Page 1 Operating Instructions 11/10 MN05002001Z-EN Multi-Function Display MFD-Titan...
Page 2 05/10, edition 11/10 See revision protocol in the “About this manual“ chapter © 2003 by Eaton Industries GmbH, 53105 Bonn Production: DHW Translation: globaldocs GmbH All rights reserved, including those of the translation. No part of this manual may be reproduced in any form (printed, photocopy, microfilm or any other process) or...
Page 3 Danger! Dangerous electrical voltage! Before commencing the installation • Disconnect the power supply of the device. • Ensure a reliable electrical isolation of the low voltage for the 24 volt supply. Only use power supply units complying with • Ensure that devices cannot be accidentally restarted. IEC 60364-4-41 (VDE 0100 Part 410) or HD 384.4.41 S2.
Page 5: Table Of Contents
Main menu without activated password protection..... 33 1.6.9 Main menu with activated password protection......33 1.6.10 System menu................34 1.6.11 Selecting or toggling between menu items ......... 36 1.6.12 Cursor display................36 1.6.13 Setting values................37 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 6 2.7.6 Net-topologies............... 85 2.7.7 Cable length with cross-sections ..........87 Connecting the serial multi-function interface ......88 2.8.1 Connection to a PC ..............89 2.8.2 Connecting for point-to-point communication......91 2.8.3 Inserting the memory card............93 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 7 General information on COM-LINK ..........132 3.8.2 Configuring the interface for COM-LINK........133 Running MFD in Terminal mode ..........136 3.9.1 MFD as a station of a point-to-point connection ......137 3.9.2 MFD as NET station ..............138 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 8 Adding function blocks to the circuit diagram for the first time... 189 4.9.2 Setting function block parameters ..........189 4.9.3 Changing function block parameters ........... 194 4.9.4 Deleting function blocks .............. 196 4.9.5 Checking function blocks ............. 196 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 9 CI, High-speed incremental value counter ........249 5.9.1 Function block inputs/outputs ............249 5.9.2 Wiring of the function block ............250 5.9.3 Parametric programming of the function block inputs/outputs..251 5.9.4 Function of the function block............253 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 10 5.17.2 Wiring of the function block............291 5.17.3 Parametric programming of the function block inputs/outputs..292 5.17.4 Function of the function block ............. 292 5.18 LB, jump label ................294 5.19 LS, value scaling ................295 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 11 Wiring of the function block ............326 5.27.3 Parametric programming of the function block inputs/outputs..328 5.27.4 Function of the function block............330 5.28 ST, Set cycle time ................ 337 5.28.1 Function block inputs/outputs ............337 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 12 5.31.4 Function of the function block ............. 357 5.32 Example with timing relay and counter function block ....358 Visualization with MFD-Titan ........... 361 Screens ..................361 6.1.1 Exchangeability of MFD-CP8...- and MFD-CP10... screens ..362 Exchangeability of MFD-CP8...- and MFD-CP10... screen ...
Page 13 Date and time entry ..............412 6.4.20 Weekly timer inputs ..............413 6.4.21 Year time switch entry ..............414 Button operation on the MFD-Titan ..........416 6.5.1 Operating principle in the visualization......... 416 Button Editor ................417 6.6.1 How to Assign a Pushbutton Element to a Pushbutton....418 6.6.2...
Page 14 Changing the menu language ............461 Configurator ................. 462 8.4.1 NET ....................462 8.4.2 COM .................... 462 8.4.3 LINK ..................... 463 8.4.4 Configuring analog expansion units ..........463 8.4.5 Configure communication expansion unit........463 8.4.6 ETHERNET-GW................463 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 15 10.3 Event .................... 489 10.4 Functionality of the NET faulty ............. 489 10.4.1 Monitoring via diagnostics bits............. 490 10.5 Replacing a NET station ............... 491 10.6 Power supply failure on station with NET-ID 1 ......492 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 16 Function block output (operands)..........520 11.4.5 Other operands ................520 11.5 Memory requirement..............520 11.6 Basic and extended Western European character set....522 11.7 Central European expansion character set ........524 11.8 Cyrillic expansion character set............ 525 Index ................... 527 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 17: About This Manual
Increased program and screen memory on ✓ MFD-CP10.. . "Display contrast" button element for MFD- ✓ CP10... P button function possible on all operator ✓ buttons of the MFD-CP10... Increased retentive range on MFD-CP10.. . ✓ Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 18: Target Group
2. A specialist knowledge of electrical engineering is needed for the programming and commissioning of easy800/MFD-CP8.../CP10... devices. Plant sections and persons are at risk if an easy800-/MFD-CP8.../CP10... device is incorrectly connected or configured and active components such as motors or pressure cylinders are controlled. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 19 4. The manufacturer cannot accept any liability for any damages that are caused by customers not using the example programs provided in accordance with the conditions of use specified under points 1 to 3. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 20: Device Designation
MFD-CP10-ME and the MFD-CP10-NT easyNet-compatible module. • MFD-...-NT for • easyNet-compatible power supply/CPU modules • MFD-CP4… for MFD-CP4… and MFD-AC-CP4… power supply unit/communication modules • easy-AC for • EASY8..-AC-… • EASY618-AC-RE • easy-DC for • EASY6…-DC-TE • EASY8…-.DC-… Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 21: Writing Conventions
Draws your attention to interesting tips and supplementary information. For greater clarity, the name of the current chapter is shown in the  1. headline and the name of the current section in the 2. headline. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 22 0 About This Manual 0.5 Writing conventions Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 23: Mfd
1.2 Overview of functions The MFD is an electronic display and operator unit and control relay. It is equipped with: • Logic functions • Timing relay and counter functions • Time switch functions • Arithmetic functions Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 24 (online test) • print out and thus fully document your circuit diagram in different formats (e.g. DIN; ANSI or easy format). You enter your password to protect your know-how. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 25: Versions
￫ Page 54 d Serial multi-function interface for memory card, PC connection or point-to-point connection, ￫ Page 88 e LED NET (easyNet) ￫ Page 23 f LED POW/RUN (supply voltage, operating mode) ￫ Page 23 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 26: I/O Module Digital/Analog
Analog output 0-10 V DC (MFD-TAP...), ￫ Page 80 d Digital relay outputs or transistor outputs with 24 V DC supply voltage ￫ Section „Connecting relay outputs“, page 76 ￫ Section „Connecting digital transistor outputs“, page 78 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 27: Led Display
The remotely controlled device is in STOP mode, power supply is present. Flashing The remotely controlled device is in RUN operating mode, supply voltage is present. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 28: Key To Part Numbers Mfd
MFD-T16 ✓ ✓ ✓ (S. 65) (S. 78) (S. 70) MFD-RA17 ✓ ✓ ✓ ✓ (S. 65) (S. 76) (S. 70) (S. 80) MFD-TA17 ✓ ✓ ✓ ✓ (S. 65) (S. 78) (S. 70) (S. 80) Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 29 (S. 73) (S. 81) EASY411-DC-ME ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ (S. 69) (S. 78) (S. 73) (S. 81) (S. 69) (S. 78) (S. 73) (S. 81) EASY202-RE ✓ ✓ (S. 77) (S. 77) Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 30 2) Can also be used as digital inputs R2/R3 3) Digital inputs R2/R3 for evaluation of the 0 - 10 V voltage inputs Special expansion units for connecting to other bus systems are shown in the latest main catalog. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 31: Extended Functionality Of Mfd-Cp10
P button function and thus to use P buttons P01 - P09 in the program, see page 172 • the MX Multiplexer function block, see page 303. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 32: Mfd Operation
In visualization applications, the keypad of the operating unit can be used for other functions than the ones stated above (￫ Chapter 6 "Visualization with MFD-Titan“ on page 361). In this case the buttons are assigned the function selected in the application.
Page 33: Status Display For The Mfd Basic Device
Display operating mode, Terminal mode I 12..5..* Weekday/Time or Weekday/Date MO 11:50 Q ..34..STOP Outputs RUN/STOP/BUSY mode 1) On: I1, 2, 5 and Q3, 4 Off:... Figure 5: Status display when you switch on Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 34 In the initial status display, line 3 shows the weekday and the time. Pressing ALT displays the weekday and date in line 3. I 12.4..MO 11:50 I 12.4..Q ..34..STOP 04/01/2007 Q ..34..STOP Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 35: Status Display For The Local Expansion Module
: When the power supply is switched on, the MFD switches to STOP mode How to show the status display of other NET stations is described in ￫ Section „Showing the status display of other NET stations“, page 131) Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 36: Menu Structure
PROGRAM... SECURITY... Current STOP å SYSTEM... selection PARAMETER MENU LANGUAGE flashes in the SET CLOCK... CONFIGURATOR... MFD menu 1st menu level 1st menu level Main menu System menu Figure 6: Entering the main or system menu Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 37: Main Menu Without Activated Password Protection
1) Change only on initial call of the function block. 1.6.9 Main menu with activated password protection When the password protection is activated and the MFD is locked, you are guided to the PASSWORD menu to unlock the device. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 38: System Menu
￫ „Setting contrast and backlight (DISPLAY R-PUSHBUTTONS... æ menu item)“, page 456 DISPLAY... RETENTION... DEBOUNCE... P-PUSHBUTTONS... RUN MODE æ CARD MODE Retention only in STOP mode Æ I-BUTTONS... R-PUSHBUTTONS... DISPLAY... ￫ „Setting retentive behavior“, page 459 RETENTION... Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 39 ￫ „activate COM-LINK“, page 134 ￫ „Remote Specifying the marker range“, page 135 ￫ „Configuring the analog expansion unit“, page 117 NET... ￫ Communication expansion units in the relevant COM... LINK... instructional leaflet ETHERNET-GW IO MODULES Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 40: Selecting Or Toggling Between Menu Items
Í Ú • in circuit diagram also with Value HH:MM 14:23 ú í TT.MM 05.05 • Change position with YEAR 2007 Í Ú • Change values with Flashing values/menus are shown in grey in this manual. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 41: Setting Values
1 MFD 1.6 MFD operation 1.6.13 Setting values Í Ú Select value HH:MM 14:23 ú í TT.MM 08.10 Select digit YEAR 2010 Í Ú Change value at digit Values Store settings Places Value at Retain previous value Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 42 1 MFD 1.6 MFD operation Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 43: Installation
"Mounting the expansion unit", page 54. • "Connecting the power supply", page 57. • "Connecting inputs", page 60. • "Connecting outputs", page 75. • "Connecting the NET network", page 82 (optional). • "Connecting the serial multi-function interface", page 88 (optional). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 44: Mounting The Mfd
(1.18“) MFD device. Figure 7: clearances to the Different installation steps must be carried out and sometimes in a different order, depending on the MFD combination you wish to use. The following table provides an overview: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 45 (x) = optional; MFD80 = display/HMI unit; MFD-CP8/CP10 = power supply/CPU module ￫ In order to protect the MFD-80 with the protective diaphragm or protective cover, these must be fitted first of all, ￫ Page 42 or page 43. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 46: Fitting The Protective Diaphragm/Cover On The Mfd-80
This may cause malfunctions in the keypad. In food industry applications, there is the risk of bacteria building up underneath the membrane. Figure 9: Correct location of the protective diaphragm Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 47 Removing the front frame ▶ Remove the front frame as shown in the figure. The protective cover can be mounted in two different positions. Choose the position that is most suitable for the application at hand and your requirements. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 48 You can fit a wire or similar material through these holes in order to seal the cover. If the wire is provided with a lead seal, the cover is sealed. The cover can then only be opened by breaking the seal or the wire. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 49: Front Mounting Of The Mfd-80 Display/Hmi Unit
Leave enough space at the side for the power supply unit/ CPU module and, if necessary, the expansion unit. • In order to ensure protection type to IP65, the surface of the mounting front must be even and smooth. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 50 ▶ Screw fasten the display/operating unit. The tightening torque must be between 1.2 and 2 Nm. ￫ Ensure that the correct torque is used. If the tightening torque is too low or high, this may impair the seal. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 51: Connecting The Power Supply/Cpu To The Display/Hmi Unit
 ￫ section "2.1.5.2 Use with display/HMI unit and expansion units", page 52. Connecting the power supply/CPU to the display/HMI unit: left without,  Figure 18: right with the top-hat rail Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 52: Connecting The Input/Output Module To The Power Supply Unit/Cpu Module
You can connect the power supply unit/CPU module to the input output module (I/O module) and/or display/operating unit in any order. Figure 20: Power supply unit/CPU module with input/output module, left with, right without display/operating unit Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 53 Releasing the input/output module ▶ Press the two catches together. ▶ Pull one side out of the catch. ▶ Pull the other side out of the second catch. Figure 22: Removing the input/output module ▶ Detach the input/output module. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 54: Mounting The Mfd-Cp8/Cp10 On A Top-Hat Rail
Alternatively you can also use the screw mounting, ￫ section "2.1.6 Screwing on the MFD-CP8/CP10", page 53 2.1.5.1 Use without display/HMI unit The fastening catches must be removed in order to mount the device on a fastened top-hat rail. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 55 ▶ Place the MFD device diagonally on the upper lip of the top-hat rail. Press down lightly on both the device and the top-hat rail until the unit snaps over the lower edge of the top-hat rail. The MFD device will clip into place automatically. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 56 The fixing shafts of the display/operating unit are designed for mounting the expansion units. Other devices such as contactors must not be mounted on this top-hat rail. Attach the expansion unit before fitting the top-hat rail. Figure 28: Fitting the top-hat rail Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 57: Screwing On The Mfd-Cp8/Cp10
Fixing brackets that can be inserted on the rear of the MFD device are required for screw mounting. The fixing brackets are available as an accessory. Figure 29: Inserting a fastening bracket ￫ Three fixing brackets are sufficient for a device with four fixing points. Figure 30: Screw mountingMFD Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 58: Mounting The Expansion Unit
With remote expansion, the expansion unit is connected via a two-wire or multi-core cable up to 30 m in length to the EASY200-EASY coupling device, which is connected directly to the basic device via the easyLink terminal. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 59: Local Expansion Module
Figure 34: Mounting local expansion module on MFD-CP8.../CP10... Specific system information is shown in the status display of the basic device (e.g. DC, AC or GW) depending on the expansion unit that is connected and operational. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 60: Remote Expansion
= 300/500 V Figure 35: Connecting remote expansion ￫ Terminals E+ and E– of the EASY200-EASY are protected against short-circuits and polarity reversal. Functionality is only ensured if E+ is connected with E+ and E- with E-. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 61: Terminations
The devices run a system test for one second after the supply voltage has been switched on. After this time the device switches to RUN or STOP operating mode depending on the default setting. DANGER  Ensure that the L and N conductor are not reversed. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 62: Mfd-Ac
2.4.2 MFD-AC... power supply unit/CPU module > 1 A Figure 36: Power supply on the MFD, AC variant 2.4.3 AC expansion unit EASY618-AC-RE E+ E- 115/230 V Figure 37: Power supply on the AC expansion unit Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 63: Mfd
However, you must ensure the correct polarity so that the devices function reliably and safely. 2.4.5 DC expansion unit EASY…-DC-.E L01+ L01- 24 V H Figure 39: Power supply on the DC expansion unit Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 64: Connecting Inputs
- without any configuration. The analog inputs/outputs must normally be configured. See also: • "Connect digital AC inputs", page 62. • "Connecting easy DC digital inputs", page 68. • "Connecting analog inputs", page 73. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 65: Connect Digital Ac Inputs
• Input signal voltage range • Off signal: 0 to 40 V. • On signal: 79 to 264 V • Input current • I1 to I12: 0.5 mA/0.25 mA at 230 V/115 V. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 66 Ensure that the diode is pointing to the input as shown in the circuit diagram; otherwise the device will not be able to detect the 1 state. E+ E– R11 R12 115/230 V h Figure 43: Connecting inputs on the EASY618-AC-RE AC expansion unit via diodes Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 67 When using a 100 nF capacitor, the drop-out time of the input increases by 80 (66.6) ms at 50 (60) Hz. A resistor can be connected in series with the circuit shown in order to restrict the inrush current. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 68 Limitation of the input current with a resistor at the AC expansion unit EASY618-AC-RE Complete devices for increasing the input current are available under the part no. EASY256-HCI. >1 A L N N Figure 48: AC basic device with EASY256-HCI to increase the input current Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 69: Connecting Easy Dc Digital Inputs
I1 to I6, I9, I10, R1 to R12: 3.3 mA at 24 V • I7, I8, I11, I12: 2.2 mA at 24°V ￫ Feed the digital inputs from the same 24 V DC power source as the device. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 70 • Input current: • I1 to I4: 3.3 mA at 24 V. • I11, I12: 2.2 mA at 24 V. ￫ Feed the digital inputs from the same 24 V DC power source as the device. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 71 L01+ L02+ L01– > 1 A I8 I9 I10 I11 I12 +24V 0V 0V Figure 52: High-speed counter, frequency encoder on standard I/O module Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 72 Input signal voltage range • R1 to R6 (EASY410...), or R1 to R12 (EASY6...) Signal OFF: 0 to 5 V.  Signal ON: 15 to 28.8 V. • Input current • R1…R6 or R12: 3.3 mA at 24 V Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 73: Connecting Analog Inputs
On the MFD, it is also possible to connect the EASY406-DC-ME and EASY411-DC-ME DC expansion unit (￫ section "2.5.2.4 Connecting DC inputs of the EASY4..-DC-ME expansion units", page 69). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 74 The analog voltage inputs can also be used as digital inputs. ￫ You can also use an MFD-TP…/MFD-TAP… DC basic unit (I/O modules with temperature measuring) for analog value measuring (￫ section "2.5.3.2 Connecting analog and temperature inputs of MFD-TP…/MFD-TAP…", page 72). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 75 MFD-R.16(17) and MFD-T.16(17) with temperature, brightness and 20 mA sensor ① Analog sensor A 4 to 20 mA (0 to 20 mA) sensor can be connected on the voltage input using an external 500 Ω resistor (twice 1 kΩ in parallel). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 76 With three-wire measuring, the line resistance is compensated by means of a measuring bridge in the temperature module. With two-wire connections, connect a short-circuit bridge between terminals I5 and I6 or I8 and I9. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 77 (MW) which you configure and program in easySoft-Pro The DC expansion units are provided with digital inputs/outputs as well as analog inputs/outputs (￫ Section "2.5.2.4 Connecting DC inputs of the EASY4..-DC-ME expansion units",page 69). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 78 Currents are measured in the 4 - 20 mA (0 - 20 mA) signal range. For current measurement connect the output of the sensor to the current input (terminal 3 or 8), ￫ section " Temperature , brightness and 20 mA sensor", page 71. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 79: Connecting Outputs
The respective relay coils are actuated in the circuit diagram via the Q 01 to Q 04 or S 01 to S 06 (S 08) output relays. You can use the signal states of the output relays as N/O or N/C contacts in the circuit diagram for additional switching conditions. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 80: Connecting Relay Outputs
230 V h 8 A 1000 W MFD-R… 10 x 58 W 25 000 0 V H, N f 8 A/B 16 L1, L2, L3 (115/250 V h) +24 V H Figure 61: MFD-R relay outputs Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 81 L1, L2, L3 (115/230 Vh) + 24 V H + 24 V H Figure 63: EASY2..-RE relay outputs Unlike the connection of the inputs, you can connect different phase conductors to the relay outputs of the MFD-R.. devices. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 82: Connecting Digital Transistor Outputs
2.5 A + 24 V H 24 V H 0.5 A 0.5 A (20.4 – 28.8 V H) 5 W/24 V Figure 65: Digital transistor outputs EASY6..-DC-TE and EASY4...-DC-TE a EASY4... -DC-TE b EASY6... -DC-TE Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 83 If the fault condition persists, the output will keep switching off and on until the fault is corrected or until the power supply is switched off (￫ Section "9.3 Diagnostics", page 479). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 84: Connecting Analog Outputs
Connect the actuator to QA1 and to the 0V terminal on its left. Connecting servo valves L01+ L02+ L01– > 1 A +24V 0V 0V I8 I9 I10 I11 I12 0V 0V QA 1 Figure 67: Connecting servo valves Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 85 Analog output QA1 (EASY406.../411...), 0 - 10 V, b Analog output QA2 (only EASY411...), 0 - 10 V. ￫ Then configure the analog inputs/outputs you have connected, ￫ Section "3.6 Configuring the analog expansion unit", page 117. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 86: Connecting The Net Network
As there is not a station in front of the physically first easyNet station, the bus terminating resistor is fitted in socket 1. The bus terminating resistor for the last easyNet station is plugged in socket 2 accordingly. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 87: Bus Termination Resistor
I 1 - 12 ③ Q 1 - 8 Figure 71: Bus Terminating Resistors a First station on the easyNet b Bus termination resistor c Last station on the EasyNET network Physical location, place Station number Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 88: Pre-Assembled Net Connection Cables
Both RJ45 interfaces are visible after the cover plate has been removed. When a cable is plugged in, it must snap into the socket with an audible click Before a plug or cable is removed, the mechanical interlock must be undone Figure 72: Plugging and unplugging cables Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 89: Net-Topologies
Parameter setting", page 125). ￫ The spur line between the T connector and the device must not exceed 0.3 m. Otherwise communication via easyNET may be impaired. Spur lines are not permitted when using the EASY223-SWIRE gateway. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 90 Example 2: Physical location is not the same as the station number (apart from location 1 being the same as station 1). ￫ Physical location 1 is always assigned as station 1. Station 1 is the only station which must be present. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 91: Cable Length With Cross-Sections
Cable resistance R Kbit/s Ω 10 - 125 ≦ 30 ≦ 25 500, 1000 ≦ 12 = Maximum cable length in m. = Total cable resistance in Ω. R’ = Cable resistance per unit length in Ω/m. R’ Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 92: Connecting The Serial Multi-Function Interface
COM-Link interface ￫ section "3.8 COM-LINK connection", page 132. • the communication via the EASY209-SE Ethernet gateway with an Ethernet network, see manual EASY209-SE Ethernet Gateway, MN05013012Z-EN; previously AWB2528-1596GB. • a memory card ("memory interface" function). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 93: Connection To A Pc
Programming cable for the connection to a PC Device Programming cable Baud rate EASY800/MFD EASY800-PC-CAB 19.2 Kbit/s EASY800/MFD EASY800-USB-CAB 57.6 Kbit/s EASY800/MFD EASY800-MO-CAB 57.6 Kbit/s, universal high-speed cable Figure 73: Fitting the programming cable ① to an MFD device Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 94 Connect the MFD device to the modem via an EASY800-MO-CAB. Table 11: Tab. SUB-D connector assignment on the EASY800-MO-CAB for modem operation Modem SUB-D 9-pole, Pin Wire color of the EASY800-MO-CAB brown white gray green yellow Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 95: Connecting For Point-To-Point Communication
MFD-800-CAB5, MFD-CP4-800-CAB5 for operation on an MFD- up to 19.2 Kbit/s …-CP8/CP10 EASY8../MFD MFD-CP4-800-CAB5 for operation on an MFD-..-CP4 up to 19.2 Kbit/s ￫ In order ensure compliance with EMC requirements, the MFD- 800-CAB5 cable must not be lengthened. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 96 Fitting the connection plug: left MFD-...-CP8/CP10 with plug “POW-Side” ￫ The connector marked POW-Side must be plugged into the interface of an MFD. The serial interface only functions if the MFD device is providing the power feed required for the interface cable. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 97: Inserting The Memory Card
With MFD devices you can also remove or insert the memory card when the power supply is switched on without any risk of data loss. How to use the memory card ￫ Section "Program transfer from and to the memory card" on page 158 . Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 98 2 Installation 2.8 Connecting the serial multi-function interface Figure 77: Connecting and removing the memory card b Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 99: Commissioning
å ENGLISH • English DEUTSCH • German ITALIANO • Italian ESPANOL • French • Spanish • Italian • Portuguese • Dutch • Polish • Russian. • Swedish. • Turkish. • Czech. • Hungarian. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 100: Operating Modes
In this mode, a circuit diagram can also be transferred from and to easySoft-Pro. Æ The switch from RUN to STOP and vice versa is carried out in the main PROGRAM... å menu. STOP PARAMETER Æ SET CLOCK Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 101 If programs in the MFD and on the memory card are different, the program in the MFD is overwritten when the supply voltage is switched on with a memory card fitted. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 102: The First Circuit Diagram
If after power up, a different display appears instead of the status display, the MFD is either showing a visualization screen or the start screen of TERMINAL MODE. Requirement for circuit diagram entry: the MFD device must be in STOP mode. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 103: Switching To The Circuit Diagram
C: = Contact or coil field (Column). • B: = Amount of free memory in Bytes. The circuit diagram supports four contacts and one coil in series. The display shows 6 fields of the circuit diagram. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 104: Draw A Wiring Diagram
Testing the circuit diagram, page 104 L01+ L01- Figure 79: Lamp controller with relays In the following example, the MFD device carries out all the wiring and performs the tasks of the circuit diagram shown below. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 105 The relay Q1 is represented in the standard circuit diagram by the relay coil Ä Q01 Ä The symbol identifies the coil's function, in this case a relay coil acting as a contactor. is one of the MFDdevice's outputs. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 106 In the left contact field, you can press ALT to insert a new empty circuit connection. • The contact under the cursor can be changed between a N/ O and N/C contact by pressing the ALT button. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 107 = Visible area ▶ Press ESC to leave the circuit diagram display. The SAVE menu appears. 3.4.3.3 Saving I01----I02--------------------Ä Q01 SAVE … Figure 83: SAVE menu = Visible area ▶ Confirm with OK. The circuit diagram is stored. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 108: Testing The Circuit Diagram
RUN operating mode, you can use the integrated power flow display to check this. ▶ Change to the circuit diagram display and press pushbutton S1. The relay picks up and the MFD displays the power flow with a double line. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 109 ▶ Press pushbutton S2, that has been connected as an N/C contact. The power flow is interrupted and relay Q1 drops out. â==#--------Ä# L: 001 I 01 Í Ú ú í Use the cursor buttons to move between the contacts or coil. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 110: Deleting The Circuit Diagram
CIRCUIT DIAGRAM The MFD will display the prompt DELETE?. FUNCTION BLOCKS DELETE PROGRAM ▶ Press OK to delete the program or ESC to cancel. ▶ Pressing ESC once more returns you to the previous menu level. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 111: I/O Module With Temperature Measuring
Pt100 0 - 850 °C 0.21 °C ~5.1 °C MFD-TAP13-PT-B -200 - +200 0.1 °C ~2.4 °C MFD-TP12-NI-A,  Ni1000 -40 - +90 0.03 °C ~0.8 °C MFD-TAP13-NI-A 0 - 250 °C 0.06 °C ~1.5 °C Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 112: Menu Parameters
▶ Complete the setting of the temperature range with OK. ▶ Exit the menu as normal by pressing ESC. ￫ The temperature range selected applies to both inputs for temperature measuring! Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 113 ▶ In the FILTER menu, press OK to activate Entry mode and then use the Ú cursor buttons to select a filter frequency with better damping. ▶ Complete the setting of the filter frequency with OK. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 114 ▶ Press OK to activate Entry mode and then use the cursor buttons to switch this temperature input or off. ▶ Complete the setting with OK. The parameter settings described below are possible when the sensor is activated. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 115 1° or 0.1° within these two display types. CAUTION The scaling also affects the resolution of the read temperature value for further processing in the program. Use a high resolution if possible. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 116 • In the visualization via the numerical value screen element (￫ section “6.4.15 Numerical value”, page 400) set: • Value range [min] = -400; [max] = 900 (-40.0/0.1 or 90.0/0.1). • Scaling Range: -40.0 - 90.0. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 117 Í Ú ▶ Use the cursor buttons to set the value, if necessary, move to the next digit and close the parameter assignment with OK. ▶ Exit the SENSOR menu item by pressing ESC. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 118 ▶ Move to the OPERAND menu item via the ANALOG OUT menu and select in Entry mode an operand MD01 - 96. ▶ Close the operand selection with OK. You can then complete the scaling via the VALUES menu item. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 119 The MFD shows the range (0.000…10.000). In the visualization via the numerical value screen element  • (￫ section “6.4.15 Numerical value”, page 400) set: • Value range [min] = 0; [max] = 10000 (10.00/0.001) • Scaling Range: 0.00 - 10.00 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 120: Menu Diagnostics
3.5.4 Menu INFORMATION... INFORMATION... TAP12-PT-B V: 1.00 B: 0031 LAST CYCLE 794 mS Figure 92: Menu INFORMATION (Version) operating system version of the temperature module, e.g. 1.00. (Build), the development level within the version, e.g. 0031. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 121: New Parameters
All analog inputs and outputs of this expansion unit can be activated/ deactivated individually. They are processed in the program using marker words, ￫ Table 17. Carry out the parameter and configuration settings for an analog expansion unit in the IO-DEVICE MODE- INPUT XXXX menu: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 122: Setting Device Parameters (Io-Device Menu)
DC-ME, and leave the menu with OK, the device carries out an internal check and then re-opens INPUT XXXX. It proposes the last valid value as the device parameter, which you can now change or confirm with OK. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 123 (analog input 1 to 6 are activated, as well as analog output 1 and 2). Marker words MW89 - MW96 are therefore assigned (￫ Table 17, page 120). With EASY411-DC-ME you can activate and commission all six analog inputs (voltage, current or temperature) at the same time. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 124: Processing Analog Input/Output Values
• Only relevant error messages, as otherwise an activated but unconnected input will signal a fault such as a wire breakage. • Shorter response times due to faster data exchange between basic device and expansion unit. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 125 R2/R3 you have connected the two analog 0 - 10 V inputs (terminal 2 and 7). Their state is evaluated by the software. The expansion device indicates 0 at R2/R3 if the voltage goes below 8 V DC and 1 if this voltage is exceeded. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 126: Diagnostics Of An Analog Expansion Unit
Your NET can only be configured by the station with NET-ID 1 if it has been set up according to the "loop-through" (￫ Page 85) topology. In order to simplify the process, you should define all parameters through this NET station with NET-ID 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 127: Net Parameterize
If you wish to work with the non-safety NET and exchange non-safety data with several stations, you must complete the parameterization and configuration for this beforehand. An introduction to the easyNet network is provided in ￫ section “7.1 Introduction network Net”, page 437. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 128 You can assign parameters and complete the configuration conveniently with easySoft-Pro or via the buttons of a device with display. A detailed description of the NET parameters is provided in (￫ section “7.2 Description of the NET-PARAMETERs”, page 440). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 129 NET allows (￫ section “11.3.8 NET network”, page å REMOTE RUN 515). This will save you any unnecessary delay times: The remaining parameters are not described further here. They are described in detail (￫ section “7.2 Description of the NET-PARAMETERs”, page 440). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 130 ▶ Select the NET ID 2 with the cursor buttons and confirm your æ input with the OK button. At physical location 2, the station has been assigned station address 2. ▶ Press ESC to return to the STATIONS menu item. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 131: Configuring Net
NET ID in the order in which they were entered in the station list in the STATION menu. Furthermore, all devices are automatically set with the baud rate and bus delay time set on NET station 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 132 ▶ Press the ESC key to exit the menu. ￫ Any errors during the configuration are indicated by messages or via the NET LEDs. Further information can be found in following section and ￫ section “10.4 Functionality of the NET faulty”, page 489. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 133: Changing The Net Configuration
After that all NET IDs can be reassigned. For greater simplicity, the device sets all NET IDs to zero that have a physical location behind the first assigned zero. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 134 LED. The NET LED of all other configured NET stations in operation indicates the NET fault with a "permanent light". CAUTION If you delete the program in NET station 1, the NET configuration managed by this station is also deleted. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 135: Showing The Status Display Of Other Net Stations
The inputs and outputs 3I.., 3R.., 3Q.. and 3S.. cannot be displayed. After you have switched to the local display by pressing ESC, the NT3 display is no longer flashing and the states of the local inputs and outputs are displayed. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 136: Com-Link Connection
A passive station on the COM-LINK can however also be an easyNet station at the same time. If an MFD station is run as an easyNet station, it can therefore only be used as a passive remote station. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 137: Configuring The Interface For Com-Link
 To configure the interface, select the baud rate and activate the COM-LINK connection. This can be carried out via the display/keypad of the MFD. ￫ The following steps are only possible in STOP mode. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 138 The COM-LINK connection must only be activated on the active station. Ú ▶ Press the pushbutton. BAUD RATE: ▶ Press the OK button. 19200 B å COM-LINK The tick on the COM-LINK menu item indicates that the connection is REMOTE MARKER.. activated. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 139 The COM-LINK connection must not be configured on the remote station. Wiring COM-LINK operands in the circuit diagram, ￫ section “4.8 Wiring COM-LINK operands in the circuit diagram”, page 184. Monitoring the COM-LINK connection ￫ section “9.6 Monitoring the COM- LINK connection”, page 483 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 140: Running Mfd In Terminal Mode
The remotely controlled device is without a power supply. The local display indicates that the connection has broken. Green continuous The remotely controlled device is in STOP mode. light Green Flashing The remote device is in RUN mode. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 141: Mfd As A Station Of A Point-To-Point Connection
Pressing the Mode pushbutton (*) on the controlling MFD returns you back to its local Status display. ￫ Access in Terminal mode to easySafety devices is possible via a point-to-point connection. Access via the NET is not permissible and therefore inhibited. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 142: Mfd As Net Station
The controlling MFD is itself a NET station. Simultaneous operation of several logical terminal connections between two NET stations is possible. easy800 (NET-ID 1) MFD-...-NT easySafety (NET-ID 6) easySafety MFD-...-NT easy800 MFD-80-B MFD-CP4... easySoft-Pro easySoft-Safety Figure 101: Access options in terminal mode a Terminal Mode Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 143 MFD-800-CAB5 cable. ▶ Select the TERMINAL MODE and confirm the selection with OK. ▶ As STATION ID select the NET-ID of the required station. ▶ Start the terminal mode as described. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 144 ▶ Press the OK pushbutton from the Status Display. The menu appears. Æ PROGRAM... å Í STOP ▶ Press the pushbutton. RUN PARAMETER SET CLOCK... The TERMINAL MODE menu item flashes. Æ PARAMETER SET CLOCK ▶ Press the OK button. INFORMATION... TERMINAL MODE… Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 145 The flashing star at the top right of the Status display indicates I NT5 that Terminal mode is active. Close Terminal mode Press the * pushbutton. The MFD menu appears again for activating the Terminal mode. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 146 Terminal mode both can access other NET stations. While the MFD (NET ID 1) accesses the device with NET ID 2, the MFD (NET ID 3) can access the device with NET ID 4 at the same time. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 147 ▶ Select a STATION ID 1 to 8. ▶ Select the START MODE and press OK. The MFD display shows for example the display content of an easy800. Press the * pushbutton to return back to the menu. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 148 An MFD device cannot access a station, e.g. the device with ID =2 if another MFD has already established a direct or indirect connection to this station. Simultaneous access by MFD in Terminal mode and PC (programming device) to a station is also not possible. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 149: Wiring With Mfd
Use OK to switch to Entry mode so that you can enter or change a value at the current cursor position. Press ESC in Entry mode to restore MFD to the last changes of an entry. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 150: Circuit Diagram Elements
Examples:  Timing relay = Function block with contacts and coils Time switch = Function block with contacts 4.2.3 Visualization screens Visualization screens are parts of the program that contain display and operating functions for the application. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 151: Relays
All coils in the circuit diagram have the "contactor" coil function! The options for setting output and marker relays are listed with the description of each coil function. The coil functions and parameters for the function blocks are explained with the description of each function block. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 152 Red LED of MFD display LE/LE Green LED of MFD display LE/LE Q outputs.. (basic device) 01–08 Outputs (Expansion) 01–08 Q outputs.. (basic device) of other NET stations 01–08 *Q/*Q Outputs (expansion) of other NET stations 01–08 *S/*S Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 153 Failure: number of elements exceeded BT X E1/BT X E1 Failure: range overlap BT X E2/BT X E2 Failure: invalid offset BT X E3/BT X E3 Boolean operation Value zero BV X ZE/BV X ZE X = 01–32 Counter Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 154 Greater than CP X GT/CP X GT Less than CP X LT/CP X LT Data Function Block Transfer 32-bit value (trigger) DB X T_ X = 01–32 Block is active DB X Q1/DB X Q1 PID Controller Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 155 Activate (trigger) PT X T_ X = 01 Enable active PT X Q1/PT X Q1 Pulse Width Modulation Enable PW X EN X = 01, 02 Fault: Minimum on/off time exceeded PW X E1/PW X E1 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 156: Markers And Analog Operands
Boolean states 0 or 1. You can use marker bits (M), marker bytes (MB), marker words (MW) and marker double words (MD) in the circuit diagram and function block diagram as well as in the visualization. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 157 REMOTE MARKER. The table also shows you the access to remote analog values. A detailed description of COM-LINK with a list of all available COM-LINK operands is provided in ￫ Section "3.8 COM-LINK connection“, on page 134. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 158 Byte (MB) Word (MW) D-Word (MD) Byte (MB) Word (MW) D-Word (MD) Byte (MB) Word (MW) D-Word (MD) Byte (MB) Word (MW) D-Word (MD) Byte (MB) Word (MW) D-Word (MD) Byte (MB) Word (MW) D-Word (MD) Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 159 EASY411-DC-ME analog expansion unit. 3) Apart from the MFD-CP10..., on which the first 192 marker bytes can be declared as retentive. The analog inputs and outputs (IA./QA.) of the MFD-Titan input/output module for temperature measuring can also be addressed via the marker double words MD1 - MD96.
Page 160 0000 0000 0000 0000 0000 0100 0001 0010 = 412 = 1 0 42 Bit 32 = status 1 -> negative number. Example:  1111 1111 1111 1111 1101 1100 1010 1110 = FF FF DC AE = –2147474606 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 161: Circuit Diagram Display
They can be created across several rungs. Each point of intersection is a connection. • The number of free bytes is displayed so that you can recognize how much memory is available for the circuit diagram and function blocks. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 162: Program Transfer From And To The Memory Card
All parameter settings of the circuit diagram, • P pushbuttons. • Input delay (debounce). • Password. • Retention on/off and area. • easyNet configuration. • Setting start in the Terminal mode. • COM-LINK settings. • Daylight Saving Time settings. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 163: Transfer From/To A Device Without Display Or Keypad
MFD device that has a newer operating system (with a higher version number) than the device from which the memory card was written. The program read back and/or the visualization application is executable. ￫ The MFD-CP10... does not support easy800 programs. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 164 Programs can be loaded and run on devices with the same device version within the easy800 device family or devices with the same device version within the MFD-Titan device family, even if the target device does not have the necessary hardware requirements, see example.
Page 165: Loading And Saving With A Memory Card
￫ Page 164 Figure 107: Choose CARD menu When a memory card is fitted, and when the programs in the device and on the card are different, the MFD always loads the program from the card. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 166 ￫ All passwords that are present when saving to the card are also reactivated after the card is loaded. ▶ Select DEVICE->CARD. ▶ Confirm the confirmation request with OK or abort the load operation with ESC. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 167 1) The storing device saves its type and version on the card. A program to be loaded from the card must be suitable for the destination device otherwise this will refuse the transfer. 2) If there is a transfer problem or a check sum error, the MFD device will output the message PROG INVALID. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 168: Deleting A Program On The Card
▶ Launch easySoft-Pro and then open the Help system by clicking ? or by pressing function key F1 If there is a transfer error, the MFD device shows the PROG. INVALID PROG. INVALID message. ▶ Check whether you are using functions that the MFD device does not recognize. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 169: Working With Contacts And Relays
Q, S or SN. The jump destination has a special position for the input contacts and the jump location for the output relays. These are used for structuring a circuit diagram (￫ Section "4.7.11 Jumps“, page 177). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 170: Entering And Changing Contacts And Coils
(address) of the station is placed in front of the contact name, ￫ section “4.7.12.1 Setting the NET ID of a NET operand”, page 179. Station address Example: Contact of a NET station Contact name Contact number Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 171 OK to move to the next position (a selected position is shown in light grey in the following figure). ÍÚ ▶ Use to modify the value of the position. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 172 ▶ Press ALT. The N/O contact will change to a N/C contact. ▶ Press OK twice to confirm the change. I 02--u--- I 02--u---- I 02--u---- I 03--k 03--k 03--kê from N/O to N/C Figure 111: Change contact I 03 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 173: Creating Or Changing Connections
Press ALT to switch to Connect mode. ▶ Press DEL. The MFD device deletes a connection branch. Closed adjacent connections will be retained. ▶ Close the delete operation with ALT or by moving the cursor to a contact or coil field. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 174: Adding Or Deleting Rungs
▶ Press ESC to leave the circuit diagram entry without saving. ÍÚ I 01----I 02--u ▶ Use the cursor buttons to select the CANCEL menu. Q 01----HY01Q1k ▶ Press OK. Æ æ The circuit diagram is closed without saving. CANCEL Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 175: Searching For Contacts And Coils
▶ Delete all contacts and coils from the rung. ▶ Position the cursor on the first contact field of the empty rung. ▶ Press DEL. The subsequent rung(s) will be “pulled up” and any existing links between rungs will be retained. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 176: Switching With The Cursor Buttons
… • P: Button function wired and active, Í • P2: Pushbutton function wired, active and P2 pushbutton executed, MO 14:55 • P-: Button function wired, not active, … • Empty field: P pushbuttons not used. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 177 The power flow display indicates at the bottom right the controller is in RUN mode. (￫ section “ Power flow display with Zoom function”, page 105). ￫ The power flow display does not show signal changes in the millisecond range due to the inherent technical delay of LCD displays. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 178: Coil Functions
Retentive coil functions such as can be used several times. 4.7.10.1 Coil with contactor function Ä The output signal follows the input signal directly, the relay operates as a contactor. Figure 119: Contactor function signal diagram Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 179 I 05---------------------------S Q 01 I 10---------------------------R Q 01 Figure 122: Simultaneous triggering of Q 01 The above example shows the Reset coil with priority when the Set and Reset coil are triggered at the same time. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 180 ￫ A set coil is automatically switched off in the event of a power failure and in STOP mode. Exception: Retentive coils retain signal 1 (￫ Section "8.2.7 Storing data retentively (Retention menu item...)“, page 458). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 181: Jumps
Multiple usage of the same jump coil and the same contact is possible as long as this is done in pairs, this means: Ä • Coil :1/jumped area/contact :1, Ä • Coil :1/jumped area/contact :1, etc. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 182 : 02------Ä Q02 : 02--------:08 Q 02-I 03-T T02 Q 02--I 03--:08 T 02------Ä Q01 T 02--------:08 : 08 : 08 Jump label 8, circuit diagram processed from this I 12 ------Ä D01 I 12 -------Ä point on. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 183: Wiring Net Operands In The Circuit Diagram
… … … … … … 8 I 1…8 I 16 8 Q 1…8 Q 8 8 R 1…8 R 16 8 S 1…8 S 8 8 RN 1…8 RN 32 8 SN 1…8 SN 32 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 184: Read And Write Of Net Operands
Inputs/outputs IS../QS of an easySafety device can be read in the circuit diagram of an MFD device via the NET operands nI.. and nQ... Refer to the operator manual for the easySafety ES4P..control relay for information how to complete the assignment. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 185: Net Operands Nrn.. (Input) And Nsn.. (Output)
SN operand (coil) the station number (NET ID) of the receiving station. • in the circuit diagram of the receiving station you set for the RN operand (contact) the station number (NET ID) of the sending station. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 186: Working With Contacts And Relays
4 Wiring with MFD 4.7 Working with contacts and relays NET-ID 1 NET-ID 2 NET-ID 3 NET-ID 4 NET-ID 5 NET-ID 6 NET-ID 7 NET-ID 8 Figure 127: SN-RN combinations of NET station 1 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 187: Sn-Rn Example
NET station 2 sends the status of the P button P01 via SN1 to NET station 1. Ä P 01-------------------- 1SN01 On NET station 1 the status of P1 is associated via RN01 as a count pulse for the counter relay C01. Ä 2RN01------------------- C01C_ Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 188: Net Operand Gt
￫ section “5 Function blocks”, page 4.8 Wiring COM-LINK operands in the circuit diagram Requirements for using COM-LINK operands: The COM-LINK connection between MFD-Titan and the remote station must be physically implemented, configured and activated (￫ section “3.8 COM-LINK connection”, page 132).
Page 189 MD 04 ..MD 20 Display READ: 1 MD 01 l 1 MD 02 WRITE: 1 MD 03 l 1 MD 03 Figure 131: Bit marker range for reading and writing defined Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 190 Table 29 shows the COM-LINK operands which can be accessed by the active MFD with the COM connection. Some markers can be addressed as bit, byte, word or double word (￫ also ￫ Figure 131, page 185). All marker data types, also double words, are consistent! Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 191: Access Method
4.8.2.1 Operand access in the remote device Both the active MFD-Titan and the remote device can write the markers of the remote device. In this type of dual access, the last entry is always valid.
Page 192: Working With Function Blocks
The function blocks are designed so that an output value of a function block can be assigned directly with an input of another function block. The 32-bit data format is used automatically. This also enables the transfer of negative values. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 193: Adding Function Blocks To The Circuit Diagram For The First Time
RELAYS menu. You can of course also set the basic parameters in the function block editor and then add the function block in the circuit diagram as a contact or coil. The edited function blocks are always part of the circuit diagram. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 194 Parameterize function block in the editor2 Other function blocks in the list? Parameterize other function blocks? Saving 1) Only Boolean parameters, ￫ Page 191 2) All parameters, ￫ Page 192 Figure 132: Overview of function block parameter assignment Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 195 ▶ Press ESC in order to save the circuit diagram with the newly added function block. ▶ Answer the subsequent SAVE prompt with OK. The circuit diagram is saved and the MFD device changes to the next higher menu level. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 196 T 01 ?X M:S + >I1 20:30 Variable, operand for Function Block Inputs >I2 inputs Function Block Outputs QV> MD96 Variable, operand for outputs Figure 134: Display of the function blocks in the function block editor Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 197 I1 of the T function block, you should connect a CP comparator in between in order to signal the occurrence of a negative value. In most applications, a thorough simulation is enough to prevent any impermissible values at the function block input. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 198: Changing Function Block Parameters
Access 1 - FUNCTION RELAYS, STOP mode This access method is basically no different to the initial parameter assignment of a function block (￫ Section "4.9.2.1 Parameter assignment from the circuit diagram“, page 191). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 199 All function blocks used in the circuit diagram are displayed in the function T 03 Ü block list. CP08 C 17 Proceed from here described in ￫ section “ Access 2 - FUNCTION RELAYS, RUN mode”, page 195. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 200: Deleting Function Blocks
>I1= Actual value, here from the output of the counter C 01 >I2 1095 • >I2= Constant 1095. QV> MD 56 • QV> = Marker double word MD56. ▶ Press the ALT pushbutton again (see also the following note). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 201 ▶ Press ESC to return to the function block list. ▶ To leave the check display, press ESC once more and press OK in answer to the subsequent CANCEL prompt. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 202 4 Wiring with MFD 4.9 Working with function blocks Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 203: Function Blocks
I1 ⑦ Switch hysteresis for value at I2 (value HY is used for both positive and negative hysteresis.) ⑧ Read the description of the inputs/outputs in the legend points in column 1 of the following tables. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 204: Wiring Of The Function Block
Offset (zero point offset) for the value of >I1 >OS Value range: -2147483648 - 2147483647 ⑧ Positive and negative switching hysteresis for comparison value I2, >HY Value range: -2147483648 - 2147483647 The parameter set consists of: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 205 Markers MD, MW, MB. • Analog inputs IA01 to IA04: • IA01: Terminal I7. • IA02: Terminal I8. • IA03: Terminal I11. • IA04: Terminal I12. • Analog output QA01. • Output QV> of a different function block … Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 206: Function Of The Function Block
– 1) → CY = 0 – 2 ≦ I2 x F2 + HY ≦ (2 – 1) → CY = 0 – 2 ≦ I2 x F2 – HY ≦ (2 – 1) → CY = 0 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 207 – If I1 is equal to I2, i.e. the actual value is equal to the setpoint value. The contact switches off: – If the hysteresis limit is exceeded with the actual value rising. – If the hysteresis limit is undershot with the actual value decreasing. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 208: Ar, Arithmetic
Outside of the permissible value range AR..CY ② Result at output QV> is zero AR..ZE 5.2.2.2 Example of an arithmetic function block I 01----AR01CY-----------------Ä Q 01 I 02----AR02ZE-----------------S Q 02 Figure 137: Wiring the function block contacts Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 209: Parametric Programming Of The Function Block Inputs/Outputs
Inputs >I1 and >I2: The signals present at the inputs >I1 and >I2 are associated with the operation set as the operating mode. You can assign the following operands to function block inputs >I1 and >I2: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 210: Function Of The Function Block
If the calculation result exceeds the value range that can be represented, the overflow signal contact CY closes and output QV> contains the value of the last valid operation. When the function block is called for the first time, the value at output QV> equals zero. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 211 1024 : 0 = Last valid value before this arithmetic operation, due to overflow (CARRY) (mathematically correct “Infinity”) AR..CY = Status 1 • -1000 : 10 = -100 • 1000 : -10 = -100 • -1000 : (-10) = 100 • 10 : 100 = 0 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 212: Bc, Data Block Comparator
You wire the function block in the circuit diagram with its enable coil and its contacts. 5.3.2.1 Coil The coil of the function block is used in the circuit diagram. Parameter Function ⑤ Selective activation of the function block BC..EN Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 213: Parametric Programming Of The Function Block Inputs/Outputs
I2. Start of comparison range 2 >I2 ⑦ Number of elements to be compared in bytes per range, number: 1 - 383 >NO The parameter set consists of: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 214 >I1 or >I2: • Analog input IA.., • Analog output QA.., • Constant. • Output ..QV> of a function block. The value at the input is taken as the offset to marker byte MB01. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 215: Function Of The Function Block
The comparator is active if coil BC..EN (enable) is triggered. ￫ No data blocks are compared if an error is present. The error outputs E1, E2 and E3 are evaluated regardless of the status of the enable. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 216 Parameters of function block BC01: • Comparison range 1: >I1 MB15 • Comparison range 2: >I2 • Number of bytes: >NO • Marker MB01: ￫ Comparison range 2: Constant 64: MB01 plus offset: 1 + 64 = 65 → MB65. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 217 173/ MD81 (Byte 1, LSB) 15277/ 10101101 0011101110101101 MB65 MD81 (Byte 2) 15277/ 00111011 0000100010101101 The data block ranges do not have the same content. BC01EQ = 0, MB65 and MD81 (Byte 2) are not identical. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 218 • Number of bytes: >NO ￫ The comparison is in byte format. MW60 to MW64 is 8 bytes. The number of bytes is 12 bytes. The error message “Comparison ranges overlap” is output. BC01E2 is 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 219 The value of C 01QV is 1024. This value is too big. The value at >NO can be between 1 and +383. The error message "The specified offset of the comparison ranges is outside of the permissible range" is output. BC01E3 is 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 220: Bt, Data Block Transformer
You wire the function block in the circuit diagram with its trigger coil and its contacts. 5.4.2.1 Coil The coil of the function block is used in the circuit diagram to transfer the input value. Parameters Function ④ Triggering the transfer on a rising edge BT..T_ Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 221: Parametric Programming Of The Function Block Inputs/Outputs
Parameter display: Call enabled ⑤ Start of source range or initialization markers (MB,MW,MD) >I1 Destination range start >I2 ⑥ Number of elements to be written in bytes per range, number: 1 - 383 >NO The parameter set consists of: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 222 Markers MD, MW, MB. • Analog inputs IA01 to IA04: • IA01: Terminal I7. • IA02: Terminal I8. • IA03: Terminal I11. • IA04: Terminal I12. • Analog output QA01. • Output QV> of a different function block. … Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 223 The transfer data block function block requires 48 bytes of memory plus 4 bytes per constant at the function block inputs. 5.4.3.4 Cycle time The execution time depends on the data volume. mode Cycle time [μs] INI/CPY 1 Byte 54 10 Byte 60 100 Byte 71 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 224: Function Of The Function Block
(decimal) MB10 MB20 MB21 MB22 MB23 MB24 MB25 MB26 MB27 MB28 MB29 After a rising edge from 0 to 1 at coil BT01T_ the value 123 is present in the marker bytes MB20 to MB29. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 225 (decimal) range (decimal) MB15 MB65 MB66 MB67 MB68 After a rising edge from 0 to 1 at coil BT01T_ the value 45 is present in the marker bytes MB65 to MB68. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 226 MD81  757935405/ (Byte 3) 00101100010110110010110100101101 MD81  757935405/ (Byte 4, MSB) 00101101001011010010110100101101 After a rising edge from 0 to 1 at coil BT01T_ the value 757935405 is present in the marker double words MD80 and MD81. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 227 The value of C 01QV is 788. This value is too big. The value at >NO can be between 1 and +192. The message "The specified offset of the destination range is outside of the permissible range" is output. BT01E3 is 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 228 MB15 MB25 MB16 MB26 MB17 MB27 MB18 MB28 MB19 MB29 After a rising edge from 0 to 1 at coil BT01T_ the content of MB10 to MB19 is copied to the marker bytes MB20 to MB29. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 229 • Number of bytes: >NO The transfer is in byte format. 12 bytes are to be copied.  ￫ The range MD60 to MD62 is 12 bytes. This is copied to the range MW40 to MW45. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 230 >NO ￫ The transfer is in byte format. MD93 to MD96 is 16 bytes. 18 bytes were incorrectly defined as length. The error message “Number of elements exceeds the destination range” is output. BT01E1 is 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 231 The value of C 01QV is 10042. This value is too big. The value at >NO can be between 1 and +383. The message "The specified offset of the destination range is outside of the permissible range" is output. BT01E3 is 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 232: Bv, Boolean Operation
A closed contact indicates: Parameters Function, parameterization in the function block ① Result at output QV> is zero BV..ZE 5.5.2.2 Example of a function block for Boolean operation: BV01ZE------------------------Ä M 48 Figure 142: Wiring of the contact to marker Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 233: Parametric Programming Of The Function Block Inputs/Outputs
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 234: Function Of The Function Block
If you associate a negative value (e.g. -10 ) the central processing unit will form the two's complement of the amount. Example: = 10000000000000000000000000001010 Twos' complement = 11111111111111111111111111110110 = FFFFFFF6 Bit 32 is retained at 1 as a sign bit. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 235 The NOT sequence operates according to the following rules: >I1, positive value Subtract value of >I1 and 1: –|>I1| – 1 = >I2 >I1, negative value Subtract value of >I1 and 1: |>I1| – 1 = >I2 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 236: C, Counter Relay
Overflow, actual value ≧ upper setpoint ③ Zero, 1 when actual value QV=0 ④ Counter input ⑤ Change count direction ⑥ Set actual value (QV) to 0 ⑦ Apply Start value (SV) ⑧ Upper setpoint ⑨ Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 237: Wiring Of The Function Block
⑥ Reset of the counter relay to zero C ..RE ⑦ Count direction: C ..D_ 0: up counting, Status 1: down counting. ⑧ SET: Transfer of the start value (SV) on a rising edge. C ..SE Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 238: Parametric Programming Of The Function Block Inputs/Outputs
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 239 Analog output QA01. • Markers MD, MW, MB. Memory requirement The counter relay function block requires 52 bytes of memory plus 4 bytes per constant at the function block inputs. Cycle time mode Cycle time [μs] Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 240: Function Of The Function Block
If MFD is started in RUN mode, the timing relay operates with the retentively saved actual value. 5.6.4 Function of the function block ....Figure 145: Signal diagram of counter relay Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 241 – The contact C..ZE is active. • Range F: – The actual value goes outside the value range of the counter relay. – The contacts become active according to the direction of the values (positive or negative). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 242: Cf, Frequency Counter
5.7.1.2 Value range The function block operates in the integer range from 4 to 3000  (1 kHz = 1000). The value range cannot be exceeded as the maximum measured value is less than the value range. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 243: Wiring Of The Function Block
I1, the function of the function block is activated by the device input I5. CF01OF-------------------------Ä Q 01 CF01FB-------------------------Ä Q 02 CF01ZE-------------------------Ä Q 03 Figure 147: Wiring the function block contacts The messages of the function block are sent directly to the device outputs. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 244: Parametric Programming Of The Function Block Inputs/Outputs
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 245 The frequency counter function block requires 40 bytes of memory plus 4 bytes per constant at the function block inputs. Cycle time mode Cycle time [μs] 5.7.3.3 Retention The frequency counter does not have any retentive actual values since the frequency is continuously remeasured. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 246: Function Of The Function Block
• The first measurements are made after the CF..EN enable signal has been activated. The value is output after the gate time has timed out. • The contacts are set in accordance with the measured frequency. • If the CF..EN enable signal is removed, the output value is set to zero. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 247: Ch, High-Speed Counter
Change count direction ⑦ Apply Start value (SV) ⑧ Upper setpoint ⑨ Lower setpoint ⑩ Start value ⑪ Current actual value ⑫ Read the description of the inputs/outputs in the legend points in the following tables. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 248: Wiring Of The Function Block
The counter input of the function block CH03 is already permanently connected to device input I3. The coils of the function block are connected directly to the device inputs. The coils of the function block are connected here directly to the device inputs. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 249: Parametric Programming Of The Function Block Inputs/Outputs
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 250 If a meter is retentive, the actual value is retained when the operating mode changes from RUN to STOP as well as when the supply voltage is switched off. If a MFD is started in RUN mode, the counter operates with the retentively saved actual value. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 251: Function Of The Function Block
– The counter counts upwards and reaches the upper setpoint value. The contact “upper setpoint value” CH…OF becomes active. • Range C: – The coil CH..SE is briefly actuated and the actual value is set to the start value. The contacts go to the respective position. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 252 – The contact CH…ZE is active. • Range F: – The actual value goes outside the value range of the counter. – The contacts become active according to the direction of the values (positive or negative). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 253: Ci, High-Speed Incremental Value Counter
④ Enable ⑤ Reset ⑥ Apply Start value (SV) ⑦ Upper setpoint Lower setpoint ⑨ Start value ⑩ Current actual value ⑪ Read the description of the inputs/outputs in the legend points in the following tables. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 254: Wiring Of The Function Block
Figure 152: Wiring the function block coils The count inputs of function block CI01 are already permanently assigned to device inputs I1 and I2. The coils of the function block are connected directly here to the device inputs. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 255: Parametric Programming Of The Function Block Inputs/Outputs
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 256 If a meter is retentive, the actual value is retained when the operating mode changes from RUN to STOP as well as when the supply voltage is switched off. If a MFD is started in RUN mode, the counter operates with the retentively saved actual value. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 257: Function Of The Function Block
7: Transfer start value, coil CI..SE. 8: Reset coil CI…RE 9: Contact (N/O) CI…OF: Upper setpoint value reached or exceeded. 10: Contact (N/O) CI…FB: Lower setpoint value reached or undershot. 11: Contact (N/O) CI…ZE: Actual value equal to zero Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 258 – The contact CI..ZE is active. • Range F: – The actual value goes outside the value range of the counter. – The contacts become active according to the direction of the values (positive or negative). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 259: Cp, Comparator
>I1 greater than >I2 CP..GT 5.10.2.2 Example: CP12LT-------------------------S M 21 CP12EQ-------------------------S M 22 CP12GT------------------------uR M 21 hR M 22 Figure 155: Wiring the function block contacts The contact of the function block is sent to markers. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 260: Parametric Programming Of The Function Block Inputs/Outputs
IA04: Terminal I12. • Analog output QA01. • Output QV> of a different function block. … Memory requirement The function block requires 32 bytes of memory plus 4 bytes per constant at the function block inputs. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 261: Function Of The Function Block
The function block compares values present at the inputs >I1 and >I2. The following contacts close depending on the comparison result: • >I1 greater than >I2, GT contact closes. • >I1 equal to >I2, EQ contact closes. • >I1 less than >I2, LT contact closes. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 262: Db, Data Block
Transfer the value to >I1 with a rising edge. DB..T_ 5.11.2.2 Contact A closed contact indicates that the transferred value is output on the output. Parameters Function ① Transfer confirmation with 1, if T_ is 1. DB..Q1 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 263: Parametric Programming Of The Function Block Inputs/Outputs
This parameter is factory set to +. Input >I1: You apply the value that is transferred on triggering to the function block input >I1. The function block input >I1 can be assigned the following operands: • Constant. • Markers MD, MW, MB. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 264: Function Of The Function Block
(e.g.: MD42) at output QV>. It contains the value up to the next time it is overwritten. Figure 158: Signal diagram of data function block 1: Value at input DB..>I1 2: Trigger coil DB…T_ 3: Value on DB…QV> Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 265: Dc, Pid Controller
MFD. The refreshing of screen(s) can increase the cycle time and thus restrict the controller function. Distribute the applications among two or more devices that you can interconnect via easyNet. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 266: Function Block Inputs/Outputs
Function ① Selective activation of the function block DC..EN ② Activation the proportional function DC..EP ③ Activating the integral function DC..EI ④ Activating the differential function DC..ED ⑤ Activating the manual manipulated variable, manual mode DC..SE Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 267: Parametric Programming Of The Function Block Inputs/Outputs
100 ms; Example: The value 250 is processed in the function block as 25 s. ⑩ Derivate Action Time T : 0 - 65535, >TV in 100 ms; Example: The value 20 is processed in the function block as 2 s. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 268 If the value 0 is set, the cycle time of the device is the pause time between the function block calls. ￫ The device cycle time varies according to the length of the program. With a scan time of 0 s, this may cause an irregular control response. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 269 Markers MD, MW, MB. Memory requirement The counter relay function block requires 96 bytes of memory plus 4 bytes per constant at the function block inputs. Cycle time The execution time depends on the mode. mode Cycle time [μs] Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 270: Function Of The Function Block
= Scan time. = Reset time (also known as integration time). = Setpoint with scan time t. = Actual value with scan time t. (t-1) = Value of the integral component with scan time t - 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 271 Extreme changes in the manipulated variable can occur when the manual manipulated variable is transferred or deactivated. ￫ If the function block is running in UNI (unipolar) mode, a negative signed manipulated variable value will be output as the value zero. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 272: Ft, Signal Smoothing Filter
For example, this may result in an intolerably long cycle time increase when the screen(s) is/are update on an MFD device. Divide the applications over two or several devices that you interconnect via easyNet. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 273: Wiring Of The Function Block
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 274 • Analog output QA01. • Markers MD, MW, MB. Memory requirement The FT function block requires 56 bytes of memory plus 4 bytes per constant on the function block input. Cycle time mode Cycle time [μs] Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 275: Function Of The Function Block
The step response of the FT function is an e function. After a time t = T normalized output value is 0.63 QV/QV QV/QV 0.63 Figure 162: Figure: Step response of the FT function block ￫ The function block updates the output value every time recovery time T expires. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 276 = T with n = 1, 2, 3… The function block always operates with a scan time that corresponds to an integer multiple of the cycle time. This can cause the set recovery time to be lengthened. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 277: Gt, Get Value From The Net
Function ① Transferred value present at QV> GT..Q1 (for one processing cycle) 5.14.2.2 Example of a GT function block: GT01Q1--------------------------Ä DB16T Figure 163: Wiring of the function block contact The contact triggers a data function block. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 278: Parametric Programming Of The Function Block Inputs/Outputs
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 279: Function Of The Function Block
(￫ section “9.3 Diagnostics”, page 479). 5.14.4 Function of the function block Figure 164: Signal diagram function block GT 1: GT..Q1 2: Value on GT…QV> ￫ The GT function block has the value 0 when the power supply is switched on. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 280: Hw, Weekly Timer
The values can be entered via the buttons of an MFD-CP8... device from device version 05 or via an MFD-CP10... device. For this the weekly timer entry element must be used in a screen. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 281: Wiring Of The Function Block
Day 2: Day on which the switch-off is to occur for the last time (end of time period). >DY2 ④ Closing delay: 00:00 - 23:59, No on switching: --:-- >ON Break time: 00:00-23:59,  ⑤ No off switching: --:-- >OFF The parameter set consists of: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 282 These parameters DY1/DY2 are used to limit the period in which the output HW..Q1 is switched. Enter either a period of several days or only of one day: Entry On and off time Monday Tuesday Wednesday Thursday Friday Saturday Sunday No day Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 283: Operation Of The Function Block
The weekly timer HW01 switches on from Mondays to Fridays with channel: • A between 6:30 and 9:30. • B between 17:00 and 22:30. HW01 HW01 >DY1 MO >DY1 MO >DY2 FR >DY2 FR >ON 06:30 >ON 17:00 >OFF 09:30 >OFF 22:30 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 284 16:00 on Monday, whereas on Tuesday and Wednesday it switches on at 10:00. The off time for Mondays to Wednesdays is 22:00. HW04 HW04 >DY1 MO >DY1 TU >DY2 WE >DY2 WE >ON 16:00 >ON 10:00 >OFF 22:00 >OFF 00:00 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 285 The time switch is to switch for 24 hours. Switch on at 00:00 on Mondays and switch off at 00:00 on Tuesdays. HW20 HW20 >DY1 MO >DY1 TU >DY2 >DY2 >ON 00:00 >ON >OFF >OFF 00:00 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 286: Hy - Year Time Switch
If you enter the ON information on channel A, the OFF information must be entered on channel B; likewise, if the ON information is on channel B, the OFF information must be on channel C. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 287: Behavior In The Event Of A Power Failure
When using the function block in the circuit diagram for the first time, use HY14 B OK to automatically enter the general display of function block parameters, >ON as shown in the figure on the left. Enter the function block settings here. The >OFF display contains the following elements: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 288 DD.MM.YY. 5.16.4.2 Example Day.Month.Year: 11.11.07 Parameters Function On date >ON Off date >OFF 5.16.4.3 Memory requirement The year time switch function block requires 68 bytes of memory plus 4 bytes of memory for each channel used. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 289: How The Function Block Works
Normally, the ON day should be before the OFF day; otherwise, the exception described on Example 8 (￫ section “ Example 8: Selecting a time range of two days spanning the turn of the year (2-channel)”, page 289) on applies. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 290 With this rule, the same year number must be entered in each channel in the >ON --.--.XX ON and OFF entry area. >ON --.--.XX Rule 9 Overlapping channels: The first ON date switches on and the first OFF date switches off. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 291: Sample Parameter Configurations
The year time switch HY05 is required to switch on at 0:00 on day 9 of >ON 09.06.-- months 6, 7, 8, 9 and 10 of each year and switch off at 00:00 on day 17 of the >OFF 16.10.-- month. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 292 2011 and 2012, and remain switched on until 00:00 on 11/1 in each case. 2010 2011 2012 2013 31/10 31/10 Figure 176: Select a time range for a limited number of years Parameter settings of the year time switch HY01: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 293 00:00 on 01/02 of 2011, and switch on at 00:00 on 12/31 of 2011 and remain switched on until 00:00 on 01/02 of 2012. 2010 2011 2012 Figure 178: Select a time range of two days spanning the turn of the year Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 294 ON, irrespective of which channel supplies this ON signal. In the same way, the year time switch switches the contact off with the first detected OFF, irrespective of whether another channel still supplies the ON signal! Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 295: Jc, Conditional Jump
You wire the function block in the circuit diagram with its enable coil JC..EN. It can be wired directly to the device terminals I1 to I12 or associated internally. 5.17.2.1 Coil Parameters Function ② Activation of the function block JC..EN Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 296: Parametric Programming Of The Function Block Inputs/Outputs
JC..E1 of function block “conditional jump” closes. If no associated jump label is set in the function block list, the program jumps to the end of the list and fault contact JC..E1 also closes. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 297 For subsequently inserting function block JC.. in the function block list to skip other, existing function blocks, the use of the easySoft programming software is recommended. This software allows function blocks to be moved into any position. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 298: Lb, Jump Label
LB.. and close the input dialog with two clicks on OK. The description of the JC.. conditional jump function block is provided in ￫ Chapter 5 "Function blocks“ from page 291. This also contains an example. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 299: Ls, Value Scaling
You wire the function block in the circuit diagram with an enable coil. 5.19.2.1 Coil The enable coil LS..EN activates the function block in the standard circuit diagram; when the coil is deactivated, the output QV> is set to 0. Parameters Function ① Enables the function block LS..EN Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 300: Parametric Programming Of The Function Block Inputs/Outputs
>X2 and >Y21: The second pair of values at function block inputs >X2 and >Y2 determines the second support point of the straight line. You can assign the following operands to function block inputs >I1, >X1, >Y1, >X2 and >Y2: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 301: Function Of The Function Block
If the coil LS..EN is not active, the entire function block is deactivated and reset. The output value is set to zero. Figure 182: Value scaling function block – reduce value range a Source Range b Destination Range Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 302 Y0 = ((X2 x Y1) - (X1 x Y2)) / (X2 - X1) m = gradient Y0 = Y offset when X = 0 X1, Y1 = First value pair X2, Y2 = Second value pair g = Straight line with positive gradient Figure 184: Mathematical interrelationship Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 303: Application Example
Y1 = 0 and QV> MD01 • the second support point of the straight line with its maximum point coordinates: • X1 = 1023 • Y1 = 100 • the transfer marker MD01 with the scaled value. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 304: Mr, Master Reset
You wire the function block in the circuit diagram with its trigger coil. 5.20.2.1 Coil Parameters Function ② Function block reset on rising edge MR..T_ 5.20.2.2 Contact A closed contact indicates: Parameters Function ① 1 on activated trigger signal MR..Q1 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 305: Parametric Programming Of The Function Block Inputs/Outputs
Resets the outputs used in the circuit diagram Q.., *Q.., QA., S.., *S.., *SN..; * = NET-ID Acts on the marker range MD01 to MD96. Acts on the operands specified above under Q and M that are used in the circuit diagram. This parameter is factory set to Q. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 306: Function Of The Function Block
Carry out the master reset function block so that all data ranges are cleared reliably. Otherwise subsequent function blocks may overwrite the data ranges. The contact MR1..Q1 assumes the state of its own trigger coil and confirms the reset operation. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 307: Mx, Data Multiplexer
When the MX..EN state changes from 1 to 0, output QV is reset to 0. Parameters Function ② Enables the function block MX..EN 5.21.2.2 Contact A closed contact indicates a filter: Parameters Function ① Fault, e.g. invalid channel setting MX..E1 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 308: Parametric Programming Of The Function Block Inputs/Outputs
>K: Function block input >K is used to define the input channel to be supplied at function block output QV>. >I1 to >I8: Assign the values to function block inputs >I1 to >I8 that you wish to output on function block output QV>. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 309: Function Of The Function Block
When EN = 1, the value at the selected input Ix is continuously output and refreshed with every processing cycle. The fault contact MX..E1 closes if an invalid parameter is present at the channel number input MX..K. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 310 Figure 189: Circuit diagram for enabling the data multiplexer function block Enter the parameters of the function block as shown on the left. MX01 >K MB08 >I1 +40 >I2 MB01 >I3 MB02 >I4 MB03 >I5 >I6 >I7 >I8 QV> MB04 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 311: Nc, Numerical Converter
The output value is set to zero. Parameters Function ① Enables the function block NC..EN 5.22.2.2 Example: I 05--------------------------Ä NC01EN Figure 190: Wiring the enable coil Its coil NC..EN is directly connected to the device terminal IS5. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 312: Parametric Programming Of The Function Block Inputs/Outputs
This parameter is factory set to +. 5.22.3.2 Number range of the BCD code The BCD code only allows the number range 0 to 9. Values greater than 9 are processed as 9. BCD code Decimal value 0000 0001 0010 0011 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 313 Analog output QA01. • Markers MD, MW, MB. Memory requirement The numerical converter function block requires 32 bytes of memory plus 4 bytes per constant at the function block input. Cycle time mode Cycle time [μs] Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 314: Function Of The Function Block
BIN operating mode The binary value present at input >I1 is converted to a BCD value and supplied at the output QV>. The binary value is displayed as a decimal value. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 315 • Hexadecimal value: 01111111111111111111111111111111 • Decimal value QV>: 161061273 ￫ Values greater than 9999999 are output as 161061273. Values less than –9999999 are output as –161061273. The working range of the function block has been exceeded. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 316: Ot, Operating Hours Counter
The reset coil resets the operating hours counter to zero. Parameters Function ② Selective activation of the function block OT..EN ③ Reset the counter to zero OT..RE 5.23.2.2 Contact A closed contact indicates: Parameters Function ① Reaching the upper limit setpoint JC..Q1 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 317: Parametric Programming Of The Function Block Inputs/Outputs
The >I1 block input is used to specify the upper setpoint value in hours. When it is reached, the block contact sends a signal. The function block input >I1 can be assigned the following operands: • Constant. • Markers MD, MW, MB. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 318: Function Of The Function Block
The operating hours counter is accurate to the nearest minute. If the enable coil signal is terminated within a minute, the value for seconds is lost. The value range of the operating hours counter is between 0 hours and 100 years. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 319: Pt - Put Value To The Net
On activation the function block temporarily stores the input value and transfers it to the NET. Parameters Function ④ Trigger coil, on a rising edge the function block temporarily stores the input value and PT..T_ transfers it to the NET Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 320: Parametric Programming Of The Function Block Inputs/Outputs
Function block: PUT, number 07 PT07 Parameter display: Call not enabled ⑤ Input value that is to be put onto the NET: >I1 -2147483648 - 2147483647 The parameter set consists of: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 321 The PUT function block requires 36 bytes of memory plus 4 bytes per constant at the function block input. Cycle time mode Cycle time [μs] 5.24.3.2 PUT diagnostics The PUT function block only functions if the NET is running properly (￫ section “9.3 Diagnostics”, page 479). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 322: Function Of The Function Block
The signal diagram shows the relationship of the send job and its triggering by the trigger coil: Figure 195: Signal diagram of PUT function block 1: Trigger coil 2: trigger coil contact feedback 3: Send Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 323: Pw, Pulse Width Modulation
5.25.2 Wiring of the function block You wire the function block in the circuit diagram with its enable coil and its signal contact. ￫ Avoid unforeseeable switch states. Only use each coil of a relay once in the circuit diagram. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 324: Parametric Programming Of The Function Block Inputs/Outputs
Parameter display: Call enabled ③ Manipulated variable: 0 - 4095 >SV ④ Period duration: 0 - 65535 ms >PD ⑤ Minimum on duration, minimum off duration: 0 - 65535 ms >ME The parameter set consists of: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 325 Output …QV> of a different function block Memory requirement The pulse width modulation function block requires 48 bytes of memory plus 4 bytes per constant at the function block input. Cycle time mode Cycle time [μs] Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 326: Function Of The Function Block
The status of the PW..E1 contact must be observed. • If the off duration of the pulse is less than the minimum off duration, outputs Q1 and Q2 are continuously in operation. The status of the PW..E1 contact must be observed. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 327: Sc, Set Date/Time
A closed contact indicates: Parameters Function ① The trigger coil is active SC01Q1 5.26.2.3 Example of a set date/time function block: I 05--------------------------Ä SC01T_ Figure 198: Wiring the trigger coil The trigger coil is connected to a device input. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 328: Parametric Programming Of The Function Block Inputs/Outputs
The trigger pulse is set at 03:32:21 (hh:mm:ss). The other stations are synchronized at 03:33:00. The time is accepted by all stations. This process can be repeated as often as desired. 5.26.4.1 Accuracy of time synchronization The maximum time deviation between the functional stations is 5 s. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 329: Sr, Shift Register
Bit data input, shift register backward ⑦ Input value for shift direction forwards ⑧ Input value for shift direction backwards ⑨ Register … values 1…8 ⑩ Read the description of the inputs/outputs in the legend points in the following tables. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 330: Wiring Of The Function Block
The remaining content of the register is then moved backwards. The reset coil SR..RE causes the following in both directions: Parameters Function ⑤ Reset of the register SR..RE Parameters Function ⑥ Data bit forwards SR..FD Parameters Function ⑦ data bit backwards SR..BD Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 331 In DW operating mode you only integrate the coils in the circuit diagram: M 05--------------------------Ä SR01EN M 06--------------------------Ä SR01FP M 07--------------------------Ä SR01BP M 08--------------------------Ä SR01RE Figure 202: DW operating mode, wiring the function block contacts You assign parameters to inputs and outputs in the function block diagram. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 332: Parametric Programming Of The Function Block Inputs/Outputs
D8 have no function in BIT mode! If they are assigned operands, D5> these will have no effect. The wiring of the SR function block D6> (BIT) is carried out in the circuit diagram. D7> D8> Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 333 Markers MD, MW, MB. • Analog inputs IA01 to IA04: • IA01: Terminal I7. • IA02: Terminal I8. • IA03: Terminal I11. • IA04: Terminal I12. • Analog output QA01. • Output QV> of a different function block. … Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 334: Function Of The Function Block
SR..FD and SR..I1 are for data that the function block transfers to register Q1 or D1 in a forwards direction when SR..FP is activated. The following two figures illustrate the process for forward shift operations in BIT and DW modes. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 335 – with the forwards pulse from SR..FP the register field SR..Q1 shifts the content of all register fields one place forwards and accepts the 0 from SR..FD. d Reset of the register: – SR..EN is activated, the function block is active. – Activating SR..RE clears the content of the register. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 336 – with the forwards pulse from SR..FP the register field SR..D1 shifts the content of all register fields one place forwards and accepts the 52 from SR..I1. d Reset of the register: – SR..EN is activated, the function block is active. – Activating SR..RE clears the content of the register. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 337 – With the backwards pulse from SR..BP the register field SR..Q8 shifts the content of all register fields one place back and accepts the 0 from SR..BD. d Reset of the register: – SR..EN is activated, the function block is active. – Activating SR..RE clears the content of the register. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 338 – With the backwards pulse from SR..BP the register field SR..D8 shifts the content of all register fields one place back and accepts the 52 from SR..I2. d Reset of the register: – SR..EN is activated, the function block is active. – Activating SR..RE clears the content of the register. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 339 It now stands at register output SR01D2. It reaches machining station 2 via double word marker MD02. The process is repeated for each further workpiece and for each further machining station until the finished workpieces leave the line. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 340 >I1 MD11 parameters: >I2 • the DW operating mode for the double word marker format. D1> MD01 • the double word markers for receiving the production code. D2> MD02 D3> MD03 D4> D5> D6> D7> D8> Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 341: St, Set Cycle Time
When using the function block in the circuit diagram for the first time, use ST01 OK to automatically enter the general display of function block parameters, >I1 as shown in the figure on the left. Enter the function block settings here. The display contains the following elements: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 342 • Analog output QA01. • Output QV> of a different function block. … Memory requirement The Set cycle time function block requires 24 bytes of memory plus 4 bytes per constant at the function block input. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 343: Function Of The Function Block
Set as small a value for the set cycle time as possible. The processing of the function blocks, reading of the inputs and writing of outputs is only carried out once every cycle. Exception: All function blocks that are processed independently of the cycle time. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 344: T, Timing Relay
Stop coil interrupts the run down. Parameters Function ② Triggering (start) of the timing relay T ..EN ③ Reset of the timing relay T ..RE ④ Stop of the timing relay T ..ST Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 345: Parametric Programming Of The Function Block Inputs/Outputs
T 02 Operating mode: On-delayed Time range: Minute: Seconds Parameter display: Call enabled ⑤ Setpoint 1 >I1 ⑥ Setpoint 2 (for relay functions with 2 times) >I2 ⑦ Display: Elapsed time QV> The parameter set consists of: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 346: Operating Mode
The display of the parameters during operation can be disabled. Additional information ￫ section “4.9.2.1 Parameter assignment from the circuit diagram”, page 191. Parameters Function Parameters are displayed Parameters are not displayed This parameter is factory set to +. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 347 Analog output QA01. • Markers MD, MW, MB. Memory requirement The timing relay function block requires 52 bytes of memory plus 4 bytes per function block input configured with an NU constant. Cycle time mode Cycle time [μs] Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 348: Function Of The Function Block
Operand value 5999 -> Time value is 99 h, 59 min. • Example of time range H:M: • Operand value 5999 -> Time value is 99 h, 59 min. Different methods are used depending on the operating modes of the function block: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 349 • Range E: The reset coil resets the relay and the contact. • Range F: After the reset coil is activated, the switching contact is switched off and the internal time counter is reset. The function relay waits for a new trigger pulse. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 350 • Range E: The trigger coil drops out twice. The set time consists of plus (switch function not retriggerable). • Range F: The trigger coil drops out twice. The actual time t is cleared and the set time t elapses completely (retriggerable switch function). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 351 • Range F: The reset coil resets the relay after the on delay has elapsed • Range G: After the reset coil is activated, the internal time counter is reset. The switching contact remains switched off. The function relay waits for a new trigger pulse. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 352 • Range D: The reset coil resets the timing relay. • Range E: The reset coil resets the timing relay. The trigger coil is still energized after the reset coil is disconnected, whilst the delay time runs down. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 353 • Range A: The relay flashes for as long as the trigger coil is activated. • Range B: The stop coil interrupts the timing out of the set time. • Range C: The reset coil resets the relay. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 354: Tb, Table Function
⑫ Read the description of the inputs/outputs in the legend points in the following tables. 5.30.2 Wiring of the function block You use the table function block in the circuit diagram with its coils and contacts. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 355 TB01TE------------------------Ä M2 TB01TF------------------------Ä M3 Figure 223: Wiring the function block contacts The function block contact TE (empty) and TF (full) indicate an empty or full table. Operands are assigned to inputs and outputs in the parameter display. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 356: Parametric Programming Of The Function Block Inputs/Outputs
Markers MD, MW, MB. • Analog inputs IA01 to IA04: • IA01: Terminal I7. • IA02: Terminal I8. • IA03: Terminal I11. • IA04: Terminal I12. • Analog output QA01. • Output QV> of a different function block. … Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 357: Function Of The Function Block
RE coil. A rising edge at the RE coil causes: • The value at output TB..QN to be set to 0. • The signal contact TB..TE to close. • The signal contact TB..TF to open. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 358 TB16QV. • After the sixteenth read process or less, all production codes have been read out and the table is empty. Contact TB16TE closes. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 359: Vc, Value Limitation
Selective activation of the function block VC..EN 5.31.2.2 Example of the value limitation function block: I 05---------------------------Ä VC01EN Figure 225: Wiring the function block coil The enable coil of the function block is connected directly to a device terminal. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 360: Parametric Programming Of The Function Block Inputs/Outputs
>I1. >SH und >SL: The upper and lower limit setpoints are set at function block inputs >SH and >SL respectively. You can assign the following operands to function block inputs >I1, >SH and >SL: Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 361: Function Of The Function Block
The value is accepted at input VC…I1 if the enable coil is active. If the value is greater than the upper limit value or less than the lower limit value, the appropriate limit value is output at VC…QV. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 362: Example With Timing Relay And Counter Function Block
C01 and T01 are wired in the standard circuit diagram and their inputs/outputs are defined. L01+ L01– Counter Value 10 Figure 226: Hardwiring with relays L01+ L01– +24V 0V 0V I01----I02-- -[ Q01 L01– Figure 227: Wiring with MFD Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 363 If you enter the same setpoint at >I1 and >I2, the timing relay operates as a synchronous flasher. The + character means that the parameters of this timing relay can be modified using the PARAMETERS menu. ▶ Confirm the value input with OK. ▶ Press ESC to leave entry. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 364 When you press OK, the warning light will flash at twice the frequency. QV> 0.55 If the setpoint is a constant, it can also be modified via the PARAMETERS menu. ￫ The actual value is only shown in RUN mode. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 365: Visualization With Mfd-Titan
6 Visualization with MFD-Titan 6.1 Screens 6 Visualization with MFD-Titan In the following description, the term “visualization” is used for the display and operator function. Each visualization requires at least one screen. ￫ Whilst you can enter the program (circuit diagram, function blocks etc.) both via the easySoft-Pro programming software...
Page 366: Exchangeability Of Mfd-Cp8
6 Visualization with MFD-Titan 6.1 Screens 6.1.1 Exchangeability of MFD-CP8...- and MFD-CP10... screens Upward Compatibility In easySoft-Pro you can copy the screens of an MFD-CP8... with a device version number 01, 05 or 08 to the Clipboard and then paste these fully with all screen and button elements into an MFD-CP10...
Page 367: User Interface Soft-Pro
6 Visualization with MFD-Titan 6.2 User interface Soft-Pro ▶ Right-click the MFD-CP8... to be replaced and choose Replace Device in the context menu. ▶ Drag the MFD-CP10... from the Toolbox to the Workbench and select the firmware version if necessary.
Page 368: Simulation View
6 Visualization with MFD-Titan 6.2 User interface Soft-Pro • The upper right section shows the Workbench window itself. Double- clicking a screen shown there activates the screen editor and opens the screen for further editing on the Workbench. You can use the Screen overview, Screen editor or Button editor tabs to determine the content of the Workbench and the resulting parameter options.
Page 369: Screen Overview
6 Visualization with MFD-Titan 6.3 Screen Overview 6.3 Screen Overview The screen overview opens in easySoft-Pro when the visualization is called for the first time. In the screen overview create the required screens by assigning them names. You make the general settings for each screen in the Properties field window via the following tabs: •...
Page 370: Register „Passwords
6 Visualization with MFD-Titan 6.3 Screen Overview 6.3.2 Register „Passwords“ You can define up to three passwords in the Passwords tab in order to control the access to screens and access to a visualization application, ￫ section “6.7 Password Protecting Screens”, page 432.
Page 371: Register „Screen Activation
6 Visualization with MFD-Titan 6.3 Screen Overview During the runtime, MFD-CP10... displays only one language in the screens. An associated variable is used to toggle to a different language stored in the device. ▶ In the Associate via list box define an associated variable, for defining the displayed language during the runtime.
Page 372 6 Visualization with MFD-Titan 6.3 Screen Overview ￫ With Force Screen Change option active and a screen associated with an event, any unsaved entries will be lost if the screen concerned is activated by the event. In this case it is not possible on the MFD-CP8... to carry out a screen change via the keypad while the associated variable is set by the program.
Page 373: Current Screen Tab
6 Visualization with MFD-Titan 6.4 Screen Editor ￫ The button functions that are to cause a screen change are only active if the process value does not contain a set bit that is assigned to a screen. This does not apply to the Select Screen Element button function because this selects Entry mode at the same time and interrupts rolling.
Page 374: Screen Memory
6 Visualization with MFD-Titan 6.4 Screen Editor Value display elements Date and time displays (01) Numerical value (01) Timer relay value display (05). Value entry elements Value inputs (01) Timer relay value inputs (05) Date and time inputs (05) Week clock input (05) Yearly timer inputs (05).
Page 375: Creating Masks
6 Visualization with MFD-Titan 6.4 Screen Editor 6.4.2 Creating masks You design the individual screens in the Screen editor with the above screen elements. A detailed description of the screen elements is provided in the following sections. As long has you have opened a screen in the Screen editor but have not...
Page 376 6 Visualization with MFD-Titan 6.4 Screen Editor The font size can be changed in the context menu (right mouse button) using a button in the toolbar or by dragging the frame handle at the bottom edge of the screen element frame. To increase the font size, sufficient space must be available underneath the element.
Page 377: Static Text
6 Visualization with MFD-Titan 6.4 Screen Editor 6.4.2.4 Creating Texts with Special Characters Displayable characters in the Western European character table (￫ Section "11.6 Basic and extended Western European character set“, page 522) You can use the Windows character table to enter special characters that you wish to show in the display of a visualization device which cannot be entered directly via the PC keypad.
Page 378 6 Visualization with MFD-Titan 6.4 Screen Editor Application examples 1: The example programs MFD-Titan-CP10.e60 and MFD-Titan-CP8.e60 show the use of a Static text screen element in the Function_(EN_)Static_text(_2) and Function_EN_Static_text(_2) screens. The MFD-Titan-CP10.e60 example program also includes the improved language change function of the MFD-CP10….
Page 379: Message Text
6 Visualization with MFD-Titan 6.4 Screen Editor StaticText_Prog_03.e60 (different display types with screen activation using a counter) The program consists of four screens in which the static text is displayed in different ways. The individual screens are activated via the counter C01. This has the value 5 as the upper switch value SH.
Page 380 The example programs MFD-Titan-CP10.e60 and MFD-Titan-CP8.e60 show the use of a message text screen element in the Function_(EN_)Message_text(_2) and Function_EN_Message_text(_2) screens. The MFD-Titan-CP10.e60 example program also includes the improved language change function of the MFD-CP10…. Application examples 2: The example programs MessageText_Prog_01.e60 to MessageText_Prog_05.e60 are based on the MFD-CP8..
Page 381 6 Visualization with MFD-Titan 6.4 Screen Editor Screen 1 illustrates the activation of the message texts using the associated variable. The output of two different texts in one message text element is demonstrated. Four message texts elements are provided in the first screen.
Page 382 6 Visualization with MFD-Titan 6.4 Screen Editor I1 not actuated I1 actuated Invisible Invisible via I1 via I1 Q2 ON Figure 232: Masking out message text Screen 5 is essentially the same as screen 4 in which the Invisibility function is replaced by a Flashing display change.
Page 383 6 Visualization with MFD-Titan 6.4 Screen Editor The screen activation is implemented via counter C01. This contains the value 1 as the upper set value SH. This therefore produces the counter values 0 and 1 that are used for both screens as activation values. When the...
Page 384 6 Visualization with MFD-Titan 6.4 Screen Editor Screen 2 contains a message text element with two message texts. In all screens the message texts are activated via the counter values “1” and “2”. When the timing relays are reset by T06, counter C01 is activated which reaches the status value "1", and the "Error"...
Page 385 6 Visualization with MFD-Titan 6.4 Screen Editor If the status value of C01 is 1, the message text “Error” is displayed flashing since the function block parameter FB is set in the Display change area of the Display change register. The function block parameter switches if the SL value (lower set value) of the counter is reached (￫...
Page 386: Screen Menu
6 Visualization with MFD-Titan 6.4 Screen Editor Screen 3 is virtually the same as screen 1 apart from an expansion in which the first message text element flashes and the second is displayed inverted when I1 is actuated. Display Display...
Page 387: Running Text
Visibility and Display change tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Application examples: The example program MFD-Titan-CP10.e60 illustrates the use of the Screen menu element in the Menu_Function and Menu_Language screens and the MFD-Titan-CP8.e60 shows this in the Menu_EN_Function screens and Menu_DE_Funktion screens as well as Menu_Language screens.
Page 388: Rolling Text
6 Visualization with MFD-Titan 6.4 Screen Editor 6.4.7 Rolling Text This single-line screen display element allows you to output text that consists of more characters than can be shown in one display line. All text entries that you entered in lines in the parameter table are shown consecutively in one text line.
Page 389: Latching Pushbutton
"Visibility and Display change" tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example program MFD-Titan-CP8.e60 contains the Rolling text display element for the Unconditional text display option in the German screen Funktion_DE_Rollierender_Text_2 and in the English screen Function_EN_Rolling_text_2.
Page 390: Button Field
Visibility and Display change tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Rastender_Taster and in the English screen Function_EN_Latching_button three Latching button display elements via which the status of the associated Boolean operands LE1-LE3 can be changed.
Page 391 6 Visualization with MFD-Titan 6.4 Screen Editor Display change A button field is displayed in one to four rows on the display, i.e. with one to å four buttons, depending on the parameter set. Option 1 a x Option 2 b...
Page 392: Bit Display
Visibility and Operability register ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Tasterfeld and in the English screen Function_EN_Button_field the Button field display element via which the value of the associated Set variable MW11 can be changed.
Page 393 Visibility and Display change tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Application examples 1: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Bitanzeige and in the English screen Function_EN_Bit_display the Bit display screen element.
Page 394 6 Visualization with MFD-Titan 6.4 Screen Editor Screen 1 illustrates the control section of the bit display solely using the associated variable. The first screen shows four bit display elements. These are triggered in succession via the Boolean operands Q1 to Q4. N/O contact is selected as the bit logic by which the bit display elements assume the status of the corresponding outputs (on/off).
Page 395: Bitmap
6 Visualization with MFD-Titan 6.4 Screen Editor N/C bit logic N/C bit logic Q1 Q2 Q3 Q4 Q1 Q2 Q3 Q4 Figure 243: N/C bit display logic with superimposed text Screen 5 illustrates the options of the Visualisation register of the bit display (negated) with superimposed static text.
Page 396 The Visibility tab enables the screen element to be hidden using an associated variable. Application examples 1: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Bitmap and in the English screen Function_EN_Bitmap the Bitmap indication element. The MFD-Titan-CP10.e60 example program contains the Bitmap display element in the multi-lingual screen Function_Bitmap.
Page 397 6 Visualization with MFD-Titan 6.4 Screen Editor The program consists of eight screens that you can select via cursor buttons Í Ú . The screen change was defined in the button editor (￫ Section "6.6 Button Editor“,page 417). This program illustrates the bitmap display options using simple examples.
Page 398 6 Visualization with MFD-Titan 6.4 Screen Editor Screen 8 contains two bitmaps. The right one covers the left bitmap. However, both bitmaps are displayed completely since the background of the right bitmap is set to transparent on the "Display" register.
Page 399: Message Bitmap
6 Visualization with MFD-Titan 6.4 Screen Editor Covered Covered Figure 248: Arrow increasing in size Screen 3 contains five bitmaps that completely cover each other. These are made invisible in succession from the top to the bottom via outputs Q1 to Q4 and LED 3 (N/O contact bit logic).
Page 400: Bar Graph
Visibility register ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Meldungsbitmap and in the English screen Function_EN_Message_bitmap the Message bitmap indication element. The MFD-Titan-CP10.e60 example program contains the indication element in the multi-lingual screen Function_Message_bitmap.
Page 401 ▶ Alternatively with the external trigger input select at Associate via: the Boolean variable that is to initiate a display change. Example application: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Bargraph and in the English screen Function_EN_Bar_graph the Bargraph indication element.
Page 402: Date And Time Display
"Visibility and Display change" tabs: ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Application examples 1: The example program MFD-Titan-CP8.e60 contains in the German screens Funktion_DE_Datum/Zeit and Funktion_DE_Datum/Zeit_2 as well as in the English screens Function_EN_Date_a._time_display and Function_EN_Date_a._time_displ_2 the Date and time display screen...
Page 403 6 Visualization with MFD-Titan 6.4 Screen Editor The program consists of eight screens that you can select via cursor buttons Í Ú . The screen change was defined in the button editor (￫ Section "6.6 Button Editor“,page 417). The first six screens show the options for date and time display, the seventh screen shows all four formats simultaneously and invisible switching is implemented with the eighth screen.
Page 404: Numerical Value
6 Visualization with MFD-Titan 6.4 Screen Editor Screen 4 Screen 7 Country  Country  setting setting Spanish Portuguese MI 01/10/03 QU 01-10-03 Date display with different country settings 6.4.15 Numerical value This screen display element enables you to display signal states directly or scaled in decimal format.
Page 405 6 Visualization with MFD-Titan 6.4 Screen Editor Application examples 1: The example program MFD-Titan-CP8.e60 contains in the German screens Funktion_DE_Zahlenwert and Funktion_DE_Zahlenwert_2 as well as in the English screens Function_EN_Numeric_value and Function_EN_Numeric_value_2 the Numerical value display element. The MFD-Titan-CP10.e60 example program contains the Numerical value display element in the multi-lingual screen Function_Numeric_value and Function_Numeric_value_2.
Page 406 6 Visualization with MFD-Titan 6.4 Screen Editor Timer 4 1873 1873ms 1.9s +1873ms +1.87s Figure 250: Output formats Screen 2 shows a simple example of the visualisation of timing relay times using the function block parameter (FB parameter) from the Associated variable register.
Page 407 6 Visualization with MFD-Titan 6.4 Screen Editor Analog input I3 Scale value 358 0to10 3.51V -5to+5 -1.49V Figure 252: Analog value output Screen 4 shows an example of the output of analog values (here IA3) on the display and is an expansion of screen 3. To keep it simple all the basic settings of the scaling range from screen 3 were used.
Page 408 6 Visualization with MFD-Titan 6.4 Screen Editor Table 39: Numerical value - Analog value output with display change by external trigger input General The value range from 0 to 11 000, unit of measure: s (second), scaling range from 0 to 11, two settings: decimal places, display change active, detection via external trigger input.
Page 409: Timing Relay Value Display
6 Visualization with MFD-Titan 6.4 Screen Editor Screen 8 shows an example of the output of a marker word. The numerical Display value in the screen is associated with the marker word MW01. The variable Marker word 1 (C1) type Word.
Page 410: Value Entry
Visibility and Display change tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Zeitrelaiswertanzeige and in the English screen Function_EN_Timing_relay_valu_displ the Timing relay value indication element.
Page 411 Visibility and Display change tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Application examples 1: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Werteingabe and in the English screen Function_EN_Value_entry the Value entry indication element.
Page 412 6 Visualization with MFD-Titan 6.4 Screen Editor Application examples 2: The ValueEntryProg_01.e60 example program shows other applications of this screen element. ValueEntryProg_01.e60 (value entry) The program consists of seven screens that you can select via cursor Í Ú buttons . The screen change was defined in the button editor (￫...
Page 413 6 Visualization with MFD-Titan 6.4 Screen Editor Screen 2 illustrates the value entry option via the set variable marker word MW05 (preset actual value SV). After you have entered a new value this is written to the marker word MW05 by actuating I1. This is associated with the preset actual value SV of the counter C02.
Page 414 6 Visualization with MFD-Titan 6.4 Screen Editor Value Entry Transfer QV value Step Width Step Width Set input Set input (OK) (OK) 8.50 8500 8.50 Figure 259: Transfer of value with Fixed Step Width Screen 5 shows an example from the Visibility tab. If I4 is closed, the value entry element is made invisible.
Page 415: Timing Relay Value Entry
Visibility and Display change tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Zeitrelaiswerteingabe and in the English screen Function_EN_Timing_relay_valu_en the Timing relay value entry element.
Page 416: Date And Time Entry
Visibility and Operability register: ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example program MFD-Titan-CP8.e60 contains in the German screen Funktion_DE_Datum/Zeiteingabe and in the English screen Function_EN_Date_a._time_entry the Date and time entry element.
Page 417: Weekly Timer Inputs
Visibility and Display change tabs ￫ Section "6.4.2.3 General tabs for parameterizing a screen element“, page 372. Example application: The example programs MFD-Titan-CP10.e60 and MFD-Titan-CP8.e60 contain the Weekly timer entry element. When the Function_7-day_time_switch_entry or Funktion_DE_Wochenzeitschaltuhr screens are displayed with the ON option active, the ON time of function block HW01, channel A can be changed during the run time.
Page 418: Year Time Switch Entry
6 Visualization with MFD-Titan 6.4 Screen Editor 6.4.21 Year time switch entry The screen element allows you to make later changes to the on and off time for each of the four channels (A, B, C and D) of the year time switch (HY) function block.
Page 419 6 Visualization with MFD-Titan 6.4 Screen Editor Example application: The MFD-Titan-CP10.e60 and MFD-Titan-CP8.e60 example programs contain screens with the Year time switch entry element. When the Function_Year_time_switch_entry or Funktion_DE_Jahreszeitschaltuhr screens are displayed with the ON option active, the ON time of function block HY01, channel A can be changed during the runtime.
Page 420: Button Operation On The Mfd-Titan
6 Visualization with MFD-Titan 6.5 Button operation on the MFD-Titan 6.5 Button operation on the MFD-Titan The following table shows the function of the MFD function keys in the visualization. Pressing the * pushbutton switches you from the Status display to the visualization.
Page 421: Button Editor
6 Visualization with MFD-Titan 6.6 Button Editor 6.5.1.2 Entry mode in the visualization The selected digit or entry location in a screen entry element is always displayed flashing. With a screen menu entry element, the name of the first selectable screen flashes.
Page 422: How To Assign A Pushbutton Element To A Pushbutton
6 Visualization with MFD-Titan 6.6 Button Editor Button element ￫ Page Disable Selection Mode (5) Jump Label (5) Conditional Jump (5) ￫ The button assignment is screen-oriented. Functions can therefore be assigned to operator buttons for any particular screen. This feature is then very useful if, for example, you create...
Page 423: Select Operable Screen Element
6 Visualization with MFD-Titan 6.6 Button Editor 6.6.1.1 Deleting a button element In easySoft-Pro you delete a pushbutton element from the Button functions list with the Del pushbutton. The following shows a function description of the button elements. Refer to the easySoft-Pro Help for information on how to assign these with parameters.
Page 424: Display Contrast
6 Visualization with MFD-Titan 6.6 Button Editor Table 42: Changing the backlight via LE1 Status of LE1 Backlight switched on, according to the brightness level set in the MFD System menu Switched off Programming in Soft-Pro - parameterization ▶ Under Gradual display adjustment set the required brighter or darker setting.
Page 425: Password Logout
6 Visualization with MFD-Titan 6.6 Button Editor 6.6.6 Password logout The "Password logout" function is used by the operator to cancel the access rights granted for a protected screen after the password is entered. The password entry window is then displayed. In this way, the next operator then has to enter a valid password in order to display the screen.
Page 426: Set Variable To Fixed Value
6 Visualization with MFD-Titan 6.6 Button Editor When moving to a password protected screen using the "Screen Change" function, the MFD will show the password entry window. To display the screen you must enter the correct password. On MFD-CP8... devices up to device version number 04 the new screen is displayed immediately for the "Screen Change"...
Page 427: Decrement Variable
6 Visualization with MFD-Titan 6.6 Button Editor ￫ From MFD-CP8... devices with device version number 05 and MFD-CP10... devices, the setpoint value on a function block input can be set to a fixed value. Only the function block inputs (DWord variable type) that are associated with a constant (NU) can be set to a fixed value.
Page 428: Increment Variable
6 Visualization with MFD-Titan 6.6 Button Editor Function During operation the value is decremented by pressing the assigned button and is retained until it is overwritten or until the device is switched off. The following operands also retain the value after the device is switched back on: •...
Page 429 6 Visualization with MFD-Titan 6.6 Button Editor ￫ The setpoint on a function block input can be incremented on MFD-CP8... devices with device version number 05 and higher and MFD-CP10... devices. Only the function block inputs (DWord variable type) that are associated with a constant (NU) can be incremented.
Page 430: Changeover Relay
6 Visualization with MFD-Titan 6.6 Button Editor 6.6.10 Changeover relay The changeover relay function enables the operator to negate the state of a Boolean variable or a Boolean function block input during operation by pressing a button. Possible operands Boolean operands (bit variable type): •...
Page 431: P Button Function
6 Visualization with MFD-Titan 6.6 Button Editor ▶ First select the screen from which Status display should not be accessible. ▶ Left-click the Mode pushbutton. ▶ Then drag the Disable Change to Status Display button element into the Button Functions list box.
Page 432: Go To Previous Screen
6 Visualization with MFD-Titan 6.6 Button Editor Í Ú ú í Under the following conditions the cursor buttons and the other operator buttons of the MFD-CP10... will retain their previous function in the visualization even with the P button function active: •...
Page 433: Disable Selection Mode
6 Visualization with MFD-Titan 6.6 Button Editor Programming in Soft-Pro Requirement for using the button element: • You must use an MFD-CP8... device from device version number 05 or an MFD-CP10... device. • You must have edited at least two screens and have switched to the button editor.
Page 434: Conditional Jump
6 Visualization with MFD-Titan 6.6 Button Editor 6.6.15.1 Programming in Soft-Pro Requirement for using the button element: • You must use an MFD-CP8... device from device version number 05 or an MFD-CP10... device. • You must have edited at least one screen and have switched to the button editor.
Page 435 6 Visualization with MFD-Titan 6.6 Button Editor ▶ First select the required screen. ▶ Then left-click the required pushbutton, e.g. the ESC pushbutton. ▶ Then drag the Conditional Jump button element function to the Button functions list in front of the button function to be skipped.
Page 436: Password Protecting Screens
6 Visualization with MFD-Titan 6.7 Password Protecting Screens 6.7 Password Protecting Screens The access authorisation for an installation managed by a visualization application can be controlled with the password protection function. For this you protect a screen with a password. The password responds to access to the screen, e.g.
Page 437: Logout Time
6 Visualization with MFD-Titan 6.7 Password Protecting Screens 6.7.2.1 Accessing a password protected screen On MFD-CP8... up to version number 04 The password is requested if you start a value entry or actuate an operator button that is assigned function. The screen protected by the password is already displayed on the device.
Page 438: Password Entry In Run
6 Visualization with MFD-Titan 6.7 Password Protecting Screens 6.7.4 Password entry in run Enter as password the fixed maximum of five numbers in the password entry window. Figure 264: Password entry window Í Ú ú í To enter the password use the cursor buttons , the OK button and the ESC button.
Page 439: Schematic Procedure For Password Entry By The Operator
6 Visualization with MFD-Titan 6.7 Password Protecting Screens 6.7.5 Schematic procedure for password entry by the operator ① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨ ⑩ Figure 265: Password entry a Operator entry Move to a different Screen b Is the Password request active function activated in the Passwords tab? c Is the screen password protected? You activate password protection separately for each screen by selecting Yes in the PW-x field of the Screens parameter table.
Page 440 6 Visualization with MFD-Titan 6.7 Password Protecting Screens Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 441: The Network Net
NET: easy800 or MFD devices for open-loop and closed-loop control and MFD devices for display and HMI tasks. easy800 (NET-ID 1) easy800 easy800 MFD-...-NT easy800 (NET-ID 8) easy800 MFD-...-NT easySafety MFD-80-B MFD-CP4... easySoft-Pro easySoft-Safety Figure 266: Mixed operation of NET stations Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 442: Transfer Behavior Of The Net Stations
NET at this time. The NET ensures that each station can send its messages. This means that each station must maintain a delay time between the sending of messages. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 443: Functions Of The Net Stations
Terminal mode allows you to use the operating buttons of an MFD-...-NT, which is run as a NET station to create or modify the standard circuit diagram (the program) of another NET station ￫ section “3.9.2 MFD as NET station”, page 138. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 444: Description Of The Net-Parameters
125 m. A maximum baud rate is therefore very important if an MFD is required to work on the NET since additional NET transfer time is needed. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 445: Pause Time, Changing The Write Repetition Rate Manually (Station Menu Busdelay)
“Device not responding”. This fault message appears if you wish to establish an online connection or are already online. In this case, a temporary increase of the bus delay time is useful. It should be reduced after commissioning. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 446: Send Each Change On The Inputs/Outputs (Station Menu Send Io)
NET station, SEND IO should be deactivated for this station. Otherwise the station changes at the counter input will unnecessarily increase the number of telegrams on the NET. Transfer these status changes with SN/RN operands. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 447: Automatic Change Of The Run And Stop Mode (Station Menu Remote Run)
This prevents write access to the outputs of this kind of NET station, both locally from its own circuit diagram as well as from REMOTE station 1. The standard settings for the input and output devices are: å SEND IO å REMOTE RUN å REMOTE IO Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 448: Network Transmission Security
< 10–10 x 10–3 = 10–13 This means: one of 1013 messages is so corrupt that the fault cannot be recognised as such. For a network, this corresponds to a working time of approx. 1 000 years. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 449: Mfd Settings
No password available. ▶ Press OK to cause six zeros to appear. ▶ Set the password using the cursor buttons: ú í • Select position in the password. ÍÚ • set a value between 0 to 9. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 450 This question does not appear if you activate this function and protect the DELETE PROGRAM area. However, it is no longer possible to make changes in protected areas if you forget the password. The password is now valid but not yet activated. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 451: Activating Passwords
OK. The password is now active, i.e. password protection is activated. You must unlock the device with the password before you implement a protected function, enter a protected menu or the System menu. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 452: Unlocking Mfd
The MFD device only shows this menu if a password is already assigned. ▶ Press OK to enter the password entry menu. PASSWORD ENTRY: ▶ Press OK to move to the 6-digit entry field. XXXXXX The current password will be displayed. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 453: Delete Password
The saved circuit diagram and all function relay parameters will be lost. Pressing ESC will retain the circuit diagram and data. You can then make another five attempts to enter the password. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 454: System
▶ To deactivate DEBOUNCE, choose DEBOUNCE and press OK. Debounce mode will be deactivated and the display will show DEBOUNCE without a tick. ￫ How MFD input signals are processed internally, ￫ Section "9.2.1 Input delay (debounce)“, page 474. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 455: P Pushbuttons
￫ The P buttons are automatically deactivated if you load a circuit diagram from the memory card or via easySoft-Pro onto the MFD device or if you are deleting a circuit diagram in the MFD device. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 456: Setting The Startup Behavior
The RUN mode function is deactivated. RUN MODE RUN MODE å æ The MFD device is factory set with displayed, i.e. the device CARD MODE starts in RUN operating mode when the voltage supply is switched on. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 457 Factory setting: CARD MODE inactive ▶ Switch to the system menu. ￫ If the MFD device is password protected, the System menu is only accessible after the MFD device has been unlocked (￫ Section "8.1.4 Unlocking MFD“, from page 448). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 458: Terminal Mode Startup (Terminal Mode Menu Item)
▶ Press DEL and ALT simultaneously to switch from the Status display to the System menu. ￫ If the MFD is password-protected, the System menu can only be accessed after the device has first been “unlocked” (￫ Section "8.1.4 Unlocking MFD“, from page 448). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 459: Activating External Buttons (I-Buttons And R-Buttons Menu Items)
External pushbuttons that are connected to the local I input terminals or the R input terminals of the expansion unit can thus take on the same functions as the operator buttons of the device. The I or R input terminals are permanently assigned to the function keys. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 460: Setting Contrast And Backlight (Display Menu Item)
The contrast of the display can be set to one of 17 stages. When using an MFD-CP10… the use of the Display contrast button element enables the operator to change the contrast during operation via an operator button (￫ Section "6.6.4 Display contrast“, from page 420). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 461 The backlight is permanently activated. Menu setting: å LIGHTING . The backlight is set to 75%. ￫ MFD device comes with the following factory setting: • The contrast is set to 0. • The backlight is set to 75%. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 462: Storing Data Retentively (Retention Menu Item
MB 01-MB96 MFD-CP10… MB 01-MB192 Counter All C.., CH.. and CI.. function blocks can be operated with retentive actual values. Data Function Blocks A user-definable consistent function block DB.. range can be operated with retentive actual values. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 463 DB 01 -> DB 16 Example:  B:076 MB 01 to MB 04, C 12 to C 16, DB 01 to DB 16, T 08 to T 14 should be RETAIN MARKERS retentive. 08 -> T Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 464 8.2.7.5 Changing the operating mode If you change from RUN to STOP and then back to RUN, the actual values of the retentive data will be retained. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 465: Menu Language
DEUTSCH French FRANÇAIS Spanish ESPAŇOL Italian ITALIANO Portuguese PORTUGUÊS Dutch NEDERLANDS Swedish SVENSKA Polish POLSKI Turkish TÜRKÇE Hungarian MAGYAR Czech ĆESKY Russian РУССКИЙ ￫ Language selection is only possible if the MFD device is not password-protected. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 466: Configurator
In this menu you assign parameters to a configurable local expansion unit that is connected to the easyLink terminal of the basic device. The menu is only accessible if this type of local expansion unit is connected. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 467: Configuring Analog Expansion Units
8.4.7 IO MODULES This menu is used to set the temperature module of the MFD which is fitted on the power supply unit/CPU module. Further information on this ￫ Section "3.5 I/O module with temperature measuring“, page 107. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 468: Setting Time
The following options are available for setting DST parameters: • NONE: No DST setting. • MANUAL: User-defined daylight saving time setting. • EU: Date for European Union; Start: Last Sunday in March; End: Last Sunday in October. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 469 Selecting the DST setting option å The standard setting is NONE for automatic DST changeover ( at NONE). å Æ ▶ Select the required option for the DST setting and press OK. NONE MANUAL æ RULE Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 470 ▶ Change to the RULE menu and press OK. SUMMERTIME START ▶ Choose SUMMERTIME START and press the OK button. SUMMERTIME END The flashing cursor is located in line 1, column 1 on the word ON. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 471 The time difference (DIFF:) parameter corresponds to the entry for the changeover day to summer time and cannot be changed in this menu. The MFD device now alternates between summer and winter time according to your rule. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 472 8 MFD Settings 8.5 Setting time Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 473: Inside Mfd
During this process it checks whether contacts are switched in parallel or in series and saves the switching states of all contact fields. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 474: Cycle-Time Monitoring
The device monitors the time required for a cycle to be completed. If a fault causes the cycle time to exceed 1.05 s, the device switches the Q .. output relays to the safe state 0. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 475: What You Must Consider When Creating The Circuit Diagram
Use one of the 96 auxiliary relays have to connect more M.., if you than four contacts in series. I 01----Q 04----I 03----I 05---Ä M 01 I 02----I 04----M 01-----------Ä Q 02 Figure 268: Circuit diagram with M 01 marker relay Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 476: Allowing For The Special Feature Of Certain Function Blocks
The following applies if a short cycle time is required on the MFD: Use several small screens so that the loading time when changing screens is not too long. Only use the screens with content that is really necessary (￫ Section "6.4.1 Screen memory“ of page 370). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 477: Mfd Memory Management
(for example message bitmaps and bitmaps), • reduce the size and number of graphic elements to what is necessary. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 478: Time Behavior Of The Inputs And Outputs
MFD device using an input delay, the so-called DEBOUNCE, ￫ Section "8.2.1 Switching on the input delay function (Debounce menu)“, page 450. This function is useful, for example, in order to ensure a clean switching signal despite contact bounce. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 479: Delay Time With Mfd Dc Basic Devices
(C) of 20 ms is applied before the signal is transferred to the next circuit diagram cycle. ￫ When using high-speed counter function blocks, the delay time for the input signals must not exceed 0.025 ms. DEBOUNCE must therefore be deactivated. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 480: Delay Time With Mfd Ac Basic Devices
(1st and 2nd scan pulse at A). If the MFD device registers two positive half waves in succession, it switches the appropriate input (contact) internally from 0 to 1. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 481 Delay time with DEBOUNCE deactivated If DEBOUNCE is deactivated, the delay time is reduced so that the MFD device switches the relevant input (contact) internally from 0 to 1 in shorter scan cycles t when a positive half-wave is detected. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 482 The corresponding values for 60 Hz are given in brackets. ￫ A description of how to modify the delay times is provided in the section (￫ Section "9.2 Time behavior of the inputs and outputs“, page 474). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 483: Diagnostics
Status of I/O module with temperature measuring, status 1: actual value on sensor 1 above the set measuring range ID 21 Status I/O module with temperature measuring: short-circuit on sensor 2 on 1 signal ID 22 Status of I/O module with temperature measuring: wire break at sensor 2 on 1 signal. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 484: Checking The Transistor Output For Short-Circuit/Overload
If a transistor output indicates a fault, I16 sets marker M16. The N/C of M16 switches off output Q1. M16 can be reset by switching the MFD supply voltage off and on so that the break contact closes again. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 485: Expanding An Mfd Device
MFD device as contacts like the inputs of the basic device. The input contacts are assigned the operand identifiers R1 to R12. R15 and R16 are group fault alarms for the expansion units with transistor outputs (￫ Section "9.7 Displaying device information“, page 484). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 486: How Is An Expansion Unit Detected
R15, R16 are incorrectly processed in the basic unit and show status 0. The outputs S1 to S8 in the expansion device cannot be set. DANGER  Ensure the continuous monitoring of MFD expansion units in order to prevent switching faults in machines or systems. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 487: Monitoring The Serial Multi-Function Interface
The active MFD runs a baud rate dependent timeout monitoring of the communication via the serial multi-function interface. Information on the status of the connection is indicated by the local diagnostics bit ID09. You can query the diagnostics bit in the program of the active MFD. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 488: Displaying Device Information
▶ Switch to the main menu and use the cursor button to move to the STOP å RUN Æ INFORMATION menu. PARAMETER ▶ Press OK. SET CLOCK INFORMATION... æ This will display all device information: TERMINAL MODE… Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 489: Device Version Number
Example: 01-402110000404 DC 20.4 …28.8 V This device is of device version 01. With service requests, refer to the device version number for information about the hardware version and if necessary the version of the operating system. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 490 9 Inside MFD 9.8 Device Version Number Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 491: What Happens If
Only when switched on for the first time TEST: CLOCK Continuous display ERROR: EEPROM The memory for storing the retentive values or MFD replace the MFD circuit diagram memory is faulty. ERROR: CLOCK Clock error MFD replace Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 492: Possible Situations When Creating Circuit Diagrams
Select RUN mode switch and activate the No voltage at relay contact Check installation instructions, load check external wiring MFD power supply interrupted MFDcircuit diagram does not activate relay output Wire breakage MFDrelay is faulty MFD replace Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 493: Event
NET station and thus also its NET configuration, ￫ Page 127. Reconfigure the NET via station 1. • You have expanded an existing NET station and replaced it with a new device which cannot be assigned parameters. Flashing NET operating fault-free Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 494: Monitoring Via Diagnostics Bits
If you do not evaluate the appropriate diagnostics bit, this may cause malfunctions in your application. Example of scanning the diagnostics bit ID.. ID03-----------------------------Ä:01 GT03Q1-------------------------DB16T_ ..:01..Figure 280: Scanning the diagnostics bit in the circuit diagram = Visible area Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 495: Replacing A Net Station
As an alternative to the automatic configuration, you can also switch the supply voltage of the configured NET stations off and on. All NET stations in the NET configuration will temporarily switch to STOP. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 496: Power Supply Failure On Station With Net-Id 1
Safety measure: On every NET station with a program, monitor the diagnostics bits ID.. in order to detect a missing NET station as quickly as possible (￫ Section "10.4.1 Monitoring via diagnostics bits“ , page 490). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 497: Appendix
11.1.2 Shipping approvals for MFD devices (Bureau Veritas) (DET NORSKE (Germanischer (Lloyds Register of VERITAS) Lloyd) Shipping) Certificate 21608/A0 BV A-10620 24251- 04 HH 04/20051 number: (without MFD- (without MFD-TP…/ (without MFD-TP…/ (without MFD-TP…/ TP…/MFD-TAP…) MFD-TAP…) MFD-TAP…) MFD-TAP…) Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 498: Approvals And National Approvals For Expansion Devices
Expansion devices are also approved for Russia, in accordance with GOST-R and for the Ukraine in accordance with Ukrain-GOST. 11.1.4 Shipping approvals for 6.. expansion devices easy6.. (Bureau Veritas) (DET NORSKE (Germanischer (Lloyds Register of VERITAS) Lloyd) Shipping) Certificate 42991- 02 HH 02/20029 number: easy6.. EASY618-..-RE Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 499: Dimensions
1; 4 [inches] 0.04; 0.16 Weight [lb] 0.287 Mounting 2 22.5 mm (0.886 in) holes Display with two fixing rings Bolt-on Maximum tightening torque of the fixing rings [Nm] 1.2 to 2 g0.2 28.25 28.25 13.7 86.5 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 500: Power Supply Unit/Cpu Mfd-Cp8
Mounting • Plug-fitted to the display fixing shaft or • on the top-hat rail to DIN 50022, 35mm (without display) or • by means of fixing feet (without display) g0.2 38.75 38.75 16.25 16.25 29.5 107.5 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 501: Input/Output Modules Mfd-R
11.2.4 MFD-80-XM protective diaphragm Dimensions, W x H x D [mm] 88 x 88 x 22.5 [inches] 3.46 x 3.46 x 0.98 Weight [lb] 0.055 Mounting Is fitted over the display/function keys (with silver bezel) 22.5 88.5 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 502: Mfd-80-Xs Protective Cover
11.2.5 MFD-80-XS protective cover Dimensions, W x H x D [mm] 86.5 x 94 x 25 [inches] 3.41 x 3.41 x 0.98 Weight [lb] 0.079 Mounting Is fitted over the display/function keys (without silver bezel) 86.5 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 503: Technical Data
57 - 150 Shocks (IEC 60068-2-27) semi-sinusoidal 15 g/11 ms Shocks Drop (IEC 60068-2-31) Drop height Free fall, when packed (IEC 60068-2-32) Electromagnetic compatibility (EMC) Electrostatic discharge (ESD),  (IEC/EN 61000-4-2, severity level 3) Air discharge Contact discharge Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 504 Tools and cable cross-sections Solid, minimum to maximum 0.2 - 4 24 - 12 Flexible with ferrule, minimum to maximum 0.2 - 2.5 24 - 12 Slot-head screwdriver, width 3.5 x 0.5 inch 0.14 x 0.02 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 505: Display/Operating Unit
Number of LEDs, can be used and programmed in visualization applications Operator buttons Number Can be used and programmed in visualization applications Mechanical lifespan of pushbuttons Operating Normally 1 x 10 elements Pushbutton illumination (LED) Number Color green Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 506: Power Supply
Heat dissipation For 24 V DC, MFD-CP8… part no. 3 for 24 V DC, MFD-CP8 + MFD80… part no. 6 at 24 V DC, MFD-CP8, MFD80… and Normally 6.5 MFD-R…/MFD-T… Fuse ≧ 1 - ≦ 4 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 507: Central Processing Unit, Real-Time Clock/Timing Relay/Memory
°C - 40 °C, 32 °F - 104 °F)  The accuracy of the real-time clock can vary (2 min⁄year) depending on the operating ambient temperature range -25 °C - 55°C, 23 °F - 122 °F to ± 0.34 s⁄day . Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 508 KByte (visualization) Storage of programs (Zero-voltage FRAM safe, I.e. retentive) Retentive memory Size - MFD-CP8... Byte Size - MFD-CP10... Byte Operating Hours Counter Byte Write cycles of the retentive memory 1000000000 (10 ) (read/write cycles) (minimum) Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 509: Inputs
12 x 0.2 (at 115 V AC, 60 Hz) 12 x 0.5 (at 230 V AC, 50 Hz) Deceleration time Delay time (0–>1⁄1–>0) I1 – I12, 50⁄60 Hz 10 / 100 Max. admissible cable length (per input) I1 – I12 part no. 60 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 510 Cable length (unscreened) Rapid counter inputs Number 4 (I1, I2, I3, I4) 4 (I1, I2, I3, I4) Cable length, shielded High-speed up and down counter Counter frequency ≦ 3 ≦ 3 Pulse shape Square Square Pulse Pause Ratio Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 511 11.2 Accuracy of actual value two MFD devices ± 3 Within a single device ± 2 Conversion time, analog/digital Debounce ON: Debounce OFF each CPU cycle Input current < 1 Cable length screened < 30 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 512 Ni1000-sensor (Offset error, linearity error, ±0.6 of measurement range repetition accuracy, temperature dependency of the device include) Conversion time, analog/digital Without sampling time setting,  selectable per sensor With sampling time (adjustable),  200 to 65535 selectable per sensor Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 513 Diagnostics Card diagnostic Conductor or Wire break diagnostic per sensor lower measurement range sensor undershot Above upper measurement range Cable length screened < 10 Analog inputs 0 - 10 V of MFD-T(A)P (see above) Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 514 DC-13, L/R ≦ 150 ms, 24 V DC, 1 A (500 S/h) Switch 200000 operations Breaking capacity, IEC 60947 AC–-15, 250 V AC, 3 A (600 ops./h) Switch 300000 operations DC-13, L/R ≦ 150 ms, 24 V DC, 1 A (500 S/h) Switch 200000 operations Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 515 ϕ ≠ capacity 1 at B 3600/360 Control circuit rating codes (utilization R 300 Light Pilot Duty category) Max. rated operational voltage V DC Max. thermal continuous current at R 300 Max. make/break capacity at R 300 28/28 Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 516 < 100 kΩ (dependant on program and ions/h load) Parallel connection of outputs with resistive load, with inductive load Group 1: Q1 to Q4 with external suppressor circuit (see section Connecting transistor outputs), with combination within a group Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 517 Inductive loading with external suppressor circuit for each load (￫ Section "2.6.2 Connecting digital transistor outputs“, page 78) Simultaneity factor g = Relative duty factor Max. switching frequency Switch Depending on the Max. duty factor operation suppressor circuit Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 518: Analog Output
1 kΩ Overload and short-circuit protection Resolution, analog V DC 0.01 Resolution, digital MFD-TAP: 12 (0 - 4095) at QA01, MD Recovery time μs Accuracy -25 °C – 55 °C Conversion time, analog/digital each CPU cycle Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 519: Net Network
Cross-section up to 175 m, < 70 mΩ/m (AWG) 0.13 (26) Cross-section up to 40 m, < 140 mΩ/m (AWG) 1.5 (16) 1) Bus lengths above 40 m can only be achieved with cables with reinforced cross-section and connection adapter. Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 520: List Of Function Blocks
PUT (Value on NET) Pulse Width Modulation Pulse Width Modulation Synchronize Clocks Synchronize clock via NET Shift Register Shift Register Set Time Set cycle time Timing relays Timing Relay Table function Table Function Value Capsuling Value Limit Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 521: Function Block Coils
Set to a predefined value Stop Stop block processing Trigger Trigger coil for starting the timing relay Word Pulse Trigger coil On detecting a rising edge (trigger) and EN = 1 the value is entered in the table Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 522: Function Block Contacts
Current actual value of the function block (e.g. counter value); Space Table Empty Status 1 if the table is empty units Table Full Status 1 if the table is full Zero Status 1, if the value of the element input QV is equal to zero; Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 523: Function Block Inputs (Constants, Operands)
X1, interpolation point 1 Lower value of source range abscissa Interpolation point 2 Upper value of source range abscissa Interpolation point 1 Lower value of target range ordinate Interpolation point 2 Upper value of target range ordinate Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 524: Function Block Output (Operands)
These kinds of empty rungs take up just as much space as a written rung. Space requirement per rung/ Space requirement per function block constant at function block input Byte Byte Rung – Function Blocks Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 525 11 Appendix 11.5 Memory requirement Space requirement per rung/ Space requirement per function block constant at function block input Byte Byte 4 (per channel) 4 (per channel) MX MFD-CP10... Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 526: Basic And Extended Western European Character Set
↔ U+0039 U+0059 U+0079 U+2195 U+003A U+005A U+007A U+2264 ≤ U+003B U+005B U+007B U+2265 ≥ U+003C < U+005C U+007C U+2588 U+003D U+005D U+007D U+25A0 ■ U+003E > U+005E U+007E U+25A1 □ ▪ U+003F U+005F U+007F U+25AA Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 527 The Western European basic and expansion character set shown above can be shown on the MFD. As well as the Western European basic character set, you can also display characters (code page) of the Central European and Cyrillic code page (see online help for programming software). Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 528: Central European Expansion Character Set
ú U+0141 Ł U+017C ż U+00DB U+00FB U+0142 ł U+017D Ž U+00DC Ü U+00FC ü U+0143 Ń U+017E ž U+00DD Ý U+00FD ý U+0144 ń U+00DE U+00FE U+0147 Ň U+2013 – U+00DF ß U+00FF U+0148 ň Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 529: Cyrillic Expansion Character Set
U+0459 љ U+041A К U+043A к U+045A њ U+041B Л U+043B л U+045B ћ U+041C М U+043C м U+045C ќ U+041D Н U+043D н U+041E О U+043E о U+045E ў U+041F П U+043F п U+045F џ Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 530 11 Appendix 11.8 Cyrillic expansion character set Manual 11/10 MN05002001Z-EN www.eaton.com...
Page 531: Index
......386 BV, Boolean operation (standard FB) ..228 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 532 ..... . . 519 Assigning, FB input ....193 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 533 ....176 Evaluating rising edges ....176 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 534 ........75 GT, get value from NET (standard FB) ..273 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 535 ......107 Number formats ......156 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 536 ......147 Point-to-point communication ....91 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 537 ......87 Sensor types ......107 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 538 ....65, 66 Time indicator ......398 Handbuch 11/10 MN05002001Z-DE www.eaton.com...
Page 539 ..... . 414 Year time switch, HY (standard FB) ..282 Zoom function, in the power flow display ..105 Handbuch 11/10 MN05002001Z-DE www.eaton.com...

Eaton MFD-Titan Operating Instructions Manual

About this Manual

1 Mfd

2 Installation

3 Commissioning

4 Wiring with MFD

5 Function Blocks

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