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Operating Instructions

Multi-Function Display

MFD-Titan

 

11/10 MN05002001Z-EN

Summary of Contents for MFD-Titan

Page 1: ...Operating Instructions Multi Function Display MFD Titan 11 10 MN05002001Z EN ...

Page 2: ...e translations of the original German manual 1st published 2003 edition date 06 03 2nd edition 06 04 3rd edition 05 10 4th edition 11 10 See revision protocol in the About this manual chapter 2003 by Eaton Industries GmbH 53105 Bonn Production DHW Translation globaldocs GmbH All rights reserved including those of the translation No part of this manual may be reproduced in any form printed photocop...

Page 3: ...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 ...

Page 4: ...II ...

Page 5: ...ers MFD 24 1 4 Possible combinations of basic devices and expansion units 24 1 5 Extended functionality of MFD CP10 compared to MFD CP8 27 1 6 MFD operation 28 1 6 1 Key Pad 28 1 6 2 Selecting menus and entering values 28 1 6 3 Status display for the MFD basic device 29 1 6 4 Status display for the local expansion module 31 1 6 5 Status display additional information 31 1 6 6 Menu structure 32 1 6...

Page 6: ...2 4 3 AC expansion unit EASY618 AC RE 58 2 4 4 MFD DC power supply CPU module 59 2 4 5 DC expansion unit EASY DC E 59 2 5 Connecting inputs 60 2 5 1 Connect digital AC inputs 61 2 5 2 Connecting easy DC digital inputs 65 2 5 3 Connecting analog inputs 69 2 6 Connecting outputs 75 2 6 1 Connecting relay outputs 76 2 6 2 Connecting digital transistor outputs 78 2 6 3 Connecting analog outputs 80 2 7...

Page 7: ... 3 5 4 Menu INFORMATION 116 3 5 5 NEW PARAMETERS 117 3 6 Configuring the analog expansion unit 117 3 6 1 Setting device parameters IO DEVICE menu 118 3 6 2 Processing analog input output values 120 3 6 3 Diagnostics of an analog expansion unit 122 3 7 When controlling a contactor or relay the control coil is only present once Commissioning NET stations 122 3 7 1 NET parameterize 123 3 7 2 Configur...

Page 8: ... 1 Entering and changing contacts and coils 166 4 7 2 Creating or changing connections 169 4 7 3 Adding or deleting rungs 170 4 7 4 Saving circuit diagrams 170 4 7 5 Aborting circuit diagram entry 170 4 7 6 Searching for contacts and coils 171 4 7 7 Got to a rung 171 4 7 8 Delete Rung 171 4 7 9 Switching with the Cursor Buttons 172 4 7 10 Coil Functions 174 4 7 11 Jumps 177 4 7 12 Wiring NET opera...

Page 9: ...7 5 4 4 Function of the function block 220 5 5 BV Boolean operation 228 5 5 1 Function block inputs outputs 228 5 5 2 Wiring of the function block 228 5 5 3 Parametric programming of the function block inputs outputs 229 5 5 4 Function of the function block 230 5 6 C counter relay 232 5 6 1 Function block inputs outputs 232 5 6 2 Wiring of the function block 233 5 6 3 Parametric programming of the...

Page 10: ... block 271 5 14 GT get value from the NET 273 5 14 1 Function block inputs outputs 273 5 14 2 Wiring of the function block 273 5 14 3 Parametric programming of the function block inputs outputs 274 5 14 4 Function of the function block 275 5 15 HW weekly timer 276 5 15 1 Function block inputs outputs 276 5 15 2 Function 276 5 15 3 Behavior in the event of a power failure 276 5 15 4 Wiring of the f...

Page 11: ...nter 312 5 23 1 Function block inputs outputs 312 5 23 2 Wiring of the function block 312 5 23 3 Parametric programming of the function block inputs outputs 313 5 23 4 Function of the function block 314 5 24 PT Put value to the NET 315 5 24 1 Function block inputs outputs 315 5 24 2 Wiring of the function block 315 5 24 3 Parametric programming of the function block inputs outputs 316 5 24 4 Funct...

Page 12: ...ock inputs outputs 356 5 31 4 Function of the function block 357 5 32 Example with timing relay and counter function block 358 6 Visualization with MFD Titan 361 6 1 Screens 361 6 1 1 Exchangeability of MFD CP8 and MFD CP10 screens 362 6 1 2 Exchangeability of MFD CP8 and MFD CP10 screen elements 362 6 1 3 Exchangeability of MFD CP8 and MFD CP10 languages 362 6 1 4 Exchangeability of MFD CP8 and M...

Page 13: ...n Element to a Pushbutton 418 6 6 2 Select operable screen element 419 6 6 3 Display Backlight 419 6 6 4 Display contrast 420 6 6 5 Screen change 420 6 6 6 Password logout 421 6 6 7 Set variable to fixed value 422 6 6 8 Decrement Variable 423 6 6 9 Increment Variable 424 6 6 10 Changeover relay 426 6 6 11 Disable Change to Status Display 426 6 6 12 P button function 427 6 6 13 Go To Previous Scree...

Page 14: ...rk transmission security 444 8 MFD Settings 445 8 1 Safety 445 8 1 1 Password protection 445 8 1 2 Inputting a password 445 8 1 3 Activating Passwords 447 8 1 4 Unlocking MFD 448 8 1 5 Changing passwords 448 8 1 6 Delete password 449 8 1 7 Password no longer known or incorrect 449 8 2 System 450 8 2 1 Switching on the input delay function Debounce menu 450 8 2 2 P PUSHBUTTONS 451 8 2 3 Setting the...

Page 15: ...5 9 2 3 Delay time with MFD AC basic devices 476 9 3 Diagnostics 479 9 3 1 Diagnostics using the ID diagnostics contact 479 9 3 2 Checking the transistor output for short circuit overload 480 9 4 Expanding an MFD device 481 9 4 1 How is an expansion unit detected 482 9 4 2 Link transfer behavior 482 9 4 3 Monitoring the functionality of the expansion unit 482 9 5 Monitoring the serial multi functi...

Page 16: ...5 MFD 80 XS protective cover 498 11 3 Technical data 499 11 3 1 Standards 499 11 3 2 General ambient conditions 499 11 3 3 Display operating unit 501 11 3 4 Power supply 502 11 3 5 Central processing unit real time clock timing relay memory 503 11 3 6 Inputs 505 11 3 7 Analog output 514 11 3 8 NET network 515 11 4 List of function blocks 516 11 4 1 Function block coils 517 11 4 2 Function block co...

Page 17: ...sts major modifications DANGER If active components are controlled such as motors or pressurized cylinders plant plants may become damaged or persons endangered provided MFD is incorrectly connected or incorrectly configured and programmed Publication date Page Key word New Change omitted 11 10 161 Double sized memory card for MFD CP10 303 Multiplexer function block MX for MFD CP10 361 Program exa...

Page 18: ...unting and commissioning as well as careful operation and maintenance If the following safety instructions are not observed particularly with regard to commissioning and maintenance of the devices by insufficiently qualified personnel and or in the event of improper use of the devices any hazards caused by the devices cannot be excluded We cannot accept any liability for any resulting injury or da...

Page 19: ...ds of occupational safety and accident prevention regarding the intended preparation of circuit diagrams initial commissioning and the operation of easy800 MFD CP8 CP10 devices particularly those issued by Employers Liability Insurance Associations Berufsgenossenschaften Acknowledged rule of technology and state of science All other general due diligence regarding the prevention of damages to life...

Page 20: ...module MFD CP4 display operator unit MFD 80 and I O module MFD for the programmable devices visualization devices consisting of power supply CPU module MFD MFD fCP8 CP10 display operator unit MFD 80 and I O module MFD CP8 CP10 for the programmable MFD CP8 MFD AC CP8 and MFD CP10 power supply CPU modules MFD CP8 for the MFD CP8 and MFD AC CP8 power supply CPU modules including the easyNet compatibl...

Page 21: ...in the 1 headline and the name of the current section in the 2 headline CAUTION Warns about the possibility of material damage WARNING Warns of the possibility of hazardous situations that may possibly cause injury WARNING Warns of the possibility of hazardous situations that could result in serious or even death DANGER Warns of hazardous situations that result in serious injury or death Draws you...

Page 22: ...0 About This Manual 0 5 Writing conventions 18 Manual 11 10 MN05002001Z EN www eaton com ...

Page 23: ...5 and normally does not require any special housing protection The rear mounted power supply CPU module I O module and expansion units are built in devices and must be installed in a housing a switch cabinet or a service distribution board Power supply and signal terminals must be protected against accidental contact and covered The MFD device may only be operated if it has been correctly fitted a...

Page 24: ... on your PC using the easySoft Pro programming software For example you can Connect N O and N C contacts in series and in parallel Connect output relays and markers Define outputs as coils impulse relays rising or falling edge triggered relays or as latching relays The function blocks provide you with several functions such as arithmetic functions value comparison functions or up down counting All...

Page 25: ...Mode pushbutton f Right and down cursor buttons g OK Button h Left and up cursor buttons i ESC button 1 3 2 Power supply CPU module Figure 2 Device overview of power supply CPU module a Power supply Page 57 b NET terminals Page 60 c easyLink connection Page 54 d Serial multi function interface for memory card PC connection or point to point connection Page 88 e LED NET easyNet Page 23 f LED POW RU...

Page 26: ...tor outputs page 78 1 3 4 I O module with temperature measuring Figure 4 Device overview MFD TP MFD TAP I O module with temperature measuring a Digital inputs Page 61 b resistance sensor inputs Page 74 c Analog output 0 10 V DC MFD TAP Page 80 d Digital relay outputs or transistor outputs with 24 V DC supply voltage Section Connecting relay outputs page 76 Section Connecting digital transistor out...

Page 27: ...perands LE2 red and LE3 green Terminal Mode If you are running the MFD in Terminal mode these LEDs will indicate the operating state of the remotely controlled devices Additional information Section Running MFD in Terminal mode from page 136 Table 3 Green LED Power supply operating mode of the remotely controlled device LED off No supply voltage LED continuously light STOP operating mode supply vo...

Page 28: ...FD xxx x x x xx Additional functions Features B Operator buttons ME Open loop control closed loop control NT Open loop control closed loop control NET Device function Number display and enclosure in mm CP8 CP10 power supply unit CPU module performance class 8 10 R relay outputs T Transistor outputs A Analog outputs Number Number of inputs and outputs Multi function display MFD CP8 MFD CP10 power s...

Page 29: ... S 77 S 69 S 77 EASY620 DC TE S 68 S 78 S 69 S 78 EASY410 DC TE S 68 S 78 S 69 S 78 EASY410 DC RE S 68 S 77 S 69 S 77 EASY406 DC ME S 69 S 78 S 73 S 81 S 69 S 78 S 73 S 81 EASY411 DC ME S 69 S 78 S 73 S 81 S 69 S 78 S 73 S 81 EASY202 RE S 77 S 77 MFD CP8 MFD CP10 power supply unit CPU module MFD AC CP8 Digital Analog Digital Analog Inputs Outputs Inputs Outputs Inputs Outputs Inputs Outputs 100 V ...

Page 30: ...d as 24 V DC 100 240 V AC Total 0 10 V 10 Bit 4 20 mA 10 Bit PT100 50 200 C 10 Bit Digital EASY202 RE 2 common1 EASY410 DC RE 6 4 EASY410 DC TE 6 4 EASY406 DC ME 1 2 23 2 2 24 2 1 up to 2 analog inputs simultaneously 4 diagnostics bits R13 R16 EASY411 DC ME 1 6 23 2 2 24 2 2 up to 6 analog inputs simultaneously 4 diagnostics bits R13 R16 EASY618 AC RE 12 6 EASY618 DC RE 12 6 EASY620 DC TE 12 8 1 C...

Page 31: ...3 doubling of the screen memory see page 473 doubling of the retentive memory see page 458 doubling of the memory card capacity see page 161 increased program processing speed and possibility of an operating system update The MFD CP10 also features the ability to store text elements in up to 16 different languages which can be selected with a program command when the screen is displayed see page 3...

Page 32: ... visualization applications the keypad of the operating unit can be used for other functions than the ones stated above Chapter 6 Visualization with MFD Titan on page 361 In this case the buttons are assigned the function selected in the application The standard button functions are only restored when you leave the visualization application DEL ALT ESC OK P button function and Calling the System m...

Page 33: ...he content of line 2 and 3 and the status display of the basic device as well as the local expansion Figure 5 Status display when you switch on When operating the MFD as a NET station you can press ESC to switch from the status display and select another NET station You can then display the status of the inputs and outputs of the other NET station Section Showing the status display of other NET st...

Page 34: ...th P Section P PUSHBUTTONS page 451 The will show further system information MFDin line 2 Section Status display additional information page 31 depending on the parameters and the peripheral devices connected Starting from the initial status display you can press ALT twice to show the following diagnostics messages in line 2 and 3 Line 2 status of the local diagnostics bits ID1 ID9 and P Line 3 St...

Page 35: ...n Showing the status display of other NET stations page 131 R 12 5 789 12 RS P MO 11 50 S 12 8 STOP Apart from the ID RS in line 2 by which a connected functional expansion unit is indicated lines 2 and 3 indicate the same contents for basic and expansion units Press ALT once therefore to show in line 2 the weekday and the date and press ALT twice to show also in line 2 and 3 the same diagnostic a...

Page 36: ...nctions during operation The system menu is used for entering global device parameters 1 6 7 Choosing the main and system menu Figure 6 Entering the main or system menu Current selection flashes in the MFD menu 1st menu level Main menu 1st menu level System menu R 2 RS MO S 2 6 I 2 5 P MO 02 00 Q 34 STOP and No password DEL ALT OK ESC ESC PROGRAM STOP å RUN PARAMETER SET CLOCK SECURITY SYSTEM MENU...

Page 37: ...SET CLOCK æ INFORMATION TERMINAL MODE PROGRAM Æ STOP å RUN PARAMETER SET CLOCK æ INFORMATION TERMINAL MODE PROGRAM Æ STOP å RUN PARAMETER SET CLOCK æ INFORMATION TERMINAL MODE CIRCUIT DIAGRAM FUNCTION BLOCKS STOP å RUN Æ PARAMETER SET CLOCK INFORMATION æ PROGRAM TERMINAL MODE SET CLOCK SUMMER TIME SET CLOCK SUMMER TIME PARAMETER SET CLOCK INFORMATION TERMINAL MODE æ PROGRAM STOP å RUN Display or c...

Page 38: ...NCE P PUSHBUTTONS RUN MODE CARD START Æ I BUTTONS R PUSHBUTTONS DISPLAY æ RETENTION DEBOUNCE P PUSHBUTTONS RUN MODE CARD MODE æ I BUTTONS Æ R PUSHBUTTONS DISPLAY RETENTION Retention only in STOP mode Switching on the input delay function Debounce menu page 450 P PUSHBUTTONS page 451 RUN MODE page 452 Setting contrast and backlight DISPLAY menu item page 456 Setting retentive behavior page 459 Syst...

Page 39: ...123 Changing the menu language page 461 1 NET PARAMETERS STATIONS CONFIGURE NET PARAMETER STATIONS CONFIGURE Creating the station list page 126 NET COM LINK ETHERNET GW BAUD RATE 19200B COM LINK å REMOTE MARKER IO MODULES NET COM LINK ETHERNET GW Configuring NET page 127 Baud rate adjustment page 134 activate COM LINK page 134 Remote Specifying the marker range page 135 Configuring the analog expa...

Page 40: ... PARAMETERS DIAGNOSTICS INFORMATION TAP13 PT A PARAMETERS DIAGNOSTICS INFORMATION Page 108 Page 116 Page 116 Configuration via RS232 interface in the manual MN05013012Z DE earlier AWB2528 1596D Cursor Í Ú Select or toggle PROGRAM STOP PARAMETER SET CLOCK OK The cursor flashes Full cursor Ê Move cursor with ú í in circuit diagram also with Í Ú Value H H Change position with ú í Change values with Í...

Page 41: ...anual 11 10 MN05002001Z EN www eaton com 37 1 6 13 Setting values Select value Í Ú Select digit ú í Change value at digit Í Ú Store settings Retain previous value Values Places Value at HH MM 14 23 TT MM 08 10 YEAR 2010 OK ESC ...

Page 42: ...1 MFD 1 6 MFD operation 38 Manual 11 10 MN05002001Z EN www eaton com ...

Page 43: ...ing the expansion unit page 54 Connecting the power supply page 57 Connecting inputs page 60 Connecting outputs page 75 Connecting the NET network page 82 optional Connecting the serial multi function interface page 88 optional DANGER OF ELECTRIC SHOCK Never carry out electrical work on the device while the power supply is switched on Always follow the safety rules Switch off and isolate Verify is...

Page 44: ...ay 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 For ease of wiring leave a gap of at least 3 cm between the device terminals and the wall or adjacent devices Figure 7 clearances to the MFD device Different installation steps must be carried out and sometimes in a different order depending o...

Page 45: ...CP8 CP10 Page 53 x x Mounting the expansion unit Page 54 x x Connecting the input output module to the power supply unit CPU module Page 48 x x Mounting the I O expansion on a top hat rail Page 54 x x x x Screwing in the I O expansion on the mounting plate Page 54 x x x x Connecting the I O expansion to MFD CP8 CP10 easyLink x x x x Local expansion module Page 55 x x x x Remote expansion Page 56 x...

Page 46: ...ctive diaphragm before mounting the display operating unit Figure 8 Fitting the protective diaphragm a Protective diaphragm b Display keypad Fit the protective diaphragm over the display operator unit Figure 9 Correct location of the protective diaphragm DANGER Ensure that the membrane fits snugly in the groove of the display operator unit Otherwise a proper seal cannot be guaranteed and particles...

Page 47: ...he operating unit can be used The protective cover can be closed with a sealing facility to provide protection against unauthorized operation Before mounting the display operating unit fit the protective cover Figure 10 Removing the front frame 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 ...

Page 48: ...the figure 2 1 1 3 Sealing the protective cover Figure 13 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...

Page 49: ...ments The hole spacing is 30 mm The maximum thickness of the front plate for mounting the power supply CPU module must not be more than 6 mm 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 4 mm Leave enough space at the side for the power supply unit CPU module and if necessary the expansio...

Page 50: ...r unit Fit the display operator unit in the punched fixing holes Figure 16 Screw fastening the display operating unit 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 2 x ...

Page 51: ... element and remove the display operator unit 2 1 3 Connecting the power supply CPU to the display HMI unit Figure 18 Connecting the power supply CPU to the display HMI unit left without right with the top hat rail If you wish to run the MFD device with an expansion unit you must fit the top hat rail on the power supply unit CPU module before connecting the display operating unit section 2 1 5 2 U...

Page 52: ...le to the power supply unit CPU module Figure 19 Fitting the input output module Figure 20 Power supply unit CPU module with input output module left with right without display operating unit You can connect the power supply unit CPU module to the input output module I O module and or display operating unit in any order ...

Page 53: ...n com 49 2 1 4 1 Removing the input output module Figure 21 Releasing the input output module Press the two catches together Pull one side out of the catch Pull the other side out of the second catch Figure 22 Removing the input output module Detach the input output module ...

Page 54: ...catch Lever out the slide catch Pull out the power supply CPU module from the fixing shafts 2 1 5 Mounting the MFD CP8 CP10 on a top hat rail If you wish to run the power supply CPU module without a display HMI unit or with an expansion unit you can fit it to a top hat rail Alternatively you can also use the screw mounting section 2 1 6 Screwing on the MFD CP8 CP10 page 53 2 1 5 1 Use without disp...

Page 55: ... slide catch and removing Pull the slide catch out of the guide and remove it Figure 26 Snap fitting the device to the top hat rail Place the MFD device diagonally on the upper lip of the top hat rail Press down lightly on both the device and the top hat rail until the unit snaps over the lower edge of the top hat rail The MFD device will clip into place automatically ...

Page 56: ...before fitting the top hat rail Figure 28 Fitting the top hat rail The two fixing shafts of the display operating unit are designed for a 2 space unit expansion unit 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 h...

Page 57: ...can also screw the power supply CPU module onto a mounting plate for example if you wish to use it without a display HMI unit or with an expansion unit Alternatively you can mount the device on a top hat rail section 2 1 5 Mounting the MFD CP8 CP10 on a top hat rail page 50 Fixing brackets that can be inserted on the rear of the MFD device are required for screw mounting The fixing brackets are av...

Page 58: ...he top hat rail or by screwing on fixing brackets Figure 31 Top hat rail mounting Figure 32 Screw mounting Locally and remotely connected expansion units have a different connection Local expansion units are connected directly next to the MFD power supply CPU module with easyLink With remote expansion the expansion unit is connected via a two wire or multi core cable up to 30 m in length to the EA...

Page 59: ...device e g DC AC or GW depending on the expansion unit that is connected and operational DANGER The following electrical isolation is implemented between the MFD power supply CPU module and the expansion unit isolation always in local connection of expansion unit Basic isolation 400 V AC 10 Safe isolation 240 V AC 10 Units may be destroyed if the value 400 V AC 10 is exceeded and may cause the mal...

Page 60: ...ER 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 scenario 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 Ue 300 500 V AC is normally sufficient Terminals E and E of the EAS...

Page 61: ...and expansion units are switched on they behave like a capacitor so that an inrush current higher than the rated input current is present Take this inrush current into account when designing the electrical equipment by using slow fuses and suitable switches Never use reed relay contacts to switch the supply voltage as these may burn or stick When designing the DC power supply unit bear the inrush ...

Page 62: ...l 11 10 MN05002001Z EN www eaton com 2 4 2 MFD AC power supply unit CPU module Figure 36 Power supply on the MFD AC variant 2 4 3 AC expansion unit EASY618 AC RE Figure 37 Power supply on the AC expansion unit N N L L N 1 A N N L N F1 L 115 230 V E E R1 R12 ...

Page 63: ...MI unit the input output electronics as well as the optional easyNet network with the necessary power supply 2 4 5 DC expansion unit EASY DC E Figure 39 Power supply on the DC expansion unit DC basic devices and expansion units are protected against reverse polarity However you must ensure the correct polarity so that the devices function reliably and safely L01 1 A L01 L02 24V 0V 0V 0V 0V 24V L01...

Page 64: ...ion block description describes which inputs are affected Example With the high speed counter function block the device inputs I1 I4 are connected directly on one function block You can increase the number of inputs of the MFD device basic device by using an expansion unit The inputs of the EASY4 DC E and EASY6 DC E digital expansion units are detected by the basic device automatically without any...

Page 65: ...ns of VDE IEC UL and CSA with the same phase conductor that provides the power supply voltage The device will otherwise not detect the switching level or may be destroyed by overvoltage Connect the inputs for AC basic and expansion units in accordance with the safety regulations of VDE IEC UL and CSA with the same phase conductor that provides the power supply voltage The device will otherwise not...

Page 66: ...nputs without a proper signal being applied Observe therefore the following maximum cable lengths I1 to I12 and R1 to R12 40 m without additional circuit The following also applies to the expansion units With longer cables connect a diode e g 1N4007 with a minimum reverse voltage of 1 kV and a forward current of 1 A in series to the device input Ensure that the diode is pointing to the input as sh...

Page 67: ... be used in order to prevent interference and also when using two wire proximity switches Figure 44 Increasing the input current at the AC basic device Figure 45 Increasing the input current at the AC expansion unit EASY618 AC RE A resistor can be connected in series with the circuit shown in order to restrict the inrush current When using a 100 nF capacitor the drop out time of the input increase...

Page 68: ... the AC expansion unit EASY618 AC RE Complete devices for increasing the input current are available under the part no EASY256 HCI Figure 48 AC basic device with EASY256 HCI to increase the input current L N 1 A I1 I3 I4 I7 I8 I2 I5 I6 I9 I10 N N I11 I12 L N N 100 nF 275 V h 1 kO L N R10 R9 R8 R7 R6 R5 R4 R3 R2 R1 E E R11 R12 N N L 115 230 V h F1 100 nF 275 V h 1 kO L N 1 A I1 I3 I4 I7 I8 I2 I5 I6...

Page 69: ...e Given the high residual current do not use 2 wire proximity switches These DC basic devices enable you to read both digital and analog input signals via the inputs I7 IA01 I8 IA02 I11 IA03 and I12 IA04 Digital input signal voltage range I1 to I6 I9 I10 Signal OFF 0 to 5 V Signal ON 15 to 28 8 V I7 I8 I11 I12 Signal OFF 8 V Signal ON 8 V Input current I1 to I6 I9 I10 R1 to R12 3 3 mA at 24 V I7 I...

Page 70: ...on to this you can also use the analog inputs I11 IA03 and I12 IA04 which are provided for 0 V 10 V analog value measuring for use with digital input signals section 2 5 3 2 Connecting analog and temperature inputs of MFD TP MFD TAP page 72 Digital input signal voltage range I1 to I4 Signal OFF 30 to 5 V Signal ON 15 to 28 8 V I11 I12 Signal OFF 8 V Signal ON 8 V Input current I1 to I4 3 3 mA at 2...

Page 71: ...onnecting high speed counters and frequency generators The digital inputs I1 I4 of the standard I O module and I O module with temperature measuring allow you to accurately measure high speed counter signals or frequencies and bypass the cycle time Figure 52 High speed counter frequency encoder on standard I O module L01 1 A L01 I1 I3 I4 I7 I8 I9 I10 L02 I2 I5 I6 I11 I12 24 V 0 V 0 V b a L01 1 A L...

Page 72: ... must output two 24 V DC square wave signals with a phase offset Figure 53 Connecting incremental encoders 2 5 2 3 Connecting DC inputs of the expansion units EASY410 and EASY6 Figure 54 EASY410 C E and EASY6 DC E digital expansion unit Connect the inputs for example to pushbutton actuators switches or relay contactor contacts Input signal voltage range R1 to R6 EASY410 or R1 to R12 EASY6 Signal O...

Page 73: ... the EASY4 DC ME Further information on the voltage range and input current of the input signals section 2 5 2 Connecting easy DC digital inputs page 65 2 5 3 Connecting analog inputs All power supply CPU modules with a 24V DC power supply can be fitted with a standard I O module or an I O module with temperature measuring which each have digital and analog inputs On the MFD it is also possible to...

Page 74: ...ce on the analog input signals Ensure a galvanic connection of the reference potential as described below Avoid the operation of the MFD or expansion unit on an ungrounded power supply 2 5 3 1 Connecting analog inputs of the basic device You can read analog voltages in the range 0 to 10 V via the inputs I7 I8 I11 and I12 of the DC basic device MFD R 16 17 and MFD T 16 17 The signal has a 10 bit re...

Page 75: ...brightness and 20 mA sensor Analog sensor A 4 to 20 mA 0 to 20 mA sensor can be connected on the voltage input using an external 500 Ω resistor twice 1 kΩ in parallel Ensure that the reference potential is galvanically 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 supply L01 1 A L0...

Page 76: ...mperature input example three wire connection b Temperature input example two wire connection c Analog IN I11 IA03 I12 IA04 d Analog OUT QA01 only MFD TAP13 The temperature sensors can be connected directly to the three terminals of inputs IA01 terminal I5 I7 and IA02 terminal I8 I10 A three wire connection or a two wire connection is possible Figure 58 page 72 On terminals I5 and I8 the temperatu...

Page 77: ...t and output values with a 10 bit resolution 0 1023 When a Pt100 sensor is connected the DC expansion units operate in the range between 50 C and 200 C The DC expansion units are provided with digital inputs outputs as well as analog inputs outputs Section 2 5 2 4 Connecting DC inputs of the EASY4 DC ME expansion units page 69 DANGER Do not connect an external voltage i e also no analog input volt...

Page 78: ...n the supply voltage and reference potential can be used as a setpoint potentiometer For voltage measuring connect the output of the sensor to the voltage input terminal 2 or 7 section Figure 56 Setpoint potentiometer with upstream resistor page 71 Currents are measured in the 4 20 mA 0 20 mA signal range For current measurement connect the output of the sensor to the current input terminal 3 or 8...

Page 79: ...e transistor outputs or relay outputs The Q outputs of both device versions are potentially isolated from the power supply and the inputs and therefore operate as potential free contacts Figure 60 Connecting outputs in this case Q 1 The respective relay coils are actuated in the circuit diagram via the Q 01 to Q 04 or S 01 to S 06 S 08 output relays You can use the signal states of the output rela...

Page 80: ...ice automatically without any configuration The universal EASY4 DC ME expansion units allow you to process both digital and analog values The digital outputs of these expansion units are detected by the basic device automatically without any configuration All available input output expansions section 1 4 Possible combinations of basic devices and expansion units page 24 2 6 1 Connecting relay outp...

Page 81: ...R devices DANGER Do not exceed the maximum voltage of 250 V AC on a relay contact If the voltage exceeds this threshold flashover may occur at the contact resulting in damage to the device or a connected load 10 000 000 0 V H N L1 L2 L3 115 250 V h 24 V H S1 1 2 S1 EASY4 RE EASY6 RE F 8 A B 16 S2 1 2 S2 S3 1 2 S3 M S4 1 2 S4 1 2 S5 1 2 S6 25 000 R L 24 V H 8 A 115 V h 8 A 230 V h 8 A 3 A 3 A 3 A 1...

Page 82: ... the MFD T I O modules and MFD TP MFD TAP 2 6 2 2 Connecting transistor outputs of the expansion unit Figure 65 Digital transistor outputs EASY6 DC TE and EASY4 DC TE a EASY4 DC TE b EASY6 DC TE Power the transistor outputs with voltage 0 VQ Q1 Q2 Q3 Q4 F 10 A 24 VQ f 2 5 A 24 V H 20 4 28 8 V H 24 V H R L 5 W 24 V 0 5 A 24 V H 0 5 A F 10 A f 2 5 A 0 V H 0 VQ 24 VQ a a b 20 4 28 8 V H 24 V H R L 5 ...

Page 83: ... circuit 2 6 2 3 Behavior in the event of a short circuit overload A transistor output will switch off in the event of a short circuit or overload The output will switch back on up to the maximum temperature after a cooling time that depends on the ambient air temperature and the current level If the fault condition persists the output will keep switching off and on until the fault is corrected or...

Page 84: ... connect the EASY406 DC ME and EASY411 DC ME DC expansion units with an analog output Section 2 5 2 4 Connecting DC inputs of the EASY4 DC ME expansion units page 69 The analog output can be used for example for controlling solenoid valves and other actuators Observe the hazard warnings concerning the processing of analog signals section 2 5 3 Connecting analog inputs page 69 and the note concerni...

Page 85: ...log outputs Both devices provide a DC voltage of 0 10 V with a 10 bit resolution value range 0 1023 Connect the actuator s to QA1 QA2 and to the relevant 0 V terminal to its left Figure 69 Connecting the analog output of an EASY4 DC ME expansion unit a Analog output QA1 EASY406 411 0 10 V b Analog output QA2 only EASY411 0 10 V L01 1 A L01 I1 I3 I4 I7 I8 I9 I10 0V QA 1 0V IA L02 A B I2 I5 I6 I11 I...

Page 86: ...e device The networkable devices are provided with two RJ45 sockets Figure 70 RJ45 socket Socket 1 IN is used for connecting the incoming data cable from the physically preceding easyNet station Socket 2 OUT is used for connecting the outgoing data cable to the physically next easyNet station The physically first and last easyNet stations must be terminated with a bus terminating resistor As there...

Page 87: ...e 124 Ω Connection plug EASY NT R Figure 71 Bus Terminating Resistors a First station on the easyNet b Bus termination resistor c Last station on the EasyNET network Physical location place Station number Cable pair Pen Line CSA 1 Data cable ECAN_H CSA 2 Data cable ECAN_L B 3 Ground cable GND Ground B 4 Select cable SEL_IN The most basic easyNet configuration operates with the cables ECAN_H ECAN_L...

Page 88: ...art no EASY NT RJ45 8 pole Tools Crimping tool for RJ45 plug part no EASY RJ45 TOOL AWG 24 0 2 mm2 is the largest crimpable cross section 2 7 5 Fitting and removing Net connection cables Both RJ45 interfaces are visible after the cover plate has been removed When a cable is plugged in it must snap into the socket with an audible click Before a plug or cable is removed the mechanical interlock must...

Page 89: ... the cable is looped through the device The easyNet stations can be addressed and easyNet configured very simply via station 1 section Parameter setting page 125 or via easySoft Pro Disadvantage If the line is interrupted the easyNET network is no longer operational from this point in the network 2 7 6 2 T connector and spur line Advantage If an easyNet station fails the spur line can be removed f...

Page 90: ... and spur line Example 1 Example 2 1 1 1 2 2 3 3 3 4 4 4 8 5 5 7 6 6 2 7 7 6 8 8 5 Physical location 1 is always assigned as station 1 Station 1 is the only station which must be present easy800 ES4P MFD easy800 ES4P MFD easy800 ES4P MFD easy800 ES4P MFD easy800 ES4P MFD easy800 ES4P MFD easy800 ES4P MFD easy800 ES4P MFD easy E easy E easy E easy E easy E easy E easy E easy E easy800 ES4P MFD easy...

Page 91: ...e length for a known cable resistance If the resistance of the cable per unit of length is known resistance per unit length R in Ω m the entire cable resistance RL must not exceed the following values RL depends on the selected baud rates lmax Maximum cable length in m RL Total cable resistance in Ω R Cable resistance per unit length in Ω m Cable length Cable resistance Cross section m mΩ m mm2 AW...

Page 92: ...odule The interface is factory shipped with a protective cover fitted Remove this cover carefully The serial multi function interface is used for connecting the programming cable to the COM serial interface on the PC and thus as a connection for the easySoft programming software PC interface function the point to point connection between an MFD CP4 MN05013011Z DE previously AWB2528 1548D or MFD CP...

Page 93: ...1 1 Local connection Connect one of the following programming cables to the COM or USB interface of your PC and to the serial multi function interface of the MFD device Table 10 Programming cable for the connection to a PC Figure 73 Fitting the programming cable to an MFD device Device Programming cable Baud rate EASY800 MFD EASY800 PC CAB 19 2 Kbit s EASY800 MFD EASY800 USB CAB 57 6 Kbit s EASY80...

Page 94: ... bit s and in the Timeout Time menu enter a value of at least 1000 ms in the PC Local Device field Allow for the additional dial in and transfer time for a modem connection In some cases a time 1000 ms is required Connecting the modem On the PC side connect the modem via a null modem cable on which RxD and TxD are reversed Connect the MFD device to the modem via an EASY800 MO CAB Table 11 Tab SUB ...

Page 95: ...ble 12 Connection cable on an MFD CP4 CP8 for point to point communication CAUTION If you are connecting the MFD device alternately via a modem connection 9 6 Kbit s and then locally via a universal high speed cable up to 57 6 Kbit s the transfer speed for the MFD device must be reset to 9 6 Kbit s if the slower modem connection is accessed after using the local connection Device Connection cable ...

Page 96: ...ace cover Remove the cover from the interface and connect the connector plug Figure 75 Fitting the connection plug left MFD CP8 CP10 with plug POW Side The connector marked POW Side must be plugged into the interface of an MFD The serial interface only functions if the MFD device is providing the power feed required for the interface cable POW Side ...

Page 97: ... from any suitable MFD device For easy800 and MFD CP8 only use the EASY M 256K card Use the EASY M 512K on the MFD CP10 for storing and reading a program Remove the cover from the interface and connect the connector memory card Figure 77 page 94 How to use the memory card Section Program transfer from and to the memory card on page 158 POW Side The ES4A MEM CARD1 memory card cannot be read or writ...

Page 98: ...2 Installation 2 8 Connecting the serial multi function interface 94 Manual 11 10 MN05002001Z EN www eaton com Figure 77 Connecting and removing the memory card b b ...

Page 99: ...uctor N Terminals I1 I12 and R1 R12 expansion unit actuation via main pole L Terminals Q1 to Q6 Terminals S1 S6 expansion unit 3 2 Setting the menu language When you switch on the MFD device for the first time you will be asked to select the menu language Use the cursor buttons Í or Ú to select the language required English German Italian French Spanish Italian Portuguese Dutch Polish Russian Swed...

Page 100: ...nd the easy 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 In RUN mode the process image of the inputs are read circuit diagram is processed the visualization is shown the process image of the outputs is transferred to the physical outputs In STOP mode the circuit diagram is not executed and the visualiz...

Page 101: ... circuit diagram Configure your machine plant so that the automatic starting of the MFD device never causes unintentional starting of the machine plant concerned Create your circuit diagram so that a defined and safe startup procedure is always provided after the power supply is switched on Information on startup behaviour is provided on section Behaviour during upload download to card or PC page ...

Page 102: ...ors lamps or contactors you wish to use Figure 78 Overview for first circuit diagram 3 4 1 Starting point the status display When you switch on an MFD device it opens the status display immediately This status display shows the switching state of the inputs and outputs and also indicates whether the device is currently running a circuit diagram Requirement for circuit diagram entry the MFD device ...

Page 103: ...lashes at the top left which is where you will start to create your diagram The position of the cursor appears in the last line of the display L Rung Line C Contact or coil field Column B Amount of free memory in Bytes The circuit diagram supports four contacts and one coil in series The display shows 6 fields of the circuit diagram The examples do not involve the use of expansion units If an expa...

Page 104: ...ction MFD automatically connects the contact to the power supply Now wire the circuit diagram as described below 3 4 3 Draw a wiring diagram Figure 79 Lamp controller with relays In the following example the MFD device carries out all the wiring and performs the tasks of the circuit diagram shown below ÊÊÊÊÊÊÊ ÊÊÊÊÊÊÊ ÊÊÊÊÊÊÊ ÊÊÊÊÊÊÊ ÊÊÊÊÊÊÊ ÊÊÊÊÊÊÊ L 1 C 1 B Switching to the circuit diagram page ...

Page 105: ...1 and S2 are at the input I01 and I02 are the switch contacts for the input terminals in the circuit diagram The relay Q1 is represented in the standard circuit diagram by the relay coil Ä Q01 The symbol Ä identifies the coil s function in this case a relay coil acting as a contactor Q01 is one of the MFDdevice s outputs E1 L01 S1 L01 L01 F1 24V 0V 0V I1 I3 I2 Q1 1 2 DEL ESC ALT OK S2 I01 I02 Q01 ...

Page 106: ... that the cursor jumps to the next position and press cursor button Í or Ú to change the number to 02 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 3 4 3 2 Wiring MFD device displays a small arrow l in the circuit diagram when creating the wiring Press ALT to activate the wiring arrow curs...

Page 107: ...s OK The specified coil function Ä and the output relay Q01 are correct and do not have to be changed Your result will look as follows Figure 82 Your first wired and functional circuit diagram Visible area Press ESC to leave the circuit diagram display The SAVE menu appears 3 4 3 3 Saving Figure 83 SAVE menu Visible area Confirm with OK The circuit diagram is stored ÊÊÊÊÊÊÊ ÊÊÊÊÊÊÊ ÊÊÊÊlÊÊ ÊÊÊÊÊÊÊ...

Page 108: ...status display and press pushbutton S1 Do not execute pushbutton S2 The contacts for inputs I01 and I02 are activated and relay QS1 picks up indicated by the highlighted numbers 3 4 4 2 Test using the power flow display A MFD device enables you to check the power flow in RUN mode While the device is processing the circuit diagram in RUN operating mode you can use the integrated power flow display ...

Page 109: ...lus one coil in series 3 Rungs Current paths Change to the circuit diagram display and press the ALT button Press pushbutton S1 Figure 86 Power flow display in Zoom function Input I01 and I02 are closed relay Q1 picked up â Contact closed coil is triggered Contact opened coil not triggered Press pushbutton S2 that has been connected as an N C contact The power flow is interrupted and relay Q1 drop...

Page 110: ...lay Q1 has dropped out Visible area 3 4 5 Deleting the circuit diagram Switch the MFD device to STOP mode Choose STANDARD PROGRAM to switch from the main menu to the appropriate menu level Select DELETE PROGRAM The MFD will display the prompt DELETE Press OK to delete the program or ESC to cancel Pressing ESC once more returns you to the previous menu level Æ Ä L 002 I 02 I01 I02 Ä Q01 L 1 C 2 RUN...

Page 111: ...zation required You can carry out the parameterization conveniently with easySoft Pro or via the buttons on the display HMI unit as described below Basic requirements The individual power supply CPU display HMI modules and temperature modules must be assembled installed wired and the power supply connected The MFD must be in STOP mode and the Status display must be showing 3 5 1 Properties of the ...

Page 112: ...o the sub menus TEMP RANGE and FILTER TEMP RANGE Here you define the temperature range that can be measured with the temperature modules and sensors used Default settings 40 C 90 C In the TEMP RANGE menu press OK to activate Entry mode and then use the Í Ú cursor buttons to set the required temperature range Complete the setting of the temperature range with OK Exit the menu as normal by pressing ...

Page 113: ...in the factory set filter frequency of 50 Hz The required cycle time of the temperature module depends on the filter frequency selected This is the time that the temperature module requires to provide the next temperature value for your application Table 14 Configurable filter frequencies and resulting cycle time No general recommendations regarding optimum filter frequency can be given since any ...

Page 114: ...hoose menu item SENSOR 1 or SENSOR 2 In the following menu the SENSOR menu item is already selected Press OK to activate Entry mode and then use the Í Ú cursor buttons to switch this temperature input or off Complete the setting with OK The parameter settings described below are possible when the sensor is activated The setting options described here are the same as for the SENSOR 2 menu The facto...

Page 115: ...the decimal point and decimal places without the need for conversion in the MFD program How to process a temperature value via MD01 96 Move to the OPERAND menu item via the SENSOR 1 or SENSOR 2 menu and select in Entry mode the operand MD01 or MD02 Close the operand selection with OK You can then complete the scaling via the VALUES menu item VALUES Default setting 12 BIT 0 4095 This menu item is u...

Page 116: ...range area Example with selected temperature range 40 C 90 C From sensor 1 you read a temperature value via the operand MD01 and have selected a resolution of 0 1 C under VALUES The MFD shows 40 0 90 0 as the temperature range In the visualization via the numerical value screen element section 6 4 15 Numerical value page 400 set Value range min 400 max 900 40 0 0 1 or 90 0 0 1 Scaling Range 40 0 9...

Page 117: ...ou can set the time interval between the individual scans via the scan time TA The temperature module is factory set to the minimum value 200 ms In the example given the scan time to be set would depend on the scan time TC of the PID controller In the SCAN TIME menu item press OK to activate Entry mode and use the cursor buttons Í Ú to switch cyclical measuring on or off Confirm with OK When SCAN ...

Page 118: ... or via MD01 96 marker double word QA1 When assigning via the operand QA1 values are read in the range 0 4095 the resolution is approx 2 44 mV MD01 96 When assigning the analog output value via an operand MD01 96 you can scale it in three stages VALUES menu When the value is output and visualized at the same time this assignment has the advantage that the temperature module already scales the outp...

Page 119: ... in the line below VALUES The division of this range by the scaling factor produces the value range that you use for the parameterization in the visualization in the Value range area Example You are outputting an analog value via an MD operand and have selected in VALUES a resolution of 0 001 V The MFD shows the range 0 000 10 000 In the visualization via the numerical value screen element section...

Page 120: ... stored SHORT CIRCUIT Short circuit on Sensor 1 CABLE BREAK å Cable break wire break on sensor 1 LOWER LIMIT The actual value on sensor 1 is below the set measuring range UPPER LIMIT The actual value on sensor 1 is above the set measuring range 3 5 4 Menu INFORMATION Figure 92 Menu INFORMATION V Version operating system version of the temperature module e g 1 00 B Build the development level withi...

Page 121: ...scard your entries by leaving the menu with CANCEL 3 6 Configuring the analog expansion unit The EASY4 DC ME expansion units for analog value and temperature measuring must be configured before commissioning The digital inputs outputs of these expansion units are detected by the basic device automatically without any configuration You can carry out the configuration conveniently with easySoft Pro ...

Page 122: ...3 and 94 on the following pages After you have carried out the necessary parameter settings confirm with the OK button The device switches back to the Status display Pressing the ESC pushbutton returns you to the Status display without changing the parameters SECURITY SYSTEM MENU LANGUAGE CONFIGURATOR NET COM LINK ETHERNET GW LINK menu item only in STOP mode IO DEVICE MODE INPUT XXXX 4xx 01 00 SEC...

Page 123: ... 2 Marker words MW89 MW96 are therefore assigned Table 17 page 120 With EASY411 DC ME you can activate and commission all six analog inputs voltage current or temperature at the same time X X X X 1 Analog input 0 off 1 0 10 V 2 0 20 mA 3 PT100 resistance sensor X 2 Analog input 0 off 1 0 10 V 2 0 20 mA 3 PT100 resistance sensor X Analog output 0 off 1 ON X X X X X 0 10 V 1 und 4 analog input 0 bot...

Page 124: ...sequence when replacing a configured expansion device this configuration must be repeated Analog value Input Output EASY406 DC ME EASY411 DC ME 1 Analog input MW93 MW89 2 Analog input MW94 MW91 3 Analog input MW93 4 Analog input MW90 5 Analog input MW92 6 Analog input MW94 1 Analog output MW95 MW95 2 Analog output MW96 A new analog expansion unit is factory set for all inputs outputs to be activat...

Page 125: ... and the analog output of the expansion device are deactivated Resulting parameter setting for expansion unit 001 Parameter setting of the analog value comparison function block 3 6 2 2 Wiring digital inputs outputs The digital inputs R1 R3 as well as the digital outputs S1 S2 do not have to be activated in the configuration can always be wired in the circuit diagram can be used simultaneously wit...

Page 126: ... as the first NET station The device to be parameterized must be in STOP mode The POW LED of this NET station must be permanently lit When commissioning for the first time the NET LED is Off Diagnostics contact Fault on 1 state Meaning of group message with identical measuring processes the same fault can be present at two analog inputs or outputs R13 Wire break on at least one analog input for me...

Page 127: ...stor physical location station number 3 7 1 NET parameterize If you wish to work with the non safety NET and exchange non safety data with several stations you must complete the parameterization and configuration for this beforehand An introduction to the easyNet network is provided in section 7 1 Introduction network Net page 437 2 1 1 2 I1 I12 Q1 Q6 R1 R12 S1 S8 ...

Page 128: ...ded in section 7 2 Description of the NET PARAMETERs page 440 Creating the station list STATION menu Page 126 no Parameterize each NET station individually no Ye Ye Topology Passing through NET ID 1 NET Station with circuit diagram Checking the functionality of the NET Page 479 Yes no NET parameterize Commissioning NET stations Configuring NET CONFIGURATOR menu Page 127 Wiring NET operands in the ...

Page 129: ...maximum permissible transfer rate that your NET allows section 11 3 8 NET network page 515 This will save you any unnecessary delay times The remaining parameters are not described further here They are described in detail section 7 2 Description of the NET PARAMETERs page 440 Start the parameterisation with the physically first device on the NET the station with NET ID 1 This NET station can be u...

Page 130: ... location in this case position 2 with the Í and Ú cursor buttons and press OK Select the NET ID 2 with the Í and Ú cursor buttons and confirm your input with the OK button At physical location 2 the station has been assigned station address 2 Press ESC to return to the STATIONS menu item The functions REMOTE RUN and REMOTE IO are not required for the station with NET ID 1 and are therefore not av...

Page 131: ...the NET and the termination resistors must have been connected All stations have voltage show the basic menu in the device display the status display and are in operating mode STOP The POW and NET LEDs must be permanently lit For the configuration all devices connected on the NET are assigned their NET ID in the order in which they were entered in the station list in the STATION menu Furthermore a...

Page 132: ...o the connected device with the NET configuration If you require a parameter setting that is different to the factory setting you can do this locally via the NET PARAMETERS menu of the NET station concerned An easier way is to carry out the parameter setting in easySoft Pro in conjunction with a program transfer to the device concerned During the NET configuration all connected stations switch aut...

Page 133: ...physical location which is to be modified Section 3 7 1 2 Creating the station list on page 126 Press the OK button Message Meaning CONFIGURATION IN PROGRESS The configuration is error free the NET is then operational with the connected stations ERR ID CONFLICT CONFIGURATION CONFIGURATION At least two NET stations have the same NET ID Section Error message ID conflict ERR TIME OUT Network fault fo...

Page 134: ...ot allowed and leads to malfunctions on the NET Possible effects of this type of incorrect configuration with two masters competing against each other and in which one is operated in the STOP operating mode and the other in the RUN operating mode are as follows NET stations with NET ID 2 8 that should follow the operating mode changes of the NET station with NET ID 1 automatically during operation...

Page 135: ... of the required NET station with the Í and Ú cursor buttons The input output states of this NET station are shown in the display e g 3I 3Q Press the ALT button several times if you wish to see the locally set time the date or the group fault alarms for transistor outputs on this NET station Pressing the ESC button further will terminate the display of the input and output states of this NET stati...

Page 136: ...uts outputs on the remote station read or write the marker range MD01 MD20 on the remote station This data can be used in the active MFD for setpoint definition or display functions Figure 99 COM LINK connection to an easy800 easySafety or another MFD If you connect two MFD devices with each other only one device must be the active station i e COM LINK must only be activated once in the COM menu A...

Page 137: ...plies the interface circuit in the connecting cable Connect the power supply to both stations and switch it on To operate the COM LINK connection only the interface and the marker range of the access data have to be parameterized on the active device To configure the interface select the baud rate and activate the COM LINK connection This can be carried out via the display keypad of the MFD WARNIN...

Page 138: ...00 or 19200 baud Select 19200 baud and confirm with OK 3 8 2 2 activate COM LINK Press the Ú pushbutton Press the OK button The tick on the COM LINK menu item indicates that the connection is activated SECURITY SYSTEM MENU LANGUAGE CONFIGURATOR NET COM LINK ETHERNET GW BAUDRATE 9600B COM LINK REMOTE MARKER BAUD RATE 19200 B COM LINK REMOTE MARKER If faults occur change the baud rate to 9600 Check ...

Page 139: ...nter the WRITE range Enter the WRITE range Press ESC pushbutton to leave the entry menu Press ESC to return to the Status display The entry in the second COM line indicates that the COM LINK connection is active The COM LINK has now been set Wiring COM LINK operands in the circuit diagram section 4 8 Wiring COM LINK operands in the circuit diagram page 184 Monitoring the COM LINK connection sectio...

Page 140: ...set the MFD to switch to TERMINAL MODE on power up and establish a connection to the defined station Section 8 2 4 TERMINAL MODE startup TERMINAL MODE menu item You connect the controlling MFD in two ways via the multi function interface in a point to point connection to a single device as a NET station via the easyNet NET to another NET station The controlling MFD does not require a program for T...

Page 141: ...u Select the TERMINAL MODE and confirm the selection with OK For a point to point connection choose 0 as STATION ID Choose the START MODE menu item and press the OK button The MFD display now shows the content of the easy800 display To indicate that the MFD is in Terminal mode the star flashes in the top right corner of the Status display Pressing the Mode pushbutton on the controlling MFD returns...

Page 142: ...he controlling MFD is itself a NET station Simultaneous operation of several logical terminal connections between two NET stations is possible Figure 101 Access options in terminal mode a Terminal Mode CAUTION Both MFD devices must not access the same NET station e g the device with ID 4 at the same time Simultaneous access via the NET by MFD in Terminal mode and the PC programming device to a NET...

Page 143: ...g mode and both devices must be connected via the MFD 800 CAB5 cable Select the TERMINAL MODE and confirm the selection with OK As STATION ID select the NET ID of the required station Start the terminal mode as described logical connection Access permitted not permitted Explanation 1 2 1 4 Not permissible Simultaneous access to a NET station from 2 sides 2 3 Not possible In terminal mode the displ...

Page 144: ... 1 8 Requirement for connection The COM LINK connection is not active The controlling MFD is not in the STOP state Procedure Press the OK pushbutton from the Status Display The menu appears Press the Í pushbutton The TERMINAL MODE menu item flashes Press the OK button In this configuration an MFD cannot access a safety control relay on the network 1 1 2 5 1 2 1 2 I 1 12 Q 1 6 3 7 AS Interface 4 3 ...

Page 145: ...the connection is established the menu or the Status display of the selected device appears The easyNET station 5 controls the display of the MFD device Close Terminal mode Press the pushbutton The MFD menu appears again for activating the Terminal mode STATION ID 0 START MODE STATION ID 0 START MODE Station ID 0 Default setting point to point connection 1 station 1 on the easyNET 2 station 2 on t...

Page 146: ...e MFD NET ID 3 can access the device with NET ID 4 at the same time 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 remote device is in Graphic mode The remote device is in Graphic mode The controlling MFD can show the status ...

Page 147: ... its status and states Requirements for connection The COM LINK connection on the MFD must not be active The MFD must not be a NET station configure separately The MFD must be in the STOP state Both devices must be connected via the MFD 800 CAB5 cable Switch the MFD to Terminal mode From this display menu select the TERMINAL MODE and confirm with OK Select a STATION ID 1 to 8 Select the START MODE...

Page 148: ... is integrated directly in the easyNet Figure 106 MFD devices with easyNet stations are connected directly and indirectly An MFD device cannot access a station e g the device with ID 2 if another MFD has already established a direct or indirect connection to this station Simultaneous access by MFD in Terminal mode and PC programming device to a station is also not possible POW Side 1 1 2 2 1 2 3 3...

Page 149: ...sor on the circuit diagram in order to select a rung a contact a relay coil or the selection position of a coil function or a NET ID Use OK to switch to Entry mode so that you can enter or change a value at the current cursor position Press ESC in Entry mode to restore MFD to the last changes of an entry Delete rung contact relay or empty rung in the circuit diagram P7 Toggle between N O and N C c...

Page 150: ... 4 2 2 Function blocks Function blocks are program blocks with special functions Examples Timing relays time switch data block comparators Function blocks are provided with or without contacts and coils How a safety or standard function block is added to the safety or standard circuit diagram and parameterized is described in section 4 9 Working with function blocks page 188 on In RUN mode the fun...

Page 151: ...ble 21 Usable contacts 4 2 5 2 Coils Coils are the actuating mechanisms of relays The results of the wiring are transferred to the coils when the device is in RUN mode These switch to the On 1 or Off 0 state according to these results Coils can have seven different coil functions Table 27 page 174 A MFD device is provided with different types of relays and function blocks which can be wired in a c...

Page 152: ...of expansion of other station via NET I I 14 481 Short circuit overload on other station via NET I I 15 16 479 Status expansion of remote station via COM LINK 1I 1I 14 186 Short circuit overload of other remote station via COM LINK 1I 1I 15 16 186 Short circuit overload on a expansion unit with transistor output R R 15 16 479 Short circuit overload on a expansion unit other NET stations R R 15 16 ...

Page 153: ...arry A X CY A X CY X 01 32 Condition fulfilled A X Q1 A X Q1 Arithmetic 204 Value overflow carry AR X CY AR X CY X 01 32 Value zero AR X ZE AR X ZE Data block comparator 208 Enable BC X EN X 01 32 Failure number of elements exceeded BC X E1 BC X E1 Failure range overlap BC X E2 BC X E2 Failure invalid offset BC X E3 BC X E3 Comparison result BC X EQ BC X EQ Data block transfer 216 Activate trigger...

Page 154: ...e CH X RE Set counter value Preset CH X SE Actual value has exceeded counter range carry CH X CY CH X CY Lower setpoint value undershot Fall below CH X FB CH X FB Upper setpoint value exceeded overflow CH X OF CH X OF Actual value equal to zero CH X ZE CH X ZE Incremental Encoder 249 Enable counter CI X EN X 01 02 Reset count value CI X RE Set counter value Preset CI X SE Actual value has exceeded...

Page 155: ...le JC X EN X 01 32 Fault No corresponding jump label present or backward jump JC X E1 JC X E1 Jump Label LaBel Passive jump destination for JC 294 Master Reset 300 Activate trigger MR X T_ X 01 32 Set all outputs and markers to zero state MR X Q1 MR X Q1 Data multiplexer easy800 and MFD CP10 303 Enable MX X EN X 01 32 Fault Incorrect parameter setting 0 K 7 MX X E1 MX X E1 Numerical Converter 307 ...

Page 156: ...ccordingly to store Boolean states 0 or 1 You can use marker bits M marker bytes MB marker words MW and marker double words MD in the circuit diagram and function block diagram as well as in the visualization Synchronize clock via NET Set clock 323 Trigger SC X T_ SC X T_ X 01 Trigger acknowledgement SC X Q1 SC X Q1 SC X Q1 SC X Q1 Shift Register 325 Enable SR X EN X 01 32 Shift Register SR X Q1 8...

Page 157: ...96 16 bits r w Marker 8 bit MB 01 96 8 bit r w Marker 1 bit M 1 96 1 bit r w Analog inputs of the MFD R MFD T input output module IA X X 01 04 10 Bit r Analog inputs of the MFD TP TAP input output module for temperature measuring IA X alternative ly via MD 01 96 X 01 02 12bit r Analog output of the MFD R MFD T input output module QA X X 01 10 Bit r w Analog output of the MFD TAP input output modul...

Page 158: ...ker range that can be declared as retentive Bit M 96 89 88 81 80 73 72 65 64 57 56 49 48 41 40 33 32 25 24 17 16 9 8 1 Byte MB 12 11 10 9 8 7 6 5 4 3 2 1 Word MW 6 5 4 3 2 1 D Word MD 3 2 1 Byte MB 24 23 22 21 20 19 18 17 16 15 14 13 Word MW 12 11 10 9 8 7 D Word MD 6 5 4 Byte MB 36 35 34 33 32 31 30 29 28 27 26 25 Word MW 18 17 16 15 14 13 D Word MD 9 8 7 Byte MB 48 47 46 45 44 43 42 41 40 39 38 ...

Page 159: ...26 25 Word MW 60 59 58 57 56 55 D Word MD 30 29 28 Word MW 66 65 64 63 62 61 D Word MD 33 32 31 Word MW 72 71 70 69 68 67 D Word MD 36 35 34 Word MW 78 77 76 75 74 73 D Word MD 39 38 37 Word MW 84 83 82 81 80 79 D Word MD 42 41 40 Word MW 901 891 88 87 86 85 D Word MD 45 44 43 Word MW 961 952 942 932 921 911 D Word MD 48 47 46 D Word MD 51 50 49 D Word MD D Word MD 96 1 Marker word used as analog ...

Page 160: ...1110bin FFFFDCAEhex 2147474606dec Avoid any accidental double assignment of markers since it is possible to access physically identical memory ranges with different marker operands Illustrates the marker allocation Table 25 page 154 For example it is also possible to accidentally access the 96 marker bits via the first 12 marker bytes MB 6 marker words or 3 marker double words at the same time and...

Page 161: ...e electrical contact between relay contacts and the coils They can be created across several rungs Each point of intersection is a connection The number of free bytes is displayed so that you can recognize how much memory is available for the circuit diagram and function blocks The values of the data types marker byte MB and marker word MW are processed as unsigned This must be remembered particul...

Page 162: ...Help How to remove the cover of the serial multi function interface connect a programming cable and fit a memory card is described in Section 2 8 Connecting the serial multi function interface on page 88 4 4 1 Information on the memory card A program with all the necessary parameters can be loaded from the memory card into the MFD device or written from the device to the card Each memory card can ...

Page 163: ...ewer device versions without any restrictions in function 4 4 3 1 Compatibility Definition Downward compatibility is provided when a newer version of a software can open and process a program created with an older version Upward compatibility is provided when an older version of a software can open and process a program created with a newer software version Downward compatibility with MFD devices ...

Page 164: ... appears with the CARD DEVICE transfer Table 26 Compatibility matrix for program exchange between devices Program exchange between devices with memory card or easySoft Pro Programs can be loaded and run on devices with the same device version within the easy800 device family or devices with the same device version within the MFD Titan device family even if the target device does not have the neces...

Page 165: ... order to load an MFD CP8 program Figure 107 Choose CARD menu When a memory card is fitted and when the programs in the device and on the card are different the MFD always loads the program from the card The program is only transferred in STOP operating mode and when the supply voltage is switched on If the supply voltage fails when the card is accessed you must repeat the transfer as the data is ...

Page 166: ...from the card CARD DEVICE If a program on the memory card is invalid a program in the MFD device is retained Basic requirements The device in the STOP A memory card with a valid program or a circuit diagram must be fitted in the device You are in the CARD menu and password protection is removed Figure 107 page 161 Select DEVICE CARD Confirm the confirmation request with OK or abort the load operat...

Page 167: ...k Figure 109 Loading a program from the card 1 The storing device saves its type and version on the card A program to be loaded from the card must be suitable for the destination device otherwise this will refuse the transfer 2 If there is a transfer problem or a check sum error the MFD device will output the message PROG INVALID An MFD CP8 can load a program from the EASY M 256K card An MFD CP10 ...

Page 168: ...ual wiring Further information with detailed operator manual on the easySoft Pro programming software is provided in the online help Launch easySoft Pro and then open the Help system by clicking or by pressing function key F1 If there is a transfer error the MFD device shows the PROG INVALID message Check whether you are using functions that the MFD device does not recognize DELETE Only use the pr...

Page 169: ...es on the input terminals are detected in the circuit diagram with the input contacts I R or RN The outputs are switched in the circuit diagram with the output relays Q S or SN The jump destination has a special position for the input contacts and the jump location for the output relays These are used for structuring a circuit diagram Section 4 7 11 Jumps page 177 If the operating voltage fails du...

Page 170: ...ock consists of the abbreviated function block name the number and the contact function Example Contact of comparator function block How a safety or standard function block is added to the circuit diagram and parameterized is described in Section 4 9 Working with function blocks on page 188 If the contact of an Net station is used in the circuit diagram the NET ID address of the station is placed ...

Page 171: ...hes Use ú í ÍÚ to move the cursor to a contact or coil field Press OK to switch to Entry mode Use ú í to select the position you wish to change and press OK to move to the next position a selected position is shown in light grey in the following figure Use ÍÚ to modify the value of the position The coil number in the figures on the left must be the same as the function block number S Q 04 Coil Fun...

Page 172: ...g N O contacts to N C contacts You can define each contact in the circuit diagram as a N O or N C Switch to Entry mode and move the cursor over the contact name Press ALT The N O contact will change to a N C contact Press OK twice to confirm the change Figure 111 Change contact I 03 from N O to N C In the contact field to change I 01 to I 02 In the coil field change Ä Q 01 to S Q 08 I 01 I 02 Ä Q ...

Page 173: ...n 9 1 3 2 Example Do not wire backwards page 469 Figure 112 Circuit diagram with five contacts invalid With more than four contacts in series use one of the 96 M markers Figure 113 Circuit diagram with M marker relay 4 7 2 1 Deleting Connections Move the cursor onto the contact field or coil field to the right of the connection that you want to delete Press ALT to switch to Connect mode Press DEL ...

Page 174: ...ng rung with all its additional connections is shifted downwards The cursor is then positioned directly in the new rung Figure 114 Inserting a new rung 4 7 4 Saving circuit diagrams Press ESC to save a circuit diagram The menu on the left appears in the status line Pressing OK will save the entire program circuit diagram and function blocks After saving you will be returned to the previous menu fr...

Page 175: ...aken automatically to the required contact or coil field in the circuit diagram 4 7 7 Got to a rung The GO TO function can be used to go to a different rung Press ESC and use cursor buttons ÍÚ to select the GO TO menu Press OK Select the required rung L with the ÍÚ cursor buttons Always the first contact of the rung is displayed Press OK The cursor stops at the first contact L 1 of the required ru...

Page 176: ...eful for servicing and commissioning purposes Example 1 This standard circuit diagram example enables a lamp at output Q1 to either be switched on or off via the inputs I1 and I2 or via the cursor buttons ÍÚ Figure 115 Switch Q1 via I1 I2 Í or Ú Example 2 This circuit diagram example causes output Q1 to be actuated by input I1 I5 switches to cursor operation and disconnects the rung I 01 via M 01 ...

Page 177: ...ns depending on the mode STOP Create the circuit diagram RUN Power flow display Switch on I3 Figure 118 Power flow display In the power flow display energized connections are thicker than non energized connections You can follow energized connections across all rungs by scrolling the display up and down The power flow display indicates at the bottom right the controller is in RUN mode section Powe...

Page 178: ...01 ÄD02 ÄS04 Ä 01 ÄM07 174 ä Impulse Relay Function äQ03 äM04 äD08 äS07 ä 01 175 S Set SQ08 SM02 SD03 SS04 175 R Reset RQ04 RM05 RD07 RS03 175 Å Contactor function with negated result ÅQ04 ÅM96 176 È Cycle pulse on rising edge ÈM01 176 è Cycle pulse on falling edge èM42 176 The function block coil functions that can be used are described with the function blocks With non retentive coil functions s...

Page 179: ... 4 7 10 3 Set S and Reset R coil function The Set S and Reset R 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 is not retentive Figure 121 Set and Reset signal diagram If both coils are actuated simultaneously the coil with the higher rung number has...

Page 180: ...o switch on a rising edge When the coil status changes from 0 to 1 the coil switches its make contacts to 1 for one cycle Figure 124 Signal diagram of cycle pulse with rising edge 4 7 10 6 Falling edge evaluation cycle pulse è This function is used if the coil is only meant to switch on a falling edge When the coil status drops out from 1 to 0 the coil switches its make contacts to 1 for one cycle...

Page 181: ...ered the rungs after the jump coil are no longer processed The states of the coils before the jump will be retained unless they are overwritten in rungs 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 Coil jump on 1 state Contact only at the first leftmost contact Jump label The jump contact location is...

Page 182: ...elays used I1 sequence 1 I2 sequence 2 I3 guard 2 moved out I12 motor protective circuit breaker switched on Q1 motor 1 Q2 guard 2 T 01 wait time 30 00 s on delayed D 01 Text Motor protective circuit breaker tripped CAUTION If rungs are skipped the states of the coils are retained The time of started timing relays continues to run Circuit diagram Power flow display I 01 selected Range from jump la...

Page 183: ... station 1 processes a circuit diagram nI nR nQ nS All NET stations each process a circuit diagram nI nR nQ nS nRN nSN nPT and nGT Mixed operation of NET stations with and without a circuit diagram nI nR nQ nS nRN nSN nPT and nGT I 01 L 1 C 1 B 7732 7I 01 L 1 C 1 B 7732 Station Basic device via NET Local expansion via NET Bit data via NET Word data via NET Input Output Input Output Input Output Re...

Page 184: ... 2 RN 32 3 RN 1 3 RN 32 5 RN 1 5 RN 32 8 RN 1 8 RN 32 1 SN 1 1 SN 32 2 SN 1 2 SN 32 3 SN 1 3 SN 32 5 SN 1 5 SN 32 8 SN 1 8 SN 32 GT 1 PT 1 5 1 I 1 1 I 16 4 I 1 4 I 16 6 I 1 6 I 16 7 I 1 7 I 16 8 I 1 8 I 16 1 Q 1 Q 8 4 Q 1 4 Q 8 6 Q 1 6 Q 8 7 Q 1 7 Q 8 8 Q 1 8 Q 8 1 R 1 1 R 16 4 R 1 4 R 16 6 R 1 6 R 16 7 R 1 7 R 16 8 R 1 8 R 16 1 S 1 1 S 8 4 S 1 4 S 8 6 S 1 6 S 8 7 S 1 7 S 8 8 S 1 8 S 8 1 RN 1 1 RN...

Page 185: ...r bit exchange must always use the RN and SN in pairs Figure 127 page 182 and 128 4 7 14 1 Writing via SN The NET operand SN Send NET is used for sending bit data from one NET station to another To do this you select the SN operand in a coil field 4 7 14 2 Reading using RN The RN Receive NET NET operand is used to receive the bit data that another NET station has sent To do this you select the RN ...

Page 186: ...SN 7SN 8SN 1RN 2RN 3SN 3RN 4RN 6RN 7RN 8RN 1SN 2SN 5SN 6SN 7SN 8SN 1RN 2RN 3SN 3RN 5RN 6RN 7RN 8RN 1SN 2SN 4SN 5SN 6SN 7SN 8SN 1RN 2RN 4RN 5RN 6RN 7RN 8RN 1SN 4SN 5SN 6SN 7SN 8SN 1RN 3SN 3RN 4RN 5RN 6RN 7RN 8RN 2RN 4RN 5RN 6RN 7RN 8RN 2SN 3RN 3SN 4SN 5SN 6SN 7SN 8SN 1SN 2SN 4SN 5SN 7SN 8SN 1RN 2RN 3SN 3RN 4RN 5RN 7RN 8RN 1SN 2SN 4SN 5SN 6SN 8SN 1RN 2RN 3SN 3RN 4RN 5RN 6RN 8RN 1SN 2SN 4SN 5SN 6SN 7...

Page 187: ... NET ID 1 NET ID 2 NET ID 3 NET ID 4 NET ID 5 NET ID 6 NET ID 7 NET ID 8 1SN 2SN 4SN 6SN 7SN 8SN 1RN 2RN 3SN 3RN 4RN 6RN 7RN 8RN 1SN 2SN 5SN 6SN 7SN 8SN 1RN 2RN 3SN 3RN 5RN 6RN 7RN 8RN 1SN 2SN 4SN 5SN 6SN 7SN 8SN 1RN 2RN 4RN 5RN 6RN 7RN 8RN 1SN 4SN 5SN 6SN 7SN 8SN 1RN 3SN 3RN 4RN 5RN 6RN 7RN 8RN 2SN 4SN 5SN 6SN 7SN 8SN 2RN 3SN 3RN 4RN 5RN 6RN 7RN 8RN 1SN 2SN 4SN 5SN 7SN 8SN 1RN 2RN 3SN 3RN 4RN 5RN...

Page 188: ...evice in the program of the active MFD e g 1 I3 means input 3 of the remote station Example The active MFD queries input I3 of the remote device The status is passed to marker M01 of the active MFD You can read the following operand types from the remote station READ 1I 1IA 1ID 1Q 1QA not with easySafety If the remote device is connected with an expansion unit you can also read its inputs outputs ...

Page 189: ...te MFD easy800 easySafety Program Memory I R IA ID Q S QA MD Program COM LINK MFD active Remote MFD easy800 Program Memory MD 20 MD 96 32 31 30 03 02 01 MD 01 64 63 62 35 34 33 MD 02 96 95 94 67 66 65 MD 03 MD 04 MD 20 MD 01 MD 02 MD 03 MD 04 Program COM LINK MFD active Display READ 1 MD 01 l 1 MD 02 WRITE 1 MD 03 l 1 MD 03 Remote MFD easy800 Program Marker memory M01 M96 Bit Marker 32 31 30 03 02...

Page 190: ...D01 to MD96 can be used in the program of the remote device Table 29 Operands of the remote station parameterized marker range READ WRITE Table 29 shows the COM LINK operands which can be accessed by the active MFD with the COM connection Some markers can be addressed as bit byte word or double word also Figure 131 page 185 All marker data types also double words are consistent Function Operand Ra...

Page 191: ...e cyclically 120 ms is a guide value for the time required for refreshing a marker double word Write read operands via the COM LINK connection run asynchronously to program accesses This applies to the active MFD as well as to the remote device 4 8 2 1 Operand access in the remote device Both the active MFD Titan and the remote device can write the markers of the remote device In this type of dual...

Page 192: ...nt actual values are transferred to the operands every cycle The data function block is an exception If you want to prevent other people from modifying the parameters of the function blocks change the access enable symbol from to when creating the circuit diagram and setting parameters You can then protect the circuit diagram with a password As every function block in the function block list takes...

Page 193: ... and press OK The parameter dialog opens You can only set Boolean basic parameters here for the standard function blocks The entire parameterization is carried out in the function block editor Further information on this is provided in the following chapter 4 9 2 Setting function block parameters Function blocks are simply called in the circuit diagram and also enter the Boolean basic parameters t...

Page 194: ...g for basic parameters1 Main menu PROGRAM PROGRAM CIRCUIT DIAGRAM Saving Select function block in the list Parameterize function block in the editor2 Parameterize other function blocks Saving Ye ESC OK no ESC Parameterize function block FB ESC OK Otherfunctionblocksin the list Yes no 1 Only Boolean parameters Page 191 2 All parameters Page 192 Main menu PROGRAM PROGRAM FUNCTION BLOCKS OK END ...

Page 195: ...ed for example the time range S Use the cursor buttons ÍÚ to change the parameter value to a different time range such as M S Press OK to exit the parameter dialog if you wish to save the parameters or press ESC if you do not wish to parameterize the function block and add it to the circuit diagram After saving or canceling the cursor returns to the position in the circuit diagram where you last l...

Page 196: ...the cursor buttons ÍÚú í to select the required function block from the function block list in this case timing relay T01 The timing relay is shown in the function block editor and can be fully assigned parameters here Figure 134 Display of the function blocks in the function block editor ââ L 001 B 3100 Displays the functionblocks used Function special function parameter display Free memory in by...

Page 197: ... input ensure that these cannot be triggered with impermissible values during operation There is a danger of this if you assign a variable that can assume negative values to a standard function block input that can only accept positive values If for example the T timing relay is triggered with a negative time setpoint it will no longer switch in the expected way You should therefore take care to e...

Page 198: ...nged with the following accesses Access 1 FUNCTION BLOCKS STOP mode All parameters can be set or deleted via PROGRAM FUNCTION BLOCKS and the function block editor Access 2 FUNCTION BLOCKS menu RUN mode You reach the function block editor via PROGRAM FUNCTION BLOCKS Here you can change setpoints constants This access is blocked if the program is password protected Access 3 PARAMETERS menu option RU...

Page 199: ...r a parameter set OK Switch to Entry mode ú í Change decimal place ÍÚ Change value at a decimal place OK Save constant immediately and exit the parameter display by pressing ESC ESC Keep the previous setting and exit the parameter display Access 3 PARAMETERS menu RUN mode Requirements for parameter assignment via PARAMETERS The MFD device is in RUN mode The function block is used in the standard c...

Page 200: ...rder to save the function block list with the deleted function block Answer the subsequent SAVE prompt with OK 4 9 5 Checking function blocks Requirement for the check The MFD device must be in RUN mode You can check function blocks via the function block editor Choose PROGRAM FUNCTION BLOCKS to enter the function block list which shows the standard function blocks used In the function block list ...

Page 201: ... ESC once more and press OK in answer to the subsequent CANCEL prompt AR01 ADD I1 20056 I2 1095 QV 21151 Press ALT to switch likewise to the display of the function blocks as well as the other contact and coil operands in the circuit diagram You can use ALT to switch from full but only partial display to a compact display showing all contacts and coils on one circuit diagram line Pressing ALT once...

Page 202: ...4 Wiring with MFD 4 9 Working with function blocks 198 Manual 11 10 MN05002001Z EN www eaton com ...

Page 203: ... of up to 32 analog value comparators threshold switches 5 1 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in column 1 of the following tables Analog value comparator A1 A32 Boolean inputs outputs Parameters Contact Coil Input value Output value Q1 1 if the selected actual value setpoint condition is fulfilled CY Value range exceeded I1 Comparison ...

Page 204: ...here The display contains the following elements The parameter set consists of Parameters Function A Q1 Reaching of the comparison result according to the selected operating mode GT EQ or LT A CY Value range exceeded I 01 A 01Q1 Ä Q 01 I 02 A 01CY S Q 02 A 02 GT I1 F1 I2 F2 OS HY A 02 Function block analog value comparator number 02 GT Operating mode Greater than Parameter display Call enabled I1 ...

Page 205: ...adjust the comparison values and increase them by entering gain factors F1 and F2 F1 is permanently assigned to I1 F2 is permanently assigned to I2 OS You can use the offset input OS to move the zero point of the function block input I1 HY The HY function block input is used for the positive and negative switching hysteresis of the input I2 All function block inputs can be assigned the following o...

Page 206: ...the inputs I1 and I2 You control the comparison in the function block by setting other input parameters Multiplication factors F1 and F2 for the comparison values 1 and 2 Offset of comparison value 1 via function block input OS Application of a switch hysteresis to comparison value 2 on HY Contact Q1 indicates the comparison result greater equal to or less depending on the set operating mode Conta...

Page 207: ...ue minus the hysteresis The contact goes to the normal position Range B Compare I1 less than I2 The actual value drops The contact switches if the actual value 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 Range C Compare I1 greater than I2 with offset This example behaves as described in ...

Page 208: ...f the standard circuit diagram The function block is provided with the two Boolean outputs mentioned above for controlling the calculation result that you wire as contacts in the circuit diagram 5 2 2 1 Contacts A closed contact indicates 5 2 2 2 Example of an arithmetic function block Figure 137 Wiring the function block contacts Arithmetic AR1 AR32 ARithmetic Boolean inputs outputs Parameters Co...

Page 209: ...ter assignment from the circuit diagram page 191 This parameter is factory set to Inputs I1 and I2 The signals present at the inputs I1 and I2 are associated with the operation set as the operating mode You can assign the following operands to function block inputs I1 and I2 AR04 ADD I1 I2 QV AR04 Function block Arithmetic number 04 ADD Mode Add Parameter display Call enabled I1 First value is ass...

Page 210: ...ks Memory requirement of the function block The arithmetic function block requires 40 bytes of memory plus 4 bytes per constant at the function block inputs Cycle time The execution time depends on the mode 5 2 4 Function of the function block The values present at the inputs I1 and I2 are associated with the arithmetic operation set as the mode If the calculation result exceeds the value range th...

Page 211: ...147483648 3 Last valid value before this arithmetic operation due to overflow CARRY AR CY Status 1 4096 1000 5096 4096 1000 3096 5 2 4 3 Multiplication examples 12 x 12 144 1000042 x 2401 Last valid value before this arithmetic operation due to overflow CARRY Correct value 2401100842 AR CY Status 1 1000 x 10 10000 5 2 4 4 Division examples 1024 256 4 1024 35 29 The places after the decimal point a...

Page 212: ...nputs outputs Read the description of the inputs outputs in the legend points in the following tables 5 3 2 Wiring of the function block You wire the function block in the circuit diagram with its enable coil and its contacts 5 3 2 1 Coil The coil of the function block is used in the circuit diagram Data block comparator BC1 BC32 Block Compare Boolean inputs outputs Parameters Contact Coil Input v...

Page 213: ...n the figure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Parameters Function BC EQ Compared ranges are identical BC E1 The number of compared elements for a marker range are exceeded BC E2 Compared ranges overlap BC E3 Offset of compared blocks outside of the permitted range I 05 Ä BC11EN BC11E1o BC11E2s BC11E3j Ä M 4...

Page 214: ...inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block 5 3 3 2 Specifying the marker range Marker ranges can be specified with or without an offset Marker range without offset If MB MW or MD markers are specified at both I1 and I2 the number of the markers is the start of comparison range Marker range wit...

Page 215: ...r function block requires 48 bytes of memory plus 4 bytes per constant at the function block inputs 5 3 3 4 Cycle time The execution time depends on the data volume 5 3 4 Function of the function block The data block comparator function block compares two contiguous data blocks The comparator is active if coil BC EN enable is triggered The error outputs E1 E2 and E3 are evaluated regardless of the...

Page 216: ...inition of a marker range with offset Two marker blocks are to be compared Block 1 starts at MB15 Block 2 starts at MB65 Each block is 4 bytes long Parameters of function block BC01 Comparison range 1 I1 MB10 Comparison range 2 I2 MB40 Number of bytes NO 10 Comparison range 1 Value of marker range 1 decimal Comparison range 2 Value of marker range 2 decimal MB10 39 MB40 39 MB11 56 MB41 56 MB12 88 ...

Page 217: ...al Comparison range 2 Value of marker range 2 decimal MB15 45 MB65 45 MB16 62 MB66 62 MB17 102 MB67 102 MB18 65 MB68 57 Comparison range 1 I1 MB60 Comparison range 2 I2 MD80 Number of bytes NO 6 The comparison is in byte format MD80 has 4 bytes Therefore the first two bytes of MD81 are also compared Comparison range 1 Value of marker range 1 decimal binary Comparison range 2 Value of marker range ...

Page 218: ... is 1 5 3 4 5 Example 5 Comparison of marker blocks range overlap error Two marker blocks are to be compared Block 1 starts at MW60 Block 2 starts at MW64 Each block is 12 bytes Parameters of function block BC01 The error message Comparison ranges overlap is output BC01E2 is 1 Comparison range 1 I1 MD60 Comparison range 2 I2 MD90 Number of bytes NO 30 The comparison is in byte format MD90 to MD96 ...

Page 219: ... at MW40 block 2 at MW54 The block length is determined by the value of counter C 01QV Parameters of function block BC01 The error message The specified offset of the comparison ranges is outside of the permissible range is output BC01E3 is 1 Comparison range 1 I1 MW40 Comparison range 2 I2 MW54 Number of bytes NO C 01QV The value of C 01QV is 1024 This value is too big The value at NO can be betw...

Page 220: ... 4 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables 5 4 2 Wiring of the function block You wire the function block in the circuit diagram with its trigger coil and its contacts 5 4 2 1 Coil The coil of the function block is used in the circuit diagram to transfer the input value Data block comparator BT1 BT32 Block Transfers Bo...

Page 221: ...iagram for the first time use OK to automatically enter the general display of function block parameters as shown in the figure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Parameters Function BT E1 Outside of source or destination range BT E2 Overlapping of source and destination range BT E3 Invalid offset I 05 Ä BT07...

Page 222: ...s factory set to Inputs I1 and I2 Function block inputs I1 and I2 are used to define the beginning of the source and destination range The entry at function block input NO determines the number of elements to be written You can assign the following operands to function block inputs I1 and I2 and NO Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal...

Page 223: ...A Analog output QA Constant Output QV of a function block The value at the input is taken as the offset to marker byte MB01 Offset calculation for addressing marker words Offset MW x 1 x 2 Offset calculation for addressing marker double words Offset MD x 1 x 4 5 4 3 3 Memory requirement The transfer data block function block requires 48 bytes of memory plus 4 bytes per constant at the function blo...

Page 224: ...e function block carries out a transfer on a rising edge at coil T_ Trigger The error contacts E1 E2 and E3 are evaluated regardless of the status of the trigger Example 1 Initializing marker blocks direct definition marker ranges The value of marker byte 10 is to be transferred to marker bytes 20 to 29 Parameters of function block BT01 After a rising edge from 0 to 1 at coil BT01T_ the value 123 ...

Page 225: ...B65 to MB68 Parameters of function block BT01 After a rising edge from 0 to 1 at coil BT01T_ the value 45 is present in the marker bytes MB65 to MB68 Source range I1 MB15 Target range I2 64 Number of bytes NO 4 Marker MB01 1 Destination range Constant 64 Marker MB01 plus offset 1 64 65 MB65 Source range Value of source marker range decimal Destination range Value of destination marker range decima...

Page 226: ...r is in byte format MD80 has 4 bytes and MD81 has 4 bytes which means that NO has the value 8 Comparison range 1 Valuemarker range 1 dec binary Comparison range 2 Value of marker range 2 decimal binary MB60 45 00101101 MD80 Byte 1 LSB 757935405 00101101001011010010110100101101 MD80 Byte 2 757935405 00101101001011010010110100101101 MD80 Byte 3 757935405 00101101001011010010110100101101 MD80 Byte 4 ...

Page 227: ...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 The message The specified offset of the destination range is outside of the permissible range is output BT01E3 is 1 Source range I1 MD96 Target range I2 MD93 Number of bytes NO 18 The transfer is in byte format MD93 to MD...

Page 228: ...er coil The error outputs E1 E2 and E3 are evaluated regardless of the status of the trigger Example 1 Copy of marker blocks direct definition of marker ranges The value of marker byte 10 to 19 is to be transferred to marker bytes 20 to 29 Parameters of function block BT01 After a rising edge from 0 to 1 at coil BT01T_ the content of MB10 to MB19 is copied to the marker bytes MB20 to MB29 Source r...

Page 229: ...tion of a range in a different format Marker range MD60 to MD62 is to be copied to MW40 to MW45 Parameters of function block BT01 Source range I1 MB15 Target range I2 64 Number of bytes NO 4 Marker MB01 1 Destination range Constant 64 Marker MB01 plus offset 1 64 65 MB65 Source range Value of source marker range decimal Destination range Value of destination marker range decimal MB15 68 MB65 68 MB...

Page 230: ... decimal binary MD60 866143319 0011001110100000 0100110001010111 MW40 LSW 19543 0011001110100000 0100110001010111 MD60 866143319 0011001110100000 0100110001010111 MW41 MSW 13216 0011001110100000 0100110001010111 MD61 173304101 0000101001010100 0110100100100101 MW42 LSW 26917 0000101001010100 0110100100100101 MD61 173304101 0000101001010100 0110100100100101 MB43 MSW 2644 0000101001010100 0110100100...

Page 231: ... 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 function block BT01 The message The specified offset of the destination range is outside of the permissible range is output BT01E3 is 1 Source range I1 MW60 Target range I2 MW64 Number of bytes NO 12 The copy operation is in byte format MW60 to MW64 i...

Page 232: ...escription of the inputs outputs in the legend points in the following tables 5 5 2 Wiring of the function block You wire the function block in the circuit diagram with its contact 5 5 2 1 Contact A closed contact indicates 5 5 2 2 Example of a function block for Boolean operation Figure 142 Wiring of the contact to marker Boolean operation BV1 BV32 Boolean operation Boolean inputs outputs Paramet...

Page 233: ... operation required The factory setting of this parameter is AND Parameter Display The display of the parameters during operation can be disabled Additional information section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to BV01 AND I1 I2 QV BV01 Function block Boolean operation number 01 AND Operating mode AND Parameter display Call enabled I1 Firs...

Page 234: ...gn the following operands Analog output QA01 Markers MD MW MB Memory requirement of the function block The Boolean operation function block requires 40 bytes of memory plus 4 bytes per constant at the function block inputs Cycle time The cycle time depends on the connection 5 5 4 Function of the function block The function block creates the operation depending on the operating mode mode Cycle time...

Page 235: ...I1 negative value Subtract value of I1 and 1 I1 1 I2 Value I1 13219dec 0011001110100011bin Value I2 57193dec 1101111101101001bin Result QV 4897dec 0001001100100001bin Value I1 13219dec 0011001110100011bin Value I2 57193dec 1101111101101001bin Result QV 65515dec 1111111111101011bin Value I1 13219dec 0011001110100011bin Value I2 57193dec 1101111101101001bin Result QV 60618dec 1110110011001010bin Val...

Page 236: ... be greater than twice the cycle time The CH high speed counter can be used for shorter pulses Square wave count pulses are required to ensure a 1 1 mark to space ratio The relay counts only in RUN operating mode page 358 on Section Example with timing relay and counter function block provides information on the timing relay and counter function block Counters C01 C32 Counter Boolean inputs output...

Page 237: ...Boolean inputs outputs Parameters Contact Coil Input value Output value Parameters Function C OF Reaching or exceeding the upper limit setpoint C FB Reaching or falling below the lower limit setpoint C ZE Actual value at the function block output QV equals zero C CY Exceeding of the value range for one cycle per rising counter edge If it is closed the function block retains the value of the last v...

Page 238: ...r the function block settings here The display contains the following elements The parameter set consists of Parameter Display The display of the parameters during operation can be disabled Additional information section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to I 05 Ä C 20C_ I 06 Ä C 20RE I 07 Ä C 20D_ I 08 Ä C 20SE C 01OF Ä M 01 C 01FB Ä M 02...

Page 239: ...2 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Output Actual value output C QV supplies the current actual value as an integer You can assign the following operands to output QV Analog output QA01 Markers MD MW MB Memory requirement The counter relay function block requires 52 bytes of memory plus 4 bytes per constant at the function bl...

Page 240: ...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 supply voltage is switched off When is started in RUN mode the counter relay continues with the retentively stored actual value If MFD is started in RUN mode the timing relay operates with the retentively saved actual value 5 6 4 Function of the function...

Page 241: ...creases the actual value C ZE drops out as well as C FB after the lower setpoint value is reached Range B The counter relay counts upwards and reaches the upper setpoint value The upper setpoint value reached contact C OF becomes active Range C The coil C SE is briefly actuated and the actual value is set to the start value The contacts go to the respective position Range D The counting direction ...

Page 242: ...bles 5 7 1 1 Counter frequency The frequency counter can be used between 3 kHz maximum and 4 Hz minimum 5 7 1 2 Value range The function block operates in the integer range from 4 to 3000 1 kHz 1000 The value range cannot be exceeded as the maximum measured value is less than the value range Frequency counter CF01 CF04 Counter Frequency Boolean inputs outputs Parameters Contact Coil Input value Ou...

Page 243: ...ivated by the device input I5 Figure 147 Wiring the function block contacts The messages of the function block are sent directly to the device outputs Note that the digital inputs I1 to I4 are permanently assigned to the frequency counter function blocks provided I1 Counter input for counter CF01 I2 Counter input for counter CF02 I3 Counter input for counter CF03 I4 Counter input for counter CF04 ...

Page 244: ... section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Avoid unforeseeable switch states Only use each function block coil once in the circuit diagram If you use one of the inputs I1 I2 I3 or I4 as a counter input for the counter function block CF CH or CI they cannot be used for other purposes If an input I1 I4 is used several times only the high ...

Page 245: ...erminal I12 Analog output QA01 Output QV of a different function block 5 7 3 2 Output QV The output CF QV outputs the actual frequency at the counter input as an integer You can assign the following operands to output QV Analog output QA01 Markers MD MW MB Memory requirement The frequency counter function block requires 40 bytes of memory plus 4 bytes per constant at the function block inputs Cycl...

Page 246: ...CF EN 5 Contact N O CF OF Upper setpoint value exceeded 6 Contact N O CF FB Lower setpoint value undershot 7 Actual value equal to zero CF ZE 8 tg Gate time for the frequency measurement 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 The contacts are set in accordance with the measured frequency If the CF EN en...

Page 247: ...er frequency is a maximum of 3000 Hz and a minimum 4 Hz 5 8 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables Square wave count pulses are required to ensure a 1 1 mark to space ratio High speed counter CH01 CH04 Counter Highspeed Boolean inputs outputs Parameters Contact Coil Input value Output value OF Overflow Actual value Se...

Page 248: ...ote that the digital inputs I1 to I4 are permanently assigned to the frequency counter function blocks provided I1 Counter input for counter CH01 I2 Counter input for counter CH02 I3 Counter input for counter CH03 I4 Counter input for counter CH04 Parameters Function CH EN Selective activation of the function block CH RE Reset the actual value to zero CH D_ Count direction Picked up up counting No...

Page 249: ...formation section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Avoid unforeseeable switch states Only use each function block coil once in the circuit diagram If you use one of the inputs I1 I2 I3 or I4 as a counter input for the counter function block CF CH or CI they cannot be used for other purposes If an input I1 I4 is used several times only ...

Page 250: ...t actual value as an integer You can assign the following operands to output QV Analog output QA01 Markers MD MW MB Memory requirement The high speed counter function block requires 52 bytes of memory plus 4 bytes per constant at the function block inputs Cycle time 5 8 3 2 Retention High speed counter relays can be operated with retentive actual values The number of retentive counter relays can b...

Page 251: ...ower setpoint value reached or undershot 11 Contact N O CH ZE Actual value equal to zero 12 Out of value range Range A The counter has the value zero The contacts CH ZE actual value zero and CH FB lower setpoint value undershot are active The counter receives pulses and increases the actual value CH ZE as well as CH FB drop out when the lower setpoint value is reached Range B The counter counts up...

Page 252: ...resent downward count is initiated If the lower setpoint value is undershot the contact CH FB becomes active Range E The reset coil CH RE is activated The actual value is set to zero The contact CH ZE is active 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 ...

Page 253: ...ximum count frequency is 3000 Hz 5 9 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables Square wave count pulses are required to ensure a 1 1 mark to space ratio The signals of channels A and B must be offset by 90 otherwise the count direction will not be detected Incremental counter CI01 CI02 Counter Incremental Boolean inputs ...

Page 254: ... the function block are connected directly here to the device inputs Note that the digital inputs I1 to I4 are permanently assigned to the incremental counter function blocks provided I1 Counter input for counter CI01 channel A I2 Counter input for counter CI01 channel B I3 Counter input for counter CI02 channel A I4 Counter input for counter CI02 channel B Parameters Function CI EN Selective acti...

Page 255: ...ation section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Avoid unforeseeable switch states Only use each function block coil once in the circuit diagram If you use one of the inputs I1 I2 I3 or I4 as a counter input for the counter function block CF CH or CI they cannot be used for other purposes If an input I1 I4 is used several times only the ...

Page 256: ...ut QV Actual value output CI QV outputs the current actual value as an integer You can assign the following operands to output QV Analog output QA01 Markers MD MW MB Memory requirement The function block requires 52 bytes of memory plus 4 bytes per constant at the function block inputs Cycle time 5 9 3 2 Retention The counter can be operated with retentive actual values The number of retentive cou...

Page 257: ...on coil CI D 7 Transfer start value coil CI SE 8 Reset coil CI RE 9 Contact N O CI OF Upper setpoint value reached or exceeded 10 Contact N O CI FB Lower setpoint value reached or undershot 11 Contact N O CI ZE Actual value equal to zero The incremental counter evaluates the rising and falling edges and counts twice the number of pulses This prevents too many or too few pulses from being counted i...

Page 258: ...setpoint value The upper setpoint value reached contact CI OF becomes active Range C The coil CI SE is briefly actuated and the actual value is set to the start value The contacts go to the respective position Range D The counting direction coil CI D is actuated If counting pulses are present downward counting is initiated If the lower setpoint value is undershot the contact CI FB becomes active R...

Page 259: ...wing tables 5 10 2 Wiring of the function block You wire the function block in the circuit diagram with its contacts 5 10 2 1 Contacts A closed contact indicates 5 10 2 2 Example Figure 155 Wiring the function block contacts The contact of the function block is sent to markers Comparators CP1 CP32 Compare Boolean inputs outputs Parameters Contact Coil Input value Output value LT Value at I1 I2 EQ ...

Page 260: ...gnment from the circuit diagram page 191 This parameter is factory set to Inputs I1 and I2 The signals present at inputs I1 and I2 are compared with each other You can assign the following operands to function block inputs Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function b...

Page 261: ... 5 10 4 Function of the function block The function block compares values present at the inputs I1 and I2 The following contacts close depending on the comparison result I1 greater than I2 GT contact closes I1 equal to I2 EQ contact closes I1 less than I2 LT contact closes mode Cycle time μs 24 ...

Page 262: ...lock You wire the function block in the circuit diagram with its trigger coil and its contact 5 11 2 1 Coil The coil is used in the standard circuit diagram to transfer the value at input I1 to the function block and supply it on its output 5 11 2 2 Contact A closed contact indicates that the transferred value is output on the output Data function block DB1 DB32 Data Block Boolean inputs outputs P...

Page 263: ...ure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Parameter Display The display of the parameters during operation can be disabled Additional information section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Input I1 You apply the value that is transferred on triggering ...

Page 264: ...irement The data block function block requires 36 bytes of memory plus 4 bytes per constant at the function block input Cycle time 5 11 3 2 Retention Data function blocks can be operated with retentive actual values The quantity can be selected in the SYSTEM RETENTION menu 5 11 4 Function of the function block The value at input I1 is only transferred with a rising trigger edge to an operand e g M...

Page 265: ...no more than three closed loop controllers per program simultaneously If your application requires more than three closed loop controllers distribute them over several programs You can structure your projects by selecting the controller number Example Project with 3 devices Program 1 Controller DC 10 11 Program 2 Controller DC20 21 and 22 Program 3 Controller DC30 If you are using the function blo...

Page 266: ...2 Digital Control Boolean inputs outputs Parameters Contact Coil Input value Output value EN Activation of the function block EP Activation of the P component EI Activation of the I component ED Activation of the D component SE LI Status 1 Value range of manipulated value exceeded I1 Setpoint value I2 Setpoint value KP Proportional gain TN Reset time TV Rate time TC Scan time MV Manual manipulated...

Page 267: ... function block parameters as shown in the figure on the left Enter the function block settings here The display contains the following elements Parameters Function DC LI Closes when exceeding the manipulated value range M 51 uÄ DC02EN dÄ DC02EP dÄ DC02EI vÄ DC02ED M 52 Ä DC02SE DC02LI S M 96 DC02 UNP I1 I2 KP TN TV TC MV QV DC02 Function block PID controller number 02 UNP Operating mode Unipolar ...

Page 268: ...put TN is used for forming the integral component TV The value for the rate time Tv at input TV is used for forming the differential component TC The value for the scan time Tc at input TC determines the time intervals in which the operating system calls the function block for processing If the value 0 is set the cycle time of the device is the pause time between the function block calls TC Scan T...

Page 269: ...inal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Output The output DC QV supplies the current manipulated variable as an integer You can assign the following operands to output QV Analog output QA01 Markers MD MW MB Memory requirement The counter relay function block requires 96 bytes of memory plus 4 bytes per constant at the function block inputs Cycle time T...

Page 270: ...The equation used by the device for the proportional component is as follows YP t Kp x Xs t Xi t Kp Proportional gain Xs t Setpoint with scan time t Xi t Actual value with scan time t Integral component The integral component YI is proportional to the sum of the control difference over time The equation used by the device for the integral component is as follows YI t Kp x Tc Tn x Xs t Xi t YI t 1 ...

Page 271: ...m also called the differential time Xi t Actual value with scan time t Xi t 1 Actual value with scan time t 1 5 12 4 1 Manual mode of the PID controller A value must be present at the MV input in order to set the manipulated variable directly If the coil DC SE is activated the value at MV is transferred directly as manipulated variable QV This value is present for as long as the DC SE coil is acti...

Page 272: ...Input value Output value EN Activation reset of the function block I1 Input value TG Recovery time KP Proportional gain in QV Output value If you are using the function block in time consuming applications such as in conjunction with a DC PID controller you should not program any other time consuming applications on this device which may excessively lengthen the cycle time A trouble free function ...

Page 273: ...ng elements The parameter set consists of Parameter Display The display of the parameters during operation can be disabled Additional information section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Parameters Function FT EN EN 1 Activation of the function block function EN 0 Reset of the function block the output QV is set to 0 M 48 Ä FT01EN FT17...

Page 274: ... function block inputs I1 TG and KP Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Output Output FT QV Outputs the filtered value as an integer You can assign the following operands to output QV Analog output QA01 Markers MD MW MB Memory requirement The FT function...

Page 275: ...ctor The value 100 corresponds to a KP factor of 1 If the function block is called for the first time the output value is initialized with the input value when the device is started or after a reset This speeds up the startup behavior of the function block 5 13 4 1 Response of the function block The step response of the FT function is an e function After a time t Tg the normalized output value is ...

Page 276: ...0 compared to the cycle time in order to ensure the correct ratio of cycle time tcyc to scan time Ta The scan time Ta is set indirectly via the value for the recovery time Tg see above table The following applies tcyc Ta Some applications exist in which this condition cannot be reached In this case you should set the cycle time using the ST function block set cycle time so that the scan time is an...

Page 277: ...utputs in the legend points in the following tables 5 14 2 Wiring of the function block You wire the function block with its signal contact in the circuit diagram 5 14 2 1 Contact A closed contact indicates for the duration of a processing cycle that new data was received via the NET and is present at the function block output QV 5 14 2 2 Example of a GT function block Figure 163 Wiring of the fun...

Page 278: ...number Further information on the easyNET network is provided in Chapter 7 The network Net from page 437 Number of the send function block The sending station has 32 function blocks for transmitting 32 bit values to the network Parameter Display The display of the parameters during operation can be disabled Additional information section 4 9 2 1 Parameter assignment from the circuit diagram page 1...

Page 279: ...A01 Markers MD MW MB Memory requirement The GT function block requires 28 bytes of memory Cycle time 5 14 3 2 GET diagnostics The GT function block only functions if the NET is operating correctly section 9 3 Diagnostics page 479 5 14 4 Function of the function block Figure 164 Signal diagram function block GT 1 GT Q1 2 Value on GT QV mode Cycle time μs 21 The GT function block has the value 0 whe...

Page 280: ...wer supply failure and continue to run This means that it will continue to run in the event of a power failure although the time switch relays will not switch The contacts are kept open when de energized Information on the battery back up time are provided on section 11 3 5 Central processing unit real time clock timing relay memory page 503 The procedure for setting the time Section 8 5 1 Setting...

Page 281: ...g the function block in the circuit diagram for the first time use OK to automatically enter the general display of function block parameters as shown in the figure on the left The function block settings are carried out here The display contains the following elements The parameter set consists of Parameters Function HW Q1 Switching contact closes in the defined period HW14Q1 Ä Q 01 HW14 A DY1 DY...

Page 282: ...cuit diagram page 191 This parameter is factory set to Day 1 and day 2 These parameters DY1 DY2 are used to limit the period in which the output HW Q1 is switched Enter either a period of several days or only of one day Parameters Function CSA Display of the parameters Channel A B Display of the parameters Channel B C Display of the parameters Channel C D Display of the parameters Channel D Parame...

Page 283: ...of the function block The switching points are defined according to the parameters entered MO to FR on weekdays Mo Tu We Th Fr ON 10 00 OFF 18 00 On and off time on each weekday MO Every Monday ON 10 00 On time SA Every Saturday OFF 18 00 Off time Switching on working days The weekly timer HW01 switches on from Mondays to Fridays with channel A between 6 30 and 9 30 B between 17 00 and 22 30 HW10 ...

Page 284: ... on Tuesday Figure 167 Signal diagram for night switching Time overlaps The weekly timer 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 The off time for Mondays to Wednesdays is 22 00 If the break time is before the closing delay MFD device will switch off on the following day HW02 A DY1 FR DY2 ON 16 00 OFF HW02 B...

Page 285: ...d switch off at 00 00 on Tuesdays Closing delay and break time of the output Q1 always follow the channel which switches first In other words the first closing delay at one of the four channels switches output Q1 to 1 The first break time of a channel switches output Q1 to 0 If the on time and off time are the same the output Q1 is switched off When it is switched on MFD device always updates the ...

Page 286: ...uit diagram The channels are set via the parameter display or easySoft The year time switch can Switch at recurring intervals by switching on and off for individual days months or years Switch for continuous periods of time by remaining continuously switched on from the start of any user defined day until the end of any user defined day month or year The procedure for setting the time section 8 5 ...

Page 287: ... Wiring of the function block contact The year time switch controls a device output directly 5 16 4 Parametric programming of the function block inputs outputs 5 16 4 1 Parameters When using the function block in the circuit diagram for the first time use OK to automatically enter the general display of function block parameters as shown in the figure on the left Enter the function block settings ...

Page 288: ...n and off date Use these parameters to set the data for on and off switching in the format DD MM YY 5 16 4 2 Example Day Month Year 11 11 07 5 16 4 3 Memory requirement The year time switch function block requires 68 bytes of memory plus 4 bytes of memory for each channel used HY14 Function block Year time switch number 14 B Time switch channel B Parameter display Call enabled ON On date OFF Off d...

Page 289: ...6 6 Entry rules The contact switches ON to OFF in the years in the defined months on the entered days mode Cycle time μs 61 HY01 A ON 08 OFF 12 HY01 A ON 04 OFF 10 HY01 A ON 02 OFF 25 CAUTION The year time switch only operates correctly if you observe the following rules The On year must be before the Off year ON and OFF times must be specified the same in pairs for example ON Day OFF Day ON Year ...

Page 290: ...channel Channel A ON Day month Channel B OFF Day month Rule 8 Two channel Channel C ON Day Month Year Channel D OFF Day month year With this rule the same year number must be entered in each channel in the ON and OFF entry area Rule 9 Overlapping channels The first ON date switches on and the first OFF date switches off HY01 A ON XX OFF XX HY01 A ON XX OFF XX HY01 A ON XX ON XX HY01 A ON XX XX OFF...

Page 291: ...o switch on at 00 00 on day 1 of each month and switch off at 00 00 on day 29 of each month Figure 172 Select day range Example 4 Selecting public holidays 1 channel The year time switch HY04 is required to switch on at 00 00 on day 25 12 of each year and switch off at 00 00 on day 27 12 of each year Christmas program Figure 173 Select public holiday Example 5 Specific days of specific months 1 ch...

Page 292: ...n continuously until 00 00 on 1 11 of each year Open air season Figure 175 Select time range for each year Parameter settings of the year time switch HY01 ON OFF First last switch on years are not restricted in this case ON OFF First last switch off years are not restricted in this case Example 7 Selecting a time range for a limited number of years 2 channel The HY01 year time switch should switch...

Page 293: ... ON OFF First last switch on years are not restricted in this case ON OFF First last switch off years are not restricted in this case Example 9 Selecting a time range of two days spanning the turn of the year on 2010 2011 2011 2012 2 channel The HY01 year time switch should switch on at 00 00 on 12 31 of 2010 and remain switched on until 00 00 on 01 02 of 2011 and switch on at 00 00 on 12 31 of 20...

Page 294: ... of contact Q1 in this example The time switch switches on at 00 00 on 3 May and stays on until 00 00 on 26 May In June July August September October the time switch will switch on at 00 00 on day 2 of the month and switch off at 00 00 on day 18 In November and December the time switch will switch on at 00 00 on the second of the month and switch off until 00 00 on the 18th The following note expl...

Page 295: ...wing tables 5 17 2 Wiring of the function block You wire the function block in the circuit diagram with its enable coil JC EN It can be wired directly to the device terminals I1 to I12 or associated internally 5 17 2 1 Coil For each JC function block an LB function block must be provided as the jump label The JC and LB function blocks must always be used in pairs JC01 is always assigned the jump l...

Page 296: ... block If the JC EN enable coil is active the program jumps forwards over one or several function blocks The next function block to be processed is then the first to follow the LB jump label in the function block diagram If the JC EN enable coil is not active the program is processing the next function block that is added in the function block diagram behind JC In the function block list a jump la...

Page 297: ...lock list configure it and complete your input with ESC Use the cursor buttons ÍÚ to navigate to the next position in the function block list and insert the jump label LB01 described below there During processing the program branches to jump label LB01 for as long as JC01EN is 1 M 01 Ä JC01EN JC01 TB01 LB01 L 031 B 6488 For subsequently inserting function block JC in the function block list to ski...

Page 298: ... conditional jump If it is placed in front of the associated jump location backward jump the program branches to the end of the function block list and fault contact JC E1 of function block conditional jump closes If no associated jump label is set in the function block list the program jumps to the end of the list and fault contact JC E1 also closes Enter the function block editor from the main m...

Page 299: ...ch as 0 20 mA to 4 20 mA A MFD device is provided with 32 value scaling function blocks 5 19 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables 5 19 2 Wiring of the function block You wire the function block in the circuit diagram with an enable coil 5 19 2 1 Coil The enable coil LS EN activates the function block in the standard...

Page 300: ...tion 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Inputs I1 Assign the unscaled value to function block input I1 X1 and Y1 You define the first support point of the straight line at function block inputs X1 and Y1 X2 and Y21 The second pair of values at function block inputs X2 and Y2 determines the second support point of the straight line You ca...

Page 301: ... the following operands Markers MD MW MB Analog output QA01 Memory requirement The function block requires 64 bytes of memory plus 4 bytes per constant at the input Cycle time 5 19 4 Function of the function block Figure 182 Value scaling function block reduce value range a Source Range b Destination Range mode Cycle time μs 224 The scaling function block must be enabled via coil LS EN 1 in order ...

Page 302: ...ng value range a Source Range b Destination Range The mathematical relationship is follows Y m x X Y0 m Y2 Y1 X2 X1 Y0 X2 x Y1 X1 x Y2 X2 X1 m gradient Y0 Y offset when X 0 X1 Y1 First value pair X2 Y2 Second value pair g Straight line with positive gradient Figure 184 Mathematical interrelationship a b Y1 Y2 X1 X2 X1 Y1 Y2 X2 X0 Y0 g ...

Page 303: ...een 0 and 100 The transferred measured value has a resolution between 0 1023 bits This means The minimum measured value is 1023 bits x 4 mA 20mA 205 bit The maximum measured value is at 1023 bits The parameter display and the parameter set for function block LS01 is shown on the left After the function block number 01 is defined you enter here the following values the operand MX01QV with the value...

Page 304: ... up to 32 master reset function blocks 5 20 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables 5 20 2 Wiring of the function block You wire the function block in the circuit diagram with its trigger coil 5 20 2 1 Coil 5 20 2 2 Contact A closed contact indicates Master reset MR1 MR32 Master Reset Boolean inputs outputs Parameters ...

Page 305: ...general display of function block parameters as shown in the figure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Operating Mode The operating mode setting allows you to set whether markers outputs or both are to be reset This parameter is factory set to Q I 05 Ä MR07T_ MR07Q1 Ä M 42 MR16 Q MR16 Function block Master re...

Page 306: ...0 bytes of memory Cycle time 5 20 4 Function of the function block All outputs or the markers are set to 0 in accordance with the operating mode when a rising edge is detected on the trigger coil The contact MR1 Q1 assumes the state of its own trigger coil and confirms the reset operation Parameters Function Parameters are displayed Parameters are not displayed mode Cycle time μs Q 47 M 185 ALL 21...

Page 307: ...ng tables 5 21 2 Wiring of the function block The function block is enabled via the coil in the circuit diagram and its contact is then queried as an error output 5 21 2 1 Coil When the enable coil MX EN is set to 1 it switches the selected input Ix to output QV This switch operation is retained for as long as MX EN is 1 When the MX EN state changes from 1 to 0 output QV is reset to 0 5 21 2 2 Con...

Page 308: ...k settings here The display contains the following elements The parameter set consists of Parameter Display The display of the parameters during operation can be disabled Further information on this is provided Section 4 9 2 1 Parameter assignment from the circuit diagram on page 191 This parameter is factory set to Inputs K Function block input K is used to define the input channel to be supplied...

Page 309: ...ultiplexer function block requires 96 bytes of memory plus 4 bytes per constant at the function block inputs 5 21 4 Function of the function block The multiplexer is active if the Enable coil MX EN is set to 1 You use the channel number input MX K to set which input is to be switched through to the output The channel number input switches the input values in their order i e Channel number 0 suppli...

Page 310: ...set as a constant at input MX01I1 the subsequent inputs are assigned the variable values from markers MB01 to MB03 The setpoints at output MX01QV of the function block are output at MB04 The function block is first activated in the circuit diagram by marker M33 The following figure shows the the association L Figure 189 Circuit diagram for enabling the data multiplexer function block Enter the par...

Page 311: ...he inputs outputs in the legend points in the following tables 5 22 2 Wiring of the function block The function block is enabled in the circuit diagram 5 22 2 1 Coil Coil NC EN is used to activate the function block If the coil NC EN is not active the entire function block is deactivated and reset The output value is set to zero 5 22 2 2 Example Figure 190 Wiring the enable coil Its coil NC EN is ...

Page 312: ... from the circuit diagram page 191 This parameter is factory set to 5 22 3 2 Number range of the BCD code The BCD code only allows the number range 0 to 9 Values greater than 9 are processed as 9 NC02 BCD I1 QV NC02 Function block Numerical converter number 02 BCD Operating mode Converting BCD to binary Parameter display Call enabled I1 Input value Decimal 161061273 161061273 BCD 9999999 9999999 Q...

Page 313: ...3 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Output Output QV supplies the converted value You can assign the following operands to the function block output NC QV Analog output QA01 Markers MD MW MB Memory requirement The numerical converter function block requires 32 bytes of memory plus 4 bytes per constant at the function block input Cycle time 01...

Page 314: ...al value QV 13 Example 4 Input value I1 161061273dec Binary value 1001100110011001100110011001 Decimal value QV 9999999 Example 5 Input value I1 61673dec Binary value 10000000000000001111000011101001 Decimal value QV 9099 Example 6 Input value I1 2147483647dec Binary value 01111111111111111111111111111111 Decimal value QV 9999999 BIN operating mode The binary value present at input I1 is converted...

Page 315: ... 8 16 Example 4 Input value I1 9999999dec BCD binary value 1001100110011001100110011001 Hexadecimal value 1001100110011001100110011001 Decimal value QV 161061273 Example 5 Input value I1 61673dec BCD binary value 10000000000001100001011001110011 Hexadecimal value 10000000000001100001011001110011 Decimal value QV 398963 Example 6 Input value I1 2147483647dec BCD binary value 01111111111111111111111...

Page 316: ...the inputs outputs in the legend points in the following tables 5 23 2 Wiring of the function block You wire the function block in the standard circuit diagram with its coils and contact 5 23 2 1 Coils The enable coil starts the function of the function block The reset coil resets the operating hours counter to zero 5 23 2 2 Contact A closed contact indicates Hours run counter OT01 OT04 Operating ...

Page 317: ... figure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Parameter Display The display of the parameters during operation can be disabled Further information is provided in section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Input The I1 block input is used to specify the...

Page 318: ... 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 reaches the setpoint value of I1 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 zer...

Page 319: ...end points in the following tables 5 24 2 Wiring of the function block You wire the function block in the circuit diagram with its trigger coil and its contacts 5 24 2 1 Coil On activation the function block temporarily stores the input value and transfers it to the NET Function block PUT PT01 PT32 PuT Boolean inputs outputs Parameters Contact Coil Input value Output value T_ Trigger confirmation ...

Page 320: ...tputs 5 24 3 1 Parameters When using the function block in the circuit diagram for the first time use OK to automatically enter the general display of function block parameters as shown in the figure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Parameters Function PT Q1 The trigger coil is active PT AC The temporary st...

Page 321: ...ransferred to the NET The function block input can be assigned the following operands Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Memory requirement The PUT function block requires 36 bytes of memory plus 4 bytes per constant at the function block input Cycle ti...

Page 322: ...t input I1 The function block then transfers this value to the NET During this time the function block contact PT Q1 closes If the temporarily stored value is not sent the contact PT E1 closes and therefore indicates a transfer error It stays closed until the trigger coil PT T_ picks up to issue a new send job The signal diagram shows the relationship of the send job and its triggering by the trig...

Page 323: ...in the circuit diagram 5 25 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables 5 25 2 Wiring of the function block You wire the function block in the circuit diagram with its enable coil and its signal contact When using the pulse width modulation function block with a minimum on time of less than 1 s only use devices with transi...

Page 324: ...5 3 1 Parameters When using the function block in the circuit diagram for the first time use OK to automatically enter the general display of function block parameters as shown in the figure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Parameters Function PW EN Selective activation of the function block Parameters Func...

Page 325: ...the minimum on duration minimum off duration at input ME You can assign the following operands to function block inputs SV and PD to ME Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Memory requirement The pulse width modulation function block requires 48 bytes of ...

Page 326: ...pulse width modulator is used as a coil in the circuit diagram The state of the output is not refreshed from the circuit diagram The following applies to the minimum on duration The minimum on duration is equal to the minimum off duration 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 manipul...

Page 327: ... 2 Wiring of the function block You wire the function block in the circuit diagram with its trigger coil and its contact 5 26 2 1 Coil 5 26 2 2 Contact A closed contact indicates 5 26 2 3 Example of a set date time function block Figure 198 Wiring the trigger coil The trigger coil is connected to a device input Set date time SC01 Set Clock Boolean inputs outputs Parameters Contact Coil Input value...

Page 328: ...erly section 9 3 Diagnostics page 479 5 26 4 Function of the 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 easyNet network The sending stations executes this operation as soon as a new minute starts on the device real time clock The other stations accept this value Example T...

Page 329: ...r end You can choose between two operating modes Bit BIT Double word DW MFD device allows the use of up to 32 shift registers 5 27 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables Shift register SR01 SR32 Shift Register Boolean inputs outputs Parameters Contact Coil Input value Output value Q1 Q8 Bit outputs EN Activation of th...

Page 330: ...g function when it is activated depending on the operating mode The remaining content of the register is then moved backwards The reset coil SR RE causes the following in both directions Parameters Function SR EN Selective activation of the function block Parameters Function SR FP Pulse input forwards BIT mode Transfer of the data bit at the input coil SR FD into the register SR Q1 DW operating mo...

Page 331: ...ntacts The contacts of the function block are connected with markers In DW operating mode you only integrate the coils in the circuit diagram Figure 202 DW operating mode wiring the function block contacts You assign parameters to inputs and outputs in the function block diagram Coil Function SR Q1 SR Q8 Output of the bit register fields 1 8 M 10 Ä SR01EN M 11 Ä SR01FD M 12 Ä SR01FP M 13 Ä SR01BD ...

Page 332: ...er you wish to run the shift register as a bit register or in double word format The factory setting of this parameter is BIT BIT operating mode The function block must be included in the program Once selected the parameter block appears as shown on the left In this operating mode the data bit is transferred to the SR FS input coil to be shifted forward and to SR BD to be shifted backward Paramete...

Page 333: ...ock inputs Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block SR01 DW I1 I2 D1 D2 D3 D4 D5 D6 D7 D8 SR01 Function block SR shift register number 01 DW Operating mode Double word marker operation Appears in the parameter display I1 Input value forwards 2147483648 214748...

Page 334: ...bit at the other end of the register is pushed out Both shift directions forwards and backwards are possible The function block has two operating modes for different data formats BIT for a bit data format DW for a double word data format In BIT operating mode the function block uses Input coils SR FD and SR BD Register field contacts SR Q1 to SR Q8 In DW operating mode the function block processes...

Page 335: ...rds and accepts the 1 from SR FD c Transfer of a data bit SR EN is activated the function block is active SR FD has data bit 0 with the forwards pulse from SR FP the register field SR Q1 shifts the content of all register fields one place forwards and accepts the 0 from SR FD d Reset of the register SR EN is activated the function block is active Activating SR RE clears the content of the register...

Page 336: ...accepts the 10 from SR I1 c Transfer of value SR EN is activated the function block is active SR I1 has the value 52 with the forwards pulse from SR FP the register field SR D1 shifts the content of all register fields one place forwards and accepts the 52 from SR I1 d Reset of the register SR EN is activated the function block is active Activating SR RE clears the content of the register D1 D2 D3...

Page 337: ...e register field SR Q8 shifts the content of all register fields one place back and accepts the 1 from SR BD c Transfer of a data bit SR EN is activated the function block is active SR BD has data bit 0 With the backwards pulse from SR BP the register field SR Q8 shifts the content of all register fields one place back and accepts the 0 from SR BD d Reset of the register SR EN is activated the fun...

Page 338: ...k and accepts the 10 from SR I2 c Transfer of value SR EN is activated the function block is active SR I2 has the value 52 With the backwards pulse from SR BP the register field SR D8 shifts the content of all register fields one place back and accepts the 52 from SR I2 d Reset of the register SR EN is activated the function block is active Activating SR RE clears the content of the register 0 0 0...

Page 339: ...t coil SR12FP 5 27 4 2 Example 2 Different workpieces are moved along a production line with several machining stations An operator determines the work required for the individual workpieces creates a production code for it and writes it into a shift register The workpieces reach the machining stations in this order When the workpiece is changed the stations read the required production steps from...

Page 340: ...function block is not switched off Marker M09 switches the forwards pulse input coil SR01FP The figure on the left shows the parameter display and the parameter set After defining shift register number 01 you set here the following parameters the DW operating mode for the double word marker format the double word markers for receiving the production code Ä SR01EN M 09 Ä SR01FP SR01 DW I1 MD11 I2 D...

Page 341: ...ollowing tables 5 28 2 Wiring of the function block You wire the function block in the circuit diagram with an enable coil 5 28 2 1 Coil 5 28 2 2 Example of a function block for setting the set cycle time Figure 209 Wiring the enable coil 5 28 3 Parametric programming of the function block inputs outputs 5 28 3 1 Parameters When using the function block in the circuit diagram for the first time us...

Page 342: ... block input I1 The function block input I1 can be assigned the following operands Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Memory requirement The Set cycle time function block requires 24 bytes of memory plus 4 bytes per constant at the function block input ...

Page 343: ...time present is greater than the set cycle time the set cycle time has no effect The function block must be enabled so that it can work Coil ST01EN is active If coil ST01EN is not active the entire function block is deactivated and reset CAUTION 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 fun...

Page 344: ... with its coils and contact 5 29 2 1 Coils The trigger coil starts the timing relay in the circuit diagram the Reset coil resets the run down of the timing relay to zero and the Stop coil interrupts the run down page 358 on Example with timing relay and counter function block provides information on the timing relay and counter function block Timing Relay T01 T32 Timer Boolean inputs outputs Param...

Page 345: ...programming of the function block inputs outputs 5 29 3 1 Parameters When using the function block in the circuit diagram for the first time use OK to automatically enter the general display of function block parameters as shown in the figure on the left Enter the function block settings here The display contains the following elements The parameter set consists of Parameters Function T Q1 Time fu...

Page 346: ...hing with random time range Xâ On and off delayed Off delayed with random time range setpoint retriggerable Off delayed with random time range retriggerable Xâ On and off delayed switching with random time 2 time setpoints ü Single pulse switching Ü Flashing synchronous 2 setpoints Ü Flashing asynchronous 2 setpoints Parameters Time range and setpoint Resolution S 000 00 Seconds 0 05 to 999 995 s ...

Page 347: ... MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8 IA03 Terminal I11 IA04 Terminal I12 Analog output QA01 Output QV of a different function block Output QV Output QV supplies the currently elapsed time You can assign the following operands Analog output QA01 Markers MD MW MB Memory requirement The timing relay function block requires 52 bytes of memory plus 4 bytes per function bl...

Page 348: ...arted via the trigger coil T EN and can be selectively reset via the reset coil T RE The third coil T ST terminates the run down of the actual time Variable time values If you associate the function block inputs T I1 and T I2 with operands you can use variable setpoints The setpoints are transferred as follows depending on the time range selected S value in milliseconds The last digit is rounded u...

Page 349: ...s setpoint time Range A The time runs down from the set time value Range B The time does not elapse because the trigger coil drops out prematurely Range C The Stop coil stops the time from elapsing Figure 213 Signal diagram of timing relay on delayed with and without random switching Range D The stop coil is inoperative after the time has elapsed Range E The reset coil resets the relay and the con...

Page 350: ... RE 4 Switching contact N O contact T Q1 ts Setpoint time Range A The time elapses after the trigger coil is deactivated Range B The Stop coil stops the time from elapsing Range C The reset coil resets the relay and the contact After the reset coil drops out the relay continues to work normally Range D The Reset coil resets the relay and the contact when the function block is timing out Figure 215...

Page 351: ...et time Range A The relay processes the two times without any interruption Range B The trigger coil drops out before the on delay is reached Range C The stop coil stops the timeout of the on delay Range D The stop coil has no effect in this range Figure 217 Operational diagrams timing relay on and off delayed 2 Range E The stop coil stops the timeout of the off delay Range F The reset coil resets ...

Page 352: ... coil T RE 4 Switching contact N O contact T Q1 Range A The trigger signal is short and is lengthened Range B The trigger signal is longer than the set time Range C The stop coil interrupts the timing out of the set time Figure 220 Operational diagram timing relay pulse shaping 2 Range D The reset coil resets the timing relay Range E The reset coil resets the timing relay The trigger coil is still...

Page 353: ...us flashing I1 not equal I2 Figure 221 Signal diagram timing relay synchronous and asynchronous flashing 1 Trigger coil T EN 2 Stop coil T ST 3 Reset coil T RE 4 Switching contact N O contact T Q1 Range A The relay flashes for as long as the trigger coil is activated Range B The stop coil interrupts the timing out of the set time Range C The reset coil resets the relay t1 t2 ts2 ts1 ts1 ts1 ts2 ts...

Page 354: ...llows the use of up to 32 table function blocks 5 30 1 Function block inputs outputs Read the description of the inputs outputs in the legend points in the following tables 5 30 2 Wiring of the function block You use the table function block in the circuit diagram with its coils and contacts Table function TB01 TB32 Table function Boolean inputs outputs Parameters Contact Coil Input value Output v...

Page 355: ...on block coils Markers switch the coils of the function block Figure 223 Wiring the function block contacts The function block contact TE empty and TF full indicate an empty or full table Operands are assigned to inputs and outputs in the parameter display Parameters Function TB EN Selective activation of the function block TB WP Reads the value at input TB I1 transfers it to the table and outputs...

Page 356: ...ation can be disabled Additional information section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Input I1 The value at input I1 is read into the table when function block coil TB WP is activated The function block input I1 can be assigned the following operands Constant Markers MD MW MB Analog inputs IA01 to IA04 IA01 Terminal I7 IA02 Terminal I8...

Page 357: ...ery time there is a rising edge at the WP coil Coils TB EN and TB WP can be actuated simultaneously with a rising edge Each new table entry is entered behind the previous one until the sixteenth entry is reached Immediately after the value of TB I1 is transferred this value is output TB QV The output TB QN is increased by 1 and then indicates the actual number of table entries If the maximum numbe...

Page 358: ...entries the function block disables entry by the operator The figure on the left shows the parameter display and the parameter set for the function block TB16 Once function block number 16 has been defined you set here the operands for the production code at input TB16I1 and the output TB16QV The coils and contacts are programmed in the circuit diagram of MFD Figure 224 Table function example The ...

Page 359: ...ring of the function block You wire the function block in the circuit diagram with its coil 5 31 2 1 Coil 5 31 2 2 Example of the value limitation function block Figure 225 Wiring the function block coil The enable coil of the function block is connected directly to a device terminal Value capsuling VC01 VC32 Value Capsuling Boolean inputs outputs Parameters Contact Coil Input value Output value E...

Page 360: ...abled Additional information section 4 9 2 1 Parameter assignment from the circuit diagram page 191 This parameter is factory set to Inputs I1 You assign the value to be output within the limit values at the function block input I1 SH und SL The upper and lower limit setpoints are set at function block inputs SH and SL respectively You can assign the following operands to function block inputs I1 ...

Page 361: ...nalog output QA01 Markers MD MW MB Memory requirement The value limitation function block requires 40 bytes of memory plus 4 bytes per constant at the input Cycle time 5 31 4 Function of the function block The value is accepted at input VC I1 if the enable coil is active If the value is greater than the upper limit value or less than the lower limit value the appropriate limit value is output at V...

Page 362: ...lock A warning light flashes when the counter reaches 10 In this example the function blocks C01 and T01 are wired in the standard circuit diagram and their inputs outputs are defined Figure 226 Hardwiring with relays Figure 227 Wiring with MFD L01 P1 P1 K1T K1T C R E1 S1 S2 L01 2s Counter Value 10 E1 L01 S1 L01 L01 F1 24V 0V 0V I1 I3 I2 Q1 1 2 DEL ESC ALT OK S2 I01 I02 Q01 ...

Page 363: ...parameters of this timing relay can be modified using the PARAMETERS menu Change the upper counter setpoint to 10 Use ú í to move the cursor onto the tens digit Use ÍÚ to modify the value of the digit Press OK to save the value and ESC to return to the circuit diagram Set the parameters for T 01 The timing relay works like a flashing relay The function is set on the top right beside the number in ...

Page 364: ...rds until you see the value QV Switch input I05 The actual value changes 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 Doubling the flashing frequency Select the power flow display T 01 and change the constant of the setpoint time to 001 000 When you press OK the warning light will flash at twice the frequ...

Page 365: ... to a system that is controlled by a visualization can be implemented with password protection Further information on this Section 6 7 Password Protecting Screens page 432 Button elements allow you to assign new functions to an operating button of the MFD which is operative in the visualization Further information on this Section 6 6 Button Editor page 417 From easySoft Pro you then load the visua...

Page 366: ...ly into an MFD CP10 screen Downward Compatibility Not provided 6 1 3 Exchangeability of MFD CP8 and MFD CP10 languages Upward Compatibility You can copy the foreign language text elements of an MFD CP8 screen to the Clipboard in easySoft Pro and then paste these into an MFD CP10 screen Downward Compatibility Not provided 6 1 4 Exchangeability of MFD CP8 and MFD CP10 passwords Upward Compatibility ...

Page 367: ...n View with the Screen overview opened 6 2 1 Visualization View Figure 229 Visualization View a Toolbox b Workbench Window c Properties Field Window The Workbench window contains the empty screen 1 The left hand window shows the Toolbox which shows items according to the tab selected in the Workbench When the screen editor is opened this will show screen elements that can be dragged and dropped on...

Page 368: ...e status display and also view screens Test the entry of values via the entry element of a screen Check the functions that you have assigned to the function keys of the MFD In easySoft Pro you simulate a visualization by showing the display and the pushbuttons of an MFD in the Properties field window Activate the simulation via Display Display Pushbuttons Start A more detailed description of the s...

Page 369: ...ith OK or click the next column the new screen will appear in the Workbench under the name you have specified In the same table row you can assign the Start screen attribute and PW 1 PW 2 PW 3 as well as assign the name of an alternative screen at After abort PW entry Start screen The start screen will appear in the display of the MFD after every program start under the following conditions You ha...

Page 370: ...sheet by clicking the Export button Arrange for the texts to be translated On receipt of the translated texts import them into your project by clicking the Import button MFD CP8 When commissioning the MFD CP8 select a language as the Download language The parameters are transferred with the next program transfer to the device An MFD CP8 always show the language that was transferred to the device t...

Page 371: ...etween the screen to be displayed and a process value For this you define a variable containing the numerical value that determines during operation which of the screens is displayed Select the operand that is to be used as the associated variable The Activate Screens operating mode is the same as the function previously provided on an MFD CP8 This is particularly suitable for indicating alarm sta...

Page 372: ...rating mode This enabling is activated when a specific bit is set within the associated variable you have defined This type of bit thus has the function of an Enable input for displaying the screen associated with it As soon as a screen bit is set to 1 the associated screen is including in the rolling operation There is no priority control for the order of rolling screens The order of rolling is t...

Page 373: ... For more economical memory usage it is more advisable on the MFD CP8 to use several screens instead of one screen with several memory intensive elements Section 6 4 1 Screen memory page 370 The following list shows the screen elements that can be used in the screen editor and from which device version number this is possible The button functions that are to cause a screen change are only active i...

Page 374: ...the screens that are created with easySoft Pro Size of the screen memory MFD CP8 24 kByte MFD CP10 48 kByte How an MFD manages the screens during program runtime is described in Chapter 9 Inside MFD page 473 Value display elements Date and time displays 01 398 Numerical value 01 400 Timer relay value display 05 405 Value entry elements Value inputs 01 406 Timer relay value inputs 05 411 Date and t...

Page 375: ... element in the Toolbox and hold down the left mouse button whilst dragging it onto the screen The specific tabs that you can use for parameterizing this screen element appear in the Properties field window Position the cursor over the screen element and move it to the required position inside the screen whilst holding down the left mouse button The height and width of the element frame can be sca...

Page 376: ...singly or multiply For further information see the easySoft Pro help 6 4 2 3 General tabs for parameterizing a screen element Visibility tab Choose here a Boolean variable via which the screen element is shown hidden during operation Display change tab Select here a Boolean variable via which the screen element is changed from normal to inverse or flashing during operation Operability tab Choose h...

Page 377: ...ctivated and the ALT pushbutton held down at the same time Characters that cannot be displayed are shown in the Text display preview as an empty frame element The text elements are described below 6 4 3 Static Text The static text element is a simple text display element that is shown as soon as the screen is active The normal element size can show up to 16 characters in a text field and up to 4 l...

Page 378: ...a static text in normal font size Screen 2 shows a static text enlarged Screen 3 shows three static texts in different font sizes Screen 4 shows four static texts arranged vertically StaticText_Prog_02 e60 different display types with password request for a screen The program consists of four screens in which the static text is displayed in different ways The fourth screen contains a password requ...

Page 379: ...xts that are stored in a text table inside the program A text can have a maximum length of 16 characters If the text is shorter than the element the text is provided with additional blanks for the output A message text is used for indicating status changes in the process In order to visually display changes of this kind you can link message texts with a variable associated variable As soon as the ...

Page 380: ...language change function of the MFD CP10 Application examples 2 The example programs MessageText_Prog_01 e60 to MessageText_Prog_05 e60 are based on the MFD CP8 Messagetext_Prog_01 e60 Controlling message texts with Boolean variables The program consists of seven screens that you can select via cursor buttons Í and Ú The screen change was defined in the button editor Section 6 6 Button Editor page...

Page 381: ...the activation of the message texts using the associated variable A message text is also displayed enlarged The first screen shows two bit message text elements These are triggered in succession via the outputs Q1 to Q3 and appear in the display The texts are only displayed if the corresponding outputs are set to 1 No message text is assigned to status 0 Screen 3 illustrates the actuation of a big...

Page 382: ...e generator The text flashes in the display with different pulse and pause times Figure 235 Message text inverted flashing Messagetext_Prog_02 e60 Controlling message texts with timing relay The program consists of two screens containing message texts The screen activation automatically shows the screens on the display in succession The circuit diagram uses six on delayed timing relays T01 to T06 ...

Page 383: ...one message text element which are toggled automatically A display change is also carried out in one message text The circuit diagram uses six on delayed timing relays T01 to T06 that activate outputs Q1 to Q4 as well as LE 03 in succession after the elapsed time The operation is carried out in a continuous loop since the timing relay T06 resets all timing relays after the set time In the circuit ...

Page 384: ...g relays after the set time In the circuit diagram N O contacts C01ZE of the counter are switched directly before the outputs Q1 to Q4 as well as before LE 03 so that the outputs are only active with the display of screen 1 when counter C01 is 0 The screen activation is implemented via counter C01 This has the value 4 as the upper set value SH This produces counter values 0 1 2 3 and 4 The counter...

Page 385: ... element It also illustrates the function of the Visibility tab and the Display change tab The pulse generator T01 activates the counter C01 This counts up to seven and then resets itself This produces a continuous loop in which the individual messages are activated Screen 1 shows a message text element with six message texts Status value 1 Message text These Status value 2 Message text are six St...

Page 386: ...y screen and all other screens in the Parameter table if it is necessary for the operator to be able to move from any screen to any other one Table 30 Example table of the screen menu for screen 4 In this example the operator can switch to display the start picture main menu and recipe screens via the screen menu element when Entry mode is activated and when screen 4 is displayed The general proce...

Page 387: ... and the MFD Titan CP8 e60 shows this in the Menu_EN_Function screens and Menu_DE_Funktion screens as well as Menu_Language screens The example program MFD Titan CP10 e60 allows a language selection of the stored texts 6 4 6 Running Text This single line screen display element enables you to output a running text as frequently seen in TV news bulletins Up to 63 characters of the static text can be...

Page 388: ...able During operation all text lines with their assigned bit set at 1 are shown in the rolling text Example The value of the associated variable is 7 All texts are displayed consecutively that were edited at bits 1 2 and 3 Texts that were stored at bit 4 and higher are not displayed Unconditional text display All the text lines entered in the parameter table are displayed in succession if you acti...

Page 389: ...xt display option in the Function_Rolling_text screen and for the option Text display depending on associated variable in the screen Function_EN_Rolling_text_2 The following section describes the button elements 6 4 8 Latching pushbutton This screen entry element enables the operator to change the state of an associated Boolean operand or a Boolean function block input by simply pressing the OK bu...

Page 390: ..._Latching_button three Latching button display elements via which the status of the associated Boolean operands LE1 LE3 can be changed The example program MFD Titan CP10 e60 contains in the multi lingual screen Function_EN_Latching_button three Latching button display elements via which the status of the associated Boolean operands LE1 LE3 can be changed 6 4 9 Button Field This screen entry elemen...

Page 391: ... contains several screen entry elements Then press the OK button to move from Selection mode to Entry mode Use the Í Ú pushbuttons to position the cursor on a pushbutton to which the required value is assigned Then press the OK button to transfer the new value to the set variable A tick is added to the activated pushbutton and the MFD returns to Selection mode Programming in Soft Pro Set variable ...

Page 392: ... 10 Bit Display The Bit display screen element has an input that you can link with a Boolean variable so that it can indicate the signal state of the variable The signal state of this variable changes the bit display in the MFD display from a solid element to a hollow frame element Normally i e without an activated inverse display the selection of a N O bit logic causes a frame to be shown on sign...

Page 393: ...og_01 e60 associated variable and visibility The program consists of five screens that you can select via cursor buttons Í and Ú The screen change was defined in the button editor Section 6 6 Button Editor page 417 The circuit diagram uses six on delayed timing relays that activate outputs Q1 to Q4 as well as LED 3 in succession after the elapsed time The process is carried out in a continuous loo...

Page 394: ...osed static text Screen 3 illustrates the options of the Visibility tab of the bit display This screen contains a bit display element that was enlarged to the size of the entire screen It is actuated via the Boolean operand Q1 with a N O bit logic so that the bit display element takes on the state of output Q1 on off The bit display is switched invisible via the Boolean operand Q3 The bit logic he...

Page 395: ...0 Bit display with automatic screen change This program is a copy of the program Bitdisplay_Prog_01 e60 The difference is only in the fact that the screens are activated automatically in succession Screen change defined in the Screen overview Screen activation tab Activate Yes The program consists of five screens containing the bit displays 6 4 11 Bitmap The Bitmap screen display element enables g...

Page 396: ...function The Display tab offers the following display formats of the bitmap Bitmap flashing via associated variable Background transparent or covered Inverse The Visibility tab enables the screen element to be hidden using an associated variable Application examples 1 The example program MFD Titan CP8 e60 contains in the German screen Funktion_DE_Bitmap and in the English screen Function_EN_Bitmap...

Page 397: ...s next to each other Screen 4 contains two bitmaps arranged in different sizes next to each other The Invert Bitmap Display box on the Display register controls the inverted display Screen 5 contains one bitmap The Visibility register controls the bitmap The bitmap is made invisible when I1 is actuated Figure 246 Make invisible Screen 6 contains only one bitmap The Invert Bitmap Display box is act...

Page 398: ...ates the covering of bitmaps in a screen The circuit diagram uses six on delayed timing relays T01 to T06 that activate outputs Q1 to Q4 as well as LED 3 in succession after the elapsed time The operation is carried out in a continuous loop since the timing relay T06 resets all timing relays after the set time Screen 1 contains five bitmaps that half cover each other These are triggered in success...

Page 399: ... a message bitmap determines which bitmap graphic is shown The screen display element is therefore used to indicate status changes in the process All bitmaps within a screen display element have the same size and always appear in the same screen position in turn depending on the state of the variable This provides the operator with a clear and easily recognisable indication about the current proce...

Page 400: ...map indication element The MFD Titan CP10 e60 example program contains the indication element in the multi lingual screen Function_Message_bitmap Four different bitmap graphics are shown depending on the status of the variable MW02 6 4 13 Bar Graph The bar graph screen display element enables you to display analog and numerical process values graphically The status value of the associated variable...

Page 401: ...nge Visibility register Section 6 4 2 3 General tabs for parameterizing a screen element page 372 Display tab Define the display format of the element e g flashing as well as with or without frame scale and limit value marks In order to visually indicate limit violations or another event activate the Bar graph flashing option This opens the additional Display change tab Internal Limit Value Compar...

Page 402: ...n the Format list box a combination of date time and weekday display The different display formats are shown in the table in the easySoft Pro Help system Visibility and Display change tabs Section 6 4 2 3 General tabs for parameterizing a screen element page 372 Application examples 1 The example program MFD Titan CP8 e60 contains in the German screens Funktion_DE_Datum Zeit and Funktion_DE_Datum ...

Page 403: ...play in normal size Screen 8 Display invisible if I1 actuated N O contact bit logic Date_a_Time_Prog_02 e60 different display types with automatic screen change This program is a copy of the program Date_a_Time_Prog_01 e60 except that the screen change is automatic The program consists of eight screens that are triggered in succession by meter C01 The pulses for activating the screens are supplied...

Page 404: ...example from a counter as a percentage 0 to 100 then enter 0 as the minimum value and 255 as the maximum value in the Value range area Enter as a unit of measure Activate the Scaling range area and enter 0 as the minimum value and 100 as the maximum value If you wish to display the value range from 0 to 120 seconds for example from a timing relay in minutes 0 to 2 min enter 0 as the minimum value ...

Page 405: ...he numerical values and shows an overview of the properties provided in the Number range format tab The first screen shows six numerical values These are all linked with the on delayed timing relay T04 Associated variable tab for which a time range of 4 seconds is set The actual value of the timing relay is provided at its QV output FB parameter and is then displayed in the appropriate number form...

Page 406: ...og input IA3 Associated variable register which provides a value as variable type DWord on the QV output FB parameter for further processing All numerical values have a value range between 0 and 1019 since this scanning range is defined by the connected potentiometer Table 36 Numerical value Analog value output Numerical value 1 Start value of the timing relay T04 FB parameter I2 zero as input I2 ...

Page 407: ...In this example input I1 represents the external trigger This screen contains two numerical values These are associated with the QV output of the timing relay T08 which is of variable type DWord The timing relay is operated in a loop of 0 to 10 seconds Numerical value 1 Display of the analog value 0 to 1019 Numerical value 2 Display of the analog value with the scaling range 0 to 10 two decimal pl...

Page 408: ...ay change active detection via external trigger input Left numerical value Display of timing relay value T08 I1 actuated The numerical value flashes since Display change external trigger flashing via Boolean operand I1 is set Rightnumerical value Display of timing relay value T08 I1 actuated The numerical value is displayed inverted since Display change external trigger inverted via Boolean operan...

Page 409: ...sociated variable is the QV output of the counter C02 The variable type is DWord The counter C02 is activated by timing relay T07 with Flashing mode selected The counter runs down from 12 to 0 Only a value range of 6 to 12 and a unit of measure mm is defined on the Number range format register This causes a value underflow as soon the value goes below 6 mm This is indicated in the display by an un...

Page 410: ...ry element enables you to enter numerical setpoint values during operation and thus make interventions in the process This is done by entering the signal state via the associated set variable The MFD stores the entered value internally The program processes the value and displays it until it is changed by the operator or the program Without an operator entry this screen element functions like the ...

Page 411: ...mum value and 100 as the maximum value If you wish to display the value range from 0 to 120 seconds for example from a timing relay in minutes 0 to 2 min enter 0 as the minimum value and 120 as maximum value in the Value range area Enter min as a unit of measure Activate the Scaling range area and enter 0 as the minimum value and 120 as the maximum value Programming in Soft Pro Register Associated...

Page 412: ...rcuit diagram contains the timing relay T01 that triggers the counter C02 The counter switches the output Q1 to high when the upper set value SH is reached The value of the counter function block output QV is transferred to the marker word MW06 The upper set value SH is associated with the marker word MW07 and the preset actual value SV with marker word MW05 During RUN mode the current data is sto...

Page 413: ...ered SV value and counts on from there The maximum scaling range 10 00 is assigned to the maximum value range 9999 The QV value thus switches to the value 10 00 when 1 is entered and 9999 is actuated Figure 258 Transfer of value with Allow digit selection Screen 4 shows an example of the Number range format register and in particular the Scaling range and Input Format r Fixed Step Width You can en...

Page 414: ...ry function N O contact bit logic If the value entry element is disabled you can still select it it flashes but the Entry mode change values is disabled If the value entry element is in Entry mode when I3 is closed the MFD switches automatically to Selection mode If N C contact is set as bit logic entry is only possible if I3 is actuated I4 switches the value entry element to invisible however it ...

Page 415: ...or this timing relay S M S H M Programming in Soft Pro Associated variable tab Choose here in the Number list box the function block T 01 32 to be changed and in the FB Parameters list box the input T I1 or T I2 to be changed Visibility and Display change tabs Section 6 4 2 3 General tabs for parameterizing a screen element page 372 Example application The example program MFD Titan CP8 e60 contain...

Page 416: ...e shown in the table in the easySoft Pro Help system Synchronize Date and Time via NET check box When this option is active the local date and time change via this screen entry element are transferred to the device real time clocks on all NET stations These are synchronized with the modified value The option has the same effect as the SC01 Send Clock function block which sets the date and time of ...

Page 417: ...1 32 to be changed and in the FB Parameters list box the channel A D to be changed The channel A D to be changed must be set in the program In the Time On Off area use the ON or OFF option buttons to define whether the on or off time of the selected channel can be changed via this screen entry element Selecting the ON option activates the channel parameters DY1 and ON of the assigned weekly time c...

Page 418: ...t been assigned parameters cannot be modified Programming in Soft Pro Associated variable tab Choose here in the Number list box the function block HW 01 32 to be changed and in the FB Parameters list box the channel A D to be changed In the Time On Off area use the ON or OFF option buttons to define whether the on or off time of the selected channel can be changed via this screen entry element By...

Page 419: ... the Year time switch entry element When the Function_Year_time_switch_entry or Funktion_DE_Jahreszeitschaltuhr screens are displayed with the ON option active the ON time of function block HY01 channel A can be changed during the runtime The Function_Year_time_switch_ent_2 or Funktion_DE_Jahreszeitschaltuhr_2 screens with the OFF option active enable the OFF time of HY01 channel A to be changed ...

Page 420: ...erator you press the OK button in the visualization in order to activate Selection mode The screen entry element is shown as an inverse flashing rectangle If the screen contains several entry elements the element that was edited first is always selected In Selection mode use the ú í Í Ú buttons to position the cursor on a screen entry element if the screen contains several of them Then press the O...

Page 421: ... macro for each operator pushbutton by assigning several functions consecutively The modified button function can be used during the visualization If you return the MFD to the Status display the basic functions of function key are restored You use button elements in the button editor to assign new button functions to the operator buttons The Button editor provides the following button elements and...

Page 422: ...on elements to the Button functions list up to 255 and thus assign them to an operator button This for example enables you to assign several variables to one fixed value with one button actuation Associate the button element with the suitable operand e g MW4 and complete the parameterization for example with the set value 4711 If you then press the DEL pushbutton in the visualization MW4 is set to...

Page 423: ...ry element indicated by the number of the screen element in the easySoft Pro status line if the screen contains several of these elements This completes the parameterization Button element during operation During operation the user selects the button element with the assigned function key uses the cursor buttons to select the digit s to be changed and the new setpoint value uses OK to confirm the ...

Page 424: ...ion enables the operator to switch between several screens To do this you must assign the Screen change function to an operator button in each screen Programming in Soft Pro In addition to the above requirement the use of this button element requires at least two screens between which the function is toggled Parameter definition In the Screen field select the required target screen This completes ...

Page 425: ... was assigned to the pushbutton During operation You can access Screen 2 after entering the password You then have 30 minutes to enter or change a value without a password request being output If you decide after 5 minutes that the value no longer has to be changed and leave your workplace it may be possible that an unauthorized person changes the value in the remaining 25 minutes To prevent this ...

Page 426: ... 7 Set variable to fixed value This function enables the user during operation to set the value of the assigned operand with the specified value by pressing a button Possible operands Boolean operands bit variable type LE M Q S Function block inputs the button element acts on the input like the contact of contactor Byte and multiple byte operands Byte variable type MB 01 96 Word variable type MW 0...

Page 427: ...th area with which the variable is to be set This completes the parameterization 6 6 8 Decrement Variable This function enables the user during operation to reduce the value of the assigned operand by the specified value by pressing a button Possible operands Byte and multiple byte operands Byte variable type MB 01 96 Word variable type MW 01 96 and analog output QA DWord variable type MD 01 96 an...

Page 428: ...Decrement variable area the step width by which the variable value is to be decremented The default value is 1 Only positive values can be selected This completes the parameterization 6 6 9 Increment Variable This function enables the user during operation to increase the value of the assigned operand by the specified value by pressing a button Possible operands Byte and multiple byte operands Byt...

Page 429: ...ncremented by button actuation Finally enter in the Increment variable area the step width by which the variable value is to be incremented The default value is 1 Only positive values can be selected This completes the parameterization The setpoint on a function block input can be incremented on MFD CP8 devices with device version number 05 and higher and MFD CP10 devices Only the function block i...

Page 430: ...Mode or button on the MFD via which you return to the Status display from the visualization This prevents the possibility of manipulations on the operating state or program of the MFD This pushbutton element is not required if you have already assigned another pushbutton function to the mode pushbutton Programming in Soft Pro Requirement for using the button element You must use an MFD CP8 device ...

Page 431: ...y take on the value 0 In order to use P buttons for switching in a visualization and wire them as contacts assign each of these buttons simply to the P button function element In other words This P button function causes the device to also respond in the visualization to the actuation of a cursor button in exactly the same way as if it was in the Status display Function The cursor buttons ú Í í Ú ...

Page 432: ...the required screen Then left click the cursor button to be enabled e g the pushbutton Then drag the P button function in the Button functions list Parameter definition No parameters are required for this button element 6 6 13 Go To Previous Screen The Go to previous screen function enables you to undo the last screen change by button actuation during operation Function With every screen change th...

Page 433: ...ments of the associated screens This button element is not required if you have already assigned another button function to the OK button Programming in Soft Pro Requirement for using the button element You must use an MFD CP8 device from device version number 05 or an MFD CP10 device You must have edited at least one screen and have switched to the button editor First select the required screen T...

Page 434: ...6 16 Conditional Jump The Conditional Jump function enables parts of the Button functions list to be skipped according to the state of a freely selectable Boolean operand The state of this operand therefore determines by which function keys of the MFD newly assigned functions are called or not Function The Conditional Jump function can only be used in conjunction with the Jump Label function Both ...

Page 435: ... have the following appearance Parameter definition In the Conditional Jump tab assign a Boolean operand to the Conditional Jump button element for example input I1 If voltage is applied to this input the Increment variable button element cannot be executed by actuating the ESC button Boolean operands The Operand and Number fields are active You can choose a Boolean operand as an operand Figure 26...

Page 436: ...ntly of each other Valid passwords 5 digit decimal number 1 99999 without letters A 0 corresponds to a deleted password Changing passwords on the MFD at a later time is not possible 6 7 1 Configure password You configure a password and the logout time in easySoft Pro via Visualization View Screen overview Passwords tab This is described in the Help 6 7 2 Language adaption of the title text PASSWOR...

Page 437: ...until the correct password has been entered The request must always be repeated if the logout time for the password has elapsed the logout time was ended by the operator Password logout function a protected screen is to be activated from the circuit diagram via screen control 6 7 3 Logout Time If you have opened a screen using the password entry you can then for example carry out a value entry The...

Page 438: ...st digit is already pre assigned with 0 For example enter digits 0 0 0 5 4 for the password 54 Line 3 shows the password entry window in square brackets with which one of three possible passwords can open the current screen Passwords 1 and 3 were configured in the above figure Complete the correct password entry with the OK pushbutton Screen access is retained Until the defined logout time has ela...

Page 439: ...activate password protection separately for each screen by selecting Yes in the PW x field of the Screens parameter table d Has the password been entered correctly and has OK been pressed e Has the password entry been aborted with ESC f Has an alternative screen in the event of an abort with ESC been defined g The previous screen will continue to be displayed Password entry is possible again h The...

Page 440: ...6 Visualization with MFD Titan 6 7 Password Protecting Screens 436 Manual 11 10 MN05002001Z EN www eaton com ...

Page 441: ...control using decentralised programs Synchronise date and time Read and write inputs and outputs Send values to other stations Receive values from other stations Load programs from or to any station NET stations can be allMFD devices with a network connection MFD NT Figure 266 Mixed operation of NET stations Distribute the tasks over several devices that exchange the data between each other via NE...

Page 442: ...n to the process that runs the program a device with a NET connection also runs a parallel communication process that controls the exchange of network data Before every program cycle the network data is written from the NET receive buffer to the operand image of the program The program runs through the next cycle with this data At the end of the program cycle the updated network data is written fr...

Page 443: ...ossible NET IDs 01 08 Possible devices All NET stations without their own program as input output devices in REMOTE IO mode In this type of application NET station 1 must always have a program Possible NET IDs 02 08 Possible devices easy800 and MFD 7 1 3 Function terminal mode Terminal mode allows you to use the operating buttons of an MFD NT which is run as a NET station to create or modify the s...

Page 444: ...Factory set baud rate 125 KB The devices allow a NET transfer speed of 10 1000 Kbaud selectable in defined steps Possible baud rates are 10 20 50 125 250 500 and 1000 KB Use Í and Ú to select a baud rate of 10 1000 KB and confirm your selection with OK The maximum transmission speed depends on the total length of the network cables a Technical data Section 11 3 8 NET network on page 515 All NET st...

Page 445: ...r the following reasons In addition to the user data additional data is transferred to the PC i e to easySoft Pro in Online status or to an MFD in terminal mode The transfer rate is low By increasing the bus delay time you increase the time window for online services such as the power flow display status display of actual values of function block operands and the forcing of markers An increase of ...

Page 446: ...legram NET stations without a circuit diagram send each status change of an input or output without taking the SEND IO setting into account An activated SEND IO function will considerably increase the number of telegrams on the NET and can slow down the transfer of other user data An increase in the bus pause time means that fewer messages inputs outputs bit data word data are transferred per time...

Page 447: ...tion is therefore not required and is not available here Danger Ensure that the automatic starting of MFD will not cause the unwanted starting of machines and plants NET stations with a circuit diagram and a display only follow the operating mode change if the status display or a text is showing in the display on the device By default all devices except are configured as input and output devices w...

Page 448: ...is 10 10 message error rate The message error rate depends on Bus loading Telegram length Malfunction frequency Number of stations Example using a network with 500 Kbaud average bus load 25 average operating time 2000 h year average error rate of 10 3 i e 1 message is faulty every 1000 transmission of 1 12 x 1010 messages per year of which 1 12 x 107 messages are faulty residual error probability ...

Page 449: ...cannot enter the System menu if a password is already activated Numbers between 0 and 9 can be used for the password In this case the password consists of a value between 000001 and 999999 Press DEL and ALT to call up the System menu Select the menu option SECURITY to enter the password Press the OK pushbutton and enter the STD PASSWORD Press OK once more to enter password entry mode If still no p...

Page 450: ...e of this device Data exchange via the easyNet is not affected Take into account the restricting effect of a protected interface if you have to reset the MFD device to factory settings Section 8 1 7 Password no longer known or incorrect page 449 DELETE PROGRAM When this function is not activated the question DELETE PROG will appear if the password entry is entered incorrectly four times This quest...

Page 451: ... password menu only if a password is present Then press the OK button If you have deactivated a password beforehand select ACTIVATE PW in the system menu and press OK The password is now active i e password protection is activated You must unlock the device with the password before you implement a protected function enter a protected menu or the System menu CHANGE PW ACTIVATE PW Make a notes of th...

Page 452: ...accessible so that you can edit your circuit diagram The System menu is also accessible 8 1 5 Changing passwords Unlock the MFD device as previously described Press DEL and ALT to call up the System menu Open the password menu via SECURITY PASSWORD CHANGE PW The CHANGE PW entry flashes The MFD device only shows this menu if a password is already assigned Press OK to enter the password entry menu P...

Page 453: ...activated in the AREAS menu the password can be entered as often as required Have you entered an incorrect password Re enter the password After the fifth entry attempt MFD device will ask whether you wish to delete the circuit diagram and data Press ESC Circuit diagram data or password are not deleted OK Circuit diagram data and password are deleted easy will return to the Status display Pressing ...

Page 454: ...o the menu SYSTEM and then to the DEBOUNCE menu 8 2 1 1 Activating DEBOUNCE To activate DEBOUNCE choose DEBOUNCE and press OK The debounce is activated and the display changes to DEBOUNCE å Press ESC to return to the previous menu 8 2 1 2 Deactivating DEBOUNCE If the menu displays DEBOUNCE å with a tick this means that the debounce function is already activated To deactivate DEBOUNCE choose DEBOUN...

Page 455: ...e P pushbuttons are active Otherwise select P PUSHBUTTONS and press OK The MFD device chances the display to P BUTTONS å indicating that the P buttons are activated Press ESC to return to the status display 8 2 2 2 Deactivating the P pushbuttons Select P PUSHBUTTONS å and press OK The tick behind P PUSHBUTTONS disappears and the P pushbuttons are deactivated If MFD is protected with a password you...

Page 456: ...the supply voltage is switched on However if there is no circuit diagram in the device it will stay in STOP operating mode until a circuit diagram is entered or downloaded Otherwise select RUN MODE and press OK RUN mode is activated Press ESC to return to the status display Deactivating RUN mode Select RUN MODE å and press OK The RUN mode function is deactivated The MFD device is factory set with ...

Page 457: ...nge can even by carried out by unskilled personnel by simply exchanging the memory card If the program on the memory card is different to the program in the MFD device the program from the card will be loaded on power up first of all and then started in RUN mode If the programs only contain different function block setpoints constants the program on the memory card is not loaded The program is ret...

Page 458: ...tation The setting of the connection to the required station Section 3 9 Running MFD in Terminal mode page 136 8 2 4 1 Activating an automatic startup in TERMINAL MODE Terminal mode is deactivated in the factory setting Press DEL and ALT simultaneously to switch from the Status display to the System menu DEBOUNCE åÆ P PUSHBUTTONS RUN MODE å CARD MODE åæ If CARD MODE is activated A MFD device only ...

Page 459: ...UTTONS menu items The I pushbuttons and R pushbuttons options enable the operator to operate a MFD in a harsh environment by means of external function keys such as RMQ control circuit devices External pushbuttons that are connected to the local I input terminals or the R input terminals of the expansion unit can thus take on the same functions as the operator buttons of the device The I or R inpu...

Page 460: ...the identical function description of the I buttons 8 2 6 Setting contrast and backlight DISPLAY menu item The backlight of the LCD display can be adjusted to one of 5 levels in order to suit local conditions Using the Display backlight button element enables the operator to change the backlight level during operation by pressing a button Section 6 6 3 Display Backlight from page 419 The backlight...

Page 461: ...LIGHTING menu Press OK Use cursor buttons Í and Ú to change the value in 25 steps Set the required backlighting If the MFD device is password protected the System menu is only accessible after the MFD device has been unlocked Section 8 1 4 Unlocking MFD from page 448 CONTRAST 0 LIGHTING 75 CONTRAST 1 LIGHTING 75 CONTRAST 1 LIGHTING 75 CONTRAST 1 LIGHTING 75 The backlight changes immediately when t...

Page 462: ...s retentive and can be deleted specifically using a Reset command Operating hours counters do not reduce the memory available for retentive data Memory for retentive data The following table shows the maximum available memory for retentive data in the RAM Markers The following table shows the maximum number of marker bytes that can be declared as retentive with the limitation defined by the memory...

Page 463: ...N menu Press the OK button The first screen that appears is a selection dialog for operand marker bytes MB The display on the lower right B 200 indicates the number of free bytes Use ÍÚ to select the operand Press OK to access the Entry modes ú í Select position from to ÍÚ Set a value If necessary select the next operand In all six different operand ranges can be selected Example MB 01 to MB 04 C ...

Page 464: ...the circuit diagram is transferred from easySoft Pro PC or from the memory card to the MFD device the retentive actual values are reset to 0 This does not occur if you have selected the Retain markers during transfer option in easySoft Pro or activated the RETAIN MARKERS option on the device When changing the respective retentive range When the circuit diagram is deleted via the DELETE PROG menu 8...

Page 465: ... 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 8 3 Menu language The MFD device provides 13 different menu languages 8 3 1 Changing the menu language You can change the menu language in the System menu Language Display English ENGLISH Deutsch DEUTSCH French FRANÇAIS Spanish ESPA...

Page 466: ...gurator Call the configurator in the System menu The following menu items vary according to the device or the connected periphery 8 4 1 NET A description of how to parameterize and configure the easyNet network is provided in section 3 7 Commissioning NET stations page 122 8 4 2 COM A description of how to parameterize and activate a COM LINK i e the point to point connection between an MFD and an...

Page 467: ... operating mode The device and the Ethernet gateway must be interconnected via an EASY800 MO CAB or MFD CP4 500 CAB5 connection cable The following table shows the available parameters and their factory settings for an Ethernet coupling unit The description of the parameters is provided in the operating manual for the Ethernet gateway AWB2528 1596 chapter Configuration via the RS232 interface and ...

Page 468: ...ion ÍÚ Change the value of a parameter OK Save day and time ESC Retain previous setting Press ESC to leave the time setting display 8 5 2 Summer winter time The MFD devices are fitted with a real time clock These devices can be automatically switched between summer and winter time These are subject to different legal requirements in the EU GB and USA 8 5 2 1 General The following options are avail...

Page 469: ...rica DST rule supplied in easySoft for the currently applicable time change This rule is as follows Start Second Sunday in March at 2 00 a m local time End First Sunday in November at 2 00 a m local time On an MFD CP8 the US option stores the following date according to the now obsolete rule Start First Sunday in April End Last Sunday in October RULE User defined dates and changeover times as well...

Page 470: ... the MFD device switches to the following times according to these regional presets The following applies to the winter summer time change with the regional presets EU GB or US On the changeover day the clock will switch from 2 00 to 3 00 The following applies to the summer winter time change with the regional presets EU GB or US On the changeover day the clock will switch back from 3 00 to 2 00 R...

Page 471: ...ameter SO Month OF xx Month Time AT xx xx or the time difference DIFF as previously described for the changeover day Press ESC to exit the SUMMER TIME START and choose SUMMER TIME END Set the changeover data to winter time as previously described for the changeover day to summer time and exit the menu with ESC The time difference DIFF parameter corresponds to the entry for the changeover day to su...

Page 472: ...8 MFD Settings 8 5 Setting time 468 Manual 11 10 MN05002001Z EN www eaton com ...

Page 473: ...e digital inputs outputs are not scanned but a memory range in the device system memory is accessed This memory range is called the process image The process image is divided into two sections the process image for the inputs and the process image for the outputs 9 1 1 How the MFD device evaluates circuit diagrams and function blocks 9 1 1 1 Segment 1 4 The MFD device evaluates the contact fields ...

Page 474: ...ticular function blocks section 9 1 4 Allowing for the special feature of certain function blocks page 472 Contact the outside world Output relays Q 01 to Q are switched and inputs I 1 to I are re read For the expansion modules the S output relays are switched and the R inputs are read accordingly to exchange easyNet data if this MFD device receives new read data or provides new send data Section ...

Page 475: ...s off because the MFD device processes the circuit diagram segment for segment from top to bottom and from left to right from the first segment By the time the MFD device refreshes the process image of the outputs and therefore the coil field with Q 01 in the fifth segment contact field Q 01 in the second line of the circuit diagram has already been processed 2nd cycle The self latching only now b...

Page 476: ...n the active and on the remote station Only use those COM LINK operands that are required 9 1 5 2 Loading visualization data When setting a program to RUN operating mode that contains visualization data the contents of the screens to be displayed have to be loaded The time required for loading in the event of a mask change depends on the size of the masks to be loaded The loading time can be calcu...

Page 477: ... 1 6 1 Distribution of data in the program memory MFD CP8 During the runtime the program memory stores the program the retentive data and the screens to be displayed The largest screen to be displayed reduces the memory available for the program Distribute the tasks between several devices which exchange data between each other via easyNet Use MFD devices for open and closed loop control and other...

Page 478: ...d outputs as well as the size and design of the circuit diagram 9 2 1 Input delay debounce The time required from reading the inputs and outputs to switching the contacts in the circuit diagram can be increased on the MFD device using an input delay the so called DEBOUNCE Section 8 2 1 Switching on the input delay function Debounce menu page 450 This function is useful for example in order to ensu...

Page 479: ...t signal and an activated DEBOUNCE An input signal S1 must therefore be 15 V on the input terminal for at least 20 ms before the switch contact will change from 0 to 1 A If applicable this time must also include the cycle time B since a MFD device does not detect the signal until the start of a cycle When the DC voltage signal drops out from 1 to 0 and DEBOUNCE is active the same delay time C of 2...

Page 480: ...ts the MFD device scans the input signal in long or short scan cycles tSC depending on whether DEBOUNCE is activated deactivated The scan cycle also depends on the frequency of the supply network Delay time with DEBOUNCE activated If the DEBOUNCE function is activated the MFD device checks whether a positive half wave is present at an input terminal during two successive scan cycles tSC1 1st and 2...

Page 481: ...y half cycles twice in succession 1st and 2nd pulse at B tSC1 50 Hz 40 ms tSC 60 Hz 33 3 ms Switch on delay normally I1 I12 80 ms 66 7 Off delay normally I1 I12 80 ms 66 7 The corresponding values for 60 Hz are given in brackets Additional delay time due to bouncing pushbuttons Figure 274 Pushbutton with bounce If a pushbutton or switch bounces A the delay time may be extended by 20 ms 16 7 ms A D...

Page 482: ...ycle is not detected the MFD switches off the contact B tSC2 50 Hz 20 ms tSC 60 Hz 16 7 ms Switch on delay normally I1 I12 20 ms 16 7 Off delay normally I1 I12 20 ms 16 7 The corresponding values for 60 Hz are given in brackets A description of how to modify the delay times is provided in the section Section 9 2 Time behavior of the inputs and outputs page 474 A 1 2 2 1 B S1 tSC1 ...

Page 483: ...the description for ID12 If ID10 is set on its own or in combination no measured values are transferred to the application and the analog output is reset ID 11 Status of I O module with temperature measuring for both channels with wire break short circuit or out of range value The temperature measuring values are invalid ID 12 Module conflict parameterized I O module and actually fitted module do ...

Page 484: ...cuit diagram for fault output via I16 The above circuit diagram functions as follows If a transistor output indicates a fault I16 sets marker M16 The N C of M16 switches off output Q1 M16 can be reset by switching the MFD supply voltage off and on so that the break contact closes again ID 23 Status of I O module with temperature measuring status 1 actual value on sensor 2 below the set measuring r...

Page 485: ...th expansion units EASY618 RE EASY620 DC TE EASY410 DC E EASY406 DC ME EASY411 DC ME EASY202 RE Remotely via the non safety coupling module EASY200 EASY and one of the above mentioned easy600 expansions connected to it You can also use communication expansion units such as EASY204 DP for PROFIBUS DP EASY221 CO for CANopen Bus EASY205 ASI for the Actuator Sensor Interface bus EASY209 SE for Etherne...

Page 486: ...of the inputs outputs of the expansion units The debounce setting has no effect on the expansion unit Transfer times for input and output signals Local expansion Time for inputs R1 to R12 30 ms 1 cycle Time for outputs S1 to S6 S8 15 ms 1 cycle Remote expansion Time for inputs R1 to R12 80 ms 1 cycle Time for outputs S1 to S6 S8 40 ms 1 cycle 9 4 3 Monitoring the functionality of the expansion uni...

Page 487: ...ed M 01 detects whether the circuit diagram was processed for at least one cycle after the voltage supply is switched on If the circuit diagram is skipped all the outputs retain their previous state 9 5 Monitoring the serial multi function interface The device runs a baud rate dependent timeout monitoring of the communication via the serial multi function interface If a data exchange in progress i...

Page 488: ...e cursor button Í or Ú to move to the INFORMATION menu Press OK This will display all device information Status of diagnostics bit ID09 Status of the connection 0 fault free or COM LINK not activated 1 Connection faulty Type of fault Baud rate kBit s Timeout time ms CRC fault incorrect Data 9 6 250 19 2 120 no response 9 6 1500 19 2 800 CAUTION If the diagnostics bit indicates a fault the data rec...

Page 489: ...sent not present Line 2 OS e g 1 12 204 operating system version Line 3 CRC e g 25825 Checksum of the operating system is only displayed in STOP mode Press ESC to exit the display 9 8 Device Version Number The device version number is shown on the back of the housing of each MFD device These are the first two digits of the device number Example 01 402110000404 This device is of device version 01 W...

Page 490: ...9 Inside MFD 9 8 Device Version Number 486 Manual 11 10 MN05002001Z EN www eaton com ...

Page 491: ...nables you to test the logic operations of the circuit diagram Only qualified persons should test electrical voltages while the MFD is in operation 10 1 Messages from the MFD operating system Messages on the LCD display Explanation Remedy No display Power supply interrupted Restore power supply LCD is faulty MFD replace Temporary display TEST EEPROM Only when switched on for the first time TEST CL...

Page 492: ...show changes to the rungs MFD is in STOP mode Select RUN mode Association connection not fulfilled Check and modify circuit diagram and parameter sets Relay does not activate coil Incorrect parameter values time Analog value comparison is incorrect Time value of timing relay is incorrect Function of timing relay is incorrect Relay Q or M does not pick up Relay coil has been wired up several times ...

Page 493: ...rs replace the MFD device Text displayed with too many spaces Enter text or do not activate text output GW flashes on the Status display EASY200 EASY bus coupler detected without I O expansion Connect I O expansion to external easyLink CAUTION You can make a visual check the functionality of the NET by means of the NET LED and in the circuit diagram via diagnostics bit ID01 ID08 Status of the NET ...

Page 494: ...rvals If for example the station with NET ID 7 is missing the diagnostics bit ID7 changes to 1 on every remaining NET station The missing station is also indicated by means of a permanent light on the LED NET for all remaining NET stations Example of scanning the diagnostics bit ID Figure 280 Scanning the diagnostics bit in the circuit diagram Visible area Baud rate Station must send a sign of lif...

Page 495: ...isplay of all NET stations to Status display Start the automatic configuration of the NET section 3 7 2 Configuring NET page 127 However you can also do this via the programming software As an alternative to the automatic configuration you can also switch the supply voltage of the configured NET stations off and on All NET stations in the NET configuration will temporarily switch to STOP Station w...

Page 496: ...via the NET The further behavior of the NET stations 2 8 depends on whether REMOTE IO is also activated as well as REMOTE RUN NET station 2 8 with activated REMOTE RUN This type of NET station sets the data received via the NET to zero It retains its operating state and sets the diagnostics bit ID1 to 1 see following safety measure NET stations 2 8 with activated REMOTE RUN and REMOTE IO that func...

Page 497: ... CSA C22 2 No 213 M1987 Non Incendive Electrical Equipment for Use in Class I Division 2 Hazardous Locations CE mark UL File No E135462 UL CCN NRAQ CSA File No 012528 CSA Class No 2252 01 2258 02 for Hazardous Locations NA Certification UL Listed CSA certified Protection type MFD 80 B Display operating unit with keypad IEC IP65 in combination with MFD XM 80 UL CSA Type 4X Protection type MFD 80 Di...

Page 498: ...dards page 499 UL 508 INDUSTRIAL CONTROL EQUIPMENT CSA C22 2 No 142 M1987 Process Control Equipment CSA C22 2 No 213 M1987 Non Incendive Electrical Equipment for Use in Class I Division 2 Hazardous Locations CE mark UL File No E135462 UL CCN NRAQ NRAQ7 CSA File No 012528 CSA Class No 2252 01 2258 02 for Hazardous Locations NA Certification UL Listed CSA certified Protection type I O modules IEC IP...

Page 499: ...ons with fixing shaft W x H x D With pushbuttons 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 1 4 inches 0 04 0 16 Weight g 130 lb 0 287 Mounting 2 22 5 mm 0 886 in holes Display with two fixing rings Bolt on Maximum tighteni...

Page 500: ...CPU MFD CP8 Dimensions W x H x D mm 107 5 x 90 x 30 inches 4 23 x 3 54 x 1 18 Weight g 145 lb 0 32 Mounting Plug fitted to the display fixing shaft or on the top hat rail to DIN 50022 35mm without display or by means of fixing feet without display 30 g0 2 90 38 75 38 75 4 5 29 5 75 16 25 16 25 107 5 ...

Page 501: ... 3 5 x 3 54 x 0 98 Dimensions when removed W x H x D 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 lb 0 33 0 31 Mounting Snap fitted into the power supply module 90 mm 3 54 88 1 mm 3 47 25 mm 0 98 19 mm 0 75 Dimensions W x H x D mm 88 x 88 x 22 5 inches 3 46 x 3 46 x 0 98 Weight g 25 lb 0 055 Mounting Is fitted over the display function keys with silver bezel 88...

Page 502: ...l 11 10 MN05002001Z EN www eaton com 11 2 5 MFD 80 XS protective cover Dimensions W x H x D mm 86 5 x 94 x 25 inches 3 41 x 3 41 x 0 98 Weight g 36 lb 0 079 Mounting Is fitted over the display function keys without silver bezel 86 5 25 95 ...

Page 503: ...8 Relative humidity IEC 60068 2 30 non condensing 5 95 Air pressure in operation hPa 795 1080 Ambient mechanical conditions Pollution degree Power supply unit CPU inputs outputs 2 Display operating unit 3 Protection type EN 50178 IEC 60529 VBG4 Power supply unit CPU inputs outputs IP20 Display operating unit IP65 Type 3R Type 12R Display operating unit with protective cover IP65 Type 3R Type 12R D...

Page 504: ...igh energy pulses Surge MFD IEC EN 61000 4 5 severity level 2 power cable symmetrical kV 0 5 Line conducted interference IEC EN 61000 4 6 V 10 Insulation resistance Clearance in air and creepage distances EN 50178 UL 508 CSA C22 2 No 142 Insulation resistance EN 50178 Overvoltage category pollution degree II 2 Tools and cable cross sections Solid minimum to maximum mm2 0 2 4 AWG 24 12 Flexible wit...

Page 505: ...er of pixels W x H 132 x 64 Spacing pixel centre to pixel centre mm 0 42 LCD backlight Yes Backlight color Yellow green Backlight can be switched on and off in the visualization application via LE1 Yes LEDs Number of LEDs can be used and programmed in visualization applications 2 Operator buttons Number 9 Can be used and programmed in visualization applications 9 Mechanical lifespan of pushbuttons...

Page 506: ...240 V AC 50 Hz mA part no 60 Voltage dips IEC EN 61131 2 ms 10 Heat dissipation At 115 120 V AC VA part no 11 at 230 240 V AC VA part no 15 MFD CP8 Rated operational voltage Rated value Ue V DC 24 DC 15 20 permissible range V DC 20 4 28 8 Ripple 5 Input current For 24 V DC MFD CP8 mA part no 125 for 24 V DC MFD CP8 MFD80 mA part no 250 at 24 V DC MFD CP8 MFD80 and MFD R MFD T mA part no 270 Voltag...

Page 507: ...ice life years Accuracy of the real time clock s day Normally 2 0 2 h Year The accuracy of the real time clock can vary depending on the average ambient air temperature up to 5 s Day 0 5 h Year Back up accuracy of the MFD CP10 real time clock see figure Back up time Backup time hours with fully charged capacitor Service life years Accuracy of the real time clock s day Normally 0 17 1 min year in a...

Page 508: ...4 Coil per circuit connection 1 Program memory MFD CP8 for program circuit diagram KByte 8 Program memory MFD CP10 for program circuit diagram KByte 16 MFD CP8 screen memory visualization KByte 24 MFD CP10 screen memory visualization KByte 48 Storage of programs Zero voltage safe I e retentive FRAM Retentive memory Size MFD CP8 Byte 200 Size MFD CP10 Byte 400 Operating Hours Counter Byte 16 Write ...

Page 509: ...ation from power supply no between digital inputs no from the outputs Yes to PC interface memory card network NET easyLink Yes Rated voltage L sinusoidal at signal 0 V AC 0 40 at signal 1 V AC 79 264 Rated frequency Hz 50 60 Input current at signal 1 I1 I12 mA 12 x 0 2 at 115 V AC 60 Hz 12 x 0 5 at 230 V AC 50 Hz Deceleration time Delay time 0 1 1 0 I1 I12 50 60 Hz 10 100 Max admissible cable leng...

Page 510: ...9 I10 8 0 I7 I8 I11 I12 15 0 I1 I4 8 0 I11 I12 Input current at signal 1 I1 to I4 mA 3 3 at 24 V DC mA 3 3 at 24 V DC I11 I12 mA 2 2 at 24 V DC 2 2 at 24 V DC Hardware delay time 0 1 Debounce ON ms 20 20 Debounce OFF ms Normally 0 025 I1 I4 normally 0 25 I5 I6 I9 I10 normally 0 15 I7 I8 I11 I12 Normally 0 1 I1 I4 Normally 0 25 I11 I12 Hardware delay time 1 0 Debounce ON ms 20 20 Debounce OFF ms No...

Page 511: ...1 1 MFD R A 1 MFD T A 1 MFD T A P MFD R MFD T Number 4 I7 I8 I11 I12 for MFD T A P 2 I11 I12 Potential isolation from power supply no To the digital inputs no from the outputs Yes to PC interface memory card network NET easyLink Yes Input type DC voltage Signal range V DC 0 10 Resolution analog V 0 01 Resolution digital V 0 01 Resolution digital Bit 10 value 0 1023 Input impedance kΩ 11 2 Accuracy...

Page 512: ...Resolution digital scaling per sensor With operands IA and MD selectableunder scaling Bit 12 0 to 4095 With operand MD selectable under scaling C F 1 0 1 1 0 1 Measurement value resolution analog digital Bit Depending upon the scaling Measuring current mA 1 6 Damage limit in the case of a wiring error Apply external voltage Measurement method Two or three wire per sensor selectable by connection o...

Page 513: ...ith set sampling time selectable per sensor Yes Filter for the suppression of certainfrequencies and their multiples Hz 50 60 250 500 Diagnostics Card diagnostic Yes Conductor or Wire break diagnostic per sensor Yes lower measurement range sensor undershot Yes Above upper measurement range Yes Cable length screened m 10 Analog inputs 0 10 V of MFD T A P see above MFD TP MFD TAP ...

Page 514: ...hermal current UL CSA CSA 8 10 Recommended for load 12 V AC DC mA 500 short circuit proof cos ϕ 1 characteristic B16 at 600 A CSA 16 Short circuit proof cos ϕ 0 5 0 7 characteristic B16 at 900 A CSA 16 Rated impulse withstand voltage Uimp contact coil kV 6 Rated operating voltage Ue V AC 250 Rated insulation voltage Ui V AC 250 Safe isolation to EN 50178 between coil and contact V AC 300 Safe isol...

Page 515: ...rations 25000 Switching Frequency mechanical operations Switch operations 10x 106 Switching Frequency Hz 10 Resistive load lamp load Hz 2 Inductive load Hz 0 5 UL CSA Continuous current at 240 V AC CSA 10 AC Control circuit rating codes utilization category B 300 Light Pilot Duty Max rated operational voltage V AC 300 max thermal continuous current cos ϕ 1 at B 300 CSA 5 max make break cos ϕ capac...

Page 516: ...e CSA 0 5 Lamp load without Rv W 5 Q1 Q4 Residual current at signal 0 per channel mA 0 1 Max output voltage With condition 0 at external load 10 MΩ V 2 5 with condition 1 at Ie 0 5 A V U Ue 1 V Short circuit protection thermal Q1 to Q4 carry out evaluation via diagnostics input I16 Yes Short circuit tripping current for Ra 10 mΩ depending on number of active channels and their load CSA 0 7 Ie 2 pe...

Page 517: ...on factor per group g 0 25 Relative duty factor 100 Max switching frequency f 0 5 Hz Max duty factor DF 50 Switching operation s h 1500 DC13 T0 95 72 ms R 48 Ω L 1 15 H Simultaneity factor g 0 25 Relative duty factor 100 Max switching frequency f 0 5 Hz Max duty factor DF 50 Switching operation s h 1500 T0 95 15 ms R 48 Ω L 0 24 H Simultaneity factor g 0 25 Relative duty factor 100 Max switching f...

Page 518: ...rom the digital outputs Yes to PC interface memory card network NET easyLink Yes Output type DC voltage Signal range V DC 0 10 Max output current CSA 0 01 Load resistance 1 kΩ Overload and short circuit protection Yes Resolution analog V DC 0 01 Resolution digital Bit MFD TAP 12 0 4095 at QA01 MD Recovery time μs 100 Accuracy 25 C 55 C 2 25C 1 Conversion time analog digital ms each CPU cycle ...

Page 519: ...yLink PC interface memory module Yes Bus termination accessories First and last station Yes Plug connector accessories poles 8 Type RJ45 Cable cross sections with cable lengths and cable resistance m Cross section up to 1000 16 mΩ m mm2 AWG 1 5 16 Cross section up to 600 26 mΩ m mm2 AWG 0 75 to 0 8 18 Cross section up to 600 26 mΩ m mm2 AWG 0 5 to 0 6 20 19 Cross section up to 400 m 40 mΩ m mm2 AW...

Page 520: ...B Data Block Data Function Block 258 01 DC DDC controller direct Digital Control PID Controller 261 01 FT Filter PT1 Signal Smoothing Filter 268 01 GT GET GET Value from NET 273 01 HW Hora lat Week Weekly timer 276 01 HY Hora lat Year Year time switch 282 01 JC Jump Conditional Conditional Jump 291 05 LB Label Jump label 294 05 LS Linear Scaling Value Scaling 295 01 MR Master Reset Master Reset 30...

Page 521: ...t EI Enable Integral Ratio Activate integral component EN Enable Enable function block EP Enable Proportional component Activate proportional component FD Forward Direction Bit data input forwards shift direction FP Forward Pulse Trigger coil Clock input forward shift direction RE Reset Reset actual value to zero RF Read First Trigger coil On detecting a rising edge trigger and EN 1 the oldest val...

Page 522: ...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 I1 I2 LI Limit Indicator Value range manipulated variable exceeded LT Less T...

Page 523: ...portional Gain ME Minimum make time Minimum make time MV Manual Value Manual manipulated variable NO Numbers Of elements Number of elements OS OffSet Offset for the value I1 PI Standard Number of steps in Jog mode PF Standard Frequency in jog mode PD Period of Duration Period Duration RF Standard Frequency change in acceleration phase SH Setpoint High Upper Limit Value SL Setpoint Low Lower Limit ...

Page 524: ...ands Meaning of abbreviation Description MB Marker byte 8 Bit value IA Input Analog Analog input if available on device MW Marker Word 16 Bit value QA Output Analog Analog output if present on the device MD Marker Double Word 32 Bit value NU NUmber Constant value range from 2147483648 to 2147483647 Avoid empty rungs dispersed between written rungs after operands have been deleted These kinds of em...

Page 525: ... 4 DC 96 4 FT 56 4 GT 28 HW 68 4 per channel HY 68 4 per channel JC 20 LB LS 64 4 MR 20 MX MFD CP10 96 4 NC 32 4 OT 36 4 PT 36 4 PW 48 4 SC 20 SR 96 4 ST 24 4 T 48 4 TB 112 4 VC 40 4 Space requirement per rung function block Space requirement per constant at function block input Byte Byte ...

Page 526: ...48 H U 0068 h U 00B0 U 0029 U 0049 I U 0069 I U 00B1 U 002A U 004A J U 006A j U 00B2 U 002B U 004B KP U 006B k U 00B3 U 002C U 004C L U 006C l U 00B4 U 002D U 004D M U 006D m U 00B5 μ U 002E U 004E N U 006E n U 002F U 004F O U 006F o U 00BF U 0030 0 U 0050 KP U 0070 p U 0031 1 U 0051 q U 0071 q U 201E U 0032 2 U 0052 R U 0072 r U 2030 U 0033 3 U 0053 S U 0073 s U 20AC U 0034 4 U 0054 T U 0074 t U ...

Page 527: ...haracter Unicode hex Character Unicode hex Character U 00C0 À U 00E0 à U 00C1 Á U 00E1 á U 00C2  U 00E2 â U 0152 Œ U 00C3 à U 00E3 ã U 0153 œ U 00C4 Ä U 00E4 ä U 00C5 Å U 00E5 å U 0160 Š U 00C6 Æ U 00E6 æ U 0161 š U 00C7 Ç U 00E7 ç U 00C8 È U 00E8 è U 0178 Ÿ U 00C9 É U 00E9 é U 017D Ž U 00CA Ê U 00EA ê U 017E ž U 00CB Ë U 00EB ë U 00CC Ì U 00EC ì U 00CD Í U 00ED í U 00CE Î U 00EE î U 00CF Ï U 00E...

Page 528: ...Ą U 0158 Ř U 00C5 U 00E5 U 0105 ą U 0159 ř U 00C6 U 00E6 U 0106 Ć U 015A Ś U 00C7 Ç U 00E7 ç U 0107 ć U 015B ś U 00C8 U 00E8 U 015E Ş U 00C9 É U 00E9 é U 010C Č U 015F ş U 00CA U 00EA U 010D č U 00CB Ë U 00EB ë U 010E Ď U 00CC U 00EC U 010F ď U 0160 Š U 00CD Í U 00ED í U 0110 Đ U 0161 š U 00CE Î U 00EE î U 0111 đ U 0162 Ţ U 00CF U 00EF U 0163 ţ U 00D0 U 00F0 U 0118 Ę U 0164 Ť U 00D1 U 00F1 U 0119 ...

Page 529: ... 0407 Ї U 0427 Ч U 0447 ч U 0408 J U 0428 Ш U 0448 ш U 0409 Љ U 0429 Щ U 0449 щ U 040A Њ U 042A Ъ U 044A ъ U 040B Ћ U 042B Ы U 044B ы U 040C Ќ U 042C Ь U 044C ь U 042D Э U 044D э U 040E Ў U 042E Ю U 044E ю U 040F Џ U 042F Я U 044F я U 0410 CSA U 0430 а U 0411 Б U 0431 б U 0451 ё U 0412 B U 0432 в U 0452 ђ U 0413 Г U 0433 г U 0453 ѓ U 0414 Д U 0434 д U 0454 є U 0415 E U 0435 е U 0455 ѕ U 0416 Ж U 0...

Page 530: ...11 Appendix 11 8 Cyrillic expansion character set 526 Manual 11 10 MN05002001Z EN www eaton com ...

Page 531: ...rmination resistor 83 BUSY 96 Button editor 417 Button elements 361 417 Button field 386 BV Boolean operation standard FB 228 C C 232 Cable Cross section 87 Length 87 Protection 57 Resistance 87 Cable layout easyNet network cable 83 Cancel circuit diagram entry 170 Card Memory card Central processing unit Technical data Real time clock Technical data 503 CF Frequency counter standard FB 238 CH Hig...

Page 532: ...ut 80 Brightness sensor 71 Contactors relays motors 76 easyNet network 82 Expansion 54 Frequency encoder 67 High speed counter 67 Inputs 60 Modem 90 Multi function interface 88 Outputs 75 PC 89 Point to point communication 91 Power supply 57 Pushbuttons switches 68 Pushbuttons switches contacts 62 Relay outputs 76 Setpoint potentiometer 71 Temperature inputs 72 Temperature sensor 71 Transistor out...

Page 533: ... FUNCTION 446 Delete Program 130 Deleting Circuit diagram on card 164 Function blocks 196 Operands on FB inputs outputs 194 Retentive actual values 460 Retentive area 460 Rung 170 Deleting retentive actual values 460 Device Foot 53 Information 484 Overview 21 Device without display 452 Program transfer 159 Devices parameter EASY4 DC ME 119 Diagnostics 30 per Diagnostic bits 490 using the ID diagno...

Page 534: ... requirement 520 Parameter dialog 190 Parameter setting 189 Function keys Visualization 416 Function overview 19 G Get value from NET GT standard FB 273 GO TO other rungs 171 Graphic elements 369 Ground 75 GT get value from NET standard FB 273 H High speed counter CH standard FB 243 High speed incremental value counter CI standard FB 249 HW weekly timer standard FB 276 HY year time switch standard...

Page 535: ...Technical data 503 Menu language Initial switch on 95 Menu structure 32 Message Bitmap 395 INVALID PROG 164 488 Operating system 487 Text 375 Message error rate 444 Minimum clearances to the device 40 Mode Entry 145 Move 145 Mounting Display Operating unit 45 Expansion units 54 Inputs outputs on the power supply CPU module 48 on mounting plate 53 on top hat rail 50 Overview 41 Power supply unit ce...

Page 536: ...72 PID controller DC standard FB 261 Point to point communication 91 Possible combinations basic devices and expansion units 24 Power failure 96 Time switch 281 Power Flow Display 104 Power supply failure station with NET ID1 492 Power supply Technical Data 502 Process image 469 Program Deleting on a memory card 164 Loading and saving with easySoft 164 Loading from the memory card 162 Saving on th...

Page 537: ...latching Circuit example 471 SEND IO 442 Send outputs 442 Sending Data via the NET 438 Sensor types 107 Servo valves Connecting 80 Set cycle time ST standard FB 337 Set date 464 Set Parameters Temperature module 108 Set time 464 Set coil function 175 Setpoint potentiometer connecting 71 Setting LCD contrast 456 Setting the cycle time ST standard FB 337 Shift register SR standard FB 325 Shipping ap...

Page 538: ...ons 57 Testing circuits via the P buttons 172 Threshold value switch standard FB 199 Time display 30 Time indicator 398 Time overlaps Time switch 280 Time switch 24 hour switching 281 Power failure 281 Time date setting SC standard FB 323 Timing relay and counter function block example 358 Timing relay value entry 411 Timing relay T standard FB 340 Timing Relay Technical data 503 Toolbox 363 Top h...

Page 539: ... 413 Weekly timer HW standard FB 276 Winter time 465 Wire breakage EASY4 DC ME 122 Temperature module 116 Wiring Arrow 102 169 backwards 471 Grid 157 Workbench 363 Write repetition rate 441 Y Year time switch Screen element 414 Year time switch HY standard FB 282 Z Zoom function in the power flow display 105 ...

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