Eaton EZD Series User Manual Download

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Terminal mode

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MN05013005E

107

Terminal mode

The EZD device also supports the TERMINAL MODE

operating mode. This allows you to remotely control other

devices. This is especially useful if the other device is located

in an inaccessible place. Terminal mode can also be used to

show the menus and displays of devices that do not have their

own display or operating unit. Terminal mode can be used

both with the serial interface and in the EZ-NET. The serial

interface enables you to access a remote device. If you use

the EZ-NET network, all other network stations can be

addressed.

The following topologies are permissible.

Terminal mode is a separate operating mode like RUN

mode. It only functions when a program is not running. For

this mode to be active, the EZD must be in STOP mode.

All connected devices must also support Terminal mode.

Summary of Contents for EZD Series

Page 1: ...For more information visit www EatonElectrical com MN05013005E EZD Series User Manual April 2005...

Page 2: ......

Page 3: ...mplementing this connection Connecting cables and signal lines should be installed so that inductive or capacitive interference does not impair the automation functions Install automation devices and...

Page 4: ...sing closed Desktop or portable units must only be operated and controlled in enclosed housings Measures should be taken to ensure the proper restart of programs interrupted after a voltage dip or fai...

Page 5: ...18 EZD Status display 18 Status display for local expansion 19 EZD advanced Status display 19 EZD LED display 19 Menu structure 21 Selecting or toggling between menu items 27 Cursor display 28 Setting...

Page 6: ...ging and unplugging network cables 74 Connecting the serial interface 76 Expanding inputs outputs 79 Local expansion 79 Remote expansion 81 3 Commissioning 83 Switching on 83 Setting the menu language...

Page 7: ...loading programs 135 Working with contacts and relays 136 Creating and modifying connections 139 Inserting and deleting a rung 141 Saving circuit diagrams 142 Aborting circuit diagram entry 142 Search...

Page 8: ...send a value onto the network 248 Pulse width modulation 250 Setting date time 253 Set cycle time 254 Timing relay 257 Value limitation 270 Example with timing relay and counter function block 272 5 V...

Page 9: ...ead authorization in the network 338 Configuration of the EZ NET network 339 Station number 339 Transmission speed 339 Pause time changing the write repetition rate manually 340 Automatic change of th...

Page 10: ...rtup behavior 374 Terminal mode 375 Setting LCD contrast and backlight 376 Retention 378 Requirements 379 Setting retentive behavior 379 Deleting ranges 380 Deleting retentive actual values of markers...

Page 11: ...on 406 Appendix 407 Technical data 407 General 407 CPU real time clock timing relay memory 415 Transistor outputs 422 Analog output 425 EZ NET network 426 List of the function blocks 428 Function bloc...

Page 12: ......

Page 13: ...trolled parts of the system can be damaged and persons put at risk if the EZD device is connected or programmed incorrectly Device designation This manual uses the following abbreviated designations f...

Page 14: ...y the name of the current chapter is shown in the header of the left hand page and the name of the current section in the header of the right hand page This does not apply to pages at the start of a c...

Page 15: ...e relay and contactor controls as well as being used as an EZD device EZD must be properly installed before use The display and operating unit of the EZD is protected to IP65 and does not normally req...

Page 16: ...am This allows the design of systems using high speed controllers with decentralized intelligence In Terminal mode the EZD can be used to control any device in the network and display data from it reg...

Page 17: ...l encoder values compare values display graphics texts variables enter setpoints display flashing values and graphics change and replace graphics and texts by pushbutton process additional inputs and...

Page 18: ...ircuit diagram on the PC All display and operator functions on the EZD device are created exclusively using the EZSoft software EZSoft is also used to print out your circuit diagram in DIN ANSI or EZ...

Page 19: ...CPU Figure 2 Device overview of power supply and CPU Power supply EZ NET terminals EZ LINK terminal Interface for memory card PC and point to point connection Power supply operating mode LED EZ NET L...

Page 20: ...and outputs Multi function display DEL Delete object in circuit diagram ALT Special functions in circuit diagram Status display Cursor buttons Move cursor Select menu items Set contact numbers contact...

Page 21: ...g values and Show System menu Go to next menu level Select menu item Activate modify save your entry Return to last menu level Cancel your entry since the last OK Change menu item Change value Change...

Page 22: ...word DEL ALT OK ESC ESC Current selection flashes in the EZD menu 1st menu level Main menu 1st menu level System menu PROGRAM STOP RUN PARAMETERS SET CLOCK SECURITY SYSTEM MENU LANGUAGE CONFIGURATOR I...

Page 23: ...Weekday Time Outputs On 1 2 3 4 Off RS Expansion functioning correctly R 1 12 RS AC P MO 10 42 S 1 8 STOP Retention debounce EZ NET station AC expansion ok P buttons Startup behavior RE Retention swit...

Page 24: ...RUN STOP mode LED Red LED Table 4 Fault on the EZ NET LED OFF No power supply LED continuously lit Power supply present STOP mode LED flashing Power supply present RUN mode LED OFF EZ NET not operatio...

Page 25: ...OK PROGRAM DELETE PROGRAM CARD SAVE Main menu STOP Circuit diagram display RUN Power flow display Parameters Circuit diagram CIRCUIT DIAGRAM FUNCTION RELAYS CIRCUIT DIAGRAM FUNCTION RELAYS Function bl...

Page 26: ...ROGRAM STOP RUN PARAMETERS SET CLOCK TERMINAL MODE PROGRAM STOP RUN PARAMETERS SET CLOCK TERMINAL MODE REPLACE SET CLOCK DST SETTING Display for date and time setting HH MM DD MM YEAR ____ HH MM 14 23...

Page 27: ...RS SET CLOCK Main menu PASSWORD RUN DELETE ALL Correct entry Status display Four wrong entries if enabled PROGRAM PARAMETERS TIME OPERATING MODE INTERFACE DELETE FUNCT PROGRAM PARAMETERS TIME OPERATIN...

Page 28: ...E CONFIGURATOR Retention only in STOP mode DEBOUNCE P BUTTONS RUN MODE CARD MODE TERMINAL MODE DISPLAY RETENTION INFORMATION DEBOUNCE P BUTTONS RUN MODE CARD MODE TERMINAL MODE DISPLAY RETENTION INFOR...

Page 29: ...M LINK NET PARAMETERS STATIONS CONFIGURE The other menus of NET and COM are only shown in STOP mode Only one selection is possible ENGLISH DEUTSCH FRANCAIS ESPANOL ITALIANO PORTUGUES NEDERLANDS SVENSK...

Page 30: ...RS STATIONS CONFIGURATOR This list is only created in Station 1 This list only appears if station 1 has been selected NET PARAMETERS STATIONS CONFIGURATOR CONFIGURE SAVE CANCEL Fault scenario with ID...

Page 31: ...ween menu items BAUDRATE 9600B COM LINK REMOTE MARKER System menu NET COM CONFIGURE This menu only appears if COM LINK was selected BAUDRATE 19200B COM LINK REMOTE MARKER BAUDRATE 19200B COM LINK REMO...

Page 32: ...agram also with Value M M Change position with Change values with Flashing values menus are shown in grey in this manual HH MM 4 23 DD MM 05 05 YEAR 2003 HH MM 14 23 DD MM 05 05 YEAR 2003 Change value...

Page 33: ...rol cabinet a service distribution board operator panel or in an enclosure Install the power supply CPU module and the input output module so that all the terminals are protected against direct contac...

Page 34: ...e EZD Fitting the protective membrane For special applications such as in the food industry the operating unit must be protected against the ingress of dust liquids etc For this use the specially desi...

Page 35: ...tective membrane over the display operating unit a b Caution Ensure that the membrane fits snugly in the groove of the display operating unit Otherwise a proper seal cannot be guaranteed and particles...

Page 36: ...ting unit against mechanical damage or destruction Protection to IP65 is maintained The protective cover can be opened so that the operating unit can be used The protective cover can be closed with a...

Page 37: ...igure 7 Removing the front frame XRemove the front frame as shown in the figure The protective cover can be mounted in two different positions Choose the position that is most suitable for the applica...

Page 38: ...he protective cover Figure 10 Sealing the protective cover The grip handle of the protective cover is provided with holes that can be used in any mounting position You can fit a wire or similar materi...

Page 39: ...technical requirements 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...

Page 40: ...it www EatonElectrical com Installation MN05013005E 36 Figure 12 Mounting the display operating unit The protective membrane or the protective cover must be fitted XFit the display operating unit in t...

Page 41: ...sten the display operating unit The tightening torque must be between 1 2 and 2 Nm 10 6 and 17 6 in lb Figure 14 Mounting the display operating unit front mounting Use the combination box spanner with...

Page 42: ...the top hat rail Ensure that the cutout of the top hat rail was prepared for the fixing shafts according to the specified dimensions Figure 15 Top hat rail with cutout 24 35 38 75 120 216 23 75 60 30...

Page 43: ...roove using the slide catch of the power supply CPU module and the expansion unit XTurn the top hat rail towards the housing XLet the top hat rail snap into position XPress the power supply CPU module...

Page 44: ...For more information visit www EatonElectrical com Installation MN05013005E 40 Figure 17 Fitting the CPU with and without top hat rail...

Page 45: ...om MN05013005E 41 Mounting the inputs outputs onto the power supply CPU module Figure 18 Plugging in the I O module Figure 19 CPU with I O module J The inputs outputs can be mounted before or after mo...

Page 46: ...tallation MN05013005E 42 Removing the inputs outputs Figure 20 Releasing the I O module XPress the two catches together XPull one side out of the catch XPull the other side out of the second catch Fig...

Page 47: ...ert the screwdriver into the lug of the fixing shaft catch XLever out the slide catch XPull out the power supply CPU module from the fixing shafts Mounting on top hat rail The power supply CPU module...

Page 48: ...t www EatonElectrical com Installation MN05013005E 44 Figure 23 Removing the spring XRemove the spring with a screwdriver Figure 24 Pulling out and removing the slide catch XPull the slide catch out o...

Page 49: ...lace automatically XCheck that the device is seated firmly The device is mounted vertically on a top hat rail in the same way Screw mounting For screw mounting on a mounting plate fixing brackets must...

Page 50: ...For more information visit www EatonElectrical com Installation MN05013005E 46 Figure 26 Screw mounting for the EZD Figure 27 Screw mounting for EZ EZ2 EZ700...

Page 51: ...rewdriver width 3 5 0 6 mm Connection cross sections of the EZD cage clamp terminal cables Solid 0 2 to 4 mm2 AWG 24 12 Flexible with ferrule 0 2 to 2 5 mm2 AWG 24 12 Tool for slot head screws for EZ...

Page 52: ...24 0 2 mm2 are the largest crimpable cross sections The first and last stations in the network must be provided with an EZ NT R bus termination resistor Connecting the power supply J The required conn...

Page 53: ...it www EatonElectrical com MN05013005E 49 EZD AC power supply Figure 29 AC power supply on the EZD Attention A short current surge will be produced when switching on for the first time Do not switch o...

Page 54: ...005E 50 EZ AC E expansion units Figure 30 Power supply on the AC expansion units N N L N F1 L 115 230 V E E R1 R12 Attention A short current surge will be produced when switching on for the first time...

Page 55: ...he EZD power supply CPU module supplies the necessary power supply to itself the display the input output electronics the EZ LINK and optionally the EZ NET L01 1 A L01 L02 24V 0V 0V J The EZD device p...

Page 56: ...able protection F1 for at least 1 A slow 0V 0V 24V L01 F1 L01 24 V E E R1 R12 J EZ DC is protected against polarity reversal To ensure that EZ works correctly ensure that the polarity of each terminal...

Page 57: ...iagram as often as you like Figure 33 Connecting the inputs Connect contacts such as pushbutton actuators or switches to EZ or EZD input terminals Connecting the AC inputs 24 V S1 0 V I1 I1 i1 L N Cau...

Page 58: ...ormation visit www EatonElectrical com Installation MN05013005E 54 EZD AC basic unit Figure 34 Connecting the inputs Warning The AC inputs must only be used with EZD AC CP8 devices Other devices may b...

Page 59: ...Input signal voltage range OFF signal 0 to 40 V ON signal 79 to 264 V Input current I1 to I12 0 5 mA 0 2 mA at 230 V 115 V R1 to R12 0 5 mA 0 25 mA at 230 V 115 V Cable lengths Severe interference can...

Page 60: ...de is pointing towards the input as shown in the circuit diagram otherwise EZ will not detect the 1 state Figure 36 EZ AC with a diode on the inputs Two wire proximity switches have a residual current...

Page 61: ...sing the input current A resistor can be connected in series with the circuit shown in order to restrict the inrush current Figure 38 Limitation of the inrush current with a resistor L1 N R10 R9 R8 R7...

Page 62: ...ton actuators switches or 3 or 4 wire proximity switches Given the high residual current do not use 2 wire proximity switches Input signal voltage range I1 to I6 I9 I10 OFF signal 0 to 5 V ON signal 1...

Page 63: ...com MN05013005E 59 Figure 40 EZD DC Figure 41 EZ DC E L01 1A L01 I1 I3 I4 I7 I8 I9 I10 L02 I2 I5 I6 I11 I12 24V 0V 0V J The digital inputs must have the same voltage as the power supply of the EZD L0...

Page 64: ...ualization currents between the two grounding points and thus in the interference of analog signals In this case only ground the cable at one end XDo not lay signal lines parallel to power cables XCon...

Page 65: ...t potentiometer with upstream resistor Use a potentiometer with a resistance of 1 k e g 1 k 0 25 W J Ensure that the reference potential is connected Connect the 0 V of the power supply unit for the d...

Page 66: ...ghtness sensor 20 mA sensor 4 to 20 mA 0 to 20 mA sensors can be connected easily without any problem using an external 500 resistor The following values apply 4 mA 1 9 V 10 mA 4 8 V 20 mA 9 5 V accor...

Page 67: ...3 Connecting high speed counters and frequency generators High speed counter signals on the EZD can be counted correctly on inputs I1 to I4 independently of the cycle time Figure 44 High speed counter...

Page 68: ...ls with a 90 phase shift between them Figure 45 Connecting incremental encoders Connecting the outputs The Q outputs function inside EZD as isolated contacts Figure 46 Output Q The respective relay co...

Page 69: ...t bulbs contactors relays or motors Check the technical thresholds and output data before installing such devices see J chapter Technical data from Page 407 Connecting relay outputs EZD R Figure 47 EZ...

Page 70: ...V h 24 V H 25 000 R 24 V H 8 A 115 V h 8 A 230 V h 8 A 2 A 2 A 2 A 1000 W 10 x 58 W 1 2 2 2 2 2 2 1 1 1 1 1 10 000 000 S6 S5 S4 S3 S2 S1 24 V H V 0 V H N F 8 A B 16 L1 L2 L3 115 230 Vh 1 2 2 1 10 000...

Page 71: ...ting transistor outputs EZD T Figure 50 EZD T transistor outputs EZ6 DC TE Figure 51 EZ6 DC TE transistor outputs 0 V Q1 Q2 Q3 Q4 F 10 A Q 24 VQ 20 4 28 8 V H 24 V H R 5 W 24 V 0 5 A 24 V H 0 5 A 0 V...

Page 72: ...contact and if this would mean switching off more than one controlled output with an inductive load then you must provide suppressor circuits for these loads J following diagrams Figure 52 Inductivit...

Page 73: ...put will keep switching off and on until the fault is corrected or until the power supply is switched off J Section Monitoring of short circuit overload with EZ D T Page 393 Connecting analog outputs...

Page 74: ...ecting servo valves Figure 53 Connecting servo valves Setpoint entry for a drive Figure 54 Setpoint entry for a drive L01 1 A L01 I1 I3 I4 I7 I8 I9 I10 0V QA 1 L02 A B I2 I5 I6 I11 I12 0V 24V 0V 0V L0...

Page 75: ...nnection plug 8 pole RJ45 EZ NT RJ45 Connection assignment of the RJ45 socket on the device Figure 55 RJ45 socket Connection cable 4 wire twisted pair J chapter Technical data Page 426 Figure 56 Conne...

Page 76: ...and cross sections For correct operation of the network the cable lengths cross sections and cable resistances must correspond to the following table The surge impedance of the cables used must be 12...

Page 77: ...aximum cable length in m RL Total cable resistance in R Cable resistance per unit length in m Calculating cross section with known cable lengths The minimum cross section is determined for the known m...

Page 78: ...cross section in mm2 cu resistivity of copper if not otherwise stated 0 018 mm2 m Plugging and unplugging network cables EZD is provided with two RJ45 network sockets The socket 1 in the first statio...

Page 79: ...ion on the NET network Physical location place Station number Both RJ45 interfaces are visible after the cover plate has been removed When a cable is plugged in the mechanical connection must be audib...

Page 80: ...ace This can be used to set up point to point communication between different devices The interface is also used for connecting EZSoft The following device configurations are possible EZD with EZD EZD...

Page 81: ...interface For more information visit www EatonElectrical com MN05013005E 77 Figure 59 Fitting removing the interface cover XRemove the interface cover or other plugs from the interface XFit the conne...

Page 82: ...n plug a J It must be ensured in all circumstances that the connector with the marking POW Side is fitted in the interface of the EZD device The serial interface only functions if the EZD device is pr...

Page 83: ...mber of inputs and outputs 1 Common supply for multiple outputs Local expansion Local expansion units are fitted directly next to the power supply CPU module with an EZ LINK connection POW Side Expand...

Page 84: ...wing electrical separation is implemented between the power supply CPU module of the EZD device and the expansion unit separation always in local connection of expansion unit Simple isolation 400 V AC...

Page 85: ...ust adhere to the insulation voltage requirement which is stipulated for the installation environment Otherwise a fault ground fault short circuit may lead to the destruction of the units or injury to...

Page 86: ......

Page 87: ...r L Terminal N Neutral conductor N Terminals R1 to R12 Actuation via phase conductor L If you have already integrated devices into a system secure any parts of the system connected to the working area...

Page 88: ...P mode The following applies to devices without display operating unit Memory card containing a valid circuit diagram must be fitted Device must be switched on If the device has no program the program...

Page 89: ...arn all the rules quickly enabling you to use EZD for your own projects As with conventional wiring you use contacts and relays in the EZD diagram With EZD however you no longer have to connect up com...

Page 90: ...missioning MN05013005E 86 In the following example EZD carries out all the wiring and performs the tasks of the circuit diagram shown below Figure 65 Lamp controller with EZD H1 L01 S1 S2 L01 L01 F1 I...

Page 91: ...ve one level back In this case EZD must be in STOP mode XPress OK 2 to enter the circuit diagram display via menu items PROGRAM J PROGRAM This is where you will create the circuit diagram I I P MO 02...

Page 92: ...n display 6 circuit diagram contact fields Use the cursor buttons to move the cursor over the invisible circuit diagram grid The first four columns are contact fields the fifth column is a coil field...

Page 93: ...to the second contact field You could also move the cursor to the next contact field using the cursor button XPress OK Again EZD inserts a contact I 01 at the cursor position Change the contact number...

Page 94: ...a flashing wiring arrow and automatically jumps to the next possible wiring position XPress the cursor button Contact I 02 will be connected up to the coil field J ALT also has two other functions dep...

Page 95: ...orrect and do not have to be changed Your first working EZD circuit diagram now looks like this Figure 67 Your first circuit diagram visible area XPress ESC to leave the circuit diagram display The SA...

Page 96: ...tton actuator S1 The contacts for inputs I1 and I2 are activated and relay Q1 picks up This is indicated on the numbers which are displayed Power flow display EZD allows you to check rungs in RUN mode...

Page 97: ...h Zoom function EZD enables you to check the following at a glance all four contacts plus one coil in series and 3 rungs XChange to the Circuit diagram display and press the ALT button Press pushbutto...

Page 98: ...Q1 drops out Use the cursor buttons to move between the contacts or coil XPress the cursor button The cursor moves to the second contact XPress the ALT button The display changes to display status wi...

Page 99: ...agram in several ways The first option is to enter the elements in the circuit and then to wire all the elements together The other option is to use the enhanced operator guidance of the EZD and creat...

Page 100: ...cket 2K must be provided with a network termination resistor XConnect all stations to the power supply Figure 73 Example topology with two EZ NET stations Network termination resistor Physical locatio...

Page 101: ...button XPress the OK button and select the station number with and In this case the station number NET ID 01 XPress the OK button XExit the NET PARAMETERS menu with ESC J The following tasks are only...

Page 102: ...hysical address 2 XSelect the required physical location with the and cursor buttons Press the OK button XUse cursor buttons and to select station number 2 XPress the OK button At physical location 2...

Page 103: ...The message on the left appears All NET LEDs on the stations which are assigned station numbers higher than 1 2 to 8 switch to the OFF state of EZ NET As soon as the configuration has been successful...

Page 104: ...utton XSelect the required station number with the and cursor buttons and confirm your input with the OK button XConfigure all EZ NET stations again using the CONFIGURATION menu J Existing station num...

Page 105: ...he number of the required station with the and cursor buttons XPress the OK button XIf you want to view the state of the inputs and outputs of a local expansion press the OK button If you press the ES...

Page 106: ...K Proceed as follows XConnect both stations together Only use original connection cables The connector marked POW Side must be plugged into an EZD The EZD feeds the interface electronics of the connec...

Page 107: ...K button Select the COM menu option XPress the button XPress the OK button J The following tasks are only possible in STOP mode Caution The EZD device can either run as a station on the EZ NET or as a...

Page 108: ...following selection will only be displayed if the COM LINK menu item has been ticked BAUDRATE 9600B COM LINK REMOTE MARKER J Select 19200 baud as the baud rate Badly laid cables may give rise to elect...

Page 109: ...D00 J The active station reads and writes data from and to the markers of the remote station At the same time the remote station has read and write access to the same marker range Ensure that both sta...

Page 110: ...WRITE range XPress ESC to leave the entry menu The COM LINK has now been set No COM settings are required at the remote station XPress ESC to return to the Status display The entry in the second COM...

Page 111: ...nus and displays of devices that do not have their own display or operating unit Terminal mode can be used both with the serial interface and in the EZ NET The serial interface enables you to access a...

Page 112: ...re information visit www EatonElectrical com Commissioning MN05013005E 108 Terminal mode using the point to point serial interface Figure 75 Terminal mode using the point to point serial interface POW...

Page 113: ...e EZ NET topology In the above topology the physical location is not identical to the station number The EZD device was connected in the middle of the network line Terminal mode functions irrespective...

Page 114: ...05013005E 110 Figure 77 Terminal mode in EZ NET with two EZD devices The above topology allows two EZD devices to be run in EZ NET Terminal mode Each EZD device can run with the other devices in Termi...

Page 115: ...well as via two serial interfaces The above topology is a combination of EZ NET operation and serial interface operation Bear in mind the access rights of the individual devices in EZ NET and in the c...

Page 116: ...ensure proper operation the following conditions must be observed The following applies If there is more than one EZD device in Terminal mode each EZD device must access a different EZ NET station A d...

Page 117: ...EZ NET station 2 is connected The EZD tries to establish connection to the selected device The text flashes Once the connection is established the menu appears or the Status display in which the selec...

Page 118: ...ion The remote device is in Graphic mode I 1 4 789 I NT2 P TU 06 05 2003 Q 1 45678 RUN J The activation of Terminal mode is indicated by the flashing star at the top right of the Status display Cautio...

Page 119: ...button simultaneously This will reinitialize the display J In Terminal mode the EZD device makes its display and operating unit available to the connected device Only data for the display and the sta...

Page 120: ......

Page 121: ...unction block usage Delete rung contact relay or empty line in the circuit diagram Toggle between break and make contact Connect contacts and relays Add rungs Change values Cursor up down Change posit...

Page 122: ...l undo the most recent changes Press ALT to switch to Connect mode for wiring contacts and relays Press ALT again to return to Move Press ESC to leave the circuit diagram and parameter display Opening...

Page 123: ...ocks Function blocks are elements provided with or without contacts and coils as required In RUN mode the function blocks are processed according to the circuit diagram and the results are updated acc...

Page 124: ...le 7 Contacts Contact EZD display Make contact open in release position I Q M A Other contacts J Table Break contact closed in release position i q m a Other contacts J Table Contact Make contact Brea...

Page 125: ...Station address 1 to 8 R 15 16 393 Short circuit overload in COM slave expansion 1R 1 15 16 short circuit overload with expansion R 15 16 393 Outputs Deactivate backlight of the EZD display LE LE 01...

Page 126: ...8 Arithmetic value overflow CARRY function block AR X CY a X CY X 01 32 161 Zero arithmetic value zero function block AR X ZE a X ZE X 01 32 161 Data block comparator function block error number of el...

Page 127: ...value has exceeded counter range CARRY C X CY c X CY X 01 32 186 Frequency counter function block upper setpoint value exceeded Overflow CF X OF CF X OF X 01 04 193 Frequency counter function block lo...

Page 128: ...k less than CP X LT CP X LT X 01 32 208 Comparator function block equal to CP X EQ CP X EQ X 01 32 208 Comparator function block greater than CP X GT CP X GT X 01 32 208 Text output function block D X...

Page 129: ...47 Send a variable to the network enable active Put PT X Q1 PT X Q1 X 01 32 248 Pulse width modulation error minimum on or off time exceeded PW X E1 PW X E1 X 01 02 250 Send date and time via the netw...

Page 130: ...to 8 Q 01 08 EZD output relay Q 01 08 EZD output relay expansion network stations only network master Station address 2 to 8 S 01 08 EZD expansion output relay S 01 08 Bit outputs Station address 1 t...

Page 131: ...value CH X RE X 01 04 Incremental encoder counter function block set counter value Preset CI X SE X 01 02 Incremental encoder counter function block activate counter enable CI X EN X 01 02 Incrementa...

Page 132: ...X 01 32 Master reset function block MR X T_ X 01 32 Activate numerical converter function block NC X EN X 01 32 Function block operating hours counter enable OT X EN X 01 04 Operating hours counter fu...

Page 133: ...communication mode you can make the following data accesses on the slave Note the REMOTE MARKER SETTING in the following table Markers Analog operand EZD display Number Value range Access type r Read...

Page 134: ...1 40 16 bit r w Marker 8 bit 1MB 01 80 8 bit r w Marker 1 bit 1M 1 96 1 bit r w Analog inputs basic unit 1IA X X 01 04 10 bit r Analog output 1QA X X 01 10 bit r Applies to MD MW MB M Left most signif...

Page 135: ...0 MB19 MB18 MB17 32 bit MD23 16 bit MW46 MW45 8 bit MB92 MB91 MB90 MB89 32 bit MD24 16 bit MW48 MW47 8 bit MB96 MB95 MB94 MB93 32 bit MD25 16 bit MW50 MW49 32 bit MD26 16 bit MW52 MW51 32 bit MD48 16...

Page 136: ...32 Marker double words always contain all data formats When several write accesses to MD MW MB or M within an MD are made it is the last write operation that is retained This also applies if you are w...

Page 137: ...right from the contact to the coil The circuit diagram is created on a hidden wiring grid containing contact fields coil fields and rungs It is then wired up with connections Insert contacts in the f...

Page 138: ...ts per rung or one contact plus a coil in series A total of 16 characters per rung and three rungs plus the status line can be displayed simultaneously You can move between the contact fields with the...

Page 139: ...ves in the following manner in accordance with the type and setting Requirement A valid circuit diagram must be stored on the card Variants with display XGo to the CARD menu and load the circuit diagr...

Page 140: ...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 Entering and changing contacts and rela...

Page 141: ...coil or function block name coil or function block number as well as coil of the function block With coils of an EZ NET network station the network address is selected before the coil name Example re...

Page 142: ...he position you wish to change or press OK to jump to the next position XUse to modify the value at the position EZD will leave Entry mode when you press or OK to leave a contact field or coil field J...

Page 143: ...ode and move the cursor over the contact name XPress ALT The make contact will change to a break contact XPress OK 2 to confirm the change Figure 79 Change contact I 03 from make to break Creating and...

Page 144: ...n the creation of the circuit diagram on Page 388 Figure 80 Circuit diagram with five contacts invalid When wiring more than four contacts in series use one of the 96 M marker relays Figure 81 Circuit...

Page 145: ...three of the 256 rungs on the display at the same time EZD automatically scrolls up or down the display to show hidden rungs even empty ones if you move the cursor past the top or bottom of the displ...

Page 146: ...he circuit diagram press ESC XUse the cursor buttons to select the CANCEL menu XPress OK The circuit diagram is closed without saving Searching for contacts and coils You can search for contacts and c...

Page 147: ...vides a Go To function in order to enable fast access to a rung XPress ESC and use the cursor buttons to select the GO TO menu XPress OK XSelect the required rung L with the cursor buttons The first c...

Page 148: ...sting circuits or manual operation These button functions are also useful for servicing and commissioning purposes Example 1 A lamp at output Q1 is switched on and off via inputs I1 and I2 or by using...

Page 149: ...nabling you to monitor the switching states of contacts relays and function block coils during operation XCreate the small parallel circuit below and save it Figure 85 Parallel circuit XSwitch EZD to...

Page 150: ...n The bottom right of the power flow display indicates that the controller is in RUN mode J Section Power flow display with Zoom function Page 93 Function block editor The EZD has the FUNCTION RELAYS...

Page 151: ...XGo to the FUNCTION RELAYS menu XPress the OK button The following display appears if no function blocks are present The cursor flashes XPress the OK button L 001 B Displays the function blocks used...

Page 152: ...tion blocks from the circuit diagram If you enter a function block parameter from the circuit diagram you will jump from the circuit diagram editor to the function block editor automatically Once you...

Page 153: ...ock Ensure that all contacts and coils of the function block are deleted XSelect the required function block from the list In this case CP10 XPress the DEL button J Only the following variables can be...

Page 154: ...n block is actuated in RUN mode the coil name with the coil designation will appear on the display Checking the function block via the function block editor You access the function block list via the...

Page 155: ...y coils The following coil functions are assigned to all coils Table 10 Coil function AR01 ADD I1 C 01QV I2 1095 QV MD 56 AR01 ADD I1 20056 I2 1095 QV 21151 EZD display Coil function Example Contactor...

Page 156: ...ignal changes from 0 to 1 The relay behaves like a bistable flip flop Figure 90 Signal diagram of impulse relay J A coil should only be used once in order to retain an overview of the relay states How...

Page 157: ...the coil is set A and remains in this state until it is reset B by the coil function The supply voltage is switched off C the coil does not have a retentive effect Figure 91 Signal diagram of Set and...

Page 158: ...nal diagram of inverse contactor function Rising edge evaluation cycle pulse If the coil is only meant to switch on a rising edge this function will be applied With a change in the coil state from 0 t...

Page 159: ...onElectrical com MN05013005E 155 Figure 95 Signal diagram of cycle pulse with falling edge on on J A set coil is automatically switched off if the power fails and if the device is in STOP mode Excepti...

Page 160: ...ta blocks Transfer data blocks Boolean operation Counters up and down counters with upper and lower threshold values preset frequency counters high speed counters incremental encoder counters Comparat...

Page 161: ...ply is switched off or if EZD is switched to STOP mode Exception Retentive data keeps its state J Section Retention Page 378 The most recent actual values are transferred to the operands every cycle T...

Page 162: ...adjust the values of the function block inputs The OS function block input can be used as an offset for the I1 input The HY function block input is used for the positive and negative switching hyster...

Page 163: ...A01 terminal I7 IA02 terminal I8 IA03 terminal I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block I 01 A 01Q1 Q 01 I 02 u A 02Q1 S Q 02 h A 03Q1 R Q 03 A 02 GT I1 F1 I2...

Page 164: ...The analog value comparator function block requires 68 bytes of memory plus 4 bytes per constant on the function block inputs Figure 97 Signal diagram of the analog value comparator 1 actual value on...

Page 165: ...value plus hysteresis The contact goes to the normal position Range C Compare I1 I2 with offset This example behaves as described in Range A The offset value is added to the actual value Comparison I...

Page 166: ...QV of another function block Actual value QV The actual value QV can be assigned the following operands Markers MD MW MB Analog output QA01 An arithmetic function block is not wired in the circuit di...

Page 167: ...enabled Access disabled Contacts AR01CY to AR32CY CARRY overflow bit value on function block output greater than or less than the value range AR01ZE to AR32ZE ZERO zero bit value on function block ou...

Page 168: ...tion due to overflow CARRY AR CY Status 1 4096 1000 5096 4096 1000 3096 Multiplication 12 12 144 1000042 2401 last valid value of this arithmetic operation due to overflow CARRY Correct value 24011008...

Page 169: ...n block Parameter display and parameter set for a data block comparator Only constants can be modified in the parameter display of a function block According to the operands at the inputs I1 and I2 th...

Page 170: ...ge 1 or 2 Specifying the marker range with offset If you wish to work with an offset specify one of the following variables at function block input I1 or I2 Constant Actual value QV of a function bloc...

Page 171: ...lus 4 bytes per constant on the function block inputs Function of the data block comparator function block The data block comparator function block compares two consistent data blocks The comparison i...

Page 172: ...starts at MB15 Block 2 at MB65 Each block is 4 bytes long Parameters of BC01 function block Comparison range 1 I1 MB15 Comparison range 2 I2 64 Number of bytes NO 4 Marker MB01 1 Comparison range 1 Va...

Page 173: ...erent format Two marker blocks are to be compared Block 1 starts at MB60 Block 2 at MD80 Each block is 6 bytes long Parameters of BC01 function block Comparison range 1 I1 MB60 Comparison range 2 I2 M...

Page 174: ...rison range 2 I2 MD90 Number of bytes NO 30 Comparison range 1 Value of marker range 1 decimal binary Comparison range 2 Value of marker range 2 decimal binary MB60 45 00101101 MD80 Byte 1 LSB 1097219...

Page 175: ...message Comparison ranges overlap is output BC01E2 is 1 Example Comparison of marker blocks invalid offset error Two marker blocks are to be compared Block 1 starts at MW40 Block 2 at MW54 The block...

Page 176: ...block is enabled in the circuit diagram Figure 99 EZD circuit diagram with enabling of transfer data block function block Parameter display and parameter set for a data block transfer function block O...

Page 177: ...Actual value QV of another function block Specifying the marker range without offset If MB MW or MD markers are specified both at I1 and at I2 the number of markers defines the source or destination...

Page 178: ...unction block requires 48 bytes of memory plus 4 bytes per constant at the function block inputs Function of the transfer data block function block The transfer data block comparator function block ha...

Page 179: ...ck Source range I1 MB10 Destination range I2 MB20 Number of bytes NO 10 After a rising edge from 0 to 1 at coil BT01T_ the value 123 is present in the marker bytes MB20 to MB29 Example Initialization...

Page 180: ...definition of a range in a different format The value of marker byte MB60 is to be transferred to MD80 and MD81 Parameters of BT01 function block Source range I1 MB60 Destination range I2 MD80 Number...

Page 181: ...range I2 MD93 Number of bytes NO 18 Comparison range 1 Value of marker range 1 decimal binary Comparison range 2 Value of marker range 2 decimal binary MB60 45 00101101 MD80 Byte 1 LSB 757935405 00101...

Page 182: ...ermissible range is output BT01E3 is 1 CPY mode copy marker ranges There is one source range and one destination range The source range is specified at I1 The destination range is specified at I2 The...

Page 183: ...sing edge from 0 to 1 at coil BT01T_ the content of MB10 to MB19 is copied to the marker bytes MB20 to MB29 Example Copying of marker blocks definition of a marker range with offset The content of mar...

Page 184: ...e in a different format The value of marker byte MD60 to MD62 is to be copied to MW40 to MW45 Parameters of BT01 function block Source range I1 MD60 Destination range I2 MW40 Number of bytes NO 12 J D...

Page 185: ...e of marker range 1 decimal binary Comparison range 2 Value of marker range 2 decimal binary MD60 866143319 0011001110100000 0100110001010111 MW40 LSW 19543 0011001110100000 0100110001010111 MD60 8661...

Page 186: ...f marker bytes invalid offset error The value of marker word MW40 is to be copied to MW54 and subsequent marker words The block length is specified by the value of the counter C 01QV Parameters of BT0...

Page 187: ...an operation function block is not wired in the circuit diagram Parameter display and parameter set for Boolean operation function block Only constants can be modified in the parameter display of a fu...

Page 188: ...e QV of another function block Actual value QV The actual value QV can be assigned the following operands Markers MD MW MB Analog output QA01 Displaying the parameter set in the PARAMETERS menu Access...

Page 189: ...two s complement of the amount Example 10dec 10000000000000000000000000001010bin Two s complement 11111111111111111111111111110110bin FFFFFFF6hex Bit 32 is the signed bit and remains as 1 Value I1 132...

Page 190: ...threshold values as comparison values The contacts will switch according to the actual value To specify a start value for example counting from the value 1200 this can be implemented using a C counter...

Page 191: ...ehavior when value range is exceeded The function block sets the switching contact C CY to the status 1 and retains the value of the last valid operation I 05 C 20C_ I 06 C 20RE I 07 C 20D_ I 08 C 20S...

Page 192: ...be assigned the following operands Markers MD MW MB Analog output QA01 Displaying the parameter set in the PARAMETERS menu Access enabled Access disabled Contacts C 01OF to C 32OF Actual value upper s...

Page 193: ...nter relays can be operated with retentive actual values The number of retentive counter relays can be selected in the SYSTEM J RETENTION menu The retentive actual value requires 4 bytes of memory If...

Page 194: ...0 Function of the counter function block Figure 101 Signal diagram of counter 1 counter coil C C_ 2 upper setpoint value SH 3 preset actual value SV 4 lower setpoint value SL 5 counting direction coil...

Page 195: ...setpoint value is reached Range B The counter 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 actuate...

Page 196: ...s CF High speed counters count high speed signals CH Incremental encoder counters count two channel incremental encoder signals CI The high speed digital inputs are I1 to I4 The following wiring rules...

Page 197: ...I1 to I4 The CF frequency counters operate independently of the cycle time Counter frequency and pulse shape The maximum counter frequency is 3 kHz The minimum counter frequency is 4 Hz The signals m...

Page 198: ...rameter display Value range The function block operates in the integer range from 0 to 5000 1 kHz 1 1000 Behavior when value range is exceeded The value range cannot be exceeded as the maximum measure...

Page 199: ...g output QA01 Displaying the parameter set in the PARAMETERS menu Access enabled Access disabled Contacts CF01OF to CF04OF Actual value Upper setpoint CF01FB to CF04FB Actual value Lower setpoint CF01...

Page 200: ...iagram of frequency counter 1 counter input I1 to I4 2 upper setpoint value SH 3 lower setpoint value SL 4 enable CF EN 5 contact make contact CF OF upper setpoint value exceeded 6 contact make contac...

Page 201: ...he contacts will switch according to the actual value To specify a start value for example counting from the value 1989 this can be implemented using a CH counter The CH counters operate independently...

Page 202: ...ior when value range is exceeded The function block sets the switching contact CH CY to status 1 The function block retains the value of the last valid operation I 05 CH01EN I 06 CH01RE I 07 CH01D_ I...

Page 203: ...tput QA01 Actual value QV of another function block Actual value QV The actual value QV can be assigned the following operands Markers MD MW MB Analog output QA01 Displaying the parameter set in the P...

Page 204: ...speed counter The high speed counter function block requires 52 bytes of memory plus 4 bytes per constant on the function block inputs Retention High speed counter relays can be operated with retentiv...

Page 205: ...of the high speed counter function block Figure 105 Signal diagram of high speed counter 1 counter input I1 to I4 2 upper setpoint value SH 3 preset actual value SV 4 lower setpoint value SL 5 enable...

Page 206: ...out as well as CH FB after the lower setpoint value is reached Range B The counter counts upwards and reaches the upper setpoint value The contact upper setpoint value CH OF becomes active Range C The...

Page 207: ...nd pulse shape The maximum counter frequency is 3 kHz The signals must be square waves The mark to space ratio is 1 1 The signals on channels A and B must lead or lag by 90 Otherwise the counting dire...

Page 208: ...able of the parameter display Value range The function block operates in the integer range from 2147483648 to 2147483647 Each pulse is counted twice Example value at CI QV 42000 The counter has counte...

Page 209: ...arkers MD MW MB Analog inputs IA01 to IA04 IA01 terminal I7 IA02 terminal I8 IA03 terminal I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block Actual value QV The actual...

Page 210: ...I02SE Accept preset actual value with rising edge Memory requirement of the counter relay The high speed counter function block requires 52 bytes of memory plus 4 bytes per constant on the function bl...

Page 211: ...speed incremental encoder counter function block Figure 107 Signal diagram of high speed incremental encoder counter 1 counter input channel A 2 counter input channel B 3 upper setpoint value SH 4 pr...

Page 212: ...Range B The count direction changes to a downward count The contacts switch in accordance with the actual value Range C The enable signal is set to 0 The actual value becomes 0 Range D The rising edg...

Page 213: ...terminal I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block Contacts CP01LT to CP32LT less than Contact make contact switches to status 1 if the value on I1 is less tha...

Page 214: ...ZD device texts actual value output and setpoint entry are implemented using the appropriate visualization elements Figure 109 EZD circuit diagram with a text output function block J The text function...

Page 215: ...the text size Data function block The data function block allows you to selectively save a value Setpoint values for the function block can be saved in this manner Figure 110 EZD circuit diagram with...

Page 216: ...tput QA01 Contacts DB01Q1 to DB32Q1 Contact make contact DB Q1 switches to status 1 if the trigger signal is set to 1 Coils DB01T_ to DB32T_ acceptance of the value at I1 with a rising edge Memory req...

Page 217: ...32 PID controllers DC01 to DC32 The PID controllers allow you to implement closed loop control functions 2 3 1 J The value at input I1 is only transferred with a rising trigger edge to an operand e g...

Page 218: ...sed via two pulse width modulated outputs It is therefore useful to run up to three closed loop controllers per program simultaneously Projects can be structured by selecting the controller number Exa...

Page 219: ...owing operands Constants Markers MD MW MB Analog inputs IA01 to IA04 IA01 terminal I7 IA02 terminal I8 IA03 terminal I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block...

Page 220: ...ivate integral component Value range Resolution unit I1 Setpoint of PID controller 32 768 to 32767 I2 Actual value of PID controller 32 768 to 32767 KP Proportional gain Kp 0 to 65535 in TN Reset time...

Page 221: ...YP t YI t YD t Y t calculated manipulated variable with scan time t YP t Value of the proportional component of the manipulated variable with scan time t YI t Value of the integral component of the m...

Page 222: ...used by the device for the integral component is as follows YI t Kp Tc Tn Xs t Xi t YI t 1 Kp Proportional gain Tc Scan time Tn Integration time also known as reset time Xs t Setpoint with scan time t...

Page 223: ...rred as manipulated variable QV This value is present for as long as the DC SE coil is activated or the value at the MV input is changed If coil DC SE is deactivated the control algorithm is reactivat...

Page 224: ...operands Constants Markers MD MW MB Analog inputs IA01 to IA04 IA01 terminal I7 IA02 terminal I8 IA03 terminal I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block M 48...

Page 225: ...res 56 bytes of memory plus 4 bytes per constant on the function block input Function of the signal smoothing filter function block Value range Resolution unit I1 Input value of the function block 32...

Page 226: ...g Recovery time Kp Proportional gain x t Actual value with scan time t Y t 1 Output value with scan time t 1 Scan time Scan time Ta depends on the set recovery time value GET fetch a value from the ne...

Page 227: ...Memory requirement of the GET function block The GET function block requires 28 bytes of memory GET diagnostics The GET function block only functions when the EZ NET network is functioning correctly J...

Page 228: ...els which you can use to set four on and off times The channels are set via the parameter display The time is backed up in the event of a power failure and continues to run although the time switch re...

Page 229: ...he 7 day time switch Day 1 and day 2 Either the time period acts from day 1 to day 2 e g Monday to Friday or for one day only Monday MO Tuesday TU Wednesday WE Thursday TH Friday FR Saturday SA Sunday...

Page 230: ...hing points are defined according to the parameters entered MO to FR on the weekdays Mo Tu We Th Fr ON 10 00 OFF 18 00 on and off switching times for the individual days of the week MO every Monday ON...

Page 231: ...n Monday Figure 117 Signal diagram of weekend Overnight switching Time switch HW03 switches on overnight at 22 00 Monday and switches off at 6 00 on Tuesday Figure 118 Signal diagram for night switchi...

Page 232: ...in the event of a power failure The power is removed between 15 00 and 17 00 The relay drops out and remains off even after the power returns since the first switching off time was at 16 00 HW04 A DY1...

Page 233: ...a total of 128 switching times Each time switch has four channels which you can use to set four on and off times The channels are set via the parameter display The time and date are backed up in the e...

Page 234: ...channels A B C and D These channels all act on the contact of the year time switch Date Day Month Year DD MM YY Example 11 11 02 On off switch points ON switch on time OFF switch off time Displaying...

Page 235: ...on 01 01 2002 and switch off at 00 00 on the 01 01 2011 Months ON 04 to OFF 10 means Switch on at 00 00 on 1st April and switch off at 00 00 on 1st November Days ON 02 to OFF 25 means Switch on at 00...

Page 236: ...range selection The year time switch HY01 should switch on at 00 00 on the 1st of each month and remain on until 23 59 on the 28th of each month Example 4 Holiday selection The year time switch HY01...

Page 237: ...aling EZD provides 32 value scaling function blocks LS01 to LS32 The function block enables you to convert values from one value range to another one In this way it is possible to reduce or increase v...

Page 238: ...erminal I8 IA03 terminal I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block Output The function block output QV can be assigned the following operands Markers MD MW MB...

Page 239: ...ck The function block operates according to the following equation Y x Actual output value of target range X Actual input value of source range X1 Lower value of source range Value range I1 Input valu...

Page 240: ...nge Y2 Upper value of target range Figure 122 Value scaling function block Reduce value range Source range Target range Figure 123 Value scaling function block Increase value range Source range Target...

Page 241: ...s 16 signed bits I1 DC01QV X1 0 X2 4095 Y1 32768 Y2 32767 The actual value at the analog input DC01QV 1789 The scaled output value is 4137 Jumps Jumps can be used to optimize the structure of a circui...

Page 242: ...first left hand contact position Jump destination The Jump contact point will always be set to 1 Contact Make contact1 Numbers 01 to 32 Coils Numbers 01 to 32 Coil function 1 can only be used as first...

Page 243: ...ations to be set Sequence 1 Switch on Motor 1 immediately Sequence 2 Switch on Guard 2 Wait time then switch on Motor 1 Contacts and relays used I1 Sequence 1 I2 Sequence 2 I3 Guard 2 moved out I12 Mo...

Page 244: ...124 EZD circuit diagram with master reset function block Parameter display and parameter set for the master reset function block Circuit diagram Power flow display I 01 selected Range from jump label...

Page 245: ...ory Function of the data master reset The outputs or the markers are set to the 0 state in accordance with the operating mode when a rising edge is detected on the trigger coil The contacts MR01Q1 to...

Page 246: ...e parameter display of a numerical converter you can change the mode and the enable of the parameter display Numerical converter modes Number range I 05 NC02EN NC02 BCD I1 QV NC02 Numerical converter...

Page 247: ...al I7 IA02 terminal I8 IA03 terminal I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block BCD code Decimal value 0001 1 0010 2 0011 3 0100 4 0101 5 0110 6 0111 7 1000 8 1...

Page 248: ...ock input Function of the numerical converter function block BCD mode The BCD value at I1 is provided in decimal format at the input The binary value is formed from this The binary value is interprete...

Page 249: ...11111 Decimal value QV 9999999 BIN mode The decimal value is assigned to input I1 The decimal value is represented as a BCD coded value The BCD coded value is interpreted as a hexadecimal value and ou...

Page 250: ...it 4 17 Example 3 Input value I1 19dec BCD binary value 00011001 Hexadecimal value 00011001 Decimal value QV 25 1 8 16 Example 4 Input value I1 9999999dec BCD binary value 1001100110011001100110011001...

Page 251: ...erating hours counter Parameter display and parameter set for the operating hours counter function block Contacts OT01Q1 to OT04Q1 The contact switches when the upper threshold value has been reached...

Page 252: ...alue is retained in the unit until the Reset coil OT RE is actuated The actual value is then set to zero Accuracy The operating hours counter is accurate to the nearest minute If the enable coil signa...

Page 253: ...n block Contacts PT01Q1 to PT32Q1 state of the trigger coil Coils PT01T to PT32T trigger coils Memory requirement of the PUT function block The PUT function block requires 36 bytes of memory plus 4 by...

Page 254: ...e pulse width modulation function block is primarily used for outputting the manipulated variable of a PID controller The maximum frequency is 200 kHz This corresponds to a period duration of 5 ms The...

Page 255: ...he function block inputs SV PD and ME can be assigned the following operands Constants Markers MD MW MB Analog inputs IA01 to IA04 IA01 terminal I7 IA02 terminal I8 IA03 terminal I11 M 95 PW01EN PW01E...

Page 256: ...the function block input Function of the pulse width modulation function block The manipulated variable at function block input SV is converted to a pulse string with a constant period duration The p...

Page 257: ...as 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 manipulated varia...

Page 258: ...n block is activated the current date the day of the week and time from the sending station is automatically put onto the EZ NET network All other network stations must accept these values This proces...

Page 259: ...k Parameter display for set cycle time The parameter display is used to modify the set cycle time the minimum on time and the enabling of the parameter display Time range Inputs The function block inp...

Page 260: ...s per constant on the function block input Function of the set cycle time function block The function block is used to define a fixed cycle time Actual cycle time is less than the set cycle time If th...

Page 261: ...s started via the trigger coil T EN and can be selectively reset via the reset coil T RE The actual timeout running can be stopped via the third coil T ST Figure 132 EZD circuit diagram with timing re...

Page 262: ...the parameter display I1 Time setpoint value 1 I2 Time setpoint value I2 on a timing relay with 2 setpoint values QV Timed out actual time in RUN mode Parameter Switch function X On delayed switching...

Page 263: ...utputs Actual value QV The actual value QV can be assigned the following operands Markers MD MW MB Analog output QA01 Parameter Time range and setpoint time Resolution S 000 000 Seconds 0 005 to 999 9...

Page 264: ...M S the value is accepted as a value in s With the time base H M the value is accepted as a value in M minutes Example Time base s The operand has the value 9504 The time value is 9 50 s Operand value...

Page 265: ...ted in the SYSTEM J RETENTION menu If a timing relay is retentive the actual value is retained when the operating mode changes from RUN to STOP as well as when the power supply is switched off If EZD...

Page 266: ...thout random switching 1 trigger coil T EN 2 stop coil T ST 3 reset coil T RE 4 switching contact make contact T Q1 ts setpoint time Range A The set time elapses normally Range B The entered setpoint...

Page 267: ...F The Reset coil resets the time during the timeout After the Reset coil drops out the time elapses normally Timing relay off delayed with and without random switching Random switching with and withou...

Page 268: ...reset coil T RE 4 switching contact make 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 Res...

Page 269: ...ists of t1 plus t2 switch function not retriggerable Range F The Trigger coil drops out twice The actual time t1 is cleared and the set time ts elapses completely retriggerable switch function Timing...

Page 270: ...ST 3 reset coil T RE 4 switching contact make contact T Q1 ts1 pick up time ts2 drop out time Range A The relay processes the two times without any interruption Range B The trigger coil drops out bef...

Page 271: ...ange F The Reset coil resets the relay after the on delay has elapsed Range G The Reset coil resets the relay and the contact while the on delay is timing out After the Reset coil drops out the time e...

Page 272: ...agram of timing relay single pulse 1 1 trigger coil T EN 2 stop coil T ST 3 reset coil T RE 4 switching contact make contact T Q1 Range A The trigger signal is short and is lengthened Range B The Trig...

Page 273: ...ll activated after the Reset coil has been deactivated and the time is still running Timing relay synchronous and asynchronous flashing Time value I1 Pulse time Time value I2 Pause time Synchronous sy...

Page 274: ...The value limitation function block allows you to limit values You can define an upper and lower limit value The function block will then only output values within these limits Wiring of a value limi...

Page 275: ...l I11 IA04 terminal I12 Analog output QA01 Actual value QV of another function block Output The function block output QV can be assigned the following operands Markers MD MW MB Analog output QA01 Valu...

Page 276: ...f the enable coil is active If the value is greater than the upper limit value or less than the lower limit value the respective limit value is output at VC QV Example with timing relay and counter fu...

Page 277: ...ng and circuit diagram Entering function block parameters from the circuit diagram You can access the parameter entry from the contact as well as from a coil XEnter the circuit diagram up to C 01 as a...

Page 278: ...rameters of this timing relay can be modified using the PARAMETERS menu XChange the upper counter setpoint to 10 Use to move the cursor onto the tens digit Use to modify the value of the digit XPress...

Page 279: ...using the PARAMETERS menu XConfirm the value input with OK XPress ESC to leave circuit diagram entry XComplete the circuit diagram XTest the circuit diagram using the power flow display XSwitch EZD t...

Page 280: ...time to 001 000 When you press OK the warning light will flash at twice the frequency On the display EN indicates that the enable coil is actuated Setpoint value settings with constants can be modifi...

Page 281: ...cribe the basic methods of designing visualization systems using EZSoft Screens EZSoft manages the visualization elements in screens These elements can be inserted in the screens and are called screen...

Page 282: ...created It should therefore be ensured that screens have the lowest possible memory requirement so that enough space is available in the program memory for the largest screen and the circuit diagram I...

Page 283: ...31 59 87 W 4 32 Blank 60 88 X 5 33 61 89 Y 6 34 62 90 Z 7 35 63 91 8 36 64 92 9 37 65 A 93 10 38 66 B 94 11 39 67 C 95 _ 12 40 68 D 96 13 41 69 E 97 a 14 42 70 F 98 b 15 43 71 G 99 c 16 44 72 H 100 d...

Page 284: ...119 w 148 177 206 120 x 149 178 207 121 y 150 179 208 122 z 151 180 209 123 152 181 210 124 153 182 211 125 154 183 212 126 155 184 213 i 127 156 185 214 128 157 186 215 129 158 187 216 130 159 188 21...

Page 285: ...nables you to define up to three passwords and assign a logout time with each one for closing the screen Languages tab The Languages tab is used for entering different languages that are to be used Yo...

Page 286: ...le and the value at which this is done If the Force screen change check box is activated the EZD device will immediately abort every job started and activate this mask when the value of the associated...

Page 287: ...ext is a simple text display that is shown as soon as the screen is active Up to 16 normal font size characters can fit in one text field and up to 4 text lines can be arranged in rows The number of c...

Page 288: ...f the element can be adjusted as required You can set the size required by holding down the left mouse button and dragging a selection handle of the element frame When applicable ensure that the eleme...

Page 289: ...with Cursor buttons and The screen change was defined in the Button editor J Section Button editor Page 331 The defined password is requested when exiting screen 4 In this case it is the number 2 whi...

Page 290: ...This generates the counter values 0 to 5 Screen 1 is activated with counter value 1 screen 2 with counter value 2 etc Once the counter s upper switch value has been reached timing relay T02 is started...

Page 291: ...ging or reducing the element frame vertically horizontally or diagonally This is done by dragging a selection handle of the element frame with the left mouse button held down Associated variable tab d...

Page 292: ...e EZSoft CD ROM in the Examples folder Program Bit_Display_01 Screen 1 Screen 1 illustrates the activation of the bit display exclusively via the associated variable The first screen contains four bit...

Page 293: ...also used here so that invisibility is activated for as long as Q3 in the On state When the Reset pulse is present only the frame of the bitmap is visible state of the bitmap is off bitmap is visible...

Page 294: ...ther words when Q1 is On only the frame of the bit display is visible However the visibility of the bit display is only activated with the Boolean operand Q3 as the break contact bit logic is selected...

Page 295: ...drag the Date and time screen element onto the screen XPlace the mouse over the screen element hold down the left mouse button and position it as required The height of the element frame depends on t...

Page 296: ...defined in the Button editor J Section Button editor Page 331 The language setting for all eight screens is English The first six screens show various data and time display formats The seventh screen...

Page 297: ...This produces the counter values 0 to 9 Counter value 1 activates screen 1 counter value 2 activates screen 2 etc If upper switch value SH 9 the counter resets itself This therefore produces a contin...

Page 298: ...Bitmap format bmp JPEG format jpg Tiff format tif and Icons ico The formats are converted to monochrome format using suitable conversion procedures and then saved accordingly in the program The size a...

Page 299: ...map graphic for display on the monochrome EZD display You can also support EZSoft by optimizing the graphic file XPosition the mouse above the screen element and move it to the required position with...

Page 300: ...ursor buttons and The screen change was defined in the Button editor J Section Button editor Page 331 This program uses simple examples to explain the bitmap display options available Examples Folder...

Page 301: ...function Screen 6 Screen 6 contains only one bitmap The Invert Bitmap Display check box is activated in the Display tab In the Visibility tab the associated variable I2 is defined for switching visibi...

Page 302: ...nsists of three screens that you can select via the Cursor buttons and The screen change is defined in the Button editor J Section Button editor Page 331 This program illustrates the overlaying of bit...

Page 303: ...rlaid part of the bitmap to be covered by the bitmap in front of it In this way it is possible to create the impression of a moving and expanding arrow Figure 158 Expanding arrow Screen 3 The third sc...

Page 304: ...per values of the value range respectively The EZD displays the value range if a scaling range has not been defined Examples In order for example to display the value range 0 to 255 of a counter as a...

Page 305: ...an change the font size by activating the context menu right mouse button or by dragging the selection handle at the bottom edge of the element frame concerned When increasing the font size ensure tha...

Page 306: ...en element invisible by means of an associated variable Example numerical value The program consists of nine screens that can be selected via the Cursor buttons and The screen change is defined in the...

Page 307: ...e associated variable is DWord Table 11 Numerical value and output formats Figure 160 Output formats Left column Right column Numerical value 1 Value range 0 to 50000 Unit None Scaling range None Alwa...

Page 308: ...n order for the values to be displayed meaningfully ms milliseconds is entered in the Unit of measure field in the Number range format tab Figure 161 Timing relay times Numerical value 1 Start value o...

Page 309: ...ue provided as a DWord variable at the QV output FB parameter All numerical values are assigned a value range from 0 to 1019 as this scan range is defined by the connected potentiometer Table 13 Numer...

Page 310: ...d analog value output Figure 163 Extended analog value output 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 d...

Page 311: ...input IA3 which provides a Word type variable for further processing Table 15 Numerical value analog value output with invisibility activated Figure 164 Make invisible function Numerical value 1 Disp...

Page 312: ...e output with display change via external trigger input Figure 165 External trigger General settings Value range from 0 to 11000 unit of measure s seconds scaling range from 0 to 11 two decimal places...

Page 313: ...output with display change via internal limit value comparison Figure 166 Display change via internal limit value comparison Left numerical value The numerical value flashes in the range from 0 to 3 a...

Page 314: ...ype is DWord The timing relay runs from 0 to 4000 ms A value range from 0 to 3000 and ms as unit of measure are defined in the Number range format tab This causes a value overflow as soon as 3000 ms i...

Page 315: ...use the cursor buttons to move between the value entry elements of a screen The order of the selected elements is from the back to the front This order is defined by their positioning and can be alter...

Page 316: ...n the mouse above the screen element and move it to the required position with the left mouse button depressed The height of the screen element frame depends on the font size selected Three sizes are...

Page 317: ...hat can be selected using the Cursor buttons and The screen change was defined in the Button editor J Section Button editor Page 331 When the EZD is in RUN mode you can change values that are processe...

Page 318: ...dge is used to accept the value in marker word MW05 as a new preset actual value SV As there is no setpoint value in marker word MW07 switch value for Q1 when the program is started this is interprete...

Page 319: ...on After I1 closes the preset actual value SV is transferred When transferred the actual value QV switches to the SV value entered and continues counting from this value The maximum scaling range 10 0...

Page 320: ...p width set Screen 5 Screen 5 shows an example of the Visibility tab If I4 is closed the value entry element is made invisible The make contact bit logic is set When using break contact bit logic this...

Page 321: ...ct it flashing but Entry mode changing values is disabled If the value entry element is in Entry mode when I3 closes the EZD automatically switches to Selection mode When using break contact bit logic...

Page 322: ...t Programming in EZSoft XHold down the left mouse button and drag the Message text screen element into the screen XPosition the mouse above the screen element and move it to the required position with...

Page 323: ...ab Assign in the Message texts tab the value of the associated variable for its corresponding message text and select the language and the default text Visibility tab The Visibility tab enables you to...

Page 324: ...elays that activate outputs Q1 to Q4 and LED03 in succession after an elapsed time This operation is run in a continuous loop since timing relay T06 resets all timing relays after a set time The messa...

Page 325: ...ble In this example if Q1 0 the message no data is output and Information is output if Q1 1 All other message text elements have only one message text which is displayed when the corresponding output...

Page 326: ...Figure 173 Message texts using an associated variable Screen 4 Screen 4 is basically the same as screen 3 except that it also includes the Visibility element The message text can be made invisible via...

Page 327: ...as selected for the Display change function When input I2 1 make contact bit logic the message text in this screen can thus be inverted Figure 176 Message text inverted Screen 7 Screen 7 is basically...

Page 328: ...efore used as activation values for the two screens The resetting of timing relays T01 to T06 by T06 activates counter C01 which then reaches the value 1 and therefore has already reached its upper se...

Page 329: ...a set time The make contacts C01ZE of the counter in the circuit diagram are switched directly before the outputs Q1 to Q4 as well as before LE 3 The outputs are only meant to be active with screen 1...

Page 330: ...ge texts The message texts are activated via counter values 1 and 2 The first resetting of timing relays T01 to T06 by T06 also activates counter C01 which then reaches the value 1 The Error message t...

Page 331: ...efore outputs Q1 to Q4 and LE03 so that the outputs are only active if screen 1 is active when counter C01 has the value 0 The screen activation is executed via counter C01 This has the value 4 as the...

Page 332: ...lt text default has also been defined Status value 1 Error message text Status value 2 and 3 default as default text Status value 4 RESTART message text If the status value of C01 is 1 the message err...

Page 333: ...he clock pulse T01 activates counter C01 This counts up to 7 and then resets itself automatically This therefore produces a continuous loop that activates the individual messages Examples Folder Files...

Page 334: ...ogic would make the element visible Figure 180 Make message text invisible Screen 3 Screen 3 is almost the same as screen 1 apart from one addition by which the actuation of I1 causes the first messag...

Page 335: ...ment variable Decrement variable Changeover relay Select an operable screen element If a screen with a value entry is present you can jump to these value entry elements directly The value entry elemen...

Page 336: ...s skipped with the Password logout function Set variable to fixed value This function assigns a fixed value to the selected variable such as for resetting to a defined value Increment variable The var...

Page 337: ...Load programs from or to any station The EZ NET network is based on the CAN network Controller Area Network CAN is specified by the ISO 11898 standard CAN has the following in built features Message o...

Page 338: ...n 1 or the EZSoft If the line is interrupted the network is no longer operational from this point in the network T connector and spur line Each device must be addressed individually with this wiring m...

Page 339: ...hysical location place Station number Loop through the unit T connector 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 EZ800 EZD EZ800 EZD EZ800 EZD EZ800 EZD EZ800...

Page 340: ...PT 1 to 32 4 4 I 1 to 16 4 Q 1 to 8 4 R 1 to 16 4 S 1 to 8 1 to 3 5 to 8 RN 1 to 32 1 to 3 5 to 8 SN 1 to 32 GT 1 to 32 PT 1 to 32 5 5 I 1 to 16 5 Q 1 to 8 5 R 1 to 16 5 S 1 to 8 1 to 4 6 to 8 RN 1 t...

Page 341: ...m in station 1 Example 2 Marker M 01 of station 4 is to switch the output Q1 of station 3 via the network Both stations have a circuit diagram Figure 183 Circuit diagram in station 4 Set coil 01 in st...

Page 342: ...s of the function Observe the setting of SEND IO J Section Send each change on the inputs outputs SEND IO Page 341 Authorized write access to the station s own local outputs Authorized write access to...

Page 343: ...station number 00 double address assignment cannot occur when an existing device is being exchanged Transmission speed The EZD device hardware allows you set transmission speeds between 10 and 1000 Kb...

Page 344: ...Y must be set greater than zero Value 1 doubles the pause time value 15 will increase it by a factor of 16 tpnew tp 1 n tpnew new pause time tp pause time determined by the network n value on BUSDELAY...

Page 345: ...of the RUN and STOP mode REMOTE RUN should be activated if stations 2 to 8 are to automatically follow the mode change of station 1 during operation SEND IO J If high speed counters are used the SEND...

Page 346: ...e a display or not You only need to assign the station number This can be implemented via EZSoft or on a Station 1 with a display If you want to assign a device as an intelligent station on the networ...

Page 347: ...via the network between stations with programs PT and GT function blocks Inputs outputs station status I R Q S transfers Loading programs to and from every station The EZ NET network is based on a CA...

Page 348: ...pause time increases the higher the number of stations and the lower baud rate setting The number of stations is recognized by every station via a sign of life signal Signs of life of the individual s...

Page 349: ...n of life is detected the respective diagnostics contact is set to 1 Baud rate Stationsmustsenda sign of life every Stations recognize the absence of a sign of life signal after KB ms ms 1000 60 180 5...

Page 350: ...ct ID is activated Attention If the states of the inputs outputs or data are required by a station without fail the respective diagnostics contact should be evaluated and the information applied in ac...

Page 351: ...f a corrupted message residual error probability is 10 10 message error rate The message error rate depends on Bus loading Telegram length Malfunction frequency Number of stations Example Network with...

Page 352: ...iting of marker ranges This data can be used for setpoint entry or for display functions The stations of the COM LINK have different functions The active station controls the entire interface connecti...

Page 353: ...ormation visit www EatonElectrical com MN05013005E 349 Topology The following topologies are possible Two devices EZD as active station and EZ800 or EZD as remote station Figure 186 COM LINK connectio...

Page 354: ...peration and COM LINK connections A COM LINK connection can be established with an EZ NET station The same conditions apply here as with operation without EZ NET Data accesses via COM LINK The followi...

Page 355: ...08 S01 to S08 Diagnostics bits of EZ NET 1ID01 to 1ID08 ID01 to ID08 Analog inputs 1IA01 to 1IA04 IA01 to IA04 Analog output 1QA01 QA01 Active station Remote station 1 MD01 MD01 1 MW01 1MW02 MW01 MW02...

Page 356: ...LINK The baud rate can be 9600 Baud or 19200 Baud 1 MD20 MD20 1 MW39 1 MW40 MW39 MW40 1 MB77 1 MB78 1 MB79 1 MB80 MB77 MB78 MB79 MB80 J Ensure a clear separation of the write range of the two stations...

Page 357: ...he WRITE range consists of the marker double words MD16 to MD18 The entire data exchange range available is the marker range MD01 to MD20 of the remote station The active station accesses these marker...

Page 358: ...t ID09 is provided on the active station of the COM LINK connection J Data consistency The data is located in the image range data range storing the marker states of the active station 1MD as well as...

Page 359: ...connection not functioning faulty Baud rate Time required for detection of faulty COM LINK connection CRC error data content incorrect No response no hardware connection remote station not in operatio...

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Page 361: ...000 is used to delete a password Password protection inhibits access to selected areas The System menu is always protected by an activated password The password can protect the following inputs and ar...

Page 362: ...the OK button again you will access the password input If no password has been entered EZD changes directly to the password display and displays six dashes No password available XPress OK six zeros wi...

Page 363: ...function blocks PARAMETERS The PARAMETERS menu is protected TIME Date and time are protected with the password OPERATING MODE The toggling of the RUN or STOP operating mode is protected INTERFACE The...

Page 364: ...nu XOpen the password menu via the menu option SECURITY EZD will only show this password menu if a password is present XSelect ACTIVATE PW and confirm with OK The password is now active EZD will autom...

Page 365: ...ch to the main menu The PASSWORD entry will flash XPress OK to enter the password entry menu EZD will display the password entry field XSet the password using the cursor buttons XConfirm with OK If th...

Page 366: ...how this password menu if a password is present XPress OK to enter the password entry menu XUse OK to move to the 6 digit entry field XThe current password will be displayed XModify the six password d...

Page 367: ...r you wish to delete the circuit diagram and data XPress ESC No data will be deleted OK Circuit diagram data and password are deleted EZD will return to the Status display Pressing ESC will retain the...

Page 368: ...or the first entry ENGLISH is displayed XUse or to select the new menu language e g Italian ITALIANO XConfirm with OK ITALIANO is assigned a tick XExit the menu with ESC Language Display English ENGLI...

Page 369: ...the main menu XStart the parameter display by selecting PARAMETERS All function blocks are displayed as a list The following preconditions must be fulfilled in order for a parameter set to be displaye...

Page 370: ...locks You can modify the function blocks used in the circuit diagram in three different ways All circuit diagram parameters can be adjusted in STOP mode via the function block editor Setpoints constan...

Page 371: ...he clock starts with the setting WE 1 00 01 05 2002 The EZD clock operates with date and time so the hour minute day month and year must all be set XSelect SET CLOCK from the main menu This will open...

Page 372: ...Sunday in October GB date defined in Great Britain Commences last Sunday in March Ends fourth Sunday in October US date defined in the United States of America Commences first Sunday in April Ends la...

Page 373: ...press 2 OK Move between the parameters Change the value OK Save day and time ESC Retain previous setting XPress ESC to leave the display XSelect the day and time at which summer time is to commence X...

Page 374: ...ebounce is set with the DEBOUNCE menu item Activating debounce If a tick is set beside DEBOUNCE the input delay is set If this is not so proceed as follows XSelect DEBOUNCE and press OK Debounce mode...

Page 375: ...o the P BUTTONS menu Activating the P buttons If EZD is displaying P BUTTONS this means that the P buttons are active XOtherwise select P BUTTONS and press OK EZD changes the display to P BUTTONS and...

Page 376: ...switched on Setting the startup behavior Requirement EZD must contain a valid circuit diagram XSwitch to the System menu Specify the operating mode which EZD must use when the supply voltage is applie...

Page 377: ...s deleted The setting for the startup behavior is an EZD device function When the circuit diagram is deleted this does not result in the loss of the setting selected Behavior during upload download to...

Page 378: ...he memory card is different to the program in EZD the program from the card is loaded into EZ and EZ starts in RUN mode XSwitch to the System menu Activation of card mode Requirement RUN MODE is activ...

Page 379: ...thus able to remotely control all devices supporting Terminal mode operation The interface to the other device can be implemented using the serial interface or EZ NET Permanent TERMINAL MODE setting...

Page 380: ...RUN or STOP mode when the power is switched on Setting LCD contrast and backlight The backlight of the LCD display can be set to one of five stages in order to adapt it to local conditions The displa...

Page 381: ...elect your setting XComplete your setting by pressing OK The contrast setting will be retained until it is modified XUse the cursor buttons and to move to the LIGHTING menu XPress the OK button XUse c...

Page 382: ...on blocks Data function blocks and Timing relays Operating hours counter EZD provides four retentive operating hours counters They are always retentive and can only be selectively deleted with a reset...

Page 383: ...ve actual value data to be selected When EZD is in STOP mode or has been switched to a de energized state all actual values are cleared XSwitch to STOP mode XSwitch to the System menu XProceed to the...

Page 384: ...32 should be retentive 124 bytes have been assigned to the retentive data range 76 bytes are still available Deleting ranges Set the ranges to be erased to the values from 00 to 00 e g MB 00 MB 00 Th...

Page 385: ...ing the operating mode or the circuit diagram When the operating mode is changed or the EZD circuit diagram is modified the retentive data is normally saved together with their actual values The actua...

Page 386: ...splay provided EZ NET EZ NET provided OS 1 10 204 operating system version CRC 25825 checksum of the operating system XSwitch to the System menu XSelect the SYSTEM menu XPress the OK button XUse the b...

Page 387: ...ctrical com MN05013005E 383 Example EZD 80 B EZD CP8 ME EZD R16 Display in STOP mode Display in RUN mode The CRC checksum is not displayed XPress ESC to leave the display DC RC LCD OS 1 11 111 CRC 631...

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Page 389: ...concerned and thus processes all switching operations considerably faster Depending on its size the EZD circuit diagram is processed cyclically every 0 1 to 40 ms During this time EZD passes through s...

Page 390: ...t to the outside world The output relays Q 01 to Q S are switched and the inputs I1 to I R are read once more EZD also copies all the new switching states to the status image register exchange all dat...

Page 391: ...creen is loaded from the screen memory into the RAM Every 200 ms EZD checks whether a new screen has to be loaded The loading time can be calculated as follows screen size in byte multiplied by 80 s E...

Page 392: ...circuit If I1 and I2 are closed the switching state of relay coil Q 01 is latched via contact Q 01 1st cycle Inputs I1 and I2 are switched on Coil Q1 picks up Contact Q 01 remains switched off since E...

Page 393: ...memories The working memory or RAM size 8 KByte The RAM only stores the data when the device power supply is active The screen memory size 24 KByte The screen memory stores the visualization data cre...

Page 394: ...o ensure a clean switching signal despite contact bounce Figure 189 EZD input assigned a switch J Only use as much retentive data as is actually required The screen with the largest memory requirement...

Page 395: ...0 to 1 A If applicable this time must also include the cycle time B since EZD does not detect the signal until the start of a cycle The same debounce delay C applies when the signal drops out from 1 t...

Page 396: ...imes with the debounce delay disabled are On delay for I1 to I4 0 025 ms I5 to I12 0 25 ms Off delay for I1 to I4 0 025 ms I5 I6 and I9 to I10 0 4 ms I7 I8 I11 and I12 0 2 ms J Ensure that input signa...

Page 397: ...mples are for I16 Q1 to Q4 Example 1 Selecting an output with fault indication Figure 192 Circuit diagram for fault output via I16 The above circuit diagram functions as follows If a transistor output...

Page 398: ...ad it would pulse Example 3 Automatic reset of error signal Figure 194 Automatic reset of error signal The above circuit diagram functions in the same way as Example 2 In addition the marker M16 is re...

Page 399: ...xpansion devices as contacts in the EZD circuit diagram in the same way as you process the inputs of the basic unit The input contacts are assigned the operand designations R1 to R12 R15 and R16 are t...

Page 400: ...ized expansion Time for inputs R1 to R12 80 ms 1 cycle Time for outputs S1 to S6 S8 40 ms 1 cycle Function monitoring of expansion units If the power supply of the expansion unit is not present no con...

Page 401: ...unctional or not functional Figure 195 Circuit diagram for expansion testing As long as I 14 is 1 the remaining circuit diagram is skipped If I 14 is 0 the circuit diagram is processed If the expansio...

Page 402: ...2 are evaluated as zero and output as 0 V DC Positive values greater than 1023 such as 2047 are evaluated as 1023 and output as 10 V DC Loading and saving programs You can either use the EZD interface...

Page 403: ...move the cover carefully Figure 196 Remove cover and plug in XTo close the slot again push the cover back onto the slot Memory card The card is available as an accessory EZ M 256K for EZD Circuit diag...

Page 404: ...ur circuit diagram On the memory card you can save the program all the visualization data of the screens all parameter settings of the circuit diagram the system settings debounce setting P buttons pa...

Page 405: ...OP mode The EZD versions without a keypad and display automatically transfer the circuit diagram from the inserted memory card to the EZD CP8 when the power supply is switched on If the memory card co...

Page 406: ...g a circuit diagram on the card XSelect DEVICE CARD XConfirm the prompt with OK to delete the contents of the memory card and replace it with the EZD circuit diagram Press ESC to cancel J If you are u...

Page 407: ...24 V DC versions of EZD Programs with visualization components are only supported by the EZD Deleting a circuit diagram on the card XSelect the DELETE CARD menu option XPress OK to confirm the prompt...

Page 408: ...help provides all additional information about EZSoft that you will need If there are transmission problems EZD will display the INVALID PROG message XCheck whether you are using functions that the E...

Page 409: ...Loading and saving programs For more information visit www EatonElectrical com MN05013005E 405 Figure 198 Fitting and removing EZ800 PC CAB XAfter transmission remove the cable and close the cover a...

Page 410: ...n number printed on the rear of the device housing The device version is indicated by the first two digits of the device number Example This device is of device version 01 The device version provides...

Page 411: ...79 Total dimensions with fixing shaft W H D With keys mm 86 5 86 5 43 inches 3 41 3 41 1 69 Thickness of fixing wall without intermediate top hat rail minimum maximum mm 1 6 inches 0 04 0 24 Thickness...

Page 412: ...3 46 0 98 Weight g 25 lb 0 055 Mounting Is fitted over the display keypad with EZD front ring Protective cover EZD XS 80 Dimensions W H D mm 86 5 94 25 inches 3 41 3 41 0 98 Weight g 36 lb 0 079 Mount...

Page 413: ...rail to DIN 50022 35mm without display or by means of fixing feet without display Inputs outputs EZD R EZD T Dimensions when fitted W H D mm 89 90 25 inches 3 5 3 54 0 98 Dimensions when removed W H...

Page 414: ...endix MN05013005E 410 Dimensions of the EZD 80 display operating unit Dimensions of the EZD 80 XM protective membrane Dimensions of the EZD 80 XS protective cover 32 17 20 13 7 86 5 30 g0 2 62 86 5 28...

Page 415: ...ore information visit www EatonElectrical com MN05013005E 411 Dimensions of the EZD CP8 power supply CPU module Dimensions of the EZD R I O module EZD T 30 g0 2 90 38 75 38 75 4 5 29 5 75 16 25 16 25...

Page 416: ...Relative humidity IEC 60068 2 30 non condensing 5 to 95 Air pressure operation hPa 795 to 1080 Ambient mechanical conditions Pollution degree Power supply unit CPU inputs outputs 2 Display operating...

Page 417: ...level 3 Power cables kV 2 Signal cables kV 2 High energy pulses Surge EZD IEC EN 61000 4 5 severity level 2 power cable symmetrical kV 0 5 Line conducted interference IEC EN 61000 4 6 V 10 Dielectric...

Page 418: ...x 0 4 Number of pixels W x H 132 x 64 Spacing pixel centre to pixel centre mm 0 42 LCD backlight Yes Backlight color Yellow green The backlight can be used and programmed in visualization application...

Page 419: ...24 V DC EZD CP8 EZD 80 normally mA 250 For 24 V DC EZD CP8 EZD 80 EZD R EZD T normally mA 270 Voltage dips IEC EN 61131 2 ms 10 Heat dissipation For 24 V DC EZD CP8 normally W 3 For 24 V DC EZD CP8 E...

Page 420: ...Range M S s 1 Range H M min 1 Rung 256 Contacts in series 4 Coil per rung 1 Program memory for program circuit diagram kByte 8 Program memory for display objects visualization kByte 24 RAM working mem...

Page 421: ...een each other No To the outputs Yes To PC interface memory card EZ NET network EZ LINK Yes Rated voltage Rated value V DC 24 0 signal I1 to I6 and I9 to I10 V DC 5 I7 I8 I11 I12 V DC 8 On 1 signal I1...

Page 422: ...speed counter inputs I1 to I4 Number 4 Cable length shielded m 20 High speed up and down counters Counting frequency kHz 3 Pulse shape Square wave Mark to space ratio 1 1 Frequency counters Counting...

Page 423: ...o the EZ NET network Yes Input type DC voltage Signal range V DC 0 to 10 Resolution analog V 0 01 Resolution digital Bit 10 Value 0 to 1023 Input impedance k 11 2 Accuracy Two EZD devices from actual...

Page 424: ...INK Yes Safe isolation V AC 300 Basic insulation V AC 600 Mechanical lifespan Switch operations 10 106 Contacts relays Conventional thermal current UL A 8 10 Recommended for load at 12 V AC DC mA 500...

Page 425: ...tions 200000 Filament lamp load 1000 W at 230 240 V AC Switch operations 25000 500 W at 115 120 V AC Switch operations 25000 Fluorescent tube with ballast 10 58 W at 230 240 V AC Switch operations 250...

Page 426: ...uty Max rated operational voltage V DC 300 Max thermal uninterrupted current at R300 A 1 Maximum make break capacity at R300 VA 28 28 EZD T Number of outputs 4 Contacts Semiconductors Rated voltage Ue...

Page 427: ...eir load A 0 7 Ie 2 Maximum total short circuit current A 8 Peak short circuit current A 16 Thermal cutout Yes Maximum switching frequency with constant resistive load RL 100 k depends on program and...

Page 428: ...is reached Utilization category in groups for Q1 to Q4 Q5 to Q8 T0 95 3 T0 65 3 L R T0 95 1 ms R 48 L 16 mH Utilization factor per group g 0 25 Relative duty factor 100 Max switching frequency f 0 5 H...

Page 429: ...rnal suppressor circuit for each load J Section Connecting transistor outputs Page 67 Utilization factor g 1 Relative duty factor 100 Max switching frequency Max duty factor Switch operations h Depend...

Page 430: ...to the range 2 Accuracy 25 C related to the range 1 Conversion time Each CPU cycle EZD RA17 EZD TA17 EZD CP8 NT Number of stations 8 Bus length transmission speed1 m Kbaud 6 1000 25 500 40 250 125 12...

Page 431: ...able cross sections with cable lengths and cable resistance m Cross section up to 1000 16 m m mm2 AWG 1 5 16 Cross section up to 600 26 m m mm2 AWG 0 75 to 0 8 18 Cross section up to 400 40 m m mm2 AW...

Page 432: ...ed counters 197 CI counter fast incremental value encoder High speed incremental encoder 203 CP comparators Comparators 208 D display Text function block 210 DB data block Data function block 211 DC D...

Page 433: ...ck designation Page Coil Meaning of abbreviation Description C_ count input Counter input D_ direction input Count up down indicator ED enable Differential component Activate differential component EI...

Page 434: ...arison 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 Va...

Page 435: ...nal 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 PD Period duration Period durati...

Page 436: ...ut Meaning of abbreviation Description QV Output value Output value Other operands Description MB Marker byte 8 bit value IA Analog input if available on device MW Marker word 16 bit value QA Analog o...

Page 437: ...e EZD rungs function blocks and their respective constants Space requirement per circuit conn function block Space requirement per constant on the function block input Byte Byte Rung 20 Function block...

Page 438: ...it www EatonElectrical com Appendix MN05013005E 434 OT 36 4 PT 36 4 PW 48 4 SC 20 ST 24 4 T 48 4 VC 40 4 Space requirement per circuit conn function block Space requirement per constant on the functio...

Page 439: ...able cross sections 72 Cable length 55 72 Cable protection 52 Circuit diagram Checking 145 Coil field 133 Contact fields 133 Deleting 95 Display 88 133 Fast entry 95 Grid 88 133 Internal processing 38...

Page 440: ...s 63 Incremental encoder 64 EZD AC power supply 49 EZD DC inputs 58 EZD DC power supply 51 NET network 71 Outputs 64 Proximity switch 58 Pushbutton actuators switches 55 58 Relay outputs 65 Serial int...

Page 441: ...uating the circuit diagram 385 Operating modes 84 Overview 14 F Fixing brackets 45 Frequency counters 193 Function blocks Evaluating 386 List 428 Function relay Counter relay 203 Counter high speed 19...

Page 442: ...9 RAM 389 Screen memory 389 Menu Changing level 87 Changing the language 364 Language setting 83 334 Operator guidance 17 Message INVALID PROG 403 404 Mode Changing 92 Mounting Display operating unit...

Page 443: ...ecurity 347 Network cables 74 Number formats 133 O Operating principles 16 Output relay 136 Overload 69 393 Monitoring with EZD D T 393 P P buttons 144 Activating and deactivating 371 Parameter displa...

Page 444: ...fer 381 Setting 379 RUN start behavior 84 RUN STOP changeover 92 Rung Add new 90 Deleting 143 Insert 141 Number 133 S Screw mounting 45 Sealing the protective cover 34 Sensor 20 mA connection 62 Seria...

Page 445: ...ensor connection 62 Terminal mode 84 Tightening torque 47 Time switch 24 hour switching 229 Overnight switching 227 Power failure 228 Switching at the weekend 227 Switching on working days 226 Time ov...

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Page 448: ...aton Corporation All Rights Reserved Printed in USA Publication No MN05013005E April 2005 Eaton Electrical 1000 Cherrington Parkway Moon Township PA 15108 4312 USA Tel 1 800 525 2000 www EatonElectric...

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