 595 9616 327 Inside MFD 06 03 AWB2528 1480GB Only use as much retentive data as is actually required The mask with the largest memory requirement reduces the memory available for the program Several smaller masks allow more space for the program Use as small pictures as possible with 1 bit greyscale The pictures should normally be 32 x 32 pixels in size in order to fully utilise the optimum brilliance of the display Delay times for inputs and outputs The time from reading the inputs and outputs to switching contacts in the circuit diagram can be set in MFD via the delay time This
234. s one marker double word 1MD MD is consistent Within a program cycle a marker double word that is overwritten via COM LINK is not constant The data via the COM LINK is written to the status image over the course of the program cycle This means that a different marker value can be present at the start of the program cycle to after the write operation via COM LINK Sign of life detection COM LINK diagnostics contact ID09 In order to determine the proper functioning of the COM LINK connection the diagnostics contact ID09 is provided on the active station of the COM LINK connection 292 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Introduction to COM LINK Status of diagnostics Status of the connection contact ID09 o COM LINK connection operating correctly or no COM LINK connection selected os Oa COM LINK connection not functioning faulty The time required to detect that the COM LINK is not working properly depends on the baud rate selected and the event concerned Baud rate Time required for detection of faulty COM LINK connection CRC error data content No response no hardware incorrect connection remote station not in operation 9600 Baud 250 ms 1 55 19200 Baud 120 ms 0 85 Attention If the states of the inputs outputs or data are required by a station without fail the respective diagnostics contact should be evaluated and the information app
235. s com at 866 595 9616 06 03 AWB2528 1480GB Memory requirement Memory requirement The following table provides an overview of the memory requirement of the easy800 circuit connections function blocks and their respective constants Space requirement per Space requirement per circuit conn function block constant on the function block input Byte Byte Circuit connection 20 Function blocks A 68 4 AR 40 4 BC 48 4 BT 48 4 BV 40 4 C 52 4 CF 40 4 CH 52 4 Cl 52 4 CP 32 4 D 160 DC 96 4 DB 36 4 FT 56 4 GT 28 HW 68 4 per channel HY 68 4 per channel LS 64 4 LS 64 4 MR 20 NC 32 4 For Immediate Delivery call KMParts com at 866 595 9616 371 06 03 AWB2528 1480GB Appendix Space requirement per Space requirement per circuit conn function block constant on the function block input Byte Byte OT 36 4 PT 36 4 PW 48 4 SC 20 ST 24 4 T 48 4 VC 40 4 372 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Index Actual Vales riisiin iian 149 Add Gir cuit connect oN Sansuna 84 Switching CONtACE eseresorerenetnt enS 83 Breakscontact ccdiinwaicuidnniunianaician 114 NVORTING ieioea nein treine 132 Bus termination resistor ccccscssesecsecsecseeseeeeees 65 Button ALT minuna iniaa a 84 DE are eea A A N E A 84 Ol EE EAE ae 81 112 BUTONS seis ati
236. s com at 866 595 9616 187 Wiring with MFD Titan 06 03 AWB2528 1480GB Function of the frequency counter function block a ty pa E pha E pha E pha E tt Figure 90 Signal diagram of frequency counter counter input 11 to 14 upper setpoint value 5H lower setpoint value 5L enable CF EN contact make contact CF OF upper setpoint value exceeded contact make contact CF FB lower setpoint value undershot actual value equal to zero CF ZE tg gate time for the frequency measurement YOON BWDN 188 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks e The first measurements are made after the CF EN enable signal has been activated The value is output after the gate time has timed out e The contacts are set in accordance with the measured frequency e If the CF EN enable signal is removed the output value is set to zero High speed counters MFD Titan provides four high speed up down counters CH01 to CH04 for use The high speed frequency counters are hardwired to the digital inputs 11 to 14 These counter relays allow you to count events independently of the cycle time You can enter upper and lower threshold values as comparison values The contacts will switch according to the actual value To specify a start value for example counting from the value 1989 this can be implemented using a CH counter The CH counters
237. s for the function block can be saved in this manner GTI 1 amp 1 DBT DEY bi Z D IEH Figure 97 MFD Titan circuit diagram with data function block Parameter display and parameter set for the data function block DE16 Data block function block number 16 Appears in the parameter display ti Input value Gh Actual value Inputs The function block input 14 can be assigned the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 For Immediate Delivery call KMParts com at 866 595 9616 203 Wiring with MFD Titan 06 03 AWB2528 1480GB IA03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Output The function block output QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 Contacts DB01Q1 to DB32Q1 Contact make contact DB Q1 switches to status 1 if the trigger signal is set to 1 Coils DBO1T_ to DB32T_ acceptance of the value at gt 11 with a rising edge Memory requirement of the data function block The data block function block requires 36 bytes of memory plus 4 bytes per constant at the function block input Retention Data function blocks can be operated with retentive actual values The quantity can be selected in the SYSTEM gt RETENTI
238. se note the following when switching off inductive loads Suppressed inductive loads cause less interference in the entire electrical system For optimum suppression the suppressor circuits are best connected directly in the proximity of the inductive load If inductive loads are not suppressed the following applies Several inductive loads should not be switched off simultaneously to avoid overheating the driver blocks in the worst possible case If in the event of an emergency stop the 24 V DC power supply is to be switched off by means of a contact and if this would mean switching off more than one controlled output with an inductive load then you must provide suppressor circuits for these loads gt following diagrams 24V U U lt 33V emax Z QS QS OV Figure 41 Inductivity with suppressor circuit Behaviour with short circuit overload Should a short circuit or overload occur on a transistor output this output will switch off The output will switch on up to maximum temperature after the cooling time has elapsed This time depends on the ambient temperature and the current involved If the fault condition persists the output will keep switching off and on until the fault is corrected or until the power supply is switched off gt Section Monitoring of short circuit overload with EASY D T Page 331 62 For Immediate Delivery call KMParts com at 866 595 9616 06 03
239. shing the inputs and outputs are shown For Immediate Delivery call KMParts com at 866 595 9616 95 Commissioning 06 03 AWB2528 1480GB Configuring the interface If you wish to set up point to point communication with for the COM LINK mode another station this can be done using either the serial interface or easy NET The MFD must be provided with a display and operating unit The connection must be configured for this purpose gt see also 286 gt Ensure that the other station supports the COM LINK mode Proceed as follows gt Connect both stations together Only use original connection cables The connector marked POW Side must be plugged into an MFD The MFD feeds the interface electronics of the connection line at both ends gt Connect both stations to the power supply Figure 61 Example with both COM stations The MFD is the active station and the second station is the remote station gt Switch on the power supply at both stations 96 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Configuring the interface for the COM LINK mode gt Ensure that the power supply for both stations is switched on The POW LED must light up or flash It is only possible to configure the stations which have an active power supply gt Go to the MFD device that is the active station running the serial interface _ The following
240. showing the Status display or a text For Immediate Delivery call KMParts com at 866 595 9616 279 easy NET Network COM LINK 06 03 AWB2528 1480GB Serial Connection The following is of utmost importance during commissioning Attention If several engineers are commissioning a machine or system involving several spatially separated elements via the easy NET network it must be ensured that REMOTE RUN is not activated Otherwise unwanted machine or system starts may occur during commissioning The associated events depend on the machines or systems involved REMOTE RUM factory default setting Input output device REMOTE I0 configuration All devices are factory set for operation as input and output devices This has the advantage that devices can be used immediately as I O devices regardless of whether they have a display or not You only need to assign the station number This can be implemented via EASY SOFT PRO or on a Station 1 with a display If you want to assign a device as an intelligent station on the network the REMOTE IO should be deactivated REMOTE 10 Figure 138 Remote IO deactivated 280 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Configuration of the easy NET network The standard settings for the input and output devices are SEND 10 f REMOTE RUN lt REMOTE IO y Station number easy NET ID and baud rat
241. sks are the sections of programs containing the display and operator functions Relays Relays are switching devices which are electronically simulated in MFD Titan They actuate their contacts according to their designated function A relay consists of a coil and at least one contact Contacts You modify the current flow with the contacts in the MFD Titan circuit diagram Contacts such as make contacts carry a 1 signal when closed and 0 when open Every contact in the MFD Titan circuit diagram can be defined as either a make contact or a break contact For Immediate Delivery call KMParts com at 866 595 9616 113 Wiring with MFD Titan 06 03 AWB2528 1480GB Coils Coils are the actuating mechanisms of relays In RUN mode the results of the wiring are sent to the coils which switch on or off accordingly Coils can have seven different coil functions Table 6 a Usable contacts Contact MFD Titan display Make contact open in release I H A position Other contacts gt Table Break contact closed in release I M A j position Other contacts gt Table MED Titan works with different contacts which can be used in any order in the contact fields of the circuit diagram Table 7 a Contacts Contact Make contact Break contact Number Page Inputs Inputs of a network station 1 1 11 12 274 Station address 1 to 8 COM slave inputs iI il Di i MFD Titan inp
242. ss 1 to 8 Output of COM slave expansion 15 is 01 08 MFD Titan output expansion Z 5 11 08 Bit outputs via the network 5H 54 11 32 274 Station address 1 to 8 For Immediate Delivery call KMParts com at 866 595 9616 115 Wiring with MFD Titan 06 03 AWB2528 1480GB Contact Make contact Break contact Number Page Other contacts Markers H H 01 16 122 COM slave marker iH iH 11 46 289 REMOTE MARKER Jump label Di 42 229 Diagnostics messages ID ID 11 16 283 COM slave diagnostics messages 110 110 Di ib 289 Function blocks Analog value comparator function AX 4 Ax gi MeDi d2 150 block Arithmetic value overflow CARRY AR x CY AR Xx CY ME01 d2 153 function block Zero arithmetic value zero function AR ZE AR ZE KE01 d2 153 block Data block comparator function EC X Ei EC x Ei MeQi d2 157 block error number of elements exceeded Data block comparator function EC X Ee EC x Ee x 01 383 157 block error range overlap Data block comparator function EC X EJ EC x EJ x 01 38 157 block error invalid offset Data block comparator function EC X EQ EC x EQ MeDi d2 164 block comparison result Data block comparator function ET X Ei ET x El MeDi d2 164 block error number of elements exceeded Data block transfer function block ET Ez ET Ez ME01 92 164 error range overlap Data block transfer function block ET E ET
243. ss of dust liquids etc For this use the specially designed protective membrane Fit the protective membrane before mounting the display operating unit 28 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Mounting Figure 5 T Fitting the protective membrane Protective membrane display operating unit module gt Place the protective membrane over the display operating unit Caution Ensure that the membrane fits snugly in the groove of the display operating unit Otherwise a proper seal cannot be guaranteed and particles may enter underneath the membrane This may cause malfunctions in the keypad In food industry applications there is the risk of bacteria building up underneath the membrane For Immediate Delivery call KMParts com at 866 595 9616 29 Installation 06 03 AWB2528 1480GB Figure 6 Correct position of the protective membrane gt If the protective membrane has to be replaced the display operating unit has to be removed Replace the membrane and refit the device Mounting the protective cover The protective cover is provided for using the device in aggressive environments This protects the display and the operating unit against mechanical damage or destruction Protection to IP65 is maintained The protective cover can be opened so that the operating unit can be used The protective cover c
244. sure a clear separation of the write range of the two stations The active station should write different markers to the remote station Otherwise the markers in the last write operation will be overwritten Configuration of the COM LINK The active station must have the following settings in order for the COM LINK connection to be functional e Baud rate e COM LINK active e Remote marker range data exchange range Baud rate COM LINK The baud rate can be 9600 baud or 19200 baud In normal applications select the higher baud rate of 19200 baud The baud rate of 9600 baud should only be selected if the connection is frequently faulty Factory setting 9600 baud 290 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB BRUORATE 142006 COM LINK y REMOTE MARKER READ 1MD11 iMDI15 WRITE iMDib iMD1E Introduction to COM LINK Activating COM LINK COM LINK must be activated in order for it to function Factory setting not active The tick on the COM LINK menu item indicates that COM LINK is active Remote markers COM LINK data exchange range The REMOTE MARKER menu only opens if a tick is displayed next to COM LINK Select the REMOTE MARKER menu option Here you can determine select and modify the data exchange range In the example the READ range was selected with the marker double words MD11 to MD15 The WRITE range consists of th
245. sword Correct Status display entry MFD Titan system menu gt The System menu is accessed by simultaneously pressing DEL and ALT Password entry SVSTEN MENU LANGUAGE CONFIGURATOR ACTIVATE PU CHANGE Fu CHANGE Change delete Password ACTIVATE Pu PASSWORD ACTIVATE Pili CHANGE Fu PROGRAM lt RANGE PARAMETERS gt PARAMETERS f TIME TIME J OPERATING MODE OPERAT INGMODE INTERFACE DELETE FUNCTION INTERFACE lt DELETE FUNCTION For Immediate Delivery call KMParts com at 866 595 9616 21 22 MFD Titan System menu 06 03 AWB2528 1480GB SECURITY 3 5 7TEM HENU ie CONFIGURATOR Retention only in STOP mode DEBOUNCE lt DEBOUNCE lt P BUTTONS F BUTTONS lt RUN MODE RUN MODE lt CARD MODE CARD MODE lt TERMINAL MODE TERMINAL MODE DISPLAY DISPLAY RETENTION RETENTION INFORMATION INFORMATION RUN MODE CARD MODE TERMINAL MODE RETENTION INFORMATION CONTRAST LIGHTING 15 DEBOUNCE J F BUTTONS RUN MODE CARD MODE TERMINAL MODE DISPLAY RETENTION INFORMATION DEBOUNCE lt F BUTTONS RUM MODE CARO MODE TERMINAL MODE DISPLAY RETENTION For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB System menu MFD operation
246. t make contact T Q1 e Range A The trigger signal is short and is lengthened e Range B The Trigger signal is longer than the set time e Range C The Stop coil interrupts the timing out of the set time 260 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Figure 128 Signal diagram of timing relay single pulse 2 e Range D The Reset coil resets the timing relay e Range E The Reset coil resets the timing relay The Trigger coil is still activated after the Reset coil has been deactivated and the time is still running Timing relay synchronous and asynchronous flashing Time value gt I1 Pulse time Time value gt l2 Pause time Synchronous symmetrical flashing gt 11 equal gt 12 Asynchronous flashing gt 11 not equal gt 12 It det Il l1 I1 V4 0O Il I1 TT i ta Melt E t fe E t E st Etat saf ts tha t2 t2 t2 bsta A B ja gt Figure 129 Signal diagram of timing relay synchronous and asynchronous flashing 1 trigger coil T EN For Immediate Delivery call KMParts com at 866 595 9616 261 Wiring with MFD Titan PIi 5H PSL BM Wee 06 03 AWB2528 1480GB stop coil T ST reset coil T RE switching contact make contact T Q1 Range A The relay flashes for as long as the Trigger coil is activated e Range B The Stop coil
247. t regardless of whether it is an easy800 or an MFD In this mode the MFD makes its keypad and display available to the other device for use Two devices MFD easy800 or MFD can be connected simply via the serial interfaces Circuit diagrams are connected up using ladder diagrams and each element is entered directly via the MFD display For example you can e connect make and break contacts in series and in parallel e switch output relays and auxiliary contacts define outputs as coils impulse relays rising or falling edge triggered relays or as latching relays 10 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB For Immediate Delivery call KMParts com at 866 595 9616 11 Overview select timing relays with different functions on delayed on delayed with random switching off delayed off delayed with random switching on and off delayed on and off delayed with random switching on and off delayed with random switching single pulse synchronous flashing asynchronous flashing use up and down counters count high speed signals up and down counters with upper and lower limit values preset frequency counters high speed counters count incremental encoder values compare values display graphics texts variables enter setpoints display flashing values and graphics change and replace graphics and t
248. tal inputs are 11 to 14 The following wiring rules apply e 1 CFO1 or CHO1 or Cl01 e 2 CFO2 or CHO2 or Cl01 e 3 CF03 or CHO3 or Cl02 e 14 CF04 or CH04 or C102 Every digital input may only be used once by the CF CH Cl function blocks The incremental encoder requires an input pair Example e 1 high speed counter CHO1 e 2 frequency counter CF02 e 3 incremental encoder channel A CI02 e 4 incremental encoder channel B C102 Attention If an input is used several times the last counter in the function block list is executed 184 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Example function block list in the FUNCTION RELAYS menu CID cF CHI All function blocks access digital input 11 Only CHO1 supplies the correct value Frequency counters MFD Titan provides four frequency counters which are CF01 to CF04 The frequency counters can be used for measuring frequencies You can enter upper and lower threshold values as comparison values The high speed frequency counters are hardwired to the digital inputs 11 to 14 The CF frequency counters operate independently of the cycle time Counter frequency and pulse shape The maximum counter frequency is 3 kHz The minimum counter frequency is 4 Hz The signals must be square waves The mark to space ratio is 1 1 Measurement method The pulses on the input are counted for
249. tasks are only possible in STOP mode Setting up the COM LINK Caution The MFD device can either run as a station on the easy NET or as a station in a COM LINK connection Do not switch an MFD device running as an easy NET station to COM LINK If this is done on easy NET in RUN mode the entire easy NET network will be deactivated There will be no further data transfer Solution gt Deactivate the COM LINK gt Re enter the easy NET address gt Switch the power supply off and then on again gt Reconfigure the easy NET on station 1 gt Simultaneously press the DEL and ALT buttons with the Status display active SECURITY The System menu appears SYSTEM i MENU LANGUAGE Select the CONFIGURATOR menu option iat gt Press the OK button Select the COM menu option gt Press the v button HET COM gt Press the OK button LINK For Immediate Delivery call KMParts com at 866 595 9616 97 Commissioning BRUDRATE 1E C M LINE p REMOTE MARKER _ gt BRUDRATE 192006 COM LINK REMOTE MARKER BAUDRATE 142006 rnk l THE 7 ol ST REMOTE MARKER 06 03 AWB2528 1480GB The menu BAUDRATE 9600B will appear The two baud rates are for 9600 or 19200 baud Select the baud rate that your connection will support Baud rate selection Select 19200 baud as the baud rate Badly laid cables may give ris
250. tch off and isolate e Ensure that the device is no longer live e Secure against reclosing e Short circuit and ground e Cover adjacent live parts The MFD is installed in the following order e Mounting e Wiring up the inputs e Wiring up the outputs e Wiring up the NET network if required e Setting up the serial interface if required e Connecting the power supply Mounting For Immediate Delivery call KMParts com at 866 595 9616 27 Install the display operating unit of the MFD in the front of a control cabinet a service distribution board operator panel or in an enclosure Install the power supply CPU module and the input output module so that all the terminals are protected against direct contact liquids and dust during operation When using the MFD without a display operating unit snap it onto a DIN EN 50022 top hat rail or fix it in place using fixing brackets The MFD can be mounted either vertically or horizontally Installation 06 03 AWB2528 1480GB When using the MFD with expansion units connect the expansion concerned before mounting see gt page 45 For ease of wiring leave a gap of at least 3 cm between the MFD terminals and the wall or adjacent devices fo N 30 a yho VA Figure 4 Clearances to the MFD Fitting the protective membrane For special applications such as in the food industry the operating unit must be protected against the ingre
251. te Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Password protection Password incorrect or no longer known If you no longer know the exact password you can try to re enter the password several times _ The DELETE FUNCTION has not been deactivated You have entered an incorrect password ENTER PASSWORD Peer ed gt Re enter the password F After the fourth entry attempt MFD will ask whether you DELETE ALL wish to delete the circuit diagram and data gt Press ESC No entry will be deleted OK Circuit diagram data and password are deleted MFD will return to the Status display gt If you no longer know the exact password you can press OK to unlock the protected MFD The saved circuit diagram and all function relay parameters will be lost Pressing ESC will retain the circuit diagram and data You can then make another four attempts to enter the password For Immediate Delivery call KMParts com at 866 595 9616 301 MED Settings 06 03 AWB2528 1480GB Changing the menu MFD Titan provides ten menu languages which are set as language required via the System menu Language Display English ENGLISH German DEUTSCH French FRANCAIS Spanish ESPANOL Italian ITALIANO Portuguese PORTUGUES Dutch HEDERLANDS Swedish SVENSKA Polish POLSKI Turkish TURKCE Language selection is only possible if MFD is not password protecte
252. teed for 1010 read write cycles Setting retentive behaviour Requirement MFD must be in STOP mode gt Switch to the System menu If MFD is protected by a password the System menu will not be available until MFD is unlocked see gt Section Unlocking MFD from Page 299 The default setting of MFD is for no retentive actual value data to be selected When MFD is in STOP mode or has been switched to a de energized state all actual values are cleared gt Switch to STOP mode gt Switch to the System menu gt Proceed to the SYSTEM menu and continue to the RETENTION menu gt Press the OK button For Immediate Delivery call KMParts com at 866 595 9616 317 MED Settings ME O00 gt ME DI C f0 gt D CH 00 gt CH D0 BE 200 CI 00 CI Di DE 00 gt OB D0 T M T Di BE 200 gt ME Di gt ME 4 C dir C b CH 00 CH D0 CI 00 CI D DE 01 gt DE ib T fh T de EB 016 06 03 AWB2528 1480GB The first screen display is the selection of the marker range gt Select a range gt Press OK to access the Entry modes lt gt Select a position from to A Set a value gt Save the input from to with OK Press ESC to exit the input for the retentive ranges Up to six different ranges can be selected The display on the lower right E 210 indicates the number of free bytes Example MB 01 to MB 04
253. ter the WRITE range Enter the WRITE range gt Press ESC to leave the entry menu The COM LINK has now been set No COM settings are required at the remote station gt Press ESC to return to the Status display The entry in the second COM line indicates that the COM connection is active 100 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Terminal mode Terminal mode Terminal mode The MFD device also supports the TERMINAL MODE operating mode This allows you to remotely control other devices This is especially useful if the other device is located in an inaccessible place Terminal mode can also be used to show the menus and displays of devices that do not have their own display or operating unit Terminal mode can be used both with the serial interface and in the easy NET The serial interface enables you to access a remote device If you use the easy NET network all other network stations can be addressed _ Terminal mode is a separate operating mode like RUN mode It only functions when a program is not running For this mode to be active the MFD must be in STOP mode gt All connected devices must also support Terminal mode The following topologies are permissible For Immediate Delivery call KMParts com at 866 595 9616 101 102 Commissioning 06 03 AWB2528 1480GB Terminal mode using the point to point serial interface Figure 62
254. the circuit diagram e In RUN mode it is used to check the circuit diagram using the Power flow display 126 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation Saving and loading programs MFD Titan provides you with two ways of saving circuit diagrams externally e Saving to a memory card e Saving on a PC with EASY SOFT PRO Once they have been saved programs can be reloaded into MFD Titan edited and run All program data is saved in MFD Titan In the event of a power failure the data will be retained until the next time it is overwritten or deleted Memory card Each memory card contains a circuit diagram which is inserted into the MFD Titan interface The MFD Titan behaves in the following manner in accordance with the type and setting Requirement A valid circuit diagram must be stored on the card Variants with display gt Go to the CARD menu and load the circuit diagram into the unit in STOP mode via CARD gt DEVICE CARD MODE setting gt page 312 Variants without display If the circuit diagram on the card is different to the circuit diagram in the device the program from the card is loaded as soon as the power supply is turned on EASY SOFT PRO EASY SOFT PRO is a PC program for creating testing and managing MFD Titan programs visualization applications and circuit diagrams Completed programs are exchanged between the PC and MFD Tita
255. the value range ARO1ZE to AR32ZE ZERO zero bit value on function block output is equal to zero Coils The arithmetic function block does not have any coils Memory requirement of the arithmetic function block The arithmetic function block requires 40 bytes of memory plus 4 bytes per constant on the function block inputs Addition 42 1000 1042 2147483647 1 last valid value of this arithmetic operation due to overflow CARRY AR CY Status 1 For Immediate Delivery call KMParts com at 866 595 9616 155 Wiring with MFD Titan 06 03 AWB2528 1480GB 2 048 1000 1048 Subtraction 1134 42 1092 2 147 483 648 3 last valid value of this arithmetic operation due to overflow CARRY AR CY Status 1 4096 1000 5096 4096 1 000 3096 Multiplication 12 x 12 144 1000042 x 2401 last valid value of this arithmetic operation due to overflow CARRY Correct value 2401100842 AR CY Status 1 1000 x 10 10000 Division 1024 256 4 1024 35 29 the places after the decimal point are omitted 1024 0 last valid value of this arithmetic operation due to overflow CARRY mathematically correct Infinite AR CY Status 1 1 000 10 100 1000 10 100 1 000 10 100 10 100 0 156 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB ECET I tI NO Function blocks
256. tination is not present the jump is made to the end of the circuit diagram Multiple use of the same jump coil and jump contact is possible as long as this is implemented in pairs i e Coil 1 jumped range Contact 1 Coil 1 jumped range Contact 1 etc 230 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB V Function blocks Attention If circuit connections are skipped the states of the coils are retained The time value of timing relays that have been started will continue to run Power flow display Jumped ranges are indicated by the coils in the power flow display All coils after the jump coil are shown with the symbol of the jump coil Example A selector switch allows two different sequences to be set e Sequence 1 Switch on Motor 1 immediately e Sequence 2 Switch on Guard 2 Wait time then switch on Motor 1 Contacts and relays used e 1 Sequence 1 e 2 Sequence 2 e 3 Guard 2 moved out e 112 Motor protective circuit breaker switched on e Q1 Motor 1 e Q2 Guard 2 e T O14 Wait time 30 00 s on delayed e O14 Text motor protective circuit breaker tripped For Immediate Delivery call KMParts com at 866 595 9616 231 Wiring with MFD Titan 06 03 AWB2528 1480GB Circuit diagram Power flow display 01 selected I li Co DiI Dieem f Of I D E D2 I D H H H seo i oq mee 4 Range from jump label 1 p
257. tion that you want to delete Press ALT to switch to Connect mode gt Press DEL MFD Titan will delete a connection Closed adjacent connections will be retained 132 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Working with contacts and relays If several circuit connections are connected to one another MFD Titan first deletes the vertical connection If you press DEL again it will delete the horizontal connection as well _ You cannot delete connections that MFD Titan has created automatically Close the delete operation with ALT or by moving the cursor to a contact or coil field Inserting and deleting a circuit connection The MFD Titan circuit diagram display shows three of the 256 circuit connections on the display at the same time MFD Titan automatically scrolls up or down the display to show hidden circuit connections even empty ones if you move the cursor past the top or bottom of the display A new circuit connection is added below the last connection or inserted above the cursor position gt Position the cursor on the first contact field of a circuit connection gt Press ALT The existing circuit connection with all its additional connections is shifted downwards The cursor is then positioned directly in the new circuit connection fear eae Figure 69 Inserting a new circuit connection For Immediate Delivery call KMP
258. to switch to the main menu The PASSWORD entry will flash gt Press OK to enter the password entry menu If MFD shows PROGRAM in the main menu instead of PASSWORD this means that there is no password protection active MED will display the password entry field gt Set the password using the cursor buttons gt Confirm with OK If the password is correct MFD will return automatically to the Status display The PROGRAM menu option is now accessible so that you can edit your circuit diagram The System menu is also accessible For Immediate Delivery call KMParts com at 866 595 9616 299 MED Settings ACTIVATE PU ENTER FASSHORD 110005 ENTER FASSHORD 06 03 AWB2528 1480GB Changing or deleting the password range gt Unlock MFD gt Press DEL and ALT to call up the System menu gt Open the password menu via the menu option SECURITY and PASSWORD The CHANGE PW entry will flash MED will only show this password menu if a password is present gt Press OK to enter the password entry menu gt Use OK to move to the 6 digit entry field gt The current password will be displayed gt Modify the six password digits using the cursor buttons gt Confirm with OK Use ESC to exit the security area Deleting Use number combination 000000 to delete a password If a password has not been entered already MFD will show six dashes For Immedia
259. ttons With MFD Titan you can also use the four cursor buttons as hard wired inputs in the circuit diagram P02 The buttons are wired in the circuit diagram as contacts F 04 toF I4 The P buttons can be activated and P01 P03 deactivated in the gt System menu P04 The P buttons can also be used for testing circuits or manual operation These button functions are also useful for servicing and commissioning purposes Example 1 A lamp at output Q1 is switched on and off via inputs 11 and 12 or by using cursor buttons v aaa SRH F D2 A Re Oi P D4 Figure 70 Switch Q1 via 11 12 A or Example 2 Input 11 is used to control output Q1 I5 switches over to cursor operation and via 14 disconnects the circuit connection I 01 I SM Oi ei en cca oe ZRH F Di Di Figure 71 15 switches over to the cursor buttons gt The P buttons are only detected as switches in the Status menu 136 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 1123456185 Fe MO 74 55 G 2 b 8 RUH Working with contacts and relays The Status menu display shows whether the P buttons are used in the circuit diagram Displayed on the Status display e P button function wired and active e P2 button function wired active and P2 button pressed e P button function wired and not active e Empty field P buttons
260. ue and the enable of the parameter display Value range The function block operates in the integer range from 0 to 5000 1 kHz 1 1000 Behaviour when value range is exceeded The value range cannot be exceeded as the maximum measured value is less than the value range Inputs The function block inputs H and SL can have the following operands 186 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Actual value QV gt The actual value QV gt can be assigned the following operands e Markers MD MW MB e Analog output QA01 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts e CFO1OF to CFO40F Actual value Upper setpoint e CFO1FB to CFO4FB Actual value Lower setpoint e CFOIZE to CFO4ZE Actual value Zero Coils CFO1EN to CFO4EN enable of the counter with coil status 1 Memory requirement of the frequency counter The frequency counter function block requires 40 bytes of memory plus 4 bytes per constant on the function block inputs Retention The frequency counter does not retain actual values as the frequency is remeasured continuously For Immediate Delivery call KMPart
261. uires via the GET function block Figure 114 MFD Titan circuit diagram with PUT function block 240 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB FTOi 11 I Function blocks Parameter display and parameter set for the PUT function block FTI PUT function block places a value onto the network number 11 Does not appear in the parameter display HI Setpoint value which is put onto the easy NET network Input The function block input I 1 can be assigned the following operands e Constants e Markers MD MW MB e Analog inputs IA01 to 1404 1A01 terminal 17 1A02 terminal 18 1A03 terminal 111 1A04 terminal 112 e Analog output QA01 e Actual value QV gt of another function block Contacts PT01Q1 to PT32Q1 state of the trigger coil Coils PTO1T to PT32T trigger coils Memory requirement of the PUT function block The PUT function block requires 36 bytes of memory plus 4 bytes per constant on the function block input PUT diagnostics The PUT function block only functions when the easy NET network is functioning correctly gt Section Signs of life of the individual stations and diagnostics Page 282 For Immediate Delivery call KMParts com at 866 595 9616 241 Wiring with MFD Titan 06 03 AWB2528 1480GB Function of the PUT function block Figure 115 Signal diagram of PUT function block 1 trigger coil
262. uit diagram of a self latching circuit If 11 and 12 are closed the switching state of relay coil amp D is latched via contact 01 e 1st cycle Inputs 11 and 12 are switched on Coil Q1 picks up e Contact 01 remains switched off since MFD evaluates from left to right The first coil field was already passed when MFD refreshes the output image in the 6th segment e 2nd cycle The self latching now becomes active MFD has transferred the coil states at the end of the first cycle to contact 01 Example Do not wire backwards This example is shown in Section Creating and modifying connections Page 131 It was used here to illustrate how NOT to do it In the third circuit connection MFD finds a connection to the second circuit connection in which the first contact field is empty The output relay is not switched 326 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Program cycle When wiring more than four contacts in series use one of the marker relays I Di D4 7 03 1 05 HN I D 1 D4 H 1 02 Figure 141 Circuit diagram with M 01 marker relay How MFD evaluates the high speed counters CF CH and Cl In order to evaluate the count pulses of 3 kHz the high speed counter function blocks operate with an interrupt routine The length of the circuit diagram and the associated cycle time has no effect on the counter result Memo
263. upply unit CPU inputs IP20 outputs Display operating unit IP65 Display operating unit with protective cover IP65 Display operating unit with protective membrane IP65 Oscillations IEC 60068 2 6 Constant amplitude 0 15 mm Hz 10 to 57 Constant acceleration 2 g Hz 57 to 150 Shocks IEC 60068 2 27 Shocks 18 semi sinusoidal 15 g 11 ms Drop IEC 60068 2 31 Drop mm 50 height Free fall when packed IEC 60068 2 32 m 1 350 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Electromagnetic compatibility EMC Technical data Electrostatic discharge ESD IEC EN 61000 4 2 severity level 3 Air discharge kV 8 Contact discharge kV 6 Electromagnetic fields RFI V m 10 IEC EN 61000 4 3 Radio interference suppression EN 55011 EN 55022 B limit class Burst IEC EN 61000 4 4 severity level 3 Power cables kV 2 Signal cables kV 2 High energy pulses Surge MFD kV 0 5 IEC EN 61000 4 5 severity level 2 power cable symmetrical Line conducted interference IEC EN 61000 4 6 V 10 Dielectric strength Measurement of the air clearance and creepage distance EN 50178 UL 508 CSA C22 2 No 142 Dielectric strength EN 50178 Tools and cable cross sections Solid minimum to maximum mm2 0 2 to4 AWG 24 to 12 Flexible with ferrule minimum to maximum mm2 0 2 to 2 5 AWG 24 to 12 Slot head screwdriver width mm 3 5 x 0 5 inch 0 14 x 0 0
264. ut terminal I i Di Cursor button F F 11 04 Network station expansion input F F 11 42 274 terminal Station address 1 to 8 Input terminal for expansion unit iF iF Di d2 COM slave Input terminal for expansion unit F O1 42 Bit inputs via the network FH RH Hi 42 274 Station address 1 to 8 114 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation Contact Make contact Break contact Number Page Diagnostics inputs Expansion network station status 1 1 14 333 Station address 1 to 8 Network station short circuit overload 1 1 15 16 331 Station address 1 to 8 COM slave expansion unit status iI i 14 COM slave short circuit overload iI il 15 16 Expansion status I i 14 333 Short circuit overload I i 15 16 331 Short circuit overload in expansion F F 15 16 331 network station Station address 1 to 8 Short circuit overload in COM slave iF iF 15 16 expansion Short circuit overload with expansion F R 15 16 331 Outputs Deactivate backlight of the MFD LE LE li display Red LED of MFD display LE LE 12 Green LED of MFD display LE LE 13 MFD Titan output MFD network 8 5 11 08 274 station Station address 1 to 8 COM slave output it iG 11 08 MFD Titan output a 11 08 MFD Titan output expansion with LE xi 11 08 274 network station Station addre
265. uts I 12 P mode MO 02 00 Weekday Time 44 STOF or Weekday Date Outputs RUN STOP BUSY mode On 1 2 3 4 Off 16 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD operation RE Ti COM AC oc ay ST For Immediate Delivery call KMParts com at 866 595 9616 17 Status display for local expansion Inputs R 1 1E AC expansion ok P buttons Expansion R Aep or Weekday Date Weekday Time MO 10 42 Outputs 1 a STOP On 1 2 3 4 Off RS Expansion functioning correctly MFD Titan advanced Status display I if b 89 i2 RE I NTI AC F MO T4 4e T amp 12345616 RUN Retention Debounce easy NET station AC expansion ok P buttons Startup behaviour Retention switched on Debounce switched on easy NET station with station address The COM connection is active AC expansion functioning correctly DC expansion functioning correctly Bus coupling module detected GW flashes Only easy200 easy detected I O expansion not detected When the power supply is switched on MFD switches to STOP mode MFD Titan LED display MFD Titan features two LEDs on the back of the MFD CP power supply CPU device These indicate the status of the power supply POW and the RUN or STOP operating mode gt Fig 1 Page 12 MFD Titan 06 03 AWB2528 1480GB Table 1
266. value Upper setpoint e CHO1FB to CHO4FB Actual value Lower setpoint e CHO1ZE to CHO4ZE Actual value Zero e CHOICY to CHO4CY Value range exceeded For Immediate Delivery call KMParts com at 866 595 9616 191 Wiring with MFD Titan 06 03 AWB2528 1480GB Coils e CHO1EN to CHO4EN enable of the counter e CHO1D to CHO4D count direction definition Status 0 count upwards Status 1 count downwards e CHO1RE to CHOARE reset actual value to zero e CHO1SE to CHOASE accept preset actual value with rising edge Memory requirement of the high speed counter The high speed counter function block requires 52 bytes of memory plus 4 bytes per constant on the function block inputs Retention High speed counter relays can be operated with retentive actual values The number of retentive counter relays can be selected in the SYSTEM gt RETENTION menu If a counter relay is retentive the actual value is retained when the operating mode changes from RUN to STOP as well as when the power supply is switched off If MFD is started in RUN mode the counter relay operates with the retentively saved actual value 192 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Function of the high speed counter function block Figure 92 Signal diagram of high speed counter 1 counter input 11 to 14 2 upper setpoint value H 3 preset actual value 54 4 lower setpoi
267. vate P component OC EF ME01 92 JV vA PID controller activate component oc x EI ME0i 92 V vA PID controller activate D component OC X ED ME01 92 VA JV PID controller accept manual oc x SE ME01 92 vA V manipulated variable Activate signal smoothing filter FT X EN MED1 92 JV JV 120 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB MFD Titan operation block Relay function block MFD Titan Number Coil Parameter display Get from network station function GT x 01 32 JV block Seven day time switch Hil x 01 32 JV Year time switch function block HY x 01 32 JV Activate value scaling function block LS EN x 01 32 JV JV Master reset function block MR X T x 01 32 JV JV Activate numerical converter function WC X EN MED J JV JV block Function block operating hours OT x EN x 01 04 Vv JV counter enable Operating hours counter function OT X RE x 01 04 V V block reset Send to the network easy NET PTT z01 12 V JV function block trigger Activate pulse width modulation PU X EN x 01 02 V V function block Send time to the network easy NET SC T Ke Jv function block trigger Activate set cycle time function block ST EN Keli Timing relay function block T X EN x 01 32 JV JV trigger control coil enable Timing relay function block stop T X 5T x 01 32 JV JV Timing relay function bl
268. vent of a power failure and continues to run although the time switch relays will no longer switch The contacts are kept open when de energized Refer to Section Technical data Page 345 for information on the buffer time Wiring of a 7 day time switch A 7 day time switch is integrated into the circuit diagram as a contact 216 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks Hilt Hit ran Figure 103 MFD Titan circuit diagram with 7 day time switch Parameter display and parameter set for the 7 day time Haii A t switch HW roy Dyg Hwi4 7 day time switch function block number 14 ON A Time switch channel A POFF Appears in the parameter display POY Day 1 ovg Day2 roH On time 0FF Off time Channels 4 channels are available per time switch channels A B C and D These channels all act on the contact of the 7 day time switch Day 1 and day 2 Either the time period acts from day 1 to day 2 e g Monday to Friday or for one day only Monday MO Tuesday TU Wednesday WE Thursday TH Friday FR Saturday SA Sunday SU Time 00 00 to 23 59 Displaying the parameter set in the PARAMETERS menu e Access enabled e Access disabled Contacts HW01Q1 to HW32Q1 For Immediate Delivery call KMParts com at 866 595 9616 217 218 Wiring with MFD Titan For Immediat
269. very call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Technical data Other inductive loads To 95 15 ms Utilisation factor g 0 25 R 48Q z 1 0 244 Relative duty factor Jo 100 Max switching frequency Switch 1500 f 0 5 Hz operations h Max duty factor DF 50 Inductive loading with external suppressor circuit for each load gt Section Connecting transistor outputs Page 60 Utilisation factor g 1 Relative duty factor 100 Max switching frequency Switch Depends on the Max duty factor operations h suppressor circuit Analog output MFD RA17 MFD TA17 Number 1 Electrical isolation To power supply No To the digital inputs No To the digital outputs Yes To the easy NET network Yes Output type DC voltage Signal range VDC 0 to10 Output current max mA 10 Load resistor kQ 1 Short circuit and overload proof Yes For Immediate Delivery call KMParts com at 866 595 9616 363 Appendix 06 03 AWB2528 1480GB MFD RA17 MFD TA17 Resolution analog VDC 0 01 Resolution digital Bit 10 Value 0 to 1023 Transient recovery time us 100 Accuracy 25 to 55 C related to the range 2 Accuracy 25 C related to the range 1 Conversion time Each CPU cycle easy NET network MFD CP8 NT Number of stations 8 Bus length transmission speed m Kbaud 6 1000 25 500 40 250 125 125 300 50 700 20 1000 10 Electric
270. very call KMParts com at 866 595 9616 219 Wiring with MFD Titan 06 03 AWB2528 1480GB Time overlaps The time settings of a time switch overlap The clock switches on at 16 00 on Monday whereas on Tuesday and Wednesday it switches on at 10 00 On Monday to Wednesday the switching off time is 22 00 HWO4 A HWD E POY HO POY TU POY WE POY WE POM 16 01 POM 10 00 POFF d2 00 OFF 00 00 MO TU WE TH on A g 10 00 24 00 m 10 00 22 00 Figure 106 Signal diagram of overlaps Switch on and switch off times are always based on the channel which switches first Response in the event of a power failure The power is removed between 15 00 and 17 00 The relay drops out and remains off even after the power returns since the first switching off time was at 16 00 HWOS A HWOS E POY M POY MO POY SU POY SU POFF 16 00 POM 12 00 POFF 18 00 When switched on MFD always updates the switching state on the basis of all the available switching time settings For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Function blocks 24 hour switching The time switch is to switch for 24 hours Switch on time at 0 00 on Monday and switch off time at 0 00 on Tuesday Huri A HWI E POY MO POY TU roye rovg ON 00 00 70H OFF POFF 00 00 Year time switch MFD Titan is equipped with a real time clock which
271. vice versa the setting is still retained The MFD models without a display can only be started in RUN mode For Immediate Delivery call KMParts com at 866 595 9616 311 MED Settings DEBOQUNCE F BUTTONS RUM MODE i 06 03 AWB2528 1480GB Possible faults MFD will not start in RUN mode e a program is not available in MFD e you have selected MFD startup in STOP MODE RUN MODE menu Card startup behaviour The startup behaviour with memory card is for applications where unskilled personnel change the memory card under no voltage conditions MED only starts in the Run mode if a memory card with a valid program is inserted If the program on the memory card is different to the program in MFD the program from the card is loaded into easy and easy starts in RUN mode gt Switch to the System menu If MFD is protected by a password the System menu will not be available until MFD is unlocked see gt Section Unlocking MFD from Page 299 Activation of card mode Requirement RUN MODE is active If MED displays CARO MODE this means that when the power supply is switched on MFD will only start in RUN mode if a memory card with a valid program has been inserted gt Otherwise select CARD MODE and press OK MFD will start up with the program on the card gt Press ESC to return to the Status display 312 For Immediate Delivery call KMParts com at 866 595
272. w display is updated faster in the PC a longer range for this data is created on the network within this pause time 278 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB Configuration of the easy NET network Send each change on the inputs outputs SEND 10 The SEND 10 function should be used if you wish to send any change in input or output status immediately to all other network stations SEND IO should be activated if intelligent stations have read access to the inputs and outputs of other stations 21 02 8Q 01 etc SEND IG y This means that the quantity of messages on the network can increase significantly If high speed counters are used the SEND IO function should be deactivated Otherwise the input data is written very rapidly onto the network as they change continuously leading to unnecessary loading of the network If intelligent devices are required to exchange bit information it should be implemented via RN and SN SEND IO factory default setting Automatic change of the RUN and STOP mode REMOTE RUN should be activated if stations 2 to 8 are to automatically follow the mode change of station 1 during operation Input and output devices must always have SEND IO activated to ensure that station 1 always receives up to date input and output data Intelligent stations with display only follow the operating mode change when the display is
273. will not be available until MFD is unlocked see gt Section Unlocking MFD from Page 299 SECURITY 4 gt Select the SYSTEM menu fiten gt Press the OK button MENU LANGUAGE CONFIGURATOR gt Use the V button to select the INFORMATION menu and CARD MODE press OK DIGPLAY RETENTION This will display all device information INFORMATION 320 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB OC TCR LEC NET Of d di iti CRC b3163 OC RC LEC Ol didi CRC 63163 C RC LEC i1 iti RC O o CARD MODE DISPLAY RETENTION Displaying device information Example MFD 80 B MFD CP8 NT MFD TA17 Example MFD 80 B MFD CP8 ME MFD R16 Display in STOP mode Display in RUN mode The CRC checksum is not displayed gt Press ESC to leave the display For Immediate Delivery call KMParts com at 866 595 9616 321 06 03 AWB2528 1480GB 322 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB 8 Inside MFD MFD Program cycle Circuit connec tions BRWN In conventional control systems a relay or contactor control processes all the circuit connections in parallel The speed with which a contactor switches is thus dependent on the components used and ranges from 15 to 40 ms for relay pick up and drop out With MFD the circuit di
274. you can use in the circuit diagram as a 7 day time switch and a year time switch The procedure for setting the time is described under Section Setting date time and daylight saving time on Page 305 MFD provides 32 year time switches HY01 to HY32 for a total of 128 switching times Each time switch has four channels which you can use to set four on and off times The channels are set via the parameter display The time and date are backed up in the event of a power failure and continue to run However the time switch relays will no longer continue to switch The contacts are kept open when de energized Refer to Section Technical data Page 345 for information on the buffer time For Immediate Delivery call KMParts com at 866 595 9616 221 Wiring with MFD Titan Hva0 PON OFF E 06 03 AWB2528 1480GB Wiring of a year time switch A year time switch is integrated into the circuit diagram as a contact HYIIG ES Figure 107 MFD Titan circuit diagram with year time switch Parameter display and parameter set for the year time switch HY HYJ Year time switch function block number 30 E Time switch channel B Appears in the parameter display 0N Switch on time 0FF Switch off time Channels 4 channels are available per time switch channels A B C and D These channels all act on the contact of the year time switch Dat
275. zero Example The trigger pulse is actuated at 03 32 21 hh mm ss The other stations are synchronised at 03 33 00 This time is accessed by all other stations This process can be repeated as often as desired The trigger coil must be triggered again from the 0 to the 1 state Accuracy of time synchronisation The maximum time deviation between the functional stations is 5 s 246 For Immediate Delivery call KMParts com at 866 595 9616 06 03 AWB2528 1480GB STH I Parameter Ii Function blocks Set cycle time MFD Titan provides one set cycle time function block ST01 The set cycle time function block is a supplementary function block for the PID controller The set cycle time function block provides a fixed cycle time for processing the circuit diagram and the function blocks Wiring a set cycle time function block The ST set cycle time function block is integrated in the circuit diagram as a coil To prevent unpredictable switching states use each coil of a relay once only in the circuit diagram STHEN Figure 118 MFD Titan circuit diagram with enabling of set cycle time function block Parameter display for set cycle time STIi Set cycle time function block number 01 Appears in the parameter display ti Set cycle time The parameter display is used to modify the set cycle time the minimum on time and the enabling of the para
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